; -------------------------------------------------------------------------------- ; @Title: AM62PX On-Chip Peripherals ; @Props: Released ; @Author: CMO ; @Changelog: 2024-03-26 CMO ; @Manufacturer: TI - Texas Instruments ; @Doc: Generated (TRACE32, build: 167909.), based on: AM62P.xml ; @Core: Cortex-A53, Cortex-R5F, Cortex-M4F ; @Chip: AM62PX ; @Copyright: (C) 1989-2024 Lauterbach GmbH, licensed for use with TRACE32(R) only ; -------------------------------------------------------------------------------- ; $Id: peram62px.per 18027 2024-06-24 14:41:21Z cmorgenstern $ AUTOINDENT.ON CENTER TREE ENUMDELIMITER "," base ad:0x0 sif (CORENAME()=="CORTEXM4F") tree.close "Core Registers (Cortex-M4F)" AUTOINDENT.PUSH AUTOINDENT.OFF tree "System Control" sif COMPonent.AVAILABLE("COREDEBUG") base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1)) width 12. group.long 0x08++0x03 line.long 0x00 "ACTLR,Auxiliary Control Register" bitfld.long 0x00 9. " DISFPCA ,Disables lazy stacking of floating point context" "No,Yes" bitfld.long 0x00 8. " DISOOFP ,Disables floating point instructions completing" "No,Yes" bitfld.long 0x00 2. " DISFOLD ,Disables folding of IT instructions" "No,Yes" textline " " bitfld.long 0x00 1. " DISDEFWBUF ,Disables write buffer use during default memory map accesses" "No,Yes" bitfld.long 0x00 0. " DISMCYCINT ,Disables interruption of multi-cycle instructions" "No,Yes" group.long 0x10++0x0B line.long 0x00 "SYST_CSR,SysTick Control and Status Register" rbitfld.long 0x00 16. " COUNTFLAG ,Counter Flag" "Not counted,Counted" bitfld.long 0x00 2. " CLKSOURCE ,SysTick clock source" "External,Core" bitfld.long 0x00 1. " TICKINT ,SysTick Handler" "No SysTick,SysTick" textline " " bitfld.long 0x00 0. " ENABLE ,Counter Enable" "Disabled,Enabled" line.long 0x04 "SYST_RVR,SysTick Reload Value Register" hexmask.long.tbyte 0x04 0.--23. 1. " RELOAD ,The value to load into the SYST_CVR when the counter reaches 0" line.long 0x08 "SYST_CVR,SysTick Current Value Register" rgroup.long 0x1C++0x03 line.long 0x00 "SYST_CALIB,SysTick Calibration Value Register" bitfld.long 0x00 31. " NOREF ,Indicates whether the implementation defined reference clock is implemented" "Implemented,Not implemented" bitfld.long 0x00 30. " SKEW ,Indicates whether the 10ms calibration value is exact" "Exact,Inexact" hexmask.long.tbyte 0x00 0.--23. 1. " TENMS ,Holds a reload value to be used for 10ms (100Hz) timing" rgroup.long 0xD00++0x03 line.long 0x00 "CPUID,CPU ID Base Register" abitfld.long 0x00 24.--31. " IMPLEMENTER ,Implementer code that Arm has assigned" "0x41=Arm Limited" bitfld.long 0x00 20.--23. " VARIANT ,Variant number to distinguish between different product variants or major revisions of the product" "r0,r1,r2,r3,r4,r5,r6,r7,r8,r9,r10,r11,r12,r13,r14,r15" bitfld.long 0x00 16.--19. " ARCHITECTURE ,Indicates the architecture version" "0x0,0x1,0x2,0x3,0x4,0x5,0x6,0x7,0x8,0x9,0xA,0xB,0xC,0xD,0xE,ARMv7-M" newline abitfld.long 0x00 4.--15. " PARTNO ,Indicates part number" "0xC24=Cortex-M4" bitfld.long 0x00 0.--3. " REVISION ,Revision number to distinguish between different patches of the product" "p0,p1,p2,p3,p4,p5,p6,p7,p8,p9,p10,p11,p12,p13,p14,p15" group.long 0xD04++0x23 line.long 0x00 "ICSR,Interrupt Control State Register" bitfld.long 0x00 31. " NMIPENDSET ,Set Pending NMI Bit" "Inactive,Active" bitfld.long 0x00 28. " PENDSVSET ,Set Pending pendSV Bit" "Not pending,Pending" bitfld.long 0x00 27. " PENDSVCLR ,Removes the pending status of the PendSV exception" "No effect,Removed" textline " " bitfld.long 0x00 26. " PENDSTSET ,Set Pending SysTick Bit" "Not pending,Pending" bitfld.long 0x00 25. " PENDSTCLR ,Clear Pending SysTick Bit" "No effect,Removed" bitfld.long 0x00 23. " ISRPREEMPT ,Use Only at Debug Time" "Not active,Active" textline " " bitfld.long 0x00 22. " ISRPENDING ,Indicates whether an external interrupt" "Not pending,Pending" hexmask.long.word 0x00 12.--20. 1. " VECTPENDING ,Pending ISR Number Field" bitfld.long 0x00 11. " RETTOBASE ,Interrupt Exception" "Active,Not active" textline " " hexmask.long.word 0x00 0.--8. 1. " VECTACTIVE ,The exception number of the current executing exception" line.long 0x04 "VTOR,Vector Table Offset Register" hexmask.long 0x04 7.--31. 0x80 " TBLOFF ,Vector table address" line.long 0x08 "AIRCR,Application Interrupt and Reset Control Register" hexmask.long.word 0x08 16.--31. 1. " VECTKEY ,Register Key" rbitfld.long 0x08 15. " ENDIANESS ,Data endianness Bit" "Little,Big" bitfld.long 0x08 8.--10. " PRIGROUP ,Interrupt Priority Grouping Field" "[7:1]/[0],[7:2]/[1:0],[7:3]/[2:0],[7:4]/[3:0],[7:5]/[4:0],[7:6]/[5:0],[7]/[6:0],-/[7:0]" textline " " bitfld.long 0x08 2. " SYSRESETREQ ,System Reset Request" "Not requested,Requested" bitfld.long 0x08 1. " VECTCLRACTIVE ,Clear Active Vector Bit" "No effect,Clear" bitfld.long 0x08 0. " VECTRESET ,System Reset" "No effect,Reset" line.long 0x0C "SCR,System Control Register" bitfld.long 0x0C 4. " SEVONPEND ,Determines whether an interrupt transition from inactive state to pending state is a wakeup event" "Not wakeup,Wakeup" bitfld.long 0x0C 2. " SLEEPDEEP ,Provides a qualifying hint indicating that waking from sleep might take longer" "Not deep sleep,Deep sleep" bitfld.long 0x0C 1. " SLEEPONEXIT ,Determines whether, on an exit from an ISR that returns to the base level of execution priority, the processor enters a sleep state" "Disabled,Enabled" line.long 0x10 "CCR,Configuration Control Register" bitfld.long 0x10 18. " BP ,Branch prediction enable bit" "Disabled,Enabled" bitfld.long 0x10 17. " IC ,Instruction cache enable bit" "Disabled,Enabled" bitfld.long 0x10 16. " DC ,Cache enable bit" "Disabled,Enabled" textline " " bitfld.long 0x10 9. " STKALIGN ,8-byte Stack Frame Alignment" "4-byte/no adjustment,8-byte/adjustment" bitfld.long 0x10 8. " BFHFNMIGN ,Enable NMI and Hard Fault and FAULTMASK to Ignore Bus Fault" "Disabled,Enabled" bitfld.long 0x10 4. " DIV_0_TRP ,Trap Divide by Zero" "Disabled,Enabled" textline " " bitfld.long 0x10 3. " UNALIGN_TRP ,Trap for Unaligned Access" "Disabled,Enabled" bitfld.long 0x10 1. " USERSETMPEND ,Controls whether unprivileged software can access the STIR" "Denied,Allowed" bitfld.long 0x10 0. " NONEBASETHRDENA ,Control Entry to Thread Mode" "Only from last exception,Any level" line.long 0x14 "SHPR1,SSystem Handler Priority Register 1" hexmask.long.byte 0x14 24.--31. 1. " PRI_7 ,Priority of System Handler 7" hexmask.long.byte 0x14 16.--23. 1. " PRI_6 ,Priority of system handler 6(UsageFault)" hexmask.long.byte 0x14 8.--15. 1. " PRI_5 ,Priority of system handler 5(BusFault)" textline " " hexmask.long.byte 0x14 0.--7. 1. " PRI_4 ,Priority of system handler 4(MemManage)" line.long 0x18 "SHPR2,System Handler Priority Register 2" hexmask.long.byte 0x18 24.--31. 1. " PRI_11 ,Priority of system handler 11(SVCall)" hexmask.long.byte 0x18 16.--23. 1. " PRI_10 ,Priority of System Handler 10" hexmask.long.byte 0x18 8.--15. 1. " PRI_9 ,Priority of System Handler 9" textline " " hexmask.long.byte 0x18 0.--7. 1. " PRI_8 ,Priority of System Handler 8" line.long 0x1C "SHPR3,System Handler Priority Register 3" hexmask.long.byte 0x1C 24.--31. 1. " PRI_15 ,Priority of System Handler 15(SysTick)" hexmask.long.byte 0x1C 16.--23. 1. " PRI_14 ,Priority of System Handler 14(PendSV)" hexmask.long.byte 0x1C 8.--15. 1. " PRI_13 ,Priority of System Handler 13" textline " " hexmask.long.byte 0x1C 0.--7. 1. " PRI_12 ,Priority of System Handler 12(DebugMonitor)" line.long 0x20 "SHCSR,System Handler Control and State Register" bitfld.long 0x20 18. " USGFAULTENA ,Enable UsageFault" "Disabled,Enabled" bitfld.long 0x20 17. " BUSFAULTENA ,Enable BusFault" "Disabled,Enabled" bitfld.long 0x20 16. " MEMFAULTENA ,Enable MemManage fault" "Disabled,Enabled" textline " " bitfld.long 0x20 15. " SVCALLPENDED ,SVCall is pending" "Not pending,Pending" bitfld.long 0x20 14. " BUSFAULTPENDED ,BusFault is pending" "Not pending,Pending" bitfld.long 0x20 13. " MEMFAULTPENDED ,MemManage is pending" "Not pending,Pending" textline " " bitfld.long 0x20 12. " USGFAULTPENDED ,UsageFault is pending" "Not pending,Pending" bitfld.long 0x20 11. " SYSTICKACT ,SysTick is Active" "Not active,Active" bitfld.long 0x20 10. " PENDSVACT ,PendSV is Active" "Not active,Active" textline " " bitfld.long 0x20 8. " MONITORACT ,Monitor is Active" "Not active,Active" bitfld.long 0x20 7. " SVCALLACT ,SVCall is Active" "Not active,Active" bitfld.long 0x20 3. " USGFAULTACT ,UsageFault is Active" "Not active,Active" textline " " bitfld.long 0x20 1. " BUSFAULTACT ,BusFault is Active" "Not active,Active" bitfld.long 0x20 0. " MEMFAULTACT ,MemManage is Active" "Not active,Active" group.byte 0xD28++0x1 line.byte 0x00 "MMFSR,MemManage Status Register" bitfld.byte 0x00 7. " MMARVALID ,Address Valid Flag" "Not valid,Valid" bitfld.byte 0x00 5. " MLSPERR ,A MemManage fault occurred during FP lazy state preservation" "Not occurred,Occurred" bitfld.byte 0x00 4. " MSTKERR ,tacking Access Violations" "Not occurred,Occurred" textline " " bitfld.byte 0x00 3. " MUNSTKERR ,Unstack Access Violations" "Not occurred,Occurred" bitfld.byte 0x00 1. " DACCVIOL ,Data Access Violation" "Not occurred,Occurred" bitfld.byte 0x00 0. " IACCVIOL ,Instruction Access Violation" "Not occurred,Occurred" line.byte 0x01 "BFSR,Bus Fault Status Register" bitfld.byte 0x01 7. " BFARVALID ,Address Valid Flag" "Not valid,Valid" bitfld.byte 0x01 5. " LSPERR ,A bus fault occurred during FP lazy state preservation" "Not occurred,Occurred" bitfld.byte 0x01 4. " STKERR ,Derived bus fault(exception entry)" "Not occurred,Occurred" textline " " bitfld.byte 0x01 3. " UNSTKERR ,Derived bus fault(exception return)" "Not occurred,Occurred" bitfld.byte 0x01 2. " IMPRECISERR ,Imprecise data access error" "Not occurred,Occurred" bitfld.byte 0x01 1. " PRECISERR ,Precise data access error" "Not occurred,Occurred" textline " " bitfld.byte 0x01 0. " IBUSERR ,Bus fault on an instruction prefetch" "Not occurred,Occurred" group.word 0xD2A++0x1 line.word 0x00 "USAFAULT,Usage Fault Status Register" bitfld.word 0x00 9. " DIVBYZERO ,Divide by zero error" "No error,Error" bitfld.word 0x00 8. " UNALIGNED ,Unaligned access error" "No error,Error" bitfld.word 0x00 3. " NOCP ,A coprocessor access error" "No error,Error" textline " " bitfld.word 0x00 2. " INVPC ,An integrity check error" "No error,Error" bitfld.word 0x00 1. " INVSTATE ,Invalid Combination of EPSR and Instruction" "No error,Error" bitfld.word 0x00 0. " UNDEFINSTR ,Undefined instruction error" "No error,Error" group.long 0xD2C++0x07 line.long 0x00 "HFSR,Hard Fault Status Register" bitfld.long 0x00 31. " DEBUGEVT ,Indicates when a Debug event has occurred" "Not occurred,Occurred" bitfld.long 0x00 30. " FORCED ,Indicates that a fault with configurable priority" "Not occurred,Occurred" bitfld.long 0x00 1. " VECTTBL ,Indicates when a fault has occurred because of a vector table read error on exception processing" "Not occurred,Occurred" line.long 0x04 "DFSR,Debug Fault Status Register" bitfld.long 0x04 4. " EXTERNAL ,Indicates a debug event generated because of the assertion of EDBGRQ" "Not asserted,Asserted" bitfld.long 0x04 3. " VCATCH ,Vector Catch Flag" "Not occurred,Occurred" bitfld.long 0x04 2. " DWTTRAP ,Indicates a debug event generated by the DWT" "Not occurred,Occurred" textline " " bitfld.long 0x04 1. " BKPT ,BKPT Flag" "Not executed,Executed" bitfld.long 0x04 0. " HALTED ,Indicates a debug event generated by either" "Not requested,Requested" group.long 0xD34++0x0B line.long 0x00 "MMFAR,MemManage Fault Address Register" line.long 0x04 "BFAR,BusFault Address Register" line.long 0x08 "AFSR,Auxiliary Fault Status Register" group.long 0xD88++0x03 line.long 0x00 "CPACR,Coprocessor Access Control Register" bitfld.long 0x00 22.--23. " CP11 ,Access privileges for coprocessor 11" "Access denied,Privileged only,Reserved,Full access" bitfld.long 0x00 20.--21. " CP10 ,Access privileges for coprocessor 10" "Access denied,Privileged only,Reserved,Full access" bitfld.long 0x00 14.--15. " CP7 ,Access privileges for coprocessor 7" "Access denied,Privileged only,Reserved,Full access" textline " " bitfld.long 0x00 12.--13. " CP6 ,Access privileges for coprocessor 6" "Access denied,Privileged only,Reserved,Full access" bitfld.long 0x00 10.--11. " CP5 ,Access privileges for coprocessor 5" "Access denied,Privileged only,Reserved,Full access" bitfld.long 0x00 8.--9. " CP4 ,Access privileges for coprocessor 4" "Access denied,Privileged only,Reserved,Full access" textline " " bitfld.long 0x00 6.--7. " CP3 ,Access privileges for coprocessor 3" "Access denied,Privileged only,Reserved,Full access" bitfld.long 0x00 4.--5. " CP2 ,Access privileges for coprocessor 2" "Access denied,Privileged only,Reserved,Full access" bitfld.long 0x00 2.--3. " CP1 ,Access privileges for coprocessor 1" "Access denied,Privileged only,Reserved,Full access" textline " " bitfld.long 0x00 0.--1. " CP0 ,Access privileges for coprocessor 0" "Access denied,Privileged only,Reserved,Full access" wgroup.long 0xF00++0x03 line.long 0x00 "STIR,Software Trigger Interrupt Register" hexmask.long.word 0x00 0.--8. 1. " INTID ,Indicates the interrupt to be triggered" width 10. tree "Feature Registers" rgroup.long 0xD40++0x0B line.long 0x00 "ID_PFR0,Processor Feature Register 0" bitfld.long 0x00 4.--7. " STATE1 ,Thumb instruction set support" ",,,Supported,?..." bitfld.long 0x00 0.--3. " STATE0 ,ARM instruction set support" "Not supported,?..." line.long 0x04 "ID_PFR1,Processor Feature Register 1" bitfld.long 0x04 8.--11. " MPROF ,M profile programmers' model" ",,2-stack,?..." line.long 0x08 "ID_DFR0,Debug Feature Register 0" bitfld.long 0x08 20.--23. " DBGMOD ,Support for memory-mapped debug model for M profile processors" "Not supported,Supported,?..." hgroup.long 0xD4C++0x03 hide.long 0x00 "ID_AFR0,Auxiliary Feature Register 0" rgroup.long 0xD50++0x03 line.long 0x00 "ID_MMFR0,Memory Model Feature Register 0" bitfld.long 0x00 20.--23. " AUXREG ,Indicates the support for Auxiliary registers" "Not supported,ACTLR only,?..." bitfld.long 0x00 16.--19. " TCMSUP ,Indicates the support for Tightly Coupled Memory (TCM)" "Not supported,Supported,?..." bitfld.long 0x00 12.--15. " SHRLEV ,Indicates the number of shareability levels implemented" "Level 1,?..." textline " " bitfld.long 0x00 8.--11. " OUTMSHR ,Indicates the outermost shareability domain implemented" "Non-cacheable,,,,,,,,,,,,,,,Ignored" bitfld.long 0x00 4.--7. " PMSASUP ,Indicates support for a PMSA" "Not supported,,,PMSAv7,?..." hgroup.long 0xD54++0x03 hide.long 0x00 "ID_MMFR1,Memory Model Feature Register 1" rgroup.long 0xD58++0x03 line.long 0x00 "ID_MMFR2,Memory Model Feature Register 2" bitfld.long 0x00 24.--27. " WFISTALL ,Indicates the support for Wait For Interrupt (WFI) stalling" "Not supported,Supported,?..." rgroup.long 0xD60++0x13 line.long 0x00 "ID_ISAR0,Instruction Set Attributes Register 0" bitfld.long 0x00 24.--27. " DIVIDE ,Indicates the supported divide instructions" "Not supported,SDIV/UDIV,?..." bitfld.long 0x00 20.--23. " DEBUG ,Indicates the supported debug instructions" "Not supported,BKPT,?..." bitfld.long 0x00 16.--19. " COPROC ,Indicates the supported coprocessor instructions" "Not supported,CDP/LDC/MCR/STC,CDP2/LDC2/MCR2/STC2,MCRR/MRRC,MCRR2/MRRC2,?..." textline " " bitfld.long 0x00 12.--15. " CMPBRANCH ,Indicates the supported combined compare and branch instructions" "Not supported,CBNZ/CBZ,?..." bitfld.long 0x00 8.--11. " BITFIELD ,Indicates the supported bitfield instructions" "Not supported,BFC/BFI/SBFX/UBFX,?..." bitfld.long 0x00 4.--7. " BITCOUNT ,Indicates the supported bit counting instructions" "Not supported,CLZ,?..." line.long 0x04 "ID_ISAR1,Instruction Set Attributes Register 1" bitfld.long 0x04 24.--27. " INTERWORK ,Indicates the supported Interworking instructions" "Not supported,BX,BX/BLX,?..." bitfld.long 0x04 20.--23. " IMMEDIATE ,Indicates the support for data-processing instructions with long immediates" "Not supported,ADDW/MOVW/MOVT/SUBW,?..." bitfld.long 0x04 16.--19. " IFTHEN ,Indicates the supported IfThen instructions" "Not supported,IT,?..." textline " " bitfld.long 0x04 12.--15. " EXTEND ,Indicates the supported Extend instructions" "Not supported,Supported,Supported,?..." line.long 0x08 "ID_ISAR2,Instruction Set Attributes Register 2" bitfld.long 0x08 24.--27. " REVERSAL ,Indicates the supported reversal instructions" "Not supported,REV/REV16/REVSH,REV/REV16/REVSH/RBIT,?..." bitfld.long 0x08 20.--23. " MULTU ,Indicates the supported advanced unsigned multiply instructions" "Not supported,UMULL/UMLAL,UMULL/UMLAL/UMAAL,?..." bitfld.long 0x08 16.--19. " MULTS ,Indicates the supported advanced signed multiply instructions" "Not supported,Supported,Supported,Supported,?..." textline " " bitfld.long 0x08 12.--15. " MULT ,Indicates the supported additional multiply instructions" "Not supported,MLA,MLA/MLS,?..." bitfld.long 0x08 8.--11. " MULTIACCESSINT ,Indicates the support for multi-access interruptible instructions" "Not supported,LDM/STM restartable,LDM/STM continuable,?..." bitfld.long 0x08 4.--7. " MEMHINT ,Indicates the supported memory hint instructions" "Not supported,,,PLD/PLI,?..." textline " " bitfld.long 0x08 0.--3. " LOADSTORE ,Indicates the supported additional load and store instructions" "Not supported,LDRD/STRD,?..." line.long 0x0C "ID_ISAR3,Instruction Set Attributes Register 3" bitfld.long 0x0C 24.--27. " TRUENOP ,Indicates the support for a true NOP instruction" "Not supported,Supported,?..." bitfld.long 0x0C 20.--23. " THUMBCOPY ,Indicates the supported non flag-setting MOV instructions" "Not supported,Supported,?..." bitfld.long 0x0C 16.--19. " TABBRANCH ,Indicates the supported Table Branch instructions" "Not supported,TBB/TBH,?..." textline " " bitfld.long 0x0C 12.--15. " SYNCHPRIM ,Indicates the supported Table Branch instructions" "Not supported,Supported,Supported,Supported,?..." bitfld.long 0x0C 8.--11. " SVC ,Indicates the supported SVC instructions" "Not supported,SVC,?..." bitfld.long 0x0C 4.--7. " SIMD ,Indicates the supported SIMD instructions" "Not supported,Supported,,Supported,?..." textline " " bitfld.long 0x0C 0.--3. " SATURATE ,Indicates the supported Saturate instructions" "Not supported,QADD/QDADD/QDSUB/QSUB,?..." line.long 0x10 "ID_ISAR4,Instruction Set Attributes Register 4" bitfld.long 0x10 24.--27. " PSR_M ,Indicates the supported M profile instructions to modify the PSRs" "Not supported,Supported,?..." bitfld.long 0x10 20.--23. " SYNCHPRIMFRAC ,Indicates the supported M profile instructions to modify the PSRs" "Not supported,Supported,Supported,Supported,?..." bitfld.long 0x10 16.--19. " BARRIER ,Indicates the supported Barrier instructions" "Not supported,DMB/DSB/ISB,?..." textline " " bitfld.long 0x10 8.--11. " WRITEBACK ,Indicates the support for writeback addressing modes" "Basic support,Full support,?..." bitfld.long 0x10 4.--7. " WITHSHIFTS ,Indicates the support for instructions with shifts" "MOV/shift,Shift LSL 0-3,,Shift other,?..." bitfld.long 0x10 0.--3. " UNPRIV ,Indicates the supported unprivileged instructions" "Not supported,LDRBT/LDRT/STRBT/STRT,LDRBT/LDRT/STRBT/STRT/LDRHT/LDRSBT/LDRSHTSTRHT,?..." tree.end width 6. tree "CoreSight Identification Registers" rgroup.long 0xFE0++0x0F line.long 0x00 "PID0,Peripheral ID0" hexmask.long.byte 0x00 0.--7. 1. " Part_Num[7:0] ,Part Number bits[7:0]" line.long 0x04 "PID1,Peripheral ID1" hexmask.long.byte 0x04 4.--7. 1. " JEP106ID[3:0] ,JEP106 ID code bits[3:0]" hexmask.long.byte 0x04 0.--3. 1. " Part_Num[11:8] ,Part Number bits[11:8]" line.long 0x08 "PID2,Peripheral ID2" hexmask.long.byte 0x08 4.--7. 1. " Revision ,Revision" bitfld.long 0x08 3. " JEDEC ,JEDEC assigned ID fields" "0,JEDEC" hexmask.long.byte 0x08 0.--2. 1. " JEP106ID[6:4] ,JEP106 ID code bits[6:4]" line.long 0x0C "PID3,Peripheral ID3" hexmask.long.byte 0x0C 4.--7. 1. " RevAnd ,Minor revision field" hexmask.long.byte 0x0C 0.--3. 1. " CMB ,Customer-modified block" rgroup.long 0xFD0++0x03 line.long 0x00 "PID4,Peripheral Identification Register 4" hexmask.long.byte 0x00 4.--7. 1. " Count ,4KB count" hexmask.long.byte 0x00 0.--3. 1. " JEP106_CC ,JEP106 continuation code" rgroup.long 0xFF0++0x0F line.long 0x00 "CID0,Component ID0 (Preamble)" line.long 0x04 "CID1,Component ID1" hexmask.long.byte 0x04 4.--7. 1. " CC ,Component Class" hexmask.long.byte 0x04 0.--3. 1. " Preamble ,Preamble" line.long 0x08 "CID2,Component ID2" line.long 0x0C "CID3,Component ID3" tree.end width 0x0B else newline textline "COREDEBUG component base address not specified" newline endif tree.end tree "Memory Protection Unit" sif COMPonent.AVAILABLE("COREDEBUG") base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1)) width 15. rgroup.long 0xD90++0x03 line.long 0x00 "MPU_TYPE,MPU Type Register" bitfld.long 0x00 16.--23. " IREGION ,Instruction region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,?..." bitfld.long 0x00 8.--15. " DREGION ,Number of regions supported by the MPU" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,?..." bitfld.long 0x00 0. " SEPARATE ,Indicates support for separate instruction and data address maps" "Not supported,Supported" group.long 0xD94++0x03 line.long 0x00 "MPU_CTRL,MPU Control Register" bitfld.long 0x00 2. " PRIVDEFENA ,Enables the default memory map as a background region for privileged access" "Disabled,Enabled" bitfld.long 0x00 1. " HFNMIENA ,Handlers executing with priority less than 0 access memory with the MPU enabled or with the MPU disabled" "MPU disabled,MPU enabled" bitfld.long 0x00 0. " ENABLE ,Enables the MPU" "Disabled,Enabled" group.long 0xD98++0x03 line.long 0x00 "MPU_RNR,MPU Region Number Register" hexmask.long.byte 0x00 0.--7. 1. " REGION ,Indicates the memory region accessed by MPU_RBAR and MPU_RASR" tree.close "MPU regions" if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x0 group.long 0xD9C++0x03 "Region 0" saveout 0xD98 %l 0x0 line.long 0x00 "MPU_RBAR0,MPU Region Base Address Register 0" hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region" group.long 0xDA0++0x03 saveout 0xD98 %l 0x0 line.long 0x00 "MPU_RASR0,MPU Region Attribute and Size Register 0" bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute" bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-" bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable" bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable" bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable" textline " " bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1" bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1" bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1" bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1" bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1" bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1" bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1" bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1" bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB" bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled" else hgroup.long 0xD9C++0x03 "Region 0 (not implemented)" saveout 0xD98 %l 0x0 hide.long 0x00 "MPU_RBAR0,MPU Region Base Address Register 0" hgroup.long 0xDA0++0x03 saveout 0xD98 %l 0x0 hide.long 0x00 "MPU_RASR0,MPU Region Attribute and Size Register 0" textline " " textline " " endif if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x1 group.long 0xD9C++0x03 "Region 1" saveout 0xD98 %l 0x1 line.long 0x00 "MPU_RBAR1,MPU Region Base Address Register 1" hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region" group.long 0xDA0++0x03 saveout 0xD98 %l 0x1 line.long 0x00 "MPU_RASR1,MPU Region Attribute and Size Register 1" bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute" bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-" bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable" bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable" bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable" textline " " bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1" bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1" bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1" bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1" bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1" bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1" bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1" bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1" bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB" bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled" else hgroup.long 0xD9C++0x03 "Region 1 (not implemented)" saveout 0xD98 %l 0x1 hide.long 0x00 "MPU_RBAR1,MPU Region Base Address Register 1" hgroup.long 0xDA0++0x03 saveout 0xD98 %l 0x1 hide.long 0x00 "MPU_RASR1,MPU Region Attribute and Size Register 1" textline " " textline " " endif if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x2 group.long 0xD9C++0x03 "Region 2" saveout 0xD98 %l 0x2 line.long 0x00 "MPU_RBAR2,MPU Region Base Address Register 2" hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region" group.long 0xDA0++0x03 saveout 0xD98 %l 0x2 line.long 0x00 "MPU_RASR2,MPU Region Attribute and Size Register 2" bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute" bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-" bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable" bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable" bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable" textline " " bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1" bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1" bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1" bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1" bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1" bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1" bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1" bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1" bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB" bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled" else hgroup.long 0xD9C++0x03 "Region 2 (not implemented)" saveout 0xD98 %l 0x2 hide.long 0x00 "MPU_RBAR2,MPU Region Base Address Register 2" hgroup.long 0xDA0++0x03 saveout 0xD98 %l 0x2 hide.long 0x00 "MPU_RASR2,MPU Region Attribute and Size Register 2" textline " " textline " " endif if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x3 group.long 0xD9C++0x03 "Region 3" saveout 0xD98 %l 0x3 line.long 0x00 "MPU_RBAR3,MPU Region Base Address Register 3" hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region" group.long 0xDA0++0x03 saveout 0xD98 %l 0x3 line.long 0x00 "MPU_RASR3,MPU Region Attribute and Size Register 3" bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute" bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-" bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable" bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable" bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable" textline " " bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1" bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1" bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1" bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1" bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1" bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1" bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1" bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1" bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB" bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled" else hgroup.long 0xD9C++0x03 "Region 3 (not implemented)" saveout 0xD98 %l 0x3 hide.long 0x00 "MPU_RBAR3,MPU Region Base Address Register 3" hgroup.long 0xDA0++0x03 saveout 0xD98 %l 0x3 hide.long 0x00 "MPU_RASR3,MPU Region Attribute and Size Register 3" textline " " textline " " endif if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x4 group.long 0xD9C++0x03 "Region 4" saveout 0xD98 %l 0x4 line.long 0x00 "MPU_RBAR4,MPU Region Base Address Register 4" hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region" group.long 0xDA0++0x03 saveout 0xD98 %l 0x4 line.long 0x00 "MPU_RASR4,MPU Region Attribute and Size Register 4" bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute" bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-" bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable" bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable" bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable" textline " " bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1" bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1" bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1" bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1" bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1" bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1" bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1" bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1" bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB" bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled" else hgroup.long 0xD9C++0x03 "Region 4 (not implemented)" saveout 0xD98 %l 0x4 hide.long 0x00 "MPU_RBAR4,MPU Region Base Address Register 4" hgroup.long 0xDA0++0x03 saveout 0xD98 %l 0x4 hide.long 0x00 "MPU_RASR4,MPU Region Attribute and Size Register 4" textline " " textline " " endif if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x5 group.long 0xD9C++0x03 "Region 5" saveout 0xD98 %l 0x5 line.long 0x00 "MPU_RBAR5,MPU Region Base Address Register 5" hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region" group.long 0xDA0++0x03 saveout 0xD98 %l 0x5 line.long 0x00 "MPU_RASR5,MPU Region Attribute and Size Register 5" bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute" bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-" bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable" bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable" bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable" textline " " bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1" bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1" bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1" bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1" bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1" bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1" bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1" bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1" bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB" bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled" else hgroup.long 0xD9C++0x03 "Region 5 (not implemented)" saveout 0xD98 %l 0x5 hide.long 0x00 "MPU_RBAR5,MPU Region Base Address Register 5" hgroup.long 0xDA0++0x03 saveout 0xD98 %l 0x5 hide.long 0x00 "MPU_RASR5,MPU Region Attribute and Size Register 5" textline " " textline " " endif if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x6 group.long 0xD9C++0x03 "Region 6" saveout 0xD98 %l 0x6 line.long 0x00 "MPU_RBAR6,MPU Region Base Address Register 6" hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region" group.long 0xDA0++0x03 saveout 0xD98 %l 0x6 line.long 0x00 "MPU_RASR6,MPU Region Attribute and Size Register 6" bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute" bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-" bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable" bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable" bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable" textline " " bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1" bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1" bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1" bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1" bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1" bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1" bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1" bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1" bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB" bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled" else hgroup.long 0xD9C++0x03 "Region 6 (not implemented)" saveout 0xD98 %l 0x6 hide.long 0x00 "MPU_RBAR6,MPU Region Base Address Register 6" hgroup.long 0xDA0++0x03 saveout 0xD98 %l 0x6 hide.long 0x00 "MPU_RASR6,MPU Region Attribute and Size Register 6" textline " " textline " " endif if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x7 group.long 0xD9C++0x03 "Region 7" saveout 0xD98 %l 0x7 line.long 0x00 "MPU_RBAR7,MPU Region Base Address Register 7" hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region" group.long 0xDA0++0x03 saveout 0xD98 %l 0x7 line.long 0x00 "MPU_RASR7,MPU Region Attribute and Size Register 7" bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute" bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-" bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable" bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable" bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable" textline " " bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1" bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1" bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1" bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1" bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1" bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1" bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1" bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1" bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB" bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled" else hgroup.long 0xD9C++0x03 "Region 7 (not implemented)" saveout 0xD98 %l 0x7 hide.long 0x00 "MPU_RBAR7,MPU Region Base Address Register 7" hgroup.long 0xDA0++0x03 saveout 0xD98 %l 0x7 hide.long 0x00 "MPU_RASR7,MPU Region Attribute and Size Register 7" textline " " textline " " endif if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x8 group.long 0xD9C++0x03 "Region 8" saveout 0xD98 %l 0x8 line.long 0x00 "MPU_RBAR8,MPU Region Base Address Register 8" hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region" group.long 0xDA0++0x03 saveout 0xD98 %l 0x8 line.long 0x00 "MPU_RASR8,MPU Region Attribute and Size Register 8" bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute" bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-" bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable" bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable" bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable" textline " " bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1" bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1" bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1" bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1" bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1" bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1" bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1" bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1" bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB" bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled" else hgroup.long 0xD9C++0x03 "Region 8 (not implemented)" saveout 0xD98 %l 0x8 hide.long 0x00 "MPU_RBAR8,MPU Region Base Address Register 8" hgroup.long 0xDA0++0x03 saveout 0xD98 %l 0x8 hide.long 0x00 "MPU_RASR8,MPU Region Attribute and Size Register 8" textline " " textline " " endif if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x9 group.long 0xD9C++0x03 "Region 9" saveout 0xD98 %l 0x9 line.long 0x00 "MPU_RBAR9,MPU Region Base Address Register 9" hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region" group.long 0xDA0++0x03 saveout 0xD98 %l 0x9 line.long 0x00 "MPU_RASR9,MPU Region Attribute and Size Register 9" bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute" bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-" bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable" bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable" bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable" textline " " bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1" bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1" bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1" bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1" bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1" bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1" bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1" bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1" bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB" bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled" else hgroup.long 0xD9C++0x03 "Region 9 (not implemented)" saveout 0xD98 %l 0x9 hide.long 0x00 "MPU_RBAR9,MPU Region Base Address Register 9" hgroup.long 0xDA0++0x03 saveout 0xD98 %l 0x9 hide.long 0x00 "MPU_RASR9,MPU Region Attribute and Size Register 9" textline " " textline " " endif if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0xA group.long 0xD9C++0x03 "Region 10" saveout 0xD98 %l 0xA line.long 0x00 "MPU_RBAR10,MPU Region Base Address Register 10" hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region" group.long 0xDA0++0x03 saveout 0xD98 %l 0xA line.long 0x00 "MPU_RASR10,MPU Region Attribute and Size Register 10" bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute" bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-" bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable" bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable" bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable" textline " " bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1" bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1" bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1" bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1" bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1" bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1" bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1" bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1" bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB" bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled" else hgroup.long 0xD9C++0x03 "Region 10 (not implemented)" saveout 0xD98 %l 0xA hide.long 0x00 "MPU_RBAR10,MPU Region Base Address Register 10" hgroup.long 0xDA0++0x03 saveout 0xD98 %l 0xA hide.long 0x00 "MPU_RASR10,MPU Region Attribute and Size Register 10" textline " " textline " " endif if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0xB group.long 0xD9C++0x03 "Region 11" saveout 0xD98 %l 0xB line.long 0x00 "MPU_RBAR11,MPU Region Base Address Register 11" hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region" group.long 0xDA0++0x03 saveout 0xD98 %l 0xB line.long 0x00 "MPU_RASR11,MPU Region Attribute and Size Register 11" bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute" bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-" bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable" bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable" bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable" textline " " bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1" bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1" bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1" bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1" bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1" bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1" bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1" bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1" bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB" bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled" else hgroup.long 0xD9C++0x03 "Region 11 (not implemented)" saveout 0xD98 %l 0xB hide.long 0x00 "MPU_RBAR11,MPU Region Base Address Register 11" hgroup.long 0xDA0++0x03 saveout 0xD98 %l 0xB hide.long 0x00 "MPU_RASR11,MPU Region Attribute and Size Register 11" textline " " textline " " endif if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0xC group.long 0xD9C++0x03 "Region 12" saveout 0xD98 %l 0xC line.long 0x00 "MPU_RBAR12,MPU Region Base Address Register 12" hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region" group.long 0xDA0++0x03 saveout 0xD98 %l 0xC line.long 0x00 "MPU_RASR12,MPU Region Attribute and Size Register 12" bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute" bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-" bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable" bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable" bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable" textline " " bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1" bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1" bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1" bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1" bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1" bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1" bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1" bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1" bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB" bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled" else hgroup.long 0xD9C++0x03 "Region 12 (not implemented)" saveout 0xD98 %l 0xC hide.long 0x00 "MPU_RBAR12,MPU Region Base Address Register 12" hgroup.long 0xDA0++0x03 saveout 0xD98 %l 0xC hide.long 0x00 "MPU_RASR12,MPU Region Attribute and Size Register 12" textline " " textline " " endif if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0xD group.long 0xD9C++0x03 "Region 13" saveout 0xD98 %l 0xD line.long 0x00 "MPU_RBAR13,MPU Region Base Address Register 13" hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region" group.long 0xDA0++0x03 saveout 0xD98 %l 0xD line.long 0x00 "MPU_RASR13,MPU Region Attribute and Size Register 13" bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute" bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-" bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable" bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable" bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable" textline " " bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1" bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1" bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1" bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1" bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1" bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1" bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1" bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1" bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB" bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled" else hgroup.long 0xD9C++0x03 "Region 13 (not implemented)" saveout 0xD98 %l 0xD hide.long 0x00 "MPU_RBAR13,MPU Region Base Address Register 13" hgroup.long 0xDA0++0x03 saveout 0xD98 %l 0xD hide.long 0x00 "MPU_RASR13,MPU Region Attribute and Size Register 13" textline " " textline " " endif if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0xE group.long 0xD9C++0x03 "Region 14" saveout 0xD98 %l 0xE line.long 0x00 "MPU_RBAR14,MPU Region Base Address Register 14" hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region" group.long 0xDA0++0x03 saveout 0xD98 %l 0xE line.long 0x00 "MPU_RASR14,MPU Region Attribute and Size Register 14" bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute" bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-" bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable" bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable" bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable" textline " " bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1" bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1" bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1" bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1" bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1" bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1" bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1" bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1" bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB" bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled" else hgroup.long 0xD9C++0x03 "Region 14 (not implemented)" saveout 0xD98 %l 0xE hide.long 0x00 "MPU_RBAR14,MPU Region Base Address Register 14" hgroup.long 0xDA0++0x03 saveout 0xD98 %l 0xE hide.long 0x00 "MPU_RASR14,MPU Region Attribute and Size Register 14" textline " " textline " " endif if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0xF group.long 0xD9C++0x03 "Region 15" saveout 0xD98 %l 0xF line.long 0x00 "MPU_RBAR15,MPU Region Base Address Register 15" hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region" group.long 0xDA0++0x03 saveout 0xD98 %l 0xF line.long 0x00 "MPU_RASR15,MPU Region Attribute and Size Register 15" bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute" bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-" bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable" bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable" bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable" textline " " bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1" bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1" bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1" bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1" bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1" bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1" bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1" bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1" bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB" bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled" else hgroup.long 0xD9C++0x03 "Region 15 (not implemented)" saveout 0xD98 %l 0xF hide.long 0x00 "MPU_RBAR15,MPU Region Base Address Register 15" hgroup.long 0xDA0++0x03 saveout 0xD98 %l 0xF hide.long 0x00 "MPU_RASR15,MPU Region Attribute and Size Register 15" textline " " textline " " endif tree.end width 0x0b else newline textline "COREDEBUG component base address not specified" newline endif tree.end tree "Nested Vectored Interrupt Controller" sif COMPonent.AVAILABLE("COREDEBUG") base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1)) width 6. rgroup.long 0x04++0x03 line.long 0x00 "ICTR,Interrupt Controller Type Register" bitfld.long 0x00 0.--3. " INTLINESNUM ,Total Number of Interrupt" "0-32,33-64,65-96,97-128,129-160,161-192,193-224,225-240,?..." tree "Interrupt Enable Registers" width 23. if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x00) group.long 0x100++0x03 line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " ENA30 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " ENA29 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 28. 0x00 28. 0x80 28. " ENA28 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " ENA27 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " ENA26 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " ENA24 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " ENA23 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 22. 0x00 22. 0x80 22. " ENA22 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " ENA21 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " ENA20 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " ENA18 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " ENA17 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 16. 0x00 16. 0x80 16. " ENA16 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " ENA15 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " ENA14 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " ENA12 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " ENA11 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 10. 0x00 10. 0x80 10. " ENA10 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " ENA9 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " ENA8 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " ENA6 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " ENA5 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 4. 0x00 4. 0x80 4. " ENA4 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " ENA3 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " ENA2 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " ENA0 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x01) group.long 0x100++0x7 line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " ENA30 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " ENA29 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 28. 0x00 28. 0x80 28. " ENA28 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " ENA27 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " ENA26 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " ENA24 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " ENA23 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 22. 0x00 22. 0x80 22. " ENA22 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " ENA21 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " ENA20 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " ENA18 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " ENA17 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 16. 0x00 16. 0x80 16. " ENA16 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " ENA15 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " ENA14 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " ENA12 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " ENA11 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 10. 0x00 10. 0x80 10. " ENA10 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " ENA9 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " ENA8 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " ENA6 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " ENA5 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 4. 0x00 4. 0x80 4. " ENA4 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " ENA3 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " ENA2 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " ENA0 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 30. 0x04 30. 0x84 30. " ENA62 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 29. 0x04 29. 0x84 29. " ENA61 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 28. 0x04 28. 0x84 28. " ENA60 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 27. 0x04 27. 0x84 27. " ENA59 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 26. 0x04 26. 0x84 26. " ENA58 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 24. 0x04 24. 0x84 24. " ENA56 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 23. 0x04 23. 0x84 23. " ENA55 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 22. 0x04 22. 0x84 22. " ENA54 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 21. 0x04 21. 0x84 21. " ENA53 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 20. 0x04 20. 0x84 20. " ENA52 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 18. 0x04 18. 0x84 18. " ENA50 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 17. 0x04 17. 0x84 17. " ENA49 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 16. 0x04 16. 0x84 16. " ENA48 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 15. 0x04 15. 0x84 15. " ENA47 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 14. 0x04 14. 0x84 14. " ENA46 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 12. 0x04 12. 0x84 12. " ENA44 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 11. 0x04 11. 0x84 11. " ENA43 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 10. 0x04 10. 0x84 10. " ENA42 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 9. 0x04 9. 0x84 9. " ENA41 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 8. 0x04 8. 0x84 8. " ENA40 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 6. 0x04 6. 0x84 6. " ENA38 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 5. 0x04 5. 0x84 5. " ENA37 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 4. 0x04 4. 0x84 4. " ENA36 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 3. 0x04 3. 0x84 3. " ENA35 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 2. 0x04 2. 0x84 2. " ENA34 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 0. 0x04 0. 0x84 0. " ENA32 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x02) group.long 0x100++0x0B line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " ENA30 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " ENA29 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 28. 0x00 28. 0x80 28. " ENA28 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " ENA27 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " ENA26 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " ENA24 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " ENA23 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 22. 0x00 22. 0x80 22. " ENA22 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " ENA21 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " ENA20 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " ENA18 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " ENA17 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 16. 0x00 16. 0x80 16. " ENA16 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " ENA15 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " ENA14 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " ENA12 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " ENA11 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 10. 0x00 10. 0x80 10. " ENA10 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " ENA9 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " ENA8 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " ENA6 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " ENA5 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 4. 0x00 4. 0x80 4. " ENA4 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " ENA3 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " ENA2 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " ENA0 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 30. 0x04 30. 0x84 30. " ENA62 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 29. 0x04 29. 0x84 29. " ENA61 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 28. 0x04 28. 0x84 28. " ENA60 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 27. 0x04 27. 0x84 27. " ENA59 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 26. 0x04 26. 0x84 26. " ENA58 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 24. 0x04 24. 0x84 24. " ENA56 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 23. 0x04 23. 0x84 23. " ENA55 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 22. 0x04 22. 0x84 22. " ENA54 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 21. 0x04 21. 0x84 21. " ENA53 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 20. 0x04 20. 0x84 20. " ENA52 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 18. 0x04 18. 0x84 18. " ENA50 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 17. 0x04 17. 0x84 17. " ENA49 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 16. 0x04 16. 0x84 16. " ENA48 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 15. 0x04 15. 0x84 15. " ENA47 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 14. 0x04 14. 0x84 14. " ENA46 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 12. 0x04 12. 0x84 12. " ENA44 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 11. 0x04 11. 0x84 11. " ENA43 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 10. 0x04 10. 0x84 10. " ENA42 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 9. 0x04 9. 0x84 9. " ENA41 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 8. 0x04 8. 0x84 8. " ENA40 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 6. 0x04 6. 0x84 6. " ENA38 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 5. 0x04 5. 0x84 5. " ENA37 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 4. 0x04 4. 0x84 4. " ENA36 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 3. 0x04 3. 0x84 3. " ENA35 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 2. 0x04 2. 0x84 2. " ENA34 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 0. 0x04 0. 0x84 0. " ENA32 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x08 31. 0x08 31. 0x88 31. " ENA95 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 30. 0x08 30. 0x88 30. " ENA94 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 29. 0x08 29. 0x88 29. " ENA93 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 28. 0x08 28. 0x88 28. " ENA92 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 27. 0x08 27. 0x88 27. " ENA91 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 26. 0x08 26. 0x88 26. " ENA90 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 25. 0x08 25. 0x88 25. " ENA89 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 24. 0x08 24. 0x88 24. " ENA88 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 23. 0x08 23. 0x88 23. " ENA87 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 22. 0x08 22. 0x88 22. " ENA86 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 21. 0x08 21. 0x88 21. " ENA85 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 20. 0x08 20. 0x88 20. " ENA84 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 19. 0x08 19. 0x88 19. " ENA83 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 18. 0x08 18. 0x88 18. " ENA82 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 17. 0x08 17. 0x88 17. " ENA81 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 16. 0x08 16. 0x88 16. " ENA80 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 15. 0x08 15. 0x88 15. " ENA79 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 14. 0x08 14. 0x88 14. " ENA78 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 13. 0x08 13. 0x88 13. " ENA77 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 12. 0x08 12. 0x88 12. " ENA76 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 11. 0x08 11. 0x88 11. " ENA75 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 10. 0x08 10. 0x88 10. " ENA74 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 9. 0x08 9. 0x88 9. " ENA73 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 8. 0x08 8. 0x88 8. " ENA72 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 7. 0x08 7. 0x88 7. " ENA71 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 6. 0x08 6. 0x88 6. " ENA70 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 5. 0x08 5. 0x88 5. " ENA69 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 4. 0x08 4. 0x88 4. " ENA68 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 3. 0x08 3. 0x88 3. " ENA67 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 2. 0x08 2. 0x88 2. " ENA66 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 1. 0x08 1. 0x88 1. " ENA65 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 0. 0x08 0. 0x88 0. " ENA64 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x03) group.long 0x100++0x0F line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " ENA30 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " ENA29 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 28. 0x00 28. 0x80 28. " ENA28 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " ENA27 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " ENA26 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " ENA24 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " ENA23 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 22. 0x00 22. 0x80 22. " ENA22 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " ENA21 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " ENA20 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " ENA18 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " ENA17 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 16. 0x00 16. 0x80 16. " ENA16 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " ENA15 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " ENA14 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " ENA12 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " ENA11 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 10. 0x00 10. 0x80 10. " ENA10 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " ENA9 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " ENA8 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " ENA6 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " ENA5 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 4. 0x00 4. 0x80 4. " ENA4 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " ENA3 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " ENA2 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " ENA0 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 30. 0x04 30. 0x84 30. " ENA62 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 29. 0x04 29. 0x84 29. " ENA61 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 28. 0x04 28. 0x84 28. " ENA60 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 27. 0x04 27. 0x84 27. " ENA59 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 26. 0x04 26. 0x84 26. " ENA58 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 24. 0x04 24. 0x84 24. " ENA56 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 23. 0x04 23. 0x84 23. " ENA55 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 22. 0x04 22. 0x84 22. " ENA54 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 21. 0x04 21. 0x84 21. " ENA53 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 20. 0x04 20. 0x84 20. " ENA52 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 18. 0x04 18. 0x84 18. " ENA50 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 17. 0x04 17. 0x84 17. " ENA49 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 16. 0x04 16. 0x84 16. " ENA48 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 15. 0x04 15. 0x84 15. " ENA47 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 14. 0x04 14. 0x84 14. " ENA46 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 12. 0x04 12. 0x84 12. " ENA44 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 11. 0x04 11. 0x84 11. " ENA43 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 10. 0x04 10. 0x84 10. " ENA42 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 9. 0x04 9. 0x84 9. " ENA41 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 8. 0x04 8. 0x84 8. " ENA40 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 6. 0x04 6. 0x84 6. " ENA38 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 5. 0x04 5. 0x84 5. " ENA37 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 4. 0x04 4. 0x84 4. " ENA36 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 3. 0x04 3. 0x84 3. " ENA35 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 2. 0x04 2. 0x84 2. " ENA34 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 0. 0x04 0. 0x84 0. " ENA32 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x08 31. 0x08 31. 0x88 31. " ENA95 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 30. 0x08 30. 0x88 30. " ENA94 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 29. 0x08 29. 0x88 29. " ENA93 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 28. 0x08 28. 0x88 28. " ENA92 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 27. 0x08 27. 0x88 27. " ENA91 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 26. 0x08 26. 0x88 26. " ENA90 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 25. 0x08 25. 0x88 25. " ENA89 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 24. 0x08 24. 0x88 24. " ENA88 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 23. 0x08 23. 0x88 23. " ENA87 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 22. 0x08 22. 0x88 22. " ENA86 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 21. 0x08 21. 0x88 21. " ENA85 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 20. 0x08 20. 0x88 20. " ENA84 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 19. 0x08 19. 0x88 19. " ENA83 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 18. 0x08 18. 0x88 18. " ENA82 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 17. 0x08 17. 0x88 17. " ENA81 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 16. 0x08 16. 0x88 16. " ENA80 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 15. 0x08 15. 0x88 15. " ENA79 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 14. 0x08 14. 0x88 14. " ENA78 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 13. 0x08 13. 0x88 13. " ENA77 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 12. 0x08 12. 0x88 12. " ENA76 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 11. 0x08 11. 0x88 11. " ENA75 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 10. 0x08 10. 0x88 10. " ENA74 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 9. 0x08 9. 0x88 9. " ENA73 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 8. 0x08 8. 0x88 8. " ENA72 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 7. 0x08 7. 0x88 7. " ENA71 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 6. 0x08 6. 0x88 6. " ENA70 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 5. 0x08 5. 0x88 5. " ENA69 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 4. 0x08 4. 0x88 4. " ENA68 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 3. 0x08 3. 0x88 3. " ENA67 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 2. 0x08 2. 0x88 2. " ENA66 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 1. 0x08 1. 0x88 1. " ENA65 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 0. 0x08 0. 0x88 0. " ENA64 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x0c "IRQ96_127_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " ENA127 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " ENA126 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " ENA125 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " ENA124 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " ENA123 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " ENA122 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " ENA121 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " ENA120 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " ENA119 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " ENA118 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " ENA117 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " ENA116 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " ENA115 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " ENA114 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " ENA113 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " ENA112 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " ENA111 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " ENA110 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " ENA109 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " ENA108 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " ENA107 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " ENA106 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " ENA105 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " ENA104 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " ENA103 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " ENA102 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " ENA101 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " ENA100 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " ENA99 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " ENA98 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " ENA97 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " ENA96 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x04) group.long 0x100++0x13 line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " ENA30 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " ENA29 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 28. 0x00 28. 0x80 28. " ENA28 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " ENA27 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " ENA26 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " ENA24 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " ENA23 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 22. 0x00 22. 0x80 22. " ENA22 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " ENA21 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " ENA20 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " ENA18 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " ENA17 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 16. 0x00 16. 0x80 16. " ENA16 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " ENA15 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " ENA14 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " ENA12 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " ENA11 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 10. 0x00 10. 0x80 10. " ENA10 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " ENA9 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " ENA8 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " ENA6 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " ENA5 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 4. 0x00 4. 0x80 4. " ENA4 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " ENA3 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " ENA2 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " ENA0 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 30. 0x04 30. 0x84 30. " ENA62 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 29. 0x04 29. 0x84 29. " ENA61 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 28. 0x04 28. 0x84 28. " ENA60 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 27. 0x04 27. 0x84 27. " ENA59 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 26. 0x04 26. 0x84 26. " ENA58 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 24. 0x04 24. 0x84 24. " ENA56 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 23. 0x04 23. 0x84 23. " ENA55 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 22. 0x04 22. 0x84 22. " ENA54 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 21. 0x04 21. 0x84 21. " ENA53 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 20. 0x04 20. 0x84 20. " ENA52 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 18. 0x04 18. 0x84 18. " ENA50 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 17. 0x04 17. 0x84 17. " ENA49 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 16. 0x04 16. 0x84 16. " ENA48 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 15. 0x04 15. 0x84 15. " ENA47 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 14. 0x04 14. 0x84 14. " ENA46 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 12. 0x04 12. 0x84 12. " ENA44 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 11. 0x04 11. 0x84 11. " ENA43 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 10. 0x04 10. 0x84 10. " ENA42 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 9. 0x04 9. 0x84 9. " ENA41 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 8. 0x04 8. 0x84 8. " ENA40 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 6. 0x04 6. 0x84 6. " ENA38 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 5. 0x04 5. 0x84 5. " ENA37 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 4. 0x04 4. 0x84 4. " ENA36 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 3. 0x04 3. 0x84 3. " ENA35 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 2. 0x04 2. 0x84 2. " ENA34 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 0. 0x04 0. 0x84 0. " ENA32 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x08 31. 0x08 31. 0x88 31. " ENA95 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 30. 0x08 30. 0x88 30. " ENA94 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 29. 0x08 29. 0x88 29. " ENA93 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 28. 0x08 28. 0x88 28. " ENA92 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 27. 0x08 27. 0x88 27. " ENA91 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 26. 0x08 26. 0x88 26. " ENA90 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 25. 0x08 25. 0x88 25. " ENA89 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 24. 0x08 24. 0x88 24. " ENA88 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 23. 0x08 23. 0x88 23. " ENA87 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 22. 0x08 22. 0x88 22. " ENA86 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 21. 0x08 21. 0x88 21. " ENA85 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 20. 0x08 20. 0x88 20. " ENA84 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 19. 0x08 19. 0x88 19. " ENA83 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 18. 0x08 18. 0x88 18. " ENA82 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 17. 0x08 17. 0x88 17. " ENA81 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 16. 0x08 16. 0x88 16. " ENA80 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 15. 0x08 15. 0x88 15. " ENA79 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 14. 0x08 14. 0x88 14. " ENA78 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 13. 0x08 13. 0x88 13. " ENA77 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 12. 0x08 12. 0x88 12. " ENA76 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 11. 0x08 11. 0x88 11. " ENA75 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 10. 0x08 10. 0x88 10. " ENA74 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 9. 0x08 9. 0x88 9. " ENA73 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 8. 0x08 8. 0x88 8. " ENA72 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 7. 0x08 7. 0x88 7. " ENA71 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 6. 0x08 6. 0x88 6. " ENA70 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 5. 0x08 5. 0x88 5. " ENA69 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 4. 0x08 4. 0x88 4. " ENA68 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 3. 0x08 3. 0x88 3. " ENA67 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 2. 0x08 2. 0x88 2. " ENA66 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 1. 0x08 1. 0x88 1. " ENA65 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 0. 0x08 0. 0x88 0. " ENA64 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x0c "IRQ96_127_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " ENA127 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " ENA126 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " ENA125 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " ENA124 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " ENA123 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " ENA122 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " ENA121 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " ENA120 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " ENA119 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " ENA118 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " ENA117 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " ENA116 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " ENA115 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " ENA114 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " ENA113 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " ENA112 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " ENA111 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " ENA110 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " ENA109 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " ENA108 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " ENA107 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " ENA106 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " ENA105 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " ENA104 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " ENA103 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " ENA102 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " ENA101 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " ENA100 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " ENA99 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " ENA98 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " ENA97 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " ENA96 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x10 "IRQ128_159_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x10 31. 0x10 31. 0x90 31. " ENA159 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 30. 0x10 30. 0x90 30. " ENA158 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 29. 0x10 29. 0x90 29. " ENA157 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 28. 0x10 28. 0x90 28. " ENA156 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 27. 0x10 27. 0x90 27. " ENA155 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 26. 0x10 26. 0x90 26. " ENA154 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 25. 0x10 25. 0x90 25. " ENA153 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 24. 0x10 24. 0x90 24. " ENA152 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 23. 0x10 23. 0x90 23. " ENA151 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 22. 0x10 22. 0x90 22. " ENA150 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 21. 0x10 21. 0x90 21. " ENA149 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 20. 0x10 20. 0x90 20. " ENA148 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 19. 0x10 19. 0x90 19. " ENA147 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 18. 0x10 18. 0x90 18. " ENA146 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 17. 0x10 17. 0x90 17. " ENA145 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 16. 0x10 16. 0x90 16. " ENA144 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 15. 0x10 15. 0x90 15. " ENA143 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 14. 0x10 14. 0x90 14. " ENA142 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 13. 0x10 13. 0x90 13. " ENA141 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 12. 0x10 12. 0x90 12. " ENA140 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 11. 0x10 11. 0x90 11. " ENA139 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 10. 0x10 10. 0x90 10. " ENA138 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 9. 0x10 9. 0x90 9. " ENA137 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 8. 0x10 8. 0x90 8. " ENA136 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 7. 0x10 7. 0x90 7. " ENA135 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 6. 0x10 6. 0x90 6. " ENA134 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 5. 0x10 5. 0x90 5. " ENA133 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 4. 0x10 4. 0x90 4. " ENA132 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 3. 0x10 3. 0x90 3. " ENA131 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 2. 0x10 2. 0x90 2. " ENA130 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 1. 0x10 1. 0x90 1. " ENA129 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 0. 0x10 0. 0x90 0. " ENA128 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x05) group.long 0x100++0x17 line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " ENA30 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " ENA29 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 28. 0x00 28. 0x80 28. " ENA28 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " ENA27 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " ENA26 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " ENA24 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " ENA23 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 22. 0x00 22. 0x80 22. " ENA22 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " ENA21 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " ENA20 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " ENA18 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " ENA17 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 16. 0x00 16. 0x80 16. " ENA16 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " ENA15 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " ENA14 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " ENA12 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " ENA11 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 10. 0x00 10. 0x80 10. " ENA10 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " ENA9 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " ENA8 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " ENA6 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " ENA5 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 4. 0x00 4. 0x80 4. " ENA4 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " ENA3 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " ENA2 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " ENA0 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 30. 0x04 30. 0x84 30. " ENA62 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 29. 0x04 29. 0x84 29. " ENA61 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 28. 0x04 28. 0x84 28. " ENA60 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 27. 0x04 27. 0x84 27. " ENA59 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 26. 0x04 26. 0x84 26. " ENA58 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 24. 0x04 24. 0x84 24. " ENA56 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 23. 0x04 23. 0x84 23. " ENA55 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 22. 0x04 22. 0x84 22. " ENA54 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 21. 0x04 21. 0x84 21. " ENA53 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 20. 0x04 20. 0x84 20. " ENA52 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 18. 0x04 18. 0x84 18. " ENA50 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 17. 0x04 17. 0x84 17. " ENA49 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 16. 0x04 16. 0x84 16. " ENA48 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 15. 0x04 15. 0x84 15. " ENA47 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 14. 0x04 14. 0x84 14. " ENA46 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 12. 0x04 12. 0x84 12. " ENA44 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 11. 0x04 11. 0x84 11. " ENA43 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 10. 0x04 10. 0x84 10. " ENA42 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 9. 0x04 9. 0x84 9. " ENA41 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 8. 0x04 8. 0x84 8. " ENA40 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 6. 0x04 6. 0x84 6. " ENA38 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 5. 0x04 5. 0x84 5. " ENA37 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 4. 0x04 4. 0x84 4. " ENA36 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 3. 0x04 3. 0x84 3. " ENA35 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 2. 0x04 2. 0x84 2. " ENA34 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 0. 0x04 0. 0x84 0. " ENA32 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x08 31. 0x08 31. 0x88 31. " ENA95 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 30. 0x08 30. 0x88 30. " ENA94 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 29. 0x08 29. 0x88 29. " ENA93 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 28. 0x08 28. 0x88 28. " ENA92 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 27. 0x08 27. 0x88 27. " ENA91 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 26. 0x08 26. 0x88 26. " ENA90 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 25. 0x08 25. 0x88 25. " ENA89 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 24. 0x08 24. 0x88 24. " ENA88 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 23. 0x08 23. 0x88 23. " ENA87 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 22. 0x08 22. 0x88 22. " ENA86 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 21. 0x08 21. 0x88 21. " ENA85 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 20. 0x08 20. 0x88 20. " ENA84 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 19. 0x08 19. 0x88 19. " ENA83 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 18. 0x08 18. 0x88 18. " ENA82 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 17. 0x08 17. 0x88 17. " ENA81 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 16. 0x08 16. 0x88 16. " ENA80 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 15. 0x08 15. 0x88 15. " ENA79 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 14. 0x08 14. 0x88 14. " ENA78 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 13. 0x08 13. 0x88 13. " ENA77 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 12. 0x08 12. 0x88 12. " ENA76 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 11. 0x08 11. 0x88 11. " ENA75 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 10. 0x08 10. 0x88 10. " ENA74 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 9. 0x08 9. 0x88 9. " ENA73 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 8. 0x08 8. 0x88 8. " ENA72 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 7. 0x08 7. 0x88 7. " ENA71 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 6. 0x08 6. 0x88 6. " ENA70 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 5. 0x08 5. 0x88 5. " ENA69 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 4. 0x08 4. 0x88 4. " ENA68 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 3. 0x08 3. 0x88 3. " ENA67 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 2. 0x08 2. 0x88 2. " ENA66 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 1. 0x08 1. 0x88 1. " ENA65 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 0. 0x08 0. 0x88 0. " ENA64 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x0c "IRQ96_127_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " ENA127 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " ENA126 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " ENA125 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " ENA124 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " ENA123 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " ENA122 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " ENA121 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " ENA120 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " ENA119 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " ENA118 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " ENA117 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " ENA116 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " ENA115 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " ENA114 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " ENA113 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " ENA112 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " ENA111 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " ENA110 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " ENA109 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " ENA108 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " ENA107 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " ENA106 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " ENA105 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " ENA104 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " ENA103 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " ENA102 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " ENA101 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " ENA100 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " ENA99 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " ENA98 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " ENA97 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " ENA96 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x10 "IRQ128_159_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x10 31. 0x10 31. 0x90 31. " ENA159 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 30. 0x10 30. 0x90 30. " ENA158 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 29. 0x10 29. 0x90 29. " ENA157 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 28. 0x10 28. 0x90 28. " ENA156 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 27. 0x10 27. 0x90 27. " ENA155 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 26. 0x10 26. 0x90 26. " ENA154 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 25. 0x10 25. 0x90 25. " ENA153 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 24. 0x10 24. 0x90 24. " ENA152 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 23. 0x10 23. 0x90 23. " ENA151 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 22. 0x10 22. 0x90 22. " ENA150 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 21. 0x10 21. 0x90 21. " ENA149 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 20. 0x10 20. 0x90 20. " ENA148 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 19. 0x10 19. 0x90 19. " ENA147 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 18. 0x10 18. 0x90 18. " ENA146 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 17. 0x10 17. 0x90 17. " ENA145 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 16. 0x10 16. 0x90 16. " ENA144 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 15. 0x10 15. 0x90 15. " ENA143 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 14. 0x10 14. 0x90 14. " ENA142 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 13. 0x10 13. 0x90 13. " ENA141 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 12. 0x10 12. 0x90 12. " ENA140 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 11. 0x10 11. 0x90 11. " ENA139 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 10. 0x10 10. 0x90 10. " ENA138 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 9. 0x10 9. 0x90 9. " ENA137 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 8. 0x10 8. 0x90 8. " ENA136 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 7. 0x10 7. 0x90 7. " ENA135 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 6. 0x10 6. 0x90 6. " ENA134 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 5. 0x10 5. 0x90 5. " ENA133 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 4. 0x10 4. 0x90 4. " ENA132 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 3. 0x10 3. 0x90 3. " ENA131 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 2. 0x10 2. 0x90 2. " ENA130 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 1. 0x10 1. 0x90 1. " ENA129 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 0. 0x10 0. 0x90 0. " ENA128 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x14 "IRQ160_191_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x14 31. 0x14 31. 0x94 31. " ENA191 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 30. 0x14 30. 0x94 30. " ENA190 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 29. 0x14 29. 0x94 29. " ENA189 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 28. 0x14 28. 0x94 28. " ENA188 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 27. 0x14 27. 0x94 27. " ENA187 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 26. 0x14 26. 0x94 26. " ENA186 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x14 25. 0x14 25. 0x94 25. " ENA185 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 24. 0x14 24. 0x94 24. " ENA184 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 23. 0x14 23. 0x94 23. " ENA183 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 22. 0x14 22. 0x94 22. " ENA182 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 21. 0x14 21. 0x94 21. " ENA181 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 20. 0x14 20. 0x94 20. " ENA180 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x14 19. 0x14 19. 0x94 19. " ENA179 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 18. 0x14 18. 0x94 18. " ENA178 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 17. 0x14 17. 0x94 17. " ENA177 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 16. 0x14 16. 0x94 16. " ENA176 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 15. 0x14 15. 0x94 15. " ENA175 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 14. 0x14 14. 0x94 14. " ENA174 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x14 13. 0x14 13. 0x94 13. " ENA173 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 12. 0x14 12. 0x94 12. " ENA172 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 11. 0x14 11. 0x94 11. " ENA171 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 10. 0x14 10. 0x94 10. " ENA170 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 9. 0x14 9. 0x94 9. " ENA169 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 8. 0x14 8. 0x94 8. " ENA168 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x14 7. 0x14 7. 0x94 7. " ENA167 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 6. 0x14 6. 0x94 6. " ENA166 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 5. 0x14 5. 0x94 5. " ENA165 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 4. 0x14 4. 0x94 4. " ENA164 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 3. 0x14 3. 0x94 3. " ENA163 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 2. 0x14 2. 0x94 2. " ENA162 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x14 1. 0x14 1. 0x94 1. " ENA161 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 0. 0x14 0. 0x94 0. " ENA160 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x06) group.long 0x100++0x1B line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " ENA30 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " ENA29 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 28. 0x00 28. 0x80 28. " ENA28 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " ENA27 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " ENA26 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " ENA24 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " ENA23 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 22. 0x00 22. 0x80 22. " ENA22 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " ENA21 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " ENA20 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " ENA18 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " ENA17 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 16. 0x00 16. 0x80 16. " ENA16 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " ENA15 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " ENA14 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " ENA12 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " ENA11 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 10. 0x00 10. 0x80 10. " ENA10 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " ENA9 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " ENA8 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " ENA6 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " ENA5 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 4. 0x00 4. 0x80 4. " ENA4 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " ENA3 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " ENA2 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " ENA0 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 30. 0x04 30. 0x84 30. " ENA62 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 29. 0x04 29. 0x84 29. " ENA61 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 28. 0x04 28. 0x84 28. " ENA60 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 27. 0x04 27. 0x84 27. " ENA59 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 26. 0x04 26. 0x84 26. " ENA58 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 24. 0x04 24. 0x84 24. " ENA56 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 23. 0x04 23. 0x84 23. " ENA55 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 22. 0x04 22. 0x84 22. " ENA54 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 21. 0x04 21. 0x84 21. " ENA53 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 20. 0x04 20. 0x84 20. " ENA52 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 18. 0x04 18. 0x84 18. " ENA50 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 17. 0x04 17. 0x84 17. " ENA49 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 16. 0x04 16. 0x84 16. " ENA48 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 15. 0x04 15. 0x84 15. " ENA47 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 14. 0x04 14. 0x84 14. " ENA46 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 12. 0x04 12. 0x84 12. " ENA44 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 11. 0x04 11. 0x84 11. " ENA43 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 10. 0x04 10. 0x84 10. " ENA42 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 9. 0x04 9. 0x84 9. " ENA41 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 8. 0x04 8. 0x84 8. " ENA40 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 6. 0x04 6. 0x84 6. " ENA38 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 5. 0x04 5. 0x84 5. " ENA37 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 4. 0x04 4. 0x84 4. " ENA36 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 3. 0x04 3. 0x84 3. " ENA35 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 2. 0x04 2. 0x84 2. " ENA34 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 0. 0x04 0. 0x84 0. " ENA32 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x08 31. 0x08 31. 0x88 31. " ENA95 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 30. 0x08 30. 0x88 30. " ENA94 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 29. 0x08 29. 0x88 29. " ENA93 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 28. 0x08 28. 0x88 28. " ENA92 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 27. 0x08 27. 0x88 27. " ENA91 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 26. 0x08 26. 0x88 26. " ENA90 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 25. 0x08 25. 0x88 25. " ENA89 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 24. 0x08 24. 0x88 24. " ENA88 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 23. 0x08 23. 0x88 23. " ENA87 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 22. 0x08 22. 0x88 22. " ENA86 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 21. 0x08 21. 0x88 21. " ENA85 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 20. 0x08 20. 0x88 20. " ENA84 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 19. 0x08 19. 0x88 19. " ENA83 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 18. 0x08 18. 0x88 18. " ENA82 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 17. 0x08 17. 0x88 17. " ENA81 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 16. 0x08 16. 0x88 16. " ENA80 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 15. 0x08 15. 0x88 15. " ENA79 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 14. 0x08 14. 0x88 14. " ENA78 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 13. 0x08 13. 0x88 13. " ENA77 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 12. 0x08 12. 0x88 12. " ENA76 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 11. 0x08 11. 0x88 11. " ENA75 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 10. 0x08 10. 0x88 10. " ENA74 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 9. 0x08 9. 0x88 9. " ENA73 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 8. 0x08 8. 0x88 8. " ENA72 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 7. 0x08 7. 0x88 7. " ENA71 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 6. 0x08 6. 0x88 6. " ENA70 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 5. 0x08 5. 0x88 5. " ENA69 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 4. 0x08 4. 0x88 4. " ENA68 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 3. 0x08 3. 0x88 3. " ENA67 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 2. 0x08 2. 0x88 2. " ENA66 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 1. 0x08 1. 0x88 1. " ENA65 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 0. 0x08 0. 0x88 0. " ENA64 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x0c "IRQ96_127_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " ENA127 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " ENA126 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " ENA125 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " ENA124 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " ENA123 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " ENA122 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " ENA121 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " ENA120 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " ENA119 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " ENA118 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " ENA117 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " ENA116 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " ENA115 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " ENA114 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " ENA113 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " ENA112 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " ENA111 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " ENA110 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " ENA109 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " ENA108 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " ENA107 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " ENA106 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " ENA105 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " ENA104 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " ENA103 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " ENA102 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " ENA101 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " ENA100 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " ENA99 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " ENA98 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " ENA97 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " ENA96 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x10 "IRQ128_159_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x10 31. 0x10 31. 0x90 31. " ENA159 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 30. 0x10 30. 0x90 30. " ENA158 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 29. 0x10 29. 0x90 29. " ENA157 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 28. 0x10 28. 0x90 28. " ENA156 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 27. 0x10 27. 0x90 27. " ENA155 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 26. 0x10 26. 0x90 26. " ENA154 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 25. 0x10 25. 0x90 25. " ENA153 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 24. 0x10 24. 0x90 24. " ENA152 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 23. 0x10 23. 0x90 23. " ENA151 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 22. 0x10 22. 0x90 22. " ENA150 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 21. 0x10 21. 0x90 21. " ENA149 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 20. 0x10 20. 0x90 20. " ENA148 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 19. 0x10 19. 0x90 19. " ENA147 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 18. 0x10 18. 0x90 18. " ENA146 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 17. 0x10 17. 0x90 17. " ENA145 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 16. 0x10 16. 0x90 16. " ENA144 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 15. 0x10 15. 0x90 15. " ENA143 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 14. 0x10 14. 0x90 14. " ENA142 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 13. 0x10 13. 0x90 13. " ENA141 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 12. 0x10 12. 0x90 12. " ENA140 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 11. 0x10 11. 0x90 11. " ENA139 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 10. 0x10 10. 0x90 10. " ENA138 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 9. 0x10 9. 0x90 9. " ENA137 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 8. 0x10 8. 0x90 8. " ENA136 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 7. 0x10 7. 0x90 7. " ENA135 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 6. 0x10 6. 0x90 6. " ENA134 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 5. 0x10 5. 0x90 5. " ENA133 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 4. 0x10 4. 0x90 4. " ENA132 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 3. 0x10 3. 0x90 3. " ENA131 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 2. 0x10 2. 0x90 2. " ENA130 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 1. 0x10 1. 0x90 1. " ENA129 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 0. 0x10 0. 0x90 0. " ENA128 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x14 "IRQ160_191_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x14 31. 0x14 31. 0x94 31. " ENA191 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 30. 0x14 30. 0x94 30. " ENA190 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 29. 0x14 29. 0x94 29. " ENA189 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 28. 0x14 28. 0x94 28. " ENA188 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 27. 0x14 27. 0x94 27. " ENA187 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 26. 0x14 26. 0x94 26. " ENA186 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x14 25. 0x14 25. 0x94 25. " ENA185 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 24. 0x14 24. 0x94 24. " ENA184 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 23. 0x14 23. 0x94 23. " ENA183 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 22. 0x14 22. 0x94 22. " ENA182 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 21. 0x14 21. 0x94 21. " ENA181 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 20. 0x14 20. 0x94 20. " ENA180 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x14 19. 0x14 19. 0x94 19. " ENA179 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 18. 0x14 18. 0x94 18. " ENA178 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 17. 0x14 17. 0x94 17. " ENA177 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 16. 0x14 16. 0x94 16. " ENA176 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 15. 0x14 15. 0x94 15. " ENA175 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 14. 0x14 14. 0x94 14. " ENA174 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x14 13. 0x14 13. 0x94 13. " ENA173 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 12. 0x14 12. 0x94 12. " ENA172 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 11. 0x14 11. 0x94 11. " ENA171 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 10. 0x14 10. 0x94 10. " ENA170 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 9. 0x14 9. 0x94 9. " ENA169 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 8. 0x14 8. 0x94 8. " ENA168 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x14 7. 0x14 7. 0x94 7. " ENA167 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 6. 0x14 6. 0x94 6. " ENA166 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 5. 0x14 5. 0x94 5. " ENA165 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 4. 0x14 4. 0x94 4. " ENA164 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 3. 0x14 3. 0x94 3. " ENA163 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 2. 0x14 2. 0x94 2. " ENA162 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x14 1. 0x14 1. 0x94 1. " ENA161 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 0. 0x14 0. 0x94 0. " ENA160 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x18 "IRQ192_223_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x18 31. 0x18 31. 0x98 31. " ENA223 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 30. 0x18 30. 0x98 30. " ENA222 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 29. 0x18 29. 0x98 29. " ENA221 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 28. 0x18 28. 0x98 28. " ENA220 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 27. 0x18 27. 0x98 27. " ENA219 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 26. 0x18 26. 0x98 26. " ENA218 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x18 25. 0x18 25. 0x98 25. " ENA217 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 24. 0x18 24. 0x98 24. " ENA216 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 23. 0x18 23. 0x98 23. " ENA215 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 22. 0x18 22. 0x98 22. " ENA214 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 21. 0x18 21. 0x98 21. " ENA213 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 20. 0x18 20. 0x98 20. " ENA212 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x18 19. 0x18 19. 0x98 19. " ENA211 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 18. 0x18 18. 0x98 18. " ENA210 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 17. 0x18 17. 0x98 17. " ENA209 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 16. 0x18 16. 0x98 16. " ENA208 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 15. 0x18 15. 0x98 15. " ENA207 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 14. 0x18 14. 0x98 14. " ENA206 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x18 13. 0x18 13. 0x98 13. " ENA205 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 12. 0x18 12. 0x98 12. " ENA204 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 11. 0x18 11. 0x98 11. " ENA203 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 10. 0x18 10. 0x98 10. " ENA202 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 9. 0x18 9. 0x98 9. " ENA201 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 8. 0x18 8. 0x98 8. " ENA200 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x18 7. 0x18 7. 0x98 7. " ENA199 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 6. 0x18 6. 0x98 6. " ENA198 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 5. 0x18 5. 0x98 5. " ENA197 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 4. 0x18 4. 0x98 4. " ENA196 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 3. 0x18 3. 0x98 3. " ENA195 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 2. 0x18 2. 0x98 2. " ENA194 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x18 1. 0x18 1. 0x98 1. " ENA193 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 0. 0x18 0. 0x98 0. " ENA192 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x07) group.long 0x100++0x1F line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " ENA30 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " ENA29 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 28. 0x00 28. 0x80 28. " ENA28 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " ENA27 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " ENA26 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " ENA24 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " ENA23 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 22. 0x00 22. 0x80 22. " ENA22 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " ENA21 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " ENA20 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " ENA18 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " ENA17 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 16. 0x00 16. 0x80 16. " ENA16 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " ENA15 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " ENA14 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " ENA12 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " ENA11 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 10. 0x00 10. 0x80 10. " ENA10 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " ENA9 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " ENA8 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " ENA6 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " ENA5 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 4. 0x00 4. 0x80 4. " ENA4 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " ENA3 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " ENA2 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " ENA0 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 30. 0x04 30. 0x84 30. " ENA62 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 29. 0x04 29. 0x84 29. " ENA61 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 28. 0x04 28. 0x84 28. " ENA60 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 27. 0x04 27. 0x84 27. " ENA59 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 26. 0x04 26. 0x84 26. " ENA58 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 24. 0x04 24. 0x84 24. " ENA56 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 23. 0x04 23. 0x84 23. " ENA55 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 22. 0x04 22. 0x84 22. " ENA54 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 21. 0x04 21. 0x84 21. " ENA53 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 20. 0x04 20. 0x84 20. " ENA52 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 18. 0x04 18. 0x84 18. " ENA50 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 17. 0x04 17. 0x84 17. " ENA49 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 16. 0x04 16. 0x84 16. " ENA48 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 15. 0x04 15. 0x84 15. " ENA47 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 14. 0x04 14. 0x84 14. " ENA46 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 12. 0x04 12. 0x84 12. " ENA44 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 11. 0x04 11. 0x84 11. " ENA43 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 10. 0x04 10. 0x84 10. " ENA42 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 9. 0x04 9. 0x84 9. " ENA41 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 8. 0x04 8. 0x84 8. " ENA40 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 6. 0x04 6. 0x84 6. " ENA38 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 5. 0x04 5. 0x84 5. " ENA37 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 4. 0x04 4. 0x84 4. " ENA36 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 3. 0x04 3. 0x84 3. " ENA35 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 2. 0x04 2. 0x84 2. " ENA34 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x04 0. 0x04 0. 0x84 0. " ENA32 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x08 31. 0x08 31. 0x88 31. " ENA95 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 30. 0x08 30. 0x88 30. " ENA94 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 29. 0x08 29. 0x88 29. " ENA93 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 28. 0x08 28. 0x88 28. " ENA92 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 27. 0x08 27. 0x88 27. " ENA91 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 26. 0x08 26. 0x88 26. " ENA90 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 25. 0x08 25. 0x88 25. " ENA89 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 24. 0x08 24. 0x88 24. " ENA88 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 23. 0x08 23. 0x88 23. " ENA87 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 22. 0x08 22. 0x88 22. " ENA86 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 21. 0x08 21. 0x88 21. " ENA85 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 20. 0x08 20. 0x88 20. " ENA84 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 19. 0x08 19. 0x88 19. " ENA83 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 18. 0x08 18. 0x88 18. " ENA82 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 17. 0x08 17. 0x88 17. " ENA81 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 16. 0x08 16. 0x88 16. " ENA80 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 15. 0x08 15. 0x88 15. " ENA79 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 14. 0x08 14. 0x88 14. " ENA78 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 13. 0x08 13. 0x88 13. " ENA77 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 12. 0x08 12. 0x88 12. " ENA76 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 11. 0x08 11. 0x88 11. " ENA75 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 10. 0x08 10. 0x88 10. " ENA74 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 9. 0x08 9. 0x88 9. " ENA73 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 8. 0x08 8. 0x88 8. " ENA72 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 7. 0x08 7. 0x88 7. " ENA71 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 6. 0x08 6. 0x88 6. " ENA70 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 5. 0x08 5. 0x88 5. " ENA69 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 4. 0x08 4. 0x88 4. " ENA68 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 3. 0x08 3. 0x88 3. " ENA67 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 2. 0x08 2. 0x88 2. " ENA66 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x08 1. 0x08 1. 0x88 1. " ENA65 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x08 0. 0x08 0. 0x88 0. " ENA64 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x0c "IRQ96_127_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " ENA127 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " ENA126 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " ENA125 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " ENA124 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " ENA123 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " ENA122 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " ENA121 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " ENA120 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " ENA119 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " ENA118 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " ENA117 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " ENA116 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " ENA115 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " ENA114 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " ENA113 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " ENA112 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " ENA111 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " ENA110 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " ENA109 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " ENA108 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " ENA107 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " ENA106 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " ENA105 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " ENA104 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " ENA103 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " ENA102 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " ENA101 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " ENA100 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " ENA99 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " ENA98 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " ENA97 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " ENA96 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x10 "IRQ128_159_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x10 31. 0x10 31. 0x90 31. " ENA159 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 30. 0x10 30. 0x90 30. " ENA158 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 29. 0x10 29. 0x90 29. " ENA157 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 28. 0x10 28. 0x90 28. " ENA156 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 27. 0x10 27. 0x90 27. " ENA155 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 26. 0x10 26. 0x90 26. " ENA154 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 25. 0x10 25. 0x90 25. " ENA153 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 24. 0x10 24. 0x90 24. " ENA152 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 23. 0x10 23. 0x90 23. " ENA151 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 22. 0x10 22. 0x90 22. " ENA150 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 21. 0x10 21. 0x90 21. " ENA149 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 20. 0x10 20. 0x90 20. " ENA148 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 19. 0x10 19. 0x90 19. " ENA147 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 18. 0x10 18. 0x90 18. " ENA146 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 17. 0x10 17. 0x90 17. " ENA145 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 16. 0x10 16. 0x90 16. " ENA144 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 15. 0x10 15. 0x90 15. " ENA143 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 14. 0x10 14. 0x90 14. " ENA142 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 13. 0x10 13. 0x90 13. " ENA141 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 12. 0x10 12. 0x90 12. " ENA140 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 11. 0x10 11. 0x90 11. " ENA139 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 10. 0x10 10. 0x90 10. " ENA138 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 9. 0x10 9. 0x90 9. " ENA137 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 8. 0x10 8. 0x90 8. " ENA136 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 7. 0x10 7. 0x90 7. " ENA135 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 6. 0x10 6. 0x90 6. " ENA134 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 5. 0x10 5. 0x90 5. " ENA133 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 4. 0x10 4. 0x90 4. " ENA132 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 3. 0x10 3. 0x90 3. " ENA131 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 2. 0x10 2. 0x90 2. " ENA130 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x10 1. 0x10 1. 0x90 1. " ENA129 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x10 0. 0x10 0. 0x90 0. " ENA128 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x14 "IRQ160_191_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x14 31. 0x14 31. 0x94 31. " ENA191 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 30. 0x14 30. 0x94 30. " ENA190 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 29. 0x14 29. 0x94 29. " ENA189 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 28. 0x14 28. 0x94 28. " ENA188 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 27. 0x14 27. 0x94 27. " ENA187 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 26. 0x14 26. 0x94 26. " ENA186 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x14 25. 0x14 25. 0x94 25. " ENA185 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 24. 0x14 24. 0x94 24. " ENA184 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 23. 0x14 23. 0x94 23. " ENA183 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 22. 0x14 22. 0x94 22. " ENA182 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 21. 0x14 21. 0x94 21. " ENA181 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 20. 0x14 20. 0x94 20. " ENA180 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x14 19. 0x14 19. 0x94 19. " ENA179 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 18. 0x14 18. 0x94 18. " ENA178 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 17. 0x14 17. 0x94 17. " ENA177 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 16. 0x14 16. 0x94 16. " ENA176 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 15. 0x14 15. 0x94 15. " ENA175 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 14. 0x14 14. 0x94 14. " ENA174 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x14 13. 0x14 13. 0x94 13. " ENA173 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 12. 0x14 12. 0x94 12. " ENA172 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 11. 0x14 11. 0x94 11. " ENA171 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 10. 0x14 10. 0x94 10. " ENA170 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 9. 0x14 9. 0x94 9. " ENA169 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 8. 0x14 8. 0x94 8. " ENA168 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x14 7. 0x14 7. 0x94 7. " ENA167 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 6. 0x14 6. 0x94 6. " ENA166 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 5. 0x14 5. 0x94 5. " ENA165 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 4. 0x14 4. 0x94 4. " ENA164 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 3. 0x14 3. 0x94 3. " ENA163 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 2. 0x14 2. 0x94 2. " ENA162 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x14 1. 0x14 1. 0x94 1. " ENA161 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x14 0. 0x14 0. 0x94 0. " ENA160 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x18 "IRQ192_223_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x18 31. 0x18 31. 0x98 31. " ENA223 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 30. 0x18 30. 0x98 30. " ENA222 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 29. 0x18 29. 0x98 29. " ENA221 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 28. 0x18 28. 0x98 28. " ENA220 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 27. 0x18 27. 0x98 27. " ENA219 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 26. 0x18 26. 0x98 26. " ENA218 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x18 25. 0x18 25. 0x98 25. " ENA217 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 24. 0x18 24. 0x98 24. " ENA216 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 23. 0x18 23. 0x98 23. " ENA215 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 22. 0x18 22. 0x98 22. " ENA214 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 21. 0x18 21. 0x98 21. " ENA213 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 20. 0x18 20. 0x98 20. " ENA212 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x18 19. 0x18 19. 0x98 19. " ENA211 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 18. 0x18 18. 0x98 18. " ENA210 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 17. 0x18 17. 0x98 17. " ENA209 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 16. 0x18 16. 0x98 16. " ENA208 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 15. 0x18 15. 0x98 15. " ENA207 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 14. 0x18 14. 0x98 14. " ENA206 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x18 13. 0x18 13. 0x98 13. " ENA205 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 12. 0x18 12. 0x98 12. " ENA204 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 11. 0x18 11. 0x98 11. " ENA203 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 10. 0x18 10. 0x98 10. " ENA202 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 9. 0x18 9. 0x98 9. " ENA201 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 8. 0x18 8. 0x98 8. " ENA200 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x18 7. 0x18 7. 0x98 7. " ENA199 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 6. 0x18 6. 0x98 6. " ENA198 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 5. 0x18 5. 0x98 5. " ENA197 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 4. 0x18 4. 0x98 4. " ENA196 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 3. 0x18 3. 0x98 3. " ENA195 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 2. 0x18 2. 0x98 2. " ENA194 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x18 1. 0x18 1. 0x98 1. " ENA193 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x18 0. 0x18 0. 0x98 0. " ENA192 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" line.long 0x1c "IRQ224_239_EN_SET/CLR,Interrupt Enable Register" setclrfld.long 0x1c 15. 0x1c 15. 0x9c 15. " ENA239 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x1c 14. 0x1c 14. 0x9c 14. " ENA238 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x1c 13. 0x1c 13. 0x9c 13. " ENA237 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x1c 12. 0x1c 12. 0x9c 12. " ENA236 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x1c 11. 0x1c 11. 0x9c 11. " ENA235 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x1c 10. 0x1c 10. 0x9c 10. " ENA234 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x1c 9. 0x1c 9. 0x9c 9. " ENA233 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x1c 8. 0x1c 8. 0x9c 8. " ENA232 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x1c 7. 0x1c 7. 0x9c 7. " ENA231 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x1c 6. 0x1c 6. 0x9c 6. " ENA230 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x1c 5. 0x1c 5. 0x9c 5. " ENA229 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x1c 4. 0x1c 4. 0x9c 4. " ENA228 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" textline " " setclrfld.long 0x1c 3. 0x1c 3. 0x9c 3. " ENA227 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x1c 2. 0x1c 2. 0x9c 2. " ENA226 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x1c 1. 0x1c 1. 0x9c 1. " ENA225 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" setclrfld.long 0x1c 0. 0x1c 0. 0x9c 0. " ENA224 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled" else hgroup.long 0x100++0x1F hide.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register" hide.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register" hide.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register" hide.long 0x0c "IRQ96_127_EN_SET/CLR,Interrupt Enable Register" hide.long 0x10 "IRQ128_159_EN_SET/CLR,Interrupt Enable Register" hide.long 0x14 "IRQ160_191_EN_SET/CLR,Interrupt Enable Register" hide.long 0x18 "IRQ192_223_EN_SET/CLR,Interrupt Enable Register" hide.long 0x1c "IRQ224_239_EN_SET/CLR,Interrupt Enable Register" endif tree.end tree "Interrupt Pending Registers" width 23. if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x00) group.long 0x200++0x03 line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " PEN30 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " PEN29 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 28. 0x00 28. 0x80 28. " PEN28 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " PEN27 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " PEN26 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " PEN24 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " PEN23 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 22. 0x00 22. 0x80 22. " PEN22 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " PEN21 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " PEN20 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " PEN18 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " PEN17 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 16. 0x00 16. 0x80 16. " PEN16 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " PEN15 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " PEN14 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " PEN12 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " PEN11 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 10. 0x00 10. 0x80 10. " PEN10 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " PEN9 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " PEN8 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " PEN6 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " PEN5 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 4. 0x00 4. 0x80 4. " PEN4 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " PEN3 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " PEN2 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " PEN0 ,Interrupt Set/Clear Pending" "Not pending,Pending" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x01) group.long 0x200++0x07 line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " PEN30 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " PEN29 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 28. 0x00 28. 0x80 28. " PEN28 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " PEN27 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " PEN26 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " PEN24 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " PEN23 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 22. 0x00 22. 0x80 22. " PEN22 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " PEN21 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " PEN20 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " PEN18 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " PEN17 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 16. 0x00 16. 0x80 16. " PEN16 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " PEN15 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " PEN14 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " PEN12 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " PEN11 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 10. 0x00 10. 0x80 10. " PEN10 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " PEN9 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " PEN8 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " PEN6 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " PEN5 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 4. 0x00 4. 0x80 4. " PEN4 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " PEN3 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " PEN2 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " PEN0 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 30. 0x04 30. 0x84 30. " PEN62 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 29. 0x04 29. 0x84 29. " PEN61 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 28. 0x04 28. 0x84 28. " PEN60 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 27. 0x04 27. 0x84 27. " PEN59 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 26. 0x04 26. 0x84 26. " PEN58 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 24. 0x04 24. 0x84 24. " PEN56 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 23. 0x04 23. 0x84 23. " PEN55 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 22. 0x04 22. 0x84 22. " PEN54 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 21. 0x04 21. 0x84 21. " PEN53 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 20. 0x04 20. 0x84 20. " PEN52 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 18. 0x04 18. 0x84 18. " PEN50 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 17. 0x04 17. 0x84 17. " PEN49 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 16. 0x04 16. 0x84 16. " PEN48 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 15. 0x04 15. 0x84 15. " PEN47 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 14. 0x04 14. 0x84 14. " PEN46 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 12. 0x04 12. 0x84 12. " PEN44 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 11. 0x04 11. 0x84 11. " PEN43 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 10. 0x04 10. 0x84 10. " PEN42 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 9. 0x04 9. 0x84 9. " PEN41 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 8. 0x04 8. 0x84 8. " PEN40 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 6. 0x04 6. 0x84 6. " PEN38 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 5. 0x04 5. 0x84 5. " PEN37 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 4. 0x04 4. 0x84 4. " PEN36 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 3. 0x04 3. 0x84 3. " PEN35 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 2. 0x04 2. 0x84 2. " PEN34 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 0. 0x04 0. 0x84 0. " PEN32 ,Interrupt Set/Clear Pending" "Not pending,Pending" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x02) group.long 0x200++0x0B line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " PEN30 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " PEN29 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 28. 0x00 28. 0x80 28. " PEN28 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " PEN27 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " PEN26 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " PEN24 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " PEN23 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 22. 0x00 22. 0x80 22. " PEN22 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " PEN21 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " PEN20 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " PEN18 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " PEN17 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 16. 0x00 16. 0x80 16. " PEN16 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " PEN15 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " PEN14 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " PEN12 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " PEN11 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 10. 0x00 10. 0x80 10. " PEN10 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " PEN9 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " PEN8 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " PEN6 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " PEN5 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 4. 0x00 4. 0x80 4. " PEN4 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " PEN3 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " PEN2 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " PEN0 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 30. 0x04 30. 0x84 30. " PEN62 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 29. 0x04 29. 0x84 29. " PEN61 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 28. 0x04 28. 0x84 28. " PEN60 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 27. 0x04 27. 0x84 27. " PEN59 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 26. 0x04 26. 0x84 26. " PEN58 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 24. 0x04 24. 0x84 24. " PEN56 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 23. 0x04 23. 0x84 23. " PEN55 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 22. 0x04 22. 0x84 22. " PEN54 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 21. 0x04 21. 0x84 21. " PEN53 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 20. 0x04 20. 0x84 20. " PEN52 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 18. 0x04 18. 0x84 18. " PEN50 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 17. 0x04 17. 0x84 17. " PEN49 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 16. 0x04 16. 0x84 16. " PEN48 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 15. 0x04 15. 0x84 15. " PEN47 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 14. 0x04 14. 0x84 14. " PEN46 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 12. 0x04 12. 0x84 12. " PEN44 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 11. 0x04 11. 0x84 11. " PEN43 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 10. 0x04 10. 0x84 10. " PEN42 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 9. 0x04 9. 0x84 9. " PEN41 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 8. 0x04 8. 0x84 8. " PEN40 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 6. 0x04 6. 0x84 6. " PEN38 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 5. 0x04 5. 0x84 5. " PEN37 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 4. 0x04 4. 0x84 4. " PEN36 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 3. 0x04 3. 0x84 3. " PEN35 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 2. 0x04 2. 0x84 2. " PEN34 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 0. 0x04 0. 0x84 0. " PEN32 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x08 31. 0x08 31. 0x88 31. " PEN95 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 30. 0x08 30. 0x88 30. " PEN94 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 29. 0x08 29. 0x88 29. " PEN93 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 28. 0x08 28. 0x88 28. " PEN92 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 27. 0x08 27. 0x88 27. " PEN91 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 26. 0x08 26. 0x88 26. " PEN90 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 25. 0x08 25. 0x88 25. " PEN89 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 24. 0x08 24. 0x88 24. " PEN88 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 23. 0x08 23. 0x88 23. " PEN87 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 22. 0x08 22. 0x88 22. " PEN86 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 21. 0x08 21. 0x88 21. " PEN85 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 20. 0x08 20. 0x88 20. " PEN84 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 19. 0x08 19. 0x88 19. " PEN83 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 18. 0x08 18. 0x88 18. " PEN82 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 17. 0x08 17. 0x88 17. " PEN81 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 16. 0x08 16. 0x88 16. " PEN80 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 15. 0x08 15. 0x88 15. " PEN79 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 14. 0x08 14. 0x88 14. " PEN78 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 13. 0x08 13. 0x88 13. " PEN77 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 12. 0x08 12. 0x88 12. " PEN76 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 11. 0x08 11. 0x88 11. " PEN75 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 10. 0x08 10. 0x88 10. " PEN74 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 9. 0x08 9. 0x88 9. " PEN73 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 8. 0x08 8. 0x88 8. " PEN72 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 7. 0x08 7. 0x88 7. " PEN71 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 6. 0x08 6. 0x88 6. " PEN70 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 5. 0x08 5. 0x88 5. " PEN69 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 4. 0x08 4. 0x88 4. " PEN68 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 3. 0x08 3. 0x88 3. " PEN67 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 2. 0x08 2. 0x88 2. " PEN66 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 1. 0x08 1. 0x88 1. " PEN65 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 0. 0x08 0. 0x88 0. " PEN64 ,Interrupt Set/Clear Pending" "Not pending,Pending" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x03) group.long 0x200++0x0F line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " PEN30 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " PEN29 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 28. 0x00 28. 0x80 28. " PEN28 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " PEN27 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " PEN26 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " PEN24 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " PEN23 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 22. 0x00 22. 0x80 22. " PEN22 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " PEN21 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " PEN20 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " PEN18 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " PEN17 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 16. 0x00 16. 0x80 16. " PEN16 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " PEN15 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " PEN14 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " PEN12 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " PEN11 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 10. 0x00 10. 0x80 10. " PEN10 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " PEN9 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " PEN8 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " PEN6 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " PEN5 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 4. 0x00 4. 0x80 4. " PEN4 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " PEN3 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " PEN2 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " PEN0 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 30. 0x04 30. 0x84 30. " PEN62 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 29. 0x04 29. 0x84 29. " PEN61 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 28. 0x04 28. 0x84 28. " PEN60 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 27. 0x04 27. 0x84 27. " PEN59 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 26. 0x04 26. 0x84 26. " PEN58 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 24. 0x04 24. 0x84 24. " PEN56 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 23. 0x04 23. 0x84 23. " PEN55 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 22. 0x04 22. 0x84 22. " PEN54 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 21. 0x04 21. 0x84 21. " PEN53 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 20. 0x04 20. 0x84 20. " PEN52 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 18. 0x04 18. 0x84 18. " PEN50 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 17. 0x04 17. 0x84 17. " PEN49 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 16. 0x04 16. 0x84 16. " PEN48 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 15. 0x04 15. 0x84 15. " PEN47 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 14. 0x04 14. 0x84 14. " PEN46 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 12. 0x04 12. 0x84 12. " PEN44 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 11. 0x04 11. 0x84 11. " PEN43 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 10. 0x04 10. 0x84 10. " PEN42 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 9. 0x04 9. 0x84 9. " PEN41 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 8. 0x04 8. 0x84 8. " PEN40 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 6. 0x04 6. 0x84 6. " PEN38 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 5. 0x04 5. 0x84 5. " PEN37 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 4. 0x04 4. 0x84 4. " PEN36 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 3. 0x04 3. 0x84 3. " PEN35 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 2. 0x04 2. 0x84 2. " PEN34 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 0. 0x04 0. 0x84 0. " PEN32 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x08 31. 0x08 31. 0x88 31. " PEN95 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 30. 0x08 30. 0x88 30. " PEN94 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 29. 0x08 29. 0x88 29. " PEN93 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 28. 0x08 28. 0x88 28. " PEN92 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 27. 0x08 27. 0x88 27. " PEN91 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 26. 0x08 26. 0x88 26. " PEN90 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 25. 0x08 25. 0x88 25. " PEN89 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 24. 0x08 24. 0x88 24. " PEN88 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 23. 0x08 23. 0x88 23. " PEN87 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 22. 0x08 22. 0x88 22. " PEN86 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 21. 0x08 21. 0x88 21. " PEN85 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 20. 0x08 20. 0x88 20. " PEN84 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 19. 0x08 19. 0x88 19. " PEN83 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 18. 0x08 18. 0x88 18. " PEN82 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 17. 0x08 17. 0x88 17. " PEN81 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 16. 0x08 16. 0x88 16. " PEN80 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 15. 0x08 15. 0x88 15. " PEN79 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 14. 0x08 14. 0x88 14. " PEN78 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 13. 0x08 13. 0x88 13. " PEN77 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 12. 0x08 12. 0x88 12. " PEN76 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 11. 0x08 11. 0x88 11. " PEN75 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 10. 0x08 10. 0x88 10. " PEN74 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 9. 0x08 9. 0x88 9. " PEN73 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 8. 0x08 8. 0x88 8. " PEN72 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 7. 0x08 7. 0x88 7. " PEN71 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 6. 0x08 6. 0x88 6. " PEN70 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 5. 0x08 5. 0x88 5. " PEN69 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 4. 0x08 4. 0x88 4. " PEN68 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 3. 0x08 3. 0x88 3. " PEN67 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 2. 0x08 2. 0x88 2. " PEN66 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 1. 0x08 1. 0x88 1. " PEN65 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 0. 0x08 0. 0x88 0. " PEN64 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x0c "IRQ96_127_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " PEN127 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " PEN126 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " PEN125 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " PEN124 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " PEN123 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " PEN122 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " PEN121 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " PEN120 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " PEN119 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " PEN118 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " PEN117 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " PEN116 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " PEN115 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " PEN114 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " PEN113 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " PEN112 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " PEN111 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " PEN110 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " PEN109 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " PEN108 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " PEN107 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " PEN106 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " PEN105 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " PEN104 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " PEN103 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " PEN102 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " PEN101 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " PEN100 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " PEN99 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " PEN98 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " PEN97 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " PEN96 ,Interrupt Set/Clear Pending" "Not pending,Pending" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x04) group.long 0x200++0x13 line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " PEN30 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " PEN29 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 28. 0x00 28. 0x80 28. " PEN28 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " PEN27 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " PEN26 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " PEN24 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " PEN23 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 22. 0x00 22. 0x80 22. " PEN22 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " PEN21 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " PEN20 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " PEN18 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " PEN17 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 16. 0x00 16. 0x80 16. " PEN16 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " PEN15 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " PEN14 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " PEN12 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " PEN11 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 10. 0x00 10. 0x80 10. " PEN10 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " PEN9 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " PEN8 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " PEN6 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " PEN5 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 4. 0x00 4. 0x80 4. " PEN4 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " PEN3 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " PEN2 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " PEN0 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 30. 0x04 30. 0x84 30. " PEN62 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 29. 0x04 29. 0x84 29. " PEN61 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 28. 0x04 28. 0x84 28. " PEN60 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 27. 0x04 27. 0x84 27. " PEN59 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 26. 0x04 26. 0x84 26. " PEN58 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 24. 0x04 24. 0x84 24. " PEN56 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 23. 0x04 23. 0x84 23. " PEN55 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 22. 0x04 22. 0x84 22. " PEN54 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 21. 0x04 21. 0x84 21. " PEN53 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 20. 0x04 20. 0x84 20. " PEN52 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 18. 0x04 18. 0x84 18. " PEN50 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 17. 0x04 17. 0x84 17. " PEN49 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 16. 0x04 16. 0x84 16. " PEN48 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 15. 0x04 15. 0x84 15. " PEN47 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 14. 0x04 14. 0x84 14. " PEN46 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 12. 0x04 12. 0x84 12. " PEN44 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 11. 0x04 11. 0x84 11. " PEN43 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 10. 0x04 10. 0x84 10. " PEN42 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 9. 0x04 9. 0x84 9. " PEN41 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 8. 0x04 8. 0x84 8. " PEN40 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 6. 0x04 6. 0x84 6. " PEN38 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 5. 0x04 5. 0x84 5. " PEN37 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 4. 0x04 4. 0x84 4. " PEN36 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 3. 0x04 3. 0x84 3. " PEN35 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 2. 0x04 2. 0x84 2. " PEN34 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 0. 0x04 0. 0x84 0. " PEN32 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x08 31. 0x08 31. 0x88 31. " PEN95 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 30. 0x08 30. 0x88 30. " PEN94 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 29. 0x08 29. 0x88 29. " PEN93 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 28. 0x08 28. 0x88 28. " PEN92 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 27. 0x08 27. 0x88 27. " PEN91 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 26. 0x08 26. 0x88 26. " PEN90 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 25. 0x08 25. 0x88 25. " PEN89 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 24. 0x08 24. 0x88 24. " PEN88 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 23. 0x08 23. 0x88 23. " PEN87 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 22. 0x08 22. 0x88 22. " PEN86 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 21. 0x08 21. 0x88 21. " PEN85 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 20. 0x08 20. 0x88 20. " PEN84 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 19. 0x08 19. 0x88 19. " PEN83 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 18. 0x08 18. 0x88 18. " PEN82 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 17. 0x08 17. 0x88 17. " PEN81 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 16. 0x08 16. 0x88 16. " PEN80 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 15. 0x08 15. 0x88 15. " PEN79 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 14. 0x08 14. 0x88 14. " PEN78 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 13. 0x08 13. 0x88 13. " PEN77 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 12. 0x08 12. 0x88 12. " PEN76 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 11. 0x08 11. 0x88 11. " PEN75 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 10. 0x08 10. 0x88 10. " PEN74 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 9. 0x08 9. 0x88 9. " PEN73 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 8. 0x08 8. 0x88 8. " PEN72 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 7. 0x08 7. 0x88 7. " PEN71 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 6. 0x08 6. 0x88 6. " PEN70 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 5. 0x08 5. 0x88 5. " PEN69 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 4. 0x08 4. 0x88 4. " PEN68 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 3. 0x08 3. 0x88 3. " PEN67 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 2. 0x08 2. 0x88 2. " PEN66 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 1. 0x08 1. 0x88 1. " PEN65 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 0. 0x08 0. 0x88 0. " PEN64 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x0c "IRQ96_127_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " PEN127 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " PEN126 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " PEN125 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " PEN124 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " PEN123 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " PEN122 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " PEN121 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " PEN120 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " PEN119 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " PEN118 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " PEN117 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " PEN116 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " PEN115 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " PEN114 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " PEN113 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " PEN112 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " PEN111 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " PEN110 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " PEN109 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " PEN108 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " PEN107 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " PEN106 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " PEN105 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " PEN104 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " PEN103 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " PEN102 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " PEN101 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " PEN100 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " PEN99 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " PEN98 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " PEN97 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " PEN96 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x10 "IRQ128_159_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x10 31. 0x10 31. 0x90 31. " PEN159 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 30. 0x10 30. 0x90 30. " PEN158 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 29. 0x10 29. 0x90 29. " PEN157 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 28. 0x10 28. 0x90 28. " PEN156 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 27. 0x10 27. 0x90 27. " PEN155 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 26. 0x10 26. 0x90 26. " PEN154 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 25. 0x10 25. 0x90 25. " PEN153 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 24. 0x10 24. 0x90 24. " PEN152 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 23. 0x10 23. 0x90 23. " PEN151 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 22. 0x10 22. 0x90 22. " PEN150 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 21. 0x10 21. 0x90 21. " PEN149 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 20. 0x10 20. 0x90 20. " PEN148 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 19. 0x10 19. 0x90 19. " PEN147 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 18. 0x10 18. 0x90 18. " PEN146 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 17. 0x10 17. 0x90 17. " PEN145 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 16. 0x10 16. 0x90 16. " PEN144 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 15. 0x10 15. 0x90 15. " PEN143 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 14. 0x10 14. 0x90 14. " PEN142 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 13. 0x10 13. 0x90 13. " PEN141 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 12. 0x10 12. 0x90 12. " PEN140 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 11. 0x10 11. 0x90 11. " PEN139 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 10. 0x10 10. 0x90 10. " PEN138 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 9. 0x10 9. 0x90 9. " PEN137 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 8. 0x10 8. 0x90 8. " PEN136 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 7. 0x10 7. 0x90 7. " PEN135 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 6. 0x10 6. 0x90 6. " PEN134 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 5. 0x10 5. 0x90 5. " PEN133 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 4. 0x10 4. 0x90 4. " PEN132 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 3. 0x10 3. 0x90 3. " PEN131 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 2. 0x10 2. 0x90 2. " PEN130 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 1. 0x10 1. 0x90 1. " PEN129 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 0. 0x10 0. 0x90 0. " PEN128 ,Interrupt Set/Clear Pending" "Not pending,Pending" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x05) group.long 0x200++0x17 line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " PEN30 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " PEN29 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 28. 0x00 28. 0x80 28. " PEN28 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " PEN27 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " PEN26 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " PEN24 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " PEN23 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 22. 0x00 22. 0x80 22. " PEN22 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " PEN21 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " PEN20 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " PEN18 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " PEN17 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 16. 0x00 16. 0x80 16. " PEN16 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " PEN15 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " PEN14 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " PEN12 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " PEN11 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 10. 0x00 10. 0x80 10. " PEN10 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " PEN9 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " PEN8 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " PEN6 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " PEN5 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 4. 0x00 4. 0x80 4. " PEN4 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " PEN3 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " PEN2 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " PEN0 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 30. 0x04 30. 0x84 30. " PEN62 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 29. 0x04 29. 0x84 29. " PEN61 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 28. 0x04 28. 0x84 28. " PEN60 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 27. 0x04 27. 0x84 27. " PEN59 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 26. 0x04 26. 0x84 26. " PEN58 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 24. 0x04 24. 0x84 24. " PEN56 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 23. 0x04 23. 0x84 23. " PEN55 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 22. 0x04 22. 0x84 22. " PEN54 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 21. 0x04 21. 0x84 21. " PEN53 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 20. 0x04 20. 0x84 20. " PEN52 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 18. 0x04 18. 0x84 18. " PEN50 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 17. 0x04 17. 0x84 17. " PEN49 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 16. 0x04 16. 0x84 16. " PEN48 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 15. 0x04 15. 0x84 15. " PEN47 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 14. 0x04 14. 0x84 14. " PEN46 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 12. 0x04 12. 0x84 12. " PEN44 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 11. 0x04 11. 0x84 11. " PEN43 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 10. 0x04 10. 0x84 10. " PEN42 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 9. 0x04 9. 0x84 9. " PEN41 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 8. 0x04 8. 0x84 8. " PEN40 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 6. 0x04 6. 0x84 6. " PEN38 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 5. 0x04 5. 0x84 5. " PEN37 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 4. 0x04 4. 0x84 4. " PEN36 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 3. 0x04 3. 0x84 3. " PEN35 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 2. 0x04 2. 0x84 2. " PEN34 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 0. 0x04 0. 0x84 0. " PEN32 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x08 31. 0x08 31. 0x88 31. " PEN95 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 30. 0x08 30. 0x88 30. " PEN94 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 29. 0x08 29. 0x88 29. " PEN93 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 28. 0x08 28. 0x88 28. " PEN92 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 27. 0x08 27. 0x88 27. " PEN91 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 26. 0x08 26. 0x88 26. " PEN90 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 25. 0x08 25. 0x88 25. " PEN89 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 24. 0x08 24. 0x88 24. " PEN88 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 23. 0x08 23. 0x88 23. " PEN87 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 22. 0x08 22. 0x88 22. " PEN86 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 21. 0x08 21. 0x88 21. " PEN85 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 20. 0x08 20. 0x88 20. " PEN84 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 19. 0x08 19. 0x88 19. " PEN83 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 18. 0x08 18. 0x88 18. " PEN82 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 17. 0x08 17. 0x88 17. " PEN81 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 16. 0x08 16. 0x88 16. " PEN80 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 15. 0x08 15. 0x88 15. " PEN79 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 14. 0x08 14. 0x88 14. " PEN78 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 13. 0x08 13. 0x88 13. " PEN77 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 12. 0x08 12. 0x88 12. " PEN76 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 11. 0x08 11. 0x88 11. " PEN75 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 10. 0x08 10. 0x88 10. " PEN74 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 9. 0x08 9. 0x88 9. " PEN73 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 8. 0x08 8. 0x88 8. " PEN72 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 7. 0x08 7. 0x88 7. " PEN71 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 6. 0x08 6. 0x88 6. " PEN70 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 5. 0x08 5. 0x88 5. " PEN69 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 4. 0x08 4. 0x88 4. " PEN68 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 3. 0x08 3. 0x88 3. " PEN67 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 2. 0x08 2. 0x88 2. " PEN66 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 1. 0x08 1. 0x88 1. " PEN65 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 0. 0x08 0. 0x88 0. " PEN64 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x0c "IRQ96_127_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " PEN127 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " PEN126 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " PEN125 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " PEN124 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " PEN123 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " PEN122 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " PEN121 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " PEN120 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " PEN119 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " PEN118 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " PEN117 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " PEN116 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " PEN115 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " PEN114 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " PEN113 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " PEN112 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " PEN111 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " PEN110 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " PEN109 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " PEN108 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " PEN107 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " PEN106 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " PEN105 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " PEN104 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " PEN103 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " PEN102 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " PEN101 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " PEN100 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " PEN99 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " PEN98 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " PEN97 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " PEN96 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x10 "IRQ128_159_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x10 31. 0x10 31. 0x90 31. " PEN159 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 30. 0x10 30. 0x90 30. " PEN158 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 29. 0x10 29. 0x90 29. " PEN157 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 28. 0x10 28. 0x90 28. " PEN156 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 27. 0x10 27. 0x90 27. " PEN155 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 26. 0x10 26. 0x90 26. " PEN154 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 25. 0x10 25. 0x90 25. " PEN153 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 24. 0x10 24. 0x90 24. " PEN152 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 23. 0x10 23. 0x90 23. " PEN151 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 22. 0x10 22. 0x90 22. " PEN150 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 21. 0x10 21. 0x90 21. " PEN149 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 20. 0x10 20. 0x90 20. " PEN148 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 19. 0x10 19. 0x90 19. " PEN147 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 18. 0x10 18. 0x90 18. " PEN146 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 17. 0x10 17. 0x90 17. " PEN145 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 16. 0x10 16. 0x90 16. " PEN144 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 15. 0x10 15. 0x90 15. " PEN143 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 14. 0x10 14. 0x90 14. " PEN142 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 13. 0x10 13. 0x90 13. " PEN141 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 12. 0x10 12. 0x90 12. " PEN140 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 11. 0x10 11. 0x90 11. " PEN139 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 10. 0x10 10. 0x90 10. " PEN138 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 9. 0x10 9. 0x90 9. " PEN137 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 8. 0x10 8. 0x90 8. " PEN136 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 7. 0x10 7. 0x90 7. " PEN135 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 6. 0x10 6. 0x90 6. " PEN134 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 5. 0x10 5. 0x90 5. " PEN133 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 4. 0x10 4. 0x90 4. " PEN132 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 3. 0x10 3. 0x90 3. " PEN131 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 2. 0x10 2. 0x90 2. " PEN130 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 1. 0x10 1. 0x90 1. " PEN129 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 0. 0x10 0. 0x90 0. " PEN128 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x14 "IRQ160_191_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x14 31. 0x14 31. 0x94 31. " PEN191 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 30. 0x14 30. 0x94 30. " PEN190 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 29. 0x14 29. 0x94 29. " PEN189 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 28. 0x14 28. 0x94 28. " PEN188 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 27. 0x14 27. 0x94 27. " PEN187 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 26. 0x14 26. 0x94 26. " PEN186 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x14 25. 0x14 25. 0x94 25. " PEN185 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 24. 0x14 24. 0x94 24. " PEN184 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 23. 0x14 23. 0x94 23. " PEN183 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 22. 0x14 22. 0x94 22. " PEN182 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 21. 0x14 21. 0x94 21. " PEN181 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 20. 0x14 20. 0x94 20. " PEN180 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x14 19. 0x14 19. 0x94 19. " PEN179 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 18. 0x14 18. 0x94 18. " PEN178 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 17. 0x14 17. 0x94 17. " PEN177 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 16. 0x14 16. 0x94 16. " PEN176 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 15. 0x14 15. 0x94 15. " PEN175 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 14. 0x14 14. 0x94 14. " PEN174 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x14 13. 0x14 13. 0x94 13. " PEN173 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 12. 0x14 12. 0x94 12. " PEN172 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 11. 0x14 11. 0x94 11. " PEN171 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 10. 0x14 10. 0x94 10. " PEN170 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 9. 0x14 9. 0x94 9. " PEN169 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 8. 0x14 8. 0x94 8. " PEN168 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x14 7. 0x14 7. 0x94 7. " PEN167 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 6. 0x14 6. 0x94 6. " PEN166 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 5. 0x14 5. 0x94 5. " PEN165 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 4. 0x14 4. 0x94 4. " PEN164 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 3. 0x14 3. 0x94 3. " PEN163 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 2. 0x14 2. 0x94 2. " PEN162 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x14 1. 0x14 1. 0x94 1. " PEN161 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 0. 0x14 0. 0x94 0. " PEN160 ,Interrupt Set/Clear Pending" "Not pending,Pending" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x06) group.long 0x200++0x1B line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " PEN30 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " PEN29 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 28. 0x00 28. 0x80 28. " PEN28 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " PEN27 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " PEN26 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " PEN24 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " PEN23 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 22. 0x00 22. 0x80 22. " PEN22 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " PEN21 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " PEN20 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " PEN18 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " PEN17 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 16. 0x00 16. 0x80 16. " PEN16 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " PEN15 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " PEN14 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " PEN12 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " PEN11 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 10. 0x00 10. 0x80 10. " PEN10 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " PEN9 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " PEN8 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " PEN6 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " PEN5 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 4. 0x00 4. 0x80 4. " PEN4 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " PEN3 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " PEN2 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " PEN0 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 30. 0x04 30. 0x84 30. " PEN62 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 29. 0x04 29. 0x84 29. " PEN61 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 28. 0x04 28. 0x84 28. " PEN60 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 27. 0x04 27. 0x84 27. " PEN59 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 26. 0x04 26. 0x84 26. " PEN58 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 24. 0x04 24. 0x84 24. " PEN56 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 23. 0x04 23. 0x84 23. " PEN55 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 22. 0x04 22. 0x84 22. " PEN54 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 21. 0x04 21. 0x84 21. " PEN53 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 20. 0x04 20. 0x84 20. " PEN52 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 18. 0x04 18. 0x84 18. " PEN50 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 17. 0x04 17. 0x84 17. " PEN49 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 16. 0x04 16. 0x84 16. " PEN48 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 15. 0x04 15. 0x84 15. " PEN47 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 14. 0x04 14. 0x84 14. " PEN46 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 12. 0x04 12. 0x84 12. " PEN44 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 11. 0x04 11. 0x84 11. " PEN43 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 10. 0x04 10. 0x84 10. " PEN42 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 9. 0x04 9. 0x84 9. " PEN41 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 8. 0x04 8. 0x84 8. " PEN40 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 6. 0x04 6. 0x84 6. " PEN38 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 5. 0x04 5. 0x84 5. " PEN37 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 4. 0x04 4. 0x84 4. " PEN36 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 3. 0x04 3. 0x84 3. " PEN35 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 2. 0x04 2. 0x84 2. " PEN34 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 0. 0x04 0. 0x84 0. " PEN32 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x08 31. 0x08 31. 0x88 31. " PEN95 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 30. 0x08 30. 0x88 30. " PEN94 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 29. 0x08 29. 0x88 29. " PEN93 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 28. 0x08 28. 0x88 28. " PEN92 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 27. 0x08 27. 0x88 27. " PEN91 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 26. 0x08 26. 0x88 26. " PEN90 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 25. 0x08 25. 0x88 25. " PEN89 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 24. 0x08 24. 0x88 24. " PEN88 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 23. 0x08 23. 0x88 23. " PEN87 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 22. 0x08 22. 0x88 22. " PEN86 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 21. 0x08 21. 0x88 21. " PEN85 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 20. 0x08 20. 0x88 20. " PEN84 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 19. 0x08 19. 0x88 19. " PEN83 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 18. 0x08 18. 0x88 18. " PEN82 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 17. 0x08 17. 0x88 17. " PEN81 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 16. 0x08 16. 0x88 16. " PEN80 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 15. 0x08 15. 0x88 15. " PEN79 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 14. 0x08 14. 0x88 14. " PEN78 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 13. 0x08 13. 0x88 13. " PEN77 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 12. 0x08 12. 0x88 12. " PEN76 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 11. 0x08 11. 0x88 11. " PEN75 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 10. 0x08 10. 0x88 10. " PEN74 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 9. 0x08 9. 0x88 9. " PEN73 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 8. 0x08 8. 0x88 8. " PEN72 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 7. 0x08 7. 0x88 7. " PEN71 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 6. 0x08 6. 0x88 6. " PEN70 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 5. 0x08 5. 0x88 5. " PEN69 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 4. 0x08 4. 0x88 4. " PEN68 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 3. 0x08 3. 0x88 3. " PEN67 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 2. 0x08 2. 0x88 2. " PEN66 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 1. 0x08 1. 0x88 1. " PEN65 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 0. 0x08 0. 0x88 0. " PEN64 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x0c "IRQ96_127_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " PEN127 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " PEN126 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " PEN125 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " PEN124 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " PEN123 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " PEN122 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " PEN121 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " PEN120 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " PEN119 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " PEN118 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " PEN117 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " PEN116 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " PEN115 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " PEN114 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " PEN113 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " PEN112 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " PEN111 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " PEN110 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " PEN109 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " PEN108 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " PEN107 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " PEN106 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " PEN105 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " PEN104 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " PEN103 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " PEN102 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " PEN101 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " PEN100 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " PEN99 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " PEN98 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " PEN97 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " PEN96 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x10 "IRQ128_159_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x10 31. 0x10 31. 0x90 31. " PEN159 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 30. 0x10 30. 0x90 30. " PEN158 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 29. 0x10 29. 0x90 29. " PEN157 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 28. 0x10 28. 0x90 28. " PEN156 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 27. 0x10 27. 0x90 27. " PEN155 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 26. 0x10 26. 0x90 26. " PEN154 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 25. 0x10 25. 0x90 25. " PEN153 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 24. 0x10 24. 0x90 24. " PEN152 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 23. 0x10 23. 0x90 23. " PEN151 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 22. 0x10 22. 0x90 22. " PEN150 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 21. 0x10 21. 0x90 21. " PEN149 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 20. 0x10 20. 0x90 20. " PEN148 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 19. 0x10 19. 0x90 19. " PEN147 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 18. 0x10 18. 0x90 18. " PEN146 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 17. 0x10 17. 0x90 17. " PEN145 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 16. 0x10 16. 0x90 16. " PEN144 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 15. 0x10 15. 0x90 15. " PEN143 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 14. 0x10 14. 0x90 14. " PEN142 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 13. 0x10 13. 0x90 13. " PEN141 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 12. 0x10 12. 0x90 12. " PEN140 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 11. 0x10 11. 0x90 11. " PEN139 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 10. 0x10 10. 0x90 10. " PEN138 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 9. 0x10 9. 0x90 9. " PEN137 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 8. 0x10 8. 0x90 8. " PEN136 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 7. 0x10 7. 0x90 7. " PEN135 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 6. 0x10 6. 0x90 6. " PEN134 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 5. 0x10 5. 0x90 5. " PEN133 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 4. 0x10 4. 0x90 4. " PEN132 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 3. 0x10 3. 0x90 3. " PEN131 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 2. 0x10 2. 0x90 2. " PEN130 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 1. 0x10 1. 0x90 1. " PEN129 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 0. 0x10 0. 0x90 0. " PEN128 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x14 "IRQ160_191_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x14 31. 0x14 31. 0x94 31. " PEN191 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 30. 0x14 30. 0x94 30. " PEN190 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 29. 0x14 29. 0x94 29. " PEN189 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 28. 0x14 28. 0x94 28. " PEN188 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 27. 0x14 27. 0x94 27. " PEN187 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 26. 0x14 26. 0x94 26. " PEN186 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x14 25. 0x14 25. 0x94 25. " PEN185 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 24. 0x14 24. 0x94 24. " PEN184 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 23. 0x14 23. 0x94 23. " PEN183 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 22. 0x14 22. 0x94 22. " PEN182 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 21. 0x14 21. 0x94 21. " PEN181 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 20. 0x14 20. 0x94 20. " PEN180 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x14 19. 0x14 19. 0x94 19. " PEN179 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 18. 0x14 18. 0x94 18. " PEN178 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 17. 0x14 17. 0x94 17. " PEN177 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 16. 0x14 16. 0x94 16. " PEN176 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 15. 0x14 15. 0x94 15. " PEN175 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 14. 0x14 14. 0x94 14. " PEN174 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x14 13. 0x14 13. 0x94 13. " PEN173 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 12. 0x14 12. 0x94 12. " PEN172 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 11. 0x14 11. 0x94 11. " PEN171 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 10. 0x14 10. 0x94 10. " PEN170 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 9. 0x14 9. 0x94 9. " PEN169 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 8. 0x14 8. 0x94 8. " PEN168 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x14 7. 0x14 7. 0x94 7. " PEN167 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 6. 0x14 6. 0x94 6. " PEN166 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 5. 0x14 5. 0x94 5. " PEN165 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 4. 0x14 4. 0x94 4. " PEN164 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 3. 0x14 3. 0x94 3. " PEN163 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 2. 0x14 2. 0x94 2. " PEN162 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x14 1. 0x14 1. 0x94 1. " PEN161 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 0. 0x14 0. 0x94 0. " PEN160 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x18 "IRQ192_223_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x18 31. 0x18 31. 0x98 31. " PEN223 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 30. 0x18 30. 0x98 30. " PEN222 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 29. 0x18 29. 0x98 29. " PEN221 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 28. 0x18 28. 0x98 28. " PEN220 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 27. 0x18 27. 0x98 27. " PEN219 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 26. 0x18 26. 0x98 26. " PEN218 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x18 25. 0x18 25. 0x98 25. " PEN217 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 24. 0x18 24. 0x98 24. " PEN216 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 23. 0x18 23. 0x98 23. " PEN215 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 22. 0x18 22. 0x98 22. " PEN214 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 21. 0x18 21. 0x98 21. " PEN213 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 20. 0x18 20. 0x98 20. " PEN212 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x18 19. 0x18 19. 0x98 19. " PEN211 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 18. 0x18 18. 0x98 18. " PEN210 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 17. 0x18 17. 0x98 17. " PEN209 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 16. 0x18 16. 0x98 16. " PEN208 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 15. 0x18 15. 0x98 15. " PEN207 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 14. 0x18 14. 0x98 14. " PEN206 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x18 13. 0x18 13. 0x98 13. " PEN205 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 12. 0x18 12. 0x98 12. " PEN204 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 11. 0x18 11. 0x98 11. " PEN203 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 10. 0x18 10. 0x98 10. " PEN202 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 9. 0x18 9. 0x98 9. " PEN201 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 8. 0x18 8. 0x98 8. " PEN200 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x18 7. 0x18 7. 0x98 7. " PEN199 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 6. 0x18 6. 0x98 6. " PEN198 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 5. 0x18 5. 0x98 5. " PEN197 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 4. 0x18 4. 0x98 4. " PEN196 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 3. 0x18 3. 0x98 3. " PEN195 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 2. 0x18 2. 0x98 2. " PEN194 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x18 1. 0x18 1. 0x98 1. " PEN193 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 0. 0x18 0. 0x98 0. " PEN192 ,Interrupt Set/Clear Pending" "Not pending,Pending" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x07) group.long 0x200++0x1F line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " PEN30 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " PEN29 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 28. 0x00 28. 0x80 28. " PEN28 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " PEN27 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " PEN26 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " PEN24 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " PEN23 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 22. 0x00 22. 0x80 22. " PEN22 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " PEN21 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " PEN20 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " PEN18 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " PEN17 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 16. 0x00 16. 0x80 16. " PEN16 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " PEN15 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " PEN14 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " PEN12 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " PEN11 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 10. 0x00 10. 0x80 10. " PEN10 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " PEN9 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " PEN8 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " PEN6 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " PEN5 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 4. 0x00 4. 0x80 4. " PEN4 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " PEN3 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " PEN2 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " PEN0 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 30. 0x04 30. 0x84 30. " PEN62 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 29. 0x04 29. 0x84 29. " PEN61 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 28. 0x04 28. 0x84 28. " PEN60 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 27. 0x04 27. 0x84 27. " PEN59 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 26. 0x04 26. 0x84 26. " PEN58 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 24. 0x04 24. 0x84 24. " PEN56 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 23. 0x04 23. 0x84 23. " PEN55 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 22. 0x04 22. 0x84 22. " PEN54 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 21. 0x04 21. 0x84 21. " PEN53 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 20. 0x04 20. 0x84 20. " PEN52 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 18. 0x04 18. 0x84 18. " PEN50 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 17. 0x04 17. 0x84 17. " PEN49 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 16. 0x04 16. 0x84 16. " PEN48 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 15. 0x04 15. 0x84 15. " PEN47 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 14. 0x04 14. 0x84 14. " PEN46 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 12. 0x04 12. 0x84 12. " PEN44 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 11. 0x04 11. 0x84 11. " PEN43 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 10. 0x04 10. 0x84 10. " PEN42 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 9. 0x04 9. 0x84 9. " PEN41 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 8. 0x04 8. 0x84 8. " PEN40 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 6. 0x04 6. 0x84 6. " PEN38 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 5. 0x04 5. 0x84 5. " PEN37 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 4. 0x04 4. 0x84 4. " PEN36 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 3. 0x04 3. 0x84 3. " PEN35 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 2. 0x04 2. 0x84 2. " PEN34 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x04 0. 0x04 0. 0x84 0. " PEN32 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x08 31. 0x08 31. 0x88 31. " PEN95 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 30. 0x08 30. 0x88 30. " PEN94 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 29. 0x08 29. 0x88 29. " PEN93 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 28. 0x08 28. 0x88 28. " PEN92 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 27. 0x08 27. 0x88 27. " PEN91 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 26. 0x08 26. 0x88 26. " PEN90 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 25. 0x08 25. 0x88 25. " PEN89 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 24. 0x08 24. 0x88 24. " PEN88 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 23. 0x08 23. 0x88 23. " PEN87 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 22. 0x08 22. 0x88 22. " PEN86 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 21. 0x08 21. 0x88 21. " PEN85 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 20. 0x08 20. 0x88 20. " PEN84 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 19. 0x08 19. 0x88 19. " PEN83 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 18. 0x08 18. 0x88 18. " PEN82 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 17. 0x08 17. 0x88 17. " PEN81 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 16. 0x08 16. 0x88 16. " PEN80 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 15. 0x08 15. 0x88 15. " PEN79 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 14. 0x08 14. 0x88 14. " PEN78 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 13. 0x08 13. 0x88 13. " PEN77 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 12. 0x08 12. 0x88 12. " PEN76 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 11. 0x08 11. 0x88 11. " PEN75 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 10. 0x08 10. 0x88 10. " PEN74 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 9. 0x08 9. 0x88 9. " PEN73 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 8. 0x08 8. 0x88 8. " PEN72 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 7. 0x08 7. 0x88 7. " PEN71 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 6. 0x08 6. 0x88 6. " PEN70 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 5. 0x08 5. 0x88 5. " PEN69 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 4. 0x08 4. 0x88 4. " PEN68 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 3. 0x08 3. 0x88 3. " PEN67 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 2. 0x08 2. 0x88 2. " PEN66 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x08 1. 0x08 1. 0x88 1. " PEN65 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x08 0. 0x08 0. 0x88 0. " PEN64 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x0c "IRQ96_127_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " PEN127 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " PEN126 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " PEN125 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " PEN124 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " PEN123 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " PEN122 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " PEN121 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " PEN120 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " PEN119 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " PEN118 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " PEN117 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " PEN116 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " PEN115 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " PEN114 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " PEN113 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " PEN112 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " PEN111 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " PEN110 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " PEN109 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " PEN108 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " PEN107 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " PEN106 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " PEN105 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " PEN104 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " PEN103 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " PEN102 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " PEN101 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " PEN100 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " PEN99 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " PEN98 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " PEN97 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " PEN96 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x10 "IRQ128_159_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x10 31. 0x10 31. 0x90 31. " PEN159 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 30. 0x10 30. 0x90 30. " PEN158 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 29. 0x10 29. 0x90 29. " PEN157 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 28. 0x10 28. 0x90 28. " PEN156 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 27. 0x10 27. 0x90 27. " PEN155 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 26. 0x10 26. 0x90 26. " PEN154 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 25. 0x10 25. 0x90 25. " PEN153 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 24. 0x10 24. 0x90 24. " PEN152 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 23. 0x10 23. 0x90 23. " PEN151 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 22. 0x10 22. 0x90 22. " PEN150 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 21. 0x10 21. 0x90 21. " PEN149 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 20. 0x10 20. 0x90 20. " PEN148 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 19. 0x10 19. 0x90 19. " PEN147 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 18. 0x10 18. 0x90 18. " PEN146 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 17. 0x10 17. 0x90 17. " PEN145 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 16. 0x10 16. 0x90 16. " PEN144 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 15. 0x10 15. 0x90 15. " PEN143 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 14. 0x10 14. 0x90 14. " PEN142 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 13. 0x10 13. 0x90 13. " PEN141 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 12. 0x10 12. 0x90 12. " PEN140 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 11. 0x10 11. 0x90 11. " PEN139 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 10. 0x10 10. 0x90 10. " PEN138 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 9. 0x10 9. 0x90 9. " PEN137 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 8. 0x10 8. 0x90 8. " PEN136 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 7. 0x10 7. 0x90 7. " PEN135 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 6. 0x10 6. 0x90 6. " PEN134 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 5. 0x10 5. 0x90 5. " PEN133 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 4. 0x10 4. 0x90 4. " PEN132 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 3. 0x10 3. 0x90 3. " PEN131 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 2. 0x10 2. 0x90 2. " PEN130 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x10 1. 0x10 1. 0x90 1. " PEN129 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x10 0. 0x10 0. 0x90 0. " PEN128 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x14 "IRQ160_191_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x14 31. 0x14 31. 0x94 31. " PEN191 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 30. 0x14 30. 0x94 30. " PEN190 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 29. 0x14 29. 0x94 29. " PEN189 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 28. 0x14 28. 0x94 28. " PEN188 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 27. 0x14 27. 0x94 27. " PEN187 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 26. 0x14 26. 0x94 26. " PEN186 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x14 25. 0x14 25. 0x94 25. " PEN185 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 24. 0x14 24. 0x94 24. " PEN184 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 23. 0x14 23. 0x94 23. " PEN183 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 22. 0x14 22. 0x94 22. " PEN182 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 21. 0x14 21. 0x94 21. " PEN181 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 20. 0x14 20. 0x94 20. " PEN180 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x14 19. 0x14 19. 0x94 19. " PEN179 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 18. 0x14 18. 0x94 18. " PEN178 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 17. 0x14 17. 0x94 17. " PEN177 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 16. 0x14 16. 0x94 16. " PEN176 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 15. 0x14 15. 0x94 15. " PEN175 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 14. 0x14 14. 0x94 14. " PEN174 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x14 13. 0x14 13. 0x94 13. " PEN173 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 12. 0x14 12. 0x94 12. " PEN172 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 11. 0x14 11. 0x94 11. " PEN171 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 10. 0x14 10. 0x94 10. " PEN170 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 9. 0x14 9. 0x94 9. " PEN169 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 8. 0x14 8. 0x94 8. " PEN168 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x14 7. 0x14 7. 0x94 7. " PEN167 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 6. 0x14 6. 0x94 6. " PEN166 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 5. 0x14 5. 0x94 5. " PEN165 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 4. 0x14 4. 0x94 4. " PEN164 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 3. 0x14 3. 0x94 3. " PEN163 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 2. 0x14 2. 0x94 2. " PEN162 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x14 1. 0x14 1. 0x94 1. " PEN161 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x14 0. 0x14 0. 0x94 0. " PEN160 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x18 "IRQ192_223_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x18 31. 0x18 31. 0x98 31. " PEN223 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 30. 0x18 30. 0x98 30. " PEN222 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 29. 0x18 29. 0x98 29. " PEN221 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 28. 0x18 28. 0x98 28. " PEN220 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 27. 0x18 27. 0x98 27. " PEN219 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 26. 0x18 26. 0x98 26. " PEN218 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x18 25. 0x18 25. 0x98 25. " PEN217 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 24. 0x18 24. 0x98 24. " PEN216 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 23. 0x18 23. 0x98 23. " PEN215 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 22. 0x18 22. 0x98 22. " PEN214 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 21. 0x18 21. 0x98 21. " PEN213 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 20. 0x18 20. 0x98 20. " PEN212 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x18 19. 0x18 19. 0x98 19. " PEN211 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 18. 0x18 18. 0x98 18. " PEN210 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 17. 0x18 17. 0x98 17. " PEN209 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 16. 0x18 16. 0x98 16. " PEN208 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 15. 0x18 15. 0x98 15. " PEN207 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 14. 0x18 14. 0x98 14. " PEN206 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x18 13. 0x18 13. 0x98 13. " PEN205 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 12. 0x18 12. 0x98 12. " PEN204 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 11. 0x18 11. 0x98 11. " PEN203 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 10. 0x18 10. 0x98 10. " PEN202 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 9. 0x18 9. 0x98 9. " PEN201 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 8. 0x18 8. 0x98 8. " PEN200 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x18 7. 0x18 7. 0x98 7. " PEN199 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 6. 0x18 6. 0x98 6. " PEN198 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 5. 0x18 5. 0x98 5. " PEN197 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 4. 0x18 4. 0x98 4. " PEN196 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 3. 0x18 3. 0x98 3. " PEN195 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 2. 0x18 2. 0x98 2. " PEN194 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x18 1. 0x18 1. 0x98 1. " PEN193 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x18 0. 0x18 0. 0x98 0. " PEN192 ,Interrupt Set/Clear Pending" "Not pending,Pending" line.long 0x1c "IRQ224_239_PEN_SET/CLR,Interrupt Pending Register" setclrfld.long 0x1c 15. 0x1c 15. 0x9c 15. " PEN239 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x1c 14. 0x1c 14. 0x9c 14. " PEN238 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x1c 13. 0x1c 13. 0x9c 13. " PEN237 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x1c 12. 0x1c 12. 0x9c 12. " PEN236 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x1c 11. 0x1c 11. 0x9c 11. " PEN235 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x1c 10. 0x1c 10. 0x9c 10. " PEN234 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x1c 9. 0x1c 9. 0x9c 9. " PEN233 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x1c 8. 0x1c 8. 0x9c 8. " PEN232 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x1c 7. 0x1c 7. 0x9c 7. " PEN231 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x1c 6. 0x1c 6. 0x9c 6. " PEN230 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x1c 5. 0x1c 5. 0x9c 5. " PEN229 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x1c 4. 0x1c 4. 0x9c 4. " PEN228 ,Interrupt Set/Clear Pending" "Not pending,Pending" textline " " setclrfld.long 0x1c 3. 0x1c 3. 0x9c 3. " PEN227 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x1c 2. 0x1c 2. 0x9c 2. " PEN226 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x1c 1. 0x1c 1. 0x9c 1. " PEN225 ,Interrupt Set/Clear Pending" "Not pending,Pending" setclrfld.long 0x1c 0. 0x1c 0. 0x9c 0. " PEN224 ,Interrupt Set/Clear Pending" "Not pending,Pending" else hgroup.long 0x200++0x1F hide.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register" hide.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register" hide.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register" hide.long 0x0c "IRQ96_127_PEN_SET/CLR,Interrupt Pending Register" hide.long 0x10 "IRQ128_159_PEN_SET/CLR,Interrupt Pending Register" hide.long 0x14 "IRQ160_191_PEN_SET/CLR,Interrupt Pending Register" hide.long 0x18 "IRQ192_223_PEN_SET/CLR,Interrupt Pending Register" hide.long 0x1c "IRQ224_239_PEN_SET/CLR,Interrupt Pending Register" endif tree.end tree "Interrupt Active Bit Registers" width 9. if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x00) rgroup.long 0x300++0x03 line.long 0x00 "ACTIVE1,Active Bit Register 1" bitfld.long 0x00 31. " ACTIVE31 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 30. " ACTIVE30 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 29. " ACTIVE29 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 28. " ACTIVE28 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 27. " ACTIVE27 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 26. " ACTIVE26 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 25. " ACTIVE25 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 24. " ACTIVE24 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 23. " ACTIVE23 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 22. " ACTIVE22 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 21. " ACTIVE21 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 20. " ACTIVE20 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 19. " ACTIVE19 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 18. " ACTIVE18 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 17. " ACTIVE17 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 16. " ACTIVE16 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 15. " ACTIVE15 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 14. " ACTIVE14 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 13. " ACTIVE13 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 12. " ACTIVE12 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 11. " ACTIVE11 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 10. " ACTIVE10 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 9. " ACTIVE9 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 8. " ACTIVE8 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 7. " ACTIVE7 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 6. " ACTIVE6 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 5. " ACTIVE5 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 4. " ACTIVE4 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 3. " ACTIVE3 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 2. " ACTIVE2 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 1. " ACTIVE1 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 0. " ACTIVE0 ,Interrupt Active Flag" "Not active,Active" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x01) rgroup.long 0x300++0x07 line.long 0x00 "ACTIVE1,Active Bit Register 1" bitfld.long 0x00 31. " ACTIVE31 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 30. " ACTIVE30 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 29. " ACTIVE29 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 28. " ACTIVE28 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 27. " ACTIVE27 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 26. " ACTIVE26 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 25. " ACTIVE25 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 24. " ACTIVE24 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 23. " ACTIVE23 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 22. " ACTIVE22 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 21. " ACTIVE21 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 20. " ACTIVE20 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 19. " ACTIVE19 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 18. " ACTIVE18 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 17. " ACTIVE17 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 16. " ACTIVE16 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 15. " ACTIVE15 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 14. " ACTIVE14 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 13. " ACTIVE13 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 12. " ACTIVE12 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 11. " ACTIVE11 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 10. " ACTIVE10 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 9. " ACTIVE9 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 8. " ACTIVE8 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 7. " ACTIVE7 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 6. " ACTIVE6 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 5. " ACTIVE5 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 4. " ACTIVE4 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 3. " ACTIVE3 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 2. " ACTIVE2 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 1. " ACTIVE1 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 0. " ACTIVE0 ,Interrupt Active Flag" "Not active,Active" line.long 0x04 "ACTIVE2,Active Bit Register 2" bitfld.long 0x04 31. " ACTIVE63 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 30. " ACTIVE62 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 29. " ACTIVE61 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 28. " ACTIVE60 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 27. " ACTIVE59 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 26. " ACTIVE58 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 25. " ACTIVE57 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 24. " ACTIVE56 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 23. " ACTIVE55 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 22. " ACTIVE54 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 21. " ACTIVE53 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 20. " ACTIVE52 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 19. " ACTIVE51 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 18. " ACTIVE50 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 17. " ACTIVE49 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 16. " ACTIVE48 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 15. " ACTIVE47 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 14. " ACTIVE46 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 13. " ACTIVE45 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 12. " ACTIVE44 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 11. " ACTIVE43 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 10. " ACTIVE42 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 9. " ACTIVE41 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 8. " ACTIVE40 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 7. " ACTIVE39 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 6. " ACTIVE38 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 5. " ACTIVE37 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 4. " ACTIVE36 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 3. " ACTIVE35 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 2. " ACTIVE34 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 1. " ACTIVE33 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 0. " ACTIVE32 ,Interrupt Active Flag" "Not active,Active" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x02) rgroup.long 0x300++0x0B line.long 0x00 "ACTIVE1,Active Bit Register 1" bitfld.long 0x00 31. " ACTIVE31 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 30. " ACTIVE30 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 29. " ACTIVE29 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 28. " ACTIVE28 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 27. " ACTIVE27 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 26. " ACTIVE26 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 25. " ACTIVE25 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 24. " ACTIVE24 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 23. " ACTIVE23 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 22. " ACTIVE22 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 21. " ACTIVE21 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 20. " ACTIVE20 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 19. " ACTIVE19 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 18. " ACTIVE18 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 17. " ACTIVE17 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 16. " ACTIVE16 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 15. " ACTIVE15 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 14. " ACTIVE14 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 13. " ACTIVE13 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 12. " ACTIVE12 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 11. " ACTIVE11 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 10. " ACTIVE10 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 9. " ACTIVE9 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 8. " ACTIVE8 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 7. " ACTIVE7 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 6. " ACTIVE6 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 5. " ACTIVE5 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 4. " ACTIVE4 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 3. " ACTIVE3 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 2. " ACTIVE2 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 1. " ACTIVE1 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 0. " ACTIVE0 ,Interrupt Active Flag" "Not active,Active" line.long 0x04 "ACTIVE2,Active Bit Register 2" bitfld.long 0x04 31. " ACTIVE63 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 30. " ACTIVE62 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 29. " ACTIVE61 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 28. " ACTIVE60 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 27. " ACTIVE59 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 26. " ACTIVE58 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 25. " ACTIVE57 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 24. " ACTIVE56 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 23. " ACTIVE55 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 22. " ACTIVE54 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 21. " ACTIVE53 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 20. " ACTIVE52 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 19. " ACTIVE51 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 18. " ACTIVE50 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 17. " ACTIVE49 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 16. " ACTIVE48 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 15. " ACTIVE47 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 14. " ACTIVE46 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 13. " ACTIVE45 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 12. " ACTIVE44 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 11. " ACTIVE43 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 10. " ACTIVE42 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 9. " ACTIVE41 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 8. " ACTIVE40 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 7. " ACTIVE39 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 6. " ACTIVE38 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 5. " ACTIVE37 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 4. " ACTIVE36 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 3. " ACTIVE35 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 2. " ACTIVE34 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 1. " ACTIVE33 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 0. " ACTIVE32 ,Interrupt Active Flag" "Not active,Active" line.long 0x08 "ACTIVE3,Active Bit Register 3" bitfld.long 0x08 31. " ACTIVE95 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 30. " ACTIVE94 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 29. " ACTIVE93 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 28. " ACTIVE92 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 27. " ACTIVE91 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 26. " ACTIVE90 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 25. " ACTIVE89 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 24. " ACTIVE88 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 23. " ACTIVE87 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 22. " ACTIVE86 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 21. " ACTIVE85 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 20. " ACTIVE84 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 19. " ACTIVE83 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 18. " ACTIVE82 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 17. " ACTIVE81 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 16. " ACTIVE80 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 15. " ACTIVE79 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 14. " ACTIVE78 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 13. " ACTIVE77 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 12. " ACTIVE76 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 11. " ACTIVE75 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 10. " ACTIVE74 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 9. " ACTIVE73 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 8. " ACTIVE72 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 7. " ACTIVE71 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 6. " ACTIVE70 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 5. " ACTIVE69 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 4. " ACTIVE68 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 3. " ACTIVE67 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 2. " ACTIVE66 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 1. " ACTIVE65 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 0. " ACTIVE64 ,Interrupt Active Flag" "Not active,Active" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x03) rgroup.long 0x300++0x0F line.long 0x00 "ACTIVE1,Active Bit Register 1" bitfld.long 0x00 31. " ACTIVE31 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 30. " ACTIVE30 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 29. " ACTIVE29 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 28. " ACTIVE28 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 27. " ACTIVE27 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 26. " ACTIVE26 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 25. " ACTIVE25 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 24. " ACTIVE24 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 23. " ACTIVE23 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 22. " ACTIVE22 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 21. " ACTIVE21 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 20. " ACTIVE20 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 19. " ACTIVE19 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 18. " ACTIVE18 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 17. " ACTIVE17 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 16. " ACTIVE16 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 15. " ACTIVE15 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 14. " ACTIVE14 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 13. " ACTIVE13 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 12. " ACTIVE12 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 11. " ACTIVE11 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 10. " ACTIVE10 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 9. " ACTIVE9 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 8. " ACTIVE8 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 7. " ACTIVE7 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 6. " ACTIVE6 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 5. " ACTIVE5 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 4. " ACTIVE4 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 3. " ACTIVE3 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 2. " ACTIVE2 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 1. " ACTIVE1 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 0. " ACTIVE0 ,Interrupt Active Flag" "Not active,Active" line.long 0x04 "ACTIVE2,Active Bit Register 2" bitfld.long 0x04 31. " ACTIVE63 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 30. " ACTIVE62 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 29. " ACTIVE61 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 28. " ACTIVE60 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 27. " ACTIVE59 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 26. " ACTIVE58 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 25. " ACTIVE57 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 24. " ACTIVE56 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 23. " ACTIVE55 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 22. " ACTIVE54 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 21. " ACTIVE53 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 20. " ACTIVE52 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 19. " ACTIVE51 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 18. " ACTIVE50 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 17. " ACTIVE49 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 16. " ACTIVE48 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 15. " ACTIVE47 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 14. " ACTIVE46 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 13. " ACTIVE45 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 12. " ACTIVE44 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 11. " ACTIVE43 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 10. " ACTIVE42 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 9. " ACTIVE41 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 8. " ACTIVE40 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 7. " ACTIVE39 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 6. " ACTIVE38 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 5. " ACTIVE37 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 4. " ACTIVE36 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 3. " ACTIVE35 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 2. " ACTIVE34 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 1. " ACTIVE33 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 0. " ACTIVE32 ,Interrupt Active Flag" "Not active,Active" line.long 0x08 "ACTIVE3,Active Bit Register 3" bitfld.long 0x08 31. " ACTIVE95 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 30. " ACTIVE94 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 29. " ACTIVE93 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 28. " ACTIVE92 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 27. " ACTIVE91 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 26. " ACTIVE90 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 25. " ACTIVE89 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 24. " ACTIVE88 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 23. " ACTIVE87 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 22. " ACTIVE86 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 21. " ACTIVE85 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 20. " ACTIVE84 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 19. " ACTIVE83 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 18. " ACTIVE82 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 17. " ACTIVE81 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 16. " ACTIVE80 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 15. " ACTIVE79 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 14. " ACTIVE78 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 13. " ACTIVE77 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 12. " ACTIVE76 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 11. " ACTIVE75 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 10. " ACTIVE74 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 9. " ACTIVE73 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 8. " ACTIVE72 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 7. " ACTIVE71 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 6. " ACTIVE70 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 5. " ACTIVE69 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 4. " ACTIVE68 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 3. " ACTIVE67 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 2. " ACTIVE66 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 1. " ACTIVE65 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 0. " ACTIVE64 ,Interrupt Active Flag" "Not active,Active" line.long 0x0c "ACTIVE4,Active Bit Register 4" bitfld.long 0x0c 31. " ACTIVE127 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 30. " ACTIVE126 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 29. " ACTIVE125 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 28. " ACTIVE124 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 27. " ACTIVE123 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 26. " ACTIVE122 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 25. " ACTIVE121 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 24. " ACTIVE120 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 23. " ACTIVE119 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 22. " ACTIVE118 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 21. " ACTIVE117 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 20. " ACTIVE116 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 19. " ACTIVE115 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 18. " ACTIVE114 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 17. " ACTIVE113 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 16. " ACTIVE112 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 15. " ACTIVE111 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 14. " ACTIVE110 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 13. " ACTIVE109 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 12. " ACTIVE108 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 11. " ACTIVE107 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 10. " ACTIVE106 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 9. " ACTIVE105 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 8. " ACTIVE104 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 7. " ACTIVE103 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 6. " ACTIVE102 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 5. " ACTIVE101 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 4. " ACTIVE100 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 3. " ACTIVE99 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 2. " ACTIVE98 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 1. " ACTIVE97 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 0. " ACTIVE96 ,Interrupt Active Flag" "Not active,Active" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x04) rgroup.long 0x300++0x13 line.long 0x00 "ACTIVE1,Active Bit Register 1" bitfld.long 0x00 31. " ACTIVE31 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 30. " ACTIVE30 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 29. " ACTIVE29 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 28. " ACTIVE28 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 27. " ACTIVE27 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 26. " ACTIVE26 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 25. " ACTIVE25 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 24. " ACTIVE24 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 23. " ACTIVE23 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 22. " ACTIVE22 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 21. " ACTIVE21 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 20. " ACTIVE20 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 19. " ACTIVE19 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 18. " ACTIVE18 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 17. " ACTIVE17 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 16. " ACTIVE16 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 15. " ACTIVE15 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 14. " ACTIVE14 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 13. " ACTIVE13 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 12. " ACTIVE12 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 11. " ACTIVE11 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 10. " ACTIVE10 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 9. " ACTIVE9 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 8. " ACTIVE8 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 7. " ACTIVE7 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 6. " ACTIVE6 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 5. " ACTIVE5 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 4. " ACTIVE4 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 3. " ACTIVE3 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 2. " ACTIVE2 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 1. " ACTIVE1 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 0. " ACTIVE0 ,Interrupt Active Flag" "Not active,Active" line.long 0x04 "ACTIVE2,Active Bit Register 2" bitfld.long 0x04 31. " ACTIVE63 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 30. " ACTIVE62 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 29. " ACTIVE61 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 28. " ACTIVE60 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 27. " ACTIVE59 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 26. " ACTIVE58 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 25. " ACTIVE57 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 24. " ACTIVE56 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 23. " ACTIVE55 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 22. " ACTIVE54 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 21. " ACTIVE53 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 20. " ACTIVE52 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 19. " ACTIVE51 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 18. " ACTIVE50 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 17. " ACTIVE49 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 16. " ACTIVE48 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 15. " ACTIVE47 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 14. " ACTIVE46 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 13. " ACTIVE45 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 12. " ACTIVE44 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 11. " ACTIVE43 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 10. " ACTIVE42 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 9. " ACTIVE41 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 8. " ACTIVE40 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 7. " ACTIVE39 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 6. " ACTIVE38 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 5. " ACTIVE37 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 4. " ACTIVE36 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 3. " ACTIVE35 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 2. " ACTIVE34 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 1. " ACTIVE33 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 0. " ACTIVE32 ,Interrupt Active Flag" "Not active,Active" line.long 0x08 "ACTIVE3,Active Bit Register 3" bitfld.long 0x08 31. " ACTIVE95 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 30. " ACTIVE94 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 29. " ACTIVE93 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 28. " ACTIVE92 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 27. " ACTIVE91 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 26. " ACTIVE90 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 25. " ACTIVE89 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 24. " ACTIVE88 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 23. " ACTIVE87 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 22. " ACTIVE86 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 21. " ACTIVE85 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 20. " ACTIVE84 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 19. " ACTIVE83 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 18. " ACTIVE82 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 17. " ACTIVE81 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 16. " ACTIVE80 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 15. " ACTIVE79 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 14. " ACTIVE78 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 13. " ACTIVE77 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 12. " ACTIVE76 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 11. " ACTIVE75 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 10. " ACTIVE74 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 9. " ACTIVE73 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 8. " ACTIVE72 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 7. " ACTIVE71 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 6. " ACTIVE70 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 5. " ACTIVE69 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 4. " ACTIVE68 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 3. " ACTIVE67 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 2. " ACTIVE66 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 1. " ACTIVE65 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 0. " ACTIVE64 ,Interrupt Active Flag" "Not active,Active" line.long 0x0c "ACTIVE4,Active Bit Register 4" bitfld.long 0x0c 31. " ACTIVE127 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 30. " ACTIVE126 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 29. " ACTIVE125 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 28. " ACTIVE124 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 27. " ACTIVE123 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 26. " ACTIVE122 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 25. " ACTIVE121 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 24. " ACTIVE120 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 23. " ACTIVE119 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 22. " ACTIVE118 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 21. " ACTIVE117 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 20. " ACTIVE116 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 19. " ACTIVE115 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 18. " ACTIVE114 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 17. " ACTIVE113 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 16. " ACTIVE112 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 15. " ACTIVE111 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 14. " ACTIVE110 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 13. " ACTIVE109 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 12. " ACTIVE108 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 11. " ACTIVE107 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 10. " ACTIVE106 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 9. " ACTIVE105 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 8. " ACTIVE104 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 7. " ACTIVE103 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 6. " ACTIVE102 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 5. " ACTIVE101 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 4. " ACTIVE100 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 3. " ACTIVE99 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 2. " ACTIVE98 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 1. " ACTIVE97 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 0. " ACTIVE96 ,Interrupt Active Flag" "Not active,Active" line.long 0x10 "ACTIVE5,Active Bit Register 5" bitfld.long 0x10 31. " ACTIVE159 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 30. " ACTIVE158 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 29. " ACTIVE157 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 28. " ACTIVE156 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 27. " ACTIVE155 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 26. " ACTIVE154 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 25. " ACTIVE153 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 24. " ACTIVE152 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 23. " ACTIVE151 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 22. " ACTIVE150 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 21. " ACTIVE149 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 20. " ACTIVE148 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 19. " ACTIVE147 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 18. " ACTIVE146 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 17. " ACTIVE145 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 16. " ACTIVE144 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 15. " ACTIVE143 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 14. " ACTIVE142 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 13. " ACTIVE141 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 12. " ACTIVE140 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 11. " ACTIVE139 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 10. " ACTIVE138 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 9. " ACTIVE137 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 8. " ACTIVE136 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 7. " ACTIVE135 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 6. " ACTIVE134 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 5. " ACTIVE133 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 4. " ACTIVE132 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 3. " ACTIVE131 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 2. " ACTIVE130 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 1. " ACTIVE129 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 0. " ACTIVE128 ,Interrupt Active Flag" "Not active,Active" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x05) rgroup.long 0x300++0x17 line.long 0x00 "ACTIVE1,Active Bit Register 1" bitfld.long 0x00 31. " ACTIVE31 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 30. " ACTIVE30 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 29. " ACTIVE29 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 28. " ACTIVE28 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 27. " ACTIVE27 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 26. " ACTIVE26 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 25. " ACTIVE25 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 24. " ACTIVE24 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 23. " ACTIVE23 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 22. " ACTIVE22 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 21. " ACTIVE21 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 20. " ACTIVE20 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 19. " ACTIVE19 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 18. " ACTIVE18 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 17. " ACTIVE17 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 16. " ACTIVE16 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 15. " ACTIVE15 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 14. " ACTIVE14 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 13. " ACTIVE13 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 12. " ACTIVE12 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 11. " ACTIVE11 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 10. " ACTIVE10 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 9. " ACTIVE9 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 8. " ACTIVE8 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 7. " ACTIVE7 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 6. " ACTIVE6 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 5. " ACTIVE5 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 4. " ACTIVE4 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 3. " ACTIVE3 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 2. " ACTIVE2 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 1. " ACTIVE1 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 0. " ACTIVE0 ,Interrupt Active Flag" "Not active,Active" line.long 0x04 "ACTIVE2,Active Bit Register 2" bitfld.long 0x04 31. " ACTIVE63 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 30. " ACTIVE62 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 29. " ACTIVE61 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 28. " ACTIVE60 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 27. " ACTIVE59 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 26. " ACTIVE58 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 25. " ACTIVE57 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 24. " ACTIVE56 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 23. " ACTIVE55 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 22. " ACTIVE54 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 21. " ACTIVE53 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 20. " ACTIVE52 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 19. " ACTIVE51 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 18. " ACTIVE50 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 17. " ACTIVE49 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 16. " ACTIVE48 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 15. " ACTIVE47 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 14. " ACTIVE46 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 13. " ACTIVE45 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 12. " ACTIVE44 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 11. " ACTIVE43 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 10. " ACTIVE42 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 9. " ACTIVE41 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 8. " ACTIVE40 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 7. " ACTIVE39 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 6. " ACTIVE38 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 5. " ACTIVE37 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 4. " ACTIVE36 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 3. " ACTIVE35 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 2. " ACTIVE34 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 1. " ACTIVE33 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 0. " ACTIVE32 ,Interrupt Active Flag" "Not active,Active" line.long 0x08 "ACTIVE3,Active Bit Register 3" bitfld.long 0x08 31. " ACTIVE95 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 30. " ACTIVE94 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 29. " ACTIVE93 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 28. " ACTIVE92 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 27. " ACTIVE91 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 26. " ACTIVE90 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 25. " ACTIVE89 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 24. " ACTIVE88 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 23. " ACTIVE87 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 22. " ACTIVE86 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 21. " ACTIVE85 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 20. " ACTIVE84 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 19. " ACTIVE83 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 18. " ACTIVE82 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 17. " ACTIVE81 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 16. " ACTIVE80 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 15. " ACTIVE79 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 14. " ACTIVE78 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 13. " ACTIVE77 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 12. " ACTIVE76 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 11. " ACTIVE75 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 10. " ACTIVE74 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 9. " ACTIVE73 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 8. " ACTIVE72 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 7. " ACTIVE71 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 6. " ACTIVE70 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 5. " ACTIVE69 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 4. " ACTIVE68 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 3. " ACTIVE67 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 2. " ACTIVE66 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 1. " ACTIVE65 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 0. " ACTIVE64 ,Interrupt Active Flag" "Not active,Active" line.long 0x0c "ACTIVE4,Active Bit Register 4" bitfld.long 0x0c 31. " ACTIVE127 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 30. " ACTIVE126 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 29. " ACTIVE125 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 28. " ACTIVE124 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 27. " ACTIVE123 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 26. " ACTIVE122 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 25. " ACTIVE121 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 24. " ACTIVE120 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 23. " ACTIVE119 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 22. " ACTIVE118 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 21. " ACTIVE117 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 20. " ACTIVE116 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 19. " ACTIVE115 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 18. " ACTIVE114 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 17. " ACTIVE113 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 16. " ACTIVE112 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 15. " ACTIVE111 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 14. " ACTIVE110 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 13. " ACTIVE109 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 12. " ACTIVE108 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 11. " ACTIVE107 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 10. " ACTIVE106 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 9. " ACTIVE105 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 8. " ACTIVE104 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 7. " ACTIVE103 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 6. " ACTIVE102 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 5. " ACTIVE101 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 4. " ACTIVE100 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 3. " ACTIVE99 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 2. " ACTIVE98 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 1. " ACTIVE97 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 0. " ACTIVE96 ,Interrupt Active Flag" "Not active,Active" line.long 0x10 "ACTIVE5,Active Bit Register 5" bitfld.long 0x10 31. " ACTIVE159 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 30. " ACTIVE158 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 29. " ACTIVE157 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 28. " ACTIVE156 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 27. " ACTIVE155 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 26. " ACTIVE154 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 25. " ACTIVE153 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 24. " ACTIVE152 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 23. " ACTIVE151 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 22. " ACTIVE150 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 21. " ACTIVE149 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 20. " ACTIVE148 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 19. " ACTIVE147 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 18. " ACTIVE146 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 17. " ACTIVE145 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 16. " ACTIVE144 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 15. " ACTIVE143 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 14. " ACTIVE142 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 13. " ACTIVE141 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 12. " ACTIVE140 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 11. " ACTIVE139 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 10. " ACTIVE138 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 9. " ACTIVE137 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 8. " ACTIVE136 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 7. " ACTIVE135 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 6. " ACTIVE134 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 5. " ACTIVE133 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 4. " ACTIVE132 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 3. " ACTIVE131 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 2. " ACTIVE130 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 1. " ACTIVE129 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 0. " ACTIVE128 ,Interrupt Active Flag" "Not active,Active" line.long 0x14 "ACTIVE6,Active Bit Register 6" bitfld.long 0x14 31. " ACTIVE191 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 30. " ACTIVE190 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 29. " ACTIVE189 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 28. " ACTIVE188 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 27. " ACTIVE187 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 26. " ACTIVE186 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x14 25. " ACTIVE185 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 24. " ACTIVE184 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 23. " ACTIVE183 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 22. " ACTIVE182 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 21. " ACTIVE181 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 20. " ACTIVE180 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x14 19. " ACTIVE179 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 18. " ACTIVE178 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 17. " ACTIVE177 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 16. " ACTIVE176 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 15. " ACTIVE175 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 14. " ACTIVE174 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x14 13. " ACTIVE173 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 12. " ACTIVE172 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 11. " ACTIVE171 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 10. " ACTIVE170 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 9. " ACTIVE169 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 8. " ACTIVE168 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x14 7. " ACTIVE167 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 6. " ACTIVE166 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 5. " ACTIVE165 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 4. " ACTIVE164 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 3. " ACTIVE163 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 2. " ACTIVE162 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x14 1. " ACTIVE161 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 0. " ACTIVE160 ,Interrupt Active Flag" "Not active,Active" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x06) rgroup.long 0x300++0x1B line.long 0x00 "ACTIVE1,Active Bit Register 1" bitfld.long 0x00 31. " ACTIVE31 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 30. " ACTIVE30 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 29. " ACTIVE29 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 28. " ACTIVE28 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 27. " ACTIVE27 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 26. " ACTIVE26 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 25. " ACTIVE25 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 24. " ACTIVE24 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 23. " ACTIVE23 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 22. " ACTIVE22 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 21. " ACTIVE21 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 20. " ACTIVE20 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 19. " ACTIVE19 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 18. " ACTIVE18 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 17. " ACTIVE17 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 16. " ACTIVE16 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 15. " ACTIVE15 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 14. " ACTIVE14 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 13. " ACTIVE13 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 12. " ACTIVE12 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 11. " ACTIVE11 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 10. " ACTIVE10 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 9. " ACTIVE9 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 8. " ACTIVE8 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 7. " ACTIVE7 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 6. " ACTIVE6 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 5. " ACTIVE5 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 4. " ACTIVE4 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 3. " ACTIVE3 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 2. " ACTIVE2 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 1. " ACTIVE1 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 0. " ACTIVE0 ,Interrupt Active Flag" "Not active,Active" line.long 0x04 "ACTIVE2,Active Bit Register 2" bitfld.long 0x04 31. " ACTIVE63 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 30. " ACTIVE62 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 29. " ACTIVE61 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 28. " ACTIVE60 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 27. " ACTIVE59 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 26. " ACTIVE58 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 25. " ACTIVE57 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 24. " ACTIVE56 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 23. " ACTIVE55 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 22. " ACTIVE54 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 21. " ACTIVE53 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 20. " ACTIVE52 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 19. " ACTIVE51 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 18. " ACTIVE50 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 17. " ACTIVE49 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 16. " ACTIVE48 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 15. " ACTIVE47 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 14. " ACTIVE46 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 13. " ACTIVE45 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 12. " ACTIVE44 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 11. " ACTIVE43 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 10. " ACTIVE42 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 9. " ACTIVE41 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 8. " ACTIVE40 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 7. " ACTIVE39 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 6. " ACTIVE38 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 5. " ACTIVE37 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 4. " ACTIVE36 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 3. " ACTIVE35 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 2. " ACTIVE34 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 1. " ACTIVE33 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 0. " ACTIVE32 ,Interrupt Active Flag" "Not active,Active" line.long 0x08 "ACTIVE3,Active Bit Register 3" bitfld.long 0x08 31. " ACTIVE95 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 30. " ACTIVE94 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 29. " ACTIVE93 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 28. " ACTIVE92 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 27. " ACTIVE91 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 26. " ACTIVE90 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 25. " ACTIVE89 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 24. " ACTIVE88 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 23. " ACTIVE87 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 22. " ACTIVE86 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 21. " ACTIVE85 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 20. " ACTIVE84 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 19. " ACTIVE83 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 18. " ACTIVE82 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 17. " ACTIVE81 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 16. " ACTIVE80 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 15. " ACTIVE79 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 14. " ACTIVE78 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 13. " ACTIVE77 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 12. " ACTIVE76 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 11. " ACTIVE75 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 10. " ACTIVE74 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 9. " ACTIVE73 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 8. " ACTIVE72 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 7. " ACTIVE71 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 6. " ACTIVE70 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 5. " ACTIVE69 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 4. " ACTIVE68 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 3. " ACTIVE67 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 2. " ACTIVE66 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 1. " ACTIVE65 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 0. " ACTIVE64 ,Interrupt Active Flag" "Not active,Active" line.long 0x0c "ACTIVE4,Active Bit Register 4" bitfld.long 0x0c 31. " ACTIVE127 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 30. " ACTIVE126 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 29. " ACTIVE125 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 28. " ACTIVE124 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 27. " ACTIVE123 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 26. " ACTIVE122 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 25. " ACTIVE121 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 24. " ACTIVE120 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 23. " ACTIVE119 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 22. " ACTIVE118 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 21. " ACTIVE117 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 20. " ACTIVE116 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 19. " ACTIVE115 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 18. " ACTIVE114 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 17. " ACTIVE113 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 16. " ACTIVE112 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 15. " ACTIVE111 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 14. " ACTIVE110 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 13. " ACTIVE109 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 12. " ACTIVE108 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 11. " ACTIVE107 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 10. " ACTIVE106 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 9. " ACTIVE105 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 8. " ACTIVE104 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 7. " ACTIVE103 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 6. " ACTIVE102 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 5. " ACTIVE101 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 4. " ACTIVE100 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 3. " ACTIVE99 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 2. " ACTIVE98 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 1. " ACTIVE97 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 0. " ACTIVE96 ,Interrupt Active Flag" "Not active,Active" line.long 0x10 "ACTIVE5,Active Bit Register 5" bitfld.long 0x10 31. " ACTIVE159 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 30. " ACTIVE158 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 29. " ACTIVE157 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 28. " ACTIVE156 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 27. " ACTIVE155 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 26. " ACTIVE154 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 25. " ACTIVE153 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 24. " ACTIVE152 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 23. " ACTIVE151 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 22. " ACTIVE150 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 21. " ACTIVE149 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 20. " ACTIVE148 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 19. " ACTIVE147 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 18. " ACTIVE146 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 17. " ACTIVE145 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 16. " ACTIVE144 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 15. " ACTIVE143 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 14. " ACTIVE142 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 13. " ACTIVE141 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 12. " ACTIVE140 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 11. " ACTIVE139 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 10. " ACTIVE138 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 9. " ACTIVE137 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 8. " ACTIVE136 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 7. " ACTIVE135 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 6. " ACTIVE134 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 5. " ACTIVE133 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 4. " ACTIVE132 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 3. " ACTIVE131 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 2. " ACTIVE130 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 1. " ACTIVE129 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 0. " ACTIVE128 ,Interrupt Active Flag" "Not active,Active" line.long 0x14 "ACTIVE6,Active Bit Register 6" bitfld.long 0x14 31. " ACTIVE191 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 30. " ACTIVE190 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 29. " ACTIVE189 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 28. " ACTIVE188 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 27. " ACTIVE187 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 26. " ACTIVE186 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x14 25. " ACTIVE185 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 24. " ACTIVE184 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 23. " ACTIVE183 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 22. " ACTIVE182 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 21. " ACTIVE181 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 20. " ACTIVE180 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x14 19. " ACTIVE179 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 18. " ACTIVE178 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 17. " ACTIVE177 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 16. " ACTIVE176 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 15. " ACTIVE175 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 14. " ACTIVE174 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x14 13. " ACTIVE173 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 12. " ACTIVE172 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 11. " ACTIVE171 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 10. " ACTIVE170 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 9. " ACTIVE169 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 8. " ACTIVE168 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x14 7. " ACTIVE167 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 6. " ACTIVE166 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 5. " ACTIVE165 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 4. " ACTIVE164 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 3. " ACTIVE163 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 2. " ACTIVE162 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x14 1. " ACTIVE161 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 0. " ACTIVE160 ,Interrupt Active Flag" "Not active,Active" line.long 0x18 "ACTIVE7,Active Bit Register 7" bitfld.long 0x18 31. " ACTIVE223 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 30. " ACTIVE222 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 29. " ACTIVE221 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 28. " ACTIVE220 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 27. " ACTIVE219 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 26. " ACTIVE218 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x18 25. " ACTIVE217 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 24. " ACTIVE216 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 23. " ACTIVE215 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 22. " ACTIVE214 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 21. " ACTIVE213 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 20. " ACTIVE212 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x18 19. " ACTIVE211 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 18. " ACTIVE210 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 17. " ACTIVE209 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 16. " ACTIVE208 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 15. " ACTIVE207 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 14. " ACTIVE206 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x18 13. " ACTIVE205 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 12. " ACTIVE204 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 11. " ACTIVE203 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 10. " ACTIVE202 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 9. " ACTIVE201 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 8. " ACTIVE200 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x18 7. " ACTIVE199 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 6. " ACTIVE198 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 5. " ACTIVE197 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 4. " ACTIVE196 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 3. " ACTIVE195 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 2. " ACTIVE194 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x18 1. " ACTIVE193 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 0. " ACTIVE192 ,Interrupt Active Flag" "Not active,Active" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x07) rgroup.long 0x300++0x1F line.long 0x00 "ACTIVE1,Active Bit Register 1" bitfld.long 0x00 31. " ACTIVE31 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 30. " ACTIVE30 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 29. " ACTIVE29 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 28. " ACTIVE28 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 27. " ACTIVE27 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 26. " ACTIVE26 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 25. " ACTIVE25 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 24. " ACTIVE24 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 23. " ACTIVE23 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 22. " ACTIVE22 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 21. " ACTIVE21 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 20. " ACTIVE20 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 19. " ACTIVE19 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 18. " ACTIVE18 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 17. " ACTIVE17 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 16. " ACTIVE16 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 15. " ACTIVE15 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 14. " ACTIVE14 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 13. " ACTIVE13 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 12. " ACTIVE12 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 11. " ACTIVE11 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 10. " ACTIVE10 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 9. " ACTIVE9 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 8. " ACTIVE8 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 7. " ACTIVE7 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 6. " ACTIVE6 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 5. " ACTIVE5 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 4. " ACTIVE4 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 3. " ACTIVE3 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 2. " ACTIVE2 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x00 1. " ACTIVE1 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x00 0. " ACTIVE0 ,Interrupt Active Flag" "Not active,Active" line.long 0x04 "ACTIVE2,Active Bit Register 2" bitfld.long 0x04 31. " ACTIVE63 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 30. " ACTIVE62 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 29. " ACTIVE61 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 28. " ACTIVE60 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 27. " ACTIVE59 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 26. " ACTIVE58 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 25. " ACTIVE57 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 24. " ACTIVE56 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 23. " ACTIVE55 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 22. " ACTIVE54 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 21. " ACTIVE53 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 20. " ACTIVE52 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 19. " ACTIVE51 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 18. " ACTIVE50 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 17. " ACTIVE49 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 16. " ACTIVE48 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 15. " ACTIVE47 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 14. " ACTIVE46 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 13. " ACTIVE45 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 12. " ACTIVE44 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 11. " ACTIVE43 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 10. " ACTIVE42 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 9. " ACTIVE41 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 8. " ACTIVE40 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 7. " ACTIVE39 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 6. " ACTIVE38 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 5. " ACTIVE37 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 4. " ACTIVE36 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 3. " ACTIVE35 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 2. " ACTIVE34 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x04 1. " ACTIVE33 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x04 0. " ACTIVE32 ,Interrupt Active Flag" "Not active,Active" line.long 0x08 "ACTIVE3,Active Bit Register 3" bitfld.long 0x08 31. " ACTIVE95 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 30. " ACTIVE94 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 29. " ACTIVE93 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 28. " ACTIVE92 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 27. " ACTIVE91 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 26. " ACTIVE90 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 25. " ACTIVE89 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 24. " ACTIVE88 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 23. " ACTIVE87 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 22. " ACTIVE86 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 21. " ACTIVE85 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 20. " ACTIVE84 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 19. " ACTIVE83 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 18. " ACTIVE82 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 17. " ACTIVE81 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 16. " ACTIVE80 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 15. " ACTIVE79 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 14. " ACTIVE78 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 13. " ACTIVE77 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 12. " ACTIVE76 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 11. " ACTIVE75 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 10. " ACTIVE74 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 9. " ACTIVE73 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 8. " ACTIVE72 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 7. " ACTIVE71 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 6. " ACTIVE70 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 5. " ACTIVE69 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 4. " ACTIVE68 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 3. " ACTIVE67 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 2. " ACTIVE66 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x08 1. " ACTIVE65 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x08 0. " ACTIVE64 ,Interrupt Active Flag" "Not active,Active" line.long 0x0c "ACTIVE4,Active Bit Register 4" bitfld.long 0x0c 31. " ACTIVE127 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 30. " ACTIVE126 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 29. " ACTIVE125 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 28. " ACTIVE124 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 27. " ACTIVE123 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 26. " ACTIVE122 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 25. " ACTIVE121 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 24. " ACTIVE120 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 23. " ACTIVE119 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 22. " ACTIVE118 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 21. " ACTIVE117 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 20. " ACTIVE116 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 19. " ACTIVE115 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 18. " ACTIVE114 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 17. " ACTIVE113 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 16. " ACTIVE112 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 15. " ACTIVE111 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 14. " ACTIVE110 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 13. " ACTIVE109 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 12. " ACTIVE108 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 11. " ACTIVE107 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 10. " ACTIVE106 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 9. " ACTIVE105 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 8. " ACTIVE104 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 7. " ACTIVE103 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 6. " ACTIVE102 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 5. " ACTIVE101 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 4. " ACTIVE100 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 3. " ACTIVE99 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 2. " ACTIVE98 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x0c 1. " ACTIVE97 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x0c 0. " ACTIVE96 ,Interrupt Active Flag" "Not active,Active" line.long 0x10 "ACTIVE5,Active Bit Register 5" bitfld.long 0x10 31. " ACTIVE159 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 30. " ACTIVE158 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 29. " ACTIVE157 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 28. " ACTIVE156 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 27. " ACTIVE155 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 26. " ACTIVE154 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 25. " ACTIVE153 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 24. " ACTIVE152 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 23. " ACTIVE151 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 22. " ACTIVE150 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 21. " ACTIVE149 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 20. " ACTIVE148 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 19. " ACTIVE147 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 18. " ACTIVE146 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 17. " ACTIVE145 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 16. " ACTIVE144 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 15. " ACTIVE143 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 14. " ACTIVE142 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 13. " ACTIVE141 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 12. " ACTIVE140 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 11. " ACTIVE139 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 10. " ACTIVE138 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 9. " ACTIVE137 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 8. " ACTIVE136 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 7. " ACTIVE135 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 6. " ACTIVE134 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 5. " ACTIVE133 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 4. " ACTIVE132 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 3. " ACTIVE131 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 2. " ACTIVE130 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x10 1. " ACTIVE129 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x10 0. " ACTIVE128 ,Interrupt Active Flag" "Not active,Active" line.long 0x14 "ACTIVE6,Active Bit Register 6" bitfld.long 0x14 31. " ACTIVE191 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 30. " ACTIVE190 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 29. " ACTIVE189 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 28. " ACTIVE188 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 27. " ACTIVE187 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 26. " ACTIVE186 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x14 25. " ACTIVE185 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 24. " ACTIVE184 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 23. " ACTIVE183 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 22. " ACTIVE182 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 21. " ACTIVE181 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 20. " ACTIVE180 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x14 19. " ACTIVE179 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 18. " ACTIVE178 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 17. " ACTIVE177 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 16. " ACTIVE176 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 15. " ACTIVE175 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 14. " ACTIVE174 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x14 13. " ACTIVE173 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 12. " ACTIVE172 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 11. " ACTIVE171 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 10. " ACTIVE170 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 9. " ACTIVE169 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 8. " ACTIVE168 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x14 7. " ACTIVE167 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 6. " ACTIVE166 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 5. " ACTIVE165 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 4. " ACTIVE164 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 3. " ACTIVE163 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 2. " ACTIVE162 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x14 1. " ACTIVE161 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x14 0. " ACTIVE160 ,Interrupt Active Flag" "Not active,Active" line.long 0x18 "ACTIVE7,Active Bit Register 7" bitfld.long 0x18 31. " ACTIVE223 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 30. " ACTIVE222 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 29. " ACTIVE221 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 28. " ACTIVE220 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 27. " ACTIVE219 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 26. " ACTIVE218 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x18 25. " ACTIVE217 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 24. " ACTIVE216 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 23. " ACTIVE215 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 22. " ACTIVE214 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 21. " ACTIVE213 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 20. " ACTIVE212 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x18 19. " ACTIVE211 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 18. " ACTIVE210 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 17. " ACTIVE209 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 16. " ACTIVE208 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 15. " ACTIVE207 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 14. " ACTIVE206 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x18 13. " ACTIVE205 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 12. " ACTIVE204 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 11. " ACTIVE203 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 10. " ACTIVE202 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 9. " ACTIVE201 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 8. " ACTIVE200 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x18 7. " ACTIVE199 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 6. " ACTIVE198 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 5. " ACTIVE197 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 4. " ACTIVE196 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 3. " ACTIVE195 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 2. " ACTIVE194 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x18 1. " ACTIVE193 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x18 0. " ACTIVE192 ,Interrupt Active Flag" "Not active,Active" line.long 0x1c "ACTIVE8,Active Bit Register 8" bitfld.long 0x1c 15. " ACTIVE239 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x1c 14. " ACTIVE238 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x1c 13. " ACTIVE237 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x1c 12. " ACTIVE236 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x1c 11. " ACTIVE235 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x1c 10. " ACTIVE234 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x1c 9. " ACTIVE233 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x1c 8. " ACTIVE232 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x1c 7. " ACTIVE231 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x1c 6. " ACTIVE230 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x1c 5. " ACTIVE229 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x1c 4. " ACTIVE228 ,Interrupt Active Flag" "Not active,Active" textline " " bitfld.long 0x1c 3. " ACTIVE227 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x1c 2. " ACTIVE226 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x1c 1. " ACTIVE225 ,Interrupt Active Flag" "Not active,Active" bitfld.long 0x1c 0. " ACTIVE224 ,Interrupt Active Flag" "Not active,Active" else hgroup.long 0x300++0x1F hide.long 0x00 "ACTIVE1,Active Bit Register 1" hide.long 0x04 "ACTIVE2,Active Bit Register 2" hide.long 0x08 "ACTIVE3,Active Bit Register 3" hide.long 0x0c "ACTIVE4,Active Bit Register 4" hide.long 0x10 "ACTIVE5,Active Bit Register 5" hide.long 0x14 "ACTIVE6,Active Bit Register 6" hide.long 0x18 "ACTIVE7,Active Bit Register 7" hide.long 0x1c "ACTIVE8,Active Bit Register 8" endif tree.end tree "Interrupt Priority Registers" if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x00) group.long 0x400++0x1F line.long 0x0 "IPR0,Interrupt Priority Register" hexmask.long.byte 0x0 24.--31. 1. " PRI_3 ,Interrupt 3 Priority" hexmask.long.byte 0x0 16.--23. 1. " PRI_2 ,Interrupt 2 Priority" hexmask.long.byte 0x0 8.--15. 1. " PRI_1 ,Interrupt 1 Priority" hexmask.long.byte 0x0 0.--7. 1. " PRI_0 ,Interrupt 0 Priority" line.long 0x4 "IPR1,Interrupt Priority Register" hexmask.long.byte 0x4 24.--31. 1. " PRI_7 ,Interrupt 7 Priority" hexmask.long.byte 0x4 16.--23. 1. " PRI_6 ,Interrupt 6 Priority" hexmask.long.byte 0x4 8.--15. 1. " PRI_5 ,Interrupt 5 Priority" hexmask.long.byte 0x4 0.--7. 1. " PRI_4 ,Interrupt 4 Priority" line.long 0x8 "IPR2,Interrupt Priority Register" hexmask.long.byte 0x8 24.--31. 1. " PRI_11 ,Interrupt 11 Priority" hexmask.long.byte 0x8 16.--23. 1. " PRI_10 ,Interrupt 10 Priority" hexmask.long.byte 0x8 8.--15. 1. " PRI_9 ,Interrupt 9 Priority" hexmask.long.byte 0x8 0.--7. 1. " PRI_8 ,Interrupt 8 Priority" line.long 0xC "IPR3,Interrupt Priority Register" hexmask.long.byte 0xC 24.--31. 1. " PRI_15 ,Interrupt 15 Priority" hexmask.long.byte 0xC 16.--23. 1. " PRI_14 ,Interrupt 14 Priority" hexmask.long.byte 0xC 8.--15. 1. " PRI_13 ,Interrupt 13 Priority" hexmask.long.byte 0xC 0.--7. 1. " PRI_12 ,Interrupt 12 Priority" line.long 0x10 "IPR4,Interrupt Priority Register" hexmask.long.byte 0x10 24.--31. 1. " PRI_19 ,Interrupt 19 Priority" hexmask.long.byte 0x10 16.--23. 1. " PRI_18 ,Interrupt 18 Priority" hexmask.long.byte 0x10 8.--15. 1. " PRI_17 ,Interrupt 17 Priority" hexmask.long.byte 0x10 0.--7. 1. " PRI_16 ,Interrupt 16 Priority" line.long 0x14 "IPR5,Interrupt Priority Register" hexmask.long.byte 0x14 24.--31. 1. " PRI_23 ,Interrupt 23 Priority" hexmask.long.byte 0x14 16.--23. 1. " PRI_22 ,Interrupt 22 Priority" hexmask.long.byte 0x14 8.--15. 1. " PRI_21 ,Interrupt 21 Priority" hexmask.long.byte 0x14 0.--7. 1. " PRI_20 ,Interrupt 20 Priority" line.long 0x18 "IPR6,Interrupt Priority Register" hexmask.long.byte 0x18 24.--31. 1. " PRI_27 ,Interrupt 27 Priority" hexmask.long.byte 0x18 16.--23. 1. " PRI_26 ,Interrupt 26 Priority" hexmask.long.byte 0x18 8.--15. 1. " PRI_25 ,Interrupt 25 Priority" hexmask.long.byte 0x18 0.--7. 1. " PRI_24 ,Interrupt 24 Priority" line.long 0x1C "IPR7,Interrupt Priority Register" hexmask.long.byte 0x1C 24.--31. 1. " PRI_31 ,Interrupt 31 Priority" hexmask.long.byte 0x1C 16.--23. 1. " PRI_30 ,Interrupt 30 Priority" hexmask.long.byte 0x1C 8.--15. 1. " PRI_29 ,Interrupt 29 Priority" hexmask.long.byte 0x1C 0.--7. 1. " PRI_28 ,Interrupt 28 Priority" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x01) group.long 0x400++0x3F line.long 0x0 "IPR0,Interrupt Priority Register" hexmask.long.byte 0x0 24.--31. 1. " PRI_3 ,Interrupt 3 Priority" hexmask.long.byte 0x0 16.--23. 1. " PRI_2 ,Interrupt 2 Priority" hexmask.long.byte 0x0 8.--15. 1. " PRI_1 ,Interrupt 1 Priority" hexmask.long.byte 0x0 0.--7. 1. " PRI_0 ,Interrupt 0 Priority" line.long 0x4 "IPR1,Interrupt Priority Register" hexmask.long.byte 0x4 24.--31. 1. " PRI_7 ,Interrupt 7 Priority" hexmask.long.byte 0x4 16.--23. 1. " PRI_6 ,Interrupt 6 Priority" hexmask.long.byte 0x4 8.--15. 1. " PRI_5 ,Interrupt 5 Priority" hexmask.long.byte 0x4 0.--7. 1. " PRI_4 ,Interrupt 4 Priority" line.long 0x8 "IPR2,Interrupt Priority Register" hexmask.long.byte 0x8 24.--31. 1. " PRI_11 ,Interrupt 11 Priority" hexmask.long.byte 0x8 16.--23. 1. " PRI_10 ,Interrupt 10 Priority" hexmask.long.byte 0x8 8.--15. 1. " PRI_9 ,Interrupt 9 Priority" hexmask.long.byte 0x8 0.--7. 1. " PRI_8 ,Interrupt 8 Priority" line.long 0xC "IPR3,Interrupt Priority Register" hexmask.long.byte 0xC 24.--31. 1. " PRI_15 ,Interrupt 15 Priority" hexmask.long.byte 0xC 16.--23. 1. " PRI_14 ,Interrupt 14 Priority" hexmask.long.byte 0xC 8.--15. 1. " PRI_13 ,Interrupt 13 Priority" hexmask.long.byte 0xC 0.--7. 1. " PRI_12 ,Interrupt 12 Priority" line.long 0x10 "IPR4,Interrupt Priority Register" hexmask.long.byte 0x10 24.--31. 1. " PRI_19 ,Interrupt 19 Priority" hexmask.long.byte 0x10 16.--23. 1. " PRI_18 ,Interrupt 18 Priority" hexmask.long.byte 0x10 8.--15. 1. " PRI_17 ,Interrupt 17 Priority" hexmask.long.byte 0x10 0.--7. 1. " PRI_16 ,Interrupt 16 Priority" line.long 0x14 "IPR5,Interrupt Priority Register" hexmask.long.byte 0x14 24.--31. 1. " PRI_23 ,Interrupt 23 Priority" hexmask.long.byte 0x14 16.--23. 1. " PRI_22 ,Interrupt 22 Priority" hexmask.long.byte 0x14 8.--15. 1. " PRI_21 ,Interrupt 21 Priority" hexmask.long.byte 0x14 0.--7. 1. " PRI_20 ,Interrupt 20 Priority" line.long 0x18 "IPR6,Interrupt Priority Register" hexmask.long.byte 0x18 24.--31. 1. " PRI_27 ,Interrupt 27 Priority" hexmask.long.byte 0x18 16.--23. 1. " PRI_26 ,Interrupt 26 Priority" hexmask.long.byte 0x18 8.--15. 1. " PRI_25 ,Interrupt 25 Priority" hexmask.long.byte 0x18 0.--7. 1. " PRI_24 ,Interrupt 24 Priority" line.long 0x1C "IPR7,Interrupt Priority Register" hexmask.long.byte 0x1C 24.--31. 1. " PRI_31 ,Interrupt 31 Priority" hexmask.long.byte 0x1C 16.--23. 1. " PRI_30 ,Interrupt 30 Priority" hexmask.long.byte 0x1C 8.--15. 1. " PRI_29 ,Interrupt 29 Priority" hexmask.long.byte 0x1C 0.--7. 1. " PRI_28 ,Interrupt 28 Priority" line.long 0x20 "IPR8,Interrupt Priority Register" hexmask.long.byte 0x20 24.--31. 1. " PRI_35 ,Interrupt 35 Priority" hexmask.long.byte 0x20 16.--23. 1. " PRI_34 ,Interrupt 34 Priority" hexmask.long.byte 0x20 8.--15. 1. " PRI_33 ,Interrupt 33 Priority" hexmask.long.byte 0x20 0.--7. 1. " PRI_32 ,Interrupt 32 Priority" line.long 0x24 "IPR9,Interrupt Priority Register" hexmask.long.byte 0x24 24.--31. 1. " PRI_39 ,Interrupt 39 Priority" hexmask.long.byte 0x24 16.--23. 1. " PRI_38 ,Interrupt 38 Priority" hexmask.long.byte 0x24 8.--15. 1. " PRI_37 ,Interrupt 37 Priority" hexmask.long.byte 0x24 0.--7. 1. " PRI_36 ,Interrupt 36 Priority" line.long 0x28 "IPR10,Interrupt Priority Register" hexmask.long.byte 0x28 24.--31. 1. " PRI_43 ,Interrupt 43 Priority" hexmask.long.byte 0x28 16.--23. 1. " PRI_42 ,Interrupt 42 Priority" hexmask.long.byte 0x28 8.--15. 1. " PRI_41 ,Interrupt 41 Priority" hexmask.long.byte 0x28 0.--7. 1. " PRI_40 ,Interrupt 40 Priority" line.long 0x2C "IPR11,Interrupt Priority Register" hexmask.long.byte 0x2C 24.--31. 1. " PRI_47 ,Interrupt 47 Priority" hexmask.long.byte 0x2C 16.--23. 1. " PRI_46 ,Interrupt 46 Priority" hexmask.long.byte 0x2C 8.--15. 1. " PRI_45 ,Interrupt 45 Priority" hexmask.long.byte 0x2C 0.--7. 1. " PRI_44 ,Interrupt 44 Priority" line.long 0x30 "IPR12,Interrupt Priority Register" hexmask.long.byte 0x30 24.--31. 1. " PRI_51 ,Interrupt 51 Priority" hexmask.long.byte 0x30 16.--23. 1. " PRI_50 ,Interrupt 50 Priority" hexmask.long.byte 0x30 8.--15. 1. " PRI_49 ,Interrupt 49 Priority" hexmask.long.byte 0x30 0.--7. 1. " PRI_48 ,Interrupt 48 Priority" line.long 0x34 "IPR13,Interrupt Priority Register" hexmask.long.byte 0x34 24.--31. 1. " PRI_55 ,Interrupt 55 Priority" hexmask.long.byte 0x34 16.--23. 1. " PRI_54 ,Interrupt 54 Priority" hexmask.long.byte 0x34 8.--15. 1. " PRI_53 ,Interrupt 53 Priority" hexmask.long.byte 0x34 0.--7. 1. " PRI_52 ,Interrupt 52 Priority" line.long 0x38 "IPR14,Interrupt Priority Register" hexmask.long.byte 0x38 24.--31. 1. " PRI_59 ,Interrupt 59 Priority" hexmask.long.byte 0x38 16.--23. 1. " PRI_58 ,Interrupt 58 Priority" hexmask.long.byte 0x38 8.--15. 1. " PRI_57 ,Interrupt 57 Priority" hexmask.long.byte 0x38 0.--7. 1. " PRI_56 ,Interrupt 56 Priority" line.long 0x3C "IPR15,Interrupt Priority Register" hexmask.long.byte 0x3C 24.--31. 1. " PRI_63 ,Interrupt 63 Priority" hexmask.long.byte 0x3C 16.--23. 1. " PRI_62 ,Interrupt 62 Priority" hexmask.long.byte 0x3C 8.--15. 1. " PRI_61 ,Interrupt 61 Priority" hexmask.long.byte 0x3C 0.--7. 1. " PRI_60 ,Interrupt 60 Priority" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x02) group.long 0x400++0x5F line.long 0x0 "IPR0,Interrupt Priority Register" hexmask.long.byte 0x0 24.--31. 1. " PRI_3 ,Interrupt 3 Priority" hexmask.long.byte 0x0 16.--23. 1. " PRI_2 ,Interrupt 2 Priority" hexmask.long.byte 0x0 8.--15. 1. " PRI_1 ,Interrupt 1 Priority" hexmask.long.byte 0x0 0.--7. 1. " PRI_0 ,Interrupt 0 Priority" line.long 0x4 "IPR1,Interrupt Priority Register" hexmask.long.byte 0x4 24.--31. 1. " PRI_7 ,Interrupt 7 Priority" hexmask.long.byte 0x4 16.--23. 1. " PRI_6 ,Interrupt 6 Priority" hexmask.long.byte 0x4 8.--15. 1. " PRI_5 ,Interrupt 5 Priority" hexmask.long.byte 0x4 0.--7. 1. " PRI_4 ,Interrupt 4 Priority" line.long 0x8 "IPR2,Interrupt Priority Register" hexmask.long.byte 0x8 24.--31. 1. " PRI_11 ,Interrupt 11 Priority" hexmask.long.byte 0x8 16.--23. 1. " PRI_10 ,Interrupt 10 Priority" hexmask.long.byte 0x8 8.--15. 1. " PRI_9 ,Interrupt 9 Priority" hexmask.long.byte 0x8 0.--7. 1. " PRI_8 ,Interrupt 8 Priority" line.long 0xC "IPR3,Interrupt Priority Register" hexmask.long.byte 0xC 24.--31. 1. " PRI_15 ,Interrupt 15 Priority" hexmask.long.byte 0xC 16.--23. 1. " PRI_14 ,Interrupt 14 Priority" hexmask.long.byte 0xC 8.--15. 1. " PRI_13 ,Interrupt 13 Priority" hexmask.long.byte 0xC 0.--7. 1. " PRI_12 ,Interrupt 12 Priority" line.long 0x10 "IPR4,Interrupt Priority Register" hexmask.long.byte 0x10 24.--31. 1. " PRI_19 ,Interrupt 19 Priority" hexmask.long.byte 0x10 16.--23. 1. " PRI_18 ,Interrupt 18 Priority" hexmask.long.byte 0x10 8.--15. 1. " PRI_17 ,Interrupt 17 Priority" hexmask.long.byte 0x10 0.--7. 1. " PRI_16 ,Interrupt 16 Priority" line.long 0x14 "IPR5,Interrupt Priority Register" hexmask.long.byte 0x14 24.--31. 1. " PRI_23 ,Interrupt 23 Priority" hexmask.long.byte 0x14 16.--23. 1. " PRI_22 ,Interrupt 22 Priority" hexmask.long.byte 0x14 8.--15. 1. " PRI_21 ,Interrupt 21 Priority" hexmask.long.byte 0x14 0.--7. 1. " PRI_20 ,Interrupt 20 Priority" line.long 0x18 "IPR6,Interrupt Priority Register" hexmask.long.byte 0x18 24.--31. 1. " PRI_27 ,Interrupt 27 Priority" hexmask.long.byte 0x18 16.--23. 1. " PRI_26 ,Interrupt 26 Priority" hexmask.long.byte 0x18 8.--15. 1. " PRI_25 ,Interrupt 25 Priority" hexmask.long.byte 0x18 0.--7. 1. " PRI_24 ,Interrupt 24 Priority" line.long 0x1C "IPR7,Interrupt Priority Register" hexmask.long.byte 0x1C 24.--31. 1. " PRI_31 ,Interrupt 31 Priority" hexmask.long.byte 0x1C 16.--23. 1. " PRI_30 ,Interrupt 30 Priority" hexmask.long.byte 0x1C 8.--15. 1. " PRI_29 ,Interrupt 29 Priority" hexmask.long.byte 0x1C 0.--7. 1. " PRI_28 ,Interrupt 28 Priority" line.long 0x20 "IPR8,Interrupt Priority Register" hexmask.long.byte 0x20 24.--31. 1. " PRI_35 ,Interrupt 35 Priority" hexmask.long.byte 0x20 16.--23. 1. " PRI_34 ,Interrupt 34 Priority" hexmask.long.byte 0x20 8.--15. 1. " PRI_33 ,Interrupt 33 Priority" hexmask.long.byte 0x20 0.--7. 1. " PRI_32 ,Interrupt 32 Priority" line.long 0x24 "IPR9,Interrupt Priority Register" hexmask.long.byte 0x24 24.--31. 1. " PRI_39 ,Interrupt 39 Priority" hexmask.long.byte 0x24 16.--23. 1. " PRI_38 ,Interrupt 38 Priority" hexmask.long.byte 0x24 8.--15. 1. " PRI_37 ,Interrupt 37 Priority" hexmask.long.byte 0x24 0.--7. 1. " PRI_36 ,Interrupt 36 Priority" line.long 0x28 "IPR10,Interrupt Priority Register" hexmask.long.byte 0x28 24.--31. 1. " PRI_43 ,Interrupt 43 Priority" hexmask.long.byte 0x28 16.--23. 1. " PRI_42 ,Interrupt 42 Priority" hexmask.long.byte 0x28 8.--15. 1. " PRI_41 ,Interrupt 41 Priority" hexmask.long.byte 0x28 0.--7. 1. " PRI_40 ,Interrupt 40 Priority" line.long 0x2C "IPR11,Interrupt Priority Register" hexmask.long.byte 0x2C 24.--31. 1. " PRI_47 ,Interrupt 47 Priority" hexmask.long.byte 0x2C 16.--23. 1. " PRI_46 ,Interrupt 46 Priority" hexmask.long.byte 0x2C 8.--15. 1. " PRI_45 ,Interrupt 45 Priority" hexmask.long.byte 0x2C 0.--7. 1. " PRI_44 ,Interrupt 44 Priority" line.long 0x30 "IPR12,Interrupt Priority Register" hexmask.long.byte 0x30 24.--31. 1. " PRI_51 ,Interrupt 51 Priority" hexmask.long.byte 0x30 16.--23. 1. " PRI_50 ,Interrupt 50 Priority" hexmask.long.byte 0x30 8.--15. 1. " PRI_49 ,Interrupt 49 Priority" hexmask.long.byte 0x30 0.--7. 1. " PRI_48 ,Interrupt 48 Priority" line.long 0x34 "IPR13,Interrupt Priority Register" hexmask.long.byte 0x34 24.--31. 1. " PRI_55 ,Interrupt 55 Priority" hexmask.long.byte 0x34 16.--23. 1. " PRI_54 ,Interrupt 54 Priority" hexmask.long.byte 0x34 8.--15. 1. " PRI_53 ,Interrupt 53 Priority" hexmask.long.byte 0x34 0.--7. 1. " PRI_52 ,Interrupt 52 Priority" line.long 0x38 "IPR14,Interrupt Priority Register" hexmask.long.byte 0x38 24.--31. 1. " PRI_59 ,Interrupt 59 Priority" hexmask.long.byte 0x38 16.--23. 1. " PRI_58 ,Interrupt 58 Priority" hexmask.long.byte 0x38 8.--15. 1. " PRI_57 ,Interrupt 57 Priority" hexmask.long.byte 0x38 0.--7. 1. " PRI_56 ,Interrupt 56 Priority" line.long 0x3C "IPR15,Interrupt Priority Register" hexmask.long.byte 0x3C 24.--31. 1. " PRI_63 ,Interrupt 63 Priority" hexmask.long.byte 0x3C 16.--23. 1. " PRI_62 ,Interrupt 62 Priority" hexmask.long.byte 0x3C 8.--15. 1. " PRI_61 ,Interrupt 61 Priority" hexmask.long.byte 0x3C 0.--7. 1. " PRI_60 ,Interrupt 60 Priority" line.long 0x40 "IPR16,Interrupt Priority Register" hexmask.long.byte 0x40 24.--31. 1. " PRI_67 ,Interrupt 67 Priority" hexmask.long.byte 0x40 16.--23. 1. " PRI_66 ,Interrupt 66 Priority" hexmask.long.byte 0x40 8.--15. 1. " PRI_65 ,Interrupt 65 Priority" hexmask.long.byte 0x40 0.--7. 1. " PRI_64 ,Interrupt 64 Priority" line.long 0x44 "IPR17,Interrupt Priority Register" hexmask.long.byte 0x44 24.--31. 1. " PRI_71 ,Interrupt 71 Priority" hexmask.long.byte 0x44 16.--23. 1. " PRI_70 ,Interrupt 70 Priority" hexmask.long.byte 0x44 8.--15. 1. " PRI_69 ,Interrupt 69 Priority" hexmask.long.byte 0x44 0.--7. 1. " PRI_68 ,Interrupt 68 Priority" line.long 0x48 "IPR18,Interrupt Priority Register" hexmask.long.byte 0x48 24.--31. 1. " PRI_75 ,Interrupt 75 Priority" hexmask.long.byte 0x48 16.--23. 1. " PRI_74 ,Interrupt 74 Priority" hexmask.long.byte 0x48 8.--15. 1. " PRI_73 ,Interrupt 73 Priority" hexmask.long.byte 0x48 0.--7. 1. " PRI_72 ,Interrupt 72 Priority" line.long 0x4C "IPR19,Interrupt Priority Register" hexmask.long.byte 0x4C 24.--31. 1. " PRI_79 ,Interrupt 79 Priority" hexmask.long.byte 0x4C 16.--23. 1. " PRI_78 ,Interrupt 78 Priority" hexmask.long.byte 0x4C 8.--15. 1. " PRI_77 ,Interrupt 77 Priority" hexmask.long.byte 0x4C 0.--7. 1. " PRI_76 ,Interrupt 76 Priority" line.long 0x50 "IPR20,Interrupt Priority Register" hexmask.long.byte 0x50 24.--31. 1. " PRI_83 ,Interrupt 83 Priority" hexmask.long.byte 0x50 16.--23. 1. " PRI_82 ,Interrupt 82 Priority" hexmask.long.byte 0x50 8.--15. 1. " PRI_81 ,Interrupt 81 Priority" hexmask.long.byte 0x50 0.--7. 1. " PRI_80 ,Interrupt 80 Priority" line.long 0x54 "IPR21,Interrupt Priority Register" hexmask.long.byte 0x54 24.--31. 1. " PRI_87 ,Interrupt 87 Priority" hexmask.long.byte 0x54 16.--23. 1. " PRI_86 ,Interrupt 86 Priority" hexmask.long.byte 0x54 8.--15. 1. " PRI_85 ,Interrupt 85 Priority" hexmask.long.byte 0x54 0.--7. 1. " PRI_84 ,Interrupt 84 Priority" line.long 0x58 "IPR22,Interrupt Priority Register" hexmask.long.byte 0x58 24.--31. 1. " PRI_91 ,Interrupt 91 Priority" hexmask.long.byte 0x58 16.--23. 1. " PRI_90 ,Interrupt 90 Priority" hexmask.long.byte 0x58 8.--15. 1. " PRI_89 ,Interrupt 89 Priority" hexmask.long.byte 0x58 0.--7. 1. " PRI_88 ,Interrupt 88 Priority" line.long 0x5C "IPR23,Interrupt Priority Register" hexmask.long.byte 0x5C 24.--31. 1. " PRI_95 ,Interrupt 95 Priority" hexmask.long.byte 0x5C 16.--23. 1. " PRI_94 ,Interrupt 94 Priority" hexmask.long.byte 0x5C 8.--15. 1. " PRI_93 ,Interrupt 93 Priority" hexmask.long.byte 0x5C 0.--7. 1. " PRI_92 ,Interrupt 92 Priority" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x03) group.long 0x400++0x7F line.long 0x0 "IPR0,Interrupt Priority Register" hexmask.long.byte 0x0 24.--31. 1. " PRI_3 ,Interrupt 3 Priority" hexmask.long.byte 0x0 16.--23. 1. " PRI_2 ,Interrupt 2 Priority" hexmask.long.byte 0x0 8.--15. 1. " PRI_1 ,Interrupt 1 Priority" hexmask.long.byte 0x0 0.--7. 1. " PRI_0 ,Interrupt 0 Priority" line.long 0x4 "IPR1,Interrupt Priority Register" hexmask.long.byte 0x4 24.--31. 1. " PRI_7 ,Interrupt 7 Priority" hexmask.long.byte 0x4 16.--23. 1. " PRI_6 ,Interrupt 6 Priority" hexmask.long.byte 0x4 8.--15. 1. " PRI_5 ,Interrupt 5 Priority" hexmask.long.byte 0x4 0.--7. 1. " PRI_4 ,Interrupt 4 Priority" line.long 0x8 "IPR2,Interrupt Priority Register" hexmask.long.byte 0x8 24.--31. 1. " PRI_11 ,Interrupt 11 Priority" hexmask.long.byte 0x8 16.--23. 1. " PRI_10 ,Interrupt 10 Priority" hexmask.long.byte 0x8 8.--15. 1. " PRI_9 ,Interrupt 9 Priority" hexmask.long.byte 0x8 0.--7. 1. " PRI_8 ,Interrupt 8 Priority" line.long 0xC "IPR3,Interrupt Priority Register" hexmask.long.byte 0xC 24.--31. 1. " PRI_15 ,Interrupt 15 Priority" hexmask.long.byte 0xC 16.--23. 1. " PRI_14 ,Interrupt 14 Priority" hexmask.long.byte 0xC 8.--15. 1. " PRI_13 ,Interrupt 13 Priority" hexmask.long.byte 0xC 0.--7. 1. " PRI_12 ,Interrupt 12 Priority" line.long 0x10 "IPR4,Interrupt Priority Register" hexmask.long.byte 0x10 24.--31. 1. " PRI_19 ,Interrupt 19 Priority" hexmask.long.byte 0x10 16.--23. 1. " PRI_18 ,Interrupt 18 Priority" hexmask.long.byte 0x10 8.--15. 1. " PRI_17 ,Interrupt 17 Priority" hexmask.long.byte 0x10 0.--7. 1. " PRI_16 ,Interrupt 16 Priority" line.long 0x14 "IPR5,Interrupt Priority Register" hexmask.long.byte 0x14 24.--31. 1. " PRI_23 ,Interrupt 23 Priority" hexmask.long.byte 0x14 16.--23. 1. " PRI_22 ,Interrupt 22 Priority" hexmask.long.byte 0x14 8.--15. 1. " PRI_21 ,Interrupt 21 Priority" hexmask.long.byte 0x14 0.--7. 1. " PRI_20 ,Interrupt 20 Priority" line.long 0x18 "IPR6,Interrupt Priority Register" hexmask.long.byte 0x18 24.--31. 1. " PRI_27 ,Interrupt 27 Priority" hexmask.long.byte 0x18 16.--23. 1. " PRI_26 ,Interrupt 26 Priority" hexmask.long.byte 0x18 8.--15. 1. " PRI_25 ,Interrupt 25 Priority" hexmask.long.byte 0x18 0.--7. 1. " PRI_24 ,Interrupt 24 Priority" line.long 0x1C "IPR7,Interrupt Priority Register" hexmask.long.byte 0x1C 24.--31. 1. " PRI_31 ,Interrupt 31 Priority" hexmask.long.byte 0x1C 16.--23. 1. " PRI_30 ,Interrupt 30 Priority" hexmask.long.byte 0x1C 8.--15. 1. " PRI_29 ,Interrupt 29 Priority" hexmask.long.byte 0x1C 0.--7. 1. " PRI_28 ,Interrupt 28 Priority" line.long 0x20 "IPR8,Interrupt Priority Register" hexmask.long.byte 0x20 24.--31. 1. " PRI_35 ,Interrupt 35 Priority" hexmask.long.byte 0x20 16.--23. 1. " PRI_34 ,Interrupt 34 Priority" hexmask.long.byte 0x20 8.--15. 1. " PRI_33 ,Interrupt 33 Priority" hexmask.long.byte 0x20 0.--7. 1. " PRI_32 ,Interrupt 32 Priority" line.long 0x24 "IPR9,Interrupt Priority Register" hexmask.long.byte 0x24 24.--31. 1. " PRI_39 ,Interrupt 39 Priority" hexmask.long.byte 0x24 16.--23. 1. " PRI_38 ,Interrupt 38 Priority" hexmask.long.byte 0x24 8.--15. 1. " PRI_37 ,Interrupt 37 Priority" hexmask.long.byte 0x24 0.--7. 1. " PRI_36 ,Interrupt 36 Priority" line.long 0x28 "IPR10,Interrupt Priority Register" hexmask.long.byte 0x28 24.--31. 1. " PRI_43 ,Interrupt 43 Priority" hexmask.long.byte 0x28 16.--23. 1. " PRI_42 ,Interrupt 42 Priority" hexmask.long.byte 0x28 8.--15. 1. " PRI_41 ,Interrupt 41 Priority" hexmask.long.byte 0x28 0.--7. 1. " PRI_40 ,Interrupt 40 Priority" line.long 0x2C "IPR11,Interrupt Priority Register" hexmask.long.byte 0x2C 24.--31. 1. " PRI_47 ,Interrupt 47 Priority" hexmask.long.byte 0x2C 16.--23. 1. " PRI_46 ,Interrupt 46 Priority" hexmask.long.byte 0x2C 8.--15. 1. " PRI_45 ,Interrupt 45 Priority" hexmask.long.byte 0x2C 0.--7. 1. " PRI_44 ,Interrupt 44 Priority" line.long 0x30 "IPR12,Interrupt Priority Register" hexmask.long.byte 0x30 24.--31. 1. " PRI_51 ,Interrupt 51 Priority" hexmask.long.byte 0x30 16.--23. 1. " PRI_50 ,Interrupt 50 Priority" hexmask.long.byte 0x30 8.--15. 1. " PRI_49 ,Interrupt 49 Priority" hexmask.long.byte 0x30 0.--7. 1. " PRI_48 ,Interrupt 48 Priority" line.long 0x34 "IPR13,Interrupt Priority Register" hexmask.long.byte 0x34 24.--31. 1. " PRI_55 ,Interrupt 55 Priority" hexmask.long.byte 0x34 16.--23. 1. " PRI_54 ,Interrupt 54 Priority" hexmask.long.byte 0x34 8.--15. 1. " PRI_53 ,Interrupt 53 Priority" hexmask.long.byte 0x34 0.--7. 1. " PRI_52 ,Interrupt 52 Priority" line.long 0x38 "IPR14,Interrupt Priority Register" hexmask.long.byte 0x38 24.--31. 1. " PRI_59 ,Interrupt 59 Priority" hexmask.long.byte 0x38 16.--23. 1. " PRI_58 ,Interrupt 58 Priority" hexmask.long.byte 0x38 8.--15. 1. " PRI_57 ,Interrupt 57 Priority" hexmask.long.byte 0x38 0.--7. 1. " PRI_56 ,Interrupt 56 Priority" line.long 0x3C "IPR15,Interrupt Priority Register" hexmask.long.byte 0x3C 24.--31. 1. " PRI_63 ,Interrupt 63 Priority" hexmask.long.byte 0x3C 16.--23. 1. " PRI_62 ,Interrupt 62 Priority" hexmask.long.byte 0x3C 8.--15. 1. " PRI_61 ,Interrupt 61 Priority" hexmask.long.byte 0x3C 0.--7. 1. " PRI_60 ,Interrupt 60 Priority" line.long 0x40 "IPR16,Interrupt Priority Register" hexmask.long.byte 0x40 24.--31. 1. " PRI_67 ,Interrupt 67 Priority" hexmask.long.byte 0x40 16.--23. 1. " PRI_66 ,Interrupt 66 Priority" hexmask.long.byte 0x40 8.--15. 1. " PRI_65 ,Interrupt 65 Priority" hexmask.long.byte 0x40 0.--7. 1. " PRI_64 ,Interrupt 64 Priority" line.long 0x44 "IPR17,Interrupt Priority Register" hexmask.long.byte 0x44 24.--31. 1. " PRI_71 ,Interrupt 71 Priority" hexmask.long.byte 0x44 16.--23. 1. " PRI_70 ,Interrupt 70 Priority" hexmask.long.byte 0x44 8.--15. 1. " PRI_69 ,Interrupt 69 Priority" hexmask.long.byte 0x44 0.--7. 1. " PRI_68 ,Interrupt 68 Priority" line.long 0x48 "IPR18,Interrupt Priority Register" hexmask.long.byte 0x48 24.--31. 1. " PRI_75 ,Interrupt 75 Priority" hexmask.long.byte 0x48 16.--23. 1. " PRI_74 ,Interrupt 74 Priority" hexmask.long.byte 0x48 8.--15. 1. " PRI_73 ,Interrupt 73 Priority" hexmask.long.byte 0x48 0.--7. 1. " PRI_72 ,Interrupt 72 Priority" line.long 0x4C "IPR19,Interrupt Priority Register" hexmask.long.byte 0x4C 24.--31. 1. " PRI_79 ,Interrupt 79 Priority" hexmask.long.byte 0x4C 16.--23. 1. " PRI_78 ,Interrupt 78 Priority" hexmask.long.byte 0x4C 8.--15. 1. " PRI_77 ,Interrupt 77 Priority" hexmask.long.byte 0x4C 0.--7. 1. " PRI_76 ,Interrupt 76 Priority" line.long 0x50 "IPR20,Interrupt Priority Register" hexmask.long.byte 0x50 24.--31. 1. " PRI_83 ,Interrupt 83 Priority" hexmask.long.byte 0x50 16.--23. 1. " PRI_82 ,Interrupt 82 Priority" hexmask.long.byte 0x50 8.--15. 1. " PRI_81 ,Interrupt 81 Priority" hexmask.long.byte 0x50 0.--7. 1. " PRI_80 ,Interrupt 80 Priority" line.long 0x54 "IPR21,Interrupt Priority Register" hexmask.long.byte 0x54 24.--31. 1. " PRI_87 ,Interrupt 87 Priority" hexmask.long.byte 0x54 16.--23. 1. " PRI_86 ,Interrupt 86 Priority" hexmask.long.byte 0x54 8.--15. 1. " PRI_85 ,Interrupt 85 Priority" hexmask.long.byte 0x54 0.--7. 1. " PRI_84 ,Interrupt 84 Priority" line.long 0x58 "IPR22,Interrupt Priority Register" hexmask.long.byte 0x58 24.--31. 1. " PRI_91 ,Interrupt 91 Priority" hexmask.long.byte 0x58 16.--23. 1. " PRI_90 ,Interrupt 90 Priority" hexmask.long.byte 0x58 8.--15. 1. " PRI_89 ,Interrupt 89 Priority" hexmask.long.byte 0x58 0.--7. 1. " PRI_88 ,Interrupt 88 Priority" line.long 0x5C "IPR23,Interrupt Priority Register" hexmask.long.byte 0x5C 24.--31. 1. " PRI_95 ,Interrupt 95 Priority" hexmask.long.byte 0x5C 16.--23. 1. " PRI_94 ,Interrupt 94 Priority" hexmask.long.byte 0x5C 8.--15. 1. " PRI_93 ,Interrupt 93 Priority" hexmask.long.byte 0x5C 0.--7. 1. " PRI_92 ,Interrupt 92 Priority" line.long 0x60 "IPR24,Interrupt Priority Register" hexmask.long.byte 0x60 24.--31. 1. " PRI_99 ,Interrupt 99 Priority" hexmask.long.byte 0x60 16.--23. 1. " PRI_98 ,Interrupt 98 Priority" hexmask.long.byte 0x60 8.--15. 1. " PRI_97 ,Interrupt 97 Priority" hexmask.long.byte 0x60 0.--7. 1. " PRI_96 ,Interrupt 96 Priority" line.long 0x64 "IPR25,Interrupt Priority Register" hexmask.long.byte 0x64 24.--31. 1. " PRI_103 ,Interrupt 103 Priority" hexmask.long.byte 0x64 16.--23. 1. " PRI_102 ,Interrupt 102 Priority" hexmask.long.byte 0x64 8.--15. 1. " PRI_101 ,Interrupt 101 Priority" hexmask.long.byte 0x64 0.--7. 1. " PRI_100 ,Interrupt 100 Priority" line.long 0x68 "IPR26,Interrupt Priority Register" hexmask.long.byte 0x68 24.--31. 1. " PRI_107 ,Interrupt 107 Priority" hexmask.long.byte 0x68 16.--23. 1. " PRI_106 ,Interrupt 106 Priority" hexmask.long.byte 0x68 8.--15. 1. " PRI_105 ,Interrupt 105 Priority" hexmask.long.byte 0x68 0.--7. 1. " PRI_104 ,Interrupt 104 Priority" line.long 0x6C "IPR27,Interrupt Priority Register" hexmask.long.byte 0x6C 24.--31. 1. " PRI_111 ,Interrupt 111 Priority" hexmask.long.byte 0x6C 16.--23. 1. " PRI_110 ,Interrupt 110 Priority" hexmask.long.byte 0x6C 8.--15. 1. " PRI_109 ,Interrupt 109 Priority" hexmask.long.byte 0x6C 0.--7. 1. " PRI_108 ,Interrupt 108 Priority" line.long 0x70 "IPR28,Interrupt Priority Register" hexmask.long.byte 0x70 24.--31. 1. " PRI_115 ,Interrupt 115 Priority" hexmask.long.byte 0x70 16.--23. 1. " PRI_114 ,Interrupt 114 Priority" hexmask.long.byte 0x70 8.--15. 1. " PRI_113 ,Interrupt 113 Priority" hexmask.long.byte 0x70 0.--7. 1. " PRI_112 ,Interrupt 112 Priority" line.long 0x74 "IPR29,Interrupt Priority Register" hexmask.long.byte 0x74 24.--31. 1. " PRI_119 ,Interrupt 119 Priority" hexmask.long.byte 0x74 16.--23. 1. " PRI_118 ,Interrupt 118 Priority" hexmask.long.byte 0x74 8.--15. 1. " PRI_117 ,Interrupt 117 Priority" hexmask.long.byte 0x74 0.--7. 1. " PRI_116 ,Interrupt 116 Priority" line.long 0x78 "IPR30,Interrupt Priority Register" hexmask.long.byte 0x78 24.--31. 1. " PRI_123 ,Interrupt 123 Priority" hexmask.long.byte 0x78 16.--23. 1. " PRI_122 ,Interrupt 122 Priority" hexmask.long.byte 0x78 8.--15. 1. " PRI_121 ,Interrupt 121 Priority" hexmask.long.byte 0x78 0.--7. 1. " PRI_120 ,Interrupt 120 Priority" line.long 0x7C "IPR31,Interrupt Priority Register" hexmask.long.byte 0x7C 24.--31. 1. " PRI_127 ,Interrupt 127 Priority" hexmask.long.byte 0x7C 16.--23. 1. " PRI_126 ,Interrupt 126 Priority" hexmask.long.byte 0x7C 8.--15. 1. " PRI_125 ,Interrupt 125 Priority" hexmask.long.byte 0x7C 0.--7. 1. " PRI_124 ,Interrupt 124 Priority" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x04) group.long 0x400++0x9F line.long 0x0 "IPR0,Interrupt Priority Register" hexmask.long.byte 0x0 24.--31. 1. " PRI_3 ,Interrupt 3 Priority" hexmask.long.byte 0x0 16.--23. 1. " PRI_2 ,Interrupt 2 Priority" hexmask.long.byte 0x0 8.--15. 1. " PRI_1 ,Interrupt 1 Priority" hexmask.long.byte 0x0 0.--7. 1. " PRI_0 ,Interrupt 0 Priority" line.long 0x4 "IPR1,Interrupt Priority Register" hexmask.long.byte 0x4 24.--31. 1. " PRI_7 ,Interrupt 7 Priority" hexmask.long.byte 0x4 16.--23. 1. " PRI_6 ,Interrupt 6 Priority" hexmask.long.byte 0x4 8.--15. 1. " PRI_5 ,Interrupt 5 Priority" hexmask.long.byte 0x4 0.--7. 1. " PRI_4 ,Interrupt 4 Priority" line.long 0x8 "IPR2,Interrupt Priority Register" hexmask.long.byte 0x8 24.--31. 1. " PRI_11 ,Interrupt 11 Priority" hexmask.long.byte 0x8 16.--23. 1. " PRI_10 ,Interrupt 10 Priority" hexmask.long.byte 0x8 8.--15. 1. " PRI_9 ,Interrupt 9 Priority" hexmask.long.byte 0x8 0.--7. 1. " PRI_8 ,Interrupt 8 Priority" line.long 0xC "IPR3,Interrupt Priority Register" hexmask.long.byte 0xC 24.--31. 1. " PRI_15 ,Interrupt 15 Priority" hexmask.long.byte 0xC 16.--23. 1. " PRI_14 ,Interrupt 14 Priority" hexmask.long.byte 0xC 8.--15. 1. " PRI_13 ,Interrupt 13 Priority" hexmask.long.byte 0xC 0.--7. 1. " PRI_12 ,Interrupt 12 Priority" line.long 0x10 "IPR4,Interrupt Priority Register" hexmask.long.byte 0x10 24.--31. 1. " PRI_19 ,Interrupt 19 Priority" hexmask.long.byte 0x10 16.--23. 1. " PRI_18 ,Interrupt 18 Priority" hexmask.long.byte 0x10 8.--15. 1. " PRI_17 ,Interrupt 17 Priority" hexmask.long.byte 0x10 0.--7. 1. " PRI_16 ,Interrupt 16 Priority" line.long 0x14 "IPR5,Interrupt Priority Register" hexmask.long.byte 0x14 24.--31. 1. " PRI_23 ,Interrupt 23 Priority" hexmask.long.byte 0x14 16.--23. 1. " PRI_22 ,Interrupt 22 Priority" hexmask.long.byte 0x14 8.--15. 1. " PRI_21 ,Interrupt 21 Priority" hexmask.long.byte 0x14 0.--7. 1. " PRI_20 ,Interrupt 20 Priority" line.long 0x18 "IPR6,Interrupt Priority Register" hexmask.long.byte 0x18 24.--31. 1. " PRI_27 ,Interrupt 27 Priority" hexmask.long.byte 0x18 16.--23. 1. " PRI_26 ,Interrupt 26 Priority" hexmask.long.byte 0x18 8.--15. 1. " PRI_25 ,Interrupt 25 Priority" hexmask.long.byte 0x18 0.--7. 1. " PRI_24 ,Interrupt 24 Priority" line.long 0x1C "IPR7,Interrupt Priority Register" hexmask.long.byte 0x1C 24.--31. 1. " PRI_31 ,Interrupt 31 Priority" hexmask.long.byte 0x1C 16.--23. 1. " PRI_30 ,Interrupt 30 Priority" hexmask.long.byte 0x1C 8.--15. 1. " PRI_29 ,Interrupt 29 Priority" hexmask.long.byte 0x1C 0.--7. 1. " PRI_28 ,Interrupt 28 Priority" line.long 0x20 "IPR8,Interrupt Priority Register" hexmask.long.byte 0x20 24.--31. 1. " PRI_35 ,Interrupt 35 Priority" hexmask.long.byte 0x20 16.--23. 1. " PRI_34 ,Interrupt 34 Priority" hexmask.long.byte 0x20 8.--15. 1. " PRI_33 ,Interrupt 33 Priority" hexmask.long.byte 0x20 0.--7. 1. " PRI_32 ,Interrupt 32 Priority" line.long 0x24 "IPR9,Interrupt Priority Register" hexmask.long.byte 0x24 24.--31. 1. " PRI_39 ,Interrupt 39 Priority" hexmask.long.byte 0x24 16.--23. 1. " PRI_38 ,Interrupt 38 Priority" hexmask.long.byte 0x24 8.--15. 1. " PRI_37 ,Interrupt 37 Priority" hexmask.long.byte 0x24 0.--7. 1. " PRI_36 ,Interrupt 36 Priority" line.long 0x28 "IPR10,Interrupt Priority Register" hexmask.long.byte 0x28 24.--31. 1. " PRI_43 ,Interrupt 43 Priority" hexmask.long.byte 0x28 16.--23. 1. " PRI_42 ,Interrupt 42 Priority" hexmask.long.byte 0x28 8.--15. 1. " PRI_41 ,Interrupt 41 Priority" hexmask.long.byte 0x28 0.--7. 1. " PRI_40 ,Interrupt 40 Priority" line.long 0x2C "IPR11,Interrupt Priority Register" hexmask.long.byte 0x2C 24.--31. 1. " PRI_47 ,Interrupt 47 Priority" hexmask.long.byte 0x2C 16.--23. 1. " PRI_46 ,Interrupt 46 Priority" hexmask.long.byte 0x2C 8.--15. 1. " PRI_45 ,Interrupt 45 Priority" hexmask.long.byte 0x2C 0.--7. 1. " PRI_44 ,Interrupt 44 Priority" line.long 0x30 "IPR12,Interrupt Priority Register" hexmask.long.byte 0x30 24.--31. 1. " PRI_51 ,Interrupt 51 Priority" hexmask.long.byte 0x30 16.--23. 1. " PRI_50 ,Interrupt 50 Priority" hexmask.long.byte 0x30 8.--15. 1. " PRI_49 ,Interrupt 49 Priority" hexmask.long.byte 0x30 0.--7. 1. " PRI_48 ,Interrupt 48 Priority" line.long 0x34 "IPR13,Interrupt Priority Register" hexmask.long.byte 0x34 24.--31. 1. " PRI_55 ,Interrupt 55 Priority" hexmask.long.byte 0x34 16.--23. 1. " PRI_54 ,Interrupt 54 Priority" hexmask.long.byte 0x34 8.--15. 1. " PRI_53 ,Interrupt 53 Priority" hexmask.long.byte 0x34 0.--7. 1. " PRI_52 ,Interrupt 52 Priority" line.long 0x38 "IPR14,Interrupt Priority Register" hexmask.long.byte 0x38 24.--31. 1. " PRI_59 ,Interrupt 59 Priority" hexmask.long.byte 0x38 16.--23. 1. " PRI_58 ,Interrupt 58 Priority" hexmask.long.byte 0x38 8.--15. 1. " PRI_57 ,Interrupt 57 Priority" hexmask.long.byte 0x38 0.--7. 1. " PRI_56 ,Interrupt 56 Priority" line.long 0x3C "IPR15,Interrupt Priority Register" hexmask.long.byte 0x3C 24.--31. 1. " PRI_63 ,Interrupt 63 Priority" hexmask.long.byte 0x3C 16.--23. 1. " PRI_62 ,Interrupt 62 Priority" hexmask.long.byte 0x3C 8.--15. 1. " PRI_61 ,Interrupt 61 Priority" hexmask.long.byte 0x3C 0.--7. 1. " PRI_60 ,Interrupt 60 Priority" line.long 0x40 "IPR16,Interrupt Priority Register" hexmask.long.byte 0x40 24.--31. 1. " PRI_67 ,Interrupt 67 Priority" hexmask.long.byte 0x40 16.--23. 1. " PRI_66 ,Interrupt 66 Priority" hexmask.long.byte 0x40 8.--15. 1. " PRI_65 ,Interrupt 65 Priority" hexmask.long.byte 0x40 0.--7. 1. " PRI_64 ,Interrupt 64 Priority" line.long 0x44 "IPR17,Interrupt Priority Register" hexmask.long.byte 0x44 24.--31. 1. " PRI_71 ,Interrupt 71 Priority" hexmask.long.byte 0x44 16.--23. 1. " PRI_70 ,Interrupt 70 Priority" hexmask.long.byte 0x44 8.--15. 1. " PRI_69 ,Interrupt 69 Priority" hexmask.long.byte 0x44 0.--7. 1. " PRI_68 ,Interrupt 68 Priority" line.long 0x48 "IPR18,Interrupt Priority Register" hexmask.long.byte 0x48 24.--31. 1. " PRI_75 ,Interrupt 75 Priority" hexmask.long.byte 0x48 16.--23. 1. " PRI_74 ,Interrupt 74 Priority" hexmask.long.byte 0x48 8.--15. 1. " PRI_73 ,Interrupt 73 Priority" hexmask.long.byte 0x48 0.--7. 1. " PRI_72 ,Interrupt 72 Priority" line.long 0x4C "IPR19,Interrupt Priority Register" hexmask.long.byte 0x4C 24.--31. 1. " PRI_79 ,Interrupt 79 Priority" hexmask.long.byte 0x4C 16.--23. 1. " PRI_78 ,Interrupt 78 Priority" hexmask.long.byte 0x4C 8.--15. 1. " PRI_77 ,Interrupt 77 Priority" hexmask.long.byte 0x4C 0.--7. 1. " PRI_76 ,Interrupt 76 Priority" line.long 0x50 "IPR20,Interrupt Priority Register" hexmask.long.byte 0x50 24.--31. 1. " PRI_83 ,Interrupt 83 Priority" hexmask.long.byte 0x50 16.--23. 1. " PRI_82 ,Interrupt 82 Priority" hexmask.long.byte 0x50 8.--15. 1. " PRI_81 ,Interrupt 81 Priority" hexmask.long.byte 0x50 0.--7. 1. " PRI_80 ,Interrupt 80 Priority" line.long 0x54 "IPR21,Interrupt Priority Register" hexmask.long.byte 0x54 24.--31. 1. " PRI_87 ,Interrupt 87 Priority" hexmask.long.byte 0x54 16.--23. 1. " PRI_86 ,Interrupt 86 Priority" hexmask.long.byte 0x54 8.--15. 1. " PRI_85 ,Interrupt 85 Priority" hexmask.long.byte 0x54 0.--7. 1. " PRI_84 ,Interrupt 84 Priority" line.long 0x58 "IPR22,Interrupt Priority Register" hexmask.long.byte 0x58 24.--31. 1. " PRI_91 ,Interrupt 91 Priority" hexmask.long.byte 0x58 16.--23. 1. " PRI_90 ,Interrupt 90 Priority" hexmask.long.byte 0x58 8.--15. 1. " PRI_89 ,Interrupt 89 Priority" hexmask.long.byte 0x58 0.--7. 1. " PRI_88 ,Interrupt 88 Priority" line.long 0x5C "IPR23,Interrupt Priority Register" hexmask.long.byte 0x5C 24.--31. 1. " PRI_95 ,Interrupt 95 Priority" hexmask.long.byte 0x5C 16.--23. 1. " PRI_94 ,Interrupt 94 Priority" hexmask.long.byte 0x5C 8.--15. 1. " PRI_93 ,Interrupt 93 Priority" hexmask.long.byte 0x5C 0.--7. 1. " PRI_92 ,Interrupt 92 Priority" line.long 0x60 "IPR24,Interrupt Priority Register" hexmask.long.byte 0x60 24.--31. 1. " PRI_99 ,Interrupt 99 Priority" hexmask.long.byte 0x60 16.--23. 1. " PRI_98 ,Interrupt 98 Priority" hexmask.long.byte 0x60 8.--15. 1. " PRI_97 ,Interrupt 97 Priority" hexmask.long.byte 0x60 0.--7. 1. " PRI_96 ,Interrupt 96 Priority" line.long 0x64 "IPR25,Interrupt Priority Register" hexmask.long.byte 0x64 24.--31. 1. " PRI_103 ,Interrupt 103 Priority" hexmask.long.byte 0x64 16.--23. 1. " PRI_102 ,Interrupt 102 Priority" hexmask.long.byte 0x64 8.--15. 1. " PRI_101 ,Interrupt 101 Priority" hexmask.long.byte 0x64 0.--7. 1. " PRI_100 ,Interrupt 100 Priority" line.long 0x68 "IPR26,Interrupt Priority Register" hexmask.long.byte 0x68 24.--31. 1. " PRI_107 ,Interrupt 107 Priority" hexmask.long.byte 0x68 16.--23. 1. " PRI_106 ,Interrupt 106 Priority" hexmask.long.byte 0x68 8.--15. 1. " PRI_105 ,Interrupt 105 Priority" hexmask.long.byte 0x68 0.--7. 1. " PRI_104 ,Interrupt 104 Priority" line.long 0x6C "IPR27,Interrupt Priority Register" hexmask.long.byte 0x6C 24.--31. 1. " PRI_111 ,Interrupt 111 Priority" hexmask.long.byte 0x6C 16.--23. 1. " PRI_110 ,Interrupt 110 Priority" hexmask.long.byte 0x6C 8.--15. 1. " PRI_109 ,Interrupt 109 Priority" hexmask.long.byte 0x6C 0.--7. 1. " PRI_108 ,Interrupt 108 Priority" line.long 0x70 "IPR28,Interrupt Priority Register" hexmask.long.byte 0x70 24.--31. 1. " PRI_115 ,Interrupt 115 Priority" hexmask.long.byte 0x70 16.--23. 1. " PRI_114 ,Interrupt 114 Priority" hexmask.long.byte 0x70 8.--15. 1. " PRI_113 ,Interrupt 113 Priority" hexmask.long.byte 0x70 0.--7. 1. " PRI_112 ,Interrupt 112 Priority" line.long 0x74 "IPR29,Interrupt Priority Register" hexmask.long.byte 0x74 24.--31. 1. " PRI_119 ,Interrupt 119 Priority" hexmask.long.byte 0x74 16.--23. 1. " PRI_118 ,Interrupt 118 Priority" hexmask.long.byte 0x74 8.--15. 1. " PRI_117 ,Interrupt 117 Priority" hexmask.long.byte 0x74 0.--7. 1. " PRI_116 ,Interrupt 116 Priority" line.long 0x78 "IPR30,Interrupt Priority Register" hexmask.long.byte 0x78 24.--31. 1. " PRI_123 ,Interrupt 123 Priority" hexmask.long.byte 0x78 16.--23. 1. " PRI_122 ,Interrupt 122 Priority" hexmask.long.byte 0x78 8.--15. 1. " PRI_121 ,Interrupt 121 Priority" hexmask.long.byte 0x78 0.--7. 1. " PRI_120 ,Interrupt 120 Priority" line.long 0x7C "IPR31,Interrupt Priority Register" hexmask.long.byte 0x7C 24.--31. 1. " PRI_127 ,Interrupt 127 Priority" hexmask.long.byte 0x7C 16.--23. 1. " PRI_126 ,Interrupt 126 Priority" hexmask.long.byte 0x7C 8.--15. 1. " PRI_125 ,Interrupt 125 Priority" hexmask.long.byte 0x7C 0.--7. 1. " PRI_124 ,Interrupt 124 Priority" line.long 0x80 "IPR32,Interrupt Priority Register" hexmask.long.byte 0x80 24.--31. 1. " PRI_131 ,Interrupt 131 Priority" hexmask.long.byte 0x80 16.--23. 1. " PRI_130 ,Interrupt 130 Priority" hexmask.long.byte 0x80 8.--15. 1. " PRI_129 ,Interrupt 129 Priority" hexmask.long.byte 0x80 0.--7. 1. " PRI_128 ,Interrupt 128 Priority" line.long 0x84 "IPR33,Interrupt Priority Register" hexmask.long.byte 0x84 24.--31. 1. " PRI_135 ,Interrupt 135 Priority" hexmask.long.byte 0x84 16.--23. 1. " PRI_134 ,Interrupt 134 Priority" hexmask.long.byte 0x84 8.--15. 1. " PRI_133 ,Interrupt 133 Priority" hexmask.long.byte 0x84 0.--7. 1. " PRI_132 ,Interrupt 132 Priority" line.long 0x88 "IPR34,Interrupt Priority Register" hexmask.long.byte 0x88 24.--31. 1. " PRI_139 ,Interrupt 139 Priority" hexmask.long.byte 0x88 16.--23. 1. " PRI_138 ,Interrupt 138 Priority" hexmask.long.byte 0x88 8.--15. 1. " PRI_137 ,Interrupt 137 Priority" hexmask.long.byte 0x88 0.--7. 1. " PRI_136 ,Interrupt 136 Priority" line.long 0x8C "IPR35,Interrupt Priority Register" hexmask.long.byte 0x8C 24.--31. 1. " PRI_143 ,Interrupt 143 Priority" hexmask.long.byte 0x8C 16.--23. 1. " PRI_142 ,Interrupt 142 Priority" hexmask.long.byte 0x8C 8.--15. 1. " PRI_141 ,Interrupt 141 Priority" hexmask.long.byte 0x8C 0.--7. 1. " PRI_140 ,Interrupt 140 Priority" line.long 0x90 "IPR36,Interrupt Priority Register" hexmask.long.byte 0x90 24.--31. 1. " PRI_147 ,Interrupt 147 Priority" hexmask.long.byte 0x90 16.--23. 1. " PRI_146 ,Interrupt 146 Priority" hexmask.long.byte 0x90 8.--15. 1. " PRI_145 ,Interrupt 145 Priority" hexmask.long.byte 0x90 0.--7. 1. " PRI_144 ,Interrupt 144 Priority" line.long 0x94 "IPR37,Interrupt Priority Register" hexmask.long.byte 0x94 24.--31. 1. " PRI_151 ,Interrupt 151 Priority" hexmask.long.byte 0x94 16.--23. 1. " PRI_150 ,Interrupt 150 Priority" hexmask.long.byte 0x94 8.--15. 1. " PRI_149 ,Interrupt 149 Priority" hexmask.long.byte 0x94 0.--7. 1. " PRI_148 ,Interrupt 148 Priority" line.long 0x98 "IPR38,Interrupt Priority Register" hexmask.long.byte 0x98 24.--31. 1. " PRI_155 ,Interrupt 155 Priority" hexmask.long.byte 0x98 16.--23. 1. " PRI_154 ,Interrupt 154 Priority" hexmask.long.byte 0x98 8.--15. 1. " PRI_153 ,Interrupt 153 Priority" hexmask.long.byte 0x98 0.--7. 1. " PRI_152 ,Interrupt 152 Priority" line.long 0x9C "IPR39,Interrupt Priority Register" hexmask.long.byte 0x9C 24.--31. 1. " PRI_159 ,Interrupt 159 Priority" hexmask.long.byte 0x9C 16.--23. 1. " PRI_158 ,Interrupt 158 Priority" hexmask.long.byte 0x9C 8.--15. 1. " PRI_157 ,Interrupt 157 Priority" hexmask.long.byte 0x9C 0.--7. 1. " PRI_156 ,Interrupt 156 Priority" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x05) group.long 0x400++0xBF line.long 0x0 "IPR0,Interrupt Priority Register" hexmask.long.byte 0x0 24.--31. 1. " PRI_3 ,Interrupt 3 Priority" hexmask.long.byte 0x0 16.--23. 1. " PRI_2 ,Interrupt 2 Priority" hexmask.long.byte 0x0 8.--15. 1. " PRI_1 ,Interrupt 1 Priority" hexmask.long.byte 0x0 0.--7. 1. " PRI_0 ,Interrupt 0 Priority" line.long 0x4 "IPR1,Interrupt Priority Register" hexmask.long.byte 0x4 24.--31. 1. " PRI_7 ,Interrupt 7 Priority" hexmask.long.byte 0x4 16.--23. 1. " PRI_6 ,Interrupt 6 Priority" hexmask.long.byte 0x4 8.--15. 1. " PRI_5 ,Interrupt 5 Priority" hexmask.long.byte 0x4 0.--7. 1. " PRI_4 ,Interrupt 4 Priority" line.long 0x8 "IPR2,Interrupt Priority Register" hexmask.long.byte 0x8 24.--31. 1. " PRI_11 ,Interrupt 11 Priority" hexmask.long.byte 0x8 16.--23. 1. " PRI_10 ,Interrupt 10 Priority" hexmask.long.byte 0x8 8.--15. 1. " PRI_9 ,Interrupt 9 Priority" hexmask.long.byte 0x8 0.--7. 1. " PRI_8 ,Interrupt 8 Priority" line.long 0xC "IPR3,Interrupt Priority Register" hexmask.long.byte 0xC 24.--31. 1. " PRI_15 ,Interrupt 15 Priority" hexmask.long.byte 0xC 16.--23. 1. " PRI_14 ,Interrupt 14 Priority" hexmask.long.byte 0xC 8.--15. 1. " PRI_13 ,Interrupt 13 Priority" hexmask.long.byte 0xC 0.--7. 1. " PRI_12 ,Interrupt 12 Priority" line.long 0x10 "IPR4,Interrupt Priority Register" hexmask.long.byte 0x10 24.--31. 1. " PRI_19 ,Interrupt 19 Priority" hexmask.long.byte 0x10 16.--23. 1. " PRI_18 ,Interrupt 18 Priority" hexmask.long.byte 0x10 8.--15. 1. " PRI_17 ,Interrupt 17 Priority" hexmask.long.byte 0x10 0.--7. 1. " PRI_16 ,Interrupt 16 Priority" line.long 0x14 "IPR5,Interrupt Priority Register" hexmask.long.byte 0x14 24.--31. 1. " PRI_23 ,Interrupt 23 Priority" hexmask.long.byte 0x14 16.--23. 1. " PRI_22 ,Interrupt 22 Priority" hexmask.long.byte 0x14 8.--15. 1. " PRI_21 ,Interrupt 21 Priority" hexmask.long.byte 0x14 0.--7. 1. " PRI_20 ,Interrupt 20 Priority" line.long 0x18 "IPR6,Interrupt Priority Register" hexmask.long.byte 0x18 24.--31. 1. " PRI_27 ,Interrupt 27 Priority" hexmask.long.byte 0x18 16.--23. 1. " PRI_26 ,Interrupt 26 Priority" hexmask.long.byte 0x18 8.--15. 1. " PRI_25 ,Interrupt 25 Priority" hexmask.long.byte 0x18 0.--7. 1. " PRI_24 ,Interrupt 24 Priority" line.long 0x1C "IPR7,Interrupt Priority Register" hexmask.long.byte 0x1C 24.--31. 1. " PRI_31 ,Interrupt 31 Priority" hexmask.long.byte 0x1C 16.--23. 1. " PRI_30 ,Interrupt 30 Priority" hexmask.long.byte 0x1C 8.--15. 1. " PRI_29 ,Interrupt 29 Priority" hexmask.long.byte 0x1C 0.--7. 1. " PRI_28 ,Interrupt 28 Priority" line.long 0x20 "IPR8,Interrupt Priority Register" hexmask.long.byte 0x20 24.--31. 1. " PRI_35 ,Interrupt 35 Priority" hexmask.long.byte 0x20 16.--23. 1. " PRI_34 ,Interrupt 34 Priority" hexmask.long.byte 0x20 8.--15. 1. " PRI_33 ,Interrupt 33 Priority" hexmask.long.byte 0x20 0.--7. 1. " PRI_32 ,Interrupt 32 Priority" line.long 0x24 "IPR9,Interrupt Priority Register" hexmask.long.byte 0x24 24.--31. 1. " PRI_39 ,Interrupt 39 Priority" hexmask.long.byte 0x24 16.--23. 1. " PRI_38 ,Interrupt 38 Priority" hexmask.long.byte 0x24 8.--15. 1. " PRI_37 ,Interrupt 37 Priority" hexmask.long.byte 0x24 0.--7. 1. " PRI_36 ,Interrupt 36 Priority" line.long 0x28 "IPR10,Interrupt Priority Register" hexmask.long.byte 0x28 24.--31. 1. " PRI_43 ,Interrupt 43 Priority" hexmask.long.byte 0x28 16.--23. 1. " PRI_42 ,Interrupt 42 Priority" hexmask.long.byte 0x28 8.--15. 1. " PRI_41 ,Interrupt 41 Priority" hexmask.long.byte 0x28 0.--7. 1. " PRI_40 ,Interrupt 40 Priority" line.long 0x2C "IPR11,Interrupt Priority Register" hexmask.long.byte 0x2C 24.--31. 1. " PRI_47 ,Interrupt 47 Priority" hexmask.long.byte 0x2C 16.--23. 1. " PRI_46 ,Interrupt 46 Priority" hexmask.long.byte 0x2C 8.--15. 1. " PRI_45 ,Interrupt 45 Priority" hexmask.long.byte 0x2C 0.--7. 1. " PRI_44 ,Interrupt 44 Priority" line.long 0x30 "IPR12,Interrupt Priority Register" hexmask.long.byte 0x30 24.--31. 1. " PRI_51 ,Interrupt 51 Priority" hexmask.long.byte 0x30 16.--23. 1. " PRI_50 ,Interrupt 50 Priority" hexmask.long.byte 0x30 8.--15. 1. " PRI_49 ,Interrupt 49 Priority" hexmask.long.byte 0x30 0.--7. 1. " PRI_48 ,Interrupt 48 Priority" line.long 0x34 "IPR13,Interrupt Priority Register" hexmask.long.byte 0x34 24.--31. 1. " PRI_55 ,Interrupt 55 Priority" hexmask.long.byte 0x34 16.--23. 1. " PRI_54 ,Interrupt 54 Priority" hexmask.long.byte 0x34 8.--15. 1. " PRI_53 ,Interrupt 53 Priority" hexmask.long.byte 0x34 0.--7. 1. " PRI_52 ,Interrupt 52 Priority" line.long 0x38 "IPR14,Interrupt Priority Register" hexmask.long.byte 0x38 24.--31. 1. " PRI_59 ,Interrupt 59 Priority" hexmask.long.byte 0x38 16.--23. 1. " PRI_58 ,Interrupt 58 Priority" hexmask.long.byte 0x38 8.--15. 1. " PRI_57 ,Interrupt 57 Priority" hexmask.long.byte 0x38 0.--7. 1. " PRI_56 ,Interrupt 56 Priority" line.long 0x3C "IPR15,Interrupt Priority Register" hexmask.long.byte 0x3C 24.--31. 1. " PRI_63 ,Interrupt 63 Priority" hexmask.long.byte 0x3C 16.--23. 1. " PRI_62 ,Interrupt 62 Priority" hexmask.long.byte 0x3C 8.--15. 1. " PRI_61 ,Interrupt 61 Priority" hexmask.long.byte 0x3C 0.--7. 1. " PRI_60 ,Interrupt 60 Priority" line.long 0x40 "IPR16,Interrupt Priority Register" hexmask.long.byte 0x40 24.--31. 1. " PRI_67 ,Interrupt 67 Priority" hexmask.long.byte 0x40 16.--23. 1. " PRI_66 ,Interrupt 66 Priority" hexmask.long.byte 0x40 8.--15. 1. " PRI_65 ,Interrupt 65 Priority" hexmask.long.byte 0x40 0.--7. 1. " PRI_64 ,Interrupt 64 Priority" line.long 0x44 "IPR17,Interrupt Priority Register" hexmask.long.byte 0x44 24.--31. 1. " PRI_71 ,Interrupt 71 Priority" hexmask.long.byte 0x44 16.--23. 1. " PRI_70 ,Interrupt 70 Priority" hexmask.long.byte 0x44 8.--15. 1. " PRI_69 ,Interrupt 69 Priority" hexmask.long.byte 0x44 0.--7. 1. " PRI_68 ,Interrupt 68 Priority" line.long 0x48 "IPR18,Interrupt Priority Register" hexmask.long.byte 0x48 24.--31. 1. " PRI_75 ,Interrupt 75 Priority" hexmask.long.byte 0x48 16.--23. 1. " PRI_74 ,Interrupt 74 Priority" hexmask.long.byte 0x48 8.--15. 1. " PRI_73 ,Interrupt 73 Priority" hexmask.long.byte 0x48 0.--7. 1. " PRI_72 ,Interrupt 72 Priority" line.long 0x4C "IPR19,Interrupt Priority Register" hexmask.long.byte 0x4C 24.--31. 1. " PRI_79 ,Interrupt 79 Priority" hexmask.long.byte 0x4C 16.--23. 1. " PRI_78 ,Interrupt 78 Priority" hexmask.long.byte 0x4C 8.--15. 1. " PRI_77 ,Interrupt 77 Priority" hexmask.long.byte 0x4C 0.--7. 1. " PRI_76 ,Interrupt 76 Priority" line.long 0x50 "IPR20,Interrupt Priority Register" hexmask.long.byte 0x50 24.--31. 1. " PRI_83 ,Interrupt 83 Priority" hexmask.long.byte 0x50 16.--23. 1. " PRI_82 ,Interrupt 82 Priority" hexmask.long.byte 0x50 8.--15. 1. " PRI_81 ,Interrupt 81 Priority" hexmask.long.byte 0x50 0.--7. 1. " PRI_80 ,Interrupt 80 Priority" line.long 0x54 "IPR21,Interrupt Priority Register" hexmask.long.byte 0x54 24.--31. 1. " PRI_87 ,Interrupt 87 Priority" hexmask.long.byte 0x54 16.--23. 1. " PRI_86 ,Interrupt 86 Priority" hexmask.long.byte 0x54 8.--15. 1. " PRI_85 ,Interrupt 85 Priority" hexmask.long.byte 0x54 0.--7. 1. " PRI_84 ,Interrupt 84 Priority" line.long 0x58 "IPR22,Interrupt Priority Register" hexmask.long.byte 0x58 24.--31. 1. " PRI_91 ,Interrupt 91 Priority" hexmask.long.byte 0x58 16.--23. 1. " PRI_90 ,Interrupt 90 Priority" hexmask.long.byte 0x58 8.--15. 1. " PRI_89 ,Interrupt 89 Priority" hexmask.long.byte 0x58 0.--7. 1. " PRI_88 ,Interrupt 88 Priority" line.long 0x5C "IPR23,Interrupt Priority Register" hexmask.long.byte 0x5C 24.--31. 1. " PRI_95 ,Interrupt 95 Priority" hexmask.long.byte 0x5C 16.--23. 1. " PRI_94 ,Interrupt 94 Priority" hexmask.long.byte 0x5C 8.--15. 1. " PRI_93 ,Interrupt 93 Priority" hexmask.long.byte 0x5C 0.--7. 1. " PRI_92 ,Interrupt 92 Priority" line.long 0x60 "IPR24,Interrupt Priority Register" hexmask.long.byte 0x60 24.--31. 1. " PRI_99 ,Interrupt 99 Priority" hexmask.long.byte 0x60 16.--23. 1. " PRI_98 ,Interrupt 98 Priority" hexmask.long.byte 0x60 8.--15. 1. " PRI_97 ,Interrupt 97 Priority" hexmask.long.byte 0x60 0.--7. 1. " PRI_96 ,Interrupt 96 Priority" line.long 0x64 "IPR25,Interrupt Priority Register" hexmask.long.byte 0x64 24.--31. 1. " PRI_103 ,Interrupt 103 Priority" hexmask.long.byte 0x64 16.--23. 1. " PRI_102 ,Interrupt 102 Priority" hexmask.long.byte 0x64 8.--15. 1. " PRI_101 ,Interrupt 101 Priority" hexmask.long.byte 0x64 0.--7. 1. " PRI_100 ,Interrupt 100 Priority" line.long 0x68 "IPR26,Interrupt Priority Register" hexmask.long.byte 0x68 24.--31. 1. " PRI_107 ,Interrupt 107 Priority" hexmask.long.byte 0x68 16.--23. 1. " PRI_106 ,Interrupt 106 Priority" hexmask.long.byte 0x68 8.--15. 1. " PRI_105 ,Interrupt 105 Priority" hexmask.long.byte 0x68 0.--7. 1. " PRI_104 ,Interrupt 104 Priority" line.long 0x6C "IPR27,Interrupt Priority Register" hexmask.long.byte 0x6C 24.--31. 1. " PRI_111 ,Interrupt 111 Priority" hexmask.long.byte 0x6C 16.--23. 1. " PRI_110 ,Interrupt 110 Priority" hexmask.long.byte 0x6C 8.--15. 1. " PRI_109 ,Interrupt 109 Priority" hexmask.long.byte 0x6C 0.--7. 1. " PRI_108 ,Interrupt 108 Priority" line.long 0x70 "IPR28,Interrupt Priority Register" hexmask.long.byte 0x70 24.--31. 1. " PRI_115 ,Interrupt 115 Priority" hexmask.long.byte 0x70 16.--23. 1. " PRI_114 ,Interrupt 114 Priority" hexmask.long.byte 0x70 8.--15. 1. " PRI_113 ,Interrupt 113 Priority" hexmask.long.byte 0x70 0.--7. 1. " PRI_112 ,Interrupt 112 Priority" line.long 0x74 "IPR29,Interrupt Priority Register" hexmask.long.byte 0x74 24.--31. 1. " PRI_119 ,Interrupt 119 Priority" hexmask.long.byte 0x74 16.--23. 1. " PRI_118 ,Interrupt 118 Priority" hexmask.long.byte 0x74 8.--15. 1. " PRI_117 ,Interrupt 117 Priority" hexmask.long.byte 0x74 0.--7. 1. " PRI_116 ,Interrupt 116 Priority" line.long 0x78 "IPR30,Interrupt Priority Register" hexmask.long.byte 0x78 24.--31. 1. " PRI_123 ,Interrupt 123 Priority" hexmask.long.byte 0x78 16.--23. 1. " PRI_122 ,Interrupt 122 Priority" hexmask.long.byte 0x78 8.--15. 1. " PRI_121 ,Interrupt 121 Priority" hexmask.long.byte 0x78 0.--7. 1. " PRI_120 ,Interrupt 120 Priority" line.long 0x7C "IPR31,Interrupt Priority Register" hexmask.long.byte 0x7C 24.--31. 1. " PRI_127 ,Interrupt 127 Priority" hexmask.long.byte 0x7C 16.--23. 1. " PRI_126 ,Interrupt 126 Priority" hexmask.long.byte 0x7C 8.--15. 1. " PRI_125 ,Interrupt 125 Priority" hexmask.long.byte 0x7C 0.--7. 1. " PRI_124 ,Interrupt 124 Priority" line.long 0x80 "IPR32,Interrupt Priority Register" hexmask.long.byte 0x80 24.--31. 1. " PRI_131 ,Interrupt 131 Priority" hexmask.long.byte 0x80 16.--23. 1. " PRI_130 ,Interrupt 130 Priority" hexmask.long.byte 0x80 8.--15. 1. " PRI_129 ,Interrupt 129 Priority" hexmask.long.byte 0x80 0.--7. 1. " PRI_128 ,Interrupt 128 Priority" line.long 0x84 "IPR33,Interrupt Priority Register" hexmask.long.byte 0x84 24.--31. 1. " PRI_135 ,Interrupt 135 Priority" hexmask.long.byte 0x84 16.--23. 1. " PRI_134 ,Interrupt 134 Priority" hexmask.long.byte 0x84 8.--15. 1. " PRI_133 ,Interrupt 133 Priority" hexmask.long.byte 0x84 0.--7. 1. " PRI_132 ,Interrupt 132 Priority" line.long 0x88 "IPR34,Interrupt Priority Register" hexmask.long.byte 0x88 24.--31. 1. " PRI_139 ,Interrupt 139 Priority" hexmask.long.byte 0x88 16.--23. 1. " PRI_138 ,Interrupt 138 Priority" hexmask.long.byte 0x88 8.--15. 1. " PRI_137 ,Interrupt 137 Priority" hexmask.long.byte 0x88 0.--7. 1. " PRI_136 ,Interrupt 136 Priority" line.long 0x8C "IPR35,Interrupt Priority Register" hexmask.long.byte 0x8C 24.--31. 1. " PRI_143 ,Interrupt 143 Priority" hexmask.long.byte 0x8C 16.--23. 1. " PRI_142 ,Interrupt 142 Priority" hexmask.long.byte 0x8C 8.--15. 1. " PRI_141 ,Interrupt 141 Priority" hexmask.long.byte 0x8C 0.--7. 1. " PRI_140 ,Interrupt 140 Priority" line.long 0x90 "IPR36,Interrupt Priority Register" hexmask.long.byte 0x90 24.--31. 1. " PRI_147 ,Interrupt 147 Priority" hexmask.long.byte 0x90 16.--23. 1. " PRI_146 ,Interrupt 146 Priority" hexmask.long.byte 0x90 8.--15. 1. " PRI_145 ,Interrupt 145 Priority" hexmask.long.byte 0x90 0.--7. 1. " PRI_144 ,Interrupt 144 Priority" line.long 0x94 "IPR37,Interrupt Priority Register" hexmask.long.byte 0x94 24.--31. 1. " PRI_151 ,Interrupt 151 Priority" hexmask.long.byte 0x94 16.--23. 1. " PRI_150 ,Interrupt 150 Priority" hexmask.long.byte 0x94 8.--15. 1. " PRI_149 ,Interrupt 149 Priority" hexmask.long.byte 0x94 0.--7. 1. " PRI_148 ,Interrupt 148 Priority" line.long 0x98 "IPR38,Interrupt Priority Register" hexmask.long.byte 0x98 24.--31. 1. " PRI_155 ,Interrupt 155 Priority" hexmask.long.byte 0x98 16.--23. 1. " PRI_154 ,Interrupt 154 Priority" hexmask.long.byte 0x98 8.--15. 1. " PRI_153 ,Interrupt 153 Priority" hexmask.long.byte 0x98 0.--7. 1. " PRI_152 ,Interrupt 152 Priority" line.long 0x9C "IPR39,Interrupt Priority Register" hexmask.long.byte 0x9C 24.--31. 1. " PRI_159 ,Interrupt 159 Priority" hexmask.long.byte 0x9C 16.--23. 1. " PRI_158 ,Interrupt 158 Priority" hexmask.long.byte 0x9C 8.--15. 1. " PRI_157 ,Interrupt 157 Priority" hexmask.long.byte 0x9C 0.--7. 1. " PRI_156 ,Interrupt 156 Priority" line.long 0xA0 "IPR40,Interrupt Priority Register" hexmask.long.byte 0xA0 24.--31. 1. " PRI_163 ,Interrupt 163 Priority" hexmask.long.byte 0xA0 16.--23. 1. " PRI_162 ,Interrupt 162 Priority" hexmask.long.byte 0xA0 8.--15. 1. " PRI_161 ,Interrupt 161 Priority" hexmask.long.byte 0xA0 0.--7. 1. " PRI_160 ,Interrupt 160 Priority" line.long 0xA4 "IPR41,Interrupt Priority Register" hexmask.long.byte 0xA4 24.--31. 1. " PRI_167 ,Interrupt 167 Priority" hexmask.long.byte 0xA4 16.--23. 1. " PRI_166 ,Interrupt 166 Priority" hexmask.long.byte 0xA4 8.--15. 1. " PRI_165 ,Interrupt 165 Priority" hexmask.long.byte 0xA4 0.--7. 1. " PRI_164 ,Interrupt 164 Priority" line.long 0xA8 "IPR42,Interrupt Priority Register" hexmask.long.byte 0xA8 24.--31. 1. " PRI_171 ,Interrupt 171 Priority" hexmask.long.byte 0xA8 16.--23. 1. " PRI_170 ,Interrupt 170 Priority" hexmask.long.byte 0xA8 8.--15. 1. " PRI_169 ,Interrupt 169 Priority" hexmask.long.byte 0xA8 0.--7. 1. " PRI_168 ,Interrupt 168 Priority" line.long 0xAC "IPR43,Interrupt Priority Register" hexmask.long.byte 0xAC 24.--31. 1. " PRI_175 ,Interrupt 175 Priority" hexmask.long.byte 0xAC 16.--23. 1. " PRI_174 ,Interrupt 174 Priority" hexmask.long.byte 0xAC 8.--15. 1. " PRI_173 ,Interrupt 173 Priority" hexmask.long.byte 0xAC 0.--7. 1. " PRI_172 ,Interrupt 172 Priority" line.long 0xB0 "IPR44,Interrupt Priority Register" hexmask.long.byte 0xB0 24.--31. 1. " PRI_179 ,Interrupt 179 Priority" hexmask.long.byte 0xB0 16.--23. 1. " PRI_178 ,Interrupt 178 Priority" hexmask.long.byte 0xB0 8.--15. 1. " PRI_177 ,Interrupt 177 Priority" hexmask.long.byte 0xB0 0.--7. 1. " PRI_176 ,Interrupt 176 Priority" line.long 0xB4 "IPR45,Interrupt Priority Register" hexmask.long.byte 0xB4 24.--31. 1. " PRI_183 ,Interrupt 183 Priority" hexmask.long.byte 0xB4 16.--23. 1. " PRI_182 ,Interrupt 182 Priority" hexmask.long.byte 0xB4 8.--15. 1. " PRI_181 ,Interrupt 181 Priority" hexmask.long.byte 0xB4 0.--7. 1. " PRI_180 ,Interrupt 180 Priority" line.long 0xB8 "IPR46,Interrupt Priority Register" hexmask.long.byte 0xB8 24.--31. 1. " PRI_187 ,Interrupt 187 Priority" hexmask.long.byte 0xB8 16.--23. 1. " PRI_186 ,Interrupt 186 Priority" hexmask.long.byte 0xB8 8.--15. 1. " PRI_185 ,Interrupt 185 Priority" hexmask.long.byte 0xB8 0.--7. 1. " PRI_184 ,Interrupt 184 Priority" line.long 0xBC "IPR47,Interrupt Priority Register" hexmask.long.byte 0xBC 24.--31. 1. " PRI_191 ,Interrupt 191 Priority" hexmask.long.byte 0xBC 16.--23. 1. " PRI_190 ,Interrupt 190 Priority" hexmask.long.byte 0xBC 8.--15. 1. " PRI_189 ,Interrupt 189 Priority" hexmask.long.byte 0xBC 0.--7. 1. " PRI_188 ,Interrupt 188 Priority" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x06) group.long 0x400++0xDF line.long 0x0 "IPR0,Interrupt Priority Register" hexmask.long.byte 0x0 24.--31. 1. " PRI_3 ,Interrupt 3 Priority" hexmask.long.byte 0x0 16.--23. 1. " PRI_2 ,Interrupt 2 Priority" hexmask.long.byte 0x0 8.--15. 1. " PRI_1 ,Interrupt 1 Priority" hexmask.long.byte 0x0 0.--7. 1. " PRI_0 ,Interrupt 0 Priority" line.long 0x4 "IPR1,Interrupt Priority Register" hexmask.long.byte 0x4 24.--31. 1. " PRI_7 ,Interrupt 7 Priority" hexmask.long.byte 0x4 16.--23. 1. " PRI_6 ,Interrupt 6 Priority" hexmask.long.byte 0x4 8.--15. 1. " PRI_5 ,Interrupt 5 Priority" hexmask.long.byte 0x4 0.--7. 1. " PRI_4 ,Interrupt 4 Priority" line.long 0x8 "IPR2,Interrupt Priority Register" hexmask.long.byte 0x8 24.--31. 1. " PRI_11 ,Interrupt 11 Priority" hexmask.long.byte 0x8 16.--23. 1. " PRI_10 ,Interrupt 10 Priority" hexmask.long.byte 0x8 8.--15. 1. " PRI_9 ,Interrupt 9 Priority" hexmask.long.byte 0x8 0.--7. 1. " PRI_8 ,Interrupt 8 Priority" line.long 0xC "IPR3,Interrupt Priority Register" hexmask.long.byte 0xC 24.--31. 1. " PRI_15 ,Interrupt 15 Priority" hexmask.long.byte 0xC 16.--23. 1. " PRI_14 ,Interrupt 14 Priority" hexmask.long.byte 0xC 8.--15. 1. " PRI_13 ,Interrupt 13 Priority" hexmask.long.byte 0xC 0.--7. 1. " PRI_12 ,Interrupt 12 Priority" line.long 0x10 "IPR4,Interrupt Priority Register" hexmask.long.byte 0x10 24.--31. 1. " PRI_19 ,Interrupt 19 Priority" hexmask.long.byte 0x10 16.--23. 1. " PRI_18 ,Interrupt 18 Priority" hexmask.long.byte 0x10 8.--15. 1. " PRI_17 ,Interrupt 17 Priority" hexmask.long.byte 0x10 0.--7. 1. " PRI_16 ,Interrupt 16 Priority" line.long 0x14 "IPR5,Interrupt Priority Register" hexmask.long.byte 0x14 24.--31. 1. " PRI_23 ,Interrupt 23 Priority" hexmask.long.byte 0x14 16.--23. 1. " PRI_22 ,Interrupt 22 Priority" hexmask.long.byte 0x14 8.--15. 1. " PRI_21 ,Interrupt 21 Priority" hexmask.long.byte 0x14 0.--7. 1. " PRI_20 ,Interrupt 20 Priority" line.long 0x18 "IPR6,Interrupt Priority Register" hexmask.long.byte 0x18 24.--31. 1. " PRI_27 ,Interrupt 27 Priority" hexmask.long.byte 0x18 16.--23. 1. " PRI_26 ,Interrupt 26 Priority" hexmask.long.byte 0x18 8.--15. 1. " PRI_25 ,Interrupt 25 Priority" hexmask.long.byte 0x18 0.--7. 1. " PRI_24 ,Interrupt 24 Priority" line.long 0x1C "IPR7,Interrupt Priority Register" hexmask.long.byte 0x1C 24.--31. 1. " PRI_31 ,Interrupt 31 Priority" hexmask.long.byte 0x1C 16.--23. 1. " PRI_30 ,Interrupt 30 Priority" hexmask.long.byte 0x1C 8.--15. 1. " PRI_29 ,Interrupt 29 Priority" hexmask.long.byte 0x1C 0.--7. 1. " PRI_28 ,Interrupt 28 Priority" line.long 0x20 "IPR8,Interrupt Priority Register" hexmask.long.byte 0x20 24.--31. 1. " PRI_35 ,Interrupt 35 Priority" hexmask.long.byte 0x20 16.--23. 1. " PRI_34 ,Interrupt 34 Priority" hexmask.long.byte 0x20 8.--15. 1. " PRI_33 ,Interrupt 33 Priority" hexmask.long.byte 0x20 0.--7. 1. " PRI_32 ,Interrupt 32 Priority" line.long 0x24 "IPR9,Interrupt Priority Register" hexmask.long.byte 0x24 24.--31. 1. " PRI_39 ,Interrupt 39 Priority" hexmask.long.byte 0x24 16.--23. 1. " PRI_38 ,Interrupt 38 Priority" hexmask.long.byte 0x24 8.--15. 1. " PRI_37 ,Interrupt 37 Priority" hexmask.long.byte 0x24 0.--7. 1. " PRI_36 ,Interrupt 36 Priority" line.long 0x28 "IPR10,Interrupt Priority Register" hexmask.long.byte 0x28 24.--31. 1. " PRI_43 ,Interrupt 43 Priority" hexmask.long.byte 0x28 16.--23. 1. " PRI_42 ,Interrupt 42 Priority" hexmask.long.byte 0x28 8.--15. 1. " PRI_41 ,Interrupt 41 Priority" hexmask.long.byte 0x28 0.--7. 1. " PRI_40 ,Interrupt 40 Priority" line.long 0x2C "IPR11,Interrupt Priority Register" hexmask.long.byte 0x2C 24.--31. 1. " PRI_47 ,Interrupt 47 Priority" hexmask.long.byte 0x2C 16.--23. 1. " PRI_46 ,Interrupt 46 Priority" hexmask.long.byte 0x2C 8.--15. 1. " PRI_45 ,Interrupt 45 Priority" hexmask.long.byte 0x2C 0.--7. 1. " PRI_44 ,Interrupt 44 Priority" line.long 0x30 "IPR12,Interrupt Priority Register" hexmask.long.byte 0x30 24.--31. 1. " PRI_51 ,Interrupt 51 Priority" hexmask.long.byte 0x30 16.--23. 1. " PRI_50 ,Interrupt 50 Priority" hexmask.long.byte 0x30 8.--15. 1. " PRI_49 ,Interrupt 49 Priority" hexmask.long.byte 0x30 0.--7. 1. " PRI_48 ,Interrupt 48 Priority" line.long 0x34 "IPR13,Interrupt Priority Register" hexmask.long.byte 0x34 24.--31. 1. " PRI_55 ,Interrupt 55 Priority" hexmask.long.byte 0x34 16.--23. 1. " PRI_54 ,Interrupt 54 Priority" hexmask.long.byte 0x34 8.--15. 1. " PRI_53 ,Interrupt 53 Priority" hexmask.long.byte 0x34 0.--7. 1. " PRI_52 ,Interrupt 52 Priority" line.long 0x38 "IPR14,Interrupt Priority Register" hexmask.long.byte 0x38 24.--31. 1. " PRI_59 ,Interrupt 59 Priority" hexmask.long.byte 0x38 16.--23. 1. " PRI_58 ,Interrupt 58 Priority" hexmask.long.byte 0x38 8.--15. 1. " PRI_57 ,Interrupt 57 Priority" hexmask.long.byte 0x38 0.--7. 1. " PRI_56 ,Interrupt 56 Priority" line.long 0x3C "IPR15,Interrupt Priority Register" hexmask.long.byte 0x3C 24.--31. 1. " PRI_63 ,Interrupt 63 Priority" hexmask.long.byte 0x3C 16.--23. 1. " PRI_62 ,Interrupt 62 Priority" hexmask.long.byte 0x3C 8.--15. 1. " PRI_61 ,Interrupt 61 Priority" hexmask.long.byte 0x3C 0.--7. 1. " PRI_60 ,Interrupt 60 Priority" line.long 0x40 "IPR16,Interrupt Priority Register" hexmask.long.byte 0x40 24.--31. 1. " PRI_67 ,Interrupt 67 Priority" hexmask.long.byte 0x40 16.--23. 1. " PRI_66 ,Interrupt 66 Priority" hexmask.long.byte 0x40 8.--15. 1. " PRI_65 ,Interrupt 65 Priority" hexmask.long.byte 0x40 0.--7. 1. " PRI_64 ,Interrupt 64 Priority" line.long 0x44 "IPR17,Interrupt Priority Register" hexmask.long.byte 0x44 24.--31. 1. " PRI_71 ,Interrupt 71 Priority" hexmask.long.byte 0x44 16.--23. 1. " PRI_70 ,Interrupt 70 Priority" hexmask.long.byte 0x44 8.--15. 1. " PRI_69 ,Interrupt 69 Priority" hexmask.long.byte 0x44 0.--7. 1. " PRI_68 ,Interrupt 68 Priority" line.long 0x48 "IPR18,Interrupt Priority Register" hexmask.long.byte 0x48 24.--31. 1. " PRI_75 ,Interrupt 75 Priority" hexmask.long.byte 0x48 16.--23. 1. " PRI_74 ,Interrupt 74 Priority" hexmask.long.byte 0x48 8.--15. 1. " PRI_73 ,Interrupt 73 Priority" hexmask.long.byte 0x48 0.--7. 1. " PRI_72 ,Interrupt 72 Priority" line.long 0x4C "IPR19,Interrupt Priority Register" hexmask.long.byte 0x4C 24.--31. 1. " PRI_79 ,Interrupt 79 Priority" hexmask.long.byte 0x4C 16.--23. 1. " PRI_78 ,Interrupt 78 Priority" hexmask.long.byte 0x4C 8.--15. 1. " PRI_77 ,Interrupt 77 Priority" hexmask.long.byte 0x4C 0.--7. 1. " PRI_76 ,Interrupt 76 Priority" line.long 0x50 "IPR20,Interrupt Priority Register" hexmask.long.byte 0x50 24.--31. 1. " PRI_83 ,Interrupt 83 Priority" hexmask.long.byte 0x50 16.--23. 1. " PRI_82 ,Interrupt 82 Priority" hexmask.long.byte 0x50 8.--15. 1. " PRI_81 ,Interrupt 81 Priority" hexmask.long.byte 0x50 0.--7. 1. " PRI_80 ,Interrupt 80 Priority" line.long 0x54 "IPR21,Interrupt Priority Register" hexmask.long.byte 0x54 24.--31. 1. " PRI_87 ,Interrupt 87 Priority" hexmask.long.byte 0x54 16.--23. 1. " PRI_86 ,Interrupt 86 Priority" hexmask.long.byte 0x54 8.--15. 1. " PRI_85 ,Interrupt 85 Priority" hexmask.long.byte 0x54 0.--7. 1. " PRI_84 ,Interrupt 84 Priority" line.long 0x58 "IPR22,Interrupt Priority Register" hexmask.long.byte 0x58 24.--31. 1. " PRI_91 ,Interrupt 91 Priority" hexmask.long.byte 0x58 16.--23. 1. " PRI_90 ,Interrupt 90 Priority" hexmask.long.byte 0x58 8.--15. 1. " PRI_89 ,Interrupt 89 Priority" hexmask.long.byte 0x58 0.--7. 1. " PRI_88 ,Interrupt 88 Priority" line.long 0x5C "IPR23,Interrupt Priority Register" hexmask.long.byte 0x5C 24.--31. 1. " PRI_95 ,Interrupt 95 Priority" hexmask.long.byte 0x5C 16.--23. 1. " PRI_94 ,Interrupt 94 Priority" hexmask.long.byte 0x5C 8.--15. 1. " PRI_93 ,Interrupt 93 Priority" hexmask.long.byte 0x5C 0.--7. 1. " PRI_92 ,Interrupt 92 Priority" line.long 0x60 "IPR24,Interrupt Priority Register" hexmask.long.byte 0x60 24.--31. 1. " PRI_99 ,Interrupt 99 Priority" hexmask.long.byte 0x60 16.--23. 1. " PRI_98 ,Interrupt 98 Priority" hexmask.long.byte 0x60 8.--15. 1. " PRI_97 ,Interrupt 97 Priority" hexmask.long.byte 0x60 0.--7. 1. " PRI_96 ,Interrupt 96 Priority" line.long 0x64 "IPR25,Interrupt Priority Register" hexmask.long.byte 0x64 24.--31. 1. " PRI_103 ,Interrupt 103 Priority" hexmask.long.byte 0x64 16.--23. 1. " PRI_102 ,Interrupt 102 Priority" hexmask.long.byte 0x64 8.--15. 1. " PRI_101 ,Interrupt 101 Priority" hexmask.long.byte 0x64 0.--7. 1. " PRI_100 ,Interrupt 100 Priority" line.long 0x68 "IPR26,Interrupt Priority Register" hexmask.long.byte 0x68 24.--31. 1. " PRI_107 ,Interrupt 107 Priority" hexmask.long.byte 0x68 16.--23. 1. " PRI_106 ,Interrupt 106 Priority" hexmask.long.byte 0x68 8.--15. 1. " PRI_105 ,Interrupt 105 Priority" hexmask.long.byte 0x68 0.--7. 1. " PRI_104 ,Interrupt 104 Priority" line.long 0x6C "IPR27,Interrupt Priority Register" hexmask.long.byte 0x6C 24.--31. 1. " PRI_111 ,Interrupt 111 Priority" hexmask.long.byte 0x6C 16.--23. 1. " PRI_110 ,Interrupt 110 Priority" hexmask.long.byte 0x6C 8.--15. 1. " PRI_109 ,Interrupt 109 Priority" hexmask.long.byte 0x6C 0.--7. 1. " PRI_108 ,Interrupt 108 Priority" line.long 0x70 "IPR28,Interrupt Priority Register" hexmask.long.byte 0x70 24.--31. 1. " PRI_115 ,Interrupt 115 Priority" hexmask.long.byte 0x70 16.--23. 1. " PRI_114 ,Interrupt 114 Priority" hexmask.long.byte 0x70 8.--15. 1. " PRI_113 ,Interrupt 113 Priority" hexmask.long.byte 0x70 0.--7. 1. " PRI_112 ,Interrupt 112 Priority" line.long 0x74 "IPR29,Interrupt Priority Register" hexmask.long.byte 0x74 24.--31. 1. " PRI_119 ,Interrupt 119 Priority" hexmask.long.byte 0x74 16.--23. 1. " PRI_118 ,Interrupt 118 Priority" hexmask.long.byte 0x74 8.--15. 1. " PRI_117 ,Interrupt 117 Priority" hexmask.long.byte 0x74 0.--7. 1. " PRI_116 ,Interrupt 116 Priority" line.long 0x78 "IPR30,Interrupt Priority Register" hexmask.long.byte 0x78 24.--31. 1. " PRI_123 ,Interrupt 123 Priority" hexmask.long.byte 0x78 16.--23. 1. " PRI_122 ,Interrupt 122 Priority" hexmask.long.byte 0x78 8.--15. 1. " PRI_121 ,Interrupt 121 Priority" hexmask.long.byte 0x78 0.--7. 1. " PRI_120 ,Interrupt 120 Priority" line.long 0x7C "IPR31,Interrupt Priority Register" hexmask.long.byte 0x7C 24.--31. 1. " PRI_127 ,Interrupt 127 Priority" hexmask.long.byte 0x7C 16.--23. 1. " PRI_126 ,Interrupt 126 Priority" hexmask.long.byte 0x7C 8.--15. 1. " PRI_125 ,Interrupt 125 Priority" hexmask.long.byte 0x7C 0.--7. 1. " PRI_124 ,Interrupt 124 Priority" line.long 0x80 "IPR32,Interrupt Priority Register" hexmask.long.byte 0x80 24.--31. 1. " PRI_131 ,Interrupt 131 Priority" hexmask.long.byte 0x80 16.--23. 1. " PRI_130 ,Interrupt 130 Priority" hexmask.long.byte 0x80 8.--15. 1. " PRI_129 ,Interrupt 129 Priority" hexmask.long.byte 0x80 0.--7. 1. " PRI_128 ,Interrupt 128 Priority" line.long 0x84 "IPR33,Interrupt Priority Register" hexmask.long.byte 0x84 24.--31. 1. " PRI_135 ,Interrupt 135 Priority" hexmask.long.byte 0x84 16.--23. 1. " PRI_134 ,Interrupt 134 Priority" hexmask.long.byte 0x84 8.--15. 1. " PRI_133 ,Interrupt 133 Priority" hexmask.long.byte 0x84 0.--7. 1. " PRI_132 ,Interrupt 132 Priority" line.long 0x88 "IPR34,Interrupt Priority Register" hexmask.long.byte 0x88 24.--31. 1. " PRI_139 ,Interrupt 139 Priority" hexmask.long.byte 0x88 16.--23. 1. " PRI_138 ,Interrupt 138 Priority" hexmask.long.byte 0x88 8.--15. 1. " PRI_137 ,Interrupt 137 Priority" hexmask.long.byte 0x88 0.--7. 1. " PRI_136 ,Interrupt 136 Priority" line.long 0x8C "IPR35,Interrupt Priority Register" hexmask.long.byte 0x8C 24.--31. 1. " PRI_143 ,Interrupt 143 Priority" hexmask.long.byte 0x8C 16.--23. 1. " PRI_142 ,Interrupt 142 Priority" hexmask.long.byte 0x8C 8.--15. 1. " PRI_141 ,Interrupt 141 Priority" hexmask.long.byte 0x8C 0.--7. 1. " PRI_140 ,Interrupt 140 Priority" line.long 0x90 "IPR36,Interrupt Priority Register" hexmask.long.byte 0x90 24.--31. 1. " PRI_147 ,Interrupt 147 Priority" hexmask.long.byte 0x90 16.--23. 1. " PRI_146 ,Interrupt 146 Priority" hexmask.long.byte 0x90 8.--15. 1. " PRI_145 ,Interrupt 145 Priority" hexmask.long.byte 0x90 0.--7. 1. " PRI_144 ,Interrupt 144 Priority" line.long 0x94 "IPR37,Interrupt Priority Register" hexmask.long.byte 0x94 24.--31. 1. " PRI_151 ,Interrupt 151 Priority" hexmask.long.byte 0x94 16.--23. 1. " PRI_150 ,Interrupt 150 Priority" hexmask.long.byte 0x94 8.--15. 1. " PRI_149 ,Interrupt 149 Priority" hexmask.long.byte 0x94 0.--7. 1. " PRI_148 ,Interrupt 148 Priority" line.long 0x98 "IPR38,Interrupt Priority Register" hexmask.long.byte 0x98 24.--31. 1. " PRI_155 ,Interrupt 155 Priority" hexmask.long.byte 0x98 16.--23. 1. " PRI_154 ,Interrupt 154 Priority" hexmask.long.byte 0x98 8.--15. 1. " PRI_153 ,Interrupt 153 Priority" hexmask.long.byte 0x98 0.--7. 1. " PRI_152 ,Interrupt 152 Priority" line.long 0x9C "IPR39,Interrupt Priority Register" hexmask.long.byte 0x9C 24.--31. 1. " PRI_159 ,Interrupt 159 Priority" hexmask.long.byte 0x9C 16.--23. 1. " PRI_158 ,Interrupt 158 Priority" hexmask.long.byte 0x9C 8.--15. 1. " PRI_157 ,Interrupt 157 Priority" hexmask.long.byte 0x9C 0.--7. 1. " PRI_156 ,Interrupt 156 Priority" line.long 0xA0 "IPR40,Interrupt Priority Register" hexmask.long.byte 0xA0 24.--31. 1. " PRI_163 ,Interrupt 163 Priority" hexmask.long.byte 0xA0 16.--23. 1. " PRI_162 ,Interrupt 162 Priority" hexmask.long.byte 0xA0 8.--15. 1. " PRI_161 ,Interrupt 161 Priority" hexmask.long.byte 0xA0 0.--7. 1. " PRI_160 ,Interrupt 160 Priority" line.long 0xA4 "IPR41,Interrupt Priority Register" hexmask.long.byte 0xA4 24.--31. 1. " PRI_167 ,Interrupt 167 Priority" hexmask.long.byte 0xA4 16.--23. 1. " PRI_166 ,Interrupt 166 Priority" hexmask.long.byte 0xA4 8.--15. 1. " PRI_165 ,Interrupt 165 Priority" hexmask.long.byte 0xA4 0.--7. 1. " PRI_164 ,Interrupt 164 Priority" line.long 0xA8 "IPR42,Interrupt Priority Register" hexmask.long.byte 0xA8 24.--31. 1. " PRI_171 ,Interrupt 171 Priority" hexmask.long.byte 0xA8 16.--23. 1. " PRI_170 ,Interrupt 170 Priority" hexmask.long.byte 0xA8 8.--15. 1. " PRI_169 ,Interrupt 169 Priority" hexmask.long.byte 0xA8 0.--7. 1. " PRI_168 ,Interrupt 168 Priority" line.long 0xAC "IPR43,Interrupt Priority Register" hexmask.long.byte 0xAC 24.--31. 1. " PRI_175 ,Interrupt 175 Priority" hexmask.long.byte 0xAC 16.--23. 1. " PRI_174 ,Interrupt 174 Priority" hexmask.long.byte 0xAC 8.--15. 1. " PRI_173 ,Interrupt 173 Priority" hexmask.long.byte 0xAC 0.--7. 1. " PRI_172 ,Interrupt 172 Priority" line.long 0xB0 "IPR44,Interrupt Priority Register" hexmask.long.byte 0xB0 24.--31. 1. " PRI_179 ,Interrupt 179 Priority" hexmask.long.byte 0xB0 16.--23. 1. " PRI_178 ,Interrupt 178 Priority" hexmask.long.byte 0xB0 8.--15. 1. " PRI_177 ,Interrupt 177 Priority" hexmask.long.byte 0xB0 0.--7. 1. " PRI_176 ,Interrupt 176 Priority" line.long 0xB4 "IPR45,Interrupt Priority Register" hexmask.long.byte 0xB4 24.--31. 1. " PRI_183 ,Interrupt 183 Priority" hexmask.long.byte 0xB4 16.--23. 1. " PRI_182 ,Interrupt 182 Priority" hexmask.long.byte 0xB4 8.--15. 1. " PRI_181 ,Interrupt 181 Priority" hexmask.long.byte 0xB4 0.--7. 1. " PRI_180 ,Interrupt 180 Priority" line.long 0xB8 "IPR46,Interrupt Priority Register" hexmask.long.byte 0xB8 24.--31. 1. " PRI_187 ,Interrupt 187 Priority" hexmask.long.byte 0xB8 16.--23. 1. " PRI_186 ,Interrupt 186 Priority" hexmask.long.byte 0xB8 8.--15. 1. " PRI_185 ,Interrupt 185 Priority" hexmask.long.byte 0xB8 0.--7. 1. " PRI_184 ,Interrupt 184 Priority" line.long 0xBC "IPR47,Interrupt Priority Register" hexmask.long.byte 0xBC 24.--31. 1. " PRI_191 ,Interrupt 191 Priority" hexmask.long.byte 0xBC 16.--23. 1. " PRI_190 ,Interrupt 190 Priority" hexmask.long.byte 0xBC 8.--15. 1. " PRI_189 ,Interrupt 189 Priority" hexmask.long.byte 0xBC 0.--7. 1. " PRI_188 ,Interrupt 188 Priority" line.long 0xC0 "IPR48,Interrupt Priority Register" hexmask.long.byte 0xC0 24.--31. 1. " PRI_195 ,Interrupt 195 Priority" hexmask.long.byte 0xC0 16.--23. 1. " PRI_194 ,Interrupt 194 Priority" hexmask.long.byte 0xC0 8.--15. 1. " PRI_193 ,Interrupt 193 Priority" hexmask.long.byte 0xC0 0.--7. 1. " PRI_192 ,Interrupt 192 Priority" line.long 0xC4 "IPR49,Interrupt Priority Register" hexmask.long.byte 0xC4 24.--31. 1. " PRI_199 ,Interrupt 199 Priority" hexmask.long.byte 0xC4 16.--23. 1. " PRI_198 ,Interrupt 198 Priority" hexmask.long.byte 0xC4 8.--15. 1. " PRI_197 ,Interrupt 197 Priority" hexmask.long.byte 0xC4 0.--7. 1. " PRI_196 ,Interrupt 196 Priority" line.long 0xC8 "IPR50,Interrupt Priority Register" hexmask.long.byte 0xC8 24.--31. 1. " PRI_203 ,Interrupt 203 Priority" hexmask.long.byte 0xC8 16.--23. 1. " PRI_202 ,Interrupt 202 Priority" hexmask.long.byte 0xC8 8.--15. 1. " PRI_201 ,Interrupt 201 Priority" hexmask.long.byte 0xC8 0.--7. 1. " PRI_200 ,Interrupt 200 Priority" line.long 0xCC "IPR51,Interrupt Priority Register" hexmask.long.byte 0xCC 24.--31. 1. " PRI_207 ,Interrupt 207 Priority" hexmask.long.byte 0xCC 16.--23. 1. " PRI_206 ,Interrupt 206 Priority" hexmask.long.byte 0xCC 8.--15. 1. " PRI_205 ,Interrupt 205 Priority" hexmask.long.byte 0xCC 0.--7. 1. " PRI_204 ,Interrupt 204 Priority" line.long 0xD0 "IPR52,Interrupt Priority Register" hexmask.long.byte 0xD0 24.--31. 1. " PRI_211 ,Interrupt 211 Priority" hexmask.long.byte 0xD0 16.--23. 1. " PRI_210 ,Interrupt 210 Priority" hexmask.long.byte 0xD0 8.--15. 1. " PRI_209 ,Interrupt 209 Priority" hexmask.long.byte 0xD0 0.--7. 1. " PRI_208 ,Interrupt 208 Priority" line.long 0xD4 "IPR53,Interrupt Priority Register" hexmask.long.byte 0xD4 24.--31. 1. " PRI_215 ,Interrupt 215 Priority" hexmask.long.byte 0xD4 16.--23. 1. " PRI_214 ,Interrupt 214 Priority" hexmask.long.byte 0xD4 8.--15. 1. " PRI_213 ,Interrupt 213 Priority" hexmask.long.byte 0xD4 0.--7. 1. " PRI_212 ,Interrupt 212 Priority" line.long 0xD8 "IPR54,Interrupt Priority Register" hexmask.long.byte 0xD8 24.--31. 1. " PRI_219 ,Interrupt 219 Priority" hexmask.long.byte 0xD8 16.--23. 1. " PRI_218 ,Interrupt 218 Priority" hexmask.long.byte 0xD8 8.--15. 1. " PRI_217 ,Interrupt 217 Priority" hexmask.long.byte 0xD8 0.--7. 1. " PRI_216 ,Interrupt 216 Priority" line.long 0xDC "IPR55,Interrupt Priority Register" hexmask.long.byte 0xDC 24.--31. 1. " PRI_223 ,Interrupt 223 Priority" hexmask.long.byte 0xDC 16.--23. 1. " PRI_222 ,Interrupt 222 Priority" hexmask.long.byte 0xDC 8.--15. 1. " PRI_221 ,Interrupt 221 Priority" hexmask.long.byte 0xDC 0.--7. 1. " PRI_220 ,Interrupt 220 Priority" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x07) group.long 0x400++0xEF line.long 0x0 "IPR0,Interrupt Priority Register" hexmask.long.byte 0x0 24.--31. 1. " PRI_3 ,Interrupt 3 Priority" hexmask.long.byte 0x0 16.--23. 1. " PRI_2 ,Interrupt 2 Priority" hexmask.long.byte 0x0 8.--15. 1. " PRI_1 ,Interrupt 1 Priority" hexmask.long.byte 0x0 0.--7. 1. " PRI_0 ,Interrupt 0 Priority" line.long 0x4 "IPR1,Interrupt Priority Register" hexmask.long.byte 0x4 24.--31. 1. " PRI_7 ,Interrupt 7 Priority" hexmask.long.byte 0x4 16.--23. 1. " PRI_6 ,Interrupt 6 Priority" hexmask.long.byte 0x4 8.--15. 1. " PRI_5 ,Interrupt 5 Priority" hexmask.long.byte 0x4 0.--7. 1. " PRI_4 ,Interrupt 4 Priority" line.long 0x8 "IPR2,Interrupt Priority Register" hexmask.long.byte 0x8 24.--31. 1. " PRI_11 ,Interrupt 11 Priority" hexmask.long.byte 0x8 16.--23. 1. " PRI_10 ,Interrupt 10 Priority" hexmask.long.byte 0x8 8.--15. 1. " PRI_9 ,Interrupt 9 Priority" hexmask.long.byte 0x8 0.--7. 1. " PRI_8 ,Interrupt 8 Priority" line.long 0xC "IPR3,Interrupt Priority Register" hexmask.long.byte 0xC 24.--31. 1. " PRI_15 ,Interrupt 15 Priority" hexmask.long.byte 0xC 16.--23. 1. " PRI_14 ,Interrupt 14 Priority" hexmask.long.byte 0xC 8.--15. 1. " PRI_13 ,Interrupt 13 Priority" hexmask.long.byte 0xC 0.--7. 1. " PRI_12 ,Interrupt 12 Priority" line.long 0x10 "IPR4,Interrupt Priority Register" hexmask.long.byte 0x10 24.--31. 1. " PRI_19 ,Interrupt 19 Priority" hexmask.long.byte 0x10 16.--23. 1. " PRI_18 ,Interrupt 18 Priority" hexmask.long.byte 0x10 8.--15. 1. " PRI_17 ,Interrupt 17 Priority" hexmask.long.byte 0x10 0.--7. 1. " PRI_16 ,Interrupt 16 Priority" line.long 0x14 "IPR5,Interrupt Priority Register" hexmask.long.byte 0x14 24.--31. 1. " PRI_23 ,Interrupt 23 Priority" hexmask.long.byte 0x14 16.--23. 1. " PRI_22 ,Interrupt 22 Priority" hexmask.long.byte 0x14 8.--15. 1. " PRI_21 ,Interrupt 21 Priority" hexmask.long.byte 0x14 0.--7. 1. " PRI_20 ,Interrupt 20 Priority" line.long 0x18 "IPR6,Interrupt Priority Register" hexmask.long.byte 0x18 24.--31. 1. " PRI_27 ,Interrupt 27 Priority" hexmask.long.byte 0x18 16.--23. 1. " PRI_26 ,Interrupt 26 Priority" hexmask.long.byte 0x18 8.--15. 1. " PRI_25 ,Interrupt 25 Priority" hexmask.long.byte 0x18 0.--7. 1. " PRI_24 ,Interrupt 24 Priority" line.long 0x1C "IPR7,Interrupt Priority Register" hexmask.long.byte 0x1C 24.--31. 1. " PRI_31 ,Interrupt 31 Priority" hexmask.long.byte 0x1C 16.--23. 1. " PRI_30 ,Interrupt 30 Priority" hexmask.long.byte 0x1C 8.--15. 1. " PRI_29 ,Interrupt 29 Priority" hexmask.long.byte 0x1C 0.--7. 1. " PRI_28 ,Interrupt 28 Priority" line.long 0x20 "IPR8,Interrupt Priority Register" hexmask.long.byte 0x20 24.--31. 1. " PRI_35 ,Interrupt 35 Priority" hexmask.long.byte 0x20 16.--23. 1. " PRI_34 ,Interrupt 34 Priority" hexmask.long.byte 0x20 8.--15. 1. " PRI_33 ,Interrupt 33 Priority" hexmask.long.byte 0x20 0.--7. 1. " PRI_32 ,Interrupt 32 Priority" line.long 0x24 "IPR9,Interrupt Priority Register" hexmask.long.byte 0x24 24.--31. 1. " PRI_39 ,Interrupt 39 Priority" hexmask.long.byte 0x24 16.--23. 1. " PRI_38 ,Interrupt 38 Priority" hexmask.long.byte 0x24 8.--15. 1. " PRI_37 ,Interrupt 37 Priority" hexmask.long.byte 0x24 0.--7. 1. " PRI_36 ,Interrupt 36 Priority" line.long 0x28 "IPR10,Interrupt Priority Register" hexmask.long.byte 0x28 24.--31. 1. " PRI_43 ,Interrupt 43 Priority" hexmask.long.byte 0x28 16.--23. 1. " PRI_42 ,Interrupt 42 Priority" hexmask.long.byte 0x28 8.--15. 1. " PRI_41 ,Interrupt 41 Priority" hexmask.long.byte 0x28 0.--7. 1. " PRI_40 ,Interrupt 40 Priority" line.long 0x2C "IPR11,Interrupt Priority Register" hexmask.long.byte 0x2C 24.--31. 1. " PRI_47 ,Interrupt 47 Priority" hexmask.long.byte 0x2C 16.--23. 1. " PRI_46 ,Interrupt 46 Priority" hexmask.long.byte 0x2C 8.--15. 1. " PRI_45 ,Interrupt 45 Priority" hexmask.long.byte 0x2C 0.--7. 1. " PRI_44 ,Interrupt 44 Priority" line.long 0x30 "IPR12,Interrupt Priority Register" hexmask.long.byte 0x30 24.--31. 1. " PRI_51 ,Interrupt 51 Priority" hexmask.long.byte 0x30 16.--23. 1. " PRI_50 ,Interrupt 50 Priority" hexmask.long.byte 0x30 8.--15. 1. " PRI_49 ,Interrupt 49 Priority" hexmask.long.byte 0x30 0.--7. 1. " PRI_48 ,Interrupt 48 Priority" line.long 0x34 "IPR13,Interrupt Priority Register" hexmask.long.byte 0x34 24.--31. 1. " PRI_55 ,Interrupt 55 Priority" hexmask.long.byte 0x34 16.--23. 1. " PRI_54 ,Interrupt 54 Priority" hexmask.long.byte 0x34 8.--15. 1. " PRI_53 ,Interrupt 53 Priority" hexmask.long.byte 0x34 0.--7. 1. " PRI_52 ,Interrupt 52 Priority" line.long 0x38 "IPR14,Interrupt Priority Register" hexmask.long.byte 0x38 24.--31. 1. " PRI_59 ,Interrupt 59 Priority" hexmask.long.byte 0x38 16.--23. 1. " PRI_58 ,Interrupt 58 Priority" hexmask.long.byte 0x38 8.--15. 1. " PRI_57 ,Interrupt 57 Priority" hexmask.long.byte 0x38 0.--7. 1. " PRI_56 ,Interrupt 56 Priority" line.long 0x3C "IPR15,Interrupt Priority Register" hexmask.long.byte 0x3C 24.--31. 1. " PRI_63 ,Interrupt 63 Priority" hexmask.long.byte 0x3C 16.--23. 1. " PRI_62 ,Interrupt 62 Priority" hexmask.long.byte 0x3C 8.--15. 1. " PRI_61 ,Interrupt 61 Priority" hexmask.long.byte 0x3C 0.--7. 1. " PRI_60 ,Interrupt 60 Priority" line.long 0x40 "IPR16,Interrupt Priority Register" hexmask.long.byte 0x40 24.--31. 1. " PRI_67 ,Interrupt 67 Priority" hexmask.long.byte 0x40 16.--23. 1. " PRI_66 ,Interrupt 66 Priority" hexmask.long.byte 0x40 8.--15. 1. " PRI_65 ,Interrupt 65 Priority" hexmask.long.byte 0x40 0.--7. 1. " PRI_64 ,Interrupt 64 Priority" line.long 0x44 "IPR17,Interrupt Priority Register" hexmask.long.byte 0x44 24.--31. 1. " PRI_71 ,Interrupt 71 Priority" hexmask.long.byte 0x44 16.--23. 1. " PRI_70 ,Interrupt 70 Priority" hexmask.long.byte 0x44 8.--15. 1. " PRI_69 ,Interrupt 69 Priority" hexmask.long.byte 0x44 0.--7. 1. " PRI_68 ,Interrupt 68 Priority" line.long 0x48 "IPR18,Interrupt Priority Register" hexmask.long.byte 0x48 24.--31. 1. " PRI_75 ,Interrupt 75 Priority" hexmask.long.byte 0x48 16.--23. 1. " PRI_74 ,Interrupt 74 Priority" hexmask.long.byte 0x48 8.--15. 1. " PRI_73 ,Interrupt 73 Priority" hexmask.long.byte 0x48 0.--7. 1. " PRI_72 ,Interrupt 72 Priority" line.long 0x4C "IPR19,Interrupt Priority Register" hexmask.long.byte 0x4C 24.--31. 1. " PRI_79 ,Interrupt 79 Priority" hexmask.long.byte 0x4C 16.--23. 1. " PRI_78 ,Interrupt 78 Priority" hexmask.long.byte 0x4C 8.--15. 1. " PRI_77 ,Interrupt 77 Priority" hexmask.long.byte 0x4C 0.--7. 1. " PRI_76 ,Interrupt 76 Priority" line.long 0x50 "IPR20,Interrupt Priority Register" hexmask.long.byte 0x50 24.--31. 1. " PRI_83 ,Interrupt 83 Priority" hexmask.long.byte 0x50 16.--23. 1. " PRI_82 ,Interrupt 82 Priority" hexmask.long.byte 0x50 8.--15. 1. " PRI_81 ,Interrupt 81 Priority" hexmask.long.byte 0x50 0.--7. 1. " PRI_80 ,Interrupt 80 Priority" line.long 0x54 "IPR21,Interrupt Priority Register" hexmask.long.byte 0x54 24.--31. 1. " PRI_87 ,Interrupt 87 Priority" hexmask.long.byte 0x54 16.--23. 1. " PRI_86 ,Interrupt 86 Priority" hexmask.long.byte 0x54 8.--15. 1. " PRI_85 ,Interrupt 85 Priority" hexmask.long.byte 0x54 0.--7. 1. " PRI_84 ,Interrupt 84 Priority" line.long 0x58 "IPR22,Interrupt Priority Register" hexmask.long.byte 0x58 24.--31. 1. " PRI_91 ,Interrupt 91 Priority" hexmask.long.byte 0x58 16.--23. 1. " PRI_90 ,Interrupt 90 Priority" hexmask.long.byte 0x58 8.--15. 1. " PRI_89 ,Interrupt 89 Priority" hexmask.long.byte 0x58 0.--7. 1. " PRI_88 ,Interrupt 88 Priority" line.long 0x5C "IPR23,Interrupt Priority Register" hexmask.long.byte 0x5C 24.--31. 1. " PRI_95 ,Interrupt 95 Priority" hexmask.long.byte 0x5C 16.--23. 1. " PRI_94 ,Interrupt 94 Priority" hexmask.long.byte 0x5C 8.--15. 1. " PRI_93 ,Interrupt 93 Priority" hexmask.long.byte 0x5C 0.--7. 1. " PRI_92 ,Interrupt 92 Priority" line.long 0x60 "IPR24,Interrupt Priority Register" hexmask.long.byte 0x60 24.--31. 1. " PRI_99 ,Interrupt 99 Priority" hexmask.long.byte 0x60 16.--23. 1. " PRI_98 ,Interrupt 98 Priority" hexmask.long.byte 0x60 8.--15. 1. " PRI_97 ,Interrupt 97 Priority" hexmask.long.byte 0x60 0.--7. 1. " PRI_96 ,Interrupt 96 Priority" line.long 0x64 "IPR25,Interrupt Priority Register" hexmask.long.byte 0x64 24.--31. 1. " PRI_103 ,Interrupt 103 Priority" hexmask.long.byte 0x64 16.--23. 1. " PRI_102 ,Interrupt 102 Priority" hexmask.long.byte 0x64 8.--15. 1. " PRI_101 ,Interrupt 101 Priority" hexmask.long.byte 0x64 0.--7. 1. " PRI_100 ,Interrupt 100 Priority" line.long 0x68 "IPR26,Interrupt Priority Register" hexmask.long.byte 0x68 24.--31. 1. " PRI_107 ,Interrupt 107 Priority" hexmask.long.byte 0x68 16.--23. 1. " PRI_106 ,Interrupt 106 Priority" hexmask.long.byte 0x68 8.--15. 1. " PRI_105 ,Interrupt 105 Priority" hexmask.long.byte 0x68 0.--7. 1. " PRI_104 ,Interrupt 104 Priority" line.long 0x6C "IPR27,Interrupt Priority Register" hexmask.long.byte 0x6C 24.--31. 1. " PRI_111 ,Interrupt 111 Priority" hexmask.long.byte 0x6C 16.--23. 1. " PRI_110 ,Interrupt 110 Priority" hexmask.long.byte 0x6C 8.--15. 1. " PRI_109 ,Interrupt 109 Priority" hexmask.long.byte 0x6C 0.--7. 1. " PRI_108 ,Interrupt 108 Priority" line.long 0x70 "IPR28,Interrupt Priority Register" hexmask.long.byte 0x70 24.--31. 1. " PRI_115 ,Interrupt 115 Priority" hexmask.long.byte 0x70 16.--23. 1. " PRI_114 ,Interrupt 114 Priority" hexmask.long.byte 0x70 8.--15. 1. " PRI_113 ,Interrupt 113 Priority" hexmask.long.byte 0x70 0.--7. 1. " PRI_112 ,Interrupt 112 Priority" line.long 0x74 "IPR29,Interrupt Priority Register" hexmask.long.byte 0x74 24.--31. 1. " PRI_119 ,Interrupt 119 Priority" hexmask.long.byte 0x74 16.--23. 1. " PRI_118 ,Interrupt 118 Priority" hexmask.long.byte 0x74 8.--15. 1. " PRI_117 ,Interrupt 117 Priority" hexmask.long.byte 0x74 0.--7. 1. " PRI_116 ,Interrupt 116 Priority" line.long 0x78 "IPR30,Interrupt Priority Register" hexmask.long.byte 0x78 24.--31. 1. " PRI_123 ,Interrupt 123 Priority" hexmask.long.byte 0x78 16.--23. 1. " PRI_122 ,Interrupt 122 Priority" hexmask.long.byte 0x78 8.--15. 1. " PRI_121 ,Interrupt 121 Priority" hexmask.long.byte 0x78 0.--7. 1. " PRI_120 ,Interrupt 120 Priority" line.long 0x7C "IPR31,Interrupt Priority Register" hexmask.long.byte 0x7C 24.--31. 1. " PRI_127 ,Interrupt 127 Priority" hexmask.long.byte 0x7C 16.--23. 1. " PRI_126 ,Interrupt 126 Priority" hexmask.long.byte 0x7C 8.--15. 1. " PRI_125 ,Interrupt 125 Priority" hexmask.long.byte 0x7C 0.--7. 1. " PRI_124 ,Interrupt 124 Priority" line.long 0x80 "IPR32,Interrupt Priority Register" hexmask.long.byte 0x80 24.--31. 1. " PRI_131 ,Interrupt 131 Priority" hexmask.long.byte 0x80 16.--23. 1. " PRI_130 ,Interrupt 130 Priority" hexmask.long.byte 0x80 8.--15. 1. " PRI_129 ,Interrupt 129 Priority" hexmask.long.byte 0x80 0.--7. 1. " PRI_128 ,Interrupt 128 Priority" line.long 0x84 "IPR33,Interrupt Priority Register" hexmask.long.byte 0x84 24.--31. 1. " PRI_135 ,Interrupt 135 Priority" hexmask.long.byte 0x84 16.--23. 1. " PRI_134 ,Interrupt 134 Priority" hexmask.long.byte 0x84 8.--15. 1. " PRI_133 ,Interrupt 133 Priority" hexmask.long.byte 0x84 0.--7. 1. " PRI_132 ,Interrupt 132 Priority" line.long 0x88 "IPR34,Interrupt Priority Register" hexmask.long.byte 0x88 24.--31. 1. " PRI_139 ,Interrupt 139 Priority" hexmask.long.byte 0x88 16.--23. 1. " PRI_138 ,Interrupt 138 Priority" hexmask.long.byte 0x88 8.--15. 1. " PRI_137 ,Interrupt 137 Priority" hexmask.long.byte 0x88 0.--7. 1. " PRI_136 ,Interrupt 136 Priority" line.long 0x8C "IPR35,Interrupt Priority Register" hexmask.long.byte 0x8C 24.--31. 1. " PRI_143 ,Interrupt 143 Priority" hexmask.long.byte 0x8C 16.--23. 1. " PRI_142 ,Interrupt 142 Priority" hexmask.long.byte 0x8C 8.--15. 1. " PRI_141 ,Interrupt 141 Priority" hexmask.long.byte 0x8C 0.--7. 1. " PRI_140 ,Interrupt 140 Priority" line.long 0x90 "IPR36,Interrupt Priority Register" hexmask.long.byte 0x90 24.--31. 1. " PRI_147 ,Interrupt 147 Priority" hexmask.long.byte 0x90 16.--23. 1. " PRI_146 ,Interrupt 146 Priority" hexmask.long.byte 0x90 8.--15. 1. " PRI_145 ,Interrupt 145 Priority" hexmask.long.byte 0x90 0.--7. 1. " PRI_144 ,Interrupt 144 Priority" line.long 0x94 "IPR37,Interrupt Priority Register" hexmask.long.byte 0x94 24.--31. 1. " PRI_151 ,Interrupt 151 Priority" hexmask.long.byte 0x94 16.--23. 1. " PRI_150 ,Interrupt 150 Priority" hexmask.long.byte 0x94 8.--15. 1. " PRI_149 ,Interrupt 149 Priority" hexmask.long.byte 0x94 0.--7. 1. " PRI_148 ,Interrupt 148 Priority" line.long 0x98 "IPR38,Interrupt Priority Register" hexmask.long.byte 0x98 24.--31. 1. " PRI_155 ,Interrupt 155 Priority" hexmask.long.byte 0x98 16.--23. 1. " PRI_154 ,Interrupt 154 Priority" hexmask.long.byte 0x98 8.--15. 1. " PRI_153 ,Interrupt 153 Priority" hexmask.long.byte 0x98 0.--7. 1. " PRI_152 ,Interrupt 152 Priority" line.long 0x9C "IPR39,Interrupt Priority Register" hexmask.long.byte 0x9C 24.--31. 1. " PRI_159 ,Interrupt 159 Priority" hexmask.long.byte 0x9C 16.--23. 1. " PRI_158 ,Interrupt 158 Priority" hexmask.long.byte 0x9C 8.--15. 1. " PRI_157 ,Interrupt 157 Priority" hexmask.long.byte 0x9C 0.--7. 1. " PRI_156 ,Interrupt 156 Priority" line.long 0xA0 "IPR40,Interrupt Priority Register" hexmask.long.byte 0xA0 24.--31. 1. " PRI_163 ,Interrupt 163 Priority" hexmask.long.byte 0xA0 16.--23. 1. " PRI_162 ,Interrupt 162 Priority" hexmask.long.byte 0xA0 8.--15. 1. " PRI_161 ,Interrupt 161 Priority" hexmask.long.byte 0xA0 0.--7. 1. " PRI_160 ,Interrupt 160 Priority" line.long 0xA4 "IPR41,Interrupt Priority Register" hexmask.long.byte 0xA4 24.--31. 1. " PRI_167 ,Interrupt 167 Priority" hexmask.long.byte 0xA4 16.--23. 1. " PRI_166 ,Interrupt 166 Priority" hexmask.long.byte 0xA4 8.--15. 1. " PRI_165 ,Interrupt 165 Priority" hexmask.long.byte 0xA4 0.--7. 1. " PRI_164 ,Interrupt 164 Priority" line.long 0xA8 "IPR42,Interrupt Priority Register" hexmask.long.byte 0xA8 24.--31. 1. " PRI_171 ,Interrupt 171 Priority" hexmask.long.byte 0xA8 16.--23. 1. " PRI_170 ,Interrupt 170 Priority" hexmask.long.byte 0xA8 8.--15. 1. " PRI_169 ,Interrupt 169 Priority" hexmask.long.byte 0xA8 0.--7. 1. " PRI_168 ,Interrupt 168 Priority" line.long 0xAC "IPR43,Interrupt Priority Register" hexmask.long.byte 0xAC 24.--31. 1. " PRI_175 ,Interrupt 175 Priority" hexmask.long.byte 0xAC 16.--23. 1. " PRI_174 ,Interrupt 174 Priority" hexmask.long.byte 0xAC 8.--15. 1. " PRI_173 ,Interrupt 173 Priority" hexmask.long.byte 0xAC 0.--7. 1. " PRI_172 ,Interrupt 172 Priority" line.long 0xB0 "IPR44,Interrupt Priority Register" hexmask.long.byte 0xB0 24.--31. 1. " PRI_179 ,Interrupt 179 Priority" hexmask.long.byte 0xB0 16.--23. 1. " PRI_178 ,Interrupt 178 Priority" hexmask.long.byte 0xB0 8.--15. 1. " PRI_177 ,Interrupt 177 Priority" hexmask.long.byte 0xB0 0.--7. 1. " PRI_176 ,Interrupt 176 Priority" line.long 0xB4 "IPR45,Interrupt Priority Register" hexmask.long.byte 0xB4 24.--31. 1. " PRI_183 ,Interrupt 183 Priority" hexmask.long.byte 0xB4 16.--23. 1. " PRI_182 ,Interrupt 182 Priority" hexmask.long.byte 0xB4 8.--15. 1. " PRI_181 ,Interrupt 181 Priority" hexmask.long.byte 0xB4 0.--7. 1. " PRI_180 ,Interrupt 180 Priority" line.long 0xB8 "IPR46,Interrupt Priority Register" hexmask.long.byte 0xB8 24.--31. 1. " PRI_187 ,Interrupt 187 Priority" hexmask.long.byte 0xB8 16.--23. 1. " PRI_186 ,Interrupt 186 Priority" hexmask.long.byte 0xB8 8.--15. 1. " PRI_185 ,Interrupt 185 Priority" hexmask.long.byte 0xB8 0.--7. 1. " PRI_184 ,Interrupt 184 Priority" line.long 0xBC "IPR47,Interrupt Priority Register" hexmask.long.byte 0xBC 24.--31. 1. " PRI_191 ,Interrupt 191 Priority" hexmask.long.byte 0xBC 16.--23. 1. " PRI_190 ,Interrupt 190 Priority" hexmask.long.byte 0xBC 8.--15. 1. " PRI_189 ,Interrupt 189 Priority" hexmask.long.byte 0xBC 0.--7. 1. " PRI_188 ,Interrupt 188 Priority" line.long 0xC0 "IPR48,Interrupt Priority Register" hexmask.long.byte 0xC0 24.--31. 1. " PRI_195 ,Interrupt 195 Priority" hexmask.long.byte 0xC0 16.--23. 1. " PRI_194 ,Interrupt 194 Priority" hexmask.long.byte 0xC0 8.--15. 1. " PRI_193 ,Interrupt 193 Priority" hexmask.long.byte 0xC0 0.--7. 1. " PRI_192 ,Interrupt 192 Priority" line.long 0xC4 "IPR49,Interrupt Priority Register" hexmask.long.byte 0xC4 24.--31. 1. " PRI_199 ,Interrupt 199 Priority" hexmask.long.byte 0xC4 16.--23. 1. " PRI_198 ,Interrupt 198 Priority" hexmask.long.byte 0xC4 8.--15. 1. " PRI_197 ,Interrupt 197 Priority" hexmask.long.byte 0xC4 0.--7. 1. " PRI_196 ,Interrupt 196 Priority" line.long 0xC8 "IPR50,Interrupt Priority Register" hexmask.long.byte 0xC8 24.--31. 1. " PRI_203 ,Interrupt 203 Priority" hexmask.long.byte 0xC8 16.--23. 1. " PRI_202 ,Interrupt 202 Priority" hexmask.long.byte 0xC8 8.--15. 1. " PRI_201 ,Interrupt 201 Priority" hexmask.long.byte 0xC8 0.--7. 1. " PRI_200 ,Interrupt 200 Priority" line.long 0xCC "IPR51,Interrupt Priority Register" hexmask.long.byte 0xCC 24.--31. 1. " PRI_207 ,Interrupt 207 Priority" hexmask.long.byte 0xCC 16.--23. 1. " PRI_206 ,Interrupt 206 Priority" hexmask.long.byte 0xCC 8.--15. 1. " PRI_205 ,Interrupt 205 Priority" hexmask.long.byte 0xCC 0.--7. 1. " PRI_204 ,Interrupt 204 Priority" line.long 0xD0 "IPR52,Interrupt Priority Register" hexmask.long.byte 0xD0 24.--31. 1. " PRI_211 ,Interrupt 211 Priority" hexmask.long.byte 0xD0 16.--23. 1. " PRI_210 ,Interrupt 210 Priority" hexmask.long.byte 0xD0 8.--15. 1. " PRI_209 ,Interrupt 209 Priority" hexmask.long.byte 0xD0 0.--7. 1. " PRI_208 ,Interrupt 208 Priority" line.long 0xD4 "IPR53,Interrupt Priority Register" hexmask.long.byte 0xD4 24.--31. 1. " PRI_215 ,Interrupt 215 Priority" hexmask.long.byte 0xD4 16.--23. 1. " PRI_214 ,Interrupt 214 Priority" hexmask.long.byte 0xD4 8.--15. 1. " PRI_213 ,Interrupt 213 Priority" hexmask.long.byte 0xD4 0.--7. 1. " PRI_212 ,Interrupt 212 Priority" line.long 0xD8 "IPR54,Interrupt Priority Register" hexmask.long.byte 0xD8 24.--31. 1. " PRI_219 ,Interrupt 219 Priority" hexmask.long.byte 0xD8 16.--23. 1. " PRI_218 ,Interrupt 218 Priority" hexmask.long.byte 0xD8 8.--15. 1. " PRI_217 ,Interrupt 217 Priority" hexmask.long.byte 0xD8 0.--7. 1. " PRI_216 ,Interrupt 216 Priority" line.long 0xDC "IPR55,Interrupt Priority Register" hexmask.long.byte 0xDC 24.--31. 1. " PRI_223 ,Interrupt 223 Priority" hexmask.long.byte 0xDC 16.--23. 1. " PRI_222 ,Interrupt 222 Priority" hexmask.long.byte 0xDC 8.--15. 1. " PRI_221 ,Interrupt 221 Priority" hexmask.long.byte 0xDC 0.--7. 1. " PRI_220 ,Interrupt 220 Priority" line.long 0xE0 "IPR56,Interrupt Priority Register" hexmask.long.byte 0xE0 24.--31. 1. " PRI_227 ,Interrupt 227 Priority" hexmask.long.byte 0xE0 16.--23. 1. " PRI_226 ,Interrupt 226 Priority" hexmask.long.byte 0xE0 8.--15. 1. " PRI_225 ,Interrupt 225 Priority" hexmask.long.byte 0xE0 0.--7. 1. " PRI_224 ,Interrupt 224 Priority" line.long 0xE4 "IPR57,Interrupt Priority Register" hexmask.long.byte 0xE4 24.--31. 1. " PRI_231 ,Interrupt 231 Priority" hexmask.long.byte 0xE4 16.--23. 1. " PRI_230 ,Interrupt 230 Priority" hexmask.long.byte 0xE4 8.--15. 1. " PRI_229 ,Interrupt 229 Priority" hexmask.long.byte 0xE4 0.--7. 1. " PRI_228 ,Interrupt 228 Priority" line.long 0xE8 "IPR58,Interrupt Priority Register" hexmask.long.byte 0xE8 24.--31. 1. " PRI_235 ,Interrupt 235 Priority" hexmask.long.byte 0xE8 16.--23. 1. " PRI_234 ,Interrupt 234 Priority" hexmask.long.byte 0xE8 8.--15. 1. " PRI_233 ,Interrupt 233 Priority" hexmask.long.byte 0xE8 0.--7. 1. " PRI_232 ,Interrupt 232 Priority" line.long 0xEC "IPR59,Interrupt Priority Register" hexmask.long.byte 0xEC 24.--31. 1. " PRI_239 ,Interrupt 239 Priority" hexmask.long.byte 0xEC 16.--23. 1. " PRI_238 ,Interrupt 238 Priority" hexmask.long.byte 0xEC 8.--15. 1. " PRI_237 ,Interrupt 237 Priority" hexmask.long.byte 0xEC 0.--7. 1. " PRI_236 ,Interrupt 236 Priority" else hgroup.long 0x400++0xEF hide.long 0x0 "IPR0,Interrupt Priority Register" hide.long 0x4 "IPR1,Interrupt Priority Register" hide.long 0x8 "IPR2,Interrupt Priority Register" hide.long 0xC "IPR3,Interrupt Priority Register" hide.long 0x10 "IPR4,Interrupt Priority Register" hide.long 0x14 "IPR5,Interrupt Priority Register" hide.long 0x18 "IPR6,Interrupt Priority Register" hide.long 0x1C "IPR7,Interrupt Priority Register" hide.long 0x20 "IPR8,Interrupt Priority Register" hide.long 0x24 "IPR9,Interrupt Priority Register" hide.long 0x28 "IPR10,Interrupt Priority Register" hide.long 0x2C "IPR11,Interrupt Priority Register" hide.long 0x30 "IPR12,Interrupt Priority Register" hide.long 0x34 "IPR13,Interrupt Priority Register" hide.long 0x38 "IPR14,Interrupt Priority Register" hide.long 0x3C "IPR15,Interrupt Priority Register" hide.long 0x40 "IPR16,Interrupt Priority Register" hide.long 0x44 "IPR17,Interrupt Priority Register" hide.long 0x48 "IPR18,Interrupt Priority Register" hide.long 0x4C "IPR19,Interrupt Priority Register" hide.long 0x50 "IPR20,Interrupt Priority Register" hide.long 0x54 "IPR21,Interrupt Priority Register" hide.long 0x58 "IPR22,Interrupt Priority Register" hide.long 0x5C "IPR23,Interrupt Priority Register" hide.long 0x60 "IPR24,Interrupt Priority Register" hide.long 0x64 "IPR25,Interrupt Priority Register" hide.long 0x68 "IPR26,Interrupt Priority Register" hide.long 0x6C "IPR27,Interrupt Priority Register" hide.long 0x70 "IPR28,Interrupt Priority Register" hide.long 0x74 "IPR29,Interrupt Priority Register" hide.long 0x78 "IPR30,Interrupt Priority Register" hide.long 0x7C "IPR31,Interrupt Priority Register" hide.long 0x80 "IPR32,Interrupt Priority Register" hide.long 0x84 "IPR33,Interrupt Priority Register" hide.long 0x88 "IPR34,Interrupt Priority Register" hide.long 0x8C "IPR35,Interrupt Priority Register" hide.long 0x90 "IPR36,Interrupt Priority Register" hide.long 0x94 "IPR37,Interrupt Priority Register" hide.long 0x98 "IPR38,Interrupt Priority Register" hide.long 0x9C "IPR39,Interrupt Priority Register" hide.long 0xA0 "IPR40,Interrupt Priority Register" hide.long 0xA4 "IPR41,Interrupt Priority Register" hide.long 0xA8 "IPR42,Interrupt Priority Register" hide.long 0xAC "IPR43,Interrupt Priority Register" hide.long 0xB0 "IPR44,Interrupt Priority Register" hide.long 0xB4 "IPR45,Interrupt Priority Register" hide.long 0xB8 "IPR46,Interrupt Priority Register" hide.long 0xBC "IPR47,Interrupt Priority Register" hide.long 0xC0 "IPR48,Interrupt Priority Register" hide.long 0xC4 "IPR49,Interrupt Priority Register" hide.long 0xC8 "IPR50,Interrupt Priority Register" hide.long 0xCC "IPR51,Interrupt Priority Register" hide.long 0xD0 "IPR52,Interrupt Priority Register" hide.long 0xD4 "IPR53,Interrupt Priority Register" hide.long 0xD8 "IPR54,Interrupt Priority Register" hide.long 0xDC "IPR55,Interrupt Priority Register" hide.long 0xE0 "IPR56,Interrupt Priority Register" hide.long 0xE4 "IPR57,Interrupt Priority Register" hide.long 0xE8 "IPR58,Interrupt Priority Register" hide.long 0xEC "IPR59,Interrupt Priority Register" endif tree.end width 0x0b else newline textline "COREDEBUG component base address not specified" newline endif tree.end sif CORENAME()=="CORTEXM4F" tree "Floating-point Unit (FPU)" sif COMPonent.AVAILABLE("COREDEBUG") base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1)) width 8. group.long 0xF34++0x0B line.long 0x00 "FPCCR,Floating-Point Context Control Register" bitfld.long 0x00 31. " ASPEN ,Execution of a floating-point instruction sets the CONTROL.FPCA bit to 1" "Disabled,Enabled" bitfld.long 0x00 30. " LSPEN ,Enables lazy context save of FP state" "Disabled,Enabled" bitfld.long 0x00 8. " MONRDY ,Indicates whether the software executing when the processor allocated the FP stack frame was able to set the DebugMonitor exception to pending" "Not able,Able" textline " " bitfld.long 0x00 6. " BFRDY ,Indicates whether the software executing when the processor allocated the FP stack frame was able to set the BusFault exception to pending" "Not able,Able" bitfld.long 0x00 5. " MMRDY ,Indicates whether the software executing when the processor allocated the FP stack frame was able to set the MemManage exception to pending" "Not able,Able" bitfld.long 0x00 4. " HFRDY ,Indicates whether the software executing when the processor allocated the FP stack frame was able to set the HardFault exception to pending" "Not able,Able" textline " " bitfld.long 0x00 3. " THREAD ,Indicates the processor mode when it allocated the FP stack frame" "Handler,Thread" bitfld.long 0x00 1. " USER ,Indicates the privilege level of the software executing" "Privileged,Unprivileged" bitfld.long 0x00 0. " LSPACT ,Indicates whether Lazy preservation of the FP state is active" "Not active,Active" line.long 0x04 "FPCAR,Floating-Point Context Address Register" hexmask.long 0x04 3.--31. 0x8 " ADDRESS ,The location of the unpopulated floating-point register space allocated on an exception stack frame" line.long 0x08 "FPDSCR,Floating-Point Default Status Control Register" bitfld.long 0x08 26. " AHP ,Default value for FPSCR.AHP" "IEEE 754-2008,Alternative" bitfld.long 0x08 25. " DN ,Default value for FPSCR.DN" "NaN operands,Any operation" bitfld.long 0x08 24. " FZ ,Default value for FPSCR.FZ" "No Flush mode,Flush mode" textline " " bitfld.long 0x08 22.--23. " RMODE ,Default value for FPSCR.RMode" "Round to Nearest,Round towards Plus Infinity,Round towards Minus Infinity,Round towards Zero" rgroup.long 0xF40++0x07 line.long 0x00 "MVFR0,Media and FP Feature Register 0" bitfld.long 0x00 28.--31. " FPRNDMOD ,Indicates the rounding modes supported by the FP floating-point hardware" ",All supported,?..." bitfld.long 0x00 24.--27. " SRTERR ,Indicates the hardware support for FP short vectors" "Not supported,?..." bitfld.long 0x00 20.--23. " SQRROOT ,Indicates the hardware support for FP square root operations" ",Supported,?..." textline " " bitfld.long 0x00 16.--19. " DIV ,Indicates the hardware support for FP divide operations" ",Supported,?..." bitfld.long 0x00 12.--15. " FPEXTRP ,Indicates whether the FP hardware implementation supports exception trapping" "Not supported,?..." bitfld.long 0x00 8.--11. " DBLPREC ,Indicates the hardware support for FP double_precision operations" "Not supported,,Supported,?..." textline " " bitfld.long 0x00 4.--7. " SNGLPREC ,Indicates the hardware support for FP single-precision operations" ",,Supported,?..." bitfld.long 0x00 0.--3. " A_SIMD ,Indicates the size of the FP register bank" ",Supported-16x64-bit,?..." line.long 0x04 "MVFR1,Media and FP Feature Register 1" bitfld.long 0x04 28.--31. " FP_FUSED_MAC ,Indicates whether the FP supports fused multiply accumulate operations" ",Supported,?..." bitfld.long 0x04 24.--27. " FP_HPFP ,Indicates whether the FP supports half-precision and double-precision floating-point conversion instructions" ",Half-single,Half-single and half-double,?..." textline " " bitfld.long 0x04 4.--7. " D_NAN ,Indicates whether the FP hardware implementation supports only the Default NaN mode" ",NaN propagation,?..." bitfld.long 0x04 0.--3. " FTZ_MODE ,Indicates whether the FP hardware implementation supports only the Flush-to-Zero mode of operation" ",Full denorm. num. arit.,?..." width 0xB else newline textline "COREDEBUG component base address not specified" newline endif tree.end endif tree "Debug" tree "Core Debug" sif COMPonent.AVAILABLE("COREDEBUG") base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1)) width 7. group.long 0xD30++0x03 line.long 0x00 "DFSR,Debug Fault Status Register" eventfld.long 0x00 4. " EXTERNAL ,Indicates a debug event generated because of the assertion of an external debug request" "Not generated,Generated" eventfld.long 0x00 3. " VCATCH ,Indicates triggering of a Vector catch" "Not triggered,Triggered" eventfld.long 0x00 2. " DWTTRAP ,Indicates a debug event generated by the DWT" "Not generated,Generated" newline eventfld.long 0x00 1. " BKPT ,Indicates a debug event generated by BKPT instruction execution or a breakpoint match in FPB" "Not generated,Generated" eventfld.long 0x00 0. " HALTED ,Indicates a debug event generated by either a C_HALT or C_STEP request, triggered by a write to the DHCSR or a step request triggered by setting DEMCR.MON_STEP to 1" "Not generated,Generated" newline hgroup.long 0xDF0++0x03 hide.long 0x00 "DHCSR,Debug Halting Control and Status Register" in newline wgroup.long 0xDF4++0x03 line.long 0x00 "DCRSR,Debug Core Register Selector Register" bitfld.long 0x00 16. " REGWNR ,Register Read/Write" "Read,Write" hexmask.long.byte 0x00 0.--6. 1. " REGSEL ,Specifies the ARM core register or special-purpose register or Floating-point extension register" group.long 0xDF8++0x03 line.long 0x00 "DCRDR,Debug Core Register Data Register" if (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xDFC))&0x10000)==0x10000) group.long 0xDFC++0x03 line.long 0x00 "DEMCR,Debug Exception and Monitor Control Register" bitfld.long 0x00 24. " TRCENA ,Global enable for all DWT and ITM features" "Disabled,Enabled" bitfld.long 0x00 19. " MON_REQ ,DebugMonitor semaphore bit" "0,1" bitfld.long 0x00 18. " MON_STEP ,Setting this bit to 1 makes the step request pending" "No step,Step" newline bitfld.long 0x00 17. " MON_PEND ,Sets or clears the pending state of the DebugMonitor exception" "Not pending,Pending" bitfld.long 0x00 16. " MON_EN ,Enable the DebugMonitor exception" "Disabled,Enabled" bitfld.long 0x00 10. " VC_HARDERR ,Enable halting debug trap on a HardFault exception" "Disabled,Enabled" newline bitfld.long 0x00 9. " VC_INTERR ,Enable halting debug trap" "Disabled,Enabled" bitfld.long 0x00 8. " VC_BUSERR ,Enable halting debug trap on a BusFault exception" "Disabled,Enabled" bitfld.long 0x00 7. " VC_STATERR ,Enable halting debug trap on a UsageFault exception" "Disabled,Enabled" newline bitfld.long 0x00 6. " VC_CHKERR ,Enable halting debug trap on a UsageFault exception" "Disabled,Enabled" bitfld.long 0x00 5. " VC_NOCPERR ,Enable halting debug trap on a UsageFault caused by an access to a Coprocessor" "Disabled,Enabled" bitfld.long 0x00 4. " VC_MMERR ,Enable halting debug trap on a MemManage exception" "Disabled,Enabled" newline bitfld.long 0x00 0. " VC_CORERESET ,Enable Reset Vector Catch" "Disabled,Enabled" else group.long 0xDFC++0x03 line.long 0x00 "DEMCR,Debug Exception and Monitor Control Register" bitfld.long 0x00 24. " TRCENA ,Global enable for all DWT and ITM features" "Disabled,Enabled" bitfld.long 0x00 19. " MON_REQ ,DebugMonitor semaphore bit" "0,1" newline bitfld.long 0x00 17. " MON_PEND ,Sets or clears the pending state of the DebugMonitor exception" "Not pending,Pending" bitfld.long 0x00 16. " MON_EN ,Enable the DebugMonitor exception" "Disabled,Enabled" bitfld.long 0x00 10. " VC_HARDERR ,Enable halting debug trap on a HardFault exception" "Disabled,Enabled" newline bitfld.long 0x00 9. " VC_INTERR ,Enable halting debug trap" "Disabled,Enabled" bitfld.long 0x00 8. " VC_BUSERR ,Enable halting debug trap on a BusFault exception" "Disabled,Enabled" bitfld.long 0x00 7. " VC_STATERR ,Enable halting debug trap on a UsageFault exception" "Disabled,Enabled" newline bitfld.long 0x00 6. " VC_CHKERR ,Enable halting debug trap on a UsageFault exception" "Disabled,Enabled" bitfld.long 0x00 5. " VC_NOCPERR ,Enable halting debug trap on a UsageFault caused by an access to a Coprocessor" "Disabled,Enabled" bitfld.long 0x00 4. " VC_MMERR ,Enable halting debug trap on a MemManage exception" "Disabled,Enabled" newline bitfld.long 0x00 0. " VC_CORERESET ,Enable Reset Vector Catch" "Disabled,Enabled" endif width 0x0B else newline textline "COREDEBUG component base address not specified" newline endif tree.end tree "Flash Patch and Breakpoint Unit (FPB)" sif COMPonent.AVAILABLE("FPB") base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1)) width 10. group.long 0x00++0x07 line.long 0x00 "FP_CTRL,Flash Patch Control Register" bitfld.long 0x00 28.--31. " REV ,Flash Patch Breakpoint architecture revision" "Version 1,Version 2,?..." rbitfld.long 0x00 4.--7. 12.--14. " NUM_CODE ,The number of instruction address comparators" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63,64,65,66,67,68,69,70,71,72,73,74,75,76,77,78,79,80,81,82,83,84,85,86,87,88,89,90,91,92,93,94,95,96,97,98,99,100,101,102,103,104,105,106,107,108,109,110,111,112,113,114,115,116,117,118,119,120,121,122,123,124,125,126,127" bitfld.long 0x00 1. " KEY ,Key Field" "Low,High" bitfld.long 0x00 0. " ENABLE ,Flash Patch Unit Enable" "Disabled,Enabled" textline "" line.long 0x04 "FP_REMAP,Flash Patch Remap Register" bitfld.long 0x04 29. " RMPSPT ,Indicates whether the FPB unit supports flash patch remap" "Not supported,SRAM region" hexmask.long.tbyte 0x04 5.--28. 0x20 " REMAP ,Remap Base Address Field" if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00) group.long 0x8++0x03 line.long 0x00 "FP_COMP0,Flash Patch Comparator Register 0" bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both" hexmask.long 0x00 2.--28. 0x04 " COMP ,Comparison Address" bitfld.long 0x00 0. " ENABLE ,Compare and Remap Enable" "Disabled,Enabled" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000) if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x8))&0x01)==0x00) group.long 0x8++0x03 line.long 0x00 "FP_COMP0,Flash Patch Comparator Register 0" bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled" else group.long 0x8++0x03 line.long 0x00 "FP_COMP0,Flash Patch Comparator Register 0" hexmask.long 0x00 1.--31. 0x02 " BPADDR ,Breakpoint address" bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled" endif endif if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00) group.long 0xC++0x03 line.long 0x00 "FP_COMP1,Flash Patch Comparator Register 1" bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both" hexmask.long 0x00 2.--28. 0x04 " COMP ,Comparison Address" bitfld.long 0x00 0. " ENABLE ,Compare and Remap Enable" "Disabled,Enabled" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000) if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0xC))&0x01)==0x00) group.long 0xC++0x03 line.long 0x00 "FP_COMP1,Flash Patch Comparator Register 1" bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled" else group.long 0xC++0x03 line.long 0x00 "FP_COMP1,Flash Patch Comparator Register 1" hexmask.long 0x00 1.--31. 0x02 " BPADDR ,Breakpoint address" bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled" endif endif if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00) group.long 0x10++0x03 line.long 0x00 "FP_COMP2,Flash Patch Comparator Register 2" bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both" hexmask.long 0x00 2.--28. 0x04 " COMP ,Comparison Address" bitfld.long 0x00 0. " ENABLE ,Compare and Remap Enable" "Disabled,Enabled" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000) if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x10))&0x01)==0x00) group.long 0x10++0x03 line.long 0x00 "FP_COMP2,Flash Patch Comparator Register 2" bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled" else group.long 0x10++0x03 line.long 0x00 "FP_COMP2,Flash Patch Comparator Register 2" hexmask.long 0x00 1.--31. 0x02 " BPADDR ,Breakpoint address" bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled" endif endif if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00) group.long 0x14++0x03 line.long 0x00 "FP_COMP3,Flash Patch Comparator Register 3" bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both" hexmask.long 0x00 2.--28. 0x04 " COMP ,Comparison Address" bitfld.long 0x00 0. " ENABLE ,Compare and Remap Enable" "Disabled,Enabled" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000) if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x14))&0x01)==0x00) group.long 0x14++0x03 line.long 0x00 "FP_COMP3,Flash Patch Comparator Register 3" bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled" else group.long 0x14++0x03 line.long 0x00 "FP_COMP3,Flash Patch Comparator Register 3" hexmask.long 0x00 1.--31. 0x02 " BPADDR ,Breakpoint address" bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled" endif endif if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00) group.long 0x18++0x03 line.long 0x00 "FP_COMP4,Flash Patch Comparator Register 4" bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both" hexmask.long 0x00 2.--28. 0x04 " COMP ,Comparison Address" bitfld.long 0x00 0. " ENABLE ,Compare and Remap Enable" "Disabled,Enabled" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000) if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x18))&0x01)==0x00) group.long 0x18++0x03 line.long 0x00 "FP_COMP4,Flash Patch Comparator Register 4" bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled" else group.long 0x18++0x03 line.long 0x00 "FP_COMP4,Flash Patch Comparator Register 4" hexmask.long 0x00 1.--31. 0x02 " BPADDR ,Breakpoint address" bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled" endif endif if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00) group.long 0x1C++0x03 line.long 0x00 "FP_COMP5,Flash Patch Comparator Register 5" bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both" hexmask.long 0x00 2.--28. 0x04 " COMP ,Comparison Address" bitfld.long 0x00 0. " ENABLE ,Compare and Remap Enable" "Disabled,Enabled" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000) if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x1C))&0x01)==0x00) group.long 0x1C++0x03 line.long 0x00 "FP_COMP5,Flash Patch Comparator Register 5" bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled" else group.long 0x1C++0x03 line.long 0x00 "FP_COMP5,Flash Patch Comparator Register 5" hexmask.long 0x00 1.--31. 0x02 " BPADDR ,Breakpoint address" bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled" endif endif if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00) group.long 0x20++0x03 line.long 0x00 "FP_COMP6,Flash Patch Comparator Register 6" bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both" hexmask.long 0x00 2.--28. 0x04 " COMP ,Comparison Address" bitfld.long 0x00 0. " ENABLE ,Compare and Remap Enable" "Disabled,Enabled" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000) if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x20))&0x01)==0x00) group.long 0x20++0x03 line.long 0x00 "FP_COMP6,Flash Patch Comparator Register 6" bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled" else group.long 0x20++0x03 line.long 0x00 "FP_COMP6,Flash Patch Comparator Register 6" hexmask.long 0x00 1.--31. 0x02 " BPADDR ,Breakpoint address" bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled" endif endif if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00) group.long 0x24++0x03 line.long 0x00 "FP_COMP7,Flash Patch Comparator Register 7" bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both" hexmask.long 0x00 2.--28. 0x04 " COMP ,Comparison Address" bitfld.long 0x00 0. " ENABLE ,Compare and Remap Enable" "Disabled,Enabled" elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000) if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x24))&0x01)==0x00) group.long 0x24++0x03 line.long 0x00 "FP_COMP7,Flash Patch Comparator Register 7" bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled" else group.long 0x24++0x03 line.long 0x00 "FP_COMP7,Flash Patch Comparator Register 7" hexmask.long 0x00 1.--31. 0x02 " BPADDR ,Breakpoint address" bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled" endif endif width 6. tree "CoreSight Identification Registers" rgroup.long 0xFE0++0x0F line.long 0x00 "PID0,Peripheral ID0" hexmask.long.byte 0x00 0.--7. 1. " Part_Num[7:0] ,Part Number bits[7:0]" line.long 0x04 "PID1,Peripheral ID1" hexmask.long.byte 0x04 4.--7. 1. " JEP106ID[3:0] ,JEP106 ID code bits[3:0]" hexmask.long.byte 0x04 0.--3. 1. " Part_Num[11:8] ,Part Number bits[11:8]" line.long 0x08 "PID2,Peripheral ID2" hexmask.long.byte 0x08 4.--7. 1. " Revision ,Revision" bitfld.long 0x08 3. " JEDEC ,JEDEC assigned ID fields" "0,JEDEC" hexmask.long.byte 0x08 0.--2. 1. " JEP106ID[6:4] ,JEP106 ID code bits[6:4]" line.long 0x0c "PID3,Peripheral ID3" hexmask.long.byte 0x0C 4.--7. 1. " RevAnd ,Minor revision field" hexmask.long.byte 0x0C 0.--3. 1. " CMB ,Customer-modified block" rgroup.long 0xFD0++0x03 line.long 0x00 "PID4,Peripheral Identification Register 4" hexmask.long.byte 0x00 4.--7. 1. " Count ,4KB count" hexmask.long.byte 0x00 0.--3. 1. " JEP106_CC ,JEP106 continuation code" rgroup.long 0xFF0++0x0F line.long 0x00 "CID0,Component ID0 (Preamble)" line.long 0x04 "CID1,Component ID1" hexmask.long.byte 0x04 4.--7. 1. " CC ,Component Class" hexmask.long.byte 0x04 0.--3. 1. " Preamble ,Preamble" line.long 0x08 "CID2,Component ID2" line.long 0x0c "CID3,Component ID3" tree.end width 0xB else newline textline "FPB component base address not specified" newline endif tree.end tree "Data Watchpoint and Trace Unit (DWT)" sif COMPonent.AVAILABLE("DWT") base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1)) width 15. group.long 0x00++0x1B line.long 0x00 "DWT_CTRL,Control Register" rbitfld.long 0x00 28.--31. " NUMCOMP ,Number of comparators implemented" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" rbitfld.long 0x00 27. " NOTRCPKT ,Shows whether the implementation supports trace sampling and exception tracing" "Supported,Not supported" rbitfld.long 0x00 26. " NOEXTTRIG ,Shows whether the implementation includes external match signals" "Supported,Not supported" textline " " rbitfld.long 0x00 25. " NOCYCCNT ,Shows whether the implementation supports a cycle counter" "Supported,Not supported" rbitfld.long 0x00 24. " NOPRFCNT ,Shows whether the implementation supports the profiling counters" "Supported,Not supported" bitfld.long 0x00 22. " CYCEVTENA ,Enables POSTCNT underflow Event counter packets generation" "Disabled,Enabled" textline " " bitfld.long 0x00 21. " FOLDEVTENA ,Enables generation of the Folded-instruction counter overflow event" "Disabled,Enabled" bitfld.long 0x00 20. " LSUEVTENA ,Enables generation of the LSU counter overflow event" "Disabled,Enabled" bitfld.long 0x00 19. " SLEEPEVTENA ,Enables generation of the Sleep counter overflow event" "Disabled,Enabled" textline " " bitfld.long 0x00 18. " EXCEVTENA ,Enables generation of the Exception overhead counter overflow event" "Disabled,Enabled" bitfld.long 0x00 17. " CPIEVTENA ,Enables generation of the CPI counter overflow event" "Disabled,Enabled" bitfld.long 0x00 16. " EXCTRCENA ,Enables generation of exception trace" "Disabled,Enabled" textline " " bitfld.long 0x00 12. " PCSAMPLEENA ,Enables use of POSTCNT counter as a timer for Periodic PC sample packet generation" "Disabled,Enabled" bitfld.long 0x00 10.--11. " SYNCTAP ,Selects the position of the synchronization packet counter tap on the CYCCNT counter" "Disabled,CYCCNT[24],CYCCNT[26],CYCCNT[28]" bitfld.long 0x00 9. " CYCTAP ,Selects the position of the POSTCNT tap on the CYCCNT counter" "CYCCNT[6],CYCCNT[10]" textline " " bitfld.long 0x00 5.--8. " POSTINIT ,Initial value for the POSTCNT counter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 1.--4. " POSTPRESET ,Reload value for the POSTCNT counter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 0. " CYCCNTENA ,Enables CYCCNT" "Disabled,Enabled" line.long 0x04 "DWT_CYCCNT,Cycle Count Register" line.long 0x08 "DWT_CPICNT,CPI Count Register" hexmask.long.byte 0x08 0.--7. 1. " CPICNT ,The base CPI counter" line.long 0x0c "DWT_EXCCNT,Exception Overhead Count Register" hexmask.long.byte 0x0c 0.--7. 1. " EXCCNT ,The exception overhead counter" line.long 0x10 "DWT_SLEEPCNT,Sleep Count Register" hexmask.long.byte 0x10 0.--7. 1. " SLEEPCNT ,Sleep Counter" line.long 0x14 "DWT_LSUCNT,LSU Count Register" hexmask.long.byte 0x14 0.--7. 1. " LSUCNT ,Load-store counter" line.long 0x18 "DWT_FOLDCNT,Folded-instruction Count Register" hexmask.long.byte 0x18 0.--7. 1. " FOLDCNT ,Folded-instruction counter" rgroup.long 0x1C++0x03 line.long 0x00 "DWT_PCSR,Program Counter Sample register" textline " " group.long 0x20++0x07 line.long 0x00 "DWT_COMP0,DWT Comparator Register 0" line.long 0x04 "DWT_MASK0,DWT Mask Registers 0" bitfld.long 0x04 0.--4. " MASK ,The size of the ignore mask" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" if (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x28))&0x1A0)==0x20) group.long 0x28++0x03 line.long 0x00 "DWT_FUNCTION0,DWT Function Registers 0" bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched" bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" textline " " bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved" bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported" bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled" textline " " bitfld.long 0x00 7. " CYCMATCH ,Enable cycle count comparison for comparator 0" "Disabled,Enabled" bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled" bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,Send address trace packet on READ/WRITE,Send data value + address packet on READ/WRITE,Send data value + address packet on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data address trace packet on READ,Send data address trace packet on WRITE,Send data address + PC value on READ,Send data address + PC value on WRITE" elif (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x28))&0x1A0)==0x00) group.long 0x28++0x03 line.long 0x00 "DWT_FUNCTION0,DWT Function Registers 0" bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched" bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" textline " " bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved" bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported" bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled" textline " " bitfld.long 0x00 7. " CYCMATCH ,Enable cycle count comparison for comparator 0" "Disabled,Enabled" bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled" bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,Send PC value trace packet on READ/WRITE,Send data value trace packet on READ/WRITE,Send data value + PC value on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data value trace packet on READ,Send data value trace packet on WRITE,Send data value + PC value on READ,Send data value + PC value on WRITE" elif (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x28))&0x180)==0x80) group.long 0x28++0x03 line.long 0x00 "DWT_FUNCTION0,DWT Function Registers 0" bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched" bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" textline " " bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved" bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported" bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled" textline " " bitfld.long 0x00 7. " CYCMATCH ,Enable cycle count comparison for comparator 0" "Disabled,Enabled" bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled" bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,Send PC value trace packet,UNPREDICTABLE,UNPREDICTABLE,Generate watchpoint debug event,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,CMPMATCH[N] event,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE" else group.long 0x28++0x03 line.long 0x00 "DWT_FUNCTION0,DWT Function Registers 0" bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched" bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" textline " " bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved" bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported" bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled" textline " " bitfld.long 0x00 7. " CYCMATCH ,Enable cycle count comparison for comparator 0" "Disabled,Enabled" bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled" bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,UNPREDICTABLE,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE" endif group.long (0x30)++0x07 line.long 0x00 "DWT_COMP1,DWT Comparator Register 1" line.long 0x04 "DWT_MASK1,DWT Mask Registers 1" bitfld.long 0x04 0.--4. " MASK ,The size of the ignore mask" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" if (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x30+0x08))&0x120)==0x20) group.long (0x30+0x08)++0x03 line.long 0x00 "DWT_FUNCTION1,DWT Function Registers 1" bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched" bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" textline " " bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved" bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported" bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled" textline " " bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled" bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,Send address trace packet on READ/WRITE,Send data value + address packet on READ/WRITE,Send data value + address packet on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data address trace packet on READ,Send data address trace packet on WRITE,Send data address + PC value on READ,Send data address + PC value on WRITE" elif (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x30+0x08))&0x120)==0x00) group.long (0x30+0x08)++0x03 line.long 0x00 "DWT_FUNCTION1,DWT Function Registers 1" bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched" bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" textline " " bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved" bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported" bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled" textline " " bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled" bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,Send PC value trace packet on READ/WRITE,Send data value trace packet on READ/WRITE,Send data value + PC value on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data value trace packet on READ,Send data value trace packet on WRITE,Send data value + PC value on READ,Send data value + PC value on WRITE" else group.long (0x30+0x08)++0x03 line.long 0x00 "DWT_FUNCTION1,DWT Function Registers 1" bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched" bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" textline " " bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved" bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported" bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled" textline " " bitfld.long 0x00 5. " EMITRANGE ,Enables generation of Data trace address offset packets" "Disabled,Enabled" bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,UNPREDICTABLE,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE" endif group.long (0x40)++0x07 line.long 0x00 "DWT_COMP2,DWT Comparator Register 2" line.long 0x04 "DWT_MASK2,DWT Mask Registers 2" bitfld.long 0x04 0.--4. " MASK ,The size of the ignore mask" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" if (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x40+0x08))&0x120)==0x20) group.long (0x40+0x08)++0x03 line.long 0x00 "DWT_FUNCTION2,DWT Function Registers 2" bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched" bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" textline " " bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved" bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported" bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled" textline " " bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled" bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,Send address trace packet on READ/WRITE,Send data value + address packet on READ/WRITE,Send data value + address packet on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data address trace packet on READ,Send data address trace packet on WRITE,Send data address + PC value on READ,Send data address + PC value on WRITE" elif (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x40+0x08))&0x120)==0x00) group.long (0x40+0x08)++0x03 line.long 0x00 "DWT_FUNCTION2,DWT Function Registers 2" bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched" bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" textline " " bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved" bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported" bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled" textline " " bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled" bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,Send PC value trace packet on READ/WRITE,Send data value trace packet on READ/WRITE,Send data value + PC value on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data value trace packet on READ,Send data value trace packet on WRITE,Send data value + PC value on READ,Send data value + PC value on WRITE" else group.long (0x40+0x08)++0x03 line.long 0x00 "DWT_FUNCTION2,DWT Function Registers 2" bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched" bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" textline " " bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved" bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported" bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled" textline " " bitfld.long 0x00 5. " EMITRANGE ,Enables generation of Data trace address offset packets" "Disabled,Enabled" bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,UNPREDICTABLE,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE" endif group.long (0x50)++0x07 line.long 0x00 "DWT_COMP3,DWT Comparator Register 3" line.long 0x04 "DWT_MASK3,DWT Mask Registers 3" bitfld.long 0x04 0.--4. " MASK ,The size of the ignore mask" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" if (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x50+0x08))&0x120)==0x20) group.long (0x50+0x08)++0x03 line.long 0x00 "DWT_FUNCTION3,DWT Function Registers 3" bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched" bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" textline " " bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved" bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported" bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled" textline " " bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled" bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,Send address trace packet on READ/WRITE,Send data value + address packet on READ/WRITE,Send data value + address packet on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data address trace packet on READ,Send data address trace packet on WRITE,Send data address + PC value on READ,Send data address + PC value on WRITE" elif (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x50+0x08))&0x120)==0x00) group.long (0x50+0x08)++0x03 line.long 0x00 "DWT_FUNCTION3,DWT Function Registers 3" bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched" bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" textline " " bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved" bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported" bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled" textline " " bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled" bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,Send PC value trace packet on READ/WRITE,Send data value trace packet on READ/WRITE,Send data value + PC value on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data value trace packet on READ,Send data value trace packet on WRITE,Send data value + PC value on READ,Send data value + PC value on WRITE" else group.long (0x50+0x08)++0x03 line.long 0x00 "DWT_FUNCTION3,DWT Function Registers 3" bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched" bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" textline " " bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved" bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported" bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled" textline " " bitfld.long 0x00 5. " EMITRANGE ,Enables generation of Data trace address offset packets" "Disabled,Enabled" bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,UNPREDICTABLE,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE" endif width 6. tree "CoreSight Identification Registers" rgroup.long 0xFE0++0x0F line.long 0x00 "PID0,Peripheral ID0" hexmask.long.byte 0x00 0.--7. 1. " Part_Num[7:0] ,Part Number bits[7:0]" line.long 0x04 "PID1,Peripheral ID1" hexmask.long.byte 0x04 4.--7. 1. " JEP106ID[3:0] ,JEP106 ID code bits[3:0]" hexmask.long.byte 0x04 0.--3. 1. " Part_Num[11:8] ,Part Number bits[11:8]" line.long 0x08 "PID2,Peripheral ID2" hexmask.long.byte 0x08 4.--7. 1. " Revision ,Revision" bitfld.long 0x08 3. " JEDEC ,JEDEC assigned ID fields" "0,JEDEC" hexmask.long.byte 0x08 0.--2. 1. " JEP106ID[6:4] ,JEP106 ID code bits[6:4]" line.long 0x0c "PID3,Peripheral ID3" hexmask.long.byte 0x0C 4.--7. 1. " RevAnd ,Minor revision field" hexmask.long.byte 0x0C 0.--3. 1. " CMB ,Customer-modified block" rgroup.long 0xFD0++0x03 line.long 0x00 "PID4,Peripheral Identification Register 4" hexmask.long.byte 0x00 4.--7. 1. " Count ,4KB count" hexmask.long.byte 0x00 0.--3. 1. " JEP106_CC ,JEP106 continuation code" rgroup.long 0xFF0++0x0F line.long 0x00 "CID0,Component ID0 (Preamble)" line.long 0x04 "CID1,Component ID1" hexmask.long.byte 0x04 4.--7. 1. " CC ,Component Class" hexmask.long.byte 0x04 0.--3. 1. " Preamble ,Preamble" line.long 0x08 "CID2,Component ID2" line.long 0x0c "CID3,Component ID3" tree.end width 0x0B else newline textline "DWT component base address not specified" newline endif tree.end tree.end AUTOINDENT.POP tree.end endif sif (CORENAME()=="CORTEXR5F") tree "Core Registers (Cortex-R5F)" AUTOINDENT.PUSH AUTOINDENT.OFF width 0x8 ; -------------------------------------------------------------------------------- ; Identification registers ; -------------------------------------------------------------------------------- tree "ID Registers" rgroup.long c15:0x00++0x00 line.long 0x00 "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++0x00 line.long 0x00 "CTR,Cache Type Register" bitfld.long 0x00 24.--27. " CWG ,Cache Write-back Granule" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" textline " " bitfld.long 0x00 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" bitfld.long 0x0 14.--15. " L1POLICY ,L1 Instruction cache policy" "Reserved,ASID,Virtual,Physical" textline " " 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 c15:0x400--0x400 line.long 0x0 "MPUIR,MPU type register" hexmask.long.byte 0x00 8.--15. 1. " REGNUM ,Number of regions" bitfld.long 0x00 0. " TYPE ,Type of MPU regions" "Unified,Seperated" rgroup.long c15:0x500++0x00 line.long 0x0 "MPIDR,Multiprocessor Affinity Register" bitfld.long 0x00 30.--31. " MULT_EXT ,Multiprocessing extensions" "No extensions,Reserved,Reserved,Part of a uniprocessor system" textline " " hexmask.long.byte 0x00 16.--23. 1. " AFFL2 ,Affitnity Level 2" hexmask.long.byte 0x00 8.--15. 1. " AFFL1 ,Affitnity Level 1" hexmask.long.byte 0x00 0.--7. 1. " AFFL0 ,Affitnity Level 0" textline " " rgroup.long c15:0x0410++0x00 line.long 0x00 "MMFR0,Memory Model Feature Register 0" bitfld.long 0x00 28.--31. " IT ,Instruction Type Support" "Reserved,Reserved,Reserved,Supported,?..." bitfld.long 0x00 24.--27. " FCSE ,Fast Context Switch Memory Mappings Support" "Reserved,Supported,?..." textline " " 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. " SL ,Number of Shareability levels implemented" "1,?..." bitfld.long 0x00 8.--11. " OS ,Outermost Shareability domain support" "Supported,?..." textline " " bitfld.long 0x00 4.--7. " PMSA ,Physical Memory System Architecture (PMSA) Support" "Not supported,?..." bitfld.long 0x00 0.--3. " VMSA ,Virtual Memory System Architecture (VMSA) Support" "Reserved,Reserved,Reserved,Supported,?..." rgroup.long c15:0x0510++0x00 line.long 0x00 "MMFR1,Memory Model Feature Register 1" bitfld.long 0x00 28.--31. " BTB ,Branch Target Buffer Support" "Reserved,Reserved,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" "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" "Supported,?..." textline " " bitfld.long 0x00 4.--7. " L1UCLMOMVA ,L1 Cache Line Maintenance Operations by MVA/Unified Architecture Support" "Not supported,?..." bitfld.long 0x00 0.--3. " L1HCLMOMVA ,L1 Cache Line Maintenance Operations by MVA/Harvard Architecture" "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,?..." 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" "Not supported,?..." textline " " bitfld.long 0x00 12.--15. " HTLBMO ,TLB Maintenance Operations/Harvard Architecture Support" "Reserved,Reserved,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,?..." textline " " bitfld.long 0x00 12.--15. " MB ,Invalidate broadcast Support" "Reserved,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 by MVA/Clean by MVA/Invalidate and Clean by MVA/Invalidate All Support" "Reserved,Supported,?..." rgroup.long c15:0x020++0x00 line.long 0x00 "ISAR0,Instruction Set Attributes 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.long c15:0x120++0x00 line.long 0x00 "ISAR1,Instruction Set Attributes 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,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 ,Sign or Zero 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 c15:0x220++0x00 line.long 0x00 "ISAR2,Instruction Set Attributes 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" "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 c15:0x320++0x00 line.long 0x00 "ISAR3,Instruction Set Attributes 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,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.long c15:0x420++0x00 line.long 0x00 "ISAR4,Instruction Set Attributes 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. " EI ,Exclusive Instructions Support" "Reserved,Supported,?..." bitfld.long 0x00 16.--19. " BI ,Barrier Instructions Support" "Reserved,Supported,?..." textline " " bitfld.long 0x00 12.--15. " SMII ,SMI 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 c15:0x010++0x00 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" "Not supported,?..." bitfld.long 0x00 4.--7. " STATE1 ,Thumb Encoding Supported by the Processor Type" "Reserved,Reserved,Reserved,Supported,?..." textline " " bitfld.long 0x00 0.--3. " STATE0 ,ARM Instruction Set Support" "Reserved,Supported,?..." rgroup.long c15:0x110++0x00 line.long 0x00 "ID_PFR1,Processor Feature Register 1" bitfld.long 0x00 8.--11. " MPM ,Microcontroller Programmer's Model Support" "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,?..." textline " " rgroup.long c15:0x210++0x00 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,?..." 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" "Not supported,?..." bitfld.long 0x00 0.--3. " CDM_CB ,Coprocessor Debug Model Support" "Not supported,?..." rgroup.long c15:0x310++0x00 line.long 0x00 "ID_AFR0,Auxiliary Feature Register 0" rgroup.long c15:0x02f++0x00 line.long 0x00 "BO1R,Build Options 1 Register" hexmask.long.long 0x00 12.--31. 0x1000 " TCM_HI_INIT_ADDR ,Default high address for the TCM" bitfld.long 0x00 1. " FLOAT_PRECISION ,Indicate whether double-precision floating point is implemented" "Not implemented,Implemented" textline " " bitfld.long 0x00 0. " PP_BUS_ECC ,Indicate whether bus-ECC is implemented" "Not implemented,Implemented" group.long c15:0x12f++0x00 line.long 0x00 "BO2R,Build Options 2 Register" bitfld.long 0x00 31. " NUM_CPU ,Number of CPUs" "1,2" bitfld.long 0x00 30. " LOCK_STEP ,Indicate whether the CPU has redundant logic running in lock step for checking purposes" "Not included,Included" textline " " bitfld.long 0x00 29. " NO_ICACHE ,Indicate whether the CPU contains instruction cache" "Yes,No" bitfld.long 0x00 28. " NO_DCACHE ,Indicate whether the CPU contains data cache" "Yes,No" textline " " bitfld.long 0x00 26.--27. " ATCM_ES ,Indicate whether an error scheme is implemented on the ATCM interface" "No error scheme,32 bit error detection,Reserved,64 bit error detection" bitfld.long 0x00 23.--25. " BTCM_ES ,Indicate whether an error scheme is implemented on the BTCM interface" "No error scheme,32 bit error detection,Reserved,64 bit error detection,?..." textline " " bitfld.long 0x00 23. " NO_IE ,Indicate whether the processor supports big-endian instructions" "Yes,No" bitfld.long 0x00 22. " NO_FPU ,Indicate whether the CPU contains a floating point unit" "Yes,No" textline " " bitfld.long 0x00 20.--21. " MPU_REGIONS ,Indicates the number of regions in the included CPU MPU" "No region,Reserved,12 regions,16 regions" bitfld.long 0x00 17.--19. " BREAK_POINTS ,Indicate the number of break points implemented in each CPU in the processor minus 1" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 14.--16. " WATCH_POINTS ,Indicate the number of watch points implemented in each CPU in the processor minus 1" "0,1,2,3,4,5,6,7" bitfld.long 0x00 13. " NO_A_TCM_INF ,Indicate whether the CPUs contain ATCM ports" "Yes,No" textline " " bitfld.long 0x00 12. " NO_B0_TCM_INF ,Indicate whether the CPUs contain B0TCM ports" "Yes,No" bitfld.long 0x00 11. " NO_B1_TCM_INF ,Indicate whether the CPUs contain B1TCM ports" "Yes,No" textline " " bitfld.long 0x00 10. " TCMBUSPARITY ,Indicate whether the processor contains TCM address bus parity logic" "No,Yes" bitfld.long 0x00 9. " NO_SLAVE ,Indicate whether the CPU contains an AXI slave port" "Yes,No" textline " " bitfld.long 0x00 7.--8. " ICACHE_ES ,Indicate whether an error scheme is implemented for the instruction cache" "No error scheme,8-bit parity,Reserved,64-bit ECC" bitfld.long 0x00 5.--6. " DCACHE_ES ,Indicate whether an error scheme is implemented for the data cache" "No error scheme,8-bit parity,32-bit ECC,?..." textline " " bitfld.long 0x00 4. " NO_HARD_ERROR_CACHE ,Indicate whether the processor contains cache for corrected TCM errors" "Yes,No" bitfld.long 0x00 3. " AXI_BUS_ECC ,Indicate whether the processor contains AXI bus ECC logic" "No,Yes" textline " " bitfld.long 0x00 2. " SL ,Indicate whether the processor has been built with split/lock logic" "No,Yes" bitfld.long 0x00 1. " AHB_PP ,Indicate whether the CPU contain AHB peripheral interfaces" "No,Yes" textline " " bitfld.long 0x00 0. " MICRO_SCU ,Indicate whether the processor contain an ACP interface" "No,Yes" group.long c15:0x72f++0x00 line.long 0x00 "POR,Pin Options Register" bitfld.long 0x00 4. " DBGNOCLKSTOP ,Value of the DBGNOCLKSTOP pin" "Low,High" bitfld.long 0x00 3. " INTSYNCEN ,Value of the INTSYNCEN pin" "Low,High" textline " " bitfld.long 0x00 2. " IRQADDRVSYNCEN ,Value of the IRQADDRVSYNCEN pin" "Low,High" bitfld.long 0x00 1. " SLBTCMSB ,Value of the SLBTCMSBm pin" "Low,High" textline " " bitfld.long 0x00 0. " PARITYLEVEL ,Value of the PARITYLEVEL pin" "Low,High" tree.end width 0x8 tree "System Control and Configuration" group.long c15:0x01++0x00 line.long 0x00 "SCTLR,Control Register" bitfld.long 0x0 31. " IE ,Instruction endianness" "Little,Big" bitfld.long 0x0 30. " TE ,Thumb exception enable" "ARM,Thumb" bitfld.long 0x0 29. " AFE ,Access Flag Enable" "Disable,Enable" bitfld.long 0x0 28. " TRE ,TEX remap enable" "Disable,Enable" bitfld.long 0x0 27. " NMFI ,Nonmaskable Fast Interrupt enable" "Disable,Enable" textline " " bitfld.long 0x0 25. " EE ,Exception endianess" "Little,Big" bitfld.long 0x0 24. " VE ,Vector Enable" "Disable,Vectored" bitfld.long 0x0 21. " FI ,Fast Interrupts enable" "Disable,Enable" textline " " bitfld.long 0x0 19. " DZ ,Divide by Zero exception bit" "Disable,Enable" bitfld.long 0x0 17. " BR ,MPU Background region enable" "Disable,Enable" bitfld.long 0x0 14. " RR ,Round-Robin bit" "Random,RRobin" bitfld.long 0x0 13. " V ,Base Location of Exception Registers" "0x00000000,0xFFFF0000" textline " " bitfld.long 0x0 12. " I ,Instruction Cache Enable" "Disable,Enable" bitfld.long 0x0 11. " Z ,Branch Prediction Enable" "Disable,Enable" bitfld.long 0x0 2. " C ,Enable data cache" "Disable,Enable" bitfld.long 0x0 1. " A ,Strict Alignment" "Disable,Enable" bitfld.long 0x0 0. " M ,MPU Enable" "Disable,Enable" textline " " group.long c15:0x101++0x00 line.long 0x0 "ACTLR,Auxiliary Control Register" bitfld.long 0x00 31. " DICDI ,Disable Case C dual issue control" "Enable,Disable" bitfld.long 0x00 30. " DIB2DI ,Disable Case B2 dual issue control" "Enable,Disable" bitfld.long 0x00 29. " DIB1DI ,Disable Case B1 dual issue control" "Enable,Disable" textline " " bitfld.long 0x00 28. " DIADI ,Disable Case A dual issue control" "Enable,Disable" bitfld.long 0x00 27. " B1TCMPCEN ,B1TCM parity or ECC check enable" "Disable,Enable" bitfld.long 0x00 26. " B0TCMPCEN ,B1TCM parity or ECC check enable" "Disable,Enable" textline " " bitfld.long 0x00 25. " ATCMPCEN ,B1TCM parity or ECC check enable" "Disable,Enable" bitfld.long 0x00 24. " AXISCEN ,AXI slave cache access enable" "Disable,Enable" bitfld.long 0x00 23. " AXISCUEN ,AXI slave cache User mode access enable" "Disable,Enable" textline " " bitfld.long 0x00 22. " DILSM ,Disable LIL on load/store multiples" "Enable,Disable" bitfld.long 0x00 21. " DEOLP ,Disable end of loop prediction" "Enable,Disable" bitfld.long 0x00 20. " DBHE ,Disable BH extension" "Enable,Disable" textline " " bitfld.long 0x00 19. " FRCDIS ,Fetch rate control disable" "Enable,Disable" bitfld.long 0x00 17. " RSDIS ,Return stack disable" "Enable,Disable" bitfld.long 0x00 15.--16. " BP ,Control of the branch prediction policy" "Normal,Taken,Not taken,?..." textline " " bitfld.long 0x00 14. " DBWR ,Disable write_burst on AXI master" "Enable,Disable" bitfld.long 0x00 13. " DLFO ,Disable linefill optimization in the AXI master" "Enable,Disable" bitfld.long 0x00 12. " ERPEG ,Enable random parity error generation" "Disable,Enable" textline " " bitfld.long 0x00 11. " DNCH ,Disable data forwarding for Non-cacheable accesses in the AXI master" "Enable,Disable" bitfld.long 0x00 10. " FORA ,Force outer read allocate (ORA) for outer write allocate (OWA) regions" "Not forced,Forced" bitfld.long 0x00 9. " FWT ,Force write-through (WT) for write-back (WB) regions" "Not forced,Forced" textline " " bitfld.long 0x00 8. " FDSnS ,Force D-side to not-shared when MPU is off" "Not forced,Forced" bitfld.long 0x00 7. " SMOV ,sMOV disabled" "Enabled,Disabled" bitfld.long 0x0 6. " DILS ,Disable low interrupt latency on all load/store instructions" "Enable,Disable" textline " " bitfld.long 0x00 3.--5. " CEC ,Cache error control for cache parity and ECC errors" "Generate abort,Generate abort,Generate abort,Reserved,Disabled parity checking,Not generate abort,Not generate abort,?..." textline " " bitfld.long 0x00 2. " B1TCMECEN ,B1TCM external error enable" "Disable,Enable" bitfld.long 0x00 1. " B0TCMECEN ,B0TCM external error enable" "Disable,Enable" bitfld.long 0x00 0. " ATCMECEN ,ATCM external error enable" "Disable,Enable" textline " " group.long c15:0x0f++0x00 line.long 0x00 "SACTLR,Secondary Auxiliary Control Register" bitfld.long 0x00 22. " DCHE ,Disable hard-error support in the caches" "Enable,Disable" bitfld.long 0x00 21. " DR2B ,Enable random 2-bit error genration in cache RAMs" "Disable,Enable" bitfld.long 0x00 20. " DF6DI ,F6 dual issue control" "Enable,Disable" textline " " bitfld.long 0x00 19. " DF2DI ,F2 dual issue control" "Enable,Disable" bitfld.long 0x00 18. " DDI ,F1/F3/F4 dual issue control" "Enable,Disable" bitfld.long 0x00 17. " DOODPFP ,Out-of-order Double Precision Floating-point control" "Enable,Disable" textline " " bitfld.long 0x00 16. " DOOFMACS ,Out-of-order FMACS control" "Enable,Disable" bitfld.long 0x00 13. " IXC ,Floating-point inexact exception output mask" "Mask,Propagate" bitfld.long 0x00 12. " OFC ,Floating-point overflow exception output mask" "Mask,Propagate" textline " " bitfld.long 0x00 11. " UFC ,Floating-point underflow exception output mask" "Mask,Propagate" bitfld.long 0x00 10. " IOC ,Floating-point invalid operation exception output mask" "Mask,Propagate" bitfld.long 0x00 9. " DZC ,Floating-point divide-by-zero exception output mask" "Mask,Propagate" textline " " bitfld.long 0x00 8. " IDC ,Floating-point input denormal exception output mask" "Mask,Propagate" bitfld.long 0x00 3. " BTCMECC ,Correction for internal ECC logic on BTCM ports" "Enable,Disable" bitfld.long 0x00 2. " ATCMECC ,Correction for internal ECC logic on ATCM port" "Enable,Disable" textline " " bitfld.long 0x00 1. " BTCMRMW ,Enable 64-bit stores on BTCMs" "Disable,Enable" bitfld.long 0x00 0. " ATCMRMW ,Enable 64-bit stores on ATCM" "Disable,Enable" textline " " group.long c15:0x201++0x00 line.long 0x0 "CPACR,Coprocessor Access Control Register" bitfld.long 0x0 31. " ASEDIS ,Disable Advanced SIMD Extension functionality" "No,Yes" bitfld.long 0x0 30. " D32DIS ,Disable use of D16-D31 of the VFP register file" "No,Yes" textline " " bitfld.long 0x0 26.--27. " CP13 ,Coprocesor access control" "Denied,Privileged,Reserved,Full" bitfld.long 0x0 24.--25. " CP12 ,Coprocesor access control" "Denied,Privileged,Reserved,Full" textline " " bitfld.long 0x0 22.--23. " CP11 ,Coprocesor access control" "Denied,Privileged,Reserved,Full" bitfld.long 0x0 20.--21. " CP10 ,Coprocesor access control" "Denied,Privileged,Reserved,Full" textline " " bitfld.long 0x0 18.--19. " CP9 ,Coprocesor access control" "Denied,Privileged,Reserved,Full" bitfld.long 0x0 16.--17. " CP8 ,Coprocesor access control" "Denied,Privileged,Reserved,Full" textline " " bitfld.long 0x0 14.--15. " CP7 ,Coprocesor access control" "Denied,Privileged,Reserved,Full" bitfld.long 0x0 12.--13. " CP6 ,Coprocesor access control" "Denied,Privileged,Reserved,Full" textline " " bitfld.long 0x0 10.--11. " CP5 ,Coprocesor access control" "Denied,Privileged,Reserved,Full" bitfld.long 0x0 8.--9. " CP4 ,Coprocesor access control" "Denied,Privileged,Reserved,Full" textline " " bitfld.long 0x0 6.--7. " CP3 ,Coprocesor access control" "Denied,Privileged,Reserved,Full" bitfld.long 0x0 4.--5. " CP2 ,Coprocesor access control" "Denied,Privileged,Reserved,Full" textline " " bitfld.long 0x0 2.--3. " CP1 ,Coprocesor access control" "Denied,Privileged,Reserved,Full" bitfld.long 0x0 0.--1. " CP0 ,Coprocesor access control" "Denied,Privileged,Reserved,Full" textline " " group.long c15:0x000b++0x00 line.long 0x00 "SPCR,Slave Port Control Register" bitfld.long 0x00 1. " PRIV ,Privilege access only" "User/Privilege,Privilege only" bitfld.long 0x00 0. " AXISLEN ,AXI slave port disable" "Enabled,Disabled" tree.end width 0x8 tree "MPU Control and Configuration" group.long c15:0x01++0x00 line.long 0x00 "SCTLR,Control Register" bitfld.long 0x0 31. " IE ,Instruction endianness" "Little,Big" bitfld.long 0x0 30. " TE ,Thumb exception enable" "ARM,Thumb" bitfld.long 0x0 29. " AFE ,Access Flag Enable" "Disable,Enable" bitfld.long 0x0 28. " TRE ,TEX remap enable" "Disable,Enable" bitfld.long 0x0 27. " NMFI ,Nonmaskable Fast Interrupt enable" "Disable,Enable" textline " " bitfld.long 0x0 25. " EE ,Exception endianess" "Little,Big" bitfld.long 0x0 24. " VE ,Vector Enable" "Disable,Vectored" bitfld.long 0x0 21. " FI ,Fast Interrupts enable" "Disable,Enable" textline " " bitfld.long 0x0 19. " DZ ,Divide by Zero exception bit" "Disable,Enable" bitfld.long 0x0 17. " BR ,MPU Background region enable" "Disable,Enable" bitfld.long 0x0 14. " RR ,Round-Robin bit" "Random,RRobin" bitfld.long 0x0 13. " V ,Base Location of Exception Registers" "0x00000000,0xFFFF0000" textline " " bitfld.long 0x0 12. " I ,Instruction Cache Enable" "Disable,Enable" bitfld.long 0x0 11. " Z ,Branch Prediction Enable" "Disable,Enable" bitfld.long 0x0 2. " C ,Enable data cache" "Disable,Enable" bitfld.long 0x0 1. " A ,Strict Alignment" "Disable,Enable" bitfld.long 0x0 0. " M ,MPU Enable" "Disable,Enable" textline " " group.long c15:0x05++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 c15:0x15++0x00 line.long 0x00 "ADFSR,Auxiliary Data Fault Status Register" bitfld.long 0x00 24.--27. " CACHEWAY ,Cache way or ways in which the error occurred" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 22.--23. 20. " SIDE ,Source of the error" "Cache/AXIM,ATCM,BTCM,Reserved,Reserved,AXI,AHB,Reserved" textline " " bitfld.long 0x00 21. " REC_ERR ,Error recoverability indication" "Not recoverable,Recoverable" bitfld.long 0x00 20. " SIDE_EXT ,Source of the error" "Internal,External" textline " " hexmask.long.word 0x00 5.--13. 1. " INDEX ,Index Value for The Access Giving the Error Register" group.long c15:0x06++0x00 line.long 0x00 "DFAR,Data Fault Address Register" textline " " group.long c15:0x0105++0x00 line.long 0x00 "IFSR,Instruction Fault Status Register" bitfld.long 0x00 12. " EXT ,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 c15:0x115++0x00 line.long 0x00 "AIFSR,Auxiliary Instruction Fault Status Register" bitfld.long 0x00 24.--27. " CACHEWAY ,Cache way or ways in which the error occurred" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 22.--23. 20. " SIDE ,Source of the error" "Cache/AXIM,ATCM,BTCM,Reserved,Reserved,AXI,AHB,Reserved" textline " " bitfld.long 0x00 21. " REC_ERR ,Error recoverability indication" "Not recoverable,Recoverable" bitfld.long 0x00 20. " SIDE_EXT ,Source of the error" "Internal,External" textline " " hexmask.long.word 0x00 5.--13. 1. " INDEX ,Index Value for The Access Giving the Error Register" group.long c15:0x206++0x00 line.long 0x00 "IFAR,Instruction Fault Address Register" textline " " group.long c15:0x0016++0x00 line.long 0x00 "RBAR,Region Base Address Register" hexmask.long 0x00 5.--31. 0x20 " BA ,Base address" group.long c15:0x0216++0x00 line.long 0x00 "RSER,Region Size and Enable Register" bitfld.long 0x00 15. " SD ,Subregion 7 disable" "-,D" bitfld.long 0x00 14. " ,Subregion 6 disable" "-,D" bitfld.long 0x00 13. " ,Subregion 5 disable" "-,D" bitfld.long 0x00 12. " ,Subregion 4 disable" "-,D" bitfld.long 0x00 11. " ,Subregion 3 disable" "-,D" bitfld.long 0x00 10. " ,Subregion 2 disable" "-,D" bitfld.long 0x00 9. " ,Subregion 1 disable" "-,D" bitfld.long 0x00 8. " ,Subregion 0 disable" "-,D" bitfld.long 0x00 1.--5. " RS ,Region size" "Unpredictable,Unpredictable,Unpredictable,Unpredictable,32 bytes,64 bytes,128 bytes,256 bytes,512 bytes,1KB,2KB,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB" bitfld.long 0x00 0. " EN ,Enable" "Disabled,Enabled" group.long c15:0x0416++0x00 line.long 0x00 "RACR,Region Access Control Register" bitfld.long 0x00 12. " XN ,Execute never" "-,NoExec" bitfld.long 0x00 2. " S ,Share" "No,Yes" bitfld.long 0x00 8.--10. " AP ,Access permission" "None,Privileged,User read-only,Full,Reserved,Privileged read,Read-only,Reserved" bitfld.long 0x00 0.--1. 3.--5. " TYPE ,Region type" "Strongly-ordered,Shareable Device,Outer and Inner write-through/no write-allocate,Outer and Inner write-back/no write-allocate,Outer and Inner Non-cacheable,00101,00110,Outer and Inner write-back/write-allocate,Non-shareable Device,01001,01010,01011,01100,01101,01110,01111,O:Non-cacheable I:Non-cacheable,O:Non-cacheable I:Write-back/write-allocate,O:Non-cacheable I:Write-through/no write-allocate,O:Non-cacheable I:Write-back/no write-allocate,O:Write-back/write-allocate I:Non-cacheable,O:Write-back/write-allocate I:Write-back/write-allocate,O:Write-back/write-allocate I:Write-through/no write-allocate,O:Write-back/write-allocate I:Write-back/no write-allocate,O:Write-through/no write-allocate I:Non-cacheable,O:Write-through/no write-allocate I:Write-back/write-allocate,O:Write-through/no write-allocate I:Write-through/no write-allocate,O:Write-through/no write-allocate I:Write-back/no write-allocate,O:Write-back/no write-allocate I:Non-cacheable,O:Write-back/no write-allocate I:Write-back/write-allocate,O:Write-back/no write-allocate I:Write-through/no write-allocate,O:Write-back/no write-allocate I:Write-back/no write-allocate" group.long c15:0x0026++0x00 line.long 0x00 "MRNR,Memory Region Number Register" bitfld.long 0x00 0.--3. " REGION ,Defines the group of registers to be accessed" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" textline " " group.long c15:0x010d++0x00 line.long 0x00 "CIDR,Context ID Register" group.long c15:0x20d++0x00 line.long 0x00 "TIDRURW,User read/write Thread and Process ID Register" group.long c15:0x30d++0x00 line.long 0x00 "TIDRURO,User read only Thread and Process ID Register" group.long c15:0x40d++0x00 line.long 0x00 "TIDRPRW,Privileged Only Thread and Process ID Register" width 0x08 tree "MPU regions" group c15:0x0016++0x00 saveout c15:0x26 %l 0x0 line.long 0x00 "RBAR0,Region Base Address Register 0" hexmask.long 0x00 5.--31. 0x20 " BA ,Base address" group c15:0x0216++0x00 saveout c15:0x26 %l 0x0 line.long 0x00 "RSER0,Region Size and Enable Register 0" bitfld.long 0x00 15. " SD ,Subregion 7 disable" "-,D" bitfld.long 0x00 14. " ,Subregion 6 disable" "-,D" bitfld.long 0x00 13. " ,Subregion 5 disable" "-,D" bitfld.long 0x00 12. " ,Subregion 4 disable" "-,D" bitfld.long 0x00 11. " ,Subregion 3 disable" "-,D" bitfld.long 0x00 10. " ,Subregion 2 disable" "-,D" bitfld.long 0x00 9. " ,Subregion 1 disable" "-,D" bitfld.long 0x00 8. " ,Subregion 0 disable" "-,D" bitfld.long 0x00 1.--5. " RS ,Region size" "Unpredictable,Unpredictable,Unpredictable,Unpredictable,32 bytes,64 bytes,128 bytes,256 bytes,512 bytes,1KB,2KB,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB" bitfld.long 0x00 0. " EN ,Enable" "Disabled,Enabled" group c15:0x0416++0x00 saveout c15:0x26 %l 0x0 line.long 0x00 "RACR0,Region Access Control Register 0" bitfld.long 0x00 12. " XN ,Execute never" "-,NoExec" bitfld.long 0x00 2. " S ,Share" "No,Yes" bitfld.long 0x00 8.--10. " AP ,Access permission" "None,Privileged,User read-only,Full,Reserved,Privileged read,Read-only,Reserved" bitfld.long 0x00 0.--1. 3.--5. " type ,Region type" "Strongly-ordered,Shareable Device,Outer and Inner write-through/no write-allocate,Outer and Inner write-back/no write-allocate,Outer and Inner Non-cacheable,00101,00110,Outer and Inner write-back/write-allocate,Non-shareable Device,01001,01010,01011,01100,01101,01110,01111,O:Non-cacheable I:Non-cacheable,O:Non-cacheable I:Write-back/write-allocate,O:Non-cacheable I:Write-through/no write-allocate,O:Non-cacheable I:Write-back/no write-allocate,O:Write-back/write-allocate I:Non-cacheable,O:Write-back/write-allocate I:Write-back/write-allocate,O:Write-back/write-allocate I:Write-through/no write-allocate,O:Write-back/write-allocate I:Write-back/no write-allocate,O:Write-through/no write-allocate I:Non-cacheable,O:Write-through/no write-allocate I:Write-back/write-allocate,O:Write-through/no write-allocate I:Write-through/no write-allocate,O:Write-through/no write-allocate I:Write-back/no write-allocate,O:Write-back/no write-allocate I:Non-cacheable,O:Write-back/no write-allocate I:Write-back/write-allocate,O:Write-back/no write-allocate I:Write-through/no write-allocate,O:Write-back/no write-allocate I:Write-back/no write-allocate" textline " " group c15:0x0016++0x00 saveout c15:0x26 %l 0x1 line.long 0x00 "RBAR1,Region Base Address Register 1" hexmask.long 0x00 5.--31. 0x20 " BA ,Base address" group c15:0x0216++0x00 saveout c15:0x26 %l 0x1 line.long 0x00 "RSER1,Region Size and Enable Register 1" bitfld.long 0x00 15. " SD ,Subregion 7 disable" "-,D" bitfld.long 0x00 14. " ,Subregion 6 disable" "-,D" bitfld.long 0x00 13. " ,Subregion 5 disable" "-,D" bitfld.long 0x00 12. " ,Subregion 4 disable" "-,D" bitfld.long 0x00 11. " ,Subregion 3 disable" "-,D" bitfld.long 0x00 10. " ,Subregion 2 disable" "-,D" bitfld.long 0x00 9. " ,Subregion 1 disable" "-,D" bitfld.long 0x00 8. " ,Subregion 0 disable" "-,D" bitfld.long 0x00 1.--5. " RS ,Region size" "Unpredictable,Unpredictable,Unpredictable,Unpredictable,32 bytes,64 bytes,128 bytes,256 bytes,512 bytes,1KB,2KB,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB" bitfld.long 0x00 0. " EN ,Enable" "Disabled,Enabled" group c15:0x0416++0x00 saveout c15:0x26 %l 0x1 line.long 0x00 "RACR1,Region Access Control Register 1" bitfld.long 0x00 12. " XN ,Execute never" "-,NoExec" bitfld.long 0x00 2. " S ,Share" "No,Yes" bitfld.long 0x00 8.--10. " AP ,Access permission" "None,Privileged,User read-only,Full,Reserved,Privileged read,Read-only,Reserved" bitfld.long 0x00 0.--1. 3.--5. " type ,Region type" "Strongly-ordered,Shareable Device,Outer and Inner write-through/no write-allocate,Outer and Inner write-back/no write-allocate,Outer and Inner Non-cacheable,00101,00110,Outer and Inner write-back/write-allocate,Non-shareable Device,01001,01010,01011,01100,01101,01110,01111,O:Non-cacheable I:Non-cacheable,O:Non-cacheable I:Write-back/write-allocate,O:Non-cacheable I:Write-through/no write-allocate,O:Non-cacheable I:Write-back/no write-allocate,O:Write-back/write-allocate I:Non-cacheable,O:Write-back/write-allocate I:Write-back/write-allocate,O:Write-back/write-allocate I:Write-through/no write-allocate,O:Write-back/write-allocate I:Write-back/no write-allocate,O:Write-through/no write-allocate I:Non-cacheable,O:Write-through/no write-allocate I:Write-back/write-allocate,O:Write-through/no write-allocate I:Write-through/no write-allocate,O:Write-through/no write-allocate I:Write-back/no write-allocate,O:Write-back/no write-allocate I:Non-cacheable,O:Write-back/no write-allocate I:Write-back/write-allocate,O:Write-back/no write-allocate I:Write-through/no write-allocate,O:Write-back/no write-allocate I:Write-back/no write-allocate" textline " " group c15:0x0016++0x00 saveout c15:0x26 %l 0x2 line.long 0x00 "RBAR2,Region Base Address Register 2" hexmask.long 0x00 5.--31. 0x20 " BA ,Base address" group c15:0x0216++0x00 saveout c15:0x26 %l 0x2 line.long 0x00 "RSER2,Region Size and Enable Register 2" bitfld.long 0x00 15. " SD ,Subregion 7 disable" "-,D" bitfld.long 0x00 14. " ,Subregion 6 disable" "-,D" bitfld.long 0x00 13. " ,Subregion 5 disable" "-,D" bitfld.long 0x00 12. " ,Subregion 4 disable" "-,D" bitfld.long 0x00 11. " ,Subregion 3 disable" "-,D" bitfld.long 0x00 10. " ,Subregion 2 disable" "-,D" bitfld.long 0x00 9. " ,Subregion 1 disable" "-,D" bitfld.long 0x00 8. " ,Subregion 0 disable" "-,D" bitfld.long 0x00 1.--5. " RS ,Region size" "Unpredictable,Unpredictable,Unpredictable,Unpredictable,32 bytes,64 bytes,128 bytes,256 bytes,512 bytes,1KB,2KB,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB" bitfld.long 0x00 0. " EN ,Enable" "Disabled,Enabled" group c15:0x0416++0x00 saveout c15:0x26 %l 0x2 line.long 0x00 "RACR2,Region Access Control Register 2" bitfld.long 0x00 12. " XN ,Execute never" "-,NoExec" bitfld.long 0x00 2. " S ,Share" "No,Yes" bitfld.long 0x00 8.--10. " AP ,Access permission" "None,Privileged,User read-only,Full,Reserved,Privileged read,Read-only,Reserved" bitfld.long 0x00 0.--1. 3.--5. " type ,Region type" "Strongly-ordered,Shareable Device,Outer and Inner write-through/no write-allocate,Outer and Inner write-back/no write-allocate,Outer and Inner Non-cacheable,00101,00110,Outer and Inner write-back/write-allocate,Non-shareable Device,01001,01010,01011,01100,01101,01110,01111,O:Non-cacheable I:Non-cacheable,O:Non-cacheable I:Write-back/write-allocate,O:Non-cacheable I:Write-through/no write-allocate,O:Non-cacheable I:Write-back/no write-allocate,O:Write-back/write-allocate I:Non-cacheable,O:Write-back/write-allocate I:Write-back/write-allocate,O:Write-back/write-allocate I:Write-through/no write-allocate,O:Write-back/write-allocate I:Write-back/no write-allocate,O:Write-through/no write-allocate I:Non-cacheable,O:Write-through/no write-allocate I:Write-back/write-allocate,O:Write-through/no write-allocate I:Write-through/no write-allocate,O:Write-through/no write-allocate I:Write-back/no write-allocate,O:Write-back/no write-allocate I:Non-cacheable,O:Write-back/no write-allocate I:Write-back/write-allocate,O:Write-back/no write-allocate I:Write-through/no write-allocate,O:Write-back/no write-allocate I:Write-back/no write-allocate" textline " " group c15:0x0016++0x00 saveout c15:0x26 %l 0x3 line.long 0x00 "RBAR3,Region Base Address Register 3" hexmask.long 0x00 5.--31. 0x20 " BA ,Base address" group c15:0x0216++0x00 saveout c15:0x26 %l 0x3 line.long 0x00 "RSER3,Region Size and Enable Register 3" bitfld.long 0x00 15. " SD ,Subregion 7 disable" "-,D" bitfld.long 0x00 14. " ,Subregion 6 disable" "-,D" bitfld.long 0x00 13. " ,Subregion 5 disable" "-,D" bitfld.long 0x00 12. " ,Subregion 4 disable" "-,D" bitfld.long 0x00 11. " ,Subregion 3 disable" "-,D" bitfld.long 0x00 10. " ,Subregion 2 disable" "-,D" bitfld.long 0x00 9. " ,Subregion 1 disable" "-,D" bitfld.long 0x00 8. " ,Subregion 0 disable" "-,D" bitfld.long 0x00 1.--5. " RS ,Region size" "Unpredictable,Unpredictable,Unpredictable,Unpredictable,32 bytes,64 bytes,128 bytes,256 bytes,512 bytes,1KB,2KB,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB" bitfld.long 0x00 0. " EN ,Enable" "Disabled,Enabled" group c15:0x0416++0x00 saveout c15:0x26 %l 0x3 line.long 0x00 "RACR3,Region Access Control Register 3" bitfld.long 0x00 12. " XN ,Execute never" "-,NoExec" bitfld.long 0x00 2. " S ,Share" "No,Yes" bitfld.long 0x00 8.--10. " AP ,Access permission" "None,Privileged,User read-only,Full,Reserved,Privileged read,Read-only,Reserved" bitfld.long 0x00 0.--1. 3.--5. " type ,Region type" "Strongly-ordered,Shareable Device,Outer and Inner write-through/no write-allocate,Outer and Inner write-back/no write-allocate,Outer and Inner Non-cacheable,00101,00110,Outer and Inner write-back/write-allocate,Non-shareable Device,01001,01010,01011,01100,01101,01110,01111,O:Non-cacheable I:Non-cacheable,O:Non-cacheable I:Write-back/write-allocate,O:Non-cacheable I:Write-through/no write-allocate,O:Non-cacheable I:Write-back/no write-allocate,O:Write-back/write-allocate I:Non-cacheable,O:Write-back/write-allocate I:Write-back/write-allocate,O:Write-back/write-allocate I:Write-through/no write-allocate,O:Write-back/write-allocate I:Write-back/no write-allocate,O:Write-through/no write-allocate I:Non-cacheable,O:Write-through/no write-allocate I:Write-back/write-allocate,O:Write-through/no write-allocate I:Write-through/no write-allocate,O:Write-through/no write-allocate I:Write-back/no write-allocate,O:Write-back/no write-allocate I:Non-cacheable,O:Write-back/no write-allocate I:Write-back/write-allocate,O:Write-back/no write-allocate I:Write-through/no write-allocate,O:Write-back/no write-allocate I:Write-back/no write-allocate" textline " " group c15:0x0016++0x00 saveout c15:0x26 %l 0x4 line.long 0x00 "RBAR4,Region Base Address Register 4" hexmask.long 0x00 5.--31. 0x20 " BA ,Base address" group c15:0x0216++0x00 saveout c15:0x26 %l 0x4 line.long 0x00 "RSER4,Region Size and Enable Register 4" bitfld.long 0x00 15. " SD ,Subregion 7 disable" "-,D" bitfld.long 0x00 14. " ,Subregion 6 disable" "-,D" bitfld.long 0x00 13. " ,Subregion 5 disable" "-,D" bitfld.long 0x00 12. " ,Subregion 4 disable" "-,D" bitfld.long 0x00 11. " ,Subregion 3 disable" "-,D" bitfld.long 0x00 10. " ,Subregion 2 disable" "-,D" bitfld.long 0x00 9. " ,Subregion 1 disable" "-,D" bitfld.long 0x00 8. " ,Subregion 0 disable" "-,D" bitfld.long 0x00 1.--5. " RS ,Region size" "Unpredictable,Unpredictable,Unpredictable,Unpredictable,32 bytes,64 bytes,128 bytes,256 bytes,512 bytes,1KB,2KB,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB" bitfld.long 0x00 0. " EN ,Enable" "Disabled,Enabled" group c15:0x0416++0x00 saveout c15:0x26 %l 0x4 line.long 0x00 "RACR4,Region Access Control Register 4" bitfld.long 0x00 12. " XN ,Execute never" "-,NoExec" bitfld.long 0x00 2. " S ,Share" "No,Yes" bitfld.long 0x00 8.--10. " AP ,Access permission" "None,Privileged,User read-only,Full,Reserved,Privileged read,Read-only,Reserved" bitfld.long 0x00 0.--1. 3.--5. " type ,Region type" "Strongly-ordered,Shareable Device,Outer and Inner write-through/no write-allocate,Outer and Inner write-back/no write-allocate,Outer and Inner Non-cacheable,00101,00110,Outer and Inner write-back/write-allocate,Non-shareable Device,01001,01010,01011,01100,01101,01110,01111,O:Non-cacheable I:Non-cacheable,O:Non-cacheable I:Write-back/write-allocate,O:Non-cacheable I:Write-through/no write-allocate,O:Non-cacheable I:Write-back/no write-allocate,O:Write-back/write-allocate I:Non-cacheable,O:Write-back/write-allocate I:Write-back/write-allocate,O:Write-back/write-allocate I:Write-through/no write-allocate,O:Write-back/write-allocate I:Write-back/no write-allocate,O:Write-through/no write-allocate I:Non-cacheable,O:Write-through/no write-allocate I:Write-back/write-allocate,O:Write-through/no write-allocate I:Write-through/no write-allocate,O:Write-through/no write-allocate I:Write-back/no write-allocate,O:Write-back/no write-allocate I:Non-cacheable,O:Write-back/no write-allocate I:Write-back/write-allocate,O:Write-back/no write-allocate I:Write-through/no write-allocate,O:Write-back/no write-allocate I:Write-back/no write-allocate" textline " " group c15:0x0016++0x00 saveout c15:0x26 %l 0x5 line.long 0x00 "RBAR5,Region Base Address Register 5" hexmask.long 0x00 5.--31. 0x20 " BA ,Base address" group c15:0x0216++0x00 saveout c15:0x26 %l 0x5 line.long 0x00 "RSER5,Region Size and Enable Register 5" bitfld.long 0x00 15. " SD ,Subregion 7 disable" "-,D" bitfld.long 0x00 14. " ,Subregion 6 disable" "-,D" bitfld.long 0x00 13. " ,Subregion 5 disable" "-,D" bitfld.long 0x00 12. " ,Subregion 4 disable" "-,D" bitfld.long 0x00 11. " ,Subregion 3 disable" "-,D" bitfld.long 0x00 10. " ,Subregion 2 disable" "-,D" bitfld.long 0x00 9. " ,Subregion 1 disable" "-,D" bitfld.long 0x00 8. " ,Subregion 0 disable" "-,D" bitfld.long 0x00 1.--5. " RS ,Region size" "Unpredictable,Unpredictable,Unpredictable,Unpredictable,32 bytes,64 bytes,128 bytes,256 bytes,512 bytes,1KB,2KB,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB" bitfld.long 0x00 0. " EN ,Enable" "Disabled,Enabled" group c15:0x0416++0x00 saveout c15:0x26 %l 0x5 line.long 0x00 "RACR5,Region Access Control Register 5" bitfld.long 0x00 12. " XN ,Execute never" "-,NoExec" bitfld.long 0x00 2. " S ,Share" "No,Yes" bitfld.long 0x00 8.--10. " AP ,Access permission" "None,Privileged,User read-only,Full,Reserved,Privileged read,Read-only,Reserved" bitfld.long 0x00 0.--1. 3.--5. " type ,Region type" "Strongly-ordered,Shareable Device,Outer and Inner write-through/no write-allocate,Outer and Inner write-back/no write-allocate,Outer and Inner Non-cacheable,00101,00110,Outer and Inner write-back/write-allocate,Non-shareable Device,01001,01010,01011,01100,01101,01110,01111,O:Non-cacheable I:Non-cacheable,O:Non-cacheable I:Write-back/write-allocate,O:Non-cacheable I:Write-through/no write-allocate,O:Non-cacheable I:Write-back/no write-allocate,O:Write-back/write-allocate I:Non-cacheable,O:Write-back/write-allocate I:Write-back/write-allocate,O:Write-back/write-allocate I:Write-through/no write-allocate,O:Write-back/write-allocate I:Write-back/no write-allocate,O:Write-through/no write-allocate I:Non-cacheable,O:Write-through/no write-allocate I:Write-back/write-allocate,O:Write-through/no write-allocate I:Write-through/no write-allocate,O:Write-through/no write-allocate I:Write-back/no write-allocate,O:Write-back/no write-allocate I:Non-cacheable,O:Write-back/no write-allocate I:Write-back/write-allocate,O:Write-back/no write-allocate I:Write-through/no write-allocate,O:Write-back/no write-allocate I:Write-back/no write-allocate" textline " " group c15:0x0016++0x00 saveout c15:0x26 %l 0x6 line.long 0x00 "RBAR6,Region Base Address Register 6" hexmask.long 0x00 5.--31. 0x20 " BA ,Base address" group c15:0x0216++0x00 saveout c15:0x26 %l 0x6 line.long 0x00 "RSER6,Region Size and Enable Register 6" bitfld.long 0x00 15. " SD ,Subregion 7 disable" "-,D" bitfld.long 0x00 14. " ,Subregion 6 disable" "-,D" bitfld.long 0x00 13. " ,Subregion 5 disable" "-,D" bitfld.long 0x00 12. " ,Subregion 4 disable" "-,D" bitfld.long 0x00 11. " ,Subregion 3 disable" "-,D" bitfld.long 0x00 10. " ,Subregion 2 disable" "-,D" bitfld.long 0x00 9. " ,Subregion 1 disable" "-,D" bitfld.long 0x00 8. " ,Subregion 0 disable" "-,D" bitfld.long 0x00 1.--5. " RS ,Region size" "Unpredictable,Unpredictable,Unpredictable,Unpredictable,32 bytes,64 bytes,128 bytes,256 bytes,512 bytes,1KB,2KB,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB" bitfld.long 0x00 0. " EN ,Enable" "Disabled,Enabled" group c15:0x0416++0x00 saveout c15:0x26 %l 0x6 line.long 0x00 "RACR6,Region Access Control Register 6" bitfld.long 0x00 12. " XN ,Execute never" "-,NoExec" bitfld.long 0x00 2. " S ,Share" "No,Yes" bitfld.long 0x00 8.--10. " AP ,Access permission" "None,Privileged,User read-only,Full,Reserved,Privileged read,Read-only,Reserved" bitfld.long 0x00 0.--1. 3.--5. " type ,Region type" "Strongly-ordered,Shareable Device,Outer and Inner write-through/no write-allocate,Outer and Inner write-back/no write-allocate,Outer and Inner Non-cacheable,00101,00110,Outer and Inner write-back/write-allocate,Non-shareable Device,01001,01010,01011,01100,01101,01110,01111,O:Non-cacheable I:Non-cacheable,O:Non-cacheable I:Write-back/write-allocate,O:Non-cacheable I:Write-through/no write-allocate,O:Non-cacheable I:Write-back/no write-allocate,O:Write-back/write-allocate I:Non-cacheable,O:Write-back/write-allocate I:Write-back/write-allocate,O:Write-back/write-allocate I:Write-through/no write-allocate,O:Write-back/write-allocate I:Write-back/no write-allocate,O:Write-through/no write-allocate I:Non-cacheable,O:Write-through/no write-allocate I:Write-back/write-allocate,O:Write-through/no write-allocate I:Write-through/no write-allocate,O:Write-through/no write-allocate I:Write-back/no write-allocate,O:Write-back/no write-allocate I:Non-cacheable,O:Write-back/no write-allocate I:Write-back/write-allocate,O:Write-back/no write-allocate I:Write-through/no write-allocate,O:Write-back/no write-allocate I:Write-back/no write-allocate" textline " " group c15:0x0016++0x00 saveout c15:0x26 %l 0x7 line.long 0x00 "RBAR7,Region Base Address Register 7" hexmask.long 0x00 5.--31. 0x20 " BA ,Base address" group c15:0x0216++0x00 saveout c15:0x26 %l 0x7 line.long 0x00 "RSER7,Region Size and Enable Register 7" bitfld.long 0x00 15. " SD ,Subregion 7 disable" "-,D" bitfld.long 0x00 14. " ,Subregion 6 disable" "-,D" bitfld.long 0x00 13. " ,Subregion 5 disable" "-,D" bitfld.long 0x00 12. " ,Subregion 4 disable" "-,D" bitfld.long 0x00 11. " ,Subregion 3 disable" "-,D" bitfld.long 0x00 10. " ,Subregion 2 disable" "-,D" bitfld.long 0x00 9. " ,Subregion 1 disable" "-,D" bitfld.long 0x00 8. " ,Subregion 0 disable" "-,D" bitfld.long 0x00 1.--5. " RS ,Region size" "Unpredictable,Unpredictable,Unpredictable,Unpredictable,32 bytes,64 bytes,128 bytes,256 bytes,512 bytes,1KB,2KB,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB" bitfld.long 0x00 0. " EN ,Enable" "Disabled,Enabled" group c15:0x0416++0x00 saveout c15:0x26 %l 0x7 line.long 0x00 "RACR7,Region Access Control Register 7" bitfld.long 0x00 12. " XN ,Execute never" "-,NoExec" bitfld.long 0x00 2. " S ,Share" "No,Yes" bitfld.long 0x00 8.--10. " AP ,Access permission" "None,Privileged,User read-only,Full,Reserved,Privileged read,Read-only,Reserved" bitfld.long 0x00 0.--1. 3.--5. " type ,Region type" "Strongly-ordered,Shareable Device,Outer and Inner write-through/no write-allocate,Outer and Inner write-back/no write-allocate,Outer and Inner Non-cacheable,00101,00110,Outer and Inner write-back/write-allocate,Non-shareable Device,01001,01010,01011,01100,01101,01110,01111,O:Non-cacheable I:Non-cacheable,O:Non-cacheable I:Write-back/write-allocate,O:Non-cacheable I:Write-through/no write-allocate,O:Non-cacheable I:Write-back/no write-allocate,O:Write-back/write-allocate I:Non-cacheable,O:Write-back/write-allocate I:Write-back/write-allocate,O:Write-back/write-allocate I:Write-through/no write-allocate,O:Write-back/write-allocate I:Write-back/no write-allocate,O:Write-through/no write-allocate I:Non-cacheable,O:Write-through/no write-allocate I:Write-back/write-allocate,O:Write-through/no write-allocate I:Write-through/no write-allocate,O:Write-through/no write-allocate I:Write-back/no write-allocate,O:Write-back/no write-allocate I:Non-cacheable,O:Write-back/no write-allocate I:Write-back/write-allocate,O:Write-back/no write-allocate I:Write-through/no write-allocate,O:Write-back/no write-allocate I:Write-back/no write-allocate" textline " " group c15:0x0016++0x00 saveout c15:0x26 %l 0x8 line.long 0x00 "RBAR8,Region Base Address Register 8" hexmask.long 0x00 5.--31. 0x20 " BA ,Base address" group c15:0x0216++0x00 saveout c15:0x26 %l 0x8 line.long 0x00 "RSER8,Region Size and Enable Register 8" bitfld.long 0x00 15. " SD ,Subregion 7 disable" "-,D" bitfld.long 0x00 14. " ,Subregion 6 disable" "-,D" bitfld.long 0x00 13. " ,Subregion 5 disable" "-,D" bitfld.long 0x00 12. " ,Subregion 4 disable" "-,D" bitfld.long 0x00 11. " ,Subregion 3 disable" "-,D" bitfld.long 0x00 10. " ,Subregion 2 disable" "-,D" bitfld.long 0x00 9. " ,Subregion 1 disable" "-,D" bitfld.long 0x00 8. " ,Subregion 0 disable" "-,D" bitfld.long 0x00 1.--5. " RS ,Region size" "Unpredictable,Unpredictable,Unpredictable,Unpredictable,32 bytes,64 bytes,128 bytes,256 bytes,512 bytes,1KB,2KB,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB" bitfld.long 0x00 0. " EN ,Enable" "Disabled,Enabled" group c15:0x0416++0x00 saveout c15:0x26 %l 0x8 line.long 0x00 "RACR8,Region Access Control Register 8" bitfld.long 0x00 12. " XN ,Execute never" "-,NoExec" bitfld.long 0x00 2. " S ,Share" "No,Yes" bitfld.long 0x00 8.--10. " AP ,Access permission" "None,Privileged,User read-only,Full,Reserved,Privileged read,Read-only,Reserved" bitfld.long 0x00 0.--1. 3.--5. " type ,Region type" "Strongly-ordered,Shareable Device,Outer and Inner write-through/no write-allocate,Outer and Inner write-back/no write-allocate,Outer and Inner Non-cacheable,00101,00110,Outer and Inner write-back/write-allocate,Non-shareable Device,01001,01010,01011,01100,01101,01110,01111,O:Non-cacheable I:Non-cacheable,O:Non-cacheable I:Write-back/write-allocate,O:Non-cacheable I:Write-through/no write-allocate,O:Non-cacheable I:Write-back/no write-allocate,O:Write-back/write-allocate I:Non-cacheable,O:Write-back/write-allocate I:Write-back/write-allocate,O:Write-back/write-allocate I:Write-through/no write-allocate,O:Write-back/write-allocate I:Write-back/no write-allocate,O:Write-through/no write-allocate I:Non-cacheable,O:Write-through/no write-allocate I:Write-back/write-allocate,O:Write-through/no write-allocate I:Write-through/no write-allocate,O:Write-through/no write-allocate I:Write-back/no write-allocate,O:Write-back/no write-allocate I:Non-cacheable,O:Write-back/no write-allocate I:Write-back/write-allocate,O:Write-back/no write-allocate I:Write-through/no write-allocate,O:Write-back/no write-allocate I:Write-back/no write-allocate" textline " " group c15:0x0016++0x00 saveout c15:0x26 %l 0x9 line.long 0x00 "RBAR9,Region Base Address Register 9" hexmask.long 0x00 5.--31. 0x20 " BA ,Base address" group c15:0x0216++0x00 saveout c15:0x26 %l 0x9 line.long 0x00 "RSER9,Region Size and Enable Register 9" bitfld.long 0x00 15. " SD ,Subregion 7 disable" "-,D" bitfld.long 0x00 14. " ,Subregion 6 disable" "-,D" bitfld.long 0x00 13. " ,Subregion 5 disable" "-,D" bitfld.long 0x00 12. " ,Subregion 4 disable" "-,D" bitfld.long 0x00 11. " ,Subregion 3 disable" "-,D" bitfld.long 0x00 10. " ,Subregion 2 disable" "-,D" bitfld.long 0x00 9. " ,Subregion 1 disable" "-,D" bitfld.long 0x00 8. " ,Subregion 0 disable" "-,D" bitfld.long 0x00 1.--5. " RS ,Region size" "Unpredictable,Unpredictable,Unpredictable,Unpredictable,32 bytes,64 bytes,128 bytes,256 bytes,512 bytes,1KB,2KB,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB" bitfld.long 0x00 0. " EN ,Enable" "Disabled,Enabled" group c15:0x0416++0x00 saveout c15:0x26 %l 0x9 line.long 0x00 "RACR9,Region Access Control Register 9" bitfld.long 0x00 12. " XN ,Execute never" "-,NoExec" bitfld.long 0x00 2. " S ,Share" "No,Yes" bitfld.long 0x00 8.--10. " AP ,Access permission" "None,Privileged,User read-only,Full,Reserved,Privileged read,Read-only,Reserved" bitfld.long 0x00 0.--1. 3.--5. " type ,Region type" "Strongly-ordered,Shareable Device,Outer and Inner write-through/no write-allocate,Outer and Inner write-back/no write-allocate,Outer and Inner Non-cacheable,00101,00110,Outer and Inner write-back/write-allocate,Non-shareable Device,01001,01010,01011,01100,01101,01110,01111,O:Non-cacheable I:Non-cacheable,O:Non-cacheable I:Write-back/write-allocate,O:Non-cacheable I:Write-through/no write-allocate,O:Non-cacheable I:Write-back/no write-allocate,O:Write-back/write-allocate I:Non-cacheable,O:Write-back/write-allocate I:Write-back/write-allocate,O:Write-back/write-allocate I:Write-through/no write-allocate,O:Write-back/write-allocate I:Write-back/no write-allocate,O:Write-through/no write-allocate I:Non-cacheable,O:Write-through/no write-allocate I:Write-back/write-allocate,O:Write-through/no write-allocate I:Write-through/no write-allocate,O:Write-through/no write-allocate I:Write-back/no write-allocate,O:Write-back/no write-allocate I:Non-cacheable,O:Write-back/no write-allocate I:Write-back/write-allocate,O:Write-back/no write-allocate I:Write-through/no write-allocate,O:Write-back/no write-allocate I:Write-back/no write-allocate" textline " " group c15:0x0016++0x00 saveout c15:0x26 %l 0xA line.long 0x00 "RBAR10,Region Base Address Register 10" hexmask.long 0x00 5.--31. 0x20 " BA ,Base address" group c15:0x0216++0x00 saveout c15:0x26 %l 0xA line.long 0x00 "RSER10,Region Size and Enable Register 10" bitfld.long 0x00 15. " SD ,Subregion 7 disable" "-,D" bitfld.long 0x00 14. " ,Subregion 6 disable" "-,D" bitfld.long 0x00 13. " ,Subregion 5 disable" "-,D" bitfld.long 0x00 12. " ,Subregion 4 disable" "-,D" bitfld.long 0x00 11. " ,Subregion 3 disable" "-,D" bitfld.long 0x00 10. " ,Subregion 2 disable" "-,D" bitfld.long 0x00 9. " ,Subregion 1 disable" "-,D" bitfld.long 0x00 8. " ,Subregion 0 disable" "-,D" bitfld.long 0x00 1.--5. " RS ,Region size" "Unpredictable,Unpredictable,Unpredictable,Unpredictable,32 bytes,64 bytes,128 bytes,256 bytes,512 bytes,1KB,2KB,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB" bitfld.long 0x00 0. " EN ,Enable" "Disabled,Enabled" group c15:0x0416++0x00 saveout c15:0x26 %l 0xA line.long 0x00 "RACR10,Region Access Control Register 10" bitfld.long 0x00 12. " XN ,Execute never" "-,NoExec" bitfld.long 0x00 2. " S ,Share" "No,Yes" bitfld.long 0x00 8.--10. " AP ,Access permission" "None,Privileged,User read-only,Full,Reserved,Privileged read,Read-only,Reserved" bitfld.long 0x00 0.--1. 3.--5. " type ,Region type" "Strongly-ordered,Shareable Device,Outer and Inner write-through/no write-allocate,Outer and Inner write-back/no write-allocate,Outer and Inner Non-cacheable,00101,00110,Outer and Inner write-back/write-allocate,Non-shareable Device,01001,01010,01011,01100,01101,01110,01111,O:Non-cacheable I:Non-cacheable,O:Non-cacheable I:Write-back/write-allocate,O:Non-cacheable I:Write-through/no write-allocate,O:Non-cacheable I:Write-back/no write-allocate,O:Write-back/write-allocate I:Non-cacheable,O:Write-back/write-allocate I:Write-back/write-allocate,O:Write-back/write-allocate I:Write-through/no write-allocate,O:Write-back/write-allocate I:Write-back/no write-allocate,O:Write-through/no write-allocate I:Non-cacheable,O:Write-through/no write-allocate I:Write-back/write-allocate,O:Write-through/no write-allocate I:Write-through/no write-allocate,O:Write-through/no write-allocate I:Write-back/no write-allocate,O:Write-back/no write-allocate I:Non-cacheable,O:Write-back/no write-allocate I:Write-back/write-allocate,O:Write-back/no write-allocate I:Write-through/no write-allocate,O:Write-back/no write-allocate I:Write-back/no write-allocate" textline " " group c15:0x0016++0x00 saveout c15:0x26 %l 0xB line.long 0x00 "RBAR11,Region Base Address Register 11" hexmask.long 0x00 5.--31. 0x20 " BA ,Base address" group c15:0x0216++0x00 saveout c15:0x26 %l 0xB line.long 0x00 "RSER11,Region Size and Enable Register 11" bitfld.long 0x00 15. " SD ,Subregion 7 disable" "-,D" bitfld.long 0x00 14. " ,Subregion 6 disable" "-,D" bitfld.long 0x00 13. " ,Subregion 5 disable" "-,D" bitfld.long 0x00 12. " ,Subregion 4 disable" "-,D" bitfld.long 0x00 11. " ,Subregion 3 disable" "-,D" bitfld.long 0x00 10. " ,Subregion 2 disable" "-,D" bitfld.long 0x00 9. " ,Subregion 1 disable" "-,D" bitfld.long 0x00 8. " ,Subregion 0 disable" "-,D" bitfld.long 0x00 1.--5. " RS ,Region size" "Unpredictable,Unpredictable,Unpredictable,Unpredictable,32 bytes,64 bytes,128 bytes,256 bytes,512 bytes,1KB,2KB,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB" bitfld.long 0x00 0. " EN ,Enable" "Disabled,Enabled" group c15:0x0416++0x00 saveout c15:0x26 %l 0xB line.long 0x00 "RACR11,Region Access Control Register 11" bitfld.long 0x00 12. " XN ,Execute never" "-,NoExec" bitfld.long 0x00 2. " S ,Share" "No,Yes" bitfld.long 0x00 8.--10. " AP ,Access permission" "None,Privileged,User read-only,Full,Reserved,Privileged read,Read-only,Reserved" bitfld.long 0x00 0.--1. 3.--5. " type ,Region type" "Strongly-ordered,Shareable Device,Outer and Inner write-through/no write-allocate,Outer and Inner write-back/no write-allocate,Outer and Inner Non-cacheable,00101,00110,Outer and Inner write-back/write-allocate,Non-shareable Device,01001,01010,01011,01100,01101,01110,01111,O:Non-cacheable I:Non-cacheable,O:Non-cacheable I:Write-back/write-allocate,O:Non-cacheable I:Write-through/no write-allocate,O:Non-cacheable I:Write-back/no write-allocate,O:Write-back/write-allocate I:Non-cacheable,O:Write-back/write-allocate I:Write-back/write-allocate,O:Write-back/write-allocate I:Write-through/no write-allocate,O:Write-back/write-allocate I:Write-back/no write-allocate,O:Write-through/no write-allocate I:Non-cacheable,O:Write-through/no write-allocate I:Write-back/write-allocate,O:Write-through/no write-allocate I:Write-through/no write-allocate,O:Write-through/no write-allocate I:Write-back/no write-allocate,O:Write-back/no write-allocate I:Non-cacheable,O:Write-back/no write-allocate I:Write-back/write-allocate,O:Write-back/no write-allocate I:Write-through/no write-allocate,O:Write-back/no write-allocate I:Write-back/no write-allocate" textline " " group c15:0x0016++0x00 saveout c15:0x26 %l 0xC line.long 0x00 "RBAR12,Region Base Address Register 12" hexmask.long 0x00 5.--31. 0x20 " BA ,Base address" group c15:0x0216++0x00 saveout c15:0x26 %l 0xC line.long 0x00 "RSER12,Region Size and Enable Register 12" bitfld.long 0x00 15. " SD ,Subregion 7 disable" "-,D" bitfld.long 0x00 14. " ,Subregion 6 disable" "-,D" bitfld.long 0x00 13. " ,Subregion 5 disable" "-,D" bitfld.long 0x00 12. " ,Subregion 4 disable" "-,D" bitfld.long 0x00 11. " ,Subregion 3 disable" "-,D" bitfld.long 0x00 10. " ,Subregion 2 disable" "-,D" bitfld.long 0x00 9. " ,Subregion 1 disable" "-,D" bitfld.long 0x00 8. " ,Subregion 0 disable" "-,D" bitfld.long 0x00 1.--5. " RS ,Region size" "Unpredictable,Unpredictable,Unpredictable,Unpredictable,32 bytes,64 bytes,128 bytes,256 bytes,512 bytes,1KB,2KB,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB" bitfld.long 0x00 0. " EN ,Enable" "Disabled,Enabled" group c15:0x0416++0x00 saveout c15:0x26 %l 0xC line.long 0x00 "RACR12,Region Access Control Register 12" bitfld.long 0x00 12. " XN ,Execute never" "-,NoExec" bitfld.long 0x00 2. " S ,Share" "No,Yes" bitfld.long 0x00 8.--10. " AP ,Access permission" "None,Privileged,User read-only,Full,Reserved,Privileged read,Read-only,Reserved" bitfld.long 0x00 0.--1. 3.--5. " type ,Region type" "Strongly-ordered,Shareable Device,Outer and Inner write-through/no write-allocate,Outer and Inner write-back/no write-allocate,Outer and Inner Non-cacheable,00101,00110,Outer and Inner write-back/write-allocate,Non-shareable Device,01001,01010,01011,01100,01101,01110,01111,O:Non-cacheable I:Non-cacheable,O:Non-cacheable I:Write-back/write-allocate,O:Non-cacheable I:Write-through/no write-allocate,O:Non-cacheable I:Write-back/no write-allocate,O:Write-back/write-allocate I:Non-cacheable,O:Write-back/write-allocate I:Write-back/write-allocate,O:Write-back/write-allocate I:Write-through/no write-allocate,O:Write-back/write-allocate I:Write-back/no write-allocate,O:Write-through/no write-allocate I:Non-cacheable,O:Write-through/no write-allocate I:Write-back/write-allocate,O:Write-through/no write-allocate I:Write-through/no write-allocate,O:Write-through/no write-allocate I:Write-back/no write-allocate,O:Write-back/no write-allocate I:Non-cacheable,O:Write-back/no write-allocate I:Write-back/write-allocate,O:Write-back/no write-allocate I:Write-through/no write-allocate,O:Write-back/no write-allocate I:Write-back/no write-allocate" textline " " group c15:0x0016++0x00 saveout c15:0x26 %l 0xD line.long 0x00 "RBAR13,Region Base Address Register 13" hexmask.long 0x00 5.--31. 0x20 " BA ,Base address" group c15:0x0216++0x00 saveout c15:0x26 %l 0xD line.long 0x00 "RSER13,Region Size and Enable Register 13" bitfld.long 0x00 15. " SD ,Subregion 7 disable" "-,D" bitfld.long 0x00 14. " ,Subregion 6 disable" "-,D" bitfld.long 0x00 13. " ,Subregion 5 disable" "-,D" bitfld.long 0x00 12. " ,Subregion 4 disable" "-,D" bitfld.long 0x00 11. " ,Subregion 3 disable" "-,D" bitfld.long 0x00 10. " ,Subregion 2 disable" "-,D" bitfld.long 0x00 9. " ,Subregion 1 disable" "-,D" bitfld.long 0x00 8. " ,Subregion 0 disable" "-,D" bitfld.long 0x00 1.--5. " RS ,Region size" "Unpredictable,Unpredictable,Unpredictable,Unpredictable,32 bytes,64 bytes,128 bytes,256 bytes,512 bytes,1KB,2KB,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB" bitfld.long 0x00 0. " EN ,Enable" "Disabled,Enabled" group c15:0x0416++0x00 saveout c15:0x26 %l 0xD line.long 0x00 "RACR13,Region Access Control Register 13" bitfld.long 0x00 12. " XN ,Execute never" "-,NoExec" bitfld.long 0x00 2. " S ,Share" "No,Yes" bitfld.long 0x00 8.--10. " AP ,Access permission" "None,Privileged,User read-only,Full,Reserved,Privileged read,Read-only,Reserved" bitfld.long 0x00 0.--1. 3.--5. " type ,Region type" "Strongly-ordered,Shareable Device,Outer and Inner write-through/no write-allocate,Outer and Inner write-back/no write-allocate,Outer and Inner Non-cacheable,00101,00110,Outer and Inner write-back/write-allocate,Non-shareable Device,01001,01010,01011,01100,01101,01110,01111,O:Non-cacheable I:Non-cacheable,O:Non-cacheable I:Write-back/write-allocate,O:Non-cacheable I:Write-through/no write-allocate,O:Non-cacheable I:Write-back/no write-allocate,O:Write-back/write-allocate I:Non-cacheable,O:Write-back/write-allocate I:Write-back/write-allocate,O:Write-back/write-allocate I:Write-through/no write-allocate,O:Write-back/write-allocate I:Write-back/no write-allocate,O:Write-through/no write-allocate I:Non-cacheable,O:Write-through/no write-allocate I:Write-back/write-allocate,O:Write-through/no write-allocate I:Write-through/no write-allocate,O:Write-through/no write-allocate I:Write-back/no write-allocate,O:Write-back/no write-allocate I:Non-cacheable,O:Write-back/no write-allocate I:Write-back/write-allocate,O:Write-back/no write-allocate I:Write-through/no write-allocate,O:Write-back/no write-allocate I:Write-back/no write-allocate" textline " " group c15:0x0016++0x00 saveout c15:0x26 %l 0xE line.long 0x00 "RBAR14,Region Base Address Register 14" hexmask.long 0x00 5.--31. 0x20 " BA ,Base address" group c15:0x0216++0x00 saveout c15:0x26 %l 0xE line.long 0x00 "RSER14,Region Size and Enable Register 14" bitfld.long 0x00 15. " SD ,Subregion 7 disable" "-,D" bitfld.long 0x00 14. " ,Subregion 6 disable" "-,D" bitfld.long 0x00 13. " ,Subregion 5 disable" "-,D" bitfld.long 0x00 12. " ,Subregion 4 disable" "-,D" bitfld.long 0x00 11. " ,Subregion 3 disable" "-,D" bitfld.long 0x00 10. " ,Subregion 2 disable" "-,D" bitfld.long 0x00 9. " ,Subregion 1 disable" "-,D" bitfld.long 0x00 8. " ,Subregion 0 disable" "-,D" bitfld.long 0x00 1.--5. " RS ,Region size" "Unpredictable,Unpredictable,Unpredictable,Unpredictable,32 bytes,64 bytes,128 bytes,256 bytes,512 bytes,1KB,2KB,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB" bitfld.long 0x00 0. " EN ,Enable" "Disabled,Enabled" group c15:0x0416++0x00 saveout c15:0x26 %l 0xE line.long 0x00 "RACR14,Region Access Control Register 14" bitfld.long 0x00 12. " XN ,Execute never" "-,NoExec" bitfld.long 0x00 2. " S ,Share" "No,Yes" bitfld.long 0x00 8.--10. " AP ,Access permission" "None,Privileged,User read-only,Full,Reserved,Privileged read,Read-only,Reserved" bitfld.long 0x00 0.--1. 3.--5. " type ,Region type" "Strongly-ordered,Shareable Device,Outer and Inner write-through/no write-allocate,Outer and Inner write-back/no write-allocate,Outer and Inner Non-cacheable,00101,00110,Outer and Inner write-back/write-allocate,Non-shareable Device,01001,01010,01011,01100,01101,01110,01111,O:Non-cacheable I:Non-cacheable,O:Non-cacheable I:Write-back/write-allocate,O:Non-cacheable I:Write-through/no write-allocate,O:Non-cacheable I:Write-back/no write-allocate,O:Write-back/write-allocate I:Non-cacheable,O:Write-back/write-allocate I:Write-back/write-allocate,O:Write-back/write-allocate I:Write-through/no write-allocate,O:Write-back/write-allocate I:Write-back/no write-allocate,O:Write-through/no write-allocate I:Non-cacheable,O:Write-through/no write-allocate I:Write-back/write-allocate,O:Write-through/no write-allocate I:Write-through/no write-allocate,O:Write-through/no write-allocate I:Write-back/no write-allocate,O:Write-back/no write-allocate I:Non-cacheable,O:Write-back/no write-allocate I:Write-back/write-allocate,O:Write-back/no write-allocate I:Write-through/no write-allocate,O:Write-back/no write-allocate I:Write-back/no write-allocate" textline " " group c15:0x0016++0x00 saveout c15:0x26 %l 0xF line.long 0x00 "RBAR15,Region Base Address Register 15" hexmask.long 0x00 5.--31. 0x20 " BA ,Base address" group c15:0x0216++0x00 saveout c15:0x26 %l 0xF line.long 0x00 "RSER15,Region Size and Enable Register 15" bitfld.long 0x00 15. " SD ,Subregion 7 disable" "-,D" bitfld.long 0x00 14. " ,Subregion 6 disable" "-,D" bitfld.long 0x00 13. " ,Subregion 5 disable" "-,D" bitfld.long 0x00 12. " ,Subregion 4 disable" "-,D" bitfld.long 0x00 11. " ,Subregion 3 disable" "-,D" bitfld.long 0x00 10. " ,Subregion 2 disable" "-,D" bitfld.long 0x00 9. " ,Subregion 1 disable" "-,D" bitfld.long 0x00 8. " ,Subregion 0 disable" "-,D" bitfld.long 0x00 1.--5. " RS ,Region size" "Unpredictable,Unpredictable,Unpredictable,Unpredictable,32 bytes,64 bytes,128 bytes,256 bytes,512 bytes,1KB,2KB,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB" bitfld.long 0x00 0. " EN ,Enable" "Disabled,Enabled" group c15:0x0416++0x00 saveout c15:0x26 %l 0xF line.long 0x00 "RACR15,Region Access Control Register 15" bitfld.long 0x00 12. " XN ,Execute never" "-,NoExec" bitfld.long 0x00 2. " S ,Share" "No,Yes" bitfld.long 0x00 8.--10. " AP ,Access permission" "None,Privileged,User read-only,Full,Reserved,Privileged read,Read-only,Reserved" bitfld.long 0x00 0.--1. 3.--5. " type ,Region type" "Strongly-ordered,Shareable Device,Outer and Inner write-through/no write-allocate,Outer and Inner write-back/no write-allocate,Outer and Inner Non-cacheable,00101,00110,Outer and Inner write-back/write-allocate,Non-shareable Device,01001,01010,01011,01100,01101,01110,01111,O:Non-cacheable I:Non-cacheable,O:Non-cacheable I:Write-back/write-allocate,O:Non-cacheable I:Write-through/no write-allocate,O:Non-cacheable I:Write-back/no write-allocate,O:Write-back/write-allocate I:Non-cacheable,O:Write-back/write-allocate I:Write-back/write-allocate,O:Write-back/write-allocate I:Write-through/no write-allocate,O:Write-back/write-allocate I:Write-back/no write-allocate,O:Write-through/no write-allocate I:Non-cacheable,O:Write-through/no write-allocate I:Write-back/write-allocate,O:Write-through/no write-allocate I:Write-through/no write-allocate,O:Write-through/no write-allocate I:Write-back/no write-allocate,O:Write-back/no write-allocate I:Non-cacheable,O:Write-back/no write-allocate I:Write-back/write-allocate,O:Write-back/no write-allocate I:Write-through/no write-allocate,O:Write-back/no write-allocate I:Write-back/no write-allocate" textline " " tree.end tree.end width 0x9 tree "TCM Control and Configuration" rgroup.long c15:0x200++0x00 line.long 0x00 "TCMTR,TCM Type Register" bitfld.long 0x00 16.--18. " BTCM ,Number of BTCMs implemented" "0,1,2,3,4,5,6,7" bitfld.long 0x00 0.--2. " ATCM ,Number of ATCMs implemented" "0,1,2,3,4,5,6,7" group.long c15:0x019++0x00 line.long 0x00 "BTCMRR,BTCM Region Register" hexmask.long 0x00 12.--31. 0x1000 " BA ,Base address (physical address)" bitfld.long 0x00 2.--6. " SIZE ,Size of instruction TCM on reads" "None,Reserved,Reserved,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16M,32M,64M,128M,256M,512M,1G,2G,4G,?..." bitfld.long 0x00 0. " EN ,Enable instruction TCM" "Disabled,Enabled" group.long c15:0x119++0x00 line.long 0x00 "ATCMRR,ATCM Region Register" hexmask.long 0x00 12.--31. 0x1000 " BA ,Base address (physical address)" bitfld.long 0x00 2.--6. " SIZE ,Size of instruction TCM on reads" "None,Reserved,Reserved,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16M,32M,64M,128M,256M,512M,1G,2G,4G,?..." bitfld.long 0x00 0. " EN ,Enable instruction TCM" "Disabled,Enabled" rgroup.long c15:0x29++0x00 line.long 0x00 "TCMSEL,TCM Selection Register" textline " " group.long c15:0x10f++0x00 line.long 0x00 "NAXIPIRR,Normal AXI Peripheral Interface Region Register" hexmask.long 0x00 12.--31. 0x1000 " BA ,Base address of the interface" bitfld.long 0x00 2.--6. " SIZE ,Size of the interface configured during integration" "None,Reserved,Reserved,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16M,32M,64M,128M,256M,512M,1G,2G,4G,?..." bitfld.long 0x00 0. " EN ,Interface enable" "Disabled,Enabled" group.long c15:0x20f++0x00 line.long 0x00 "VAXIPIRR,Virtual AXI Peripheral Interface Region Register" hexmask.long 0x00 12.--31. 0x1000 " BA ,Base address of the interface" bitfld.long 0x00 2.--6. " SIZE ,Size of the interface configured during integration" "None,Reserved,Reserved,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16M,32M,64M,128M,256M,512M,1G,2G,4G,?..." bitfld.long 0x00 0. " EN ,Interface enable" "Disabled,Enabled" group.long c15:0x30f++0x00 line.long 0x00 "AHBPIRR,AHB Peripheral Interface Region Register" hexmask.long 0x00 12.--31. 0x1000 " BA ,Base address of the interface" bitfld.long 0x00 2.--6. " SIZE ,Size of the interface configured during integration" "None,Reserved,Reserved,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16M,32M,64M,128M,256M,512M,1G,2G,4G,?..." bitfld.long 0x00 0. " EN ,Interface enable" "Disabled,Enabled" tree.end width 0xC tree "Cache Control and Configuration" rgroup.long c15:0x1100++0x00 line.long 0x00 "CLIDR,Cache Level ID Register" bitfld.long 0x00 27.--29. " LOU ,Level of Unification" "0,1,2,3,4,5,6,7" 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. " CL8 ,Cache Level (CL) 8" "0,1,2,3,4,5,6,7" bitfld.long 0x00 18.--20. " CL7 ,Cache Level (CL) 7" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 15.--17. " CL6 ,Cache Level (CL) 6" "0,1,2,3,4,5,6,7" bitfld.long 0x00 12.--14. " CL5 ,Cache Level (CL) 5" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 9.--11. " CL4 ,Cache Level (CL) 4" "0,1,2,3,4,5,6,7" bitfld.long 0x00 6.--8. " CL3 ,Cache Level (CL) 3" "0,1,2,3,4,5,6,7" textline " " bitfld.long 0x00 3.--5. " CL2 ,Cache Level (CL) 2" "0,1,2,3,4,5,6,7" bitfld.long 0x00 0.--2. " CL1 ,Cache Level (CL) 1" "0,1,2,3,4,5,6,7" rgroup.long c15:0x1700++0x00 line.long 0x00 "AIDR,Auxiliary ID Register" rgroup.long c15:0x1000++0x00 line.long 0x00 "CCSIDR,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. " NUMSETS ,Number of sets" hexmask.long.word 0x00 3.--12. 1. " ASSOCIATIVITY ,Associativity" textline " " bitfld.long 0x00 0.--2. " LINESIZE ,Number of words in each cache line" "0,1,2,3,4,5,6,7" group.long c15:0x2000++0x00 line.long 0x0 "CSSELR,Cache Size Selection Register" bitfld.long 0x00 1.--3. " LEVEL ,Cache level to select" "0,1,2,3,4,5,6,7" bitfld.long 0x00 0. " IND ,Instruction or data or unified cache to use" "Data/unified,Instruction" group.long c15:0x03f++0x00 line.long 0x00 "CFLR,Correctable Fault Location Register" bitfld.long 0x00 26.--29. " WAY ,Way of the error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 24.--25. " SIDE ,Source of the error" "0,1,2,3" textline " " hexmask.long.word 0x00 5.--13. 1. " INDEX ,index of the location where the error occurred" bitfld.long 0x00 0.--1. " TYPE ,Type of access that caused the error" "Instruction cache,Data cache,Reserved,ACP" group.long c15:0x5f++0x00 line.long 0x00 "IADCR,Invalidate All Data Cache Register" bitfld.long 0x00 30.--31. " WAY ,Cache way to invalidate or clean" "0,1,2,3" hexmask.long.byte 0x00 5.--10. 1. " SET ,Cache set to invalidate or clean" group.long c15:0xef++0x00 line.long 0x00 "CSOR,Cache Size Override Register" bitfld.long 0x00 4.--7. " Dcache ,Validation data cache size" "4kB,8kB,Reserved,16kB,Reserved,Reserved,Reserved,32kB,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,64kB" bitfld.long 0x00 0.--3. " Icache ,Validation instruction cache size" "4kB,8kB,Reserved,16kB,Reserved,Reserved,Reserved,32kB,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,64kB" tree.end width 12. tree "System Performance Monitor" group.long c15:0xc9++0x00 line.long 0x00 "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 PMCCNTR when prohibited" "No,Yes" textline " " bitfld.long 0x00 4. " X ,Export enable" "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 ,Event counter reset" "No action,Reset" textline " " bitfld.long 0x00 0. " E ,Enable" "Disabled,Enabled" group.long c15:0x1c9++0x00 line.long 0x00 "PMCNTENSET,Count Enable Set Register" eventfld.long 0x00 31. " C ,CCNT Enabled / Enable / Disable CCNT" "Disabled,Enabled" eventfld.long 0x00 2. " P2 ,PMN2 Enabled / Enable / Disable counter" "Disabled,Enabled" eventfld.long 0x00 1. " P1 ,PMN1 Enabled / Enable / Disable counter" "Disabled,Enabled" eventfld.long 0x00 0. " P0 ,PMN0 Enabled / Enable / Disable counter" "Disabled,Enabled" group.long c15:0x2c9++0x00 line.long 0x0 "PMCNTENCLR,Count Enable Clear Register" eventfld.long 0x00 31. " C ,CCNT Enabled / Enable / Disable CCNT" "Disabled,Enabled" eventfld.long 0x00 2. " P2 ,PMN2 Enabled / Enable / Disable counter" "Disabled,Enabled" eventfld.long 0x00 1. " P1 ,PMN1 Enabled / Enable / Disable counter" "Disabled,Enabled" eventfld.long 0x00 0. " P0 ,PMN0 Enabled / Enable / Disable counter" "Disabled,Enabled" group.long c15:0x3c9++0x00 line.long 0x0 "PMOVSR,Overflow Flag Status Register" eventfld.long 0x00 31. " C ,CCNT overflowed" "No overflow,Overflow" eventfld.long 0x00 2. " P2 ,PMN2 overflowed" "No overflow,Overflow" eventfld.long 0x00 1. " P1 ,PMN1 overflowed" "No overflow,Overflow" eventfld.long 0x00 0. " P0 ,PMN0 overflowed" "No overflow,Overflow" group.long c15:0x4c9++0x00 line.long 0x0 "PMSWINC,Software Increment Register" eventfld.long 0x00 2. " P2 ,Increment PMN2" "No action,Increment" eventfld.long 0x00 1. " P1 ,Increment PMN1" "No action,Increment" eventfld.long 0x00 0. " P0 ,Increment PMN0" "No action,Increment" group.long c15:0x01d9++0x00 line.long 0x00 "PMXEVTYPER,Event Type Selection Register" hexmask.long.byte 0x00 0.--7. 1. " SEL ,Event number selected" group.long c15:0x02d9++0x00 line.long 0x00 "PMXEVCNTR,Event Count Register" group.long c15:0x5c9++0x00 line.long 0x00 "PMSELR,Performance Counter Selection Register" bitfld.long 0x00 0.--4. " SEL ,Counter select" "0,1,2,?..." group.long c15:0xd9++0x00 line.long 0x00 "PMCCNTR,Cycle Count Register" group.long c15:0x01d9++0x00 saveout c15:0x5C9 %l 0x0 line.long 0x00 "ESR0,Event Selection Register 0" hexmask.long.byte 0x00 0.--7. 1. " SEL ,Event Selection" group.long c15:0x02d9++0x00 saveout c15:0x5C9 %l 0x0 line.long 0x00 "PMCR0,Performance Monitor Count Register 0" hexmask.long 0x00 0.--31. 1. " PMC ,Performance Monitor Count" group.long c15:0x01d9++0x00 saveout c15:0x5C9 %l 0x1 line.long 0x00 "ESR1,Event Selection Register 1" hexmask.long.byte 0x00 0.--7. 1. " SEL ,Event Selection" group.long c15:0x02d9++0x00 saveout c15:0x5C9 %l 0x1 line.long 0x00 "PMCR1,Performance Monitor Count Register 1" hexmask.long 0x00 0.--31. 1. " PMC ,Performance Monitor Count" group.long c15:0x01d9++0x00 saveout c15:0x5C9 %l 0x2 line.long 0x00 "ESR2,Event Selection Register 2" hexmask.long.byte 0x00 0.--7. 1. " SEL ,Event Selection" group.long c15:0x02d9++0x00 saveout c15:0x5C9 %l 0x2 line.long 0x00 "PMCR2,Performance Monitor Count Register 2" hexmask.long 0x00 0.--31. 1. " PMC ,Performance Monitor Count" group.long c15:0xe9++0x00 line.long 0x00 "PMUSERENR,User Enable Register" bitfld.long 0x00 0. " EN ,User mode access to performance monitor and validation registers" "Not allowed,Allowed" group.long c15:0x1e9++0x00 line.long 0x00 "PMINTENSET,Interrupt Enable Set Register" eventfld.long 0x00 31. " C ,Interrupt on CCNT Overflow Enabled / Enable / Disable Interrupt" "Disabled,Enabled" eventfld.long 0x00 2. " P2 ,Interrupt on PMN2 Overflow Enabled / Enable / Disable Interrupt" "Disabled,Enabled" eventfld.long 0x00 1. " P1 ,Interrupt on PMN1 Overflow Enabled / Enable / Disable Interrupt" "Disabled,Enabled" eventfld.long 0x00 0. " P0 ,Interrupt on PMN0 Overflow Enabled / Enable / Disable Interrupt" "Disabled,Enabled" group.long c15:0x2e9++0x00 line.long 0x00 "PMINTENCLR,Interrupt Enable Clear Register" eventfld.long 0x00 31. " C ,Interrupt on CCNT Overflow Enabled / Enable / Disable Interrupt" "Disabled,Enabled" eventfld.long 0x00 2. " P2 ,Interrupt on PMN2 Overflow Enabled / Enable / Disable Interrupt" "Disabled,Enabled" eventfld.long 0x00 1. " P1 ,Interrupt on PMN1 Overflow Enabled / Enable / Disable Interrupt" "Disabled,Enabled" eventfld.long 0x00 0. " P0 ,Interrupt on PMN0 Overflow Enabled / Enable / Disable Interrupt" "Disabled,Enabled" tree "Validation Registers" group.long c15:0x01f++0x00 line.long 0x00 "IRQESR,nVAL IRQ Enable Set Register" bitfld.long 0x00 31. " C ,CCNT overflow IRQ request" "Not requested,Requested" bitfld.long 0x00 2. " P2 ,PMXEVCNTR2 overflow IRQ request" "Not requested,Requested" bitfld.long 0x00 1. " P1 ,PMXEVCNTR1 overflow IRQ request" "Not requested,Requested" bitfld.long 0x00 0. " P0 ,PMXEVCNTR0 overflow IRQ request" "Not requested,Requested" group.long c15:0x11f++0x00 line.long 0x00 "FIQESR,nVAL FIQ Enable Set Register" bitfld.long 0x00 31. " C ,CCNT overflow FIQ request" "Not requested,Requested" bitfld.long 0x00 2. " P2 ,PMXEVCNTR2 overflow FIQ request" "Not requested,Requested" bitfld.long 0x00 1. " P1 ,PMXEVCNTR1 overflow FIQ request" "Not requested,Requested" bitfld.long 0x00 0. " P0 ,PMXEVCNTR0 overflow FIQ request" "Not requested,Requested" group.long c15:0x21f++0x00 line.long 0x00 "RESR,nVAL Reset Enable Set Register" bitfld.long 0x00 31. " C ,CCNT overflow reset request" "Not requested,Requested" bitfld.long 0x00 2. " P2 ,PMXEVCNTR2 overflow reset request" "Not requested,Requested" bitfld.long 0x00 1. " P1 ,PMXEVCNTR1 overflow reset request" "Not requested,Requested" bitfld.long 0x00 0. " P0 ,PMXEVCNTR0 overflow reset request" "Not requested,Requested" group.long c15:0x31f++0x00 line.long 0x00 "RESR,VAL Debug Request Enable Set Register" bitfld.long 0x00 31. " C ,CCNT overflow debug request" "Not requested,Requested" bitfld.long 0x00 2. " P2 ,PMXEVCNTR2 overflow debug request" "Not requested,Requested" bitfld.long 0x00 1. " P1 ,PMXEVCNTR1 overflow debug request" "Not requested,Requested" bitfld.long 0x00 0. " P0 ,PMXEVCNTR0 overflow debug request" "Not requested,Requested" group.long c15:0x41f++0x00 line.long 0x00 "IRQECR,VAL IRQ Enable Clear Register" eventfld.long 0x00 31. " C ,CCNT overflow IRQ request" "Not requested,Requested" eventfld.long 0x00 2. " P2 ,PMXEVCNTR2 overflow IRQ request" "Not requested,Requested" eventfld.long 0x00 1. " P1 ,PMXEVCNTR1 overflow IRQ request" "Not requested,Requested" eventfld.long 0x00 0. " P0 ,PMXEVCNTR0 overflow IRQ request" "Not requested,Requested" group.long c15:0x51f++0x00 line.long 0x00 "FIQECR,VAL FIQ Enable Clear Register" eventfld.long 0x00 31. " C ,CCNT overflow FIQ request" "Not requested,Requested" eventfld.long 0x00 2. " P2 ,PMXEVCNTR2 overflow FIQ request" "Not requested,Requested" eventfld.long 0x00 1. " P1 ,PMXEVCNTR1 overflow FIQ request" "Not requested,Requested" eventfld.long 0x00 0. " P0 ,PMXEVCNTR0 overflow FIQ request" "Not requested,Requested" group.long c15:0x61f++0x00 line.long 0x00 "RECR,nVAL Reset Enable Clear Register" eventfld.long 0x00 31. " C ,CCNT overflow reset request" "Not requested,Requested" eventfld.long 0x00 2. " P2 ,PMXEVCNTR2 overflow reset request" "Not requested,Requested" eventfld.long 0x00 1. " P1 ,PMXEVCNTR1 overflow reset request" "Not requested,Requested" eventfld.long 0x00 0. " P0 ,PMXEVCNTR0 overflow reset request" "Not requested,Requested" group.long c15:0x71f++0x00 line.long 0x00 "DRECR,VAL Debug Request Enable Clear Register" eventfld.long 0x00 31. " C ,CCNT overflow debug request" "Not requested,Requested" eventfld.long 0x00 2. " P2 ,PMXEVCNTR2 overflow debug request" "Not requested,Requested" eventfld.long 0x00 1. " P1 ,PMXEVCNTR1 overflow debug request" "Not requested,Requested" eventfld.long 0x00 0. " P0 ,PMXEVCNTR0 overflow debug request" "Not requested,Requested" tree.end tree.end width 11. width 18. tree "Debug Registers" tree "Processor Identifier Registers" rgroup.long c14:832.++0x00 line.long 0x00 "MIDR,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.long c14:833.++0x00 line.long 0x00 "CACHETYPE,Cache Type Register" 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,?..." bitfld.long 0x00 14.--15. " L1_IPOLICY ,VIPT Instruction Cache Support" "Reserved,Reserved,Supported,?..." textline " " 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.long c14:834.++0x00 line.long 0x00 "TCMTR,TCM Type Register" group.long c14:835.++0x00 line.long 0x00 "AMIDR,Alias of MIDR" rgroup.long c14:836.++0x00 line.long 0x00 "MPUTR,MPU Type Register" rgroup.long c14:837.++0x00 line.long 0x00 "MPIDR,Multiprocessor Affinity Register" group.long c14:838.++0x00 line.long 0x00 "AMIDR0,Alias of MIDR" group.long c14:839.++0x00 line.long 0x00 "AMIDR1,Alias of MIDR" rgroup.long c14:840.++0x00 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" "Not 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.long c14:841.++0x00 line.long 0x00 "ID_PFR1,Processor Feature Register 1" bitfld.long 0x00 8.--11. " MPM ,Microcontroller Programmer's Model Support" "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.long c14:842.++0x00 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" "Not supported,?..." bitfld.long 0x00 0.--3. " CDM_CB ,Coprocessor Debug Model Support" "Not supported,?..." rgroup.long c14:843.++0x00 line.long 0x00 "ID_AFR0,Auxiliary Feature Register 0" rgroup.long c14:844.++0x00 line.long 0x00 "ID_MMFR0,Processor Feature Register 0" bitfld.long 0x00 28.--31. " IT ,Instruction Type Support" "Reserved,Reserved,Reserved,Supported,?..." bitfld.long 0x00 24.--27. " FCSE ,Fast Context Switch Memory Mappings Support" "Reserved,Supported,?..." textline " " 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. " CC_PLEA ,Cache Coherency With PLE Agent/Shared Memory Support" "Not supported,?..." bitfld.long 0x00 8.--11. " CC_CPUA ,Cache Coherency Support With CPU Agent/Shared Memory Support" "Not supported,?..." textline " " bitfld.long 0x00 4.--7. " PMSA ,Physical Memory System Architecture (PMSA) Support" "Not supported,?..." bitfld.long 0x00 0.--3. " VMSA ,Virtual Memory System Architecture (VMSA) Support" "Reserved,Reserved,Reserved,Supported,?..." rgroup.long c14:845.++0x00 line.long 0x00 "ID_MMFR1,Processor Feature Register 1" bitfld.long 0x00 28.--31. " BTB ,Branch Target Buffer Support" "Reserved,Reserved,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" "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" "Supported,?..." textline " " bitfld.long 0x00 4.--7. " L1UCLMOMVA ,L1 Cache Line Maintenance Operations by MVA/Unified Architecture Support" "Not supported,?..." bitfld.long 0x00 0.--3. " L1HCLMOMVA ,L1 Cache Line Maintenance Operations by MVA/Harvard Architecture" "Supported,?..." rgroup.long c14:846.++0x00 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" "Not supported,?..." textline " " bitfld.long 0x00 12.--15. " HTLBMO ,TLB Maintenance Operations/Harvard Architecture Support" "Reserved,Reserved,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 c14:847.++0x00 line.long 0x00 "ID_MMFR3,Processor Feature Register 3" 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 by MVA/Clean by MVA/Invalidate and Clean by MVA/Invalidate All Support" "Reserved,Supported,?..." rgroup.long c14:848.++0x00 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. " AI ,Atomic Load and Store Instructions Support" "Reserved,Supported,?..." rgroup.long c14:849.++0x00 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 ,Instructions That Branch Between ARM and Thumb Code Support" "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 ,Sign or Zero 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 c14:850.++0x00 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" "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 c14:851.++0x00 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,Reserved,Supported,?..." textline " " bitfld.long 0x00 12.--15. " SPI ,Synchronization Primitive Instructions Support" "Reserved,Reserved,Supported,?..." bitfld.long 0x00 8.--11. " SWII ,SWI 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 c14:852.++0x00 line.long 0x00 "ID_ISAR4,ISA Feature Register 4" bitfld.long 0x00 20.--23. " EI ,Exclusive Instructions Support" "Reserved,Supported,?..." bitfld.long 0x00 16.--19. " BI ,Barrier Instructions Support" "Reserved,Supported,?..." textline " " bitfld.long 0x00 12.--15. " SMII ,SMI 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 c14:853.++0x00 line.long 0x00 "ID_ISAR5,ISA Feature Register 5" tree.end width 15. tree "Coresight Management Registers" group.long c14:960.++0x00 line.long 0x00 "DBGITCTRL,Integration Mode Control Register" bitfld.long 0x00 0. " INTMODE ,Processor integration mode" "Normal,Integration" group.long c14:1000.++0x00 line.long 0x00 "DBGCLAIMSET,Claim Tag Set Register" hexmask.long.byte 0x00 0.--7. 1. " CTS ,Claim tag set" group.long c14:1001.++0x00 line.long 0x00 "DBGCLAIMCLR,Claim Tag Clear Register" hexmask.long.byte 0x00 0.--7. 1. " CTC ,Claim tag clear" wgroup.long c14:1004.++0x00 line.long 0x00 "DBGLAR,Lock Access Register" rgroup.long c14:1005.++0x00 line.long 0x00 "DBGLSR,Lock Status Register" bitfld.long 0x00 2. " 32BA ,Indicate that a 32-bit access is required to write the key to the DBGLAR" "No,Yes" textline " " bitfld.long 0x00 1. " LB ,Lock bit" "Not locked,Locked" bitfld.long 0x00 0. " LIB ,Lock implemented bit" "Not locked,Locked" rgroup.long c14:1006.++0x00 line.long 0x00 "DBGAUTHSTATUS,Authentication Status Register" bitfld.long 0x00 7. " SNDFI ,Secure non-invasive debug features implemented" "Not implemented,Implemented" bitfld.long 0x00 6. " SNDFE ,Secure non-invasive debug features enable" "Disabled,Enabled" textline " " bitfld.long 0x00 5. " SIDFI ,Secure invasive debug features implemented" "Not implemented,Implemented" bitfld.long 0x00 4. " SIDFE ,Secure invasive debug features enabled" "Disabled,Enabled" rgroup.long c14:1011.++0x00 line.long 0x00 "DBGDEVTYPE,Device Type Register" hexmask.long.byte 0x00 4.--7. 1. " SUBTYPE ,Subtype" hexmask.long.byte 0x00 0.--3. 1. " MAIN_CLASS ,Main class" tree.end textline " " width 12. rgroup.long c14:0.++0x0 line.long 0x0 "DBGDIDR,Debug ID Register" bitfld.long 0x0 28.--31. " WRP ,Number of Watchpoint Register Pairs" "1,2,3,4,5,6,7,8,?..." bitfld.long 0x0 24.--27. " BRP ,Number of Breakpoint Register Pairs" "1,2,3,4,5,6,7,8,?..." textline " " 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" hexmask.long.byte 0x0 16.--19. 1. " VERSION ,Debug Architecture Version" textline " " bitfld.long 0x0 15. " DEVID ,Debug Device ID" "Low,High" bitfld.long 0x0 14. " NSUHD ,Secure User halting debug-mode" "Low,High" textline " " bitfld.long 0x0 13. " PCSR ,PC Sample register implemented" "Low,High" bitfld.long 0x0 12. " SE ,Security Extensions implemented" "Low,High" textline " " hexmask.long.byte 0x0 4.--7. 1. " VARIANT ,Implementation-defined Variant Number" hexmask.long.byte 0x0 0.--3. 1. " REVISION ,Implementation-defined Revision Number" group.long c14:34.++0x0 line.long 0x00 "DBGDSCREXT,Debug Status and Control Register" bitfld.long 0x00 30. " RXFULL ,DBGDTRRX Register full" "Empty,Full" bitfld.long 0x00 29. " TXFULL ,DBGDTRTX Register full" "Empty,Full" textline " " bitfld.long 0x00 25. " PIPEADV ,PIPEADV Processor Idle flag" "Not idle,Idle" bitfld.long 0x00 24. " INSTRCOMPL_L ,Latched instruction complete" "Not completed,Completed" textline " " bitfld.long 0x00 20.--21. " EXTDCCMODE ,External DCC access mode field" "Non-blocking,Stall,Fast,?..." bitfld.long 0x00 19. " ADADISCARD ,Asynchronous Data Aborts Discarded bit" "Normal,Abort" bitfld.long 0x00 18. " NS ,Non-secure status bit" "Secure,Non-secure" textline " " bitfld.long 0x00 17. " SPNIDDIS ,Secure Privileged Non-Invasive Debug Disable" "No,Yes" bitfld.long 0x00 16. " SPIDDIS ,Secure Privileged Invasive Debug Disable" "No,Yes" bitfld.long 0x00 15. " MDBGEN ,Monitor debug-mode enable" "Disabled,Enabled" textline " " bitfld.long 0x00 14. " HDBGEN ,Halting debug-mode" "Disabled,Enabled" bitfld.long 0x00 13. " ITREN ,Execute ARM instruction enable" "Disabled,Enabled" bitfld.long 0x00 12. " UDCCDIS ,User mode access to Communications Channel disable" "No,Yes" textline " " bitfld.long 0x00 11. " INTDIS ,Interrupt disable" "No,Yes" bitfld.long 0x00 10. " DBGACK ,Force debug acknowledge" "Normal,Forced" textline " " bitfld.long 0x00 8. " UND_L ,Sticky undefined bit" "Not occurred,Occurred" bitfld.long 0x00 7. " ADABORT ,Asynchronous data abort" "Not aborted,Aborted" bitfld.long 0x00 6. " SDABORT ,Synchronous data abort" "Not aborted,Aborted" textline " " bitfld.long 0x00 2.--5. " MOE ,Method of debug entry field" "Halt Request,Breakpoint,Reserved,BKPT Instruction,External Debug Request,Reserved,Reserved,Reserved,Reserved,Reserved,Synchronous Watchpoint,?..." bitfld.long 0x00 1. " RESTARTED ,Processor restarted" "Pending,Exited" bitfld.long 0x00 0. " HALTED ,Processor halted" "Non-debug,Debug" group.long c14:0x7++0x0 line.long 0x00 "DBGVCR,Debug Vector Catch register" bitfld.long 0x00 7. " FIQVCE_S ,FIQ vector catch in Secure state" "Disabled,Enabled" textline " " bitfld.long 0x00 6. " IRQVCE_S ,IRQ vector catch in Secure state" "Disabled,Enabled" bitfld.long 0x00 4. " DAVCE_S ,Data Abort vector catch in Secure state" "Disabled,Enabled" textline " " bitfld.long 0x00 3. " PAVCE_S ,Prefetch Abort vector catch in Secure state" "Disabled,Enabled" bitfld.long 0x00 2. " SVCVCE_S ,SVC vector catch in Secure state" "Disabled,Enabled" textline " " bitfld.long 0x00 1. " UIVCE_S ,Undefined instruction vector catch in Secure state" "Disabled,Enabled" bitfld.long 0x00 0. " RVCE ,Reset vector catch enable" "Disabled,Enabled" hgroup.long c14:32.++0x0 hide.long 0x00 "DTRRX,Target -> Host Data Transfer Register" in group.long c14:35.++0x00 line.long 0x0 "DTRTX,Host -> Target Data Transfer Register" hexmask.long 0x00 0.--31. 1. " HTD ,Host -> target data" group.long c14:10.++0x0 line.long 0x00 "DBGDSCCR,Debug State Cache Control Register" bitfld.long 0x00 2. " NWT ,Write through disable" "No,Yes" bitfld.long 0x00 1. " NIL ,L1 instruction cache line-fills disable" "No,Yes" textline " " bitfld.long 0x00 0. " NDL ,L1 data cache line-fills disable" "No,Yes" wgroup.long c14:33.++0x0 line.long 0x00 "DBGITR,Instruction Transfer Register" wgroup.long c14:36.++0x0 line.long 0x00 "DBGDRCR,Debug Run Control Register" bitfld.long 0x00 4. " CMR ,Cancel memory requests" "Not cancel,Cancel" bitfld.long 0x00 3. " CSPA ,Clear Sticky Pipeline Advance bit" "No effect,Clear" textline " " bitfld.long 0x00 2. " CSE ,Clear Sticky Exceptions bits" "No effect,Clear" bitfld.long 0x00 1. " RR ,Restart request" "No effect,Restart" textline " " bitfld.long 0x00 0. " HR ,Halt request" "No effect,Halt" textline " " rgroup.long c14:193.++0x0 line.long 0x00 "DBGOSLSR,Operating System Lock Status Register" bitfld.long 0x00 1. " LOCK_IMP_BIT ,Indicate whether the OS lock functionality is implemented" "Not implemented,Implemented" group.long c14:196.++0x0 line.long 0x00 "DBGPRCR,Device Power-down and Reset Control Register" bitfld.long 0x00 2. " HCWR ,Hold core warm reset" "Not held,Held" textline " " bitfld.long 0x00 1. " CWRR ,Reset reguest" "Not requested,Requested" bitfld.long 0x00 0. " CORENPDRQ ,Core no powerdown request" "Power-down,Emulate" rgroup.long c14:197.++0x0 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" tree.end width 7. tree "Breakpoint Registers" group.long c14:64.++0x0 line.long 0x00 "BVR0,Breakpoint Value 0 Register" hexmask.long 0x00 0.--31. 1. " BV0 ,Breakpoint Value 0" group.long c14:80.++0x0 line.long 0x00 "BCR0,Breakpoint Control 0 Register" 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 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.long c14:65.++0x0 line.long 0x00 "BVR1,Breakpoint Value 1 Register" hexmask.long 0x00 0.--31. 1. " BV1 ,Breakpoint Value 1" group.long c14:81.++0x0 line.long 0x00 "BCR1,Breakpoint Control 1 Register" 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 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.long c14:66.++0x0 line.long 0x00 "BVR2,Breakpoint Value 2 Register" hexmask.long 0x00 0.--31. 1. " BV2 ,Breakpoint Value 2" group.long c14:82.++0x0 line.long 0x00 "BCR2,Breakpoint Control 2 Register" 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 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.long c14:67.++0x0 line.long 0x00 "BVR3,Breakpoint Value 3 Register" hexmask.long 0x00 0.--31. 1. " BV3 ,Breakpoint Value 3" group.long c14:83.++0x0 line.long 0x00 "BCR3,Breakpoint Control 3 Register" 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 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.long c14:68.++0x0 line.long 0x00 "BVR4,Breakpoint Value 4 Register" hexmask.long 0x00 0.--31. 1. " BV4 ,Breakpoint Value 4" group.long c14:84.++0x0 line.long 0x00 "BCR4,Breakpoint Control 4 Register" 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 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.long c14:69.++0x0 line.long 0x00 "BVR5,Breakpoint Value 5 Register" hexmask.long 0x00 0.--31. 1. " BV5 ,Breakpoint Value 5" group.long c14:85.++0x0 line.long 0x00 "BCR5,Breakpoint Control 5 Register" 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 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.long c14:70.++0x0 line.long 0x00 "BVR6,Breakpoint Value 6 Register" hexmask.long 0x00 0.--31. 1. " BV6 ,Breakpoint Value 6" group.long c14:86.++0x0 line.long 0x00 "BCR6,Breakpoint Control 6 Register" 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 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.long c14:71.++0x0 line.long 0x00 "BVR7,Breakpoint Value 7 Register" hexmask.long 0x00 0.--31. 1. " BV7 ,Breakpoint Value 7" group.long c14:87.++0x0 line.long 0x00 "BCR7,Breakpoint Control 7 Register" 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 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 tree "Watchpoint Control Registers" group.long c14:96.++0x0 line.long 0x00 "WVR0,Watchpoint Value 0 Register" hexmask.long 0x00 2.--31. 0x04 " WA0 ,Watchpoint Address 0" group.long c14:112.++0x0 line.long 0x00 "WCR0,Watchpoint Control 0 Register" 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.long c14:97.++0x0 line.long 0x00 "WVR1,Watchpoint Value 1 Register" hexmask.long 0x00 2.--31. 0x04 " WA0 ,Watchpoint Address 0" group.long c14:113.++0x0 line.long 0x00 "WCR1,Watchpoint Control 1 Register" 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.long c14:98.++0x0 line.long 0x00 "WVR2,Watchpoint Value 2 Register" hexmask.long 0x00 2.--31. 0x04 " WA0 ,Watchpoint Address 0" group.long c14:114.++0x0 line.long 0x00 "WCR2,Watchpoint Control 2 Register" 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.long c14:99.++0x0 line.long 0x00 "WVR3,Watchpoint Value 3 Register" hexmask.long 0x00 2.--31. 0x04 " WA0 ,Watchpoint Address 0" group.long c14:115.++0x0 line.long 0x00 "WCR3,Watchpoint Control 3 Register" 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.long c14:100.++0x0 line.long 0x00 "WVR4,Watchpoint Value 4 Register" hexmask.long 0x00 2.--31. 0x04 " WA0 ,Watchpoint Address 0" group.long c14:116.++0x0 line.long 0x00 "WCR4,Watchpoint Control 4 Register" 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.long c14:101.++0x0 line.long 0x00 "WVR5,Watchpoint Value 5 Register" hexmask.long 0x00 2.--31. 0x04 " WA0 ,Watchpoint Address 0" group.long c14:117.++0x0 line.long 0x00 "WCR5,Watchpoint Control 5 Register" 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.long c14:102.++0x0 line.long 0x00 "WVR6,Watchpoint Value 6 Register" hexmask.long 0x00 2.--31. 0x04 " WA0 ,Watchpoint Address 0" group.long c14:118.++0x0 line.long 0x00 "WCR6,Watchpoint Control 6 Register" 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.long c14:103.++0x0 line.long 0x00 "WVR7,Watchpoint Value 7 Register" hexmask.long 0x00 2.--31. 0x04 " WA0 ,Watchpoint Address 0" group.long c14:119.++0x0 line.long 0x00 "WCR7,Watchpoint Control 7 Register" 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.long c14:6.++0x0 line.long 0x00 "WFAR ,Watchpoint Fault Address Register" hexmask.long 0x00 1.--31. 0x2 " WFAR ,Address of the watchpointed instruction" tree.end width 11. AUTOINDENT.POP tree.end endif sif (CORENAME()=="CORTEXA53") tree "Core Registers (Cortex-A53)" AUTOINDENT.PUSH AUTOINDENT.ON center tree tree.open "AArch64" tree "ID Registers" rgroup.quad spr:0x30000++0x0 line.quad 0x0 "MIDR_EL1,Main ID Register" hexmask.quad.byte 0x0 24.--31. 0x1 "IMPLEMENTER,Implementer code" bitfld.quad 0x0 20.--23. "VARIANT,Variant" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x0 16.--19. "ARCHITECTURE,Architecture" "Reserved,ARMv4,ARMv4T,ARMv5,ARMv5T,ARMv5TE,ARMv5TEJ,ARMv6,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,CPUID scheme" newline hexmask.quad.word 0x0 4.--15. 0x1 "PARTNUM,Primary Part Number" bitfld.quad 0x0 0.--3. "REVISION,Revision Number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" if (CORENAME()=="CORTEXA57") rgroup.quad spr:0x30005++0x00 line.quad 0x0 "MPIDR_EL1,Multiprocessor Affinity Register" bitfld.quad 0x00 30. "U,Processor is part of a multiprocessor or uniprocessor system" "Multiprocessor,?..." bitfld.quad 0x00 24. "MT,Lowest level of affinity consist of logical processors" "Largely independent,?..." hexmask.quad.byte 0x00 16.--23. 1. "AFF2,Affinity level 2. Second highest level affinity field" newline hexmask.quad.byte 0x00 8.--15. 1. "AFF1,Affinity level 1. Third highest level affinity field" bitfld.quad 0x00 0.--1. "CPU_ID,CPU ID" "1,2,3,4" elif (CORENAME()=="CORTEXA53") rgroup.quad spr:0x30005++0x00 line.quad 0x0 "MPIDR_EL1,Multiprocessor Affinity Register" hexmask.quad.byte 0x00 32.--39. 1. "AFF2,Affinity level 3. Third highest level affinity field" newline bitfld.quad 0x00 30. "U,Processor is part of a multiprocessor or uniprocessor system" "Multiprocessor,?..." bitfld.quad 0x00 24. "MT,Lowest level of affinity consist of logical processors" "Largely independent,?..." hexmask.quad.byte 0x00 16.--23. 1. "AFF2,Affinity level 2. Second highest level affinity field" newline hexmask.quad.byte 0x00 8.--15. 1. "AFF1,Affinity level 1. Third highest level affinity field" hexmask.quad.byte 0x00 0.--7. 1. "AFF0,Affinity level 0. Lowest level affinity field" endif rgroup.quad SPR:0x30006++0x0 line.quad 0x0 "REVIDR_EL1,Revision ID Register" rgroup.quad SPR:0x30014++0x00 line.quad 0x00 "ID_MMFR0_EL1,Memory Model Feature Register 0" bitfld.quad 0x00 28.--31. "INNERSHR,Indicates innermost shareability domain implemented" "Reserved,Implemented,?..." bitfld.quad 0x00 24.--27. "FCSE,Fast Context Switch Memory Mappings Support" "Not supported,?..." bitfld.quad 0x00 20.--23. "AUXREG,Auxiliary Register Support" "Reserved,Supported,?..." newline bitfld.quad 0x00 16.--19. "TCM,TCM and Associated DMA Support" "Not supported,?..." bitfld.quad 0x00 12.--15. "SHARELVL,Shareability levels" "Reserved,Implemented 2 levels,?..." bitfld.quad 0x00 8.--11. "OUTERSHR,Outer Shareable Support" "Reserved,Implemented,?..." newline bitfld.quad 0x00 4.--7. "PMSA,Physical Memory System Architecture (PMSA) Support" "Not supported,?..." bitfld.quad 0x00 0.--3. "VMSA,Virtual Memory System Architecture (VMSA) Support" "Reserved,Reserved,Reserved,Reserved,Reserved,Supported,?..." rgroup.quad SPR:0x30015++0x00 line.quad 0x00 "ID_MMFR1_EL1,Memory Model Feature Register 1" bitfld.quad 0x00 28.--31. "BPRED,Branch Predictor" "Reserved,Reserved,Required,?..." bitfld.quad 0x00 24.--27. "L1TSTCLN,Test and Clean Operations on Data Cache/Harvard/Unified Architecture Support" "Not supported,?..." bitfld.quad 0x00 20.--23. "L1UNI,L1 Cache/All Maintenance Operations/Unified Architecture Support" "Not supported,?..." newline bitfld.quad 0x00 16.--19. "L1HVD,L1 Cache/All Maintenance Operations/Harvard Architecture Support" "Not supported,?..." bitfld.quad 0x00 12.--15. "L1UNISW,L1 Cache Line Maintenance Operations by Set and Way/Unified Architecture Support" "Not supported,?..." bitfld.quad 0x00 8.--11. "L1HVDSW,L1 Cache Line Maintenance Operations by Set and Way/Harvard Architecture Support" "Not supported,?..." newline bitfld.quad 0x00 4.--7. "L1UNIVA,L1 Cache Line Maintenance Operations by VA/Unified Architecture Support" "Not supported,?..." bitfld.quad 0x00 0.--3. "L1HVDVA,L1 Cache Line Maintenance Operations by VA/Harvard Architecture" "Not supported,?..." rgroup.quad SPR:0x30016++0x00 line.quad 0x00 "ID_MMFR2_EL1,Memory Model Feature Register 2" bitfld.quad 0x00 28.--31. "HWACCFLG,Hardware Access Flag Support" "Not supported,?..." bitfld.quad 0x00 24.--27. "WFISTALL,Wait for Interrupt Stalling Support" "Reserved,Supported,?..." bitfld.quad 0x00 20.--23. "MEMBARR,Memory Barrier Operations Support" "Reserved,Reserved,Supported,?..." newline bitfld.quad 0x00 16.--19. "UNITLB,TLB Maintenance Operations/Unified Architecture Support" "Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Supported,?..." bitfld.quad 0x00 12.--15. "HVDTLB,TLB Maintenance Operations/Harvard Architecture Support" "Not supported,?..." bitfld.quad 0x00 8.--11. "LL1HVDRNG,Cache Maintenance Range Operations/Harvard Architecture Support" "Not supported,?..." newline bitfld.quad 0x00 4.--7. "L1HVDBG,Background Prefetch Cache Range Operations/Harvard Architecture Support" "Not supported,?..." bitfld.quad 0x00 0.--3. "L1HVDFG,Foreground Prefetch Cache Range Operations/Harvard Architecture Support" "Not supported,?..." rgroup.quad SPR:0x30017++0x00 line.quad 0x00 "ID_MMFR3_EL1,Memory Model Feature Register 3" bitfld.quad 0x00 28.--31. "SUPERSEC,Supersection support" "Supported,?..." bitfld.quad 0x00 24.--27. "CMEMSZ,Cache memory size" "Reserved,Reserved,1TByte,?..." bitfld.quad 0x00 20.--23. "COHWALK,Coherent walk" "Reserved,Supported,Reserved,?..." newline bitfld.quad 0x00 12.--15. "MAINTBCST,Maintenance broadcast Support" "Reserved,Reserved,Supported,?..." bitfld.quad 0x00 8.--11. "BPMAINT,Invalidate Branch predictor Support" "Reserved,Reserved,Supported,?..." bitfld.quad 0x00 4.--7. "CMAINTSW,Invalidate Cache by Set and Way/Clean by Set and Way/Invalidate and Clean by Set and Way Support" "Reserved,Supported,?..." newline bitfld.quad 0x00 0.--3. "CMAINTVA,Invalidate Cache MVA Support" "Reserved,Supported,?..." rgroup.quad spr:0x30026++0x00 line.quad 0x00 "ID_MMFR4_EL1,Memory Model Feature Register 4" bitfld.quad 0x00 4.--7. "AC2,Extension of ACTLR and HACTLR by ACTLR2 and HACTLR2" "Not implemented,Implemented,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved" if (CORENAME()=="CORTEXA57") rgroup.quad spr:0x30070++0x00 line.quad 0x00 "ID_AA64MMFR0_EL1,AArch64 Memory Model Feature Register 0" bitfld.quad 0x00 28.--31. "TGRAN4,4KB granule supported" "Supported,?..." bitfld.quad 0x00 24.--27. "TGRAN64,64KB granule supported" "Supported,?..." bitfld.quad 0x00 20.--23. "TGRAN16,16KB granule supported" "Not supported,?..." newline bitfld.quad 0x00 12.--15. "SNSMEM,Secure versus Non-secure Memory distinction" "Reserved,Supported,?..." bitfld.quad 0x00 8.--11. "BIGEND,Mixed-endian configuration support" "Reserved,Supported,?..." bitfld.quad 0x00 4.--7. "ASIDBITS,Number of ASID bits" "Reserved,Reserved,16 bits,?..." newline bitfld.quad 0x00 0.--3. "PARANGE,Physical address range supported" "Reserved,Reserved,Reserved,Reserved,44 bits/16 TB,?..." elif (CORENAME()=="CORTEXA53") rgroup.quad spr:0x30070++0x00 line.quad 0x00 "ID_AA64MMFR0_EL1,AArch64 Memory Model Feature Register 0" bitfld.quad 0x00 28.--31. "TGRAN4,4KB granule supported" "Supported,?..." bitfld.quad 0x00 24.--27. "TGRAN64,64KB granule supported" "Supported,?..." bitfld.quad 0x00 20.--23. "TGRAN16,16KB granule supported" "Not supported,?..." newline bitfld.quad 0x00 12.--15. "SNSMEM,Secure versus Non-secure Memory distinction" "Reserved,Supported,?..." bitfld.quad 0x00 8.--11. "BIGEND,Mixed-endian configuration support" "Reserved,Supported,?..." bitfld.quad 0x00 4.--7. "ASIDBITS,Number of ASID bits" "Reserved,Reserved,16 bits,?..." newline bitfld.quad 0x00 0.--3. "PARANGE,Physical address range supported" "Reserved,Reserved,40 bits/1 TB,?..." endif if (CORENAME()=="CORTEXA53") rgroup.quad spr:0x30071++0x00 line.quad 0x00 "ID_AA64MMFR1_EL1,AArch64 Memory Model Feature Register 1" endif rgroup.quad SPR:0x30020++0x00 line.quad 0x00 "ID_ISAR0_EL1,Instruction Set Attribute Register 0" bitfld.quad 0x00 24.--27. "DIVIDE,Divide Instructions Support" "Reserved,Reserved,Supported,?..." bitfld.quad 0x00 20.--23. "DEBUG,Debug Instructions Support" "Reserved,Supported,?..." bitfld.quad 0x00 16.--19. "COPROC,Coprocessor Instructions Support" "Not supported,?..." newline bitfld.quad 0x00 12.--15. "CMPBRANCH,Combined Compare and Branch Instructions Support" "Reserved,Supported,?..." bitfld.quad 0x00 8.--11. "BITFIELD,Bitfield Instructions Support" "Reserved,Supported,?..." bitfld.quad 0x00 4.--7. "BITCOUNT,Bit Counting Instructions Support" "Reserved,Supported,?..." newline bitfld.quad 0x00 0.--3. "SWAP,Swap Instructions Support" "Not supported,?..." rgroup.quad SPR:0x30021++0x00 line.quad 0x00 "ID_ISAR1_EL1,Instruction Set Attribute Register 1" bitfld.quad 0x00 28.--31. "JAZELLE,Jazelle instructions support" "Reserved,Supported,?..." bitfld.quad 0x00 24.--27. "INTERWORK,Interwork instructions support" "Reserved,Reserved,Reserved,Supported,?..." bitfld.quad 0x00 20.--23. "IMMEDIATE,Immediate instructions support" "Reserved,Supported,?..." newline bitfld.quad 0x00 16.--19. "IFTHEN,If then instructions support" "Reserved,Supported,?..." bitfld.quad 0x00 12.--15. "EXTEND,Extend instructions support" "Reserved,Reserved,Supported,?..." bitfld.quad 0x00 8.--11. "EXCEPT_AR,Exception A and R Instructions Support" "Reserved,Supported,?..." newline bitfld.quad 0x00 4.--7. "EXCEPT,Exception in ARM Instructions Support" "Reserved,Supported,?..." bitfld.quad 0x00 0.--3. "ENDIAN,Endian Instructions Support" "Reserved,Supported,?..." rgroup.quad SPR:0x30022++0x00 line.quad 0x00 "ID_ISAR2_EL1,Instruction Set Attribute Register 2" bitfld.quad 0x00 28.--31. "REVERSAL,Reversal instructions support" "Reserved,Reserved,Supported,?..." bitfld.quad 0x00 24.--27. "PSR_AR,PSR Instructions support" "Reserved,Supported,?..." bitfld.quad 0x00 20.--23. "MULTU,Advanced unsigned multiply instructions support" "Reserved,Reserved,Supported,?..." newline bitfld.quad 0x00 16.--19. "MULTS,Advanced signed multiply instructions support" "Reserved,Reserved,Reserved,Supported,?..." bitfld.quad 0x00 12.--15. "MULT,Multiply instructions support" "Reserved,Reserved,Supported,?..." bitfld.quad 0x00 8.--11. "MULTIACCESSINT,Multi-access interruptible instructions support" "Not supported,?..." newline bitfld.quad 0x00 4.--7. "MEMHINT,Memory hint instructions support" "Reserved,Reserved,Reserved,Reserved,Supported,?..." bitfld.quad 0x00 0.--3. "LOADSTORE,Load and store instructions support" "Reserved,Reserved,Supported,?..." rgroup.quad SPR:0x30023++0x00 line.quad 0x00 "ID_ISAR3_EL1,Instruction Set Attribute Register 3" bitfld.quad 0x00 28.--31. "T32EE,Thumb-EE Extensions Support" "Not supported,?..." bitfld.quad 0x00 24.--27. "TRUENOP,True NOP Instructions Support" "Reserved,Supported,?..." bitfld.quad 0x00 20.--23. "T32COPY,Thumb Copy Instructions Support" "Reserved,Supported,?..." newline bitfld.quad 0x00 16.--19. "TABBRANCH,Table Branch Instructions Support" "Reserved,Supported,Reserved,?..." bitfld.quad 0x00 12.--15. "SYNCHPRIM,Synchronization Primitive Instructions Support" "Reserved,Reserved,Supported,?..." bitfld.quad 0x00 8.--11. "SVC,SVC Instructions Support" "Reserved,Supported,?..." newline bitfld.quad 0x00 4.--7. "SIMD,Single Instruction Multiple Data (SIMD) Instructions Support" "Reserved,Reserved,Reserved,Supported,?..." bitfld.quad 0x00 0.--3. "SATURATE,Saturate Instructions Support" "Reserved,Supported,?..." rgroup.quad SPR:0x30024++0x00 line.quad 0x00 "ID_ISAR4_EL1,Instruction Set Attribute Register 4" bitfld.quad 0x00 28.--31. "SWP_FRAC,Memory System Locking Support" "Not supported,?..." bitfld.quad 0x00 24.--27. "PSR_M,PSR_M Instructions Support" "Not supported,?..." bitfld.quad 0x00 20.--23. "SYNCHPRIM_FRAC,Synchronization Primitive instructions" "Supported,?..." newline bitfld.quad 0x00 16.--19. "BARRIER,Barrier Instructions support" "Reserved,Supported,?..." bitfld.quad 0x00 12.--15. "SMC,SMC Instructions support" "Reserved,Supported,?..." bitfld.quad 0x00 8.--11. "WRITEBACK,Write-Back Instructions support" "Reserved,Supported,?..." newline bitfld.quad 0x00 4.--7. "WITHSHIFTS,With-Shift Instructions support" "Reserved,Reserved,Reserved,Reserved,Supported,?..." bitfld.quad 0x00 0.--3. "UNPRIV,Unprivileged Instructions support" "Reserved,Reserved,Supported,?..." rgroup.quad SPR:0x30025++0x00 line.quad 0x00 "ID_ISAR5_EL1,Instruction Set Attribute Register 5" bitfld.quad 0x00 16.--19. "CRC32,CRC32 Instructions Support" "Reserved,Supported,?..." bitfld.quad 0x00 12.--15. "SHA2,SHA2 Instructions Support" "Not supported,Supported,?..." bitfld.quad 0x00 8.--11. "SHA1,SHA1 Instructions Support" "Not supported,Supported,?..." newline bitfld.quad 0x00 4.--7. "AES,AES Instructions Support" "Not supported,Reserved,Supported,?..." bitfld.quad 0x00 0.--3. "SEVL,SEVL Instructions Support" "Reserved,Supported,?..." rgroup.quad spr:0x30060++0x00 line.quad 0x00 "ID_AA64ISAR0_EL1,AArch64 Instruction Set Attribute Register 0" bitfld.quad 0x00 16.--19. "CRC32,CRC32" "Reserved,Implemented,?..." bitfld.quad 0x00 12.--15. "SHA2,SHA2 instructions are implemented" "Not implemented,Implemented,?..." bitfld.quad 0x00 8.--11. "SHA1,SHA1 instructions are implemented" "Not implemented,Implemented,?..." newline bitfld.quad 0x00 4.--7. "AES,AES instructions are implemented" "Not implemented,Reserved,Implemented,?..." if (CORENAME()=="CORTEXA53") rgroup.quad spr:0x30061++0x00 line.quad 0x00 "ID_AA64ISAR1_EL1,AArch64 Instruction Set Attribute Register 1" endif rgroup.quad SPR:0x30010++0x00 line.quad 0x00 "ID_PFR0_EL1,Processor Feature Register 0" bitfld.quad 0x00 12.--15. "STATE3,Thumb Execution Environment (Thumb-EE) Support" "Not supported,?..." bitfld.quad 0x00 8.--11. "STATE2,Support for Jazelle extension" "Reserved,Supported,?..." bitfld.quad 0x00 4.--7. "STATE1,Thumb Encoding Supported by the Processor Type" "Reserved,Reserved,Reserved,Supported,?..." newline bitfld.quad 0x00 0.--3. "STATE0,ARM Instruction Set Support" "Reserved,Supported,?..." rgroup.quad SPR:0x30011++0x00 line.quad 0x00 "ID_PFR1_EL1,Processor Feature Register 1" bitfld.quad 0x00 28.--31. "GIC_CPU,GIC CPU Support" "Disabled,Enabled,?..." bitfld.quad 0x00 16.--19. "GT,Generic Timer Support" "Reserved,Supported,?..." bitfld.quad 0x00 12.--15. "V,Virtualization Extensions Support" "Reserved,Supported,?..." newline bitfld.quad 0x00 8.--11. "MPM,Microcontroller Programmer's Model Support" "Not supported,?..." bitfld.quad 0x00 4.--7. "S,Security Extensions Architecture v1 Support" "Reserved,Supported,?..." bitfld.quad 0x00 0.--3. "PM,Standard ARMv4 Programmer's Model Support" "Reserved,Supported,?..." if (CORENAME()=="CORTEXA57") rgroup.quad spr:0x30040++0x00 line.quad 0x00 "ID_AA64PFR0_EL1,AArch64 Processor Feature Register 0" bitfld.quad 0x00 24.--27. "GIC,GIC CPU interface" "Disabled,Enabled,?..." bitfld.quad 0x00 20.--23. "ADVSIMD,Advanced SIMD" "Implemented,?..." bitfld.quad 0x00 16.--19. "FP,Floating-point" "Implemented,?..." newline bitfld.quad 0x00 12.--15. "EL3,EL3 exception handling" "Reserved,Reserved,AArch64/AArch32,?..." bitfld.quad 0x00 8.--11. "EL2,EL2 exception handling" "Reserved,Reserved,AArch64/AArch32,?..." bitfld.quad 0x00 4.--7. "EL1,EL1 exception handling" "Reserved,Reserved,AArch64/AArch32,?..." newline bitfld.quad 0x00 0.--3. "EL0,EL0 exception handling" "Reserved,Reserved,AArch64/AArch32,?..." elif (CORENAME()=="CORTEXA53") rgroup.quad spr:0x30040++0x00 line.quad 0x00 "ID_AA64PFR0_EL1,AArch64 Processor Feature Register 0" bitfld.quad 0x00 24.--27. "GIC,GIC CPU interface" "Disabled,Enabled,?..." bitfld.quad 0x00 20.--23. "ADVSIMD,Advanced SIMD" "Implemented,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Not implemented" bitfld.quad 0x00 16.--19. "FP,Floating-point" "Implemented,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Not implemented" newline bitfld.quad 0x00 12.--15. "EL3,EL3 exception handling" "Reserved,Reserved,AArch64/AArch32,?..." bitfld.quad 0x00 8.--11. "EL2,EL2 exception handling" "Reserved,Reserved,AArch64/AArch32,?..." bitfld.quad 0x00 4.--7. "EL1,EL1 exception handling" "Reserved,Reserved,AArch64/AArch32,?..." newline bitfld.quad 0x00 0.--3. "EL0,EL0 exception handling" "Reserved,Reserved,AArch64/AArch32,?..." endif if (CORENAME()=="CORTEXA53") rgroup.quad spr:0x30041++0x00 line.quad 0x00 "ID_AA64PFR1_EL1,AArch64 Processor Feature Register 1" endif if (CORENAME()=="CORTEXA57") rgroup.quad SPR:0x30012++0x00 line.quad 0x00 "ID_DFR0_EL1,Debug Feature Register 0" bitfld.quad 0x00 24.--27. "PMM,Performance Monitor Model Support" "Reserved,Reserved,Reserved,Supported,?..." bitfld.quad 0x00 20.--23. "MPROFDBG,Memory-mapped Debug Model for M profile processors Support" "Not supported,?..." bitfld.quad 0x00 16.--19. "MMAPTRC,Trace Model (Memory-Mapped) Support" "Reserved,Supported,?..." newline bitfld.quad 0x00 12.--15. "COPTRC,Coprocessor-Based Trace Debug Model Support" "Not supported,?..." bitfld.quad 0x00 8.--11. "MMAPDBG,Memory-Mapped Debug Model Support" "Not supported,?..." bitfld.quad 0x00 4.--7. "COPSDBG,Secure Debug Model (Coprocessor) Support" "Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Supported,?..." newline bitfld.quad 0x00 0.--3. "COPDBG,Coprocessor Debug Model Support" "Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Supported,?..." elif (CORENAME()=="CORTEXA53") rgroup.quad SPR:0x30012++0x00 line.quad 0x00 "ID_DFR0_EL1,Debug Feature Register 0" bitfld.quad 0x00 24.--27. "PMM,Performance Monitor Model Support" "Reserved,Reserved,Reserved,Supported,?..." bitfld.quad 0x00 20.--23. "MPROFDBG,Memory-mapped Debug Model for M profile processors Support" "Not supported,?..." bitfld.quad 0x00 16.--19. "MMAPTRC,Trace Model (Memory-Mapped) Support" "Reserved,Supported,?..." newline bitfld.quad 0x00 12.--15. "COPTRC,Coprocessor-Based Trace Debug Model Support" "Not supported,?..." bitfld.quad 0x00 4.--7. "COPSDBG,Secure Debug Model (Coprocessor) Support" "Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Supported,?..." bitfld.quad 0x00 0.--3. "COPDBG,Coprocessor Debug Model Support" "Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Supported,?..." endif rgroup.quad spr:0x30050++0x00 line.quad 0x00 "ID_AA64DFR0_EL1,AArch64 Debug Feature Register 0" bitfld.quad 0x00 28.--31. "CTX_CMPS,Number of breakpoints that are context-aware minus 1" "Reserved,2,?..." bitfld.quad 0x00 20.--23. "WRPS,The number of watchpoints minus 1" "Reserved,Reserved,Reserved,4,?..." bitfld.quad 0x00 12.--15. "BRPS,The number of breakpoints minus 1" "Reserved,Reserved,Reserved,Reserved,Reserved,6,?..." newline bitfld.quad 0x00 8.--11. "PMUVER,Performance Monitors extension version" "Reserved,Implemented,?..." bitfld.quad 0x00 4.--7. "TRACEVER,Trace extension" "Not implemented,?..." bitfld.quad 0x00 0.--3. "DEBUGGER,Debug architecture version" "Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Implemented,?..." if (CORENAME()=="CORTEXA53") rgroup.quad spr:0x30051++0x00 line.quad 0x00 "ID_AA64DFR1_EL1,AArch64 Debug Feature Register 1" rgroup.quad spr:0x30054++0x00 line.quad 0x00 "ID_AA64AFR0_EL1,AArch64 Auxiliary Feature Register 0" rgroup.quad spr:0x30055++0x00 line.quad 0x00 "ID_AA64AFR1_EL1,AArch64 Auxiliary Feature Register 1" endif rgroup.quad SPR:0x30013++0x00 line.quad 0x00 "ID_AFR0_EL1,Auxiliary Feature Register 0" rgroup.quad SPR:0x31007++0x00 line.quad 0x00 "AIDR_EL1,Auxiliary ID Register" rgroup.quad SPR:0x33007++0x00 line.quad 0x00 "DCZID_EL0,Data Cache Zero ID" bitfld.quad 0x00 4. "DZP,Prohibit the DC ZVA instruction" "Not prohibited,Prohibited" bitfld.quad 0x00 0.--3. "BS,Block Size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." if (CORENAME()=="CORTEXA57") rgroup.quad spr:0x30030++0x00 "Media and VFP Feature registers" line.quad 0x00 "MVFR0_EL1,Media and VFP Feature Register 0/EL1" bitfld.quad 0x00 28.--31. "FPROUND,Indicates the rounding modes supported by the floating-point hardware" "Reserved,Supported,?..." bitfld.quad 0x00 24.--27. "FPSHVEC,Indicates the hardware support for floating-point short vectors" "Not supported,?..." bitfld.quad 0x00 20.--23. "FPSQRT,Indicates the hardware support for floating-point square root operations" "Reserved,Supported,?..." newline bitfld.quad 0x00 16.--19. "FPDIVIDE,Indicates the hardware support for floating-point divide operations" "Reserved,Supported,?..." bitfld.quad 0x00 12.--15. "FPTRAP,Indicates whether the floating-point hardware implementation supports exception trapping" "Not supported,?..." bitfld.quad 0x00 8.--11. "FPDP,Indicates the hardware support for floating-point double-precision operations" "Reserved,Reserved,VFPv3 or greater,?..." newline bitfld.quad 0x00 4.--7. "FPSP,Indicates the hardware support for floating-point single-precision operations" "Reserved,Reserved,VFPv3 or greater,?..." bitfld.quad 0x00 0.--3. "SIMDREG,Indicates support for the Advanced SIMD register bank" "Reserved,Reserved,32x64-bit,?..." rgroup.quad spr:0x30031++0x00 line.quad 0x00 "MVFR1_EL1,Media and VFP Feature Register 1/EL1" bitfld.quad 0x00 28.--31. "SIMDFMAC,Indicates whether Advanced SIMD or floating-point supports fused multiply accumulate operations" "Reserved,Supported,?..." bitfld.quad 0x00 24.--27. "FPHP,Indicates whether floating-point supports half-precision floating-point conversion operations" "Reserved,Reserved,Supported,?..." bitfld.quad 0x00 20.--23. "SIMDHP,Indicates whether Advanced SIMD supports half-precision floating-point conversion operations" "Reserved,Supported,?..." newline bitfld.quad 0x00 16.--19. "SIMDSP,Indicates whether Advanced SIMD supports single-precision floating-point operations" "Reserved,Supported,?..." bitfld.quad 0x00 12.--15. "SIMDINT,Indicates whether Advanced SIMD supports integer operations" "Reserved,Supported,?..." bitfld.quad 0x00 8.--11. "SIMDLS,Indicates whether Advanced SIMD supports load/store instructions" "Reserved,Supported,?..." newline bitfld.quad 0x00 4.--7. "FPDNAN,Indicates whether the floating-point hardware implementation supports only the Default NaN mode" "Reserved,Supported,?..." bitfld.quad 0x00 0.--3. "FPFTZ,Indicates whether the floating-point hardware implementation supports only the Flush-to-Zero mode of operation" "Reserved,Supported,?..." rgroup.quad spr:0x30032++0x00 line.quad 0x00 "MVFR2_EL1,Media and VFP Feature Register 2/EL1" bitfld.quad 0x00 4.--7. "FPMISC,Indicates support for miscellaneous floating-point features. Supported = Selection/Conversion to Integer with Directed Rounding/Round to Integral Floating-point/MaxNum/MinNum" "Reserved,Reserved,Reserved,Reserved,Supported,?..." bitfld.quad 0x00 0.--3. "SIMDMISC,Indicates support for miscellaneous Advanced SIMD features. Supported = Selection/Conversion to Integer with Directed Rounding/Round to Integral Floating-point/MaxNum/MinNum" "Reserved,Reserved,Reserved,Supported,?..." endif tree.end tree "System Control and Configuration" group.quad spr:0x36111++0x00 line.quad 0x00 "SDER32_EL3,Secure Debug Enable Register" bitfld.quad 0x00 1. "SUNIDEN,Enable non-invasive debug features in Secure User mode" "Disabled,Enabled" bitfld.quad 0x00 0. "SUIDEN,Enable debug exceptions in Secure User mode" "Disabled,Enabled" group.quad SPR:0x30100++0x0 line.quad 0x00 "SCTLR_EL1,System Control Register (EL1)" bitfld.quad 0x0 26. "UCI,EL0 access enable (DC CVAU|DC CIVAC|DC CVAC|IC IVAU)" "Disabled,Enabled" bitfld.quad 0x0 25. "EE,Exception endianness" "Little,Big" newline bitfld.quad 0x0 24. "E0E,Endianness of explicit data access at EL0" "Little,Big" bitfld.quad 0x0 19. "WXN,Write permission implies PL1 Execute Never" "Not forced,Forced" newline bitfld.quad 0x0 18. "NTWE,Not trap WFE" "No,Yes" bitfld.quad 0x0 16. "NTWI,Not trap WFI" "No,Yes" newline bitfld.quad 0x0 15. "UCT,EL0 access enable (CTR_EL0)" "Disabled,Enabled" bitfld.quad 0x0 14. "DZE,EL0 access enable (DC ZVA)" "Disabled,Enabled" newline bitfld.quad 0x0 12. "I,Instruction Cache Enable" "Disabled,Enabled" bitfld.quad 0x0 9. "UMA,User Mask Access" "Disabled,Enabled" newline bitfld.quad 0x0 8. "SED,SETEND Disable" "No,Yes" bitfld.quad 0x0 7. "ITD,IT instruction disable" "No,Yes" newline bitfld.quad 0x00 6. "THEE,Thumb EE enable" "Disabled,Enabled" bitfld.quad 0x0 5. "CP15BEN,c15 barrier enable" "Disabled,Enabled" newline bitfld.quad 0x0 4. "SA0,EL0 stack alignment check enable" "Disabled,Enabled" bitfld.quad 0x0 3. "SA,SP stack alignment check enable" "Disabled,Enabled" newline bitfld.quad 0x0 2. "C,Enable unified cache or data cache" "Disabled,Enabled" bitfld.quad 0x0 1. "A,Strict Alignment" "Disabled,Enabled" newline bitfld.quad 0x0 0. "M,MMU or Protection Unit" "Disabled,Enabled" group.quad SPR:0x34100++0x0 line.quad 0x00 "SCTLR_EL2,System Control Register (EL2)" bitfld.quad 0x0 25. "EE,Exception endianness" "Little,Big" bitfld.quad 0x0 19. "WXN,Write permission implies PL1 Execute Never" "Not forced,Forced" newline bitfld.quad 0x0 12. "I,Instruction Cache Enable" "Disabled,Enabled" bitfld.quad 0x0 3. "SA,SP stack alignment check enable" "Disabled,Enabled" newline bitfld.quad 0x0 2. "C,Enable unified cache or data cache" "Disabled,Enabled" bitfld.quad 0x0 1. "A,Strict Alignment" "Disabled,Enabled" newline bitfld.quad 0x0 0. "M,MMU or Protection Unit" "Disabled,Enabled" group.quad SPR:0x36100++0x0 line.quad 0x00 "SCTLR_EL3,System Control Register (EL3)" bitfld.quad 0x0 25. "EE,Exception endianness" "Little,Big" bitfld.quad 0x0 19. "WXN,Write permission implies PL1 Execute Never" "Not forced,Forced" newline bitfld.quad 0x0 12. "I,Instruction Cache Enable" "Disabled,Enabled" bitfld.quad 0x0 3. "SA,SP stack alignment check enable" "Disabled,Enabled" newline bitfld.quad 0x0 2. "C,Enable unified cache or data cache" "Disabled,Enabled" bitfld.quad 0x0 1. "A,Strict Alignment" "Disabled,Enabled" newline bitfld.quad 0x0 0. "M,MMU or Protection Unit" "Disabled,Enabled" rgroup.quad SPR:0x30101++0x0 line.quad 0x00 "ACTLR_EL1,Auxiliary Control Register (EL1)" if (CORENAME()=="CORTEXA53") group.quad SPR:0x34101++0x0 line.quad 0x00 "ACTLR_EL2,Auxiliary Control Register (EL2)" bitfld.quad 0x00 6. "L2ACTLR_EL1,L2ACTLR write access control" "Disabled,Enabled" bitfld.quad 0x00 5. "L2ECTLR_EL1,L2ECTLR write access control" "Disabled,Enabled" newline bitfld.quad 0x00 4. "L2CTLR_EL1,L2CTLR write access control" "Disabled,Enabled" bitfld.quad 0x00 1. "CPUECTLR_EL1,CPUECTLR write access control" "Disabled,Enabled" newline bitfld.quad 0x00 0. "CPUACTLR_EL1,CPUACTLR write access control" "Disabled,Enabled" group.quad SPR:0x36101++0x0 line.quad 0x00 "ACTLR_EL3,Auxiliary Control Register (EL3)" bitfld.quad 0x00 6. "L2ACTLR_EL1,L2ACTLR write access control" "Disabled,Enabled" bitfld.quad 0x00 5. "L2ECTLR_EL1,L2ECTLR write access control" "Disabled,Enabled" newline bitfld.quad 0x00 4. "L2CTLR_EL1,L2CTLR write access control" "Disabled,Enabled" bitfld.quad 0x00 1. "CPUECTLR_EL1,CPUECTLR write access control" "Disabled,Enabled" newline bitfld.quad 0x00 0. "CPUACTLR_EL1,CPUACTLR write access control" "Disabled,Enabled" elif (CORENAME()=="CORTEXA57") group.quad SPR:0x34101++0x0 line.quad 0x00 "ACTLR_EL2,Auxiliary Control Register (EL2)" bitfld.quad 0x00 6. "L2ACTLR,L2ACTLR write access control" "Disabled,Enabled" bitfld.quad 0x00 5. "L2ECTLR,L2ECTLR write access control" "Disabled,Enabled" newline bitfld.quad 0x00 4. "L2CTLR,L2CTLR write access control" "Disabled,Enabled" bitfld.quad 0x00 1. "CPUECTLR,CPUECTLR write access control" "Disabled,Enabled" newline bitfld.quad 0x00 0. "CPUACTLR,CPUACTLR write access control" "Disabled,Enabled" group.quad SPR:0x36101++0x0 line.quad 0x00 "ACTLR_EL3,Auxiliary Control Register (EL3)" bitfld.quad 0x00 6. "L2ACTLR,L2ACTLR write access control" "Disabled,Enabled" bitfld.quad 0x00 5. "L2ECTLR,L2ECTLR write access control" "Disabled,Enabled" newline bitfld.quad 0x00 4. "L2CTLR,L2CTLR write access control" "Disabled,Enabled" bitfld.quad 0x00 1. "CPUECTLR,CPUECTLR write access control" "Disabled,Enabled" newline bitfld.quad 0x00 0. "CPUACTLR,CPUACTLR write access control" "Disabled,Enabled" endif group.quad SPR:0x30102++0x00 line.quad 0x00 "CPACR_EL1,Architectural Feature Access Control Register" bitfld.quad 0x00 28. "TTA,Causes access to the Trace functionality to trap to EL1 when executed from EL0 or EL1" "Disabled,?..." bitfld.quad 0x00 20.--21. "FPEN,Traps instructions that access registers associated with Advanced SIMD and Floating-point execution to trap to EL1 when executed from EL0 or EL1" "Trap all,Trap El0,Trap all,Not trapped" group.quad SPR:0x36110++0x0 line.quad 0x0 "SCR_EL3,Secure Configuration Register" bitfld.quad 0x00 13. "TWE,Trap WFE Instructions" "Not trapped,Trapped" bitfld.quad 0x00 12. "TWI,Trap WFI Instructions" "Not trapped,Trapped" newline bitfld.quad 0x00 11. "ST,Enable secure EL1 access" "Disabled,Enabled" bitfld.quad 0x00 10. "RW,Register width control for lower exception levels" "AArch32,AArch64" newline bitfld.quad 0x00 9. "SIF,Secure Instruction Fetch" "Permitted,Not permitted" bitfld.quad 0x00 8. "HCE,Hypervisor Call enable" "No,Yes" newline bitfld.quad 0x00 7. "SMD,Secure Monitor Call disable" "No,Yes" bitfld.quad 0x00 3. "EA,External Abort exceptions handled in Abort mode or Monitor mode" "Abort,Monitor" newline bitfld.quad 0x00 2. "FIQ,FIQ exceptions handled in Abort mode or Monitor mode" "FIQ,Monitor" bitfld.quad 0x00 1. "IRQ,IRQ exceptions handled in Abort mode or Monitor mode" "IRQ,Monitor" newline bitfld.quad 0x00 0. "NS,Secure mode" "Secure,Non-secure" group.quad spr:0x34110++0x00 line.quad 0x00 "HCR_EL2,Hypervisor Configuration Register" bitfld.quad 0x00 33. "ID,Stage 2 Instruction cache disable" "No,Yes" bitfld.quad 0x00 32. "CD,Stage 2 Data cache disable" "No,Yes" newline bitfld.quad 0x00 31. "RW,Register width control for lower exception levels" "AArch32,EL1 is 64-bit" bitfld.quad 0x00 30. "TRVM,Trap Read of Virtual Memory controls" "Disabled,Enabled" newline bitfld.quad 0x00 29. "HCD,Hypervisor Call Disable" "No,Yes" bitfld.quad 0x00 28. "TDZ,Trap DC ZVA instruction" "Disabled,Enabled" newline bitfld.quad 0x00 27. "TGE,Trap General Exceptions has an enhanced role when EL2 is using AArch64" "Disabled,Enabled" bitfld.quad 0x00 26. "TVM,Trap Virtual Memory controls to EL2" "Disabled,Enabled" newline bitfld.quad 0x00 25. "TTLB,Trap TLB maintenance instructions to EL2" "Disabled,Enabled" bitfld.quad 0x00 24. "TPU,Trap Cache maintenance instructions to Point of Unificiation to EL2" "Disabled,Enabled" newline bitfld.quad 0x00 23. "TPC,Trap Data/Unified Cache maintenance instructions to Point of Coherency tp EL2" "Disabled,Enabled" bitfld.quad 0x00 22. "TSW,Trap Data/Unified Cache maintenance instructions by Set/Way to EL2" "Disabled,Enabled" newline bitfld.quad 0x00 21. "TACR,Trap Auxiliary Control Register" "Disabled,Enabled" bitfld.quad 0x00 20. "TIDCP,Trap Implementation Dependent functionality" "Disabled,Enabled" newline bitfld.quad 0x00 19. "TSC,Trap SMC" "Disabled,Enabled" bitfld.quad 0x00 18. "TID3,Trap ID Group 3" "Disabled,Enabled" newline bitfld.quad 0x00 17. "TID2,Trap ID Group 2" "Disabled,Enabled" bitfld.quad 0x00 16. "TID1,Trap ID Group 1" "Disabled,Enabled" newline bitfld.quad 0x00 15. "TID0,Trap ID Group 0" "Disabled,Enabled" bitfld.quad 0x00 14. "TWE,Trap WFE" "Disabled,Enabled" newline bitfld.quad 0x00 13. "TWI,Trap WFI" "Disabled,Enabled" bitfld.quad 0x00 12. "DC,Default Cacheable" "Disabled,Enabled" newline bitfld.quad 0x00 10.--11. "BSU,Barrier Shareability upgrade. determines the minimum shareability domain that is applied to any barrier executed from EL1 or EL0" "No effect,Inner Shareable,Outer Shareable,Full System" bitfld.quad 0x00 9. "FB,Force broadcast" "Not forced,Forced" newline bitfld.quad 0x00 8. "VSE,Virtual System Error/Asynchronous Abort:" "No pending,Pending" bitfld.quad 0x00 7. "VI,Virtual IRQ Interrupt" "Not pending,Pending" newline bitfld.quad 0x00 6. "VF,Virtual FIQ Interrupt" "Not pending,Pending" bitfld.quad 0x00 5. "AMO,asynchronous abort and error interrupt routing" "Disabled,Enabled" newline bitfld.quad 0x00 4. "IMO,Physical IRQ Routing" "Disabled,Enabled" bitfld.quad 0x00 3. "FMO,Physical FIQ Routing" "Disabled,Enabled" newline bitfld.quad 0x00 2. "PTW,Protected Table Walk" "Disabled,Enabled" bitfld.quad 0x00 1. "SWIO,Set/Way Invalidation Override" "Disabled,Enabled" newline bitfld.quad 0x00 0. "VM,Second stage of Translation enable" "Disabled,Enabled" group.quad spr:0x30510++0x00 line.quad 0x00 "AFSR0_EL1,Auxiliary Fault Status Register 0 (EL1)" group.quad spr:0x30511++0x00 line.quad 0x00 "AFSR1_EL1,Auxiliary Fault Status Register 1 (EL1)" group.quad spr:0x34510++0x00 line.quad 0x00 "AFSR0_EL2,Auxiliary Fault Status Register 0 (EL2)" group.quad spr:0x34511++0x00 line.quad 0x00 "AFSR1_EL2,Auxiliary Fault Status Register 1 (EL2)" group.quad spr:0x36510++0x00 line.quad 0x00 "AFSR0_EL3,Auxiliary Fault Status Register 0 (EL3)" group.quad spr:0x36511++0x00 line.quad 0x00 "AFSR1_EL3,Auxiliary Fault Status Register 1 (EL3)" tree.open "Exception Syndrome Registers" if (CORENAME()=="CORTEXA57") if (((d.l(spr:0x30520))&0xFC000000)==(0x00000000||0x38000000||0x88000000||0x98000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" elif (((d.l(spr:0x30520))&0xFC000000)==0x04000000) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 0. "TI,Trapped instruction" "WFI,WFE" elif (((d.l(spr:0x30520))&0xFC000000)==(0x0C000000||0x14000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 17.--19. "Opc2,Opc2 value from the issued instruction" "0,1,2,3,4,5,6,7" bitfld.quad 0x00 14.--16. "Opc1,Opc1 value from the issued instruction" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x00 10.--13. "CRn,CRn value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 5.--9. "Rt,Rt value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 1.--4. "CRm,CRm value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x30520))&0xFC000000)==(0x10000000||0x30000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 16.--19. "Opc1,Opc1 value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 10.--14. "Rt2,Rt2 value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 5.--9. "Rt,Rt value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" bitfld.quad 0x00 1.--4. "CRm,CRm value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x30520))&0xFC000000)==0x18000000) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline hexmask.quad.byte 0x00 12.--19. 1 "IMM8,The immediate value from the issued instruction" bitfld.quad 0x00 5.--9. "Rn,Rn value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 4. "OFFSET,Indicates whether the offset is added or subtracted" "Subtracted,Added" bitfld.quad 0x00 1.--3. "AM,Addressing mode" "Immediate unindexed,Immediate post-indexed,Immediate offset,Immediate pre-indexed,Literal unindexed,Reserved,Literal offset,Reserved" newline bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x30520))&0xFC000000)==0x1C000000) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" elif (((d.l(spr:0x30520))&0xFC000000)==(0x44000000||0x54000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline hexmask.quad.word 0x00 0.--15. "IMM16,The value of the immediate field from the HVC or SVC instruction" elif (((d.l(spr:0x30520))&0xFC000000)==0x60000000) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 20.--21. "Op0,Op0 value from the issued instruction" "0,1,2,3" bitfld.quad 0x00 17.--19. "Op2,Opc2 value from the issued instruction" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x00 14.--16. "Op1,Opc1 value from the issued instruction" "0,1,2,3,4,5,6,7" bitfld.quad 0x00 10.--13. "CRn,CRn value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 5.--9. "Rt,Rt value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" bitfld.quad 0x00 1.--4. "CRm,CRm value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x30520))&0xFC000000)==(0x80000000||0x84000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 9. "EA,External abort type" "DECERR,SLVERR" bitfld.quad 0x00 7. "S1PTW,Fault on the stage 2 translation of an address accessed during a stage 1 translation table walk" "Not stage 2,Stage 2" newline bitfld.quad 0x00 0.--5. "IFSC,Instruction Fault Status Code" "Address size/TTBR[0/1],Reserved,Reserved,Reserved,Reserved,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3d level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external abort,Reserved,Reserved,Reserved,Reserved,Sync. external abort/1th level,Sync. external abort/2th level,Sync. external abort/3th level,Sync. parity,Reserved,Reserved,Reserved,Reserved,Sync. parity/1st level,Sync. parity/2nd level,Sync. parity/ECC/3rd level,Reserved,Alignment,Debug,?..." elif (((d.l(spr:0x30520))&0xFD000000)==(0x91000000||0x95000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,Instruction syndrome valid" "Not valid,Valid" bitfld.quad 0x00 22.--23. "SAS,Syndrome Access Size" "Byte,Halfword,Word,Doubleword" newline bitfld.quad 0x00 21. "SSE,Syndrome Sign Extend" "Not required,Required" bitfld.quad 0x00 16.--20. "SRT,Syndrome Register transfer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 15. "SF,Width of the register accessed by the instruction is Sixty-Four" "32-bit,64-bit" bitfld.quad 0x00 14. "AR,Acquire/Release" "No,Yes" newline bitfld.quad 0x00 10. "FNV,FAR not Valid" "No,Yes" bitfld.quad 0x00 9. "EA,External abort type" "Not external,External" newline bitfld.quad 0x00 8. "CM,Fault came from a Cache Maintenance Instruction other than DC ZVA" "No,Yes" bitfld.quad 0x00 7. "S1PTW,Fault on the stage 2 translation of an address accessed during a stage 1 translation table walk" "Not stage 2,Stage 2" newline bitfld.quad 0x00 6. "WNR,Write not Read" "Read,Write" bitfld.quad 0x00 0.--5. "DFSC,Data Fault Status Code" "Address size/0th level/TTBR,Address size/1st level,Address size/2nd level,Address size/3rd level,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3d level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external abort/not table walk,Reserved,Reserved,Reserved,Sync. external abort/0th level,Sync. external abort/1th level,Sync. external abort/2th level,Sync. external abort/3th level,Sync. parity/ECC/not table walk,Reserved,Reserved,Reserved,Sync. parity/ECC/0th level,Sync. parity/ECC/1st level,Sync. parity/ECC/2nd level,Sync. parity/ECC/3rd level,Reserved,Alignment,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,Reserved,Reserved,Reserved,Lockdown,Unsupported Exclusive access,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Section Domain,Page Domain,Reserved" elif (((d.l(spr:0x30520))&0xFD000000)==(0x90000000||0x94000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 10. "FNV,FAR not Valid" "No,Yes" bitfld.quad 0x00 9. "EA,External abort type" "Not external,External" newline bitfld.quad 0x00 8. "CM,Fault came from a Cache Maintenance Instruction other than DC ZVA" "No,Yes" bitfld.quad 0x00 7. "S1PTW,Fault on the stage 2 translation of an address accessed during a stage 1 translation table walk" "Not stage 2,Stage 2" newline bitfld.quad 0x00 6. "WNR,Write not Read" "Read,Write" bitfld.quad 0x00 0.--5. "DFSC,Data Fault Status Code" "Address size/0th level/TTBR,Address size/1st level,Address size/2nd level,Address size/3rd level,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3d level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external abort/not table walk,Reserved,Reserved,Reserved,Sync. external abort/0th level,Sync. external abort/1th level,Sync. external abort/2th level,Sync. external abort/3th level,Sync. parity/ECC/not table walk,Reserved,Reserved,Reserved,Sync. parity/ECC/0th level,Sync. parity/ECC/1st level,Sync. parity/ECC/2nd level,Sync. parity/ECC/3rd level,Reserved,Alignment,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,Reserved,Reserved,Reserved,Lockdown,Unsupported Exclusive access,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Section Domain,Page Domain,Reserved" elif (((d.l(spr:0x30520))&0xFC800000)==(0xA0800000||0xB0800000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 23. "TFV,Trapped Fault Valid" "Not valid,Valid" bitfld.quad 0x00 8.--10. "VECITR,Number of the element that is being reported" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x00 7. "IDF,Input Denormal floating-point exception trapped" "Not occurred,Occurred" bitfld.quad 0x00 4. "IXF,Inexact floating-point exception trapped" "Not occurred,Occurred" newline bitfld.quad 0x00 3. "UFF,Underflow floating-point exception trapped" "Not occurred,Occurred" bitfld.quad 0x00 2. "OFF,Overflow floating-point exception trapped" "Not occurred,Occurred" newline bitfld.quad 0x00 1. "DZF,Divide-by-zero floating-point exception trapped" "Not occurred,Occurred" bitfld.quad 0x00 0. "IOF,Invalid Operation floating-point exception trapped" "Not occurred,Occurred" elif (((d.l(spr:0x30520))&0xFC800000)==(0xA0000000||0xB0000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 23. "TFV,Trapped Fault Valid" "Not valid,Valid" bitfld.quad 0x00 8.--10. "VECITR,Number of the element that is being reported" "0,1,2,3,4,5,6,7" elif (((d.l(spr:0x30520))&0xFD000000)==0xBD000000) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,Instruction syndrome valid" "Not valid,Valid" hexmask.quad.tbyte 0x00 0.--23. 1 "IS,Additional information about the SError interrupt" elif (((d.l(spr:0x30520))&0xFD000000)==0xBC000000) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,Instruction syndrome valid" "Not valid,Valid" elif (((d.l(spr:0x30520))&0xFC000000)==(0xC0000000||0xC4000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 0.--5. "IFSC,Instruction Fault Status Code" "0,1,2,3,%d..." elif (((d.l(spr:0x30520))&0xFC000000)==(0xC8000000||0xCC000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,EX bit valid" "Not valid,Valid" bitfld.quad 0x00 6. "EX,Exclusive operation" "No,Yes" newline bitfld.quad 0x00 0.--5. "IFSC,Instruction Fault Status Code" "0,1,2,3,%d..." elif (((d.l(spr:0x30520))&0xFC000000)==(0xD0000000||0xD4000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 8. "CM,Data came from a Cache Maintenance Instruction other than DC ZVA" "No,Yes" bitfld.quad 0x00 6. "WNR,Write not Read" "Read,Write" newline bitfld.quad 0x00 0.--5. "IFSC,Instruction Fault Status Code" "0,1,2,3,%d..." elif (((d.l(spr:0x30520))&0xFC000000)==(0xE0000000||0xF0000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline hexmask.quad.word 0x00 0.--15. 1 "COMMENT,Set to the instruction comment field value" else group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" endif if (((d.l(spr:0x34520))&0xFC000000)==(0x00000000||0x38000000||0x88000000||0x98000000||0x4C000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" elif (((d.l(spr:0x34520))&0xFC000000)==0x04000000) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 0. "TI,Trapped instruction" "WFI,WFE" elif (((d.l(spr:0x34520))&0xFC000000)==(0x0C000000||0x14000000||0x20000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 17.--19. "Opc2,Opc2 value from the issued instruction" "0,1,2,3,4,5,6,7" bitfld.quad 0x00 14.--16. "Opc1,Opc1 value from the issued instruction" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x00 10.--13. "CRn,CRn value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 5.--9. "Rt,Rt value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 1.--4. "CRm,CRm value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x34520))&0xFC000000)==(0x10000000||0x30000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 16.--19. "Opc1,Opc1 value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 10.--14. "Rt2,Rt2 value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 5.--9. "Rt,Rt value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" bitfld.quad 0x00 1.--4. "CRm,CRm value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x34520))&0xFC000000)==0x18000000) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline hexmask.quad.byte 0x00 12.--19. 1 "IMM8,The immediate value from the issued instruction" bitfld.quad 0x00 5.--9. "Rn,Rn value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 4. "OFFSET,Indicates whether the offset is added or subtracted" "Subtracted,Added" bitfld.quad 0x00 1.--3. "AM,Addressing mode" "Immediate unindexed,Immediate post-indexed,Immediate offset,Immediate pre-indexed,Literal unindexed,Reserved,Literal offset,Reserved" newline bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x34520))&0xFC000000)==0x1C000000) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" elif (((d.l(spr:0x34520))&0xFC000000)==(0x44000000||0x48000000||0x54000000||0x58000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline hexmask.quad.word 0x00 0.--15. "IMM16,The value of the immediate field from the HVC or SVC instruction" elif (((d.l(spr:0x34520))&0xFC000000)==0x5C000000) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline hexmask.quad.word 0x00 0.--15. "IMM16,The value of the immediate field from the issued SMC instruction" elif (((d.l(spr:0x34520))&0xFC000000)==0x60000000) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 20.--21. "Op0,Op0 value from the issued instruction" "0,1,2,3" bitfld.quad 0x00 17.--19. "Op2,Opc2 value from the issued instruction" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x00 14.--16. "Op1,Opc1 value from the issued instruction" "0,1,2,3,4,5,6,7" bitfld.quad 0x00 10.--13. "CRn,CRn value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 5.--9. "Rt,Rt value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" bitfld.quad 0x00 1.--4. "CRm,CRm value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x34520))&0xFC000000)==(0x80000000||0x84000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 9. "EA,External abort type" "DECERR,SLVERR" bitfld.quad 0x00 7. "S1PTW,Fault on the stage 2 translation of an address accessed during a stage 1 translation table walk" "Not stage 2,Stage 2" newline bitfld.quad 0x00 0.--5. "IFSC,Instruction Fault Status Code" "Address size/0th level/TTBR,Address size/1st level,Address size/2nd level,Address size/3rd level,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3d level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external abort/not table walk,Reserved,Reserved,Reserved,Sync. external abort/0th level,Sync. external abort/1th level,Sync. external abort/2th level,Sync. external abort/3th level,Sync. parity/ECC/not table walk,Reserved,Reserved,Reserved,Sync. parity/ECC/0th level,Sync. parity/ECC/1st level,Sync. parity/ECC/2nd level,Sync. parity/ECC/3rd level,Reserved,Alignment,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,?..." elif (((d.l(spr:0x34520))&0xFD000000)==(0x91000000||0x95000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,Instruction syndrome valid" "Not valid,Valid" bitfld.quad 0x00 22.--23. "SAS,Syndrome Access Size" "Byte,Halfword,Word,Doubleword" newline bitfld.quad 0x00 21. "SSE,Syndrome Sign Extend" "Not required,Required" bitfld.quad 0x00 16.--20. "SRT,Syndrome Register transfer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 15. "SF,Width of the register accessed by the instruction is Sixty-Four" "32-bit,64-bit" bitfld.quad 0x00 14. "AR,Acquire/Release" "No,Yes" newline bitfld.quad 0x00 10. "FNV,FAR not Valid" "No,Yes" bitfld.quad 0x00 9. "EA,External abort type" "Not external,External" newline bitfld.quad 0x00 8. "CM,Fault came from a Cache Maintenance Instruction other than DC ZVA" "No,Yes" bitfld.quad 0x00 7. "S1PTW,Fault on the stage 2 translation of an address accessed during a stage 1 translation table walk" "Not stage 2,Stage 2" newline bitfld.quad 0x00 6. "WNR,Write not Read" "Read,Write" bitfld.quad 0x00 0.--5. "DFSC,Data Fault Status Code" "Address size/0th level/TTBR,Address size/1st level,Address size/2nd level,Address size/3rd level,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3d level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external abort/not table walk,Reserved,Reserved,Reserved,Sync. external abort/0th level,Sync. external abort/1th level,Sync. external abort/2th level,Sync. external abort/3th level,Sync. parity/ECC/not table walk,Reserved,Reserved,Reserved,Sync. parity/ECC/0th level,Sync. parity/ECC/1st level,Sync. parity/ECC/2nd level,Sync. parity/ECC/3rd level,Reserved,Alignment,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,Reserved,Reserved,Reserved,Lockdown,Unsupported Exclusive access,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Section Domain,Page Domain,Reserved" elif (((d.l(spr:0x34520))&0xFD000000)==(0x90000000||0x94000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 10. "FNV,FAR not Valid" "No,Yes" bitfld.quad 0x00 9. "EA,External abort type" "Not external,External" newline bitfld.quad 0x00 8. "CM,Fault came from a Cache Maintenance Instruction other than DC ZVA" "No,Yes" bitfld.quad 0x00 7. "S1PTW,Fault on the stage 2 translation of an address accessed during a stage 1 translation table walk" "Not stage 2,Stage 2" newline bitfld.quad 0x00 6. "WNR,Write not Read" "Read,Write" bitfld.quad 0x00 0.--5. "DFSC,Data Fault Status Code" "Address size/0th level/TTBR,Address size/1st level,Address size/2nd level,Address size/3rd level,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3d level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external abort/not table walk,Reserved,Reserved,Reserved,Sync. external abort/0th level,Sync. external abort/1th level,Sync. external abort/2th level,Sync. external abort/3th level,Sync. parity/ECC/not table walk,Reserved,Reserved,Reserved,Sync. parity/ECC/0th level,Sync. parity/ECC/1st level,Sync. parity/ECC/2nd level,Sync. parity/ECC/3rd level,Reserved,Alignment,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,Reserved,Reserved,Reserved,Lockdown,Unsupported Exclusive access,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Section Domain,Page Domain,Reserved" elif (((d.l(spr:0x34520))&0xFC800000)==(0xA0800000||0xB0800000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 23. "TFV,Trapped Fault Valid" "Not valid,Valid" bitfld.quad 0x00 8.--10. "VECITR,Number of the element that is being reported" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x00 7. "IDF,Input Denormal floating-point exception trapped" "Not occurred,Occurred" bitfld.quad 0x00 4. "IXF,Inexact floating-point exception trapped" "Not occurred,Occurred" newline bitfld.quad 0x00 3. "UFF,Underflow floating-point exception trapped" "Not occurred,Occurred" bitfld.quad 0x00 2. "OFF,Overflow floating-point exception trapped" "Not occurred,Occurred" newline bitfld.quad 0x00 1. "DZF,Divide-by-zero floating-point exception trapped" "Not occurred,Occurred" bitfld.quad 0x00 0. "IOF,Invalid Operation floating-point exception trapped" "Not occurred,Occurred" elif (((d.l(spr:0x34520))&0xFC800000)==(0xA0000000||0xB0000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 23. "TFV,Trapped Fault Valid" "Not valid,Valid" bitfld.quad 0x00 8.--10. "VECITR,Number of the element that is being reported" "0,1,2,3,4,5,6,7" elif (((d.l(spr:0x34520))&0xFD000000)==0xBD000000) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,Instruction syndrome valid" "Not valid,Valid" hexmask.quad.tbyte 0x00 0.--23. 1 "IS,Additional information about the SError interrupt" elif (((d.l(spr:0x34520))&0xFD000000)==0xBC000000) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,Instruction syndrome valid" "Not valid,Valid" elif (((d.l(spr:0x34520))&0xFC000000)==(0xC0000000||0xC4000000||0xE8000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 0.--5. "IFSC,Instruction Fault Status Code" "0,1,2,3,%d..." elif (((d.l(spr:0x34520))&0xFC000000)==(0xC8000000||0xCC000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,EX bit valid" "Not valid,Valid" bitfld.quad 0x00 6. "EX,Exclusive operation" "No,Yes" newline bitfld.quad 0x00 0.--5. "IFSC,Instruction Fault Status Code" "0,1,2,3,%d..." elif (((d.l(spr:0x34520))&0xFC000000)==(0xD0000000||0xD4000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 8. "CM,Data came from a Cache Maintenance Instruction other than DC ZVA" "No,Yes" bitfld.quad 0x00 6. "WNR,Write not Read" "Read,Write" newline bitfld.quad 0x00 0.--5. "IFSC,Instruction Fault Status Code" "0,1,2,3,%d..." elif (((d.l(spr:0x34520))&0xFC000000)==(0xE0000000||0xF0000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" hexmask.quad.word 0x00 0.--15. 1 "COMMENT,Set to the instruction comment field value" else group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" endif if (((d.l(spr:0x36520))&0xFC000000)==(0x00000000||0x38000000||0x88000000||0x98000000||0x4C000000)) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" elif (((d.l(spr:0x36520))&0xFC000000)==0x04000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 0. "TI,Trapped instruction" "WFI,WFE" elif (((d.l(spr:0x36520))&0xFC000000)==(0x0C000000||0x14000000)) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 17.--19. "Opc2,Opc2 value from the issued instruction" "0,1,2,3,4,5,6,7" bitfld.quad 0x00 14.--16. "Opc1,Opc1 value from the issued instruction" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x00 10.--13. "CRn,CRn value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 5.--9. "Rt,Rt value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 1.--4. "CRm,CRm value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x36520))&0xFC000000)==(0x10000000||0x30000000)) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 16.--19. "Opc1,Opc1 value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 10.--14. "Rt2,Rt2 value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 5.--9. "Rt,Rt value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" bitfld.quad 0x00 1.--4. "CRm,CRm value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x36520))&0xFC000000)==0x18000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline hexmask.quad.byte 0x00 12.--19. 1 "IMM8,The immediate value from the issued instruction" bitfld.quad 0x00 5.--9. "Rn,Rn value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 4. "OFFSET,Indicates whether the offset is added or subtracted" "Subtracted,Added" bitfld.quad 0x00 1.--3. "AM,Addressing mode" "Immediate unindexed,Immediate post-indexed,Immediate offset,Immediate pre-indexed,Literal unindexed,Reserved,Literal offset,Reserved" newline bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x36520))&0xFC000000)==0x1C000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" elif (((d.l(spr:0x36520))&0xFC000000)==(0x54000000||0x58000000)) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline hexmask.quad.word 0x00 0.--15. "IMM16,The value of the immediate field from the HVC or SVC instruction" elif (((d.l(spr:0x36520))&0xFC000000)==0x5C000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline hexmask.quad.word 0x00 0.--15. "IMM16,The value of the immediate field from the issued SMC instruction" elif (((d.l(spr:0x36520))&0xFC000000)==0x60000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 20.--21. "Op0,Op0 value from the issued instruction" "0,1,2,3" bitfld.quad 0x00 17.--19. "Op2,Opc2 value from the issued instruction" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x00 14.--16. "Op1,Opc1 value from the issued instruction" "0,1,2,3,4,5,6,7" bitfld.quad 0x00 10.--13. "CRn,CRn value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 5.--9. "Rt,Rt value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" bitfld.quad 0x00 1.--4. "CRm,CRm value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x36520))&0xFC000000)==0x7C000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" hexmask.quad.long 0x00 0.--24. 1 "IMPL_DEF,Implementation defined" elif (((d.l(spr:0x36520))&0xFC000000)==(0x80000000||0x84000000)) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 9. "EA,External abort type" "DECERR,SLVERR" bitfld.quad 0x00 7. "S1PTW,Fault on the stage 2 translation of an address accessed during a stage 1 translation table walk" "Not stage 2,Stage 2" newline bitfld.quad 0x00 0.--5. "IFSC,Instruction Fault Status Code" "Address size/TTBR[0/1],Reserved,Reserved,Reserved,Reserved,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3d level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external abort,Reserved,Reserved,Reserved,Reserved,Sync. external abort/1th level,Sync. external abort/2th level,Sync. external abort/3th level,Sync. parity,Reserved,Reserved,Reserved,Reserved,Sync. parity/1st level,Sync. parity/2nd level,Sync. parity/ECC/3rd level,Reserved,Alignment,Debug,?..." elif (((d.l(spr:0x36520))&0xFD000000)==(0x91000000||0x95000000)) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,Instruction syndrome valid" "Not valid,Valid" bitfld.quad 0x00 22.--23. "SAS,Syndrome Access Size" "Byte,Halfword,Word,Doubleword" newline bitfld.quad 0x00 21. "SSE,Syndrome Sign Extend" "Not required,Required" bitfld.quad 0x00 16.--20. "SRT,Syndrome Register transfer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 15. "SF,Width of the register accessed by the instruction is Sixty-Four" "32-bit,64-bit" bitfld.quad 0x00 14. "AR,Acquire/Release" "No,Yes" newline bitfld.quad 0x00 10. "FNV,FAR not Valid" "No,Yes" bitfld.quad 0x00 9. "EA,External abort type" "Not external,External" newline bitfld.quad 0x00 8. "CM,Fault came from a Cache Maintenance Instruction other than DC ZVA" "No,Yes" bitfld.quad 0x00 7. "S1PTW,Fault on the stage 2 translation of an address accessed during a stage 1 translation table walk" "Not stage 2,Stage 2" newline bitfld.quad 0x00 6. "WNR,Write not Read" "Read,Write" bitfld.quad 0x00 0.--5. "DFSC,Data Fault Status Code" "Address size/0th level/TTBR,Address size/1st level,Address size/2nd level,Address size/3rd level,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3d level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external abort/not table walk,Reserved,Reserved,Reserved,Sync. external abort/0th level,Sync. external abort/1th level,Sync. external abort/2th level,Sync. external abort/3th level,Sync. parity/ECC/not table walk,Reserved,Reserved,Reserved,Sync. parity/ECC/0th level,Sync. parity/ECC/1st level,Sync. parity/ECC/2nd level,Sync. parity/ECC/3rd level,Reserved,Alignment,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,Reserved,Reserved,Reserved,Lockdown,Unsupported Exclusive access,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Section Domain,Page Domain,Reserved" elif (((d.l(spr:0x36520))&0xFD000000)==(0x90000000||0x94000000)) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 10. "FNV,FAR not Valid" "No,Yes" bitfld.quad 0x00 9. "EA,External abort type" "Not external,External" newline bitfld.quad 0x00 8. "CM,Fault came from a Cache Maintenance Instruction other than DC ZVA" "No,Yes" bitfld.quad 0x00 7. "S1PTW,Fault on the stage 2 translation of an address accessed during a stage 1 translation table walk" "Not stage 2,Stage 2" newline bitfld.quad 0x00 6. "WNR,Write not Read" "Read,Write" bitfld.quad 0x00 0.--5. "DFSC,Data Fault Status Code" "Address size/0th level/TTBR,Address size/1st level,Address size/2nd level,Address size/3rd level,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3d level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external abort/not table walk,Reserved,Reserved,Reserved,Sync. external abort/0th level,Sync. external abort/1th level,Sync. external abort/2th level,Sync. external abort/3th level,Sync. parity/ECC/not table walk,Reserved,Reserved,Reserved,Sync. parity/ECC/0th level,Sync. parity/ECC/1st level,Sync. parity/ECC/2nd level,Sync. parity/ECC/3rd level,Reserved,Alignment,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,Reserved,Reserved,Reserved,Lockdown,Unsupported Exclusive access,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Section Domain,Page Domain,Reserved" elif (((d.l(spr:0x36520))&0xFC800000)==0xB0800000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 23. "TFV,Trapped Fault Valid" "Not valid,Valid" bitfld.quad 0x00 8.--10. "VECITR,Number of the element that is being reported" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x00 7. "IDF,Input Denormal floating-point exception trapped" "Not occurred,Occurred" bitfld.quad 0x00 4. "IXF,Inexact floating-point exception trapped" "Not occurred,Occurred" newline bitfld.quad 0x00 3. "UFF,Underflow floating-point exception trapped" "Not occurred,Occurred" bitfld.quad 0x00 2. "OFF,Overflow floating-point exception trapped" "Not occurred,Occurred" newline bitfld.quad 0x00 1. "DZF,Divide-by-zero floating-point exception trapped" "Not occurred,Occurred" bitfld.quad 0x00 0. "IOF,Invalid Operation floating-point exception trapped" "Not occurred,Occurred" elif (((d.l(spr:0x36520))&0xFC800000)==0xB0000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 23. "TFV,Trapped Fault Valid" "Not valid,Valid" bitfld.quad 0x00 8.--10. "VECITR,Number of the element that is being reported" "0,1,2,3,4,5,6,7" elif (((d.l(spr:0x36520))&0xFD000000)==0xBD000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,Instruction syndrome valid" "Not valid,Valid" hexmask.quad.tbyte 0x00 0.--23. 1 "IS,Additional information about the SError interrupt" elif (((d.l(spr:0x36520))&0xFD000000)==0xBC000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,Instruction syndrome valid" "Not valid,Valid" elif (((d.l(spr:0x36520))&0xFC000000)==0xF0000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline hexmask.quad.word 0x00 0.--15. 1 "COMMENT,Set to the instruction comment field value" else group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" endif elif (CORENAME()=="CORTEXA53") if (((d.l(spr:0x30520))&0xFC000000)==(0x00000000||0x38000000||0x88000000||0x98000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" elif (((d.l(spr:0x30520))&0xFC000000)==0x04000000) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 0. "TI,Trapped instruction" "WFI,WFE" elif (((d.l(spr:0x30520))&0xFC000000)==(0x0C000000||0x14000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 17.--19. "Opc2,Opc2 value from the issued instruction" "0,1,2,3,4,5,6,7" bitfld.quad 0x00 14.--16. "Opc1,Opc1 value from the issued instruction" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x00 10.--13. "CRn,CRn value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 5.--9. "Rt,Rt value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 1.--4. "CRm,CRm value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x30520))&0xFC000000)==(0x10000000||0x30000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 16.--19. "Opc1,Opc1 value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 10.--14. "Rt2,Rt2 value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 5.--9. "Rt,Rt value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" bitfld.quad 0x00 1.--4. "CRm,CRm value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x30520))&0xFC000000)==0x18000000) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline hexmask.quad.byte 0x00 12.--19. 1 "IMM8,The immediate value from the issued instruction" bitfld.quad 0x00 5.--9. "Rn,Rn value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 4. "OFFSET,Indicates whether the offset is added or subtracted" "Subtracted,Added" bitfld.quad 0x00 1.--3. "AM,Addressing mode" "Immediate unindexed,Immediate post-indexed,Immediate offset,Immediate pre-indexed,Literal unindexed,Reserved,Literal offset,Reserved" newline bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x30520))&0xFC000000)==0x1C000000) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" elif (((d.l(spr:0x30520))&0xFC000000)==(0x44000000||0x54000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline hexmask.quad.word 0x00 0.--15. "IMM16,The value of the immediate field from the HVC or SVC instruction" elif (((d.l(spr:0x30520))&0xFC000000)==0x60000000) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 20.--21. "Op0,Op0 value from the issued instruction" "0,1,2,3" bitfld.quad 0x00 17.--19. "Op2,Opc2 value from the issued instruction" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x00 14.--16. "Op1,Opc1 value from the issued instruction" "0,1,2,3,4,5,6,7" bitfld.quad 0x00 10.--13. "CRn,CRn value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 5.--9. "Rt,Rt value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" bitfld.quad 0x00 1.--4. "CRm,CRm value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x30520))&0xFC000000)==(0x80000000||0x84000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 10. "FNV,FAR not Valid" "No,Yes" bitfld.quad 0x00 9. "EA,External abort type" "Not external,External" newline bitfld.quad 0x00 7. "S1PTW,Fault on the stage 2 translation of an address accessed during a stage 1 translation table walk" "Not stage 2,Stage 2" bitfld.quad 0x00 0.--5. "IFSC,Instruction Fault Status Code" "Address size/0th level/base register,Address size/1st level,Address size/2nd level,Address size/3rd level,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3d level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external abort/not table walk,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Sync. parity/ECC/not table walk,Reserved,Reserved,Reserved,Sync. external abort/0th level,Sync. external abort/1st level,Sync. external abort/2nd level,Sync. external abort/3rd level,Sync. parity/ECC/0th level,Sync. parity/ECC/1st level,Sync. parity/ECC/2nd level,Sync. parity/ECC/3rd level,Alignment,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,?..." elif (((d.l(spr:0x30520))&0xFD000000)==(0x91000000||0x95000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,Instruction syndrome valid" "Not valid,Valid" bitfld.quad 0x00 22.--23. "SAS,Syndrome Access Size" "Byte,Halfword,Word,Doubleword" newline bitfld.quad 0x00 21. "SSE,Syndrome Sign Extend" "Not required,Required" bitfld.quad 0x00 16.--20. "SRT,Syndrome Register transfer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 15. "SF,Width of the register accessed by the instruction is Sixty-Four" "32-bit,64-bit" bitfld.quad 0x00 14. "AR,Acquire/Release" "No,Yes" newline bitfld.quad 0x00 10. "FNV,FAR not Valid" "No,Yes" bitfld.quad 0x00 9. "EA,External abort type" "Not external,External" newline bitfld.quad 0x00 8. "CM,Fault came from a Cache Maintenance Instruction other than DC ZVA" "No,Yes" bitfld.quad 0x00 7. "S1PTW,Fault on the stage 2 translation of an address accessed during a stage 1 translation table walk" "Not stage 2,Stage 2" newline bitfld.quad 0x00 6. "WNR,Write not Read" "Read,Write" bitfld.quad 0x00 0.--5. "DFSC,Data Fault Status Code" "Address size/0th level/TTBR,Address size/1st level,Address size/2nd level,Address size/3rd level,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3d level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external abort/not table walk,Reserved,Reserved,Reserved,Sync. external abort/0th level,Sync. external abort/1th level,Sync. external abort/2th level,Sync. external abort/3th level,Sync. parity/ECC/not table walk,Reserved,Reserved,Reserved,Sync. parity/ECC/0th level,Sync. parity/ECC/1st level,Sync. parity/ECC/2nd level,Sync. parity/ECC/3rd level,Reserved,Alignment,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,Reserved,Reserved,Reserved,Lockdown,Unsupported Exclusive access,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Section Domain,Page Domain,Reserved" elif (((d.l(spr:0x30520))&0xFD000000)==(0x90000000||0x94000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 10. "FNV,FAR not Valid" "No,Yes" bitfld.quad 0x00 9. "EA,External abort type" "Not external,External" newline bitfld.quad 0x00 8. "CM,Fault came from a Cache Maintenance Instruction other than DC ZVA" "No,Yes" bitfld.quad 0x00 7. "S1PTW,Fault on the stage 2 translation of an address accessed during a stage 1 translation table walk" "Not stage 2,Stage 2" newline bitfld.quad 0x00 6. "WNR,Write not Read" "Read,Write" bitfld.quad 0x00 0.--5. "DFSC,Data Fault Status Code" "Address size/0th level/TTBR,Address size/1st level,Address size/2nd level,Address size/3rd level,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3d level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external abort/not table walk,Reserved,Reserved,Reserved,Sync. external abort/0th level,Sync. external abort/1th level,Sync. external abort/2th level,Sync. external abort/3th level,Sync. parity/ECC/not table walk,Reserved,Reserved,Reserved,Sync. parity/ECC/0th level,Sync. parity/ECC/1st level,Sync. parity/ECC/2nd level,Sync. parity/ECC/3rd level,Reserved,Alignment,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,Reserved,Reserved,Reserved,Lockdown,Unsupported Exclusive access,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Section Domain,Page Domain,Reserved" elif (((d.l(spr:0x30520))&0xFC800000)==(0xA0800000||0xB0800000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 23. "TFV,Trapped Fault Valid" "Not valid,Valid" bitfld.quad 0x00 8.--10. "VECITR,Number of the element that is being reported" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x00 7. "IDF,Input Denormal floating-point exception trapped" "Not occurred,Occurred" bitfld.quad 0x00 4. "IXF,Inexact floating-point exception trapped" "Not occurred,Occurred" newline bitfld.quad 0x00 3. "UFF,Underflow floating-point exception trapped" "Not occurred,Occurred" bitfld.quad 0x00 2. "OFF,Overflow floating-point exception trapped" "Not occurred,Occurred" newline bitfld.quad 0x00 1. "DZF,Divide-by-zero floating-point exception trapped" "Not occurred,Occurred" bitfld.quad 0x00 0. "IOF,Invalid Operation floating-point exception trapped" "Not occurred,Occurred" elif (((d.l(spr:0x30520))&0xFC800000)==(0xA0000000||0xB0000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 23. "TFV,Trapped Fault Valid" "Not valid,Valid" bitfld.quad 0x00 8.--10. "VECITR,Number of the element that is being reported" "0,1,2,3,4,5,6,7" elif (((d.l(spr:0x30520))&0xFD000000)==0xBD000000) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,Instruction syndrome valid" "Not valid,Valid" bitfld.quad 0x00 22.--23. "SES,System Error Source" "Processor,System,External," newline hexmask.quad.tbyte 0x00 0.--21. 1 "IS,Additional information about the SError interrupt" elif (((d.l(spr:0x30520))&0xFD000000)==0xBC000000) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,Instruction syndrome valid" "Not valid,Valid" elif (((d.l(spr:0x30520))&0xFC000000)==(0xC0000000||0xC4000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 0.--5. "IFSC,Instruction Fault Status Code" "0,1,2,3,%d..." elif (((d.l(spr:0x30520))&0xFC000000)==(0xC8000000||0xCC000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,EX bit valid" "Not valid,Valid" bitfld.quad 0x00 6. "EX,Exclusive operation" "No,Yes" newline bitfld.quad 0x00 0.--5. "IFSC,Instruction Fault Status Code" "0,1,2,3,%d..." elif (((d.l(spr:0x30520))&0xFC000000)==(0xD0000000||0xD4000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 8. "CM,Data came from a Cache Maintenance Instruction other than DC ZVA" "No,Yes" bitfld.quad 0x00 6. "WNR,Write not Read" "Read,Write" newline bitfld.quad 0x00 0.--5. "IFSC,Instruction Fault Status Code" "0,1,2,3,%d..." elif (((d.l(spr:0x30520))&0xFC000000)==(0xE0000000||0xF0000000)) group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline hexmask.quad.word 0x00 0.--15. 1 "COMMENT,Set to the instruction comment field value" else group.quad SPR:0x30520++0x00 line.quad 0x00 "ESR_EL1,Exception Syndrome Register (EL1)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,Reserved,Reserved,Reserved,SVC in AArch64,Reserved,Reserved,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" endif if (((d.l(spr:0x34520))&0xFC000000)==(0x00000000||0x38000000||0x88000000||0x98000000||0x4C000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" elif (((d.l(spr:0x34520))&0xFC000000)==0x04000000) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 0. "TI,Trapped instruction" "WFI,WFE" elif (((d.l(spr:0x34520))&0xFC000000)==(0x0C000000||0x14000000||0x20000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 17.--19. "Opc2,Opc2 value from the issued instruction" "0,1,2,3,4,5,6,7" bitfld.quad 0x00 14.--16. "Opc1,Opc1 value from the issued instruction" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x00 10.--13. "CRn,CRn value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 5.--9. "Rt,Rt value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 1.--4. "CRm,CRm value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x34520))&0xFC000000)==(0x10000000||0x30000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 16.--19. "Opc1,Opc1 value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 10.--14. "Rt2,Rt2 value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 5.--9. "Rt,Rt value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" bitfld.quad 0x00 1.--4. "CRm,CRm value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x34520))&0xFC000000)==0x18000000) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" hexmask.quad.byte 0x00 12.--19. 1 "IMM8,The immediate value from the issued instruction" bitfld.quad 0x00 5.--9. "Rn,Rn value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 4. "OFFSET,Indicates whether the offset is added or subtracted" "Subtracted,Added" bitfld.quad 0x00 1.--3. "AM,Addressing mode" "Immediate unindexed,Immediate post-indexed,Immediate offset,Immediate pre-indexed,Literal unindexed,Reserved,Literal offset,Reserved" newline bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x34520))&0xFC000000)==0x1C000000) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" elif (((d.l(spr:0x34520))&0xFC000000)==(0x44000000||0x48000000||0x54000000||0x58000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline hexmask.quad.word 0x00 0.--15. "IMM16,The value of the immediate field from the HVC or SVC instruction" elif (((d.l(spr:0x34520))&0xFC000000)==0x5C000000) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline hexmask.quad.word 0x00 0.--15. "IMM16,The value of the immediate field from the issued SMC instruction" elif (((d.l(spr:0x34520))&0xFC000000)==0x60000000) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 20.--21. "Op0,Op0 value from the issued instruction" "0,1,2,3" bitfld.quad 0x00 17.--19. "Op2,Opc2 value from the issued instruction" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x00 14.--16. "Op1,Opc1 value from the issued instruction" "0,1,2,3,4,5,6,7" bitfld.quad 0x00 10.--13. "CRn,CRn value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 5.--9. "Rt,Rt value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" bitfld.quad 0x00 1.--4. "CRm,CRm value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x34520))&0xFC000000)==(0x80000000||0x84000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 10. "FNV,FAR not Valid" "No,Yes" bitfld.quad 0x00 9. "EA,External abort type" "Not external,External" newline bitfld.quad 0x00 7. "S1PTW,Fault on the stage 2 translation of an address accessed during a stage 1 translation table walk" "Not stage 2,Stage 2" bitfld.quad 0x00 0.--5. "IFSC,Instruction Fault Status Code" "Address size/0th level/base register,Address size/1st level,Address size/2nd level,Address size/3rd level,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3d level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external abort/not table walk,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Sync. parity/ECC/not table walk,Reserved,Reserved,Reserved,Sync. external abort/0th level,Sync. external abort/1st level,Sync. external abort/2nd level,Sync. external abort/3rd level,Sync. parity/ECC/0th level,Sync. parity/ECC/1st level,Sync. parity/ECC/2nd level,Sync. parity/ECC/3rd level,Alignment,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,?..." elif (((d.l(spr:0x34520))&0xFD000000)==(0x91000000||0x95000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,Instruction syndrome valid" "Not valid,Valid" bitfld.quad 0x00 22.--23. "SAS,Syndrome Access Size" "Byte,Halfword,Word,Doubleword" newline bitfld.quad 0x00 21. "SSE,Syndrome Sign Extend" "Not required,Required" bitfld.quad 0x00 16.--20. "SRT,Syndrome Register transfer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 15. "SF,Width of the register accessed by the instruction is Sixty-Four" "32-bit,64-bit" bitfld.quad 0x00 14. "AR,Acquire/Release" "No,Yes" newline bitfld.quad 0x00 10. "FNV,FAR not Valid" "No,Yes" bitfld.quad 0x00 9. "EA,External abort type" "Not external,External" newline bitfld.quad 0x00 8. "CM,Fault came from a Cache Maintenance Instruction other than DC ZVA" "No,Yes" bitfld.quad 0x00 7. "S1PTW,Fault on the stage 2 translation of an address accessed during a stage 1 translation table walk" "Not stage 2,Stage 2" newline bitfld.quad 0x00 6. "WNR,Write not Read" "Read,Write" bitfld.quad 0x00 0.--5. "DFSC,Data Fault Status Code" "Address size/0th level/TTBR,Address size/1st level,Address size/2nd level,Address size/3rd level,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3d level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external abort/not table walk,Reserved,Reserved,Reserved,Sync. external abort/0th level,Sync. external abort/1th level,Sync. external abort/2th level,Sync. external abort/3th level,Sync. parity/ECC/not table walk,Reserved,Reserved,Reserved,Sync. parity/ECC/0th level,Sync. parity/ECC/1st level,Sync. parity/ECC/2nd level,Sync. parity/ECC/3rd level,Reserved,Alignment,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,Reserved,Reserved,Reserved,Lockdown,Unsupported Exclusive access,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Section Domain,Page Domain,Reserved" elif (((d.l(spr:0x34520))&0xFD000000)==(0x90000000||0x94000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 10. "FNV,FAR not Valid" "No,Yes" bitfld.quad 0x00 9. "EA,External abort type" "Not external,External" newline bitfld.quad 0x00 8. "CM,Fault came from a Cache Maintenance Instruction other than DC ZVA" "No,Yes" bitfld.quad 0x00 7. "S1PTW,Fault on the stage 2 translation of an address accessed during a stage 1 translation table walk" "Not stage 2,Stage 2" newline bitfld.quad 0x00 6. "WNR,Write not Read" "Read,Write" bitfld.quad 0x00 0.--5. "DFSC,Data Fault Status Code" "Address size/0th level/TTBR,Address size/1st level,Address size/2nd level,Address size/3rd level,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3d level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external abort/not table walk,Reserved,Reserved,Reserved,Sync. external abort/0th level,Sync. external abort/1th level,Sync. external abort/2th level,Sync. external abort/3th level,Sync. parity/ECC/not table walk,Reserved,Reserved,Reserved,Sync. parity/ECC/0th level,Sync. parity/ECC/1st level,Sync. parity/ECC/2nd level,Sync. parity/ECC/3rd level,Reserved,Alignment,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,Reserved,Reserved,Reserved,Lockdown,Unsupported Exclusive access,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Section Domain,Page Domain,Reserved" elif (((d.l(spr:0x34520))&0xFC800000)==(0xA0800000||0xB0800000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 23. "TFV,Trapped Fault Valid" "Not valid,Valid" bitfld.quad 0x00 8.--10. "VECITR,Number of the element that is being reported" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x00 7. "IDF,Input Denormal floating-point exception trapped" "Not occurred,Occurred" bitfld.quad 0x00 4. "IXF,Inexact floating-point exception trapped" "Not occurred,Occurred" newline bitfld.quad 0x00 3. "UFF,Underflow floating-point exception trapped" "Not occurred,Occurred" bitfld.quad 0x00 2. "OFF,Overflow floating-point exception trapped" "Not occurred,Occurred" newline bitfld.quad 0x00 1. "DZF,Divide-by-zero floating-point exception trapped" "Not occurred,Occurred" bitfld.quad 0x00 0. "IOF,Invalid Operation floating-point exception trapped" "Not occurred,Occurred" elif (((d.l(spr:0x34520))&0xFC800000)==(0xA0000000||0xB0000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 23. "TFV,Trapped Fault Valid" "Not valid,Valid" bitfld.quad 0x00 8.--10. "VECITR,Number of the element that is being reported" "0,1,2,3,4,5,6,7" elif (((d.l(spr:0x34520))&0xFD000000)==0xBD000000) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,Instruction syndrome valid" "Not valid,Valid" hexmask.quad.tbyte 0x00 0.--23. 1 "IS,Additional information about the SError interrupt" elif (((d.l(spr:0x34520))&0xFD000000)==0xBC000000) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,Instruction syndrome valid" "Not valid,Valid" elif (((d.l(spr:0x34520))&0xFC000000)==(0xC0000000||0xC4000000||0xE8000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 0.--5. "IFSC,Instruction Fault Status Code" "0,1,2,3,%d..." elif (((d.l(spr:0x34520))&0xFC000000)==(0xC8000000||0xCC000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,EX bit valid" "Not valid,Valid" bitfld.quad 0x00 6. "EX,Exclusive operation" "No,Yes" newline bitfld.quad 0x00 0.--5. "IFSC,Instruction Fault Status Code" "0,1,2,3,%d..." elif (((d.l(spr:0x34520))&0xFC000000)==(0xD0000000||0xD4000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 8. "CM,Data came from a Cache Maintenance Instruction other than DC ZVA" "No,Yes" bitfld.quad 0x00 6. "WNR,Write not Read" "Read,Write" newline bitfld.quad 0x00 0.--5. "IFSC,Instruction Fault Status Code" "0,1,2,3,%d..." elif (((d.l(spr:0x34520))&0xFC000000)==(0xE0000000||0xF0000000)) group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline hexmask.quad.word 0x00 0.--15. 1 "COMMENT,Set to the instruction comment field value" else group.quad SPR:0x34520++0x00 line.quad 0x00 "ESR_EL2,Exception Syndrome Register (EL2)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,MCR/VMRS to CP10/AArch32,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,SVC in AArch32,HVC in AArch32,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Trapped Floating-point/AArch32,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Breakpoint/lower level,Breakpoint/current level,Software Step/lower level,Software Step/current level,Watchpoint debug/lower level,Watchpoint debug/current level,Reserved,Reserved,Software Breakpoint/AArch32,Reserved,Vector Catch,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" endif if (((d.l(spr:0x36520))&0xFC000000)==(0x00000000||0x38000000||0x88000000||0x98000000||0x4C000000)) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" elif (((d.l(spr:0x36520))&0xFC000000)==0x04000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 0. "TI,Trapped instruction" "WFI,WFE" elif (((d.l(spr:0x36520))&0xFC000000)==(0x0C000000||0x14000000)) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 17.--19. "Opc2,Opc2 value from the issued instruction" "0,1,2,3,4,5,6,7" bitfld.quad 0x00 14.--16. "Opc1,Opc1 value from the issued instruction" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x00 10.--13. "CRn,CRn value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 5.--9. "Rt,Rt value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 1.--4. "CRm,CRm value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x36520))&0xFC000000)==(0x10000000||0x30000000)) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 16.--19. "Opc1,Opc1 value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 10.--14. "Rt2,Rt2 value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 5.--9. "Rt,Rt value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" bitfld.quad 0x00 1.--4. "CRm,CRm value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x36520))&0xFC000000)==0x18000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" hexmask.quad.byte 0x00 12.--19. 1 "IMM8,The immediate value from the issued instruction" bitfld.quad 0x00 5.--9. "Rn,Rn value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 4. "OFFSET,Indicates whether the offset is added or subtracted" "Subtracted,Added" bitfld.quad 0x00 1.--3. "AM,Addressing mode" "Immediate unindexed,Immediate post-indexed,Immediate offset,Immediate pre-indexed,Literal unindexed,Reserved,Literal offset,Reserved" newline bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x36520))&0xFC000000)==0x1C000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" elif (((d.l(spr:0x36520))&0xFC000000)==(0x54000000||0x58000000)) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline hexmask.quad.word 0x00 0.--15. "IMM16,The value of the immediate field from the HVC or SVC instruction" elif (((d.l(spr:0x36520))&0xFC000000)==0x5C000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline hexmask.quad.word 0x00 0.--15. "IMM16,The value of the immediate field from the issued SMC instruction" elif (((d.l(spr:0x36520))&0xFC000000)==0x60000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "CV,Condition code valid" "Not valid,Valid" bitfld.quad 0x00 20.--23. "COND,Condition code for the trapped instruction" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" newline bitfld.quad 0x00 20.--21. "Op0,Op0 value from the issued instruction" "0,1,2,3" bitfld.quad 0x00 17.--19. "Op2,Opc2 value from the issued instruction" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x00 14.--16. "Op1,Opc1 value from the issued instruction" "0,1,2,3,4,5,6,7" bitfld.quad 0x00 10.--13. "CRn,CRn value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 5.--9. "Rt,Rt value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" bitfld.quad 0x00 1.--4. "CRm,CRm value from the issued instruction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 0. "DIRECTION,Direction of the trapped instruction" "Write,Read" elif (((d.l(spr:0x36520))&0xFC000000)==0x7C000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline hexmask.quad.long 0x00 0.--24. 1 "IMPL_DEF,Implementation defined" elif (((d.l(spr:0x36520))&0xFC000000)==(0x80000000||0x84000000)) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 10. "FNV,FAR not Valid" "No,Yes" bitfld.quad 0x00 9. "EA,External abort type" "Not external,External" newline bitfld.quad 0x00 7. "S1PTW,Fault on the stage 2 translation of an address accessed during a stage 1 translation table walk" "Not stage 2,Stage 2" bitfld.quad 0x00 0.--5. "IFSC,Instruction Fault Status Code" "Address size/0th level/base register,Address size/1st level,Address size/2nd level,Address size/3rd level,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3d level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external abort/not table walk,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Sync. parity/ECC/not table walk,Reserved,Reserved,Reserved,Sync. external abort/0th level,Sync. external abort/1st level,Sync. external abort/2nd level,Sync. external abort/3rd level,Sync. parity/ECC/0th level,Sync. parity/ECC/1st level,Sync. parity/ECC/2nd level,Sync. parity/ECC/3rd level,Alignment,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,?..." elif (((d.l(spr:0x36520))&0xFD000000)==(0x91000000||0x95000000)) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,Instruction syndrome valid" "Not valid,Valid" bitfld.quad 0x00 22.--23. "SAS,Syndrome Access Size" "Byte,Halfword,Word,Doubleword" newline bitfld.quad 0x00 21. "SSE,Syndrome Sign Extend" "Not required,Required" bitfld.quad 0x00 16.--20. "SRT,Syndrome Register transfer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline bitfld.quad 0x00 15. "SF,Width of the register accessed by the instruction is Sixty-Four" "32-bit,64-bit" bitfld.quad 0x00 14. "AR,Acquire/Release" "No,Yes" newline bitfld.quad 0x00 10. "FNV,FAR not Valid" "No,Yes" bitfld.quad 0x00 9. "EA,External abort type" "Not external,External" newline bitfld.quad 0x00 8. "CM,Fault came from a Cache Maintenance Instruction other than DC ZVA" "No,Yes" bitfld.quad 0x00 7. "S1PTW,Fault on the stage 2 translation of an address accessed during a stage 1 translation table walk" "Not stage 2,Stage 2" newline bitfld.quad 0x00 6. "WNR,Write not Read" "Read,Write" bitfld.quad 0x00 0.--5. "DFSC,Data Fault Status Code" "Address size/0th level/TTBR,Address size/1st level,Address size/2nd level,Address size/3rd level,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3d level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external abort/not table walk,Reserved,Reserved,Reserved,Sync. external abort/0th level,Sync. external abort/1th level,Sync. external abort/2th level,Sync. external abort/3th level,Sync. parity/ECC/not table walk,Reserved,Reserved,Reserved,Sync. parity/ECC/0th level,Sync. parity/ECC/1st level,Sync. parity/ECC/2nd level,Sync. parity/ECC/3rd level,Reserved,Alignment,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,Reserved,Reserved,Reserved,Lockdown,Unsupported Exclusive access,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Section Domain,Page Domain,Reserved" elif (((d.l(spr:0x36520))&0xFD000000)==(0x90000000||0x94000000)) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 10. "FNV,FAR not Valid" "No,Yes" bitfld.quad 0x00 9. "EA,External abort type" "Not external,External" newline bitfld.quad 0x00 8. "CM,Fault came from a Cache Maintenance Instruction other than DC ZVA" "No,Yes" bitfld.quad 0x00 7. "S1PTW,Fault on the stage 2 translation of an address accessed during a stage 1 translation table walk" "Not stage 2,Stage 2" newline bitfld.quad 0x00 6. "WNR,Write not Read" "Read,Write" bitfld.quad 0x00 0.--5. "DFSC,Data Fault Status Code" "Address size/0th level/TTBR,Address size/1st level,Address size/2nd level,Address size/3rd level,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3d level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external abort/not table walk,Reserved,Reserved,Reserved,Sync. external abort/0th level,Sync. external abort/1th level,Sync. external abort/2th level,Sync. external abort/3th level,Sync. parity/ECC/not table walk,Reserved,Reserved,Reserved,Sync. parity/ECC/0th level,Sync. parity/ECC/1st level,Sync. parity/ECC/2nd level,Sync. parity/ECC/3rd level,Reserved,Alignment,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,Reserved,Reserved,Reserved,Lockdown,Unsupported Exclusive access,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Section Domain,Page Domain,Reserved" elif (((d.l(spr:0x36520))&0xFC800000)==0xB0800000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 23. "TFV,Trapped Fault Valid" "Not valid,Valid" bitfld.quad 0x00 8.--10. "VECITR,Number of the element that is being reported" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x00 7. "IDF,Input Denormal floating-point exception trapped" "Not occurred,Occurred" bitfld.quad 0x00 4. "IXF,Inexact floating-point exception trapped" "Not occurred,Occurred" newline bitfld.quad 0x00 3. "UFF,Underflow floating-point exception trapped" "Not occurred,Occurred" bitfld.quad 0x00 2. "OFF,Overflow floating-point exception trapped" "Not occurred,Occurred" newline bitfld.quad 0x00 1. "DZF,Divide-by-zero floating-point exception trapped" "Not occurred,Occurred" bitfld.quad 0x00 0. "IOF,Invalid Operation floating-point exception trapped" "Not occurred,Occurred" elif (((d.l(spr:0x36520))&0xFC800000)==0xB0000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 23. "TFV,Trapped Fault Valid" "Not valid,Valid" bitfld.quad 0x00 8.--10. "VECITR,Number of the element that is being reported" "0,1,2,3,4,5,6,7" elif (((d.l(spr:0x36520))&0xFD000000)==0xBD000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,Instruction syndrome valid" "Not valid,Valid" hexmask.quad.tbyte 0x00 0.--23. 1 "IS,Additional information about the SError interrupt" elif (((d.l(spr:0x36520))&0xFD000000)==0xBC000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline bitfld.quad 0x00 24. "ISV,Instruction syndrome valid" "Not valid,Valid" elif (((d.l(spr:0x36520))&0xFC000000)==0xF0000000) group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" bitfld.quad 0x00 25. "IL,Instruction Length for synchronous exceptions" "16-bit,32-bit" newline hexmask.quad.word 0x00 0.--15. 1 "COMMENT,Set to the instruction comment field value" else group.quad SPR:0x36520++0x00 line.quad 0x00 "ESR_EL3,Exception Syndrome Register (EL3)" bitfld.quad 0x00 26.--31. "EC,Exception class" "Unknown reason,WFI/WFE instruction,Reserved,MCR/MRC to CP15/AArch32,MCRR/MRRC to CP15/AArch32,MCR/MRC to CP14/AArch32,LDC/STC to CP14/AArch32,SIMD/Floating point register,Reserved,Reserved,Reserved,Reserved,MCRR/MRRC to CP14/AArch32,Reserved,Illegal execution,Reserved,Reserved,Reserved,Reserved,SMC in AArch32,Reserved,SVC in AArch64,HVC in AArch64,SMC in AArch64,MSR/MRS/System in AArch64,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,IMPLEMENTATION DEFINED,Instruction abort,Instruction abort/AArch64,PC alignment fault,Reserved,Data abort,Data abort/Aarch64,SP alignment fault,Reserved,Reserved,Reserved,Reserved,Reserved,Trapped Floating-point/AArch64,Reserved,Reserved,SError interrupt,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Software Breakpoint/AArch64,Reserved,Reserved,Reserved" endif endif tree.end newline if (CORENAME()=="CORTEXA57") if (((per.q(spr:0x34501))&0x200)==0x200) group.quad spr:0x34501++0x00 line.quad 0x00 "IFSR32_EL2,Instruction Fault Status Register" bitfld.quad 0x00 12. "EXT,External Abort Type" "DECERR,SLVERR" bitfld.quad 0x00 9. "LPAE,Translation table formats on taking a Data Abort exception" "Short,Long" newline bitfld.quad 0x00 0.--5. "STATUS,Fault Status" "Address size/0th level/TTBR0/TTBR1,Reserved,Reserved,Reserved,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Access flag/0th level,Access flag/1st level,Access flag/2nd level,Access flag/3rd level,Permission/0th level,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external,Reserved,Reserved,Reserved,Sync. external/on TTW/0th level,Sync. external/on TTW/1st level,Sync. external/on TTW/2nd level,Sync. external/on TTW/3rd level,Sync. parity/on memory access,Reserved,Reserved,Reserved,Sync. parity/on memory access/on TTW/0th level,Sync. parity/on memory access/on TTW/1st level,Sync. parity/on memory access/on TTW/2nd level,Sync. parity/on memory access/on TTW/3rd level,Reserved,Alignment,Debug event,?..." else group.quad spr:0x34501++0x00 line.quad 0x00 "IFSR32_EL2,Instruction Fault Status Register" bitfld.quad 0x00 12. "EXT,External Abort Type" "DECERR,SLVERR" bitfld.quad 0x00 9. "LPAE,Translation table formats on taking a Data Abort exception" "Short,Long" newline bitfld.quad 0x00 0.--3. 10. "FS,Fault Status" "Reserved,Alignment,Debug event,Access flag/1st level,Reserved,Translation/1st level,Access flag/2nd level,Translation/2nd level,Sync. external/non-translation,Domain/1st level,Reserved,Domain/2nd level,Sync. external/on TTW/1st level,Permission/1st level,Sync. external/on TTW/2nd level,Permission/2nd level,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Sync. parity/on memory access,Reserved,Reserved,Sync. parity/on TTW/1st level,Reserved,Sync. parity/on TTW/2nd level,?..." endif elif (CORENAME()=="CORTEXA53") if (((per.q(spr:0x34501))&0x200)==0x200) group.quad spr:0x34501++0x00 line.quad 0x00 "IFSR32_EL2,Instruction Fault Status Register" bitfld.quad 0x00 12. "EXT,External Abort Type" "DECERR,SLVERR" bitfld.quad 0x00 9. "LPAE,Translation table formats on taking a Data Abort exception" "Short,Long" newline bitfld.quad 0x00 0.--5. "STATUS,Fault Status" "Address size/TTBR0/TTBR1,Reserved,Reserved,Reserved,Reserved,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3rd level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external,Reserved,Reserved,Reserved,Reserved,Sync. external/on TTW/1st level,Sync. external/on TTW/2nd level,Sync. external/on TTW/3rd level,Sync. parity/on memory access,Reserved,Reserved,Reserved,Reserved,Sync. parity/on memory access/on TTW/1st level,Sync. parity/on memory access/on TTW/2nd level,Sync. parity/on memory access/on TTW/3rd level,Reserved,Alignment,Debug event,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,?..." else group.quad spr:0x34501++0x00 line.quad 0x00 "IFSR32_EL2,Instruction Fault Status Register" bitfld.quad 0x00 12. "EXT,External Abort Type" "DECERR,SLVERR" bitfld.quad 0x00 9. "LPAE,Translation table formats on taking a Data Abort exception" "Short,Long" newline bitfld.quad 0x00 0.--3. 10. "FS,Fault Status" "Reserved,Reserved,Debug event,Access flag/section,Reserved,Translation/section,Access flag/page,Translation/page,Sync. external/non-translation,Domain/section,Reserved,Domain/page,Sync. external/on TTW/1st level,Permission/section,Sync. external/on TTW/2nd level,Permission/page,TLB conflict,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Sync. parity/on memory access,Reserved,Reserved,Sync. parity/on TTW/1st level,Reserved,Sync. parity/on TTW/2nd level,?..." endif endif group.quad spr:0x30600++0x00 line.quad 0x00 "FAR_EL1,Fault Address Register" group.quad spr:0x34600++0x00 line.quad 0x00 "FAR_EL2,Fault Address Register" group.quad spr:0x36600++0x00 line.quad 0x00 "FAR_EL3,Fault Address Register" group.quad spr:0x34604++0x00 line.quad 0x00 "HPFAR_EL2,Hypervisor IPA Fault Address Register" group.quad spr:0x30C00++0x00 line.quad 0x00 "VBAR_EL1,Vector Base Address Register" hexmask.quad 0x00 11.--63. 0x800 "VBA,Vector base address" group.quad spr:0x34C00++0x00 line.quad 0x00 "VBAR_EL2,Vector Base Address Register" hexmask.quad 0x00 11.--63. 0x800 "VBA,Vector base address" group.quad spr:0x36C00++0x00 line.quad 0x00 "VBAR_EL3,Vector Base Address Register" hexmask.quad 0x00 11.--63. 0x800 "VBA,Vector base address" if (CORENAME()=="CORTEXA57") rgroup.quad spr:0x36C01++0x00 line.quad 0x00 "RVBAR_EL3,Reset Vector Base Address Register" hexmask.quad.pbyte 0x00 2.--43. 0x1 "RVBA,Reset Vector Base Address" elif (CORENAME()=="CORTEXA53") rgroup.quad spr:0x36C01++0x00 line.quad 0x00 "RVBAR_EL3,Reset Vector Base Address Register" hexmask.quad.pbyte 0x00 2.--39. 0x1 "RVBA,Reset Vector Base Address" endif rgroup.quad SPR:0x30C10++0x00 line.quad 0x00 "ISR_EL1,Interrupt Status Register" bitfld.quad 0x00 8. "A,External abort pending flag" "Not pending,Pending" bitfld.quad 0x00 7. "I,Interrupt pending flag" "Not pending,Pending" newline bitfld.quad 0x00 6. "F,Fast interrupt pending flag" "Not pending,Pending" group.quad SPR:0x36C02++0x00 line.quad 0x00 "RMR_EL3,Reset Management Register" bitfld.quad 0x00 1. "RR,Reset Request" "Not requested,Requested" bitfld.quad 0x00 0. "AA64,Determines which execution state the processor boots into after a warmreset" "AArch32,AArch64" if (CORENAME()=="CORTEXA57") rgroup.quad spr:0x31F30++0x00 line.quad 0x00 "CBAR_EL1,Configuration Base Address Register" hexmask.quad.long 0x00 18.--43. 1. "PERIPHBASE[43:18],Periphbase[43:18]" elif (CORENAME()=="CORTEXA53") rgroup.quad spr:0x31F30++0x00 line.quad 0x00 "CBAR_EL1,Configuration Base Address Register" hexmask.quad.tbyte 0x00 18.--39. 1. "PERIPHBASE[39:18],Periphbase[39:18]" endif group.quad spr:0x30D01++0x00 line.quad 0x00 "CONTEXTIDR_EL1,Context ID Register" hexmask.quad.long 0x00 0.--31. 1. "PROCID,Process identifier" group.quad spr:0x33D02++0x00 line.quad 0x00 "TPIDR_EL0,Software Thread ID Register" group.quad spr:0x33D03++0x00 line.quad 0x00 "TPIDRRO_EL0,Software Thread ID Register" group.quad spr:0x30D04++0x00 line.quad 0x00 "TPIDR_EL1,Software Thread ID Register" group.quad spr:0x34D02++0x00 line.quad 0x00 "TPIDR_EL2,Software Thread ID Register" group.quad spr:0x36D02++0x00 line.quad 0x00 "TPIDR_EL3,Software Thread ID Register" tree.end tree "Memory Management Unit" group.quad spr:0x30100++0x0 line.quad 0x00 "SCTLR_EL1,System Control Register (EL1)" bitfld.quad 0x00 26. "UCI,EL0 access enable (DC CVAU|DC CIVAC|DC CVAC|IC IVAU)" "Disabled,Enabled" bitfld.quad 0x00 25. "EE,Exception endianness" "Little,Big" newline bitfld.quad 0x00 24. "E0E,Endianness of explicit data access at EL0" "Little,Big" bitfld.quad 0x00 19. "WXN,Write permission implies PL1 Execute Never" "Not forced,Forced" newline bitfld.quad 0x00 18. "NTWE,Not trap WFE" "No,Yes" bitfld.quad 0x00 16. "NTWI,Not trap WFI" "No,Yes" newline bitfld.quad 0x00 15. "UCT,EL0 access enable (CTR_EL0)" "Disabled,Enabled" bitfld.quad 0x00 14. "DZE,EL0 access enable (DC ZVA)" "Disabled,Enabled" newline bitfld.quad 0x00 12. "I,Instruction Cache Enable" "Disabled,Enabled" bitfld.quad 0x00 9. "UMA,User Mask Access" "Disabled,Enabled" newline bitfld.quad 0x00 8. "SED,SETEND Disable" "No,Yes" bitfld.quad 0x00 7. "ITD,IT instruction disable" "No,Yes" newline bitfld.quad 0x00 5. "CP15BEN,c15 barrier enable" "Disabled,Enabled" bitfld.quad 0x00 4. "SA0,EL0 stack alignment check enable" "Disabled,Enabled" newline bitfld.quad 0x00 3. "SA,SP stack alignment check enable" "Disabled,Enabled" bitfld.quad 0x00 2. "C,Enable unified cache or data cache" "Disabled,Enabled" newline bitfld.quad 0x00 1. "A,Strict Alignment" "Disabled,Enabled" bitfld.quad 0x00 0. "M,MMU or Protection Unit" "Disabled,Enabled" group.quad spr:0x34100++0x0 line.quad 0x00 "SCTLR_EL2,System Control Register (EL2)" bitfld.quad 0x00 25. "EE,Exception endianness" "Little,Big" bitfld.quad 0x00 19. "WXN,Write permission implies PL1 Execute Never" "Not forced,Forced" newline bitfld.quad 0x00 12. "I,Instruction Cache Enable" "Disabled,Enabled" bitfld.quad 0x00 3. "SA,SP stack alignment check enable" "Disabled,Enabled" newline bitfld.quad 0x00 2. "C,Enable unified cache or data cache" "Disabled,Enabled" bitfld.quad 0x00 1. "A,Strict Alignment" "Disabled,Enabled" newline bitfld.quad 0x00 0. "M,MMU or Protection Unit" "Disabled,Enabled" group.quad spr:0x36100++0x0 line.quad 0x00 "SCTLR_EL3,System Control Register (EL3)" bitfld.quad 0x00 25. "EE,Exception endianness" "Little,Big" bitfld.quad 0x00 19. "WXN,Write permission implies PL1 Execute Never" "Not forced,Forced" newline bitfld.quad 0x00 12. "I,Instruction Cache Enable" "Disabled,Enabled" bitfld.quad 0x00 3. "SA,SP stack alignment check enable" "Disabled,Enabled" newline bitfld.quad 0x00 2. "C,Enable unified cache or data cache" "Disabled,Enabled" bitfld.quad 0x00 1. "A,Strict Alignment" "Disabled,Enabled" newline bitfld.quad 0x00 0. "M,MMU or Protection Unit" "Disabled,Enabled" group.quad spr:0x30200++0x00 line.quad 0x00 "TTBR0_EL1,Translation Table Base Register 0 (EL1)" hexmask.quad.word 0x00 48.--63. 1. "ASID,ASID for the translation table base address" hexmask.quad 0x00 0.--47. 1. "BADDR,Translation table base address" group.quad spr:0x30201++0x00 line.quad 0x00 "TTBR1_EL1,Translation Table Base Register 1 (EL1)" hexmask.quad.word 0x00 48.--63. 1. "ASID,ASID for the translation table base address" hexmask.quad 0x00 0.--47. 1. "BADDR,Translation table base address" if (CORENAME()=="CORTEXA57") group.quad spr:0x30202++0x00 line.quad 0x00 "TCR_EL1,Translation Control Register (EL1)" bitfld.quad 0x00 38. "TBI1,Top Byte Ignored 1" "Not ignored,Ignored" bitfld.quad 0x00 37. "TBI0,Top Byte Ignored 0" "Not ignored,Ignored" newline bitfld.quad 0x00 36. "AS,ASID size" "8-bit,16-bit" bitfld.quad 0x00 32.--34. "IPS,Intermediate Physical Address Size" "32 bits/4 GB,36 bits/64 GB,40 bits/1 TB,42 bits/4 TB,44 bits/16 TB,48 bits/256 TB,?..." newline bitfld.quad 0x00 30. "TG1,TTBR1_EL1 granule size" "4 KByte,64 KByte" bitfld.quad 0x00 28.--29. "SH1,Shareability attribute for memory associated with translation table walks using TTBR1_EL1" "Non-shareable,Reserved,Outer shareable,Inner shareable" newline bitfld.quad 0x00 26.--27. "ORGN1,Outer cacheability attribute for memory associated with translation table walks using TTBR1_EL1" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" bitfld.quad 0x00 24.--25. "IRGN1,Inner cacheability attribute for memory associated with translation table walks using TTBR1_EL1" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" newline bitfld.quad 0x00 23. "EPD1,Translation table walk disable for translations using TTBR1_EL1" "Enabled,Disabled" bitfld.quad 0x00 22. "A1,Selects whether TTBR0_EL1 or TTBR1_EL1 defines the ASID" "TTBR0_EL1,TTBR1_EL1" newline bitfld.quad 0x00 16.--21. "T1SZ,Size offset of the memory region addressed by TTBR1_EL1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63" bitfld.quad 0x00 14. "TG0,TTBR0_EL1 granule size" "4 KB,64 KB" newline bitfld.quad 0x00 12.--13. "SH0,Shareability attribute for memory associated with translation table walks using TTBR0_EL1" "Non-shareable,Reserved,Outer shareable,Inner shareable" bitfld.quad 0x00 10.--11. "ORGN0,Outer cacheability attribute for memory associated with translation table walks using TTBR0_EL1" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" newline bitfld.quad 0x00 8.--9. "IRGN0,Inner cacheability attribute for memory associated with translation table walks using TTBR0_EL1" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" bitfld.quad 0x00 0.--5. "T0SZ,Size offset of the memory region addressed by TTBR0_EL1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63" elif (CORENAME()=="CORTEXA53") group.quad spr:0x30202++0x00 line.quad 0x00 "TCR_EL1,Translation Control Register (EL1)" bitfld.quad 0x00 38. "TBI1,Top Byte Ignored 1" "Not ignored,Ignored" bitfld.quad 0x00 37. "TBI0,Top Byte Ignored 0" "Not ignored,Ignored" newline bitfld.quad 0x00 36. "AS,ASID size" "8-bit,16-bit" bitfld.quad 0x00 32.--34. "IPS,Intermediate Physical Address Size" "32 bits/4 GB,36 bits/64 GB,40 bits/1 TB,?..." newline bitfld.quad 0x00 30.--31. "TG1,TTBR1_EL1 granule size" "Reserved,Reserved,4 KB,64 KB" bitfld.quad 0x00 28.--29. "SH1,Shareability attribute for memory associated with translation table walks using TTBR1_EL1" "Non-shareable,Reserved,Outer shareable,Inner shareable" newline bitfld.quad 0x00 26.--27. "ORGN1,Outer cacheability attribute for memory associated with translation table walks using TTBR1_EL1" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" bitfld.quad 0x00 24.--25. "IRGN1,Inner cacheability attribute for memory associated with translation table walks using TTBR1_EL1" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" newline bitfld.quad 0x00 23. "EPD1,Translation table walk disable for translations using TTBR1_EL1" "Enabled,Disabled" bitfld.quad 0x00 22. "A1,Selects whether TTBR0_EL1 or TTBR1_EL1 defines the ASID" "TTBR0_EL1,TTBR1_EL1" newline bitfld.quad 0x00 16.--21. "T1SZ,Size offset of the memory region addressed by TTBR1_EL1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63" bitfld.quad 0x00 14.--15. "TG0,TTBR0_EL1 granule size" "4 KB,64 KB,?..." newline bitfld.quad 0x00 12.--13. "SH0,Shareability attribute for memory associated with translation table walks using TTBR0_EL1" "Non-shareable,Reserved,Outer shareable,Inner shareable" bitfld.quad 0x00 10.--11. "ORGN0,Outer cacheability attribute for memory associated with translation table walks using TTBR0_EL1" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" newline bitfld.quad 0x00 8.--9. "IRGN0,Inner cacheability attribute for memory associated with translation table walks using TTBR0_EL1" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" bitfld.quad 0x00 7. "EPD0,Translation table walk disable for translations using TTBR0" "Enabled,Disabled" newline bitfld.quad 0x00 0.--5. "T0SZ,Size offset of the memory region addressed by TTBR0_EL1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63" endif group.quad spr:0x34200++0x00 line.quad 0x00 "TTBR0_EL2,Translation Table Base Register 0 (EL2)" hexmask.quad 0x00 0.--47. 1. "BADDR,Translation table base address" if (CORENAME()=="CORTEXA57") group.quad spr:0x34202++0x00 line.quad 0x00 "TCR_EL2,Translation Control Register (EL2)" bitfld.quad 0x00 20. "TBI,Top Byte Ignored" "Not ignored,Ignored" bitfld.quad 0x00 16.--18. "PS,Intermediate Physical Address Size" "32 bits/4 GB,36 bits/64 GB,40 bits/1 TB,42 bits/4 TB,44 bits/16 TB,48 bits/256 TB,?..." newline bitfld.quad 0x00 14. "TG0,TTBR0_EL2 granule size" "4 KB,64 KB" bitfld.quad 0x00 12.--13. "SH0,Shareability attribute for memory associated with translation table walks using TTBR0_EL2" "Non-shareable,Reserved,Outer shareable,Inner shareable" newline bitfld.quad 0x00 10.--11. "ORGN0,Outer cacheability attribute for memory associated with translation table walks using TTBR0_EL2" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" bitfld.quad 0x00 8.--9. "IRGN0,Inner cacheability attribute for memory associated with translation table walks using TTBR0_EL2" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" newline bitfld.quad 0x00 0.--5. "T0SZ,Size offset of the memory region addressed by TTBR0_EL2" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63" elif (CORENAME()=="CORTEXA53") group.quad spr:0x34202++0x00 line.quad 0x00 "TCR_EL2,Translation Control Register (EL2)" bitfld.quad 0x00 20. "TBI,Top Byte Ignored" "Not ignored,Ignored" bitfld.quad 0x00 16.--18. "PS,Intermediate Physical Address Size" "32 bits/4 GB,36 bits/64 GB,40 bits/1 TB,?..." newline bitfld.quad 0x00 14.--15. "TG0,TTBR0_EL2 granule size" "4 KB,64 KB,?..." bitfld.quad 0x00 12.--13. "SH0,Shareability attribute for memory associated with translation table walks using TTBR0_EL2" "Non-shareable,Reserved,Outer shareable,Inner shareable" newline bitfld.quad 0x00 10.--11. "ORGN0,Outer cacheability attribute for memory associated with translation table walks using TTBR0_EL2" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" bitfld.quad 0x00 8.--9. "IRGN0,Inner cacheability attribute for memory associated with translation table walks using TTBR0_EL2" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" newline bitfld.quad 0x00 0.--5. "T0SZ,Size offset of the memory region addressed by TTBR0_EL2" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63" endif group.quad spr:0x36200++0x00 line.quad 0x00 "TTBR0_EL3,Translation Table Base Register 0 (EL3)" hexmask.quad 0x00 0.--47. 1. "BADDR,Translation table base address" if (CORENAME()=="CORTEXA57") group.quad spr:0x36202++0x00 line.quad 0x00 "TCR_EL3,Translation Control Register (EL3)" bitfld.quad 0x00 20. "TBI,Top Byte Ignored" "Not ignored,Ignored" bitfld.quad 0x00 16.--18. "PS,Intermediate Physical Address Size" "32 bits/4 GB,36 bits/64 GB,40 bits/1 TB,42 bits/4 TB,44 bits/16 TB,48 bits/256 TB,?..." newline bitfld.quad 0x00 14. "TGO,TTBR0_EL3 granule size" "4 KB,64 KB" bitfld.quad 0x00 12.--13. "SH0,Shareability attribute for memory associated with translation table walks using TTBR0_EL3" "Non-shareable,Reserved,Outer shareable,Inner shareable" newline bitfld.quad 0x00 10.--11. "ORGN0,Outer cacheability attribute for memory associated with translation table walks using TTBR0_EL3" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" bitfld.quad 0x00 8.--9. "IRGN0,Inner cacheability attribute for memory associated with translation table walks using TTBR0_EL3" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" newline bitfld.quad 0x00 0.--5. "T0SZ,Size offset of the memory region addressed by TTBR0_EL3" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63" elif (CORENAME()=="CORTEXA53") group.quad spr:0x36202++0x00 line.quad 0x00 "TCR_EL3,Translation Control Register (EL3)" bitfld.quad 0x00 20. "TBI,Top Byte Ignored" "Not ignored,Ignored" bitfld.quad 0x00 16.--18. "PS,Intermediate Physical Address Size" "32 bits/4 GB,36 bits/64 GB,40 bits/1 TB,?..." newline bitfld.quad 0x00 14.--15. "TG0,TTBR0_EL3 granule size" "4 KB,64 KB,?..." bitfld.quad 0x00 12.--13. "SH0,Shareability attribute for memory associated with translation table walks using TTBR0_EL3" "Non-shareable,Reserved,Outer shareable,Inner shareable" newline bitfld.quad 0x00 10.--11. "ORGN0,Outer cacheability attribute for memory associated with translation table walks using TTBR0_EL3" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" bitfld.quad 0x00 8.--9. "IRGN0,Inner cacheability attribute for memory associated with translation table walks using TTBR0_EL3" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" newline bitfld.quad 0x00 0.--5. "T0SZ,Size offset of the memory region addressed by TTBR0_EL3" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63" endif group.quad SPR:0x34300++0x00 line.quad 0x00 "DACR32_EL2,Domain Access Control Register" bitfld.quad 0x0 30.--31. "D15,Domain Access 15" "Denied,Client,Reserved,Manager" bitfld.quad 0x0 28.--29. "D14,Domain Access 14" "Denied,Client,Reserved,Manager" newline bitfld.quad 0x0 26.--27. "D13,Domain Access 13" "Denied,Client,Reserved,Manager" bitfld.quad 0x0 24.--25. "D12,Domain Access 12" "Denied,Client,Reserved,Manager" newline bitfld.quad 0x0 22.--23. "D11,Domain Access 11" "Denied,Client,Reserved,Manager" bitfld.quad 0x0 20.--21. "D10,Domain Access 10" "Denied,Client,Reserved,Manager" newline bitfld.quad 0x0 18.--19. "D9,Domain Access 9" "Denied,Client,Reserved,Manager" bitfld.quad 0x0 16.--17. "D8,Domain Access 8" "Denied,Client,Reserved,Manager" newline bitfld.quad 0x0 14.--15. "D7,Domain Access 7" "Denied,Client,Reserved,Manager" bitfld.quad 0x0 12.--13. "D6,Domain Access 6" "Denied,Client,Reserved,Manager" newline bitfld.quad 0x0 10.--11. "D5,Domain Access 5" "Denied,Client,Reserved,Manager" bitfld.quad 0x0 8.--9. "D4,Domain Access 4" "Denied,Client,Reserved,Manager" newline bitfld.quad 0x0 6.--7. "D3,Domain Access 3" "Denied,Client,Reserved,Manager" bitfld.quad 0x0 4.--5. "D2,Domain Access 2" "Denied,Client,Reserved,Manager" newline bitfld.quad 0x0 2.--3. "D1,Domain Access 1" "Denied,Client,Reserved,Manager" bitfld.quad 0x0 0.--1. "D0,Domain Access 0" "Denied,Client,Reserved,Manager" if (CORENAME()=="CORTEXA57") if (((per.q(spr:0x34501))&0x200)==0x200) group.quad spr:0x34501++0x00 line.quad 0x00 "IFSR32_EL2,Instruction Fault Status Register" bitfld.quad 0x00 12. "EXT,External Abort Type" "DECERR,SLVERR" bitfld.quad 0x00 9. "LPAE,Translation table formats on taking a Data Abort exception" "Short,Long" newline bitfld.quad 0x00 0.--5. "STATUS,Fault Status" "Address size/0th level/TTBR0/TTBR1,Reserved,Reserved,Reserved,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Access flag/0th level,Access flag/1st level,Access flag/2nd level,Access flag/3rd level,Permission/0th level,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external,Reserved,Reserved,Reserved,Sync. external/on TTW/0th level,Sync. external/on TTW/1st level,Sync. external/on TTW/2nd level,Sync. external/on TTW/3rd level,Sync. parity/on memory access,Reserved,Reserved,Reserved,Sync. parity/on memory access/on TTW/0th level,Sync. parity/on memory access/on TTW/1st level,Sync. parity/on memory access/on TTW/2nd level,Sync. parity/on memory access/on TTW/3rd level,Reserved,Alignment,Debug event,?..." else group.quad spr:0x34501++0x00 line.quad 0x00 "IFSR32_EL2,Instruction Fault Status Register" bitfld.quad 0x00 12. "EXT,External Abort Type" "DECERR,SLVERR" bitfld.quad 0x00 9. "LPAE,Translation table formats on taking a Data Abort exception" "Short,Long" newline bitfld.quad 0x00 0.--3. 10. "FS,Fault Status" "Reserved,Alignment,Debug event,Access flag/1st level,Reserved,Translation/1st level,Access flag/2nd level,Translation/2nd level,Sync. external/non-translation,Domain/1st level,Reserved,Domain/2nd level,Sync. external/on TTW/1st level,Permission/1st level,Sync. external/on TTW/2nd level,Permission/2nd level,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Sync. parity/on memory access,Reserved,Reserved,Sync. parity/on TTW/1st level,Reserved,Sync. parity/on TTW/2nd level,?..." endif elif (CORENAME()=="CORTEXA53") if (((per.q(spr:0x34501))&0x200)==0x200) group.quad spr:0x34501++0x00 line.quad 0x00 "IFSR32_EL2,Instruction Fault Status Register" bitfld.quad 0x00 12. "EXT,External Abort Type" "DECERR,SLVERR" bitfld.quad 0x00 9. "LPAE,Translation table formats on taking a Data Abort exception" "Short,Long" newline bitfld.quad 0x00 0.--5. "STATUS,Fault Status" "Address size/TTBR0/TTBR1,Reserved,Reserved,Reserved,Reserved,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3rd level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external,Reserved,Reserved,Reserved,Reserved,Sync. external/on TTW/1st level,Sync. external/on TTW/2nd level,Sync. external/on TTW/3rd level,Sync. parity/on memory access,Reserved,Reserved,Reserved,Reserved,Sync. parity/on memory access/on TTW/1st level,Sync. parity/on memory access/on TTW/2nd level,Sync. parity/on memory access/on TTW/3rd level,Reserved,Alignment,Debug event,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,?..." else group.quad spr:0x34501++0x00 line.quad 0x00 "IFSR32_EL2,Instruction Fault Status Register" bitfld.quad 0x00 12. "EXT,External Abort Type" "DECERR,SLVERR" bitfld.quad 0x00 9. "LPAE,Translation table formats on taking a Data Abort exception" "Short,Long" newline bitfld.quad 0x00 0.--3. 10. "FS,Fault Status" "Reserved,Reserved,Debug event,Access flag/section,Reserved,Translation/section,Access flag/page,Translation/page,Sync. external/non-translation,Domain/section,Reserved,Domain/page,Sync. external/on TTW/1st level,Permission/section,Sync. external/on TTW/2nd level,Permission/page,TLB conflict,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Sync. parity/on memory access,Reserved,Reserved,Sync. parity/on TTW/1st level,Reserved,Sync. parity/on TTW/2nd level,?..." endif endif rgroup.quad SPR:0x30510++0x00 line.quad 0x00 "AFSR0_EL1,Auxiliary Fault Status Register 0 (EL1)" rgroup.quad SPR:0x34510++0x00 line.quad 0x00 "AFSR0_EL2,Auxiliary Fault Status Register 0 (EL2)" rgroup.quad SPR:0x36510++0x00 line.quad 0x00 "AFSR0_EL3,Auxiliary Fault Status Register 0 (EL3)" rgroup.quad SPR:0x30511++0x00 line.quad 0x00 "AFSR1_EL1,Auxiliary Fault Status Register 1 (EL1)" rgroup.quad SPR:0x34511++0x00 line.quad 0x00 "AFSR1_EL2,Auxiliary Fault Status Register 1 (EL2)" rgroup.quad SPR:0x36511++0x00 line.quad 0x00 "AFSR1_EL3,Auxiliary Fault Status Register 1 (EL3)" if (((per.q(spr:0x30740))&0xF000000000000001)==0x0000000000000000) group.quad spr:0x30740++0x00 line.quad 0x00 "PAR_EL1,Physical Address Register" bitfld.quad 0x00 60.--63. "ATTRH,Device memory or Normal memory plus Outer cacheability [Type/Cacheable/Allocate]" "Device,Reserved,Reserved,Reserved,Normal/Non-cacheable,Reserved,Reserved,Reserved,Normal/Write-Through,Normal/Write-Through/Write,Normal/Write-Through/Read,Normal/Write-Through/Write|Read,Normal/Write-Back,Normal/Write-Back/Write,Normal/Write-Back/Read,Normal/Write-Back/Write|Read" bitfld.quad 0x00 56.--59. "ATTRL,Device memory or Normal memory plus Inner cacheability [Type/Cacheable/Allocate]" "Device-nGnRnE,Reserved,Reserved,Reserved,Device-not nGnRnE,?..." newline hexmask.quad 0x00 12.--47. 0x10 "PA[47:12],Physical Address" bitfld.quad 0x00 9. "NS,The NS attribute for a translation table entry read from Secure state" "No,Yes" newline bitfld.quad 0x00 7.--8. "SHA,Shareable attribute" "Non-shareable,Reserved,Outer Shareable,Inner Shareable" newline bitfld.quad 0x00 0. "F,Indicates whether the conversion completed successfully" "Successful,Aborted" elif (((per.q(spr:0x30740))&0x01)==0x00) group.quad spr:0x30740++0x00 line.quad 0x00 "PAR_EL1,Physical Address Register" bitfld.quad 0x00 60.--63. "ATTRH,Device memory or Normal memory plus Outer cacheability [Type/Cacheable/Allocate]" "Device,Reserved,Reserved,Reserved,Normal/Non-cacheable,Reserved,Reserved,Reserved,Normal/Write-Through,Normal/Write-Through/Write,Normal/Write-Through/Read,Normal/Write-Through/Write|Read,Normal/Write-Back,Normal/Write-Back/Write,Normal/Write-Back/Read,Normal/Write-Back/Write|Read" bitfld.quad 0x00 56.--59. "ATTRL,Device memory or Normal memory plus Inner cacheability [Type/Cacheable/Allocate]" "Reserved,Reserved,Reserved,Reserved,Normal/Non-cacheable,Reserved,Reserved,Reserved,Normal/Write-Through,Normal/Write-Through/Write,Normal/Write-Through/Read,Normal/Write-Through/Write|Read,Normal/Write-Back,Normal/Write-Back/Write,Normal/Write-Back/Read,Normal/Write-Back/Write|Read" newline hexmask.quad 0x00 12.--47. 0x10 "PA[47:12],Physical Address" bitfld.quad 0x00 9. "NS,The NS attribute for a translation table entry read from Secure state" "No,Yes" newline bitfld.quad 0x00 7.--8. "SHA,Shareable attribute" "Non-shareable,Reserved,Outer Shareable,Inner Shareable" newline bitfld.quad 0x00 0. "F,Indicates whether the conversion completed successfully" "Successful,Aborted" else group.quad spr:0x30740++0x00 line.quad 0x00 "PAR_EL1,Physical Address Register" newline bitfld.quad 0x00 9. "S,Indicates the translation stage at which the translation aborted" "Stage 1,Stage 2" bitfld.quad 0x00 8. "PTW,Translation aborted because of a stage 2 fault during a stage 1 translation table walk" "No,Yes" newline bitfld.quad 0x00 1.--6. "FST,Fault status field" "Address size/0th level/TTBR,Address size/1st level,Address size/2nd level,Address size/3rd level,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3d level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Reserved,Reserved,Reserved,Reserved,Sync. external abort/0th level,Sync. external abort/1th level,Sync. external abort/2th level,Sync. external abort/3th level,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,Atomic/AArch64,?..." newline bitfld.quad 0x00 0. "F,Indicates whether the conversion completed successfully" "Successful,Aborted" endif tree.open "Memory Attribute Indirection Registers" group.quad spr:0x30A20++0x00 line.quad 0x00 "MAIR_EL1,Memory Attribute Indirection Register (EL1)" bitfld.quad 0x00 60.--63. "ATTR7H,Attribute 7 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 56.--59. "ATTR7L,Attribute 7 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 52.--55. "ATTR6H,Attribute 6 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 48.--51. "ATTR6L,Attribute 6 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 44.--47. "ATTR5H,Attribute 5 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 40.--43. "ATTR5L,Attribute 5 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 36.--39. "ATTR4H,Attribute 4 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 32.--35. "ATTR4L,Attribute 4 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 28.--31. "ATTR3H,Attribute 3 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 24.--27. "ATTR3L,Attribute 3 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 20.--23. "ATTR2H,Attribute 2 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 16.--19. "ATTR2L,Attribute 2 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 12.--15. "ATTR1H,Attribute 1 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 8.--11. "ATTR1L,Attribute 1 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 4.--7. "ATTR0H,Attribute 0 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 0.--3. "ATTR0L,Attribute 0 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" group.quad spr:0x34A20++0x00 line.quad 0x00 "MAIR_EL2,Memory Attribute Indirection Register (EL2)" bitfld.quad 0x00 60.--63. "ATTR7H,Attribute 7 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 56.--59. "ATTR7L,Attribute 7 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 52.--55. "ATTR6H,Attribute 6 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 48.--51. "ATTR6L,Attribute 6 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 44.--47. "ATTR5H,Attribute 5 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 40.--43. "ATTR5L,Attribute 5 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 36.--39. "ATTR4H,Attribute 4 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 32.--35. "ATTR4L,Attribute 4 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 28.--31. "ATTR3H,Attribute 3 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 24.--27. "ATTR3L,Attribute 3 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 20.--23. "ATTR2H,Attribute 2 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 16.--19. "ATTR2L,Attribute 2 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 12.--15. "ATTR1H,Attribute 1 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 8.--11. "ATTR1L,Attribute 1 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 4.--7. "ATTR0H,Attribute 0 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 0.--3. "ATTR0L,Attribute 0 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" group.quad spr:0x36A20++0x00 line.quad 0x00 "MAIR_EL3,Memory Attribute Indirection Register (EL3)" bitfld.quad 0x00 60.--63. "ATTR7H,Attribute 7 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 56.--59. "ATTR7L,Attribute 7 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 52.--55. "ATTR6H,Attribute 6 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 48.--51. "ATTR6L,Attribute 6 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 44.--47. "ATTR5H,Attribute 5 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 40.--43. "ATTR5L,Attribute 5 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 36.--39. "ATTR4H,Attribute 4 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 32.--35. "ATTR4L,Attribute 4 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 28.--31. "ATTR3H,Attribute 3 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 24.--27. "ATTR3L,Attribute 3 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 20.--23. "ATTR2H,Attribute 2 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 16.--19. "ATTR2L,Attribute 2 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 12.--15. "ATTR1H,Attribute 1 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 8.--11. "ATTR1L,Attribute 1 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" newline bitfld.quad 0x00 4.--7. "ATTR0H,Attribute 0 High" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" bitfld.quad 0x00 0.--3. "ATTR0L,Attribute 0 Low" "Device memory,Write-through transient/Write-Allocate,Write-through transient/Read-Allocate,Write-through transient/Write-Allocate/Read-Allocate,Non-Cacheable,Write-back transient/Write-Allocate,Write-back transient/Read-Allocate,Write-back transient/Write-Allocate/Read-Allocate,Write-Through non-transient,Write-Through non-transient/Write-Allocate,Write-Through non-transient/Read-Allocate,Write-Through non-transient/Write-Allocate/Read-Allocate,Write-Back non-transient,Write-Back non-transient/Write-Allocate,Write-Back non-transient/Read-Allocate,Write-Back non-transient/Write-Allocate/Read-Allocate" rgroup.quad spr:0x30A30++0x00 line.quad 0x00 "AMAIR_EL1,Memory Attribute Indirection Register (EL1)" rgroup.quad spr:0x34A30++0x00 line.quad 0x00 "AMAIR_EL2,Memory Attribute Indirection Register (EL2)" rgroup.quad spr:0x36A30++0x00 line.quad 0x00 "AMAIR_EL3,Memory Attribute Indirection Register (EL3)" tree.end newline group.quad SPR:0x30D01++0x00 line.quad 0x0 "CONTEXTIDR_EL1,Context ID Register" tree.end tree "Virtualization Extensions" group.quad SPR:0x34000++0x0 line.quad 0x0 "VPIDR_EL2,Virtualization Processor ID Register" hexmask.quad.byte 0x00 24.--31. 0x01 "IMPLEMENTER,Implementer code" bitfld.quad 0x00 20.--23. "VARIANT,Indicates the major revision of the product" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 16.--19. "ARCHITECTURE,Architecture" "Reserved,ARMv4,ARMv4T,ARMv5,ARMv5T,ARMv5TE,ARMv5TEJ,ARMv6,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Defined by ID registers" newline hexmask.quad.word 0x00 4.--15. 1. "PARTNUM,Primary part number" bitfld.quad 0x00 0.--3. "REVISION,Indicates the minor revision of the product" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" if (CORENAME()=="CORTEXA57") group.quad spr:0x34005++0x00 line.quad 0x0 "VMPIDR_EL2,Virtualization Multiprocessor ID Register" bitfld.quad 0x00 30. "U,Indicates a uniprocessor system" "Multiprocessor,?..." bitfld.quad 0x00 24. "MT,Indicates whether the lowest level of affinity consists of logical processors that are implemented using a multi-threading type approach" "Largely independent,Very interdependent" newline hexmask.quad.byte 0x00 16.--23. 1. "AFF2,Second highest level affinity field" hexmask.quad.byte 0x00 8.--15. 1. "AFF1,Third highest level affinity field" bitfld.quad 0x00 0.--1. "CPU_ID,Indicates the core number in the Cortex-A57 device" "1,2,3,4" elif (CORENAME()=="CORTEXA53") group.quad spr:0x34005++0x00 line.quad 0x0 "VMPIDR_EL2,Virtualization Multiprocessor ID Register" bitfld.quad 0x00 30. "U,Indicates a uniprocessor system" "Multiprocessor,?..." bitfld.quad 0x00 24. "MT,Indicates whether the lowest level of affinity consists of logical processors that are implemented using a multi-threading type approach" "Largely independent,?..." newline hexmask.quad.byte 0x00 16.--23. 1. "AFF2,Second highest level affinity field" hexmask.quad.byte 0x00 8.--15. 1. "AFF1,Third highest level affinity field" hexmask.quad.byte 0x00 0.--7. 1. "AFF0,Lowest level affinity field" endif group.quad spr:0x34100++0x0 line.quad 0x00 "SCTLR_EL2,System Control Register (EL2)" bitfld.quad 0x00 25. "EE,Exception endianness" "Little,Big" bitfld.quad 0x00 19. "WXN,Write permission implies PL1 Execute Never" "Not forced,Forced" newline bitfld.quad 0x00 12. "I,Instruction Cache Enable" "Disabled,Enabled" bitfld.quad 0x00 3. "SA,SP stack alignment check enable" "Disabled,Enabled" newline bitfld.quad 0x00 2. "C,Enable unified cache or data cache" "Disabled,Enabled" bitfld.quad 0x00 1. "A,Strict Alignment" "Disabled,Enabled" newline bitfld.quad 0x00 0. "M,MMU or Protection Unit" "Disabled,Enabled" group.quad spr:0x34110++0x00 line.quad 0x00 "HCR_EL2,Hypervisor Configuration Register" bitfld.quad 0x00 33. "ID,Stage 2 Instruction cache disable" "No,Yes" bitfld.quad 0x00 32. "CD,Stage 2 Data cache disable" "No,Yes" newline bitfld.quad 0x00 31. "RW,Register width control for lower exception levels" "AArch32,EL1 is 64-bit" bitfld.quad 0x00 30. "TRVM,Trap Read of Virtual Memory controls" "Disabled,Enabled" newline bitfld.quad 0x00 29. "HCD,Hypervisor Call Disable" "No,Yes" bitfld.quad 0x00 28. "TDZ,Trap DC ZVA instruction" "Disabled,Enabled" newline bitfld.quad 0x00 27. "TGE,Trap General Exceptions has an enhanced role when EL2 is using AArch64" "Disabled,Enabled" bitfld.quad 0x00 26. "TVM,Trap Virtual Memory controls to EL2" "Disabled,Enabled" newline bitfld.quad 0x00 25. "TTLB,Trap TLB maintenance instructions to EL2" "Disabled,Enabled" bitfld.quad 0x00 24. "TPU,Trap Cache maintenance instructions to Point of Unificiation to EL2" "Disabled,Enabled" newline bitfld.quad 0x00 23. "TPC,Trap Data/Unified Cache maintenance instructions to Point of Coherency tp EL2" "Disabled,Enabled" bitfld.quad 0x00 22. "TSW,Trap Data/Unified Cache maintenance instructions by Set/Way to EL2" "Disabled,Enabled" newline bitfld.quad 0x00 21. "TACR,Trap Auxiliary Control Register" "Disabled,Enabled" bitfld.quad 0x00 20. "TIDCP,Trap Implementation Dependent functionality" "Disabled,Enabled" newline bitfld.quad 0x00 19. "TSC,Trap SMC" "Disabled,Enabled" bitfld.quad 0x00 18. "TID3,Trap ID Group 3" "Disabled,Enabled" newline bitfld.quad 0x00 17. "TID2,Trap ID Group 2" "Disabled,Enabled" bitfld.quad 0x00 16. "TID1,Trap ID Group 1" "Disabled,Enabled" newline bitfld.quad 0x00 15. "TID0,Trap ID Group 0" "Disabled,Enabled" bitfld.quad 0x00 14. "TWE,Trap WFE" "Disabled,Enabled" newline bitfld.quad 0x00 13. "TWI,Trap WFI" "Disabled,Enabled" bitfld.quad 0x00 12. "DC,Default Cacheable" "Disabled,Enabled" newline bitfld.quad 0x00 10.--11. "BSU,Barrier Shareability upgrade. determines the minimum shareability domain that is applied to any barrier executed from EL1 or EL0" "No effect,Inner Shareable,Outer Shareable,Full System" bitfld.quad 0x00 9. "FB,Force broadcast" "Not forced,Forced" newline bitfld.quad 0x00 8. "VSE,Virtual System Error/Asynchronous Abort:" "No pending,Pending" bitfld.quad 0x00 7. "VI,Virtual IRQ Interrupt" "Not pending,Pending" newline bitfld.quad 0x00 6. "VF,Virtual FIQ Interrupt" "Not pending,Pending" bitfld.quad 0x00 5. "AMO,asynchronous abort and error interrupt routing" "Disabled,Enabled" newline bitfld.quad 0x00 4. "IMO,Physical IRQ Routing" "Disabled,Enabled" bitfld.quad 0x00 3. "FMO,Physical FIQ Routing" "Disabled,Enabled" newline bitfld.quad 0x00 2. "PTW,Protected Table Walk" "Disabled,Enabled" bitfld.quad 0x00 1. "SWIO,Set/Way Invalidation Override" "Disabled,Enabled" newline bitfld.quad 0x00 0. "VM,Second stage of Translation enable" "Disabled,Enabled" if (CORENAME()=="CORTEXA57") group.quad SPR:0x34111++0x00 line.quad 0x00 "MDCR_EL2,Hypervisor Debug Control Register (EL2)" bitfld.quad 0x00 11. "TDRA,Trap Debug ROM Access" "No effect,Valid" bitfld.quad 0x00 10. "TDOSA,Trap Debug OS-related register Access" "No effect,Valid" bitfld.quad 0x00 9. "TDA,Trap Debug Access" "No effect,Valid" newline bitfld.quad 0x00 8. "TDE,Trap Debug Exceptions" "No effect,Valid" bitfld.quad 0x00 7. "HPME,Hypervisor Performance Monitors Enable" "Disabled,Enabled" bitfld.quad 0x00 6. "TPM,Trap Performance Monitors accesses" "No effect,Valid" newline bitfld.quad 0x00 5. "TPMCR,Trap Performance Monitor Control Register accesses" "No effect,Valid" bitfld.quad 0x00 0.--4. "HPMN,Defines the number of Performance Monitors counters" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" elif (CORENAME()=="CORTEXA53") group.quad SPR:0x34111++0x00 line.quad 0x00 "MDCR_EL2,Hypervisor Debug Control Register (EL2)" bitfld.quad 0x00 11. "TDRA,Trap Debug ROM Access" "No effect,Valid" bitfld.quad 0x00 10. "TDOSA,Trap Debug OS-related register Access" "No effect,Valid" bitfld.quad 0x00 9. "TDA,Trap Debug Access" "No effect,Valid" newline bitfld.quad 0x00 8. "TDE,Trap Debug Exceptions" "No effect,Valid" bitfld.quad 0x00 7. "HPME,Hypervisor Performance Monitors Enable" "Disabled,Enabled" bitfld.quad 0x00 6. "TPM,Trap Performance Monitors accesses" "No effect,Valid" newline bitfld.quad 0x00 5. "TPMCR,Trap Performance Monitor Control Register accesses" "No effect,Valid" bitfld.quad 0x00 0.--4. "HPMN,Defines the number of Performance Monitors counters" "0,1,2,3,4,5,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6" endif group.quad SPR:0x34112++0x00 line.quad 0x00 "CPTR_EL2,Architectural Feature Trap Register (EL2)" bitfld.quad 0x0 31. "TCPAC,Trap Coprocessor Access Control" "Not trapped,Trapped" bitfld.quad 0x0 10. "TFP,Traps instructions that access registers associated with Advanced SIMD and Floating-point execution from a lower exception level to EL2" "Not trapped,Trapped" group.quad SPR:0x36131++0x00 line.quad 0x00 "MDCR_EL3,Hypervisor Debug Control Register (EL3)" bitfld.quad 0x00 21. "EPMAD,External debugger access to Performance Monitors registers disabled" "No,Yes" bitfld.quad 0x00 20. "EDAD,External debugger access to breakpoint and watchpoint registers disabled" "No,Yes" bitfld.quad 0x00 17. "SPME,Secure performance monitors enable" "Disabled,Enabled" newline bitfld.quad 0x00 16. "SDD,AArch64 secure debug disable" "No,Yes" bitfld.quad 0x00 14.--15. "SPD32,AArch32 secure privileged debug" "Legacy,Reserved,Disabled,Enabled" bitfld.quad 0x00 10. "TDOSA,Trap Debug OS-related register Access" "No effect,Valid" newline bitfld.quad 0x00 9. "TDA,Trap Debug Access" "No effect,Valid" bitfld.quad 0x00 6. "TPM,Trap Performance Monitors accesses" "No effect,Valid" group.quad SPR:0x36112++0x00 line.quad 0x00 "CPTR_EL3,Architectural Feature Trap Register (EL3)" bitfld.quad 0x0 31. "TCPAC,Trap Coprocessor Access Control" "Not trapped,Trapped" bitfld.quad 0x0 10. "TFP,Traps instructions that access registers associated with Advanced SIMD and Floating-point execution from a lower exception level to EL2" "Not trapped,Trapped" group.quad SPR:0x34113++0x00 line.quad 0x00 "HSTR_EL2,Hypervisor System Trap Register" bitfld.quad 0x00 16. "TEEE,Trap ThumbEE" "Not supported,?..." bitfld.quad 0x00 15. "T15,Trap coprocessor primary register CRn = 15" "No effect,Trapped" bitfld.quad 0x00 13. "T13,Trap coprocessor primary register CRn = 13" "No effect,Trapped" newline bitfld.quad 0x00 12. "T12,Trap coprocessor primary register CRn = 12" "No effect,Trapped" bitfld.quad 0x00 11. "T11,Trap coprocessor primary register CRn = 11" "No effect,Trapped" bitfld.quad 0x00 10. "T10,Trap coprocessor primary register CRn = 10" "No effect,Trapped" newline bitfld.quad 0x00 9. "T9,Trap coprocessor primary register CRn = 9" "No effect,Trapped" bitfld.quad 0x00 8. "T8,Trap coprocessor primary register CRn = 8" "No effect,Trapped" bitfld.quad 0x00 7. "T7,Trap coprocessor primary register CRn = 7" "No effect,Trapped" newline bitfld.quad 0x00 6. "T6,Trap coprocessor primary register CRn = 6" "No effect,Trapped" bitfld.quad 0x00 5. "T5,Trap coprocessor primary register CRn = 5" "No effect,Trapped" bitfld.quad 0x00 3. "T3,Trap coprocessor primary register CRn = 3" "No effect,Trapped" newline bitfld.quad 0x00 2. "T2,Trap coprocessor primary register CRn = 2" "No effect,Trapped" bitfld.quad 0x00 1. "T1,Trap coprocessor primary register CRn = 1" "No effect,Trapped" bitfld.quad 0x00 0. "T0,Trap coprocessor primary register CRn = 0" "No effect,Trapped" rgroup.quad SPR:0x34117++0x00 line.quad 0x00 "HACR_EL2,Hypervisor Auxiliary Configuration Register" group.quad spr:0x34210++0x00 line.quad 0x00 "VTTBR_EL2,Virtualization Translation Table Base Register" hexmask.quad.byte 0x00 48.--55. 1. "VMID,VMID for the translation table" hexmask.quad 0x00 0.--47. 1. "BADDR,Translation table base address" if (CORENAME()=="CORTEXA57") group.quad SPR:0x34212++0x00 line.quad 0x00 "VTCR_EL2,Virtualization Translation Control Register" bitfld.quad 0x00 16.--18. "PS,Physical Address Size" "32 bits/4GB,36 bits/64GB,40 bits/1TB,42 bits/4TB,44 bits/16TB,48 bits/256TB,?..." bitfld.quad 0x00 14. "TG0,Granule size for the corresponding translation table base address register" "4 KB,64 KB" bitfld.quad 0x00 12.--13. "SH0,Shareability attributes for the memory associated with the translation table walks using VTTBR" "0,1,2,3" newline bitfld.quad 0x00 10.--11. "ORGN0,Outer Cacheability attributes for the memory associated with the translation table walks using VTTBR" "0,1,2,3" bitfld.quad 0x00 8.--9. "IRGN0,Inner Cacheability attributes for the memory associated with the translation table walks VTTBR" "0,1,2,3" bitfld.quad 0x00 6.--7. "SL0,Starting Level for VTCR addressed region" "0,1,2,3" newline bitfld.quad 0x00 0.--5. "T0SZ,The Size offset of the VTCR addressed region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63" elif (CORENAME()=="CORTEXA53") group.quad SPR:0x34212++0x00 line.quad 0x00 "VTCR_EL2,Virtualization Translation Control Register" bitfld.quad 0x00 16.--18. "PS,Physical Address Size" "32 bits/4GB,36 bits/64GB,40 bits/1TB,?..." bitfld.quad 0x00 14.--15. "TG0,Granule size for the corresponding translation table base address register" "4 KB,64 KB,?..." bitfld.quad 0x00 12.--13. "SH0,Shareability attributes for the memory associated with the translation table walks using VTTBR" "0,1,2,3" newline bitfld.quad 0x00 10.--11. "ORGN0,Outer Cacheability attributes for the memory associated with the translation table walks using VTTBR" "0,1,2,3" bitfld.quad 0x00 8.--9. "IRGN0,Inner Cacheability attributes for the memory associated with the translation table walks VTTBR" "0,1,2,3" bitfld.quad 0x00 6.--7. "SL0,Starting Level for VTCR addressed region" "0,1,2,3" newline bitfld.quad 0x00 0.--5. "T0SZ,The Size offset of the VTCR addressed region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63" endif group.quad spr:0x34604++0x00 line.quad 0x00 "HPFAR_EL2,Hypervisor IPA Fault Address Register" hexmask.quad 0x00 4.--39. 0x10 "FIPA,Faulting IPA bits" tree.end tree "Cache Control and Configuration" if (CORENAME()=="CORTEXA57") rgroup.quad spr:0x33001++0x0 line.quad 0x0 "CTR_EL0,Cache Type Register" bitfld.quad 0x0 24.--27. "CWG,Cache writeback granule size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." bitfld.quad 0x0 20.--23. "ERG,Exclusives reservation granule size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." bitfld.quad 0x0 16.--19. "DMINLINE,Smallest data cache line size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." newline bitfld.quad 0x0 14.--15. "L1IP,L1 Instruction cache policy" "Reserved,Reserved,Reserved,PIPT" bitfld.quad 0x0 0.--3. "IMINLINE,I-Cache Minimum Line Size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." elif (CORENAME()=="CORTEXA53") rgroup.quad spr:0x33001++0x0 line.quad 0x0 "CTR_EL0,Cache Type Register" bitfld.quad 0x0 24.--27. "CWG,Cache writeback granule size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." bitfld.quad 0x0 20.--23. "ERG,Exclusives reservation granule size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." bitfld.quad 0x0 16.--19. "DMINLINE,Smallest data cache line size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." newline bitfld.quad 0x0 14.--15. "L1IP,L1 Instruction cache policy" "Reserved,Reserved,VIPT,?..." bitfld.quad 0x0 0.--3. "IMINLINE,I-Cache Minimum Line Size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." endif group.quad SPR:0x32000++0x0 line.quad 0x0 "CSSELR_EL1,Cache Size Selection Register" bitfld.quad 0x00 1.--3. "LEVEL,Cache level of required cache" "Level 1,Level 2,?..." bitfld.quad 0x00 0. "IND,Instruction/Not Data" "Data/Unified,Instruction" if (CORENAME()=="CORTEXA57") rgroup.quad SPR:0x31001++0x0 line.quad 0x0 "CLIDR_EL1,Cache Level ID Register" bitfld.quad 0x00 27.--29. "LOUU,Level of Unification Uniprocessor" "Reserved,Level 1,?..." bitfld.quad 0x00 24.--26. "LOC,Level of Coherency" "Reserved,Reserved,Level 3,?..." bitfld.quad 0x00 21.--23. "LOUIS,Level of Unification Inner Shareable" "Reserved,Level 2,?..." newline bitfld.quad 0x00 18.--20. "CTYPE7,Cache type for levels 7" "No cache,?..." bitfld.quad 0x00 15.--17. "CTYPE6,Cache type for levels 6" "No cache,?..." bitfld.quad 0x00 12.--14. "CTYPE5,Cache type for levels 5" "No cache,?..." newline bitfld.quad 0x00 9.--11. "CTYPE4,Cache type for levels 4" "No cache,?..." bitfld.quad 0x00 6.--8. "CTYPE3,Cache type for levels 3" "No cache,?..." bitfld.quad 0x00 3.--5. "CTYPE2,Cache type for levels 2" "Reserved,Reserved,Reserved,Reserved,Unified,?..." newline bitfld.quad 0x00 0.--2. "CTYPE1,Cache type for levels 1" "Reserved,Reserved,Reserved,Separate Inst/Data,?..." rgroup.quad SPR:0x31000++0x0 line.quad 0x0 "CCSIDR_EL1,Current Cache Size ID Register" bitfld.quad 0x00 31. "WT,Write-Through" "Not Supported,?..." bitfld.quad 0x00 30. "WB,Write-Back" "Not Supported,Supported" bitfld.quad 0x00 29. "RA,Read-Allocate" "Reserved,Supported" newline bitfld.quad 0x00 28. "WA,Write-Allocate" "Not Supported,Supported" hexmask.quad.word 0x00 13.--27. 1. 1. "NUMSETS,Number of Sets" hexmask.quad.word 0x00 3.--12. 1. 1. "ASSOCIATIVITY,Associativity" newline bitfld.quad 0x00 0.--2. "LINESIZE,Line Size" "Reserved,Reserved,64 bytes,?..." elif (CORENAME()=="CORTEXA53") rgroup.quad SPR:0x31001++0x0 line.quad 0x0 "CLIDR_EL1,Cache Level ID Register" bitfld.quad 0x00 30.--32. "ICB,Inner cache boundary" "Not disclosed,?..." bitfld.quad 0x00 27.--29. "LOUU,Level of Unification Uniprocessor" "Reserved,Level 1,?..." bitfld.quad 0x00 24.--26. "LOC,Level of Coherency" "Reserved,L1,L1/L2,?..." newline bitfld.quad 0x00 21.--23. "LOUIS,Level of Unification Inner Shareable" "Reserved,Level 1,?..." bitfld.quad 0x00 6.--8. "CTYPE3,Cache type for levels 3" "No cache,?..." bitfld.quad 0x00 3.--5. "CTYPE2,Cache type for levels 2" "No cache,Reserved,Reserved,Reserved,Unified,?..." newline bitfld.quad 0x00 0.--2. "CTYPE1,Cache type for levels 1" "Reserved,Reserved,Reserved,Separate Inst/Data,?..." rgroup.quad SPR:0x31000++0x0 line.quad 0x0 "CCSIDR_EL1,Current Cache Size ID Register" bitfld.quad 0x00 31. "WT,Write-Through" "Not Supported,?..." bitfld.quad 0x00 30. "WB,Write-Back" "Not Supported,Supported" bitfld.quad 0x00 29. "RA,Read-Allocate" "Not Supported,Supported" newline bitfld.quad 0x00 28. "WA,Write-Allocate" "Not Supported,Supported" hexmask.quad.word 0x00 13.--27. 1. 1. "NUMSETS,Number of Sets" hexmask.quad.word 0x00 3.--12. 1. 1. "ASSOCIATIVITY,Associativity" newline bitfld.quad 0x00 0.--2. "LINESIZE,Line Size" "1Reserved,Reserved,64 bytes,?..." endif tree "Level 1 memory system" if (CORENAME()=="CORTEXA57") group.quad SPR:0x30F10++0x00 line.quad 0x00 "DL1DATA0_EL1,Data L1 Data 0 Register" group.quad SPR:0x30F11++0x00 line.quad 0x00 "DL1DATA1_EL1,Data L1 Data 1 Register" group.quad SPR:0x30F12++0x00 line.quad 0x00 "DL1DATA2_EL1,Data L1 Data 2 Register" group.quad SPR:0x30F13++0x00 line.quad 0x00 "DL1DATA3_EL1,Data L1 Data 3 Register" group.quad SPR:0x30F00++0x00 line.quad 0x00 "IL1DATA0_EL1,Instruction L1 Data 0 Register" group.quad SPR:0x30F01++0x00 line.quad 0x00 "IL1DATA1_EL1,Instruction L1 Data 1 Register" group.quad SPR:0x30F02++0x00 line.quad 0x00 "IL1DATA2_EL1,Instruction L1 Data 2 Register" group.quad SPR:0x30F03++0x00 line.quad 0x00 "IL1DATA3_EL1,Instruction L1 Data 3 Register" group.quad spr:0x31F20++0x00 line.quad 0x00 "CPUACTLR_EL1,CPU Auxiliary Control Register" bitfld.quad 0x00 63. "FPRCGEC,Force processor RCG enables active" "Not forced,Forced" bitfld.quad 0x00 59. "DLPDMB,Disable load pass DMB" "No,Yes" bitfld.quad 0x00 58. "DDMBN,Disable DMB nullification" "No,Yes" newline bitfld.quad 0x00 57. "TA,Treat DMB st/stand DMB ld/allas DMB all/all" "Disabled,Enabled" bitfld.quad 0x00 56. "DL1DCHP,Disable L1 Data Cache hardware prefetcher" "No,Yes" bitfld.quad 0x00 55. "DLPS,Disable load pass store" "No,Yes" newline bitfld.quad 0x00 54. "TGRE,Treat GRE/nGRE as nGnRE" "Disabled,Enabled" bitfld.quad 0x00 53. "TDMBADSB,Treat DMBand DSBas if their domain field is SY" "Disabled,Enabled" bitfld.quad 0x00 52. "DORFLDNPI,Disable over-read from LDNP instruction" "No,Yes" newline bitfld.quad 0x00 51. "DCDAFEMP,Disable contention detection and fast exclusive monitor path" "No,Yes" bitfld.quad 0x00 50. "DSSONNCGREEMT,Disable store streaming on NC/GRE memory type" "No,Yes" bitfld.quad 0x00 49. "DNHOWBNAMT,Disable non-allocate hint of Write-Back No-Allocate (WBNA) memory type" "No,Yes" newline bitfld.quad 0x00 48. "DESRAFLSTL2,Disable early speculative read access from LS to L2" "No,Yes" bitfld.quad 0x00 47. "DL1L2HP,Disable L1/L2 hardware prefetch across 4KB page boundary even if page is 64KB or larger" "No,Yes" bitfld.quad 0x00 44. "EDCCADCCI,Enable data cache clean as data cache clean/invalidate" "Disabled,Enabled" newline bitfld.quad 0x00 39. "DIM,Disable instruction merging" "No,Yes" bitfld.quad 0x00 38. "FFPSCRWF,Force FPSCR write flush" "Not forced,Forced" bitfld.quad 0x00 37. "DIGS,Disable instruction group split" "No,Yes" newline bitfld.quad 0x00 36. "FIDSBONASBE,Force implicit DSB on an ISB event" "Not forced,Forced" bitfld.quad 0x00 34. "DSBP,Disable Static Branch Predictor" "No,Yes" bitfld.quad 0x00 33. "DL1ICWPIMBTB,Disable L1 Instruction Cache way prediction in micro-BTB" "No,Yes" newline bitfld.quad 0x00 32. "DL1ICP,Disable L1 Instruction Cache prefetch" "No,Yes" bitfld.quad 0x00 31. "SDEH,Snoop-delayed exclusive handling" "Disabled,Enabled" bitfld.quad 0x00 30. "FMCEA,Force main clock enable active" "Not forced,Forced" newline bitfld.quad 0x00 29. "FASIMDFPCEA,Force Advanced SIMD and floating-point clock enable active" "Disabled,Enabled" bitfld.quad 0x00 27.--28. "WSNAT,Write streaming no-allocate threshold" "12th,128th,512th,Disabled" bitfld.quad 0x00 25.--26. "WSNL1AT,Write streaming no-L1-allocate threshold" "4th,64th,128th,Disabled" newline bitfld.quad 0x00 24. "NCSE,Non-cacheable streaming enhancement" "Disabled,Enabled" bitfld.quad 0x00 23. "FIORTTSSAW,Force in-order requests to the same set and way" "Not forced,Forced" bitfld.quad 0x00 22. "FIOLI,Force in-order load issue" "Not forced,Forced" newline bitfld.quad 0x00 21. "DL2TLBP,Disable L2 TLB prefetching" "No,Yes" bitfld.quad 0x00 20. "DL2TTWIPAPAC,Disable L2 translation table walk IPA PA cache" "No,Yes" bitfld.quad 0x00 19. "DL2S1TTWC,Disable L2 stage 1 translation table walk cache" "No,Yes" newline bitfld.quad 0x00 18. "DL2S1TTWL2PAC,Disable L2 stage 1 translation table walk L2 PA cache" "No,Yes" bitfld.quad 0x00 17. "DL2TLBPO,Disable L2 TLB performance optimization" "No,Yes" bitfld.quad 0x00 16. "EFSOADLR,Enable full Strongly-ordered and Device load replay" "Disabled,Enabled" newline bitfld.quad 0x00 15. "FIOIIBEU,Force in-order issue in branch execute unit" "Not forced,Forced" bitfld.quad 0x00 14. "FLOFOIGCDAPC,Force limit of one instruction group commit/de-allocate per cycle" "Not forced,Forced" bitfld.quad 0x00 13. "FASPRW,Flush after Special Purpose Register (SPR) writes" "Disabled,Enabled" newline bitfld.quad 0x00 12. "FPOSPRS,Force push of SPRs" "Disabled,Enabled" bitfld.quad 0x00 11. "LTOIPIG,Limit to one instruction per instruction group" "Disabled,Enabled" bitfld.quad 0x00 10. "FSAEIG,Force serialization after each instruction group" "Not forced,Forced" newline bitfld.quad 0x00 9. "DFRO,Disable flag renaming optimization" "No,Yes" bitfld.quad 0x00 8. "EWFIIAANOPI,Execute WFI instruction as a NOP instruction" "Disabled,Enabled" bitfld.quad 0x00 7. "EWFEIAANOPI,Execute WFE instruction as a NOP instruction" "Disabled,Enabled" newline bitfld.quad 0x00 5. "EPLDPLDWIASNOP,Execute PLDand PLDWinstructions as a NOP" "Disabled,Enabled" bitfld.quad 0x00 4. "DIP,Disable indirect predictor" "No,Yes" bitfld.quad 0x00 3. "DMBTB,Disable micro-BTB" "No,Yes" newline bitfld.quad 0x00 1. "DICMS,Disable Instruction Cache miss streaming" "No,Yes" bitfld.quad 0x00 0. "EIOBTB,Enable invalidates of BTB" "Disabled,Enabled" group.quad spr:0x31F21++0x00 line.quad 0x00 "CPUECTLR_EL1,CPU Extended Control Register" bitfld.quad 0x00 38. "DTWDAP,Disable table walk descriptor access prefetch" "No,Yes" bitfld.quad 0x00 35.--36. "L2IFPD,L2 instruction fetch prefetch distance" "0 lines,1 line,2 lines,3 lines" bitfld.quad 0x00 32.--33. "L2LSDPD,L2 load/store data prefetch distance" "0 line,2 lines,4 lines,8 lines" newline bitfld.quad 0x00 6. "SMPEN,Enable hardware management of data coherency with other processors in the multiprocessor" "Disabled,Enabled" bitfld.quad 0x00 3.--5. "FPRETCTL,Advanced SIMD and Floating-point retention control" "2 ticks,8 ticks,32 ticks,64 ticks,128 ticks,256 ticks,512 ticks,?..." bitfld.quad 0x00 0.--2. "CPURETCTL,CPU retention control" "2 ticks,8 ticks,32 ticks,64 ticks,128 ticks,256 ticks,512 ticks,?..." elif (CORENAME()=="CORTEXA53") group.quad spr:0x31F20++0x00 line.quad 0x00 "CPUACTLR_EL1,CPU Auxiliary Control Register" bitfld.quad 0x00 44. "ENDCCASCI,Enable data cache clean as data cache clean/invalidate" "Disabled,Enabled" bitfld.quad 0x00 30. "FPDIDIS,Disable floating-point dual issue" "No,Yes" bitfld.quad 0x00 29. "DIDIS,Disable Dual Issue" "No,Yes" newline bitfld.quad 0x00 27.--28. "RADIS,Write streaming no-allocate threshold" "16th,128th,512th,Disabled" bitfld.quad 0x00 25.--26. "L1RADIS,Write streaming no-L1-allocate threshold" "4th,64th,128th,Disabled" bitfld.quad 0x00 24. "DTAH,Disable Transient allocation hint" "No,Yes" newline bitfld.quad 0x00 23. "STBPFRS,Disable ReadUnique request for prefetch streams initiated by STB accesses" "No,Yes" bitfld.quad 0x00 22. "STBPFDIS,Disable prefetch streams initiated from STB accesses" "No,Yes" bitfld.quad 0x00 21. "IFUTHDIS,IFU fetch throttle disabled" "No,Yes" newline bitfld.quad 0x00 19.--20. "NPFSTRM,Number of independent data prefetch streams" "1 stream,2 streams,3 streams,4 streams" bitfld.quad 0x00 18. "DSTDIS,Enable device split throttle" "Disabled,Enabled" bitfld.quad 0x00 17. "STRIDE,Enable stride detection" "Disabled,Enabled" newline bitfld.quad 0x00 13.--15. "L1PCTL,L1 Data prefetch control" "Disabled,1,2,3,4,5,6,8" bitfld.quad 0x00 10. "DODMBS,Disable optimized Data Memory Barrier behavior" "No,Yes" bitfld.quad 0x00 6. "L1DEIEN,L1 D-cache data RAM error injection enable" "Disabled,Enabled" group.quad spr:0x31F21++0x00 line.quad 0x00 "CPUECTLR_EL1,CPU Extended Control Register" bitfld.quad 0x00 6. "SMPEN,Enable hardware management of data coherency with other processors in the multiprocessor" "Disabled,Enabled" bitfld.quad 0x00 3.--5. "FPRETCTL,Advanced SIMD and Floating-point retention control" "Disabled,2 ticks,8 ticks,32 ticks,64 ticks,128 ticks,256 ticks,512 ticks" bitfld.quad 0x00 0.--2. "CPURETCTL,CPU retention control" "Disabled,2 ticks,8 ticks,32 ticks,64 ticks,128 ticks,256 ticks,512 ticks" endif if (CORENAME()=="CORTEXA57") group.quad spr:0x31F22++0x00 line.quad 0x00 "CPUMERRSR_EL1,CPU Memory Error Syndrome Register" bitfld.quad 0x00 63. "FATAL,Fatal bit" "0,1" hexmask.quad.byte 0x00 40.--47. 1. "OEC,Other error count" hexmask.quad.byte 0x00 32.--39. 1. "REC,Repeat error count" newline bitfld.quad 0x00 31. "VALID,Valid bit" "Not valid,Valid" hexmask.quad.byte 0x00 24.--30. 1. "RAMID,RAM Identifier" bitfld.quad 0x00 18.--22. "B/W,Bank/Way" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline hexmask.quad.tbyte 0x00 0.--17. 1. "INDEX,RAM address" elif (CORENAME()=="CORTEXA53") group.quad spr:0x31F22++0x00 line.quad 0x00 "CPUMERRSR_EL1,CPU Memory Error Syndrome Register" bitfld.quad 0x00 63. "FATAL,Fatal bit" "0,1" hexmask.quad.byte 0x00 40.--47. 1. "OEC,Other error count" hexmask.quad.byte 0x00 32.--39. 1. "REC,Repeat error count" newline bitfld.quad 0x00 31. "VALID,Valid bit" "Not valid,Valid" hexmask.quad.byte 0x00 24.--30. 1. "RAMID,RAM Identifier" bitfld.quad 0x00 18.--20. "C/W,CPUID/Way" "0,1,2,3,4,5,6,7" newline hexmask.quad.word 0x00 0.--11. 1. "RAD,RAM address" endif tree.end tree "Level 2 memory system" if (CORENAME()=="CORTEXA57") group.quad SPR:0x31B02++0x0 line.quad 0x00 "L2CTLR_EL1,L2 Control Register" bitfld.quad 0x00 31. "L2RSTDM,L2RSTDISABLE monitor" "No,Yes" bitfld.quad 0x00 24.--25. "NCPU,Number of CPU" "1,2,3,4" rbitfld.quad 0x00 22. "CPUCP,CPU Cache Protection" "Disabled,Enabled" newline bitfld.quad 0x00 21. "SCUL2CP,SCU-L2 Cache Protection" "Disabled,Enabled" bitfld.quad 0x00 20. "DIECCE,Data inline ECC enable" "Disabled,Enabled" rbitfld.quad 0x00 13. "L2AS,L2 arbitration slice" "Not presented,Presented" newline rbitfld.quad 0x00 12. "L2TRAMS,L2 Tag RAM slice" "Not presented,Presented" rbitfld.quad 0x00 10.--11. "L2DRAMS,L2 Data RAM slice" "Not presented,1,2,?..." bitfld.quad 0x00 9. "L2TRAMS,L2 Tag RAM setup" "0 cycle,1 cycle" newline bitfld.quad 0x00 6.--8. "L2TRAML,L2 Tag RAM latency" "2 cycles,2 cycles,3 cycles,4 cycles,5 cycles,5 cycles,5 cycles,5 cycles" rbitfld.quad 0x00 5. "DRAMIL,L2 data RAM input latency" "1 cycle,2 cycle" bitfld.quad 0x00 0.--2. "DRAML,L2 data RAM latency" "2 cycles,2 cycles,3 cycles,4 cycles,5 cycles,6 cycles,7 cycles,8 cycles" group.quad SPR:0x31B03++0x0 line.quad 0x00 "L2ECTLR_EL1,L2 Extended Control Register" bitfld.quad 0x00 30. "L2INTASYNCERR,L2 internal asynchronous error" "No error,Error" bitfld.quad 0x00 29. "AXIASYNCERR,AXI asynchronous error" "No error,Error" bitfld.quad 0x00 0.--2. "L2DRC,L2 dynamic retention control" "Disabled,2 ticks,8 ticks,32 ticks,64 ticks,128 ticks,256 ticks,512 ticks" group.quad SPR:0x31F00++0x00 line.quad 0x00 "L2ACTLR_EL1,L2 Auxiliary Control Register" bitfld.quad 0x00 28. "FL2TBCEA,Force L2 tag bank clock enable active" "Disabled,Enabled" bitfld.quad 0x00 27. "FL2LCEA,Force L2 logic clock enable active" "Disabled,Enabled" bitfld.quad 0x00 26. "FL2GICRCGEA,Forces L2, GIC CPU interface, and Timer Regional Clock Gate(RCG) enables active" "Not forced,Forced" newline bitfld.quad 0x00 25. "ESIAA,Enables single issue across all tag banks when the L2 arbitration replay threshold is reached" "Disabled,Enabled" bitfld.quad 0x00 23. "DPRFRUT,Disables prefetch requests from ReadUnique transactions" "No,Yes" bitfld.quad 0x00 22. "DDTLSPR,Disable dynamic throttling of load/store prefetch requests" "No,Yes" newline bitfld.quad 0x00 20.--21. "DTL2PRFEQOC,Disable throttling of L2 prefetch requests based on Fill/Evict Queue(FEQ) occupancy count" "12,10,8,Disabled" bitfld.quad 0x00 18.--19. "DLASQ,Disable limit on NC/SO/Dev stores in Address Sequence Queue" "12 entries,10 entries,8 entries,No limit" bitfld.quad 0x00 17. "DL2RRA,Disable L2 round-robin arbitration that only clocks through paths with an active requestor waiting to be arbitrated" "No,Yes" newline bitfld.quad 0x00 16. "ERTSI,Enable replay threshold single issue" "Disabled,Enabled" bitfld.quad 0x00 15. "DFFD,Disable fast forwarding of data from ACE or CHI to LS and IF" "No,Yes" bitfld.quad 0x00 14. "EUCE,Enables UniqueClean evictions with data" "Disabled,Enabled" newline bitfld.quad 0x00 13. "DCEO,Disable clean evict optimization" "No,Yes" bitfld.quad 0x00 11. "DDSB,Disable DSB with no DVM synchronization" "No,Yes" bitfld.quad 0x00 10. "DNSDAR,Disable Non-secure debug array read" "No,Yes" newline bitfld.quad 0x00 8. "DDVMCMOMB,Disable DVM and cache maintenance operation message broadcast" "No,Yes" bitfld.quad 0x00 7. "EHDT,Enable hazard detect timeout" "Disabled,Enabled" bitfld.quad 0x00 6. "DACESCHIST,Disable ACE shareable or CHI snoopable transactions from master" "No,Yes" newline bitfld.quad 0x00 4. "DWUWLUTFM,Disable WriteUnique and WriteLineUnique transactions from master" "Disabled,Enabled" bitfld.quad 0x00 3. "DCEPTE,Disables clean/evict push to external" "No,Yes" bitfld.quad 0x00 2. "LTORPTB,Limit to one request per tag bank" "Normal,Limited" newline bitfld.quad 0x00 1. "EARTT,Enable arbitration replay threshold timeout" "Disabled,Enabled" bitfld.quad 0x00 0. "DHPF,Disable hardware prefetch forwarding" "No,Yes" group.quad spr:0x31F23++0x00 line.quad 0x00 "L2MERRSR_EL1,L2 Memory Error Syndrome Register" bitfld.quad 0x00 63. "FATAL,Fatal bit" "0,1" hexmask.quad.byte 0x00 40.--47. 1. "OEC,Other error count" hexmask.quad.byte 0x00 32.--39. 1. "REC,Repeat error count" newline bitfld.quad 0x00 31. "VALID,Valid bit" "Not valid,Valid" hexmask.quad.byte 0x00 24.--30. 1. "RAMID,RAM Identifier" bitfld.quad 0x00 18.--21. "C/W,CPUID/Way" "CPU0 tag way 0,CPU0 tag way 1,CPU1 tag way 0,CPU1 tag way 1,CPU2 tag way 0,CPU2 tag way 1,CPU3 tag way 0,CPU3 tag way 1,?..." newline hexmask.quad.tbyte 0x00 0.--17. 1. "IND,Index" elif (CORENAME()=="CORTEXA53") group.quad SPR:0x31B02++0x0 line.quad 0x00 "L2CTLR_EL1,L2 Control Register" bitfld.quad 0x00 24.--25. "NCPU,Number of CPU" "1,2,3,4" bitfld.quad 0x00 22. "CPUCP,CPU Cache Protection" "Disabled,Enabled" rbitfld.quad 0x00 21. "SCUL2CP,SCU-L2 Cache Protection" "Disabled,Enabled" newline rbitfld.quad 0x00 5. "DRAMIL,L2 data RAM input latency" "1 cycle,2 cycle" rbitfld.quad 0x00 0. "DRAMOL,L2 data RAM output latency" "2 cycles,3 cycles" group.quad SPR:0x31B03++0x0 line.quad 0x00 "L2ECTLR_EL1,L2 Extended Control Register" bitfld.quad 0x00 30. "L2INTASYNCERR,L2 internal asynchronous error" "No error,Error" bitfld.quad 0x00 29. "AXIASYNCERR,AXI asynchronous error" "No error,Error" bitfld.quad 0x00 0.--2. "L2DRC,L2 dynamic retention control" "Disabled,2 ticks,8 ticks,32 ticks,64 ticks,128 ticks,256 ticks,512 ticks" group.quad SPR:0x31F00++0x00 line.quad 0x00 "L2ACTLR_EL1,L2 Auxiliary Control Register" bitfld.quad 0x00 30.--31. "L2VC,L2 Victim Control" "0,1,2,3" bitfld.quad 0x00 29. "L2DEIEN,L2 cache data RAM error injection enable" "Disabled,Enabled" bitfld.quad 0x00 24. "L2TEIEN,L2 cache tag RAM error injection enable." "Disabled,Enabled" newline bitfld.quad 0x00 14. "EUCE,Enables UniqueClean evictions with data" "Disabled,Enabled" bitfld.quad 0x00 3. "DCEPTE,Disables clean/evict push to external" "No,Yes" group.quad spr:0x31F23++0x00 line.quad 0x00 "L2MERRSR_EL1,L2 Memory Error Syndrome Register" bitfld.quad 0x00 63. "FATAL,Fatal bit" "0,1" hexmask.quad.byte 0x00 40.--47. 1. "OEC,Other error count" hexmask.quad.byte 0x00 32.--39. 1. "REC,Repeat error count" newline bitfld.quad 0x00 31. "VALID,Valid bit" "Not valid,Valid" hexmask.quad.byte 0x00 24.--30. 1. "RAMID,RAM Identifier" bitfld.quad 0x00 18.--21. "C/W,CPUID/Way" "CPU0 tag way 0,CPU0 tag way 1,CPU1 tag way 0,CPU1 tag way 1,CPU2 tag way 0,CPU2 tag way 1,CPU3 tag way 0,CPU3 tag way 1,?..." newline hexmask.quad.word 0x00 3.--16. 1. "RAD,RAM index address" endif tree.end tree.end tree "System Performance Monitor" group.quad SPR:0x339C0++0x00 line.quad 0x0 "PMCR_EL0,Performance Monitor Control Register" hexmask.quad.byte 0x00 24.--31. 1. "IMP,Implementer code" hexmask.quad.byte 0x00 16.--23. 1. "IDCODE,Identification code" bitfld.quad 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.quad 0x00 6. "LC,Long cycle count enable" "Disabled,Enabled" newline bitfld.quad 0x00 5. "DP,Disable CCNT when prohibited" "No,Yes" bitfld.quad 0x00 4. "X,Export Enable" "Disabled,Enabled" bitfld.quad 0x00 3. "D,Clock Divider" "Every cycle,64th cycle" bitfld.quad 0x00 2. "C,Clock Counter Reset" "No reset,Reset" newline bitfld.quad 0x00 1. "P,Performance Counter Reset" "No reset,Reset" bitfld.quad 0x00 0. "E,All Counters Enable" "Disabled,Enabled" group.quad SPR:0x339C1++0x00 line.quad 0x00 "PMCNTENSET_EL0,Count Enable Set Register" bitfld.quad 0x00 31. "C,PMCCNTR enable" "Disabled,Enabled" bitfld.quad 0x00 30. "P30,Event Counter 30 enable bit" "Disabled,Enabled" bitfld.quad 0x00 29. "P29,Event Counter 29 enable bit" "Disabled,Enabled" bitfld.quad 0x00 28. "P28,Event Counter 28 enable bit" "Disabled,Enabled" newline bitfld.quad 0x00 27. "P27,Event Counter 27 enable bit" "Disabled,Enabled" bitfld.quad 0x00 26. "P26,Event Counter 26 enable bit" "Disabled,Enabled" bitfld.quad 0x00 25. "P25,Event Counter 25 enable bit" "Disabled,Enabled" bitfld.quad 0x00 24. "P24,Event Counter 24 enable bit" "Disabled,Enabled" newline bitfld.quad 0x00 23. "P23,Event Counter 23 enable bit" "Disabled,Enabled" bitfld.quad 0x00 22. "P22,Event Counter 22 enable bit" "Disabled,Enabled" bitfld.quad 0x00 21. "P21,Event Counter 21 enable bit" "Disabled,Enabled" bitfld.quad 0x00 20. "P20,Event Counter 20 enable bit" "Disabled,Enabled" newline bitfld.quad 0x00 19. "P19,Event Counter 19 enable bit" "Disabled,Enabled" bitfld.quad 0x00 18. "P18,Event Counter 18 enable bit" "Disabled,Enabled" bitfld.quad 0x00 17. "P17,Event Counter 17 enable bit" "Disabled,Enabled" bitfld.quad 0x00 16. "P16,Event Counter 16 enable bit" "Disabled,Enabled" newline bitfld.quad 0x00 15. "P15,Event Counter 15 enable bit" "Disabled,Enabled" bitfld.quad 0x00 14. "P14,Event Counter 14 enable bit" "Disabled,Enabled" bitfld.quad 0x00 13. "P13,Event Counter 13 enable bit" "Disabled,Enabled" bitfld.quad 0x00 12. "P12,Event Counter 12 enable bit" "Disabled,Enabled" newline bitfld.quad 0x00 11. "P11,Event Counter 11 enable bit" "Disabled,Enabled" bitfld.quad 0x00 10. "P10,Event Counter 10 enable bit" "Disabled,Enabled" bitfld.quad 0x00 9. "P9,Event Counter 9 enable bit" "Disabled,Enabled" bitfld.quad 0x00 8. "P8,Event Counter 8 enable bit" "Disabled,Enabled" newline bitfld.quad 0x00 7. "P7,Event Counter 7 enable bit" "Disabled,Enabled" bitfld.quad 0x00 6. "P6,Event Counter 6 enable bit" "Disabled,Enabled" bitfld.quad 0x00 5. "P5,Event Counter 5 enable bit" "Disabled,Enabled" bitfld.quad 0x00 4. "P4,Event Counter 4 enable bit" "Disabled,Enabled" newline bitfld.quad 0x00 3. "P3,Event Counter 3 enable bit" "Disabled,Enabled" bitfld.quad 0x00 2. "P2,Event Counter 2 enable bit" "Disabled,Enabled" bitfld.quad 0x00 1. "P1,Event Counter 1 enable bit" "Disabled,Enabled" bitfld.quad 0x00 0. "P0,Event Counter 0 enable bit" "Disabled,Enabled" group.quad SPR:0x339C2++0x00 line.quad 0x00 "PMCNTENCLR_EL0,Count Enable Clear Register" bitfld.quad 0x00 31. "C,PMCCNTR enable" "Disabled,Enabled" eventfld.quad 0x00 30. "P30,Event Counter 30 clear bit" "Disabled,Enabled" eventfld.quad 0x00 29. "P29,Event Counter 29 clear bit" "Disabled,Enabled" eventfld.quad 0x00 28. "P28,Event Counter 28 clear bit" "Disabled,Enabled" newline eventfld.quad 0x00 27. "P27,Event Counter 27 clear bit" "Disabled,Enabled" eventfld.quad 0x00 26. "P26,Event Counter 26 clear bit" "Disabled,Enabled" eventfld.quad 0x00 25. "P25,Event Counter 25 clear bit" "Disabled,Enabled" eventfld.quad 0x00 24. "P24,Event Counter 24 clear bit" "Disabled,Enabled" newline eventfld.quad 0x00 23. "P23,Event Counter 23 clear bit" "Disabled,Enabled" eventfld.quad 0x00 22. "P22,Event Counter 22 clear bit" "Disabled,Enabled" eventfld.quad 0x00 21. "P21,Event Counter 21 clear bit" "Disabled,Enabled" eventfld.quad 0x00 20. "P20,Event Counter 20 clear bit" "Disabled,Enabled" newline eventfld.quad 0x00 19. "P19,Event Counter 19 clear bit" "Disabled,Enabled" eventfld.quad 0x00 18. "P18,Event Counter 18 clear bit" "Disabled,Enabled" eventfld.quad 0x00 17. "P17,Event Counter 17 clear bit" "Disabled,Enabled" eventfld.quad 0x00 16. "P16,Event Counter 16 clear bit" "Disabled,Enabled" newline eventfld.quad 0x00 15. "P15,Event Counter 15 clear bit" "Disabled,Enabled" eventfld.quad 0x00 14. "P14,Event Counter 14 clear bit" "Disabled,Enabled" eventfld.quad 0x00 13. "P13,Event Counter 13 clear bit" "Disabled,Enabled" eventfld.quad 0x00 12. "P12,Event Counter 12 clear bit" "Disabled,Enabled" newline eventfld.quad 0x00 11. "P11,Event Counter 11 clear bit" "Disabled,Enabled" eventfld.quad 0x00 10. "P10,Event Counter 10 clear bit" "Disabled,Enabled" eventfld.quad 0x00 9. "P9,Event Counter 9 clear bit" "Disabled,Enabled" eventfld.quad 0x00 8. "P8,Event Counter 8 clear bit" "Disabled,Enabled" newline eventfld.quad 0x00 7. "P7,Event Counter 7 clear bit" "Disabled,Enabled" eventfld.quad 0x00 6. "P6,Event Counter 6 clear bit" "Disabled,Enabled" eventfld.quad 0x00 5. "P5,Event Counter 5 clear bit" "Disabled,Enabled" eventfld.quad 0x00 4. "P4,Event Counter 4 clear bit" "Disabled,Enabled" newline eventfld.quad 0x00 3. "P3,Event Counter 3 clear bit" "Disabled,Enabled" eventfld.quad 0x00 2. "P2,Event Counter 2 clear bit" "Disabled,Enabled" eventfld.quad 0x00 1. "P1,Event Counter 1 clear bit" "Disabled,Enabled" eventfld.quad 0x00 0. "P0,Event Counter 0 clear bit" "Disabled,Enabled" group.quad SPR:0x339C3++0x00 line.quad 0x00 "PMOVSCLR_EL0,Performance Monitors Overflow Flag Status Clear Register" bitfld.quad 0x00 31. "C,PMCCNTR overflow" "No overflow,Overflow" eventfld.quad 0x00 30. "P30,Event Counter 30 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 29. "P29,Event Counter 29 clear bit" "Disabled,Enabled" eventfld.quad 0x00 28. "P28,Event Counter 28 overflow clear bit" "Disabled,Enabled" newline eventfld.quad 0x00 27. "P27,Event Counter 27 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 26. "P26,Event Counter 26 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 25. "P25,Event Counter 25 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 24. "P24,Event Counter 24 overflow clear bit" "Disabled,Enabled" newline eventfld.quad 0x00 23. "P23,Event Counter 23 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 22. "P22,Event Counter 22 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 21. "P21,Event Counter 21 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 20. "P20,Event Counter 20 overflow clear bit" "Disabled,Enabled" newline eventfld.quad 0x00 19. "P19,Event Counter 19 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 18. "P18,Event Counter 18 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 17. "P17,Event Counter 17 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 16. "P16,Event Counter 16 overflow clear bit" "Disabled,Enabled" newline eventfld.quad 0x00 15. "P15,Event Counter 15 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 14. "P14,Event Counter 14 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 13. "P13,Event Counter 13 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 12. "P12,Event Counter 12 overflow clear bit" "Disabled,Enabled" newline eventfld.quad 0x00 11. "P11,Event Counter 11 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 10. "P10,Event Counter 10 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 9. "P9,Event Counter 9 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 8. "P8,Event Counter 8 overflow clear bit" "Disabled,Enabled" newline eventfld.quad 0x00 7. "P7,Event Counter 7 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 6. "P6,Event Counter 6 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 5. "P5,Event Counter 5 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 4. "P4,Event Counter 4 overflow clear bit" "Disabled,Enabled" newline eventfld.quad 0x00 3. "P3,Event Counter 3 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 2. "P2,Event Counter 2 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 1. "P1,Event Counter 1 overflow clear bit" "Disabled,Enabled" eventfld.quad 0x00 0. "P0,Event Counter 0 overflow clear bit" "Disabled,Enabled" wgroup.quad SPR:0x339C4++0x00 line.quad 0x00 "PMSWINC_EL0,Performance Monitor Software Increment" bitfld.quad 0x00 30. "P30,Increment PMN30" "No action,Increment" bitfld.quad 0x00 29. "P29,Increment PMN29" "No action,Increment" bitfld.quad 0x00 28. "P28,Increment PMN28" "No action,Increment" bitfld.quad 0x00 27. "P27,Increment PMN27" "No action,Increment" newline bitfld.quad 0x00 26. "P26,Increment PMN26" "No action,Increment" bitfld.quad 0x00 25. "P25,Increment PMN25" "No action,Increment" bitfld.quad 0x00 24. "P24,Increment PMN24" "No action,Increment" bitfld.quad 0x00 23. "P23,Increment PMN23" "No action,Increment" newline bitfld.quad 0x00 22. "P22,Increment PMN22" "No action,Increment" bitfld.quad 0x00 21. "P21,Increment PMN21" "No action,Increment" bitfld.quad 0x00 20. "P20,Increment PMN20" "No action,Increment" bitfld.quad 0x00 19. "P19,Increment PMN19" "No action,Increment" newline bitfld.quad 0x00 18. "P18,Increment PMN18" "No action,Increment" bitfld.quad 0x00 17. "P17,Increment PMN17" "No action,Increment" bitfld.quad 0x00 16. "P16,Increment PMN16" "No action,Increment" bitfld.quad 0x00 15. "P15,Increment PMN15" "No action,Increment" newline bitfld.quad 0x00 14. "P14,Increment PMN14" "No action,Increment" bitfld.quad 0x00 13. "P13,Increment PMN13" "No action,Increment" bitfld.quad 0x00 12. "P12,Increment PMN12" "No action,Increment" bitfld.quad 0x00 11. "P11,Increment PMN11" "No action,Increment" newline bitfld.quad 0x00 10. "P10,Increment PMN10" "No action,Increment" bitfld.quad 0x00 9. "P9,Increment PMN9" "No action,Increment" bitfld.quad 0x00 8. "P8,Increment PMN8" "No action,Increment" bitfld.quad 0x00 7. "P7,Increment PMN7" "No action,Increment" newline bitfld.quad 0x00 6. "P6,Increment PMN6" "No action,Increment" bitfld.quad 0x00 5. "P5,Increment PMN5" "No action,Increment" bitfld.quad 0x00 4. "P4,Increment PMN4" "No action,Increment" bitfld.quad 0x00 3. "P3,Increment PMN3" "No action,Increment" newline bitfld.quad 0x00 2. "P2,Increment PMN2" "No action,Increment" bitfld.quad 0x00 1. "P1,Increment PMN1" "No action,Increment" bitfld.quad 0x00 0. "P0,Increment PMN0" "No action,Increment" group.quad SPR:0x339C5++0x00 line.quad 0x00 "PMSELR_EL0,Performance Monitor Select Register" bitfld.quad 0x00 0.--4. "SEL,Current event counter select" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" tree.open "Common Event Identification Registers" if (CORENAME()=="CORTEXA57") rgroup.quad SPR:0x339C6++0x0 line.quad 0x00 "PMCEID0_EL0,Common Event Identification Register 0" bitfld.quad 0x00 30. "EVENT30,Chain" "Not implemented,Implemented" bitfld.quad 0x00 29. "EVENT29,Bus cycle" "Not implemented,Implemented" bitfld.quad 0x00 28. "EVENT28,Instruction architecturally executed condition check pass" "Not implemented,Implemented" newline bitfld.quad 0x00 27. "EVENT27,Instruction speculatively executed" "Not implemented,Implemented" bitfld.quad 0x00 26. "EVENT26,Local memory error" "Not implemented,Implemented" bitfld.quad 0x00 25. "EVENT25,Bus access" "Not implemented,Implemented" newline bitfld.quad 0x00 24. "EVENT24,Level 2 data cache write-back" "Not implemented,Implemented" bitfld.quad 0x00 23. "EVENT23,Level 2 data cache refill" "Not implemented,Implemented" bitfld.quad 0x00 22. "EVENT22,Level 2 data cache access" "Not implemented,Implemented" newline bitfld.quad 0x00 21. "EVENT21,Level 1 data cache write-back" "Not implemented,Implemented" bitfld.quad 0x00 20. "EVENT20,Level 1 instruction cache access" "Not implemented,Implemented" bitfld.quad 0x00 19. "EVENT19,Data memory access" "Not implemented,Implemented" newline bitfld.quad 0x00 18. "EVENT18,Predictable branch speculatively executed" "Not implemented,Implemented" bitfld.quad 0x00 17. "EVENT17,Cycle" "Not implemented,Implemented" bitfld.quad 0x00 16. "EVENT16,Mispredicted or not predicted branch speculatively executed" "Not implemented,Implemented" newline bitfld.quad 0x00 15. "EVENT15,Instruction architecturally executed condition check pass unaligned load or store" "Not implemented,Implemented" bitfld.quad 0x00 14. "EVENT14,Instruction architecturally executed condition check pass procedure return" "Not implemented,Implemented" bitfld.quad 0x00 13. "EVENT13,Instruction architecturally executed immediate branch" "Not implemented,Implemented" newline bitfld.quad 0x00 12. "EVENT12,Instruction architecturally executed condition check pass software change of the PC" "Not implemented,Implemented" bitfld.quad 0x00 11. "EVENT11,Instruction architecturally executed condition check pass write to CONTEXTIDR" "Not implemented,Implemented" bitfld.quad 0x00 10. "EVENT10,Instruction architecturally executed condition check pass exception return" "Not implemented,Implemented" newline bitfld.quad 0x00 9. "EVENT9,Exception taken" "Not implemented,Implemented" bitfld.quad 0x00 8. "EVENT8,Instruction architecturally executed" "Not implemented,Implemented" bitfld.quad 0x00 7. "EVENT7,Instruction architecturally executed condition check pass store" "Not implemented,Implemented" newline bitfld.quad 0x00 6. "EVENT6,Instruction architecturally executed condition check pass load" "Not implemented,Implemented" bitfld.quad 0x00 5. "EVENT5,Level 1 data TLB refill" "Not implemented,Implemented" bitfld.quad 0x00 4. "EVENT4,Level 1 data cache access" "Not implemented,Implemented" newline bitfld.quad 0x00 3. "EVENT3,Level 1 data cache refill" "Not implemented,Implemented" bitfld.quad 0x00 2. "EVENT2,Level 1 instruction TLB refill" "Not implemented,Implemented" bitfld.quad 0x00 1. "EVENT1,Level 1 instruction cache refill" "Not implemented,Implemented" newline bitfld.quad 0x00 0. "EVENT0,Instruction architecturally executed condition check pass software increment" "Not implemented,Implemented" elif (CORENAME()=="CORTEXA53") rgroup.quad SPR:0x339C6++0x0 line.quad 0x00 "PMCEID0_EL0,Common Event Identification Register 0" bitfld.quad 0x00 31. "EVENT31,L1 Data cache allocate" "Not implemented,Implemented" bitfld.quad 0x00 30. "EVENT30,Chain" "Not implemented,Implemented" bitfld.quad 0x00 29. "EVENT29,Bus cycle" "Not implemented,Implemented" newline bitfld.quad 0x00 28. "EVENT28,Instruction architecturally executed condition check pass" "Not implemented,Implemented" bitfld.quad 0x00 27. "EVENT27,Instruction speculatively executed" "Not implemented,Implemented" bitfld.quad 0x00 26. "EVENT26,Local memory error" "Not implemented,Implemented" newline bitfld.quad 0x00 25. "EVENT25,Bus access" "Not implemented,Implemented" bitfld.quad 0x00 24. "EVENT24,Level 2 data cache write-back" "Not implemented,Implemented" bitfld.quad 0x00 23. "EVENT23,Level 2 data cache refill" "Not implemented,Implemented" newline bitfld.quad 0x00 22. "EVENT22,Level 2 data cache access" "Not implemented,Implemented" bitfld.quad 0x00 21. "EVENT21,Level 1 data cache write-back" "Not implemented,Implemented" bitfld.quad 0x00 20. "EVENT20,Level 1 instruction cache access" "Not implemented,Implemented" newline bitfld.quad 0x00 19. "EVENT19,Data memory access" "Not implemented,Implemented" bitfld.quad 0x00 18. "EVENT18,Predictable branch speculatively executed" "Not implemented,Implemented" bitfld.quad 0x00 17. "EVENT17,Cycle" "Not implemented,Implemented" newline bitfld.quad 0x00 16. "EVENT16,Mispredicted or not predicted branch speculatively executed" "Not implemented,Implemented" bitfld.quad 0x00 15. "EVENT15,Instruction architecturally executed condition check pass unaligned load or store" "Not implemented,Implemented" bitfld.quad 0x00 14. "EVENT14,Instruction architecturally executed condition check pass procedure return" "Not implemented,Implemented" newline bitfld.quad 0x00 13. "EVENT13,Instruction architecturally executed immediate branch" "Not implemented,Implemented" bitfld.quad 0x00 12. "EVENT12,Instruction architecturally executed condition check pass software change of the PC" "Not implemented,Implemented" bitfld.quad 0x00 11. "EVENT11,Instruction architecturally executed condition check pass write to CONTEXTIDR" "Not implemented,Implemented" newline bitfld.quad 0x00 10. "EVENT10,Instruction architecturally executed condition check pass exception return" "Not implemented,Implemented" bitfld.quad 0x00 9. "EVENT9,Exception taken" "Not implemented,Implemented" bitfld.quad 0x00 8. "EVENT8,Instruction architecturally executed" "Not implemented,Implemented" newline bitfld.quad 0x00 7. "EVENT7,Instruction architecturally executed condition check pass store" "Not implemented,Implemented" bitfld.quad 0x00 6. "EVENT6,Instruction architecturally executed condition check pass load" "Not implemented,Implemented" bitfld.quad 0x00 5. "EVENT5,Level 1 data TLB refill" "Not implemented,Implemented" newline bitfld.quad 0x00 4. "EVENT4,Level 1 data cache access" "Not implemented,Implemented" bitfld.quad 0x00 3. "EVENT3,Level 1 data cache refill" "Not implemented,Implemented" bitfld.quad 0x00 2. "EVENT2,Level 1 instruction TLB refill" "Not implemented,Implemented" newline bitfld.quad 0x00 1. "EVENT1,Level 1 instruction cache refill" "Not implemented,Implemented" bitfld.quad 0x00 0. "EVENT0,Instruction architecturally executed condition check pass software increment" "Not implemented,Implemented" endif rgroup.quad SPR:0x339C7++0x0 line.quad 0x00 "PMCEID1_EL0,Common Event Identification Register 1" bitfld.quad 0x00 0. "EVENT32,Level 2 cache allocate" "Not implemented,Implemented" tree.end newline group.quad spr:0x339D0++0x00 line.quad 0x00 "PMCCNTR_EL0,Performance Monitor Cycle Count Register" group.quad SPR:0x339D1++0x00 line.quad 0x00 "PMXEVTYPER_EL0,Performance Monitor Event Type Register" group.quad SPR:0x339D2++0x00 line.quad 0x00 "PMXEVCNTR_EL0,Performance Monitor Event Count Register" group.quad SPR:0x339E0++0x00 line.quad 0x00 "PMUSERENR_EL0,Performance Monitor User Enable Register" bitfld.quad 0x00 3. "ER,Event counter read enable" "Disabled,Enabled" bitfld.quad 0x00 2. "EC,Cycle counter read enable" "Disabled,Enabled" bitfld.quad 0x00 1. "SW,Software Increment write enable" "Disabled,Enabled" bitfld.quad 0x00 0. "EN,User mode access enable" "Disabled,Enabled" group.quad SPR:0x309E1++0x00 line.quad 0x00 "PMINTENSET_EL1,Performance Monitor Interrupt Enable Set" bitfld.quad 0x00 31. "C,Cycle counter Overflow Interrupt clear" "Disabled,Enabled" bitfld.quad 0x00 30. "P30,PMCNT30 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 29. "P29,PMCNT29 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 28. "P28,PMCNT28 Overflow Interrupt Enable" "Disabled,Enabled" newline bitfld.quad 0x00 27. "P27,PMCNT27 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 26. "P26,PMCNT26 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 25. "P25,PMCNT25 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 24. "P24,PMCNT24 Overflow Interrupt Enable" "Disabled,Enabled" newline bitfld.quad 0x00 23. "P23,PMCNT23 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 22. "P22,PMCNT22 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 21. "P21,PMCNT21 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 20. "P20,PMCNT20 Overflow Interrupt Enable" "Disabled,Enabled" newline bitfld.quad 0x00 19. "P19,PMCNT19 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 18. "P18,PMCNT18 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 17. "P17,PMCNT17 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 16. "P16,PMCNT16 Overflow Interrupt Enable" "Disabled,Enabled" newline bitfld.quad 0x00 15. "P15,PMCNT15 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 14. "P14,PMCNT14 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 13. "P13,PMCNT13 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 12. "P12,PMCNT12 Overflow Interrupt Enable" "Disabled,Enabled" newline bitfld.quad 0x00 11. "P11,PMCNT11 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 10. "P10,PMCNT10 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 9. "P9,PMCNT9 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 8. "P8,PMCNT8 Overflow Interrupt Enable" "Disabled,Enabled" newline bitfld.quad 0x00 7. "P7,PMCNT7 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 6. "P6,PMCNT6 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 5. "P5,PMCNT5 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 4. "P4,PMCNT4 Overflow Interrupt Enable" "Disabled,Enabled" newline bitfld.quad 0x00 3. "P3,PMCNT3 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 2. "P2,PMCNT2 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 1. "P1,PMCNT1 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 0. "P0,PMCNT0 Overflow Interrupt Enable" "Disabled,Enabled" group.quad SPR:0x309E2++0x00 line.quad 0x00 "PMINTENCLR_EL1,Performance Monitor Interrupt Enable Clear" bitfld.quad 0x00 31. "C,PMCCNTR enable" "Disabled,Enabled" eventfld.quad 0x00 30. "P30,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 29. "P29,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 28. "P28,Overflow Interrupt Clear" "Disabled,Enabled" newline eventfld.quad 0x00 27. "P27,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 26. "P26,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 25. "P25,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 24. "P24,Overflow Interrupt Clear" "Disabled,Enabled" newline eventfld.quad 0x00 23. "P23,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 22. "P22,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 21. "P21,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 20. "P20,Overflow Interrupt Clear" "Disabled,Enabled" newline eventfld.quad 0x00 19. "P19,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 18. "P18,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 17. "P17,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 16. "P16,Overflow Interrupt Clear" "Disabled,Enabled" newline eventfld.quad 0x00 15. "P15,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 14. "P14,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 13. "P13,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 12. "P12,Overflow Interrupt Clear" "Disabled,Enabled" newline eventfld.quad 0x00 11. "P11,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 10. "P10,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 9. "P9,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 8. "P8,Overflow Interrupt Clear" "Disabled,Enabled" newline eventfld.quad 0x00 7. "P7,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 6. "P6,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 5. "P5,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 4. "P4,Overflow Interrupt Clear" "Disabled,Enabled" newline eventfld.quad 0x00 3. "P3,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 2. "P2,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 1. "P1,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.quad 0x00 0. "P0,Overflow Interrupt Clear" "Disabled,Enabled" group.quad SPR:0x339E3++0x00 line.quad 0x00 "PMOVSSET_EL0,Performance Monitor Overflow Flag Status Set Register" group.quad SPR:(0x33E80+0x0)++0x00 line.quad 0x00 "PMEVCNTR0_EL0,Performance Monitors Event Count Register 0" group.quad SPR:(0x33EC0+0x0)++0x00 line.quad 0x00 "PMEVTYPER0_EL0,Performance Monitors Selected Event Type Register 0" bitfld.quad 0x00 31. "P,EL1 modes filtering bit" "Enabled,Disabled" bitfld.quad 0x00 30. "U,EL0 filtering bit" "Enabled,Disabled" bitfld.quad 0x00 29. "NSK,Non-secure kernel modes filtering bit" "Enabled,Disabled" bitfld.quad 0x00 28. "NSU,Non-secure user modes filtering bit" "Enabled,Disabled" newline bitfld.quad 0x00 27. "NSH,Non-secure Hypervisor modes filtering bit" "Disabled,Enabled" bitfld.quad 0x00 26. "M,Secure EL3 filtering bit" "Disabled,Enabled" hexmask.quad.word 0x00 0.--9. 1. "EVTCOUNT,Event to count" group.quad SPR:(0x33E80+0x1)++0x00 line.quad 0x00 "PMEVCNTR1_EL0,Performance Monitors Event Count Register 1" group.quad SPR:(0x33EC0+0x1)++0x00 line.quad 0x00 "PMEVTYPER1_EL0,Performance Monitors Selected Event Type Register 1" bitfld.quad 0x00 31. "P,EL1 modes filtering bit" "Enabled,Disabled" bitfld.quad 0x00 30. "U,EL0 filtering bit" "Enabled,Disabled" bitfld.quad 0x00 29. "NSK,Non-secure kernel modes filtering bit" "Enabled,Disabled" bitfld.quad 0x00 28. "NSU,Non-secure user modes filtering bit" "Enabled,Disabled" newline bitfld.quad 0x00 27. "NSH,Non-secure Hypervisor modes filtering bit" "Disabled,Enabled" bitfld.quad 0x00 26. "M,Secure EL3 filtering bit" "Disabled,Enabled" hexmask.quad.word 0x00 0.--9. 1. "EVTCOUNT,Event to count" group.quad SPR:(0x33E80+0x2)++0x00 line.quad 0x00 "PMEVCNTR2_EL0,Performance Monitors Event Count Register 2" group.quad SPR:(0x33EC0+0x2)++0x00 line.quad 0x00 "PMEVTYPER2_EL0,Performance Monitors Selected Event Type Register 2" bitfld.quad 0x00 31. "P,EL1 modes filtering bit" "Enabled,Disabled" bitfld.quad 0x00 30. "U,EL0 filtering bit" "Enabled,Disabled" bitfld.quad 0x00 29. "NSK,Non-secure kernel modes filtering bit" "Enabled,Disabled" bitfld.quad 0x00 28. "NSU,Non-secure user modes filtering bit" "Enabled,Disabled" newline bitfld.quad 0x00 27. "NSH,Non-secure Hypervisor modes filtering bit" "Disabled,Enabled" bitfld.quad 0x00 26. "M,Secure EL3 filtering bit" "Disabled,Enabled" hexmask.quad.word 0x00 0.--9. 1. "EVTCOUNT,Event to count" group.quad SPR:(0x33E80+0x3)++0x00 line.quad 0x00 "PMEVCNTR3_EL0,Performance Monitors Event Count Register 3" group.quad SPR:(0x33EC0+0x3)++0x00 line.quad 0x00 "PMEVTYPER3_EL0,Performance Monitors Selected Event Type Register 3" bitfld.quad 0x00 31. "P,EL1 modes filtering bit" "Enabled,Disabled" bitfld.quad 0x00 30. "U,EL0 filtering bit" "Enabled,Disabled" bitfld.quad 0x00 29. "NSK,Non-secure kernel modes filtering bit" "Enabled,Disabled" bitfld.quad 0x00 28. "NSU,Non-secure user modes filtering bit" "Enabled,Disabled" newline bitfld.quad 0x00 27. "NSH,Non-secure Hypervisor modes filtering bit" "Disabled,Enabled" bitfld.quad 0x00 26. "M,Secure EL3 filtering bit" "Disabled,Enabled" hexmask.quad.word 0x00 0.--9. 1. "EVTCOUNT,Event to count" group.quad SPR:(0x33E80+0x4)++0x00 line.quad 0x00 "PMEVCNTR4_EL0,Performance Monitors Event Count Register 4" group.quad SPR:(0x33EC0+0x4)++0x00 line.quad 0x00 "PMEVTYPER4_EL0,Performance Monitors Selected Event Type Register 4" bitfld.quad 0x00 31. "P,EL1 modes filtering bit" "Enabled,Disabled" bitfld.quad 0x00 30. "U,EL0 filtering bit" "Enabled,Disabled" bitfld.quad 0x00 29. "NSK,Non-secure kernel modes filtering bit" "Enabled,Disabled" bitfld.quad 0x00 28. "NSU,Non-secure user modes filtering bit" "Enabled,Disabled" newline bitfld.quad 0x00 27. "NSH,Non-secure Hypervisor modes filtering bit" "Disabled,Enabled" bitfld.quad 0x00 26. "M,Secure EL3 filtering bit" "Disabled,Enabled" hexmask.quad.word 0x00 0.--9. 1. "EVTCOUNT,Event to count" group.quad SPR:(0x33E80+0x5)++0x00 line.quad 0x00 "PMEVCNTR5_EL0,Performance Monitors Event Count Register 5" group.quad SPR:(0x33EC0+0x5)++0x00 line.quad 0x00 "PMEVTYPER5_EL0,Performance Monitors Selected Event Type Register 5" bitfld.quad 0x00 31. "P,EL1 modes filtering bit" "Enabled,Disabled" bitfld.quad 0x00 30. "U,EL0 filtering bit" "Enabled,Disabled" bitfld.quad 0x00 29. "NSK,Non-secure kernel modes filtering bit" "Enabled,Disabled" bitfld.quad 0x00 28. "NSU,Non-secure user modes filtering bit" "Enabled,Disabled" newline bitfld.quad 0x00 27. "NSH,Non-secure Hypervisor modes filtering bit" "Disabled,Enabled" bitfld.quad 0x00 26. "M,Secure EL3 filtering bit" "Disabled,Enabled" hexmask.quad.word 0x00 0.--9. 1. "EVTCOUNT,Event to count" group.quad SPR:0x33EF7++0x00 line.quad 0x00 "PMCCFILTR_EL0,Performance Monitors Cycle Count Filter Register" bitfld.quad 0x00 31. "P,EL1 modes filtering bit" "Enabled,Disabled" bitfld.quad 0x00 30. "U,EL0 filtering bit" "Enabled,Disabled" bitfld.quad 0x00 29. "NSK,Non-secure kernel modes filtering bit" "Enabled,Disabled" bitfld.quad 0x00 28. "NSU,Non-secure user modes filtering bit" "Enabled,Disabled" newline bitfld.quad 0x00 27. "NSH,Non-secure Hypervisor modes filtering bit" "Disabled,Enabled" bitfld.quad 0x00 26. "M,Secure EL3 filtering bit" "Disabled,Enabled" tree.end tree "System Timer Registers" group.quad SPR:0x33E00++0x00 line.quad 0x00 "CNTFRQ_EL0,Counter Frequency Register" rgroup.quad spr:0x33E01++0x00 line.quad 0x00 "CNTPCT_EL0,Counter Physical Count Register" group.quad SPR:0x30E10++0x00 line.quad 0x00 "CNTKCTL_EL1,Timer PL1 Control Register" bitfld.quad 0x00 9. "EL0PTEN,Controls whether the physical timer registers are accessible from EL0 modes" "Not accessible,Accessible" bitfld.quad 0x00 8. "EL0VTEN,Controls whether the virtual timer registers are accessible from EL0 modes" "Not accessible,Accessible" bitfld.quad 0x00 4.--7. "EVNTI,Selects which bit of CNTVCT is the trigger for the event stream generated from the virtual counter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 3. "EVNTDIR,Controls which transition of the CNTVCT trigger bit" "0 to 1,1 to 0" newline bitfld.quad 0x00 2. "EVNTEN,Enables the generation of an event stream from the virtual counter" "Disabled,Enabled" bitfld.quad 0x00 1. "EL0VCTEN,Controls whether the virtual counter, CNTVCT, and the frequency register CNTFRQ, are accessible from EL0 modes" "Not accessible,Accessible" bitfld.quad 0x00 0. "EL0PCTEN,Controls whether the physical counter, CNTPCT, and the frequency register CNTFRQ, are accessible from EL0 modes" "Not accessible,Accessible" group.quad SPR:0x33E20++0x00 line.quad 0x00 "CNTP_TVAL_EL0,Counter-timer Physical Timer TimerValue register" group.quad SPR:0x33E21++0x00 line.quad 0x00 "CNTP_CTL_EL0,Counter PL1 Physical Timer Control Register" bitfld.quad 0x00 2. "ISTATUS,The status of the timer interrupt" "No interrupt,Interrupt" bitfld.quad 0x00 1. "IMASK,Timer interrupt mask bit" "Not masked,Masked" bitfld.quad 0x00 0. "ENABLE,Enables the timer" "Disabled,Enabled" group.quad SPR:0x33E30++0x00 line.quad 0x00 "CNTV_TVAL_EL0,Counter PL1 Virtual Timer Value Register" group.quad SPR:0x33E31++0x00 line.quad 0x00 "CNTV_CTL_EL0,Counter PL1 Virtual Timer Control Register" bitfld.quad 0x00 2. "ISTATUS,The status of the timer interrupt" "No interrupt,Interrupt" bitfld.quad 0x00 1. "IMASK,Timer interrupt mask bit" "Not masked,Masked" bitfld.quad 0x00 0. "ENABLE,Enables the timer" "Disabled,Enabled" group.quad spr:0x33E02++0x00 line.quad 0x00 "CNTVCT_EL0,Counter Virtual Count Register" group.quad spr:0x33E22++0x00 line.quad 0x00 "CNTP_CVAL_EL0,Counter PL1 Physical Compare Value Register" group.quad spr:0x33E32++0x00 line.quad 0x00 "CNTV_CVAL_EL0,Counter PL1 Virtual Compare Value Register" group.quad spr:0x34E03++0x00 line.quad 0x00 "CNTVOFF_EL2,Counter Virtual Offset Register" group.quad SPR:0x34E10++0x00 line.quad 0x00 "CNTHCTL_EL2,Counter Non-secure PL2 Control Register" bitfld.quad 0x00 4.--7. "EVNTI,Selects which bit is the trigger for the event stream generated from counter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 3. "EVNTDIR,Controls which transition of the CNTVCT trigger bit" "0 to 1,1 to 0" bitfld.quad 0x00 2. "EVNTEN,Enables the generation of an event stream from the virtual counter" "Disabled,Enabled" newline bitfld.quad 0x00 1. "EL0VCTEN,Controls whether the virtual counter, CNTVCT, and the frequency register CNTFRQ, are accessible from EL0 modes" "Not accessible,Accessible" bitfld.quad 0x00 0. "EL0PCTEN,Controls whether the physical counter, CNTPCT, and the frequency register CNTFRQ, are accessible from EL0 modes" "Not accessible,Accessible" group.quad SPR:0x34E20++0x00 line.quad 0x00 "CNTHP_TVAL_EL2,Counter Non-secure PL2 Physical Timer Value Register" group.quad SPR:0x34E21++0x00 line.quad 0x00 "CNTHP_CTL_EL2,Counter Non-secure PL2 Physical Timer Control Register" rbitfld.quad 0x00 2. "ISTATUS,The status of the timer interrupt" "No interrupt,Interrupt" bitfld.quad 0x00 1. "IMASK,Timer interrupt mask bit" "Not masked,Masked" bitfld.quad 0x00 0. "ENABLE,Enables the timer" "Disabled,Enabled" group.quad spr:0x34E22++0x00 line.quad 0x00 "CNTHP_CVAL_EL2,Counter Non-secure PL2 Physical Compare Value Register" group.quad SPR:0x37E20++0x00 line.quad 0x00 "CNTPS_TVAL_EL1,Counter-timer Physical SecureTimer TimerValue register" group.quad SPR:0x37E21++0x00 line.quad 0x00 "CNTPS_CTL_EL1,Counter-timer Physical Secure Timer Control register" rbitfld.quad 0x00 2. "ISTATUS,The status of the timer interrupt" "No interrupt,Interrupt" bitfld.quad 0x00 1. "IMASK,Timer interrupt mask bit" "Not masked,Masked" bitfld.quad 0x00 0. "ENABLE,Enables the timer" "Disabled,Enabled" group.quad spr:0x37E22++0x00 line.quad 0x00 "CNTPS_CVAL_EL1,Counter-timer Physical Secure Timer CompareValue register" tree.end tree "Generic Interrupt Controller CPU Interface" tree "AArch64 GIC Physical CPU Interface System Registers" tree.open "Interrupt Controller Active Priorities Registers" group.quad spr:0x30C84++0x00 line.quad 0x00 "ICC_AP0R0_EL1,Interrupt Controller Active Priorities Group 0 Register 0 (EL1)" bitfld.quad 0x00 31. "P31,Group 0 interrupt active with priority level 31" "No interrupt,Interrupt" bitfld.quad 0x00 30. "P30,Group 0 interrupt active with priority level 30" "No interrupt,Interrupt" bitfld.quad 0x00 29. "P29,Group 0 interrupt active with priority level 29" "No interrupt,Interrupt" bitfld.quad 0x00 28. "P28,Group 0 interrupt active with priority level 28" "No interrupt,Interrupt" bitfld.quad 0x00 27. "P27,Group 0 interrupt active with priority level 27" "No interrupt,Interrupt" newline bitfld.quad 0x00 26. "P26,Group 0 interrupt active with priority level 26" "No interrupt,Interrupt" bitfld.quad 0x00 25. "P25,Group 0 interrupt active with priority level 25" "No interrupt,Interrupt" bitfld.quad 0x00 24. "P24,Group 0 interrupt active with priority level 24" "No interrupt,Interrupt" bitfld.quad 0x00 23. "P23,Group 0 interrupt active with priority level 23" "No interrupt,Interrupt" bitfld.quad 0x00 22. "P22,Group 0 interrupt active with priority level 22" "No interrupt,Interrupt" newline bitfld.quad 0x00 21. "P21,Group 0 interrupt active with priority level 21" "No interrupt,Interrupt" bitfld.quad 0x00 20. "P20,Group 0 interrupt active with priority level 20" "No interrupt,Interrupt" bitfld.quad 0x00 19. "P19,Group 0 interrupt active with priority level 19" "No interrupt,Interrupt" bitfld.quad 0x00 18. "P18,Group 0 interrupt active with priority level 18" "No interrupt,Interrupt" bitfld.quad 0x00 17. "P17,Group 0 interrupt active with priority level 17" "No interrupt,Interrupt" newline bitfld.quad 0x00 16. "P16,Group 0 interrupt active with priority level 16" "No interrupt,Interrupt" bitfld.quad 0x00 15. "P15,Group 0 interrupt active with priority level 15" "No interrupt,Interrupt" bitfld.quad 0x00 14. "P14,Group 0 interrupt active with priority level 14" "No interrupt,Interrupt" bitfld.quad 0x00 13. "P13,Group 0 interrupt active with priority level 13" "No interrupt,Interrupt" bitfld.quad 0x00 12. "P12,Group 0 interrupt active with priority level 12" "No interrupt,Interrupt" newline bitfld.quad 0x00 11. "P11,Group 0 interrupt active with priority level 11" "No interrupt,Interrupt" bitfld.quad 0x00 10. "P10,Group 0 interrupt active with priority level 10" "No interrupt,Interrupt" bitfld.quad 0x00 9. "P9,Group 0 interrupt active with priority level 9" "No interrupt,Interrupt" bitfld.quad 0x00 8. "P8,Group 0 interrupt active with priority level 8" "No interrupt,Interrupt" bitfld.quad 0x00 7. "P7,Group 0 interrupt active with priority level 7" "No interrupt,Interrupt" newline bitfld.quad 0x00 6. "P6,Group 0 interrupt active with priority level 6" "No interrupt,Interrupt" bitfld.quad 0x00 5. "P5,Group 0 interrupt active with priority level 5" "No interrupt,Interrupt" bitfld.quad 0x00 4. "P4,Group 0 interrupt active with priority level 4" "No interrupt,Interrupt" bitfld.quad 0x00 3. "P3,Group 0 interrupt active with priority level 3" "No interrupt,Interrupt" bitfld.quad 0x00 2. "P2,Group 0 interrupt active with priority level 2" "No interrupt,Interrupt" newline bitfld.quad 0x00 1. "P1,Group 0 interrupt active with priority level 1" "No interrupt,Interrupt" bitfld.quad 0x00 0. "P0,Group 0 interrupt active with priority level 0" "No interrupt,Interrupt" group.quad spr:0x30C90++0x00 line.quad 0x00 "ICC_AP1R0_EL1,Interrupt Controller Active Priorities Group 1 Register 0 (EL1)" bitfld.quad 0x00 31. "P31,Group 1 interrupt active with priority level 31" "No interrupt,Interrupt" bitfld.quad 0x00 30. "P30,Group 1 interrupt active with priority level 30" "No interrupt,Interrupt" bitfld.quad 0x00 29. "P29,Group 1 interrupt active with priority level 29" "No interrupt,Interrupt" bitfld.quad 0x00 28. "P28,Group 1 interrupt active with priority level 28" "No interrupt,Interrupt" bitfld.quad 0x00 27. "P27,Group 1 interrupt active with priority level 27" "No interrupt,Interrupt" newline bitfld.quad 0x00 26. "P26,Group 1 interrupt active with priority level 26" "No interrupt,Interrupt" bitfld.quad 0x00 25. "P25,Group 1 interrupt active with priority level 25" "No interrupt,Interrupt" bitfld.quad 0x00 24. "P24,Group 1 interrupt active with priority level 24" "No interrupt,Interrupt" bitfld.quad 0x00 23. "P23,Group 1 interrupt active with priority level 23" "No interrupt,Interrupt" bitfld.quad 0x00 22. "P22,Group 1 interrupt active with priority level 22" "No interrupt,Interrupt" newline bitfld.quad 0x00 21. "P21,Group 1 interrupt active with priority level 21" "No interrupt,Interrupt" bitfld.quad 0x00 20. "P20,Group 1 interrupt active with priority level 20" "No interrupt,Interrupt" bitfld.quad 0x00 19. "P19,Group 1 interrupt active with priority level 19" "No interrupt,Interrupt" bitfld.quad 0x00 18. "P18,Group 1 interrupt active with priority level 18" "No interrupt,Interrupt" bitfld.quad 0x00 17. "P17,Group 1 interrupt active with priority level 17" "No interrupt,Interrupt" newline bitfld.quad 0x00 16. "P16,Group 1 interrupt active with priority level 16" "No interrupt,Interrupt" bitfld.quad 0x00 15. "P15,Group 1 interrupt active with priority level 15" "No interrupt,Interrupt" bitfld.quad 0x00 14. "P14,Group 1 interrupt active with priority level 14" "No interrupt,Interrupt" bitfld.quad 0x00 13. "P13,Group 1 interrupt active with priority level 13" "No interrupt,Interrupt" bitfld.quad 0x00 12. "P12,Group 1 interrupt active with priority level 12" "No interrupt,Interrupt" newline bitfld.quad 0x00 11. "P11,Group 1 interrupt active with priority level 11" "No interrupt,Interrupt" bitfld.quad 0x00 10. "P10,Group 1 interrupt active with priority level 10" "No interrupt,Interrupt" bitfld.quad 0x00 9. "P9,Group 1 interrupt active with priority level 9" "No interrupt,Interrupt" bitfld.quad 0x00 8. "P8,Group 1 interrupt active with priority level 8" "No interrupt,Interrupt" bitfld.quad 0x00 7. "P7,Group 1 interrupt active with priority level 7" "No interrupt,Interrupt" newline bitfld.quad 0x00 6. "P6,Group 1 interrupt active with priority level 6" "No interrupt,Interrupt" bitfld.quad 0x00 5. "P5,Group 1 interrupt active with priority level 5" "No interrupt,Interrupt" bitfld.quad 0x00 4. "P4,Group 1 interrupt active with priority level 4" "No interrupt,Interrupt" bitfld.quad 0x00 3. "P3,Group 1 interrupt active with priority level 3" "No interrupt,Interrupt" bitfld.quad 0x00 2. "P2,Group 1 interrupt active with priority level 2" "No interrupt,Interrupt" newline bitfld.quad 0x00 1. "P1,Group 1 interrupt active with priority level 1" "No interrupt,Interrupt" bitfld.quad 0x00 0. "P0,Group 1 interrupt active with priority level 0" "No interrupt,Interrupt" tree.end newline if (((per.q(spr:0x30CB6))&0x10000000000)==0x00) wgroup.quad spr:0x30CB6++0x00 line.quad 0x00 "ICC_ASGI1R_EL1,Interrupt Controller Alias Software Generated Interrupt Group 1 Register" hexmask.quad.byte 0x00 48.--55. 1. "AFF3,Affinity 3" newline bitfld.quad 0x00 44.--47. "RS,Range selector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 40. "IRM,Interrupt routing mode" "Target list,All PEs excluding self" newline hexmask.quad.byte 0x00 32.--39. 1. "AFF2,Affinity 2" bitfld.quad 0x00 24.--27. "INTID,The INTID of the SGI" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline hexmask.quad.byte 0x00 16.--23. 1. "AFF1,Affinity 1" hexmask.quad.word 0x00 0.--15. 1. "TARGETLIST,The set of PEs for which SGI interrupts will be generated" else wgroup.quad spr:0x30CB6++0x00 line.quad 0x00 "ICC_ASGI1R_EL1,Interrupt Controller Alias Software Generated Interrupt Group 1 Register" newline bitfld.quad 0x00 44.--47. "RS,Range selector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 40. "IRM,Interrupt routing mode" "Target list,All PEs excluding self" newline bitfld.quad 0x00 24.--27. "INTID,The INTID of the SGI" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline endif group.quad spr:0x30C83++0x00 line.quad 0x00 "ICC_BPR0_EL1,Interrupt Controller Binary Point Register 0" bitfld.quad 0x00 0.--2. "BINARYPOINT,Interrupt Priority Field Control and Interrupt Preemption Control" "[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],No preemption-[7:0]" group.quad spr:0x30CC3++0x00 line.quad 0x00 "ICC_BPR1_EL1,Interrupt Controller Binary Point Register 1" bitfld.quad 0x00 0.--2. "BINARYPOINT,Interrupt Priority Field Control and Interrupt Preemption Control" "Reserved,[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]" group.quad spr:0x30CC4++0x00 line.quad 0x00 "ICC_CTLR_EL1,Interrupt Controller Control Register (EL1)" rbitfld.quad 0x00 19. "EXTRANGE,Extended INTID range" "Reserved,Supported" rbitfld.quad 0x00 18. "RSS,Range selector support" "0 - 15,0 - 255" newline rbitfld.quad 0x00 15. "A3V,Affinity 3 Valid" "Zero,Non-zero" rbitfld.quad 0x00 14. "SEIS,Indicates whether the CPU interface supports local generation of SEIs" "Not supported,Supported" rbitfld.quad 0x00 11.--13. "IDBITS,The number of physical interrupt identifier bits supported" "16 bits,24 bits,?..." newline rbitfld.quad 0x00 8.--10. "PRIBITS,The number of priority bits implemented minus one" "0,1,2,3,4,5,6,7" bitfld.quad 0x00 6. "PMHE,Controls whether the priority mask Register is used as a hint for interrupt distribution" "Disabled,Enabled" bitfld.quad 0x00 1. "EOIMODE,Controls whether a write to an End of Interrupt Register also deactivates the interrupt" "Disabled,Enabled" newline bitfld.quad 0x00 0. "CBPR,Controls whether the same Register is used for interrupt preemption of both Group 0 and Group 1 interrupts" "Separate registers,Same Register" group.quad spr:0x36CC4++0x00 line.quad 0x00 "ICC_CTLR_EL3,Interrupt Controller Control Register (EL3)" rbitfld.quad 0x00 19. "ExtRange,Extended INTID range" "Not supported,Supported" rbitfld.quad 0x00 18. "RSS,Range Selector Support" "0 - 15,0 - 255" newline rbitfld.quad 0x00 17. "NDS,Disable Security not supported" "Supported,Not supported" rbitfld.quad 0x00 15. "A3V,Affinity 3 Valid" "Not supported,Supported" rbitfld.quad 0x00 14. "SEIS,Indicates whether the CPU interface supports generation of SEIs" "Not supported,Supported" newline rbitfld.quad 0x00 11.--13. "IDBITS,The number of physical interrupt identifier bits supported" "16 bits,24 bits,?..." rbitfld.quad 0x00 8.--10. "PRIBITS,The number of priority bits implemented minus one" "0,1,2,3,4,5,6,7" bitfld.quad 0x00 6. "PMHE,Priority Mask Hint Enable" "Disabled,Enabled" newline bitfld.quad 0x00 4. "EOIMODE_EL1NS,Controls whether a write to an End of Interrupt Register also deactivates the interrupt (Non-secure EL1 and EL2)" "Priority drop/Deactivation,Priority drop" bitfld.quad 0x00 3. "EOIMODE_EL1S,Controls whether a write to an End of Interrupt Register also deactivates the interrupt (Secure EL1)" "Priority drop/Deactivation,Priority drop" bitfld.quad 0x00 2. "EOIMODE_EL3,Controls whether a write to an End of Interrupt Register also deactivates the interrupt (EL3)" "Enabled,Disabled" newline bitfld.quad 0x00 1. "CBPR_EL1NS,Controls whether the same Register is used for interrupt preemption of both Group 0 and Group 1 Non-secure interrupts at EL1" "Separate registers,Same Register" bitfld.quad 0x00 0. "CBPR_EL1S,Controls whether the same Register is used for interrupt preemption of both Group 0 and Group 1 Secure interrupts in Secure non-Monitor modes" "Separate registers,Same Register" if (((per.q(spr:0x30CC4))&0x3800)==0x00) wgroup.quad spr:0x30CB1++0x00 line.quad 0x00 "ICC_DIR_EL1,Interrupt Controller Deactivate Interrupt Register" hexmask.quad.word 0x00 0.--15. 1. "INTID,The INTID of the interrupt to be deactivated" wgroup.quad spr:0x30C81++0x00 line.quad 0x00 "ICC_EOIR0_EL1,Interrupt Controller End Of Interrupt Register 0" hexmask.quad.word 0x00 0.--15. 1. "INTID,The INTID from the corresponding ICC_IAR0 access" wgroup.quad spr:0x30CC1++0x00 line.quad 0x00 "ICC_EOIR1_EL1,Interrupt Controller End Of Interrupt Register 1" hexmask.quad.word 0x00 0.--15. 1. "INTID,The INTID from the corresponding ICC_IAR1 access" rgroup.quad spr:0x30C82++0x00 line.quad 0x00 "ICC_HPPIR0_EL1,Interrupt Controller Highest Priority Pending Interrupt Register 0" hexmask.quad.word 0x00 0.--15. 1. "INTID,The INTID of the highest priority pending interrupt if that interrupt is observable at the currentSecurity state and Exception level" rgroup.quad spr:0x30CC2++0x00 line.quad 0x00 "ICC_HPPIR1_EL1,Interrupt Controller Highest Priority Pending Interrupt Register 1" hexmask.quad.word 0x00 0.--15. 1. "INTID,The INTID of the highest priority pending interrupt if that interrupt is observable at the currentSecurity state and Exception level" elif (((per.q(spr:0x30CC4))&0x3800)==0x800) wgroup.quad spr:0x30CB1++0x00 line.quad 0x00 "ICC_DIR_EL1,Interrupt Controller Deactivate Interrupt Register" hexmask.quad.tbyte 0x00 0.--23. 1. "INTID,The INTID of the interrupt to be deactivated" wgroup.quad spr:0x30C81++0x00 line.quad 0x00 "ICC_EOIR0_EL1,Interrupt Controller End Of Interrupt Register 0" hexmask.quad.tbyte 0x00 0.--23. 1. "INTID,The INTID from the corresponding ICC_IAR0 access" wgroup.quad spr:0x30CC1++0x00 line.quad 0x00 "ICC_EOIR1_EL1,Interrupt Controller End Of Interrupt Register 1" hexmask.quad.tbyte 0x00 0.--23. 1. "INTID,The INTID from the corresponding ICC_IAR1 access" rgroup.quad spr:0x30C82++0x00 line.quad 0x00 "ICC_HPPIR0_EL1,Interrupt Controller Highest Priority Pending Interrupt Register 0" hexmask.quad.tbyte 0x00 0.--23. 1. "INTID,The INTID of the highest priority pending interrupt if that interrupt is observable at the currentSecurity state and Exception level" rgroup.quad spr:0x30CC2++0x00 line.quad 0x00 "ICC_HPPIR1_EL1,Interrupt Controller Highest Priority Pending Interrupt Register 1" hexmask.quad.tbyte 0x00 0.--23. 1. "INTID,The INTID of the highest priority pending interrupt if that interrupt is observable at the currentSecurity state and Exception level" endif hgroup.quad spr:0x30C80++0x00 hide.quad 0x00 "ICC_IAR0_EL1,Interrupt Acknowledge Register 0" in hgroup.quad spr:0x30CC0++0x00 hide.quad 0x00 "ICC_IAR1_EL1,Interrupt Acknowledge Register 1" in newline group.quad SPR:0x30CC6++0x00 line.quad 0x00 "ICC_IGRPEN0_EL1,Interrupt Group Enable Register 0" bitfld.quad 0x00 0. "ENABLE,Enable" "Disabled,Enabled" group.quad SPR:0x30CC7++0x00 line.quad 0x00 "ICC_IGRPEN1_EL1,Interrupt Group Enable Register 1 (EL1)" bitfld.quad 0x00 0. "ENABLE,Enable" "Disabled,Enabled" group.quad SPR:0x36CC7++0x00 line.quad 0x00 "ICC_IGRPEN1_EL3,Interrupt Group Enable Register 1 (EL3)" bitfld.quad 0x00 1. "ENABLEGRP1S,Enable Group 1 interrupts for the Secure state" "Disabled,Enabled" bitfld.quad 0x00 0. "ENABLEGRP1NS,Enable Group 1 interrupts for the Non-secure state" "Disabled,Enabled" group.quad SPR:0x30460++0x00 line.quad 0x00 "ICC_PMR_EL1,Priority Mask Register" hexmask.quad.byte 0x00 0.--7. 1. "PRIORITY,Priority mask level for the CPU interface" rgroup.quad SPR:0x30CB3++0x00 line.quad 0x00 "ICC_RPR_EL1,Running Priority Register" hexmask.quad.byte 0x00 0.--7. 1. "PRIORITY,Current running priority on the CPU interface" if (((per.q(spr:0x30CB7))&0x10000000000)==0x00) wgroup.quad spr:0x30CB7++0x00 line.quad 0x00 "ICC_SGI0R_EL1,Interrupt Controller Software Generated Interrupt Group 0 Register" hexmask.quad.byte 0x00 48.--55. 1. "AFF3,Affinity 3" newline bitfld.quad 0x00 44.--47. "RS,Range selector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 40. "IRM,Interrupt routing mode" "Target list,All PEs excluding self" newline hexmask.quad.byte 0x00 32.--39. 1. "AFF2,Affinity 2" bitfld.quad 0x00 24.--27. "INTID,The INTID of the SGI" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline hexmask.quad.byte 0x00 16.--23. 1. "AFF1,Affinity 1" hexmask.quad.word 0x00 0.--15. 1. "TARGETLIST,The set of PEs for which SGI interrupts will be generated." else wgroup.quad spr:0x30CB7++0x00 line.quad 0x00 "ICC_SGI0R_EL1,Interrupt Controller Software Generated Interrupt Group 0 Register" newline bitfld.quad 0x00 44.--47. "RS,Range selector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 40. "IRM,Interrupt routing mode" "Target list,All PEs excluding self" newline bitfld.quad 0x00 24.--27. "INTID,The INTID of the SGI" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline endif if (((per.q(spr:0x30CB5))&0x10000000000)==0x00) wgroup.quad spr:0x30CB5++0x00 line.quad 0x00 "ICC_SGI1R_EL1,Interrupt Controller Software Generated Interrupt Group 0 Register" hexmask.quad.byte 0x00 48.--55. 1. "AFF3,Affinity 3" newline bitfld.quad 0x00 44.--47. "RS,Range selector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 40. "IRM,Interrupt routing mode" "Target list,All PEs excluding self" newline hexmask.quad.byte 0x00 32.--39. 1. "AFF2,Affinity 2" bitfld.quad 0x00 24.--27. "INTID,The INTID of the SGI" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline hexmask.quad.byte 0x00 16.--23. 1. "AFF1,Affinity 1" hexmask.quad.word 0x00 0.--15. 1. "TARGETLIST,The set of PEs for which SGI interrupts will be generated" else wgroup.quad spr:0x30CB5++0x00 line.quad 0x00 "ICC_SGI1R_EL1,Interrupt Controller Software Generated Interrupt Group 0 Register" newline bitfld.quad 0x00 44.--47. "RS,Range selector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 40. "IRM,Interrupt routing mode" "Target list,All PEs excluding self" newline bitfld.quad 0x00 24.--27. "INTID,The INTID of the SGI" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline endif group.quad SPR:0x30CC5++0x00 line.quad 0x00 "ICC_SRE_EL1,System Register Enable Register for EL1" bitfld.quad 0x00 2. "DIB,Disable IRQ bypass" "No,Yes" bitfld.quad 0x00 1. "DFB,Disable FIQ bypass" "No,Yes" bitfld.quad 0x00 0. "SRE,System Register Enable" "Disabled,Enabled" group.quad SPR:0x34C95++0x00 line.quad 0x00 "ICC_SRE_EL2,System Register Enable Register for EL2" bitfld.quad 0x00 3. "ENABLE,Enable lower exception level access" "Disabled,Enabled" bitfld.quad 0x00 2. "DIB,Disable IRQ bypass" "No,Yes" bitfld.quad 0x00 1. "DFB,Disable FIQ bypass" "No,Yes" newline bitfld.quad 0x00 0. "SRE,System Register Enable" "Disabled,Enabled" group.quad SPR:0x36CC5++0x00 line.quad 0x00 "ICC_SRE_EL3,System Register Enable Register for EL3" bitfld.quad 0x00 3. "ENABLE,Enable lower exception level access" "Disabled,Enabled" bitfld.quad 0x00 2. "DIB,Disable IRQ bypass" "No,Yes" bitfld.quad 0x00 1. "DFB,Disable FIQ bypass" "No,Yes" newline bitfld.quad 0x00 0. "SRE,System Register Enable" "Disabled,Enabled" tree.end tree "AArch64 Virtual Interface Control System Registers" tree.open "Hypervisor Active Priorities Registers" group.quad SPR:0x34C80++0x00 line.quad 0x00 "ICH_AP0R0_EL2,Interrupt Controller Hypervisor Active Priorities Group 0 Register 0" bitfld.quad 0x00 31. "P31,Group 0 interrupt active with priority level 31" "No interrupt,Interrupt" bitfld.quad 0x00 30. "P30,Group 0 interrupt active with priority level 30" "No interrupt,Interrupt" bitfld.quad 0x00 29. "P29,Group 0 interrupt active with priority level 29" "No interrupt,Interrupt" newline bitfld.quad 0x00 28. "P28,Group 0 interrupt active with priority level 28" "No interrupt,Interrupt" bitfld.quad 0x00 27. "P27,Group 0 interrupt active with priority level 27" "No interrupt,Interrupt" bitfld.quad 0x00 26. "P26,Group 0 interrupt active with priority level 26" "No interrupt,Interrupt" newline bitfld.quad 0x00 25. "P25,Group 0 interrupt active with priority level 25" "No interrupt,Interrupt" bitfld.quad 0x00 24. "P24,Group 0 interrupt active with priority level 24" "No interrupt,Interrupt" bitfld.quad 0x00 23. "P23,Group 0 interrupt active with priority level 23" "No interrupt,Interrupt" newline bitfld.quad 0x00 22. "P22,Group 0 interrupt active with priority level 22" "No interrupt,Interrupt" bitfld.quad 0x00 21. "P21,Group 0 interrupt active with priority level 21" "No interrupt,Interrupt" bitfld.quad 0x00 20. "P20,Group 0 interrupt active with priority level 20" "No interrupt,Interrupt" newline bitfld.quad 0x00 19. "P19,Group 0 interrupt active with priority level 19" "No interrupt,Interrupt" bitfld.quad 0x00 18. "P18,Group 0 interrupt active with priority level 18" "No interrupt,Interrupt" bitfld.quad 0x00 17. "P17,Group 0 interrupt active with priority level 17" "No interrupt,Interrupt" newline bitfld.quad 0x00 16. "P16,Group 0 interrupt active with priority level 16" "No interrupt,Interrupt" bitfld.quad 0x00 15. "P15,Group 0 interrupt active with priority level 15" "No interrupt,Interrupt" bitfld.quad 0x00 14. "P14,Group 0 interrupt active with priority level 14" "No interrupt,Interrupt" newline bitfld.quad 0x00 13. "P13,Group 0 interrupt active with priority level 13" "No interrupt,Interrupt" bitfld.quad 0x00 12. "P12,Group 0 interrupt active with priority level 12" "No interrupt,Interrupt" bitfld.quad 0x00 11. "P11,Group 0 interrupt active with priority level 11" "No interrupt,Interrupt" newline bitfld.quad 0x00 10. "P10,Group 0 interrupt active with priority level 10" "No interrupt,Interrupt" bitfld.quad 0x00 9. "P9,Group 0 interrupt active with priority level 9" "No interrupt,Interrupt" bitfld.quad 0x00 8. "P8,Group 0 interrupt active with priority level 8" "No interrupt,Interrupt" newline bitfld.quad 0x00 7. "P7,Group 0 interrupt active with priority level 7" "No interrupt,Interrupt" bitfld.quad 0x00 6. "P6,Group 0 interrupt active with priority level 6" "No interrupt,Interrupt" bitfld.quad 0x00 5. "P5,Group 0 interrupt active with priority level 5" "No interrupt,Interrupt" newline bitfld.quad 0x00 4. "P4,Group 0 interrupt active with priority level 4" "No interrupt,Interrupt" bitfld.quad 0x00 3. "P3,Group 0 interrupt active with priority level 3" "No interrupt,Interrupt" bitfld.quad 0x00 2. "P2,Group 0 interrupt active with priority level 2" "No interrupt,Interrupt" newline bitfld.quad 0x00 1. "P1,Group 0 interrupt active with priority level 1" "No interrupt,Interrupt" bitfld.quad 0x00 0. "P0,Group 0 interrupt active with priority level 0" "No interrupt,Interrupt" if (CORENAME()=="CORTEXA53") group.quad SPR:0x34C90++0x00 line.quad 0x00 "ICH_AP1R0_EL2,Interrupt Controller Hypervisor Active Priorities Group 1 Register 0" bitfld.quad 0x00 31. "P31,Group 1 interrupt active with priority level 31" "No interrupt,Interrupt" bitfld.quad 0x00 30. "P30,Group 1 interrupt active with priority level 30" "No interrupt,Interrupt" bitfld.quad 0x00 29. "P29,Group 1 interrupt active with priority level 29" "No interrupt,Interrupt" newline bitfld.quad 0x00 28. "P28,Group 1 interrupt active with priority level 28" "No interrupt,Interrupt" bitfld.quad 0x00 27. "P27,Group 1 interrupt active with priority level 27" "No interrupt,Interrupt" bitfld.quad 0x00 26. "P26,Group 1 interrupt active with priority level 26" "No interrupt,Interrupt" newline bitfld.quad 0x00 25. "P25,Group 1 interrupt active with priority level 25" "No interrupt,Interrupt" bitfld.quad 0x00 24. "P24,Group 1 interrupt active with priority level 24" "No interrupt,Interrupt" bitfld.quad 0x00 23. "P23,Group 1 interrupt active with priority level 23" "No interrupt,Interrupt" newline bitfld.quad 0x00 22. "P22,Group 1 interrupt active with priority level 22" "No interrupt,Interrupt" bitfld.quad 0x00 21. "P21,Group 1 interrupt active with priority level 21" "No interrupt,Interrupt" bitfld.quad 0x00 20. "P20,Group 1 interrupt active with priority level 20" "No interrupt,Interrupt" newline bitfld.quad 0x00 19. "P19,Group 1 interrupt active with priority level 19" "No interrupt,Interrupt" bitfld.quad 0x00 18. "P18,Group 1 interrupt active with priority level 18" "No interrupt,Interrupt" bitfld.quad 0x00 17. "P17,Group 1 interrupt active with priority level 17" "No interrupt,Interrupt" newline bitfld.quad 0x00 16. "P16,Group 1 interrupt active with priority level 16" "No interrupt,Interrupt" bitfld.quad 0x00 15. "P15,Group 1 interrupt active with priority level 15" "No interrupt,Interrupt" bitfld.quad 0x00 14. "P14,Group 1 interrupt active with priority level 14" "No interrupt,Interrupt" newline bitfld.quad 0x00 13. "P13,Group 1 interrupt active with priority level 13" "No interrupt,Interrupt" bitfld.quad 0x00 12. "P12,Group 1 interrupt active with priority level 12" "No interrupt,Interrupt" bitfld.quad 0x00 11. "P11,Group 1 interrupt active with priority level 11" "No interrupt,Interrupt" newline bitfld.quad 0x00 10. "P10,Group 1 interrupt active with priority level 10" "No interrupt,Interrupt" bitfld.quad 0x00 9. "P9,Group 1 interrupt active with priority level 9" "No interrupt,Interrupt" bitfld.quad 0x00 8. "P8,Group 1 interrupt active with priority level 8" "No interrupt,Interrupt" newline bitfld.quad 0x00 7. "P7,Group 1 interrupt active with priority level 7" "No interrupt,Interrupt" bitfld.quad 0x00 6. "P6,Group 1 interrupt active with priority level 6" "No interrupt,Interrupt" bitfld.quad 0x00 5. "P5,Group 1 interrupt active with priority level 5" "No interrupt,Interrupt" newline bitfld.quad 0x00 4. "P4,Group 1 interrupt active with priority level 4" "No interrupt,Interrupt" bitfld.quad 0x00 3. "P3,Group 1 interrupt active with priority level 3" "No interrupt,Interrupt" bitfld.quad 0x00 2. "P2,Group 1 interrupt active with priority level 2" "No interrupt,Interrupt" newline bitfld.quad 0x00 1. "P1,Group 1 interrupt active with priority level 1" "No interrupt,Interrupt" bitfld.quad 0x00 0. "P0,Group 1 interrupt active with priority level 0" "No interrupt,Interrupt" endif tree.end newline rgroup.quad SPR:0x34CB3++0x00 line.quad 0x00 "ICH_EISR_EL2,Interrupt Controller End of Interrupt Status Register" bitfld.quad 0x00 3. "STATUS3,EOI maintenance interrupt status bit for List register 3" "No interrupt,Interrupt" bitfld.quad 0x00 2. "STATUS2,EOI maintenance interrupt status bit for List register 2" "No interrupt,Interrupt" bitfld.quad 0x00 1. "STATUS1,EOI maintenance interrupt status bit for List register 1" "No interrupt,Interrupt" newline bitfld.quad 0x00 0. "STATUS0,EOI maintenance interrupt status bit for List register 0" "No interrupt,Interrupt" rgroup.quad SPR:0x34CB5++0x00 line.quad 0x00 "ICH_ELRSR_EL2,Interrupt Controller Empty List Register Status Register" bitfld.quad 0x00 3. "STATUS3,Status bit for List register 3" "Interrupt,No interrupt" bitfld.quad 0x00 2. "STATUS2,Status bit for List register 2" "Interrupt,No interrupt" bitfld.quad 0x00 1. "STATUS1,Status bit for List register 1" "Interrupt,No interrupt" newline bitfld.quad 0x00 0. "STATUS0,Status bit for List register 0" "Interrupt,No interrupt" group.quad SPR:0x34CB0++0x00 line.quad 0x00 "ICH_HCR_EL2,Interrupt Controller Hypervisor Control Register" bitfld.quad 0x00 27.--31. "EOICOUNT,This field is incremented whenever a successful write to a virtual EOIR or DIR register would have resulted in a virtual interrupt deactivation" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,?..." bitfld.quad 0x00 14. "TDIR,Trap Non-secure EL1 writes to ICC_DIR" "Not trapped,Trapped" bitfld.quad 0x00 13. "TSEI,Trap all locally generated SEIs" "Not trapped,Trapped" newline bitfld.quad 0x00 12. "TALL1,Trap all Non-secure EL1 accesses to ICC_* System registers for Group 1 interrupts to EL2" "Not trapped,Trapped" bitfld.quad 0x00 11. "TALL0,Trap all Non-secure EL1 accesses to ICC_* System registers for Group 0 interrupts to EL2" "Not trapped,Trapped" bitfld.quad 0x00 10. "TC,Trap all Non-secure EL1 accesses to System registers that are common to Group 0 and Group 1 to EL2" "Not trapped,Trapped" newline bitfld.quad 0x00 7. "VGRP1DIE,VM Group 1 Disabled Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 6. "VGRP1EIE,VM Group 1 Enabled Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 5. "VGRP0DIE,VM Group 0 Disabled Interrupt Enable" "Disabled,Enabled" newline bitfld.quad 0x00 4. "VGRP0EIE,VM Group 0 Enabled Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 3. "NPIE,No Pending Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 2. "LRENPIE,List Register Entry Not Present Interrupt Enable" "Disabled,Enabled" newline bitfld.quad 0x00 1. "UIE,Underflow Interrupt Enable" "Disabled,Enabled" bitfld.quad 0x00 0. "EN,Global enable bit for the virtual CPU interface" "Disabled,Enabled" if (((d.q(spr:(0x34CC0+0x0)))&0x2000000000000000)==0x00) group.quad spr:(0x34CC0+0x0)++0x00 line.quad 0x00 "ICH_LR0_EL2,Interrupt Controller List Register 0" bitfld.quad 0x00 62.--63. "STATE,The state of the interrupt" "Inactive,Pending,Active,Pending and active" bitfld.quad 0x00 61. "HW,Indicates whether this virtual interrupt maps directly to a hardware interrupt, meaning that it corresponds to a physical interrupt" "Software,Hardware" bitfld.quad 0x00 60. "GROUP,Indicates the group for this virtual interrupt" "Group 0,Group 1" newline hexmask.quad.byte 0x00 48.--55. 1. "PRIORITY,The priority of this interrupt" bitfld.quad 0x00 41. "PINTID_EOI,End of Interrupt" "Interrupt,No interrupt" hexmask.quad.long 0x00 0.--31. 1. "vINTID,Virtual INTID of the interrupt" else group.quad spr:(0x34CC0+0x0)++0x00 line.quad 0x00 "ICH_LR0_EL2,Interrupt Controller List Register 0" bitfld.quad 0x00 62.--63. "STATE,The state of the interrupt" "Inactive,Pending,Active,Pending and active" bitfld.quad 0x00 61. "HW,Indicates whether this virtual interrupt maps directly to a hardware interrupt, meaning that it corresponds to a physical interrupt" "Software,Hardware" bitfld.quad 0x00 60. "GROUP,Indicates the group for this virtual interrupt" "Group 0,Group 1" newline hexmask.quad.byte 0x00 48.--55. 1. "PRIORITY,The priority of this interrupt" hexmask.quad.word 0x00 32.--41. 1. "PINTID,Physical INTID, for hardware interrupts" hexmask.quad.long 0x00 0.--31. 1. "vINTID,Virtual INTID of the interrupt" endif if (((d.q(spr:(0x34CC0+0x1)))&0x2000000000000000)==0x00) group.quad spr:(0x34CC0+0x1)++0x00 line.quad 0x00 "ICH_LR1_EL2,Interrupt Controller List Register 1" bitfld.quad 0x00 62.--63. "STATE,The state of the interrupt" "Inactive,Pending,Active,Pending and active" bitfld.quad 0x00 61. "HW,Indicates whether this virtual interrupt maps directly to a hardware interrupt, meaning that it corresponds to a physical interrupt" "Software,Hardware" bitfld.quad 0x00 60. "GROUP,Indicates the group for this virtual interrupt" "Group 0,Group 1" newline hexmask.quad.byte 0x00 48.--55. 1. "PRIORITY,The priority of this interrupt" bitfld.quad 0x00 41. "PINTID_EOI,End of Interrupt" "Interrupt,No interrupt" hexmask.quad.long 0x00 0.--31. 1. "vINTID,Virtual INTID of the interrupt" else group.quad spr:(0x34CC0+0x1)++0x00 line.quad 0x00 "ICH_LR1_EL2,Interrupt Controller List Register 1" bitfld.quad 0x00 62.--63. "STATE,The state of the interrupt" "Inactive,Pending,Active,Pending and active" bitfld.quad 0x00 61. "HW,Indicates whether this virtual interrupt maps directly to a hardware interrupt, meaning that it corresponds to a physical interrupt" "Software,Hardware" bitfld.quad 0x00 60. "GROUP,Indicates the group for this virtual interrupt" "Group 0,Group 1" newline hexmask.quad.byte 0x00 48.--55. 1. "PRIORITY,The priority of this interrupt" hexmask.quad.word 0x00 32.--41. 1. "PINTID,Physical INTID, for hardware interrupts" hexmask.quad.long 0x00 0.--31. 1. "vINTID,Virtual INTID of the interrupt" endif if (((d.q(spr:(0x34CC0+0x2)))&0x2000000000000000)==0x00) group.quad spr:(0x34CC0+0x2)++0x00 line.quad 0x00 "ICH_LR2_EL2,Interrupt Controller List Register 2" bitfld.quad 0x00 62.--63. "STATE,The state of the interrupt" "Inactive,Pending,Active,Pending and active" bitfld.quad 0x00 61. "HW,Indicates whether this virtual interrupt maps directly to a hardware interrupt, meaning that it corresponds to a physical interrupt" "Software,Hardware" bitfld.quad 0x00 60. "GROUP,Indicates the group for this virtual interrupt" "Group 0,Group 1" newline hexmask.quad.byte 0x00 48.--55. 1. "PRIORITY,The priority of this interrupt" bitfld.quad 0x00 41. "PINTID_EOI,End of Interrupt" "Interrupt,No interrupt" hexmask.quad.long 0x00 0.--31. 1. "vINTID,Virtual INTID of the interrupt" else group.quad spr:(0x34CC0+0x2)++0x00 line.quad 0x00 "ICH_LR2_EL2,Interrupt Controller List Register 2" bitfld.quad 0x00 62.--63. "STATE,The state of the interrupt" "Inactive,Pending,Active,Pending and active" bitfld.quad 0x00 61. "HW,Indicates whether this virtual interrupt maps directly to a hardware interrupt, meaning that it corresponds to a physical interrupt" "Software,Hardware" bitfld.quad 0x00 60. "GROUP,Indicates the group for this virtual interrupt" "Group 0,Group 1" newline hexmask.quad.byte 0x00 48.--55. 1. "PRIORITY,The priority of this interrupt" hexmask.quad.word 0x00 32.--41. 1. "PINTID,Physical INTID, for hardware interrupts" hexmask.quad.long 0x00 0.--31. 1. "vINTID,Virtual INTID of the interrupt" endif if (((d.q(spr:(0x34CC0+0x3)))&0x2000000000000000)==0x00) group.quad spr:(0x34CC0+0x3)++0x00 line.quad 0x00 "ICH_LR3_EL2,Interrupt Controller List Register 3" bitfld.quad 0x00 62.--63. "STATE,The state of the interrupt" "Inactive,Pending,Active,Pending and active" bitfld.quad 0x00 61. "HW,Indicates whether this virtual interrupt maps directly to a hardware interrupt, meaning that it corresponds to a physical interrupt" "Software,Hardware" bitfld.quad 0x00 60. "GROUP,Indicates the group for this virtual interrupt" "Group 0,Group 1" newline hexmask.quad.byte 0x00 48.--55. 1. "PRIORITY,The priority of this interrupt" bitfld.quad 0x00 41. "PINTID_EOI,End of Interrupt" "Interrupt,No interrupt" hexmask.quad.long 0x00 0.--31. 1. "vINTID,Virtual INTID of the interrupt" else group.quad spr:(0x34CC0+0x3)++0x00 line.quad 0x00 "ICH_LR3_EL2,Interrupt Controller List Register 3" bitfld.quad 0x00 62.--63. "STATE,The state of the interrupt" "Inactive,Pending,Active,Pending and active" bitfld.quad 0x00 61. "HW,Indicates whether this virtual interrupt maps directly to a hardware interrupt, meaning that it corresponds to a physical interrupt" "Software,Hardware" bitfld.quad 0x00 60. "GROUP,Indicates the group for this virtual interrupt" "Group 0,Group 1" newline hexmask.quad.byte 0x00 48.--55. 1. "PRIORITY,The priority of this interrupt" hexmask.quad.word 0x00 32.--41. 1. "PINTID,Physical INTID, for hardware interrupts" hexmask.quad.long 0x00 0.--31. 1. "vINTID,Virtual INTID of the interrupt" endif rgroup.quad SPR:0x34CB2++0x00 line.quad 0x00 "ICH_MISR_EL2,Interrupt Controller Maintenance Interrupt State Register" bitfld.quad 0x00 7. "VGRP1D,VPE Group 1 Disabled" "Not asserted,Asserted" bitfld.quad 0x00 6. "VGRP1E,VPE Group 1 Enabled" "Not asserted,Asserted" bitfld.quad 0x00 5. "VGRP0D,VPE Group 0 Disabled" "Not asserted,Asserted" newline bitfld.quad 0x00 4. "VGRP0E,VPE Group 0 Enabled" "Not asserted,Asserted" bitfld.quad 0x00 3. "NP,No Pending" "Not asserted,Asserted" bitfld.quad 0x00 2. "LRENP,List Register Entry Not Present" "Not asserted,Asserted" newline bitfld.quad 0x00 1. "U,Underflow" "Not asserted,Asserted" bitfld.quad 0x00 0. "EOI,End Of Interrupt" "Not asserted,Asserted" group.quad SPR:0x34CB7++0x00 line.quad 0x00 "ICH_VMCR_EL2,Interrupt Controller Virtual Machine Control Register" hexmask.quad.byte 0x00 24.--31. 1. "VPMR,The priority mask level for the virtual CPU interface" bitfld.quad 0x00 21.--23. "VBPR0,Virtual Binary Point Register Group 0" "[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],No preemption-[7:0]" bitfld.quad 0x00 18.--20. "VBPR1,Virtual Binary Point Register, Group 1" ",[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]" newline bitfld.quad 0x00 9. "VEOIM,Controls whether a write to an End of Interrupt register also deactivates the virtual interrupt" "Disabled,Enabled" bitfld.quad 0x00 4. "VCBPR,Virtual Common Binary Point Register" "Separate registers,Same register" bitfld.quad 0x00 3. "VFIQEN,Virtual FIQ enable" "Virtual IRQs,Virtual FIQs" newline bitfld.quad 0x00 2. "VACKCTL,Virtual FIQ enable" "1022,Corresponding interrupt" bitfld.quad 0x00 1. "VENG1,Virtual Group 1 interrupt enable" "Disabled,Enabled" bitfld.quad 0x00 0. "VENG0,Virtual Group 0 interrupt enable" "Disabled,Enabled" group.quad SPR:0x34C94++0x00 line.quad 0x00 "ICH_VSEIR_EL2,Interrupt Controller Virtual System Error Interrupt Register" rgroup.quad SPR:0x34CB1++0x00 line.quad 0x00 "ICH_VTR_EL2,Interrupt Controller VGIC Type Register" bitfld.quad 0x00 29.--31. "PRIBITS,The number of priority bits implemented minus one" "0,1,2,3,4,5,6,7" bitfld.quad 0x00 26.--28. "PREBITS,The number of virtual preemption bits implemented, minus one" "0,1,2,3,4,5,6,7" bitfld.quad 0x00 23.--25. "IDBITS,The number of physical interrupt identifier bits supported" "16 bits,24 bits,?..." newline bitfld.quad 0x00 22. "SEIS,Indicates whether the CPU interface supports local generation of SEIs" "Not supported,Supported" bitfld.quad 0x00 21. "A3V,Affinity 3 Valid" "Only zero values supported,Non-zero values supported" bitfld.quad 0x00 20. "NV4,GICv4 direct injection of virtual interrupts not supported" "Supported,Not supported" newline bitfld.quad 0x00 19. "TDS,Separate trapping of Non-secure EL1 writes to ICV_DIR_EL1 supported" "Not supported,Supported" bitfld.quad 0x00 0.--4. "LISTREGS,The number of implemented List registers, 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" tree.end tree.end tree "Debug Registers" rgroup.quad SPR:0x23010++0x00 line.quad 0x00 "MDCCSR_EL0,Debug Comms Channel Status Register" bitfld.quad 0x00 30. "RXFULL,DBGDTRRX Register full" "Empty,Full" bitfld.quad 0x00 29. "TXFULL,DBGDTRTX Register full" "Empty,Full" group.quad SPR:0x20020++0x00 line.quad 0x00 "MDCCINT_EL1,Debug Comms Channel Interrupt Enable register" bitfld.quad 0x00 30. "RX,DCC interrupt enable controls" "Disabled,Enabled" bitfld.quad 0x00 29. "TX,DCC interrupt enable controls" "Disabled,Enabled" group.quad spr:0x23040++0x00 line.quad 0x00 "DBGDTR_EL0,Half Duplex Data Transfer Register" rgroup.quad SPR:0x23050++0x00 line.quad 0x00 "DBGDTRRX_EL0,Full Duplex Receive Data Transfer Register" wgroup.quad SPR:0x23050++0x00 line.quad 0x00 "DBGDTRTX_EL0,Full Duplex Transmit Data Transfer Register" group.quad SPR:0x24070++0x00 line.quad 0x00 "DBGVCR32_EL2,Vector Catch Register" bitfld.quad 0x00 31. "NSF,FIQ vector catch enable in Non-secure state" "Low,High" bitfld.quad 0x00 30. "NSI,IRQ vector catch enable in Non-secure state" "Low,High" bitfld.quad 0x00 28. "NSD,Data Abort vector catch enable in Non-secure state" "Low,High" bitfld.quad 0x00 27. "NSP,Prefetch Abort vector catch enable in Non-secure state" "Low,High" newline bitfld.quad 0x00 26. "NSS,Supervisor Call (SVC) vector catch enable in Non-secure state" "Low,High" bitfld.quad 0x00 25. "NSU,Undefined Instruction vector catch enable in Non-secure state" "Low,High" bitfld.quad 0x00 7. "SF,FIQ vector catch enable in Secure state" "Low,High" bitfld.quad 0x00 6. "SI,IRQ vector catch enable in Secure state" "Low,High" newline bitfld.quad 0x00 4. "SD,Data Abort vector catch enable in Secure state" "Low,High" bitfld.quad 0x00 3. "SP,Prefetch Abort vector catch enable in Secure state" "Low,High" bitfld.quad 0x00 2. "SS,Supervisor Call (SVC) vector catch enable in Secure state" "Low,High" bitfld.quad 0x00 1. "SU,Undefined Instruction vector catch enable in Secure state" "Low,High" group.quad SPR:0x20002++0x00 line.quad 0x00 "OSDTRRX_EL1,OS Lock Data Transfer Register" group.quad SPR:0x20022++0x00 line.quad 0x00 "MDSCR_EL1,Monitor Debug System Control Register" bitfld.quad 0x00 30. "RXFULL,DBGDTRRX Register full" "Empty,Full" bitfld.quad 0x00 29. "TXFULL,DBGDTRTX Register full" "Empty,Full" bitfld.quad 0x00 27. "RXO,Save/restore bit" "Low,High" bitfld.quad 0x00 26. "TXU,Save/restore bit" "Low,High" newline bitfld.quad 0x00 22.--23. "INTDIS,Save/restore bits" "0,1,2,3" bitfld.quad 0x00 21. "TDA,Save/restore bit" "Low,High" bitfld.quad 0x00 15. "MDE,Monitor debug events" "Disabled,Enabled" bitfld.quad 0x00 14. "HDE,Save/restore bit" "Low,High" newline bitfld.quad 0x00 13. "KDE,Local (kernel) debug enable" "Disabled,Enabled" bitfld.quad 0x00 12. "TDCC,Trap accesses to the debug comms channel in EL0" "Disabled,Enabled" bitfld.quad 0x00 6. "ERR,Save/restore bit" "Low,High" bitfld.quad 0x00 0. "SS,Software step control" "Disabled,Enabled" group.quad SPR:0x20032++0x00 line.quad 0x00 "OSDTRTX_EL1,OS Lock Data Transfer Register" group.quad SPR:0x20062++0x00 line.quad 0x00 "OSECCR_EL1,OS Lock Exception Catch Control Register" rgroup.quad spr:0x20100++0x00 line.quad 0x00 "MDRAR_EL1,Debug ROM Address Register" hexmask.quad 0x00 12.--47. 0x1000 "ROMADDR,ROM base physical address" bitfld.quad 0x00 0.--1. "VALID,ROM address valid" "Invalid,Reserved,Reserved,Valid" wgroup.quad SPR:0x20104++0x00 line.quad 0x00 "OSLAR_EL1,OS Lock Access Register" bitfld.quad 0x00 0. "OSLK,OS lock" "Unlock,Lock" rgroup.quad SPR:0x20114++0x00 line.quad 0x00 "OSLSR_EL1,OS Lock Status Register" bitfld.quad 0x00 2. "NTT,Not 32-bit access" "Low,High" bitfld.quad 0x00 1. "OSLK,OS lock status" "Not locked,Locked" bitfld.quad 0x00 0. 3. "OSLM,OS lock model implemented field" "Reserved,Reserved,Impelemented,?..." group.quad SPR:0x20134++0x00 line.quad 0x00 "OSDLR_EL1,OS Double-lock Register" bitfld.quad 0x00 0. "DLK,OS double-lock control" "Not locked,Locked" group.quad SPR:0x20144++0x00 line.quad 0x00 "DBGPRCR_EL1,Debug Power/Reset Control Register" bitfld.quad 0x00 0. "CORENPDRQ,Core no powerdown request" "No,Yes" group.quad SPR:0x20786++0x00 line.quad 0x00 "DBGCLAIMSET_EL1,Claim Tag register Set" bitfld.quad 0x0 7. "CT7,Claim Tag 7 Set" "Not set,Set" bitfld.quad 0x0 6. "CT6,Claim Tag 6 Set" "Not set,Set" bitfld.quad 0x0 5. "CT5,Claim Tag 5 Set" "Not set,Set" bitfld.quad 0x0 4. "CT4,Claim Tag 4 Set" "Not set,Set" newline bitfld.quad 0x0 3. "CT3,Claim Tag 3 Set" "Not set,Set" bitfld.quad 0x0 2. "CT2,Claim Tag 2 Set" "Not set,Set" bitfld.quad 0x0 1. "CT1,Claim Tag 1 Set" "Not set,Set" bitfld.quad 0x0 0. "CT0,Claim Tag 0 Set" "Not set,Set" group.quad SPR:0x20796++0x00 line.quad 0x00 "DBGCLAIMCLR_EL1,Claim Tag register Clear" bitfld.quad 0x0 7. "CT7,Claim Tag 7 Clear" "Not cleared,Cleared" bitfld.quad 0x0 6. "CT6,Claim Tag 6 Clear" "Not cleared,Cleared" bitfld.quad 0x0 5. "CT5,Claim Tag 5 Clear" "Not cleared,Cleared" bitfld.quad 0x0 4. "CT4,Claim Tag 4 Clear" "Not cleared,Cleared" newline bitfld.quad 0x0 3. "CT3,Claim Tag 3 Clear" "Not cleared,Cleared" bitfld.quad 0x0 2. "CT2,Claim Tag 2 Clear" "Not cleared,Cleared" bitfld.quad 0x0 1. "CT1,Claim Tag 1 Clear" "Not cleared,Cleared" bitfld.quad 0x0 0. "CT0,Claim Tag 0 Clear" "Not cleared,Cleared" rgroup.quad SPR:0x207E6++0x00 line.quad 0x00 "DBGAUTHSTATUS_EL1,Authentication Status register" bitfld.quad 0x00 7. "SNI,Secure non-invasive debug implemented" "Not implemented,Implemented" bitfld.quad 0x00 6. "SNE,Secure non-invasive debug enabled" "Disabled,Enabled" bitfld.quad 0x00 5. "SI,Secure invasive debug implemented" "Not implemented,Implemented" bitfld.quad 0x00 4. "SE,Secure invasive debug enabled" "Disabled,Enabled" newline bitfld.quad 0x00 3. "NSNI,Non-secure non-invasive debug implemented" "Not implemented,Implemented" bitfld.quad 0x00 2. "NSNE,Non-secure non-invasive debug enabled" "Disabled,Enabled" bitfld.quad 0x00 1. "NSI,Non-secure invasive debug implemented" "Not implemented,Implemented" bitfld.quad 0x00 0. "NSE,Non-secure invasive debug enabled" "Disabled,Enabled" group.quad SPR:0x33450++0x00 line.quad 0x00 "DSPSR_EL0,Debug Saved Processor Status Register" group.quad spr:0x33451++0x00 line.quad 0x00 "DLR_EL0,Debug Link Register" tree.end tree "Breakpoint Registers" if (((d.l(spr:(0x20005+0x0)))&0xF00000)==(0x000000||0x100000||0x400000||0x500000)) group.quad spr:(0x20004+0x0)++0x00 "Breakpoint 0" line.quad 0x00 "DBGBVR0_EL1,Breakpoint Value Register" hexmask.quad 0x00 2.--48. 0x4 "VA,Bits[31:2] of the address value for comparison" elif (((d.l(spr:(0x20005+0x0)))&0xF00000)==(0x800000||0x900000||0xC00000||0xD00000)) group.quad spr:(0x20004+0x0)++0x00 "Breakpoint 0" line.quad 0x00 "DBGBVR0_EL1,Breakpoint Value Register" hexmask.quad.byte 0x00 32.--39. 1. "VMID,VMID value for comparison" elif (((d.l(spr:(0x20005+0x0)))&0xF00000)==(0xA00000||0xB00000||0xE00000||0xF00000)) else group.quad spr:(0x20004+0x0)++0x00 "Breakpoint 0" line.quad 0x00 "DBGBVR0_EL1,Breakpoint Value Register" hexmask.quad.byte 0x00 32.--39. 1. "VMID,VMID value for comparison" hexmask.quad.long 0x00 0.--31. 1. "CONTEXTID,Context ID" endif group.quad SPR:(0x20005+0x0)++0x0 line.quad 0x00 "DBGBCR0_EL1,Breakpoint Control Register" bitfld.quad 0x00 22. "BT[2],Mismatch" "Match,Mismatch" bitfld.quad 0x00 21. 23. "BT[31],Base type" "Address,Context ID,VMID,VMID and context ID" bitfld.quad 0x00 20. "BT[0],Enable linking" "Disabled,Enabled" newline bitfld.quad 0x00 16.--19. "LBRPN,Linked BRP number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 14.--15. "SSC,Security state control" "Both,Non-secure,Secure,?..." bitfld.quad 0x00 13. "HMC,Higher mode control" "Disabled,Enabled" newline bitfld.quad 0x0 5.--8. "BAS,Byte address select" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" bitfld.quad 0x00 1.--2. "PMC,Privileged mode control" "User/System/Supervisor,Privileged,User only,Any mode" bitfld.quad 0x00 0. "BE,Breakpoint enable" "Disabled,Enabled" if (((d.l(spr:(0x20005+0x10)))&0xF00000)==(0x000000||0x100000||0x400000||0x500000)) group.quad spr:(0x20004+0x10)++0x00 "Breakpoint 1" line.quad 0x00 "DBGBVR1_EL1,Breakpoint Value Register" hexmask.quad 0x00 2.--48. 0x4 "VA,Bits[31:2] of the address value for comparison" elif (((d.l(spr:(0x20005+0x10)))&0xF00000)==(0x800000||0x900000||0xC00000||0xD00000)) group.quad spr:(0x20004+0x10)++0x00 "Breakpoint 1" line.quad 0x00 "DBGBVR1_EL1,Breakpoint Value Register" hexmask.quad.byte 0x00 32.--39. 1. "VMID,VMID value for comparison" elif (((d.l(spr:(0x20005+0x10)))&0xF00000)==(0xA00000||0xB00000||0xE00000||0xF00000)) else group.quad spr:(0x20004+0x10)++0x00 "Breakpoint 1" line.quad 0x00 "DBGBVR1_EL1,Breakpoint Value Register" hexmask.quad.byte 0x00 32.--39. 1. "VMID,VMID value for comparison" hexmask.quad.long 0x00 0.--31. 1. "CONTEXTID,Context ID" endif group.quad SPR:(0x20005+0x10)++0x0 line.quad 0x00 "DBGBCR1_EL1,Breakpoint Control Register" bitfld.quad 0x00 22. "BT[2],Mismatch" "Match,Mismatch" bitfld.quad 0x00 21. 23. "BT[31],Base type" "Address,Context ID,VMID,VMID and context ID" bitfld.quad 0x00 20. "BT[0],Enable linking" "Disabled,Enabled" newline bitfld.quad 0x00 16.--19. "LBRPN,Linked BRP number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 14.--15. "SSC,Security state control" "Both,Non-secure,Secure,?..." bitfld.quad 0x00 13. "HMC,Higher mode control" "Disabled,Enabled" newline bitfld.quad 0x0 5.--8. "BAS,Byte address select" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" bitfld.quad 0x00 1.--2. "PMC,Privileged mode control" "User/System/Supervisor,Privileged,User only,Any mode" bitfld.quad 0x00 0. "BE,Breakpoint enable" "Disabled,Enabled" if (((d.l(spr:(0x20005+0x20)))&0xF00000)==(0x000000||0x100000||0x400000||0x500000)) group.quad spr:(0x20004+0x20)++0x00 "Breakpoint 2" line.quad 0x00 "DBGBVR2_EL1,Breakpoint Value Register" hexmask.quad 0x00 2.--48. 0x4 "VA,Bits[31:2] of the address value for comparison" elif (((d.l(spr:(0x20005+0x20)))&0xF00000)==(0x800000||0x900000||0xC00000||0xD00000)) group.quad spr:(0x20004+0x20)++0x00 "Breakpoint 2" line.quad 0x00 "DBGBVR2_EL1,Breakpoint Value Register" hexmask.quad.byte 0x00 32.--39. 1. "VMID,VMID value for comparison" elif (((d.l(spr:(0x20005+0x20)))&0xF00000)==(0xA00000||0xB00000||0xE00000||0xF00000)) else group.quad spr:(0x20004+0x20)++0x00 "Breakpoint 2" line.quad 0x00 "DBGBVR2_EL1,Breakpoint Value Register" hexmask.quad.byte 0x00 32.--39. 1. "VMID,VMID value for comparison" hexmask.quad.long 0x00 0.--31. 1. "CONTEXTID,Context ID" endif group.quad SPR:(0x20005+0x20)++0x0 line.quad 0x00 "DBGBCR2_EL1,Breakpoint Control Register" bitfld.quad 0x00 22. "BT[2],Mismatch" "Match,Mismatch" bitfld.quad 0x00 21. 23. "BT[31],Base type" "Address,Context ID,VMID,VMID and context ID" bitfld.quad 0x00 20. "BT[0],Enable linking" "Disabled,Enabled" newline bitfld.quad 0x00 16.--19. "LBRPN,Linked BRP number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 14.--15. "SSC,Security state control" "Both,Non-secure,Secure,?..." bitfld.quad 0x00 13. "HMC,Higher mode control" "Disabled,Enabled" newline bitfld.quad 0x0 5.--8. "BAS,Byte address select" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" bitfld.quad 0x00 1.--2. "PMC,Privileged mode control" "User/System/Supervisor,Privileged,User only,Any mode" bitfld.quad 0x00 0. "BE,Breakpoint enable" "Disabled,Enabled" if (((d.l(spr:(0x20005+0x30)))&0xF00000)==(0x000000||0x100000||0x400000||0x500000)) group.quad spr:(0x20004+0x30)++0x00 "Breakpoint 3" line.quad 0x00 "DBGBVR3_EL1,Breakpoint Value Register" hexmask.quad 0x00 2.--48. 0x4 "VA,Bits[31:2] of the address value for comparison" elif (((d.l(spr:(0x20005+0x30)))&0xF00000)==(0x800000||0x900000||0xC00000||0xD00000)) group.quad spr:(0x20004+0x30)++0x00 "Breakpoint 3" line.quad 0x00 "DBGBVR3_EL1,Breakpoint Value Register" hexmask.quad.byte 0x00 32.--39. 1. "VMID,VMID value for comparison" elif (((d.l(spr:(0x20005+0x30)))&0xF00000)==(0xA00000||0xB00000||0xE00000||0xF00000)) else group.quad spr:(0x20004+0x30)++0x00 "Breakpoint 3" line.quad 0x00 "DBGBVR3_EL1,Breakpoint Value Register" hexmask.quad.byte 0x00 32.--39. 1. "VMID,VMID value for comparison" hexmask.quad.long 0x00 0.--31. 1. "CONTEXTID,Context ID" endif group.quad SPR:(0x20005+0x30)++0x0 line.quad 0x00 "DBGBCR3_EL1,Breakpoint Control Register" bitfld.quad 0x00 22. "BT[2],Mismatch" "Match,Mismatch" bitfld.quad 0x00 21. 23. "BT[31],Base type" "Address,Context ID,VMID,VMID and context ID" bitfld.quad 0x00 20. "BT[0],Enable linking" "Disabled,Enabled" newline bitfld.quad 0x00 16.--19. "LBRPN,Linked BRP number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 14.--15. "SSC,Security state control" "Both,Non-secure,Secure,?..." bitfld.quad 0x00 13. "HMC,Higher mode control" "Disabled,Enabled" newline bitfld.quad 0x0 5.--8. "BAS,Byte address select" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" bitfld.quad 0x00 1.--2. "PMC,Privileged mode control" "User/System/Supervisor,Privileged,User only,Any mode" bitfld.quad 0x00 0. "BE,Breakpoint enable" "Disabled,Enabled" if (((d.l(spr:(0x20005+0x40)))&0xF00000)==(0x000000||0x100000||0x400000||0x500000)) group.quad spr:(0x20004+0x40)++0x00 "Breakpoint 4" line.quad 0x00 "DBGBVR4_EL1,Breakpoint Value Register" hexmask.quad 0x00 2.--48. 0x4 "VA,Bits[31:2] of the address value for comparison" elif (((d.l(spr:(0x20005+0x40)))&0xF00000)==(0x800000||0x900000||0xC00000||0xD00000)) group.quad spr:(0x20004+0x40)++0x00 "Breakpoint 4" line.quad 0x00 "DBGBVR4_EL1,Breakpoint Value Register" hexmask.quad.byte 0x00 32.--39. 1. "VMID,VMID value for comparison" elif (((d.l(spr:(0x20005+0x40)))&0xF00000)==(0xA00000||0xB00000||0xE00000||0xF00000)) else group.quad spr:(0x20004+0x40)++0x00 "Breakpoint 4" line.quad 0x00 "DBGBVR4_EL1,Breakpoint Value Register" hexmask.quad.byte 0x00 32.--39. 1. "VMID,VMID value for comparison" hexmask.quad.long 0x00 0.--31. 1. "CONTEXTID,Context ID" endif group.quad SPR:(0x20005+0x40)++0x0 line.quad 0x00 "DBGBCR4_EL1,Breakpoint Control Register" bitfld.quad 0x00 22. "BT[2],Mismatch" "Match,Mismatch" bitfld.quad 0x00 21. 23. "BT[31],Base type" "Address,Context ID,VMID,VMID and context ID" bitfld.quad 0x00 20. "BT[0],Enable linking" "Disabled,Enabled" newline bitfld.quad 0x00 16.--19. "LBRPN,Linked BRP number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 14.--15. "SSC,Security state control" "Both,Non-secure,Secure,?..." bitfld.quad 0x00 13. "HMC,Higher mode control" "Disabled,Enabled" newline bitfld.quad 0x0 5.--8. "BAS,Byte address select" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" bitfld.quad 0x00 1.--2. "PMC,Privileged mode control" "User/System/Supervisor,Privileged,User only,Any mode" bitfld.quad 0x00 0. "BE,Breakpoint enable" "Disabled,Enabled" if (((d.l(spr:(0x20005+0x50)))&0xF00000)==(0x000000||0x100000||0x400000||0x500000)) group.quad spr:(0x20004+0x50)++0x00 "Breakpoint 5" line.quad 0x00 "DBGBVR5_EL1,Breakpoint Value Register" hexmask.quad 0x00 2.--48. 0x4 "VA,Bits[31:2] of the address value for comparison" elif (((d.l(spr:(0x20005+0x50)))&0xF00000)==(0x800000||0x900000||0xC00000||0xD00000)) group.quad spr:(0x20004+0x50)++0x00 "Breakpoint 5" line.quad 0x00 "DBGBVR5_EL1,Breakpoint Value Register" hexmask.quad.byte 0x00 32.--39. 1. "VMID,VMID value for comparison" elif (((d.l(spr:(0x20005+0x50)))&0xF00000)==(0xA00000||0xB00000||0xE00000||0xF00000)) else group.quad spr:(0x20004+0x50)++0x00 "Breakpoint 5" line.quad 0x00 "DBGBVR5_EL1,Breakpoint Value Register" hexmask.quad.byte 0x00 32.--39. 1. "VMID,VMID value for comparison" hexmask.quad.long 0x00 0.--31. 1. "CONTEXTID,Context ID" endif group.quad SPR:(0x20005+0x50)++0x0 line.quad 0x00 "DBGBCR5_EL1,Breakpoint Control Register" bitfld.quad 0x00 22. "BT[2],Mismatch" "Match,Mismatch" bitfld.quad 0x00 21. 23. "BT[31],Base type" "Address,Context ID,VMID,VMID and context ID" bitfld.quad 0x00 20. "BT[0],Enable linking" "Disabled,Enabled" newline bitfld.quad 0x00 16.--19. "LBRPN,Linked BRP number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 14.--15. "SSC,Security state control" "Both,Non-secure,Secure,?..." bitfld.quad 0x00 13. "HMC,Higher mode control" "Disabled,Enabled" newline bitfld.quad 0x0 5.--8. "BAS,Byte address select" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" bitfld.quad 0x00 1.--2. "PMC,Privileged mode control" "User/System/Supervisor,Privileged,User only,Any mode" bitfld.quad 0x00 0. "BE,Breakpoint enable" "Disabled,Enabled" tree.end tree "Watchpoint Control Registers" group.quad spr:(0x20006+0x0)++0x00 "Watchpoint 0" line.quad 0x00 "DBGWVR0_EL1,Watchpoint Value Register (AArch64)" hexmask.quad 0x00 2.--48. 0x4 "ADDRESS,Data address" group.quad spr:(0x20007+0x0)++0x00 line.quad 0x00 "DBGWCR0_EL1,Watchpoint Control Register" bitfld.quad 0x0 24.--28. "MASK,Watchpoint address mask" "Not masked,Reserved,Reserved,0x7,0xF,0x1F,0x3F,0x7F,0xFF,0x1FF,0x3FF,0x7FF,0xFFF,0x1FFF,0x3FFF,0x7FFF,0xFFFF,0x1FFFF,0x3FFFF,0x7FFFF,0xFFFFF,0x1FFFFF,0x3FFFFF,0x7FFFFF,0xFFFFFF,0x1FFFFFF,0x3FFFFFF,0x7FFFFFF,0xFFFFFFF,0x1FFFFFFF,0x3FFFFFFF,0x7FFFFFFF" bitfld.quad 0x00 20. "WT,Watchpoint type" "Unlinked,Linked" bitfld.quad 0x00 16.--19. "LBN,Linked breakpoint number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 14.--15. "SSC,Security state control" "Both,Non-secure,Secure,?..." bitfld.quad 0x00 13. "HMC,Hypervisor mode control" "Disabled,Enabled" hexmask.quad.byte 0x00 5.--12. 1. "BAS,Byte address select" newline bitfld.quad 0x00 3.--4. "LSC,Load/store control" "Reserved,Load,Store,Both" bitfld.quad 0x00 1.--2. "PAC,Privileged mode control" "User/System/Supervisor,Privileged,User only,Any mode" bitfld.quad 0x00 0. "E,Enable" "Disabled,Enabled" group.quad spr:(0x20006+0x10)++0x00 "Watchpoint 1" line.quad 0x00 "DBGWVR1_EL1,Watchpoint Value Register (AArch64)" hexmask.quad 0x00 2.--48. 0x4 "ADDRESS,Data address" group.quad spr:(0x20007+0x10)++0x00 line.quad 0x00 "DBGWCR1_EL1,Watchpoint Control Register" bitfld.quad 0x0 24.--28. "MASK,Watchpoint address mask" "Not masked,Reserved,Reserved,0x7,0xF,0x1F,0x3F,0x7F,0xFF,0x1FF,0x3FF,0x7FF,0xFFF,0x1FFF,0x3FFF,0x7FFF,0xFFFF,0x1FFFF,0x3FFFF,0x7FFFF,0xFFFFF,0x1FFFFF,0x3FFFFF,0x7FFFFF,0xFFFFFF,0x1FFFFFF,0x3FFFFFF,0x7FFFFFF,0xFFFFFFF,0x1FFFFFFF,0x3FFFFFFF,0x7FFFFFFF" bitfld.quad 0x00 20. "WT,Watchpoint type" "Unlinked,Linked" bitfld.quad 0x00 16.--19. "LBN,Linked breakpoint number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 14.--15. "SSC,Security state control" "Both,Non-secure,Secure,?..." bitfld.quad 0x00 13. "HMC,Hypervisor mode control" "Disabled,Enabled" hexmask.quad.byte 0x00 5.--12. 1. "BAS,Byte address select" newline bitfld.quad 0x00 3.--4. "LSC,Load/store control" "Reserved,Load,Store,Both" bitfld.quad 0x00 1.--2. "PAC,Privileged mode control" "User/System/Supervisor,Privileged,User only,Any mode" bitfld.quad 0x00 0. "E,Enable" "Disabled,Enabled" group.quad spr:(0x20006+0x20)++0x00 "Watchpoint 2" line.quad 0x00 "DBGWVR2_EL1,Watchpoint Value Register (AArch64)" hexmask.quad 0x00 2.--48. 0x4 "ADDRESS,Data address" group.quad spr:(0x20007+0x20)++0x00 line.quad 0x00 "DBGWCR2_EL1,Watchpoint Control Register" bitfld.quad 0x0 24.--28. "MASK,Watchpoint address mask" "Not masked,Reserved,Reserved,0x7,0xF,0x1F,0x3F,0x7F,0xFF,0x1FF,0x3FF,0x7FF,0xFFF,0x1FFF,0x3FFF,0x7FFF,0xFFFF,0x1FFFF,0x3FFFF,0x7FFFF,0xFFFFF,0x1FFFFF,0x3FFFFF,0x7FFFFF,0xFFFFFF,0x1FFFFFF,0x3FFFFFF,0x7FFFFFF,0xFFFFFFF,0x1FFFFFFF,0x3FFFFFFF,0x7FFFFFFF" bitfld.quad 0x00 20. "WT,Watchpoint type" "Unlinked,Linked" bitfld.quad 0x00 16.--19. "LBN,Linked breakpoint number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 14.--15. "SSC,Security state control" "Both,Non-secure,Secure,?..." bitfld.quad 0x00 13. "HMC,Hypervisor mode control" "Disabled,Enabled" hexmask.quad.byte 0x00 5.--12. 1. "BAS,Byte address select" newline bitfld.quad 0x00 3.--4. "LSC,Load/store control" "Reserved,Load,Store,Both" bitfld.quad 0x00 1.--2. "PAC,Privileged mode control" "User/System/Supervisor,Privileged,User only,Any mode" bitfld.quad 0x00 0. "E,Enable" "Disabled,Enabled" group.quad spr:(0x20006+0x30)++0x00 "Watchpoint 3" line.quad 0x00 "DBGWVR3_EL1,Watchpoint Value Register (AArch64)" hexmask.quad 0x00 2.--48. 0x4 "ADDRESS,Data address" group.quad spr:(0x20007+0x30)++0x00 line.quad 0x00 "DBGWCR3_EL1,Watchpoint Control Register" bitfld.quad 0x0 24.--28. "MASK,Watchpoint address mask" "Not masked,Reserved,Reserved,0x7,0xF,0x1F,0x3F,0x7F,0xFF,0x1FF,0x3FF,0x7FF,0xFFF,0x1FFF,0x3FFF,0x7FFF,0xFFFF,0x1FFFF,0x3FFFF,0x7FFFF,0xFFFFF,0x1FFFFF,0x3FFFFF,0x7FFFFF,0xFFFFFF,0x1FFFFFF,0x3FFFFFF,0x7FFFFFF,0xFFFFFFF,0x1FFFFFFF,0x3FFFFFFF,0x7FFFFFFF" bitfld.quad 0x00 20. "WT,Watchpoint type" "Unlinked,Linked" bitfld.quad 0x00 16.--19. "LBN,Linked breakpoint number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.quad 0x00 14.--15. "SSC,Security state control" "Both,Non-secure,Secure,?..." bitfld.quad 0x00 13. "HMC,Hypervisor mode control" "Disabled,Enabled" hexmask.quad.byte 0x00 5.--12. 1. "BAS,Byte address select" newline bitfld.quad 0x00 3.--4. "LSC,Load/store control" "Reserved,Load,Store,Both" bitfld.quad 0x00 1.--2. "PAC,Privileged mode control" "User/System/Supervisor,Privileged,User only,Any mode" bitfld.quad 0x00 0. "E,Enable" "Disabled,Enabled" tree.end tree.end tree.open "AArch32" tree "ID Registers" rgroup.long c15:0x0000++0x0 line.long 0x0 "MIDR,Main ID Register" hexmask.long.byte 0x0 24.--31. 0x1 "IMPL,Implementer code" bitfld.long 0x0 20.--23. "VAR,Variant" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x0 16.--19. "ARCH, Architecture" "Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,ARMv8" newline hexmask.long.word 0x0 4.--15. 0x10 "PART,Primary Part Number" bitfld.long 0x0 0.--3. "REV,Revision Number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" if (CORENAME()=="CORTEXA57") rgroup.long c15:0x0100++0x0 line.long 0x0 "CTR,Cache Type Register" bitfld.long 0x0 24.--27. "CWG,Cache writeback granule size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." newline bitfld.long 0x0 20.--23. "ERG,Exclusives reservation granule size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." bitfld.long 0x0 16.--19. "DMINLINE,Smallest data cache line size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." newline bitfld.long 0x0 14.--15. "L1POLICY,L1 Instruction cache policy" "Reserved,Reserved,Reserved,PIPT" bitfld.long 0x0 0.--3. "IMINLINE,I-Cache Minimum Line Size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." elif (CORENAME()=="CORTEXA53") rgroup.long c15:0x0100++0x0 line.long 0x0 "CTR,Cache Type Register" bitfld.long 0x0 24.--27. "CWG,Cache writeback granule size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." newline bitfld.long 0x0 20.--23. "ERG,Exclusives reservation granule size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." bitfld.long 0x0 16.--19. "DMINLINE,Smallest data cache line size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." newline bitfld.long 0x0 14.--15. "L1POLICY,L1 Instruction cache policy" "Reserved,Reserved,VIPT,?..." bitfld.long 0x0 0.--3. "IMINLINE,I-Cache Minimum Line Size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." endif if corename()=="CORTEXA57" rgroup.long c15:0x0300++0x0 line.long 0x0 "TLBTR,TLB Type Register" endif if corename()=="CORTEXA57" rgroup.long c15:0x0500++0x0 line.long 0x0 "MPIDR,Multiprocessor Affinity Register" bitfld.long 0x00 30. "U,Processor is part of a multiprocessor or uniprocessor system" "Multiprocessor,?..." newline bitfld.long 0x00 24. "MT,Lowest level of affinity consist of logical processors" "Not implemented,Implemented" hexmask.long.byte 0x00 16.--23. 1. "AFF2,Affinity level 2. Second highest level affinity field" hexmask.long.byte 0x00 8.--15. 1. "AFF1,Affinity level 1. Third highest level affinity field" newline bitfld.long 0x00 0.--1. "CPUID,Indicates the core number in the device" "1,2,3,4" elif corename()=="CORTEXA53" rgroup.long c15:0x0500++0x0 line.long 0x0 "MPIDR,Multiprocessor Affinity Register" bitfld.long 0x00 30. "U,Processor is part of a multiprocessor or uniprocessor system" "Multiprocessor,?..." newline bitfld.long 0x00 24. "MT,Lowest level of affinity consist of logical processors" "Not implemented,?..." hexmask.long.byte 0x00 16.--23. 1. "AFF2,Affinity level 2. Second highest level affinity field" hexmask.long.byte 0x00 8.--15. 1. "AFF1,Affinity level 1. Third highest level affinity field" newline hexmask.long.byte 0x00 0.--7. 1. "AFF0,Affinity level 0. Lowest level affinity field" endif rgroup.long c15:0x0600++0x0 line.long 0x0 "REVIDR,Revision ID Register" rgroup.long c15:0x0410++0x00 line.long 0x00 "ID_MMFR0,Memory Model Feature Register 0" bitfld.long 0x00 28.--31. "IS,Indicates innermost shareability domain implemented" "Reserved,Implemented,?..." bitfld.long 0x00 24.--27. "FCSE,Fast Context Switch Memory Mappings Support" "Not supported,?..." bitfld.long 0x00 20.--23. "AR,Auxiliary Register Support" "Reserved,Supported,?..." newline bitfld.long 0x00 16.--19. "TCM,TCM and Associated DMA Support" "Not supported,?..." bitfld.long 0x00 12.--15. "SL,Shareability levels" "Reserved,Implemented 2 levels,?..." bitfld.long 0x00 8.--11. "OSS,Outer Shareable Support" "Reserved,Implemented,?..." newline bitfld.long 0x00 4.--7. "PMSA,Physical Memory System Architecture (PMSA) Support" "Not supported,?..." bitfld.long 0x00 0.--3. "VMSA,Virtual Memory System Architecture (VMSA) Support" "Reserved,Reserved,Reserved,Reserved,Reserved,Supported,?..." rgroup.long c15:0x0510++0x00 line.long 0x00 "ID_MMFR1,Memory Model Feature Register 1" bitfld.long 0x00 28.--31. "BTB,Branch Predictor" "Reserved,Reserved,Required,?..." bitfld.long 0x00 24.--27. "L1TCO,Test and Clean Operations on Data Cache/Harvard/Unified Architecture Support" "Not supported,?..." bitfld.long 0x00 20.--23. "L1UCMO,L1 Cache/All Maintenance Operations/Unified Architecture Support" "Not supported,?..." newline 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,?..." newline 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 "ID_MMFR2,Memory Model Feature Register 2" bitfld.long 0x00 28.--31. "HAF,Hardware Access Flag Support" "Not supported,?..." bitfld.long 0x00 24.--27. "WFI,Wait for Interrupt Stalling Support" "Reserved,Supported,?..." bitfld.long 0x00 20.--23. "MBF,Memory Barrier Operations Support" "Reserved,Reserved,Supported,?..." newline bitfld.long 0x00 16.--19. "UTLBMO,TLB Maintenance Operations/Unified Architecture Support" "Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Supported,?..." bitfld.long 0x00 12.--15. "HTLBMO,TLB Maintenance Operations/Harvard Architecture Support" "Not supported,?..." bitfld.long 0x00 8.--11. "HL1CMRO,Cache Maintenance Range Operations/Harvard Architecture Support" "Not supported,?..." newline bitfld.long 0x00 4.--7. "HL1BPCRO,Background Prefetch Cache Range Operations/Harvard Architecture Support" "Not supported,?..." bitfld.long 0x00 0.--3. "HL1FPCRO,Foreground Prefetch Cache Range Operations/Harvard Architecture Support" "Not supported,?..." rgroup.long c15:0x0710++0x00 line.long 0x00 "ID_MMFR3,Memory Model Feature Register 3" bitfld.long 0x00 28.--31. "SS,Supersection support" "Supported,?..." bitfld.long 0x00 24.--27. "CMEMSZ,Cache memory size" "Reserved,Reserved,1TByte,?..." bitfld.long 0x00 20.--23. "CW,Coherent walk" "Reserved,Supported,?..." newline bitfld.long 0x00 12.--15. "MB,Maintenance broadcast Support" "Reserved,Reserved,Supported,?..." bitfld.long 0x00 8.--11. "BPM,Invalidate Branch predictor Support" "Reserved,Reserved,Supported,?..." bitfld.long 0x00 4.--7. "HCMOSW,Invalidate Cache by Set and Way/Clean by Set and Way/Invalidate and Clean by Set and Way Support" "Reserved,Supported,?..." newline bitfld.long 0x00 0.--3. "HCMOMVA,Invalidate Cache MVA Support" "Reserved,Supported,?..." rgroup.long c15:0x0620++0x00 line.long 0x00 "ID_MMFR4,ID_MMFR4" bitfld.long 0x00 4.--7. "AC2,Extension of ACTLR and HACTLR by ACTLR2 and HACTLR2" "Not implemented, implemented,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved" rgroup.long c15:0x0020++0x00 line.long 0x00 "ID_ISAR0,Instruction Set Attribute Register 0" bitfld.long 0x00 24.--27. "DIVI,Divide Instructions Support" "Reserved,Reserved,Supported,?..." bitfld.long 0x00 20.--23. "DEBI,Debug Instructions Support" "Reserved,Supported,?..." bitfld.long 0x00 16.--19. "CI,Coprocessor Instructions Support" "Not supported,?..." newline 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,?..." newline bitfld.long 0x00 0.--3. "SI,Swap Instructions Support" "Not supported,?..." rgroup.long c15:0x0120++0x00 line.long 0x00 "ID_ISAR1,Instruction Set Attribute Register 1" bitfld.long 0x00 28.--31. "JI,Jazelle Instructions Support" "Reserved,Supported,?..." bitfld.long 0x00 24.--27. "INTI,Interwork Instructions Support" "Reserved,Reserved,Reserved,Supported,?..." bitfld.long 0x00 20.--23. "IMMI,Immediate Instructions Support" "Reserved,Supported,?..." newline bitfld.long 0x00 16.--19. "ITEI,If Then Instructions Support" "Reserved,Supported,?..." bitfld.long 0x00 12.--15. "EXTI,Extend Instructions Support" "Reserved,Reserved,Supported,?..." bitfld.long 0x00 8.--11. "EARI,Exception A and R Instructions Support" "Reserved,Supported,?..." newline bitfld.long 0x00 4.--7. "EXIN,Exception in ARM Instructions Support" "Reserved,Supported,?..." bitfld.long 0x00 0.--3. "ENDI,Endian Instructions Support" "Reserved,Supported,?..." rgroup.long c15:0x0220++0x00 line.long 0x00 "ID_ISAR2,Instruction Set Attribute Register 2" bitfld.long 0x00 28.--31. "RI,Reversal Instructions Support" "Reserved,Reserved,Supported,?..." bitfld.long 0x00 24.--27. "PSRI,PSR Instructions Support" "Reserved,Supported,?..." bitfld.long 0x00 20.--23. "UMI,Advanced Unsigned Multiply Instructions Support" "Reserved,Reserved,Supported,?..." newline 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,?..." newline bitfld.long 0x00 4.--7. "MHI,Memory Hint Instructions Support" "Reserved,Reserved,Reserved,Reserved,Supported,?..." bitfld.long 0x00 0.--3. "LSI,Load and Store Instructions Support" "Reserved,Reserved,Supported,?..." rgroup.long c15:0x0320++0x00 line.long 0x00 "ID_ISAR3,Instruction Set Attribute Register 3" bitfld.long 0x00 28.--31. "TEEEI,Thumb-EE Extensions Support" "Not 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,?..." newline bitfld.long 0x00 16.--19. "TBI,Table Branch Instructions Support" "Reserved,Supported,Reserved,?..." bitfld.long 0x00 12.--15. "SPI,Synchronization Primitive Instructions Support" "Reserved,Reserved,Supported,?..." bitfld.long 0x00 8.--11. "SVCI,SVC Instructions Support" "Reserved,Supported,?..." newline bitfld.long 0x00 4.--7. "SIMDI,Single Instruction Multiple Data (SIMD) Instructions Support" "Reserved,Reserved,Reserved,Supported,?..." bitfld.long 0x00 0.--3. "SI,Saturate Instructions Support" "Reserved,Supported,?..." rgroup.long c15:0x0420++0x00 line.long 0x00 "ID_ISAR4,Instruction Set Attribute Register 4" bitfld.long 0x00 28.--31. "SWP_FRAC,Memory System Locking Support" "Not supported,?..." bitfld.long 0x00 24.--27. "PSR_M_I,PSR_M Instructions Support" "Not supported,?..." bitfld.long 0x00 20.--23. "SPRI,Synchronization Primitive instructions" "Supported,?..." newline 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,?..." newline 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 "ID_ISAR5,Instruction Set Attribute Register 5" bitfld.long 0x00 16.--19. "CRC32,CRC32 Instructions Support" "Reserved,Supported,?..." bitfld.long 0x00 12.--15. "SHA2,SHA2 Instructions Support" "Not supported,Supported,?..." bitfld.long 0x00 8.--11. "SHA1,SHA1 Instructions Support" "Not supported,Supported,?..." newline bitfld.long 0x00 4.--7. "AES,AES Instructions Support" "Not supported,Reserved,Supported,?..." bitfld.long 0x00 0.--3. "SEVL,SEVL Instructions Support" "Reserved,Supported,?..." rgroup.long c15:0x0010++0x00 line.long 0x00 "ID_PFR0,Processor Feature Register 0" bitfld.long 0x00 12.--15. "STATE3,Thumb Execution Environment (Thumb-EE) Support" "Not supported,?..." bitfld.long 0x00 8.--11. "STATE2,Support for Jazelle extension" "Reserved,Supported,?..." bitfld.long 0x00 4.--7. "STATE1,Thumb Encoding Supported by the Processor Type" "Reserved,Reserved,Reserved,Supported,?..." newline bitfld.long 0x00 0.--3. "STATE0,ARM Instruction Set Support" "Reserved,Supported,?..." rgroup.long c15:0x0110++0x00 line.long 0x00 "ID_PFR1,Processor Feature Register 1" bitfld.long 0x00 28.--31. "GIC_CPU,GIC CPU Support" "Disabled,Enabled,?..." newline bitfld.long 0x00 16.--19. "GT,Generic Timer Support" "Reserved,Supported,?..." bitfld.long 0x00 12.--15. "VE,Virtualization Extensions Support" "Reserved,Supported,?..." bitfld.long 0x00 8.--11. "MPM,Microcontroller Programmer's Model Support" "Not supported,?..." newline 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,?..." if corename()=="CORTEXA57" rgroup.long c15:0x0210++0x00 line.long 0x00 "ID_DFR0,Debug Feature Register 0" bitfld.long 0x00 24.--27. "PMM,Performance Monitor Model Support" "Reserved,Reserved,Reserved,Supported,?..." bitfld.long 0x00 20.--23. "MDM_MM,Memory-mapped Debug Model for M profile processors Support" "Not supported,?..." bitfld.long 0x00 16.--19. "TM_MM,Trace Model (Memory-Mapped) Support" "Reserved,Supported,?..." newline bitfld.long 0x00 12.--15. "CTM_CB,Coprocessor-Based Trace Debug Model Support" "Not supported,?..." bitfld.long 0x00 8.--11. "CDM_MM,Memory-Mapped Debug Model Support" "Not supported,?..." bitfld.long 0x00 4.--7. "SDM_CB,Secure Debug Model (Coprocessor) Support" "Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Supported,?..." newline bitfld.long 0x00 0.--3. "CDM_CB,Coprocessor Debug Model Support" "Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Supported,?..." elif corename()=="CORTEXA53" rgroup.long c15:0x0210++0x00 line.long 0x00 "ID_DFR0,Debug Feature Register 0" bitfld.long 0x00 24.--27. "PMM,Performance Monitor Model Support" "Reserved,Reserved,Reserved,Supported,?..." bitfld.long 0x00 20.--23. "MDM_MM,Memory-mapped Debug Model for M profile processors Support" "Not supported,?..." bitfld.long 0x00 16.--19. "TM_MM,Trace Model (Memory-Mapped) Support" "Reserved,Supported,?..." newline bitfld.long 0x00 12.--15. "CTM_CB,Coprocessor-Based Trace Debug Model Support" "Not supported,?..." bitfld.long 0x00 4.--7. "SDM_CB,Secure Debug Model (Coprocessor) Support" "Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Supported,?..." bitfld.long 0x00 0.--3. "CDM_CB,Coprocessor Debug Model Support" "Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Supported,?..." endif group.long c15:0x0310++0x00 line.long 0x00 "ID_AFR0,Auxiliary Feature Register 0" if corename()=="CORTEXA57" rgroup.long c15:0x6C9++0x0 line.long 0x00 "PMCEID0,Common Event Identification Register 0" bitfld.long 0x00 30. "EVENT30,Chain" "Not implemented,Implemented" newline bitfld.long 0x00 29. "EVENT29,Bus cycle" "Not implemented,Implemented" bitfld.long 0x00 28. "EVENT28,Instruction architecturally executed condition check pass" "Not implemented,Implemented" bitfld.long 0x00 27. "EVENT27,Instruction speculatively executed" "Not implemented,Implemented" newline bitfld.long 0x00 26. "EVENT26,Local memory error" "Not implemented,Implemented" bitfld.long 0x00 25. "EVENT25,Bus access" "Not implemented,Implemented" bitfld.long 0x00 24. "EVENT24,Level 2 data cache write-back" "Not implemented,Implemented" newline bitfld.long 0x00 23. "EVENT23,Level 2 data cache refill" "Not implemented,Implemented" bitfld.long 0x00 22. "EVENT22,Level 2 data cache access" "Not implemented,Implemented" bitfld.long 0x00 21. "EVENT21,Level 1 data cache write-back" "Not implemented,Implemented" newline bitfld.long 0x00 20. "EVENT20,Level 1 instruction cache access" "Not implemented,Implemented" bitfld.long 0x00 19. "EVENT19,Data memory access" "Not implemented,Implemented" bitfld.long 0x00 18. "EVENT18,Predictable branch speculatively executed" "Not implemented,Implemented" newline bitfld.long 0x00 17. "EVENT17,Cycle" "Not implemented,Implemented" bitfld.long 0x00 16. "EVENT16,Mispredicted or not predicted branch speculatively executed" "Not implemented,Implemented" bitfld.long 0x00 15. "EVENT15,Instruction architecturally executed condition check pass unaligned load or store" "Not implemented,Implemented" newline bitfld.long 0x00 14. "EVENT14,Instruction architecturally executed condition check pass procedure return" "Not implemented,Implemented" bitfld.long 0x00 13. "EVENT13,Instruction architecturally executed immediate branch" "Not implemented,Implemented" bitfld.long 0x00 12. "EVENT12,Instruction architecturally executed condition check pass software change of the PC" "Not implemented,Implemented" newline bitfld.long 0x00 11. "EVENT11,Instruction architecturally executed condition check pass write to CONTEXTIDR" "Not implemented,Implemented" bitfld.long 0x00 10. "EVENT10,Instruction architecturally executed condition check pass exception return" "Not implemented,Implemented" bitfld.long 0x00 9. "EVENT9,Exception taken" "Not implemented,Implemented" newline bitfld.long 0x00 8. "EVENT8,Instruction architecturally executed" "Not implemented,Implemented" bitfld.long 0x00 7. "EVENT7,Instruction architecturally executed condition check pass store" "Not implemented,Implemented" bitfld.long 0x00 6. "EVENT6,Instruction architecturally executed condition check pass load" "Not implemented,Implemented" newline bitfld.long 0x00 5. "EVENT5,Level 1 data TLB refill" "Not implemented,Implemented" bitfld.long 0x00 4. "EVENT4,Level 1 data cache access" "Not implemented,Implemented" bitfld.long 0x00 3. "EVENT3,Level 1 data cache refill" "Not implemented,Implemented" newline bitfld.long 0x00 2. "EVENT2,Level 1 instruction TLB refill" "Not implemented,Implemented" bitfld.long 0x00 1. "EVENT1,Level 1 instruction cache refill" "Not implemented,Implemented" bitfld.long 0x00 0. "EVENT0,Instruction architecturally executed condition check pass software increment" "Not implemented,Implemented" rgroup.long c15:0x7C9++0x0 line.long 0x00 "PMCEID1,Common Event Identification Register 1" elif corename()=="CORTEXA53" rgroup.long c15:0x6C9++0x0 line.long 0x00 "PMCEID0,Common Event Identification Register 0" bitfld.long 0x00 31. "EVENT31,L1 Data cache allocate" "Not implemented,Implemented" bitfld.long 0x00 30. "EVENT30,Chain" "Not implemented,Implemented" newline bitfld.long 0x00 29. "EVENT29,Bus cycle" "Not implemented,Implemented" bitfld.long 0x00 28. "EVENT28,Instruction architecturally executed condition check pass" "Not implemented,Implemented" bitfld.long 0x00 27. "EVENT27,Instruction speculatively executed" "Not implemented,Implemented" newline bitfld.long 0x00 26. "EVENT26,Local memory error" "Not implemented,Implemented" bitfld.long 0x00 25. "EVENT25,Bus access" "Not implemented,Implemented" bitfld.long 0x00 24. "EVENT24,Level 2 data cache write-back" "Not implemented,Implemented" newline bitfld.long 0x00 23. "EVENT23,Level 2 data cache refill" "Not implemented,Implemented" bitfld.long 0x00 22. "EVENT22,Level 2 data cache access" "Not implemented,Implemented" bitfld.long 0x00 21. "EVENT21,Level 1 data cache write-back" "Not implemented,Implemented" newline bitfld.long 0x00 20. "EVENT20,Level 1 instruction cache access" "Not implemented,Implemented" bitfld.long 0x00 19. "EVENT19,Data memory access" "Not implemented,Implemented" bitfld.long 0x00 18. "EVENT18,Predictable branch speculatively executed" "Not implemented,Implemented" newline bitfld.long 0x00 17. "EVENT17,Cycle" "Not implemented,Implemented" bitfld.long 0x00 16. "EVENT16,Mispredicted or not predicted branch speculatively executed" "Not implemented,Implemented" bitfld.long 0x00 15. "EVENT15,Instruction architecturally executed condition check pass unaligned load or store" "Not implemented,Implemented" newline bitfld.long 0x00 14. "EVENT14,Instruction architecturally executed condition check pass procedure return" "Not implemented,Implemented" bitfld.long 0x00 13. "EVENT13,Instruction architecturally executed immediate branch" "Not implemented,Implemented" bitfld.long 0x00 12. "EVENT12,Instruction architecturally executed condition check pass software change of the PC" "Not implemented,Implemented" newline bitfld.long 0x00 11. "EVENT11,Instruction architecturally executed condition check pass write to CONTEXTIDR" "Not implemented,Implemented" bitfld.long 0x00 10. "EVENT10,Instruction architecturally executed condition check pass exception return" "Not implemented,Implemented" bitfld.long 0x00 9. "EVENT9,Exception taken" "Not implemented,Implemented" newline bitfld.long 0x00 8. "EVENT8,Instruction architecturally executed" "Not implemented,Implemented" bitfld.long 0x00 7. "EVENT7,Instruction architecturally executed condition check pass store" "Not implemented,Implemented" bitfld.long 0x00 6. "EVENT6,Instruction architecturally executed condition check pass load" "Not implemented,Implemented" newline bitfld.long 0x00 5. "EVENT5,Level 1 data TLB refill" "Not implemented,Implemented" bitfld.long 0x00 4. "EVENT4,Level 1 data cache access" "Not implemented,Implemented" bitfld.long 0x00 3. "EVENT3,Level 1 data cache refill" "Not implemented,Implemented" newline bitfld.long 0x00 2. "EVENT2,Level 1 instruction TLB refill" "Not implemented,Implemented" bitfld.long 0x00 1. "EVENT1,Level 1 instruction cache refill" "Not implemented,Implemented" bitfld.long 0x00 0. "EVENT0,Instruction architecturally executed condition check pass software increment" "Not implemented,Implemented" rgroup.long c15:0x7C9++0x0 line.long 0x00 "PMCEID1,Common Event Identification Register 1" bitfld.long 0x00 0. "EVENT32,L2D Cache Allocate" "Not implemented,Implemented" endif group.long c15:0x020D++0x00 line.long 0x00 "TPIDRURW,User Read/Write Thread ID Register" group.long c15:0x030D++0x00 line.long 0x00 "TPIDRURO,User Read-Only Thread ID Register" group.long c15:0x040D++0x00 line.long 0x00 "TPIDRPRW,EL1 only Thread ID Register" group.long c15:0x420D++0x00 line.long 0x00 "HTPIDR,Hypervisor Software Thread ID Register" tree.end tree "System Control and Configuration" if corename()=="CORTEXA57" if (((per.l(c15:0x202))&0x80000000)==0x00000000) group.long c15:0x0001++0x0 line.long 0x0 "SCTLR,System Control Register" bitfld.long 0x0 30. "TE,T32 exception enable" "A32,T32" bitfld.long 0x0 29. "AFE,Access Flag Enable" "Disabled,Enabled" newline bitfld.long 0x0 28. "TRE,TEX remap enable" "Disabled,Enabled" bitfld.long 0x0 25. "EE,Exception endianness" "Little,Big" newline bitfld.long 0x0 20. "UWXN,Unprivileged write permission implies PL1 Execute Never" "Not forced,Forced" bitfld.long 0x0 19. "WXN,Write permission implies PL1 Execute Never" "Not forced,Forced" newline bitfld.long 0x0 18. "NTWE,Not trap WFE" "No,Yes" bitfld.long 0x0 16. "NTWI,Not trap WFI" "No,Yes" newline bitfld.long 0x0 13. "V,Base Location of Exception Registers" "0x00000000,0xFFFF0000" bitfld.long 0x0 12. "I,Instruction Cache Enable" "Disabled,Enabled" newline bitfld.long 0x0 8. "SED,SETEND Disable" "No,Yes" bitfld.long 0x0 7. "ITD,IT Disable" "No,Yes" newline bitfld.long 0x0 6. "THEE,ThumbEE Disable" "No,Yes" bitfld.long 0x0 5. "CP15BEN,c15 barrier enable" "Disabled,Enabled" newline bitfld.long 0x0 2. "C,Enable unified cache or data cache" "Disabled,Enabled" bitfld.long 0x0 1. "A,Strict Alignment" "Disabled,Enabled" newline bitfld.long 0x0 0. "M,MMU or Protection Unit" "Disabled,Enabled" else group.long c15:0x0001++0x0 line.long 0x0 "SCTLR,Control Register" bitfld.long 0x0 30. "TE,T32 exception enable" "A32,T32" bitfld.long 0x0 25. "EE,Exception endianness" "Little,Big" newline bitfld.long 0x0 20. "UWXN,Unprivileged write permission implies PL1 Execute Never" "Not forced,Forced" bitfld.long 0x0 19. "WXN,Write permission implies PL1 Execute Never" "Not forced,Forced" newline bitfld.long 0x0 18. "NTWE,Not trap WFE" "No,Yes" bitfld.long 0x0 16. "NTWI,Not trap WFI" "No,Yes" newline bitfld.long 0x0 13. "V,Base Location of Exception Registers" "0x00000000,0xFFFF0000" bitfld.long 0x0 12. "I,Instruction Cache Enable" "Disabled,Enabled" newline bitfld.long 0x0 8. "SED,SETEND Disable" "No,Yes" bitfld.long 0x0 7. "ITD,IT Disable" "No,Yes" newline bitfld.long 0x0 6. "THEE,ThumbEE Disable" "No,Yes" bitfld.long 0x0 5. "CP15BEN,c15 barrier enable" "Disabled,Enabled" newline bitfld.long 0x0 2. "C,Enable unified cache or data cache" "Disabled,Enabled" bitfld.long 0x0 1. "A,Strict Alignment" "Disabled,Enabled" newline bitfld.long 0x0 0. "M,MMU or Protection Unit" "Disabled,Enabled" endif group.quad c15:0x100F0++0x01 line.quad 0x00 "CPUACTLR,CPU Auxiliary Control Register" bitfld.quad 0x00 63. "FPRCGEC,Force processor RCG enables active" "Not forced,Forced" bitfld.quad 0x00 59. "DLPDMB,Disable load pass DMB" "No,Yes" newline bitfld.quad 0x00 58. "DDMBN,Disable DMB nullification" "No,Yes" bitfld.quad 0x00 57. "TA,Treat DMB st/stand DMB ld/allas DMB all/all" "Disabled,Enabled" newline bitfld.quad 0x00 56. "DL1DCHP,Disable L1 Data Cache hardware prefetcher" "No,Yes" bitfld.quad 0x00 55. "DLPS,Disable load pass store" "No,Yes" newline bitfld.quad 0x00 54. "TGRE,Treat GRE/nGRE as nGnRE" "Disabled,Enabled" bitfld.quad 0x00 53. "TDMBADSB,Treat DMBand DSBas if their domain field is SY" "Disabled,Enabled" newline bitfld.quad 0x00 52. "DORFLDNPI,Disable over-read from LDNP instruction" "No,Yes" bitfld.quad 0x00 51. "DCDAFEMP,Disable contention detection and fast exclusive monitor path" "No,Yes" newline bitfld.quad 0x00 50. "DSSONNCGREEMT,Disable store streaming on NC/GRE memory type" "No,Yes" bitfld.quad 0x00 49. "DNHOWBNAMT,Disable non-allocate hint of Write-Back No-Allocate (WBNA) memory type" "No,Yes" newline bitfld.quad 0x00 48. "DESRAFLSTL2,Disable early speculative read access from LS to L2" "No,Yes" bitfld.quad 0x00 47. "DL1L2HP,Disable L1/L2 hardware prefetch across 4KB page boundary even if page is 64KB or larger" "No,Yes" newline bitfld.quad 0x00 44. "EDCCADCCI,Enable data cache clean as data cache clean/invalidate" "Disabled,Enabled" bitfld.quad 0x00 39. "DIM,Disable instruction merging" "No,Yes" newline bitfld.quad 0x00 38. "FFPSCRWF,Force FPSCR write flush" "Not forced,Forced" bitfld.quad 0x00 37. "DIGS,Disable instruction group split" "No,Yes" newline bitfld.quad 0x00 36. "FIDSBONASBE,Force implicit DSB on an ISB event" "Not forced,Forced" bitfld.quad 0x00 34. "DSBP,Disable Static Branch Predictor" "No,Yes" newline bitfld.quad 0x00 33. "DL1ICWPIMBTB,Disable L1 Instruction Cache way prediction in micro-BTB" "No,Yes" bitfld.quad 0x00 32. "DL1ICP,Disable L1 Instruction Cache prefetch" "No,Yes" newline bitfld.quad 0x00 31. "SDEH,Snoop-delayed exclusive handling" "Disabled,Enabled" bitfld.quad 0x00 30. "FMCEA,Force main clock enable active" "Not forced,Forced" newline bitfld.quad 0x00 29. "FASIMDFPCEA,Force Advanced SIMD and floating-point clock enable active" "Disabled,Enabled" bitfld.quad 0x00 27.--28. "WSNAT,Write streaming no-allocate threshold" "12th,128th,512th,Disabled" newline bitfld.quad 0x00 25.--26. "WSNL1AT,Write streaming no-L1-allocate threshold" "4th,64th,128th,Disabled" bitfld.quad 0x00 24. "NCSE,Non-cacheable streaming enhancement" "Disabled,Enabled" newline bitfld.quad 0x00 23. "FIORTTSSAW,Force in-order requests to the same set and way" "Not forced,Forced" bitfld.quad 0x00 22. "FIOLI,Force in-order load issue" "Not forced,Forced" newline bitfld.quad 0x00 21. "DL2TLBP,Disable L2 TLB prefetching" "No,Yes" bitfld.quad 0x00 20. "DL2TTWIPAPAC,Disable L2 translation table walk IPA PA cache" "No,Yes" newline bitfld.quad 0x00 19. "DL2S1TTWC,Disable L2 stage 1 translation table walk cache" "No,Yes" bitfld.quad 0x00 18. "DL2S1TTWL2PAC,Disable L2 stage 1 translation table walk L2 PA cache" "No,Yes" newline bitfld.quad 0x00 17. "DL2TLBPO,Disable L2 TLB performance optimization" "No,Yes" bitfld.quad 0x00 16. "EFSOADLR,Enable full Strongly-ordered and Device load replay" "Disabled,Enabled" newline bitfld.quad 0x00 15. "FIOIIBEU,Force in-order issue in branch execute unit" "Not forced,Forced" bitfld.quad 0x00 14. "FLOFOIGCDAPC,Force limit of one instruction group commit/de-allocate per cycle" "Not forced,Forced" newline bitfld.quad 0x00 13. "FASPRW,Flush after Special Purpose Register (SPR) writes" "Disabled,Enabled" bitfld.quad 0x00 12. "FPOSPRS,Force push of SPRs" "Disabled,Enabled" newline bitfld.quad 0x00 11. "LTOIPIG,Limit to one instruction per instruction group" "Disabled,Enabled" bitfld.quad 0x00 10. "FSAEIG,Force serialization after each instruction group" "Not forced,Forced" newline bitfld.quad 0x00 9. "DFRO,Disable flag renaming optimization" "No,Yes" bitfld.quad 0x00 8. "EWFIIAANOPI,Execute WFI instruction as a NOP instruction" "Disabled,Enabled" newline bitfld.quad 0x00 7. "EWFEIAANOPI,Execute WFE instruction as a NOP instruction" "Disabled,Enabled" bitfld.quad 0x00 5. "EPLDPLDWIASNOP,Execute PLDand PLDWinstructions as a NOP" "Disabled,Enabled" newline bitfld.quad 0x00 4. "DIP,Disable indirect predictor" "No,Yes" bitfld.quad 0x00 3. "DMBTB,Disable micro-BTB" "No,Yes" newline bitfld.quad 0x00 1. "DICMS,Disable Instruction Cache miss streaming" "No,Yes" bitfld.quad 0x00 0. "EIOBTB,Enable invalidates of BTB" "Disabled,Enabled" group.quad c15:0x110F0++0x01 line.quad 0x00 "CPUECTLR,CPU Extended Control Register" bitfld.quad 0x00 38. "DTWDAP,Disable table walk descriptor access prefetch" "No,Yes" bitfld.quad 0x00 35.--36. "L2IFPD,L2 instruction fetch prefetch distance" "0 lines,1 line,2 lines,3 lines" newline bitfld.quad 0x00 32.--33. "L2LSDPD,L2 load/store data prefetch distance" "0 line,2 lines,4 lines,8 lines" bitfld.quad 0x00 6. "SMPEN,Enable hardware management of data coherency with other processors in the multiprocessor" "Disabled,Enabled" newline bitfld.quad 0x00 0.--2. "CPURETCTL,CPU retention control" "Disabled,2 ticks,8 ticks,32 ticks,64 ticks,128 ticks,256 ticks,512 ticks" group.quad c15:0x120F0++0x01 line.quad 0x00 "CPUMERRSR,CPU Memory Error Syndrome Register" bitfld.quad 0x00 63. "FATAL,Fatal bit" "0,1" hexmask.quad.byte 0x00 40.--47. 1. "OEC,Other error count" newline hexmask.quad.byte 0x00 32.--39. 1. "REC,Repeat error count" bitfld.quad 0x00 31. "VALID,Valid bit" "Not valid,Valid" newline hexmask.quad.byte 0x00 24.--30. 1. "RAMID,RAM Identifier" bitfld.quad 0x00 18.--22. "B/W,Bank/Way" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" newline hexmask.quad.tbyte 0x00 0.--17. 1. "INDEX,RAM address" group.long c15:0x0101++0x0 line.long 0x0 "ACTLR,Auxiliary Control Register" elif corename()=="CORTEXA53" group.long c15:0x0001++0x0 line.long 0x0 "SCTLR,Control Register" bitfld.long 0x0 30. "TE,T32 exception enable" "A32,T32" bitfld.long 0x0 29. "AFE,Access Flag Enable" "Disabled,Enabled" newline bitfld.long 0x0 28. "TRE,TEX remap enable" "Disabled,Enabled" bitfld.long 0x0 25. "EE,Exception endianness" "Little,Big" newline bitfld.long 0x0 20. "UWXN,Unprivileged write permission implies PL1 Execute Never" "Not forced,Forced" bitfld.long 0x0 19. "WXN,Write permission implies PL1 Execute Never" "Not forced,Forced" newline bitfld.long 0x0 18. "NTWE,Not trap WFE" "No,Yes" bitfld.long 0x0 16. "NTWI,Not trap WFI" "No,Yes" newline bitfld.long 0x0 13. "V,Base Location of Exception Registers" "0x00000000,0xFFFF0000" bitfld.long 0x0 12. "I,Instruction Cache Enable" "Disabled,Enabled" newline bitfld.long 0x0 8. "SED,SETEND Disable" "No,Yes" bitfld.long 0x0 6. "ITD,IT Disable" "No,Yes" newline bitfld.long 0x0 5. "CP15BEN,c15 barrier enable" "Disabled,Enabled" bitfld.long 0x0 2. "C,Enable unified cache or data cache" "Disabled,Enabled" newline bitfld.long 0x0 1. "A,Strict Alignment" "Disabled,Enabled" bitfld.long 0x0 0. "M,MMU or Protection Unit" "Disabled,Enabled" group.quad c15:0x100F0++0x01 line.quad 0x00 "CPUACTLR,CPU Auxiliary Control Register" bitfld.quad 0x00 30. "FPDIDIS,Disable floating-point dual issue" "No,Yes" bitfld.quad 0x00 29. "DIDIS,Disable Dual Issue" "No,Yes" newline bitfld.quad 0x00 27.--28. "RADIS,Write streaming no-allocate threshold" "16th,128th,512th,Disabled" bitfld.quad 0x00 25.--26. "L1RADIS,Write streaming no-L1-allocate threshold" "4th,64th,128th,Disabled" newline bitfld.quad 0x00 24. "DTAH,Disable Transient allocation hint" "No,Yes" bitfld.quad 0x00 23. "STBPFRS,Disable ReadUnique request for prefetch streams initiated by STB accesses" "No,Yes" newline bitfld.quad 0x00 22. "STBPFDIS,Disable prefetch streams initiated from STB accesses" "No,Yes" bitfld.quad 0x00 21. "IFUTHDIS,IFU fetch throttle disabled" "No,Yes" newline bitfld.quad 0x00 19.--20. "NPFSTRM,Number of independent data prefetch streams" "1 stream,2 streams,3 streams,4 streams" bitfld.quad 0x00 18. "DSTDIS,Enable device split throttle" "Disabled,Enabled" newline bitfld.quad 0x00 17. "STRIDE,Enable stride detection" "Disabled,Enabled" bitfld.quad 0x00 13.--15. "L1PCTL,L1 Data prefetch control" "Disabled,1,2,3,4,5,6,7" newline bitfld.quad 0x00 10. "DODMBS,Disable optimized Data Memory Barrier behavior" "No,Yes" group.quad c15:0x110F0++0x01 line.quad 0x00 "CPUECTLR,CPU Extended Control Register" bitfld.quad 0x00 6. "SMPEN,Enable hardware management of data coherency with other processors in the multiprocessor" "Disabled,Enabled" bitfld.quad 0x00 3.--5. "FPRETCTL,Advanced SIMD and Floating-point retention control" "Disabled,2 ticks,8 ticks,32 ticks,64 ticks,128 ticks,256 ticks,512 ticks" newline bitfld.quad 0x00 0.--2. "CPURETCTL,CPU retention control" "Disabled,2 ticks,8 ticks,32 ticks,64 ticks,128 ticks,256 ticks,512 ticks" group.quad c15:0x120F0++0x01 line.quad 0x00 "CPUMERRSR,CPU Memory Error Syndrome Register" bitfld.quad 0x00 63. "FATAL,Fatal bit" "0,1" hexmask.quad.byte 0x00 40.--47. 1. "OEC,Other error count" newline hexmask.quad.byte 0x00 32.--39. 1. "REC,Repeat error count" bitfld.quad 0x00 31. "VALID,Valid bit" "Not valid,Valid" newline hexmask.quad.byte 0x00 24.--30. 1. "RAMID,RAM Identifier" bitfld.quad 0x00 18.--20. "C/W,CPUID/Way" "0,1,2,3,4,5,6,7" newline hexmask.quad.word 0x00 0.--11. 1. "RAD,RAM address" group.long c15:0x0101++0x0 line.long 0x0 "ACTLR,Auxiliary Control Register" bitfld.long 0x00 6. "L2ACTLRAC,L2ACTLR write access control" "Disabled,Enabled" bitfld.long 0x00 5. "L2ECTLRAC,L2ECTLR write access control" "Disabled,Enabled" newline bitfld.long 0x00 4. "L2CTLRAC,L2CTLR write access control" "Disabled,Enabled" bitfld.long 0x00 1. "CPUECTLRAC,CPUECTLR write access control" "Disabled,Enabled" newline bitfld.long 0x00 0. "CPUACTLRAC,CPUACTLR write access control" "Disabled,Enabled" endif if corename()=="CORTEXA57" group.long c15:0x0201++0x00 line.long 0x0 "CPACR,Coprocessor Access Control Register" bitfld.long 0x0 31. "ASEDIS,Disable Advanced SIMD Extension functionality" "No,Yes" bitfld.long 0x0 28. "TRCDIS,Disable CP14 access to trace registers" "No,Yes" newline bitfld.long 0x0 22.--23. "CP11,Coprocessor access control" "Denied,EL1 or higher,Reserved,Full" bitfld.long 0x0 20.--21. "CP10,Coprocessor access control" "Denied,EL1 or higher,Reserved,Full" elif corename()=="CORTEXA53" group.long c15:0x201++0x00 line.long 0x0 "CPACR,Coprocessor Access Control Register" bitfld.long 0x0 31. "ASEDIS,Disable Advanced SIMD Extension functionality" "No,Yes" bitfld.long 0x0 22.--23. "CP11,Coprocessor access control" "Denied,EL1 only,Reserved,Full" newline bitfld.long 0x0 20.--21. "CP10,Coprocessor access control" "Denied,EL1 only,Reserved,Full" endif group.long c15:0x0011++0x0 line.long 0x00 "SCR,Secure Configuration Register" bitfld.long 0x00 13. "TWE,Trap WFE Instructions" "Not trapped,Trapped" bitfld.long 0x00 12. "TWI,Trap WFI Instructions" "Not trapped,Trapped" newline bitfld.long 0x00 9. "SIF,Secure Instruction Fetch" "Permitted,Not permitted" bitfld.long 0x00 8. "HCE,Hypervisor Call enable" "No,Yes" newline bitfld.long 0x00 7. "SCD,Secure Monitor Call disable" "No,Yes" bitfld.long 0x00 5. "AW,Controls whether the Non-secure world can modify the A-bit in the CPSR" "Not allowed,Allowed" newline bitfld.long 0x00 4. "FW,Controls whether the Non-secure world can modify the F-bit in the CPSR" "Not allowed,Allowed" bitfld.long 0x00 3. "EA,External Abort exceptions handled in Abort mode or Monitor mode" "Abort,Monitor" newline 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" newline bitfld.long 0x00 0. "NS,Secure mode " "Secure,Non-secure" group.long c15:0x0111++0x00 line.long 0x00 "SDER,Secure Debug Enable Register" bitfld.long 0x00 1. "SUNIDEN,Non-Invasive Secure User Debug Enable bit" "Denied,Permitted" bitfld.long 0x00 0. "SUIDEN,Invasive Secure User Debug Enable bit" "Denied,Permitted" group.long c15:0x0131++0x00 line.long 0x00 "SDCR,Secure Debug Control Register" bitfld.long 0x00 21. "EPMAD,External debugger access to Performance Monitors registers disabled" "No,Yes" bitfld.long 0x00 20. "EDAD,External debugger access to breakpoint and watchpoint registers disabled" "No,Yes" newline bitfld.long 0x00 17. "SPME,Secure performance monitors enable" "Disabled,Enabled" bitfld.long 0x00 14.--15. "SPD,AArch32 secure privileged debug" "Legacy,Reserved,Disabled,Enabled" group.long c15:0x0211++0x00 line.long 0x00 "NSACR,Non-Secure Access Control Register" bitfld.long 0x00 15. "NSASEDIS,Disable Non-secure Advanced SIMD Extension functionality" "No,Yes" bitfld.long 0x00 11. "CP11,Coprocessor 11 in the Non-secure World Access Permission" "Denied,Permitted" newline bitfld.long 0x00 10. "CP10,Coprocessor 10 in the Non-secure World Access Permission" "Denied,Permitted" if corename()=="CORTEXA57" group.long c15:0x000C++0x00 line.long 0x00 "VBAR,Vector Base Address Register" hexmask.long 0x00 5.--31. 0x20 "VBA,Vector Base Address" group.long c15:0x010C++0x00 line.long 0x00 "MVBAR,Monitor Vector Base Address Register" hexmask.long 0x00 5.--31. 0x20 "VBA,Vector Base Address" elif corename()=="CORTEXA53" group.long c15:0x000C++0x00 line.long 0x00 "VBAR,Vector Base Address Register" group.long c15:0x010C++0x00 line.long 0x00 "MVBAR,Monitor Vector Base Address Register" endif rgroup.long c15:0x001C++0x00 line.long 0x00 "ISR,Interrupt Status Register" bitfld.long 0x00 8. "A,External abort pending flag" "Not pending,Pending" bitfld.long 0x00 7. "I,Interrupt pending flag" "Not pending,Pending" newline bitfld.long 0x00 6. "F,Fast interrupt pending flag" "Not pending,Pending" group.long c15:0x020C++0x00 line.long 0x00 "RMR,Reset Management Register" bitfld.long 0x00 1. "RR,Reset Request" "Not requested,Requested" bitfld.long 0x00 0. "AA64,Determines which execution state the processor boots into after a warm reset" "AArch32,AArch64" group.long c15:0x0015++0x00 line.long 0x00 "ADFSR,Auxiliary Data Fault Status Register" group.long c15:0x0115++0x00 line.long 0x00 "AIFSR,Auxiliary Instruction Fault Status Register" if corename()=="CORTEXA57" if (((per.l(c15:0x202))&0x80000000)==0x80000000) group.long c15:0x0005++0x00 line.long 0x00 "DFSR,Data Fault Status Register" bitfld.long 0x00 15. "UA,Unattributable fault" "Attributable,Unattributable" bitfld.long 0x00 14. "UC,Uncontainable fault" "Containable,Uncontainable" newline bitfld.long 0x00 13. "CM,Cache maintenance fault" "Not aborted,Aborted" bitfld.long 0x00 12. "EXT,External Abort Qualifier" "DECERR,SLVERR" newline bitfld.long 0x00 9. "LPAE,Large physical address extension" "Disabled,Enabled" bitfld.long 0x00 0.--5. "STATUS,Fault Status" "Address size/TTBR0/TTBR1,Address size/1st level,Address size/2nd level,Address size/3rd level,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Access flag/0th level,Access flag/1st level,Access flag/2nd level,Access flag/3rd level,Permission/0th level,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external,Async. external,Reserved,Reserved,Sync. external/on TTW/0th level,Sync. external/on TTW/1st level,Sync. external/on TTW/2nd level,Sync. external/on TTW/3rd level,Sync. parity/on memory access,Async. parity/on memory access,Reserved,Reserved,Sync. parity/on memory access/on TTW/0th level,Sync. parity/on memory access/on TTW/1st level,Sync. parity/on memory access/on TTW/2nd level,Sync. parity/on memory access/on TTW/3rd level,Reserved,Alignment,Debug event,?..." else group.long c15:0x0005++0x00 line.long 0x00 "DFSR,Data Fault Status Register" bitfld.long 0x00 15. "UA,Unattributable fault" "Attributable,Unattributable" bitfld.long 0x00 14. "UC,Uncontainable fault" "Containable,Uncontainable" newline bitfld.long 0x00 13. "CM,Cache maintenance fault" "Not aborted,Aborted" bitfld.long 0x00 12. "EXT,External Abort Qualifier" "DECERR,SLVERR" newline bitfld.long 0x00 11. "WNR,Access Caused an Abort Type" "Read,Write" bitfld.long 0x00 9. "LPAE,Large physical address extension" "Disabled,Enabled" newline bitfld.long 0x00 4.--7. "DOMAIN,Domain Accessed When a Data Fault Occurs" "D0,D1,D2,D3,D4,D5,D6,D7,D8,D9,D10,D11,D12,D13,D14,D15" bitfld.long 0x00 0.--3. 10. "FS,Fault Status" "Reserved,Alignment,Debug event,Access flag/1st level,Reserved,Translation/1st level,Access flag/2nd level,Translation/1st level,Sync. external/non-translation,Domain/1st level,Reserved,Domain/2nd level,Sync. external/1st level,Permission/1nd level,Sync. external/2nd level,Permission/2nd level,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Async. external,Reserved,Async. parity,Sync. parity,Reserved,Reserved,Sync. parity/1st level,Reserved,Sync. parity/2nd level,?..." endif elif corename()=="CORTEXA53" if (((per.l(c15:0x202))&0x80000000)==0x80000000) group.long c15:0x0005++0x00 line.long 0x00 "DFSR,Data Fault Status Register" bitfld.long 0x00 13. "CM,Cache maintenance fault" "Not aborted,Aborted" bitfld.long 0x00 12. "EXT,External Abort Qualifier" "DECERR,SLVERR" newline bitfld.long 0x00 11. "WNR,Access Caused an Abort Type" "Read,Write" bitfld.long 0x00 0.--5. "STATUS,Fault Status" "Reserved,Reserved,Reserved,Reserved,Reserved,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3rd level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external,Reserved,Reserved,Reserved,Reserved,Sync. external/on TTW/1st level,Sync. external/on TTW/2nd level,Sync. external/on TTW/3rd level,Sync. parity/on memory access,Reserved,Reserved,Reserved,Reserved,Sync. parity/on memory access/on TTW/1st level,Sync. parity/on memory access/on TTW/2nd level,Sync. parity/on memory access/on TTW/3rd level,Reserved,Alignment,Debug event,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,Reserved,Reserved,Reserved,Reserved,LDREX/STREX,?..." else group.long c15:0x0005++0x00 line.long 0x00 "DFSR,Data Fault Status Register" bitfld.long 0x00 13. "CM,Cache maintenance fault" "Not aborted,Aborted" bitfld.long 0x00 12. "EXT,External Abort Qualifier" "DECERR,SLVERR" newline bitfld.long 0x00 11. "WNR,Access Caused an Abort Type" "Read,Write" 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" newline bitfld.long 0x00 0.--3. 10. "FS,Fault Status" "Reserved,Alignment,Debug event,Access flag/section,Instruction cache maintenance,Translation/section,Access flag/page,Translation/page,Sync. external/non-translation,Domain/section,Reserved,Domain/page,Sync. external/1st level,Permission/section,Sync. external/2nd level,Permission/2nd level,TLB conflict,Reserved,Reserved,Reserved,Reserved,LDREX or STREX,Async. external,Reserved,Async. parity,Sync. parity,Reserved,Reserved,Sync. parity/1st level,Reserved,Sync. parity/2nd level,?..." endif endif if corename()=="CORTEXA57" if (((per.l(c15:0x202))&0x80000000)==0x80000000) group.long c15:0x0105++0x00 line.long 0x00 "IFSR,Instruction Fault Status Register" bitfld.long 0x00 12. "EXT,External Abort Type" "DECERR,SLVERR" bitfld.long 0x00 9. "LPAE,Large physical address extension" "Disabled,Enabled" newline bitfld.long 0x00 0.--5. "STATUS,Fault Status" "Address size/TTBR0/TTBR1,Address size/1st level,Address size/2nd level,Address size/3rd level,Translation/0th level,Translation/1st level,Translation/2nd level,Translation/3rd level,Access flag/0th level,Access flag/1st level,Access flag/2nd level,Access flag/3rd level,Permission/0th level,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external,Reserved,Reserved,Reserved,Reserved,Sync. external/on TTW/1st level,Sync. external/on TTW/2nd level,Sync. external/on TTW/3rd level,Sync. parity/on memory access,Reserved,Reserved,Reserved,Reserved,Sync. parity/on memory access/on TTW/1st level,Sync. parity/on memory access/on TTW/2nd level,Sync. parity/on memory access/on TTW/3rd level,Reserved,Alignment,Debug event,?..." else group.long c15:0x0105++0x00 line.long 0x00 "IFSR,Instruction Fault Status Register" bitfld.long 0x00 12. "EXT,External Abort Type" "DECERR,SLVERR" bitfld.long 0x00 9. "LPAE,Large physical address extension" "Disabled,Enabled" newline bitfld.long 0x00 0.--3. 10. "FS,Fault Status" "Reserved,Alignment,Debug event,Access flag/1st level,Reserved,Translation/1st level,Access flag/2nd level,Translation/2nd level,Sync. external/non-translation,Domain/1st level,Reserved,Domain/2nd level,Sync. external/on TTW/1st level,Permission/1st level,Sync. external/on TTW/2nd level,Permission/2nd level,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Sync. parity/on memory access,Reserved,Reserved,Sync. parity/on TTW/1st level,Reserved,Sync. parity/on TTW/2nd level,?..." endif elif corename()=="CORTEXA53" if (((per.l(c15:0x202))&0x80000000)==0x80000000) group.long c15:0x0105++0x00 line.long 0x00 "IFSR,Instruction Fault Status Register" bitfld.long 0x00 12. "EXT,External Abort Type" "DECERR,SLVERR" bitfld.long 0x00 9. "LPAE,Large physical address extension" "Disabled,Enabled" newline bitfld.long 0x00 0.--5. "STATUS,Fault Status" "Address size/TTBR0/TTBR1,Reserved,Reserved,Reserved,Reserved,Translation/1st level,Translation/2nd level,Translation/3rd level,Reserved,Access flag/1st level,Access flag/2nd level,Access flag/3rd level,Reserved,Permission/1st level,Permission/2nd level,Permission/3rd level,Sync. external,Reserved,Reserved,Reserved,Reserved,Sync. external/on TTW/1st level,Sync. external/on TTW/2nd level,Sync. external/on TTW/3rd level,Sync. parity/on memory access,Reserved,Reserved,Reserved,Reserved,Sync. parity/on memory access/on TTW/1st level,Sync. parity/on memory access/on TTW/2nd level,Sync. parity/on memory access/on TTW/3rd level,Reserved,Alignment,Debug event,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict,?..." else group.long c15:0x0105++0x00 line.long 0x00 "IFSR,Instruction Fault Status Register" bitfld.long 0x00 12. "EXT,External Abort Type" "DECERR,SLVERR" bitfld.long 0x00 9. "LPAE,Large physical address extension" "Disabled,Enabled" newline bitfld.long 0x00 0.--3. 10. "FS,Fault Status" "Reserved,Reserved,Debug event,Access flag/section,Reserved,Translation/section,Access flag/page,Translation/page,Sync. external/non-translation,Domain/section,Reserved,Domain/page,Sync. external/on TTW/1st level,Permission/section,Sync. external/on TTW/2nd level,Permission/page,TLB conflict,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Sync. parity/on memory access,Reserved,Reserved,Sync. parity/on TTW/1st level,Reserved,Sync. parity/on TTW/2nd level,?..." endif endif group.long c15:0x0006++0x00 line.long 0x00 "DFAR,Data Fault Address Register" group.long c15:0x0206++0x00 line.long 0x00 "IFAR,Instruction Fault Address Register" if corename()=="CORTEXA57" rgroup.long c15:0x103F++0x00 line.long 0x00 "CBAR,Configuration Base Address Register" hexmask.long.word 0x00 18.--31. 1. "PERIPHBASE[31:18],Periphbase[31:18]" hexmask.long.word 0x00 0.--11. 1. "PERIPHBASE[42:32],Periphbase[42:32]" elif corename()=="CORTEXA53" rgroup.long c15:0x103F++0x00 line.long 0x00 "CBAR,Configuration Base Address Register" hexmask.long.word 0x00 18.--31. 1. "PERIPHBASE[31:18],Periphbase[31:18]" hexmask.long.byte 0x00 0.--7. 1. "PERIPHBASE[39:32],Periphbase[39:32]" endif group.long c15:0x000D++0x00 line.long 0x00 "FCSEIDR,FCSE Process ID register" group.long c15:0x020D++0x00 line.long 0x00 "TPIDRURW,PL0 Read/Write Software Thread ID Register" group.long c15:0x030D++0x00 line.long 0x00 "TPIDRURO,PL0 Read-Only Software Thread ID Register" group.long c15:0x040D++0x00 line.long 0x00 "TPIDRPRW,PL1 Software Thread ID Register" tree.end tree "Memory Management Unit" if corename()=="CORTEXA57" group.long c15:0x0001++0x0 line.long 0x0 "SCTLR,Control Register" bitfld.long 0x0 30. "TE,T32 exception enable" "A32,T32" bitfld.long 0x0 29. "AFE,Access Flag Enable" "Disabled,Enabled" newline bitfld.long 0x0 28. "TRE,TEX remap enable" "Disabled,Enabled" bitfld.long 0x0 25. "EE,Exception endianness" "Little,Big" newline bitfld.long 0x0 20. "UWXN,Unprivileged write permission implies PL1 Execute Never" "Not forced,Forced" bitfld.long 0x0 19. "WXN,Write permission implies PL1 Execute Never" "Not forced,Forced" newline bitfld.long 0x0 18. "NTWE,Not trap WFE" "No,Yes" bitfld.long 0x0 16. "NTWI,Not trap WFI" "No,Yes" newline bitfld.long 0x0 13. "V,Base Location of Exception Registers" "0x00000000,0xFFFF0000" bitfld.long 0x0 12. "I,Instruction Cache Enable" "Disabled,Enabled" newline bitfld.long 0x0 8. "SED,SETEND Disable" "No,Yes" bitfld.long 0x0 7. "ITD,IT Disable" "No,Yes" newline bitfld.long 0x0 6. "THEE,ThumbEE Disable" "No,Yes" bitfld.long 0x0 5. "CP15BEN,c15 barrier enable" "Disabled,Enabled" newline bitfld.long 0x0 2. "C,Enable unified cache or data cache" "Disabled,Enabled" bitfld.long 0x0 1. "A,Strict Alignment" "Disabled,Enabled" newline bitfld.long 0x0 0. "M,MMU or Protection Unit" "Disabled,Enabled" group.long c15:0x4001++0x0 line.long 0x00 "HSCTLR,System Control Register" bitfld.long 0x0 30. "TE,Thumb exception enable" "ARM,Thumb" bitfld.long 0x0 25. "EE,Exception endianness" "Little,Big" newline bitfld.long 0x0 21. "FI,Fast Interrupts configuration enable" "Disabled,Enabled" bitfld.long 0x0 19. "WXN,Write permission implies XN" "Not forced,Forced" newline bitfld.long 0x0 12. "I,Instruction Cache Enable" "Disabled,Enabled" bitfld.long 0x0 8. "SED,SETEND Disable" "No,Yes" newline bitfld.long 0x0 7. "ITD,IT Disable" "No,Yes" bitfld.long 0x0 5. "CP15BEN,CP15 barrier enable" "Disabled,Enabled" newline bitfld.long 0x0 2. "C,Enable unified cache or data cache" "Disabled,Enabled" bitfld.long 0x0 1. "A,Strict Alignment" "Disabled,Enabled" newline bitfld.long 0x0 0. "M,Enable address translation" "Disabled,Enabled" if (((per.l(c15:0x0202))&0x80000000)==0x00000000) // MPIDR[31]==1 case is missing here for TTBR0 and TTBR1 group.long c15:0x0002++0x00 line.long 0x00 "TTBR0,Translation Table Base Registers" hexmask.long 0x00 6.--31. 0x40 "TTB1,Translation table base address" bitfld.long 0x00 5. "NOS,Not outer shareable bit" "Outer,Inner" newline bitfld.long 0x00 3.--4. "RGN,Region" "Normal,Outer Write-Back Write-Allocate Cacheable,Outer Write-Through Cacheable,Outer Write-Back no Write-Allocate Cacheable" bitfld.long 0x00 2. "IMP,Implementation" "Low,High" newline bitfld.long 0x00 1. "S,Shareable" "Non-shareable,Shareable" bitfld.long 0x00 0. "C,Cacheable" "Non-cacheable,Cacheable" group.long c15:0x0102++0x00 line.long 0x00 "TTBR1,Translation Table Base Registers" hexmask.long 0x00 6.--31. 0x40 "TTBA,Translation table base address" bitfld.long 0x00 5. "NOS,Not outer shareable bit" "Outer,Inner" newline bitfld.long 0x00 3.--4. "RGN,Region" "Normal,Outer Write-Back Write-Allocate Cacheable,Outer Write-Through Cacheable,Outer Write-Back no Write-Allocate Cacheable" bitfld.long 0x00 2. "IMP,Implementation" "Low,High" newline bitfld.long 0x00 1. "S,Shareable" "Non-shareable,Shareable" bitfld.long 0x00 0. "C,Cacheable" "Non-cacheable,Cacheable" else group.quad c15:0x10020++0x01 line.quad 0x00 "TTBR0,Translation Table Base Registers" hexmask.quad.byte 0x00 48.--55. 1. "ASID,ASID for the translation table base address" hexmask.quad 0x00 0.--47. 1. "BADDR,Translation table base address" group.quad c15:0x11020++0x01 line.quad 0x00 "TTBR1,Translation Table Base Registers" hexmask.quad.byte 0x00 48.--55. 1. "ASID,ASID for the translation table base address" hexmask.quad 0x00 0.--47. 1. "BADDR,Translation table base address" endif if (((per.l(c15:0x0202))&0x80000000)==0x00000000) group.long c15:0x0202++0x00 line.long 0x00 "TTBCR,Translation Table Base Control Register" bitfld.long 0x00 31. "EAE,Extended Address Enable" "32-bit,40-bit" bitfld.long 0x00 5. "PD1,Translation table walk disable for translations using TTBR1" "No,Yes" newline bitfld.long 0x00 4. "PD0,Translation table walk disable for translations using TTBR0" "No,Yes" bitfld.long 0x00 0.--2. "N,Width of the base address held in TTBR0" "0,1,2,3,4,5,6,7" else group.long c15:0x0202++0x00 line.long 0x00 "TTBCR,Translation Table Base Control Register" bitfld.long 0x00 31. "EAE,Extended Address Enable" "32-bit,40-bit" bitfld.long 0x00 28.--29. "SH1,Shareability attributes for the memory associated with the translation table walks using TTBR1" "Non-Shareable,Reserved,Non-Shareable,Inner Shareable" newline bitfld.long 0x00 26.--27. "ORGN1,Outer Cacheability attributes for the memory associated with the translation table walks using TTBR1" "0,1,2,3" bitfld.long 0x00 24.--25. "IRGN1,Inner Cacheability attributes for the memory associated with the translation table walks using TTBR1" "0,1,2,3" newline bitfld.long 0x00 23. "EPD1,Translation Walk Disable for TTBR1" "No,Yes" bitfld.long 0x00 22. "A1,Select ASID from TTBR1 ASID field" "Selected,Not selected" newline bitfld.long 0x00 16.--18. "T1SZ,The Size offset of the TTBR1 addressed region" "0,1,2,3,4,5,6,7" bitfld.long 0x00 12.--13. "SH0,Shareability attributes for the memory associated with the translation table walks using TTBR0/HTTBR" "Non-Shareable,Reserved,Non-Shareable,Inner Shareable" newline bitfld.long 0x00 10.--11. "ORGN0,Outer Cacheability attributes for the memory associated with the translation table walks using TTBR0/HTTBR" "0,1,2,3" bitfld.long 0x00 8.--9. "IRGN0,Inner Cacheability attributes for the memory associated with the translation table walks using TTBR0/HTTBR" "0,1,2,3" newline bitfld.long 0x00 7. "EPD0,Translation Walk Disable for TTBR0 region" "No,Yes" bitfld.long 0x00 0.--2. "T0SZ,The Size offset of the TTBR0/HTTBR addressed region" "0,1,2,3,4,5,6,7" endif elif corename()=="CORTEXA53" group.long c15:0x0001++0x0 line.long 0x0 "SCTLR,Control Register" bitfld.long 0x0 30. "TE,T32 exception enable" "A32,T32" bitfld.long 0x0 29. "AFE,Access Flag Enable" "Disabled,Enabled" newline bitfld.long 0x0 28. "TRE,TEX remap enable" "Disabled,Enabled" bitfld.long 0x0 25. "EE,Exception endianness" "Little,Big" newline bitfld.long 0x0 20. "UWXN,Unprivileged write permission implies PL1 Execute Never" "Not forced,Forced" bitfld.long 0x0 19. "WXN,Write permission implies PL1 Execute Never" "Not forced,Forced" newline bitfld.long 0x0 18. "NTWE,Not trap WFE" "No,Yes" bitfld.long 0x0 16. "NTWI,Not trap WFI" "No,Yes" newline bitfld.long 0x0 13. "V,Base Location of Exception Registers" "0x00000000,0xFFFF0000" bitfld.long 0x0 12. "I,Instruction Cache Enable" "Disabled,Enabled" newline bitfld.long 0x0 8. "SED,SETEND Disable" "No,Yes" bitfld.long 0x0 6. "ITD,IT Disable" "No,Yes" newline bitfld.long 0x0 5. "CP15BEN,c15 barrier enable" "Disabled,Enabled" bitfld.long 0x0 2. "C,Enable unified cache or data cache" "Disabled,Enabled" newline bitfld.long 0x0 1. "A,Strict Alignment" "Disabled,Enabled" bitfld.long 0x0 0. "M,MMU or Protection Unit" "Disabled,Enabled" group.long c15:0x4001++0x0 line.long 0x00 "HSCTLR,System Control Register" bitfld.long 0x0 30. "TE,Thumb exception enable" "ARM,Thumb" bitfld.long 0x0 25. "EE,Exception endianness" "Little,Big" newline bitfld.long 0x0 21. "FI,Fast Interrupts configuration enable" "Disabled,Enabled" bitfld.long 0x0 19. "WXN,Write permission implies XN" "Not forced,Forced" newline bitfld.long 0x0 12. "I,Instruction Cache Enable" "Disabled,Enabled" bitfld.long 0x0 8. "SED,SETEND Disable" "No,Yes" newline bitfld.long 0x0 7. "ITD,IT Disable" "No,Yes" bitfld.long 0x0 5. "CP15BEN,CP15 barrier enable" "Disabled,Enabled" newline bitfld.long 0x0 2. "C,Enable unified cache or data cache" "Disabled,Enabled" bitfld.long 0x0 1. "A,Strict Alignment" "Disabled,Enabled" newline bitfld.long 0x0 0. "M,Enable address translation" "Disabled,Enabled" if (((per.l(c15:0x202))&0x80000000)==0x80000000) group.quad c15:0x10020++0x01 line.quad 0x00 "TTBR0,Translation Table Base Register 0" hexmask.quad.byte 0x00 48.--55. 1. "ASID,ASID for the translation table base address" hexmask.quad 0x00 0.--47. 1. "BADDR,Translation table base address" group.quad c15:0x11020++0x01 line.quad 0x00 "TTBR1,Translation Table Base Register 1" hexmask.quad.byte 0x00 48.--55. 1. "ASID,ASID for the translation table base address" hexmask.quad 0x00 0.--47. 1. "BADDR,Translation table base address" group.long c15:0x0202++0x00 line.long 0x00 "TTBCR,Translation Table Base Control Register" bitfld.long 0x00 31. "EAE,Extended Address Enable" "32-bit,40-bit" bitfld.long 0x00 28.--29. "SH1,Shareability attributes for the memory associated with the translation table walks using TTBR1" "Non-Shareable,Reserved,Outer Shareable,Inner Shareable" newline bitfld.long 0x00 26.--27. "ORGN1,Outer Cacheability attributes for the memory associated with the translation table walks using TTBR1" "0,1,2,3" bitfld.long 0x00 24.--25. "IRGN1,Inner Cacheability attributes for the memory associated with the translation table walks using TTBR1" "0,1,2,3" newline bitfld.long 0x00 23. "EPD1,Translation Walk Disable for TTBR1" "No,Yes" bitfld.long 0x00 22. "A1,Select ASID from TTBR1 ASID field" "Selected,Not selected" newline bitfld.long 0x00 16.--18. "T1SZ,The Size offset of the TTBR1 addressed region" "0,1,2,3,4,5,6,7" bitfld.long 0x00 12.--13. "SH0,Shareability attributes for the memory associated with the translation table walks using TTBR0/HTTBR" "Non-Shareable,Reserved,Outer Shareable,Inner Shareable" newline bitfld.long 0x00 10.--11. "ORGN0,Outer Cacheability attributes for the memory associated with the translation table walks using TTBR0/HTTBR" "0,1,2,3" bitfld.long 0x00 8.--9. "IRGN0,Inner Cacheability attributes for the memory associated with the translation table walks using TTBR0/HTTBR" "0,1,2,3" newline bitfld.long 0x00 7. "EPD0,Translation Walk Disable for TTBR0 region" "No,Yes" bitfld.long 0x00 0.--2. "T0SZ,The Size offset of the TTBR0/HTTBR addressed region" "0,1,2,3,4,5,6,7" else group.long c15:0x0002++0x00 line.long 0x00 "TTBR0,Translation Table Base Register 0" hexmask.long 0x00 7.--31. 0x80 "TTB0,Translation table base 0 address" bitfld.long 0x00 6. 0. "IRGN,Inner region bits" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" newline bitfld.long 0x00 5. "NOS,Not Outer Shareable bit" "Outer,Inner" bitfld.long 0x00 3.--4. "RGN,RGN" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" newline bitfld.long 0x00 1. "S,Shareable bit" "Non-shareable,Shareable" group.long c15:0x0102++0x00 line.long 0x00 "TTBR1,Translation Table Base Register 1" hexmask.long 0x00 7.--31. 0x80 "TTB1,Translation table base 1 address" bitfld.long 0x00 0. 6. "IRGN,Inner region bits" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" newline bitfld.long 0x00 5. "NOS,Not Outer Shareable bit" "Outer,Inner" bitfld.long 0x00 3.--4. "RGN,RGN" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable" newline bitfld.long 0x00 1. "S,Shareable bit" "Non-shareable,Shareable" group.long c15:0x0202++0x00 line.long 0x00 "TTBCR,Translation Table Base Control Register" bitfld.long 0x00 31. "EAE,Extended Address Enable" "32-bit,40-bit" bitfld.long 0x00 5. "PD1,Translation table walk disable for translations using TTBR1" "No,Yes" newline bitfld.long 0x00 4. "PD0,Translation table walk disable for translations using TTBR0" "No,Yes" bitfld.long 0x00 0.--2. "N,Width of the base address held in TTBR0" "0,1,2,3,4,5,6,7" endif endif if corename()=="CORTEXA57" group.quad c15:0x14020++0x01 line.quad 0x00 "HTTBR,Hypervisor Translation Table Base Register" hexmask.quad 0x00 0.--47. 1. "BADDR,Translation table base address" elif corename()=="CORTEXA53" group.quad c15:0x14020++0x01 line.quad 0x00 "HTTBR,Hypervisor Translation Table Base Register" endif group.long c15:0x4202++0x00 line.long 0x00 "HTCR,Hypervisor Translation Control Register" bitfld.long 0x00 12.--13. "SH0,Shareability attributes for the memory associated with the translation table walks using TTBR0/HTTBR" "Non-Shareable,Reserved,Outer Shareable,Inner Shareable" bitfld.long 0x00 10.--11. "ORGN0,Outer Cacheability attributes for the memory associated with the translation table walks using TTBR0/HTTBR" "0,1,2,3" newline bitfld.long 0x00 8.--9. "IRGN0,Inner Cacheability attributes for the memory associated with the translation table walks using TTBR0/HTTBR" "0,1,2,3" bitfld.long 0x00 0.--2. "T0SZ,The Size offset of the TTBR0/HTTBR addressed region" "0,1,2,3,4,5,6,7" group.long c15:0x0003++0x00 line.long 0x00 "DACR,Domain Access Control Register" bitfld.long 0x0 30.--31. "D15,Domain Access 15" "Denied,Client,Reserved,Manager" bitfld.long 0x0 28.--29. "D14,Domain Access 14" "Denied,Client,Reserved,Manager" newline 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" newline 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" newline 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" newline 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" newline 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" newline 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" newline 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" if (((per.l(c15:0x202))&0x80000000)==0x80000000) group.quad c15:0x10070++0x01 line.quad 0x00 "PAR,Physical Address Register" else group.long c15:0x0047++0x00 line.long 0x00 "PAR,Physical Address Register" endif tree.open "Memory Attribute Indirection Registers" group.long c15:0x403A++0x00 line.long 0x00 "HAMAIR0,Hypervisor Auxiliary Memory Attribute Indirection Register 0" group.long c15:0x413A++0x00 line.long 0x00 "HAMAIR1,Hypervisor Auxiliary Memory Attribute Indirection Register 1" group.long c15:0x002A++0x00 line.long 0x00 "MAIR0,Memory Attribute Indirection Register 0" bitfld.long 0x00 28.--31. "ATTR3H,Attribute 3 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 24.--27. "ATTR3L,Attribute 3 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" newline bitfld.long 0x00 20.--23. "ATTR2H,Attribute 2 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 16.--19. "ATTR2L,Attribute 2 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" newline bitfld.long 0x00 12.--15. "ATTR1H,Attribute 1 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 8.--11. "ATTR1L,Attribute 1 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" newline bitfld.long 0x00 4.--7. "ATTR0H,Attribute 0 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 0.--3. "ATTR0L,Attribute 0 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" group.long c15:0x012A++0x00 line.long 0x00 "MAIR1,Memory Attribute Indirection Register 1" bitfld.long 0x00 28.--31. "ATTR7H,Attribute 7 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 24.--27. "ATTR7L,Attribute 7 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" newline bitfld.long 0x00 20.--23. "ATTR6H,Attribute 6 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 16.--19. "ATTR6L,Attribute 6 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" newline bitfld.long 0x00 12.--15. "ATTR5H,Attribute 5 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 8.--11. "ATTR5L,Attribute 5 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" newline bitfld.long 0x00 4.--7. "ATTR4H,Attribute 4 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 0.--3. "ATTR4L,Attribute 4 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" group.long c15:0x003A++0x00 line.long 0x00 "AMAIR0,Auxiliary Memory Attribute Indirection Register 0" group.long c15:0x013A++0x00 line.long 0x00 "AMAIR1,Auxiliary Memory Attribute Indirection Register 1" group.long c15:0x402A++0x00 line.long 0x00 "HMAIR0,Hypervisor Memory Attribute Indirection Register 0" bitfld.long 0x00 28.--31. "ATTR3H,Attribute 3 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 24.--27. "ATTR3L,Attribute 3 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" newline bitfld.long 0x00 20.--23. "ATTR2H,Attribute 2 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 16.--19. "ATTR2L,Attribute 2 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" newline bitfld.long 0x00 12.--15. "ATTR1H,Attribute 1 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 8.--11. "ATTR1L,Attribute 1 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" newline bitfld.long 0x00 4.--7. "ATTR0H,Attribute 0 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 0.--3. "ATTR0L,Attribute 0 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" group.long c15:0x412A++0x00 line.long 0x00 "HMAIR1,Hypervisor Memory Attribute Indirection Register 1" bitfld.long 0x00 28.--31. "ATTR7H,Attribute 7 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 24.--27. "ATTR7L,Attribute 7 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" newline bitfld.long 0x00 20.--23. "ATTR6H,Attribute 6 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 16.--19. "ATTR6L,Attribute 6 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" newline bitfld.long 0x00 12.--15. "ATTR5H,Attribute 5 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 8.--11. "ATTR5L,Attribute 5 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" newline bitfld.long 0x00 4.--7. "ATTR4H,Attribute 4 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 0.--3. "ATTR4L,Attribute 4 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" if (((per.l(c15:0x202))&0x80000000)==0x00000000) group.long c15:0x002A++0x0 line.long 0x00 "PRRR,Primary Region Remap Register" bitfld.long 0x00 31. "NOS7,Outer Shareable property mapping for memory attributes" "Outer,Inner" bitfld.long 0x00 30. "NOS6,Outer Shareable property mapping for memory attributes" "Outer,Inner" newline bitfld.long 0x00 29. "NOS5,Outer Shareable property mapping for memory attributes" "Outer,Inner" bitfld.long 0x00 28. "NOS4,Outer Shareable property mapping for memory attributes" "Outer,Inner" newline bitfld.long 0x00 27. "NOS3,Outer Shareable property mapping for memory attributes" "Outer,Inner" bitfld.long 0x00 26. "NOS2,Outer Shareable property mapping for memory attributes" "Outer,Inner" newline bitfld.long 0x00 25. "NOS1,Outer Shareable property mapping for memory attributes" "Outer,Inner" bitfld.long 0x00 24. "NOS0,Outer Shareable property mapping for memory attributes" "Outer,Inner" newline 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" newline 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" newline bitfld.long 0x00 14.--15. "TR7,{TEX[0] C B} = b111 Remap" "Device-nGnRnE,Device-nGnRE,Normal,?..." bitfld.long 0x00 12.--13. "TR6,{TEX[0] C B} = b110 Remap" "Device-nGnRnE,Device-nGnRE,Normal,?..." newline bitfld.long 0x00 10.--11. "TR5,{TEX[0] C B} = b101 Remap" "Device-nGnRnE,Device-nGnRE,Normal,?..." bitfld.long 0x00 8.--9. "TR4,{TEX[0] C B} = b100 Remap" "Device-nGnRnE,Device-nGnRE,Normal,?..." newline bitfld.long 0x00 6.--7. "TR3,{TEX[0] C B} = b011 Remap" "Device-nGnRnE,Device-nGnRE,Normal,?..." bitfld.long 0x00 4.--5. "TR2,{TEX[0] C B} = b010 Remap" "Device-nGnRnE,Device-nGnRE,Normal,?..." newline bitfld.long 0x00 2.--3. "TR1,{TEX[0] C B} = b001 Remap" "Device-nGnRnE,Device-nGnRE,Normal,?..." bitfld.long 0x00 0.--1. "TR0,{TEX[0] C B} = b000 Remap" "Device-nGnRnE,Device-nGnRE,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" "Noncacheable,Write-back allocate,Write-through,Write-back no allocate" bitfld.long 0x00 28.--29. "OR6,Outer Attribute for {TEX[0] C B} = b110 Remap" "Noncacheable,Write-back allocate,Write-through,Write-back no allocate" newline bitfld.long 0x00 26.--27. "OR5,Outer Attribute for {TEX[0] C B} = b101 Remap" "Noncacheable,Write-back allocate,Write-through,Write-back no allocate" bitfld.long 0x00 24.--25. "OR4,Outer Attribute for {TEX[0] C B} = b100 Remap" "Noncacheable,Write-back allocate,Write-through,Write-back no allocate" newline bitfld.long 0x00 22.--23. "OR3,Outer Attribute for {TEX[0] C B} = b011 Remap" "Noncacheable,Write-back allocate,Write-through,Write-back no allocate" bitfld.long 0x00 20.--21. "OR2,Outer Attribute for {TEX[0] C B} = b010 Remap" "Noncacheable,Write-back allocate,Write-through,Write-back no allocate" newline bitfld.long 0x00 18.--19. "OR1,Outer Attribute for {TEX[0] C B} = b001 Remap" "Noncacheable,Write-back allocate,Write-through,Write-back no allocate" bitfld.long 0x00 16.--17. "OR0,Outer Attribute for {TEX[0] C B} = b000 Remap" "Noncacheable,Write-back allocate,Write-through,Write-back no allocate" newline bitfld.long 0x00 14.--15. "IR7,Inner attribute for {TEX[0] C B} = b111 Remap" "Noncacheable,Write-back allocate,Write-through,Write-back no allocate" bitfld.long 0x00 12.--13. "IR6,Inner attribute for {TEX[0] C B} = b110 Remap" "Noncacheable,Write-back allocate,Write-through,Write-back no allocate" newline bitfld.long 0x00 10.--11. "IR5,Inner attribute for {TEX[0] C B} = b101 Remap" "Noncacheable,Write-back allocate,Write-through,Write-back no allocate" bitfld.long 0x00 8.--9. "IR4,Inner attribute for {TEX[0] C B} = b100 Remap" "Noncacheable,Write-back allocate,Write-through,Write-back no allocate" newline bitfld.long 0x00 6.--7. "IR3,Inner attribute for {TEX[0] C B} = b011 Remap" "Noncacheable,Write-back allocate,Write-through,Write-back no allocate" bitfld.long 0x00 4.--5. "IR2,Inner attribute for {TEX[0] C B} = b010 Remap" "Noncacheable,Write-back allocate,Write-through,Write-back no allocate" newline bitfld.long 0x00 2.--3. "IR1,Inner attribute for {TEX[0] C B} = b001 Remap" "Noncacheable,Write-back allocate,Write-through,Write-back no allocate" bitfld.long 0x00 0.--1. "IR0,Inner attribute for {TEX[0] C B} = b000 Remap" "Noncacheable,Write-back allocate,Write-through,Write-back no allocate" newline endif tree.end newline if (((per.l(c15:0x202))&0x80000000)==0x00000000) group.long c15:0x10d++0x00 line.long 0x00 "CONTEXTIDR,Context ID Register" else group.long c15:0x10d++0x00 line.long 0x00 "CONTEXTIDR,Context ID Register" hexmask.long.tbyte 0x00 8.--31. 1. "PROCID,Process identifier" hexmask.long.byte 0x00 0.--7. 1. "ASID,Address space identifier" endif tree.end tree "Virtualization Extensions" group.long c15:0x4000++0x0 line.long 0x00 "VPIDR,Virtualization Processor ID Register" group.long c15:0x4500++0x00 line.long 0x00 "VMPIDR,Virtualization Multiprocessor ID Register" group.long c15:0x420D++0x00 line.long 0x00 "HTPIDR,Hypervisor Software Thread ID Register" group.long c15:0x4001++0x0 line.long 0x00 "HSCTLR,System Control Register" bitfld.long 0x0 30. "TE,Thumb exception enable" "ARM,Thumb" bitfld.long 0x0 25. "EE,Exception endianness" "Little,Big" newline bitfld.long 0x0 21. "FI,Fast Interrupts configuration enable" "Disabled,Enabled" bitfld.long 0x0 19. "WXN,Write permission implies XN" "Not forced,Forced" newline bitfld.long 0x0 12. "I,Instruction Cache Enable" "Disabled,Enabled" bitfld.long 0x0 8. "SED,SETEND Disable" "No,Yes" newline bitfld.long 0x0 7. "ITD,IT Disable" "No,Yes" bitfld.long 0x0 5. "CP15BEN,CP15 barrier enable" "Disabled,Enabled" newline bitfld.long 0x0 2. "C,Enable unified cache or data cache" "Disabled,Enabled" bitfld.long 0x0 1. "A,Strict Alignment" "Disabled,Enabled" newline bitfld.long 0x0 0. "M,Enable address translation" "Disabled,Enabled" group.long c15:0x4101++0x00 line.long 0x00 "HACTLR,Hypervisor Auxiliary Control Register" bitfld.long 0x00 6. "L2ACTLRAC,L2ACTLR write access control" "Disabled,Enabled" bitfld.long 0x00 5. "L2ECTLRAC,L2ECTLR write access control" "Disabled,Enabled" newline bitfld.long 0x00 4. "L2CTLRAC,L2CTLR write access control" "Disabled,Enabled" bitfld.long 0x00 1. "CPUECTLRAC,CPUECTLR write access control" "Disabled,Enabled" newline bitfld.long 0x00 0. "CPUACTLRAC,CPUACTLR write access control" "Disabled,Enabled" if corename()=="CORTEXA57" group.long c15:0x4011++0x00 line.long 0x00 "HCR,Hypervisor Configuration Register" bitfld.long 0x00 30. "TRVM,Trap Read of Virtual Memory controls" "Disabled,Enabled" bitfld.long 0x00 27. "TGE,Trap General Exceptions" "Disabled,Enabled" newline bitfld.long 0x00 26. "TVM,Trap Virtual Memory Controls" "Disabled,Enabled" bitfld.long 0x00 25. "TTLB,Trap TLB maintenance instructions" "Disabled,Enabled" newline bitfld.long 0x00 24. "TPU,Trap Cache maintenance instructions to point of unification" "Disabled,Enabled" bitfld.long 0x00 23. "TPC,Trap Data/Unified cache maintenance instructions to point of coherency" "Disabled,Enabled" newline bitfld.long 0x00 22. "TSW,Trap Data/Unified cache Set/Way instructions" "Disabled,Enabled" bitfld.long 0x00 21. "TAC,Trap Auxiliary Control Register Accesses" "Disabled,Enabled" newline bitfld.long 0x00 20. "TIDCP,Trap Lockdown" "Disabled,Enabled" bitfld.long 0x00 19. "TSC,Trap SMC" "Disabled,Enabled" newline bitfld.long 0x00 18. "TID3,Trap ID Group 3" "Disabled,Enabled" bitfld.long 0x00 17. "TID2,Trap ID Group 2" "Disabled,Enabled" newline bitfld.long 0x00 16. "TID1,Trap ID Group 1" "Disabled,Enabled" bitfld.long 0x00 15. "TID0,Trap ID Group 0" "Disabled,Enabled" newline bitfld.long 0x00 14. "TWE,Trap WFE" "Disabled,Enabled" bitfld.long 0x00 13. "TWI,Trap WFI" "Disabled,Enabled" newline bitfld.long 0x00 12. "DC,Default Cacheable" "Disabled,Enabled" bitfld.long 0x00 10.--11. "BSU,Barrier Shareability Upgrade" "0,1,2,3" newline bitfld.long 0x00 9. "FB,Force Broadcast of TLB maintenance BPIALL and ICIALLU instructions" "Disabled,Enabled" bitfld.long 0x00 8. "VA,Virtual External Asynchronous Abort" "Not aborted,Aborted" newline bitfld.long 0x00 7. "VI,Virtual IRQ interrupt" "No interrupt,Interrupt" bitfld.long 0x00 6. "VF,Virtual FIQ interrupt" "No interrupt,Interrupt" newline bitfld.long 0x00 5. "AMO,A-bit Mask Override" "Not routed,Routed" bitfld.long 0x00 4. "IMO,I-bit Mask Override" "Not routed,Routed" newline bitfld.long 0x00 3. "FMO,F-bit Mask Override" "Not routed,Routed" bitfld.long 0x00 2. "PTW,Protected Table Walk" "Disabled,Enabled" newline bitfld.long 0x00 1. "SWIO,Set/Way Invalidation Override" "No override,Override" bitfld.long 0x00 0. "VM,Second Stage of Translation Enable" "Disabled,Enabled" elif corename()=="CORTEXA53" group.long c15:0x4011++0x00 line.long 0x00 "HCR,Hypervisor Configuration Register" bitfld.long 0x00 30. "TRVM,Trap Read of Virtual Memory controls" "Disabled,Enabled" bitfld.long 0x00 29. "HCD,Hypervisor Call Disable" "No,Yes" newline bitfld.long 0x00 27. "TGE,Trap General Exceptions" "Disabled,Enabled" bitfld.long 0x00 26. "TVM,Trap Virtual Memory Controls" "Disabled,Enabled" newline bitfld.long 0x00 25. "TTLB,Trap TLB maintenance instructions" "Disabled,Enabled" bitfld.long 0x00 24. "TPU,Trap Cache maintenance instructions to point of unification" "Disabled,Enabled" newline bitfld.long 0x00 23. "TPC,Trap Data/Unified cache maintenance instructions to point of coherency" "Disabled,Enabled" bitfld.long 0x00 22. "TSW,Trap Data/Unified cache Set/Way instructions" "Disabled,Enabled" newline bitfld.long 0x00 21. "TAC,Trap Auxiliary Control Register Accesses" "Disabled,Enabled" bitfld.long 0x00 20. "TIDCP,Trap Lockdown" "Disabled,Enabled" newline bitfld.long 0x00 19. "TSC,Trap SMC" "Disabled,Enabled" bitfld.long 0x00 18. "TID3,Trap ID Group 3" "Disabled,Enabled" newline bitfld.long 0x00 17. "TID2,Trap ID Group 2" "Disabled,Enabled" bitfld.long 0x00 16. "TID1,Trap ID Group 1" "Disabled,Enabled" newline bitfld.long 0x00 15. "TID0,Trap ID Group 0" "Disabled,Enabled" bitfld.long 0x00 14. "TWE,Trap WFE" "Disabled,Enabled" newline bitfld.long 0x00 13. "TWI,Trap WFI" "Disabled,Enabled" bitfld.long 0x00 12. "DC,Default Cacheable" "Disabled,Enabled" newline bitfld.long 0x00 10.--11. "BSU,Barrier Shareability Upgrade" "0,1,2,3" bitfld.long 0x00 9. "FB,Force Broadcast of TLB maintenance BPIALL and ICIALLU instructions" "Disabled,Enabled" newline bitfld.long 0x00 8. "VA,Virtual External Asynchronous Abort" "No aborted,Aborted" bitfld.long 0x00 7. "VI,Virtual IRQ interrupt" "No interrupt,Interrupt" newline bitfld.long 0x00 6. "VF,Virtual FIQ interrupt" "No interrupt,Interrupt" bitfld.long 0x00 5. "AMO,A-bit Mask Override" "No override,Override" newline bitfld.long 0x00 4. "IMO,I-bit Mask Override" "No override,Override" bitfld.long 0x00 3. "FMO,F-bit Mask Override" "No override,Override" newline bitfld.long 0x00 2. "PTW,Protected Table Walk" "Disabled,Enabled" bitfld.long 0x00 1. "SWIO,Set/Way Invalidation Override" "No override,Override" newline bitfld.long 0x00 0. "VM,Second Stage of Translation Enable" "Disabled,Enabled" endif group.long c15:0x4411++0x00 line.long 0x00 "HCR2,Hypervisor Configuration Register 2" bitfld.long 0x00 1. "ID,Stage 2 Instruction cache disable" "No,Yes" bitfld.long 0x00 0. "CD,Stage 2 Data cache disable" "No,Yes" group.long c15:0x4111++0x00 line.long 0x00 "HDCR,Hypervisor Debug Control Register" bitfld.long 0x00 11. "TDRA,Trap Debug ROM Access" "No effect,Valid" bitfld.long 0x00 10. "TDOSA,Trap Debug OS-related register Access" "No effect,Valid" newline bitfld.long 0x00 9. "TDA,Trap Debug Access" "No effect,Valid" bitfld.long 0x00 8. "TDE,Trap Debug Exceptions" "No effect,Valid" newline bitfld.long 0x00 7. "HPME,Hypervisor Performance Monitors Enable" "Disabled,Enabled" bitfld.long 0x00 6. "TPM,Trap Performance Monitors accesses" "No effect,Valid" newline bitfld.long 0x00 5. "TPMCR,Trap Performance Monitor Control Register accesses" "No effect,Valid" bitfld.long 0x00 0.--4. "HPMN,Defines the number of Performance Monitors counters" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" group.long c15:0x4211++0x00 line.long 0x00 "HCPTR,Hypervisor Architectural Feature Trap Register" bitfld.long 0x0 31. "TCPAC,Trap Coprocessor Access Control" "Not trapped,Trapped" bitfld.long 0x0 20. "TTA,Trap Trace Access" "Not trapped,?..." newline bitfld.long 0x0 15. "TASE,Trap Advanced SIMD extensions" "Not trapped,Trapped" bitfld.long 0x0 11. "TCP11,Trap coprocessor 11" "Not trapped,Trapped" newline bitfld.long 0x0 10. "TCP10,Trap coprocessor 10" "Not trapped,Trapped" group.long c15:0x4311++0x00 line.long 0x00 "HSTR,Hypervisor System Trap Register" bitfld.long 0x00 16. "TTEE,Trap ThumbEE" "Disabled,Enabled" bitfld.long 0x00 15. "T15,Trap to Hypervisor mode Non-secure priv 15" "Reserved,?..." newline hexmask.long.word 0x00 5.--13. 1. "T4_15,Trap to Hypervisor mode Non-secure priv 5 - 13" bitfld.long 0x00 0.--3. "T0_13,Trap to Hypervisor mode Non-secure priv 0 - 3," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" group.long c15:0x4711++0x00 line.long 0x00 "HACR,Hypervisor Auxiliary Configuration Register" if corename()=="CORTEXA57" group.quad c15:0x14020++0x01 line.quad 0x00 "HTTBR,Hypervisor Translation Table Base Register" hexmask.quad 0x00 0.--47. 1. "BADDR,Translation table base address" elif corename()=="CORTEXA53" group.quad c15:0x14020++0x01 line.quad 0x00 "HTTBR,Hypervisor Translation Table Base Register" endif group.long c15:0x4202++0x00 line.long 0x00 "HTCR,Hypervisor Translation Control Register" bitfld.long 0x00 12.--13. "SH0,Shareability attributes for the memory associated with the translation table walks using TTBR0/HTTBR" "Non-Shareable,Reserved,Outer Shareable,Inner Shareable" bitfld.long 0x00 10.--11. "ORGN0,Outer Cacheability attributes for the memory associated with the translation table walks using TTBR0/HTTBR" "0,1,2,3" newline bitfld.long 0x00 8.--9. "IRGN0,Inner Cacheability attributes for the memory associated with the translation table walks using TTBR0/HTTBR" "0,1,2,3" bitfld.long 0x00 0.--2. "T0SZ,The Size offset of the TTBR0/HTTBR addressed region" "0,1,2,3,4,5,6,7" group.quad c15:0x16020++0x01 line.quad 0x00 "VTTBR,Virtualization Translation Table Base Register" group.long c15:0x4212++0x00 line.long 0x00 "VTCR,Virtualization Translation Control Register" bitfld.long 0x00 12.--13. "SH0,Shareability attributes for the memory associated with the translation table walks using VTTBR" "0,1,2,3" bitfld.long 0x00 10.--11. "ORGN0,Outer Cacheability attributes for the memory associated with the translation table walks using VTTBR" "0,1,2,3" newline bitfld.long 0x00 8.--9. "IRGN0,Inner Cacheability attributes for the memory associated with the translation table walks VTTBR" "0,1,2,3" bitfld.long 0x00 6.--7. "SL0,Starting Level for VTCR addressed region" "0,1,2,3" newline bitfld.long 0x00 4. "S,Sign-extension of the T0SZ field" "Low,High" bitfld.long 0x00 0.--3. "T0SZ,The Size offset of the VTCR addressed region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" group.long c15:0x4015++0x00 line.long 0x00 "HADFSR,Hypervisor Auxiliary Data Fault Status Syndrome Register" group.long c15:0x4115++0x00 line.long 0x00 "HAIFSR,Hypervisor Auxiliary Instruction Fault Status Syndrome Register" group.long c15:0x4006++0x00 line.long 0x00 "HDFAR,Hypervisor Data Fault Address Register" group.long c15:0x4025++0x00 line.long 0x00 "HSR,Hypervisor Syndrome Register" bitfld.long 0x00 26.--31. "EC,Exception class" "Unknown reason,Trapped WFI/WFE,Reserved,Trapped MCR/MRC to c15,Trapped MCRR/MRRC to c15,Trapped MCR/MRC to CP14,Trapped LDC/STC to CP14,Trapped Coprocessor Usage,Trapped MRC,Trapped Jazelle instruction,Trapped BXJ,Reserved,Trapped MRRC,Reserved,Reserved,Reserved,Reserved,SVC,HVC,Trapped SMC,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Entry into Hypervisor mode Instruction Abort,Executing within Hypervisor mode Instruction Abort,Reserved,Reserved,Entry into Hypervisor mode Data Abort,Executing within Hypervisor mode Data Abort,?..." bitfld.long 0x00 25. "IL,Instruction length" "16-bit,32-bit" newline hexmask.long 0x00 0.--24. 1. "ISS,Instruction specific syndrome" group.long c15:0x4206++0x00 line.long 0x00 "HIFAR,Hypervisor Instruction Fault Address Register" group.long c15:0x4406++0x00 line.long 0x00 "HPFAR,Hypervisor IPA Fault Address Register" hexmask.long 0x00 4.--31. 1. "FIPA[39:12],Bits [39:12] of the faulting intermediate physical address" tree.open "Hypervisor Memory Attribute Indirection Registers" group.long c15:0x402A++0x00 line.long 0x00 "HMAIR0,Hypervisor Memory Attribute Indirection Register 0" bitfld.long 0x00 28.--31. "ATTR3H,Attribute 3 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 24.--27. "ATTR3L,Attribute 3 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" newline bitfld.long 0x00 20.--23. "ATTR2H,Attribute 2 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 16.--19. "ATTR2L,Attribute 2 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" newline bitfld.long 0x00 12.--15. "ATTR1H,Attribute 1 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 8.--11. "ATTR1L,Attribute 1 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" newline bitfld.long 0x00 4.--7. "ATTR0H,Attribute 0 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 0.--3. "ATTR0L,Attribute 0 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" group.long c15:0x412A++0x00 line.long 0x00 "HMAIR1,Hypervisor Memory Attribute Indirection Register 1" bitfld.long 0x00 28.--31. "ATTR7H,Attribute 7 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 24.--27. "ATTR7L,Attribute 7 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" newline bitfld.long 0x00 20.--23. "ATTR6H,Attribute 6 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 16.--19. "ATTR6L,Attribute 6 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" newline bitfld.long 0x00 12.--15. "ATTR5H,Attribute 5 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 8.--11. "ATTR5L,Attribute 5 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" newline bitfld.long 0x00 4.--7. "ATTR4H,Attribute 4 High" "Device memory,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Write-through transient,Normal Memory/Outer Non-Cacheable,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-back transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-through non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient,Normal Memory/Outer Write-back non-transient" bitfld.long 0x00 0.--3. "ATTR4L,Attribute 4 Low (Device mem/Normal mem)" "Device-nGnRnE/---,---/Inner Write-through transient,---/Inner Write-through transient,---/Inner Write-through transient,Device-nGnRE/Inner Non-Cacheable,---/Inner Write-back transient,---/Inner Write-back transient,---/Inner Write-back transient,Device-nGRE memory/Inner Write-through,---/Inner Write-through non-transient,---/Inner Write-through non-transient,---/Inner Write-through non-transient,Device-GRE memory/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient,---/Inner Write-back non-transient" group.long c15:0x403A++0x00 line.long 0x00 "HAMAIR0,Hypervisor Auxiliary Memory Attribute Indirection Register 0" group.long c15:0x413A++0x00 line.long 0x00 "HAMAIR1,Hypervisor Auxiliary Memory Attribute Indirection Register 1" tree.end newline group.long c15:0x400C++0x00 line.long 0x00 "HVBAR,Hypervisor Vector Base Address Register" hexmask.long 0x00 5.--31. 0x20 "HVBADDR,Hypervisor Vector Base Address" tree.end tree "Cache Control and Configuration" rgroup.long c15:0x0100++0x0 line.long 0x0 "CTR,Cache Type Register" bitfld.long 0x0 24.--27. "CWG,Cache writeback granule size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." bitfld.long 0x0 20.--23. "ERG,Exclusives reservation granule size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." newline bitfld.long 0x0 16.--19. "DMINLINE,Smallest data cache line size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." bitfld.long 0x0 14.--15. "L1POLICY,L1 Instruction cache policy" "Reserved,Reserved,VIPT,PIPT" newline bitfld.long 0x0 0.--3. "IMINLINE,I-Cache Minimum Line Size" "Reserved,Reserved,Reserved,Reserved,16 words,?..." if corename()=="CORTEXA57" rgroup.long c15:0x1100++0x0 line.long 0x0 "CLIDR,Cache Level ID Register" bitfld.long 0x00 27.--29. "LOUU,Level of Unification Uniprocessor" "Reserved,Level 1,?..." bitfld.long 0x00 24.--26. "LOC,Level of Coherency" "Reserved,Reserved,Level 3,?..." bitfld.long 0x00 21.--23. "LOUIS,Level of Unification Inner Shareable" "Reserved,Level 2,?..." newline bitfld.long 0x00 18.--20. "CTYPE7,Cache type for levels 7" "No cache,?..." bitfld.long 0x00 15.--17. "CTYPE6,Cache type for levels 6" "No cache,?..." bitfld.long 0x00 12.--14. "CTYPE5,Cache type for levels 5" "No cache,?..." newline bitfld.long 0x00 9.--11. "CTYPE4,Cache type for levels 4" "No cache,?..." bitfld.long 0x00 6.--8. "CTYPE3,Cache type for levels 3" "No cache,?..." bitfld.long 0x00 3.--5. "CTYPE2,Cache type for levels 2" "Reserved,Reserved,Reserved,Reserved,Unified,?..." newline bitfld.long 0x00 0.--2. "CTYPE1,Cache type for levels 1" "Reserved,Reserved,Reserved,Separate Inst/Data,?..." elif corename()=="CORTEXA53" rgroup.long c15:0x1100++0x0 line.long 0x0 "CLIDR,Cache Level ID Register" bitfld.long 0x00 30.--31. "ICB,Inner cache boundary" "Not disclosed,?..." bitfld.long 0x00 27.--29. "LOUU,Level of Unification Uniprocessor" "Reserved,Level 1,?..." bitfld.long 0x00 24.--26. "LOC,Level of Coherency" "Reserved,L1,L1/L2,?..." newline bitfld.long 0x00 21.--23. "LOUIS,Level of Unification Inner Shareable" "Reserved,Level 1,?..." bitfld.long 0x00 6.--8. "CTYPE3,Cache type for levels 3" "No cache,?..." bitfld.long 0x00 3.--5. "CTYPE2,Cache type for levels 2" "No cache,Reserved,Reserved,Reserved,Unified,?..." newline bitfld.long 0x00 0.--2. "CTYPE1,Cache type for levels 1" "Reserved,Reserved,Reserved,Separate Inst/Data,?..." endif rgroup.long c15:0x1700++0x0 line.long 0x00 "AIDR,Auxiliary ID Register" 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" newline bitfld.long 0x00 29. "RA,Read-Allocate" "Not Supported,Supported" bitfld.long 0x00 28. "WA,Write-Allocate" "Not Supported,Supported" newline hexmask.long.word 0x00 13.--27. 1. "SETS,Number of Sets" hexmask.long.word 0x00 3.--12. 1. "ASSOC,Associativity" newline bitfld.long 0x00 0.--2. "LSIZE,Line Size" "16 bytes,32 bytes,64 bytes,128 bytes,?..." group.long c15:0x2000++0x0 line.long 0x0 "CSSELR,Cache Size Selection Register" bitfld.long 0x00 1.--3. "LEVEL,Cache level of required cache" "Level 1,Level 2,?..." bitfld.long 0x00 0. "IND,Instruction/Not Data" "Data/Unified,Instruction" tree "Level 1 memory system" if corename()=="CORTEXA57" group.long c15:0x001F++0x00 line.long 0x00 "DL1DATA0,Data L1 Data 0 Register" group.long c15:0x011F++0x00 line.long 0x00 "DL1DATA1,Data L1 Data 1 Register" group.long c15:0x021F++0x00 line.long 0x00 "DL1DATA2,Data L1 Data 2 Register" group.long c15:0x031F++0x00 line.long 0x00 "DL1DATA3,Data L1 Data 3 Register" group.long c15:0x000F++0x00 line.long 0x00 "IL1DATA0,Instruction L1 Data 0 Register" group.long c15:0x010F++0x00 line.long 0x00 "IL1DATA1,Instruction L1 Data 1 Register" group.long c15:0x020F++0x00 line.long 0x00 "IL1DATA2,Instruction L1 Data 2 Register" group.long c15:0x030F++0x00 line.long 0x00 "IL1DATA3,Instruction L1 Data 3 Register" wgroup.long c15:0x04F++0x00 line.long 0x00 "RAMINDEX,RAM Index Operation Register" elif corename()=="CORTEXA53" rgroup.long c15:0x300F++0x00 line.long 0x00 "CDBGDR0,Cache Debug Data Register 0" rgroup.long c15:0x310F++0x00 line.long 0x00 "CDBGDR1,Cache Debug Data Register 1" rgroup.long c15:0x320F++0x00 line.long 0x00 "CDBGDR2,Cache Debug Data Register 2" rgroup.long c15:0x330F++0x00 line.long 0x00 "CDBGDR3,Cache Debug Data Register 3" wgroup.long c15:0x302F++0x00 line.long 0x00 "CDBGDCT,Cache Debug Data Cache Tag Read Operation Register" wgroup.long c15:0x312F++0x00 line.long 0x00 "CDBGICT,Cache Debug Instruction Cache Tag Read Operation Register" wgroup.long c15:0x304F++0x00 line.long 0x00 "CDBGDCD,Cache Debug Cache Debug Data Cache Data Read Operation Register" wgroup.long c15:0x314F++0x00 line.long 0x00 "CDBGICD,Cache Debug Instruction Cache Data Read Operation Register" wgroup.long c15:0x324F++0x00 line.long 0x00 "CDBGTD,Cache Debug TLB Data Read Operation Register" endif tree.end tree "Level 2 memory system" if corename()=="CORTEXA57" group.long c15:0x1209++0x0 line.long 0x00 "L2CTLR,L2 Control Register" bitfld.long 0x00 31. "L2RSTDM,L2RSTDISABLE monitor" "No,Yes" bitfld.long 0x00 24.--25. "NCPU, Number of CPU" "1,2,3,4" newline rbitfld.long 0x00 22. "CPUCP,CPU Cache Protection" "Not supported,Supported" bitfld.long 0x00 21. "SCUL2CP,SCU-L2 Cache Protection" "Disabled,Enabled" newline bitfld.long 0x00 20. "DIECCE,Data in-line ECC enable" "Disabled,Enabled" rbitfld.long 0x00 13. "L2AS,L2 arbitration slice" "Not present,Present" newline rbitfld.long 0x00 12. "L2TRAMS,L2 Tag RAM slice" "Not present,Present" rbitfld.long 0x00 10.--11. "L2DRAMS,L2 Data RAM slice" "Not present,1,2,Present" newline bitfld.long 0x00 9. "L2TRAMS,L2 Tag RAM setup" "0 cycle,1 cycle" bitfld.long 0x00 6.--8. "L2TRAML,L2 Tag RAM latency" "2 cycles,2 cycles,3 cycles,4 cycles,5 cycles,5 cycles,5 cycles,5 cycles" newline rbitfld.long 0x00 5. "DRAMIL,L2 data RAM input latency" "0 cycle,1 cycle" bitfld.long 0x00 0.--2. "DRAML,L2 data RAM latency" "2 cycles,2 cycles,3 cycles,4 cycles,5 cycles,6 cycles,7 cycles,8 cycles" group.long c15:0x1309++0x0 line.long 0x00 "L2ECTLR,L2 Extended Control Register" bitfld.long 0x00 30. "L2INTASYNCERR,L2 internal asynchronous error" "No error,Error" bitfld.long 0x00 29. "AXIASYNCERR,AXI asynchronous error" "No error,Error" newline bitfld.long 0x00 0.--2. "L2DRC,L2 dynamic retention control" "Disabled,2 ticks,8 ticks,32 ticks,64 ticks,128 ticks,256 ticks,512 ticks" group.long c15:0x100F++0x00 line.long 0x00 "L2ACTLR,L2 Auxiliary Control Register" bitfld.long 0x00 28. "FL2TBCEA,Force L2 tag bank clock enable active" "Disabled,Enabled" bitfld.long 0x00 27. "FL2LCEA,Force L2 logic clock enable active" "Disabled,Enabled" newline bitfld.long 0x00 26. "FL2GICRCGEA,Forces L2, GIC CPU interface, and Timer Regional Clock Gate(RCG) enables active" "Not forced,Forced" bitfld.long 0x00 25. "ESIAA,Enables single issue across all tag banks when the L2 arbitration replay threshold is reached" "Disabled,Enabled" newline bitfld.long 0x00 23. "DPRFRUT,Disables prefetch requests from ReadUnique transactions" "No,Yes" bitfld.long 0x00 22. "DDTLSPR,Disable dynamic throttling of load/store prefetch requests" "No,Yes" newline bitfld.long 0x00 20.--21. "DTL2PRFEQOC,Disable throttling of L2 prefetch requests based on Fill/Evict Queue(FEQ) occupancy count" "12,10,8,Disabled" bitfld.long 0x00 18.--19. "DLASQ,Disable limit on NC/SO/Dev stores in Address Sequence Queue" "12 entries,10 entries,8 entries,No limit" newline bitfld.long 0x00 17. "DL2RRA,Disable L2 round-robin arbitration that only clocks through paths with an active requestor waiting to be arbitrated" "No,Yes" bitfld.long 0x00 16. "ERTSI,Enable replay threshold single issue" "Disabled,Enabled" newline bitfld.long 0x00 15. "DFFD,Disable fast forwarding of data from ACE or CHI to LS and IF" "No,Yes" bitfld.long 0x00 14. "EUCE,Enables UniqueClean evictions with data" "Disabled,Enabled" newline bitfld.long 0x00 13. "DCEO,Disable clean evict optimization" "No,Yes" bitfld.long 0x00 11. "DDSB,Disable DSB with no DVM synchronization" "No,Yes" newline bitfld.long 0x00 10. "DNSDAR,Disable Non-secure debug array read" "No,Yes" bitfld.long 0x00 8. "DDVMCMOMB,Disable DVM and cache maintenance operation message broadcast" "No,Yes" newline bitfld.long 0x00 7. "EHDT,Enable hazard detect timeout" "Disabled,Enabled" bitfld.long 0x00 6. "DACESCHIST,Disable ACE shareable or CHI snoopable transactions from master" "No,Yes" newline bitfld.long 0x00 4. "DWUWLUTFM,Disable WriteUnique and WriteLineUnique transactions from master" "Disabled,Enabled" bitfld.long 0x00 3. "DCEPTE,Disables clean/evict push to external" "No,Yes" newline bitfld.long 0x00 2. "LTORPTB,Limit to one request per tag bank" "Normal,Limited" bitfld.long 0x00 1. "EARTT,Enable arbitration replay threshold timeout" "Disabled,Enabled" newline bitfld.long 0x00 0. "DHPF,Disable hardware prefetch forwarding" "No,Yes" group.quad c15:0x130F0++0x01 line.quad 0x00 "L2MERRSR,L2 Memory Error Syndrome Register" bitfld.quad 0x00 63. "FATAL,Fatal bit" "0,1" hexmask.quad.byte 0x00 40.--47. 1. "OEC,Other error count" newline hexmask.quad.byte 0x00 32.--39. 1. "REC,Repeat error count" bitfld.quad 0x00 31. "VALID,Valid bit" "Not valid,Valid" newline hexmask.quad.byte 0x00 24.--30. 1. "RAMID,RAM Identifier" bitfld.quad 0x00 18.--21. "C/W,CPUID/Way" "CPU0 tag way 0,CPU0 tag way 1,CPU1 tag way 0,CPU1 tag way 1,CPU2 tag way 0,CPU2 tag way 1,CPU3 tag way 0,CPU3 tag way 1,?..." newline hexmask.quad.tbyte 0x00 0.--17. 1. "IND,Index" elif corename()=="CORTEXA53" group.long c15:0x1209++0x0 line.long 0x00 "L2CTLR,L2 Control Register" bitfld.long 0x00 24.--25. "NCPU, Number of CPU" "1,2,3,4" bitfld.long 0x00 22. "CPUCP,CPU Cache Protection" "Disabled,Enabled" newline rbitfld.long 0x00 21. "SCUL2CP,SCU-L2 Cache Protection" "Disabled,Enabled" rbitfld.long 0x00 5. "DRAMIL,L2 data RAM input latency" "1 cycle,2 cycle" newline rbitfld.long 0x00 0. "DRAMOL,L2 data RAM output latency" "2 cycles,3 cycles" group.long c15:0x1309++0x0 line.long 0x00 "L2ECTLR,L2 Extended Control Register" bitfld.long 0x00 30. "L2INTASYNCERR,L2 internal asynchronous error" "No error,Error" bitfld.long 0x00 29. "AXIASYNCERR,AXI asynchronous error" "No error,Error" newline bitfld.long 0x00 0.--2. "L2DRC,L2 dynamic retention control" "Disabled,2 ticks,8 ticks,32 ticks,64 ticks,128 ticks,256 ticks,512 ticks" group.long c15:0x100F++0x00 line.long 0x00 "L2ACTLR,L2 Auxiliary Control Register" bitfld.long 0x00 30.--31. "L2VC,L2 victim Control" "0,1,2,3" bitfld.long 0x00 14. "EUCE,Enables UniqueClean evictions with data" "Disabled,Enabled" newline bitfld.long 0x00 3. "DCEPTE,Disables clean/evict push to external" "No,Yes" group.quad c15:0x110F0++0x01 line.quad 0x00 "L2MERRSR,L2 Memory Error Syndrome Register" bitfld.quad 0x00 63. "FATAL,Fatal bit" "0,1" hexmask.quad.byte 0x00 40.--47. 1. "OEC,Other error count" newline hexmask.quad.byte 0x00 32.--39. 1. "REC,Repeat error count" bitfld.quad 0x00 31. "VALID,Valid bit" "Not valid,Valid" newline hexmask.quad.byte 0x00 24.--30. 1. "RAMID,RAM Identifier" bitfld.quad 0x00 18.--21. "C/W,CPUID/Way" "CPU0 tag way 0,CPU0 tag way 1,CPU1 tag way 0,CPU1 tag way 1,CPU2 tag way 0,CPU2 tag way 1,CPU3 tag way 0,CPU3 tag way 1,?..." newline hexmask.quad.word 0x00 3.--16. 1. "RAD,RAM index address" endif tree.end tree.end tree "System Performance Monitor" group.long c15:0xc9++0x00 line.long 0x0 "PMCR,Performance Monitor Control Register" hexmask.long.byte 0x00 24.--31. 1. "IMP,Implementer code" hexmask.long.byte 0x00 16.--23. 1. "IDCODE,Identification code" rbitfld.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 6. "LC,Long cycle count enable" "Disabled,Enabled" newline bitfld.long 0x00 5. "DP,Disable CCNT when prohibited" "No,Yes" bitfld.long 0x00 4. "X,Export Enable" "Disabled,Enabled" bitfld.long 0x00 3. "D,Clock Divider" "Every cycle,64th cycle" bitfld.long 0x00 2. "C,Clock Counter Reset" "No reset,Reset" newline bitfld.long 0x00 1. "P,Performance Counter Reset" "No reset,Reset" bitfld.long 0x00 0. "E,All Counters Enable" "Disabled,Enabled" newline group.long c15:0x1c9++0x00 line.long 0x00 "PMNCNTENSET,Count Enable Set Register " bitfld.long 0x00 31. "C,PMCCNTR enable" "Disabled,Enabled" bitfld.long 0x00 30. "P30,Event Counter 30 enable bit" "Disabled,Enabled" bitfld.long 0x00 29. "P29,Event Counter 29 enable bit" "Disabled,Enabled" bitfld.long 0x00 28. "P28,Event Counter 28 enable bit" "Disabled,Enabled" bitfld.long 0x00 27. "P27,Event Counter 27 enable bit" "Disabled,Enabled" newline bitfld.long 0x00 26. "P26,Event Counter 26 enable bit" "Disabled,Enabled" bitfld.long 0x00 25. "P25,Event Counter 25 enable bit" "Disabled,Enabled" bitfld.long 0x00 24. "P24,Event Counter 24 enable bit" "Disabled,Enabled" bitfld.long 0x00 23. "P23,Event Counter 23 enable bit" "Disabled,Enabled" bitfld.long 0x00 22. "P22,Event Counter 22 enable bit" "Disabled,Enabled" newline bitfld.long 0x00 21. "P21,Event Counter 21 enable bit" "Disabled,Enabled" bitfld.long 0x00 20. "P20,Event Counter 20 enable bit" "Disabled,Enabled" bitfld.long 0x00 19. "P19,Event Counter 19 enable bit" "Disabled,Enabled" bitfld.long 0x00 18. "P18,Event Counter 18 enable bit" "Disabled,Enabled" bitfld.long 0x00 17. "P17,Event Counter 17 enable bit" "Disabled,Enabled" newline bitfld.long 0x00 16. "P16,Event Counter 16 enable bit" "Disabled,Enabled" bitfld.long 0x00 15. "P15,Event Counter 15 enable bit" "Disabled,Enabled" bitfld.long 0x00 14. "P14,Event Counter 14 enable bit" "Disabled,Enabled" bitfld.long 0x00 13. "P13,Event Counter 13 enable bit" "Disabled,Enabled" bitfld.long 0x00 12. "P12,Event Counter 12 enable bit" "Disabled,Enabled" newline bitfld.long 0x00 11. "P11,Event Counter 11 enable bit" "Disabled,Enabled" bitfld.long 0x00 10. "P10,Event Counter 10 enable bit" "Disabled,Enabled" bitfld.long 0x00 9. "P9,Event Counter 9 enable bit" "Disabled,Enabled" bitfld.long 0x00 8. "P8,Event Counter 8 enable bit" "Disabled,Enabled" bitfld.long 0x00 7. "P7,Event Counter 7 enable bit" "Disabled,Enabled" newline bitfld.long 0x00 6. "P6,Event Counter 6 enable bit" "Disabled,Enabled" bitfld.long 0x00 5. "P5,Event Counter 5 enable bit" "Disabled,Enabled" bitfld.long 0x00 4. "P4,Event Counter 4 enable bit" "Disabled,Enabled" bitfld.long 0x00 3. "P3,Event Counter 3 enable bit" "Disabled,Enabled" bitfld.long 0x00 2. "P2,Event Counter 2 enable bit" "Disabled,Enabled" newline bitfld.long 0x00 1. "P1,Event Counter 1 enable bit" "Disabled,Enabled" bitfld.long 0x00 0. "P0,Event Counter 0 enable bit" "Disabled,Enabled" group.long c15:0x2c9++0x00 line.long 0x00 "PMCNTENCLR,Count Enable Clear Register" eventfld.long 0x00 31. "C,PMCCNTR enable" "Disabled,Enabled" eventfld.long 0x00 30. "P30,Event Counter 30 clear bit" "Disabled,Enabled" eventfld.long 0x00 29. "P29,Event Counter 29 clear bit " "Disabled,Enabled" eventfld.long 0x00 28. "P28,Event Counter 28 clear bit " "Disabled,Enabled" eventfld.long 0x00 27. "P27,Event Counter 27 clear bit " "Disabled,Enabled" newline eventfld.long 0x00 26. "P26,Event Counter 26 clear bit " "Disabled,Enabled" eventfld.long 0x00 25. "P25,Event Counter 25 clear bit " "Disabled,Enabled" eventfld.long 0x00 24. "P24,Event Counter 24 clear bit " "Disabled,Enabled" eventfld.long 0x00 23. "P23,Event Counter 23 clear bit " "Disabled,Enabled" eventfld.long 0x00 22. "P22,Event Counter 22 clear bit " "Disabled,Enabled" newline eventfld.long 0x00 21. "P21,Event Counter 21 clear bit " "Disabled,Enabled" eventfld.long 0x00 20. "P20,Event Counter 20 clear bit " "Disabled,Enabled" eventfld.long 0x00 19. "P19,Event Counter 19 clear bit " "Disabled,Enabled" eventfld.long 0x00 18. "P18,Event Counter 18 clear bit " "Disabled,Enabled" eventfld.long 0x00 17. "P17,Event Counter 17 clear bit " "Disabled,Enabled" newline eventfld.long 0x00 16. "P16,Event Counter 16 clear bit " "Disabled,Enabled" eventfld.long 0x00 15. "P15,Event Counter 15 clear bit" "Disabled,Enabled" eventfld.long 0x00 14. "P14,Event Counter 14 clear bit" "Disabled,Enabled" eventfld.long 0x00 13. "P13,Event Counter 13 clear bit" "Disabled,Enabled" eventfld.long 0x00 12. "P12,Event Counter 12 clear bit" "Disabled,Enabled" newline eventfld.long 0x00 11. "P11,Event Counter 11 clear bit" "Disabled,Enabled" eventfld.long 0x00 10. "P10,Event Counter 10 clear bit" "Disabled,Enabled" eventfld.long 0x00 9. "P9,Event Counter 9 clear bit" "Disabled,Enabled" eventfld.long 0x00 8. "P8,Event Counter 8 clear bit" "Disabled,Enabled" eventfld.long 0x00 7. "P7,Event Counter 7 clear bit" "Disabled,Enabled" newline eventfld.long 0x00 6. "P6,Event Counter 6 clear bit" "Disabled,Enabled" eventfld.long 0x00 5. "P5,Event Counter 5 clear bit" "Disabled,Enabled" eventfld.long 0x00 4. "P4,Event Counter 4 clear bit" "Disabled,Enabled" eventfld.long 0x00 3. "P3,Event Counter 3 clear bit" "Disabled,Enabled" eventfld.long 0x00 2. "P2,Event Counter 2 clear bit" "Disabled,Enabled" newline eventfld.long 0x00 1. "P1,Event Counter 1 clear bit" "Disabled,Enabled" eventfld.long 0x00 0. "P0,Event Counter 0 clear bit" "Disabled,Enabled" group.long c15:0x3c9++0x00 line.long 0x00 "PMOVSR,Performance Monitor Overflow Status Register" eventfld.long 0x00 31. "C,PMCCNTR overflow" "No overflow,Overflow" eventfld.long 0x00 30. "P30,PMN30 overflow" "No overflow,Overflow" eventfld.long 0x00 29. "P29,PMN29 overflow" "No overflow,Overflow" eventfld.long 0x00 28. "P28,PMN28 overflow" "No overflow,Overflow" eventfld.long 0x00 27. "P27,PMN27 overflow" "No overflow,Overflow" newline eventfld.long 0x00 26. "P26,PMN26 overflow" "No overflow,Overflow" eventfld.long 0x00 25. "P25,PMN25 overflow" "No overflow,Overflow" eventfld.long 0x00 24. "P24,PMN24 overflow" "No overflow,Overflow" eventfld.long 0x00 23. "P23,PMN23 overflow" "No overflow,Overflow" eventfld.long 0x00 22. "P22,PMN22 overflow" "No overflow,Overflow" newline eventfld.long 0x00 21. "P21,PMN21 overflow" "No overflow,Overflow" eventfld.long 0x00 20. "P20,PMN20 overflow" "No overflow,Overflow" eventfld.long 0x00 19. "P19,PMN19 overflow" "No overflow,Overflow" eventfld.long 0x00 18. "P18,PMN18 overflow" "No overflow,Overflow" eventfld.long 0x00 17. "P17,PMN17 overflow" "No overflow,Overflow" newline eventfld.long 0x00 16. "P16,PMN16 overflow" "No overflow,Overflow" eventfld.long 0x00 15. "P15,PMN15 overflow" "No overflow,Overflow" eventfld.long 0x00 14. "P14,PMN14 overflow" "No overflow,Overflow" eventfld.long 0x00 13. "P13,PMN13 overflow" "No overflow,Overflow" eventfld.long 0x00 12. "P12,PMN12 overflow" "No overflow,Overflow" newline eventfld.long 0x00 11. "P11,PMN11 overflow" "No overflow,Overflow" eventfld.long 0x00 10. "P10,PMN10 overflow" "No overflow,Overflow" eventfld.long 0x00 9. "P9,PMN9 overflow" "No overflow,Overflow" eventfld.long 0x00 8. "P8,PMN8 overflow" "No overflow,Overflow" eventfld.long 0x00 7. "P7,PMN7 overflow" "No overflow,Overflow" newline eventfld.long 0x00 6. "P6,PMN6 overflow" "No overflow,Overflow" eventfld.long 0x00 5. "P5,PMN5 overflow" "No overflow,Overflow" eventfld.long 0x00 4. "P4,PMN4 overflow" "No overflow,Overflow" eventfld.long 0x00 3. "P3,PMN3 overflow" "No overflow,Overflow" eventfld.long 0x00 2. "P2,PMN2 overflow" "No overflow,Overflow" newline eventfld.long 0x00 1. "P1,PMN1 overflow" "No overflow,Overflow" eventfld.long 0x00 0. "P0,PMN0 overflow" "No overflow,Overflow" group.long c15:0x4c9++0x00 line.long 0x00 "PMSWINC,Performance Monitor Software Increment" bitfld.long 0x00 30. "P30,Increment PMN30" "No action,Increment" bitfld.long 0x00 29. "P29,Increment PMN29" "No action,Increment" bitfld.long 0x00 28. "P28,Increment PMN28" "No action,Increment" bitfld.long 0x00 27. "P27,Increment PMN27" "No action,Increment" bitfld.long 0x00 26. "P26,Increment PMN26" "No action,Increment" newline bitfld.long 0x00 25. "P25,Increment PMN25" "No action,Increment" bitfld.long 0x00 24. "P24,Increment PMN24" "No action,Increment" bitfld.long 0x00 23. "P23,Increment PMN23" "No action,Increment" bitfld.long 0x00 22. "P22,Increment PMN22" "No action,Increment" bitfld.long 0x00 21. "P21,Increment PMN21" "No action,Increment" newline bitfld.long 0x00 20. "P20,Increment PMN20" "No action,Increment" bitfld.long 0x00 19. "P19,Increment PMN19" "No action,Increment" bitfld.long 0x00 18. "P18,Increment PMN18" "No action,Increment" bitfld.long 0x00 17. "P17,Increment PMN17" "No action,Increment" bitfld.long 0x00 16. "P16,Increment PMN16" "No action,Increment" newline bitfld.long 0x00 15. "P15,Increment PMN15" "No action,Increment" bitfld.long 0x00 14. "P14,Increment PMN14" "No action,Increment" bitfld.long 0x00 13. "P13,Increment PMN13" "No action,Increment" bitfld.long 0x00 12. "P12,Increment PMN12" "No action,Increment" bitfld.long 0x00 11. "P11,Increment PMN11" "No action,Increment" newline bitfld.long 0x00 10. "P10,Increment PMN10" "No action,Increment" bitfld.long 0x00 9. "P9,Increment PMN9" "No action,Increment" bitfld.long 0x00 8. "P8,Increment PMN8" "No action,Increment" bitfld.long 0x00 7. "P7,Increment PMN7" "No action,Increment" bitfld.long 0x00 6. "P6,Increment PMN6" "No action,Increment" newline bitfld.long 0x00 5. "P5,Increment PMN5" "No action,Increment" bitfld.long 0x00 4. "P4,Increment PMN4" "No action,Increment" bitfld.long 0x00 3. "P3,Increment PMN3" "No action,Increment" bitfld.long 0x00 2. "P2,Increment PMN2" "No action,Increment" bitfld.long 0x00 1. "P1,Increment PMN1" "No action,Increment" newline bitfld.long 0x00 0. "P0,Increment PMN0" "No action,Increment" group.long c15:0x5c9++0x00 line.long 0x00 "PMSELR,Performance Monitor Select Register" bitfld.long 0x00 0.--4. "SEL,Current event counter select" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,?..." group.long c15:0xd9++0x00 line.long 0x00 "PMCCNTR,Performance Monitor Cycle Count Register" group.long c15:0x1d9++0x00 line.long 0x00 "PMXEVTYPER,Performance Monitor Event Type Register" group.long c15:0x2d9++0x00 line.long 0x00 "PMXEVCNTR,Performance Monitor Event Count Register" group.long c15:0xe9++0x00 line.long 0x00 "PMUSERENR,Performance Monitor User Enable Register" bitfld.long 0x00 3. "ER,Event counter read enable" "Disabled,Enabled" bitfld.long 0x00 2. "CR,Cycle counter read enable" "Disabled,Enabled" bitfld.long 0x00 1. "SW,Software Increment write enable" "Disabled,Enabled" bitfld.long 0x00 0. "EN,User mode access enable" "Disabled,Enabled" group.long c15:0x1e9++0x00 line.long 0x00 "PMINTENSET,Performance Monitor Interrupt Enable Set" bitfld.long 0x00 31. "C,PMCCNTR enable" "Disabled,Enabled" bitfld.long 0x00 30. "P30,PMCNT30 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 29. "P29,PMCNT29 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 28. "P28,PMCNT28 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 27. "P27,PMCNT27 Overflow Interrupt Enable" "Disabled,Enabled" newline bitfld.long 0x00 26. "P26,PMCNT26 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 25. "P25,PMCNT25 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 24. "P24,PMCNT24 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 23. "P23,PMCNT23 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 22. "P22,PMCNT22 Overflow Interrupt Enable" "Disabled,Enabled" newline bitfld.long 0x00 21. "P21,PMCNT21 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 20. "P20,PMCNT20 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 19. "P19,PMCNT19 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 18. "P18,PMCNT18 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 17. "P17,PMCNT17 Overflow Interrupt Enable" "Disabled,Enabled" newline bitfld.long 0x00 16. "P16,PMCNT16 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 15. "P15,PMCNT15 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 14. "P14,PMCNT14 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 13. "P13,PMCNT13 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 12. "P12,PMCNT12 Overflow Interrupt Enable" "Disabled,Enabled" newline bitfld.long 0x00 11. "P11,PMCNT11 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 10. "P10,PMCNT10 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 9. "P9,PMCNT9 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 8. "P8,PMCNT8 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 7. "P7,PMCNT7 Overflow Interrupt Enable" "Disabled,Enabled" newline bitfld.long 0x00 6. "P6,PMCNT6 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" bitfld.long 0x00 2. "P2,PMCNT2 Overflow Interrupt Enable" "Disabled,Enabled" newline bitfld.long 0x00 1. "P1,PMCNT1 Overflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 0. "P0,PMCNT0 Overflow Interrupt Enable" "Disabled,Enabled" group.long c15:0x2e9++0x00 line.long 0x00 "PMINTENCLR,Performance Monitor Interrupt Enable Clear" eventfld.long 0x00 31. "C,PMCCNTR enable" "Disabled,Enabled" eventfld.long 0x00 30. "P30,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 29. "P29,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 28. "P28,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 27. "P27,Overflow Interrupt Clear" "Disabled,Enabled" newline eventfld.long 0x00 26. "P26,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 25. "P25,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 24. "P24,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 23. "P23,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 22. "P22,Overflow Interrupt Clear" "Disabled,Enabled" newline eventfld.long 0x00 21. "P21,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 20. "P20,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 19. "P19,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 18. "P18,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 17. "P17,Overflow Interrupt Clear" "Disabled,Enabled" newline eventfld.long 0x00 16. "P16,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 15. "P15,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 14. "P14,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 13. "P13,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 12. "P12,Overflow Interrupt Clear" "Disabled,Enabled" newline eventfld.long 0x00 11. "P11,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 10. "P10,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 9. "P9,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 8. "P8,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 7. "P7,Overflow Interrupt Clear" "Disabled,Enabled" newline eventfld.long 0x00 6. "P6,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 5. "P5,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 4. "P4,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 3. "P3,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 2. "P2,Overflow Interrupt Clear" "Disabled,Enabled" newline eventfld.long 0x00 1. "P1,Overflow Interrupt Clear" "Disabled,Enabled" eventfld.long 0x00 0. "P0,Overflow Interrupt Clear" "Disabled,Enabled" group.long c15:0x3e9++0x00 line.long 0x00 "PMOVSSET,Performance Monitor Overflow Flag Status Set Register" group.long c15:0x8E++0x00 line.long 0x00 "PMEVCNTR0,Performance Monitors Event Count Register 0" group.long c15:(0x8E+0x40)++0x00 line.long 0x00 "PMEVTYPER0,Performance Monitors Selected Event Type Register 0" bitfld.long 0x00 31. "P,EL1 modes filtering bit" "Enabled,Disabled" bitfld.long 0x00 30. "U,EL0 filtering bit" "Enabled,Disabled" bitfld.long 0x00 29. "NSK,Non-secure kernel modes filtering bit" "Enabled,Disabled" newline bitfld.long 0x00 28. "NSU,Non-secure user modes filtering bit" "Enabled,Disabled" bitfld.long 0x00 27. "NSH,Non-secure Hypervisor modes filtering bit" "Disabled,Enabled" hexmask.long.word 0x00 0.--9. 1. "EVTCOUNT,Event to count" group.long c15:0x18E++0x00 line.long 0x00 "PMEVCNTR1,Performance Monitors Event Count Register 1" group.long c15:(0x18E+0x40)++0x00 line.long 0x00 "PMEVTYPER1,Performance Monitors Selected Event Type Register 1" bitfld.long 0x00 31. "P,EL1 modes filtering bit" "Enabled,Disabled" bitfld.long 0x00 30. "U,EL0 filtering bit" "Enabled,Disabled" bitfld.long 0x00 29. "NSK,Non-secure kernel modes filtering bit" "Enabled,Disabled" newline bitfld.long 0x00 28. "NSU,Non-secure user modes filtering bit" "Enabled,Disabled" bitfld.long 0x00 27. "NSH,Non-secure Hypervisor modes filtering bit" "Disabled,Enabled" hexmask.long.word 0x00 0.--9. 1. "EVTCOUNT,Event to count" group.long c15:0x28E++0x00 line.long 0x00 "PMEVCNTR2,Performance Monitors Event Count Register 2" group.long c15:(0x28E+0x40)++0x00 line.long 0x00 "PMEVTYPER2,Performance Monitors Selected Event Type Register 2" bitfld.long 0x00 31. "P,EL1 modes filtering bit" "Enabled,Disabled" bitfld.long 0x00 30. "U,EL0 filtering bit" "Enabled,Disabled" bitfld.long 0x00 29. "NSK,Non-secure kernel modes filtering bit" "Enabled,Disabled" newline bitfld.long 0x00 28. "NSU,Non-secure user modes filtering bit" "Enabled,Disabled" bitfld.long 0x00 27. "NSH,Non-secure Hypervisor modes filtering bit" "Disabled,Enabled" hexmask.long.word 0x00 0.--9. 1. "EVTCOUNT,Event to count" group.long c15:0x38E++0x00 line.long 0x00 "PMEVCNTR3,Performance Monitors Event Count Register 3" group.long c15:(0x38E+0x40)++0x00 line.long 0x00 "PMEVTYPER3,Performance Monitors Selected Event Type Register 3" bitfld.long 0x00 31. "P,EL1 modes filtering bit" "Enabled,Disabled" bitfld.long 0x00 30. "U,EL0 filtering bit" "Enabled,Disabled" bitfld.long 0x00 29. "NSK,Non-secure kernel modes filtering bit" "Enabled,Disabled" newline bitfld.long 0x00 28. "NSU,Non-secure user modes filtering bit" "Enabled,Disabled" bitfld.long 0x00 27. "NSH,Non-secure Hypervisor modes filtering bit" "Disabled,Enabled" hexmask.long.word 0x00 0.--9. 1. "EVTCOUNT,Event to count" group.long c15:0x48E++0x00 line.long 0x00 "PMEVCNTR4,Performance Monitors Event Count Register 4" group.long c15:(0x48E+0x40)++0x00 line.long 0x00 "PMEVTYPER4,Performance Monitors Selected Event Type Register 4" bitfld.long 0x00 31. "P,EL1 modes filtering bit" "Enabled,Disabled" bitfld.long 0x00 30. "U,EL0 filtering bit" "Enabled,Disabled" bitfld.long 0x00 29. "NSK,Non-secure kernel modes filtering bit" "Enabled,Disabled" newline bitfld.long 0x00 28. "NSU,Non-secure user modes filtering bit" "Enabled,Disabled" bitfld.long 0x00 27. "NSH,Non-secure Hypervisor modes filtering bit" "Disabled,Enabled" hexmask.long.word 0x00 0.--9. 1. "EVTCOUNT,Event to count" group.long c15:0x58E++0x00 line.long 0x00 "PMEVCNTR5,Performance Monitors Event Count Register 5" group.long c15:(0x58E+0x40)++0x00 line.long 0x00 "PMEVTYPER5,Performance Monitors Selected Event Type Register 5" bitfld.long 0x00 31. "P,EL1 modes filtering bit" "Enabled,Disabled" bitfld.long 0x00 30. "U,EL0 filtering bit" "Enabled,Disabled" bitfld.long 0x00 29. "NSK,Non-secure kernel modes filtering bit" "Enabled,Disabled" newline bitfld.long 0x00 28. "NSU,Non-secure user modes filtering bit" "Enabled,Disabled" bitfld.long 0x00 27. "NSH,Non-secure Hypervisor modes filtering bit" "Disabled,Enabled" hexmask.long.word 0x00 0.--9. 1. "EVTCOUNT,Event to count" group.long c15:0x07FE++0x00 line.long 0x00 "PMCCFILTR,Performance Monitors Cycle Count Filter Register" bitfld.long 0x00 31. "P,EL1 modes filtering bit" "Enabled,Disabled" bitfld.long 0x00 30. "U,EL0 filtering bit" "Enabled,Disabled" bitfld.long 0x00 29. "NSK,Non-secure kernel modes filtering bit" "Enabled,Disabled" newline bitfld.long 0x00 28. "NSU,Non-secure user modes filtering bit" "Enabled,Disabled" bitfld.long 0x00 27. "NSH,Non-secure Hypervisor modes filtering bit" "Disabled,Enabled" tree.end tree "System Timer Registers" group.long c15:0x000E++0x00 line.long 0x00 "CNTFRQ,Counter Frequency Register" rgroup.quad c15:0x100E0++0x01 line.quad 0x00 "CNTPCT,Counter Physical Count Register" group.long c15:0x001E++0x00 line.long 0x00 "CNTKCTL,Timer PL1 Control Register" bitfld.long 0x00 9. "EL0PTEN,Controls whether the physical timer registers are accessible from EL0 modes" "Not accessible,Accessible" bitfld.long 0x00 8. "EL0VTEN,Controls whether the virtual timer registers are accessible from EL0 modes" "Not accessible,Accessible" bitfld.long 0x00 4.--7. "EVNTI,Selects which bit of CNTVCT is the trigger for the event stream generated from the virtual counter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 3. "EVNTDIR,Controls which transition of the CNTVCT trigger bit" "0 to 1,1 to 0" newline bitfld.long 0x00 2. "EVNTEN,Enables the generation of an event stream from the virtual counter" "Disabled,Enabled" bitfld.long 0x00 1. "EL0VCTEN,Controls whether the virtual counter, CNTVCT, and the frequency register CNTFRQ, are accessible from EL0 modes" "Not accessible,Accessible" bitfld.long 0x00 0. "EL0PCTEN,Controls whether the physical counter, CNTPCT, and the frequency register CNTFRQ, are accessible from EL0 modes" "Not accessible,Accessible" group.long c15:0x002E++0x00 line.long 0x00 "CNTP_TVAL,Counter PL1 Physical Compare Value Register" group.long c15:0x012E++0x00 line.long 0x00 "CNTP_CTL,Counter PL1 Physical Timer Control Register" rbitfld.long 0x00 2. "ISTATUS,The status of the timer interrupt" "No interrupt,Interrupt" bitfld.long 0x00 1. "IMASK,Timer interrupt mask bit" "Not masked,Masked" bitfld.long 0x00 0. "ENABLE,Enables the timer" "Disabled,Enabled" group.long c15:0x003E++0x00 line.long 0x00 "CNTV_TVAL,Counter PL1 Virtual Timer Value Register" group.long c15:0x013E++0x00 line.long 0x00 "CNTV_CTL,Counter PL1 Virtual Timer Control Register" rbitfld.long 0x00 2. "ISTATUS,The status of the timer interrupt" "No interrupt,Interrupt" bitfld.long 0x00 1. "IMASK,Timer interrupt mask bit" "Not masked,Masked" bitfld.long 0x00 0. "ENABLE,Enables the timer" "Disabled,Enabled" group.quad c15:0x110E0++0x01 line.quad 0x00 "CNTVCT,Counter Virtual Count Register" group.quad c15:0x120E0++0x01 line.quad 0x00 "CNTP_CVAL,Counter PL1 Physical Compare Value Register" group.quad c15:0x130E0++0x01 line.quad 0x00 "CNTV_CVAL,Counter PL1 Virtual Compare Value Register" group.quad c15:0x140E0++0x01 line.quad 0x00 "CNTVOFF,Counter Virtual Offset Register" group.long c15:0x401E++0x00 line.long 0x00 "CNTHCTL,Counter Non-secure PL2 Control Register" bitfld.long 0x00 4.--7. "EVNTI,Select trigger for the event stream generated from counter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" newline bitfld.long 0x00 3. "EVNTDIR,Controls which transition of the CNTVCT trigger bit" "0 to 1,1 to 0" bitfld.long 0x00 2. "EVNTEN,Enables the generation of an event stream from the virtual counter" "Disabled,Enabled" newline bitfld.long 0x00 1. "EL1VCTEN,Controls whether the Non-secure copies of the physical timer registers are accessible from Non-secure EL1 and EL0 modes" "Not accessible,Accessible" bitfld.long 0x00 0. "EL1PCTEN,Controls whether the physical counter, CNTPCT, is accessible from Non-secure EL1 and EL0 modes" "Not accessible,Accessible" group.long c15:0x402E++0x00 line.long 0x00 "CNTHP_TVAL,Counter Non-secure PL2 Physical Timer Value Register" group.long c15:0x412E++0x00 line.long 0x00 "CNTHP_CTL,Counter Non-secure PL2 Physical Timer Control Register" rbitfld.long 0x00 2. "ISTATUS,The status of the timer interrupt" "No interrupt,Interrupt" bitfld.long 0x00 1. "IMASK,Timer interrupt mask bit" "Not masked,Masked" bitfld.long 0x00 0. "ENABLE,Enables the timer" "Disabled,Enabled" group.quad c15:0x160E0++0x01 line.quad 0x00 "CNTHP_CVAL,Counter Non-secure PL2 Physical Compare Value Register" tree.end tree "Generic Interrupt Controller CPU Interface" tree "AArch32 GIC Physical CPU Interface System Registers" tree.open "Interrupt Controller Active Priorities Registers" group.long c15:0x048C++0x00 line.long 0x00 "ICC_AP0R0,Active Priorities Group 0 Register 0" bitfld.long 0x00 31. "P31,Group 0 interrupt active with priority level 31" "No interrupt,Interrupt" bitfld.long 0x00 30. "P30,Group 0 interrupt active with priority level 30" "No interrupt,Interrupt" bitfld.long 0x00 29. "P29,Group 0 interrupt active with priority level 29" "No interrupt,Interrupt" newline bitfld.long 0x00 28. "P28,Group 0 interrupt active with priority level 28" "No interrupt,Interrupt" bitfld.long 0x00 27. "P27,Group 0 interrupt active with priority level 27" "No interrupt,Interrupt" bitfld.long 0x00 26. "P26,Group 0 interrupt active with priority level 26" "No interrupt,Interrupt" newline bitfld.long 0x00 25. "P25,Group 0 interrupt active with priority level 25" "No interrupt,Interrupt" bitfld.long 0x00 24. "P24,Group 0 interrupt active with priority level 24" "No interrupt,Interrupt" bitfld.long 0x00 23. "P23,Group 0 interrupt active with priority level 23" "No interrupt,Interrupt" newline bitfld.long 0x00 22. "P22,Group 0 interrupt active with priority level 22" "No interrupt,Interrupt" bitfld.long 0x00 21. "P21,Group 0 interrupt active with priority level 21" "No interrupt,Interrupt" bitfld.long 0x00 20. "P20,Group 0 interrupt active with priority level 20" "No interrupt,Interrupt" newline bitfld.long 0x00 19. "P19,Group 0 interrupt active with priority level 19" "No interrupt,Interrupt" bitfld.long 0x00 18. "P18,Group 0 interrupt active with priority level 18" "No interrupt,Interrupt" bitfld.long 0x00 17. "P17,Group 0 interrupt active with priority level 17" "No interrupt,Interrupt" newline bitfld.long 0x00 16. "P16,Group 0 interrupt active with priority level 16" "No interrupt,Interrupt" bitfld.long 0x00 15. "P15,Group 0 interrupt active with priority level 15" "No interrupt,Interrupt" bitfld.long 0x00 14. "P14,Group 0 interrupt active with priority level 14" "No interrupt,Interrupt" newline bitfld.long 0x00 13. "P13,Group 0 interrupt active with priority level 13" "No interrupt,Interrupt" bitfld.long 0x00 12. "P12,Group 0 interrupt active with priority level 12" "No interrupt,Interrupt" bitfld.long 0x00 11. "P11,Group 0 interrupt active with priority level 11" "No interrupt,Interrupt" newline bitfld.long 0x00 10. "P10,Group 0 interrupt active with priority level 10" "No interrupt,Interrupt" bitfld.long 0x00 9. "P9,Group 0 interrupt active with priority level 9" "No interrupt,Interrupt" bitfld.long 0x00 8. "P8,Group 0 interrupt active with priority level 8" "No interrupt,Interrupt" newline bitfld.long 0x00 7. "P7,Group 0 interrupt active with priority level 7" "No interrupt,Interrupt" bitfld.long 0x00 6. "P6,Group 0 interrupt active with priority level 6" "No interrupt,Interrupt" bitfld.long 0x00 5. "P5,Group 0 interrupt active with priority level 5" "No interrupt,Interrupt" newline bitfld.long 0x00 4. "P4,Group 0 interrupt active with priority level 4" "No interrupt,Interrupt" bitfld.long 0x00 3. "P3,Group 0 interrupt active with priority level 3" "No interrupt,Interrupt" bitfld.long 0x00 2. "P2,Group 0 interrupt active with priority level 2" "No interrupt,Interrupt" newline bitfld.long 0x00 1. "P1,Group 0 interrupt active with priority level 1" "No interrupt,Interrupt" bitfld.long 0x00 0. "P0,Group 0 interrupt active with priority level 0" "No interrupt,Interrupt" group.long c15:0x009C++0x00 line.long 0x00 "ICC_AP1R0,Active Priorities Group 1 Register 0" bitfld.long 0x00 31. "P31,Group 1 interrupt active with priority level 31" "No interrupt,Interrupt" bitfld.long 0x00 30. "P30,Group 1 interrupt active with priority level 30" "No interrupt,Interrupt" bitfld.long 0x00 29. "P29,Group 1 interrupt active with priority level 29" "No interrupt,Interrupt" newline bitfld.long 0x00 28. "P28,Group 1 interrupt active with priority level 28" "No interrupt,Interrupt" bitfld.long 0x00 27. "P27,Group 1 interrupt active with priority level 27" "No interrupt,Interrupt" bitfld.long 0x00 26. "P26,Group 1 interrupt active with priority level 26" "No interrupt,Interrupt" newline bitfld.long 0x00 25. "P25,Group 1 interrupt active with priority level 25" "No interrupt,Interrupt" bitfld.long 0x00 24. "P24,Group 1 interrupt active with priority level 24" "No interrupt,Interrupt" bitfld.long 0x00 23. "P23,Group 1 interrupt active with priority level 23" "No interrupt,Interrupt" newline bitfld.long 0x00 22. "P22,Group 1 interrupt active with priority level 22" "No interrupt,Interrupt" bitfld.long 0x00 21. "P21,Group 1 interrupt active with priority level 21" "No interrupt,Interrupt" bitfld.long 0x00 20. "P20,Group 1 interrupt active with priority level 20" "No interrupt,Interrupt" newline bitfld.long 0x00 19. "P19,Group 1 interrupt active with priority level 19" "No interrupt,Interrupt" bitfld.long 0x00 18. "P18,Group 1 interrupt active with priority level 18" "No interrupt,Interrupt" bitfld.long 0x00 17. "P17,Group 1 interrupt active with priority level 17" "No interrupt,Interrupt" newline bitfld.long 0x00 16. "P16,Group 1 interrupt active with priority level 16" "No interrupt,Interrupt" bitfld.long 0x00 15. "P15,Group 1 interrupt active with priority level 15" "No interrupt,Interrupt" bitfld.long 0x00 14. "P14,Group 1 interrupt active with priority level 14" "No interrupt,Interrupt" newline bitfld.long 0x00 13. "P13,Group 1 interrupt active with priority level 13" "No interrupt,Interrupt" bitfld.long 0x00 12. "P12,Group 1 interrupt active with priority level 12" "No interrupt,Interrupt" bitfld.long 0x00 11. "P11,Group 1 interrupt active with priority level 11" "No interrupt,Interrupt" newline bitfld.long 0x00 10. "P10,Group 1 interrupt active with priority level 10" "No interrupt,Interrupt" bitfld.long 0x00 9. "P9,Group 1 interrupt active with priority level 9" "No interrupt,Interrupt" bitfld.long 0x00 8. "P8,Group 1 interrupt active with priority level 8" "No interrupt,Interrupt" newline bitfld.long 0x00 7. "P7,Group 1 interrupt active with priority level 7" "No interrupt,Interrupt" bitfld.long 0x00 6. "P6,Group 1 interrupt active with priority level 6" "No interrupt,Interrupt" bitfld.long 0x00 5. "P5,Group 1 interrupt active with priority level 5" "No interrupt,Interrupt" newline bitfld.long 0x00 4. "P4,Group 1 interrupt active with priority level 4" "No interrupt,Interrupt" bitfld.long 0x00 3. "P3,Group 1 interrupt active with priority level 3" "No interrupt,Interrupt" bitfld.long 0x00 2. "P2,Group 1 interrupt active with priority level 2" "No interrupt,Interrupt" newline bitfld.long 0x00 1. "P1,Group 1 interrupt active with priority level 1" "No interrupt,Interrupt" bitfld.long 0x00 0. "P0,Group 1 interrupt active with priority level 0" "No interrupt,Interrupt" tree.end newline wgroup.quad c15:0x110C0++0x01 line.quad 0x00 "ICC_ASGI1R,Alternate SGI Generation Register 1" hexmask.quad.byte 0x00 48.--55. 1. "AFF3,Affinity 3" bitfld.quad 0x00 40. "IRM,Interrupt Routing Mode" "Disabled,Enabled" hexmask.quad.byte 0x00 32.--39. 1. "AFF2,Affinity 2" newline bitfld.quad 0x00 24.--27. "SGIID,SGI Interrupt ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" hexmask.quad.byte 0x00 16.--23. 1. "AFF1,Affinity 1" hexmask.quad.word 0x00 0.--15. 1. "TARGETLIST,Target List" group.long c15:0x038C++0x00 line.long 0x00 "ICC_BPR0,Binary Point Register 0" bitfld.long 0x00 0.--2. "BINARYPOINT,Binary point" "0,1,2,3,4,5,6,7" group.long c15:0x03CC++0x00 line.long 0x00 "ICC_BPR1,Binary Point Register 1" bitfld.long 0x00 0.--2. "BINARYPOINT,Binary point" "0,1,2,3,4,5,6,7" group.long c15:0x04CC++0x00 line.long 0x00 "ICC_CTLR,Interrupt Control Registers for EL1" rbitfld.long 0x00 15. "A3V,Affinity 3 Valid" "Not supported,Supported" rbitfld.long 0x00 14. "SEIS,SEI Support" "Not supported,Supported" rbitfld.long 0x00 11.--13. "IDBITS,Number of physical interrupt identifier bits supported" "16 bits,24 bits,?..." newline rbitfld.long 0x00 8.--10. "PRIBITS,Number of priority bits implemented" "0,1,2,3,4,5,6,7" bitfld.long 0x00 6. "PMHE,Priority Mask Hint Enable" "Disabled,Enabled" bitfld.long 0x00 1. "EOIMODE,Alias of ICC_MCTLR.EOImode_EL1" "0,1" newline bitfld.long 0x00 0. "CBPR,Common Binary Point Register" "0,1" group.long c15:0x64CC++0x00 line.long 0x00 "ICC_MCTLR,Interrupt Control Registers for EL3" rbitfld.long 0x00 17. "NDS,Disable Security not supported" "Supported,Not supported" rbitfld.long 0x00 15. "A3V,Affinity 3 Valid" "Not supported,Supported" rbitfld.long 0x00 14. "SEIS,Indicates whether the CPU interface supports generation of SEIs" "Not supported,Supported" newline rbitfld.long 0x00 11.--13. "IDBITS,The number of physical interrupt identifier bits supported" "16 bits,24 bits,?..." rbitfld.long 0x00 8.--10. "PRIBITS,The number of priority bits implemented minus one" "0,1,2,3,4,5,6,7" bitfld.long 0x00 6. "PMHE,Priority Mask Hint Enable" "Disabled,Enabled" newline bitfld.long 0x00 4. "EOIMODE_EL1NS,Controls whether a write to an End of Interrupt register also deactivates the interrupt(Non-secure EL1 and EL2)" "Enabled,Disabled" bitfld.long 0x00 3. "EOIMODE_EL1S,Controls whether a write to an End of Interrupt register also deactivates the interrupt(Secure EL1)" "Enabled,Disabled" bitfld.long 0x00 2. "EOIMODE_EL3,Controls whether a write to an End of Interrupt register also deactivates the interrupt(EL3)" "Enabled,Disabled" newline bitfld.long 0x00 1. "CBPR_EL1NS,Controls whether the same register is used for interrupt preemption of both Group 0 and Group 1 Non-secure interrupts at EL1" "Separate registers,Same register" bitfld.long 0x00 0. "CBPR_EL1S,Controls whether the same register is used for interrupt preemption of both Group 0 and Group 1 Secure interrupts in Secure non-Monitor modes" "Separate registers,Same register" if (((per.l(c15:0x4CC))&0x3800)==0x00) wgroup.long c15:0x01BC++0x00 line.long 0x00 "ICC_DIR,Interrupt Controller Deactivate Interrupt Register" hexmask.long.word 0x00 0.--15. 1. "INTID,The INTID of the interrupt to be deactivated" wgroup.long c15:0x018C++0x00 line.long 0x00 "ICC_EOIR0,Interrupt Controller End Of Interrupt Register 0" hexmask.long.word 0x00 0.--15. 1. "INTID,The INTID from the corresponding ICC_IAR0 access" wgroup.long c15:0x01CC++0x00 line.long 0x00 "ICC_EOIR1,Interrupt Controller End Of Interrupt Register 1" hexmask.long.word 0x00 0.--15. 1. "INTID,The INTID from the corresponding ICC_IAR1 access" rgroup.long c15:0x028C++0x00 line.long 0x00 "ICC_HPPIR0,Interrupt Controller Highest Priority Pending Interrupt Register 0" hexmask.long.word 0x00 0.--15. 1. "INTID,The INTID of the highest priority pending interrupt if that interrupt is observable at the current security state and exception level" rgroup.long c15:0x02CC++0x00 line.long 0x00 "ICC_HPPIR1,Interrupt Controller Highest Priority Pending Interrupt Register 1" hexmask.long.word 0x00 0.--15. 1. "INTID,The INTID of the highest priority pending interrupt if that interrupt is observable at the current security state and exception level" elif (((per.l(c15:0x4CC))&0x3800)==0x800) wgroup.long c15:0x01BC++0x00 line.long 0x00 "ICC_DIR,Interrupt Controller Deactivate Interrupt Register" hexmask.long.tbyte 0x00 0.--23. 1. "INTID,The INTID of the interrupt to be deactivated" wgroup.long c15:0x018C++0x00 line.long 0x00 "ICC_EOIR0,Interrupt Controller End Of Interrupt Register 0" hexmask.long.tbyte 0x00 0.--23. 1. "INTID,The INTID from the corresponding ICC_IAR0 access" wgroup.long c15:0x01CC++0x00 line.long 0x00 "ICC_EOIR1,Interrupt Controller End Of Interrupt Register 1" hexmask.long.tbyte 0x00 0.--23. 1. "INTID,The INTID from the corresponding ICC_IAR1 access" rgroup.long c15:0x028C++0x00 line.long 0x00 "ICC_HPPIR0,Interrupt Controller Highest Priority Pending Interrupt Register 0" hexmask.long.tbyte 0x00 0.--23. 1. "INTID,The INTID of the highest priority pending interrupt if that interrupt is observable at the current security state and exception level" rgroup.long c15:0x02CC++0x00 line.long 0x00 "ICC_HPPIR1,Interrupt Controller Highest Priority Pending Interrupt Register 1" hexmask.long.tbyte 0x00 0.--23. 1. "INTID,The INTID of the highest priority pending interrupt if that interrupt is observable at the current security state and exception level" endif hgroup.long c15:0x008C++0x00 hide.long 0x00 "ICC_IAR0,Interrupt Acknowledge Register 0" in hgroup.long c15:0x00CC++0x00 hide.long 0x00 "ICC_IAR1,Interrupt Acknowledge Register 1" in group.long c15:0x06CC++0x00 line.long 0x00 "ICC_IGRPEN0,Interrupt Group Enable Register 0" bitfld.long 0x00 0. "ENABLE,Enables Group 0 interrupts" "Disabled,Enabled" group.long c15:0x07CC++0x00 line.long 0x00 "ICC_IGRPEN1,Interrupt Group Enable Register 1" bitfld.long 0x00 0. "ENABLE,Enables Group 0 interrupts" "Disabled,Enabled" group.long c15:0x0064++0x00 line.long 0x00 "ICC_PMR,Priority Mask Register" hexmask.long.byte 0x00 0.--7. 1. "PRIORITY,Priority mask level for the CPU interface" rgroup.long c15:0x03BC++0x00 line.long 0x00 "ICC_RPR,Running Priority Register" hexmask.long.byte 0x00 0.--7. 1. "PRIORITY,Current running priority on the CPU interface" wgroup.quad c15:0x120C0++0x01 line.quad 0x00 "ICC_SGI0R,SGI Generation Register 0" hexmask.quad.byte 0x00 48.--55. 1. "AFF3,Affinity 3" bitfld.quad 0x00 40. "IRM,Interrupt Routing Mode" "Disabled,Enabled" hexmask.quad.byte 0x00 32.--39. 1. "AFF2,Affinity 2" newline bitfld.quad 0x00 24.--27. "INTID,The INTID of the SGI" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" hexmask.quad.byte 0x00 16.--23. 1. "AFF1,Affinity 1" hexmask.quad.word 0x00 0.--15. 1. "TARGETLIST,Target List" wgroup.quad c15:0x100C0++0x01 line.quad 0x00 "ICC_SGI1R,SGI Generation Register 1" hexmask.quad.byte 0x00 48.--55. 1. "AFF3,Affinity 3" bitfld.quad 0x00 40. "IRM,Interrupt Routing Mode" "Disabled,Enabled" hexmask.quad.byte 0x00 32.--39. 1. "AFF2,Affinity 2" newline bitfld.quad 0x00 24.--27. "INTID,The INTID of the SGI" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" hexmask.quad.byte 0x00 16.--23. 1. "AFF1,Affinity 1" hexmask.quad.word 0x00 0.--15. 1. "TARGETLIST,Target List" group.long c15:0x05CC++0x00 line.long 0x00 "ICC_SRE,System Register Enable Register for EL1" bitfld.long 0x00 2. "DIB,Disable IRQ bypass" "No,Yes" bitfld.long 0x00 1. "DFB,Disable FIQ bypass" "No,Yes" bitfld.long 0x00 0. "SRE,System Register Enable" "Disabled,Enabled" if corename()=="CORTEXA53" group.long c15:0x459C++0x00 line.long 0x00 "ICC_HSRE,System Register Enable Register for EL2" bitfld.long 0x00 3. "ENABLE,Enable lower exception level access to ICC_SRE_EL1" "Disabled,Enabled" bitfld.long 0x00 2. "DIB,Disable IRQ bypass" "No,Yes" bitfld.long 0x00 1. "DFB,Disable FIQ bypass" "No,Yes" newline bitfld.long 0x00 0. "SRE,System Register Enable" "Disabled,Enabled" endif group.long c15:0x65CC++0x00 line.long 0x00 "ICC_MSRE,System Register Enable Register for EL3" bitfld.long 0x00 3. "ENABLE,Enable lower exception level access to ICC_SRE_EL1 and ICC_SRE_EL2" "Disabled,Enabled" bitfld.long 0x00 2. "DIB,Disable IRQ bypass" "No,Yes" bitfld.long 0x00 1. "DFB,Disable FIQ bypass" "No,Yes" newline bitfld.long 0x00 0. "SRE,System Register Enable" "Disabled,Enabled" group.long c15:0x67CC++0x00 line.long 0x00 "ICC_MGRPEN1,Monitor Group1 Interrupt Group Enable" bitfld.long 0x00 1. "ENABLEGRP1S,Enables Group 1 interrupts for the Secure state" "Disabled,Enabled" bitfld.long 0x00 0. "ENABLEGRP1NS,Enables Group 1 interrupts for the Non-secure state" "Disabled,Enabled" tree.end tree "AArch32 Virtual Interface Control System Registers" tree.open "Hypervisor Active Priorities Registers" group.long c15:0x408C++0x00 line.long 0x00 "ICH_AP0R0,Interrupt Controller Hypervisor Active Priorities Group 0 Register 0" bitfld.long 0x00 31. "P31,Group 0 interrupt active with priority level 31" "No interrupt,Interrupt" bitfld.long 0x00 30. "P30,Group 0 interrupt active with priority level 30" "No interrupt,Interrupt" bitfld.long 0x00 29. "P29,Group 0 interrupt active with priority level 29" "No interrupt,Interrupt" newline bitfld.long 0x00 28. "P28,Group 0 interrupt active with priority level 28" "No interrupt,Interrupt" bitfld.long 0x00 27. "P27,Group 0 interrupt active with priority level 27" "No interrupt,Interrupt" bitfld.long 0x00 26. "P26,Group 0 interrupt active with priority level 26" "No interrupt,Interrupt" newline bitfld.long 0x00 25. "P25,Group 0 interrupt active with priority level 25" "No interrupt,Interrupt" bitfld.long 0x00 24. "P24,Group 0 interrupt active with priority level 24" "No interrupt,Interrupt" bitfld.long 0x00 23. "P23,Group 0 interrupt active with priority level 23" "No interrupt,Interrupt" newline bitfld.long 0x00 22. "P22,Group 0 interrupt active with priority level 22" "No interrupt,Interrupt" bitfld.long 0x00 21. "P21,Group 0 interrupt active with priority level 21" "No interrupt,Interrupt" bitfld.long 0x00 20. "P20,Group 0 interrupt active with priority level 20" "No interrupt,Interrupt" newline bitfld.long 0x00 19. "P19,Group 0 interrupt active with priority level 19" "No interrupt,Interrupt" bitfld.long 0x00 18. "P18,Group 0 interrupt active with priority level 18" "No interrupt,Interrupt" bitfld.long 0x00 17. "P17,Group 0 interrupt active with priority level 17" "No interrupt,Interrupt" newline bitfld.long 0x00 16. "P16,Group 0 interrupt active with priority level 16" "No interrupt,Interrupt" bitfld.long 0x00 15. "P15,Group 0 interrupt active with priority level 15" "No interrupt,Interrupt" bitfld.long 0x00 14. "P14,Group 0 interrupt active with priority level 14" "No interrupt,Interrupt" newline bitfld.long 0x00 13. "P13,Group 0 interrupt active with priority level 13" "No interrupt,Interrupt" bitfld.long 0x00 12. "P12,Group 0 interrupt active with priority level 12" "No interrupt,Interrupt" bitfld.long 0x00 11. "P11,Group 0 interrupt active with priority level 11" "No interrupt,Interrupt" newline bitfld.long 0x00 10. "P10,Group 0 interrupt active with priority level 10" "No interrupt,Interrupt" bitfld.long 0x00 9. "P9,Group 0 interrupt active with priority level 9" "No interrupt,Interrupt" bitfld.long 0x00 8. "P8,Group 0 interrupt active with priority level 8" "No interrupt,Interrupt" newline bitfld.long 0x00 7. "P7,Group 0 interrupt active with priority level 7" "No interrupt,Interrupt" bitfld.long 0x00 6. "P6,Group 0 interrupt active with priority level 6" "No interrupt,Interrupt" bitfld.long 0x00 5. "P5,Group 0 interrupt active with priority level 5" "No interrupt,Interrupt" newline bitfld.long 0x00 4. "P4,Group 0 interrupt active with priority level 4" "No interrupt,Interrupt" bitfld.long 0x00 3. "P3,Group 0 interrupt active with priority level 3" "No interrupt,Interrupt" bitfld.long 0x00 2. "P2,Group 0 interrupt active with priority level 2" "No interrupt,Interrupt" newline bitfld.long 0x00 1. "P1,Group 0 interrupt active with priority level 1" "No interrupt,Interrupt" bitfld.long 0x00 0. "P0,Group 0 interrupt active with priority level 0" "No interrupt,Interrupt" group.long c15:0x409C++0x00 line.long 0x00 "ICH_AP1R0,Interrupt Controller Hypervisor Active Priorities Group 1 Register 0" bitfld.long 0x00 31. "P31,Group 1 interrupt active with priority level 31" "No interrupt,Interrupt" bitfld.long 0x00 30. "P30,Group 1 interrupt active with priority level 30" "No interrupt,Interrupt" bitfld.long 0x00 29. "P29,Group 1 interrupt active with priority level 29" "No interrupt,Interrupt" newline bitfld.long 0x00 28. "P28,Group 1 interrupt active with priority level 28" "No interrupt,Interrupt" bitfld.long 0x00 27. "P27,Group 1 interrupt active with priority level 27" "No interrupt,Interrupt" bitfld.long 0x00 26. "P26,Group 1 interrupt active with priority level 26" "No interrupt,Interrupt" newline bitfld.long 0x00 25. "P25,Group 1 interrupt active with priority level 25" "No interrupt,Interrupt" bitfld.long 0x00 24. "P24,Group 1 interrupt active with priority level 24" "No interrupt,Interrupt" bitfld.long 0x00 23. "P23,Group 1 interrupt active with priority level 23" "No interrupt,Interrupt" newline bitfld.long 0x00 22. "P22,Group 1 interrupt active with priority level 22" "No interrupt,Interrupt" bitfld.long 0x00 21. "P21,Group 1 interrupt active with priority level 21" "No interrupt,Interrupt" bitfld.long 0x00 20. "P20,Group 1 interrupt active with priority level 20" "No interrupt,Interrupt" newline bitfld.long 0x00 19. "P19,Group 1 interrupt active with priority level 19" "No interrupt,Interrupt" bitfld.long 0x00 18. "P18,Group 1 interrupt active with priority level 18" "No interrupt,Interrupt" bitfld.long 0x00 17. "P17,Group 1 interrupt active with priority level 17" "No interrupt,Interrupt" newline bitfld.long 0x00 16. "P16,Group 1 interrupt active with priority level 16" "No interrupt,Interrupt" bitfld.long 0x00 15. "P15,Group 1 interrupt active with priority level 15" "No interrupt,Interrupt" bitfld.long 0x00 14. "P14,Group 1 interrupt active with priority level 14" "No interrupt,Interrupt" newline bitfld.long 0x00 13. "P13,Group 1 interrupt active with priority level 13" "No interrupt,Interrupt" bitfld.long 0x00 12. "P12,Group 1 interrupt active with priority level 12" "No interrupt,Interrupt" bitfld.long 0x00 11. "P11,Group 1 interrupt active with priority level 11" "No interrupt,Interrupt" newline bitfld.long 0x00 10. "P10,Group 1 interrupt active with priority level 10" "No interrupt,Interrupt" bitfld.long 0x00 9. "P9,Group 1 interrupt active with priority level 9" "No interrupt,Interrupt" bitfld.long 0x00 8. "P8,Group 1 interrupt active with priority level 8" "No interrupt,Interrupt" newline bitfld.long 0x00 7. "P7,Group 1 interrupt active with priority level 7" "No interrupt,Interrupt" bitfld.long 0x00 6. "P6,Group 1 interrupt active with priority level 6" "No interrupt,Interrupt" bitfld.long 0x00 5. "P5,Group 1 interrupt active with priority level 5" "No interrupt,Interrupt" newline bitfld.long 0x00 4. "P4,Group 1 interrupt active with priority level 4" "No interrupt,Interrupt" bitfld.long 0x00 3. "P3,Group 1 interrupt active with priority level 3" "No interrupt,Interrupt" bitfld.long 0x00 2. "P2,Group 1 interrupt active with priority level 2" "No interrupt,Interrupt" newline bitfld.long 0x00 1. "P1,Group 1 interrupt active with priority level 1" "No interrupt,Interrupt" bitfld.long 0x00 0. "P0,Group 1 interrupt active with priority level 0" "No interrupt,Interrupt" tree.end newline rgroup.long c15:0x43BC++0x00 line.long 0x00 "ICH_EISR,Interrupt Controller End of Interrupt Status Register" bitfld.long 0x00 3. "STATUS3,EOI maintenance interrupt status bit for List register 3" "No interrupt,Interrupt" bitfld.long 0x00 2. "STATUS2,EOI maintenance interrupt status bit for List register 2" "No interrupt,Interrupt" bitfld.long 0x00 1. "STATUS1,EOI maintenance interrupt status bit for List register 1" "No interrupt,Interrupt" newline bitfld.long 0x00 0. "STATUS0,EOI maintenance interrupt status bit for List register 0" "No interrupt,Interrupt" rgroup.long c15:0x45BC++0x00 line.long 0x00 "ICH_ELRSR,Interrupt Controller Empty List Register Status Register" bitfld.long 0x00 3. "STATUS3,Status bit for List register 3" "Interrupt,No interrupt" bitfld.long 0x00 2. "STATUS2,Status bit for List register 2" "Interrupt,No interrupt" bitfld.long 0x00 1. "STATUS1,Status bit for List register 1" "Interrupt,No interrupt" newline bitfld.long 0x00 0. "STATUS0,Status bit for List register 0" "Interrupt,No interrupt" group.long c15:0x40BC++0x00 line.long 0x00 "ICH_HCR,Interrupt Controller Hypervisor Control Register" bitfld.long 0x00 27.--31. "EOICOUNT,This field is incremented whenever a successful write to a virtual EOIR or DIR register would have resulted in a virtual interrupt deactivation" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" bitfld.long 0x00 14. "TDIR,Trap Non-secure EL1 writes to ICC_DIR" "Not trapped,Trapped" bitfld.long 0x00 13. "TSEI,Trap all locally generated SEIs" "Not trapped,Trapped" newline bitfld.long 0x00 12. "TALL1,Trap all Non-secure EL1 accesses to ICC_* System registers for Group 1 interrupts to EL2" "Not trapped,Trapped" bitfld.long 0x00 11. "TALL0,Trap all Non-secure EL1 accesses to ICC_* System registers for Group 0 interrupts to EL2" "Not trapped,Trapped" bitfld.long 0x00 10. "TC,Trap all Non-secure EL1 accesses to System registers that are common to Group 0 and Group 1 to EL2" "Not trapped,Trapped" newline bitfld.long 0x00 7. "VGRP1DIE,VM Group 1 Disabled Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 6. "VGRP1EIE,VM Group 1 Enabled Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 5. "VGRP0DIE,VM Group 0 Disabled Interrupt Enable" "Disabled,Enabled" newline bitfld.long 0x00 4. "VGRP0EIE,VM Group 0 Enabled Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 3. "NPIE,No Pending Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 2. "LRENPIE,List Register Entry Not Present Interrupt Enable" "Disabled,Enabled" newline bitfld.long 0x00 1. "UIE,Underflow Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 0. "EN,Global enable bit for the virtual CPU interface" "Disabled,Enabled" group.long c15:(0x40CC+0x0)++0x00 line.long 0x00 "ICH_LR0,Interrupt Controller List Register 0" hexmask.long 0x00 0.--31. 1. "vINTID,Virtual INTID of the interrupt" group.long c15:(0x40CC+0x100)++0x00 line.long 0x00 "ICH_LR1,Interrupt Controller List Register 1" hexmask.long 0x00 0.--31. 1. "vINTID,Virtual INTID of the interrupt" group.long c15:(0x40CC+0x200)++0x00 line.long 0x00 "ICH_LR2,Interrupt Controller List Register 2" hexmask.long 0x00 0.--31. 1. "vINTID,Virtual INTID of the interrupt" group.long c15:(0x40CC+0x300)++0x00 line.long 0x00 "ICH_LR3,Interrupt Controller List Register 3" hexmask.long 0x00 0.--31. 1. "vINTID,Virtual INTID of the interrupt" group.long c15:(0x40EC+0x0)++0x00 line.long 0x00 "ICH_LRC0,Interrupt Controller List Register Extension 0" bitfld.long 0x00 30.--31. "STATE,The state of the interrupt" "Inactive,Pending,Active,Pending and active" bitfld.long 0x00 29. "HW,Indicates whether this virtual interrupt maps directly to a hardware interrupt, meaning that it corresponds to a physical interrupt." "Triggered by Software,Hardware interrupt" bitfld.long 0x00 28. "GROUP,Indicates the group for this virtual interrupt" "Group 1,Group 0" newline hexmask.long.byte 0x00 16.--23. 1. "PRIORITY,The priority of this interrupt" hexmask.long.word 0x00 0.--9. 1. "PINTID,Physical INTID for hardware interrupts" group.long c15:(0x40EC+0x100)++0x00 line.long 0x00 "ICH_LRC1,Interrupt Controller List Register Extension 1" bitfld.long 0x00 30.--31. "STATE,The state of the interrupt" "Inactive,Pending,Active,Pending and active" bitfld.long 0x00 29. "HW,Indicates whether this virtual interrupt maps directly to a hardware interrupt, meaning that it corresponds to a physical interrupt." "Triggered by Software,Hardware interrupt" bitfld.long 0x00 28. "GROUP,Indicates the group for this virtual interrupt" "Group 1,Group 0" newline hexmask.long.byte 0x00 16.--23. 1. "PRIORITY,The priority of this interrupt" hexmask.long.word 0x00 0.--9. 1. "PINTID,Physical INTID for hardware interrupts" group.long c15:(0x40EC+0x200)++0x00 line.long 0x00 "ICH_LRC2,Interrupt Controller List Register Extension 2" bitfld.long 0x00 30.--31. "STATE,The state of the interrupt" "Inactive,Pending,Active,Pending and active" bitfld.long 0x00 29. "HW,Indicates whether this virtual interrupt maps directly to a hardware interrupt, meaning that it corresponds to a physical interrupt." "Triggered by Software,Hardware interrupt" bitfld.long 0x00 28. "GROUP,Indicates the group for this virtual interrupt" "Group 1,Group 0" newline hexmask.long.byte 0x00 16.--23. 1. "PRIORITY,The priority of this interrupt" hexmask.long.word 0x00 0.--9. 1. "PINTID,Physical INTID for hardware interrupts" group.long c15:(0x40EC+0x300)++0x00 line.long 0x00 "ICH_LRC3,Interrupt Controller List Register Extension 3" bitfld.long 0x00 30.--31. "STATE,The state of the interrupt" "Inactive,Pending,Active,Pending and active" bitfld.long 0x00 29. "HW,Indicates whether this virtual interrupt maps directly to a hardware interrupt, meaning that it corresponds to a physical interrupt." "Triggered by Software,Hardware interrupt" bitfld.long 0x00 28. "GROUP,Indicates the group for this virtual interrupt" "Group 1,Group 0" newline hexmask.long.byte 0x00 16.--23. 1. "PRIORITY,The priority of this interrupt" hexmask.long.word 0x00 0.--9. 1. "PINTID,Physical INTID for hardware interrupts" rgroup.long c15:0x42BC++0x00 line.long 0x00 "ICH_MISR,Interrupt Controller Maintenance Interrupt State Register" bitfld.long 0x00 7. "VGRP1D,VPE Group 1 Disabled" "Not asserted,Asserted" bitfld.long 0x00 6. "VGRP1E,VPE Group 1 Enabled" "Not asserted,Asserted" bitfld.long 0x00 5. "VGRP0D,VPE Group 0 Disabled" "Not asserted,Asserted" newline bitfld.long 0x00 4. "VGRP0E,VPE Group 0 Enabled" "Not asserted,Asserted" bitfld.long 0x00 3. "NP,No Pending" "Not asserted,Asserted" bitfld.long 0x00 2. "LRENP,List Register Entry Not Present" "Not asserted,Asserted" newline bitfld.long 0x00 1. "U,Underflow" "Not asserted,Asserted" bitfld.long 0x00 0. "EOI,End Of Interrupt" "Not asserted,Asserted" group.long c15:0x459C++0x00 line.long 0x00 "ICH_SRE,Hypervisor System Register" group.long c15:0x47BC++0x00 line.long 0x00 "ICH_VMCR,Interrupt Controller Virtual Machine Control Register" hexmask.long.byte 0x00 24.--31. 1. "VPMR,The priority mask level for the virtual CPU interface" bitfld.long 0x00 21.--23. "VBPR0,Virtual Binary Point Register Group 0" "[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],No preemption-[7:0]" bitfld.long 0x00 18.--20. "VBPR1,Virtual Binary Point Register, Group 1" ",[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]" newline bitfld.long 0x00 9. "VEOIM,Controls whether a write to an End of Interrupt register also deactivates the virtual interrupt" "Disabled,Enabled" bitfld.long 0x00 4. "VCBPR,Virtual Common Binary Point Register" "Separate registers,Same register" bitfld.long 0x00 3. "VFIQEN,Virtual FIQ enable" "Virtual IRQs,Virtual FIQs" newline bitfld.long 0x00 2. "VACKCTL,Virtual FIQ enable" "1022,Corresponding interrupt" bitfld.long 0x00 1. "VENG1,Virtual Group 1 interrupt enable" "Disabled,Enabled" bitfld.long 0x00 0. "VENG0,Virtual Group 0 interrupt enable" "Disabled,Enabled" group.long c15:0x449C++0x00 line.long 0x00 "ICH_VSEIR,Virtual System Error Interrupt Register" rgroup.long c15:0x41BC++0x00 line.long 0x00 "ICH_VTR,Interrupt Controller VGIC Type Register" bitfld.long 0x00 29.--31. "PRIBITS,The number of priority bits implemented minus one" "0,1,2,3,4,5,6,7" bitfld.long 0x00 26.--28. "PREBITS,The number of virtual preemption bits implemented, minus one" "0,1,2,3,4,5,6,7" bitfld.long 0x00 23.--25. "IDBITS,The number of physical interrupt identifier bits supported" "16 bits,24 bits,?..." newline bitfld.long 0x00 22. "SEIS,Indicates whether the CPU interface supports local generation of SEIs" "Not supported,Supported" bitfld.long 0x00 21. "A3V,Affinity 3 Valid" "Only zero values supported,Non-zero values supported" bitfld.long 0x00 20. "NV4,GICv4 direct injection of virtual interrupts not supported" "Supported,Not supported" newline bitfld.long 0x00 19. "TDS,Separate trapping of Non-secure EL1 writes to ICV_DIR_EL1 supported" "Not supported,Supported" bitfld.long 0x00 0.--4. "LISTREGS,The number of implemented List registers, 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" tree.end tree.end tree "Debug Registers" tree "Coresight Management Registers" if corename()=="CORTEXA57" rgroup.long c14:0x0000++0x0 line.long 0x0 "DBGDIDR,Debug ID Register" bitfld.long 0x0 28.--31. "WRP,Number of Watchpoint Register Pairs" "1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16" bitfld.long 0x0 24.--27. "BRP,Number of Breakpoint Register Pairs" "1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16" bitfld.long 0x0 20.--23. "CTX_CMP,Number of BRPs with Context ID Comparison Capability" "1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16" newline hexmask.long.byte 0x0 16.--19. 1. "VERSION,Debug Architecture Version" bitfld.long 0x0 14. "NSUHD,Secure User halting debug-mode" "Supported,Not supported" bitfld.long 0x0 12. "SE,Security Extensions implemented" "Not implemented,Implemented" elif corename()=="CORTEXA53" rgroup.long c14:0x0000++0x0 line.long 0x0 "DBGDIDR,Debug ID Register" bitfld.long 0x0 28.--31. "WRP,Number of Watchpoint Register Pairs" "1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16" bitfld.long 0x0 24.--27. "BRP,Number of Breakpoint Register Pairs" "1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16" bitfld.long 0x0 20.--23. "CTX_CMP,Number of BRPs with Context ID Comparison Capability" "1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16" newline hexmask.long.byte 0x0 16.--19. 1. "VERSION,Debug Architecture Version" bitfld.long 0x0 15. "DEVID,Debug Device ID" "Low,High" bitfld.long 0x0 14. "NSUHD,Secure User halting debug-mode" "Supported,Not supported" newline bitfld.long 0x0 13. "PCSR,PC Sample register implemented" "Not implemented,Implemented" bitfld.long 0x0 12. "SE,Security Extensions implemented" "Not implemented,Implemented" hexmask.long.byte 0x0 4.--7. 1. "VARIANT,Implementation-defined Variant Number" newline hexmask.long.byte 0x0 0.--3. 1. "REVISION,Implementation-defined Revision Number" endif rgroup.long c14:0x0060++0x0 line.long 0x00 "DBGWFAR,Watchpoint Fault Address Register" group.long c14:0x0070++0x0 line.long 0x00 "DBGVCR,Debug Vector Catch register" bitfld.long 0x00 31. "FIQVCE_NS,FIQ vector catch in Non-secure state" "Disabled,Enabled" bitfld.long 0x00 30. "IRQVCE_NS,IRG vector catch in Non-secure state" "Disabled,Enabled" bitfld.long 0x00 28. "DAVCE_NS,Data Abort vector catch in Non-secure state" "Disabled,Enabled" newline bitfld.long 0x00 27. "PAVCE_NS,Prefetch Abort vector catch in Non-secure state" "Disabled,Enabled" bitfld.long 0x00 26. "SVCVCE_NS,SVC vector catch in Non-secure state" "Disabled,Enabled" bitfld.long 0x00 25. "UIVCE_NS,Undefined instruction vector catch in Non-secure state" "Disabled,Enabled" newline bitfld.long 0x00 15. "FIQVCE_SM,FIQ vector catch enable in Secure state on Monitor mode vector" "Disabled,Enabled" bitfld.long 0x00 14. "IRQVCE_SM,IRQ vector catch enable in Secure state on Monitor mode vector" "Disabled,Enabled" bitfld.long 0x00 12. "DAVCE_SM,Data Abort vector catch enable in Secure state on Monitor mode vector" "Disabled,Enabled" newline bitfld.long 0x00 11. "PAVCE_SM,Prefetch Abort vector catch enable in Secure state on Monitor mode vector" "Disabled,Enabled" bitfld.long 0x00 10. "SMCVCE_S,SMC vector catch enable in Secure state" "Disabled,Enabled" bitfld.long 0x00 7. "FIQVCE_S,FIQ vector catch in Secure state" "Disabled,Enabled" newline bitfld.long 0x00 6. "IRQVCE_S,IRG vector catch in Secure state" "Disabled,Enabled" bitfld.long 0x00 4. "DAVCE_S,Data Abort vector catch in Secure state" "Disabled,Enabled" bitfld.long 0x00 3. "PAVCE_S,Prefetch Abort vector catch in Secure state" "Disabled,Enabled" newline bitfld.long 0x00 2. "SVCVCE_S,SVC vector catch in Secure state" "Disabled,Enabled" bitfld.long 0x00 1. "UIVCE_S,Undefined instruction vector catch in Secure state" "Disabled,Enabled" group.long c14:0x0020++0x00 line.long 0x00 "DBGDCCINT,DCC Interrupt Enable Register" bitfld.long 0x00 30. "RX,DCC interrupt request enable control for DTRRX" "Disabled,Enabled" bitfld.long 0x00 29. "TX,DCC interrupt request enable control for DTRTX" "Disabled,Enabled" group.long c14:0x0200++0x0 line.long 0x00 "DBGDTRRXEXT,Debug Receive Register (External View)" group.long c14:0x0220++0x0 line.long 0x00 "DBGDSCREXT,Debug Status and Control Register (External View)" bitfld.long 0x00 30. "RXFULL,DBGDTRRX Register full" "Empty,Full" bitfld.long 0x00 29. "TXFULL,DBGDTRTX Register full" "Empty,Full" bitfld.long 0x00 27. "RXO,Used for save/restore of EDSCR.RXO" "Disabled,Enabled" newline bitfld.long 0x00 26. "TXU,Used for save/restore of EDSCR.TXU" "Disabled,Enabled" bitfld.long 0x00 21. "TDA,Used for save/restore of EDSCR.TDA" "Disabled,Enabled" bitfld.long 0x00 18. "NS,Non-secure status bit" "Secure,Non-secure" newline bitfld.long 0x00 17. "SPNIDDIS,Secure Privileged Non-Invasive Debug Disable" "No,Yes" bitfld.long 0x00 16. "SPIDDIS,Secure Privileged Invasive Debug Disable" "No,Yes" bitfld.long 0x00 15. "MDBGEN,Monitor debug-mode enable" "Disabled,Enabled" newline bitfld.long 0x00 14. "HDE,Used for save/restore of EDSCR.HDE" "Disabled,Enabled" bitfld.long 0x00 12. "UDCCDIS,User mode access to Communications Channel disable" "No,Yes" bitfld.long 0x00 6. "ERR,Used for save/restore of EDSCR.ERR" "Disabled,Enabled" newline bitfld.long 0x00 2.--5. "MOE,Method of debug entry field" "Reserved,Breakpoint,Reserved,BKPT Instruction,Reserved,Vector Catch,Reserved,Reserved,Reserved,Reserved,Synchronous Watchpoint,?..." rgroup.long c14:0x0010++0x0 line.long 0x00 "DBGDSCRINT,Debug Status and Control Register (Internal View)" bitfld.long 0x00 30. "RXFULL,DBGDTRRX Register full" "Empty,Full" bitfld.long 0x00 29. "TXFULL,DBGDTRTX Register full" "Empty,Full" bitfld.long 0x00 18. "NS,Non-secure status bit" "Secure,Non-secure" newline bitfld.long 0x00 17. "SPNIDDIS,Secure Privileged Non-Invasive Debug Disable" "No,Yes" bitfld.long 0x00 16. "SPIDDIS,Secure Privileged Invasive Debug Disable" "No,Yes" bitfld.long 0x00 15. "MDBGEN,Monitor debug-mode enable" "Disabled,Enabled" newline bitfld.long 0x00 12. "UDCCDIS,User mode access to Communications Channel disable" "No,Yes" bitfld.long 0x00 2.--5. "MOE,Method of debug entry field" "Reserved,Breakpoint,Reserved,BKPT Instruction,Reserved,Vector Catch,Reserved,Reserved,Reserved,Reserved,Synchronous Watchpoint,?..." wgroup.long c14:0x0230++0x0 line.long 0x00 "DBGDTRTXEXT,Debug Transmit Register (External View)" group.long c14:0x0050++0x0 line.long 0x00 "DBGDTRTXINT,Debug Transmit/Receive Register (Internal View)" group.long c14:0x0687++0x0 line.long 0x0 "DBGCLAIMSET,Claim Tag Set Register" bitfld.long 0x0 7. "CT7,Claim Tag 7 Set" "Not set,Set" bitfld.long 0x0 6. "CT6,Claim Tag 6 Set" "Not set,Set" bitfld.long 0x0 5. "CT5,Claim Tag 5 Set" "Not set,Set" newline bitfld.long 0x0 4. "CT4,Claim Tag 4 Set" "Not set,Set" bitfld.long 0x0 3. "CT3,Claim Tag 3 Set" "Not set,Set" bitfld.long 0x0 2. "CT2,Claim Tag 2 Set" "Not set,Set" newline bitfld.long 0x0 1. "CT1,Claim Tag 1 Set" "Not set,Set" bitfld.long 0x0 0. "CT0,Claim Tag 0 Set" "Not set,Set" group.long c14:0x0697++0x0 line.long 0x0 "DBGCLAIMCLR,Claim Tag Clear Register" bitfld.long 0x0 7. "CT7,Claim Tag 7 Clear" "Not cleared,Cleared" bitfld.long 0x0 6. "CT6,Claim Tag 6 Clear" "Not cleared,Cleared" bitfld.long 0x0 5. "CT5,Claim Tag 5 Clear" "Not cleared,Cleared" newline bitfld.long 0x0 4. "CT4,Claim Tag 4 Clear" "Not cleared,Cleared" bitfld.long 0x0 3. "CT3,Claim Tag 3 Clear" "Not cleared,Cleared" bitfld.long 0x0 2. "CT2,Claim Tag 2 Clear" "Not cleared,Cleared" newline bitfld.long 0x0 1. "CT1,Claim Tag 1 Clear" "Not cleared,Cleared" bitfld.long 0x0 0. "CT0,Claim Tag 0 Clear" "Not cleared,Cleared" rgroup.long c14:0x06E7++0x0 line.long 0x0 "DBGAUTHSTATUS,Debug Authentication Status Register" bitfld.long 0x00 7. "SNDFI,Secure non-invasive debug features implementation" "No effect,Implemented" bitfld.long 0x00 6. "SNDE,Secure non-invasive debug enable" "Disabled,Enabled" bitfld.long 0x00 5. "SIDFI,Secure invasive debug features implementation" "No effect,Implemented" newline bitfld.long 0x00 4. "SIDE,Secure invasive debug enable" "Disabled,Enabled" bitfld.long 0x00 3. "NSNDFI,Non-secure non-invasive debug features implementation" "Not implemented,Implemented" bitfld.long 0x00 2. "NSNDE,Non-secure non-invasive debug enable" "0,1" newline bitfld.long 0x00 1. "NSIDFI,Non-secure invasive debug features implementation" "Not implemented,Implemented" bitfld.long 0x00 0. "NSIDE,Non-secure invasive debug enable" "0,1" rgroup.long c14:0x0707++0x0 line.long 0x0 "DBGDEVID2,Debug Device ID Register 2" rgroup.long c14:0x0717++0x0 line.long 0x0 "DBGDEVID1,Debug Device ID Register 1" bitfld.long 0x00 0.--3. "PCSROFFSET,This field defines the offset applied to DBGPCSR samples" "0,1,No offset,3,4,5,6,7,8,9,10,11,12,13,14,15" rgroup.long c14:0x0727++0x00 line.long 0x00 "DBGDEVID,Debug Device ID Register 0" bitfld.long 0x00 28.--31. "CIDMASK,Specifies the level of support for the Context ID matching breakpoint masking capability" "Not implemented,?..." bitfld.long 0x00 24.--27. "AUXREGS,Specifies support for the Debug External Auxiliary Control Register" "Not implemented,?..." bitfld.long 0x00 20.--23. "DOUBLELOCK,Specifies support for the Debug OS Double Lock Register" "Reserved,Implemented,?..." newline bitfld.long 0x00 16.--19. "VIREXTNS,Specifies whether EL2 is implemented" "Reserved,Implemented,?..." bitfld.long 0x00 12.--15. "VECTORCATCH,Defines the form of the vector catch event implemented" "Implemented,?..." bitfld.long 0x00 8.--11. "BPADDRMASK,Indicates the level of support for the Immediate Virtual Address(IVA) matching breakpoint masking capability" "Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Implemented" newline bitfld.long 0x00 4.--7. "WPADDRMASK,Indicates the level of support for the DVA matching watchpoint masking capability" "Reserved,Implemented,?..." bitfld.long 0x00 0.--3. "PCSAMPLE,Indicates the level of support for Program Counter sampling using debug registers 40 and 41" "Reserved,Reserved,Reserved,Implemented,?..." tree.end newline rgroup.quad c14:0x10010++0x1 line.quad 0x0 "DBGDRAR,Debug ROM Address Register" hexmask.quad.word 0x0 32.--47. 0x1 "ROMADDR,ROM physical address" hexmask.quad.tbyte 0x0 12.--31. 0x10 "ROMADDR,ROM physical address" bitfld.quad 0x0 1. "VALID1,ROM table address valid" "Not valid,Valid" newline bitfld.quad 0x0 0. "VALID0,ROM table address valid" "Not valid,Valid" rgroup.quad c14:0x10020++0x1 line.quad 0x0 "DBGDSAR,Debug Self Address Offset Register" wgroup.long c14:0x0401++0x00 line.long 0x00 "DBGOSLAR,Operating System Lock Access Register" rgroup.long c14:0x0411++0x00 line.long 0x00 "DBGOSLSR,Operating System Lock Status Register" bitfld.long 0x00 2. "NTT,32-Bit Access" "Not required,Required" bitfld.long 0x00 1. "OSLK,Status of the OS Lock" "Not locked,Locked" bitfld.long 0x00 0. 3. "OSLM,OS Lock Model implemented Bit" "Reserved,Reserved,Implemented,?..." if (((per.l(c14:0x0411))&0x2)==0x2) group.long c14:0x0260++0x00 line.long 0x00 "DBGOSECCR,Debug OS Lock Exception Catch Control Register" else hgroup.long c14:0x0260++0x00 hide.long 0x00 "DBGOSECCR,Debug OS Lock Exception Catch Control Register" endif group.long c14:0x0431++0x00 line.long 0x00 "DBGOSDLR,Debug OS Double Lock Register" bitfld.long 0x00 0. "DLK,OS Double Lock control bit" "Not locked,Locked" group.long c14:0x0441++0x00 line.long 0x00 "DBGPRCR,Device Power-Down and Reset Control Register" bitfld.long 0x00 0. "CORENPDRQ,Core No Power down Request" "Low,High" tree.end tree "Breakpoint Registers" if (((per.l(c14:(0x500+0x0)))&0xF00000)==(0x000000||0x100000||0x400000||0x500000)) group.long c14:(0x0400+0x0)++0x0 "Breakpoint 0" line.long 0x00 "DBGBVR0,Breakpoint Value Register (Instruction address)" hexmask.long 0x00 2.--31. 0x4 "VA,Bits[31:2] of the address value for comparison" elif (((per.l(c14:(0x500+0x0)))&0xF00000)==(0x800000||0x900000||0xA00000||0xB00000)) hgroup.long c14:(0x0400+0x0)++0x0 "Breakpoint 0" hide.long 0x00 "DBGBVR0,Breakpoint Value Register (VMID)" else group.long c14:(0x0400+0x0)++0x0 "Breakpoint 0" line.long 0x00 "DBGBVR0,Breakpoint Value Register (Context ID)" endif group.long c14:(0x0500+0x0)++0x0 line.long 0x00 "DBGBCR0,Breakpoint Control Register" bitfld.long 0x00 22. "BT[2],Mismatch" "Match,Mismatch" bitfld.long 0x00 21. 23. "BT[31],Base type" "Address,Context ID,VMID,VMID and context ID" bitfld.long 0x00 20. "BT[0],Enable linking" "Disabled,Enabled" newline bitfld.long 0x00 16.--19. "LBRPN,Linked BRP number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 14.--15. "SSC,Security state control" "Both,Non-secure,Secure,?..." bitfld.long 0x00 13. "HMM,Hypervisor mode match" "Not matched,Matched" newline bitfld.long 0x0 5.--8. "BAS,Byte address select" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" bitfld.long 0x00 1.--2. "PMC,Privileged mode control" "User/System/Supervisor,Privileged,User only,Any mode" bitfld.long 0x00 0. "BE,Breakpoint enable" "Disabled,Enabled" if (((per.l(c14:(0x500+0x10)))&0xF00000)==(0x000000||0x100000||0x400000||0x500000)) group.long c14:(0x0400+0x10)++0x0 "Breakpoint 1" line.long 0x00 "DBGBVR1,Breakpoint Value Register (Instruction address)" hexmask.long 0x00 2.--31. 0x4 "VA,Bits[31:2] of the address value for comparison" elif (((per.l(c14:(0x500+0x10)))&0xF00000)==(0x800000||0x900000||0xA00000||0xB00000)) hgroup.long c14:(0x0400+0x10)++0x0 "Breakpoint 1" hide.long 0x00 "DBGBVR1,Breakpoint Value Register (VMID)" else group.long c14:(0x0400+0x10)++0x0 "Breakpoint 1" line.long 0x00 "DBGBVR1,Breakpoint Value Register (Context ID)" endif group.long c14:(0x0500+0x10)++0x0 line.long 0x00 "DBGBCR1,Breakpoint Control Register" bitfld.long 0x00 22. "BT[2],Mismatch" "Match,Mismatch" bitfld.long 0x00 21. 23. "BT[31],Base type" "Address,Context ID,VMID,VMID and context ID" bitfld.long 0x00 20. "BT[0],Enable linking" "Disabled,Enabled" newline bitfld.long 0x00 16.--19. "LBRPN,Linked BRP number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 14.--15. "SSC,Security state control" "Both,Non-secure,Secure,?..." bitfld.long 0x00 13. "HMM,Hypervisor mode match" "Not matched,Matched" newline bitfld.long 0x0 5.--8. "BAS,Byte address select" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" bitfld.long 0x00 1.--2. "PMC,Privileged mode control" "User/System/Supervisor,Privileged,User only,Any mode" bitfld.long 0x00 0. "BE,Breakpoint enable" "Disabled,Enabled" if (((per.l(c14:(0x500+0x20)))&0xF00000)==(0x000000||0x100000||0x400000||0x500000)) group.long c14:(0x0400+0x20)++0x0 "Breakpoint 2" line.long 0x00 "DBGBVR2,Breakpoint Value Register (Instruction address)" hexmask.long 0x00 2.--31. 0x4 "VA,Bits[31:2] of the address value for comparison" elif (((per.l(c14:(0x500+0x20)))&0xF00000)==(0x800000||0x900000||0xA00000||0xB00000)) hgroup.long c14:(0x0400+0x20)++0x0 "Breakpoint 2" hide.long 0x00 "DBGBVR2,Breakpoint Value Register (VMID)" else group.long c14:(0x0400+0x20)++0x0 "Breakpoint 2" line.long 0x00 "DBGBVR2,Breakpoint Value Register (Context ID)" endif group.long c14:(0x0500+0x20)++0x0 line.long 0x00 "DBGBCR2,Breakpoint Control Register" bitfld.long 0x00 22. "BT[2],Mismatch" "Match,Mismatch" bitfld.long 0x00 21. 23. "BT[31],Base type" "Address,Context ID,VMID,VMID and context ID" bitfld.long 0x00 20. "BT[0],Enable linking" "Disabled,Enabled" newline bitfld.long 0x00 16.--19. "LBRPN,Linked BRP number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 14.--15. "SSC,Security state control" "Both,Non-secure,Secure,?..." bitfld.long 0x00 13. "HMM,Hypervisor mode match" "Not matched,Matched" newline bitfld.long 0x0 5.--8. "BAS,Byte address select" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" bitfld.long 0x00 1.--2. "PMC,Privileged mode control" "User/System/Supervisor,Privileged,User only,Any mode" bitfld.long 0x00 0. "BE,Breakpoint enable" "Disabled,Enabled" if (((per.l(c14:(0x500+0x30)))&0xF00000)==(0x000000||0x100000||0x400000||0x500000)) group.long c14:(0x0400+0x30)++0x0 "Breakpoint 3" line.long 0x00 "DBGBVR3,Breakpoint Value Register (Instruction address)" hexmask.long 0x00 2.--31. 0x4 "VA,Bits[31:2] of the address value for comparison" elif (((per.l(c14:(0x500+0x30)))&0xF00000)==(0x800000||0x900000||0xA00000||0xB00000)) hgroup.long c14:(0x0400+0x30)++0x0 "Breakpoint 3" hide.long 0x00 "DBGBVR3,Breakpoint Value Register (VMID)" else group.long c14:(0x0400+0x30)++0x0 "Breakpoint 3" line.long 0x00 "DBGBVR3,Breakpoint Value Register (Context ID)" endif group.long c14:(0x0500+0x30)++0x0 line.long 0x00 "DBGBCR3,Breakpoint Control Register" bitfld.long 0x00 22. "BT[2],Mismatch" "Match,Mismatch" bitfld.long 0x00 21. 23. "BT[31],Base type" "Address,Context ID,VMID,VMID and context ID" bitfld.long 0x00 20. "BT[0],Enable linking" "Disabled,Enabled" newline bitfld.long 0x00 16.--19. "LBRPN,Linked BRP number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 14.--15. "SSC,Security state control" "Both,Non-secure,Secure,?..." bitfld.long 0x00 13. "HMM,Hypervisor mode match" "Not matched,Matched" newline bitfld.long 0x0 5.--8. "BAS,Byte address select" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" bitfld.long 0x00 1.--2. "PMC,Privileged mode control" "User/System/Supervisor,Privileged,User only,Any mode" bitfld.long 0x00 0. "BE,Breakpoint enable" "Disabled,Enabled" if (((per.l(c14:(0x500+0x40)))&0xF00000)==(0x000000||0x100000||0x400000||0x500000)) group.long c14:(0x0400+0x40)++0x0 "Breakpoint 4" line.long 0x00 "DBGBVR4,Breakpoint Value Register (Instruction address)" hexmask.long 0x00 2.--31. 0x4 "VA,Bits[31:2] of the address value for comparison" elif (((per.l(c14:(0x500+0x40)))&0xF00000)==(0x800000||0x900000||0xA00000||0xB00000)) hgroup.long c14:(0x0400+0x40)++0x0 "Breakpoint 4" hide.long 0x00 "DBGBVR4,Breakpoint Value Register (VMID)" else group.long c14:(0x0400+0x40)++0x0 "Breakpoint 4" line.long 0x00 "DBGBVR4,Breakpoint Value Register (Context ID)" endif group.long c14:(0x0500+0x40)++0x0 line.long 0x00 "DBGBCR4,Breakpoint Control Register" bitfld.long 0x00 22. "BT[2],Mismatch" "Match,Mismatch" bitfld.long 0x00 21. 23. "BT[31],Base type" "Address,Context ID,VMID,VMID and context ID" bitfld.long 0x00 20. "BT[0],Enable linking" "Disabled,Enabled" newline bitfld.long 0x00 16.--19. "LBRPN,Linked BRP number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 14.--15. "SSC,Security state control" "Both,Non-secure,Secure,?..." bitfld.long 0x00 13. "HMM,Hypervisor mode match" "Not matched,Matched" newline bitfld.long 0x0 5.--8. "BAS,Byte address select" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" bitfld.long 0x00 1.--2. "PMC,Privileged mode control" "User/System/Supervisor,Privileged,User only,Any mode" bitfld.long 0x00 0. "BE,Breakpoint enable" "Disabled,Enabled" if (((per.l(c14:(0x500+0x50)))&0xF00000)==(0x000000||0x100000||0x400000||0x500000)) group.long c14:(0x0400+0x50)++0x0 "Breakpoint 5" line.long 0x00 "DBGBVR5,Breakpoint Value Register (Instruction address)" hexmask.long 0x00 2.--31. 0x4 "VA,Bits[31:2] of the address value for comparison" elif (((per.l(c14:(0x500+0x50)))&0xF00000)==(0x800000||0x900000||0xA00000||0xB00000)) hgroup.long c14:(0x0400+0x50)++0x0 "Breakpoint 5" hide.long 0x00 "DBGBVR5,Breakpoint Value Register (VMID)" else group.long c14:(0x0400+0x50)++0x0 "Breakpoint 5" line.long 0x00 "DBGBVR5,Breakpoint Value Register (Context ID)" endif group.long c14:(0x0500+0x50)++0x0 line.long 0x00 "DBGBCR5,Breakpoint Control Register" bitfld.long 0x00 22. "BT[2],Mismatch" "Match,Mismatch" bitfld.long 0x00 21. 23. "BT[31],Base type" "Address,Context ID,VMID,VMID and context ID" bitfld.long 0x00 20. "BT[0],Enable linking" "Disabled,Enabled" newline bitfld.long 0x00 16.--19. "LBRPN,Linked BRP number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 14.--15. "SSC,Security state control" "Both,Non-secure,Secure,?..." bitfld.long 0x00 13. "HMM,Hypervisor mode match" "Not matched,Matched" newline bitfld.long 0x0 5.--8. "BAS,Byte address select" "0b0000,0b0001,0b0010,0b0011,0b0100,0b0101,0b0110,0b0111,0b1000,0b1001,0b1010,0b1011,0b1100,0b1101,0b1110,0b1111" bitfld.long 0x00 1.--2. "PMC,Privileged mode control" "User/System/Supervisor,Privileged,User only,Any mode" bitfld.long 0x00 0. "BE,Breakpoint enable" "Disabled,Enabled" group.long c14:0x0141++0x0 line.long 0x00 "DBGBXVR4,Debug Breakpoint Extended Value Register 4" hexmask.long.byte 0x00 0.--7. 1. "VMID, VMID value" group.long c14:0x0151++0x0 line.long 0x00 "DBGBXVR5,Debug Breakpoint Extended Value Register 5" hexmask.long.byte 0x00 0.--7. 1. "VMID, VMID value" tree.end tree "Watchpoint Control Registers" group.long c14:(0x0600+0x0)++0x00 "Breakpoint 0" line.long 0x00 "DBGWVR0,Watchpoint Value Register" hexmask.long 0x00 2.--31. 0x4 "DA,Data address" group.long c14:(0x0700+0x0)++0x00 line.long 0x00 "DBGWCR0,Watchpoint Control Register" bitfld.long 0x0 24.--28. "MASK,Watchpoint address mask" "Not masked,Reserved,Reserved,0x7,0xF,0x1F,0x3F,0x7F,0xFF,0x1FF,0x3FF,0x7FF,0xFFF,0x1FFF,0x3FFF,0x7FFF,0xFFFF,0x1FFFF,0x3FFFF,0x7FFFF,0xFFFFF,0x1FFFFF,0x3FFFFF,0x7FFFFF,0xFFFFFF,0x1FFFFFF,0x3FFFFFF,0x7FFFFFF,0xFFFFFFF,0x1FFFFFFF,0x3FFFFFFF,0x7FFFFFFF" bitfld.long 0x0 20. "WT,Watchpoint Type" "Unlinked data address match,Linked data address match" 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" newline bitfld.long 0x0 14.--15. "SSC,Secure state control" "Both,Non-secure,Secure,?..." bitfld.long 0x0 13. "HMC,Hypervisor Mode Control" "Disabled,Enabled" hexmask.long.byte 0x0 5.--12. "BAS,Byte address select" newline bitfld.long 0x0 3.--4. "LSC,Load/Store access control" "Reserved,Load,Store,Any" bitfld.long 0x0 1.--2. "PAC,Privileged Access control" "Reserved,Match privileged accesses,Match unprivileged accesses,Match all accesses" bitfld.long 0x0 0. "WE,Watchpoint enable" "Disabled,Enabled" group.long c14:(0x0600+0x10)++0x00 "Breakpoint 1" line.long 0x00 "DBGWVR1,Watchpoint Value Register" hexmask.long 0x00 2.--31. 0x4 "DA,Data address" group.long c14:(0x0700+0x10)++0x00 line.long 0x00 "DBGWCR1,Watchpoint Control Register" bitfld.long 0x0 24.--28. "MASK,Watchpoint address mask" "Not masked,Reserved,Reserved,0x7,0xF,0x1F,0x3F,0x7F,0xFF,0x1FF,0x3FF,0x7FF,0xFFF,0x1FFF,0x3FFF,0x7FFF,0xFFFF,0x1FFFF,0x3FFFF,0x7FFFF,0xFFFFF,0x1FFFFF,0x3FFFFF,0x7FFFFF,0xFFFFFF,0x1FFFFFF,0x3FFFFFF,0x7FFFFFF,0xFFFFFFF,0x1FFFFFFF,0x3FFFFFFF,0x7FFFFFFF" bitfld.long 0x0 20. "WT,Watchpoint Type" "Unlinked data address match,Linked data address match" 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" newline bitfld.long 0x0 14.--15. "SSC,Secure state control" "Both,Non-secure,Secure,?..." bitfld.long 0x0 13. "HMC,Hypervisor Mode Control" "Disabled,Enabled" hexmask.long.byte 0x0 5.--12. "BAS,Byte address select" newline bitfld.long 0x0 3.--4. "LSC,Load/Store access control" "Reserved,Load,Store,Any" bitfld.long 0x0 1.--2. "PAC,Privileged Access control" "Reserved,Match privileged accesses,Match unprivileged accesses,Match all accesses" bitfld.long 0x0 0. "WE,Watchpoint enable" "Disabled,Enabled" group.long c14:(0x0600+0x20)++0x00 "Breakpoint 2" line.long 0x00 "DBGWVR2,Watchpoint Value Register" hexmask.long 0x00 2.--31. 0x4 "DA,Data address" group.long c14:(0x0700+0x20)++0x00 line.long 0x00 "DBGWCR2,Watchpoint Control Register" bitfld.long 0x0 24.--28. "MASK,Watchpoint address mask" "Not masked,Reserved,Reserved,0x7,0xF,0x1F,0x3F,0x7F,0xFF,0x1FF,0x3FF,0x7FF,0xFFF,0x1FFF,0x3FFF,0x7FFF,0xFFFF,0x1FFFF,0x3FFFF,0x7FFFF,0xFFFFF,0x1FFFFF,0x3FFFFF,0x7FFFFF,0xFFFFFF,0x1FFFFFF,0x3FFFFFF,0x7FFFFFF,0xFFFFFFF,0x1FFFFFFF,0x3FFFFFFF,0x7FFFFFFF" bitfld.long 0x0 20. "WT,Watchpoint Type" "Unlinked data address match,Linked data address match" 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" newline bitfld.long 0x0 14.--15. "SSC,Secure state control" "Both,Non-secure,Secure,?..." bitfld.long 0x0 13. "HMC,Hypervisor Mode Control" "Disabled,Enabled" hexmask.long.byte 0x0 5.--12. "BAS,Byte address select" newline bitfld.long 0x0 3.--4. "LSC,Load/Store access control" "Reserved,Load,Store,Any" bitfld.long 0x0 1.--2. "PAC,Privileged Access control" "Reserved,Match privileged accesses,Match unprivileged accesses,Match all accesses" bitfld.long 0x0 0. "WE,Watchpoint enable" "Disabled,Enabled" group.long c14:(0x0600+0x30)++0x00 "Breakpoint 3" line.long 0x00 "DBGWVR3,Watchpoint Value Register" hexmask.long 0x00 2.--31. 0x4 "DA,Data address" group.long c14:(0x0700+0x30)++0x00 line.long 0x00 "DBGWCR3,Watchpoint Control Register" bitfld.long 0x0 24.--28. "MASK,Watchpoint address mask" "Not masked,Reserved,Reserved,0x7,0xF,0x1F,0x3F,0x7F,0xFF,0x1FF,0x3FF,0x7FF,0xFFF,0x1FFF,0x3FFF,0x7FFF,0xFFFF,0x1FFFF,0x3FFFF,0x7FFFF,0xFFFFF,0x1FFFFF,0x3FFFFF,0x7FFFFF,0xFFFFFF,0x1FFFFFF,0x3FFFFFF,0x7FFFFFF,0xFFFFFFF,0x1FFFFFFF,0x3FFFFFFF,0x7FFFFFFF" bitfld.long 0x0 20. "WT,Watchpoint Type" "Unlinked data address match,Linked data address match" 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" newline bitfld.long 0x0 14.--15. "SSC,Secure state control" "Both,Non-secure,Secure,?..." bitfld.long 0x0 13. "HMC,Hypervisor Mode Control" "Disabled,Enabled" hexmask.long.byte 0x0 5.--12. "BAS,Byte address select" newline bitfld.long 0x0 3.--4. "LSC,Load/Store access control" "Reserved,Load,Store,Any" bitfld.long 0x0 1.--2. "PAC,Privileged Access control" "Reserved,Match privileged accesses,Match unprivileged accesses,Match all accesses" bitfld.long 0x0 0. "WE,Watchpoint enable" "Disabled,Enabled" tree.end tree.end AUTOINDENT.OFF AUTOINDENT.POP tree.open "Interrupt Controller (GIC-500)" AUTOINDENT.PUSH AUTOINDENT.OFF base COMP.BASE("GICD",-1.) width 17. tree "Distributor Interface" if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.))) group.long 0x0000++0x03 line.long 0x00 "GICD_CTLR,Distributor Control Register (Secure access)" rbitfld.long 0x00 31. " RWP ,Register Write Pending. Indicates whether a register write is in progress or not" "Not pending,Pending" bitfld.long 0x00 7. " E1NWF ,Enable 1 of N Wakeup Functionality" "Disabled,Enabled" bitfld.long 0x00 6. " DS ,Disable Security" "No,Yes" textline " " bitfld.long 0x00 5. " ARE_NS ,Affinity Routing Enable" "Disabled,Enabled" bitfld.long 0x00 4. " ARE_S ,Affinity Routing Enable" "Disabled,Enabled" bitfld.long 0x00 2. " ENABLEGRP1S ,Enable Secure Group 1 interrupts" "Disabled,Enabled" textline " " bitfld.long 0x00 1. " ENABLEGRP1NS ,Enable Secure Group 1 interrupts" "Disabled,Enabled" bitfld.long 0x00 0. " ENABLEGRP0 ,Enable Group 0 interrupts" "Disabled,Enabled" elif (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400) group.long 0x0000++0x03 line.long 0x00 "GICD_CTLR,Distributor Control Register (Non-secure access)" rbitfld.long 0x00 31. " RWP ,Register Write Pending. Indicates whether a register write is in progress or not" "Not pending,Pending" bitfld.long 0x00 7. " E1NWF ,Enable 1 of N Wakeup Functionality" "Disabled,Enabled" bitfld.long 0x00 4. " ARE_NS ,Affinity Routing Enable" "Reserved,Enabled" textline " " bitfld.long 0x00 1. " ENABLEGRP1A ,Enable Group 1 interrupts" "Disabled,Enabled" bitfld.long 0x00 0. " ENABLEGRP1 ,Enable Group 1 interrupts" "Disabled,Enabled" else group.long 0x0000++0x03 line.long 0x00 "GICD_CTLR,Distributor Control Register" rbitfld.long 0x00 31. " RWP ,Register Write Pending. Indicates whether a register write is in progress or not" "Not pending,Pending" bitfld.long 0x00 7. " E1NWF ,Enable 1 of N Wakeup Functionality" "Disabled,Enabled" rbitfld.long 0x00 6. " DS ,Disable Security" "Reserved,Yes" textline " " bitfld.long 0x00 4. " ARE ,Affinity Routing Enable" "Reserved,Enabled" bitfld.long 0x00 1. " ENABLEGRP1 ,Enable Group 1 interrupts" "Disabled,Enabled" bitfld.long 0x00 0. " ENABLEGRP0 ,Enable Group 0 interrupts" "Disabled,Enabled" endif rgroup.long 0x0004++0x03 line.long 0x00 "GICD_TYPER,Interrupt Controller Type Register" bitfld.long 0x00 25. " NO1N ,Indicates whether 1 of N SPI interrupts are supported" "Supported,Not supported" bitfld.long 0x00 24. " A3V ,Indicates whether the Distributor supports nonzero values of Affinity level 3" "Not supported,Supported" bitfld.long 0x00 19.--23. " IDBITS ,The number of interrupt identifier bits supported" "1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,?..." textline " " bitfld.long 0x00 17. " LPIS ,Indicates whether the implementation supports LPIs" "Not supported,Supported" bitfld.long 0x00 16. " MBIS ,Indicates whether the implementation supports message-based interrupts by writing to Distributor registers" "Not supported,Supported" bitfld.long 0x00 10. " SECURITYEXTN ,Indicates whether interrupt controller implements the security extensions" "Not implemented,Implemented" textline " " bitfld.long 0x00 5.--7. " CPUNUMBER ,Reports the number of PEs that can be used when affinity routing is not enabled" "1,2,3,4,5,6,7,8" bitfld.long 0x00 0.--4. " ITLN ,Indicates the maximum SPI INTID that the GIC implementation 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,Reserved" rgroup.long 0x0008++0x03 line.long 0x00 "GICD_IIDR,Distributor Implementer Identification Register" bitfld.long 0x00 24.--31. " PRODID ,Indicates the product ID" "GIC-500,?..." bitfld.long 0x00 16.--19. " VAR ,Major revison number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" textline " " bitfld.long 0x00 12.--15. " REV ,Minor revision number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" hexmask.long.word 0x00 0.--11. 1. " IMP ,Implementer" if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x10000)==0x10000) wgroup.long 0x40++0x03 line.long 0x00 "GICD_SETSPI_NSR,Non-secure SPI Set Register" hexmask.long.word 0x00 0.--9. 1. " INTID ,The INTID of the SPI" wgroup.long 0x48++0x03 line.long 0x00 "GICD_CLRSPI_NSR,Non-secure SPI Clear Register" hexmask.long.word 0x00 0.--9. 1. " INTID ,The INTID of the SPI" if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x50)) wgroup.long 0x50++0x03 line.long 0x00 "GICD_SETSPI_SR,Secure SPI Set Register (Secure access)" hexmask.long.word 0x00 0.--9. 1. " INTID ,The INTID of the SPI" else hgroup.long 0x50++0x03 hide.long 0x00 "GICD_SETSPI_SR,Secure SPI Set Register (Non-secure access)" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x58)) wgroup.long 0x58++0x03 line.long 0x00 "GICD_CLRSPI_SR,Secure SPI Clear Register (Secure access)" hexmask.long.word 0x00 0.--9. 1. " INTID ,The INTID of the SPI" else hgroup.long 0x58++0x03 hide.long 0x00 "GICD_CLRSPI_SR,Secure SPI Clear Register (Non-secure access)" endif else hgroup.long 0x40++0x03 hide.long 0x00 "GICD_SETSPI_NSR,Non-secure SPI Set Register" hgroup.long 0x48++0x03 hide.long 0x00 "GICD_CLRSPI_NSR,Non-secure SPI Clear Register" hgroup.long 0x50++0x03 hide.long 0x00 "GICD_SETSPI_SR,Secure SPI Set Register" hgroup.long 0x58++0x03 hide.long 0x00 "GICD_CLRSPI_SR,Secure SPI Clear Register" endif width 17. tree "Group Registers" if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0080)) group.long 0x0080++0x03 line.long 0x0 "GICD_IGROUPR0,Interrupt Group Register 0 (Secure Access)" bitfld.long 0x00 31. " GSB31 ,Group Status Bit 31" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB30 ,Group Status Bit 30" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB29 ,Group Status Bit 29" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB28 ,Group Status Bit 28" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB27 ,Group Status Bit 27" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB26 ,Group Status Bit 26" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB25 ,Group Status Bit 25" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB24 ,Group Status Bit 24" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB23 ,Group Status Bit 23" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB22 ,Group Status Bit 22" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB21 ,Group Status Bit 21" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB20 ,Group Status Bit 20" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB19 ,Group Status Bit 19" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB18 ,Group Status Bit 18" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB17 ,Group Status Bit 17" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB16 ,Group Status Bit 16" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB15 ,Group Status Bit 15" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB14 ,Group Status Bit 14" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB13 ,Group Status Bit 13" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB12 ,Group Status Bit 12" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB11 ,Group Status Bit 11" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB10 ,Group Status Bit 10" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB9 ,Group Status Bit 9" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB8 ,Group Status Bit 8" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB7 ,Group Status Bit 7" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB6 ,Group Status Bit 6" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB5 ,Group Status Bit 5" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB4 ,Group Status Bit 4" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB3 ,Group Status Bit 3" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB2 ,Group Status Bit 2" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB1 ,Group Status Bit 1" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB0 ,Group Status Bit 0" "Secure,Non-secure Group 1" elif (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00) group.long 0x0080++0x03 line.long 0x0 "GICD_IGROUPR0,Interrupt Group Register 0" bitfld.long 0x00 31. " GSB31 ,Group Status Bit 31" "Group 0,Group 1" bitfld.long 0x00 30. " GSB30 ,Group Status Bit 30" "Group 0,Group 1" bitfld.long 0x00 29. " GSB29 ,Group Status Bit 29" "Group 0,Group 1" textline " " bitfld.long 0x00 28. " GSB28 ,Group Status Bit 28" "Group 0,Group 1" bitfld.long 0x00 27. " GSB27 ,Group Status Bit 27" "Group 0,Group 1" bitfld.long 0x00 26. " GSB26 ,Group Status Bit 26" "Group 0,Group 1" textline " " bitfld.long 0x00 25. " GSB25 ,Group Status Bit 25" "Group 0,Group 1" bitfld.long 0x00 24. " GSB24 ,Group Status Bit 24" "Group 0,Group 1" bitfld.long 0x00 23. " GSB23 ,Group Status Bit 23" "Group 0,Group 1" textline " " bitfld.long 0x00 22. " GSB22 ,Group Status Bit 22" "Group 0,Group 1" bitfld.long 0x00 21. " GSB21 ,Group Status Bit 21" "Group 0,Group 1" bitfld.long 0x00 20. " GSB20 ,Group Status Bit 20" "Group 0,Group 1" textline " " bitfld.long 0x00 19. " GSB19 ,Group Status Bit 19" "Group 0,Group 1" bitfld.long 0x00 18. " GSB18 ,Group Status Bit 18" "Group 0,Group 1" bitfld.long 0x00 17. " GSB17 ,Group Status Bit 17" "Group 0,Group 1" textline " " bitfld.long 0x00 16. " GSB16 ,Group Status Bit 16" "Group 0,Group 1" bitfld.long 0x00 15. " GSB15 ,Group Status Bit 15" "Group 0,Group 1" bitfld.long 0x00 14. " GSB14 ,Group Status Bit 14" "Group 0,Group 1" textline " " bitfld.long 0x00 13. " GSB13 ,Group Status Bit 13" "Group 0,Group 1" bitfld.long 0x00 12. " GSB12 ,Group Status Bit 12" "Group 0,Group 1" bitfld.long 0x00 11. " GSB11 ,Group Status Bit 11" "Group 0,Group 1" textline " " bitfld.long 0x00 10. " GSB10 ,Group Status Bit 10" "Group 0,Group 1" bitfld.long 0x00 9. " GSB9 ,Group Status Bit 9" "Group 0,Group 1" bitfld.long 0x00 8. " GSB8 ,Group Status Bit 8" "Group 0,Group 1" textline " " bitfld.long 0x00 7. " GSB7 ,Group Status Bit 7" "Group 0,Group 1" bitfld.long 0x00 6. " GSB6 ,Group Status Bit 6" "Group 0,Group 1" bitfld.long 0x00 5. " GSB5 ,Group Status Bit 5" "Group 0,Group 1" textline " " bitfld.long 0x00 4. " GSB4 ,Group Status Bit 4" "Group 0,Group 1" bitfld.long 0x00 3. " GSB3 ,Group Status Bit 3" "Group 0,Group 1" bitfld.long 0x00 2. " GSB2 ,Group Status Bit 2" "Group 0,Group 1" textline " " bitfld.long 0x00 1. " GSB1 ,Group Status Bit 1" "Group 0,Group 1" bitfld.long 0x00 0. " GSB0 ,Group Status Bit 0" "Group 0,Group 1" else hgroup.long 0x0080++0x03 hide.long 0x0 "GICD_IGROUPR0,Interrupt Group Register 0 (Non-secure access)" textline " " textline " " textline " " textline " " textline " " textline " " textline " " textline " " textline " " textline " " endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x84))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1)) group.long 0x0084++0x03 line.long 0x0 "GICD_IGROUPR1 ,Interrupt Group Register 1 (Secure Access)" bitfld.long 0x00 31. " GSB63 ,Group Status Bit 63" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB62 ,Group Status Bit 62" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB61 ,Group Status Bit 61" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB60 ,Group Status Bit 60" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB59 ,Group Status Bit 59" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB58 ,Group Status Bit 58" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB57 ,Group Status Bit 57" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB56 ,Group Status Bit 56" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB55 ,Group Status Bit 55" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB54 ,Group Status Bit 54" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB53 ,Group Status Bit 53" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB52 ,Group Status Bit 52" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB51 ,Group Status Bit 51" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB50 ,Group Status Bit 50" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB49 ,Group Status Bit 49" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB48 ,Group Status Bit 48" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB47 ,Group Status Bit 47" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB46 ,Group Status Bit 46" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB45 ,Group Status Bit 45" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB44 ,Group Status Bit 44" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB43 ,Group Status Bit 43" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB42 ,Group Status Bit 42" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB41 ,Group Status Bit 41" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB40 ,Group Status Bit 40" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB39 ,Group Status Bit 39" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB38 ,Group Status Bit 38" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB37 ,Group Status Bit 37" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB36 ,Group Status Bit 36" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB35 ,Group Status Bit 35" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB34 ,Group Status Bit 34" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB33 ,Group Status Bit 33" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB32 ,Group Status Bit 32" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1)) group.long 0x0084++0x03 line.long 0x0 "GICD_IGROUPR1 ,Interrupt Group Register 1 " bitfld.long 0x00 31. " GSB63 ,Group Status Bit 63" "Group 0,Group 1" bitfld.long 0x00 30. " GSB62 ,Group Status Bit 62" "Group 0,Group 1" bitfld.long 0x00 29. " GSB61 ,Group Status Bit 61" "Group 0,Group 1" textline " " bitfld.long 0x00 28. " GSB60 ,Group Status Bit 60" "Group 0,Group 1" bitfld.long 0x00 27. " GSB59 ,Group Status Bit 59" "Group 0,Group 1" bitfld.long 0x00 26. " GSB58 ,Group Status Bit 58" "Group 0,Group 1" textline " " bitfld.long 0x00 25. " GSB57 ,Group Status Bit 57" "Group 0,Group 1" bitfld.long 0x00 24. " GSB56 ,Group Status Bit 56" "Group 0,Group 1" bitfld.long 0x00 23. " GSB55 ,Group Status Bit 55" "Group 0,Group 1" textline " " bitfld.long 0x00 22. " GSB54 ,Group Status Bit 54" "Group 0,Group 1" bitfld.long 0x00 21. " GSB53 ,Group Status Bit 53" "Group 0,Group 1" bitfld.long 0x00 20. " GSB52 ,Group Status Bit 52" "Group 0,Group 1" textline " " bitfld.long 0x00 19. " GSB51 ,Group Status Bit 51" "Group 0,Group 1" bitfld.long 0x00 18. " GSB50 ,Group Status Bit 50" "Group 0,Group 1" bitfld.long 0x00 17. " GSB49 ,Group Status Bit 49" "Group 0,Group 1" textline " " bitfld.long 0x00 16. " GSB48 ,Group Status Bit 48" "Group 0,Group 1" bitfld.long 0x00 15. " GSB47 ,Group Status Bit 47" "Group 0,Group 1" bitfld.long 0x00 14. " GSB46 ,Group Status Bit 46" "Group 0,Group 1" textline " " bitfld.long 0x00 13. " GSB45 ,Group Status Bit 45" "Group 0,Group 1" bitfld.long 0x00 12. " GSB44 ,Group Status Bit 44" "Group 0,Group 1" bitfld.long 0x00 11. " GSB43 ,Group Status Bit 43" "Group 0,Group 1" textline " " bitfld.long 0x00 10. " GSB42 ,Group Status Bit 42" "Group 0,Group 1" bitfld.long 0x00 9. " GSB41 ,Group Status Bit 41" "Group 0,Group 1" bitfld.long 0x00 8. " GSB40 ,Group Status Bit 40" "Group 0,Group 1" textline " " bitfld.long 0x00 7. " GSB39 ,Group Status Bit 39" "Group 0,Group 1" bitfld.long 0x00 6. " GSB38 ,Group Status Bit 38" "Group 0,Group 1" bitfld.long 0x00 5. " GSB37 ,Group Status Bit 37" "Group 0,Group 1" textline " " bitfld.long 0x00 4. " GSB36 ,Group Status Bit 36" "Group 0,Group 1" bitfld.long 0x00 3. " GSB35 ,Group Status Bit 35" "Group 0,Group 1" bitfld.long 0x00 2. " GSB34 ,Group Status Bit 34" "Group 0,Group 1" textline " " bitfld.long 0x00 1. " GSB33 ,Group Status Bit 33" "Group 0,Group 1" bitfld.long 0x00 0. " GSB32 ,Group Status Bit 32" "Group 0,Group 1" else hgroup.long 0x0084++0x03 hide.long 0x0 "GICD_IGROUPR1 ,Interrupt Group Register 1 " endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x88))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x2)) group.long 0x0088++0x03 line.long 0x0 "GICD_IGROUPR2 ,Interrupt Group Register 2 (Secure Access)" bitfld.long 0x00 31. " GSB95 ,Group Status Bit 95" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB94 ,Group Status Bit 94" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB93 ,Group Status Bit 93" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB92 ,Group Status Bit 92" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB91 ,Group Status Bit 91" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB90 ,Group Status Bit 90" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB89 ,Group Status Bit 89" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB88 ,Group Status Bit 88" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB87 ,Group Status Bit 87" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB86 ,Group Status Bit 86" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB85 ,Group Status Bit 85" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB84 ,Group Status Bit 84" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB83 ,Group Status Bit 83" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB82 ,Group Status Bit 82" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB81 ,Group Status Bit 81" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB80 ,Group Status Bit 80" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB79 ,Group Status Bit 79" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB78 ,Group Status Bit 78" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB77 ,Group Status Bit 77" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB76 ,Group Status Bit 76" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB75 ,Group Status Bit 75" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB74 ,Group Status Bit 74" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB73 ,Group Status Bit 73" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB72 ,Group Status Bit 72" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB71 ,Group Status Bit 71" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB70 ,Group Status Bit 70" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB69 ,Group Status Bit 69" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB68 ,Group Status Bit 68" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB67 ,Group Status Bit 67" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB66 ,Group Status Bit 66" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB65 ,Group Status Bit 65" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB64 ,Group Status Bit 64" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x2)) group.long 0x0088++0x03 line.long 0x0 "GICD_IGROUPR2 ,Interrupt Group Register 2 " bitfld.long 0x00 31. " GSB95 ,Group Status Bit 95" "Group 0,Group 1" bitfld.long 0x00 30. " GSB94 ,Group Status Bit 94" "Group 0,Group 1" bitfld.long 0x00 29. " GSB93 ,Group Status Bit 93" "Group 0,Group 1" textline " " bitfld.long 0x00 28. " GSB92 ,Group Status Bit 92" "Group 0,Group 1" bitfld.long 0x00 27. " GSB91 ,Group Status Bit 91" "Group 0,Group 1" bitfld.long 0x00 26. " GSB90 ,Group Status Bit 90" "Group 0,Group 1" textline " " bitfld.long 0x00 25. " GSB89 ,Group Status Bit 89" "Group 0,Group 1" bitfld.long 0x00 24. " GSB88 ,Group Status Bit 88" "Group 0,Group 1" bitfld.long 0x00 23. " GSB87 ,Group Status Bit 87" "Group 0,Group 1" textline " " bitfld.long 0x00 22. " GSB86 ,Group Status Bit 86" "Group 0,Group 1" bitfld.long 0x00 21. " GSB85 ,Group Status Bit 85" "Group 0,Group 1" bitfld.long 0x00 20. " GSB84 ,Group Status Bit 84" "Group 0,Group 1" textline " " bitfld.long 0x00 19. " GSB83 ,Group Status Bit 83" "Group 0,Group 1" bitfld.long 0x00 18. " GSB82 ,Group Status Bit 82" "Group 0,Group 1" bitfld.long 0x00 17. " GSB81 ,Group Status Bit 81" "Group 0,Group 1" textline " " bitfld.long 0x00 16. " GSB80 ,Group Status Bit 80" "Group 0,Group 1" bitfld.long 0x00 15. " GSB79 ,Group Status Bit 79" "Group 0,Group 1" bitfld.long 0x00 14. " GSB78 ,Group Status Bit 78" "Group 0,Group 1" textline " " bitfld.long 0x00 13. " GSB77 ,Group Status Bit 77" "Group 0,Group 1" bitfld.long 0x00 12. " GSB76 ,Group Status Bit 76" "Group 0,Group 1" bitfld.long 0x00 11. " GSB75 ,Group Status Bit 75" "Group 0,Group 1" textline " " bitfld.long 0x00 10. " GSB74 ,Group Status Bit 74" "Group 0,Group 1" bitfld.long 0x00 9. " GSB73 ,Group Status Bit 73" "Group 0,Group 1" bitfld.long 0x00 8. " GSB72 ,Group Status Bit 72" "Group 0,Group 1" textline " " bitfld.long 0x00 7. " GSB71 ,Group Status Bit 71" "Group 0,Group 1" bitfld.long 0x00 6. " GSB70 ,Group Status Bit 70" "Group 0,Group 1" bitfld.long 0x00 5. " GSB69 ,Group Status Bit 69" "Group 0,Group 1" textline " " bitfld.long 0x00 4. " GSB68 ,Group Status Bit 68" "Group 0,Group 1" bitfld.long 0x00 3. " GSB67 ,Group Status Bit 67" "Group 0,Group 1" bitfld.long 0x00 2. " GSB66 ,Group Status Bit 66" "Group 0,Group 1" textline " " bitfld.long 0x00 1. " GSB65 ,Group Status Bit 65" "Group 0,Group 1" bitfld.long 0x00 0. " GSB64 ,Group Status Bit 64" "Group 0,Group 1" else hgroup.long 0x0088++0x03 hide.long 0x0 "GICD_IGROUPR2 ,Interrupt Group Register 2 " endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x8C))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x3)) group.long 0x008C++0x03 line.long 0x0 "GICD_IGROUPR3 ,Interrupt Group Register 3 (Secure Access)" bitfld.long 0x00 31. " GSB127 ,Group Status Bit 127" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB126 ,Group Status Bit 126" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB125 ,Group Status Bit 125" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB124 ,Group Status Bit 124" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB123 ,Group Status Bit 123" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB122 ,Group Status Bit 122" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB121 ,Group Status Bit 121" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB120 ,Group Status Bit 120" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB119 ,Group Status Bit 119" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB118 ,Group Status Bit 118" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB117 ,Group Status Bit 117" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB116 ,Group Status Bit 116" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB115 ,Group Status Bit 115" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB114 ,Group Status Bit 114" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB113 ,Group Status Bit 113" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB112 ,Group Status Bit 112" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB111 ,Group Status Bit 111" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB110 ,Group Status Bit 110" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB109 ,Group Status Bit 109" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB108 ,Group Status Bit 108" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB107 ,Group Status Bit 107" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB106 ,Group Status Bit 106" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB105 ,Group Status Bit 105" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB104 ,Group Status Bit 104" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB103 ,Group Status Bit 103" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB102 ,Group Status Bit 102" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB101 ,Group Status Bit 101" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB100 ,Group Status Bit 100" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB99 ,Group Status Bit 99" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB98 ,Group Status Bit 98" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB97 ,Group Status Bit 97" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB96 ,Group Status Bit 96" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x3)) group.long 0x008C++0x03 line.long 0x0 "GICD_IGROUPR3 ,Interrupt Group Register 3 " bitfld.long 0x00 31. " GSB127 ,Group Status Bit 127" "Group 0,Group 1" bitfld.long 0x00 30. " GSB126 ,Group Status Bit 126" "Group 0,Group 1" bitfld.long 0x00 29. " GSB125 ,Group Status Bit 125" "Group 0,Group 1" textline " " bitfld.long 0x00 28. " GSB124 ,Group Status Bit 124" "Group 0,Group 1" bitfld.long 0x00 27. " GSB123 ,Group Status Bit 123" "Group 0,Group 1" bitfld.long 0x00 26. " GSB122 ,Group Status Bit 122" "Group 0,Group 1" textline " " bitfld.long 0x00 25. " GSB121 ,Group Status Bit 121" "Group 0,Group 1" bitfld.long 0x00 24. " GSB120 ,Group Status Bit 120" "Group 0,Group 1" bitfld.long 0x00 23. " GSB119 ,Group Status Bit 119" "Group 0,Group 1" textline " " bitfld.long 0x00 22. " GSB118 ,Group Status Bit 118" "Group 0,Group 1" bitfld.long 0x00 21. " GSB117 ,Group Status Bit 117" "Group 0,Group 1" bitfld.long 0x00 20. " GSB116 ,Group Status Bit 116" "Group 0,Group 1" textline " " bitfld.long 0x00 19. " GSB115 ,Group Status Bit 115" "Group 0,Group 1" bitfld.long 0x00 18. " GSB114 ,Group Status Bit 114" "Group 0,Group 1" bitfld.long 0x00 17. " GSB113 ,Group Status Bit 113" "Group 0,Group 1" textline " " bitfld.long 0x00 16. " GSB112 ,Group Status Bit 112" "Group 0,Group 1" bitfld.long 0x00 15. " GSB111 ,Group Status Bit 111" "Group 0,Group 1" bitfld.long 0x00 14. " GSB110 ,Group Status Bit 110" "Group 0,Group 1" textline " " bitfld.long 0x00 13. " GSB109 ,Group Status Bit 109" "Group 0,Group 1" bitfld.long 0x00 12. " GSB108 ,Group Status Bit 108" "Group 0,Group 1" bitfld.long 0x00 11. " GSB107 ,Group Status Bit 107" "Group 0,Group 1" textline " " bitfld.long 0x00 10. " GSB106 ,Group Status Bit 106" "Group 0,Group 1" bitfld.long 0x00 9. " GSB105 ,Group Status Bit 105" "Group 0,Group 1" bitfld.long 0x00 8. " GSB104 ,Group Status Bit 104" "Group 0,Group 1" textline " " bitfld.long 0x00 7. " GSB103 ,Group Status Bit 103" "Group 0,Group 1" bitfld.long 0x00 6. " GSB102 ,Group Status Bit 102" "Group 0,Group 1" bitfld.long 0x00 5. " GSB101 ,Group Status Bit 101" "Group 0,Group 1" textline " " bitfld.long 0x00 4. " GSB100 ,Group Status Bit 100" "Group 0,Group 1" bitfld.long 0x00 3. " GSB99 ,Group Status Bit 99" "Group 0,Group 1" bitfld.long 0x00 2. " GSB98 ,Group Status Bit 98" "Group 0,Group 1" textline " " bitfld.long 0x00 1. " GSB97 ,Group Status Bit 97" "Group 0,Group 1" bitfld.long 0x00 0. " GSB96 ,Group Status Bit 96" "Group 0,Group 1" else hgroup.long 0x008C++0x03 hide.long 0x0 "GICD_IGROUPR3 ,Interrupt Group Register 3 " endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x90))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x4)) group.long 0x0090++0x03 line.long 0x0 "GICD_IGROUPR4 ,Interrupt Group Register 4 (Secure Access)" bitfld.long 0x00 31. " GSB159 ,Group Status Bit 159" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB158 ,Group Status Bit 158" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB157 ,Group Status Bit 157" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB156 ,Group Status Bit 156" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB155 ,Group Status Bit 155" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB154 ,Group Status Bit 154" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB153 ,Group Status Bit 153" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB152 ,Group Status Bit 152" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB151 ,Group Status Bit 151" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB150 ,Group Status Bit 150" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB149 ,Group Status Bit 149" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB148 ,Group Status Bit 148" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB147 ,Group Status Bit 147" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB146 ,Group Status Bit 146" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB145 ,Group Status Bit 145" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB144 ,Group Status Bit 144" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB143 ,Group Status Bit 143" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB142 ,Group Status Bit 142" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB141 ,Group Status Bit 141" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB140 ,Group Status Bit 140" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB139 ,Group Status Bit 139" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB138 ,Group Status Bit 138" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB137 ,Group Status Bit 137" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB136 ,Group Status Bit 136" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB135 ,Group Status Bit 135" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB134 ,Group Status Bit 134" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB133 ,Group Status Bit 133" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB132 ,Group Status Bit 132" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB131 ,Group Status Bit 131" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB130 ,Group Status Bit 130" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB129 ,Group Status Bit 129" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB128 ,Group Status Bit 128" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x4)) group.long 0x0090++0x03 line.long 0x0 "GICD_IGROUPR4 ,Interrupt Group Register 4 " bitfld.long 0x00 31. " GSB159 ,Group Status Bit 159" "Group 0,Group 1" bitfld.long 0x00 30. " GSB158 ,Group Status Bit 158" "Group 0,Group 1" bitfld.long 0x00 29. " GSB157 ,Group Status Bit 157" "Group 0,Group 1" textline " " bitfld.long 0x00 28. " GSB156 ,Group Status Bit 156" "Group 0,Group 1" bitfld.long 0x00 27. " GSB155 ,Group Status Bit 155" "Group 0,Group 1" bitfld.long 0x00 26. " GSB154 ,Group Status Bit 154" "Group 0,Group 1" textline " " bitfld.long 0x00 25. " GSB153 ,Group Status Bit 153" "Group 0,Group 1" bitfld.long 0x00 24. " GSB152 ,Group Status Bit 152" "Group 0,Group 1" bitfld.long 0x00 23. " GSB151 ,Group Status Bit 151" "Group 0,Group 1" textline " " bitfld.long 0x00 22. " GSB150 ,Group Status Bit 150" "Group 0,Group 1" bitfld.long 0x00 21. " GSB149 ,Group Status Bit 149" "Group 0,Group 1" bitfld.long 0x00 20. " GSB148 ,Group Status Bit 148" "Group 0,Group 1" textline " " bitfld.long 0x00 19. " GSB147 ,Group Status Bit 147" "Group 0,Group 1" bitfld.long 0x00 18. " GSB146 ,Group Status Bit 146" "Group 0,Group 1" bitfld.long 0x00 17. " GSB145 ,Group Status Bit 145" "Group 0,Group 1" textline " " bitfld.long 0x00 16. " GSB144 ,Group Status Bit 144" "Group 0,Group 1" bitfld.long 0x00 15. " GSB143 ,Group Status Bit 143" "Group 0,Group 1" bitfld.long 0x00 14. " GSB142 ,Group Status Bit 142" "Group 0,Group 1" textline " " bitfld.long 0x00 13. " GSB141 ,Group Status Bit 141" "Group 0,Group 1" bitfld.long 0x00 12. " GSB140 ,Group Status Bit 140" "Group 0,Group 1" bitfld.long 0x00 11. " GSB139 ,Group Status Bit 139" "Group 0,Group 1" textline " " bitfld.long 0x00 10. " GSB138 ,Group Status Bit 138" "Group 0,Group 1" bitfld.long 0x00 9. " GSB137 ,Group Status Bit 137" "Group 0,Group 1" bitfld.long 0x00 8. " GSB136 ,Group Status Bit 136" "Group 0,Group 1" textline " " bitfld.long 0x00 7. " GSB135 ,Group Status Bit 135" "Group 0,Group 1" bitfld.long 0x00 6. " GSB134 ,Group Status Bit 134" "Group 0,Group 1" bitfld.long 0x00 5. " GSB133 ,Group Status Bit 133" "Group 0,Group 1" textline " " bitfld.long 0x00 4. " GSB132 ,Group Status Bit 132" "Group 0,Group 1" bitfld.long 0x00 3. " GSB131 ,Group Status Bit 131" "Group 0,Group 1" bitfld.long 0x00 2. " GSB130 ,Group Status Bit 130" "Group 0,Group 1" textline " " bitfld.long 0x00 1. " GSB129 ,Group Status Bit 129" "Group 0,Group 1" bitfld.long 0x00 0. " GSB128 ,Group Status Bit 128" "Group 0,Group 1" else hgroup.long 0x0090++0x03 hide.long 0x0 "GICD_IGROUPR4 ,Interrupt Group Register 4 " endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x94))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x5)) group.long 0x0094++0x03 line.long 0x0 "GICD_IGROUPR5 ,Interrupt Group Register 5 (Secure Access)" bitfld.long 0x00 31. " GSB191 ,Group Status Bit 191" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB190 ,Group Status Bit 190" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB189 ,Group Status Bit 189" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB188 ,Group Status Bit 188" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB187 ,Group Status Bit 187" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB186 ,Group Status Bit 186" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB185 ,Group Status Bit 185" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB184 ,Group Status Bit 184" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB183 ,Group Status Bit 183" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB182 ,Group Status Bit 182" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB181 ,Group Status Bit 181" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB180 ,Group Status Bit 180" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB179 ,Group Status Bit 179" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB178 ,Group Status Bit 178" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB177 ,Group Status Bit 177" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB176 ,Group Status Bit 176" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB175 ,Group Status Bit 175" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB174 ,Group Status Bit 174" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB173 ,Group Status Bit 173" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB172 ,Group Status Bit 172" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB171 ,Group Status Bit 171" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB170 ,Group Status Bit 170" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB169 ,Group Status Bit 169" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB168 ,Group Status Bit 168" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB167 ,Group Status Bit 167" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB166 ,Group Status Bit 166" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB165 ,Group Status Bit 165" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB164 ,Group Status Bit 164" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB163 ,Group Status Bit 163" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB162 ,Group Status Bit 162" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB161 ,Group Status Bit 161" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB160 ,Group Status Bit 160" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x5)) group.long 0x0094++0x03 line.long 0x0 "GICD_IGROUPR5 ,Interrupt Group Register 5 " bitfld.long 0x00 31. " GSB191 ,Group Status Bit 191" "Group 0,Group 1" bitfld.long 0x00 30. " GSB190 ,Group Status Bit 190" "Group 0,Group 1" bitfld.long 0x00 29. " GSB189 ,Group Status Bit 189" "Group 0,Group 1" textline " " bitfld.long 0x00 28. " GSB188 ,Group Status Bit 188" "Group 0,Group 1" bitfld.long 0x00 27. " GSB187 ,Group Status Bit 187" "Group 0,Group 1" bitfld.long 0x00 26. " GSB186 ,Group Status Bit 186" "Group 0,Group 1" textline " " bitfld.long 0x00 25. " GSB185 ,Group Status Bit 185" "Group 0,Group 1" bitfld.long 0x00 24. " GSB184 ,Group Status Bit 184" "Group 0,Group 1" bitfld.long 0x00 23. " GSB183 ,Group Status Bit 183" "Group 0,Group 1" textline " " bitfld.long 0x00 22. " GSB182 ,Group Status Bit 182" "Group 0,Group 1" bitfld.long 0x00 21. " GSB181 ,Group Status Bit 181" "Group 0,Group 1" bitfld.long 0x00 20. " GSB180 ,Group Status Bit 180" "Group 0,Group 1" textline " " bitfld.long 0x00 19. " GSB179 ,Group Status Bit 179" "Group 0,Group 1" bitfld.long 0x00 18. " GSB178 ,Group Status Bit 178" "Group 0,Group 1" bitfld.long 0x00 17. " GSB177 ,Group Status Bit 177" "Group 0,Group 1" textline " " bitfld.long 0x00 16. " GSB176 ,Group Status Bit 176" "Group 0,Group 1" bitfld.long 0x00 15. " GSB175 ,Group Status Bit 175" "Group 0,Group 1" bitfld.long 0x00 14. " GSB174 ,Group Status Bit 174" "Group 0,Group 1" textline " " bitfld.long 0x00 13. " GSB173 ,Group Status Bit 173" "Group 0,Group 1" bitfld.long 0x00 12. " GSB172 ,Group Status Bit 172" "Group 0,Group 1" bitfld.long 0x00 11. " GSB171 ,Group Status Bit 171" "Group 0,Group 1" textline " " bitfld.long 0x00 10. " GSB170 ,Group Status Bit 170" "Group 0,Group 1" bitfld.long 0x00 9. " GSB169 ,Group Status Bit 169" "Group 0,Group 1" bitfld.long 0x00 8. " GSB168 ,Group Status Bit 168" "Group 0,Group 1" textline " " bitfld.long 0x00 7. " GSB167 ,Group Status Bit 167" "Group 0,Group 1" bitfld.long 0x00 6. " GSB166 ,Group Status Bit 166" "Group 0,Group 1" bitfld.long 0x00 5. " GSB165 ,Group Status Bit 165" "Group 0,Group 1" textline " " bitfld.long 0x00 4. " GSB164 ,Group Status Bit 164" "Group 0,Group 1" bitfld.long 0x00 3. " GSB163 ,Group Status Bit 163" "Group 0,Group 1" bitfld.long 0x00 2. " GSB162 ,Group Status Bit 162" "Group 0,Group 1" textline " " bitfld.long 0x00 1. " GSB161 ,Group Status Bit 161" "Group 0,Group 1" bitfld.long 0x00 0. " GSB160 ,Group Status Bit 160" "Group 0,Group 1" else hgroup.long 0x0094++0x03 hide.long 0x0 "GICD_IGROUPR5 ,Interrupt Group Register 5 " endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x98))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x6)) group.long 0x0098++0x03 line.long 0x0 "GICD_IGROUPR6 ,Interrupt Group Register 6 (Secure Access)" bitfld.long 0x00 31. " GSB223 ,Group Status Bit 223" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB222 ,Group Status Bit 222" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB221 ,Group Status Bit 221" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB220 ,Group Status Bit 220" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB219 ,Group Status Bit 219" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB218 ,Group Status Bit 218" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB217 ,Group Status Bit 217" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB216 ,Group Status Bit 216" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB215 ,Group Status Bit 215" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB214 ,Group Status Bit 214" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB213 ,Group Status Bit 213" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB212 ,Group Status Bit 212" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB211 ,Group Status Bit 211" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB210 ,Group Status Bit 210" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB209 ,Group Status Bit 209" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB208 ,Group Status Bit 208" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB207 ,Group Status Bit 207" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB206 ,Group Status Bit 206" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB205 ,Group Status Bit 205" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB204 ,Group Status Bit 204" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB203 ,Group Status Bit 203" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB202 ,Group Status Bit 202" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB201 ,Group Status Bit 201" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB200 ,Group Status Bit 200" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB199 ,Group Status Bit 199" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB198 ,Group Status Bit 198" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB197 ,Group Status Bit 197" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB196 ,Group Status Bit 196" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB195 ,Group Status Bit 195" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB194 ,Group Status Bit 194" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB193 ,Group Status Bit 193" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB192 ,Group Status Bit 192" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x6)) group.long 0x0098++0x03 line.long 0x0 "GICD_IGROUPR6 ,Interrupt Group Register 6 " bitfld.long 0x00 31. " GSB223 ,Group Status Bit 223" "Group 0,Group 1" bitfld.long 0x00 30. " GSB222 ,Group Status Bit 222" "Group 0,Group 1" bitfld.long 0x00 29. " GSB221 ,Group Status Bit 221" "Group 0,Group 1" textline " " bitfld.long 0x00 28. " GSB220 ,Group Status Bit 220" "Group 0,Group 1" bitfld.long 0x00 27. " GSB219 ,Group Status Bit 219" "Group 0,Group 1" bitfld.long 0x00 26. " GSB218 ,Group Status Bit 218" "Group 0,Group 1" textline " " bitfld.long 0x00 25. " GSB217 ,Group Status Bit 217" "Group 0,Group 1" bitfld.long 0x00 24. " GSB216 ,Group Status Bit 216" "Group 0,Group 1" bitfld.long 0x00 23. " GSB215 ,Group Status Bit 215" "Group 0,Group 1" textline " " bitfld.long 0x00 22. " GSB214 ,Group Status Bit 214" "Group 0,Group 1" bitfld.long 0x00 21. " GSB213 ,Group Status Bit 213" "Group 0,Group 1" bitfld.long 0x00 20. " GSB212 ,Group Status Bit 212" "Group 0,Group 1" textline " " bitfld.long 0x00 19. " GSB211 ,Group Status Bit 211" "Group 0,Group 1" bitfld.long 0x00 18. " GSB210 ,Group Status Bit 210" "Group 0,Group 1" bitfld.long 0x00 17. " GSB209 ,Group Status Bit 209" "Group 0,Group 1" textline " " bitfld.long 0x00 16. " GSB208 ,Group Status Bit 208" "Group 0,Group 1" bitfld.long 0x00 15. " GSB207 ,Group Status Bit 207" "Group 0,Group 1" bitfld.long 0x00 14. " GSB206 ,Group Status Bit 206" "Group 0,Group 1" textline " " bitfld.long 0x00 13. " GSB205 ,Group Status Bit 205" "Group 0,Group 1" bitfld.long 0x00 12. " GSB204 ,Group Status Bit 204" "Group 0,Group 1" bitfld.long 0x00 11. " GSB203 ,Group Status Bit 203" "Group 0,Group 1" textline " " bitfld.long 0x00 10. " GSB202 ,Group Status Bit 202" "Group 0,Group 1" bitfld.long 0x00 9. " GSB201 ,Group Status Bit 201" "Group 0,Group 1" bitfld.long 0x00 8. " GSB200 ,Group Status Bit 200" "Group 0,Group 1" textline " " bitfld.long 0x00 7. " GSB199 ,Group Status Bit 199" "Group 0,Group 1" bitfld.long 0x00 6. " GSB198 ,Group Status Bit 198" "Group 0,Group 1" bitfld.long 0x00 5. " GSB197 ,Group Status Bit 197" "Group 0,Group 1" textline " " bitfld.long 0x00 4. " GSB196 ,Group Status Bit 196" "Group 0,Group 1" bitfld.long 0x00 3. " GSB195 ,Group Status Bit 195" "Group 0,Group 1" bitfld.long 0x00 2. " GSB194 ,Group Status Bit 194" "Group 0,Group 1" textline " " bitfld.long 0x00 1. " GSB193 ,Group Status Bit 193" "Group 0,Group 1" bitfld.long 0x00 0. " GSB192 ,Group Status Bit 192" "Group 0,Group 1" else hgroup.long 0x0098++0x03 hide.long 0x0 "GICD_IGROUPR6 ,Interrupt Group Register 6 " endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x9C))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x7)) group.long 0x009C++0x03 line.long 0x0 "GICD_IGROUPR7 ,Interrupt Group Register 7 (Secure Access)" bitfld.long 0x00 31. " GSB255 ,Group Status Bit 255" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB254 ,Group Status Bit 254" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB253 ,Group Status Bit 253" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB252 ,Group Status Bit 252" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB251 ,Group Status Bit 251" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB250 ,Group Status Bit 250" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB249 ,Group Status Bit 249" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB248 ,Group Status Bit 248" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB247 ,Group Status Bit 247" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB246 ,Group Status Bit 246" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB245 ,Group Status Bit 245" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB244 ,Group Status Bit 244" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB243 ,Group Status Bit 243" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB242 ,Group Status Bit 242" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB241 ,Group Status Bit 241" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB240 ,Group Status Bit 240" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB239 ,Group Status Bit 239" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB238 ,Group Status Bit 238" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB237 ,Group Status Bit 237" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB236 ,Group Status Bit 236" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB235 ,Group Status Bit 235" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB234 ,Group Status Bit 234" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB233 ,Group Status Bit 233" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB232 ,Group Status Bit 232" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB231 ,Group Status Bit 231" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB230 ,Group Status Bit 230" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB229 ,Group Status Bit 229" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB228 ,Group Status Bit 228" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB227 ,Group Status Bit 227" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB226 ,Group Status Bit 226" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB225 ,Group Status Bit 225" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB224 ,Group Status Bit 224" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x7)) group.long 0x009C++0x03 line.long 0x0 "GICD_IGROUPR7 ,Interrupt Group Register 7 " bitfld.long 0x00 31. " GSB255 ,Group Status Bit 255" "Group 0,Group 1" bitfld.long 0x00 30. " GSB254 ,Group Status Bit 254" "Group 0,Group 1" bitfld.long 0x00 29. " GSB253 ,Group Status Bit 253" "Group 0,Group 1" textline " " bitfld.long 0x00 28. " GSB252 ,Group Status Bit 252" "Group 0,Group 1" bitfld.long 0x00 27. " GSB251 ,Group Status Bit 251" "Group 0,Group 1" bitfld.long 0x00 26. " GSB250 ,Group Status Bit 250" "Group 0,Group 1" textline " " bitfld.long 0x00 25. " GSB249 ,Group Status Bit 249" "Group 0,Group 1" bitfld.long 0x00 24. " GSB248 ,Group Status Bit 248" "Group 0,Group 1" bitfld.long 0x00 23. " GSB247 ,Group Status Bit 247" "Group 0,Group 1" textline " " bitfld.long 0x00 22. " GSB246 ,Group Status Bit 246" "Group 0,Group 1" bitfld.long 0x00 21. " GSB245 ,Group Status Bit 245" "Group 0,Group 1" bitfld.long 0x00 20. " GSB244 ,Group Status Bit 244" "Group 0,Group 1" textline " " bitfld.long 0x00 19. " GSB243 ,Group Status Bit 243" "Group 0,Group 1" bitfld.long 0x00 18. " GSB242 ,Group Status Bit 242" "Group 0,Group 1" bitfld.long 0x00 17. " GSB241 ,Group Status Bit 241" "Group 0,Group 1" textline " " bitfld.long 0x00 16. " GSB240 ,Group Status Bit 240" "Group 0,Group 1" bitfld.long 0x00 15. " GSB239 ,Group Status Bit 239" "Group 0,Group 1" bitfld.long 0x00 14. " GSB238 ,Group Status Bit 238" "Group 0,Group 1" textline " " bitfld.long 0x00 13. " GSB237 ,Group Status Bit 237" "Group 0,Group 1" bitfld.long 0x00 12. " GSB236 ,Group Status Bit 236" "Group 0,Group 1" bitfld.long 0x00 11. " GSB235 ,Group Status Bit 235" "Group 0,Group 1" textline " " bitfld.long 0x00 10. " GSB234 ,Group Status Bit 234" "Group 0,Group 1" bitfld.long 0x00 9. " GSB233 ,Group Status Bit 233" "Group 0,Group 1" bitfld.long 0x00 8. " GSB232 ,Group Status Bit 232" "Group 0,Group 1" textline " " bitfld.long 0x00 7. " GSB231 ,Group Status Bit 231" "Group 0,Group 1" bitfld.long 0x00 6. " GSB230 ,Group Status Bit 230" "Group 0,Group 1" bitfld.long 0x00 5. " GSB229 ,Group Status Bit 229" "Group 0,Group 1" textline " " bitfld.long 0x00 4. " GSB228 ,Group Status Bit 228" "Group 0,Group 1" bitfld.long 0x00 3. " GSB227 ,Group Status Bit 227" "Group 0,Group 1" bitfld.long 0x00 2. " GSB226 ,Group Status Bit 226" "Group 0,Group 1" textline " " bitfld.long 0x00 1. " GSB225 ,Group Status Bit 225" "Group 0,Group 1" bitfld.long 0x00 0. " GSB224 ,Group Status Bit 224" "Group 0,Group 1" else hgroup.long 0x009C++0x03 hide.long 0x0 "GICD_IGROUPR7 ,Interrupt Group Register 7 " endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xA0))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x8)) group.long 0x00A0++0x03 line.long 0x0 "GICD_IGROUPR8 ,Interrupt Group Register 8 (Secure Access)" bitfld.long 0x00 31. " GSB287 ,Group Status Bit 287" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB286 ,Group Status Bit 286" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB285 ,Group Status Bit 285" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB284 ,Group Status Bit 284" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB283 ,Group Status Bit 283" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB282 ,Group Status Bit 282" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB281 ,Group Status Bit 281" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB280 ,Group Status Bit 280" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB279 ,Group Status Bit 279" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB278 ,Group Status Bit 278" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB277 ,Group Status Bit 277" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB276 ,Group Status Bit 276" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB275 ,Group Status Bit 275" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB274 ,Group Status Bit 274" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB273 ,Group Status Bit 273" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB272 ,Group Status Bit 272" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB271 ,Group Status Bit 271" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB270 ,Group Status Bit 270" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB269 ,Group Status Bit 269" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB268 ,Group Status Bit 268" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB267 ,Group Status Bit 267" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB266 ,Group Status Bit 266" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB265 ,Group Status Bit 265" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB264 ,Group Status Bit 264" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB263 ,Group Status Bit 263" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB262 ,Group Status Bit 262" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB261 ,Group Status Bit 261" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB260 ,Group Status Bit 260" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB259 ,Group Status Bit 259" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB258 ,Group Status Bit 258" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB257 ,Group Status Bit 257" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB256 ,Group Status Bit 256" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x8)) group.long 0x00A0++0x03 line.long 0x0 "GICD_IGROUPR8 ,Interrupt Group Register 8 " 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 " endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xA4))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x9)) group.long 0x00A4++0x03 line.long 0x0 "GICD_IGROUPR9 ,Interrupt Group Register 9 (Secure Access)" bitfld.long 0x00 31. " GSB319 ,Group Status Bit 319" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB318 ,Group Status Bit 318" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB317 ,Group Status Bit 317" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB316 ,Group Status Bit 316" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB315 ,Group Status Bit 315" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB314 ,Group Status Bit 314" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB313 ,Group Status Bit 313" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB312 ,Group Status Bit 312" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB311 ,Group Status Bit 311" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB310 ,Group Status Bit 310" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB309 ,Group Status Bit 309" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB308 ,Group Status Bit 308" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB307 ,Group Status Bit 307" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB306 ,Group Status Bit 306" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB305 ,Group Status Bit 305" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB304 ,Group Status Bit 304" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB303 ,Group Status Bit 303" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB302 ,Group Status Bit 302" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB301 ,Group Status Bit 301" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB300 ,Group Status Bit 300" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB299 ,Group Status Bit 299" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB298 ,Group Status Bit 298" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB297 ,Group Status Bit 297" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB296 ,Group Status Bit 296" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB295 ,Group Status Bit 295" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB294 ,Group Status Bit 294" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB293 ,Group Status Bit 293" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB292 ,Group Status Bit 292" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB291 ,Group Status Bit 291" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB290 ,Group Status Bit 290" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB289 ,Group Status Bit 289" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB288 ,Group Status Bit 288" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x9)) group.long 0x00A4++0x03 line.long 0x0 "GICD_IGROUPR9 ,Interrupt Group Register 9 " 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 " endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xA8))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0xA)) group.long 0x00A8++0x03 line.long 0x0 "GICD_IGROUPR10,Interrupt Group Register 10 (Secure Access)" bitfld.long 0x00 31. " GSB351 ,Group Status Bit 351" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB350 ,Group Status Bit 350" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB349 ,Group Status Bit 349" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB348 ,Group Status Bit 348" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB347 ,Group Status Bit 347" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB346 ,Group Status Bit 346" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB345 ,Group Status Bit 345" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB344 ,Group Status Bit 344" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB343 ,Group Status Bit 343" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB342 ,Group Status Bit 342" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB341 ,Group Status Bit 341" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB340 ,Group Status Bit 340" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB339 ,Group Status Bit 339" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB338 ,Group Status Bit 338" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB337 ,Group Status Bit 337" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB336 ,Group Status Bit 336" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB335 ,Group Status Bit 335" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB334 ,Group Status Bit 334" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB333 ,Group Status Bit 333" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB332 ,Group Status Bit 332" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB331 ,Group Status Bit 331" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB330 ,Group Status Bit 330" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB329 ,Group Status Bit 329" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB328 ,Group Status Bit 328" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB327 ,Group Status Bit 327" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB326 ,Group Status Bit 326" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB325 ,Group Status Bit 325" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB324 ,Group Status Bit 324" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB323 ,Group Status Bit 323" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB322 ,Group Status Bit 322" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB321 ,Group Status Bit 321" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB320 ,Group Status Bit 320" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0xA)) group.long 0x00A8++0x03 line.long 0x0 "GICD_IGROUPR10,Interrupt Group Register 10" 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" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xAC))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0xB)) group.long 0x00AC++0x03 line.long 0x0 "GICD_IGROUPR11,Interrupt Group Register 11 (Secure Access)" bitfld.long 0x00 31. " GSB383 ,Group Status Bit 383" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB382 ,Group Status Bit 382" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB381 ,Group Status Bit 381" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB380 ,Group Status Bit 380" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB379 ,Group Status Bit 379" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB378 ,Group Status Bit 378" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB377 ,Group Status Bit 377" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB376 ,Group Status Bit 376" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB375 ,Group Status Bit 375" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB374 ,Group Status Bit 374" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB373 ,Group Status Bit 373" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB372 ,Group Status Bit 372" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB371 ,Group Status Bit 371" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB370 ,Group Status Bit 370" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB369 ,Group Status Bit 369" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB368 ,Group Status Bit 368" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB367 ,Group Status Bit 367" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB366 ,Group Status Bit 366" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB365 ,Group Status Bit 365" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB364 ,Group Status Bit 364" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB363 ,Group Status Bit 363" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB362 ,Group Status Bit 362" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB361 ,Group Status Bit 361" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB360 ,Group Status Bit 360" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB359 ,Group Status Bit 359" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB358 ,Group Status Bit 358" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB357 ,Group Status Bit 357" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB356 ,Group Status Bit 356" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB355 ,Group Status Bit 355" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB354 ,Group Status Bit 354" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB353 ,Group Status Bit 353" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB352 ,Group Status Bit 352" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0xB)) group.long 0x00AC++0x03 line.long 0x0 "GICD_IGROUPR11,Interrupt Group Register 11" 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" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xB0))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0xC)) group.long 0x00B0++0x03 line.long 0x0 "GICD_IGROUPR12,Interrupt Group Register 12 (Secure Access)" bitfld.long 0x00 31. " GSB415 ,Group Status Bit 415" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB414 ,Group Status Bit 414" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB413 ,Group Status Bit 413" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB412 ,Group Status Bit 412" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB411 ,Group Status Bit 411" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB410 ,Group Status Bit 410" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB409 ,Group Status Bit 409" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB408 ,Group Status Bit 408" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB407 ,Group Status Bit 407" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB406 ,Group Status Bit 406" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB405 ,Group Status Bit 405" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB404 ,Group Status Bit 404" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB403 ,Group Status Bit 403" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB402 ,Group Status Bit 402" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB401 ,Group Status Bit 401" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB400 ,Group Status Bit 400" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB399 ,Group Status Bit 399" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB398 ,Group Status Bit 398" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB397 ,Group Status Bit 397" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB396 ,Group Status Bit 396" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB395 ,Group Status Bit 395" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB394 ,Group Status Bit 394" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB393 ,Group Status Bit 393" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB392 ,Group Status Bit 392" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB391 ,Group Status Bit 391" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB390 ,Group Status Bit 390" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB389 ,Group Status Bit 389" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB388 ,Group Status Bit 388" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB387 ,Group Status Bit 387" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB386 ,Group Status Bit 386" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB385 ,Group Status Bit 385" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB384 ,Group Status Bit 384" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0xC)) group.long 0x00B0++0x03 line.long 0x0 "GICD_IGROUPR12,Interrupt Group Register 12" 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" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xB4))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0xD)) group.long 0x00B4++0x03 line.long 0x0 "GICD_IGROUPR13,Interrupt Group Register 13 (Secure Access)" bitfld.long 0x00 31. " GSB447 ,Group Status Bit 447" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB446 ,Group Status Bit 446" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB445 ,Group Status Bit 445" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB444 ,Group Status Bit 444" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB443 ,Group Status Bit 443" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB442 ,Group Status Bit 442" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB441 ,Group Status Bit 441" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB440 ,Group Status Bit 440" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB439 ,Group Status Bit 439" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB438 ,Group Status Bit 438" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB437 ,Group Status Bit 437" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB436 ,Group Status Bit 436" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB435 ,Group Status Bit 435" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB434 ,Group Status Bit 434" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB433 ,Group Status Bit 433" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB432 ,Group Status Bit 432" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB431 ,Group Status Bit 431" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB430 ,Group Status Bit 430" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB429 ,Group Status Bit 429" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB428 ,Group Status Bit 428" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB427 ,Group Status Bit 427" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB426 ,Group Status Bit 426" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB425 ,Group Status Bit 425" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB424 ,Group Status Bit 424" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB423 ,Group Status Bit 423" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB422 ,Group Status Bit 422" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB421 ,Group Status Bit 421" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB420 ,Group Status Bit 420" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB419 ,Group Status Bit 419" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB418 ,Group Status Bit 418" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB417 ,Group Status Bit 417" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB416 ,Group Status Bit 416" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0xD)) group.long 0x00B4++0x03 line.long 0x0 "GICD_IGROUPR13,Interrupt Group Register 13" 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" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xB8))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0xE)) group.long 0x00B8++0x03 line.long 0x0 "GICD_IGROUPR14,Interrupt Group Register 14 (Secure Access)" bitfld.long 0x00 31. " GSB479 ,Group Status Bit 479" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB478 ,Group Status Bit 478" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB477 ,Group Status Bit 477" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB476 ,Group Status Bit 476" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB475 ,Group Status Bit 475" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB474 ,Group Status Bit 474" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB473 ,Group Status Bit 473" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB472 ,Group Status Bit 472" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB471 ,Group Status Bit 471" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB470 ,Group Status Bit 470" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB469 ,Group Status Bit 469" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB468 ,Group Status Bit 468" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB467 ,Group Status Bit 467" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB466 ,Group Status Bit 466" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB465 ,Group Status Bit 465" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB464 ,Group Status Bit 464" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB463 ,Group Status Bit 463" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB462 ,Group Status Bit 462" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB461 ,Group Status Bit 461" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB460 ,Group Status Bit 460" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB459 ,Group Status Bit 459" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB458 ,Group Status Bit 458" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB457 ,Group Status Bit 457" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB456 ,Group Status Bit 456" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB455 ,Group Status Bit 455" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB454 ,Group Status Bit 454" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB453 ,Group Status Bit 453" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB452 ,Group Status Bit 452" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB451 ,Group Status Bit 451" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB450 ,Group Status Bit 450" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB449 ,Group Status Bit 449" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB448 ,Group Status Bit 448" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0xE)) group.long 0x00B8++0x03 line.long 0x0 "GICD_IGROUPR14,Interrupt Group Register 14" 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" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xBC))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0xF)) group.long 0x00BC++0x03 line.long 0x0 "GICD_IGROUPR15,Interrupt Group Register 15 (Secure Access)" bitfld.long 0x00 31. " GSB511 ,Group Status Bit 511" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB510 ,Group Status Bit 510" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB509 ,Group Status Bit 509" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB508 ,Group Status Bit 508" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB507 ,Group Status Bit 507" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB506 ,Group Status Bit 506" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB505 ,Group Status Bit 505" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB504 ,Group Status Bit 504" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB503 ,Group Status Bit 503" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB502 ,Group Status Bit 502" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB501 ,Group Status Bit 501" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB500 ,Group Status Bit 500" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB499 ,Group Status Bit 499" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB498 ,Group Status Bit 498" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB497 ,Group Status Bit 497" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB496 ,Group Status Bit 496" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB495 ,Group Status Bit 495" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB494 ,Group Status Bit 494" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB493 ,Group Status Bit 493" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB492 ,Group Status Bit 492" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB491 ,Group Status Bit 491" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB490 ,Group Status Bit 490" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB489 ,Group Status Bit 489" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB488 ,Group Status Bit 488" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB487 ,Group Status Bit 487" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB486 ,Group Status Bit 486" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB485 ,Group Status Bit 485" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB484 ,Group Status Bit 484" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB483 ,Group Status Bit 483" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB482 ,Group Status Bit 482" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB481 ,Group Status Bit 481" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB480 ,Group Status Bit 480" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0xF)) group.long 0x00BC++0x03 line.long 0x0 "GICD_IGROUPR15,Interrupt Group Register 15" 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" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xC0))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x10)) group.long 0x00C0++0x03 line.long 0x0 "GICD_IGROUPR16,Interrupt Group Register 16 (Secure Access)" bitfld.long 0x00 31. " GSB543 ,Group Status Bit 543" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB542 ,Group Status Bit 542" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB541 ,Group Status Bit 541" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB540 ,Group Status Bit 540" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB539 ,Group Status Bit 539" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB538 ,Group Status Bit 538" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB537 ,Group Status Bit 537" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB536 ,Group Status Bit 536" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB535 ,Group Status Bit 535" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB534 ,Group Status Bit 534" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB533 ,Group Status Bit 533" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB532 ,Group Status Bit 532" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB531 ,Group Status Bit 531" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB530 ,Group Status Bit 530" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB529 ,Group Status Bit 529" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB528 ,Group Status Bit 528" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB527 ,Group Status Bit 527" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB526 ,Group Status Bit 526" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB525 ,Group Status Bit 525" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB524 ,Group Status Bit 524" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB523 ,Group Status Bit 523" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB522 ,Group Status Bit 522" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB521 ,Group Status Bit 521" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB520 ,Group Status Bit 520" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB519 ,Group Status Bit 519" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB518 ,Group Status Bit 518" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB517 ,Group Status Bit 517" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB516 ,Group Status Bit 516" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB515 ,Group Status Bit 515" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB514 ,Group Status Bit 514" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB513 ,Group Status Bit 513" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB512 ,Group Status Bit 512" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x10)) group.long 0x00C0++0x03 line.long 0x0 "GICD_IGROUPR16,Interrupt Group Register 16" 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" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xC4))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x11)) group.long 0x00C4++0x03 line.long 0x0 "GICD_IGROUPR17,Interrupt Group Register 17 (Secure Access)" bitfld.long 0x00 31. " GSB575 ,Group Status Bit 575" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB574 ,Group Status Bit 574" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB573 ,Group Status Bit 573" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB572 ,Group Status Bit 572" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB571 ,Group Status Bit 571" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB570 ,Group Status Bit 570" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB569 ,Group Status Bit 569" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB568 ,Group Status Bit 568" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB567 ,Group Status Bit 567" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB566 ,Group Status Bit 566" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB565 ,Group Status Bit 565" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB564 ,Group Status Bit 564" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB563 ,Group Status Bit 563" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB562 ,Group Status Bit 562" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB561 ,Group Status Bit 561" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB560 ,Group Status Bit 560" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB559 ,Group Status Bit 559" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB558 ,Group Status Bit 558" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB557 ,Group Status Bit 557" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB556 ,Group Status Bit 556" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB555 ,Group Status Bit 555" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB554 ,Group Status Bit 554" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB553 ,Group Status Bit 553" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB552 ,Group Status Bit 552" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB551 ,Group Status Bit 551" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB550 ,Group Status Bit 550" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB549 ,Group Status Bit 549" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB548 ,Group Status Bit 548" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB547 ,Group Status Bit 547" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB546 ,Group Status Bit 546" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB545 ,Group Status Bit 545" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB544 ,Group Status Bit 544" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x11)) group.long 0x00C4++0x03 line.long 0x0 "GICD_IGROUPR17,Interrupt Group Register 17" 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" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xC8))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x12)) group.long 0x00C8++0x03 line.long 0x0 "GICD_IGROUPR18,Interrupt Group Register 18 (Secure Access)" bitfld.long 0x00 31. " GSB607 ,Group Status Bit 607" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB606 ,Group Status Bit 606" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB605 ,Group Status Bit 605" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB604 ,Group Status Bit 604" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB603 ,Group Status Bit 603" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB602 ,Group Status Bit 602" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB601 ,Group Status Bit 601" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB600 ,Group Status Bit 600" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB599 ,Group Status Bit 599" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB598 ,Group Status Bit 598" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB597 ,Group Status Bit 597" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB596 ,Group Status Bit 596" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB595 ,Group Status Bit 595" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB594 ,Group Status Bit 594" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB593 ,Group Status Bit 593" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB592 ,Group Status Bit 592" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB591 ,Group Status Bit 591" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB590 ,Group Status Bit 590" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB589 ,Group Status Bit 589" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB588 ,Group Status Bit 588" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB587 ,Group Status Bit 587" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB586 ,Group Status Bit 586" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB585 ,Group Status Bit 585" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB584 ,Group Status Bit 584" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB583 ,Group Status Bit 583" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB582 ,Group Status Bit 582" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB581 ,Group Status Bit 581" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB580 ,Group Status Bit 580" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB579 ,Group Status Bit 579" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB578 ,Group Status Bit 578" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB577 ,Group Status Bit 577" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB576 ,Group Status Bit 576" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x12)) group.long 0x00C8++0x03 line.long 0x0 "GICD_IGROUPR18,Interrupt Group Register 18" 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" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xCC))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x13)) group.long 0x00CC++0x03 line.long 0x0 "GICD_IGROUPR19,Interrupt Group Register 19 (Secure Access)" bitfld.long 0x00 31. " GSB639 ,Group Status Bit 639" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB638 ,Group Status Bit 638" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB637 ,Group Status Bit 637" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB636 ,Group Status Bit 636" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB635 ,Group Status Bit 635" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB634 ,Group Status Bit 634" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB633 ,Group Status Bit 633" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB632 ,Group Status Bit 632" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB631 ,Group Status Bit 631" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB630 ,Group Status Bit 630" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB629 ,Group Status Bit 629" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB628 ,Group Status Bit 628" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB627 ,Group Status Bit 627" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB626 ,Group Status Bit 626" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB625 ,Group Status Bit 625" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB624 ,Group Status Bit 624" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB623 ,Group Status Bit 623" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB622 ,Group Status Bit 622" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB621 ,Group Status Bit 621" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB620 ,Group Status Bit 620" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB619 ,Group Status Bit 619" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB618 ,Group Status Bit 618" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB617 ,Group Status Bit 617" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB616 ,Group Status Bit 616" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB615 ,Group Status Bit 615" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB614 ,Group Status Bit 614" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB613 ,Group Status Bit 613" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB612 ,Group Status Bit 612" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB611 ,Group Status Bit 611" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB610 ,Group Status Bit 610" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB609 ,Group Status Bit 609" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB608 ,Group Status Bit 608" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x13)) group.long 0x00CC++0x03 line.long 0x0 "GICD_IGROUPR19,Interrupt Group Register 19" 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" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xD0))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x14)) group.long 0x00D0++0x03 line.long 0x0 "GICD_IGROUPR20,Interrupt Group Register 20 (Secure Access)" bitfld.long 0x00 31. " GSB671 ,Group Status Bit 671" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB670 ,Group Status Bit 670" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB669 ,Group Status Bit 669" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB668 ,Group Status Bit 668" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB667 ,Group Status Bit 667" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB666 ,Group Status Bit 666" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB665 ,Group Status Bit 665" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB664 ,Group Status Bit 664" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB663 ,Group Status Bit 663" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB662 ,Group Status Bit 662" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB661 ,Group Status Bit 661" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB660 ,Group Status Bit 660" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB659 ,Group Status Bit 659" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB658 ,Group Status Bit 658" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB657 ,Group Status Bit 657" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB656 ,Group Status Bit 656" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB655 ,Group Status Bit 655" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB654 ,Group Status Bit 654" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB653 ,Group Status Bit 653" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB652 ,Group Status Bit 652" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB651 ,Group Status Bit 651" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB650 ,Group Status Bit 650" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB649 ,Group Status Bit 649" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB648 ,Group Status Bit 648" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB647 ,Group Status Bit 647" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB646 ,Group Status Bit 646" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB645 ,Group Status Bit 645" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB644 ,Group Status Bit 644" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB643 ,Group Status Bit 643" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB642 ,Group Status Bit 642" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB641 ,Group Status Bit 641" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB640 ,Group Status Bit 640" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x14)) group.long 0x00D0++0x03 line.long 0x0 "GICD_IGROUPR20,Interrupt Group Register 20" 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" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xD4))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x15)) group.long 0x00D4++0x03 line.long 0x0 "GICD_IGROUPR21,Interrupt Group Register 21 (Secure Access)" bitfld.long 0x00 31. " GSB703 ,Group Status Bit 703" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB702 ,Group Status Bit 702" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB701 ,Group Status Bit 701" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB700 ,Group Status Bit 700" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB699 ,Group Status Bit 699" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB698 ,Group Status Bit 698" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB697 ,Group Status Bit 697" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB696 ,Group Status Bit 696" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB695 ,Group Status Bit 695" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB694 ,Group Status Bit 694" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB693 ,Group Status Bit 693" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB692 ,Group Status Bit 692" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB691 ,Group Status Bit 691" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB690 ,Group Status Bit 690" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB689 ,Group Status Bit 689" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB688 ,Group Status Bit 688" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB687 ,Group Status Bit 687" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB686 ,Group Status Bit 686" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB685 ,Group Status Bit 685" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB684 ,Group Status Bit 684" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB683 ,Group Status Bit 683" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB682 ,Group Status Bit 682" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB681 ,Group Status Bit 681" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB680 ,Group Status Bit 680" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB679 ,Group Status Bit 679" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB678 ,Group Status Bit 678" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB677 ,Group Status Bit 677" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB676 ,Group Status Bit 676" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB675 ,Group Status Bit 675" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB674 ,Group Status Bit 674" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB673 ,Group Status Bit 673" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB672 ,Group Status Bit 672" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x15)) group.long 0x00D4++0x03 line.long 0x0 "GICD_IGROUPR21,Interrupt Group Register 21" 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" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xD8))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x16)) group.long 0x00D8++0x03 line.long 0x0 "GICD_IGROUPR22,Interrupt Group Register 22 (Secure Access)" bitfld.long 0x00 31. " GSB735 ,Group Status Bit 735" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB734 ,Group Status Bit 734" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB733 ,Group Status Bit 733" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB732 ,Group Status Bit 732" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB731 ,Group Status Bit 731" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB730 ,Group Status Bit 730" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB729 ,Group Status Bit 729" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB728 ,Group Status Bit 728" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB727 ,Group Status Bit 727" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB726 ,Group Status Bit 726" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB725 ,Group Status Bit 725" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB724 ,Group Status Bit 724" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB723 ,Group Status Bit 723" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB722 ,Group Status Bit 722" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB721 ,Group Status Bit 721" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB720 ,Group Status Bit 720" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB719 ,Group Status Bit 719" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB718 ,Group Status Bit 718" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB717 ,Group Status Bit 717" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB716 ,Group Status Bit 716" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB715 ,Group Status Bit 715" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB714 ,Group Status Bit 714" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB713 ,Group Status Bit 713" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB712 ,Group Status Bit 712" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB711 ,Group Status Bit 711" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB710 ,Group Status Bit 710" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB709 ,Group Status Bit 709" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB708 ,Group Status Bit 708" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB707 ,Group Status Bit 707" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB706 ,Group Status Bit 706" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB705 ,Group Status Bit 705" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB704 ,Group Status Bit 704" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x16)) group.long 0x00D8++0x03 line.long 0x0 "GICD_IGROUPR22,Interrupt Group Register 22" 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" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xDC))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x17)) group.long 0x00DC++0x03 line.long 0x0 "GICD_IGROUPR23,Interrupt Group Register 23 (Secure Access)" bitfld.long 0x00 31. " GSB767 ,Group Status Bit 767" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB766 ,Group Status Bit 766" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB765 ,Group Status Bit 765" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB764 ,Group Status Bit 764" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB763 ,Group Status Bit 763" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB762 ,Group Status Bit 762" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB761 ,Group Status Bit 761" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB760 ,Group Status Bit 760" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB759 ,Group Status Bit 759" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB758 ,Group Status Bit 758" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB757 ,Group Status Bit 757" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB756 ,Group Status Bit 756" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB755 ,Group Status Bit 755" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB754 ,Group Status Bit 754" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB753 ,Group Status Bit 753" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB752 ,Group Status Bit 752" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB751 ,Group Status Bit 751" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB750 ,Group Status Bit 750" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB749 ,Group Status Bit 749" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB748 ,Group Status Bit 748" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB747 ,Group Status Bit 747" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB746 ,Group Status Bit 746" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB745 ,Group Status Bit 745" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB744 ,Group Status Bit 744" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB743 ,Group Status Bit 743" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB742 ,Group Status Bit 742" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB741 ,Group Status Bit 741" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB740 ,Group Status Bit 740" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB739 ,Group Status Bit 739" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB738 ,Group Status Bit 738" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB737 ,Group Status Bit 737" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB736 ,Group Status Bit 736" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x17)) group.long 0x00DC++0x03 line.long 0x0 "GICD_IGROUPR23,Interrupt Group Register 23" 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" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE0))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x18)) group.long 0x00E0++0x03 line.long 0x0 "GICD_IGROUPR24,Interrupt Group Register 24 (Secure Access)" bitfld.long 0x00 31. " GSB799 ,Group Status Bit 799" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB798 ,Group Status Bit 798" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB797 ,Group Status Bit 797" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB796 ,Group Status Bit 796" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB795 ,Group Status Bit 795" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB794 ,Group Status Bit 794" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB793 ,Group Status Bit 793" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB792 ,Group Status Bit 792" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB791 ,Group Status Bit 791" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB790 ,Group Status Bit 790" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB789 ,Group Status Bit 789" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB788 ,Group Status Bit 788" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB787 ,Group Status Bit 787" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB786 ,Group Status Bit 786" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB785 ,Group Status Bit 785" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB784 ,Group Status Bit 784" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB783 ,Group Status Bit 783" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB782 ,Group Status Bit 782" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB781 ,Group Status Bit 781" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB780 ,Group Status Bit 780" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB779 ,Group Status Bit 779" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB778 ,Group Status Bit 778" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB777 ,Group Status Bit 777" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB776 ,Group Status Bit 776" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB775 ,Group Status Bit 775" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB774 ,Group Status Bit 774" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB773 ,Group Status Bit 773" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB772 ,Group Status Bit 772" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB771 ,Group Status Bit 771" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB770 ,Group Status Bit 770" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB769 ,Group Status Bit 769" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB768 ,Group Status Bit 768" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x18)) group.long 0x00E0++0x03 line.long 0x0 "GICD_IGROUPR24,Interrupt Group Register 24" 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 0x00E0++0x03 hide.long 0x0 "GICD_IGROUPR24,Interrupt Group Register 24" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE4))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x19)) group.long 0x00E4++0x03 line.long 0x0 "GICD_IGROUPR25,Interrupt Group Register 25 (Secure Access)" bitfld.long 0x00 31. " GSB831 ,Group Status Bit 831" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB830 ,Group Status Bit 830" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB829 ,Group Status Bit 829" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB828 ,Group Status Bit 828" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB827 ,Group Status Bit 827" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB826 ,Group Status Bit 826" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB825 ,Group Status Bit 825" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB824 ,Group Status Bit 824" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB823 ,Group Status Bit 823" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB822 ,Group Status Bit 822" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB821 ,Group Status Bit 821" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB820 ,Group Status Bit 820" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB819 ,Group Status Bit 819" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB818 ,Group Status Bit 818" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB817 ,Group Status Bit 817" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB816 ,Group Status Bit 816" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB815 ,Group Status Bit 815" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB814 ,Group Status Bit 814" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB813 ,Group Status Bit 813" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB812 ,Group Status Bit 812" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB811 ,Group Status Bit 811" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB810 ,Group Status Bit 810" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB809 ,Group Status Bit 809" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB808 ,Group Status Bit 808" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB807 ,Group Status Bit 807" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB806 ,Group Status Bit 806" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB805 ,Group Status Bit 805" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB804 ,Group Status Bit 804" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB803 ,Group Status Bit 803" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB802 ,Group Status Bit 802" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB801 ,Group Status Bit 801" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB800 ,Group Status Bit 800" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x19)) group.long 0x00E4++0x03 line.long 0x0 "GICD_IGROUPR25,Interrupt Group Register 25" 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" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE8))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1A)) group.long 0x00E8++0x03 line.long 0x0 "GICD_IGROUPR26,Interrupt Group Register 26 (Secure Access)" bitfld.long 0x00 31. " GSB863 ,Group Status Bit 863" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB862 ,Group Status Bit 862" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB861 ,Group Status Bit 861" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB860 ,Group Status Bit 860" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB859 ,Group Status Bit 859" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB858 ,Group Status Bit 858" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB857 ,Group Status Bit 857" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB856 ,Group Status Bit 856" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB855 ,Group Status Bit 855" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB854 ,Group Status Bit 854" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB853 ,Group Status Bit 853" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB852 ,Group Status Bit 852" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB851 ,Group Status Bit 851" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB850 ,Group Status Bit 850" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB849 ,Group Status Bit 849" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB848 ,Group Status Bit 848" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB847 ,Group Status Bit 847" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB846 ,Group Status Bit 846" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB845 ,Group Status Bit 845" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB844 ,Group Status Bit 844" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB843 ,Group Status Bit 843" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB842 ,Group Status Bit 842" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB841 ,Group Status Bit 841" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB840 ,Group Status Bit 840" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB839 ,Group Status Bit 839" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB838 ,Group Status Bit 838" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB837 ,Group Status Bit 837" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB836 ,Group Status Bit 836" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB835 ,Group Status Bit 835" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB834 ,Group Status Bit 834" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB833 ,Group Status Bit 833" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB832 ,Group Status Bit 832" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1A)) group.long 0x00E8++0x03 line.long 0x0 "GICD_IGROUPR26,Interrupt Group Register 26" 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" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xEC))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1B)) group.long 0x00EC++0x03 line.long 0x0 "GICD_IGROUPR27,Interrupt Group Register 27 (Secure Access)" bitfld.long 0x00 31. " GSB895 ,Group Status Bit 895" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB894 ,Group Status Bit 894" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB893 ,Group Status Bit 893" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB892 ,Group Status Bit 892" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB891 ,Group Status Bit 891" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB890 ,Group Status Bit 890" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB889 ,Group Status Bit 889" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB888 ,Group Status Bit 888" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB887 ,Group Status Bit 887" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB886 ,Group Status Bit 886" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB885 ,Group Status Bit 885" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB884 ,Group Status Bit 884" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB883 ,Group Status Bit 883" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB882 ,Group Status Bit 882" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB881 ,Group Status Bit 881" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB880 ,Group Status Bit 880" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB879 ,Group Status Bit 879" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB878 ,Group Status Bit 878" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB877 ,Group Status Bit 877" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB876 ,Group Status Bit 876" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB875 ,Group Status Bit 875" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB874 ,Group Status Bit 874" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB873 ,Group Status Bit 873" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB872 ,Group Status Bit 872" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB871 ,Group Status Bit 871" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB870 ,Group Status Bit 870" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB869 ,Group Status Bit 869" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB868 ,Group Status Bit 868" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB867 ,Group Status Bit 867" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB866 ,Group Status Bit 866" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB865 ,Group Status Bit 865" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB864 ,Group Status Bit 864" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1B)) group.long 0x00EC++0x03 line.long 0x0 "GICD_IGROUPR27,Interrupt Group Register 27" 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" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xF0))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1C)) group.long 0x00F0++0x03 line.long 0x0 "GICD_IGROUPR28,Interrupt Group Register 28 (Secure Access)" bitfld.long 0x00 31. " GSB927 ,Group Status Bit 927" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB926 ,Group Status Bit 926" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB925 ,Group Status Bit 925" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB924 ,Group Status Bit 924" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB923 ,Group Status Bit 923" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB922 ,Group Status Bit 922" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB921 ,Group Status Bit 921" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB920 ,Group Status Bit 920" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB919 ,Group Status Bit 919" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB918 ,Group Status Bit 918" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB917 ,Group Status Bit 917" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB916 ,Group Status Bit 916" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB915 ,Group Status Bit 915" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB914 ,Group Status Bit 914" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB913 ,Group Status Bit 913" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB912 ,Group Status Bit 912" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB911 ,Group Status Bit 911" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB910 ,Group Status Bit 910" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB909 ,Group Status Bit 909" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB908 ,Group Status Bit 908" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB907 ,Group Status Bit 907" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB906 ,Group Status Bit 906" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB905 ,Group Status Bit 905" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB904 ,Group Status Bit 904" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB903 ,Group Status Bit 903" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB902 ,Group Status Bit 902" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB901 ,Group Status Bit 901" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB900 ,Group Status Bit 900" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB899 ,Group Status Bit 899" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB898 ,Group Status Bit 898" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB897 ,Group Status Bit 897" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB896 ,Group Status Bit 896" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1C)) group.long 0x00F0++0x03 line.long 0x0 "GICD_IGROUPR28,Interrupt Group Register 28" 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 0x00F0++0x03 hide.long 0x0 "GICD_IGROUPR28,Interrupt Group Register 28" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xF4))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1D)) group.long 0x00F4++0x03 line.long 0x0 "GICD_IGROUPR29,Interrupt Group Register 29 (Secure Access)" bitfld.long 0x00 31. " GSB959 ,Group Status Bit 959" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB958 ,Group Status Bit 958" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB957 ,Group Status Bit 957" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB956 ,Group Status Bit 956" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB955 ,Group Status Bit 955" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB954 ,Group Status Bit 954" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB953 ,Group Status Bit 953" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB952 ,Group Status Bit 952" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB951 ,Group Status Bit 951" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB950 ,Group Status Bit 950" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB949 ,Group Status Bit 949" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB948 ,Group Status Bit 948" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB947 ,Group Status Bit 947" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB946 ,Group Status Bit 946" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB945 ,Group Status Bit 945" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB944 ,Group Status Bit 944" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB943 ,Group Status Bit 943" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB942 ,Group Status Bit 942" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB941 ,Group Status Bit 941" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB940 ,Group Status Bit 940" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB939 ,Group Status Bit 939" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB938 ,Group Status Bit 938" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB937 ,Group Status Bit 937" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB936 ,Group Status Bit 936" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB935 ,Group Status Bit 935" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB934 ,Group Status Bit 934" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB933 ,Group Status Bit 933" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB932 ,Group Status Bit 932" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB931 ,Group Status Bit 931" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB930 ,Group Status Bit 930" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB929 ,Group Status Bit 929" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB928 ,Group Status Bit 928" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1D)) group.long 0x00F4++0x03 line.long 0x0 "GICD_IGROUPR29,Interrupt Group Register 29" 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" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xF8))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1E)) group.long 0x00F8++0x03 line.long 0x0 "GICD_IGROUPR30,Interrupt Group Register 30 (Secure Access)" bitfld.long 0x00 31. " GSB991 ,Group Status Bit 991" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB990 ,Group Status Bit 990" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB989 ,Group Status Bit 989" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB988 ,Group Status Bit 988" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB987 ,Group Status Bit 987" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB986 ,Group Status Bit 986" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB985 ,Group Status Bit 985" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB984 ,Group Status Bit 984" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB983 ,Group Status Bit 983" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB982 ,Group Status Bit 982" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB981 ,Group Status Bit 981" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB980 ,Group Status Bit 980" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB979 ,Group Status Bit 979" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB978 ,Group Status Bit 978" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB977 ,Group Status Bit 977" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB976 ,Group Status Bit 976" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB975 ,Group Status Bit 975" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB974 ,Group Status Bit 974" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB973 ,Group Status Bit 973" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB972 ,Group Status Bit 972" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB971 ,Group Status Bit 971" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB970 ,Group Status Bit 970" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB969 ,Group Status Bit 969" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB968 ,Group Status Bit 968" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB967 ,Group Status Bit 967" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB966 ,Group Status Bit 966" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB965 ,Group Status Bit 965" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB964 ,Group Status Bit 964" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB963 ,Group Status Bit 963" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB962 ,Group Status Bit 962" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB961 ,Group Status Bit 961" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB960 ,Group Status Bit 960" "Secure,Non-secure Group 1" elif ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1E)) group.long 0x00F8++0x03 line.long 0x0 "GICD_IGROUPR30,Interrupt Group Register 30" 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" endif tree.end width 24. tree "Set/Clear Enable Registers" if (((per.l(COMP.BASE("GICD",-1.)))&0x10)==0x10) hgroup.long 0x0100++0x03 hide.long 0x0 "GICD_SET/CLR_ENABLER0,Interrupt Set/Clear Enable Register 0" newline newline newline newline newline newline newline newline newline newline else 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" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRENB15 ,Set/Clear Enable Bit 15" "Disabled,Enabled" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRENB14 ,Set/Clear Enable Bit 14" "Disabled,Enabled" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB13 ,Set/Clear Enable Bit 13" "Disabled,Enabled" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRENB12 ,Set/Clear Enable Bit 12" "Disabled,Enabled" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRENB11 ,Set/Clear Enable Bit 11" "Disabled,Enabled" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB10 ,Set/Clear Enable Bit 10" "Disabled,Enabled" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRENB9 ,Set/Clear Enable Bit 9" "Disabled,Enabled" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRENB8 ,Set/Clear Enable Bit 8" "Disabled,Enabled" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB7 ,Set/Clear Enable Bit 7" "Disabled,Enabled" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRENB6 ,Set/Clear Enable Bit 6" "Disabled,Enabled" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRENB5 ,Set/Clear Enable Bit 5" "Disabled,Enabled" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB4 ,Set/Clear Enable Bit 4" "Disabled,Enabled" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRENB3 ,Set/Clear Enable Bit 3" "Disabled,Enabled" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRENB2 ,Set/Clear Enable Bit 2" "Disabled,Enabled" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB1 ,Set/Clear Enable Bit 1" "Disabled,Enabled" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRENB0 ,Set/Clear Enable Bit 0" "Disabled,Enabled" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif if (((per.l(COMP.BASE("GICD",-1.)+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" endif tree.end width 22. tree "Set/Clear Pending Registers" if (((per.l(COMP.BASE("GICD",-1.)))&0x10)==0x10) hgroup.long 0x0200++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR0,Interrupt Set/Clear Pending Register 0" newline newline newline newline newline newline newline newline newline newline else 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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND30 ,Set/Clear Pending Bit 30" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND29 ,Set/Clear Pending Bit 29" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND28 ,Set/Clear Pending Bit 28" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND27 ,Set/Clear Pending Bit 27" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND26 ,Set/Clear Pending Bit 26" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND25 ,Set/Clear Pending Bit 25" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND24 ,Set/Clear Pending Bit 24" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND23 ,Set/Clear Pending Bit 23" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND22 ,Set/Clear Pending Bit 22" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND21 ,Set/Clear Pending Bit 21" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND20 ,Set/Clear Pending Bit 20" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND19 ,Set/Clear Pending Bit 19" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND18 ,Set/Clear Pending Bit 18" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND17 ,Set/Clear Pending Bit 17" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND16 ,Set/Clear Pending Bit 16" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND15 ,Set/Clear Pending Bit 15" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND14 ,Set/Clear Pending Bit 14" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND13 ,Set/Clear Pending Bit 13" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND12 ,Set/Clear Pending Bit 12" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND11 ,Set/Clear Pending Bit 11" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND10 ,Set/Clear Pending Bit 10" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND9 ,Set/Clear Pending Bit 9" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND8 ,Set/Clear Pending Bit 8" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND7 ,Set/Clear Pending Bit 7" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND6 ,Set/Clear Pending Bit 6" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND5 ,Set/Clear Pending Bit 5" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND4 ,Set/Clear Pending Bit 4" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND3 ,Set/Clear Pending Bit 3" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND2 ,Set/Clear Pending Bit 2" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND1 ,Set/Clear Pending Bit 1" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND0 ,Set/Clear Pending Bit 0" "Not pending,Pending" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND62 ,Set/Clear Pending Bit 62" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND61 ,Set/Clear Pending Bit 61" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND60 ,Set/Clear Pending Bit 60" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND59 ,Set/Clear Pending Bit 59" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND58 ,Set/Clear Pending Bit 58" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND57 ,Set/Clear Pending Bit 57" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND56 ,Set/Clear Pending Bit 56" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND55 ,Set/Clear Pending Bit 55" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND54 ,Set/Clear Pending Bit 54" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND53 ,Set/Clear Pending Bit 53" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND52 ,Set/Clear Pending Bit 52" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND51 ,Set/Clear Pending Bit 51" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND50 ,Set/Clear Pending Bit 50" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND49 ,Set/Clear Pending Bit 49" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND48 ,Set/Clear Pending Bit 48" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND47 ,Set/Clear Pending Bit 47" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND46 ,Set/Clear Pending Bit 46" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND45 ,Set/Clear Pending Bit 45" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND44 ,Set/Clear Pending Bit 44" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND43 ,Set/Clear Pending Bit 43" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND42 ,Set/Clear Pending Bit 42" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND41 ,Set/Clear Pending Bit 41" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND40 ,Set/Clear Pending Bit 40" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND39 ,Set/Clear Pending Bit 39" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND38 ,Set/Clear Pending Bit 38" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND37 ,Set/Clear Pending Bit 37" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND36 ,Set/Clear Pending Bit 36" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND35 ,Set/Clear Pending Bit 35" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND34 ,Set/Clear Pending Bit 34" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND33 ,Set/Clear Pending Bit 33" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND32 ,Set/Clear Pending Bit 32" "Not pending,Pending" else hgroup.long 0x0204++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR1,Interrupt Set/Clear Pending Register 1" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND94 ,Set/Clear Pending Bit 94" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND93 ,Set/Clear Pending Bit 93" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND92 ,Set/Clear Pending Bit 92" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND91 ,Set/Clear Pending Bit 91" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND90 ,Set/Clear Pending Bit 90" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND89 ,Set/Clear Pending Bit 89" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND88 ,Set/Clear Pending Bit 88" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND87 ,Set/Clear Pending Bit 87" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND86 ,Set/Clear Pending Bit 86" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND85 ,Set/Clear Pending Bit 85" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND84 ,Set/Clear Pending Bit 84" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND83 ,Set/Clear Pending Bit 83" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND82 ,Set/Clear Pending Bit 82" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND81 ,Set/Clear Pending Bit 81" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND80 ,Set/Clear Pending Bit 80" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND79 ,Set/Clear Pending Bit 79" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND78 ,Set/Clear Pending Bit 78" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND77 ,Set/Clear Pending Bit 77" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND76 ,Set/Clear Pending Bit 76" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND75 ,Set/Clear Pending Bit 75" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND74 ,Set/Clear Pending Bit 74" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND73 ,Set/Clear Pending Bit 73" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND72 ,Set/Clear Pending Bit 72" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND71 ,Set/Clear Pending Bit 71" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND70 ,Set/Clear Pending Bit 70" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND69 ,Set/Clear Pending Bit 69" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND68 ,Set/Clear Pending Bit 68" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND67 ,Set/Clear Pending Bit 67" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND66 ,Set/Clear Pending Bit 66" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND65 ,Set/Clear Pending Bit 65" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND64 ,Set/Clear Pending Bit 64" "Not pending,Pending" else hgroup.long 0x0208++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR2,Interrupt Set/Clear Pending Register 2" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND126 ,Set/Clear Pending Bit 126" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND125 ,Set/Clear Pending Bit 125" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND124 ,Set/Clear Pending Bit 124" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND123 ,Set/Clear Pending Bit 123" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND122 ,Set/Clear Pending Bit 122" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND121 ,Set/Clear Pending Bit 121" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND120 ,Set/Clear Pending Bit 120" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND119 ,Set/Clear Pending Bit 119" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND118 ,Set/Clear Pending Bit 118" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND117 ,Set/Clear Pending Bit 117" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND116 ,Set/Clear Pending Bit 116" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND115 ,Set/Clear Pending Bit 115" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND114 ,Set/Clear Pending Bit 114" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND113 ,Set/Clear Pending Bit 113" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND112 ,Set/Clear Pending Bit 112" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND111 ,Set/Clear Pending Bit 111" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND110 ,Set/Clear Pending Bit 110" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND109 ,Set/Clear Pending Bit 109" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND108 ,Set/Clear Pending Bit 108" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND107 ,Set/Clear Pending Bit 107" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND106 ,Set/Clear Pending Bit 106" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND105 ,Set/Clear Pending Bit 105" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND104 ,Set/Clear Pending Bit 104" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND103 ,Set/Clear Pending Bit 103" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND102 ,Set/Clear Pending Bit 102" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND101 ,Set/Clear Pending Bit 101" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND100 ,Set/Clear Pending Bit 100" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND99 ,Set/Clear Pending Bit 99" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND98 ,Set/Clear Pending Bit 98" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND97 ,Set/Clear Pending Bit 97" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND96 ,Set/Clear Pending Bit 96" "Not pending,Pending" else hgroup.long 0x020C++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR3,Interrupt Set/Clear Pending Register 3" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND158 ,Set/Clear Pending Bit 158" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND157 ,Set/Clear Pending Bit 157" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND156 ,Set/Clear Pending Bit 156" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND155 ,Set/Clear Pending Bit 155" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND154 ,Set/Clear Pending Bit 154" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND153 ,Set/Clear Pending Bit 153" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND152 ,Set/Clear Pending Bit 152" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND151 ,Set/Clear Pending Bit 151" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND150 ,Set/Clear Pending Bit 150" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND149 ,Set/Clear Pending Bit 149" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND148 ,Set/Clear Pending Bit 148" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND147 ,Set/Clear Pending Bit 147" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND146 ,Set/Clear Pending Bit 146" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND145 ,Set/Clear Pending Bit 145" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND144 ,Set/Clear Pending Bit 144" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND143 ,Set/Clear Pending Bit 143" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND142 ,Set/Clear Pending Bit 142" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND141 ,Set/Clear Pending Bit 141" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND140 ,Set/Clear Pending Bit 140" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND139 ,Set/Clear Pending Bit 139" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND138 ,Set/Clear Pending Bit 138" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND137 ,Set/Clear Pending Bit 137" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND136 ,Set/Clear Pending Bit 136" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND135 ,Set/Clear Pending Bit 135" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND134 ,Set/Clear Pending Bit 134" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND133 ,Set/Clear Pending Bit 133" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND132 ,Set/Clear Pending Bit 132" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND131 ,Set/Clear Pending Bit 131" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND130 ,Set/Clear Pending Bit 130" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND129 ,Set/Clear Pending Bit 129" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND128 ,Set/Clear Pending Bit 128" "Not pending,Pending" else hgroup.long 0x0210++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR4,Interrupt Set/Clear Pending Register 4" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND190 ,Set/Clear Pending Bit 190" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND189 ,Set/Clear Pending Bit 189" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND188 ,Set/Clear Pending Bit 188" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND187 ,Set/Clear Pending Bit 187" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND186 ,Set/Clear Pending Bit 186" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND185 ,Set/Clear Pending Bit 185" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND184 ,Set/Clear Pending Bit 184" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND183 ,Set/Clear Pending Bit 183" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND182 ,Set/Clear Pending Bit 182" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND181 ,Set/Clear Pending Bit 181" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND180 ,Set/Clear Pending Bit 180" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND179 ,Set/Clear Pending Bit 179" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND178 ,Set/Clear Pending Bit 178" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND177 ,Set/Clear Pending Bit 177" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND176 ,Set/Clear Pending Bit 176" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND175 ,Set/Clear Pending Bit 175" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND174 ,Set/Clear Pending Bit 174" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND173 ,Set/Clear Pending Bit 173" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND172 ,Set/Clear Pending Bit 172" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND171 ,Set/Clear Pending Bit 171" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND170 ,Set/Clear Pending Bit 170" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND169 ,Set/Clear Pending Bit 169" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND168 ,Set/Clear Pending Bit 168" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND167 ,Set/Clear Pending Bit 167" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND166 ,Set/Clear Pending Bit 166" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND165 ,Set/Clear Pending Bit 165" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND164 ,Set/Clear Pending Bit 164" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND163 ,Set/Clear Pending Bit 163" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND162 ,Set/Clear Pending Bit 162" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND161 ,Set/Clear Pending Bit 161" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND160 ,Set/Clear Pending Bit 160" "Not pending,Pending" else hgroup.long 0x0214++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR5,Interrupt Set/Clear Pending Register 5" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND222 ,Set/Clear Pending Bit 222" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND221 ,Set/Clear Pending Bit 221" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND220 ,Set/Clear Pending Bit 220" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND219 ,Set/Clear Pending Bit 219" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND218 ,Set/Clear Pending Bit 218" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND217 ,Set/Clear Pending Bit 217" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND216 ,Set/Clear Pending Bit 216" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND215 ,Set/Clear Pending Bit 215" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND214 ,Set/Clear Pending Bit 214" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND213 ,Set/Clear Pending Bit 213" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND212 ,Set/Clear Pending Bit 212" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND211 ,Set/Clear Pending Bit 211" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND210 ,Set/Clear Pending Bit 210" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND209 ,Set/Clear Pending Bit 209" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND208 ,Set/Clear Pending Bit 208" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND207 ,Set/Clear Pending Bit 207" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND206 ,Set/Clear Pending Bit 206" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND205 ,Set/Clear Pending Bit 205" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND204 ,Set/Clear Pending Bit 204" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND203 ,Set/Clear Pending Bit 203" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND202 ,Set/Clear Pending Bit 202" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND201 ,Set/Clear Pending Bit 201" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND200 ,Set/Clear Pending Bit 200" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND199 ,Set/Clear Pending Bit 199" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND198 ,Set/Clear Pending Bit 198" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND197 ,Set/Clear Pending Bit 197" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND196 ,Set/Clear Pending Bit 196" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND195 ,Set/Clear Pending Bit 195" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND194 ,Set/Clear Pending Bit 194" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND193 ,Set/Clear Pending Bit 193" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND192 ,Set/Clear Pending Bit 192" "Not pending,Pending" else hgroup.long 0x0218++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR6,Interrupt Set/Clear Pending Register 6" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND254 ,Set/Clear Pending Bit 254" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND253 ,Set/Clear Pending Bit 253" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND252 ,Set/Clear Pending Bit 252" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND251 ,Set/Clear Pending Bit 251" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND250 ,Set/Clear Pending Bit 250" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND249 ,Set/Clear Pending Bit 249" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND248 ,Set/Clear Pending Bit 248" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND247 ,Set/Clear Pending Bit 247" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND246 ,Set/Clear Pending Bit 246" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND245 ,Set/Clear Pending Bit 245" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND244 ,Set/Clear Pending Bit 244" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND243 ,Set/Clear Pending Bit 243" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND242 ,Set/Clear Pending Bit 242" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND241 ,Set/Clear Pending Bit 241" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND240 ,Set/Clear Pending Bit 240" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND239 ,Set/Clear Pending Bit 239" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND238 ,Set/Clear Pending Bit 238" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND237 ,Set/Clear Pending Bit 237" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND236 ,Set/Clear Pending Bit 236" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND235 ,Set/Clear Pending Bit 235" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND234 ,Set/Clear Pending Bit 234" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND233 ,Set/Clear Pending Bit 233" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND232 ,Set/Clear Pending Bit 232" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND231 ,Set/Clear Pending Bit 231" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND230 ,Set/Clear Pending Bit 230" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND229 ,Set/Clear Pending Bit 229" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND228 ,Set/Clear Pending Bit 228" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND227 ,Set/Clear Pending Bit 227" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND226 ,Set/Clear Pending Bit 226" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND225 ,Set/Clear Pending Bit 225" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND224 ,Set/Clear Pending Bit 224" "Not pending,Pending" else hgroup.long 0x021C++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR7,Interrupt Set/Clear Pending Register 7" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND286 ,Set/Clear Pending Bit 286" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND285 ,Set/Clear Pending Bit 285" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND284 ,Set/Clear Pending Bit 284" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND283 ,Set/Clear Pending Bit 283" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND282 ,Set/Clear Pending Bit 282" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND281 ,Set/Clear Pending Bit 281" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND280 ,Set/Clear Pending Bit 280" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND279 ,Set/Clear Pending Bit 279" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND278 ,Set/Clear Pending Bit 278" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND277 ,Set/Clear Pending Bit 277" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND276 ,Set/Clear Pending Bit 276" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND275 ,Set/Clear Pending Bit 275" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND274 ,Set/Clear Pending Bit 274" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND273 ,Set/Clear Pending Bit 273" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND272 ,Set/Clear Pending Bit 272" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND271 ,Set/Clear Pending Bit 271" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND270 ,Set/Clear Pending Bit 270" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND269 ,Set/Clear Pending Bit 269" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND268 ,Set/Clear Pending Bit 268" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND267 ,Set/Clear Pending Bit 267" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND266 ,Set/Clear Pending Bit 266" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND265 ,Set/Clear Pending Bit 265" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND264 ,Set/Clear Pending Bit 264" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND263 ,Set/Clear Pending Bit 263" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND262 ,Set/Clear Pending Bit 262" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND261 ,Set/Clear Pending Bit 261" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND260 ,Set/Clear Pending Bit 260" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND259 ,Set/Clear Pending Bit 259" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND258 ,Set/Clear Pending Bit 258" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND257 ,Set/Clear Pending Bit 257" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND256 ,Set/Clear Pending Bit 256" "Not pending,Pending" else hgroup.long 0x0220++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR8,Interrupt Set/Clear Pending Register 8" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND318 ,Set/Clear Pending Bit 318" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND317 ,Set/Clear Pending Bit 317" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND316 ,Set/Clear Pending Bit 316" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND315 ,Set/Clear Pending Bit 315" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND314 ,Set/Clear Pending Bit 314" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND313 ,Set/Clear Pending Bit 313" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND312 ,Set/Clear Pending Bit 312" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND311 ,Set/Clear Pending Bit 311" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND310 ,Set/Clear Pending Bit 310" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND309 ,Set/Clear Pending Bit 309" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND308 ,Set/Clear Pending Bit 308" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND307 ,Set/Clear Pending Bit 307" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND306 ,Set/Clear Pending Bit 306" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND305 ,Set/Clear Pending Bit 305" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND304 ,Set/Clear Pending Bit 304" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND303 ,Set/Clear Pending Bit 303" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND302 ,Set/Clear Pending Bit 302" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND301 ,Set/Clear Pending Bit 301" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND300 ,Set/Clear Pending Bit 300" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND299 ,Set/Clear Pending Bit 299" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND298 ,Set/Clear Pending Bit 298" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND297 ,Set/Clear Pending Bit 297" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND296 ,Set/Clear Pending Bit 296" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND295 ,Set/Clear Pending Bit 295" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND294 ,Set/Clear Pending Bit 294" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND293 ,Set/Clear Pending Bit 293" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND292 ,Set/Clear Pending Bit 292" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND291 ,Set/Clear Pending Bit 291" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND290 ,Set/Clear Pending Bit 290" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND289 ,Set/Clear Pending Bit 289" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND288 ,Set/Clear Pending Bit 288" "Not pending,Pending" else hgroup.long 0x0224++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR9,Interrupt Set/Clear Pending Register 9" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND350 ,Set/Clear Pending Bit 350" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND349 ,Set/Clear Pending Bit 349" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND348 ,Set/Clear Pending Bit 348" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND347 ,Set/Clear Pending Bit 347" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND346 ,Set/Clear Pending Bit 346" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND345 ,Set/Clear Pending Bit 345" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND344 ,Set/Clear Pending Bit 344" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND343 ,Set/Clear Pending Bit 343" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND342 ,Set/Clear Pending Bit 342" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND341 ,Set/Clear Pending Bit 341" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND340 ,Set/Clear Pending Bit 340" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND339 ,Set/Clear Pending Bit 339" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND338 ,Set/Clear Pending Bit 338" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND337 ,Set/Clear Pending Bit 337" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND336 ,Set/Clear Pending Bit 336" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND335 ,Set/Clear Pending Bit 335" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND334 ,Set/Clear Pending Bit 334" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND333 ,Set/Clear Pending Bit 333" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND332 ,Set/Clear Pending Bit 332" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND331 ,Set/Clear Pending Bit 331" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND330 ,Set/Clear Pending Bit 330" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND329 ,Set/Clear Pending Bit 329" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND328 ,Set/Clear Pending Bit 328" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND327 ,Set/Clear Pending Bit 327" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND326 ,Set/Clear Pending Bit 326" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND325 ,Set/Clear Pending Bit 325" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND324 ,Set/Clear Pending Bit 324" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND323 ,Set/Clear Pending Bit 323" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND322 ,Set/Clear Pending Bit 322" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND321 ,Set/Clear Pending Bit 321" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND320 ,Set/Clear Pending Bit 320" "Not pending,Pending" else hgroup.long 0x0228++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR10,Interrupt Set/Clear Pending Register 10" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND382 ,Set/Clear Pending Bit 382" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND381 ,Set/Clear Pending Bit 381" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND380 ,Set/Clear Pending Bit 380" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND379 ,Set/Clear Pending Bit 379" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND378 ,Set/Clear Pending Bit 378" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND377 ,Set/Clear Pending Bit 377" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND376 ,Set/Clear Pending Bit 376" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND375 ,Set/Clear Pending Bit 375" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND374 ,Set/Clear Pending Bit 374" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND373 ,Set/Clear Pending Bit 373" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND372 ,Set/Clear Pending Bit 372" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND371 ,Set/Clear Pending Bit 371" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND370 ,Set/Clear Pending Bit 370" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND369 ,Set/Clear Pending Bit 369" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND368 ,Set/Clear Pending Bit 368" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND367 ,Set/Clear Pending Bit 367" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND366 ,Set/Clear Pending Bit 366" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND365 ,Set/Clear Pending Bit 365" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND364 ,Set/Clear Pending Bit 364" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND363 ,Set/Clear Pending Bit 363" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND362 ,Set/Clear Pending Bit 362" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND361 ,Set/Clear Pending Bit 361" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND360 ,Set/Clear Pending Bit 360" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND359 ,Set/Clear Pending Bit 359" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND358 ,Set/Clear Pending Bit 358" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND357 ,Set/Clear Pending Bit 357" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND356 ,Set/Clear Pending Bit 356" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND355 ,Set/Clear Pending Bit 355" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND354 ,Set/Clear Pending Bit 354" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND353 ,Set/Clear Pending Bit 353" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND352 ,Set/Clear Pending Bit 352" "Not pending,Pending" else hgroup.long 0x022C++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR11,Interrupt Set/Clear Pending Register 11" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND414 ,Set/Clear Pending Bit 414" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND413 ,Set/Clear Pending Bit 413" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND412 ,Set/Clear Pending Bit 412" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND411 ,Set/Clear Pending Bit 411" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND410 ,Set/Clear Pending Bit 410" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND409 ,Set/Clear Pending Bit 409" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND408 ,Set/Clear Pending Bit 408" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND407 ,Set/Clear Pending Bit 407" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND406 ,Set/Clear Pending Bit 406" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND405 ,Set/Clear Pending Bit 405" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND404 ,Set/Clear Pending Bit 404" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND403 ,Set/Clear Pending Bit 403" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND402 ,Set/Clear Pending Bit 402" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND401 ,Set/Clear Pending Bit 401" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND400 ,Set/Clear Pending Bit 400" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND399 ,Set/Clear Pending Bit 399" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND398 ,Set/Clear Pending Bit 398" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND397 ,Set/Clear Pending Bit 397" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND396 ,Set/Clear Pending Bit 396" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND395 ,Set/Clear Pending Bit 395" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND394 ,Set/Clear Pending Bit 394" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND393 ,Set/Clear Pending Bit 393" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND392 ,Set/Clear Pending Bit 392" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND391 ,Set/Clear Pending Bit 391" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND390 ,Set/Clear Pending Bit 390" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND389 ,Set/Clear Pending Bit 389" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND388 ,Set/Clear Pending Bit 388" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND387 ,Set/Clear Pending Bit 387" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND386 ,Set/Clear Pending Bit 386" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND385 ,Set/Clear Pending Bit 385" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND384 ,Set/Clear Pending Bit 384" "Not pending,Pending" else hgroup.long 0x0230++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR12,Interrupt Set/Clear Pending Register 12" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND446 ,Set/Clear Pending Bit 446" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND445 ,Set/Clear Pending Bit 445" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND444 ,Set/Clear Pending Bit 444" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND443 ,Set/Clear Pending Bit 443" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND442 ,Set/Clear Pending Bit 442" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND441 ,Set/Clear Pending Bit 441" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND440 ,Set/Clear Pending Bit 440" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND439 ,Set/Clear Pending Bit 439" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND438 ,Set/Clear Pending Bit 438" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND437 ,Set/Clear Pending Bit 437" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND436 ,Set/Clear Pending Bit 436" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND435 ,Set/Clear Pending Bit 435" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND434 ,Set/Clear Pending Bit 434" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND433 ,Set/Clear Pending Bit 433" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND432 ,Set/Clear Pending Bit 432" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND431 ,Set/Clear Pending Bit 431" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND430 ,Set/Clear Pending Bit 430" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND429 ,Set/Clear Pending Bit 429" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND428 ,Set/Clear Pending Bit 428" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND427 ,Set/Clear Pending Bit 427" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND426 ,Set/Clear Pending Bit 426" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND425 ,Set/Clear Pending Bit 425" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND424 ,Set/Clear Pending Bit 424" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND423 ,Set/Clear Pending Bit 423" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND422 ,Set/Clear Pending Bit 422" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND421 ,Set/Clear Pending Bit 421" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND420 ,Set/Clear Pending Bit 420" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND419 ,Set/Clear Pending Bit 419" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND418 ,Set/Clear Pending Bit 418" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND417 ,Set/Clear Pending Bit 417" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND416 ,Set/Clear Pending Bit 416" "Not pending,Pending" else hgroup.long 0x0234++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR13,Interrupt Set/Clear Pending Register 13" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND478 ,Set/Clear Pending Bit 478" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND477 ,Set/Clear Pending Bit 477" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND476 ,Set/Clear Pending Bit 476" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND475 ,Set/Clear Pending Bit 475" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND474 ,Set/Clear Pending Bit 474" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND473 ,Set/Clear Pending Bit 473" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND472 ,Set/Clear Pending Bit 472" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND471 ,Set/Clear Pending Bit 471" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND470 ,Set/Clear Pending Bit 470" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND469 ,Set/Clear Pending Bit 469" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND468 ,Set/Clear Pending Bit 468" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND467 ,Set/Clear Pending Bit 467" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND466 ,Set/Clear Pending Bit 466" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND465 ,Set/Clear Pending Bit 465" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND464 ,Set/Clear Pending Bit 464" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND463 ,Set/Clear Pending Bit 463" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND462 ,Set/Clear Pending Bit 462" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND461 ,Set/Clear Pending Bit 461" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND460 ,Set/Clear Pending Bit 460" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND459 ,Set/Clear Pending Bit 459" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND458 ,Set/Clear Pending Bit 458" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND457 ,Set/Clear Pending Bit 457" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND456 ,Set/Clear Pending Bit 456" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND455 ,Set/Clear Pending Bit 455" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND454 ,Set/Clear Pending Bit 454" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND453 ,Set/Clear Pending Bit 453" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND452 ,Set/Clear Pending Bit 452" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND451 ,Set/Clear Pending Bit 451" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND450 ,Set/Clear Pending Bit 450" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND449 ,Set/Clear Pending Bit 449" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND448 ,Set/Clear Pending Bit 448" "Not pending,Pending" else hgroup.long 0x0238++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR14,Interrupt Set/Clear Pending Register 14" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND510 ,Set/Clear Pending Bit 510" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND509 ,Set/Clear Pending Bit 509" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND508 ,Set/Clear Pending Bit 508" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND507 ,Set/Clear Pending Bit 507" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND506 ,Set/Clear Pending Bit 506" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND505 ,Set/Clear Pending Bit 505" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND504 ,Set/Clear Pending Bit 504" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND503 ,Set/Clear Pending Bit 503" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND502 ,Set/Clear Pending Bit 502" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND501 ,Set/Clear Pending Bit 501" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND500 ,Set/Clear Pending Bit 500" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND499 ,Set/Clear Pending Bit 499" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND498 ,Set/Clear Pending Bit 498" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND497 ,Set/Clear Pending Bit 497" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND496 ,Set/Clear Pending Bit 496" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND495 ,Set/Clear Pending Bit 495" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND494 ,Set/Clear Pending Bit 494" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND493 ,Set/Clear Pending Bit 493" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND492 ,Set/Clear Pending Bit 492" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND491 ,Set/Clear Pending Bit 491" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND490 ,Set/Clear Pending Bit 490" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND489 ,Set/Clear Pending Bit 489" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND488 ,Set/Clear Pending Bit 488" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND487 ,Set/Clear Pending Bit 487" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND486 ,Set/Clear Pending Bit 486" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND485 ,Set/Clear Pending Bit 485" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND484 ,Set/Clear Pending Bit 484" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND483 ,Set/Clear Pending Bit 483" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND482 ,Set/Clear Pending Bit 482" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND481 ,Set/Clear Pending Bit 481" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND480 ,Set/Clear Pending Bit 480" "Not pending,Pending" else hgroup.long 0x023C++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR15,Interrupt Set/Clear Pending Register 15" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND542 ,Set/Clear Pending Bit 542" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND541 ,Set/Clear Pending Bit 541" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND540 ,Set/Clear Pending Bit 540" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND539 ,Set/Clear Pending Bit 539" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND538 ,Set/Clear Pending Bit 538" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND537 ,Set/Clear Pending Bit 537" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND536 ,Set/Clear Pending Bit 536" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND535 ,Set/Clear Pending Bit 535" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND534 ,Set/Clear Pending Bit 534" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND533 ,Set/Clear Pending Bit 533" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND532 ,Set/Clear Pending Bit 532" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND531 ,Set/Clear Pending Bit 531" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND530 ,Set/Clear Pending Bit 530" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND529 ,Set/Clear Pending Bit 529" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND528 ,Set/Clear Pending Bit 528" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND527 ,Set/Clear Pending Bit 527" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND526 ,Set/Clear Pending Bit 526" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND525 ,Set/Clear Pending Bit 525" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND524 ,Set/Clear Pending Bit 524" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND523 ,Set/Clear Pending Bit 523" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND522 ,Set/Clear Pending Bit 522" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND521 ,Set/Clear Pending Bit 521" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND520 ,Set/Clear Pending Bit 520" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND519 ,Set/Clear Pending Bit 519" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND518 ,Set/Clear Pending Bit 518" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND517 ,Set/Clear Pending Bit 517" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND516 ,Set/Clear Pending Bit 516" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND515 ,Set/Clear Pending Bit 515" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND514 ,Set/Clear Pending Bit 514" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND513 ,Set/Clear Pending Bit 513" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND512 ,Set/Clear Pending Bit 512" "Not pending,Pending" else hgroup.long 0x0240++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR16,Interrupt Set/Clear Pending Register 16" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND574 ,Set/Clear Pending Bit 574" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND573 ,Set/Clear Pending Bit 573" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND572 ,Set/Clear Pending Bit 572" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND571 ,Set/Clear Pending Bit 571" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND570 ,Set/Clear Pending Bit 570" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND569 ,Set/Clear Pending Bit 569" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND568 ,Set/Clear Pending Bit 568" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND567 ,Set/Clear Pending Bit 567" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND566 ,Set/Clear Pending Bit 566" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND565 ,Set/Clear Pending Bit 565" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND564 ,Set/Clear Pending Bit 564" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND563 ,Set/Clear Pending Bit 563" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND562 ,Set/Clear Pending Bit 562" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND561 ,Set/Clear Pending Bit 561" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND560 ,Set/Clear Pending Bit 560" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND559 ,Set/Clear Pending Bit 559" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND558 ,Set/Clear Pending Bit 558" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND557 ,Set/Clear Pending Bit 557" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND556 ,Set/Clear Pending Bit 556" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND555 ,Set/Clear Pending Bit 555" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND554 ,Set/Clear Pending Bit 554" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND553 ,Set/Clear Pending Bit 553" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND552 ,Set/Clear Pending Bit 552" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND551 ,Set/Clear Pending Bit 551" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND550 ,Set/Clear Pending Bit 550" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND549 ,Set/Clear Pending Bit 549" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND548 ,Set/Clear Pending Bit 548" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND547 ,Set/Clear Pending Bit 547" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND546 ,Set/Clear Pending Bit 546" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND545 ,Set/Clear Pending Bit 545" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND544 ,Set/Clear Pending Bit 544" "Not pending,Pending" else hgroup.long 0x0244++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR17,Interrupt Set/Clear Pending Register 17" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND606 ,Set/Clear Pending Bit 606" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND605 ,Set/Clear Pending Bit 605" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND604 ,Set/Clear Pending Bit 604" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND603 ,Set/Clear Pending Bit 603" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND602 ,Set/Clear Pending Bit 602" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND601 ,Set/Clear Pending Bit 601" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND600 ,Set/Clear Pending Bit 600" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND599 ,Set/Clear Pending Bit 599" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND598 ,Set/Clear Pending Bit 598" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND597 ,Set/Clear Pending Bit 597" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND596 ,Set/Clear Pending Bit 596" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND595 ,Set/Clear Pending Bit 595" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND594 ,Set/Clear Pending Bit 594" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND593 ,Set/Clear Pending Bit 593" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND592 ,Set/Clear Pending Bit 592" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND591 ,Set/Clear Pending Bit 591" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND590 ,Set/Clear Pending Bit 590" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND589 ,Set/Clear Pending Bit 589" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND588 ,Set/Clear Pending Bit 588" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND587 ,Set/Clear Pending Bit 587" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND586 ,Set/Clear Pending Bit 586" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND585 ,Set/Clear Pending Bit 585" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND584 ,Set/Clear Pending Bit 584" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND583 ,Set/Clear Pending Bit 583" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND582 ,Set/Clear Pending Bit 582" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND581 ,Set/Clear Pending Bit 581" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND580 ,Set/Clear Pending Bit 580" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND579 ,Set/Clear Pending Bit 579" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND578 ,Set/Clear Pending Bit 578" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND577 ,Set/Clear Pending Bit 577" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND576 ,Set/Clear Pending Bit 576" "Not pending,Pending" else hgroup.long 0x0248++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR18,Interrupt Set/Clear Pending Register 18" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND638 ,Set/Clear Pending Bit 638" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND637 ,Set/Clear Pending Bit 637" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND636 ,Set/Clear Pending Bit 636" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND635 ,Set/Clear Pending Bit 635" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND634 ,Set/Clear Pending Bit 634" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND633 ,Set/Clear Pending Bit 633" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND632 ,Set/Clear Pending Bit 632" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND631 ,Set/Clear Pending Bit 631" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND630 ,Set/Clear Pending Bit 630" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND629 ,Set/Clear Pending Bit 629" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND628 ,Set/Clear Pending Bit 628" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND627 ,Set/Clear Pending Bit 627" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND626 ,Set/Clear Pending Bit 626" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND625 ,Set/Clear Pending Bit 625" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND624 ,Set/Clear Pending Bit 624" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND623 ,Set/Clear Pending Bit 623" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND622 ,Set/Clear Pending Bit 622" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND621 ,Set/Clear Pending Bit 621" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND620 ,Set/Clear Pending Bit 620" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND619 ,Set/Clear Pending Bit 619" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND618 ,Set/Clear Pending Bit 618" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND617 ,Set/Clear Pending Bit 617" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND616 ,Set/Clear Pending Bit 616" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND615 ,Set/Clear Pending Bit 615" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND614 ,Set/Clear Pending Bit 614" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND613 ,Set/Clear Pending Bit 613" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND612 ,Set/Clear Pending Bit 612" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND611 ,Set/Clear Pending Bit 611" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND610 ,Set/Clear Pending Bit 610" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND609 ,Set/Clear Pending Bit 609" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND608 ,Set/Clear Pending Bit 608" "Not pending,Pending" else hgroup.long 0x024C++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR19,Interrupt Set/Clear Pending Register 19" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND670 ,Set/Clear Pending Bit 670" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND669 ,Set/Clear Pending Bit 669" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND668 ,Set/Clear Pending Bit 668" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND667 ,Set/Clear Pending Bit 667" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND666 ,Set/Clear Pending Bit 666" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND665 ,Set/Clear Pending Bit 665" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND664 ,Set/Clear Pending Bit 664" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND663 ,Set/Clear Pending Bit 663" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND662 ,Set/Clear Pending Bit 662" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND661 ,Set/Clear Pending Bit 661" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND660 ,Set/Clear Pending Bit 660" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND659 ,Set/Clear Pending Bit 659" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND658 ,Set/Clear Pending Bit 658" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND657 ,Set/Clear Pending Bit 657" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND656 ,Set/Clear Pending Bit 656" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND655 ,Set/Clear Pending Bit 655" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND654 ,Set/Clear Pending Bit 654" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND653 ,Set/Clear Pending Bit 653" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND652 ,Set/Clear Pending Bit 652" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND651 ,Set/Clear Pending Bit 651" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND650 ,Set/Clear Pending Bit 650" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND649 ,Set/Clear Pending Bit 649" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND648 ,Set/Clear Pending Bit 648" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND647 ,Set/Clear Pending Bit 647" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND646 ,Set/Clear Pending Bit 646" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND645 ,Set/Clear Pending Bit 645" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND644 ,Set/Clear Pending Bit 644" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND643 ,Set/Clear Pending Bit 643" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND642 ,Set/Clear Pending Bit 642" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND641 ,Set/Clear Pending Bit 641" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND640 ,Set/Clear Pending Bit 640" "Not pending,Pending" else hgroup.long 0x0250++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR20,Interrupt Set/Clear Pending Register 20" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND702 ,Set/Clear Pending Bit 702" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND701 ,Set/Clear Pending Bit 701" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND700 ,Set/Clear Pending Bit 700" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND699 ,Set/Clear Pending Bit 699" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND698 ,Set/Clear Pending Bit 698" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND697 ,Set/Clear Pending Bit 697" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND696 ,Set/Clear Pending Bit 696" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND695 ,Set/Clear Pending Bit 695" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND694 ,Set/Clear Pending Bit 694" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND693 ,Set/Clear Pending Bit 693" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND692 ,Set/Clear Pending Bit 692" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND691 ,Set/Clear Pending Bit 691" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND690 ,Set/Clear Pending Bit 690" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND689 ,Set/Clear Pending Bit 689" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND688 ,Set/Clear Pending Bit 688" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND687 ,Set/Clear Pending Bit 687" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND686 ,Set/Clear Pending Bit 686" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND685 ,Set/Clear Pending Bit 685" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND684 ,Set/Clear Pending Bit 684" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND683 ,Set/Clear Pending Bit 683" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND682 ,Set/Clear Pending Bit 682" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND681 ,Set/Clear Pending Bit 681" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND680 ,Set/Clear Pending Bit 680" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND679 ,Set/Clear Pending Bit 679" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND678 ,Set/Clear Pending Bit 678" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND677 ,Set/Clear Pending Bit 677" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND676 ,Set/Clear Pending Bit 676" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND675 ,Set/Clear Pending Bit 675" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND674 ,Set/Clear Pending Bit 674" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND673 ,Set/Clear Pending Bit 673" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND672 ,Set/Clear Pending Bit 672" "Not pending,Pending" else hgroup.long 0x0254++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR21,Interrupt Set/Clear Pending Register 21" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND734 ,Set/Clear Pending Bit 734" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND733 ,Set/Clear Pending Bit 733" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND732 ,Set/Clear Pending Bit 732" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND731 ,Set/Clear Pending Bit 731" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND730 ,Set/Clear Pending Bit 730" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND729 ,Set/Clear Pending Bit 729" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND728 ,Set/Clear Pending Bit 728" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND727 ,Set/Clear Pending Bit 727" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND726 ,Set/Clear Pending Bit 726" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND725 ,Set/Clear Pending Bit 725" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND724 ,Set/Clear Pending Bit 724" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND723 ,Set/Clear Pending Bit 723" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND722 ,Set/Clear Pending Bit 722" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND721 ,Set/Clear Pending Bit 721" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND720 ,Set/Clear Pending Bit 720" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND719 ,Set/Clear Pending Bit 719" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND718 ,Set/Clear Pending Bit 718" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND717 ,Set/Clear Pending Bit 717" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND716 ,Set/Clear Pending Bit 716" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND715 ,Set/Clear Pending Bit 715" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND714 ,Set/Clear Pending Bit 714" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND713 ,Set/Clear Pending Bit 713" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND712 ,Set/Clear Pending Bit 712" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND711 ,Set/Clear Pending Bit 711" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND710 ,Set/Clear Pending Bit 710" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND709 ,Set/Clear Pending Bit 709" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND708 ,Set/Clear Pending Bit 708" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND707 ,Set/Clear Pending Bit 707" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND706 ,Set/Clear Pending Bit 706" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND705 ,Set/Clear Pending Bit 705" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND704 ,Set/Clear Pending Bit 704" "Not pending,Pending" else hgroup.long 0x0258++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR22,Interrupt Set/Clear Pending Register 22" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND766 ,Set/Clear Pending Bit 766" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND765 ,Set/Clear Pending Bit 765" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND764 ,Set/Clear Pending Bit 764" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND763 ,Set/Clear Pending Bit 763" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND762 ,Set/Clear Pending Bit 762" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND761 ,Set/Clear Pending Bit 761" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND760 ,Set/Clear Pending Bit 760" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND759 ,Set/Clear Pending Bit 759" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND758 ,Set/Clear Pending Bit 758" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND757 ,Set/Clear Pending Bit 757" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND756 ,Set/Clear Pending Bit 756" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND755 ,Set/Clear Pending Bit 755" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND754 ,Set/Clear Pending Bit 754" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND753 ,Set/Clear Pending Bit 753" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND752 ,Set/Clear Pending Bit 752" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND751 ,Set/Clear Pending Bit 751" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND750 ,Set/Clear Pending Bit 750" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND749 ,Set/Clear Pending Bit 749" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND748 ,Set/Clear Pending Bit 748" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND747 ,Set/Clear Pending Bit 747" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND746 ,Set/Clear Pending Bit 746" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND745 ,Set/Clear Pending Bit 745" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND744 ,Set/Clear Pending Bit 744" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND743 ,Set/Clear Pending Bit 743" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND742 ,Set/Clear Pending Bit 742" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND741 ,Set/Clear Pending Bit 741" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND740 ,Set/Clear Pending Bit 740" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND739 ,Set/Clear Pending Bit 739" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND738 ,Set/Clear Pending Bit 738" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND737 ,Set/Clear Pending Bit 737" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND736 ,Set/Clear Pending Bit 736" "Not pending,Pending" else hgroup.long 0x025C++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR23,Interrupt Set/Clear Pending Register 23" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND798 ,Set/Clear Pending Bit 798" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND797 ,Set/Clear Pending Bit 797" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND796 ,Set/Clear Pending Bit 796" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND795 ,Set/Clear Pending Bit 795" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND794 ,Set/Clear Pending Bit 794" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND793 ,Set/Clear Pending Bit 793" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND792 ,Set/Clear Pending Bit 792" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND791 ,Set/Clear Pending Bit 791" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND790 ,Set/Clear Pending Bit 790" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND789 ,Set/Clear Pending Bit 789" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND788 ,Set/Clear Pending Bit 788" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND787 ,Set/Clear Pending Bit 787" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND786 ,Set/Clear Pending Bit 786" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND785 ,Set/Clear Pending Bit 785" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND784 ,Set/Clear Pending Bit 784" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND783 ,Set/Clear Pending Bit 783" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND782 ,Set/Clear Pending Bit 782" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND781 ,Set/Clear Pending Bit 781" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND780 ,Set/Clear Pending Bit 780" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND779 ,Set/Clear Pending Bit 779" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND778 ,Set/Clear Pending Bit 778" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND777 ,Set/Clear Pending Bit 777" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND776 ,Set/Clear Pending Bit 776" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND775 ,Set/Clear Pending Bit 775" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND774 ,Set/Clear Pending Bit 774" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND773 ,Set/Clear Pending Bit 773" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND772 ,Set/Clear Pending Bit 772" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND771 ,Set/Clear Pending Bit 771" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND770 ,Set/Clear Pending Bit 770" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND769 ,Set/Clear Pending Bit 769" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND768 ,Set/Clear Pending Bit 768" "Not pending,Pending" else hgroup.long 0x0260++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR24,Interrupt Set/Clear Pending Register 24" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND830 ,Set/Clear Pending Bit 830" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND829 ,Set/Clear Pending Bit 829" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND828 ,Set/Clear Pending Bit 828" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND827 ,Set/Clear Pending Bit 827" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND826 ,Set/Clear Pending Bit 826" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND825 ,Set/Clear Pending Bit 825" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND824 ,Set/Clear Pending Bit 824" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND823 ,Set/Clear Pending Bit 823" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND822 ,Set/Clear Pending Bit 822" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND821 ,Set/Clear Pending Bit 821" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND820 ,Set/Clear Pending Bit 820" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND819 ,Set/Clear Pending Bit 819" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND818 ,Set/Clear Pending Bit 818" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND817 ,Set/Clear Pending Bit 817" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND816 ,Set/Clear Pending Bit 816" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND815 ,Set/Clear Pending Bit 815" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND814 ,Set/Clear Pending Bit 814" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND813 ,Set/Clear Pending Bit 813" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND812 ,Set/Clear Pending Bit 812" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND811 ,Set/Clear Pending Bit 811" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND810 ,Set/Clear Pending Bit 810" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND809 ,Set/Clear Pending Bit 809" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND808 ,Set/Clear Pending Bit 808" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND807 ,Set/Clear Pending Bit 807" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND806 ,Set/Clear Pending Bit 806" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND805 ,Set/Clear Pending Bit 805" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND804 ,Set/Clear Pending Bit 804" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND803 ,Set/Clear Pending Bit 803" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND802 ,Set/Clear Pending Bit 802" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND801 ,Set/Clear Pending Bit 801" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND800 ,Set/Clear Pending Bit 800" "Not pending,Pending" else hgroup.long 0x0264++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR25,Interrupt Set/Clear Pending Register 25" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND862 ,Set/Clear Pending Bit 862" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND861 ,Set/Clear Pending Bit 861" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND860 ,Set/Clear Pending Bit 860" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND859 ,Set/Clear Pending Bit 859" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND858 ,Set/Clear Pending Bit 858" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND857 ,Set/Clear Pending Bit 857" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND856 ,Set/Clear Pending Bit 856" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND855 ,Set/Clear Pending Bit 855" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND854 ,Set/Clear Pending Bit 854" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND853 ,Set/Clear Pending Bit 853" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND852 ,Set/Clear Pending Bit 852" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND851 ,Set/Clear Pending Bit 851" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND850 ,Set/Clear Pending Bit 850" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND849 ,Set/Clear Pending Bit 849" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND848 ,Set/Clear Pending Bit 848" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND847 ,Set/Clear Pending Bit 847" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND846 ,Set/Clear Pending Bit 846" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND845 ,Set/Clear Pending Bit 845" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND844 ,Set/Clear Pending Bit 844" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND843 ,Set/Clear Pending Bit 843" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND842 ,Set/Clear Pending Bit 842" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND841 ,Set/Clear Pending Bit 841" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND840 ,Set/Clear Pending Bit 840" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND839 ,Set/Clear Pending Bit 839" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND838 ,Set/Clear Pending Bit 838" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND837 ,Set/Clear Pending Bit 837" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND836 ,Set/Clear Pending Bit 836" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND835 ,Set/Clear Pending Bit 835" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND834 ,Set/Clear Pending Bit 834" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND833 ,Set/Clear Pending Bit 833" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND832 ,Set/Clear Pending Bit 832" "Not pending,Pending" else hgroup.long 0x0268++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR26,Interrupt Set/Clear Pending Register 26" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND894 ,Set/Clear Pending Bit 894" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND893 ,Set/Clear Pending Bit 893" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND892 ,Set/Clear Pending Bit 892" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND891 ,Set/Clear Pending Bit 891" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND890 ,Set/Clear Pending Bit 890" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND889 ,Set/Clear Pending Bit 889" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND888 ,Set/Clear Pending Bit 888" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND887 ,Set/Clear Pending Bit 887" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND886 ,Set/Clear Pending Bit 886" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND885 ,Set/Clear Pending Bit 885" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND884 ,Set/Clear Pending Bit 884" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND883 ,Set/Clear Pending Bit 883" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND882 ,Set/Clear Pending Bit 882" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND881 ,Set/Clear Pending Bit 881" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND880 ,Set/Clear Pending Bit 880" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND879 ,Set/Clear Pending Bit 879" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND878 ,Set/Clear Pending Bit 878" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND877 ,Set/Clear Pending Bit 877" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND876 ,Set/Clear Pending Bit 876" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND875 ,Set/Clear Pending Bit 875" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND874 ,Set/Clear Pending Bit 874" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND873 ,Set/Clear Pending Bit 873" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND872 ,Set/Clear Pending Bit 872" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND871 ,Set/Clear Pending Bit 871" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND870 ,Set/Clear Pending Bit 870" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND869 ,Set/Clear Pending Bit 869" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND868 ,Set/Clear Pending Bit 868" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND867 ,Set/Clear Pending Bit 867" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND866 ,Set/Clear Pending Bit 866" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND865 ,Set/Clear Pending Bit 865" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND864 ,Set/Clear Pending Bit 864" "Not pending,Pending" else hgroup.long 0x026C++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR27,Interrupt Set/Clear Pending Register 27" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND926 ,Set/Clear Pending Bit 926" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND925 ,Set/Clear Pending Bit 925" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND924 ,Set/Clear Pending Bit 924" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND923 ,Set/Clear Pending Bit 923" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND922 ,Set/Clear Pending Bit 922" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND921 ,Set/Clear Pending Bit 921" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND920 ,Set/Clear Pending Bit 920" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND919 ,Set/Clear Pending Bit 919" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND918 ,Set/Clear Pending Bit 918" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND917 ,Set/Clear Pending Bit 917" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND916 ,Set/Clear Pending Bit 916" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND915 ,Set/Clear Pending Bit 915" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND914 ,Set/Clear Pending Bit 914" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND913 ,Set/Clear Pending Bit 913" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND912 ,Set/Clear Pending Bit 912" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND911 ,Set/Clear Pending Bit 911" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND910 ,Set/Clear Pending Bit 910" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND909 ,Set/Clear Pending Bit 909" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND908 ,Set/Clear Pending Bit 908" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND907 ,Set/Clear Pending Bit 907" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND906 ,Set/Clear Pending Bit 906" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND905 ,Set/Clear Pending Bit 905" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND904 ,Set/Clear Pending Bit 904" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND903 ,Set/Clear Pending Bit 903" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND902 ,Set/Clear Pending Bit 902" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND901 ,Set/Clear Pending Bit 901" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND900 ,Set/Clear Pending Bit 900" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND899 ,Set/Clear Pending Bit 899" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND898 ,Set/Clear Pending Bit 898" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND897 ,Set/Clear Pending Bit 897" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND896 ,Set/Clear Pending Bit 896" "Not pending,Pending" else hgroup.long 0x0270++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR28,Interrupt Set/Clear Pending Register 28" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND958 ,Set/Clear Pending Bit 958" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND957 ,Set/Clear Pending Bit 957" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND956 ,Set/Clear Pending Bit 956" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND955 ,Set/Clear Pending Bit 955" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND954 ,Set/Clear Pending Bit 954" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND953 ,Set/Clear Pending Bit 953" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND952 ,Set/Clear Pending Bit 952" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND951 ,Set/Clear Pending Bit 951" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND950 ,Set/Clear Pending Bit 950" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND949 ,Set/Clear Pending Bit 949" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND948 ,Set/Clear Pending Bit 948" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND947 ,Set/Clear Pending Bit 947" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND946 ,Set/Clear Pending Bit 946" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND945 ,Set/Clear Pending Bit 945" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND944 ,Set/Clear Pending Bit 944" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND943 ,Set/Clear Pending Bit 943" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND942 ,Set/Clear Pending Bit 942" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND941 ,Set/Clear Pending Bit 941" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND940 ,Set/Clear Pending Bit 940" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND939 ,Set/Clear Pending Bit 939" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND938 ,Set/Clear Pending Bit 938" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND937 ,Set/Clear Pending Bit 937" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND936 ,Set/Clear Pending Bit 936" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND935 ,Set/Clear Pending Bit 935" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND934 ,Set/Clear Pending Bit 934" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND933 ,Set/Clear Pending Bit 933" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND932 ,Set/Clear Pending Bit 932" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND931 ,Set/Clear Pending Bit 931" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND930 ,Set/Clear Pending Bit 930" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND929 ,Set/Clear Pending Bit 929" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND928 ,Set/Clear Pending Bit 928" "Not pending,Pending" else hgroup.long 0x0274++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR29,Interrupt Set/Clear Pending Register 29" endif if (((per.l(COMP.BASE("GICD",-1.)+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" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND990 ,Set/Clear Pending Bit 990" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND989 ,Set/Clear Pending Bit 989" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND988 ,Set/Clear Pending Bit 988" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND987 ,Set/Clear Pending Bit 987" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND986 ,Set/Clear Pending Bit 986" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND985 ,Set/Clear Pending Bit 985" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND984 ,Set/Clear Pending Bit 984" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND983 ,Set/Clear Pending Bit 983" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND982 ,Set/Clear Pending Bit 982" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND981 ,Set/Clear Pending Bit 981" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND980 ,Set/Clear Pending Bit 980" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND979 ,Set/Clear Pending Bit 979" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND978 ,Set/Clear Pending Bit 978" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND977 ,Set/Clear Pending Bit 977" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND976 ,Set/Clear Pending Bit 976" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND975 ,Set/Clear Pending Bit 975" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND974 ,Set/Clear Pending Bit 974" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND973 ,Set/Clear Pending Bit 973" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND972 ,Set/Clear Pending Bit 972" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND971 ,Set/Clear Pending Bit 971" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND970 ,Set/Clear Pending Bit 970" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND969 ,Set/Clear Pending Bit 969" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND968 ,Set/Clear Pending Bit 968" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND967 ,Set/Clear Pending Bit 967" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND966 ,Set/Clear Pending Bit 966" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND965 ,Set/Clear Pending Bit 965" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND964 ,Set/Clear Pending Bit 964" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND963 ,Set/Clear Pending Bit 963" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND962 ,Set/Clear Pending Bit 962" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND961 ,Set/Clear Pending Bit 961" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND960 ,Set/Clear Pending Bit 960" "Not pending,Pending" else hgroup.long 0x0278++0x03 hide.long 0x0 "GICD_SET/CLR_PENDR30,Interrupt Set/Clear Pending Register 30" endif tree.end width 24. tree "Set/Clear Active Registers" if (((per.l(COMP.BASE("GICD",-1.)))&0x10)==0x10) hgroup.long 0x0300++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER0,Interrupt Set/Clear Active Register 0" newline newline newline newline newline newline newline newline newline newline else group.long 0x0300++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER0,Interrupt Set/Clear Active Register 0" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE31 ,Set/Clear Active Bit 31" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE30 ,Set/Clear Active Bit 30" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE29 ,Set/Clear Active Bit 29" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE28 ,Set/Clear Active Bit 28" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE27 ,Set/Clear Active Bit 27" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE26 ,Set/Clear Active Bit 26" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE25 ,Set/Clear Active Bit 25" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE24 ,Set/Clear Active Bit 24" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE23 ,Set/Clear Active Bit 23" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE22 ,Set/Clear Active Bit 22" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE21 ,Set/Clear Active Bit 21" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE20 ,Set/Clear Active Bit 20" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE19 ,Set/Clear Active Bit 19" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE18 ,Set/Clear Active Bit 18" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE17 ,Set/Clear Active Bit 17" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE16 ,Set/Clear Active Bit 16" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE15 ,Set/Clear Active Bit 15" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE14 ,Set/Clear Active Bit 14" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE13 ,Set/Clear Active Bit 13" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE12 ,Set/Clear Active Bit 12" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE11 ,Set/Clear Active Bit 11" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE10 ,Set/Clear Active Bit 10" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE9 ,Set/Clear Active Bit 9" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE8 ,Set/Clear Active Bit 8" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE7 ,Set/Clear Active Bit 7" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE6 ,Set/Clear Active Bit 6" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE5 ,Set/Clear Active Bit 5" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE4 ,Set/Clear Active Bit 4" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE3 ,Set/Clear Active Bit 3" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE2 ,Set/Clear Active Bit 2" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE1 ,Set/Clear Active Bit 1" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE0 ,Set/Clear Active Bit 0" "Not active,Active" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x01) group.long 0x0304++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER1,Interrupt Set/Clear Active Register 1" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE63 ,Set/Clear Active Bit 63" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE62 ,Set/Clear Active Bit 62" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE61 ,Set/Clear Active Bit 61" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE60 ,Set/Clear Active Bit 60" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE59 ,Set/Clear Active Bit 59" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE58 ,Set/Clear Active Bit 58" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE57 ,Set/Clear Active Bit 57" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE56 ,Set/Clear Active Bit 56" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE55 ,Set/Clear Active Bit 55" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE54 ,Set/Clear Active Bit 54" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE53 ,Set/Clear Active Bit 53" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE52 ,Set/Clear Active Bit 52" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE51 ,Set/Clear Active Bit 51" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE50 ,Set/Clear Active Bit 50" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE49 ,Set/Clear Active Bit 49" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE48 ,Set/Clear Active Bit 48" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE47 ,Set/Clear Active Bit 47" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE46 ,Set/Clear Active Bit 46" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE45 ,Set/Clear Active Bit 45" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE44 ,Set/Clear Active Bit 44" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE43 ,Set/Clear Active Bit 43" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE42 ,Set/Clear Active Bit 42" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE41 ,Set/Clear Active Bit 41" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE40 ,Set/Clear Active Bit 40" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE39 ,Set/Clear Active Bit 39" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE38 ,Set/Clear Active Bit 38" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE37 ,Set/Clear Active Bit 37" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE36 ,Set/Clear Active Bit 36" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE35 ,Set/Clear Active Bit 35" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE34 ,Set/Clear Active Bit 34" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE33 ,Set/Clear Active Bit 33" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE32 ,Set/Clear Active Bit 32" "Not active,Active" else hgroup.long 0x0304++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER1,Interrupt Set/Clear Active Register 1" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x02) group.long 0x0308++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER2,Interrupt Set/Clear Active Register 2" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE95 ,Set/Clear Active Bit 95" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE94 ,Set/Clear Active Bit 94" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE93 ,Set/Clear Active Bit 93" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE92 ,Set/Clear Active Bit 92" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE91 ,Set/Clear Active Bit 91" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE90 ,Set/Clear Active Bit 90" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE89 ,Set/Clear Active Bit 89" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE88 ,Set/Clear Active Bit 88" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE87 ,Set/Clear Active Bit 87" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE86 ,Set/Clear Active Bit 86" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE85 ,Set/Clear Active Bit 85" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE84 ,Set/Clear Active Bit 84" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE83 ,Set/Clear Active Bit 83" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE82 ,Set/Clear Active Bit 82" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE81 ,Set/Clear Active Bit 81" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE80 ,Set/Clear Active Bit 80" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE79 ,Set/Clear Active Bit 79" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE78 ,Set/Clear Active Bit 78" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE77 ,Set/Clear Active Bit 77" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE76 ,Set/Clear Active Bit 76" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE75 ,Set/Clear Active Bit 75" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE74 ,Set/Clear Active Bit 74" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE73 ,Set/Clear Active Bit 73" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE72 ,Set/Clear Active Bit 72" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE71 ,Set/Clear Active Bit 71" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE70 ,Set/Clear Active Bit 70" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE69 ,Set/Clear Active Bit 69" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE68 ,Set/Clear Active Bit 68" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE67 ,Set/Clear Active Bit 67" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE66 ,Set/Clear Active Bit 66" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE65 ,Set/Clear Active Bit 65" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE64 ,Set/Clear Active Bit 64" "Not active,Active" else hgroup.long 0x0308++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER2,Interrupt Set/Clear Active Register 2" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x03) group.long 0x030C++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER3,Interrupt Set/Clear Active Register 3" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE127 ,Set/Clear Active Bit 127" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE126 ,Set/Clear Active Bit 126" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE125 ,Set/Clear Active Bit 125" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE124 ,Set/Clear Active Bit 124" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE123 ,Set/Clear Active Bit 123" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE122 ,Set/Clear Active Bit 122" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE121 ,Set/Clear Active Bit 121" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE120 ,Set/Clear Active Bit 120" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE119 ,Set/Clear Active Bit 119" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE118 ,Set/Clear Active Bit 118" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE117 ,Set/Clear Active Bit 117" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE116 ,Set/Clear Active Bit 116" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE115 ,Set/Clear Active Bit 115" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE114 ,Set/Clear Active Bit 114" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE113 ,Set/Clear Active Bit 113" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE112 ,Set/Clear Active Bit 112" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE111 ,Set/Clear Active Bit 111" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE110 ,Set/Clear Active Bit 110" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE109 ,Set/Clear Active Bit 109" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE108 ,Set/Clear Active Bit 108" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE107 ,Set/Clear Active Bit 107" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE106 ,Set/Clear Active Bit 106" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE105 ,Set/Clear Active Bit 105" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE104 ,Set/Clear Active Bit 104" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE103 ,Set/Clear Active Bit 103" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE102 ,Set/Clear Active Bit 102" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE101 ,Set/Clear Active Bit 101" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE100 ,Set/Clear Active Bit 100" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE99 ,Set/Clear Active Bit 99" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE98 ,Set/Clear Active Bit 98" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE97 ,Set/Clear Active Bit 97" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE96 ,Set/Clear Active Bit 96" "Not active,Active" else hgroup.long 0x030C++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER3,Interrupt Set/Clear Active Register 3" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x04) group.long 0x0310++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER4,Interrupt Set/Clear Active Register 4" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE159 ,Set/Clear Active Bit 159" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE158 ,Set/Clear Active Bit 158" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE157 ,Set/Clear Active Bit 157" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE156 ,Set/Clear Active Bit 156" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE155 ,Set/Clear Active Bit 155" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE154 ,Set/Clear Active Bit 154" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE153 ,Set/Clear Active Bit 153" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE152 ,Set/Clear Active Bit 152" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE151 ,Set/Clear Active Bit 151" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE150 ,Set/Clear Active Bit 150" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE149 ,Set/Clear Active Bit 149" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE148 ,Set/Clear Active Bit 148" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE147 ,Set/Clear Active Bit 147" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE146 ,Set/Clear Active Bit 146" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE145 ,Set/Clear Active Bit 145" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE144 ,Set/Clear Active Bit 144" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE143 ,Set/Clear Active Bit 143" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE142 ,Set/Clear Active Bit 142" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE141 ,Set/Clear Active Bit 141" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE140 ,Set/Clear Active Bit 140" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE139 ,Set/Clear Active Bit 139" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE138 ,Set/Clear Active Bit 138" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE137 ,Set/Clear Active Bit 137" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE136 ,Set/Clear Active Bit 136" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE135 ,Set/Clear Active Bit 135" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE134 ,Set/Clear Active Bit 134" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE133 ,Set/Clear Active Bit 133" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE132 ,Set/Clear Active Bit 132" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE131 ,Set/Clear Active Bit 131" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE130 ,Set/Clear Active Bit 130" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE129 ,Set/Clear Active Bit 129" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE128 ,Set/Clear Active Bit 128" "Not active,Active" else hgroup.long 0x0310++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER4,Interrupt Set/Clear Active Register 4" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x05) group.long 0x0314++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER5,Interrupt Set/Clear Active Register 5" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE191 ,Set/Clear Active Bit 191" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE190 ,Set/Clear Active Bit 190" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE189 ,Set/Clear Active Bit 189" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE188 ,Set/Clear Active Bit 188" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE187 ,Set/Clear Active Bit 187" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE186 ,Set/Clear Active Bit 186" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE185 ,Set/Clear Active Bit 185" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE184 ,Set/Clear Active Bit 184" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE183 ,Set/Clear Active Bit 183" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE182 ,Set/Clear Active Bit 182" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE181 ,Set/Clear Active Bit 181" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE180 ,Set/Clear Active Bit 180" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE179 ,Set/Clear Active Bit 179" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE178 ,Set/Clear Active Bit 178" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE177 ,Set/Clear Active Bit 177" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE176 ,Set/Clear Active Bit 176" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE175 ,Set/Clear Active Bit 175" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE174 ,Set/Clear Active Bit 174" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE173 ,Set/Clear Active Bit 173" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE172 ,Set/Clear Active Bit 172" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE171 ,Set/Clear Active Bit 171" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE170 ,Set/Clear Active Bit 170" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE169 ,Set/Clear Active Bit 169" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE168 ,Set/Clear Active Bit 168" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE167 ,Set/Clear Active Bit 167" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE166 ,Set/Clear Active Bit 166" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE165 ,Set/Clear Active Bit 165" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE164 ,Set/Clear Active Bit 164" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE163 ,Set/Clear Active Bit 163" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE162 ,Set/Clear Active Bit 162" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE161 ,Set/Clear Active Bit 161" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE160 ,Set/Clear Active Bit 160" "Not active,Active" else hgroup.long 0x0314++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER5,Interrupt Set/Clear Active Register 5" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x06) group.long 0x0318++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER6,Interrupt Set/Clear Active Register 6" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE223 ,Set/Clear Active Bit 223" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE222 ,Set/Clear Active Bit 222" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE221 ,Set/Clear Active Bit 221" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE220 ,Set/Clear Active Bit 220" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE219 ,Set/Clear Active Bit 219" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE218 ,Set/Clear Active Bit 218" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE217 ,Set/Clear Active Bit 217" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE216 ,Set/Clear Active Bit 216" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE215 ,Set/Clear Active Bit 215" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE214 ,Set/Clear Active Bit 214" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE213 ,Set/Clear Active Bit 213" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE212 ,Set/Clear Active Bit 212" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE211 ,Set/Clear Active Bit 211" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE210 ,Set/Clear Active Bit 210" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE209 ,Set/Clear Active Bit 209" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE208 ,Set/Clear Active Bit 208" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE207 ,Set/Clear Active Bit 207" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE206 ,Set/Clear Active Bit 206" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE205 ,Set/Clear Active Bit 205" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE204 ,Set/Clear Active Bit 204" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE203 ,Set/Clear Active Bit 203" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE202 ,Set/Clear Active Bit 202" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE201 ,Set/Clear Active Bit 201" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE200 ,Set/Clear Active Bit 200" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE199 ,Set/Clear Active Bit 199" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE198 ,Set/Clear Active Bit 198" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE197 ,Set/Clear Active Bit 197" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE196 ,Set/Clear Active Bit 196" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE195 ,Set/Clear Active Bit 195" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE194 ,Set/Clear Active Bit 194" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE193 ,Set/Clear Active Bit 193" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE192 ,Set/Clear Active Bit 192" "Not active,Active" else hgroup.long 0x0318++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER6,Interrupt Set/Clear Active Register 6" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x07) group.long 0x031C++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER7,Interrupt Set/Clear Active Register 7" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE255 ,Set/Clear Active Bit 255" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE254 ,Set/Clear Active Bit 254" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE253 ,Set/Clear Active Bit 253" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE252 ,Set/Clear Active Bit 252" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE251 ,Set/Clear Active Bit 251" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE250 ,Set/Clear Active Bit 250" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE249 ,Set/Clear Active Bit 249" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE248 ,Set/Clear Active Bit 248" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE247 ,Set/Clear Active Bit 247" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE246 ,Set/Clear Active Bit 246" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE245 ,Set/Clear Active Bit 245" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE244 ,Set/Clear Active Bit 244" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE243 ,Set/Clear Active Bit 243" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE242 ,Set/Clear Active Bit 242" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE241 ,Set/Clear Active Bit 241" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE240 ,Set/Clear Active Bit 240" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE239 ,Set/Clear Active Bit 239" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE238 ,Set/Clear Active Bit 238" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE237 ,Set/Clear Active Bit 237" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE236 ,Set/Clear Active Bit 236" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE235 ,Set/Clear Active Bit 235" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE234 ,Set/Clear Active Bit 234" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE233 ,Set/Clear Active Bit 233" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE232 ,Set/Clear Active Bit 232" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE231 ,Set/Clear Active Bit 231" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE230 ,Set/Clear Active Bit 230" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE229 ,Set/Clear Active Bit 229" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE228 ,Set/Clear Active Bit 228" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE227 ,Set/Clear Active Bit 227" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE226 ,Set/Clear Active Bit 226" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE225 ,Set/Clear Active Bit 225" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE224 ,Set/Clear Active Bit 224" "Not active,Active" else hgroup.long 0x031C++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER7,Interrupt Set/Clear Active Register 7" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x08) group.long 0x0320++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER8,Interrupt Set/Clear Active Register 8" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE287 ,Set/Clear Active Bit 287" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE286 ,Set/Clear Active Bit 286" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE285 ,Set/Clear Active Bit 285" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE284 ,Set/Clear Active Bit 284" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE283 ,Set/Clear Active Bit 283" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE282 ,Set/Clear Active Bit 282" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE281 ,Set/Clear Active Bit 281" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE280 ,Set/Clear Active Bit 280" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE279 ,Set/Clear Active Bit 279" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE278 ,Set/Clear Active Bit 278" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE277 ,Set/Clear Active Bit 277" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE276 ,Set/Clear Active Bit 276" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE275 ,Set/Clear Active Bit 275" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE274 ,Set/Clear Active Bit 274" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE273 ,Set/Clear Active Bit 273" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE272 ,Set/Clear Active Bit 272" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE271 ,Set/Clear Active Bit 271" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE270 ,Set/Clear Active Bit 270" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE269 ,Set/Clear Active Bit 269" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE268 ,Set/Clear Active Bit 268" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE267 ,Set/Clear Active Bit 267" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE266 ,Set/Clear Active Bit 266" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE265 ,Set/Clear Active Bit 265" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE264 ,Set/Clear Active Bit 264" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE263 ,Set/Clear Active Bit 263" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE262 ,Set/Clear Active Bit 262" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE261 ,Set/Clear Active Bit 261" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE260 ,Set/Clear Active Bit 260" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE259 ,Set/Clear Active Bit 259" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE258 ,Set/Clear Active Bit 258" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE257 ,Set/Clear Active Bit 257" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE256 ,Set/Clear Active Bit 256" "Not active,Active" else hgroup.long 0x0320++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER8,Interrupt Set/Clear Active Register 8" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x09) group.long 0x0324++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER9,Interrupt Set/Clear Active Register 9" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE319 ,Set/Clear Active Bit 319" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE318 ,Set/Clear Active Bit 318" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE317 ,Set/Clear Active Bit 317" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE316 ,Set/Clear Active Bit 316" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE315 ,Set/Clear Active Bit 315" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE314 ,Set/Clear Active Bit 314" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE313 ,Set/Clear Active Bit 313" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE312 ,Set/Clear Active Bit 312" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE311 ,Set/Clear Active Bit 311" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE310 ,Set/Clear Active Bit 310" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE309 ,Set/Clear Active Bit 309" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE308 ,Set/Clear Active Bit 308" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE307 ,Set/Clear Active Bit 307" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE306 ,Set/Clear Active Bit 306" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE305 ,Set/Clear Active Bit 305" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE304 ,Set/Clear Active Bit 304" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE303 ,Set/Clear Active Bit 303" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE302 ,Set/Clear Active Bit 302" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE301 ,Set/Clear Active Bit 301" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE300 ,Set/Clear Active Bit 300" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE299 ,Set/Clear Active Bit 299" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE298 ,Set/Clear Active Bit 298" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE297 ,Set/Clear Active Bit 297" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE296 ,Set/Clear Active Bit 296" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE295 ,Set/Clear Active Bit 295" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE294 ,Set/Clear Active Bit 294" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE293 ,Set/Clear Active Bit 293" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE292 ,Set/Clear Active Bit 292" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE291 ,Set/Clear Active Bit 291" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE290 ,Set/Clear Active Bit 290" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE289 ,Set/Clear Active Bit 289" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE288 ,Set/Clear Active Bit 288" "Not active,Active" else hgroup.long 0x0324++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER9,Interrupt Set/Clear Active Register 9" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x0A) group.long 0x0328++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER10,Interrupt Set/Clear Active Register 10" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE351 ,Set/Clear Active Bit 351" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE350 ,Set/Clear Active Bit 350" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE349 ,Set/Clear Active Bit 349" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE348 ,Set/Clear Active Bit 348" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE347 ,Set/Clear Active Bit 347" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE346 ,Set/Clear Active Bit 346" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE345 ,Set/Clear Active Bit 345" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE344 ,Set/Clear Active Bit 344" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE343 ,Set/Clear Active Bit 343" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE342 ,Set/Clear Active Bit 342" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE341 ,Set/Clear Active Bit 341" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE340 ,Set/Clear Active Bit 340" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE339 ,Set/Clear Active Bit 339" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE338 ,Set/Clear Active Bit 338" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE337 ,Set/Clear Active Bit 337" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE336 ,Set/Clear Active Bit 336" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE335 ,Set/Clear Active Bit 335" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE334 ,Set/Clear Active Bit 334" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE333 ,Set/Clear Active Bit 333" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE332 ,Set/Clear Active Bit 332" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE331 ,Set/Clear Active Bit 331" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE330 ,Set/Clear Active Bit 330" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE329 ,Set/Clear Active Bit 329" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE328 ,Set/Clear Active Bit 328" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE327 ,Set/Clear Active Bit 327" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE326 ,Set/Clear Active Bit 326" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE325 ,Set/Clear Active Bit 325" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE324 ,Set/Clear Active Bit 324" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE323 ,Set/Clear Active Bit 323" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE322 ,Set/Clear Active Bit 322" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE321 ,Set/Clear Active Bit 321" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE320 ,Set/Clear Active Bit 320" "Not active,Active" else hgroup.long 0x0328++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER10,Interrupt Set/Clear Active Register 10" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x0B) group.long 0x032C++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER11,Interrupt Set/Clear Active Register 11" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE383 ,Set/Clear Active Bit 383" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE382 ,Set/Clear Active Bit 382" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE381 ,Set/Clear Active Bit 381" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE380 ,Set/Clear Active Bit 380" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE379 ,Set/Clear Active Bit 379" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE378 ,Set/Clear Active Bit 378" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE377 ,Set/Clear Active Bit 377" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE376 ,Set/Clear Active Bit 376" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE375 ,Set/Clear Active Bit 375" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE374 ,Set/Clear Active Bit 374" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE373 ,Set/Clear Active Bit 373" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE372 ,Set/Clear Active Bit 372" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE371 ,Set/Clear Active Bit 371" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE370 ,Set/Clear Active Bit 370" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE369 ,Set/Clear Active Bit 369" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE368 ,Set/Clear Active Bit 368" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE367 ,Set/Clear Active Bit 367" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE366 ,Set/Clear Active Bit 366" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE365 ,Set/Clear Active Bit 365" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE364 ,Set/Clear Active Bit 364" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE363 ,Set/Clear Active Bit 363" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE362 ,Set/Clear Active Bit 362" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE361 ,Set/Clear Active Bit 361" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE360 ,Set/Clear Active Bit 360" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE359 ,Set/Clear Active Bit 359" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE358 ,Set/Clear Active Bit 358" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE357 ,Set/Clear Active Bit 357" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE356 ,Set/Clear Active Bit 356" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE355 ,Set/Clear Active Bit 355" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE354 ,Set/Clear Active Bit 354" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE353 ,Set/Clear Active Bit 353" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE352 ,Set/Clear Active Bit 352" "Not active,Active" else hgroup.long 0x032C++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER11,Interrupt Set/Clear Active Register 11" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x0C) group.long 0x0330++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER12,Interrupt Set/Clear Active Register 12" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE415 ,Set/Clear Active Bit 415" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE414 ,Set/Clear Active Bit 414" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE413 ,Set/Clear Active Bit 413" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE412 ,Set/Clear Active Bit 412" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE411 ,Set/Clear Active Bit 411" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE410 ,Set/Clear Active Bit 410" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE409 ,Set/Clear Active Bit 409" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE408 ,Set/Clear Active Bit 408" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE407 ,Set/Clear Active Bit 407" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE406 ,Set/Clear Active Bit 406" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE405 ,Set/Clear Active Bit 405" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE404 ,Set/Clear Active Bit 404" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE403 ,Set/Clear Active Bit 403" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE402 ,Set/Clear Active Bit 402" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE401 ,Set/Clear Active Bit 401" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE400 ,Set/Clear Active Bit 400" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE399 ,Set/Clear Active Bit 399" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE398 ,Set/Clear Active Bit 398" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE397 ,Set/Clear Active Bit 397" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE396 ,Set/Clear Active Bit 396" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE395 ,Set/Clear Active Bit 395" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE394 ,Set/Clear Active Bit 394" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE393 ,Set/Clear Active Bit 393" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE392 ,Set/Clear Active Bit 392" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE391 ,Set/Clear Active Bit 391" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE390 ,Set/Clear Active Bit 390" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE389 ,Set/Clear Active Bit 389" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE388 ,Set/Clear Active Bit 388" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE387 ,Set/Clear Active Bit 387" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE386 ,Set/Clear Active Bit 386" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE385 ,Set/Clear Active Bit 385" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE384 ,Set/Clear Active Bit 384" "Not active,Active" else hgroup.long 0x0330++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER12,Interrupt Set/Clear Active Register 12" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x0D) group.long 0x0334++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER13,Interrupt Set/Clear Active Register 13" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE447 ,Set/Clear Active Bit 447" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE446 ,Set/Clear Active Bit 446" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE445 ,Set/Clear Active Bit 445" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE444 ,Set/Clear Active Bit 444" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE443 ,Set/Clear Active Bit 443" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE442 ,Set/Clear Active Bit 442" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE441 ,Set/Clear Active Bit 441" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE440 ,Set/Clear Active Bit 440" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE439 ,Set/Clear Active Bit 439" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE438 ,Set/Clear Active Bit 438" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE437 ,Set/Clear Active Bit 437" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE436 ,Set/Clear Active Bit 436" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE435 ,Set/Clear Active Bit 435" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE434 ,Set/Clear Active Bit 434" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE433 ,Set/Clear Active Bit 433" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE432 ,Set/Clear Active Bit 432" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE431 ,Set/Clear Active Bit 431" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE430 ,Set/Clear Active Bit 430" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE429 ,Set/Clear Active Bit 429" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE428 ,Set/Clear Active Bit 428" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE427 ,Set/Clear Active Bit 427" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE426 ,Set/Clear Active Bit 426" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE425 ,Set/Clear Active Bit 425" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE424 ,Set/Clear Active Bit 424" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE423 ,Set/Clear Active Bit 423" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE422 ,Set/Clear Active Bit 422" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE421 ,Set/Clear Active Bit 421" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE420 ,Set/Clear Active Bit 420" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE419 ,Set/Clear Active Bit 419" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE418 ,Set/Clear Active Bit 418" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE417 ,Set/Clear Active Bit 417" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE416 ,Set/Clear Active Bit 416" "Not active,Active" else hgroup.long 0x0334++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER13,Interrupt Set/Clear Active Register 13" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x0E) group.long 0x0338++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER14,Interrupt Set/Clear Active Register 14" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE479 ,Set/Clear Active Bit 479" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE478 ,Set/Clear Active Bit 478" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE477 ,Set/Clear Active Bit 477" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE476 ,Set/Clear Active Bit 476" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE475 ,Set/Clear Active Bit 475" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE474 ,Set/Clear Active Bit 474" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE473 ,Set/Clear Active Bit 473" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE472 ,Set/Clear Active Bit 472" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE471 ,Set/Clear Active Bit 471" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE470 ,Set/Clear Active Bit 470" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE469 ,Set/Clear Active Bit 469" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE468 ,Set/Clear Active Bit 468" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE467 ,Set/Clear Active Bit 467" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE466 ,Set/Clear Active Bit 466" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE465 ,Set/Clear Active Bit 465" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE464 ,Set/Clear Active Bit 464" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE463 ,Set/Clear Active Bit 463" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE462 ,Set/Clear Active Bit 462" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE461 ,Set/Clear Active Bit 461" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE460 ,Set/Clear Active Bit 460" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE459 ,Set/Clear Active Bit 459" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE458 ,Set/Clear Active Bit 458" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE457 ,Set/Clear Active Bit 457" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE456 ,Set/Clear Active Bit 456" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE455 ,Set/Clear Active Bit 455" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE454 ,Set/Clear Active Bit 454" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE453 ,Set/Clear Active Bit 453" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE452 ,Set/Clear Active Bit 452" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE451 ,Set/Clear Active Bit 451" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE450 ,Set/Clear Active Bit 450" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE449 ,Set/Clear Active Bit 449" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE448 ,Set/Clear Active Bit 448" "Not active,Active" else hgroup.long 0x0338++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER14,Interrupt Set/Clear Active Register 14" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x0F) group.long 0x033C++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER15,Interrupt Set/Clear Active Register 15" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE511 ,Set/Clear Active Bit 511" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE510 ,Set/Clear Active Bit 510" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE509 ,Set/Clear Active Bit 509" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE508 ,Set/Clear Active Bit 508" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE507 ,Set/Clear Active Bit 507" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE506 ,Set/Clear Active Bit 506" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE505 ,Set/Clear Active Bit 505" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE504 ,Set/Clear Active Bit 504" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE503 ,Set/Clear Active Bit 503" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE502 ,Set/Clear Active Bit 502" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE501 ,Set/Clear Active Bit 501" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE500 ,Set/Clear Active Bit 500" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE499 ,Set/Clear Active Bit 499" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE498 ,Set/Clear Active Bit 498" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE497 ,Set/Clear Active Bit 497" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE496 ,Set/Clear Active Bit 496" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE495 ,Set/Clear Active Bit 495" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE494 ,Set/Clear Active Bit 494" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE493 ,Set/Clear Active Bit 493" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE492 ,Set/Clear Active Bit 492" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE491 ,Set/Clear Active Bit 491" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE490 ,Set/Clear Active Bit 490" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE489 ,Set/Clear Active Bit 489" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE488 ,Set/Clear Active Bit 488" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE487 ,Set/Clear Active Bit 487" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE486 ,Set/Clear Active Bit 486" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE485 ,Set/Clear Active Bit 485" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE484 ,Set/Clear Active Bit 484" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE483 ,Set/Clear Active Bit 483" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE482 ,Set/Clear Active Bit 482" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE481 ,Set/Clear Active Bit 481" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE480 ,Set/Clear Active Bit 480" "Not active,Active" else hgroup.long 0x033C++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER15,Interrupt Set/Clear Active Register 15" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x10) group.long 0x0340++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER16,Interrupt Set/Clear Active Register 16" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE543 ,Set/Clear Active Bit 543" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE542 ,Set/Clear Active Bit 542" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE541 ,Set/Clear Active Bit 541" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE540 ,Set/Clear Active Bit 540" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE539 ,Set/Clear Active Bit 539" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE538 ,Set/Clear Active Bit 538" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE537 ,Set/Clear Active Bit 537" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE536 ,Set/Clear Active Bit 536" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE535 ,Set/Clear Active Bit 535" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE534 ,Set/Clear Active Bit 534" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE533 ,Set/Clear Active Bit 533" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE532 ,Set/Clear Active Bit 532" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE531 ,Set/Clear Active Bit 531" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE530 ,Set/Clear Active Bit 530" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE529 ,Set/Clear Active Bit 529" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE528 ,Set/Clear Active Bit 528" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE527 ,Set/Clear Active Bit 527" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE526 ,Set/Clear Active Bit 526" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE525 ,Set/Clear Active Bit 525" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE524 ,Set/Clear Active Bit 524" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE523 ,Set/Clear Active Bit 523" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE522 ,Set/Clear Active Bit 522" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE521 ,Set/Clear Active Bit 521" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE520 ,Set/Clear Active Bit 520" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE519 ,Set/Clear Active Bit 519" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE518 ,Set/Clear Active Bit 518" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE517 ,Set/Clear Active Bit 517" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE516 ,Set/Clear Active Bit 516" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE515 ,Set/Clear Active Bit 515" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE514 ,Set/Clear Active Bit 514" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE513 ,Set/Clear Active Bit 513" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE512 ,Set/Clear Active Bit 512" "Not active,Active" else hgroup.long 0x0340++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER16,Interrupt Set/Clear Active Register 16" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x11) group.long 0x0344++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER17,Interrupt Set/Clear Active Register 17" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE575 ,Set/Clear Active Bit 575" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE574 ,Set/Clear Active Bit 574" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE573 ,Set/Clear Active Bit 573" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE572 ,Set/Clear Active Bit 572" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE571 ,Set/Clear Active Bit 571" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE570 ,Set/Clear Active Bit 570" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE569 ,Set/Clear Active Bit 569" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE568 ,Set/Clear Active Bit 568" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE567 ,Set/Clear Active Bit 567" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE566 ,Set/Clear Active Bit 566" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE565 ,Set/Clear Active Bit 565" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE564 ,Set/Clear Active Bit 564" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE563 ,Set/Clear Active Bit 563" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE562 ,Set/Clear Active Bit 562" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE561 ,Set/Clear Active Bit 561" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE560 ,Set/Clear Active Bit 560" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE559 ,Set/Clear Active Bit 559" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE558 ,Set/Clear Active Bit 558" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE557 ,Set/Clear Active Bit 557" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE556 ,Set/Clear Active Bit 556" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE555 ,Set/Clear Active Bit 555" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE554 ,Set/Clear Active Bit 554" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE553 ,Set/Clear Active Bit 553" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE552 ,Set/Clear Active Bit 552" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE551 ,Set/Clear Active Bit 551" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE550 ,Set/Clear Active Bit 550" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE549 ,Set/Clear Active Bit 549" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE548 ,Set/Clear Active Bit 548" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE547 ,Set/Clear Active Bit 547" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE546 ,Set/Clear Active Bit 546" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE545 ,Set/Clear Active Bit 545" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE544 ,Set/Clear Active Bit 544" "Not active,Active" else hgroup.long 0x0344++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER17,Interrupt Set/Clear Active Register 17" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x12) group.long 0x0348++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER18,Interrupt Set/Clear Active Register 18" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE607 ,Set/Clear Active Bit 607" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE606 ,Set/Clear Active Bit 606" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE605 ,Set/Clear Active Bit 605" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE604 ,Set/Clear Active Bit 604" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE603 ,Set/Clear Active Bit 603" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE602 ,Set/Clear Active Bit 602" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE601 ,Set/Clear Active Bit 601" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE600 ,Set/Clear Active Bit 600" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE599 ,Set/Clear Active Bit 599" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE598 ,Set/Clear Active Bit 598" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE597 ,Set/Clear Active Bit 597" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE596 ,Set/Clear Active Bit 596" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE595 ,Set/Clear Active Bit 595" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE594 ,Set/Clear Active Bit 594" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE593 ,Set/Clear Active Bit 593" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE592 ,Set/Clear Active Bit 592" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE591 ,Set/Clear Active Bit 591" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE590 ,Set/Clear Active Bit 590" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE589 ,Set/Clear Active Bit 589" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE588 ,Set/Clear Active Bit 588" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE587 ,Set/Clear Active Bit 587" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE586 ,Set/Clear Active Bit 586" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE585 ,Set/Clear Active Bit 585" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE584 ,Set/Clear Active Bit 584" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE583 ,Set/Clear Active Bit 583" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE582 ,Set/Clear Active Bit 582" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE581 ,Set/Clear Active Bit 581" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE580 ,Set/Clear Active Bit 580" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE579 ,Set/Clear Active Bit 579" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE578 ,Set/Clear Active Bit 578" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE577 ,Set/Clear Active Bit 577" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE576 ,Set/Clear Active Bit 576" "Not active,Active" else hgroup.long 0x0348++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER18,Interrupt Set/Clear Active Register 18" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x13) group.long 0x034C++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER19,Interrupt Set/Clear Active Register 19" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE639 ,Set/Clear Active Bit 639" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE638 ,Set/Clear Active Bit 638" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE637 ,Set/Clear Active Bit 637" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE636 ,Set/Clear Active Bit 636" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE635 ,Set/Clear Active Bit 635" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE634 ,Set/Clear Active Bit 634" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE633 ,Set/Clear Active Bit 633" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE632 ,Set/Clear Active Bit 632" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE631 ,Set/Clear Active Bit 631" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE630 ,Set/Clear Active Bit 630" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE629 ,Set/Clear Active Bit 629" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE628 ,Set/Clear Active Bit 628" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE627 ,Set/Clear Active Bit 627" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE626 ,Set/Clear Active Bit 626" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE625 ,Set/Clear Active Bit 625" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE624 ,Set/Clear Active Bit 624" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE623 ,Set/Clear Active Bit 623" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE622 ,Set/Clear Active Bit 622" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE621 ,Set/Clear Active Bit 621" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE620 ,Set/Clear Active Bit 620" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE619 ,Set/Clear Active Bit 619" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE618 ,Set/Clear Active Bit 618" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE617 ,Set/Clear Active Bit 617" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE616 ,Set/Clear Active Bit 616" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE615 ,Set/Clear Active Bit 615" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE614 ,Set/Clear Active Bit 614" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE613 ,Set/Clear Active Bit 613" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE612 ,Set/Clear Active Bit 612" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE611 ,Set/Clear Active Bit 611" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE610 ,Set/Clear Active Bit 610" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE609 ,Set/Clear Active Bit 609" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE608 ,Set/Clear Active Bit 608" "Not active,Active" else hgroup.long 0x034C++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER19,Interrupt Set/Clear Active Register 19" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x14) group.long 0x0350++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER20,Interrupt Set/Clear Active Register 20" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE671 ,Set/Clear Active Bit 671" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE670 ,Set/Clear Active Bit 670" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE669 ,Set/Clear Active Bit 669" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE668 ,Set/Clear Active Bit 668" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE667 ,Set/Clear Active Bit 667" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE666 ,Set/Clear Active Bit 666" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE665 ,Set/Clear Active Bit 665" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE664 ,Set/Clear Active Bit 664" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE663 ,Set/Clear Active Bit 663" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE662 ,Set/Clear Active Bit 662" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE661 ,Set/Clear Active Bit 661" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE660 ,Set/Clear Active Bit 660" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE659 ,Set/Clear Active Bit 659" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE658 ,Set/Clear Active Bit 658" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE657 ,Set/Clear Active Bit 657" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE656 ,Set/Clear Active Bit 656" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE655 ,Set/Clear Active Bit 655" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE654 ,Set/Clear Active Bit 654" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE653 ,Set/Clear Active Bit 653" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE652 ,Set/Clear Active Bit 652" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE651 ,Set/Clear Active Bit 651" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE650 ,Set/Clear Active Bit 650" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE649 ,Set/Clear Active Bit 649" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE648 ,Set/Clear Active Bit 648" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE647 ,Set/Clear Active Bit 647" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE646 ,Set/Clear Active Bit 646" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE645 ,Set/Clear Active Bit 645" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE644 ,Set/Clear Active Bit 644" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE643 ,Set/Clear Active Bit 643" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE642 ,Set/Clear Active Bit 642" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE641 ,Set/Clear Active Bit 641" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE640 ,Set/Clear Active Bit 640" "Not active,Active" else hgroup.long 0x0350++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER20,Interrupt Set/Clear Active Register 20" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x15) group.long 0x0354++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER21,Interrupt Set/Clear Active Register 21" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE703 ,Set/Clear Active Bit 703" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE702 ,Set/Clear Active Bit 702" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE701 ,Set/Clear Active Bit 701" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE700 ,Set/Clear Active Bit 700" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE699 ,Set/Clear Active Bit 699" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE698 ,Set/Clear Active Bit 698" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE697 ,Set/Clear Active Bit 697" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE696 ,Set/Clear Active Bit 696" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE695 ,Set/Clear Active Bit 695" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE694 ,Set/Clear Active Bit 694" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE693 ,Set/Clear Active Bit 693" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE692 ,Set/Clear Active Bit 692" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE691 ,Set/Clear Active Bit 691" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE690 ,Set/Clear Active Bit 690" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE689 ,Set/Clear Active Bit 689" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE688 ,Set/Clear Active Bit 688" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE687 ,Set/Clear Active Bit 687" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE686 ,Set/Clear Active Bit 686" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE685 ,Set/Clear Active Bit 685" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE684 ,Set/Clear Active Bit 684" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE683 ,Set/Clear Active Bit 683" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE682 ,Set/Clear Active Bit 682" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE681 ,Set/Clear Active Bit 681" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE680 ,Set/Clear Active Bit 680" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE679 ,Set/Clear Active Bit 679" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE678 ,Set/Clear Active Bit 678" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE677 ,Set/Clear Active Bit 677" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE676 ,Set/Clear Active Bit 676" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE675 ,Set/Clear Active Bit 675" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE674 ,Set/Clear Active Bit 674" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE673 ,Set/Clear Active Bit 673" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE672 ,Set/Clear Active Bit 672" "Not active,Active" else hgroup.long 0x0354++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER21,Interrupt Set/Clear Active Register 21" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x16) group.long 0x0358++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER22,Interrupt Set/Clear Active Register 22" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE735 ,Set/Clear Active Bit 735" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE734 ,Set/Clear Active Bit 734" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE733 ,Set/Clear Active Bit 733" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE732 ,Set/Clear Active Bit 732" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE731 ,Set/Clear Active Bit 731" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE730 ,Set/Clear Active Bit 730" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE729 ,Set/Clear Active Bit 729" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE728 ,Set/Clear Active Bit 728" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE727 ,Set/Clear Active Bit 727" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE726 ,Set/Clear Active Bit 726" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE725 ,Set/Clear Active Bit 725" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE724 ,Set/Clear Active Bit 724" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE723 ,Set/Clear Active Bit 723" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE722 ,Set/Clear Active Bit 722" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE721 ,Set/Clear Active Bit 721" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE720 ,Set/Clear Active Bit 720" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE719 ,Set/Clear Active Bit 719" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE718 ,Set/Clear Active Bit 718" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE717 ,Set/Clear Active Bit 717" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE716 ,Set/Clear Active Bit 716" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE715 ,Set/Clear Active Bit 715" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE714 ,Set/Clear Active Bit 714" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE713 ,Set/Clear Active Bit 713" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE712 ,Set/Clear Active Bit 712" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE711 ,Set/Clear Active Bit 711" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE710 ,Set/Clear Active Bit 710" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE709 ,Set/Clear Active Bit 709" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE708 ,Set/Clear Active Bit 708" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE707 ,Set/Clear Active Bit 707" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE706 ,Set/Clear Active Bit 706" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE705 ,Set/Clear Active Bit 705" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE704 ,Set/Clear Active Bit 704" "Not active,Active" else hgroup.long 0x0358++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER22,Interrupt Set/Clear Active Register 22" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x17) group.long 0x035C++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER23,Interrupt Set/Clear Active Register 23" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE767 ,Set/Clear Active Bit 767" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE766 ,Set/Clear Active Bit 766" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE765 ,Set/Clear Active Bit 765" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE764 ,Set/Clear Active Bit 764" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE763 ,Set/Clear Active Bit 763" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE762 ,Set/Clear Active Bit 762" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE761 ,Set/Clear Active Bit 761" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE760 ,Set/Clear Active Bit 760" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE759 ,Set/Clear Active Bit 759" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE758 ,Set/Clear Active Bit 758" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE757 ,Set/Clear Active Bit 757" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE756 ,Set/Clear Active Bit 756" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE755 ,Set/Clear Active Bit 755" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE754 ,Set/Clear Active Bit 754" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE753 ,Set/Clear Active Bit 753" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE752 ,Set/Clear Active Bit 752" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE751 ,Set/Clear Active Bit 751" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE750 ,Set/Clear Active Bit 750" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE749 ,Set/Clear Active Bit 749" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE748 ,Set/Clear Active Bit 748" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE747 ,Set/Clear Active Bit 747" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE746 ,Set/Clear Active Bit 746" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE745 ,Set/Clear Active Bit 745" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE744 ,Set/Clear Active Bit 744" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE743 ,Set/Clear Active Bit 743" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE742 ,Set/Clear Active Bit 742" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE741 ,Set/Clear Active Bit 741" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE740 ,Set/Clear Active Bit 740" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE739 ,Set/Clear Active Bit 739" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE738 ,Set/Clear Active Bit 738" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE737 ,Set/Clear Active Bit 737" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE736 ,Set/Clear Active Bit 736" "Not active,Active" else hgroup.long 0x035C++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER23,Interrupt Set/Clear Active Register 23" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x18) group.long 0x0360++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER24,Interrupt Set/Clear Active Register 24" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE799 ,Set/Clear Active Bit 799" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE798 ,Set/Clear Active Bit 798" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE797 ,Set/Clear Active Bit 797" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE796 ,Set/Clear Active Bit 796" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE795 ,Set/Clear Active Bit 795" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE794 ,Set/Clear Active Bit 794" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE793 ,Set/Clear Active Bit 793" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE792 ,Set/Clear Active Bit 792" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE791 ,Set/Clear Active Bit 791" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE790 ,Set/Clear Active Bit 790" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE789 ,Set/Clear Active Bit 789" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE788 ,Set/Clear Active Bit 788" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE787 ,Set/Clear Active Bit 787" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE786 ,Set/Clear Active Bit 786" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE785 ,Set/Clear Active Bit 785" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE784 ,Set/Clear Active Bit 784" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE783 ,Set/Clear Active Bit 783" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE782 ,Set/Clear Active Bit 782" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE781 ,Set/Clear Active Bit 781" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE780 ,Set/Clear Active Bit 780" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE779 ,Set/Clear Active Bit 779" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE778 ,Set/Clear Active Bit 778" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE777 ,Set/Clear Active Bit 777" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE776 ,Set/Clear Active Bit 776" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE775 ,Set/Clear Active Bit 775" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE774 ,Set/Clear Active Bit 774" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE773 ,Set/Clear Active Bit 773" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE772 ,Set/Clear Active Bit 772" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE771 ,Set/Clear Active Bit 771" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE770 ,Set/Clear Active Bit 770" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE769 ,Set/Clear Active Bit 769" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE768 ,Set/Clear Active Bit 768" "Not active,Active" else hgroup.long 0x0360++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER24,Interrupt Set/Clear Active Register 24" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x19) group.long 0x0364++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER25,Interrupt Set/Clear Active Register 25" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE831 ,Set/Clear Active Bit 831" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE830 ,Set/Clear Active Bit 830" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE829 ,Set/Clear Active Bit 829" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE828 ,Set/Clear Active Bit 828" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE827 ,Set/Clear Active Bit 827" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE826 ,Set/Clear Active Bit 826" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE825 ,Set/Clear Active Bit 825" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE824 ,Set/Clear Active Bit 824" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE823 ,Set/Clear Active Bit 823" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE822 ,Set/Clear Active Bit 822" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE821 ,Set/Clear Active Bit 821" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE820 ,Set/Clear Active Bit 820" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE819 ,Set/Clear Active Bit 819" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE818 ,Set/Clear Active Bit 818" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE817 ,Set/Clear Active Bit 817" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE816 ,Set/Clear Active Bit 816" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE815 ,Set/Clear Active Bit 815" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE814 ,Set/Clear Active Bit 814" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE813 ,Set/Clear Active Bit 813" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE812 ,Set/Clear Active Bit 812" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE811 ,Set/Clear Active Bit 811" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE810 ,Set/Clear Active Bit 810" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE809 ,Set/Clear Active Bit 809" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE808 ,Set/Clear Active Bit 808" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE807 ,Set/Clear Active Bit 807" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE806 ,Set/Clear Active Bit 806" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE805 ,Set/Clear Active Bit 805" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE804 ,Set/Clear Active Bit 804" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE803 ,Set/Clear Active Bit 803" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE802 ,Set/Clear Active Bit 802" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE801 ,Set/Clear Active Bit 801" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE800 ,Set/Clear Active Bit 800" "Not active,Active" else hgroup.long 0x0364++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER25,Interrupt Set/Clear Active Register 25" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1A) group.long 0x0368++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER26,Interrupt Set/Clear Active Register 26" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE863 ,Set/Clear Active Bit 863" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE862 ,Set/Clear Active Bit 862" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE861 ,Set/Clear Active Bit 861" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE860 ,Set/Clear Active Bit 860" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE859 ,Set/Clear Active Bit 859" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE858 ,Set/Clear Active Bit 858" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE857 ,Set/Clear Active Bit 857" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE856 ,Set/Clear Active Bit 856" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE855 ,Set/Clear Active Bit 855" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE854 ,Set/Clear Active Bit 854" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE853 ,Set/Clear Active Bit 853" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE852 ,Set/Clear Active Bit 852" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE851 ,Set/Clear Active Bit 851" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE850 ,Set/Clear Active Bit 850" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE849 ,Set/Clear Active Bit 849" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE848 ,Set/Clear Active Bit 848" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE847 ,Set/Clear Active Bit 847" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE846 ,Set/Clear Active Bit 846" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE845 ,Set/Clear Active Bit 845" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE844 ,Set/Clear Active Bit 844" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE843 ,Set/Clear Active Bit 843" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE842 ,Set/Clear Active Bit 842" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE841 ,Set/Clear Active Bit 841" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE840 ,Set/Clear Active Bit 840" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE839 ,Set/Clear Active Bit 839" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE838 ,Set/Clear Active Bit 838" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE837 ,Set/Clear Active Bit 837" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE836 ,Set/Clear Active Bit 836" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE835 ,Set/Clear Active Bit 835" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE834 ,Set/Clear Active Bit 834" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE833 ,Set/Clear Active Bit 833" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE832 ,Set/Clear Active Bit 832" "Not active,Active" else hgroup.long 0x0368++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER26,Interrupt Set/Clear Active Register 26" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1B) group.long 0x036C++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER27,Interrupt Set/Clear Active Register 27" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE895 ,Set/Clear Active Bit 895" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE894 ,Set/Clear Active Bit 894" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE893 ,Set/Clear Active Bit 893" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE892 ,Set/Clear Active Bit 892" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE891 ,Set/Clear Active Bit 891" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE890 ,Set/Clear Active Bit 890" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE889 ,Set/Clear Active Bit 889" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE888 ,Set/Clear Active Bit 888" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE887 ,Set/Clear Active Bit 887" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE886 ,Set/Clear Active Bit 886" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE885 ,Set/Clear Active Bit 885" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE884 ,Set/Clear Active Bit 884" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE883 ,Set/Clear Active Bit 883" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE882 ,Set/Clear Active Bit 882" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE881 ,Set/Clear Active Bit 881" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE880 ,Set/Clear Active Bit 880" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE879 ,Set/Clear Active Bit 879" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE878 ,Set/Clear Active Bit 878" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE877 ,Set/Clear Active Bit 877" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE876 ,Set/Clear Active Bit 876" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE875 ,Set/Clear Active Bit 875" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE874 ,Set/Clear Active Bit 874" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE873 ,Set/Clear Active Bit 873" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE872 ,Set/Clear Active Bit 872" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE871 ,Set/Clear Active Bit 871" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE870 ,Set/Clear Active Bit 870" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE869 ,Set/Clear Active Bit 869" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE868 ,Set/Clear Active Bit 868" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE867 ,Set/Clear Active Bit 867" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE866 ,Set/Clear Active Bit 866" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE865 ,Set/Clear Active Bit 865" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE864 ,Set/Clear Active Bit 864" "Not active,Active" else hgroup.long 0x036C++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER27,Interrupt Set/Clear Active Register 27" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1C) group.long 0x0370++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER28,Interrupt Set/Clear Active Register 28" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE927 ,Set/Clear Active Bit 927" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE926 ,Set/Clear Active Bit 926" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE925 ,Set/Clear Active Bit 925" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE924 ,Set/Clear Active Bit 924" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE923 ,Set/Clear Active Bit 923" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE922 ,Set/Clear Active Bit 922" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE921 ,Set/Clear Active Bit 921" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE920 ,Set/Clear Active Bit 920" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE919 ,Set/Clear Active Bit 919" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE918 ,Set/Clear Active Bit 918" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE917 ,Set/Clear Active Bit 917" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE916 ,Set/Clear Active Bit 916" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE915 ,Set/Clear Active Bit 915" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE914 ,Set/Clear Active Bit 914" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE913 ,Set/Clear Active Bit 913" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE912 ,Set/Clear Active Bit 912" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE911 ,Set/Clear Active Bit 911" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE910 ,Set/Clear Active Bit 910" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE909 ,Set/Clear Active Bit 909" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE908 ,Set/Clear Active Bit 908" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE907 ,Set/Clear Active Bit 907" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE906 ,Set/Clear Active Bit 906" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE905 ,Set/Clear Active Bit 905" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE904 ,Set/Clear Active Bit 904" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE903 ,Set/Clear Active Bit 903" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE902 ,Set/Clear Active Bit 902" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE901 ,Set/Clear Active Bit 901" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE900 ,Set/Clear Active Bit 900" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE899 ,Set/Clear Active Bit 899" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE898 ,Set/Clear Active Bit 898" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE897 ,Set/Clear Active Bit 897" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE896 ,Set/Clear Active Bit 896" "Not active,Active" else hgroup.long 0x0370++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER28,Interrupt Set/Clear Active Register 28" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1D) group.long 0x0374++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER29,Interrupt Set/Clear Active Register 29" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE959 ,Set/Clear Active Bit 959" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE958 ,Set/Clear Active Bit 958" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE957 ,Set/Clear Active Bit 957" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE956 ,Set/Clear Active Bit 956" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE955 ,Set/Clear Active Bit 955" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE954 ,Set/Clear Active Bit 954" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE953 ,Set/Clear Active Bit 953" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE952 ,Set/Clear Active Bit 952" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE951 ,Set/Clear Active Bit 951" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE950 ,Set/Clear Active Bit 950" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE949 ,Set/Clear Active Bit 949" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE948 ,Set/Clear Active Bit 948" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE947 ,Set/Clear Active Bit 947" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE946 ,Set/Clear Active Bit 946" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE945 ,Set/Clear Active Bit 945" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE944 ,Set/Clear Active Bit 944" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE943 ,Set/Clear Active Bit 943" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE942 ,Set/Clear Active Bit 942" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE941 ,Set/Clear Active Bit 941" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE940 ,Set/Clear Active Bit 940" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE939 ,Set/Clear Active Bit 939" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE938 ,Set/Clear Active Bit 938" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE937 ,Set/Clear Active Bit 937" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE936 ,Set/Clear Active Bit 936" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE935 ,Set/Clear Active Bit 935" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE934 ,Set/Clear Active Bit 934" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE933 ,Set/Clear Active Bit 933" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE932 ,Set/Clear Active Bit 932" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE931 ,Set/Clear Active Bit 931" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE930 ,Set/Clear Active Bit 930" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE929 ,Set/Clear Active Bit 929" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE928 ,Set/Clear Active Bit 928" "Not active,Active" else hgroup.long 0x0374++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER29,Interrupt Set/Clear Active Register 29" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1E) group.long 0x0378++0x03 line.long 0x0 "GICD_SET/CLR_ACTIVER30,Interrupt Set/Clear Active Register 30" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE991 ,Set/Clear Active Bit 991" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE990 ,Set/Clear Active Bit 990" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE989 ,Set/Clear Active Bit 989" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE988 ,Set/Clear Active Bit 988" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE987 ,Set/Clear Active Bit 987" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE986 ,Set/Clear Active Bit 986" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE985 ,Set/Clear Active Bit 985" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE984 ,Set/Clear Active Bit 984" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE983 ,Set/Clear Active Bit 983" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE982 ,Set/Clear Active Bit 982" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE981 ,Set/Clear Active Bit 981" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE980 ,Set/Clear Active Bit 980" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE979 ,Set/Clear Active Bit 979" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE978 ,Set/Clear Active Bit 978" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE977 ,Set/Clear Active Bit 977" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE976 ,Set/Clear Active Bit 976" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE975 ,Set/Clear Active Bit 975" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE974 ,Set/Clear Active Bit 974" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE973 ,Set/Clear Active Bit 973" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE972 ,Set/Clear Active Bit 972" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE971 ,Set/Clear Active Bit 971" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE970 ,Set/Clear Active Bit 970" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE969 ,Set/Clear Active Bit 969" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE968 ,Set/Clear Active Bit 968" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE967 ,Set/Clear Active Bit 967" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE966 ,Set/Clear Active Bit 966" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE965 ,Set/Clear Active Bit 965" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE964 ,Set/Clear Active Bit 964" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE963 ,Set/Clear Active Bit 963" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE962 ,Set/Clear Active Bit 962" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE961 ,Set/Clear Active Bit 961" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE960 ,Set/Clear Active Bit 960" "Not active,Active" else hgroup.long 0x0378++0x03 hide.long 0x0 "GICD_SET/CLR_ACTIVER30,Interrupt Set/Clear Active Register 30" endif tree.end width 20. tree "Priority Registers" if (((per.l(COMP.BASE("GICD",-1.)))&0x10)==0x10) hgroup.long 0x400++0x03 hide.long 0x00 "GICD_IPRIORITYR0,Interrupt Priority Register 0" hgroup.long 0x404++0x03 hide.long 0x00 "GICD_IPRIORITYR1,Interrupt Priority Register 1" hgroup.long 0x408++0x03 hide.long 0x00 "GICD_IPRIORITYR2,Interrupt Priority Register 2" hgroup.long 0x40C++0x03 hide.long 0x00 "GICD_IPRIORITYR3,Interrupt Priority Register 3" hgroup.long 0x410++0x03 hide.long 0x00 "GICD_IPRIORITYR4,Interrupt Priority Register 4" hgroup.long 0x414++0x03 hide.long 0x00 "GICD_IPRIORITYR5,Interrupt Priority Register 5" hgroup.long 0x418++0x03 hide.long 0x00 "GICD_IPRIORITYR6,Interrupt Priority Register 6" hgroup.long 0x41C++0x03 hide.long 0x00 "GICD_IPRIORITYR7,Interrupt Priority Register 7" else 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 " endif if (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 tree.end width 19. tree "Interrupt Targets Registers" if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x000000E0)>0x1) 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" if (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 (((per.l(COMP.BASE("GICD",-1.)+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 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" endif tree.end width 14. tree "Configuration Registers" rgroup.long 0xC00++0x03 line.long 0x00 "GICD_ICFGR0,Interrupt Configuration Register" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SGI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SGI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SGI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SGI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SGI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SGI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SGI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SGI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SGI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SGI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SGI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SGI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SGI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SGI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SGI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SGI)" "Level,Edge" group.long 0xC04++0x03 line.long 0x00 "GICD_ICFGR1,Interrupt Configuration Register" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (PPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (PPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (PPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (PPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (PPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (PPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (PPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (PPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (PPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (PPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (PPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (PPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (PPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (PPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (PPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (PPI)" "Level,Edge" if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1) group.long 0xC08++0x03 line.long 0x00 "GICD_ICFGR2,Interrupt Configuration Register 2" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xC0C++0x03 line.long 0x00 "GICD_ICFGR3,Interrupt Configuration Register 3" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x2) group.long 0xC10++0x03 line.long 0x00 "GICD_ICFGR4,Interrupt Configuration Register 4" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xC14++0x03 line.long 0x00 "GICD_ICFGR5,Interrupt Configuration Register 5" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x3) group.long 0xC18++0x03 line.long 0x00 "GICD_ICFGR6,Interrupt Configuration Register 6" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xC1C++0x03 line.long 0x00 "GICD_ICFGR7,Interrupt Configuration Register 7" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x4) group.long 0xC20++0x03 line.long 0x00 "GICD_ICFGR8,Interrupt Configuration Register 8" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xC24++0x03 line.long 0x00 "GICD_ICFGR9,Interrupt Configuration Register 9" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x5) group.long 0xC28++0x03 line.long 0x00 "GICD_ICFGR10,Interrupt Configuration Register 10" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xC2C++0x03 line.long 0x00 "GICD_ICFGR11,Interrupt Configuration Register 11" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x6) group.long 0xC30++0x03 line.long 0x00 "GICD_ICFGR12,Interrupt Configuration Register 12" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xC34++0x03 line.long 0x00 "GICD_ICFGR13,Interrupt Configuration Register 13" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x7) group.long 0xC38++0x03 line.long 0x00 "GICD_ICFGR14,Interrupt Configuration Register 14" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xC3C++0x03 line.long 0x00 "GICD_ICFGR15,Interrupt Configuration Register 15" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x8) group.long 0xC40++0x03 line.long 0x00 "GICD_ICFGR16,Interrupt Configuration Register 16" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xC44++0x03 line.long 0x00 "GICD_ICFGR17,Interrupt Configuration Register 17" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x9) group.long 0xC48++0x03 line.long 0x00 "GICD_ICFGR18,Interrupt Configuration Register 18" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xC4C++0x03 line.long 0x00 "GICD_ICFGR19,Interrupt Configuration Register 19" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0xA) group.long 0xC50++0x03 line.long 0x00 "GICD_ICFGR20,Interrupt Configuration Register 20" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xC54++0x03 line.long 0x00 "GICD_ICFGR21,Interrupt Configuration Register 21" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0xB) group.long 0xC58++0x03 line.long 0x00 "GICD_ICFGR22,Interrupt Configuration Register 22" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xC5C++0x03 line.long 0x00 "GICD_ICFGR23,Interrupt Configuration Register 23" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0xC) group.long 0xC60++0x03 line.long 0x00 "GICD_ICFGR24,Interrupt Configuration Register 24" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xC64++0x03 line.long 0x00 "GICD_ICFGR25,Interrupt Configuration Register 25" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0xD) group.long 0xC68++0x03 line.long 0x00 "GICD_ICFGR26,Interrupt Configuration Register 26" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xC6C++0x03 line.long 0x00 "GICD_ICFGR27,Interrupt Configuration Register 27" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0xE) group.long 0xC70++0x03 line.long 0x00 "GICD_ICFGR28,Interrupt Configuration Register 28" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xC74++0x03 line.long 0x00 "GICD_ICFGR29,Interrupt Configuration Register 29" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0xF) group.long 0xC78++0x03 line.long 0x00 "GICD_ICFGR30,Interrupt Configuration Register 30" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xC7C++0x03 line.long 0x00 "GICD_ICFGR31,Interrupt Configuration Register 31" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x10) group.long 0xC80++0x03 line.long 0x00 "GICD_ICFGR32,Interrupt Configuration Register 32" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xC84++0x03 line.long 0x00 "GICD_ICFGR33,Interrupt Configuration Register 33" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x11) group.long 0xC88++0x03 line.long 0x00 "GICD_ICFGR34,Interrupt Configuration Register 34" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xC8C++0x03 line.long 0x00 "GICD_ICFGR35,Interrupt Configuration Register 35" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x12) group.long 0xC90++0x03 line.long 0x00 "GICD_ICFGR36,Interrupt Configuration Register 36" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xC94++0x03 line.long 0x00 "GICD_ICFGR37,Interrupt Configuration Register 37" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x13) group.long 0xC98++0x03 line.long 0x00 "GICD_ICFGR38,Interrupt Configuration Register 38" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xC9C++0x03 line.long 0x00 "GICD_ICFGR39,Interrupt Configuration Register 39" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x14) group.long 0xCA0++0x03 line.long 0x00 "GICD_ICFGR40,Interrupt Configuration Register 40" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xCA4++0x03 line.long 0x00 "GICD_ICFGR41,Interrupt Configuration Register 41" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x15) group.long 0xCA8++0x03 line.long 0x00 "GICD_ICFGR42,Interrupt Configuration Register 42" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xCAC++0x03 line.long 0x00 "GICD_ICFGR43,Interrupt Configuration Register 43" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x16) group.long 0xCB0++0x03 line.long 0x00 "GICD_ICFGR44,Interrupt Configuration Register 44" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xCB4++0x03 line.long 0x00 "GICD_ICFGR45,Interrupt Configuration Register 45" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x17) group.long 0xCB8++0x03 line.long 0x00 "GICD_ICFGR46,Interrupt Configuration Register 46" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xCBC++0x03 line.long 0x00 "GICD_ICFGR47,Interrupt Configuration Register 47" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x18) group.long 0xCC0++0x03 line.long 0x00 "GICD_ICFGR48,Interrupt Configuration Register 48" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xCC4++0x03 line.long 0x00 "GICD_ICFGR49,Interrupt Configuration Register 49" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x19) group.long 0xCC8++0x03 line.long 0x00 "GICD_ICFGR50,Interrupt Configuration Register 50" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xCCC++0x03 line.long 0x00 "GICD_ICFGR51,Interrupt Configuration Register 51" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1A) group.long 0xCD0++0x03 line.long 0x00 "GICD_ICFGR52,Interrupt Configuration Register 52" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xCD4++0x03 line.long 0x00 "GICD_ICFGR53,Interrupt Configuration Register 53" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1B) group.long 0xCD8++0x03 line.long 0x00 "GICD_ICFGR54,Interrupt Configuration Register 54" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xCDC++0x03 line.long 0x00 "GICD_ICFGR55,Interrupt Configuration Register 55" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1C) group.long 0xCE0++0x03 line.long 0x00 "GICD_ICFGR56,Interrupt Configuration Register 56" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xCE4++0x03 line.long 0x00 "GICD_ICFGR57,Interrupt Configuration Register 57" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1D) group.long 0xCE8++0x03 line.long 0x00 "GICD_ICFGR58,Interrupt Configuration Register 58" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xCEC++0x03 line.long 0x00 "GICD_ICFGR59,Interrupt Configuration Register 59" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1E) group.long 0xCF0++0x03 line.long 0x00 "GICD_ICFGR60,Interrupt Configuration Register 60" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "Level,Edge" group.long 0xCF4++0x03 line.long 0x00 "GICD_ICFGR61,Interrupt Configuration Register 61" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (SPI)" "Level,Edge" textline " " bitfld.long 0x00 1. " ICF0 ,Interrupt Configuration 0 (SPI)" "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 tree.end width 17. tree "Interrupt Group Modifier Registers" hgroup.long 0x0D00++0x03 hide.long 0x0 "GICD_IGRPMODR0,Interrupt Group Modifier Register 0" textline " " textline " " textline " " textline " " textline " " textline " " textline " " textline " " textline " " textline " " if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D00))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x01)) group.long 0x0D04++0x03 line.long 0x0 "GICD_IGRPMODR1,Interrupt Group Modifier Register 1" bitfld.long 0x00 31. " GMB63 ,Group Modifier Bit 63" "0,1" bitfld.long 0x00 30. " GMB62 ,Group Modifier Bit 62" "0,1" bitfld.long 0x00 29. " GMB61 ,Group Modifier Bit 61" "0,1" textline " " bitfld.long 0x00 28. " GMB60 ,Group Modifier Bit 60" "0,1" bitfld.long 0x00 27. " GMB59 ,Group Modifier Bit 59" "0,1" bitfld.long 0x00 26. " GMB58 ,Group Modifier Bit 58" "0,1" textline " " bitfld.long 0x00 25. " GMB57 ,Group Modifier Bit 57" "0,1" bitfld.long 0x00 24. " GMB56 ,Group Modifier Bit 56" "0,1" bitfld.long 0x00 23. " GMB55 ,Group Modifier Bit 55" "0,1" textline " " bitfld.long 0x00 22. " GMB54 ,Group Modifier Bit 54" "0,1" bitfld.long 0x00 21. " GMB53 ,Group Modifier Bit 53" "0,1" bitfld.long 0x00 20. " GMB52 ,Group Modifier Bit 52" "0,1" textline " " bitfld.long 0x00 19. " GMB51 ,Group Modifier Bit 51" "0,1" bitfld.long 0x00 18. " GMB50 ,Group Modifier Bit 50" "0,1" bitfld.long 0x00 17. " GMB49 ,Group Modifier Bit 49" "0,1" textline " " bitfld.long 0x00 16. " GMB48 ,Group Modifier Bit 48" "0,1" bitfld.long 0x00 15. " GMB47 ,Group Modifier Bit 47" "0,1" bitfld.long 0x00 14. " GMB46 ,Group Modifier Bit 46" "0,1" textline " " bitfld.long 0x00 13. " GMB45 ,Group Modifier Bit 45" "0,1" bitfld.long 0x00 12. " GMB44 ,Group Modifier Bit 44" "0,1" bitfld.long 0x00 11. " GMB43 ,Group Modifier Bit 43" "0,1" textline " " bitfld.long 0x00 10. " GMB42 ,Group Modifier Bit 42" "0,1" bitfld.long 0x00 9. " GMB41 ,Group Modifier Bit 41" "0,1" bitfld.long 0x00 8. " GMB40 ,Group Modifier Bit 40" "0,1" textline " " bitfld.long 0x00 7. " GMB39 ,Group Modifier Bit 39" "0,1" bitfld.long 0x00 6. " GMB38 ,Group Modifier Bit 38" "0,1" bitfld.long 0x00 5. " GMB37 ,Group Modifier Bit 37" "0,1" textline " " bitfld.long 0x00 4. " GMB36 ,Group Modifier Bit 36" "0,1" bitfld.long 0x00 3. " GMB35 ,Group Modifier Bit 35" "0,1" bitfld.long 0x00 2. " GMB34 ,Group Modifier Bit 34" "0,1" textline " " bitfld.long 0x00 1. " GMB33 ,Group Modifier Bit 33" "0,1" bitfld.long 0x00 0. " GMB32 ,Group Modifier Bit 32" "0,1" else hgroup.long 0x0D04++0x03 hide.long 0x0 "GICD_IGRPMODR1,Interrupt Group Modifier Register 1" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D08))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x02)) group.long 0x0D08++0x03 line.long 0x0 "GICD_IGRPMODR2,Interrupt Group Modifier Register 2" bitfld.long 0x00 31. " GMB95 ,Group Modifier Bit 95" "0,1" bitfld.long 0x00 30. " GMB94 ,Group Modifier Bit 94" "0,1" bitfld.long 0x00 29. " GMB93 ,Group Modifier Bit 93" "0,1" textline " " bitfld.long 0x00 28. " GMB92 ,Group Modifier Bit 92" "0,1" bitfld.long 0x00 27. " GMB91 ,Group Modifier Bit 91" "0,1" bitfld.long 0x00 26. " GMB90 ,Group Modifier Bit 90" "0,1" textline " " bitfld.long 0x00 25. " GMB89 ,Group Modifier Bit 89" "0,1" bitfld.long 0x00 24. " GMB88 ,Group Modifier Bit 88" "0,1" bitfld.long 0x00 23. " GMB87 ,Group Modifier Bit 87" "0,1" textline " " bitfld.long 0x00 22. " GMB86 ,Group Modifier Bit 86" "0,1" bitfld.long 0x00 21. " GMB85 ,Group Modifier Bit 85" "0,1" bitfld.long 0x00 20. " GMB84 ,Group Modifier Bit 84" "0,1" textline " " bitfld.long 0x00 19. " GMB83 ,Group Modifier Bit 83" "0,1" bitfld.long 0x00 18. " GMB82 ,Group Modifier Bit 82" "0,1" bitfld.long 0x00 17. " GMB81 ,Group Modifier Bit 81" "0,1" textline " " bitfld.long 0x00 16. " GMB80 ,Group Modifier Bit 80" "0,1" bitfld.long 0x00 15. " GMB79 ,Group Modifier Bit 79" "0,1" bitfld.long 0x00 14. " GMB78 ,Group Modifier Bit 78" "0,1" textline " " bitfld.long 0x00 13. " GMB77 ,Group Modifier Bit 77" "0,1" bitfld.long 0x00 12. " GMB76 ,Group Modifier Bit 76" "0,1" bitfld.long 0x00 11. " GMB75 ,Group Modifier Bit 75" "0,1" textline " " bitfld.long 0x00 10. " GMB74 ,Group Modifier Bit 74" "0,1" bitfld.long 0x00 9. " GMB73 ,Group Modifier Bit 73" "0,1" bitfld.long 0x00 8. " GMB72 ,Group Modifier Bit 72" "0,1" textline " " bitfld.long 0x00 7. " GMB71 ,Group Modifier Bit 71" "0,1" bitfld.long 0x00 6. " GMB70 ,Group Modifier Bit 70" "0,1" bitfld.long 0x00 5. " GMB69 ,Group Modifier Bit 69" "0,1" textline " " bitfld.long 0x00 4. " GMB68 ,Group Modifier Bit 68" "0,1" bitfld.long 0x00 3. " GMB67 ,Group Modifier Bit 67" "0,1" bitfld.long 0x00 2. " GMB66 ,Group Modifier Bit 66" "0,1" textline " " bitfld.long 0x00 1. " GMB65 ,Group Modifier Bit 65" "0,1" bitfld.long 0x00 0. " GMB64 ,Group Modifier Bit 64" "0,1" else hgroup.long 0x0D08++0x03 hide.long 0x0 "GICD_IGRPMODR2,Interrupt Group Modifier Register 2" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D0C))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x03)) group.long 0x0D0C++0x03 line.long 0x0 "GICD_IGRPMODR3,Interrupt Group Modifier Register 3" bitfld.long 0x00 31. " GMB127 ,Group Modifier Bit 127" "0,1" bitfld.long 0x00 30. " GMB126 ,Group Modifier Bit 126" "0,1" bitfld.long 0x00 29. " GMB125 ,Group Modifier Bit 125" "0,1" textline " " bitfld.long 0x00 28. " GMB124 ,Group Modifier Bit 124" "0,1" bitfld.long 0x00 27. " GMB123 ,Group Modifier Bit 123" "0,1" bitfld.long 0x00 26. " GMB122 ,Group Modifier Bit 122" "0,1" textline " " bitfld.long 0x00 25. " GMB121 ,Group Modifier Bit 121" "0,1" bitfld.long 0x00 24. " GMB120 ,Group Modifier Bit 120" "0,1" bitfld.long 0x00 23. " GMB119 ,Group Modifier Bit 119" "0,1" textline " " bitfld.long 0x00 22. " GMB118 ,Group Modifier Bit 118" "0,1" bitfld.long 0x00 21. " GMB117 ,Group Modifier Bit 117" "0,1" bitfld.long 0x00 20. " GMB116 ,Group Modifier Bit 116" "0,1" textline " " bitfld.long 0x00 19. " GMB115 ,Group Modifier Bit 115" "0,1" bitfld.long 0x00 18. " GMB114 ,Group Modifier Bit 114" "0,1" bitfld.long 0x00 17. " GMB113 ,Group Modifier Bit 113" "0,1" textline " " bitfld.long 0x00 16. " GMB112 ,Group Modifier Bit 112" "0,1" bitfld.long 0x00 15. " GMB111 ,Group Modifier Bit 111" "0,1" bitfld.long 0x00 14. " GMB110 ,Group Modifier Bit 110" "0,1" textline " " bitfld.long 0x00 13. " GMB109 ,Group Modifier Bit 109" "0,1" bitfld.long 0x00 12. " GMB108 ,Group Modifier Bit 108" "0,1" bitfld.long 0x00 11. " GMB107 ,Group Modifier Bit 107" "0,1" textline " " bitfld.long 0x00 10. " GMB106 ,Group Modifier Bit 106" "0,1" bitfld.long 0x00 9. " GMB105 ,Group Modifier Bit 105" "0,1" bitfld.long 0x00 8. " GMB104 ,Group Modifier Bit 104" "0,1" textline " " bitfld.long 0x00 7. " GMB103 ,Group Modifier Bit 103" "0,1" bitfld.long 0x00 6. " GMB102 ,Group Modifier Bit 102" "0,1" bitfld.long 0x00 5. " GMB101 ,Group Modifier Bit 101" "0,1" textline " " bitfld.long 0x00 4. " GMB100 ,Group Modifier Bit 100" "0,1" bitfld.long 0x00 3. " GMB99 ,Group Modifier Bit 99" "0,1" bitfld.long 0x00 2. " GMB98 ,Group Modifier Bit 98" "0,1" textline " " bitfld.long 0x00 1. " GMB97 ,Group Modifier Bit 97" "0,1" bitfld.long 0x00 0. " GMB96 ,Group Modifier Bit 96" "0,1" else hgroup.long 0x0D0C++0x03 hide.long 0x0 "GICD_IGRPMODR3,Interrupt Group Modifier Register 3" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D10))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x04)) group.long 0x0D10++0x03 line.long 0x0 "GICD_IGRPMODR4,Interrupt Group Modifier Register 4" bitfld.long 0x00 31. " GMB159 ,Group Modifier Bit 159" "0,1" bitfld.long 0x00 30. " GMB158 ,Group Modifier Bit 158" "0,1" bitfld.long 0x00 29. " GMB157 ,Group Modifier Bit 157" "0,1" textline " " bitfld.long 0x00 28. " GMB156 ,Group Modifier Bit 156" "0,1" bitfld.long 0x00 27. " GMB155 ,Group Modifier Bit 155" "0,1" bitfld.long 0x00 26. " GMB154 ,Group Modifier Bit 154" "0,1" textline " " bitfld.long 0x00 25. " GMB153 ,Group Modifier Bit 153" "0,1" bitfld.long 0x00 24. " GMB152 ,Group Modifier Bit 152" "0,1" bitfld.long 0x00 23. " GMB151 ,Group Modifier Bit 151" "0,1" textline " " bitfld.long 0x00 22. " GMB150 ,Group Modifier Bit 150" "0,1" bitfld.long 0x00 21. " GMB149 ,Group Modifier Bit 149" "0,1" bitfld.long 0x00 20. " GMB148 ,Group Modifier Bit 148" "0,1" textline " " bitfld.long 0x00 19. " GMB147 ,Group Modifier Bit 147" "0,1" bitfld.long 0x00 18. " GMB146 ,Group Modifier Bit 146" "0,1" bitfld.long 0x00 17. " GMB145 ,Group Modifier Bit 145" "0,1" textline " " bitfld.long 0x00 16. " GMB144 ,Group Modifier Bit 144" "0,1" bitfld.long 0x00 15. " GMB143 ,Group Modifier Bit 143" "0,1" bitfld.long 0x00 14. " GMB142 ,Group Modifier Bit 142" "0,1" textline " " bitfld.long 0x00 13. " GMB141 ,Group Modifier Bit 141" "0,1" bitfld.long 0x00 12. " GMB140 ,Group Modifier Bit 140" "0,1" bitfld.long 0x00 11. " GMB139 ,Group Modifier Bit 139" "0,1" textline " " bitfld.long 0x00 10. " GMB138 ,Group Modifier Bit 138" "0,1" bitfld.long 0x00 9. " GMB137 ,Group Modifier Bit 137" "0,1" bitfld.long 0x00 8. " GMB136 ,Group Modifier Bit 136" "0,1" textline " " bitfld.long 0x00 7. " GMB135 ,Group Modifier Bit 135" "0,1" bitfld.long 0x00 6. " GMB134 ,Group Modifier Bit 134" "0,1" bitfld.long 0x00 5. " GMB133 ,Group Modifier Bit 133" "0,1" textline " " bitfld.long 0x00 4. " GMB132 ,Group Modifier Bit 132" "0,1" bitfld.long 0x00 3. " GMB131 ,Group Modifier Bit 131" "0,1" bitfld.long 0x00 2. " GMB130 ,Group Modifier Bit 130" "0,1" textline " " bitfld.long 0x00 1. " GMB129 ,Group Modifier Bit 129" "0,1" bitfld.long 0x00 0. " GMB128 ,Group Modifier Bit 128" "0,1" else hgroup.long 0x0D10++0x03 hide.long 0x0 "GICD_IGRPMODR4,Interrupt Group Modifier Register 4" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D14))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x05)) group.long 0x0D14++0x03 line.long 0x0 "GICD_IGRPMODR5,Interrupt Group Modifier Register 5" bitfld.long 0x00 31. " GMB191 ,Group Modifier Bit 191" "0,1" bitfld.long 0x00 30. " GMB190 ,Group Modifier Bit 190" "0,1" bitfld.long 0x00 29. " GMB189 ,Group Modifier Bit 189" "0,1" textline " " bitfld.long 0x00 28. " GMB188 ,Group Modifier Bit 188" "0,1" bitfld.long 0x00 27. " GMB187 ,Group Modifier Bit 187" "0,1" bitfld.long 0x00 26. " GMB186 ,Group Modifier Bit 186" "0,1" textline " " bitfld.long 0x00 25. " GMB185 ,Group Modifier Bit 185" "0,1" bitfld.long 0x00 24. " GMB184 ,Group Modifier Bit 184" "0,1" bitfld.long 0x00 23. " GMB183 ,Group Modifier Bit 183" "0,1" textline " " bitfld.long 0x00 22. " GMB182 ,Group Modifier Bit 182" "0,1" bitfld.long 0x00 21. " GMB181 ,Group Modifier Bit 181" "0,1" bitfld.long 0x00 20. " GMB180 ,Group Modifier Bit 180" "0,1" textline " " bitfld.long 0x00 19. " GMB179 ,Group Modifier Bit 179" "0,1" bitfld.long 0x00 18. " GMB178 ,Group Modifier Bit 178" "0,1" bitfld.long 0x00 17. " GMB177 ,Group Modifier Bit 177" "0,1" textline " " bitfld.long 0x00 16. " GMB176 ,Group Modifier Bit 176" "0,1" bitfld.long 0x00 15. " GMB175 ,Group Modifier Bit 175" "0,1" bitfld.long 0x00 14. " GMB174 ,Group Modifier Bit 174" "0,1" textline " " bitfld.long 0x00 13. " GMB173 ,Group Modifier Bit 173" "0,1" bitfld.long 0x00 12. " GMB172 ,Group Modifier Bit 172" "0,1" bitfld.long 0x00 11. " GMB171 ,Group Modifier Bit 171" "0,1" textline " " bitfld.long 0x00 10. " GMB170 ,Group Modifier Bit 170" "0,1" bitfld.long 0x00 9. " GMB169 ,Group Modifier Bit 169" "0,1" bitfld.long 0x00 8. " GMB168 ,Group Modifier Bit 168" "0,1" textline " " bitfld.long 0x00 7. " GMB167 ,Group Modifier Bit 167" "0,1" bitfld.long 0x00 6. " GMB166 ,Group Modifier Bit 166" "0,1" bitfld.long 0x00 5. " GMB165 ,Group Modifier Bit 165" "0,1" textline " " bitfld.long 0x00 4. " GMB164 ,Group Modifier Bit 164" "0,1" bitfld.long 0x00 3. " GMB163 ,Group Modifier Bit 163" "0,1" bitfld.long 0x00 2. " GMB162 ,Group Modifier Bit 162" "0,1" textline " " bitfld.long 0x00 1. " GMB161 ,Group Modifier Bit 161" "0,1" bitfld.long 0x00 0. " GMB160 ,Group Modifier Bit 160" "0,1" else hgroup.long 0x0D14++0x03 hide.long 0x0 "GICD_IGRPMODR5,Interrupt Group Modifier Register 5" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D18))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x06)) group.long 0x0D18++0x03 line.long 0x0 "GICD_IGRPMODR6,Interrupt Group Modifier Register 6" bitfld.long 0x00 31. " GMB223 ,Group Modifier Bit 223" "0,1" bitfld.long 0x00 30. " GMB222 ,Group Modifier Bit 222" "0,1" bitfld.long 0x00 29. " GMB221 ,Group Modifier Bit 221" "0,1" textline " " bitfld.long 0x00 28. " GMB220 ,Group Modifier Bit 220" "0,1" bitfld.long 0x00 27. " GMB219 ,Group Modifier Bit 219" "0,1" bitfld.long 0x00 26. " GMB218 ,Group Modifier Bit 218" "0,1" textline " " bitfld.long 0x00 25. " GMB217 ,Group Modifier Bit 217" "0,1" bitfld.long 0x00 24. " GMB216 ,Group Modifier Bit 216" "0,1" bitfld.long 0x00 23. " GMB215 ,Group Modifier Bit 215" "0,1" textline " " bitfld.long 0x00 22. " GMB214 ,Group Modifier Bit 214" "0,1" bitfld.long 0x00 21. " GMB213 ,Group Modifier Bit 213" "0,1" bitfld.long 0x00 20. " GMB212 ,Group Modifier Bit 212" "0,1" textline " " bitfld.long 0x00 19. " GMB211 ,Group Modifier Bit 211" "0,1" bitfld.long 0x00 18. " GMB210 ,Group Modifier Bit 210" "0,1" bitfld.long 0x00 17. " GMB209 ,Group Modifier Bit 209" "0,1" textline " " bitfld.long 0x00 16. " GMB208 ,Group Modifier Bit 208" "0,1" bitfld.long 0x00 15. " GMB207 ,Group Modifier Bit 207" "0,1" bitfld.long 0x00 14. " GMB206 ,Group Modifier Bit 206" "0,1" textline " " bitfld.long 0x00 13. " GMB205 ,Group Modifier Bit 205" "0,1" bitfld.long 0x00 12. " GMB204 ,Group Modifier Bit 204" "0,1" bitfld.long 0x00 11. " GMB203 ,Group Modifier Bit 203" "0,1" textline " " bitfld.long 0x00 10. " GMB202 ,Group Modifier Bit 202" "0,1" bitfld.long 0x00 9. " GMB201 ,Group Modifier Bit 201" "0,1" bitfld.long 0x00 8. " GMB200 ,Group Modifier Bit 200" "0,1" textline " " bitfld.long 0x00 7. " GMB199 ,Group Modifier Bit 199" "0,1" bitfld.long 0x00 6. " GMB198 ,Group Modifier Bit 198" "0,1" bitfld.long 0x00 5. " GMB197 ,Group Modifier Bit 197" "0,1" textline " " bitfld.long 0x00 4. " GMB196 ,Group Modifier Bit 196" "0,1" bitfld.long 0x00 3. " GMB195 ,Group Modifier Bit 195" "0,1" bitfld.long 0x00 2. " GMB194 ,Group Modifier Bit 194" "0,1" textline " " bitfld.long 0x00 1. " GMB193 ,Group Modifier Bit 193" "0,1" bitfld.long 0x00 0. " GMB192 ,Group Modifier Bit 192" "0,1" else hgroup.long 0x0D18++0x03 hide.long 0x0 "GICD_IGRPMODR6,Interrupt Group Modifier Register 6" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D1C))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x07)) group.long 0x0D1C++0x03 line.long 0x0 "GICD_IGRPMODR7,Interrupt Group Modifier Register 7" bitfld.long 0x00 31. " GMB255 ,Group Modifier Bit 255" "0,1" bitfld.long 0x00 30. " GMB254 ,Group Modifier Bit 254" "0,1" bitfld.long 0x00 29. " GMB253 ,Group Modifier Bit 253" "0,1" textline " " bitfld.long 0x00 28. " GMB252 ,Group Modifier Bit 252" "0,1" bitfld.long 0x00 27. " GMB251 ,Group Modifier Bit 251" "0,1" bitfld.long 0x00 26. " GMB250 ,Group Modifier Bit 250" "0,1" textline " " bitfld.long 0x00 25. " GMB249 ,Group Modifier Bit 249" "0,1" bitfld.long 0x00 24. " GMB248 ,Group Modifier Bit 248" "0,1" bitfld.long 0x00 23. " GMB247 ,Group Modifier Bit 247" "0,1" textline " " bitfld.long 0x00 22. " GMB246 ,Group Modifier Bit 246" "0,1" bitfld.long 0x00 21. " GMB245 ,Group Modifier Bit 245" "0,1" bitfld.long 0x00 20. " GMB244 ,Group Modifier Bit 244" "0,1" textline " " bitfld.long 0x00 19. " GMB243 ,Group Modifier Bit 243" "0,1" bitfld.long 0x00 18. " GMB242 ,Group Modifier Bit 242" "0,1" bitfld.long 0x00 17. " GMB241 ,Group Modifier Bit 241" "0,1" textline " " bitfld.long 0x00 16. " GMB240 ,Group Modifier Bit 240" "0,1" bitfld.long 0x00 15. " GMB239 ,Group Modifier Bit 239" "0,1" bitfld.long 0x00 14. " GMB238 ,Group Modifier Bit 238" "0,1" textline " " bitfld.long 0x00 13. " GMB237 ,Group Modifier Bit 237" "0,1" bitfld.long 0x00 12. " GMB236 ,Group Modifier Bit 236" "0,1" bitfld.long 0x00 11. " GMB235 ,Group Modifier Bit 235" "0,1" textline " " bitfld.long 0x00 10. " GMB234 ,Group Modifier Bit 234" "0,1" bitfld.long 0x00 9. " GMB233 ,Group Modifier Bit 233" "0,1" bitfld.long 0x00 8. " GMB232 ,Group Modifier Bit 232" "0,1" textline " " bitfld.long 0x00 7. " GMB231 ,Group Modifier Bit 231" "0,1" bitfld.long 0x00 6. " GMB230 ,Group Modifier Bit 230" "0,1" bitfld.long 0x00 5. " GMB229 ,Group Modifier Bit 229" "0,1" textline " " bitfld.long 0x00 4. " GMB228 ,Group Modifier Bit 228" "0,1" bitfld.long 0x00 3. " GMB227 ,Group Modifier Bit 227" "0,1" bitfld.long 0x00 2. " GMB226 ,Group Modifier Bit 226" "0,1" textline " " bitfld.long 0x00 1. " GMB225 ,Group Modifier Bit 225" "0,1" bitfld.long 0x00 0. " GMB224 ,Group Modifier Bit 224" "0,1" else hgroup.long 0x0D1C++0x03 hide.long 0x0 "GICD_IGRPMODR7,Interrupt Group Modifier Register 7" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D20))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x08)) group.long 0x0D20++0x03 line.long 0x0 "GICD_IGRPMODR8,Interrupt Group Modifier Register 8" bitfld.long 0x00 31. " GMB287 ,Group Modifier Bit 287" "0,1" bitfld.long 0x00 30. " GMB286 ,Group Modifier Bit 286" "0,1" bitfld.long 0x00 29. " GMB285 ,Group Modifier Bit 285" "0,1" textline " " bitfld.long 0x00 28. " GMB284 ,Group Modifier Bit 284" "0,1" bitfld.long 0x00 27. " GMB283 ,Group Modifier Bit 283" "0,1" bitfld.long 0x00 26. " GMB282 ,Group Modifier Bit 282" "0,1" textline " " bitfld.long 0x00 25. " GMB281 ,Group Modifier Bit 281" "0,1" bitfld.long 0x00 24. " GMB280 ,Group Modifier Bit 280" "0,1" bitfld.long 0x00 23. " GMB279 ,Group Modifier Bit 279" "0,1" textline " " bitfld.long 0x00 22. " GMB278 ,Group Modifier Bit 278" "0,1" bitfld.long 0x00 21. " GMB277 ,Group Modifier Bit 277" "0,1" bitfld.long 0x00 20. " GMB276 ,Group Modifier Bit 276" "0,1" textline " " bitfld.long 0x00 19. " GMB275 ,Group Modifier Bit 275" "0,1" bitfld.long 0x00 18. " GMB274 ,Group Modifier Bit 274" "0,1" bitfld.long 0x00 17. " GMB273 ,Group Modifier Bit 273" "0,1" textline " " bitfld.long 0x00 16. " GMB272 ,Group Modifier Bit 272" "0,1" bitfld.long 0x00 15. " GMB271 ,Group Modifier Bit 271" "0,1" bitfld.long 0x00 14. " GMB270 ,Group Modifier Bit 270" "0,1" textline " " bitfld.long 0x00 13. " GMB269 ,Group Modifier Bit 269" "0,1" bitfld.long 0x00 12. " GMB268 ,Group Modifier Bit 268" "0,1" bitfld.long 0x00 11. " GMB267 ,Group Modifier Bit 267" "0,1" textline " " bitfld.long 0x00 10. " GMB266 ,Group Modifier Bit 266" "0,1" bitfld.long 0x00 9. " GMB265 ,Group Modifier Bit 265" "0,1" bitfld.long 0x00 8. " GMB264 ,Group Modifier Bit 264" "0,1" textline " " bitfld.long 0x00 7. " GMB263 ,Group Modifier Bit 263" "0,1" bitfld.long 0x00 6. " GMB262 ,Group Modifier Bit 262" "0,1" bitfld.long 0x00 5. " GMB261 ,Group Modifier Bit 261" "0,1" textline " " bitfld.long 0x00 4. " GMB260 ,Group Modifier Bit 260" "0,1" bitfld.long 0x00 3. " GMB259 ,Group Modifier Bit 259" "0,1" bitfld.long 0x00 2. " GMB258 ,Group Modifier Bit 258" "0,1" textline " " bitfld.long 0x00 1. " GMB257 ,Group Modifier Bit 257" "0,1" bitfld.long 0x00 0. " GMB256 ,Group Modifier Bit 256" "0,1" else hgroup.long 0x0D20++0x03 hide.long 0x0 "GICD_IGRPMODR8,Interrupt Group Modifier Register 8" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D24))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x09)) group.long 0x0D24++0x03 line.long 0x0 "GICD_IGRPMODR9,Interrupt Group Modifier Register 9" bitfld.long 0x00 31. " GMB319 ,Group Modifier Bit 319" "0,1" bitfld.long 0x00 30. " GMB318 ,Group Modifier Bit 318" "0,1" bitfld.long 0x00 29. " GMB317 ,Group Modifier Bit 317" "0,1" textline " " bitfld.long 0x00 28. " GMB316 ,Group Modifier Bit 316" "0,1" bitfld.long 0x00 27. " GMB315 ,Group Modifier Bit 315" "0,1" bitfld.long 0x00 26. " GMB314 ,Group Modifier Bit 314" "0,1" textline " " bitfld.long 0x00 25. " GMB313 ,Group Modifier Bit 313" "0,1" bitfld.long 0x00 24. " GMB312 ,Group Modifier Bit 312" "0,1" bitfld.long 0x00 23. " GMB311 ,Group Modifier Bit 311" "0,1" textline " " bitfld.long 0x00 22. " GMB310 ,Group Modifier Bit 310" "0,1" bitfld.long 0x00 21. " GMB309 ,Group Modifier Bit 309" "0,1" bitfld.long 0x00 20. " GMB308 ,Group Modifier Bit 308" "0,1" textline " " bitfld.long 0x00 19. " GMB307 ,Group Modifier Bit 307" "0,1" bitfld.long 0x00 18. " GMB306 ,Group Modifier Bit 306" "0,1" bitfld.long 0x00 17. " GMB305 ,Group Modifier Bit 305" "0,1" textline " " bitfld.long 0x00 16. " GMB304 ,Group Modifier Bit 304" "0,1" bitfld.long 0x00 15. " GMB303 ,Group Modifier Bit 303" "0,1" bitfld.long 0x00 14. " GMB302 ,Group Modifier Bit 302" "0,1" textline " " bitfld.long 0x00 13. " GMB301 ,Group Modifier Bit 301" "0,1" bitfld.long 0x00 12. " GMB300 ,Group Modifier Bit 300" "0,1" bitfld.long 0x00 11. " GMB299 ,Group Modifier Bit 299" "0,1" textline " " bitfld.long 0x00 10. " GMB298 ,Group Modifier Bit 298" "0,1" bitfld.long 0x00 9. " GMB297 ,Group Modifier Bit 297" "0,1" bitfld.long 0x00 8. " GMB296 ,Group Modifier Bit 296" "0,1" textline " " bitfld.long 0x00 7. " GMB295 ,Group Modifier Bit 295" "0,1" bitfld.long 0x00 6. " GMB294 ,Group Modifier Bit 294" "0,1" bitfld.long 0x00 5. " GMB293 ,Group Modifier Bit 293" "0,1" textline " " bitfld.long 0x00 4. " GMB292 ,Group Modifier Bit 292" "0,1" bitfld.long 0x00 3. " GMB291 ,Group Modifier Bit 291" "0,1" bitfld.long 0x00 2. " GMB290 ,Group Modifier Bit 290" "0,1" textline " " bitfld.long 0x00 1. " GMB289 ,Group Modifier Bit 289" "0,1" bitfld.long 0x00 0. " GMB288 ,Group Modifier Bit 288" "0,1" else hgroup.long 0x0D24++0x03 hide.long 0x0 "GICD_IGRPMODR9,Interrupt Group Modifier Register 9" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D28))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x0A)) group.long 0x0D28++0x03 line.long 0x0 "GICD_IGRPMODR10,Interrupt Group Modifier Register 10" bitfld.long 0x00 31. " GMB351 ,Group Modifier Bit 351" "0,1" bitfld.long 0x00 30. " GMB350 ,Group Modifier Bit 350" "0,1" bitfld.long 0x00 29. " GMB349 ,Group Modifier Bit 349" "0,1" textline " " bitfld.long 0x00 28. " GMB348 ,Group Modifier Bit 348" "0,1" bitfld.long 0x00 27. " GMB347 ,Group Modifier Bit 347" "0,1" bitfld.long 0x00 26. " GMB346 ,Group Modifier Bit 346" "0,1" textline " " bitfld.long 0x00 25. " GMB345 ,Group Modifier Bit 345" "0,1" bitfld.long 0x00 24. " GMB344 ,Group Modifier Bit 344" "0,1" bitfld.long 0x00 23. " GMB343 ,Group Modifier Bit 343" "0,1" textline " " bitfld.long 0x00 22. " GMB342 ,Group Modifier Bit 342" "0,1" bitfld.long 0x00 21. " GMB341 ,Group Modifier Bit 341" "0,1" bitfld.long 0x00 20. " GMB340 ,Group Modifier Bit 340" "0,1" textline " " bitfld.long 0x00 19. " GMB339 ,Group Modifier Bit 339" "0,1" bitfld.long 0x00 18. " GMB338 ,Group Modifier Bit 338" "0,1" bitfld.long 0x00 17. " GMB337 ,Group Modifier Bit 337" "0,1" textline " " bitfld.long 0x00 16. " GMB336 ,Group Modifier Bit 336" "0,1" bitfld.long 0x00 15. " GMB335 ,Group Modifier Bit 335" "0,1" bitfld.long 0x00 14. " GMB334 ,Group Modifier Bit 334" "0,1" textline " " bitfld.long 0x00 13. " GMB333 ,Group Modifier Bit 333" "0,1" bitfld.long 0x00 12. " GMB332 ,Group Modifier Bit 332" "0,1" bitfld.long 0x00 11. " GMB331 ,Group Modifier Bit 331" "0,1" textline " " bitfld.long 0x00 10. " GMB330 ,Group Modifier Bit 330" "0,1" bitfld.long 0x00 9. " GMB329 ,Group Modifier Bit 329" "0,1" bitfld.long 0x00 8. " GMB328 ,Group Modifier Bit 328" "0,1" textline " " bitfld.long 0x00 7. " GMB327 ,Group Modifier Bit 327" "0,1" bitfld.long 0x00 6. " GMB326 ,Group Modifier Bit 326" "0,1" bitfld.long 0x00 5. " GMB325 ,Group Modifier Bit 325" "0,1" textline " " bitfld.long 0x00 4. " GMB324 ,Group Modifier Bit 324" "0,1" bitfld.long 0x00 3. " GMB323 ,Group Modifier Bit 323" "0,1" bitfld.long 0x00 2. " GMB322 ,Group Modifier Bit 322" "0,1" textline " " bitfld.long 0x00 1. " GMB321 ,Group Modifier Bit 321" "0,1" bitfld.long 0x00 0. " GMB320 ,Group Modifier Bit 320" "0,1" else hgroup.long 0x0D28++0x03 hide.long 0x0 "GICD_IGRPMODR10,Interrupt Group Modifier Register 10" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D2C))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x0B)) group.long 0x0D2C++0x03 line.long 0x0 "GICD_IGRPMODR11,Interrupt Group Modifier Register 11" bitfld.long 0x00 31. " GMB383 ,Group Modifier Bit 383" "0,1" bitfld.long 0x00 30. " GMB382 ,Group Modifier Bit 382" "0,1" bitfld.long 0x00 29. " GMB381 ,Group Modifier Bit 381" "0,1" textline " " bitfld.long 0x00 28. " GMB380 ,Group Modifier Bit 380" "0,1" bitfld.long 0x00 27. " GMB379 ,Group Modifier Bit 379" "0,1" bitfld.long 0x00 26. " GMB378 ,Group Modifier Bit 378" "0,1" textline " " bitfld.long 0x00 25. " GMB377 ,Group Modifier Bit 377" "0,1" bitfld.long 0x00 24. " GMB376 ,Group Modifier Bit 376" "0,1" bitfld.long 0x00 23. " GMB375 ,Group Modifier Bit 375" "0,1" textline " " bitfld.long 0x00 22. " GMB374 ,Group Modifier Bit 374" "0,1" bitfld.long 0x00 21. " GMB373 ,Group Modifier Bit 373" "0,1" bitfld.long 0x00 20. " GMB372 ,Group Modifier Bit 372" "0,1" textline " " bitfld.long 0x00 19. " GMB371 ,Group Modifier Bit 371" "0,1" bitfld.long 0x00 18. " GMB370 ,Group Modifier Bit 370" "0,1" bitfld.long 0x00 17. " GMB369 ,Group Modifier Bit 369" "0,1" textline " " bitfld.long 0x00 16. " GMB368 ,Group Modifier Bit 368" "0,1" bitfld.long 0x00 15. " GMB367 ,Group Modifier Bit 367" "0,1" bitfld.long 0x00 14. " GMB366 ,Group Modifier Bit 366" "0,1" textline " " bitfld.long 0x00 13. " GMB365 ,Group Modifier Bit 365" "0,1" bitfld.long 0x00 12. " GMB364 ,Group Modifier Bit 364" "0,1" bitfld.long 0x00 11. " GMB363 ,Group Modifier Bit 363" "0,1" textline " " bitfld.long 0x00 10. " GMB362 ,Group Modifier Bit 362" "0,1" bitfld.long 0x00 9. " GMB361 ,Group Modifier Bit 361" "0,1" bitfld.long 0x00 8. " GMB360 ,Group Modifier Bit 360" "0,1" textline " " bitfld.long 0x00 7. " GMB359 ,Group Modifier Bit 359" "0,1" bitfld.long 0x00 6. " GMB358 ,Group Modifier Bit 358" "0,1" bitfld.long 0x00 5. " GMB357 ,Group Modifier Bit 357" "0,1" textline " " bitfld.long 0x00 4. " GMB356 ,Group Modifier Bit 356" "0,1" bitfld.long 0x00 3. " GMB355 ,Group Modifier Bit 355" "0,1" bitfld.long 0x00 2. " GMB354 ,Group Modifier Bit 354" "0,1" textline " " bitfld.long 0x00 1. " GMB353 ,Group Modifier Bit 353" "0,1" bitfld.long 0x00 0. " GMB352 ,Group Modifier Bit 352" "0,1" else hgroup.long 0x0D2C++0x03 hide.long 0x0 "GICD_IGRPMODR11,Interrupt Group Modifier Register 11" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D30))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x0C)) group.long 0x0D30++0x03 line.long 0x0 "GICD_IGRPMODR12,Interrupt Group Modifier Register 12" bitfld.long 0x00 31. " GMB415 ,Group Modifier Bit 415" "0,1" bitfld.long 0x00 30. " GMB414 ,Group Modifier Bit 414" "0,1" bitfld.long 0x00 29. " GMB413 ,Group Modifier Bit 413" "0,1" textline " " bitfld.long 0x00 28. " GMB412 ,Group Modifier Bit 412" "0,1" bitfld.long 0x00 27. " GMB411 ,Group Modifier Bit 411" "0,1" bitfld.long 0x00 26. " GMB410 ,Group Modifier Bit 410" "0,1" textline " " bitfld.long 0x00 25. " GMB409 ,Group Modifier Bit 409" "0,1" bitfld.long 0x00 24. " GMB408 ,Group Modifier Bit 408" "0,1" bitfld.long 0x00 23. " GMB407 ,Group Modifier Bit 407" "0,1" textline " " bitfld.long 0x00 22. " GMB406 ,Group Modifier Bit 406" "0,1" bitfld.long 0x00 21. " GMB405 ,Group Modifier Bit 405" "0,1" bitfld.long 0x00 20. " GMB404 ,Group Modifier Bit 404" "0,1" textline " " bitfld.long 0x00 19. " GMB403 ,Group Modifier Bit 403" "0,1" bitfld.long 0x00 18. " GMB402 ,Group Modifier Bit 402" "0,1" bitfld.long 0x00 17. " GMB401 ,Group Modifier Bit 401" "0,1" textline " " bitfld.long 0x00 16. " GMB400 ,Group Modifier Bit 400" "0,1" bitfld.long 0x00 15. " GMB399 ,Group Modifier Bit 399" "0,1" bitfld.long 0x00 14. " GMB398 ,Group Modifier Bit 398" "0,1" textline " " bitfld.long 0x00 13. " GMB397 ,Group Modifier Bit 397" "0,1" bitfld.long 0x00 12. " GMB396 ,Group Modifier Bit 396" "0,1" bitfld.long 0x00 11. " GMB395 ,Group Modifier Bit 395" "0,1" textline " " bitfld.long 0x00 10. " GMB394 ,Group Modifier Bit 394" "0,1" bitfld.long 0x00 9. " GMB393 ,Group Modifier Bit 393" "0,1" bitfld.long 0x00 8. " GMB392 ,Group Modifier Bit 392" "0,1" textline " " bitfld.long 0x00 7. " GMB391 ,Group Modifier Bit 391" "0,1" bitfld.long 0x00 6. " GMB390 ,Group Modifier Bit 390" "0,1" bitfld.long 0x00 5. " GMB389 ,Group Modifier Bit 389" "0,1" textline " " bitfld.long 0x00 4. " GMB388 ,Group Modifier Bit 388" "0,1" bitfld.long 0x00 3. " GMB387 ,Group Modifier Bit 387" "0,1" bitfld.long 0x00 2. " GMB386 ,Group Modifier Bit 386" "0,1" textline " " bitfld.long 0x00 1. " GMB385 ,Group Modifier Bit 385" "0,1" bitfld.long 0x00 0. " GMB384 ,Group Modifier Bit 384" "0,1" else hgroup.long 0x0D30++0x03 hide.long 0x0 "GICD_IGRPMODR12,Interrupt Group Modifier Register 12" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D34))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x0D)) group.long 0x0D34++0x03 line.long 0x0 "GICD_IGRPMODR13,Interrupt Group Modifier Register 13" bitfld.long 0x00 31. " GMB447 ,Group Modifier Bit 447" "0,1" bitfld.long 0x00 30. " GMB446 ,Group Modifier Bit 446" "0,1" bitfld.long 0x00 29. " GMB445 ,Group Modifier Bit 445" "0,1" textline " " bitfld.long 0x00 28. " GMB444 ,Group Modifier Bit 444" "0,1" bitfld.long 0x00 27. " GMB443 ,Group Modifier Bit 443" "0,1" bitfld.long 0x00 26. " GMB442 ,Group Modifier Bit 442" "0,1" textline " " bitfld.long 0x00 25. " GMB441 ,Group Modifier Bit 441" "0,1" bitfld.long 0x00 24. " GMB440 ,Group Modifier Bit 440" "0,1" bitfld.long 0x00 23. " GMB439 ,Group Modifier Bit 439" "0,1" textline " " bitfld.long 0x00 22. " GMB438 ,Group Modifier Bit 438" "0,1" bitfld.long 0x00 21. " GMB437 ,Group Modifier Bit 437" "0,1" bitfld.long 0x00 20. " GMB436 ,Group Modifier Bit 436" "0,1" textline " " bitfld.long 0x00 19. " GMB435 ,Group Modifier Bit 435" "0,1" bitfld.long 0x00 18. " GMB434 ,Group Modifier Bit 434" "0,1" bitfld.long 0x00 17. " GMB433 ,Group Modifier Bit 433" "0,1" textline " " bitfld.long 0x00 16. " GMB432 ,Group Modifier Bit 432" "0,1" bitfld.long 0x00 15. " GMB431 ,Group Modifier Bit 431" "0,1" bitfld.long 0x00 14. " GMB430 ,Group Modifier Bit 430" "0,1" textline " " bitfld.long 0x00 13. " GMB429 ,Group Modifier Bit 429" "0,1" bitfld.long 0x00 12. " GMB428 ,Group Modifier Bit 428" "0,1" bitfld.long 0x00 11. " GMB427 ,Group Modifier Bit 427" "0,1" textline " " bitfld.long 0x00 10. " GMB426 ,Group Modifier Bit 426" "0,1" bitfld.long 0x00 9. " GMB425 ,Group Modifier Bit 425" "0,1" bitfld.long 0x00 8. " GMB424 ,Group Modifier Bit 424" "0,1" textline " " bitfld.long 0x00 7. " GMB423 ,Group Modifier Bit 423" "0,1" bitfld.long 0x00 6. " GMB422 ,Group Modifier Bit 422" "0,1" bitfld.long 0x00 5. " GMB421 ,Group Modifier Bit 421" "0,1" textline " " bitfld.long 0x00 4. " GMB420 ,Group Modifier Bit 420" "0,1" bitfld.long 0x00 3. " GMB419 ,Group Modifier Bit 419" "0,1" bitfld.long 0x00 2. " GMB418 ,Group Modifier Bit 418" "0,1" textline " " bitfld.long 0x00 1. " GMB417 ,Group Modifier Bit 417" "0,1" bitfld.long 0x00 0. " GMB416 ,Group Modifier Bit 416" "0,1" else hgroup.long 0x0D34++0x03 hide.long 0x0 "GICD_IGRPMODR13,Interrupt Group Modifier Register 13" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D38))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x0E)) group.long 0x0D38++0x03 line.long 0x0 "GICD_IGRPMODR14,Interrupt Group Modifier Register 14" bitfld.long 0x00 31. " GMB479 ,Group Modifier Bit 479" "0,1" bitfld.long 0x00 30. " GMB478 ,Group Modifier Bit 478" "0,1" bitfld.long 0x00 29. " GMB477 ,Group Modifier Bit 477" "0,1" textline " " bitfld.long 0x00 28. " GMB476 ,Group Modifier Bit 476" "0,1" bitfld.long 0x00 27. " GMB475 ,Group Modifier Bit 475" "0,1" bitfld.long 0x00 26. " GMB474 ,Group Modifier Bit 474" "0,1" textline " " bitfld.long 0x00 25. " GMB473 ,Group Modifier Bit 473" "0,1" bitfld.long 0x00 24. " GMB472 ,Group Modifier Bit 472" "0,1" bitfld.long 0x00 23. " GMB471 ,Group Modifier Bit 471" "0,1" textline " " bitfld.long 0x00 22. " GMB470 ,Group Modifier Bit 470" "0,1" bitfld.long 0x00 21. " GMB469 ,Group Modifier Bit 469" "0,1" bitfld.long 0x00 20. " GMB468 ,Group Modifier Bit 468" "0,1" textline " " bitfld.long 0x00 19. " GMB467 ,Group Modifier Bit 467" "0,1" bitfld.long 0x00 18. " GMB466 ,Group Modifier Bit 466" "0,1" bitfld.long 0x00 17. " GMB465 ,Group Modifier Bit 465" "0,1" textline " " bitfld.long 0x00 16. " GMB464 ,Group Modifier Bit 464" "0,1" bitfld.long 0x00 15. " GMB463 ,Group Modifier Bit 463" "0,1" bitfld.long 0x00 14. " GMB462 ,Group Modifier Bit 462" "0,1" textline " " bitfld.long 0x00 13. " GMB461 ,Group Modifier Bit 461" "0,1" bitfld.long 0x00 12. " GMB460 ,Group Modifier Bit 460" "0,1" bitfld.long 0x00 11. " GMB459 ,Group Modifier Bit 459" "0,1" textline " " bitfld.long 0x00 10. " GMB458 ,Group Modifier Bit 458" "0,1" bitfld.long 0x00 9. " GMB457 ,Group Modifier Bit 457" "0,1" bitfld.long 0x00 8. " GMB456 ,Group Modifier Bit 456" "0,1" textline " " bitfld.long 0x00 7. " GMB455 ,Group Modifier Bit 455" "0,1" bitfld.long 0x00 6. " GMB454 ,Group Modifier Bit 454" "0,1" bitfld.long 0x00 5. " GMB453 ,Group Modifier Bit 453" "0,1" textline " " bitfld.long 0x00 4. " GMB452 ,Group Modifier Bit 452" "0,1" bitfld.long 0x00 3. " GMB451 ,Group Modifier Bit 451" "0,1" bitfld.long 0x00 2. " GMB450 ,Group Modifier Bit 450" "0,1" textline " " bitfld.long 0x00 1. " GMB449 ,Group Modifier Bit 449" "0,1" bitfld.long 0x00 0. " GMB448 ,Group Modifier Bit 448" "0,1" else hgroup.long 0x0D38++0x03 hide.long 0x0 "GICD_IGRPMODR14,Interrupt Group Modifier Register 14" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D3C))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x0F)) group.long 0x0D3C++0x03 line.long 0x0 "GICD_IGRPMODR15,Interrupt Group Modifier Register 15" bitfld.long 0x00 31. " GMB511 ,Group Modifier Bit 511" "0,1" bitfld.long 0x00 30. " GMB510 ,Group Modifier Bit 510" "0,1" bitfld.long 0x00 29. " GMB509 ,Group Modifier Bit 509" "0,1" textline " " bitfld.long 0x00 28. " GMB508 ,Group Modifier Bit 508" "0,1" bitfld.long 0x00 27. " GMB507 ,Group Modifier Bit 507" "0,1" bitfld.long 0x00 26. " GMB506 ,Group Modifier Bit 506" "0,1" textline " " bitfld.long 0x00 25. " GMB505 ,Group Modifier Bit 505" "0,1" bitfld.long 0x00 24. " GMB504 ,Group Modifier Bit 504" "0,1" bitfld.long 0x00 23. " GMB503 ,Group Modifier Bit 503" "0,1" textline " " bitfld.long 0x00 22. " GMB502 ,Group Modifier Bit 502" "0,1" bitfld.long 0x00 21. " GMB501 ,Group Modifier Bit 501" "0,1" bitfld.long 0x00 20. " GMB500 ,Group Modifier Bit 500" "0,1" textline " " bitfld.long 0x00 19. " GMB499 ,Group Modifier Bit 499" "0,1" bitfld.long 0x00 18. " GMB498 ,Group Modifier Bit 498" "0,1" bitfld.long 0x00 17. " GMB497 ,Group Modifier Bit 497" "0,1" textline " " bitfld.long 0x00 16. " GMB496 ,Group Modifier Bit 496" "0,1" bitfld.long 0x00 15. " GMB495 ,Group Modifier Bit 495" "0,1" bitfld.long 0x00 14. " GMB494 ,Group Modifier Bit 494" "0,1" textline " " bitfld.long 0x00 13. " GMB493 ,Group Modifier Bit 493" "0,1" bitfld.long 0x00 12. " GMB492 ,Group Modifier Bit 492" "0,1" bitfld.long 0x00 11. " GMB491 ,Group Modifier Bit 491" "0,1" textline " " bitfld.long 0x00 10. " GMB490 ,Group Modifier Bit 490" "0,1" bitfld.long 0x00 9. " GMB489 ,Group Modifier Bit 489" "0,1" bitfld.long 0x00 8. " GMB488 ,Group Modifier Bit 488" "0,1" textline " " bitfld.long 0x00 7. " GMB487 ,Group Modifier Bit 487" "0,1" bitfld.long 0x00 6. " GMB486 ,Group Modifier Bit 486" "0,1" bitfld.long 0x00 5. " GMB485 ,Group Modifier Bit 485" "0,1" textline " " bitfld.long 0x00 4. " GMB484 ,Group Modifier Bit 484" "0,1" bitfld.long 0x00 3. " GMB483 ,Group Modifier Bit 483" "0,1" bitfld.long 0x00 2. " GMB482 ,Group Modifier Bit 482" "0,1" textline " " bitfld.long 0x00 1. " GMB481 ,Group Modifier Bit 481" "0,1" bitfld.long 0x00 0. " GMB480 ,Group Modifier Bit 480" "0,1" else hgroup.long 0x0D3C++0x03 hide.long 0x0 "GICD_IGRPMODR15,Interrupt Group Modifier Register 15" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D40))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x10)) group.long 0x0D40++0x03 line.long 0x0 "GICD_IGRPMODR16,Interrupt Group Modifier Register 16" bitfld.long 0x00 31. " GMB543 ,Group Modifier Bit 543" "0,1" bitfld.long 0x00 30. " GMB542 ,Group Modifier Bit 542" "0,1" bitfld.long 0x00 29. " GMB541 ,Group Modifier Bit 541" "0,1" textline " " bitfld.long 0x00 28. " GMB540 ,Group Modifier Bit 540" "0,1" bitfld.long 0x00 27. " GMB539 ,Group Modifier Bit 539" "0,1" bitfld.long 0x00 26. " GMB538 ,Group Modifier Bit 538" "0,1" textline " " bitfld.long 0x00 25. " GMB537 ,Group Modifier Bit 537" "0,1" bitfld.long 0x00 24. " GMB536 ,Group Modifier Bit 536" "0,1" bitfld.long 0x00 23. " GMB535 ,Group Modifier Bit 535" "0,1" textline " " bitfld.long 0x00 22. " GMB534 ,Group Modifier Bit 534" "0,1" bitfld.long 0x00 21. " GMB533 ,Group Modifier Bit 533" "0,1" bitfld.long 0x00 20. " GMB532 ,Group Modifier Bit 532" "0,1" textline " " bitfld.long 0x00 19. " GMB531 ,Group Modifier Bit 531" "0,1" bitfld.long 0x00 18. " GMB530 ,Group Modifier Bit 530" "0,1" bitfld.long 0x00 17. " GMB529 ,Group Modifier Bit 529" "0,1" textline " " bitfld.long 0x00 16. " GMB528 ,Group Modifier Bit 528" "0,1" bitfld.long 0x00 15. " GMB527 ,Group Modifier Bit 527" "0,1" bitfld.long 0x00 14. " GMB526 ,Group Modifier Bit 526" "0,1" textline " " bitfld.long 0x00 13. " GMB525 ,Group Modifier Bit 525" "0,1" bitfld.long 0x00 12. " GMB524 ,Group Modifier Bit 524" "0,1" bitfld.long 0x00 11. " GMB523 ,Group Modifier Bit 523" "0,1" textline " " bitfld.long 0x00 10. " GMB522 ,Group Modifier Bit 522" "0,1" bitfld.long 0x00 9. " GMB521 ,Group Modifier Bit 521" "0,1" bitfld.long 0x00 8. " GMB520 ,Group Modifier Bit 520" "0,1" textline " " bitfld.long 0x00 7. " GMB519 ,Group Modifier Bit 519" "0,1" bitfld.long 0x00 6. " GMB518 ,Group Modifier Bit 518" "0,1" bitfld.long 0x00 5. " GMB517 ,Group Modifier Bit 517" "0,1" textline " " bitfld.long 0x00 4. " GMB516 ,Group Modifier Bit 516" "0,1" bitfld.long 0x00 3. " GMB515 ,Group Modifier Bit 515" "0,1" bitfld.long 0x00 2. " GMB514 ,Group Modifier Bit 514" "0,1" textline " " bitfld.long 0x00 1. " GMB513 ,Group Modifier Bit 513" "0,1" bitfld.long 0x00 0. " GMB512 ,Group Modifier Bit 512" "0,1" else hgroup.long 0x0D40++0x03 hide.long 0x0 "GICD_IGRPMODR16,Interrupt Group Modifier Register 16" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D44))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x11)) group.long 0x0D44++0x03 line.long 0x0 "GICD_IGRPMODR17,Interrupt Group Modifier Register 17" bitfld.long 0x00 31. " GMB575 ,Group Modifier Bit 575" "0,1" bitfld.long 0x00 30. " GMB574 ,Group Modifier Bit 574" "0,1" bitfld.long 0x00 29. " GMB573 ,Group Modifier Bit 573" "0,1" textline " " bitfld.long 0x00 28. " GMB572 ,Group Modifier Bit 572" "0,1" bitfld.long 0x00 27. " GMB571 ,Group Modifier Bit 571" "0,1" bitfld.long 0x00 26. " GMB570 ,Group Modifier Bit 570" "0,1" textline " " bitfld.long 0x00 25. " GMB569 ,Group Modifier Bit 569" "0,1" bitfld.long 0x00 24. " GMB568 ,Group Modifier Bit 568" "0,1" bitfld.long 0x00 23. " GMB567 ,Group Modifier Bit 567" "0,1" textline " " bitfld.long 0x00 22. " GMB566 ,Group Modifier Bit 566" "0,1" bitfld.long 0x00 21. " GMB565 ,Group Modifier Bit 565" "0,1" bitfld.long 0x00 20. " GMB564 ,Group Modifier Bit 564" "0,1" textline " " bitfld.long 0x00 19. " GMB563 ,Group Modifier Bit 563" "0,1" bitfld.long 0x00 18. " GMB562 ,Group Modifier Bit 562" "0,1" bitfld.long 0x00 17. " GMB561 ,Group Modifier Bit 561" "0,1" textline " " bitfld.long 0x00 16. " GMB560 ,Group Modifier Bit 560" "0,1" bitfld.long 0x00 15. " GMB559 ,Group Modifier Bit 559" "0,1" bitfld.long 0x00 14. " GMB558 ,Group Modifier Bit 558" "0,1" textline " " bitfld.long 0x00 13. " GMB557 ,Group Modifier Bit 557" "0,1" bitfld.long 0x00 12. " GMB556 ,Group Modifier Bit 556" "0,1" bitfld.long 0x00 11. " GMB555 ,Group Modifier Bit 555" "0,1" textline " " bitfld.long 0x00 10. " GMB554 ,Group Modifier Bit 554" "0,1" bitfld.long 0x00 9. " GMB553 ,Group Modifier Bit 553" "0,1" bitfld.long 0x00 8. " GMB552 ,Group Modifier Bit 552" "0,1" textline " " bitfld.long 0x00 7. " GMB551 ,Group Modifier Bit 551" "0,1" bitfld.long 0x00 6. " GMB550 ,Group Modifier Bit 550" "0,1" bitfld.long 0x00 5. " GMB549 ,Group Modifier Bit 549" "0,1" textline " " bitfld.long 0x00 4. " GMB548 ,Group Modifier Bit 548" "0,1" bitfld.long 0x00 3. " GMB547 ,Group Modifier Bit 547" "0,1" bitfld.long 0x00 2. " GMB546 ,Group Modifier Bit 546" "0,1" textline " " bitfld.long 0x00 1. " GMB545 ,Group Modifier Bit 545" "0,1" bitfld.long 0x00 0. " GMB544 ,Group Modifier Bit 544" "0,1" else hgroup.long 0x0D44++0x03 hide.long 0x0 "GICD_IGRPMODR17,Interrupt Group Modifier Register 17" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D48))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x12)) group.long 0x0D48++0x03 line.long 0x0 "GICD_IGRPMODR18,Interrupt Group Modifier Register 18" bitfld.long 0x00 31. " GMB607 ,Group Modifier Bit 607" "0,1" bitfld.long 0x00 30. " GMB606 ,Group Modifier Bit 606" "0,1" bitfld.long 0x00 29. " GMB605 ,Group Modifier Bit 605" "0,1" textline " " bitfld.long 0x00 28. " GMB604 ,Group Modifier Bit 604" "0,1" bitfld.long 0x00 27. " GMB603 ,Group Modifier Bit 603" "0,1" bitfld.long 0x00 26. " GMB602 ,Group Modifier Bit 602" "0,1" textline " " bitfld.long 0x00 25. " GMB601 ,Group Modifier Bit 601" "0,1" bitfld.long 0x00 24. " GMB600 ,Group Modifier Bit 600" "0,1" bitfld.long 0x00 23. " GMB599 ,Group Modifier Bit 599" "0,1" textline " " bitfld.long 0x00 22. " GMB598 ,Group Modifier Bit 598" "0,1" bitfld.long 0x00 21. " GMB597 ,Group Modifier Bit 597" "0,1" bitfld.long 0x00 20. " GMB596 ,Group Modifier Bit 596" "0,1" textline " " bitfld.long 0x00 19. " GMB595 ,Group Modifier Bit 595" "0,1" bitfld.long 0x00 18. " GMB594 ,Group Modifier Bit 594" "0,1" bitfld.long 0x00 17. " GMB593 ,Group Modifier Bit 593" "0,1" textline " " bitfld.long 0x00 16. " GMB592 ,Group Modifier Bit 592" "0,1" bitfld.long 0x00 15. " GMB591 ,Group Modifier Bit 591" "0,1" bitfld.long 0x00 14. " GMB590 ,Group Modifier Bit 590" "0,1" textline " " bitfld.long 0x00 13. " GMB589 ,Group Modifier Bit 589" "0,1" bitfld.long 0x00 12. " GMB588 ,Group Modifier Bit 588" "0,1" bitfld.long 0x00 11. " GMB587 ,Group Modifier Bit 587" "0,1" textline " " bitfld.long 0x00 10. " GMB586 ,Group Modifier Bit 586" "0,1" bitfld.long 0x00 9. " GMB585 ,Group Modifier Bit 585" "0,1" bitfld.long 0x00 8. " GMB584 ,Group Modifier Bit 584" "0,1" textline " " bitfld.long 0x00 7. " GMB583 ,Group Modifier Bit 583" "0,1" bitfld.long 0x00 6. " GMB582 ,Group Modifier Bit 582" "0,1" bitfld.long 0x00 5. " GMB581 ,Group Modifier Bit 581" "0,1" textline " " bitfld.long 0x00 4. " GMB580 ,Group Modifier Bit 580" "0,1" bitfld.long 0x00 3. " GMB579 ,Group Modifier Bit 579" "0,1" bitfld.long 0x00 2. " GMB578 ,Group Modifier Bit 578" "0,1" textline " " bitfld.long 0x00 1. " GMB577 ,Group Modifier Bit 577" "0,1" bitfld.long 0x00 0. " GMB576 ,Group Modifier Bit 576" "0,1" else hgroup.long 0x0D48++0x03 hide.long 0x0 "GICD_IGRPMODR18,Interrupt Group Modifier Register 18" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D4C))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x13)) group.long 0x0D4C++0x03 line.long 0x0 "GICD_IGRPMODR19,Interrupt Group Modifier Register 19" bitfld.long 0x00 31. " GMB639 ,Group Modifier Bit 639" "0,1" bitfld.long 0x00 30. " GMB638 ,Group Modifier Bit 638" "0,1" bitfld.long 0x00 29. " GMB637 ,Group Modifier Bit 637" "0,1" textline " " bitfld.long 0x00 28. " GMB636 ,Group Modifier Bit 636" "0,1" bitfld.long 0x00 27. " GMB635 ,Group Modifier Bit 635" "0,1" bitfld.long 0x00 26. " GMB634 ,Group Modifier Bit 634" "0,1" textline " " bitfld.long 0x00 25. " GMB633 ,Group Modifier Bit 633" "0,1" bitfld.long 0x00 24. " GMB632 ,Group Modifier Bit 632" "0,1" bitfld.long 0x00 23. " GMB631 ,Group Modifier Bit 631" "0,1" textline " " bitfld.long 0x00 22. " GMB630 ,Group Modifier Bit 630" "0,1" bitfld.long 0x00 21. " GMB629 ,Group Modifier Bit 629" "0,1" bitfld.long 0x00 20. " GMB628 ,Group Modifier Bit 628" "0,1" textline " " bitfld.long 0x00 19. " GMB627 ,Group Modifier Bit 627" "0,1" bitfld.long 0x00 18. " GMB626 ,Group Modifier Bit 626" "0,1" bitfld.long 0x00 17. " GMB625 ,Group Modifier Bit 625" "0,1" textline " " bitfld.long 0x00 16. " GMB624 ,Group Modifier Bit 624" "0,1" bitfld.long 0x00 15. " GMB623 ,Group Modifier Bit 623" "0,1" bitfld.long 0x00 14. " GMB622 ,Group Modifier Bit 622" "0,1" textline " " bitfld.long 0x00 13. " GMB621 ,Group Modifier Bit 621" "0,1" bitfld.long 0x00 12. " GMB620 ,Group Modifier Bit 620" "0,1" bitfld.long 0x00 11. " GMB619 ,Group Modifier Bit 619" "0,1" textline " " bitfld.long 0x00 10. " GMB618 ,Group Modifier Bit 618" "0,1" bitfld.long 0x00 9. " GMB617 ,Group Modifier Bit 617" "0,1" bitfld.long 0x00 8. " GMB616 ,Group Modifier Bit 616" "0,1" textline " " bitfld.long 0x00 7. " GMB615 ,Group Modifier Bit 615" "0,1" bitfld.long 0x00 6. " GMB614 ,Group Modifier Bit 614" "0,1" bitfld.long 0x00 5. " GMB613 ,Group Modifier Bit 613" "0,1" textline " " bitfld.long 0x00 4. " GMB612 ,Group Modifier Bit 612" "0,1" bitfld.long 0x00 3. " GMB611 ,Group Modifier Bit 611" "0,1" bitfld.long 0x00 2. " GMB610 ,Group Modifier Bit 610" "0,1" textline " " bitfld.long 0x00 1. " GMB609 ,Group Modifier Bit 609" "0,1" bitfld.long 0x00 0. " GMB608 ,Group Modifier Bit 608" "0,1" else hgroup.long 0x0D4C++0x03 hide.long 0x0 "GICD_IGRPMODR19,Interrupt Group Modifier Register 19" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D50))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x14)) group.long 0x0D50++0x03 line.long 0x0 "GICD_IGRPMODR20,Interrupt Group Modifier Register 20" bitfld.long 0x00 31. " GMB671 ,Group Modifier Bit 671" "0,1" bitfld.long 0x00 30. " GMB670 ,Group Modifier Bit 670" "0,1" bitfld.long 0x00 29. " GMB669 ,Group Modifier Bit 669" "0,1" textline " " bitfld.long 0x00 28. " GMB668 ,Group Modifier Bit 668" "0,1" bitfld.long 0x00 27. " GMB667 ,Group Modifier Bit 667" "0,1" bitfld.long 0x00 26. " GMB666 ,Group Modifier Bit 666" "0,1" textline " " bitfld.long 0x00 25. " GMB665 ,Group Modifier Bit 665" "0,1" bitfld.long 0x00 24. " GMB664 ,Group Modifier Bit 664" "0,1" bitfld.long 0x00 23. " GMB663 ,Group Modifier Bit 663" "0,1" textline " " bitfld.long 0x00 22. " GMB662 ,Group Modifier Bit 662" "0,1" bitfld.long 0x00 21. " GMB661 ,Group Modifier Bit 661" "0,1" bitfld.long 0x00 20. " GMB660 ,Group Modifier Bit 660" "0,1" textline " " bitfld.long 0x00 19. " GMB659 ,Group Modifier Bit 659" "0,1" bitfld.long 0x00 18. " GMB658 ,Group Modifier Bit 658" "0,1" bitfld.long 0x00 17. " GMB657 ,Group Modifier Bit 657" "0,1" textline " " bitfld.long 0x00 16. " GMB656 ,Group Modifier Bit 656" "0,1" bitfld.long 0x00 15. " GMB655 ,Group Modifier Bit 655" "0,1" bitfld.long 0x00 14. " GMB654 ,Group Modifier Bit 654" "0,1" textline " " bitfld.long 0x00 13. " GMB653 ,Group Modifier Bit 653" "0,1" bitfld.long 0x00 12. " GMB652 ,Group Modifier Bit 652" "0,1" bitfld.long 0x00 11. " GMB651 ,Group Modifier Bit 651" "0,1" textline " " bitfld.long 0x00 10. " GMB650 ,Group Modifier Bit 650" "0,1" bitfld.long 0x00 9. " GMB649 ,Group Modifier Bit 649" "0,1" bitfld.long 0x00 8. " GMB648 ,Group Modifier Bit 648" "0,1" textline " " bitfld.long 0x00 7. " GMB647 ,Group Modifier Bit 647" "0,1" bitfld.long 0x00 6. " GMB646 ,Group Modifier Bit 646" "0,1" bitfld.long 0x00 5. " GMB645 ,Group Modifier Bit 645" "0,1" textline " " bitfld.long 0x00 4. " GMB644 ,Group Modifier Bit 644" "0,1" bitfld.long 0x00 3. " GMB643 ,Group Modifier Bit 643" "0,1" bitfld.long 0x00 2. " GMB642 ,Group Modifier Bit 642" "0,1" textline " " bitfld.long 0x00 1. " GMB641 ,Group Modifier Bit 641" "0,1" bitfld.long 0x00 0. " GMB640 ,Group Modifier Bit 640" "0,1" else hgroup.long 0x0D50++0x03 hide.long 0x0 "GICD_IGRPMODR20,Interrupt Group Modifier Register 20" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D54))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x15)) group.long 0x0D54++0x03 line.long 0x0 "GICD_IGRPMODR21,Interrupt Group Modifier Register 21" bitfld.long 0x00 31. " GMB703 ,Group Modifier Bit 703" "0,1" bitfld.long 0x00 30. " GMB702 ,Group Modifier Bit 702" "0,1" bitfld.long 0x00 29. " GMB701 ,Group Modifier Bit 701" "0,1" textline " " bitfld.long 0x00 28. " GMB700 ,Group Modifier Bit 700" "0,1" bitfld.long 0x00 27. " GMB699 ,Group Modifier Bit 699" "0,1" bitfld.long 0x00 26. " GMB698 ,Group Modifier Bit 698" "0,1" textline " " bitfld.long 0x00 25. " GMB697 ,Group Modifier Bit 697" "0,1" bitfld.long 0x00 24. " GMB696 ,Group Modifier Bit 696" "0,1" bitfld.long 0x00 23. " GMB695 ,Group Modifier Bit 695" "0,1" textline " " bitfld.long 0x00 22. " GMB694 ,Group Modifier Bit 694" "0,1" bitfld.long 0x00 21. " GMB693 ,Group Modifier Bit 693" "0,1" bitfld.long 0x00 20. " GMB692 ,Group Modifier Bit 692" "0,1" textline " " bitfld.long 0x00 19. " GMB691 ,Group Modifier Bit 691" "0,1" bitfld.long 0x00 18. " GMB690 ,Group Modifier Bit 690" "0,1" bitfld.long 0x00 17. " GMB689 ,Group Modifier Bit 689" "0,1" textline " " bitfld.long 0x00 16. " GMB688 ,Group Modifier Bit 688" "0,1" bitfld.long 0x00 15. " GMB687 ,Group Modifier Bit 687" "0,1" bitfld.long 0x00 14. " GMB686 ,Group Modifier Bit 686" "0,1" textline " " bitfld.long 0x00 13. " GMB685 ,Group Modifier Bit 685" "0,1" bitfld.long 0x00 12. " GMB684 ,Group Modifier Bit 684" "0,1" bitfld.long 0x00 11. " GMB683 ,Group Modifier Bit 683" "0,1" textline " " bitfld.long 0x00 10. " GMB682 ,Group Modifier Bit 682" "0,1" bitfld.long 0x00 9. " GMB681 ,Group Modifier Bit 681" "0,1" bitfld.long 0x00 8. " GMB680 ,Group Modifier Bit 680" "0,1" textline " " bitfld.long 0x00 7. " GMB679 ,Group Modifier Bit 679" "0,1" bitfld.long 0x00 6. " GMB678 ,Group Modifier Bit 678" "0,1" bitfld.long 0x00 5. " GMB677 ,Group Modifier Bit 677" "0,1" textline " " bitfld.long 0x00 4. " GMB676 ,Group Modifier Bit 676" "0,1" bitfld.long 0x00 3. " GMB675 ,Group Modifier Bit 675" "0,1" bitfld.long 0x00 2. " GMB674 ,Group Modifier Bit 674" "0,1" textline " " bitfld.long 0x00 1. " GMB673 ,Group Modifier Bit 673" "0,1" bitfld.long 0x00 0. " GMB672 ,Group Modifier Bit 672" "0,1" else hgroup.long 0x0D54++0x03 hide.long 0x0 "GICD_IGRPMODR21,Interrupt Group Modifier Register 21" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D58))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x16)) group.long 0x0D58++0x03 line.long 0x0 "GICD_IGRPMODR22,Interrupt Group Modifier Register 22" bitfld.long 0x00 31. " GMB735 ,Group Modifier Bit 735" "0,1" bitfld.long 0x00 30. " GMB734 ,Group Modifier Bit 734" "0,1" bitfld.long 0x00 29. " GMB733 ,Group Modifier Bit 733" "0,1" textline " " bitfld.long 0x00 28. " GMB732 ,Group Modifier Bit 732" "0,1" bitfld.long 0x00 27. " GMB731 ,Group Modifier Bit 731" "0,1" bitfld.long 0x00 26. " GMB730 ,Group Modifier Bit 730" "0,1" textline " " bitfld.long 0x00 25. " GMB729 ,Group Modifier Bit 729" "0,1" bitfld.long 0x00 24. " GMB728 ,Group Modifier Bit 728" "0,1" bitfld.long 0x00 23. " GMB727 ,Group Modifier Bit 727" "0,1" textline " " bitfld.long 0x00 22. " GMB726 ,Group Modifier Bit 726" "0,1" bitfld.long 0x00 21. " GMB725 ,Group Modifier Bit 725" "0,1" bitfld.long 0x00 20. " GMB724 ,Group Modifier Bit 724" "0,1" textline " " bitfld.long 0x00 19. " GMB723 ,Group Modifier Bit 723" "0,1" bitfld.long 0x00 18. " GMB722 ,Group Modifier Bit 722" "0,1" bitfld.long 0x00 17. " GMB721 ,Group Modifier Bit 721" "0,1" textline " " bitfld.long 0x00 16. " GMB720 ,Group Modifier Bit 720" "0,1" bitfld.long 0x00 15. " GMB719 ,Group Modifier Bit 719" "0,1" bitfld.long 0x00 14. " GMB718 ,Group Modifier Bit 718" "0,1" textline " " bitfld.long 0x00 13. " GMB717 ,Group Modifier Bit 717" "0,1" bitfld.long 0x00 12. " GMB716 ,Group Modifier Bit 716" "0,1" bitfld.long 0x00 11. " GMB715 ,Group Modifier Bit 715" "0,1" textline " " bitfld.long 0x00 10. " GMB714 ,Group Modifier Bit 714" "0,1" bitfld.long 0x00 9. " GMB713 ,Group Modifier Bit 713" "0,1" bitfld.long 0x00 8. " GMB712 ,Group Modifier Bit 712" "0,1" textline " " bitfld.long 0x00 7. " GMB711 ,Group Modifier Bit 711" "0,1" bitfld.long 0x00 6. " GMB710 ,Group Modifier Bit 710" "0,1" bitfld.long 0x00 5. " GMB709 ,Group Modifier Bit 709" "0,1" textline " " bitfld.long 0x00 4. " GMB708 ,Group Modifier Bit 708" "0,1" bitfld.long 0x00 3. " GMB707 ,Group Modifier Bit 707" "0,1" bitfld.long 0x00 2. " GMB706 ,Group Modifier Bit 706" "0,1" textline " " bitfld.long 0x00 1. " GMB705 ,Group Modifier Bit 705" "0,1" bitfld.long 0x00 0. " GMB704 ,Group Modifier Bit 704" "0,1" else hgroup.long 0x0D58++0x03 hide.long 0x0 "GICD_IGRPMODR22,Interrupt Group Modifier Register 22" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D5C))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x17)) group.long 0x0D5C++0x03 line.long 0x0 "GICD_IGRPMODR23,Interrupt Group Modifier Register 23" bitfld.long 0x00 31. " GMB767 ,Group Modifier Bit 767" "0,1" bitfld.long 0x00 30. " GMB766 ,Group Modifier Bit 766" "0,1" bitfld.long 0x00 29. " GMB765 ,Group Modifier Bit 765" "0,1" textline " " bitfld.long 0x00 28. " GMB764 ,Group Modifier Bit 764" "0,1" bitfld.long 0x00 27. " GMB763 ,Group Modifier Bit 763" "0,1" bitfld.long 0x00 26. " GMB762 ,Group Modifier Bit 762" "0,1" textline " " bitfld.long 0x00 25. " GMB761 ,Group Modifier Bit 761" "0,1" bitfld.long 0x00 24. " GMB760 ,Group Modifier Bit 760" "0,1" bitfld.long 0x00 23. " GMB759 ,Group Modifier Bit 759" "0,1" textline " " bitfld.long 0x00 22. " GMB758 ,Group Modifier Bit 758" "0,1" bitfld.long 0x00 21. " GMB757 ,Group Modifier Bit 757" "0,1" bitfld.long 0x00 20. " GMB756 ,Group Modifier Bit 756" "0,1" textline " " bitfld.long 0x00 19. " GMB755 ,Group Modifier Bit 755" "0,1" bitfld.long 0x00 18. " GMB754 ,Group Modifier Bit 754" "0,1" bitfld.long 0x00 17. " GMB753 ,Group Modifier Bit 753" "0,1" textline " " bitfld.long 0x00 16. " GMB752 ,Group Modifier Bit 752" "0,1" bitfld.long 0x00 15. " GMB751 ,Group Modifier Bit 751" "0,1" bitfld.long 0x00 14. " GMB750 ,Group Modifier Bit 750" "0,1" textline " " bitfld.long 0x00 13. " GMB749 ,Group Modifier Bit 749" "0,1" bitfld.long 0x00 12. " GMB748 ,Group Modifier Bit 748" "0,1" bitfld.long 0x00 11. " GMB747 ,Group Modifier Bit 747" "0,1" textline " " bitfld.long 0x00 10. " GMB746 ,Group Modifier Bit 746" "0,1" bitfld.long 0x00 9. " GMB745 ,Group Modifier Bit 745" "0,1" bitfld.long 0x00 8. " GMB744 ,Group Modifier Bit 744" "0,1" textline " " bitfld.long 0x00 7. " GMB743 ,Group Modifier Bit 743" "0,1" bitfld.long 0x00 6. " GMB742 ,Group Modifier Bit 742" "0,1" bitfld.long 0x00 5. " GMB741 ,Group Modifier Bit 741" "0,1" textline " " bitfld.long 0x00 4. " GMB740 ,Group Modifier Bit 740" "0,1" bitfld.long 0x00 3. " GMB739 ,Group Modifier Bit 739" "0,1" bitfld.long 0x00 2. " GMB738 ,Group Modifier Bit 738" "0,1" textline " " bitfld.long 0x00 1. " GMB737 ,Group Modifier Bit 737" "0,1" bitfld.long 0x00 0. " GMB736 ,Group Modifier Bit 736" "0,1" else hgroup.long 0x0D5C++0x03 hide.long 0x0 "GICD_IGRPMODR23,Interrupt Group Modifier Register 23" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D60))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x18)) group.long 0x0D60++0x03 line.long 0x0 "GICD_IGRPMODR24,Interrupt Group Modifier Register 24" bitfld.long 0x00 31. " GMB799 ,Group Modifier Bit 799" "0,1" bitfld.long 0x00 30. " GMB798 ,Group Modifier Bit 798" "0,1" bitfld.long 0x00 29. " GMB797 ,Group Modifier Bit 797" "0,1" textline " " bitfld.long 0x00 28. " GMB796 ,Group Modifier Bit 796" "0,1" bitfld.long 0x00 27. " GMB795 ,Group Modifier Bit 795" "0,1" bitfld.long 0x00 26. " GMB794 ,Group Modifier Bit 794" "0,1" textline " " bitfld.long 0x00 25. " GMB793 ,Group Modifier Bit 793" "0,1" bitfld.long 0x00 24. " GMB792 ,Group Modifier Bit 792" "0,1" bitfld.long 0x00 23. " GMB791 ,Group Modifier Bit 791" "0,1" textline " " bitfld.long 0x00 22. " GMB790 ,Group Modifier Bit 790" "0,1" bitfld.long 0x00 21. " GMB789 ,Group Modifier Bit 789" "0,1" bitfld.long 0x00 20. " GMB788 ,Group Modifier Bit 788" "0,1" textline " " bitfld.long 0x00 19. " GMB787 ,Group Modifier Bit 787" "0,1" bitfld.long 0x00 18. " GMB786 ,Group Modifier Bit 786" "0,1" bitfld.long 0x00 17. " GMB785 ,Group Modifier Bit 785" "0,1" textline " " bitfld.long 0x00 16. " GMB784 ,Group Modifier Bit 784" "0,1" bitfld.long 0x00 15. " GMB783 ,Group Modifier Bit 783" "0,1" bitfld.long 0x00 14. " GMB782 ,Group Modifier Bit 782" "0,1" textline " " bitfld.long 0x00 13. " GMB781 ,Group Modifier Bit 781" "0,1" bitfld.long 0x00 12. " GMB780 ,Group Modifier Bit 780" "0,1" bitfld.long 0x00 11. " GMB779 ,Group Modifier Bit 779" "0,1" textline " " bitfld.long 0x00 10. " GMB778 ,Group Modifier Bit 778" "0,1" bitfld.long 0x00 9. " GMB777 ,Group Modifier Bit 777" "0,1" bitfld.long 0x00 8. " GMB776 ,Group Modifier Bit 776" "0,1" textline " " bitfld.long 0x00 7. " GMB775 ,Group Modifier Bit 775" "0,1" bitfld.long 0x00 6. " GMB774 ,Group Modifier Bit 774" "0,1" bitfld.long 0x00 5. " GMB773 ,Group Modifier Bit 773" "0,1" textline " " bitfld.long 0x00 4. " GMB772 ,Group Modifier Bit 772" "0,1" bitfld.long 0x00 3. " GMB771 ,Group Modifier Bit 771" "0,1" bitfld.long 0x00 2. " GMB770 ,Group Modifier Bit 770" "0,1" textline " " bitfld.long 0x00 1. " GMB769 ,Group Modifier Bit 769" "0,1" bitfld.long 0x00 0. " GMB768 ,Group Modifier Bit 768" "0,1" else hgroup.long 0x0D60++0x03 hide.long 0x0 "GICD_IGRPMODR24,Interrupt Group Modifier Register 24" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D64))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x19)) group.long 0x0D64++0x03 line.long 0x0 "GICD_IGRPMODR25,Interrupt Group Modifier Register 25" bitfld.long 0x00 31. " GMB831 ,Group Modifier Bit 831" "0,1" bitfld.long 0x00 30. " GMB830 ,Group Modifier Bit 830" "0,1" bitfld.long 0x00 29. " GMB829 ,Group Modifier Bit 829" "0,1" textline " " bitfld.long 0x00 28. " GMB828 ,Group Modifier Bit 828" "0,1" bitfld.long 0x00 27. " GMB827 ,Group Modifier Bit 827" "0,1" bitfld.long 0x00 26. " GMB826 ,Group Modifier Bit 826" "0,1" textline " " bitfld.long 0x00 25. " GMB825 ,Group Modifier Bit 825" "0,1" bitfld.long 0x00 24. " GMB824 ,Group Modifier Bit 824" "0,1" bitfld.long 0x00 23. " GMB823 ,Group Modifier Bit 823" "0,1" textline " " bitfld.long 0x00 22. " GMB822 ,Group Modifier Bit 822" "0,1" bitfld.long 0x00 21. " GMB821 ,Group Modifier Bit 821" "0,1" bitfld.long 0x00 20. " GMB820 ,Group Modifier Bit 820" "0,1" textline " " bitfld.long 0x00 19. " GMB819 ,Group Modifier Bit 819" "0,1" bitfld.long 0x00 18. " GMB818 ,Group Modifier Bit 818" "0,1" bitfld.long 0x00 17. " GMB817 ,Group Modifier Bit 817" "0,1" textline " " bitfld.long 0x00 16. " GMB816 ,Group Modifier Bit 816" "0,1" bitfld.long 0x00 15. " GMB815 ,Group Modifier Bit 815" "0,1" bitfld.long 0x00 14. " GMB814 ,Group Modifier Bit 814" "0,1" textline " " bitfld.long 0x00 13. " GMB813 ,Group Modifier Bit 813" "0,1" bitfld.long 0x00 12. " GMB812 ,Group Modifier Bit 812" "0,1" bitfld.long 0x00 11. " GMB811 ,Group Modifier Bit 811" "0,1" textline " " bitfld.long 0x00 10. " GMB810 ,Group Modifier Bit 810" "0,1" bitfld.long 0x00 9. " GMB809 ,Group Modifier Bit 809" "0,1" bitfld.long 0x00 8. " GMB808 ,Group Modifier Bit 808" "0,1" textline " " bitfld.long 0x00 7. " GMB807 ,Group Modifier Bit 807" "0,1" bitfld.long 0x00 6. " GMB806 ,Group Modifier Bit 806" "0,1" bitfld.long 0x00 5. " GMB805 ,Group Modifier Bit 805" "0,1" textline " " bitfld.long 0x00 4. " GMB804 ,Group Modifier Bit 804" "0,1" bitfld.long 0x00 3. " GMB803 ,Group Modifier Bit 803" "0,1" bitfld.long 0x00 2. " GMB802 ,Group Modifier Bit 802" "0,1" textline " " bitfld.long 0x00 1. " GMB801 ,Group Modifier Bit 801" "0,1" bitfld.long 0x00 0. " GMB800 ,Group Modifier Bit 800" "0,1" else hgroup.long 0x0D64++0x03 hide.long 0x0 "GICD_IGRPMODR25,Interrupt Group Modifier Register 25" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D68))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x01A)) group.long 0x0D68++0x03 line.long 0x0 "GICD_IGRPMODR26,Interrupt Group Modifier Register 26" bitfld.long 0x00 31. " GMB863 ,Group Modifier Bit 863" "0,1" bitfld.long 0x00 30. " GMB862 ,Group Modifier Bit 862" "0,1" bitfld.long 0x00 29. " GMB861 ,Group Modifier Bit 861" "0,1" textline " " bitfld.long 0x00 28. " GMB860 ,Group Modifier Bit 860" "0,1" bitfld.long 0x00 27. " GMB859 ,Group Modifier Bit 859" "0,1" bitfld.long 0x00 26. " GMB858 ,Group Modifier Bit 858" "0,1" textline " " bitfld.long 0x00 25. " GMB857 ,Group Modifier Bit 857" "0,1" bitfld.long 0x00 24. " GMB856 ,Group Modifier Bit 856" "0,1" bitfld.long 0x00 23. " GMB855 ,Group Modifier Bit 855" "0,1" textline " " bitfld.long 0x00 22. " GMB854 ,Group Modifier Bit 854" "0,1" bitfld.long 0x00 21. " GMB853 ,Group Modifier Bit 853" "0,1" bitfld.long 0x00 20. " GMB852 ,Group Modifier Bit 852" "0,1" textline " " bitfld.long 0x00 19. " GMB851 ,Group Modifier Bit 851" "0,1" bitfld.long 0x00 18. " GMB850 ,Group Modifier Bit 850" "0,1" bitfld.long 0x00 17. " GMB849 ,Group Modifier Bit 849" "0,1" textline " " bitfld.long 0x00 16. " GMB848 ,Group Modifier Bit 848" "0,1" bitfld.long 0x00 15. " GMB847 ,Group Modifier Bit 847" "0,1" bitfld.long 0x00 14. " GMB846 ,Group Modifier Bit 846" "0,1" textline " " bitfld.long 0x00 13. " GMB845 ,Group Modifier Bit 845" "0,1" bitfld.long 0x00 12. " GMB844 ,Group Modifier Bit 844" "0,1" bitfld.long 0x00 11. " GMB843 ,Group Modifier Bit 843" "0,1" textline " " bitfld.long 0x00 10. " GMB842 ,Group Modifier Bit 842" "0,1" bitfld.long 0x00 9. " GMB841 ,Group Modifier Bit 841" "0,1" bitfld.long 0x00 8. " GMB840 ,Group Modifier Bit 840" "0,1" textline " " bitfld.long 0x00 7. " GMB839 ,Group Modifier Bit 839" "0,1" bitfld.long 0x00 6. " GMB838 ,Group Modifier Bit 838" "0,1" bitfld.long 0x00 5. " GMB837 ,Group Modifier Bit 837" "0,1" textline " " bitfld.long 0x00 4. " GMB836 ,Group Modifier Bit 836" "0,1" bitfld.long 0x00 3. " GMB835 ,Group Modifier Bit 835" "0,1" bitfld.long 0x00 2. " GMB834 ,Group Modifier Bit 834" "0,1" textline " " bitfld.long 0x00 1. " GMB833 ,Group Modifier Bit 833" "0,1" bitfld.long 0x00 0. " GMB832 ,Group Modifier Bit 832" "0,1" else hgroup.long 0x0D68++0x03 hide.long 0x0 "GICD_IGRPMODR26,Interrupt Group Modifier Register 26" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D6C))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1B)) group.long 0x0D6C++0x03 line.long 0x0 "GICD_IGRPMODR27,Interrupt Group Modifier Register 27" bitfld.long 0x00 31. " GMB895 ,Group Modifier Bit 895" "0,1" bitfld.long 0x00 30. " GMB894 ,Group Modifier Bit 894" "0,1" bitfld.long 0x00 29. " GMB893 ,Group Modifier Bit 893" "0,1" textline " " bitfld.long 0x00 28. " GMB892 ,Group Modifier Bit 892" "0,1" bitfld.long 0x00 27. " GMB891 ,Group Modifier Bit 891" "0,1" bitfld.long 0x00 26. " GMB890 ,Group Modifier Bit 890" "0,1" textline " " bitfld.long 0x00 25. " GMB889 ,Group Modifier Bit 889" "0,1" bitfld.long 0x00 24. " GMB888 ,Group Modifier Bit 888" "0,1" bitfld.long 0x00 23. " GMB887 ,Group Modifier Bit 887" "0,1" textline " " bitfld.long 0x00 22. " GMB886 ,Group Modifier Bit 886" "0,1" bitfld.long 0x00 21. " GMB885 ,Group Modifier Bit 885" "0,1" bitfld.long 0x00 20. " GMB884 ,Group Modifier Bit 884" "0,1" textline " " bitfld.long 0x00 19. " GMB883 ,Group Modifier Bit 883" "0,1" bitfld.long 0x00 18. " GMB882 ,Group Modifier Bit 882" "0,1" bitfld.long 0x00 17. " GMB881 ,Group Modifier Bit 881" "0,1" textline " " bitfld.long 0x00 16. " GMB880 ,Group Modifier Bit 880" "0,1" bitfld.long 0x00 15. " GMB879 ,Group Modifier Bit 879" "0,1" bitfld.long 0x00 14. " GMB878 ,Group Modifier Bit 878" "0,1" textline " " bitfld.long 0x00 13. " GMB877 ,Group Modifier Bit 877" "0,1" bitfld.long 0x00 12. " GMB876 ,Group Modifier Bit 876" "0,1" bitfld.long 0x00 11. " GMB875 ,Group Modifier Bit 875" "0,1" textline " " bitfld.long 0x00 10. " GMB874 ,Group Modifier Bit 874" "0,1" bitfld.long 0x00 9. " GMB873 ,Group Modifier Bit 873" "0,1" bitfld.long 0x00 8. " GMB872 ,Group Modifier Bit 872" "0,1" textline " " bitfld.long 0x00 7. " GMB871 ,Group Modifier Bit 871" "0,1" bitfld.long 0x00 6. " GMB870 ,Group Modifier Bit 870" "0,1" bitfld.long 0x00 5. " GMB869 ,Group Modifier Bit 869" "0,1" textline " " bitfld.long 0x00 4. " GMB868 ,Group Modifier Bit 868" "0,1" bitfld.long 0x00 3. " GMB867 ,Group Modifier Bit 867" "0,1" bitfld.long 0x00 2. " GMB866 ,Group Modifier Bit 866" "0,1" textline " " bitfld.long 0x00 1. " GMB865 ,Group Modifier Bit 865" "0,1" bitfld.long 0x00 0. " GMB864 ,Group Modifier Bit 864" "0,1" else hgroup.long 0x0D6C++0x03 hide.long 0x0 "GICD_IGRPMODR27,Interrupt Group Modifier Register 27" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D70))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1C)) group.long 0x0D70++0x03 line.long 0x0 "GICD_IGRPMODR28,Interrupt Group Modifier Register 28" bitfld.long 0x00 31. " GMB927 ,Group Modifier Bit 927" "0,1" bitfld.long 0x00 30. " GMB926 ,Group Modifier Bit 926" "0,1" bitfld.long 0x00 29. " GMB925 ,Group Modifier Bit 925" "0,1" textline " " bitfld.long 0x00 28. " GMB924 ,Group Modifier Bit 924" "0,1" bitfld.long 0x00 27. " GMB923 ,Group Modifier Bit 923" "0,1" bitfld.long 0x00 26. " GMB922 ,Group Modifier Bit 922" "0,1" textline " " bitfld.long 0x00 25. " GMB921 ,Group Modifier Bit 921" "0,1" bitfld.long 0x00 24. " GMB920 ,Group Modifier Bit 920" "0,1" bitfld.long 0x00 23. " GMB919 ,Group Modifier Bit 919" "0,1" textline " " bitfld.long 0x00 22. " GMB918 ,Group Modifier Bit 918" "0,1" bitfld.long 0x00 21. " GMB917 ,Group Modifier Bit 917" "0,1" bitfld.long 0x00 20. " GMB916 ,Group Modifier Bit 916" "0,1" textline " " bitfld.long 0x00 19. " GMB915 ,Group Modifier Bit 915" "0,1" bitfld.long 0x00 18. " GMB914 ,Group Modifier Bit 914" "0,1" bitfld.long 0x00 17. " GMB913 ,Group Modifier Bit 913" "0,1" textline " " bitfld.long 0x00 16. " GMB912 ,Group Modifier Bit 912" "0,1" bitfld.long 0x00 15. " GMB911 ,Group Modifier Bit 911" "0,1" bitfld.long 0x00 14. " GMB910 ,Group Modifier Bit 910" "0,1" textline " " bitfld.long 0x00 13. " GMB909 ,Group Modifier Bit 909" "0,1" bitfld.long 0x00 12. " GMB908 ,Group Modifier Bit 908" "0,1" bitfld.long 0x00 11. " GMB907 ,Group Modifier Bit 907" "0,1" textline " " bitfld.long 0x00 10. " GMB906 ,Group Modifier Bit 906" "0,1" bitfld.long 0x00 9. " GMB905 ,Group Modifier Bit 905" "0,1" bitfld.long 0x00 8. " GMB904 ,Group Modifier Bit 904" "0,1" textline " " bitfld.long 0x00 7. " GMB903 ,Group Modifier Bit 903" "0,1" bitfld.long 0x00 6. " GMB902 ,Group Modifier Bit 902" "0,1" bitfld.long 0x00 5. " GMB901 ,Group Modifier Bit 901" "0,1" textline " " bitfld.long 0x00 4. " GMB900 ,Group Modifier Bit 900" "0,1" bitfld.long 0x00 3. " GMB899 ,Group Modifier Bit 899" "0,1" bitfld.long 0x00 2. " GMB898 ,Group Modifier Bit 898" "0,1" textline " " bitfld.long 0x00 1. " GMB897 ,Group Modifier Bit 897" "0,1" bitfld.long 0x00 0. " GMB896 ,Group Modifier Bit 896" "0,1" else hgroup.long 0x0D70++0x03 hide.long 0x0 "GICD_IGRPMODR28,Interrupt Group Modifier Register 28" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D74))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1D)) group.long 0x0D74++0x03 line.long 0x0 "GICD_IGRPMODR29,Interrupt Group Modifier Register 29" bitfld.long 0x00 31. " GMB959 ,Group Modifier Bit 959" "0,1" bitfld.long 0x00 30. " GMB958 ,Group Modifier Bit 958" "0,1" bitfld.long 0x00 29. " GMB957 ,Group Modifier Bit 957" "0,1" textline " " bitfld.long 0x00 28. " GMB956 ,Group Modifier Bit 956" "0,1" bitfld.long 0x00 27. " GMB955 ,Group Modifier Bit 955" "0,1" bitfld.long 0x00 26. " GMB954 ,Group Modifier Bit 954" "0,1" textline " " bitfld.long 0x00 25. " GMB953 ,Group Modifier Bit 953" "0,1" bitfld.long 0x00 24. " GMB952 ,Group Modifier Bit 952" "0,1" bitfld.long 0x00 23. " GMB951 ,Group Modifier Bit 951" "0,1" textline " " bitfld.long 0x00 22. " GMB950 ,Group Modifier Bit 950" "0,1" bitfld.long 0x00 21. " GMB949 ,Group Modifier Bit 949" "0,1" bitfld.long 0x00 20. " GMB948 ,Group Modifier Bit 948" "0,1" textline " " bitfld.long 0x00 19. " GMB947 ,Group Modifier Bit 947" "0,1" bitfld.long 0x00 18. " GMB946 ,Group Modifier Bit 946" "0,1" bitfld.long 0x00 17. " GMB945 ,Group Modifier Bit 945" "0,1" textline " " bitfld.long 0x00 16. " GMB944 ,Group Modifier Bit 944" "0,1" bitfld.long 0x00 15. " GMB943 ,Group Modifier Bit 943" "0,1" bitfld.long 0x00 14. " GMB942 ,Group Modifier Bit 942" "0,1" textline " " bitfld.long 0x00 13. " GMB941 ,Group Modifier Bit 941" "0,1" bitfld.long 0x00 12. " GMB940 ,Group Modifier Bit 940" "0,1" bitfld.long 0x00 11. " GMB939 ,Group Modifier Bit 939" "0,1" textline " " bitfld.long 0x00 10. " GMB938 ,Group Modifier Bit 938" "0,1" bitfld.long 0x00 9. " GMB937 ,Group Modifier Bit 937" "0,1" bitfld.long 0x00 8. " GMB936 ,Group Modifier Bit 936" "0,1" textline " " bitfld.long 0x00 7. " GMB935 ,Group Modifier Bit 935" "0,1" bitfld.long 0x00 6. " GMB934 ,Group Modifier Bit 934" "0,1" bitfld.long 0x00 5. " GMB933 ,Group Modifier Bit 933" "0,1" textline " " bitfld.long 0x00 4. " GMB932 ,Group Modifier Bit 932" "0,1" bitfld.long 0x00 3. " GMB931 ,Group Modifier Bit 931" "0,1" bitfld.long 0x00 2. " GMB930 ,Group Modifier Bit 930" "0,1" textline " " bitfld.long 0x00 1. " GMB929 ,Group Modifier Bit 929" "0,1" bitfld.long 0x00 0. " GMB928 ,Group Modifier Bit 928" "0,1" else hgroup.long 0x0D74++0x03 hide.long 0x0 "GICD_IGRPMODR29,Interrupt Group Modifier Register 29" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0x0D78))&&(((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1E)) group.long 0x0D78++0x03 line.long 0x0 "GICD_IGRPMODR30,Interrupt Group Modifier Register 30" bitfld.long 0x00 31. " GMB991 ,Group Modifier Bit 991" "0,1" bitfld.long 0x00 30. " GMB990 ,Group Modifier Bit 990" "0,1" bitfld.long 0x00 29. " GMB989 ,Group Modifier Bit 989" "0,1" textline " " bitfld.long 0x00 28. " GMB988 ,Group Modifier Bit 988" "0,1" bitfld.long 0x00 27. " GMB987 ,Group Modifier Bit 987" "0,1" bitfld.long 0x00 26. " GMB986 ,Group Modifier Bit 986" "0,1" textline " " bitfld.long 0x00 25. " GMB985 ,Group Modifier Bit 985" "0,1" bitfld.long 0x00 24. " GMB984 ,Group Modifier Bit 984" "0,1" bitfld.long 0x00 23. " GMB983 ,Group Modifier Bit 983" "0,1" textline " " bitfld.long 0x00 22. " GMB982 ,Group Modifier Bit 982" "0,1" bitfld.long 0x00 21. " GMB981 ,Group Modifier Bit 981" "0,1" bitfld.long 0x00 20. " GMB980 ,Group Modifier Bit 980" "0,1" textline " " bitfld.long 0x00 19. " GMB979 ,Group Modifier Bit 979" "0,1" bitfld.long 0x00 18. " GMB978 ,Group Modifier Bit 978" "0,1" bitfld.long 0x00 17. " GMB977 ,Group Modifier Bit 977" "0,1" textline " " bitfld.long 0x00 16. " GMB976 ,Group Modifier Bit 976" "0,1" bitfld.long 0x00 15. " GMB975 ,Group Modifier Bit 975" "0,1" bitfld.long 0x00 14. " GMB974 ,Group Modifier Bit 974" "0,1" textline " " bitfld.long 0x00 13. " GMB973 ,Group Modifier Bit 973" "0,1" bitfld.long 0x00 12. " GMB972 ,Group Modifier Bit 972" "0,1" bitfld.long 0x00 11. " GMB971 ,Group Modifier Bit 971" "0,1" textline " " bitfld.long 0x00 10. " GMB970 ,Group Modifier Bit 970" "0,1" bitfld.long 0x00 9. " GMB969 ,Group Modifier Bit 969" "0,1" bitfld.long 0x00 8. " GMB968 ,Group Modifier Bit 968" "0,1" textline " " bitfld.long 0x00 7. " GMB967 ,Group Modifier Bit 967" "0,1" bitfld.long 0x00 6. " GMB966 ,Group Modifier Bit 966" "0,1" bitfld.long 0x00 5. " GMB965 ,Group Modifier Bit 965" "0,1" textline " " bitfld.long 0x00 4. " GMB964 ,Group Modifier Bit 964" "0,1" bitfld.long 0x00 3. " GMB963 ,Group Modifier Bit 963" "0,1" bitfld.long 0x00 2. " GMB962 ,Group Modifier Bit 962" "0,1" textline " " bitfld.long 0x00 1. " GMB961 ,Group Modifier Bit 961" "0,1" bitfld.long 0x00 0. " GMB960 ,Group Modifier Bit 960" "0,1" else hgroup.long 0x0D78++0x03 hide.long 0x0 "GICD_IGRPMODR30,Interrupt Group Modifier Register 30" endif tree.end width 14. tree "Non-secure Access Control Registers" hgroup.long 0x0E00++0x03 hide.long 0x00 "GICD_NSACR0,Non-secure Access Control Register 0" hgroup.long 0xE04++0x03 hide.long 0x00 "GICD_NSACR1,Non-secure Access Control Register 1" if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE08))) group.long 0xE08++0x03 line.long 0x00 "GICD_NSACR2,Non-secure Access Control Register 2" bitfld.long 0x00 30.--31. " NS_ACCESS47 ,Controls Non-secure access of the interrupt with ID47 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS46 ,Controls Non-secure access of the interrupt with ID46 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS45 ,Controls Non-secure access of the interrupt with ID45 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS44 ,Controls Non-secure access of the interrupt with ID44 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS43 ,Controls Non-secure access of the interrupt with ID43 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS42 ,Controls Non-secure access of the interrupt with ID42 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS41 ,Controls Non-secure access of the interrupt with ID41 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS40 ,Controls Non-secure access of the interrupt with ID40 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS39 ,Controls Non-secure access of the interrupt with ID39 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS38 ,Controls Non-secure access of the interrupt with ID38 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS37 ,Controls Non-secure access of the interrupt with ID37 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS36 ,Controls Non-secure access of the interrupt with ID36 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS35 ,Controls Non-secure access of the interrupt with ID35 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS34 ,Controls Non-secure access of the interrupt with ID34 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS33 ,Controls Non-secure access of the interrupt with ID33 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS32 ,Controls Non-secure access of the interrupt with ID32 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE08++0x03 hide.long 0x00 "GICD_NSACR2,Non-secure Access Control Register 2" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE0C))) group.long 0xE0C++0x03 line.long 0x00 "GICD_NSACR3,Non-secure Access Control Register 3" bitfld.long 0x00 30.--31. " NS_ACCESS63 ,Controls Non-secure access of the interrupt with ID63 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS62 ,Controls Non-secure access of the interrupt with ID62 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS61 ,Controls Non-secure access of the interrupt with ID61 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS60 ,Controls Non-secure access of the interrupt with ID60 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS59 ,Controls Non-secure access of the interrupt with ID59 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS58 ,Controls Non-secure access of the interrupt with ID58 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS57 ,Controls Non-secure access of the interrupt with ID57 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS56 ,Controls Non-secure access of the interrupt with ID56 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS55 ,Controls Non-secure access of the interrupt with ID55 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS54 ,Controls Non-secure access of the interrupt with ID54 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS53 ,Controls Non-secure access of the interrupt with ID53 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS52 ,Controls Non-secure access of the interrupt with ID52 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS51 ,Controls Non-secure access of the interrupt with ID51 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS50 ,Controls Non-secure access of the interrupt with ID50 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS49 ,Controls Non-secure access of the interrupt with ID49 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS48 ,Controls Non-secure access of the interrupt with ID48 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE0C++0x03 hide.long 0x00 "GICD_NSACR3,Non-secure Access Control Register 3" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE10))) group.long 0xE10++0x03 line.long 0x00 "GICD_NSACR4,Non-secure Access Control Register 4" bitfld.long 0x00 30.--31. " NS_ACCESS79 ,Controls Non-secure access of the interrupt with ID79 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS78 ,Controls Non-secure access of the interrupt with ID78 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS77 ,Controls Non-secure access of the interrupt with ID77 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS76 ,Controls Non-secure access of the interrupt with ID76 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS75 ,Controls Non-secure access of the interrupt with ID75 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS74 ,Controls Non-secure access of the interrupt with ID74 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS73 ,Controls Non-secure access of the interrupt with ID73 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS72 ,Controls Non-secure access of the interrupt with ID72 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS71 ,Controls Non-secure access of the interrupt with ID71 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS70 ,Controls Non-secure access of the interrupt with ID70 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS69 ,Controls Non-secure access of the interrupt with ID69 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS68 ,Controls Non-secure access of the interrupt with ID68 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS67 ,Controls Non-secure access of the interrupt with ID67 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS66 ,Controls Non-secure access of the interrupt with ID66 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS65 ,Controls Non-secure access of the interrupt with ID65 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS64 ,Controls Non-secure access of the interrupt with ID64 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE10++0x03 hide.long 0x00 "GICD_NSACR4,Non-secure Access Control Register 4" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE14))) group.long 0xE14++0x03 line.long 0x00 "GICD_NSACR5,Non-secure Access Control Register 5" bitfld.long 0x00 30.--31. " NS_ACCESS95 ,Controls Non-secure access of the interrupt with ID95 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS94 ,Controls Non-secure access of the interrupt with ID94 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS93 ,Controls Non-secure access of the interrupt with ID93 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS92 ,Controls Non-secure access of the interrupt with ID92 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS91 ,Controls Non-secure access of the interrupt with ID91 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS90 ,Controls Non-secure access of the interrupt with ID90 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS89 ,Controls Non-secure access of the interrupt with ID89 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS88 ,Controls Non-secure access of the interrupt with ID88 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS87 ,Controls Non-secure access of the interrupt with ID87 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS86 ,Controls Non-secure access of the interrupt with ID86 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS85 ,Controls Non-secure access of the interrupt with ID85 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS84 ,Controls Non-secure access of the interrupt with ID84 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS83 ,Controls Non-secure access of the interrupt with ID83 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS82 ,Controls Non-secure access of the interrupt with ID82 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS81 ,Controls Non-secure access of the interrupt with ID81 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS80 ,Controls Non-secure access of the interrupt with ID80 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE14++0x03 hide.long 0x00 "GICD_NSACR5,Non-secure Access Control Register 5" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE18))) group.long 0xE18++0x03 line.long 0x00 "GICD_NSACR6,Non-secure Access Control Register 6" bitfld.long 0x00 30.--31. " NS_ACCESS111 ,Controls Non-secure access of the interrupt with ID111" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS110 ,Controls Non-secure access of the interrupt with ID110" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS109 ,Controls Non-secure access of the interrupt with ID109" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS108 ,Controls Non-secure access of the interrupt with ID108" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS107 ,Controls Non-secure access of the interrupt with ID107" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS106 ,Controls Non-secure access of the interrupt with ID106" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS105 ,Controls Non-secure access of the interrupt with ID105" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS104 ,Controls Non-secure access of the interrupt with ID104" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS103 ,Controls Non-secure access of the interrupt with ID103" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS102 ,Controls Non-secure access of the interrupt with ID102" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS101 ,Controls Non-secure access of the interrupt with ID101" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS100 ,Controls Non-secure access of the interrupt with ID100" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS99 ,Controls Non-secure access of the interrupt with ID99 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS98 ,Controls Non-secure access of the interrupt with ID98 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS97 ,Controls Non-secure access of the interrupt with ID97 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS96 ,Controls Non-secure access of the interrupt with ID96 " "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE18++0x03 hide.long 0x00 "GICD_NSACR6,Non-secure Access Control Register 6" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE1C))) group.long 0xE1C++0x03 line.long 0x00 "GICD_NSACR7,Non-secure Access Control Register 7" bitfld.long 0x00 30.--31. " NS_ACCESS127 ,Controls Non-secure access of the interrupt with ID127" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS126 ,Controls Non-secure access of the interrupt with ID126" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS125 ,Controls Non-secure access of the interrupt with ID125" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS124 ,Controls Non-secure access of the interrupt with ID124" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS123 ,Controls Non-secure access of the interrupt with ID123" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS122 ,Controls Non-secure access of the interrupt with ID122" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS121 ,Controls Non-secure access of the interrupt with ID121" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS120 ,Controls Non-secure access of the interrupt with ID120" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS119 ,Controls Non-secure access of the interrupt with ID119" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS118 ,Controls Non-secure access of the interrupt with ID118" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS117 ,Controls Non-secure access of the interrupt with ID117" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS116 ,Controls Non-secure access of the interrupt with ID116" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS115 ,Controls Non-secure access of the interrupt with ID115" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS114 ,Controls Non-secure access of the interrupt with ID114" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS113 ,Controls Non-secure access of the interrupt with ID113" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS112 ,Controls Non-secure access of the interrupt with ID112" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE1C++0x03 hide.long 0x00 "GICD_NSACR7,Non-secure Access Control Register 7" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE20))) group.long 0xE20++0x03 line.long 0x00 "GICD_NSACR8,Non-secure Access Control Register 8" bitfld.long 0x00 30.--31. " NS_ACCESS143 ,Controls Non-secure access of the interrupt with ID143" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS142 ,Controls Non-secure access of the interrupt with ID142" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS141 ,Controls Non-secure access of the interrupt with ID141" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS140 ,Controls Non-secure access of the interrupt with ID140" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS139 ,Controls Non-secure access of the interrupt with ID139" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS138 ,Controls Non-secure access of the interrupt with ID138" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS137 ,Controls Non-secure access of the interrupt with ID137" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS136 ,Controls Non-secure access of the interrupt with ID136" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS135 ,Controls Non-secure access of the interrupt with ID135" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS134 ,Controls Non-secure access of the interrupt with ID134" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS133 ,Controls Non-secure access of the interrupt with ID133" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS132 ,Controls Non-secure access of the interrupt with ID132" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS131 ,Controls Non-secure access of the interrupt with ID131" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS130 ,Controls Non-secure access of the interrupt with ID130" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS129 ,Controls Non-secure access of the interrupt with ID129" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS128 ,Controls Non-secure access of the interrupt with ID128" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE20++0x03 hide.long 0x00 "GICD_NSACR8,Non-secure Access Control Register 8" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE24))) group.long 0xE24++0x03 line.long 0x00 "GICD_NSACR9,Non-secure Access Control Register 9" bitfld.long 0x00 30.--31. " NS_ACCESS159 ,Controls Non-secure access of the interrupt with ID159" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS158 ,Controls Non-secure access of the interrupt with ID158" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS157 ,Controls Non-secure access of the interrupt with ID157" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS156 ,Controls Non-secure access of the interrupt with ID156" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS155 ,Controls Non-secure access of the interrupt with ID155" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS154 ,Controls Non-secure access of the interrupt with ID154" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS153 ,Controls Non-secure access of the interrupt with ID153" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS152 ,Controls Non-secure access of the interrupt with ID152" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS151 ,Controls Non-secure access of the interrupt with ID151" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS150 ,Controls Non-secure access of the interrupt with ID150" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS149 ,Controls Non-secure access of the interrupt with ID149" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS148 ,Controls Non-secure access of the interrupt with ID148" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS147 ,Controls Non-secure access of the interrupt with ID147" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS146 ,Controls Non-secure access of the interrupt with ID146" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS145 ,Controls Non-secure access of the interrupt with ID145" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS144 ,Controls Non-secure access of the interrupt with ID144" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE24++0x03 hide.long 0x00 "GICD_NSACR9,Non-secure Access Control Register 9" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE28))) group.long 0xE28++0x03 line.long 0x00 "GICD_NSACR10,Non-secure Access Control Register 10" bitfld.long 0x00 30.--31. " NS_ACCESS175 ,Controls Non-secure access of the interrupt with ID175" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS174 ,Controls Non-secure access of the interrupt with ID174" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS173 ,Controls Non-secure access of the interrupt with ID173" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS172 ,Controls Non-secure access of the interrupt with ID172" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS171 ,Controls Non-secure access of the interrupt with ID171" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS170 ,Controls Non-secure access of the interrupt with ID170" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS169 ,Controls Non-secure access of the interrupt with ID169" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS168 ,Controls Non-secure access of the interrupt with ID168" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS167 ,Controls Non-secure access of the interrupt with ID167" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS166 ,Controls Non-secure access of the interrupt with ID166" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS165 ,Controls Non-secure access of the interrupt with ID165" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS164 ,Controls Non-secure access of the interrupt with ID164" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS163 ,Controls Non-secure access of the interrupt with ID163" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS162 ,Controls Non-secure access of the interrupt with ID162" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS161 ,Controls Non-secure access of the interrupt with ID161" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS160 ,Controls Non-secure access of the interrupt with ID160" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE28++0x03 hide.long 0x00 "GICD_NSACR10,Non-secure Access Control Register 10" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE2C))) group.long 0xE2C++0x03 line.long 0x00 "GICD_NSACR11,Non-secure Access Control Register 11" bitfld.long 0x00 30.--31. " NS_ACCESS191 ,Controls Non-secure access of the interrupt with ID191" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS190 ,Controls Non-secure access of the interrupt with ID190" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS189 ,Controls Non-secure access of the interrupt with ID189" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS188 ,Controls Non-secure access of the interrupt with ID188" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS187 ,Controls Non-secure access of the interrupt with ID187" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS186 ,Controls Non-secure access of the interrupt with ID186" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS185 ,Controls Non-secure access of the interrupt with ID185" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS184 ,Controls Non-secure access of the interrupt with ID184" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS183 ,Controls Non-secure access of the interrupt with ID183" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS182 ,Controls Non-secure access of the interrupt with ID182" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS181 ,Controls Non-secure access of the interrupt with ID181" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS180 ,Controls Non-secure access of the interrupt with ID180" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS179 ,Controls Non-secure access of the interrupt with ID179" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS178 ,Controls Non-secure access of the interrupt with ID178" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS177 ,Controls Non-secure access of the interrupt with ID177" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS176 ,Controls Non-secure access of the interrupt with ID176" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE2C++0x03 hide.long 0x00 "GICD_NSACR11,Non-secure Access Control Register 11" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE30))) group.long 0xE30++0x03 line.long 0x00 "GICD_NSACR12,Non-secure Access Control Register 12" bitfld.long 0x00 30.--31. " NS_ACCESS207 ,Controls Non-secure access of the interrupt with ID207" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS206 ,Controls Non-secure access of the interrupt with ID206" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS205 ,Controls Non-secure access of the interrupt with ID205" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS204 ,Controls Non-secure access of the interrupt with ID204" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS203 ,Controls Non-secure access of the interrupt with ID203" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS202 ,Controls Non-secure access of the interrupt with ID202" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS201 ,Controls Non-secure access of the interrupt with ID201" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS200 ,Controls Non-secure access of the interrupt with ID200" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS199 ,Controls Non-secure access of the interrupt with ID199" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS198 ,Controls Non-secure access of the interrupt with ID198" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS197 ,Controls Non-secure access of the interrupt with ID197" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS196 ,Controls Non-secure access of the interrupt with ID196" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS195 ,Controls Non-secure access of the interrupt with ID195" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS194 ,Controls Non-secure access of the interrupt with ID194" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS193 ,Controls Non-secure access of the interrupt with ID193" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS192 ,Controls Non-secure access of the interrupt with ID192" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE30++0x03 hide.long 0x00 "GICD_NSACR12,Non-secure Access Control Register 12" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE34))) group.long 0xE34++0x03 line.long 0x00 "GICD_NSACR13,Non-secure Access Control Register 13" bitfld.long 0x00 30.--31. " NS_ACCESS223 ,Controls Non-secure access of the interrupt with ID223" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS222 ,Controls Non-secure access of the interrupt with ID222" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS221 ,Controls Non-secure access of the interrupt with ID221" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS220 ,Controls Non-secure access of the interrupt with ID220" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS219 ,Controls Non-secure access of the interrupt with ID219" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS218 ,Controls Non-secure access of the interrupt with ID218" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS217 ,Controls Non-secure access of the interrupt with ID217" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS216 ,Controls Non-secure access of the interrupt with ID216" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS215 ,Controls Non-secure access of the interrupt with ID215" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS214 ,Controls Non-secure access of the interrupt with ID214" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS213 ,Controls Non-secure access of the interrupt with ID213" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS212 ,Controls Non-secure access of the interrupt with ID212" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS211 ,Controls Non-secure access of the interrupt with ID211" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS210 ,Controls Non-secure access of the interrupt with ID210" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS209 ,Controls Non-secure access of the interrupt with ID209" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS208 ,Controls Non-secure access of the interrupt with ID208" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE34++0x03 hide.long 0x00 "GICD_NSACR13,Non-secure Access Control Register 13" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE38))) group.long 0xE38++0x03 line.long 0x00 "GICD_NSACR14,Non-secure Access Control Register 14" bitfld.long 0x00 30.--31. " NS_ACCESS239 ,Controls Non-secure access of the interrupt with ID239" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS238 ,Controls Non-secure access of the interrupt with ID238" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS237 ,Controls Non-secure access of the interrupt with ID237" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS236 ,Controls Non-secure access of the interrupt with ID236" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS235 ,Controls Non-secure access of the interrupt with ID235" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS234 ,Controls Non-secure access of the interrupt with ID234" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS233 ,Controls Non-secure access of the interrupt with ID233" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS232 ,Controls Non-secure access of the interrupt with ID232" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS231 ,Controls Non-secure access of the interrupt with ID231" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS230 ,Controls Non-secure access of the interrupt with ID230" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS229 ,Controls Non-secure access of the interrupt with ID229" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS228 ,Controls Non-secure access of the interrupt with ID228" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS227 ,Controls Non-secure access of the interrupt with ID227" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS226 ,Controls Non-secure access of the interrupt with ID226" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS225 ,Controls Non-secure access of the interrupt with ID225" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS224 ,Controls Non-secure access of the interrupt with ID224" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE38++0x03 hide.long 0x00 "GICD_NSACR14,Non-secure Access Control Register 14" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE3C))) group.long 0xE3C++0x03 line.long 0x00 "GICD_NSACR15,Non-secure Access Control Register 15" bitfld.long 0x00 30.--31. " NS_ACCESS255 ,Controls Non-secure access of the interrupt with ID255" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS254 ,Controls Non-secure access of the interrupt with ID254" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS253 ,Controls Non-secure access of the interrupt with ID253" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS252 ,Controls Non-secure access of the interrupt with ID252" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS251 ,Controls Non-secure access of the interrupt with ID251" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS250 ,Controls Non-secure access of the interrupt with ID250" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS249 ,Controls Non-secure access of the interrupt with ID249" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS248 ,Controls Non-secure access of the interrupt with ID248" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS247 ,Controls Non-secure access of the interrupt with ID247" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS246 ,Controls Non-secure access of the interrupt with ID246" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS245 ,Controls Non-secure access of the interrupt with ID245" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS244 ,Controls Non-secure access of the interrupt with ID244" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS243 ,Controls Non-secure access of the interrupt with ID243" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS242 ,Controls Non-secure access of the interrupt with ID242" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS241 ,Controls Non-secure access of the interrupt with ID241" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS240 ,Controls Non-secure access of the interrupt with ID240" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE3C++0x03 hide.long 0x00 "GICD_NSACR15,Non-secure Access Control Register 15" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE40))) group.long 0xE40++0x03 line.long 0x00 "GICD_NSACR16,Non-secure Access Control Register 16" bitfld.long 0x00 30.--31. " NS_ACCESS271 ,Controls Non-secure access of the interrupt with ID271" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS270 ,Controls Non-secure access of the interrupt with ID270" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS269 ,Controls Non-secure access of the interrupt with ID269" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS268 ,Controls Non-secure access of the interrupt with ID268" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS267 ,Controls Non-secure access of the interrupt with ID267" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS266 ,Controls Non-secure access of the interrupt with ID266" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS265 ,Controls Non-secure access of the interrupt with ID265" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS264 ,Controls Non-secure access of the interrupt with ID264" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS263 ,Controls Non-secure access of the interrupt with ID263" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS262 ,Controls Non-secure access of the interrupt with ID262" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS261 ,Controls Non-secure access of the interrupt with ID261" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS260 ,Controls Non-secure access of the interrupt with ID260" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS259 ,Controls Non-secure access of the interrupt with ID259" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS258 ,Controls Non-secure access of the interrupt with ID258" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS257 ,Controls Non-secure access of the interrupt with ID257" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS256 ,Controls Non-secure access of the interrupt with ID256" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE40++0x03 hide.long 0x00 "GICD_NSACR16,Non-secure Access Control Register 16" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE44))) group.long 0xE44++0x03 line.long 0x00 "GICD_NSACR17,Non-secure Access Control Register 17" bitfld.long 0x00 30.--31. " NS_ACCESS287 ,Controls Non-secure access of the interrupt with ID287" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS286 ,Controls Non-secure access of the interrupt with ID286" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS285 ,Controls Non-secure access of the interrupt with ID285" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS284 ,Controls Non-secure access of the interrupt with ID284" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS283 ,Controls Non-secure access of the interrupt with ID283" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS282 ,Controls Non-secure access of the interrupt with ID282" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS281 ,Controls Non-secure access of the interrupt with ID281" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS280 ,Controls Non-secure access of the interrupt with ID280" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS279 ,Controls Non-secure access of the interrupt with ID279" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS278 ,Controls Non-secure access of the interrupt with ID278" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS277 ,Controls Non-secure access of the interrupt with ID277" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS276 ,Controls Non-secure access of the interrupt with ID276" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS275 ,Controls Non-secure access of the interrupt with ID275" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS274 ,Controls Non-secure access of the interrupt with ID274" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS273 ,Controls Non-secure access of the interrupt with ID273" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS272 ,Controls Non-secure access of the interrupt with ID272" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE44++0x03 hide.long 0x00 "GICD_NSACR17,Non-secure Access Control Register 17" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE48))) group.long 0xE48++0x03 line.long 0x00 "GICD_NSACR18,Non-secure Access Control Register 18" bitfld.long 0x00 30.--31. " NS_ACCESS303 ,Controls Non-secure access of the interrupt with ID303" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS302 ,Controls Non-secure access of the interrupt with ID302" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS301 ,Controls Non-secure access of the interrupt with ID301" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS300 ,Controls Non-secure access of the interrupt with ID300" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS299 ,Controls Non-secure access of the interrupt with ID299" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS298 ,Controls Non-secure access of the interrupt with ID298" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS297 ,Controls Non-secure access of the interrupt with ID297" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS296 ,Controls Non-secure access of the interrupt with ID296" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS295 ,Controls Non-secure access of the interrupt with ID295" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS294 ,Controls Non-secure access of the interrupt with ID294" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS293 ,Controls Non-secure access of the interrupt with ID293" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS292 ,Controls Non-secure access of the interrupt with ID292" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS291 ,Controls Non-secure access of the interrupt with ID291" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS290 ,Controls Non-secure access of the interrupt with ID290" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS289 ,Controls Non-secure access of the interrupt with ID289" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS288 ,Controls Non-secure access of the interrupt with ID288" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE48++0x03 hide.long 0x00 "GICD_NSACR18,Non-secure Access Control Register 18" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE4C))) group.long 0xE4C++0x03 line.long 0x00 "GICD_NSACR19,Non-secure Access Control Register 19" bitfld.long 0x00 30.--31. " NS_ACCESS319 ,Controls Non-secure access of the interrupt with ID319" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS318 ,Controls Non-secure access of the interrupt with ID318" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS317 ,Controls Non-secure access of the interrupt with ID317" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS316 ,Controls Non-secure access of the interrupt with ID316" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS315 ,Controls Non-secure access of the interrupt with ID315" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS314 ,Controls Non-secure access of the interrupt with ID314" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS313 ,Controls Non-secure access of the interrupt with ID313" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS312 ,Controls Non-secure access of the interrupt with ID312" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS311 ,Controls Non-secure access of the interrupt with ID311" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS310 ,Controls Non-secure access of the interrupt with ID310" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS309 ,Controls Non-secure access of the interrupt with ID309" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS308 ,Controls Non-secure access of the interrupt with ID308" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS307 ,Controls Non-secure access of the interrupt with ID307" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS306 ,Controls Non-secure access of the interrupt with ID306" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS305 ,Controls Non-secure access of the interrupt with ID305" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS304 ,Controls Non-secure access of the interrupt with ID304" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE4C++0x03 hide.long 0x00 "GICD_NSACR19,Non-secure Access Control Register 19" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE50))) group.long 0xE50++0x03 line.long 0x00 "GICD_NSACR20,Non-secure Access Control Register 20" bitfld.long 0x00 30.--31. " NS_ACCESS335 ,Controls Non-secure access of the interrupt with ID335" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS334 ,Controls Non-secure access of the interrupt with ID334" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS333 ,Controls Non-secure access of the interrupt with ID333" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS332 ,Controls Non-secure access of the interrupt with ID332" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS331 ,Controls Non-secure access of the interrupt with ID331" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS330 ,Controls Non-secure access of the interrupt with ID330" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS329 ,Controls Non-secure access of the interrupt with ID329" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS328 ,Controls Non-secure access of the interrupt with ID328" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS327 ,Controls Non-secure access of the interrupt with ID327" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS326 ,Controls Non-secure access of the interrupt with ID326" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS325 ,Controls Non-secure access of the interrupt with ID325" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS324 ,Controls Non-secure access of the interrupt with ID324" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS323 ,Controls Non-secure access of the interrupt with ID323" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS322 ,Controls Non-secure access of the interrupt with ID322" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS321 ,Controls Non-secure access of the interrupt with ID321" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS320 ,Controls Non-secure access of the interrupt with ID320" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE50++0x03 hide.long 0x00 "GICD_NSACR20,Non-secure Access Control Register 20" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE54))) group.long 0xE54++0x03 line.long 0x00 "GICD_NSACR21,Non-secure Access Control Register 21" bitfld.long 0x00 30.--31. " NS_ACCESS351 ,Controls Non-secure access of the interrupt with ID351" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS350 ,Controls Non-secure access of the interrupt with ID350" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS349 ,Controls Non-secure access of the interrupt with ID349" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS348 ,Controls Non-secure access of the interrupt with ID348" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS347 ,Controls Non-secure access of the interrupt with ID347" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS346 ,Controls Non-secure access of the interrupt with ID346" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS345 ,Controls Non-secure access of the interrupt with ID345" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS344 ,Controls Non-secure access of the interrupt with ID344" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS343 ,Controls Non-secure access of the interrupt with ID343" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS342 ,Controls Non-secure access of the interrupt with ID342" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS341 ,Controls Non-secure access of the interrupt with ID341" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS340 ,Controls Non-secure access of the interrupt with ID340" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS339 ,Controls Non-secure access of the interrupt with ID339" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS338 ,Controls Non-secure access of the interrupt with ID338" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS337 ,Controls Non-secure access of the interrupt with ID337" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS336 ,Controls Non-secure access of the interrupt with ID336" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE54++0x03 hide.long 0x00 "GICD_NSACR21,Non-secure Access Control Register 21" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE58))) group.long 0xE58++0x03 line.long 0x00 "GICD_NSACR22,Non-secure Access Control Register 22" bitfld.long 0x00 30.--31. " NS_ACCESS367 ,Controls Non-secure access of the interrupt with ID367" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS366 ,Controls Non-secure access of the interrupt with ID366" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS365 ,Controls Non-secure access of the interrupt with ID365" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS364 ,Controls Non-secure access of the interrupt with ID364" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS363 ,Controls Non-secure access of the interrupt with ID363" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS362 ,Controls Non-secure access of the interrupt with ID362" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS361 ,Controls Non-secure access of the interrupt with ID361" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS360 ,Controls Non-secure access of the interrupt with ID360" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS359 ,Controls Non-secure access of the interrupt with ID359" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS358 ,Controls Non-secure access of the interrupt with ID358" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS357 ,Controls Non-secure access of the interrupt with ID357" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS356 ,Controls Non-secure access of the interrupt with ID356" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS355 ,Controls Non-secure access of the interrupt with ID355" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS354 ,Controls Non-secure access of the interrupt with ID354" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS353 ,Controls Non-secure access of the interrupt with ID353" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS352 ,Controls Non-secure access of the interrupt with ID352" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE58++0x03 hide.long 0x00 "GICD_NSACR22,Non-secure Access Control Register 22" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE5C))) group.long 0xE5C++0x03 line.long 0x00 "GICD_NSACR23,Non-secure Access Control Register 23" bitfld.long 0x00 30.--31. " NS_ACCESS383 ,Controls Non-secure access of the interrupt with ID383" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS382 ,Controls Non-secure access of the interrupt with ID382" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS381 ,Controls Non-secure access of the interrupt with ID381" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS380 ,Controls Non-secure access of the interrupt with ID380" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS379 ,Controls Non-secure access of the interrupt with ID379" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS378 ,Controls Non-secure access of the interrupt with ID378" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS377 ,Controls Non-secure access of the interrupt with ID377" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS376 ,Controls Non-secure access of the interrupt with ID376" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS375 ,Controls Non-secure access of the interrupt with ID375" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS374 ,Controls Non-secure access of the interrupt with ID374" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS373 ,Controls Non-secure access of the interrupt with ID373" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS372 ,Controls Non-secure access of the interrupt with ID372" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS371 ,Controls Non-secure access of the interrupt with ID371" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS370 ,Controls Non-secure access of the interrupt with ID370" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS369 ,Controls Non-secure access of the interrupt with ID369" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS368 ,Controls Non-secure access of the interrupt with ID368" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE5C++0x03 hide.long 0x00 "GICD_NSACR23,Non-secure Access Control Register 23" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE60))) group.long 0xE60++0x03 line.long 0x00 "GICD_NSACR24,Non-secure Access Control Register 24" bitfld.long 0x00 30.--31. " NS_ACCESS399 ,Controls Non-secure access of the interrupt with ID399" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS398 ,Controls Non-secure access of the interrupt with ID398" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS397 ,Controls Non-secure access of the interrupt with ID397" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS396 ,Controls Non-secure access of the interrupt with ID396" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS395 ,Controls Non-secure access of the interrupt with ID395" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS394 ,Controls Non-secure access of the interrupt with ID394" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS393 ,Controls Non-secure access of the interrupt with ID393" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS392 ,Controls Non-secure access of the interrupt with ID392" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS391 ,Controls Non-secure access of the interrupt with ID391" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS390 ,Controls Non-secure access of the interrupt with ID390" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS389 ,Controls Non-secure access of the interrupt with ID389" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS388 ,Controls Non-secure access of the interrupt with ID388" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS387 ,Controls Non-secure access of the interrupt with ID387" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS386 ,Controls Non-secure access of the interrupt with ID386" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS385 ,Controls Non-secure access of the interrupt with ID385" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS384 ,Controls Non-secure access of the interrupt with ID384" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE60++0x03 hide.long 0x00 "GICD_NSACR24,Non-secure Access Control Register 24" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE64))) group.long 0xE64++0x03 line.long 0x00 "GICD_NSACR25,Non-secure Access Control Register 25" bitfld.long 0x00 30.--31. " NS_ACCESS415 ,Controls Non-secure access of the interrupt with ID415" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS414 ,Controls Non-secure access of the interrupt with ID414" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS413 ,Controls Non-secure access of the interrupt with ID413" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS412 ,Controls Non-secure access of the interrupt with ID412" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS411 ,Controls Non-secure access of the interrupt with ID411" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS410 ,Controls Non-secure access of the interrupt with ID410" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS409 ,Controls Non-secure access of the interrupt with ID409" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS408 ,Controls Non-secure access of the interrupt with ID408" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS407 ,Controls Non-secure access of the interrupt with ID407" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS406 ,Controls Non-secure access of the interrupt with ID406" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS405 ,Controls Non-secure access of the interrupt with ID405" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS404 ,Controls Non-secure access of the interrupt with ID404" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS403 ,Controls Non-secure access of the interrupt with ID403" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS402 ,Controls Non-secure access of the interrupt with ID402" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS401 ,Controls Non-secure access of the interrupt with ID401" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS400 ,Controls Non-secure access of the interrupt with ID400" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE64++0x03 hide.long 0x00 "GICD_NSACR25,Non-secure Access Control Register 25" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE68))) group.long 0xE68++0x03 line.long 0x00 "GICD_NSACR26,Non-secure Access Control Register 26" bitfld.long 0x00 30.--31. " NS_ACCESS431 ,Controls Non-secure access of the interrupt with ID431" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS430 ,Controls Non-secure access of the interrupt with ID430" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS429 ,Controls Non-secure access of the interrupt with ID429" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS428 ,Controls Non-secure access of the interrupt with ID428" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS427 ,Controls Non-secure access of the interrupt with ID427" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS426 ,Controls Non-secure access of the interrupt with ID426" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS425 ,Controls Non-secure access of the interrupt with ID425" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS424 ,Controls Non-secure access of the interrupt with ID424" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS423 ,Controls Non-secure access of the interrupt with ID423" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS422 ,Controls Non-secure access of the interrupt with ID422" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS421 ,Controls Non-secure access of the interrupt with ID421" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS420 ,Controls Non-secure access of the interrupt with ID420" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS419 ,Controls Non-secure access of the interrupt with ID419" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS418 ,Controls Non-secure access of the interrupt with ID418" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS417 ,Controls Non-secure access of the interrupt with ID417" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS416 ,Controls Non-secure access of the interrupt with ID416" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE68++0x03 hide.long 0x00 "GICD_NSACR26,Non-secure Access Control Register 26" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE6C))) group.long 0xE6C++0x03 line.long 0x00 "GICD_NSACR27,Non-secure Access Control Register 27" bitfld.long 0x00 30.--31. " NS_ACCESS447 ,Controls Non-secure access of the interrupt with ID447" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS446 ,Controls Non-secure access of the interrupt with ID446" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS445 ,Controls Non-secure access of the interrupt with ID445" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS444 ,Controls Non-secure access of the interrupt with ID444" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS443 ,Controls Non-secure access of the interrupt with ID443" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS442 ,Controls Non-secure access of the interrupt with ID442" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS441 ,Controls Non-secure access of the interrupt with ID441" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS440 ,Controls Non-secure access of the interrupt with ID440" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS439 ,Controls Non-secure access of the interrupt with ID439" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS438 ,Controls Non-secure access of the interrupt with ID438" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS437 ,Controls Non-secure access of the interrupt with ID437" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS436 ,Controls Non-secure access of the interrupt with ID436" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS435 ,Controls Non-secure access of the interrupt with ID435" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS434 ,Controls Non-secure access of the interrupt with ID434" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS433 ,Controls Non-secure access of the interrupt with ID433" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS432 ,Controls Non-secure access of the interrupt with ID432" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE6C++0x03 hide.long 0x00 "GICD_NSACR27,Non-secure Access Control Register 27" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE70))) group.long 0xE70++0x03 line.long 0x00 "GICD_NSACR28,Non-secure Access Control Register 28" bitfld.long 0x00 30.--31. " NS_ACCESS463 ,Controls Non-secure access of the interrupt with ID463" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS462 ,Controls Non-secure access of the interrupt with ID462" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS461 ,Controls Non-secure access of the interrupt with ID461" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS460 ,Controls Non-secure access of the interrupt with ID460" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS459 ,Controls Non-secure access of the interrupt with ID459" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS458 ,Controls Non-secure access of the interrupt with ID458" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS457 ,Controls Non-secure access of the interrupt with ID457" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS456 ,Controls Non-secure access of the interrupt with ID456" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS455 ,Controls Non-secure access of the interrupt with ID455" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS454 ,Controls Non-secure access of the interrupt with ID454" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS453 ,Controls Non-secure access of the interrupt with ID453" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS452 ,Controls Non-secure access of the interrupt with ID452" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS451 ,Controls Non-secure access of the interrupt with ID451" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS450 ,Controls Non-secure access of the interrupt with ID450" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS449 ,Controls Non-secure access of the interrupt with ID449" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS448 ,Controls Non-secure access of the interrupt with ID448" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE70++0x03 hide.long 0x00 "GICD_NSACR28,Non-secure Access Control Register 28" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE74))) group.long 0xE74++0x03 line.long 0x00 "GICD_NSACR29,Non-secure Access Control Register 29" bitfld.long 0x00 30.--31. " NS_ACCESS479 ,Controls Non-secure access of the interrupt with ID479" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS478 ,Controls Non-secure access of the interrupt with ID478" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS477 ,Controls Non-secure access of the interrupt with ID477" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS476 ,Controls Non-secure access of the interrupt with ID476" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS475 ,Controls Non-secure access of the interrupt with ID475" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS474 ,Controls Non-secure access of the interrupt with ID474" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS473 ,Controls Non-secure access of the interrupt with ID473" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS472 ,Controls Non-secure access of the interrupt with ID472" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS471 ,Controls Non-secure access of the interrupt with ID471" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS470 ,Controls Non-secure access of the interrupt with ID470" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS469 ,Controls Non-secure access of the interrupt with ID469" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS468 ,Controls Non-secure access of the interrupt with ID468" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS467 ,Controls Non-secure access of the interrupt with ID467" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS466 ,Controls Non-secure access of the interrupt with ID466" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS465 ,Controls Non-secure access of the interrupt with ID465" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS464 ,Controls Non-secure access of the interrupt with ID464" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE74++0x03 hide.long 0x00 "GICD_NSACR29,Non-secure Access Control Register 29" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE78))) group.long 0xE78++0x03 line.long 0x00 "GICD_NSACR30,Non-secure Access Control Register 30" bitfld.long 0x00 30.--31. " NS_ACCESS495 ,Controls Non-secure access of the interrupt with ID495" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS494 ,Controls Non-secure access of the interrupt with ID494" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS493 ,Controls Non-secure access of the interrupt with ID493" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS492 ,Controls Non-secure access of the interrupt with ID492" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS491 ,Controls Non-secure access of the interrupt with ID491" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS490 ,Controls Non-secure access of the interrupt with ID490" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS489 ,Controls Non-secure access of the interrupt with ID489" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS488 ,Controls Non-secure access of the interrupt with ID488" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS487 ,Controls Non-secure access of the interrupt with ID487" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS486 ,Controls Non-secure access of the interrupt with ID486" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS485 ,Controls Non-secure access of the interrupt with ID485" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS484 ,Controls Non-secure access of the interrupt with ID484" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS483 ,Controls Non-secure access of the interrupt with ID483" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS482 ,Controls Non-secure access of the interrupt with ID482" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS481 ,Controls Non-secure access of the interrupt with ID481" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS480 ,Controls Non-secure access of the interrupt with ID480" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE78++0x03 hide.long 0x00 "GICD_NSACR30,Non-secure Access Control Register 30" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE7C))) group.long 0xE7C++0x03 line.long 0x00 "GICD_NSACR31,Non-secure Access Control Register 31" bitfld.long 0x00 30.--31. " NS_ACCESS511 ,Controls Non-secure access of the interrupt with ID511" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS510 ,Controls Non-secure access of the interrupt with ID510" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS509 ,Controls Non-secure access of the interrupt with ID509" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS508 ,Controls Non-secure access of the interrupt with ID508" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS507 ,Controls Non-secure access of the interrupt with ID507" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS506 ,Controls Non-secure access of the interrupt with ID506" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS505 ,Controls Non-secure access of the interrupt with ID505" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS504 ,Controls Non-secure access of the interrupt with ID504" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS503 ,Controls Non-secure access of the interrupt with ID503" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS502 ,Controls Non-secure access of the interrupt with ID502" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS501 ,Controls Non-secure access of the interrupt with ID501" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS500 ,Controls Non-secure access of the interrupt with ID500" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS499 ,Controls Non-secure access of the interrupt with ID499" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS498 ,Controls Non-secure access of the interrupt with ID498" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS497 ,Controls Non-secure access of the interrupt with ID497" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS496 ,Controls Non-secure access of the interrupt with ID496" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE7C++0x03 hide.long 0x00 "GICD_NSACR31,Non-secure Access Control Register 31" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE80))) group.long 0xE80++0x03 line.long 0x00 "GICD_NSACR32,Non-secure Access Control Register 32" bitfld.long 0x00 30.--31. " NS_ACCESS527 ,Controls Non-secure access of the interrupt with ID527" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS526 ,Controls Non-secure access of the interrupt with ID526" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS525 ,Controls Non-secure access of the interrupt with ID525" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS524 ,Controls Non-secure access of the interrupt with ID524" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS523 ,Controls Non-secure access of the interrupt with ID523" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS522 ,Controls Non-secure access of the interrupt with ID522" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS521 ,Controls Non-secure access of the interrupt with ID521" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS520 ,Controls Non-secure access of the interrupt with ID520" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS519 ,Controls Non-secure access of the interrupt with ID519" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS518 ,Controls Non-secure access of the interrupt with ID518" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS517 ,Controls Non-secure access of the interrupt with ID517" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS516 ,Controls Non-secure access of the interrupt with ID516" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS515 ,Controls Non-secure access of the interrupt with ID515" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS514 ,Controls Non-secure access of the interrupt with ID514" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS513 ,Controls Non-secure access of the interrupt with ID513" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS512 ,Controls Non-secure access of the interrupt with ID512" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE80++0x03 hide.long 0x00 "GICD_NSACR32,Non-secure Access Control Register 32" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE84))) group.long 0xE84++0x03 line.long 0x00 "GICD_NSACR33,Non-secure Access Control Register 33" bitfld.long 0x00 30.--31. " NS_ACCESS543 ,Controls Non-secure access of the interrupt with ID543" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS542 ,Controls Non-secure access of the interrupt with ID542" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS541 ,Controls Non-secure access of the interrupt with ID541" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS540 ,Controls Non-secure access of the interrupt with ID540" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS539 ,Controls Non-secure access of the interrupt with ID539" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS538 ,Controls Non-secure access of the interrupt with ID538" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS537 ,Controls Non-secure access of the interrupt with ID537" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS536 ,Controls Non-secure access of the interrupt with ID536" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS535 ,Controls Non-secure access of the interrupt with ID535" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS534 ,Controls Non-secure access of the interrupt with ID534" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS533 ,Controls Non-secure access of the interrupt with ID533" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS532 ,Controls Non-secure access of the interrupt with ID532" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS531 ,Controls Non-secure access of the interrupt with ID531" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS530 ,Controls Non-secure access of the interrupt with ID530" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS529 ,Controls Non-secure access of the interrupt with ID529" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS528 ,Controls Non-secure access of the interrupt with ID528" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE84++0x03 hide.long 0x00 "GICD_NSACR33,Non-secure Access Control Register 33" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE88))) group.long 0xE88++0x03 line.long 0x00 "GICD_NSACR34,Non-secure Access Control Register 34" bitfld.long 0x00 30.--31. " NS_ACCESS559 ,Controls Non-secure access of the interrupt with ID559" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS558 ,Controls Non-secure access of the interrupt with ID558" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS557 ,Controls Non-secure access of the interrupt with ID557" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS556 ,Controls Non-secure access of the interrupt with ID556" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS555 ,Controls Non-secure access of the interrupt with ID555" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS554 ,Controls Non-secure access of the interrupt with ID554" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS553 ,Controls Non-secure access of the interrupt with ID553" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS552 ,Controls Non-secure access of the interrupt with ID552" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS551 ,Controls Non-secure access of the interrupt with ID551" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS550 ,Controls Non-secure access of the interrupt with ID550" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS549 ,Controls Non-secure access of the interrupt with ID549" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS548 ,Controls Non-secure access of the interrupt with ID548" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS547 ,Controls Non-secure access of the interrupt with ID547" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS546 ,Controls Non-secure access of the interrupt with ID546" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS545 ,Controls Non-secure access of the interrupt with ID545" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS544 ,Controls Non-secure access of the interrupt with ID544" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE88++0x03 hide.long 0x00 "GICD_NSACR34,Non-secure Access Control Register 34" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE8C))) group.long 0xE8C++0x03 line.long 0x00 "GICD_NSACR35,Non-secure Access Control Register 35" bitfld.long 0x00 30.--31. " NS_ACCESS575 ,Controls Non-secure access of the interrupt with ID575" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS574 ,Controls Non-secure access of the interrupt with ID574" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS573 ,Controls Non-secure access of the interrupt with ID573" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS572 ,Controls Non-secure access of the interrupt with ID572" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS571 ,Controls Non-secure access of the interrupt with ID571" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS570 ,Controls Non-secure access of the interrupt with ID570" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS569 ,Controls Non-secure access of the interrupt with ID569" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS568 ,Controls Non-secure access of the interrupt with ID568" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS567 ,Controls Non-secure access of the interrupt with ID567" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS566 ,Controls Non-secure access of the interrupt with ID566" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS565 ,Controls Non-secure access of the interrupt with ID565" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS564 ,Controls Non-secure access of the interrupt with ID564" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS563 ,Controls Non-secure access of the interrupt with ID563" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS562 ,Controls Non-secure access of the interrupt with ID562" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS561 ,Controls Non-secure access of the interrupt with ID561" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS560 ,Controls Non-secure access of the interrupt with ID560" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE8C++0x03 hide.long 0x00 "GICD_NSACR35,Non-secure Access Control Register 35" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE90))) group.long 0xE90++0x03 line.long 0x00 "GICD_NSACR36,Non-secure Access Control Register 36" bitfld.long 0x00 30.--31. " NS_ACCESS591 ,Controls Non-secure access of the interrupt with ID591" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS590 ,Controls Non-secure access of the interrupt with ID590" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS589 ,Controls Non-secure access of the interrupt with ID589" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS588 ,Controls Non-secure access of the interrupt with ID588" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS587 ,Controls Non-secure access of the interrupt with ID587" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS586 ,Controls Non-secure access of the interrupt with ID586" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS585 ,Controls Non-secure access of the interrupt with ID585" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS584 ,Controls Non-secure access of the interrupt with ID584" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS583 ,Controls Non-secure access of the interrupt with ID583" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS582 ,Controls Non-secure access of the interrupt with ID582" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS581 ,Controls Non-secure access of the interrupt with ID581" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS580 ,Controls Non-secure access of the interrupt with ID580" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS579 ,Controls Non-secure access of the interrupt with ID579" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS578 ,Controls Non-secure access of the interrupt with ID578" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS577 ,Controls Non-secure access of the interrupt with ID577" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS576 ,Controls Non-secure access of the interrupt with ID576" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE90++0x03 hide.long 0x00 "GICD_NSACR36,Non-secure Access Control Register 36" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE94))) group.long 0xE94++0x03 line.long 0x00 "GICD_NSACR37,Non-secure Access Control Register 37" bitfld.long 0x00 30.--31. " NS_ACCESS607 ,Controls Non-secure access of the interrupt with ID607" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS606 ,Controls Non-secure access of the interrupt with ID606" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS605 ,Controls Non-secure access of the interrupt with ID605" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS604 ,Controls Non-secure access of the interrupt with ID604" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS603 ,Controls Non-secure access of the interrupt with ID603" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS602 ,Controls Non-secure access of the interrupt with ID602" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS601 ,Controls Non-secure access of the interrupt with ID601" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS600 ,Controls Non-secure access of the interrupt with ID600" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS599 ,Controls Non-secure access of the interrupt with ID599" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS598 ,Controls Non-secure access of the interrupt with ID598" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS597 ,Controls Non-secure access of the interrupt with ID597" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS596 ,Controls Non-secure access of the interrupt with ID596" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS595 ,Controls Non-secure access of the interrupt with ID595" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS594 ,Controls Non-secure access of the interrupt with ID594" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS593 ,Controls Non-secure access of the interrupt with ID593" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS592 ,Controls Non-secure access of the interrupt with ID592" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE94++0x03 hide.long 0x00 "GICD_NSACR37,Non-secure Access Control Register 37" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE98))) group.long 0xE98++0x03 line.long 0x00 "GICD_NSACR38,Non-secure Access Control Register 38" bitfld.long 0x00 30.--31. " NS_ACCESS623 ,Controls Non-secure access of the interrupt with ID623" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS622 ,Controls Non-secure access of the interrupt with ID622" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS621 ,Controls Non-secure access of the interrupt with ID621" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS620 ,Controls Non-secure access of the interrupt with ID620" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS619 ,Controls Non-secure access of the interrupt with ID619" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS618 ,Controls Non-secure access of the interrupt with ID618" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS617 ,Controls Non-secure access of the interrupt with ID617" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS616 ,Controls Non-secure access of the interrupt with ID616" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS615 ,Controls Non-secure access of the interrupt with ID615" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS614 ,Controls Non-secure access of the interrupt with ID614" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS613 ,Controls Non-secure access of the interrupt with ID613" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS612 ,Controls Non-secure access of the interrupt with ID612" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS611 ,Controls Non-secure access of the interrupt with ID611" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS610 ,Controls Non-secure access of the interrupt with ID610" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS609 ,Controls Non-secure access of the interrupt with ID609" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS608 ,Controls Non-secure access of the interrupt with ID608" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE98++0x03 hide.long 0x00 "GICD_NSACR38,Non-secure Access Control Register 38" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xE9C))) group.long 0xE9C++0x03 line.long 0x00 "GICD_NSACR39,Non-secure Access Control Register 39" bitfld.long 0x00 30.--31. " NS_ACCESS639 ,Controls Non-secure access of the interrupt with ID639" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS638 ,Controls Non-secure access of the interrupt with ID638" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS637 ,Controls Non-secure access of the interrupt with ID637" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS636 ,Controls Non-secure access of the interrupt with ID636" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS635 ,Controls Non-secure access of the interrupt with ID635" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS634 ,Controls Non-secure access of the interrupt with ID634" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS633 ,Controls Non-secure access of the interrupt with ID633" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS632 ,Controls Non-secure access of the interrupt with ID632" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS631 ,Controls Non-secure access of the interrupt with ID631" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS630 ,Controls Non-secure access of the interrupt with ID630" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS629 ,Controls Non-secure access of the interrupt with ID629" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS628 ,Controls Non-secure access of the interrupt with ID628" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS627 ,Controls Non-secure access of the interrupt with ID627" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS626 ,Controls Non-secure access of the interrupt with ID626" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS625 ,Controls Non-secure access of the interrupt with ID625" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS624 ,Controls Non-secure access of the interrupt with ID624" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xE9C++0x03 hide.long 0x00 "GICD_NSACR39,Non-secure Access Control Register 39" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xEA0))) group.long 0xEA0++0x03 line.long 0x00 "GICD_NSACR40,Non-secure Access Control Register 40" bitfld.long 0x00 30.--31. " NS_ACCESS655 ,Controls Non-secure access of the interrupt with ID655" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS654 ,Controls Non-secure access of the interrupt with ID654" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS653 ,Controls Non-secure access of the interrupt with ID653" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS652 ,Controls Non-secure access of the interrupt with ID652" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS651 ,Controls Non-secure access of the interrupt with ID651" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS650 ,Controls Non-secure access of the interrupt with ID650" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS649 ,Controls Non-secure access of the interrupt with ID649" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS648 ,Controls Non-secure access of the interrupt with ID648" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS647 ,Controls Non-secure access of the interrupt with ID647" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS646 ,Controls Non-secure access of the interrupt with ID646" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS645 ,Controls Non-secure access of the interrupt with ID645" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS644 ,Controls Non-secure access of the interrupt with ID644" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS643 ,Controls Non-secure access of the interrupt with ID643" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS642 ,Controls Non-secure access of the interrupt with ID642" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS641 ,Controls Non-secure access of the interrupt with ID641" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS640 ,Controls Non-secure access of the interrupt with ID640" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xEA0++0x03 hide.long 0x00 "GICD_NSACR40,Non-secure Access Control Register 40" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xEA4))) group.long 0xEA4++0x03 line.long 0x00 "GICD_NSACR41,Non-secure Access Control Register 41" bitfld.long 0x00 30.--31. " NS_ACCESS671 ,Controls Non-secure access of the interrupt with ID671" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS670 ,Controls Non-secure access of the interrupt with ID670" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS669 ,Controls Non-secure access of the interrupt with ID669" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS668 ,Controls Non-secure access of the interrupt with ID668" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS667 ,Controls Non-secure access of the interrupt with ID667" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS666 ,Controls Non-secure access of the interrupt with ID666" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS665 ,Controls Non-secure access of the interrupt with ID665" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS664 ,Controls Non-secure access of the interrupt with ID664" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS663 ,Controls Non-secure access of the interrupt with ID663" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS662 ,Controls Non-secure access of the interrupt with ID662" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS661 ,Controls Non-secure access of the interrupt with ID661" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS660 ,Controls Non-secure access of the interrupt with ID660" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS659 ,Controls Non-secure access of the interrupt with ID659" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS658 ,Controls Non-secure access of the interrupt with ID658" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS657 ,Controls Non-secure access of the interrupt with ID657" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS656 ,Controls Non-secure access of the interrupt with ID656" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xEA4++0x03 hide.long 0x00 "GICD_NSACR41,Non-secure Access Control Register 41" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xEA8))) group.long 0xEA8++0x03 line.long 0x00 "GICD_NSACR42,Non-secure Access Control Register 42" bitfld.long 0x00 30.--31. " NS_ACCESS687 ,Controls Non-secure access of the interrupt with ID687" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS686 ,Controls Non-secure access of the interrupt with ID686" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS685 ,Controls Non-secure access of the interrupt with ID685" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS684 ,Controls Non-secure access of the interrupt with ID684" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS683 ,Controls Non-secure access of the interrupt with ID683" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS682 ,Controls Non-secure access of the interrupt with ID682" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS681 ,Controls Non-secure access of the interrupt with ID681" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS680 ,Controls Non-secure access of the interrupt with ID680" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS679 ,Controls Non-secure access of the interrupt with ID679" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS678 ,Controls Non-secure access of the interrupt with ID678" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS677 ,Controls Non-secure access of the interrupt with ID677" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS676 ,Controls Non-secure access of the interrupt with ID676" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS675 ,Controls Non-secure access of the interrupt with ID675" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS674 ,Controls Non-secure access of the interrupt with ID674" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS673 ,Controls Non-secure access of the interrupt with ID673" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS672 ,Controls Non-secure access of the interrupt with ID672" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xEA8++0x03 hide.long 0x00 "GICD_NSACR42,Non-secure Access Control Register 42" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xEAC))) group.long 0xEAC++0x03 line.long 0x00 "GICD_NSACR43,Non-secure Access Control Register 43" bitfld.long 0x00 30.--31. " NS_ACCESS703 ,Controls Non-secure access of the interrupt with ID703" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS702 ,Controls Non-secure access of the interrupt with ID702" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS701 ,Controls Non-secure access of the interrupt with ID701" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS700 ,Controls Non-secure access of the interrupt with ID700" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS699 ,Controls Non-secure access of the interrupt with ID699" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS698 ,Controls Non-secure access of the interrupt with ID698" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS697 ,Controls Non-secure access of the interrupt with ID697" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS696 ,Controls Non-secure access of the interrupt with ID696" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS695 ,Controls Non-secure access of the interrupt with ID695" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS694 ,Controls Non-secure access of the interrupt with ID694" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS693 ,Controls Non-secure access of the interrupt with ID693" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS692 ,Controls Non-secure access of the interrupt with ID692" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS691 ,Controls Non-secure access of the interrupt with ID691" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS690 ,Controls Non-secure access of the interrupt with ID690" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS689 ,Controls Non-secure access of the interrupt with ID689" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS688 ,Controls Non-secure access of the interrupt with ID688" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xEAC++0x03 hide.long 0x00 "GICD_NSACR43,Non-secure Access Control Register 43" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xEB0))) group.long 0xEB0++0x03 line.long 0x00 "GICD_NSACR44,Non-secure Access Control Register 44" bitfld.long 0x00 30.--31. " NS_ACCESS719 ,Controls Non-secure access of the interrupt with ID719" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS718 ,Controls Non-secure access of the interrupt with ID718" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS717 ,Controls Non-secure access of the interrupt with ID717" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS716 ,Controls Non-secure access of the interrupt with ID716" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS715 ,Controls Non-secure access of the interrupt with ID715" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS714 ,Controls Non-secure access of the interrupt with ID714" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS713 ,Controls Non-secure access of the interrupt with ID713" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS712 ,Controls Non-secure access of the interrupt with ID712" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS711 ,Controls Non-secure access of the interrupt with ID711" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS710 ,Controls Non-secure access of the interrupt with ID710" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS709 ,Controls Non-secure access of the interrupt with ID709" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS708 ,Controls Non-secure access of the interrupt with ID708" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS707 ,Controls Non-secure access of the interrupt with ID707" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS706 ,Controls Non-secure access of the interrupt with ID706" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS705 ,Controls Non-secure access of the interrupt with ID705" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS704 ,Controls Non-secure access of the interrupt with ID704" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xEB0++0x03 hide.long 0x00 "GICD_NSACR44,Non-secure Access Control Register 44" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xEB4))) group.long 0xEB4++0x03 line.long 0x00 "GICD_NSACR45,Non-secure Access Control Register 45" bitfld.long 0x00 30.--31. " NS_ACCESS735 ,Controls Non-secure access of the interrupt with ID735" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS734 ,Controls Non-secure access of the interrupt with ID734" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS733 ,Controls Non-secure access of the interrupt with ID733" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS732 ,Controls Non-secure access of the interrupt with ID732" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS731 ,Controls Non-secure access of the interrupt with ID731" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS730 ,Controls Non-secure access of the interrupt with ID730" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS729 ,Controls Non-secure access of the interrupt with ID729" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS728 ,Controls Non-secure access of the interrupt with ID728" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS727 ,Controls Non-secure access of the interrupt with ID727" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS726 ,Controls Non-secure access of the interrupt with ID726" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS725 ,Controls Non-secure access of the interrupt with ID725" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS724 ,Controls Non-secure access of the interrupt with ID724" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS723 ,Controls Non-secure access of the interrupt with ID723" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS722 ,Controls Non-secure access of the interrupt with ID722" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS721 ,Controls Non-secure access of the interrupt with ID721" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS720 ,Controls Non-secure access of the interrupt with ID720" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xEB4++0x03 hide.long 0x00 "GICD_NSACR45,Non-secure Access Control Register 45" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xEB8))) group.long 0xEB8++0x03 line.long 0x00 "GICD_NSACR46,Non-secure Access Control Register 46" bitfld.long 0x00 30.--31. " NS_ACCESS751 ,Controls Non-secure access of the interrupt with ID751" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS750 ,Controls Non-secure access of the interrupt with ID750" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS749 ,Controls Non-secure access of the interrupt with ID749" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS748 ,Controls Non-secure access of the interrupt with ID748" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS747 ,Controls Non-secure access of the interrupt with ID747" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS746 ,Controls Non-secure access of the interrupt with ID746" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS745 ,Controls Non-secure access of the interrupt with ID745" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS744 ,Controls Non-secure access of the interrupt with ID744" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS743 ,Controls Non-secure access of the interrupt with ID743" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS742 ,Controls Non-secure access of the interrupt with ID742" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS741 ,Controls Non-secure access of the interrupt with ID741" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS740 ,Controls Non-secure access of the interrupt with ID740" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS739 ,Controls Non-secure access of the interrupt with ID739" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS738 ,Controls Non-secure access of the interrupt with ID738" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS737 ,Controls Non-secure access of the interrupt with ID737" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS736 ,Controls Non-secure access of the interrupt with ID736" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xEB8++0x03 hide.long 0x00 "GICD_NSACR46,Non-secure Access Control Register 46" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xEBC))) group.long 0xEBC++0x03 line.long 0x00 "GICD_NSACR47,Non-secure Access Control Register 47" bitfld.long 0x00 30.--31. " NS_ACCESS767 ,Controls Non-secure access of the interrupt with ID767" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS766 ,Controls Non-secure access of the interrupt with ID766" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS765 ,Controls Non-secure access of the interrupt with ID765" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS764 ,Controls Non-secure access of the interrupt with ID764" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS763 ,Controls Non-secure access of the interrupt with ID763" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS762 ,Controls Non-secure access of the interrupt with ID762" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS761 ,Controls Non-secure access of the interrupt with ID761" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS760 ,Controls Non-secure access of the interrupt with ID760" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS759 ,Controls Non-secure access of the interrupt with ID759" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS758 ,Controls Non-secure access of the interrupt with ID758" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS757 ,Controls Non-secure access of the interrupt with ID757" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS756 ,Controls Non-secure access of the interrupt with ID756" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS755 ,Controls Non-secure access of the interrupt with ID755" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS754 ,Controls Non-secure access of the interrupt with ID754" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS753 ,Controls Non-secure access of the interrupt with ID753" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS752 ,Controls Non-secure access of the interrupt with ID752" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xEBC++0x03 hide.long 0x00 "GICD_NSACR47,Non-secure Access Control Register 47" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xEC0))) group.long 0xEC0++0x03 line.long 0x00 "GICD_NSACR48,Non-secure Access Control Register 48" bitfld.long 0x00 30.--31. " NS_ACCESS783 ,Controls Non-secure access of the interrupt with ID783" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS782 ,Controls Non-secure access of the interrupt with ID782" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS781 ,Controls Non-secure access of the interrupt with ID781" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS780 ,Controls Non-secure access of the interrupt with ID780" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS779 ,Controls Non-secure access of the interrupt with ID779" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS778 ,Controls Non-secure access of the interrupt with ID778" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS777 ,Controls Non-secure access of the interrupt with ID777" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS776 ,Controls Non-secure access of the interrupt with ID776" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS775 ,Controls Non-secure access of the interrupt with ID775" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS774 ,Controls Non-secure access of the interrupt with ID774" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS773 ,Controls Non-secure access of the interrupt with ID773" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS772 ,Controls Non-secure access of the interrupt with ID772" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS771 ,Controls Non-secure access of the interrupt with ID771" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS770 ,Controls Non-secure access of the interrupt with ID770" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS769 ,Controls Non-secure access of the interrupt with ID769" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS768 ,Controls Non-secure access of the interrupt with ID768" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xEC0++0x03 hide.long 0x00 "GICD_NSACR48,Non-secure Access Control Register 48" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xEC4))) group.long 0xEC4++0x03 line.long 0x00 "GICD_NSACR49,Non-secure Access Control Register 49" bitfld.long 0x00 30.--31. " NS_ACCESS799 ,Controls Non-secure access of the interrupt with ID799" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS798 ,Controls Non-secure access of the interrupt with ID798" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS797 ,Controls Non-secure access of the interrupt with ID797" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS796 ,Controls Non-secure access of the interrupt with ID796" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS795 ,Controls Non-secure access of the interrupt with ID795" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS794 ,Controls Non-secure access of the interrupt with ID794" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS793 ,Controls Non-secure access of the interrupt with ID793" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS792 ,Controls Non-secure access of the interrupt with ID792" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS791 ,Controls Non-secure access of the interrupt with ID791" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS790 ,Controls Non-secure access of the interrupt with ID790" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS789 ,Controls Non-secure access of the interrupt with ID789" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS788 ,Controls Non-secure access of the interrupt with ID788" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS787 ,Controls Non-secure access of the interrupt with ID787" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS786 ,Controls Non-secure access of the interrupt with ID786" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS785 ,Controls Non-secure access of the interrupt with ID785" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS784 ,Controls Non-secure access of the interrupt with ID784" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xEC4++0x03 hide.long 0x00 "GICD_NSACR49,Non-secure Access Control Register 49" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xEC8))) group.long 0xEC8++0x03 line.long 0x00 "GICD_NSACR50,Non-secure Access Control Register 50" bitfld.long 0x00 30.--31. " NS_ACCESS815 ,Controls Non-secure access of the interrupt with ID815" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS814 ,Controls Non-secure access of the interrupt with ID814" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS813 ,Controls Non-secure access of the interrupt with ID813" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS812 ,Controls Non-secure access of the interrupt with ID812" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS811 ,Controls Non-secure access of the interrupt with ID811" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS810 ,Controls Non-secure access of the interrupt with ID810" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS809 ,Controls Non-secure access of the interrupt with ID809" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS808 ,Controls Non-secure access of the interrupt with ID808" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS807 ,Controls Non-secure access of the interrupt with ID807" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS806 ,Controls Non-secure access of the interrupt with ID806" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS805 ,Controls Non-secure access of the interrupt with ID805" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS804 ,Controls Non-secure access of the interrupt with ID804" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS803 ,Controls Non-secure access of the interrupt with ID803" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS802 ,Controls Non-secure access of the interrupt with ID802" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS801 ,Controls Non-secure access of the interrupt with ID801" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS800 ,Controls Non-secure access of the interrupt with ID800" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xEC8++0x03 hide.long 0x00 "GICD_NSACR50,Non-secure Access Control Register 50" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xECC))) group.long 0xECC++0x03 line.long 0x00 "GICD_NSACR51,Non-secure Access Control Register 51" bitfld.long 0x00 30.--31. " NS_ACCESS831 ,Controls Non-secure access of the interrupt with ID831" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS830 ,Controls Non-secure access of the interrupt with ID830" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS829 ,Controls Non-secure access of the interrupt with ID829" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS828 ,Controls Non-secure access of the interrupt with ID828" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS827 ,Controls Non-secure access of the interrupt with ID827" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS826 ,Controls Non-secure access of the interrupt with ID826" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS825 ,Controls Non-secure access of the interrupt with ID825" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS824 ,Controls Non-secure access of the interrupt with ID824" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS823 ,Controls Non-secure access of the interrupt with ID823" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS822 ,Controls Non-secure access of the interrupt with ID822" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS821 ,Controls Non-secure access of the interrupt with ID821" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS820 ,Controls Non-secure access of the interrupt with ID820" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS819 ,Controls Non-secure access of the interrupt with ID819" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS818 ,Controls Non-secure access of the interrupt with ID818" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS817 ,Controls Non-secure access of the interrupt with ID817" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS816 ,Controls Non-secure access of the interrupt with ID816" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xECC++0x03 hide.long 0x00 "GICD_NSACR51,Non-secure Access Control Register 51" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xED0))) group.long 0xED0++0x03 line.long 0x00 "GICD_NSACR52,Non-secure Access Control Register 52" bitfld.long 0x00 30.--31. " NS_ACCESS847 ,Controls Non-secure access of the interrupt with ID847" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS846 ,Controls Non-secure access of the interrupt with ID846" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS845 ,Controls Non-secure access of the interrupt with ID845" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS844 ,Controls Non-secure access of the interrupt with ID844" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS843 ,Controls Non-secure access of the interrupt with ID843" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS842 ,Controls Non-secure access of the interrupt with ID842" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS841 ,Controls Non-secure access of the interrupt with ID841" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS840 ,Controls Non-secure access of the interrupt with ID840" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS839 ,Controls Non-secure access of the interrupt with ID839" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS838 ,Controls Non-secure access of the interrupt with ID838" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS837 ,Controls Non-secure access of the interrupt with ID837" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS836 ,Controls Non-secure access of the interrupt with ID836" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS835 ,Controls Non-secure access of the interrupt with ID835" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS834 ,Controls Non-secure access of the interrupt with ID834" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS833 ,Controls Non-secure access of the interrupt with ID833" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS832 ,Controls Non-secure access of the interrupt with ID832" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xED0++0x03 hide.long 0x00 "GICD_NSACR52,Non-secure Access Control Register 52" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xED4))) group.long 0xED4++0x03 line.long 0x00 "GICD_NSACR53,Non-secure Access Control Register 53" bitfld.long 0x00 30.--31. " NS_ACCESS863 ,Controls Non-secure access of the interrupt with ID863" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS862 ,Controls Non-secure access of the interrupt with ID862" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS861 ,Controls Non-secure access of the interrupt with ID861" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS860 ,Controls Non-secure access of the interrupt with ID860" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS859 ,Controls Non-secure access of the interrupt with ID859" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS858 ,Controls Non-secure access of the interrupt with ID858" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS857 ,Controls Non-secure access of the interrupt with ID857" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS856 ,Controls Non-secure access of the interrupt with ID856" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS855 ,Controls Non-secure access of the interrupt with ID855" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS854 ,Controls Non-secure access of the interrupt with ID854" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS853 ,Controls Non-secure access of the interrupt with ID853" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS852 ,Controls Non-secure access of the interrupt with ID852" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS851 ,Controls Non-secure access of the interrupt with ID851" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS850 ,Controls Non-secure access of the interrupt with ID850" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS849 ,Controls Non-secure access of the interrupt with ID849" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS848 ,Controls Non-secure access of the interrupt with ID848" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xED4++0x03 hide.long 0x00 "GICD_NSACR53,Non-secure Access Control Register 53" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xED8))) group.long 0xED8++0x03 line.long 0x00 "GICD_NSACR54,Non-secure Access Control Register 54" bitfld.long 0x00 30.--31. " NS_ACCESS879 ,Controls Non-secure access of the interrupt with ID879" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS878 ,Controls Non-secure access of the interrupt with ID878" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS877 ,Controls Non-secure access of the interrupt with ID877" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS876 ,Controls Non-secure access of the interrupt with ID876" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS875 ,Controls Non-secure access of the interrupt with ID875" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS874 ,Controls Non-secure access of the interrupt with ID874" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS873 ,Controls Non-secure access of the interrupt with ID873" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS872 ,Controls Non-secure access of the interrupt with ID872" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS871 ,Controls Non-secure access of the interrupt with ID871" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS870 ,Controls Non-secure access of the interrupt with ID870" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS869 ,Controls Non-secure access of the interrupt with ID869" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS868 ,Controls Non-secure access of the interrupt with ID868" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS867 ,Controls Non-secure access of the interrupt with ID867" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS866 ,Controls Non-secure access of the interrupt with ID866" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS865 ,Controls Non-secure access of the interrupt with ID865" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS864 ,Controls Non-secure access of the interrupt with ID864" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xED8++0x03 hide.long 0x00 "GICD_NSACR54,Non-secure Access Control Register 54" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xEDC))) group.long 0xEDC++0x03 line.long 0x00 "GICD_NSACR55,Non-secure Access Control Register 55" bitfld.long 0x00 30.--31. " NS_ACCESS895 ,Controls Non-secure access of the interrupt with ID895" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS894 ,Controls Non-secure access of the interrupt with ID894" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS893 ,Controls Non-secure access of the interrupt with ID893" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS892 ,Controls Non-secure access of the interrupt with ID892" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS891 ,Controls Non-secure access of the interrupt with ID891" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS890 ,Controls Non-secure access of the interrupt with ID890" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS889 ,Controls Non-secure access of the interrupt with ID889" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS888 ,Controls Non-secure access of the interrupt with ID888" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS887 ,Controls Non-secure access of the interrupt with ID887" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS886 ,Controls Non-secure access of the interrupt with ID886" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS885 ,Controls Non-secure access of the interrupt with ID885" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS884 ,Controls Non-secure access of the interrupt with ID884" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS883 ,Controls Non-secure access of the interrupt with ID883" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS882 ,Controls Non-secure access of the interrupt with ID882" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS881 ,Controls Non-secure access of the interrupt with ID881" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS880 ,Controls Non-secure access of the interrupt with ID880" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xEDC++0x03 hide.long 0x00 "GICD_NSACR55,Non-secure Access Control Register 55" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xEE0))) group.long 0xEE0++0x03 line.long 0x00 "GICD_NSACR56,Non-secure Access Control Register 56" bitfld.long 0x00 30.--31. " NS_ACCESS911 ,Controls Non-secure access of the interrupt with ID911" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS910 ,Controls Non-secure access of the interrupt with ID910" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS909 ,Controls Non-secure access of the interrupt with ID909" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS908 ,Controls Non-secure access of the interrupt with ID908" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS907 ,Controls Non-secure access of the interrupt with ID907" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS906 ,Controls Non-secure access of the interrupt with ID906" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS905 ,Controls Non-secure access of the interrupt with ID905" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS904 ,Controls Non-secure access of the interrupt with ID904" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS903 ,Controls Non-secure access of the interrupt with ID903" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS902 ,Controls Non-secure access of the interrupt with ID902" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS901 ,Controls Non-secure access of the interrupt with ID901" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS900 ,Controls Non-secure access of the interrupt with ID900" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS899 ,Controls Non-secure access of the interrupt with ID899" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS898 ,Controls Non-secure access of the interrupt with ID898" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS897 ,Controls Non-secure access of the interrupt with ID897" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS896 ,Controls Non-secure access of the interrupt with ID896" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xEE0++0x03 hide.long 0x00 "GICD_NSACR56,Non-secure Access Control Register 56" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xEE4))) group.long 0xEE4++0x03 line.long 0x00 "GICD_NSACR57,Non-secure Access Control Register 57" bitfld.long 0x00 30.--31. " NS_ACCESS927 ,Controls Non-secure access of the interrupt with ID927" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS926 ,Controls Non-secure access of the interrupt with ID926" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS925 ,Controls Non-secure access of the interrupt with ID925" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS924 ,Controls Non-secure access of the interrupt with ID924" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS923 ,Controls Non-secure access of the interrupt with ID923" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS922 ,Controls Non-secure access of the interrupt with ID922" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS921 ,Controls Non-secure access of the interrupt with ID921" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS920 ,Controls Non-secure access of the interrupt with ID920" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS919 ,Controls Non-secure access of the interrupt with ID919" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS918 ,Controls Non-secure access of the interrupt with ID918" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS917 ,Controls Non-secure access of the interrupt with ID917" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS916 ,Controls Non-secure access of the interrupt with ID916" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS915 ,Controls Non-secure access of the interrupt with ID915" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS914 ,Controls Non-secure access of the interrupt with ID914" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS913 ,Controls Non-secure access of the interrupt with ID913" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS912 ,Controls Non-secure access of the interrupt with ID912" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xEE4++0x03 hide.long 0x00 "GICD_NSACR57,Non-secure Access Control Register 57" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xEE8))) group.long 0xEE8++0x03 line.long 0x00 "GICD_NSACR58,Non-secure Access Control Register 58" bitfld.long 0x00 30.--31. " NS_ACCESS943 ,Controls Non-secure access of the interrupt with ID943" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS942 ,Controls Non-secure access of the interrupt with ID942" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS941 ,Controls Non-secure access of the interrupt with ID941" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS940 ,Controls Non-secure access of the interrupt with ID940" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS939 ,Controls Non-secure access of the interrupt with ID939" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS938 ,Controls Non-secure access of the interrupt with ID938" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS937 ,Controls Non-secure access of the interrupt with ID937" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS936 ,Controls Non-secure access of the interrupt with ID936" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS935 ,Controls Non-secure access of the interrupt with ID935" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS934 ,Controls Non-secure access of the interrupt with ID934" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS933 ,Controls Non-secure access of the interrupt with ID933" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS932 ,Controls Non-secure access of the interrupt with ID932" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS931 ,Controls Non-secure access of the interrupt with ID931" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS930 ,Controls Non-secure access of the interrupt with ID930" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS929 ,Controls Non-secure access of the interrupt with ID929" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS928 ,Controls Non-secure access of the interrupt with ID928" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xEE8++0x03 hide.long 0x00 "GICD_NSACR58,Non-secure Access Control Register 58" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xEEC))) group.long 0xEEC++0x03 line.long 0x00 "GICD_NSACR59,Non-secure Access Control Register 59" bitfld.long 0x00 30.--31. " NS_ACCESS959 ,Controls Non-secure access of the interrupt with ID959" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS958 ,Controls Non-secure access of the interrupt with ID958" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS957 ,Controls Non-secure access of the interrupt with ID957" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS956 ,Controls Non-secure access of the interrupt with ID956" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS955 ,Controls Non-secure access of the interrupt with ID955" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS954 ,Controls Non-secure access of the interrupt with ID954" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS953 ,Controls Non-secure access of the interrupt with ID953" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS952 ,Controls Non-secure access of the interrupt with ID952" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS951 ,Controls Non-secure access of the interrupt with ID951" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS950 ,Controls Non-secure access of the interrupt with ID950" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS949 ,Controls Non-secure access of the interrupt with ID949" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS948 ,Controls Non-secure access of the interrupt with ID948" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS947 ,Controls Non-secure access of the interrupt with ID947" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS946 ,Controls Non-secure access of the interrupt with ID946" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS945 ,Controls Non-secure access of the interrupt with ID945" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS944 ,Controls Non-secure access of the interrupt with ID944" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xEEC++0x03 hide.long 0x00 "GICD_NSACR59,Non-secure Access Control Register 59" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xEF0))) group.long 0xEF0++0x03 line.long 0x00 "GICD_NSACR60,Non-secure Access Control Register 60" bitfld.long 0x00 30.--31. " NS_ACCESS975 ,Controls Non-secure access of the interrupt with ID975" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS974 ,Controls Non-secure access of the interrupt with ID974" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS973 ,Controls Non-secure access of the interrupt with ID973" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS972 ,Controls Non-secure access of the interrupt with ID972" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS971 ,Controls Non-secure access of the interrupt with ID971" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS970 ,Controls Non-secure access of the interrupt with ID970" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS969 ,Controls Non-secure access of the interrupt with ID969" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS968 ,Controls Non-secure access of the interrupt with ID968" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS967 ,Controls Non-secure access of the interrupt with ID967" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS966 ,Controls Non-secure access of the interrupt with ID966" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS965 ,Controls Non-secure access of the interrupt with ID965" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS964 ,Controls Non-secure access of the interrupt with ID964" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS963 ,Controls Non-secure access of the interrupt with ID963" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS962 ,Controls Non-secure access of the interrupt with ID962" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS961 ,Controls Non-secure access of the interrupt with ID961" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS960 ,Controls Non-secure access of the interrupt with ID960" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xEF0++0x03 hide.long 0x00 "GICD_NSACR60,Non-secure Access Control Register 60" endif if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICD",-1.)+0xEF4))) group.long 0xEF4++0x03 line.long 0x00 "GICD_NSACR61,Non-secure Access Control Register 61" bitfld.long 0x00 30.--31. " NS_ACCESS991 ,Controls Non-secure access of the interrupt with ID991" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 28.--29. " NS_ACCESS990 ,Controls Non-secure access of the interrupt with ID990" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 26.--27. " NS_ACCESS989 ,Controls Non-secure access of the interrupt with ID989" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 24.--25. " NS_ACCESS988 ,Controls Non-secure access of the interrupt with ID988" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 22.--23. " NS_ACCESS987 ,Controls Non-secure access of the interrupt with ID987" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 20.--21. " NS_ACCESS986 ,Controls Non-secure access of the interrupt with ID986" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 18.--19. " NS_ACCESS985 ,Controls Non-secure access of the interrupt with ID985" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 16.--17. " NS_ACCESS984 ,Controls Non-secure access of the interrupt with ID984" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 14.--15. " NS_ACCESS983 ,Controls Non-secure access of the interrupt with ID983" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 12.--13. " NS_ACCESS982 ,Controls Non-secure access of the interrupt with ID982" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 10.--11. " NS_ACCESS981 ,Controls Non-secure access of the interrupt with ID981" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 8.--9. " NS_ACCESS980 ,Controls Non-secure access of the interrupt with ID980" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 6.--7. " NS_ACCESS979 ,Controls Non-secure access of the interrupt with ID979" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 4.--5. " NS_ACCESS978 ,Controls Non-secure access of the interrupt with ID978" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 2.--3. " NS_ACCESS977 ,Controls Non-secure access of the interrupt with ID977" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" textline " " bitfld.long 0x00 0.--1. " NS_ACCESS976 ,Controls Non-secure access of the interrupt with ID976" "No access,SET_CLR_PENDR/SETSPI_NSR/SGIR,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER,SET_CLR_PENDR/SETSPI_NSR/SGIR/CLRSPI_NSR/SET_CLR_ACTIVER/ITARGETSR/IROUTER" else hgroup.long 0xEF4++0x03 hide.long 0x00 "GICD_NSACR61,Non-secure Access Control Register 61" endif tree.end width 25. tree "Software Generated Interrupt" if (((per.l(COMP.BASE("GICD",-1.)))&0x10)==0x10) hgroup.long 0x0F00++0x03 hide.long 0x00 "GICD_SGIR,Software Generated Interrupt Register" hgroup.long 0xF10++0x03 hide.long 0x00 "GICD_CLR_PENDSGIR0,SGI Clear Pending Register 0" hgroup.long 0xF14++0x03 hide.long 0x00 "GICD_CLR_PENDSGIR1,SGI Clear Pending Register 1" hgroup.long 0xF18++0x03 hide.long 0x00 "GICD_CLR_PENDSGIR2,SGI Clear Pending Register 2" hgroup.long 0xF1C++0x03 hide.long 0x00 "GICD_CLR_PENDSGIR3,SGI Clear Pending Register 3" hgroup.long 0xF20++0x03 hide.long 0x00 "GICD_SET_PENDSGIR0,SGI Set Pending Register 0" hgroup.long 0xF24++0x03 hide.long 0x00 "GICD_SET_PENDSGIR1,SGI Set Pending Register 1" hgroup.long 0xF28++0x03 hide.long 0x00 "GICD_SET_PENDSGIR2,SGI Set Pending Register 2" hgroup.long 0xF2C++0x03 hide.long 0x00 "GICD_SET_PENDSGIR3,SGI Set Pending Register 3" else wgroup.long 0x0F00++0x03 line.long 0x00 "GICD_SGIR,Software Generated Interrupt Register" group.long 0xF10++0x03 line.long 0x00 "GICD_CLR_PENDSGIR0,SGI Clear Pending Register 0" group.long 0xF14++0x03 line.long 0x00 "GICD_CLR_PENDSGIR1,SGI Clear Pending Register 1" group.long 0xF18++0x03 line.long 0x00 "GICD_CLR_PENDSGIR2,SGI Clear Pending Register 2" group.long 0xF1C++0x03 line.long 0x00 "GICD_CLR_PENDSGIR3,SGI Clear Pending Register 3" group.long 0xF20++0x03 line.long 0x00 "GICD_SET_PENDSGIR0,SGI Set Pending Register 0" group.long 0xF24++0x03 line.long 0x00 "GICD_SET_PENDSGIR1,SGI Set Pending Register 1" group.long 0xF28++0x03 line.long 0x00 "GICD_SET_PENDSGIR2,SGI Set Pending Register 2" group.long 0xF2C++0x03 line.long 0x00 "GICD_SET_PENDSGIR3,SGI Set Pending Register 3" endif tree.end width 24. tree "Interrupt Routing Registers" group.quad 0x6100++0x07 line.quad 0x00 "GICD_IROUTER32 ,Interrupt Routing Register 32 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6108++0x07 line.quad 0x00 "GICD_IROUTER33 ,Interrupt Routing Register 33 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6110++0x07 line.quad 0x00 "GICD_IROUTER34 ,Interrupt Routing Register 34 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6118++0x07 line.quad 0x00 "GICD_IROUTER35 ,Interrupt Routing Register 35 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6120++0x07 line.quad 0x00 "GICD_IROUTER36 ,Interrupt Routing Register 36 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6128++0x07 line.quad 0x00 "GICD_IROUTER37 ,Interrupt Routing Register 37 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6130++0x07 line.quad 0x00 "GICD_IROUTER38 ,Interrupt Routing Register 38 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6138++0x07 line.quad 0x00 "GICD_IROUTER39 ,Interrupt Routing Register 39 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6140++0x07 line.quad 0x00 "GICD_IROUTER40 ,Interrupt Routing Register 40 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6148++0x07 line.quad 0x00 "GICD_IROUTER41 ,Interrupt Routing Register 41 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6150++0x07 line.quad 0x00 "GICD_IROUTER42 ,Interrupt Routing Register 42 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6158++0x07 line.quad 0x00 "GICD_IROUTER43 ,Interrupt Routing Register 43 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6160++0x07 line.quad 0x00 "GICD_IROUTER44 ,Interrupt Routing Register 44 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6168++0x07 line.quad 0x00 "GICD_IROUTER45 ,Interrupt Routing Register 45 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6170++0x07 line.quad 0x00 "GICD_IROUTER46 ,Interrupt Routing Register 46 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6178++0x07 line.quad 0x00 "GICD_IROUTER47 ,Interrupt Routing Register 47 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6180++0x07 line.quad 0x00 "GICD_IROUTER48 ,Interrupt Routing Register 48 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6188++0x07 line.quad 0x00 "GICD_IROUTER49 ,Interrupt Routing Register 49 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6190++0x07 line.quad 0x00 "GICD_IROUTER50 ,Interrupt Routing Register 50 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6198++0x07 line.quad 0x00 "GICD_IROUTER51 ,Interrupt Routing Register 51 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x61A0++0x07 line.quad 0x00 "GICD_IROUTER52 ,Interrupt Routing Register 52 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x61A8++0x07 line.quad 0x00 "GICD_IROUTER53 ,Interrupt Routing Register 53 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x61B0++0x07 line.quad 0x00 "GICD_IROUTER54 ,Interrupt Routing Register 54 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x61B8++0x07 line.quad 0x00 "GICD_IROUTER55 ,Interrupt Routing Register 55 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x61C0++0x07 line.quad 0x00 "GICD_IROUTER56 ,Interrupt Routing Register 56 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x61C8++0x07 line.quad 0x00 "GICD_IROUTER57 ,Interrupt Routing Register 57 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x61D0++0x07 line.quad 0x00 "GICD_IROUTER58 ,Interrupt Routing Register 58 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x61D8++0x07 line.quad 0x00 "GICD_IROUTER59 ,Interrupt Routing Register 59 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x61E0++0x07 line.quad 0x00 "GICD_IROUTER60 ,Interrupt Routing Register 60 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x61E8++0x07 line.quad 0x00 "GICD_IROUTER61 ,Interrupt Routing Register 61 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x61F0++0x07 line.quad 0x00 "GICD_IROUTER62 ,Interrupt Routing Register 62 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x61F8++0x07 line.quad 0x00 "GICD_IROUTER63 ,Interrupt Routing Register 63 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6200++0x07 line.quad 0x00 "GICD_IROUTER64 ,Interrupt Routing Register 64 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6208++0x07 line.quad 0x00 "GICD_IROUTER65 ,Interrupt Routing Register 65 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6210++0x07 line.quad 0x00 "GICD_IROUTER66 ,Interrupt Routing Register 66 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6218++0x07 line.quad 0x00 "GICD_IROUTER67 ,Interrupt Routing Register 67 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6220++0x07 line.quad 0x00 "GICD_IROUTER68 ,Interrupt Routing Register 68 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6228++0x07 line.quad 0x00 "GICD_IROUTER69 ,Interrupt Routing Register 69 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6230++0x07 line.quad 0x00 "GICD_IROUTER70 ,Interrupt Routing Register 70 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6238++0x07 line.quad 0x00 "GICD_IROUTER71 ,Interrupt Routing Register 71 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6240++0x07 line.quad 0x00 "GICD_IROUTER72 ,Interrupt Routing Register 72 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6248++0x07 line.quad 0x00 "GICD_IROUTER73 ,Interrupt Routing Register 73 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6250++0x07 line.quad 0x00 "GICD_IROUTER74 ,Interrupt Routing Register 74 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6258++0x07 line.quad 0x00 "GICD_IROUTER75 ,Interrupt Routing Register 75 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6260++0x07 line.quad 0x00 "GICD_IROUTER76 ,Interrupt Routing Register 76 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6268++0x07 line.quad 0x00 "GICD_IROUTER77 ,Interrupt Routing Register 77 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6270++0x07 line.quad 0x00 "GICD_IROUTER78 ,Interrupt Routing Register 78 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6278++0x07 line.quad 0x00 "GICD_IROUTER79 ,Interrupt Routing Register 79 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6280++0x07 line.quad 0x00 "GICD_IROUTER80 ,Interrupt Routing Register 80 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6288++0x07 line.quad 0x00 "GICD_IROUTER81 ,Interrupt Routing Register 81 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6290++0x07 line.quad 0x00 "GICD_IROUTER82 ,Interrupt Routing Register 82 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6298++0x07 line.quad 0x00 "GICD_IROUTER83 ,Interrupt Routing Register 83 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x62A0++0x07 line.quad 0x00 "GICD_IROUTER84 ,Interrupt Routing Register 84 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x62A8++0x07 line.quad 0x00 "GICD_IROUTER85 ,Interrupt Routing Register 85 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x62B0++0x07 line.quad 0x00 "GICD_IROUTER86 ,Interrupt Routing Register 86 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x62B8++0x07 line.quad 0x00 "GICD_IROUTER87 ,Interrupt Routing Register 87 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x62C0++0x07 line.quad 0x00 "GICD_IROUTER88 ,Interrupt Routing Register 88 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x62C8++0x07 line.quad 0x00 "GICD_IROUTER89 ,Interrupt Routing Register 89 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x62D0++0x07 line.quad 0x00 "GICD_IROUTER90 ,Interrupt Routing Register 90 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x62D8++0x07 line.quad 0x00 "GICD_IROUTER91 ,Interrupt Routing Register 91 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x62E0++0x07 line.quad 0x00 "GICD_IROUTER92 ,Interrupt Routing Register 92 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x62E8++0x07 line.quad 0x00 "GICD_IROUTER93 ,Interrupt Routing Register 93 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x62F0++0x07 line.quad 0x00 "GICD_IROUTER94 ,Interrupt Routing Register 94 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x62F8++0x07 line.quad 0x00 "GICD_IROUTER95 ,Interrupt Routing Register 95 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6300++0x07 line.quad 0x00 "GICD_IROUTER96 ,Interrupt Routing Register 96 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6308++0x07 line.quad 0x00 "GICD_IROUTER97 ,Interrupt Routing Register 97 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6310++0x07 line.quad 0x00 "GICD_IROUTER98 ,Interrupt Routing Register 98 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6318++0x07 line.quad 0x00 "GICD_IROUTER99 ,Interrupt Routing Register 99 " hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6320++0x07 line.quad 0x00 "GICD_IROUTER100,Interrupt Routing Register 100" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6328++0x07 line.quad 0x00 "GICD_IROUTER101,Interrupt Routing Register 101" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6330++0x07 line.quad 0x00 "GICD_IROUTER102,Interrupt Routing Register 102" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6338++0x07 line.quad 0x00 "GICD_IROUTER103,Interrupt Routing Register 103" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6340++0x07 line.quad 0x00 "GICD_IROUTER104,Interrupt Routing Register 104" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6348++0x07 line.quad 0x00 "GICD_IROUTER105,Interrupt Routing Register 105" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6350++0x07 line.quad 0x00 "GICD_IROUTER106,Interrupt Routing Register 106" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6358++0x07 line.quad 0x00 "GICD_IROUTER107,Interrupt Routing Register 107" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6360++0x07 line.quad 0x00 "GICD_IROUTER108,Interrupt Routing Register 108" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6368++0x07 line.quad 0x00 "GICD_IROUTER109,Interrupt Routing Register 109" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6370++0x07 line.quad 0x00 "GICD_IROUTER110,Interrupt Routing Register 110" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6378++0x07 line.quad 0x00 "GICD_IROUTER111,Interrupt Routing Register 111" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6380++0x07 line.quad 0x00 "GICD_IROUTER112,Interrupt Routing Register 112" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6388++0x07 line.quad 0x00 "GICD_IROUTER113,Interrupt Routing Register 113" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6390++0x07 line.quad 0x00 "GICD_IROUTER114,Interrupt Routing Register 114" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6398++0x07 line.quad 0x00 "GICD_IROUTER115,Interrupt Routing Register 115" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x63A0++0x07 line.quad 0x00 "GICD_IROUTER116,Interrupt Routing Register 116" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x63A8++0x07 line.quad 0x00 "GICD_IROUTER117,Interrupt Routing Register 117" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x63B0++0x07 line.quad 0x00 "GICD_IROUTER118,Interrupt Routing Register 118" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x63B8++0x07 line.quad 0x00 "GICD_IROUTER119,Interrupt Routing Register 119" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x63C0++0x07 line.quad 0x00 "GICD_IROUTER120,Interrupt Routing Register 120" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x63C8++0x07 line.quad 0x00 "GICD_IROUTER121,Interrupt Routing Register 121" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x63D0++0x07 line.quad 0x00 "GICD_IROUTER122,Interrupt Routing Register 122" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x63D8++0x07 line.quad 0x00 "GICD_IROUTER123,Interrupt Routing Register 123" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x63E0++0x07 line.quad 0x00 "GICD_IROUTER124,Interrupt Routing Register 124" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x63E8++0x07 line.quad 0x00 "GICD_IROUTER125,Interrupt Routing Register 125" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x63F0++0x07 line.quad 0x00 "GICD_IROUTER126,Interrupt Routing Register 126" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x63F8++0x07 line.quad 0x00 "GICD_IROUTER127,Interrupt Routing Register 127" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6400++0x07 line.quad 0x00 "GICD_IROUTER128,Interrupt Routing Register 128" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6408++0x07 line.quad 0x00 "GICD_IROUTER129,Interrupt Routing Register 129" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6410++0x07 line.quad 0x00 "GICD_IROUTER130,Interrupt Routing Register 130" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6418++0x07 line.quad 0x00 "GICD_IROUTER131,Interrupt Routing Register 131" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6420++0x07 line.quad 0x00 "GICD_IROUTER132,Interrupt Routing Register 132" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6428++0x07 line.quad 0x00 "GICD_IROUTER133,Interrupt Routing Register 133" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6430++0x07 line.quad 0x00 "GICD_IROUTER134,Interrupt Routing Register 134" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6438++0x07 line.quad 0x00 "GICD_IROUTER135,Interrupt Routing Register 135" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6440++0x07 line.quad 0x00 "GICD_IROUTER136,Interrupt Routing Register 136" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6448++0x07 line.quad 0x00 "GICD_IROUTER137,Interrupt Routing Register 137" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6450++0x07 line.quad 0x00 "GICD_IROUTER138,Interrupt Routing Register 138" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6458++0x07 line.quad 0x00 "GICD_IROUTER139,Interrupt Routing Register 139" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6460++0x07 line.quad 0x00 "GICD_IROUTER140,Interrupt Routing Register 140" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6468++0x07 line.quad 0x00 "GICD_IROUTER141,Interrupt Routing Register 141" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6470++0x07 line.quad 0x00 "GICD_IROUTER142,Interrupt Routing Register 142" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6478++0x07 line.quad 0x00 "GICD_IROUTER143,Interrupt Routing Register 143" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6480++0x07 line.quad 0x00 "GICD_IROUTER144,Interrupt Routing Register 144" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6488++0x07 line.quad 0x00 "GICD_IROUTER145,Interrupt Routing Register 145" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6490++0x07 line.quad 0x00 "GICD_IROUTER146,Interrupt Routing Register 146" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6498++0x07 line.quad 0x00 "GICD_IROUTER147,Interrupt Routing Register 147" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x64A0++0x07 line.quad 0x00 "GICD_IROUTER148,Interrupt Routing Register 148" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x64A8++0x07 line.quad 0x00 "GICD_IROUTER149,Interrupt Routing Register 149" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x64B0++0x07 line.quad 0x00 "GICD_IROUTER150,Interrupt Routing Register 150" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x64B8++0x07 line.quad 0x00 "GICD_IROUTER151,Interrupt Routing Register 151" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x64C0++0x07 line.quad 0x00 "GICD_IROUTER152,Interrupt Routing Register 152" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x64C8++0x07 line.quad 0x00 "GICD_IROUTER153,Interrupt Routing Register 153" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x64D0++0x07 line.quad 0x00 "GICD_IROUTER154,Interrupt Routing Register 154" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x64D8++0x07 line.quad 0x00 "GICD_IROUTER155,Interrupt Routing Register 155" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x64E0++0x07 line.quad 0x00 "GICD_IROUTER156,Interrupt Routing Register 156" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x64E8++0x07 line.quad 0x00 "GICD_IROUTER157,Interrupt Routing Register 157" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x64F0++0x07 line.quad 0x00 "GICD_IROUTER158,Interrupt Routing Register 158" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x64F8++0x07 line.quad 0x00 "GICD_IROUTER159,Interrupt Routing Register 159" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6500++0x07 line.quad 0x00 "GICD_IROUTER160,Interrupt Routing Register 160" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6508++0x07 line.quad 0x00 "GICD_IROUTER161,Interrupt Routing Register 161" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6510++0x07 line.quad 0x00 "GICD_IROUTER162,Interrupt Routing Register 162" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6518++0x07 line.quad 0x00 "GICD_IROUTER163,Interrupt Routing Register 163" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6520++0x07 line.quad 0x00 "GICD_IROUTER164,Interrupt Routing Register 164" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6528++0x07 line.quad 0x00 "GICD_IROUTER165,Interrupt Routing Register 165" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6530++0x07 line.quad 0x00 "GICD_IROUTER166,Interrupt Routing Register 166" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6538++0x07 line.quad 0x00 "GICD_IROUTER167,Interrupt Routing Register 167" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6540++0x07 line.quad 0x00 "GICD_IROUTER168,Interrupt Routing Register 168" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6548++0x07 line.quad 0x00 "GICD_IROUTER169,Interrupt Routing Register 169" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6550++0x07 line.quad 0x00 "GICD_IROUTER170,Interrupt Routing Register 170" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6558++0x07 line.quad 0x00 "GICD_IROUTER171,Interrupt Routing Register 171" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6560++0x07 line.quad 0x00 "GICD_IROUTER172,Interrupt Routing Register 172" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6568++0x07 line.quad 0x00 "GICD_IROUTER173,Interrupt Routing Register 173" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6570++0x07 line.quad 0x00 "GICD_IROUTER174,Interrupt Routing Register 174" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6578++0x07 line.quad 0x00 "GICD_IROUTER175,Interrupt Routing Register 175" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6580++0x07 line.quad 0x00 "GICD_IROUTER176,Interrupt Routing Register 176" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6588++0x07 line.quad 0x00 "GICD_IROUTER177,Interrupt Routing Register 177" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6590++0x07 line.quad 0x00 "GICD_IROUTER178,Interrupt Routing Register 178" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6598++0x07 line.quad 0x00 "GICD_IROUTER179,Interrupt Routing Register 179" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x65A0++0x07 line.quad 0x00 "GICD_IROUTER180,Interrupt Routing Register 180" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x65A8++0x07 line.quad 0x00 "GICD_IROUTER181,Interrupt Routing Register 181" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x65B0++0x07 line.quad 0x00 "GICD_IROUTER182,Interrupt Routing Register 182" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x65B8++0x07 line.quad 0x00 "GICD_IROUTER183,Interrupt Routing Register 183" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x65C0++0x07 line.quad 0x00 "GICD_IROUTER184,Interrupt Routing Register 184" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x65C8++0x07 line.quad 0x00 "GICD_IROUTER185,Interrupt Routing Register 185" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x65D0++0x07 line.quad 0x00 "GICD_IROUTER186,Interrupt Routing Register 186" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x65D8++0x07 line.quad 0x00 "GICD_IROUTER187,Interrupt Routing Register 187" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x65E0++0x07 line.quad 0x00 "GICD_IROUTER188,Interrupt Routing Register 188" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x65E8++0x07 line.quad 0x00 "GICD_IROUTER189,Interrupt Routing Register 189" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x65F0++0x07 line.quad 0x00 "GICD_IROUTER190,Interrupt Routing Register 190" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x65F8++0x07 line.quad 0x00 "GICD_IROUTER191,Interrupt Routing Register 191" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6600++0x07 line.quad 0x00 "GICD_IROUTER192,Interrupt Routing Register 192" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6608++0x07 line.quad 0x00 "GICD_IROUTER193,Interrupt Routing Register 193" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6610++0x07 line.quad 0x00 "GICD_IROUTER194,Interrupt Routing Register 194" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6618++0x07 line.quad 0x00 "GICD_IROUTER195,Interrupt Routing Register 195" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6620++0x07 line.quad 0x00 "GICD_IROUTER196,Interrupt Routing Register 196" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6628++0x07 line.quad 0x00 "GICD_IROUTER197,Interrupt Routing Register 197" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6630++0x07 line.quad 0x00 "GICD_IROUTER198,Interrupt Routing Register 198" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6638++0x07 line.quad 0x00 "GICD_IROUTER199,Interrupt Routing Register 199" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6640++0x07 line.quad 0x00 "GICD_IROUTER200,Interrupt Routing Register 200" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6648++0x07 line.quad 0x00 "GICD_IROUTER201,Interrupt Routing Register 201" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6650++0x07 line.quad 0x00 "GICD_IROUTER202,Interrupt Routing Register 202" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6658++0x07 line.quad 0x00 "GICD_IROUTER203,Interrupt Routing Register 203" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6660++0x07 line.quad 0x00 "GICD_IROUTER204,Interrupt Routing Register 204" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6668++0x07 line.quad 0x00 "GICD_IROUTER205,Interrupt Routing Register 205" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6670++0x07 line.quad 0x00 "GICD_IROUTER206,Interrupt Routing Register 206" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6678++0x07 line.quad 0x00 "GICD_IROUTER207,Interrupt Routing Register 207" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6680++0x07 line.quad 0x00 "GICD_IROUTER208,Interrupt Routing Register 208" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6688++0x07 line.quad 0x00 "GICD_IROUTER209,Interrupt Routing Register 209" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6690++0x07 line.quad 0x00 "GICD_IROUTER210,Interrupt Routing Register 210" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6698++0x07 line.quad 0x00 "GICD_IROUTER211,Interrupt Routing Register 211" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x66A0++0x07 line.quad 0x00 "GICD_IROUTER212,Interrupt Routing Register 212" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x66A8++0x07 line.quad 0x00 "GICD_IROUTER213,Interrupt Routing Register 213" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x66B0++0x07 line.quad 0x00 "GICD_IROUTER214,Interrupt Routing Register 214" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x66B8++0x07 line.quad 0x00 "GICD_IROUTER215,Interrupt Routing Register 215" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x66C0++0x07 line.quad 0x00 "GICD_IROUTER216,Interrupt Routing Register 216" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x66C8++0x07 line.quad 0x00 "GICD_IROUTER217,Interrupt Routing Register 217" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x66D0++0x07 line.quad 0x00 "GICD_IROUTER218,Interrupt Routing Register 218" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x66D8++0x07 line.quad 0x00 "GICD_IROUTER219,Interrupt Routing Register 219" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x66E0++0x07 line.quad 0x00 "GICD_IROUTER220,Interrupt Routing Register 220" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x66E8++0x07 line.quad 0x00 "GICD_IROUTER221,Interrupt Routing Register 221" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x66F0++0x07 line.quad 0x00 "GICD_IROUTER222,Interrupt Routing Register 222" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x66F8++0x07 line.quad 0x00 "GICD_IROUTER223,Interrupt Routing Register 223" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6700++0x07 line.quad 0x00 "GICD_IROUTER224,Interrupt Routing Register 224" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6708++0x07 line.quad 0x00 "GICD_IROUTER225,Interrupt Routing Register 225" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6710++0x07 line.quad 0x00 "GICD_IROUTER226,Interrupt Routing Register 226" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6718++0x07 line.quad 0x00 "GICD_IROUTER227,Interrupt Routing Register 227" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6720++0x07 line.quad 0x00 "GICD_IROUTER228,Interrupt Routing Register 228" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6728++0x07 line.quad 0x00 "GICD_IROUTER229,Interrupt Routing Register 229" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6730++0x07 line.quad 0x00 "GICD_IROUTER230,Interrupt Routing Register 230" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6738++0x07 line.quad 0x00 "GICD_IROUTER231,Interrupt Routing Register 231" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6740++0x07 line.quad 0x00 "GICD_IROUTER232,Interrupt Routing Register 232" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6748++0x07 line.quad 0x00 "GICD_IROUTER233,Interrupt Routing Register 233" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6750++0x07 line.quad 0x00 "GICD_IROUTER234,Interrupt Routing Register 234" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6758++0x07 line.quad 0x00 "GICD_IROUTER235,Interrupt Routing Register 235" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6760++0x07 line.quad 0x00 "GICD_IROUTER236,Interrupt Routing Register 236" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6768++0x07 line.quad 0x00 "GICD_IROUTER237,Interrupt Routing Register 237" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6770++0x07 line.quad 0x00 "GICD_IROUTER238,Interrupt Routing Register 238" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6778++0x07 line.quad 0x00 "GICD_IROUTER239,Interrupt Routing Register 239" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6780++0x07 line.quad 0x00 "GICD_IROUTER240,Interrupt Routing Register 240" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6788++0x07 line.quad 0x00 "GICD_IROUTER241,Interrupt Routing Register 241" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6790++0x07 line.quad 0x00 "GICD_IROUTER242,Interrupt Routing Register 242" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6798++0x07 line.quad 0x00 "GICD_IROUTER243,Interrupt Routing Register 243" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x67A0++0x07 line.quad 0x00 "GICD_IROUTER244,Interrupt Routing Register 244" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x67A8++0x07 line.quad 0x00 "GICD_IROUTER245,Interrupt Routing Register 245" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x67B0++0x07 line.quad 0x00 "GICD_IROUTER246,Interrupt Routing Register 246" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x67B8++0x07 line.quad 0x00 "GICD_IROUTER247,Interrupt Routing Register 247" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x67C0++0x07 line.quad 0x00 "GICD_IROUTER248,Interrupt Routing Register 248" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x67C8++0x07 line.quad 0x00 "GICD_IROUTER249,Interrupt Routing Register 249" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x67D0++0x07 line.quad 0x00 "GICD_IROUTER250,Interrupt Routing Register 250" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x67D8++0x07 line.quad 0x00 "GICD_IROUTER251,Interrupt Routing Register 251" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x67E0++0x07 line.quad 0x00 "GICD_IROUTER252,Interrupt Routing Register 252" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x67E8++0x07 line.quad 0x00 "GICD_IROUTER253,Interrupt Routing Register 253" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x67F0++0x07 line.quad 0x00 "GICD_IROUTER254,Interrupt Routing Register 254" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x67F8++0x07 line.quad 0x00 "GICD_IROUTER255,Interrupt Routing Register 255" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6800++0x07 line.quad 0x00 "GICD_IROUTER256,Interrupt Routing Register 256" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6808++0x07 line.quad 0x00 "GICD_IROUTER257,Interrupt Routing Register 257" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6810++0x07 line.quad 0x00 "GICD_IROUTER258,Interrupt Routing Register 258" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6818++0x07 line.quad 0x00 "GICD_IROUTER259,Interrupt Routing Register 259" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6820++0x07 line.quad 0x00 "GICD_IROUTER260,Interrupt Routing Register 260" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6828++0x07 line.quad 0x00 "GICD_IROUTER261,Interrupt Routing Register 261" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6830++0x07 line.quad 0x00 "GICD_IROUTER262,Interrupt Routing Register 262" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6838++0x07 line.quad 0x00 "GICD_IROUTER263,Interrupt Routing Register 263" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6840++0x07 line.quad 0x00 "GICD_IROUTER264,Interrupt Routing Register 264" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6848++0x07 line.quad 0x00 "GICD_IROUTER265,Interrupt Routing Register 265" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6850++0x07 line.quad 0x00 "GICD_IROUTER266,Interrupt Routing Register 266" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6858++0x07 line.quad 0x00 "GICD_IROUTER267,Interrupt Routing Register 267" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6860++0x07 line.quad 0x00 "GICD_IROUTER268,Interrupt Routing Register 268" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6868++0x07 line.quad 0x00 "GICD_IROUTER269,Interrupt Routing Register 269" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6870++0x07 line.quad 0x00 "GICD_IROUTER270,Interrupt Routing Register 270" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6878++0x07 line.quad 0x00 "GICD_IROUTER271,Interrupt Routing Register 271" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6880++0x07 line.quad 0x00 "GICD_IROUTER272,Interrupt Routing Register 272" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6888++0x07 line.quad 0x00 "GICD_IROUTER273,Interrupt Routing Register 273" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6890++0x07 line.quad 0x00 "GICD_IROUTER274,Interrupt Routing Register 274" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6898++0x07 line.quad 0x00 "GICD_IROUTER275,Interrupt Routing Register 275" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x68A0++0x07 line.quad 0x00 "GICD_IROUTER276,Interrupt Routing Register 276" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x68A8++0x07 line.quad 0x00 "GICD_IROUTER277,Interrupt Routing Register 277" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x68B0++0x07 line.quad 0x00 "GICD_IROUTER278,Interrupt Routing Register 278" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x68B8++0x07 line.quad 0x00 "GICD_IROUTER279,Interrupt Routing Register 279" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x68C0++0x07 line.quad 0x00 "GICD_IROUTER280,Interrupt Routing Register 280" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x68C8++0x07 line.quad 0x00 "GICD_IROUTER281,Interrupt Routing Register 281" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x68D0++0x07 line.quad 0x00 "GICD_IROUTER282,Interrupt Routing Register 282" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x68D8++0x07 line.quad 0x00 "GICD_IROUTER283,Interrupt Routing Register 283" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x68E0++0x07 line.quad 0x00 "GICD_IROUTER284,Interrupt Routing Register 284" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x68E8++0x07 line.quad 0x00 "GICD_IROUTER285,Interrupt Routing Register 285" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x68F0++0x07 line.quad 0x00 "GICD_IROUTER286,Interrupt Routing Register 286" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x68F8++0x07 line.quad 0x00 "GICD_IROUTER287,Interrupt Routing Register 287" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6900++0x07 line.quad 0x00 "GICD_IROUTER288,Interrupt Routing Register 288" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6908++0x07 line.quad 0x00 "GICD_IROUTER289,Interrupt Routing Register 289" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6910++0x07 line.quad 0x00 "GICD_IROUTER290,Interrupt Routing Register 290" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6918++0x07 line.quad 0x00 "GICD_IROUTER291,Interrupt Routing Register 291" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6920++0x07 line.quad 0x00 "GICD_IROUTER292,Interrupt Routing Register 292" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6928++0x07 line.quad 0x00 "GICD_IROUTER293,Interrupt Routing Register 293" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6930++0x07 line.quad 0x00 "GICD_IROUTER294,Interrupt Routing Register 294" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6938++0x07 line.quad 0x00 "GICD_IROUTER295,Interrupt Routing Register 295" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6940++0x07 line.quad 0x00 "GICD_IROUTER296,Interrupt Routing Register 296" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6948++0x07 line.quad 0x00 "GICD_IROUTER297,Interrupt Routing Register 297" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6950++0x07 line.quad 0x00 "GICD_IROUTER298,Interrupt Routing Register 298" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6958++0x07 line.quad 0x00 "GICD_IROUTER299,Interrupt Routing Register 299" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6960++0x07 line.quad 0x00 "GICD_IROUTER300,Interrupt Routing Register 300" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6968++0x07 line.quad 0x00 "GICD_IROUTER301,Interrupt Routing Register 301" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6970++0x07 line.quad 0x00 "GICD_IROUTER302,Interrupt Routing Register 302" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6978++0x07 line.quad 0x00 "GICD_IROUTER303,Interrupt Routing Register 303" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6980++0x07 line.quad 0x00 "GICD_IROUTER304,Interrupt Routing Register 304" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6988++0x07 line.quad 0x00 "GICD_IROUTER305,Interrupt Routing Register 305" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6990++0x07 line.quad 0x00 "GICD_IROUTER306,Interrupt Routing Register 306" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6998++0x07 line.quad 0x00 "GICD_IROUTER307,Interrupt Routing Register 307" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x69A0++0x07 line.quad 0x00 "GICD_IROUTER308,Interrupt Routing Register 308" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x69A8++0x07 line.quad 0x00 "GICD_IROUTER309,Interrupt Routing Register 309" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x69B0++0x07 line.quad 0x00 "GICD_IROUTER310,Interrupt Routing Register 310" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x69B8++0x07 line.quad 0x00 "GICD_IROUTER311,Interrupt Routing Register 311" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x69C0++0x07 line.quad 0x00 "GICD_IROUTER312,Interrupt Routing Register 312" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x69C8++0x07 line.quad 0x00 "GICD_IROUTER313,Interrupt Routing Register 313" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x69D0++0x07 line.quad 0x00 "GICD_IROUTER314,Interrupt Routing Register 314" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x69D8++0x07 line.quad 0x00 "GICD_IROUTER315,Interrupt Routing Register 315" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x69E0++0x07 line.quad 0x00 "GICD_IROUTER316,Interrupt Routing Register 316" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x69E8++0x07 line.quad 0x00 "GICD_IROUTER317,Interrupt Routing Register 317" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x69F0++0x07 line.quad 0x00 "GICD_IROUTER318,Interrupt Routing Register 318" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x69F8++0x07 line.quad 0x00 "GICD_IROUTER319,Interrupt Routing Register 319" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A00++0x07 line.quad 0x00 "GICD_IROUTER320,Interrupt Routing Register 320" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A08++0x07 line.quad 0x00 "GICD_IROUTER321,Interrupt Routing Register 321" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A10++0x07 line.quad 0x00 "GICD_IROUTER322,Interrupt Routing Register 322" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A18++0x07 line.quad 0x00 "GICD_IROUTER323,Interrupt Routing Register 323" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A20++0x07 line.quad 0x00 "GICD_IROUTER324,Interrupt Routing Register 324" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A28++0x07 line.quad 0x00 "GICD_IROUTER325,Interrupt Routing Register 325" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A30++0x07 line.quad 0x00 "GICD_IROUTER326,Interrupt Routing Register 326" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A38++0x07 line.quad 0x00 "GICD_IROUTER327,Interrupt Routing Register 327" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A40++0x07 line.quad 0x00 "GICD_IROUTER328,Interrupt Routing Register 328" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A48++0x07 line.quad 0x00 "GICD_IROUTER329,Interrupt Routing Register 329" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A50++0x07 line.quad 0x00 "GICD_IROUTER330,Interrupt Routing Register 330" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A58++0x07 line.quad 0x00 "GICD_IROUTER331,Interrupt Routing Register 331" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A60++0x07 line.quad 0x00 "GICD_IROUTER332,Interrupt Routing Register 332" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A68++0x07 line.quad 0x00 "GICD_IROUTER333,Interrupt Routing Register 333" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A70++0x07 line.quad 0x00 "GICD_IROUTER334,Interrupt Routing Register 334" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A78++0x07 line.quad 0x00 "GICD_IROUTER335,Interrupt Routing Register 335" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A80++0x07 line.quad 0x00 "GICD_IROUTER336,Interrupt Routing Register 336" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A88++0x07 line.quad 0x00 "GICD_IROUTER337,Interrupt Routing Register 337" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A90++0x07 line.quad 0x00 "GICD_IROUTER338,Interrupt Routing Register 338" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6A98++0x07 line.quad 0x00 "GICD_IROUTER339,Interrupt Routing Register 339" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6AA0++0x07 line.quad 0x00 "GICD_IROUTER340,Interrupt Routing Register 340" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6AA8++0x07 line.quad 0x00 "GICD_IROUTER341,Interrupt Routing Register 341" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6AB0++0x07 line.quad 0x00 "GICD_IROUTER342,Interrupt Routing Register 342" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6AB8++0x07 line.quad 0x00 "GICD_IROUTER343,Interrupt Routing Register 343" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6AC0++0x07 line.quad 0x00 "GICD_IROUTER344,Interrupt Routing Register 344" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6AC8++0x07 line.quad 0x00 "GICD_IROUTER345,Interrupt Routing Register 345" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6AD0++0x07 line.quad 0x00 "GICD_IROUTER346,Interrupt Routing Register 346" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6AD8++0x07 line.quad 0x00 "GICD_IROUTER347,Interrupt Routing Register 347" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6AE0++0x07 line.quad 0x00 "GICD_IROUTER348,Interrupt Routing Register 348" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6AE8++0x07 line.quad 0x00 "GICD_IROUTER349,Interrupt Routing Register 349" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6AF0++0x07 line.quad 0x00 "GICD_IROUTER350,Interrupt Routing Register 350" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6AF8++0x07 line.quad 0x00 "GICD_IROUTER351,Interrupt Routing Register 351" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B00++0x07 line.quad 0x00 "GICD_IROUTER352,Interrupt Routing Register 352" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B08++0x07 line.quad 0x00 "GICD_IROUTER353,Interrupt Routing Register 353" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B10++0x07 line.quad 0x00 "GICD_IROUTER354,Interrupt Routing Register 354" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B18++0x07 line.quad 0x00 "GICD_IROUTER355,Interrupt Routing Register 355" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B20++0x07 line.quad 0x00 "GICD_IROUTER356,Interrupt Routing Register 356" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B28++0x07 line.quad 0x00 "GICD_IROUTER357,Interrupt Routing Register 357" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B30++0x07 line.quad 0x00 "GICD_IROUTER358,Interrupt Routing Register 358" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B38++0x07 line.quad 0x00 "GICD_IROUTER359,Interrupt Routing Register 359" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B40++0x07 line.quad 0x00 "GICD_IROUTER360,Interrupt Routing Register 360" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B48++0x07 line.quad 0x00 "GICD_IROUTER361,Interrupt Routing Register 361" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B50++0x07 line.quad 0x00 "GICD_IROUTER362,Interrupt Routing Register 362" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B58++0x07 line.quad 0x00 "GICD_IROUTER363,Interrupt Routing Register 363" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B60++0x07 line.quad 0x00 "GICD_IROUTER364,Interrupt Routing Register 364" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B68++0x07 line.quad 0x00 "GICD_IROUTER365,Interrupt Routing Register 365" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B70++0x07 line.quad 0x00 "GICD_IROUTER366,Interrupt Routing Register 366" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B78++0x07 line.quad 0x00 "GICD_IROUTER367,Interrupt Routing Register 367" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B80++0x07 line.quad 0x00 "GICD_IROUTER368,Interrupt Routing Register 368" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B88++0x07 line.quad 0x00 "GICD_IROUTER369,Interrupt Routing Register 369" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B90++0x07 line.quad 0x00 "GICD_IROUTER370,Interrupt Routing Register 370" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6B98++0x07 line.quad 0x00 "GICD_IROUTER371,Interrupt Routing Register 371" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6BA0++0x07 line.quad 0x00 "GICD_IROUTER372,Interrupt Routing Register 372" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6BA8++0x07 line.quad 0x00 "GICD_IROUTER373,Interrupt Routing Register 373" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6BB0++0x07 line.quad 0x00 "GICD_IROUTER374,Interrupt Routing Register 374" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6BB8++0x07 line.quad 0x00 "GICD_IROUTER375,Interrupt Routing Register 375" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6BC0++0x07 line.quad 0x00 "GICD_IROUTER376,Interrupt Routing Register 376" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6BC8++0x07 line.quad 0x00 "GICD_IROUTER377,Interrupt Routing Register 377" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6BD0++0x07 line.quad 0x00 "GICD_IROUTER378,Interrupt Routing Register 378" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6BD8++0x07 line.quad 0x00 "GICD_IROUTER379,Interrupt Routing Register 379" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6BE0++0x07 line.quad 0x00 "GICD_IROUTER380,Interrupt Routing Register 380" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6BE8++0x07 line.quad 0x00 "GICD_IROUTER381,Interrupt Routing Register 381" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6BF0++0x07 line.quad 0x00 "GICD_IROUTER382,Interrupt Routing Register 382" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6BF8++0x07 line.quad 0x00 "GICD_IROUTER383,Interrupt Routing Register 383" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C00++0x07 line.quad 0x00 "GICD_IROUTER384,Interrupt Routing Register 384" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C08++0x07 line.quad 0x00 "GICD_IROUTER385,Interrupt Routing Register 385" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C10++0x07 line.quad 0x00 "GICD_IROUTER386,Interrupt Routing Register 386" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C18++0x07 line.quad 0x00 "GICD_IROUTER387,Interrupt Routing Register 387" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C20++0x07 line.quad 0x00 "GICD_IROUTER388,Interrupt Routing Register 388" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C28++0x07 line.quad 0x00 "GICD_IROUTER389,Interrupt Routing Register 389" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C30++0x07 line.quad 0x00 "GICD_IROUTER390,Interrupt Routing Register 390" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C38++0x07 line.quad 0x00 "GICD_IROUTER391,Interrupt Routing Register 391" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C40++0x07 line.quad 0x00 "GICD_IROUTER392,Interrupt Routing Register 392" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C48++0x07 line.quad 0x00 "GICD_IROUTER393,Interrupt Routing Register 393" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C50++0x07 line.quad 0x00 "GICD_IROUTER394,Interrupt Routing Register 394" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C58++0x07 line.quad 0x00 "GICD_IROUTER395,Interrupt Routing Register 395" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C60++0x07 line.quad 0x00 "GICD_IROUTER396,Interrupt Routing Register 396" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C68++0x07 line.quad 0x00 "GICD_IROUTER397,Interrupt Routing Register 397" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C70++0x07 line.quad 0x00 "GICD_IROUTER398,Interrupt Routing Register 398" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C78++0x07 line.quad 0x00 "GICD_IROUTER399,Interrupt Routing Register 399" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C80++0x07 line.quad 0x00 "GICD_IROUTER400,Interrupt Routing Register 400" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C88++0x07 line.quad 0x00 "GICD_IROUTER401,Interrupt Routing Register 401" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C90++0x07 line.quad 0x00 "GICD_IROUTER402,Interrupt Routing Register 402" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6C98++0x07 line.quad 0x00 "GICD_IROUTER403,Interrupt Routing Register 403" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6CA0++0x07 line.quad 0x00 "GICD_IROUTER404,Interrupt Routing Register 404" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6CA8++0x07 line.quad 0x00 "GICD_IROUTER405,Interrupt Routing Register 405" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6CB0++0x07 line.quad 0x00 "GICD_IROUTER406,Interrupt Routing Register 406" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6CB8++0x07 line.quad 0x00 "GICD_IROUTER407,Interrupt Routing Register 407" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6CC0++0x07 line.quad 0x00 "GICD_IROUTER408,Interrupt Routing Register 408" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6CC8++0x07 line.quad 0x00 "GICD_IROUTER409,Interrupt Routing Register 409" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6CD0++0x07 line.quad 0x00 "GICD_IROUTER410,Interrupt Routing Register 410" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6CD8++0x07 line.quad 0x00 "GICD_IROUTER411,Interrupt Routing Register 411" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6CE0++0x07 line.quad 0x00 "GICD_IROUTER412,Interrupt Routing Register 412" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6CE8++0x07 line.quad 0x00 "GICD_IROUTER413,Interrupt Routing Register 413" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6CF0++0x07 line.quad 0x00 "GICD_IROUTER414,Interrupt Routing Register 414" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6CF8++0x07 line.quad 0x00 "GICD_IROUTER415,Interrupt Routing Register 415" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D00++0x07 line.quad 0x00 "GICD_IROUTER416,Interrupt Routing Register 416" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D08++0x07 line.quad 0x00 "GICD_IROUTER417,Interrupt Routing Register 417" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D10++0x07 line.quad 0x00 "GICD_IROUTER418,Interrupt Routing Register 418" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D18++0x07 line.quad 0x00 "GICD_IROUTER419,Interrupt Routing Register 419" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D20++0x07 line.quad 0x00 "GICD_IROUTER420,Interrupt Routing Register 420" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D28++0x07 line.quad 0x00 "GICD_IROUTER421,Interrupt Routing Register 421" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D30++0x07 line.quad 0x00 "GICD_IROUTER422,Interrupt Routing Register 422" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D38++0x07 line.quad 0x00 "GICD_IROUTER423,Interrupt Routing Register 423" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D40++0x07 line.quad 0x00 "GICD_IROUTER424,Interrupt Routing Register 424" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D48++0x07 line.quad 0x00 "GICD_IROUTER425,Interrupt Routing Register 425" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D50++0x07 line.quad 0x00 "GICD_IROUTER426,Interrupt Routing Register 426" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D58++0x07 line.quad 0x00 "GICD_IROUTER427,Interrupt Routing Register 427" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D60++0x07 line.quad 0x00 "GICD_IROUTER428,Interrupt Routing Register 428" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D68++0x07 line.quad 0x00 "GICD_IROUTER429,Interrupt Routing Register 429" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D70++0x07 line.quad 0x00 "GICD_IROUTER430,Interrupt Routing Register 430" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D78++0x07 line.quad 0x00 "GICD_IROUTER431,Interrupt Routing Register 431" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D80++0x07 line.quad 0x00 "GICD_IROUTER432,Interrupt Routing Register 432" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D88++0x07 line.quad 0x00 "GICD_IROUTER433,Interrupt Routing Register 433" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D90++0x07 line.quad 0x00 "GICD_IROUTER434,Interrupt Routing Register 434" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6D98++0x07 line.quad 0x00 "GICD_IROUTER435,Interrupt Routing Register 435" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6DA0++0x07 line.quad 0x00 "GICD_IROUTER436,Interrupt Routing Register 436" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6DA8++0x07 line.quad 0x00 "GICD_IROUTER437,Interrupt Routing Register 437" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6DB0++0x07 line.quad 0x00 "GICD_IROUTER438,Interrupt Routing Register 438" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6DB8++0x07 line.quad 0x00 "GICD_IROUTER439,Interrupt Routing Register 439" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6DC0++0x07 line.quad 0x00 "GICD_IROUTER440,Interrupt Routing Register 440" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6DC8++0x07 line.quad 0x00 "GICD_IROUTER441,Interrupt Routing Register 441" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6DD0++0x07 line.quad 0x00 "GICD_IROUTER442,Interrupt Routing Register 442" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6DD8++0x07 line.quad 0x00 "GICD_IROUTER443,Interrupt Routing Register 443" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6DE0++0x07 line.quad 0x00 "GICD_IROUTER444,Interrupt Routing Register 444" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6DE8++0x07 line.quad 0x00 "GICD_IROUTER445,Interrupt Routing Register 445" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6DF0++0x07 line.quad 0x00 "GICD_IROUTER446,Interrupt Routing Register 446" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6DF8++0x07 line.quad 0x00 "GICD_IROUTER447,Interrupt Routing Register 447" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E00++0x07 line.quad 0x00 "GICD_IROUTER448,Interrupt Routing Register 448" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E08++0x07 line.quad 0x00 "GICD_IROUTER449,Interrupt Routing Register 449" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E10++0x07 line.quad 0x00 "GICD_IROUTER450,Interrupt Routing Register 450" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E18++0x07 line.quad 0x00 "GICD_IROUTER451,Interrupt Routing Register 451" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E20++0x07 line.quad 0x00 "GICD_IROUTER452,Interrupt Routing Register 452" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E28++0x07 line.quad 0x00 "GICD_IROUTER453,Interrupt Routing Register 453" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E30++0x07 line.quad 0x00 "GICD_IROUTER454,Interrupt Routing Register 454" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E38++0x07 line.quad 0x00 "GICD_IROUTER455,Interrupt Routing Register 455" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E40++0x07 line.quad 0x00 "GICD_IROUTER456,Interrupt Routing Register 456" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E48++0x07 line.quad 0x00 "GICD_IROUTER457,Interrupt Routing Register 457" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E50++0x07 line.quad 0x00 "GICD_IROUTER458,Interrupt Routing Register 458" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E58++0x07 line.quad 0x00 "GICD_IROUTER459,Interrupt Routing Register 459" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E60++0x07 line.quad 0x00 "GICD_IROUTER460,Interrupt Routing Register 460" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E68++0x07 line.quad 0x00 "GICD_IROUTER461,Interrupt Routing Register 461" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E70++0x07 line.quad 0x00 "GICD_IROUTER462,Interrupt Routing Register 462" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E78++0x07 line.quad 0x00 "GICD_IROUTER463,Interrupt Routing Register 463" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E80++0x07 line.quad 0x00 "GICD_IROUTER464,Interrupt Routing Register 464" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E88++0x07 line.quad 0x00 "GICD_IROUTER465,Interrupt Routing Register 465" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E90++0x07 line.quad 0x00 "GICD_IROUTER466,Interrupt Routing Register 466" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6E98++0x07 line.quad 0x00 "GICD_IROUTER467,Interrupt Routing Register 467" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6EA0++0x07 line.quad 0x00 "GICD_IROUTER468,Interrupt Routing Register 468" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6EA8++0x07 line.quad 0x00 "GICD_IROUTER469,Interrupt Routing Register 469" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6EB0++0x07 line.quad 0x00 "GICD_IROUTER470,Interrupt Routing Register 470" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6EB8++0x07 line.quad 0x00 "GICD_IROUTER471,Interrupt Routing Register 471" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6EC0++0x07 line.quad 0x00 "GICD_IROUTER472,Interrupt Routing Register 472" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6EC8++0x07 line.quad 0x00 "GICD_IROUTER473,Interrupt Routing Register 473" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6ED0++0x07 line.quad 0x00 "GICD_IROUTER474,Interrupt Routing Register 474" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6ED8++0x07 line.quad 0x00 "GICD_IROUTER475,Interrupt Routing Register 475" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6EE0++0x07 line.quad 0x00 "GICD_IROUTER476,Interrupt Routing Register 476" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6EE8++0x07 line.quad 0x00 "GICD_IROUTER477,Interrupt Routing Register 477" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6EF0++0x07 line.quad 0x00 "GICD_IROUTER478,Interrupt Routing Register 478" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6EF8++0x07 line.quad 0x00 "GICD_IROUTER479,Interrupt Routing Register 479" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F00++0x07 line.quad 0x00 "GICD_IROUTER480,Interrupt Routing Register 480" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F08++0x07 line.quad 0x00 "GICD_IROUTER481,Interrupt Routing Register 481" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F10++0x07 line.quad 0x00 "GICD_IROUTER482,Interrupt Routing Register 482" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F18++0x07 line.quad 0x00 "GICD_IROUTER483,Interrupt Routing Register 483" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F20++0x07 line.quad 0x00 "GICD_IROUTER484,Interrupt Routing Register 484" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F28++0x07 line.quad 0x00 "GICD_IROUTER485,Interrupt Routing Register 485" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F30++0x07 line.quad 0x00 "GICD_IROUTER486,Interrupt Routing Register 486" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F38++0x07 line.quad 0x00 "GICD_IROUTER487,Interrupt Routing Register 487" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F40++0x07 line.quad 0x00 "GICD_IROUTER488,Interrupt Routing Register 488" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F48++0x07 line.quad 0x00 "GICD_IROUTER489,Interrupt Routing Register 489" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F50++0x07 line.quad 0x00 "GICD_IROUTER490,Interrupt Routing Register 490" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F58++0x07 line.quad 0x00 "GICD_IROUTER491,Interrupt Routing Register 491" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F60++0x07 line.quad 0x00 "GICD_IROUTER492,Interrupt Routing Register 492" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F68++0x07 line.quad 0x00 "GICD_IROUTER493,Interrupt Routing Register 493" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F70++0x07 line.quad 0x00 "GICD_IROUTER494,Interrupt Routing Register 494" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F78++0x07 line.quad 0x00 "GICD_IROUTER495,Interrupt Routing Register 495" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F80++0x07 line.quad 0x00 "GICD_IROUTER496,Interrupt Routing Register 496" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F88++0x07 line.quad 0x00 "GICD_IROUTER497,Interrupt Routing Register 497" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F90++0x07 line.quad 0x00 "GICD_IROUTER498,Interrupt Routing Register 498" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6F98++0x07 line.quad 0x00 "GICD_IROUTER499,Interrupt Routing Register 499" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6FA0++0x07 line.quad 0x00 "GICD_IROUTER500,Interrupt Routing Register 500" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6FA8++0x07 line.quad 0x00 "GICD_IROUTER501,Interrupt Routing Register 501" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6FB0++0x07 line.quad 0x00 "GICD_IROUTER502,Interrupt Routing Register 502" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6FB8++0x07 line.quad 0x00 "GICD_IROUTER503,Interrupt Routing Register 503" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6FC0++0x07 line.quad 0x00 "GICD_IROUTER504,Interrupt Routing Register 504" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6FC8++0x07 line.quad 0x00 "GICD_IROUTER505,Interrupt Routing Register 505" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6FD0++0x07 line.quad 0x00 "GICD_IROUTER506,Interrupt Routing Register 506" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6FD8++0x07 line.quad 0x00 "GICD_IROUTER507,Interrupt Routing Register 507" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6FE0++0x07 line.quad 0x00 "GICD_IROUTER508,Interrupt Routing Register 508" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6FE8++0x07 line.quad 0x00 "GICD_IROUTER509,Interrupt Routing Register 509" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6FF0++0x07 line.quad 0x00 "GICD_IROUTER510,Interrupt Routing Register 510" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x6FF8++0x07 line.quad 0x00 "GICD_IROUTER511,Interrupt Routing Register 511" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7000++0x07 line.quad 0x00 "GICD_IROUTER512,Interrupt Routing Register 512" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7008++0x07 line.quad 0x00 "GICD_IROUTER513,Interrupt Routing Register 513" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7010++0x07 line.quad 0x00 "GICD_IROUTER514,Interrupt Routing Register 514" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7018++0x07 line.quad 0x00 "GICD_IROUTER515,Interrupt Routing Register 515" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7020++0x07 line.quad 0x00 "GICD_IROUTER516,Interrupt Routing Register 516" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7028++0x07 line.quad 0x00 "GICD_IROUTER517,Interrupt Routing Register 517" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7030++0x07 line.quad 0x00 "GICD_IROUTER518,Interrupt Routing Register 518" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7038++0x07 line.quad 0x00 "GICD_IROUTER519,Interrupt Routing Register 519" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7040++0x07 line.quad 0x00 "GICD_IROUTER520,Interrupt Routing Register 520" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7048++0x07 line.quad 0x00 "GICD_IROUTER521,Interrupt Routing Register 521" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7050++0x07 line.quad 0x00 "GICD_IROUTER522,Interrupt Routing Register 522" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7058++0x07 line.quad 0x00 "GICD_IROUTER523,Interrupt Routing Register 523" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7060++0x07 line.quad 0x00 "GICD_IROUTER524,Interrupt Routing Register 524" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7068++0x07 line.quad 0x00 "GICD_IROUTER525,Interrupt Routing Register 525" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7070++0x07 line.quad 0x00 "GICD_IROUTER526,Interrupt Routing Register 526" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7078++0x07 line.quad 0x00 "GICD_IROUTER527,Interrupt Routing Register 527" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7080++0x07 line.quad 0x00 "GICD_IROUTER528,Interrupt Routing Register 528" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7088++0x07 line.quad 0x00 "GICD_IROUTER529,Interrupt Routing Register 529" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7090++0x07 line.quad 0x00 "GICD_IROUTER530,Interrupt Routing Register 530" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7098++0x07 line.quad 0x00 "GICD_IROUTER531,Interrupt Routing Register 531" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x70A0++0x07 line.quad 0x00 "GICD_IROUTER532,Interrupt Routing Register 532" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x70A8++0x07 line.quad 0x00 "GICD_IROUTER533,Interrupt Routing Register 533" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x70B0++0x07 line.quad 0x00 "GICD_IROUTER534,Interrupt Routing Register 534" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x70B8++0x07 line.quad 0x00 "GICD_IROUTER535,Interrupt Routing Register 535" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x70C0++0x07 line.quad 0x00 "GICD_IROUTER536,Interrupt Routing Register 536" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x70C8++0x07 line.quad 0x00 "GICD_IROUTER537,Interrupt Routing Register 537" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x70D0++0x07 line.quad 0x00 "GICD_IROUTER538,Interrupt Routing Register 538" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x70D8++0x07 line.quad 0x00 "GICD_IROUTER539,Interrupt Routing Register 539" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x70E0++0x07 line.quad 0x00 "GICD_IROUTER540,Interrupt Routing Register 540" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x70E8++0x07 line.quad 0x00 "GICD_IROUTER541,Interrupt Routing Register 541" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x70F0++0x07 line.quad 0x00 "GICD_IROUTER542,Interrupt Routing Register 542" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x70F8++0x07 line.quad 0x00 "GICD_IROUTER543,Interrupt Routing Register 543" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7100++0x07 line.quad 0x00 "GICD_IROUTER544,Interrupt Routing Register 544" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7108++0x07 line.quad 0x00 "GICD_IROUTER545,Interrupt Routing Register 545" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7110++0x07 line.quad 0x00 "GICD_IROUTER546,Interrupt Routing Register 546" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7118++0x07 line.quad 0x00 "GICD_IROUTER547,Interrupt Routing Register 547" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7120++0x07 line.quad 0x00 "GICD_IROUTER548,Interrupt Routing Register 548" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7128++0x07 line.quad 0x00 "GICD_IROUTER549,Interrupt Routing Register 549" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7130++0x07 line.quad 0x00 "GICD_IROUTER550,Interrupt Routing Register 550" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7138++0x07 line.quad 0x00 "GICD_IROUTER551,Interrupt Routing Register 551" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7140++0x07 line.quad 0x00 "GICD_IROUTER552,Interrupt Routing Register 552" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7148++0x07 line.quad 0x00 "GICD_IROUTER553,Interrupt Routing Register 553" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7150++0x07 line.quad 0x00 "GICD_IROUTER554,Interrupt Routing Register 554" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7158++0x07 line.quad 0x00 "GICD_IROUTER555,Interrupt Routing Register 555" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7160++0x07 line.quad 0x00 "GICD_IROUTER556,Interrupt Routing Register 556" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7168++0x07 line.quad 0x00 "GICD_IROUTER557,Interrupt Routing Register 557" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7170++0x07 line.quad 0x00 "GICD_IROUTER558,Interrupt Routing Register 558" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7178++0x07 line.quad 0x00 "GICD_IROUTER559,Interrupt Routing Register 559" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7180++0x07 line.quad 0x00 "GICD_IROUTER560,Interrupt Routing Register 560" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7188++0x07 line.quad 0x00 "GICD_IROUTER561,Interrupt Routing Register 561" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7190++0x07 line.quad 0x00 "GICD_IROUTER562,Interrupt Routing Register 562" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7198++0x07 line.quad 0x00 "GICD_IROUTER563,Interrupt Routing Register 563" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x71A0++0x07 line.quad 0x00 "GICD_IROUTER564,Interrupt Routing Register 564" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x71A8++0x07 line.quad 0x00 "GICD_IROUTER565,Interrupt Routing Register 565" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x71B0++0x07 line.quad 0x00 "GICD_IROUTER566,Interrupt Routing Register 566" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x71B8++0x07 line.quad 0x00 "GICD_IROUTER567,Interrupt Routing Register 567" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x71C0++0x07 line.quad 0x00 "GICD_IROUTER568,Interrupt Routing Register 568" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x71C8++0x07 line.quad 0x00 "GICD_IROUTER569,Interrupt Routing Register 569" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x71D0++0x07 line.quad 0x00 "GICD_IROUTER570,Interrupt Routing Register 570" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x71D8++0x07 line.quad 0x00 "GICD_IROUTER571,Interrupt Routing Register 571" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x71E0++0x07 line.quad 0x00 "GICD_IROUTER572,Interrupt Routing Register 572" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x71E8++0x07 line.quad 0x00 "GICD_IROUTER573,Interrupt Routing Register 573" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x71F0++0x07 line.quad 0x00 "GICD_IROUTER574,Interrupt Routing Register 574" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x71F8++0x07 line.quad 0x00 "GICD_IROUTER575,Interrupt Routing Register 575" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7200++0x07 line.quad 0x00 "GICD_IROUTER576,Interrupt Routing Register 576" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7208++0x07 line.quad 0x00 "GICD_IROUTER577,Interrupt Routing Register 577" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7210++0x07 line.quad 0x00 "GICD_IROUTER578,Interrupt Routing Register 578" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7218++0x07 line.quad 0x00 "GICD_IROUTER579,Interrupt Routing Register 579" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7220++0x07 line.quad 0x00 "GICD_IROUTER580,Interrupt Routing Register 580" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7228++0x07 line.quad 0x00 "GICD_IROUTER581,Interrupt Routing Register 581" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7230++0x07 line.quad 0x00 "GICD_IROUTER582,Interrupt Routing Register 582" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7238++0x07 line.quad 0x00 "GICD_IROUTER583,Interrupt Routing Register 583" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7240++0x07 line.quad 0x00 "GICD_IROUTER584,Interrupt Routing Register 584" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7248++0x07 line.quad 0x00 "GICD_IROUTER585,Interrupt Routing Register 585" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7250++0x07 line.quad 0x00 "GICD_IROUTER586,Interrupt Routing Register 586" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7258++0x07 line.quad 0x00 "GICD_IROUTER587,Interrupt Routing Register 587" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7260++0x07 line.quad 0x00 "GICD_IROUTER588,Interrupt Routing Register 588" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7268++0x07 line.quad 0x00 "GICD_IROUTER589,Interrupt Routing Register 589" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7270++0x07 line.quad 0x00 "GICD_IROUTER590,Interrupt Routing Register 590" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7278++0x07 line.quad 0x00 "GICD_IROUTER591,Interrupt Routing Register 591" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7280++0x07 line.quad 0x00 "GICD_IROUTER592,Interrupt Routing Register 592" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7288++0x07 line.quad 0x00 "GICD_IROUTER593,Interrupt Routing Register 593" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7290++0x07 line.quad 0x00 "GICD_IROUTER594,Interrupt Routing Register 594" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7298++0x07 line.quad 0x00 "GICD_IROUTER595,Interrupt Routing Register 595" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x72A0++0x07 line.quad 0x00 "GICD_IROUTER596,Interrupt Routing Register 596" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x72A8++0x07 line.quad 0x00 "GICD_IROUTER597,Interrupt Routing Register 597" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x72B0++0x07 line.quad 0x00 "GICD_IROUTER598,Interrupt Routing Register 598" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x72B8++0x07 line.quad 0x00 "GICD_IROUTER599,Interrupt Routing Register 599" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x72C0++0x07 line.quad 0x00 "GICD_IROUTER600,Interrupt Routing Register 600" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x72C8++0x07 line.quad 0x00 "GICD_IROUTER601,Interrupt Routing Register 601" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x72D0++0x07 line.quad 0x00 "GICD_IROUTER602,Interrupt Routing Register 602" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x72D8++0x07 line.quad 0x00 "GICD_IROUTER603,Interrupt Routing Register 603" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x72E0++0x07 line.quad 0x00 "GICD_IROUTER604,Interrupt Routing Register 604" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x72E8++0x07 line.quad 0x00 "GICD_IROUTER605,Interrupt Routing Register 605" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x72F0++0x07 line.quad 0x00 "GICD_IROUTER606,Interrupt Routing Register 606" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x72F8++0x07 line.quad 0x00 "GICD_IROUTER607,Interrupt Routing Register 607" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7300++0x07 line.quad 0x00 "GICD_IROUTER608,Interrupt Routing Register 608" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7308++0x07 line.quad 0x00 "GICD_IROUTER609,Interrupt Routing Register 609" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7310++0x07 line.quad 0x00 "GICD_IROUTER610,Interrupt Routing Register 610" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7318++0x07 line.quad 0x00 "GICD_IROUTER611,Interrupt Routing Register 611" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7320++0x07 line.quad 0x00 "GICD_IROUTER612,Interrupt Routing Register 612" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7328++0x07 line.quad 0x00 "GICD_IROUTER613,Interrupt Routing Register 613" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7330++0x07 line.quad 0x00 "GICD_IROUTER614,Interrupt Routing Register 614" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7338++0x07 line.quad 0x00 "GICD_IROUTER615,Interrupt Routing Register 615" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7340++0x07 line.quad 0x00 "GICD_IROUTER616,Interrupt Routing Register 616" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7348++0x07 line.quad 0x00 "GICD_IROUTER617,Interrupt Routing Register 617" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7350++0x07 line.quad 0x00 "GICD_IROUTER618,Interrupt Routing Register 618" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7358++0x07 line.quad 0x00 "GICD_IROUTER619,Interrupt Routing Register 619" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7360++0x07 line.quad 0x00 "GICD_IROUTER620,Interrupt Routing Register 620" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7368++0x07 line.quad 0x00 "GICD_IROUTER621,Interrupt Routing Register 621" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7370++0x07 line.quad 0x00 "GICD_IROUTER622,Interrupt Routing Register 622" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7378++0x07 line.quad 0x00 "GICD_IROUTER623,Interrupt Routing Register 623" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7380++0x07 line.quad 0x00 "GICD_IROUTER624,Interrupt Routing Register 624" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7388++0x07 line.quad 0x00 "GICD_IROUTER625,Interrupt Routing Register 625" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7390++0x07 line.quad 0x00 "GICD_IROUTER626,Interrupt Routing Register 626" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7398++0x07 line.quad 0x00 "GICD_IROUTER627,Interrupt Routing Register 627" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x73A0++0x07 line.quad 0x00 "GICD_IROUTER628,Interrupt Routing Register 628" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x73A8++0x07 line.quad 0x00 "GICD_IROUTER629,Interrupt Routing Register 629" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x73B0++0x07 line.quad 0x00 "GICD_IROUTER630,Interrupt Routing Register 630" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x73B8++0x07 line.quad 0x00 "GICD_IROUTER631,Interrupt Routing Register 631" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x73C0++0x07 line.quad 0x00 "GICD_IROUTER632,Interrupt Routing Register 632" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x73C8++0x07 line.quad 0x00 "GICD_IROUTER633,Interrupt Routing Register 633" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x73D0++0x07 line.quad 0x00 "GICD_IROUTER634,Interrupt Routing Register 634" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x73D8++0x07 line.quad 0x00 "GICD_IROUTER635,Interrupt Routing Register 635" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x73E0++0x07 line.quad 0x00 "GICD_IROUTER636,Interrupt Routing Register 636" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x73E8++0x07 line.quad 0x00 "GICD_IROUTER637,Interrupt Routing Register 637" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x73F0++0x07 line.quad 0x00 "GICD_IROUTER638,Interrupt Routing Register 638" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x73F8++0x07 line.quad 0x00 "GICD_IROUTER639,Interrupt Routing Register 639" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7400++0x07 line.quad 0x00 "GICD_IROUTER640,Interrupt Routing Register 640" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7408++0x07 line.quad 0x00 "GICD_IROUTER641,Interrupt Routing Register 641" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7410++0x07 line.quad 0x00 "GICD_IROUTER642,Interrupt Routing Register 642" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7418++0x07 line.quad 0x00 "GICD_IROUTER643,Interrupt Routing Register 643" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7420++0x07 line.quad 0x00 "GICD_IROUTER644,Interrupt Routing Register 644" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7428++0x07 line.quad 0x00 "GICD_IROUTER645,Interrupt Routing Register 645" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7430++0x07 line.quad 0x00 "GICD_IROUTER646,Interrupt Routing Register 646" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7438++0x07 line.quad 0x00 "GICD_IROUTER647,Interrupt Routing Register 647" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7440++0x07 line.quad 0x00 "GICD_IROUTER648,Interrupt Routing Register 648" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7448++0x07 line.quad 0x00 "GICD_IROUTER649,Interrupt Routing Register 649" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7450++0x07 line.quad 0x00 "GICD_IROUTER650,Interrupt Routing Register 650" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7458++0x07 line.quad 0x00 "GICD_IROUTER651,Interrupt Routing Register 651" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7460++0x07 line.quad 0x00 "GICD_IROUTER652,Interrupt Routing Register 652" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7468++0x07 line.quad 0x00 "GICD_IROUTER653,Interrupt Routing Register 653" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7470++0x07 line.quad 0x00 "GICD_IROUTER654,Interrupt Routing Register 654" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7478++0x07 line.quad 0x00 "GICD_IROUTER655,Interrupt Routing Register 655" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7480++0x07 line.quad 0x00 "GICD_IROUTER656,Interrupt Routing Register 656" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7488++0x07 line.quad 0x00 "GICD_IROUTER657,Interrupt Routing Register 657" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7490++0x07 line.quad 0x00 "GICD_IROUTER658,Interrupt Routing Register 658" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7498++0x07 line.quad 0x00 "GICD_IROUTER659,Interrupt Routing Register 659" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x74A0++0x07 line.quad 0x00 "GICD_IROUTER660,Interrupt Routing Register 660" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x74A8++0x07 line.quad 0x00 "GICD_IROUTER661,Interrupt Routing Register 661" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x74B0++0x07 line.quad 0x00 "GICD_IROUTER662,Interrupt Routing Register 662" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x74B8++0x07 line.quad 0x00 "GICD_IROUTER663,Interrupt Routing Register 663" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x74C0++0x07 line.quad 0x00 "GICD_IROUTER664,Interrupt Routing Register 664" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x74C8++0x07 line.quad 0x00 "GICD_IROUTER665,Interrupt Routing Register 665" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x74D0++0x07 line.quad 0x00 "GICD_IROUTER666,Interrupt Routing Register 666" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x74D8++0x07 line.quad 0x00 "GICD_IROUTER667,Interrupt Routing Register 667" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x74E0++0x07 line.quad 0x00 "GICD_IROUTER668,Interrupt Routing Register 668" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x74E8++0x07 line.quad 0x00 "GICD_IROUTER669,Interrupt Routing Register 669" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x74F0++0x07 line.quad 0x00 "GICD_IROUTER670,Interrupt Routing Register 670" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x74F8++0x07 line.quad 0x00 "GICD_IROUTER671,Interrupt Routing Register 671" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7500++0x07 line.quad 0x00 "GICD_IROUTER672,Interrupt Routing Register 672" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7508++0x07 line.quad 0x00 "GICD_IROUTER673,Interrupt Routing Register 673" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7510++0x07 line.quad 0x00 "GICD_IROUTER674,Interrupt Routing Register 674" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7518++0x07 line.quad 0x00 "GICD_IROUTER675,Interrupt Routing Register 675" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7520++0x07 line.quad 0x00 "GICD_IROUTER676,Interrupt Routing Register 676" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7528++0x07 line.quad 0x00 "GICD_IROUTER677,Interrupt Routing Register 677" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7530++0x07 line.quad 0x00 "GICD_IROUTER678,Interrupt Routing Register 678" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7538++0x07 line.quad 0x00 "GICD_IROUTER679,Interrupt Routing Register 679" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7540++0x07 line.quad 0x00 "GICD_IROUTER680,Interrupt Routing Register 680" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7548++0x07 line.quad 0x00 "GICD_IROUTER681,Interrupt Routing Register 681" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7550++0x07 line.quad 0x00 "GICD_IROUTER682,Interrupt Routing Register 682" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7558++0x07 line.quad 0x00 "GICD_IROUTER683,Interrupt Routing Register 683" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7560++0x07 line.quad 0x00 "GICD_IROUTER684,Interrupt Routing Register 684" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7568++0x07 line.quad 0x00 "GICD_IROUTER685,Interrupt Routing Register 685" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7570++0x07 line.quad 0x00 "GICD_IROUTER686,Interrupt Routing Register 686" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7578++0x07 line.quad 0x00 "GICD_IROUTER687,Interrupt Routing Register 687" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7580++0x07 line.quad 0x00 "GICD_IROUTER688,Interrupt Routing Register 688" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7588++0x07 line.quad 0x00 "GICD_IROUTER689,Interrupt Routing Register 689" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7590++0x07 line.quad 0x00 "GICD_IROUTER690,Interrupt Routing Register 690" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7598++0x07 line.quad 0x00 "GICD_IROUTER691,Interrupt Routing Register 691" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x75A0++0x07 line.quad 0x00 "GICD_IROUTER692,Interrupt Routing Register 692" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x75A8++0x07 line.quad 0x00 "GICD_IROUTER693,Interrupt Routing Register 693" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x75B0++0x07 line.quad 0x00 "GICD_IROUTER694,Interrupt Routing Register 694" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x75B8++0x07 line.quad 0x00 "GICD_IROUTER695,Interrupt Routing Register 695" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x75C0++0x07 line.quad 0x00 "GICD_IROUTER696,Interrupt Routing Register 696" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x75C8++0x07 line.quad 0x00 "GICD_IROUTER697,Interrupt Routing Register 697" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x75D0++0x07 line.quad 0x00 "GICD_IROUTER698,Interrupt Routing Register 698" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x75D8++0x07 line.quad 0x00 "GICD_IROUTER699,Interrupt Routing Register 699" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x75E0++0x07 line.quad 0x00 "GICD_IROUTER700,Interrupt Routing Register 700" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x75E8++0x07 line.quad 0x00 "GICD_IROUTER701,Interrupt Routing Register 701" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x75F0++0x07 line.quad 0x00 "GICD_IROUTER702,Interrupt Routing Register 702" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x75F8++0x07 line.quad 0x00 "GICD_IROUTER703,Interrupt Routing Register 703" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7600++0x07 line.quad 0x00 "GICD_IROUTER704,Interrupt Routing Register 704" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7608++0x07 line.quad 0x00 "GICD_IROUTER705,Interrupt Routing Register 705" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7610++0x07 line.quad 0x00 "GICD_IROUTER706,Interrupt Routing Register 706" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7618++0x07 line.quad 0x00 "GICD_IROUTER707,Interrupt Routing Register 707" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7620++0x07 line.quad 0x00 "GICD_IROUTER708,Interrupt Routing Register 708" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7628++0x07 line.quad 0x00 "GICD_IROUTER709,Interrupt Routing Register 709" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7630++0x07 line.quad 0x00 "GICD_IROUTER710,Interrupt Routing Register 710" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7638++0x07 line.quad 0x00 "GICD_IROUTER711,Interrupt Routing Register 711" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7640++0x07 line.quad 0x00 "GICD_IROUTER712,Interrupt Routing Register 712" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7648++0x07 line.quad 0x00 "GICD_IROUTER713,Interrupt Routing Register 713" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7650++0x07 line.quad 0x00 "GICD_IROUTER714,Interrupt Routing Register 714" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7658++0x07 line.quad 0x00 "GICD_IROUTER715,Interrupt Routing Register 715" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7660++0x07 line.quad 0x00 "GICD_IROUTER716,Interrupt Routing Register 716" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7668++0x07 line.quad 0x00 "GICD_IROUTER717,Interrupt Routing Register 717" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7670++0x07 line.quad 0x00 "GICD_IROUTER718,Interrupt Routing Register 718" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7678++0x07 line.quad 0x00 "GICD_IROUTER719,Interrupt Routing Register 719" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7680++0x07 line.quad 0x00 "GICD_IROUTER720,Interrupt Routing Register 720" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7688++0x07 line.quad 0x00 "GICD_IROUTER721,Interrupt Routing Register 721" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7690++0x07 line.quad 0x00 "GICD_IROUTER722,Interrupt Routing Register 722" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7698++0x07 line.quad 0x00 "GICD_IROUTER723,Interrupt Routing Register 723" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x76A0++0x07 line.quad 0x00 "GICD_IROUTER724,Interrupt Routing Register 724" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x76A8++0x07 line.quad 0x00 "GICD_IROUTER725,Interrupt Routing Register 725" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x76B0++0x07 line.quad 0x00 "GICD_IROUTER726,Interrupt Routing Register 726" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x76B8++0x07 line.quad 0x00 "GICD_IROUTER727,Interrupt Routing Register 727" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x76C0++0x07 line.quad 0x00 "GICD_IROUTER728,Interrupt Routing Register 728" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x76C8++0x07 line.quad 0x00 "GICD_IROUTER729,Interrupt Routing Register 729" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x76D0++0x07 line.quad 0x00 "GICD_IROUTER730,Interrupt Routing Register 730" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x76D8++0x07 line.quad 0x00 "GICD_IROUTER731,Interrupt Routing Register 731" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x76E0++0x07 line.quad 0x00 "GICD_IROUTER732,Interrupt Routing Register 732" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x76E8++0x07 line.quad 0x00 "GICD_IROUTER733,Interrupt Routing Register 733" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x76F0++0x07 line.quad 0x00 "GICD_IROUTER734,Interrupt Routing Register 734" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x76F8++0x07 line.quad 0x00 "GICD_IROUTER735,Interrupt Routing Register 735" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7700++0x07 line.quad 0x00 "GICD_IROUTER736,Interrupt Routing Register 736" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7708++0x07 line.quad 0x00 "GICD_IROUTER737,Interrupt Routing Register 737" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7710++0x07 line.quad 0x00 "GICD_IROUTER738,Interrupt Routing Register 738" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7718++0x07 line.quad 0x00 "GICD_IROUTER739,Interrupt Routing Register 739" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7720++0x07 line.quad 0x00 "GICD_IROUTER740,Interrupt Routing Register 740" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7728++0x07 line.quad 0x00 "GICD_IROUTER741,Interrupt Routing Register 741" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7730++0x07 line.quad 0x00 "GICD_IROUTER742,Interrupt Routing Register 742" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7738++0x07 line.quad 0x00 "GICD_IROUTER743,Interrupt Routing Register 743" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7740++0x07 line.quad 0x00 "GICD_IROUTER744,Interrupt Routing Register 744" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7748++0x07 line.quad 0x00 "GICD_IROUTER745,Interrupt Routing Register 745" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7750++0x07 line.quad 0x00 "GICD_IROUTER746,Interrupt Routing Register 746" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7758++0x07 line.quad 0x00 "GICD_IROUTER747,Interrupt Routing Register 747" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7760++0x07 line.quad 0x00 "GICD_IROUTER748,Interrupt Routing Register 748" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7768++0x07 line.quad 0x00 "GICD_IROUTER749,Interrupt Routing Register 749" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7770++0x07 line.quad 0x00 "GICD_IROUTER750,Interrupt Routing Register 750" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7778++0x07 line.quad 0x00 "GICD_IROUTER751,Interrupt Routing Register 751" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7780++0x07 line.quad 0x00 "GICD_IROUTER752,Interrupt Routing Register 752" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7788++0x07 line.quad 0x00 "GICD_IROUTER753,Interrupt Routing Register 753" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7790++0x07 line.quad 0x00 "GICD_IROUTER754,Interrupt Routing Register 754" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7798++0x07 line.quad 0x00 "GICD_IROUTER755,Interrupt Routing Register 755" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x77A0++0x07 line.quad 0x00 "GICD_IROUTER756,Interrupt Routing Register 756" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x77A8++0x07 line.quad 0x00 "GICD_IROUTER757,Interrupt Routing Register 757" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x77B0++0x07 line.quad 0x00 "GICD_IROUTER758,Interrupt Routing Register 758" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x77B8++0x07 line.quad 0x00 "GICD_IROUTER759,Interrupt Routing Register 759" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x77C0++0x07 line.quad 0x00 "GICD_IROUTER760,Interrupt Routing Register 760" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x77C8++0x07 line.quad 0x00 "GICD_IROUTER761,Interrupt Routing Register 761" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x77D0++0x07 line.quad 0x00 "GICD_IROUTER762,Interrupt Routing Register 762" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x77D8++0x07 line.quad 0x00 "GICD_IROUTER763,Interrupt Routing Register 763" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x77E0++0x07 line.quad 0x00 "GICD_IROUTER764,Interrupt Routing Register 764" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x77E8++0x07 line.quad 0x00 "GICD_IROUTER765,Interrupt Routing Register 765" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x77F0++0x07 line.quad 0x00 "GICD_IROUTER766,Interrupt Routing Register 766" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x77F8++0x07 line.quad 0x00 "GICD_IROUTER767,Interrupt Routing Register 767" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7800++0x07 line.quad 0x00 "GICD_IROUTER768,Interrupt Routing Register 768" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7808++0x07 line.quad 0x00 "GICD_IROUTER769,Interrupt Routing Register 769" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7810++0x07 line.quad 0x00 "GICD_IROUTER770,Interrupt Routing Register 770" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7818++0x07 line.quad 0x00 "GICD_IROUTER771,Interrupt Routing Register 771" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7820++0x07 line.quad 0x00 "GICD_IROUTER772,Interrupt Routing Register 772" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7828++0x07 line.quad 0x00 "GICD_IROUTER773,Interrupt Routing Register 773" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7830++0x07 line.quad 0x00 "GICD_IROUTER774,Interrupt Routing Register 774" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7838++0x07 line.quad 0x00 "GICD_IROUTER775,Interrupt Routing Register 775" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7840++0x07 line.quad 0x00 "GICD_IROUTER776,Interrupt Routing Register 776" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7848++0x07 line.quad 0x00 "GICD_IROUTER777,Interrupt Routing Register 777" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7850++0x07 line.quad 0x00 "GICD_IROUTER778,Interrupt Routing Register 778" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7858++0x07 line.quad 0x00 "GICD_IROUTER779,Interrupt Routing Register 779" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7860++0x07 line.quad 0x00 "GICD_IROUTER780,Interrupt Routing Register 780" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7868++0x07 line.quad 0x00 "GICD_IROUTER781,Interrupt Routing Register 781" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7870++0x07 line.quad 0x00 "GICD_IROUTER782,Interrupt Routing Register 782" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7878++0x07 line.quad 0x00 "GICD_IROUTER783,Interrupt Routing Register 783" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7880++0x07 line.quad 0x00 "GICD_IROUTER784,Interrupt Routing Register 784" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7888++0x07 line.quad 0x00 "GICD_IROUTER785,Interrupt Routing Register 785" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7890++0x07 line.quad 0x00 "GICD_IROUTER786,Interrupt Routing Register 786" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7898++0x07 line.quad 0x00 "GICD_IROUTER787,Interrupt Routing Register 787" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x78A0++0x07 line.quad 0x00 "GICD_IROUTER788,Interrupt Routing Register 788" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x78A8++0x07 line.quad 0x00 "GICD_IROUTER789,Interrupt Routing Register 789" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x78B0++0x07 line.quad 0x00 "GICD_IROUTER790,Interrupt Routing Register 790" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x78B8++0x07 line.quad 0x00 "GICD_IROUTER791,Interrupt Routing Register 791" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x78C0++0x07 line.quad 0x00 "GICD_IROUTER792,Interrupt Routing Register 792" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x78C8++0x07 line.quad 0x00 "GICD_IROUTER793,Interrupt Routing Register 793" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x78D0++0x07 line.quad 0x00 "GICD_IROUTER794,Interrupt Routing Register 794" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x78D8++0x07 line.quad 0x00 "GICD_IROUTER795,Interrupt Routing Register 795" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x78E0++0x07 line.quad 0x00 "GICD_IROUTER796,Interrupt Routing Register 796" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x78E8++0x07 line.quad 0x00 "GICD_IROUTER797,Interrupt Routing Register 797" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x78F0++0x07 line.quad 0x00 "GICD_IROUTER798,Interrupt Routing Register 798" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x78F8++0x07 line.quad 0x00 "GICD_IROUTER799,Interrupt Routing Register 799" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7900++0x07 line.quad 0x00 "GICD_IROUTER800,Interrupt Routing Register 800" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7908++0x07 line.quad 0x00 "GICD_IROUTER801,Interrupt Routing Register 801" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7910++0x07 line.quad 0x00 "GICD_IROUTER802,Interrupt Routing Register 802" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7918++0x07 line.quad 0x00 "GICD_IROUTER803,Interrupt Routing Register 803" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7920++0x07 line.quad 0x00 "GICD_IROUTER804,Interrupt Routing Register 804" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7928++0x07 line.quad 0x00 "GICD_IROUTER805,Interrupt Routing Register 805" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7930++0x07 line.quad 0x00 "GICD_IROUTER806,Interrupt Routing Register 806" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7938++0x07 line.quad 0x00 "GICD_IROUTER807,Interrupt Routing Register 807" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7940++0x07 line.quad 0x00 "GICD_IROUTER808,Interrupt Routing Register 808" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7948++0x07 line.quad 0x00 "GICD_IROUTER809,Interrupt Routing Register 809" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7950++0x07 line.quad 0x00 "GICD_IROUTER810,Interrupt Routing Register 810" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7958++0x07 line.quad 0x00 "GICD_IROUTER811,Interrupt Routing Register 811" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7960++0x07 line.quad 0x00 "GICD_IROUTER812,Interrupt Routing Register 812" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7968++0x07 line.quad 0x00 "GICD_IROUTER813,Interrupt Routing Register 813" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7970++0x07 line.quad 0x00 "GICD_IROUTER814,Interrupt Routing Register 814" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7978++0x07 line.quad 0x00 "GICD_IROUTER815,Interrupt Routing Register 815" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7980++0x07 line.quad 0x00 "GICD_IROUTER816,Interrupt Routing Register 816" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7988++0x07 line.quad 0x00 "GICD_IROUTER817,Interrupt Routing Register 817" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7990++0x07 line.quad 0x00 "GICD_IROUTER818,Interrupt Routing Register 818" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7998++0x07 line.quad 0x00 "GICD_IROUTER819,Interrupt Routing Register 819" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x79A0++0x07 line.quad 0x00 "GICD_IROUTER820,Interrupt Routing Register 820" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x79A8++0x07 line.quad 0x00 "GICD_IROUTER821,Interrupt Routing Register 821" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x79B0++0x07 line.quad 0x00 "GICD_IROUTER822,Interrupt Routing Register 822" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x79B8++0x07 line.quad 0x00 "GICD_IROUTER823,Interrupt Routing Register 823" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x79C0++0x07 line.quad 0x00 "GICD_IROUTER824,Interrupt Routing Register 824" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x79C8++0x07 line.quad 0x00 "GICD_IROUTER825,Interrupt Routing Register 825" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x79D0++0x07 line.quad 0x00 "GICD_IROUTER826,Interrupt Routing Register 826" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x79D8++0x07 line.quad 0x00 "GICD_IROUTER827,Interrupt Routing Register 827" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x79E0++0x07 line.quad 0x00 "GICD_IROUTER828,Interrupt Routing Register 828" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x79E8++0x07 line.quad 0x00 "GICD_IROUTER829,Interrupt Routing Register 829" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x79F0++0x07 line.quad 0x00 "GICD_IROUTER830,Interrupt Routing Register 830" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x79F8++0x07 line.quad 0x00 "GICD_IROUTER831,Interrupt Routing Register 831" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A00++0x07 line.quad 0x00 "GICD_IROUTER832,Interrupt Routing Register 832" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A08++0x07 line.quad 0x00 "GICD_IROUTER833,Interrupt Routing Register 833" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A10++0x07 line.quad 0x00 "GICD_IROUTER834,Interrupt Routing Register 834" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A18++0x07 line.quad 0x00 "GICD_IROUTER835,Interrupt Routing Register 835" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A20++0x07 line.quad 0x00 "GICD_IROUTER836,Interrupt Routing Register 836" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A28++0x07 line.quad 0x00 "GICD_IROUTER837,Interrupt Routing Register 837" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A30++0x07 line.quad 0x00 "GICD_IROUTER838,Interrupt Routing Register 838" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A38++0x07 line.quad 0x00 "GICD_IROUTER839,Interrupt Routing Register 839" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A40++0x07 line.quad 0x00 "GICD_IROUTER840,Interrupt Routing Register 840" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A48++0x07 line.quad 0x00 "GICD_IROUTER841,Interrupt Routing Register 841" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A50++0x07 line.quad 0x00 "GICD_IROUTER842,Interrupt Routing Register 842" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A58++0x07 line.quad 0x00 "GICD_IROUTER843,Interrupt Routing Register 843" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A60++0x07 line.quad 0x00 "GICD_IROUTER844,Interrupt Routing Register 844" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A68++0x07 line.quad 0x00 "GICD_IROUTER845,Interrupt Routing Register 845" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A70++0x07 line.quad 0x00 "GICD_IROUTER846,Interrupt Routing Register 846" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A78++0x07 line.quad 0x00 "GICD_IROUTER847,Interrupt Routing Register 847" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A80++0x07 line.quad 0x00 "GICD_IROUTER848,Interrupt Routing Register 848" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A88++0x07 line.quad 0x00 "GICD_IROUTER849,Interrupt Routing Register 849" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A90++0x07 line.quad 0x00 "GICD_IROUTER850,Interrupt Routing Register 850" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7A98++0x07 line.quad 0x00 "GICD_IROUTER851,Interrupt Routing Register 851" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7AA0++0x07 line.quad 0x00 "GICD_IROUTER852,Interrupt Routing Register 852" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7AA8++0x07 line.quad 0x00 "GICD_IROUTER853,Interrupt Routing Register 853" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7AB0++0x07 line.quad 0x00 "GICD_IROUTER854,Interrupt Routing Register 854" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7AB8++0x07 line.quad 0x00 "GICD_IROUTER855,Interrupt Routing Register 855" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7AC0++0x07 line.quad 0x00 "GICD_IROUTER856,Interrupt Routing Register 856" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7AC8++0x07 line.quad 0x00 "GICD_IROUTER857,Interrupt Routing Register 857" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7AD0++0x07 line.quad 0x00 "GICD_IROUTER858,Interrupt Routing Register 858" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7AD8++0x07 line.quad 0x00 "GICD_IROUTER859,Interrupt Routing Register 859" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7AE0++0x07 line.quad 0x00 "GICD_IROUTER860,Interrupt Routing Register 860" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7AE8++0x07 line.quad 0x00 "GICD_IROUTER861,Interrupt Routing Register 861" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7AF0++0x07 line.quad 0x00 "GICD_IROUTER862,Interrupt Routing Register 862" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7AF8++0x07 line.quad 0x00 "GICD_IROUTER863,Interrupt Routing Register 863" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B00++0x07 line.quad 0x00 "GICD_IROUTER864,Interrupt Routing Register 864" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B08++0x07 line.quad 0x00 "GICD_IROUTER865,Interrupt Routing Register 865" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B10++0x07 line.quad 0x00 "GICD_IROUTER866,Interrupt Routing Register 866" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B18++0x07 line.quad 0x00 "GICD_IROUTER867,Interrupt Routing Register 867" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B20++0x07 line.quad 0x00 "GICD_IROUTER868,Interrupt Routing Register 868" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B28++0x07 line.quad 0x00 "GICD_IROUTER869,Interrupt Routing Register 869" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B30++0x07 line.quad 0x00 "GICD_IROUTER870,Interrupt Routing Register 870" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B38++0x07 line.quad 0x00 "GICD_IROUTER871,Interrupt Routing Register 871" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B40++0x07 line.quad 0x00 "GICD_IROUTER872,Interrupt Routing Register 872" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B48++0x07 line.quad 0x00 "GICD_IROUTER873,Interrupt Routing Register 873" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B50++0x07 line.quad 0x00 "GICD_IROUTER874,Interrupt Routing Register 874" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B58++0x07 line.quad 0x00 "GICD_IROUTER875,Interrupt Routing Register 875" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B60++0x07 line.quad 0x00 "GICD_IROUTER876,Interrupt Routing Register 876" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B68++0x07 line.quad 0x00 "GICD_IROUTER877,Interrupt Routing Register 877" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B70++0x07 line.quad 0x00 "GICD_IROUTER878,Interrupt Routing Register 878" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B78++0x07 line.quad 0x00 "GICD_IROUTER879,Interrupt Routing Register 879" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B80++0x07 line.quad 0x00 "GICD_IROUTER880,Interrupt Routing Register 880" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B88++0x07 line.quad 0x00 "GICD_IROUTER881,Interrupt Routing Register 881" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B90++0x07 line.quad 0x00 "GICD_IROUTER882,Interrupt Routing Register 882" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7B98++0x07 line.quad 0x00 "GICD_IROUTER883,Interrupt Routing Register 883" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7BA0++0x07 line.quad 0x00 "GICD_IROUTER884,Interrupt Routing Register 884" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7BA8++0x07 line.quad 0x00 "GICD_IROUTER885,Interrupt Routing Register 885" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7BB0++0x07 line.quad 0x00 "GICD_IROUTER886,Interrupt Routing Register 886" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7BB8++0x07 line.quad 0x00 "GICD_IROUTER887,Interrupt Routing Register 887" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7BC0++0x07 line.quad 0x00 "GICD_IROUTER888,Interrupt Routing Register 888" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7BC8++0x07 line.quad 0x00 "GICD_IROUTER889,Interrupt Routing Register 889" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7BD0++0x07 line.quad 0x00 "GICD_IROUTER890,Interrupt Routing Register 890" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7BD8++0x07 line.quad 0x00 "GICD_IROUTER891,Interrupt Routing Register 891" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7BE0++0x07 line.quad 0x00 "GICD_IROUTER892,Interrupt Routing Register 892" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7BE8++0x07 line.quad 0x00 "GICD_IROUTER893,Interrupt Routing Register 893" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7BF0++0x07 line.quad 0x00 "GICD_IROUTER894,Interrupt Routing Register 894" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7BF8++0x07 line.quad 0x00 "GICD_IROUTER895,Interrupt Routing Register 895" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C00++0x07 line.quad 0x00 "GICD_IROUTER896,Interrupt Routing Register 896" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C08++0x07 line.quad 0x00 "GICD_IROUTER897,Interrupt Routing Register 897" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C10++0x07 line.quad 0x00 "GICD_IROUTER898,Interrupt Routing Register 898" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C18++0x07 line.quad 0x00 "GICD_IROUTER899,Interrupt Routing Register 899" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C20++0x07 line.quad 0x00 "GICD_IROUTER900,Interrupt Routing Register 900" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C28++0x07 line.quad 0x00 "GICD_IROUTER901,Interrupt Routing Register 901" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C30++0x07 line.quad 0x00 "GICD_IROUTER902,Interrupt Routing Register 902" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C38++0x07 line.quad 0x00 "GICD_IROUTER903,Interrupt Routing Register 903" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C40++0x07 line.quad 0x00 "GICD_IROUTER904,Interrupt Routing Register 904" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C48++0x07 line.quad 0x00 "GICD_IROUTER905,Interrupt Routing Register 905" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C50++0x07 line.quad 0x00 "GICD_IROUTER906,Interrupt Routing Register 906" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C58++0x07 line.quad 0x00 "GICD_IROUTER907,Interrupt Routing Register 907" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C60++0x07 line.quad 0x00 "GICD_IROUTER908,Interrupt Routing Register 908" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C68++0x07 line.quad 0x00 "GICD_IROUTER909,Interrupt Routing Register 909" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C70++0x07 line.quad 0x00 "GICD_IROUTER910,Interrupt Routing Register 910" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C78++0x07 line.quad 0x00 "GICD_IROUTER911,Interrupt Routing Register 911" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C80++0x07 line.quad 0x00 "GICD_IROUTER912,Interrupt Routing Register 912" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C88++0x07 line.quad 0x00 "GICD_IROUTER913,Interrupt Routing Register 913" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C90++0x07 line.quad 0x00 "GICD_IROUTER914,Interrupt Routing Register 914" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7C98++0x07 line.quad 0x00 "GICD_IROUTER915,Interrupt Routing Register 915" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7CA0++0x07 line.quad 0x00 "GICD_IROUTER916,Interrupt Routing Register 916" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7CA8++0x07 line.quad 0x00 "GICD_IROUTER917,Interrupt Routing Register 917" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7CB0++0x07 line.quad 0x00 "GICD_IROUTER918,Interrupt Routing Register 918" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7CB8++0x07 line.quad 0x00 "GICD_IROUTER919,Interrupt Routing Register 919" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7CC0++0x07 line.quad 0x00 "GICD_IROUTER920,Interrupt Routing Register 920" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7CC8++0x07 line.quad 0x00 "GICD_IROUTER921,Interrupt Routing Register 921" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7CD0++0x07 line.quad 0x00 "GICD_IROUTER922,Interrupt Routing Register 922" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7CD8++0x07 line.quad 0x00 "GICD_IROUTER923,Interrupt Routing Register 923" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7CE0++0x07 line.quad 0x00 "GICD_IROUTER924,Interrupt Routing Register 924" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7CE8++0x07 line.quad 0x00 "GICD_IROUTER925,Interrupt Routing Register 925" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7CF0++0x07 line.quad 0x00 "GICD_IROUTER926,Interrupt Routing Register 926" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7CF8++0x07 line.quad 0x00 "GICD_IROUTER927,Interrupt Routing Register 927" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D00++0x07 line.quad 0x00 "GICD_IROUTER928,Interrupt Routing Register 928" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D08++0x07 line.quad 0x00 "GICD_IROUTER929,Interrupt Routing Register 929" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D10++0x07 line.quad 0x00 "GICD_IROUTER930,Interrupt Routing Register 930" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D18++0x07 line.quad 0x00 "GICD_IROUTER931,Interrupt Routing Register 931" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D20++0x07 line.quad 0x00 "GICD_IROUTER932,Interrupt Routing Register 932" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D28++0x07 line.quad 0x00 "GICD_IROUTER933,Interrupt Routing Register 933" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D30++0x07 line.quad 0x00 "GICD_IROUTER934,Interrupt Routing Register 934" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D38++0x07 line.quad 0x00 "GICD_IROUTER935,Interrupt Routing Register 935" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D40++0x07 line.quad 0x00 "GICD_IROUTER936,Interrupt Routing Register 936" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D48++0x07 line.quad 0x00 "GICD_IROUTER937,Interrupt Routing Register 937" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D50++0x07 line.quad 0x00 "GICD_IROUTER938,Interrupt Routing Register 938" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D58++0x07 line.quad 0x00 "GICD_IROUTER939,Interrupt Routing Register 939" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D60++0x07 line.quad 0x00 "GICD_IROUTER940,Interrupt Routing Register 940" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D68++0x07 line.quad 0x00 "GICD_IROUTER941,Interrupt Routing Register 941" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D70++0x07 line.quad 0x00 "GICD_IROUTER942,Interrupt Routing Register 942" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D78++0x07 line.quad 0x00 "GICD_IROUTER943,Interrupt Routing Register 943" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D80++0x07 line.quad 0x00 "GICD_IROUTER944,Interrupt Routing Register 944" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D88++0x07 line.quad 0x00 "GICD_IROUTER945,Interrupt Routing Register 945" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D90++0x07 line.quad 0x00 "GICD_IROUTER946,Interrupt Routing Register 946" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7D98++0x07 line.quad 0x00 "GICD_IROUTER947,Interrupt Routing Register 947" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7DA0++0x07 line.quad 0x00 "GICD_IROUTER948,Interrupt Routing Register 948" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7DA8++0x07 line.quad 0x00 "GICD_IROUTER949,Interrupt Routing Register 949" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7DB0++0x07 line.quad 0x00 "GICD_IROUTER950,Interrupt Routing Register 950" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7DB8++0x07 line.quad 0x00 "GICD_IROUTER951,Interrupt Routing Register 951" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7DC0++0x07 line.quad 0x00 "GICD_IROUTER952,Interrupt Routing Register 952" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7DC8++0x07 line.quad 0x00 "GICD_IROUTER953,Interrupt Routing Register 953" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7DD0++0x07 line.quad 0x00 "GICD_IROUTER954,Interrupt Routing Register 954" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7DD8++0x07 line.quad 0x00 "GICD_IROUTER955,Interrupt Routing Register 955" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7DE0++0x07 line.quad 0x00 "GICD_IROUTER956,Interrupt Routing Register 956" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7DE8++0x07 line.quad 0x00 "GICD_IROUTER957,Interrupt Routing Register 957" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7DF0++0x07 line.quad 0x00 "GICD_IROUTER958,Interrupt Routing Register 958" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7DF8++0x07 line.quad 0x00 "GICD_IROUTER959,Interrupt Routing Register 959" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E00++0x07 line.quad 0x00 "GICD_IROUTER960,Interrupt Routing Register 960" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E08++0x07 line.quad 0x00 "GICD_IROUTER961,Interrupt Routing Register 961" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E10++0x07 line.quad 0x00 "GICD_IROUTER962,Interrupt Routing Register 962" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E18++0x07 line.quad 0x00 "GICD_IROUTER963,Interrupt Routing Register 963" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E20++0x07 line.quad 0x00 "GICD_IROUTER964,Interrupt Routing Register 964" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E28++0x07 line.quad 0x00 "GICD_IROUTER965,Interrupt Routing Register 965" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E30++0x07 line.quad 0x00 "GICD_IROUTER966,Interrupt Routing Register 966" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E38++0x07 line.quad 0x00 "GICD_IROUTER967,Interrupt Routing Register 967" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E40++0x07 line.quad 0x00 "GICD_IROUTER968,Interrupt Routing Register 968" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E48++0x07 line.quad 0x00 "GICD_IROUTER969,Interrupt Routing Register 969" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E50++0x07 line.quad 0x00 "GICD_IROUTER970,Interrupt Routing Register 970" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E58++0x07 line.quad 0x00 "GICD_IROUTER971,Interrupt Routing Register 971" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E60++0x07 line.quad 0x00 "GICD_IROUTER972,Interrupt Routing Register 972" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E68++0x07 line.quad 0x00 "GICD_IROUTER973,Interrupt Routing Register 973" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E70++0x07 line.quad 0x00 "GICD_IROUTER974,Interrupt Routing Register 974" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E78++0x07 line.quad 0x00 "GICD_IROUTER975,Interrupt Routing Register 975" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E80++0x07 line.quad 0x00 "GICD_IROUTER976,Interrupt Routing Register 976" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E88++0x07 line.quad 0x00 "GICD_IROUTER977,Interrupt Routing Register 977" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E90++0x07 line.quad 0x00 "GICD_IROUTER978,Interrupt Routing Register 978" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7E98++0x07 line.quad 0x00 "GICD_IROUTER979,Interrupt Routing Register 979" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7EA0++0x07 line.quad 0x00 "GICD_IROUTER980,Interrupt Routing Register 980" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7EA8++0x07 line.quad 0x00 "GICD_IROUTER981,Interrupt Routing Register 981" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7EB0++0x07 line.quad 0x00 "GICD_IROUTER982,Interrupt Routing Register 982" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7EB8++0x07 line.quad 0x00 "GICD_IROUTER983,Interrupt Routing Register 983" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7EC0++0x07 line.quad 0x00 "GICD_IROUTER984,Interrupt Routing Register 984" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7EC8++0x07 line.quad 0x00 "GICD_IROUTER985,Interrupt Routing Register 985" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7ED0++0x07 line.quad 0x00 "GICD_IROUTER986,Interrupt Routing Register 986" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7ED8++0x07 line.quad 0x00 "GICD_IROUTER987,Interrupt Routing Register 987" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7EE0++0x07 line.quad 0x00 "GICD_IROUTER988,Interrupt Routing Register 988" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7EE8++0x07 line.quad 0x00 "GICD_IROUTER989,Interrupt Routing Register 989" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7EF0++0x07 line.quad 0x00 "GICD_IROUTER990,Interrupt Routing Register 990" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" group.quad 0x7EF8++0x07 line.quad 0x00 "GICD_IROUTER991,Interrupt Routing Register 991" hexmask.quad.byte 0x00 32.--39. 1. " AFF3 ,Affinity level 3" bitfld.quad 0x00 31. " IRM ,Interrupt Routing Mode. Defines how SPIs are routed in an affinity hierarchy" "PE specified by AFFn fields,Any PE defined as a participating node" textline " " hexmask.quad.byte 0x00 16.--23. 1. " AFF2 ,Affinity level 2" hexmask.quad.byte 0x00 8.--15. 1. " AFF1 ,Affinity level 1" textline " " hexmask.quad.byte 0x00 0.--7. 1. " AFF0 ,Affinity level 0" tree.end width 22. tree "Implementation Defined Test Registers" rgroup.long 0xC000++0x03 line.long 0x00 "GICD_ESTATUSR,GICD_ESTATUSR" bitfld.long 0x00 31. " SRWP ,Super Register Write Pending" "Not pending,Pending" wgroup.long 0xC004++0x03 line.long 0x00 "GICD_ERRTESTR,Error Test Register" bitfld.long 0x00 1. " AXIM_ERR ,Drives the axim_err pin to 0b1 for 1 cycle" "Low,High" bitfld.long 0x00 0. " ECC_FATAL ,Drives the ecc_fatal pin to 0b1 for 1 cycle" "Low,High" textline " " if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x01) rgroup.long 0xC084++0x03 line.long 0x0 "GICD_SPISR0,Shared Peripheral Interrupt Status Register 0" bitfld.long 0x00 31. " SPIS63 ,SPI Status Bit 63" "Low,High" bitfld.long 0x00 30. " SPIS62 ,SPI Status Bit 62" "Low,High" bitfld.long 0x00 29. " SPIS61 ,SPI Status Bit 61" "Low,High" textline " " bitfld.long 0x00 28. " SPIS60 ,SPI Status Bit 60" "Low,High" bitfld.long 0x00 27. " SPIS59 ,SPI Status Bit 59" "Low,High" bitfld.long 0x00 26. " SPIS58 ,SPI Status Bit 58" "Low,High" textline " " bitfld.long 0x00 25. " SPIS57 ,SPI Status Bit 57" "Low,High" bitfld.long 0x00 24. " SPIS56 ,SPI Status Bit 56" "Low,High" bitfld.long 0x00 23. " SPIS55 ,SPI Status Bit 55" "Low,High" textline " " bitfld.long 0x00 22. " SPIS54 ,SPI Status Bit 54" "Low,High" bitfld.long 0x00 21. " SPIS53 ,SPI Status Bit 53" "Low,High" bitfld.long 0x00 20. " SPIS52 ,SPI Status Bit 52" "Low,High" textline " " bitfld.long 0x00 19. " SPIS51 ,SPI Status Bit 51" "Low,High" bitfld.long 0x00 18. " SPIS50 ,SPI Status Bit 50" "Low,High" bitfld.long 0x00 17. " SPIS49 ,SPI Status Bit 49" "Low,High" textline " " bitfld.long 0x00 16. " SPIS48 ,SPI Status Bit 48" "Low,High" bitfld.long 0x00 15. " SPIS47 ,SPI Status Bit 47" "Low,High" bitfld.long 0x00 14. " SPIS46 ,SPI Status Bit 46" "Low,High" textline " " bitfld.long 0x00 13. " SPIS45 ,SPI Status Bit 45" "Low,High" bitfld.long 0x00 12. " SPIS44 ,SPI Status Bit 44" "Low,High" bitfld.long 0x00 11. " SPIS43 ,SPI Status Bit 43" "Low,High" textline " " bitfld.long 0x00 10. " SPIS42 ,SPI Status Bit 42" "Low,High" bitfld.long 0x00 9. " SPIS41 ,SPI Status Bit 41" "Low,High" bitfld.long 0x00 8. " SPIS40 ,SPI Status Bit 40" "Low,High" textline " " bitfld.long 0x00 7. " SPIS39 ,SPI Status Bit 39" "Low,High" bitfld.long 0x00 6. " SPIS38 ,SPI Status Bit 38" "Low,High" bitfld.long 0x00 5. " SPIS37 ,SPI Status Bit 37" "Low,High" textline " " bitfld.long 0x00 4. " SPIS36 ,SPI Status Bit 36" "Low,High" bitfld.long 0x00 3. " SPIS35 ,SPI Status Bit 35" "Low,High" bitfld.long 0x00 2. " SPIS34 ,SPI Status Bit 34" "Low,High" textline " " bitfld.long 0x00 1. " SPIS33 ,SPI Status Bit 33" "Low,High" bitfld.long 0x00 0. " SPIS32 ,SPI Status Bit 32" "Low,High" else hgroup.long 0xC084++0x03 hide.long 0x0 "GICD_SPISR0,Shared Peripheral Interrupt Status Register 0" textline " " textline " " textline " " textline " " textline " " textline " " textline " " textline " " textline " " textline " " endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x02) rgroup.long 0xC088++0x03 line.long 0x0 "GICD_SPISR1,Shared Peripheral Interrupt Status Register 1" bitfld.long 0x00 31. " SPIS95 ,SPI Status Bit 95" "Low,High" bitfld.long 0x00 30. " SPIS94 ,SPI Status Bit 94" "Low,High" bitfld.long 0x00 29. " SPIS93 ,SPI Status Bit 93" "Low,High" textline " " bitfld.long 0x00 28. " SPIS92 ,SPI Status Bit 92" "Low,High" bitfld.long 0x00 27. " SPIS91 ,SPI Status Bit 91" "Low,High" bitfld.long 0x00 26. " SPIS90 ,SPI Status Bit 90" "Low,High" textline " " bitfld.long 0x00 25. " SPIS89 ,SPI Status Bit 89" "Low,High" bitfld.long 0x00 24. " SPIS88 ,SPI Status Bit 88" "Low,High" bitfld.long 0x00 23. " SPIS87 ,SPI Status Bit 87" "Low,High" textline " " bitfld.long 0x00 22. " SPIS86 ,SPI Status Bit 86" "Low,High" bitfld.long 0x00 21. " SPIS85 ,SPI Status Bit 85" "Low,High" bitfld.long 0x00 20. " SPIS84 ,SPI Status Bit 84" "Low,High" textline " " bitfld.long 0x00 19. " SPIS83 ,SPI Status Bit 83" "Low,High" bitfld.long 0x00 18. " SPIS82 ,SPI Status Bit 82" "Low,High" bitfld.long 0x00 17. " SPIS81 ,SPI Status Bit 81" "Low,High" textline " " bitfld.long 0x00 16. " SPIS80 ,SPI Status Bit 80" "Low,High" bitfld.long 0x00 15. " SPIS79 ,SPI Status Bit 79" "Low,High" bitfld.long 0x00 14. " SPIS78 ,SPI Status Bit 78" "Low,High" textline " " bitfld.long 0x00 13. " SPIS77 ,SPI Status Bit 77" "Low,High" bitfld.long 0x00 12. " SPIS76 ,SPI Status Bit 76" "Low,High" bitfld.long 0x00 11. " SPIS75 ,SPI Status Bit 75" "Low,High" textline " " bitfld.long 0x00 10. " SPIS74 ,SPI Status Bit 74" "Low,High" bitfld.long 0x00 9. " SPIS73 ,SPI Status Bit 73" "Low,High" bitfld.long 0x00 8. " SPIS72 ,SPI Status Bit 72" "Low,High" textline " " bitfld.long 0x00 7. " SPIS71 ,SPI Status Bit 71" "Low,High" bitfld.long 0x00 6. " SPIS70 ,SPI Status Bit 70" "Low,High" bitfld.long 0x00 5. " SPIS69 ,SPI Status Bit 69" "Low,High" textline " " bitfld.long 0x00 4. " SPIS68 ,SPI Status Bit 68" "Low,High" bitfld.long 0x00 3. " SPIS67 ,SPI Status Bit 67" "Low,High" bitfld.long 0x00 2. " SPIS66 ,SPI Status Bit 66" "Low,High" textline " " bitfld.long 0x00 1. " SPIS65 ,SPI Status Bit 65" "Low,High" bitfld.long 0x00 0. " SPIS64 ,SPI Status Bit 64" "Low,High" else hgroup.long 0xC088++0x03 hide.long 0x0 "GICD_SPISR1,Shared Peripheral Interrupt Status Register 1" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x03) rgroup.long 0xC08C++0x03 line.long 0x0 "GICD_SPISR2,Shared Peripheral Interrupt Status Register 2" bitfld.long 0x00 31. " SPIS127 ,SPI Status Bit 127" "Low,High" bitfld.long 0x00 30. " SPIS126 ,SPI Status Bit 126" "Low,High" bitfld.long 0x00 29. " SPIS125 ,SPI Status Bit 125" "Low,High" textline " " bitfld.long 0x00 28. " SPIS124 ,SPI Status Bit 124" "Low,High" bitfld.long 0x00 27. " SPIS123 ,SPI Status Bit 123" "Low,High" bitfld.long 0x00 26. " SPIS122 ,SPI Status Bit 122" "Low,High" textline " " bitfld.long 0x00 25. " SPIS121 ,SPI Status Bit 121" "Low,High" bitfld.long 0x00 24. " SPIS120 ,SPI Status Bit 120" "Low,High" bitfld.long 0x00 23. " SPIS119 ,SPI Status Bit 119" "Low,High" textline " " bitfld.long 0x00 22. " SPIS118 ,SPI Status Bit 118" "Low,High" bitfld.long 0x00 21. " SPIS117 ,SPI Status Bit 117" "Low,High" bitfld.long 0x00 20. " SPIS116 ,SPI Status Bit 116" "Low,High" textline " " bitfld.long 0x00 19. " SPIS115 ,SPI Status Bit 115" "Low,High" bitfld.long 0x00 18. " SPIS114 ,SPI Status Bit 114" "Low,High" bitfld.long 0x00 17. " SPIS113 ,SPI Status Bit 113" "Low,High" textline " " bitfld.long 0x00 16. " SPIS112 ,SPI Status Bit 112" "Low,High" bitfld.long 0x00 15. " SPIS111 ,SPI Status Bit 111" "Low,High" bitfld.long 0x00 14. " SPIS110 ,SPI Status Bit 110" "Low,High" textline " " bitfld.long 0x00 13. " SPIS109 ,SPI Status Bit 109" "Low,High" bitfld.long 0x00 12. " SPIS108 ,SPI Status Bit 108" "Low,High" bitfld.long 0x00 11. " SPIS107 ,SPI Status Bit 107" "Low,High" textline " " bitfld.long 0x00 10. " SPIS106 ,SPI Status Bit 106" "Low,High" bitfld.long 0x00 9. " SPIS105 ,SPI Status Bit 105" "Low,High" bitfld.long 0x00 8. " SPIS104 ,SPI Status Bit 104" "Low,High" textline " " bitfld.long 0x00 7. " SPIS103 ,SPI Status Bit 103" "Low,High" bitfld.long 0x00 6. " SPIS102 ,SPI Status Bit 102" "Low,High" bitfld.long 0x00 5. " SPIS101 ,SPI Status Bit 101" "Low,High" textline " " bitfld.long 0x00 4. " SPIS100 ,SPI Status Bit 100" "Low,High" bitfld.long 0x00 3. " SPIS99 ,SPI Status Bit 99" "Low,High" bitfld.long 0x00 2. " SPIS98 ,SPI Status Bit 98" "Low,High" textline " " bitfld.long 0x00 1. " SPIS97 ,SPI Status Bit 97" "Low,High" bitfld.long 0x00 0. " SPIS96 ,SPI Status Bit 96" "Low,High" else hgroup.long 0xC08C++0x03 hide.long 0x0 "GICD_SPISR2,Shared Peripheral Interrupt Status Register 2" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x04) rgroup.long 0xC090++0x03 line.long 0x0 "GICD_SPISR3,Shared Peripheral Interrupt Status Register 3" bitfld.long 0x00 31. " SPIS159 ,SPI Status Bit 159" "Low,High" bitfld.long 0x00 30. " SPIS158 ,SPI Status Bit 158" "Low,High" bitfld.long 0x00 29. " SPIS157 ,SPI Status Bit 157" "Low,High" textline " " bitfld.long 0x00 28. " SPIS156 ,SPI Status Bit 156" "Low,High" bitfld.long 0x00 27. " SPIS155 ,SPI Status Bit 155" "Low,High" bitfld.long 0x00 26. " SPIS154 ,SPI Status Bit 154" "Low,High" textline " " bitfld.long 0x00 25. " SPIS153 ,SPI Status Bit 153" "Low,High" bitfld.long 0x00 24. " SPIS152 ,SPI Status Bit 152" "Low,High" bitfld.long 0x00 23. " SPIS151 ,SPI Status Bit 151" "Low,High" textline " " bitfld.long 0x00 22. " SPIS150 ,SPI Status Bit 150" "Low,High" bitfld.long 0x00 21. " SPIS149 ,SPI Status Bit 149" "Low,High" bitfld.long 0x00 20. " SPIS148 ,SPI Status Bit 148" "Low,High" textline " " bitfld.long 0x00 19. " SPIS147 ,SPI Status Bit 147" "Low,High" bitfld.long 0x00 18. " SPIS146 ,SPI Status Bit 146" "Low,High" bitfld.long 0x00 17. " SPIS145 ,SPI Status Bit 145" "Low,High" textline " " bitfld.long 0x00 16. " SPIS144 ,SPI Status Bit 144" "Low,High" bitfld.long 0x00 15. " SPIS143 ,SPI Status Bit 143" "Low,High" bitfld.long 0x00 14. " SPIS142 ,SPI Status Bit 142" "Low,High" textline " " bitfld.long 0x00 13. " SPIS141 ,SPI Status Bit 141" "Low,High" bitfld.long 0x00 12. " SPIS140 ,SPI Status Bit 140" "Low,High" bitfld.long 0x00 11. " SPIS139 ,SPI Status Bit 139" "Low,High" textline " " bitfld.long 0x00 10. " SPIS138 ,SPI Status Bit 138" "Low,High" bitfld.long 0x00 9. " SPIS137 ,SPI Status Bit 137" "Low,High" bitfld.long 0x00 8. " SPIS136 ,SPI Status Bit 136" "Low,High" textline " " bitfld.long 0x00 7. " SPIS135 ,SPI Status Bit 135" "Low,High" bitfld.long 0x00 6. " SPIS134 ,SPI Status Bit 134" "Low,High" bitfld.long 0x00 5. " SPIS133 ,SPI Status Bit 133" "Low,High" textline " " bitfld.long 0x00 4. " SPIS132 ,SPI Status Bit 132" "Low,High" bitfld.long 0x00 3. " SPIS131 ,SPI Status Bit 131" "Low,High" bitfld.long 0x00 2. " SPIS130 ,SPI Status Bit 130" "Low,High" textline " " bitfld.long 0x00 1. " SPIS129 ,SPI Status Bit 129" "Low,High" bitfld.long 0x00 0. " SPIS128 ,SPI Status Bit 128" "Low,High" else hgroup.long 0xC090++0x03 hide.long 0x0 "GICD_SPISR3,Shared Peripheral Interrupt Status Register 3" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x05) rgroup.long 0xC094++0x03 line.long 0x0 "GICD_SPISR4,Shared Peripheral Interrupt Status Register 4" bitfld.long 0x00 31. " SPIS191 ,SPI Status Bit 191" "Low,High" bitfld.long 0x00 30. " SPIS190 ,SPI Status Bit 190" "Low,High" bitfld.long 0x00 29. " SPIS189 ,SPI Status Bit 189" "Low,High" textline " " bitfld.long 0x00 28. " SPIS188 ,SPI Status Bit 188" "Low,High" bitfld.long 0x00 27. " SPIS187 ,SPI Status Bit 187" "Low,High" bitfld.long 0x00 26. " SPIS186 ,SPI Status Bit 186" "Low,High" textline " " bitfld.long 0x00 25. " SPIS185 ,SPI Status Bit 185" "Low,High" bitfld.long 0x00 24. " SPIS184 ,SPI Status Bit 184" "Low,High" bitfld.long 0x00 23. " SPIS183 ,SPI Status Bit 183" "Low,High" textline " " bitfld.long 0x00 22. " SPIS182 ,SPI Status Bit 182" "Low,High" bitfld.long 0x00 21. " SPIS181 ,SPI Status Bit 181" "Low,High" bitfld.long 0x00 20. " SPIS180 ,SPI Status Bit 180" "Low,High" textline " " bitfld.long 0x00 19. " SPIS179 ,SPI Status Bit 179" "Low,High" bitfld.long 0x00 18. " SPIS178 ,SPI Status Bit 178" "Low,High" bitfld.long 0x00 17. " SPIS177 ,SPI Status Bit 177" "Low,High" textline " " bitfld.long 0x00 16. " SPIS176 ,SPI Status Bit 176" "Low,High" bitfld.long 0x00 15. " SPIS175 ,SPI Status Bit 175" "Low,High" bitfld.long 0x00 14. " SPIS174 ,SPI Status Bit 174" "Low,High" textline " " bitfld.long 0x00 13. " SPIS173 ,SPI Status Bit 173" "Low,High" bitfld.long 0x00 12. " SPIS172 ,SPI Status Bit 172" "Low,High" bitfld.long 0x00 11. " SPIS171 ,SPI Status Bit 171" "Low,High" textline " " bitfld.long 0x00 10. " SPIS170 ,SPI Status Bit 170" "Low,High" bitfld.long 0x00 9. " SPIS169 ,SPI Status Bit 169" "Low,High" bitfld.long 0x00 8. " SPIS168 ,SPI Status Bit 168" "Low,High" textline " " bitfld.long 0x00 7. " SPIS167 ,SPI Status Bit 167" "Low,High" bitfld.long 0x00 6. " SPIS166 ,SPI Status Bit 166" "Low,High" bitfld.long 0x00 5. " SPIS165 ,SPI Status Bit 165" "Low,High" textline " " bitfld.long 0x00 4. " SPIS164 ,SPI Status Bit 164" "Low,High" bitfld.long 0x00 3. " SPIS163 ,SPI Status Bit 163" "Low,High" bitfld.long 0x00 2. " SPIS162 ,SPI Status Bit 162" "Low,High" textline " " bitfld.long 0x00 1. " SPIS161 ,SPI Status Bit 161" "Low,High" bitfld.long 0x00 0. " SPIS160 ,SPI Status Bit 160" "Low,High" else hgroup.long 0xC094++0x03 hide.long 0x0 "GICD_SPISR4,Shared Peripheral Interrupt Status Register 4" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x06) rgroup.long 0xC098++0x03 line.long 0x0 "GICD_SPISR5,Shared Peripheral Interrupt Status Register 5" bitfld.long 0x00 31. " SPIS223 ,SPI Status Bit 223" "Low,High" bitfld.long 0x00 30. " SPIS222 ,SPI Status Bit 222" "Low,High" bitfld.long 0x00 29. " SPIS221 ,SPI Status Bit 221" "Low,High" textline " " bitfld.long 0x00 28. " SPIS220 ,SPI Status Bit 220" "Low,High" bitfld.long 0x00 27. " SPIS219 ,SPI Status Bit 219" "Low,High" bitfld.long 0x00 26. " SPIS218 ,SPI Status Bit 218" "Low,High" textline " " bitfld.long 0x00 25. " SPIS217 ,SPI Status Bit 217" "Low,High" bitfld.long 0x00 24. " SPIS216 ,SPI Status Bit 216" "Low,High" bitfld.long 0x00 23. " SPIS215 ,SPI Status Bit 215" "Low,High" textline " " bitfld.long 0x00 22. " SPIS214 ,SPI Status Bit 214" "Low,High" bitfld.long 0x00 21. " SPIS213 ,SPI Status Bit 213" "Low,High" bitfld.long 0x00 20. " SPIS212 ,SPI Status Bit 212" "Low,High" textline " " bitfld.long 0x00 19. " SPIS211 ,SPI Status Bit 211" "Low,High" bitfld.long 0x00 18. " SPIS210 ,SPI Status Bit 210" "Low,High" bitfld.long 0x00 17. " SPIS209 ,SPI Status Bit 209" "Low,High" textline " " bitfld.long 0x00 16. " SPIS208 ,SPI Status Bit 208" "Low,High" bitfld.long 0x00 15. " SPIS207 ,SPI Status Bit 207" "Low,High" bitfld.long 0x00 14. " SPIS206 ,SPI Status Bit 206" "Low,High" textline " " bitfld.long 0x00 13. " SPIS205 ,SPI Status Bit 205" "Low,High" bitfld.long 0x00 12. " SPIS204 ,SPI Status Bit 204" "Low,High" bitfld.long 0x00 11. " SPIS203 ,SPI Status Bit 203" "Low,High" textline " " bitfld.long 0x00 10. " SPIS202 ,SPI Status Bit 202" "Low,High" bitfld.long 0x00 9. " SPIS201 ,SPI Status Bit 201" "Low,High" bitfld.long 0x00 8. " SPIS200 ,SPI Status Bit 200" "Low,High" textline " " bitfld.long 0x00 7. " SPIS199 ,SPI Status Bit 199" "Low,High" bitfld.long 0x00 6. " SPIS198 ,SPI Status Bit 198" "Low,High" bitfld.long 0x00 5. " SPIS197 ,SPI Status Bit 197" "Low,High" textline " " bitfld.long 0x00 4. " SPIS196 ,SPI Status Bit 196" "Low,High" bitfld.long 0x00 3. " SPIS195 ,SPI Status Bit 195" "Low,High" bitfld.long 0x00 2. " SPIS194 ,SPI Status Bit 194" "Low,High" textline " " bitfld.long 0x00 1. " SPIS193 ,SPI Status Bit 193" "Low,High" bitfld.long 0x00 0. " SPIS192 ,SPI Status Bit 192" "Low,High" else hgroup.long 0xC098++0x03 hide.long 0x0 "GICD_SPISR5,Shared Peripheral Interrupt Status Register 5" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x07) rgroup.long 0xC09C++0x03 line.long 0x0 "GICD_SPISR6,Shared Peripheral Interrupt Status Register 6" bitfld.long 0x00 31. " SPIS255 ,SPI Status Bit 255" "Low,High" bitfld.long 0x00 30. " SPIS254 ,SPI Status Bit 254" "Low,High" bitfld.long 0x00 29. " SPIS253 ,SPI Status Bit 253" "Low,High" textline " " bitfld.long 0x00 28. " SPIS252 ,SPI Status Bit 252" "Low,High" bitfld.long 0x00 27. " SPIS251 ,SPI Status Bit 251" "Low,High" bitfld.long 0x00 26. " SPIS250 ,SPI Status Bit 250" "Low,High" textline " " bitfld.long 0x00 25. " SPIS249 ,SPI Status Bit 249" "Low,High" bitfld.long 0x00 24. " SPIS248 ,SPI Status Bit 248" "Low,High" bitfld.long 0x00 23. " SPIS247 ,SPI Status Bit 247" "Low,High" textline " " bitfld.long 0x00 22. " SPIS246 ,SPI Status Bit 246" "Low,High" bitfld.long 0x00 21. " SPIS245 ,SPI Status Bit 245" "Low,High" bitfld.long 0x00 20. " SPIS244 ,SPI Status Bit 244" "Low,High" textline " " bitfld.long 0x00 19. " SPIS243 ,SPI Status Bit 243" "Low,High" bitfld.long 0x00 18. " SPIS242 ,SPI Status Bit 242" "Low,High" bitfld.long 0x00 17. " SPIS241 ,SPI Status Bit 241" "Low,High" textline " " bitfld.long 0x00 16. " SPIS240 ,SPI Status Bit 240" "Low,High" bitfld.long 0x00 15. " SPIS239 ,SPI Status Bit 239" "Low,High" bitfld.long 0x00 14. " SPIS238 ,SPI Status Bit 238" "Low,High" textline " " bitfld.long 0x00 13. " SPIS237 ,SPI Status Bit 237" "Low,High" bitfld.long 0x00 12. " SPIS236 ,SPI Status Bit 236" "Low,High" bitfld.long 0x00 11. " SPIS235 ,SPI Status Bit 235" "Low,High" textline " " bitfld.long 0x00 10. " SPIS234 ,SPI Status Bit 234" "Low,High" bitfld.long 0x00 9. " SPIS233 ,SPI Status Bit 233" "Low,High" bitfld.long 0x00 8. " SPIS232 ,SPI Status Bit 232" "Low,High" textline " " bitfld.long 0x00 7. " SPIS231 ,SPI Status Bit 231" "Low,High" bitfld.long 0x00 6. " SPIS230 ,SPI Status Bit 230" "Low,High" bitfld.long 0x00 5. " SPIS229 ,SPI Status Bit 229" "Low,High" textline " " bitfld.long 0x00 4. " SPIS228 ,SPI Status Bit 228" "Low,High" bitfld.long 0x00 3. " SPIS227 ,SPI Status Bit 227" "Low,High" bitfld.long 0x00 2. " SPIS226 ,SPI Status Bit 226" "Low,High" textline " " bitfld.long 0x00 1. " SPIS225 ,SPI Status Bit 225" "Low,High" bitfld.long 0x00 0. " SPIS224 ,SPI Status Bit 224" "Low,High" else hgroup.long 0xC09C++0x03 hide.long 0x0 "GICD_SPISR6,Shared Peripheral Interrupt Status Register 6" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x08) rgroup.long 0xC0A0++0x03 line.long 0x0 "GICD_SPISR7,Shared Peripheral Interrupt Status Register 7" bitfld.long 0x00 31. " SPIS287 ,SPI Status Bit 287" "Low,High" bitfld.long 0x00 30. " SPIS286 ,SPI Status Bit 286" "Low,High" bitfld.long 0x00 29. " SPIS285 ,SPI Status Bit 285" "Low,High" textline " " bitfld.long 0x00 28. " SPIS284 ,SPI Status Bit 284" "Low,High" bitfld.long 0x00 27. " SPIS283 ,SPI Status Bit 283" "Low,High" bitfld.long 0x00 26. " SPIS282 ,SPI Status Bit 282" "Low,High" textline " " bitfld.long 0x00 25. " SPIS281 ,SPI Status Bit 281" "Low,High" bitfld.long 0x00 24. " SPIS280 ,SPI Status Bit 280" "Low,High" bitfld.long 0x00 23. " SPIS279 ,SPI Status Bit 279" "Low,High" textline " " bitfld.long 0x00 22. " SPIS278 ,SPI Status Bit 278" "Low,High" bitfld.long 0x00 21. " SPIS277 ,SPI Status Bit 277" "Low,High" bitfld.long 0x00 20. " SPIS276 ,SPI Status Bit 276" "Low,High" textline " " bitfld.long 0x00 19. " SPIS275 ,SPI Status Bit 275" "Low,High" bitfld.long 0x00 18. " SPIS274 ,SPI Status Bit 274" "Low,High" bitfld.long 0x00 17. " SPIS273 ,SPI Status Bit 273" "Low,High" textline " " bitfld.long 0x00 16. " SPIS272 ,SPI Status Bit 272" "Low,High" bitfld.long 0x00 15. " SPIS271 ,SPI Status Bit 271" "Low,High" bitfld.long 0x00 14. " SPIS270 ,SPI Status Bit 270" "Low,High" textline " " bitfld.long 0x00 13. " SPIS269 ,SPI Status Bit 269" "Low,High" bitfld.long 0x00 12. " SPIS268 ,SPI Status Bit 268" "Low,High" bitfld.long 0x00 11. " SPIS267 ,SPI Status Bit 267" "Low,High" textline " " bitfld.long 0x00 10. " SPIS266 ,SPI Status Bit 266" "Low,High" bitfld.long 0x00 9. " SPIS265 ,SPI Status Bit 265" "Low,High" bitfld.long 0x00 8. " SPIS264 ,SPI Status Bit 264" "Low,High" textline " " bitfld.long 0x00 7. " SPIS263 ,SPI Status Bit 263" "Low,High" bitfld.long 0x00 6. " SPIS262 ,SPI Status Bit 262" "Low,High" bitfld.long 0x00 5. " SPIS261 ,SPI Status Bit 261" "Low,High" textline " " bitfld.long 0x00 4. " SPIS260 ,SPI Status Bit 260" "Low,High" bitfld.long 0x00 3. " SPIS259 ,SPI Status Bit 259" "Low,High" bitfld.long 0x00 2. " SPIS258 ,SPI Status Bit 258" "Low,High" textline " " bitfld.long 0x00 1. " SPIS257 ,SPI Status Bit 257" "Low,High" bitfld.long 0x00 0. " SPIS256 ,SPI Status Bit 256" "Low,High" else hgroup.long 0xC0A0++0x03 hide.long 0x0 "GICD_SPISR7,Shared Peripheral Interrupt Status Register 7" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x09) rgroup.long 0xC0A4++0x03 line.long 0x0 "GICD_SPISR8,Shared Peripheral Interrupt Status Register 8" bitfld.long 0x00 31. " SPIS319 ,SPI Status Bit 319" "Low,High" bitfld.long 0x00 30. " SPIS318 ,SPI Status Bit 318" "Low,High" bitfld.long 0x00 29. " SPIS317 ,SPI Status Bit 317" "Low,High" textline " " bitfld.long 0x00 28. " SPIS316 ,SPI Status Bit 316" "Low,High" bitfld.long 0x00 27. " SPIS315 ,SPI Status Bit 315" "Low,High" bitfld.long 0x00 26. " SPIS314 ,SPI Status Bit 314" "Low,High" textline " " bitfld.long 0x00 25. " SPIS313 ,SPI Status Bit 313" "Low,High" bitfld.long 0x00 24. " SPIS312 ,SPI Status Bit 312" "Low,High" bitfld.long 0x00 23. " SPIS311 ,SPI Status Bit 311" "Low,High" textline " " bitfld.long 0x00 22. " SPIS310 ,SPI Status Bit 310" "Low,High" bitfld.long 0x00 21. " SPIS309 ,SPI Status Bit 309" "Low,High" bitfld.long 0x00 20. " SPIS308 ,SPI Status Bit 308" "Low,High" textline " " bitfld.long 0x00 19. " SPIS307 ,SPI Status Bit 307" "Low,High" bitfld.long 0x00 18. " SPIS306 ,SPI Status Bit 306" "Low,High" bitfld.long 0x00 17. " SPIS305 ,SPI Status Bit 305" "Low,High" textline " " bitfld.long 0x00 16. " SPIS304 ,SPI Status Bit 304" "Low,High" bitfld.long 0x00 15. " SPIS303 ,SPI Status Bit 303" "Low,High" bitfld.long 0x00 14. " SPIS302 ,SPI Status Bit 302" "Low,High" textline " " bitfld.long 0x00 13. " SPIS301 ,SPI Status Bit 301" "Low,High" bitfld.long 0x00 12. " SPIS300 ,SPI Status Bit 300" "Low,High" bitfld.long 0x00 11. " SPIS299 ,SPI Status Bit 299" "Low,High" textline " " bitfld.long 0x00 10. " SPIS298 ,SPI Status Bit 298" "Low,High" bitfld.long 0x00 9. " SPIS297 ,SPI Status Bit 297" "Low,High" bitfld.long 0x00 8. " SPIS296 ,SPI Status Bit 296" "Low,High" textline " " bitfld.long 0x00 7. " SPIS295 ,SPI Status Bit 295" "Low,High" bitfld.long 0x00 6. " SPIS294 ,SPI Status Bit 294" "Low,High" bitfld.long 0x00 5. " SPIS293 ,SPI Status Bit 293" "Low,High" textline " " bitfld.long 0x00 4. " SPIS292 ,SPI Status Bit 292" "Low,High" bitfld.long 0x00 3. " SPIS291 ,SPI Status Bit 291" "Low,High" bitfld.long 0x00 2. " SPIS290 ,SPI Status Bit 290" "Low,High" textline " " bitfld.long 0x00 1. " SPIS289 ,SPI Status Bit 289" "Low,High" bitfld.long 0x00 0. " SPIS288 ,SPI Status Bit 288" "Low,High" else hgroup.long 0xC0A4++0x03 hide.long 0x0 "GICD_SPISR8,Shared Peripheral Interrupt Status Register 8" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x0A) rgroup.long 0xC0A8++0x03 line.long 0x0 "GICD_SPISR9,Shared Peripheral Interrupt Status Register 9" bitfld.long 0x00 31. " SPIS351 ,SPI Status Bit 351" "Low,High" bitfld.long 0x00 30. " SPIS350 ,SPI Status Bit 350" "Low,High" bitfld.long 0x00 29. " SPIS349 ,SPI Status Bit 349" "Low,High" textline " " bitfld.long 0x00 28. " SPIS348 ,SPI Status Bit 348" "Low,High" bitfld.long 0x00 27. " SPIS347 ,SPI Status Bit 347" "Low,High" bitfld.long 0x00 26. " SPIS346 ,SPI Status Bit 346" "Low,High" textline " " bitfld.long 0x00 25. " SPIS345 ,SPI Status Bit 345" "Low,High" bitfld.long 0x00 24. " SPIS344 ,SPI Status Bit 344" "Low,High" bitfld.long 0x00 23. " SPIS343 ,SPI Status Bit 343" "Low,High" textline " " bitfld.long 0x00 22. " SPIS342 ,SPI Status Bit 342" "Low,High" bitfld.long 0x00 21. " SPIS341 ,SPI Status Bit 341" "Low,High" bitfld.long 0x00 20. " SPIS340 ,SPI Status Bit 340" "Low,High" textline " " bitfld.long 0x00 19. " SPIS339 ,SPI Status Bit 339" "Low,High" bitfld.long 0x00 18. " SPIS338 ,SPI Status Bit 338" "Low,High" bitfld.long 0x00 17. " SPIS337 ,SPI Status Bit 337" "Low,High" textline " " bitfld.long 0x00 16. " SPIS336 ,SPI Status Bit 336" "Low,High" bitfld.long 0x00 15. " SPIS335 ,SPI Status Bit 335" "Low,High" bitfld.long 0x00 14. " SPIS334 ,SPI Status Bit 334" "Low,High" textline " " bitfld.long 0x00 13. " SPIS333 ,SPI Status Bit 333" "Low,High" bitfld.long 0x00 12. " SPIS332 ,SPI Status Bit 332" "Low,High" bitfld.long 0x00 11. " SPIS331 ,SPI Status Bit 331" "Low,High" textline " " bitfld.long 0x00 10. " SPIS330 ,SPI Status Bit 330" "Low,High" bitfld.long 0x00 9. " SPIS329 ,SPI Status Bit 329" "Low,High" bitfld.long 0x00 8. " SPIS328 ,SPI Status Bit 328" "Low,High" textline " " bitfld.long 0x00 7. " SPIS327 ,SPI Status Bit 327" "Low,High" bitfld.long 0x00 6. " SPIS326 ,SPI Status Bit 326" "Low,High" bitfld.long 0x00 5. " SPIS325 ,SPI Status Bit 325" "Low,High" textline " " bitfld.long 0x00 4. " SPIS324 ,SPI Status Bit 324" "Low,High" bitfld.long 0x00 3. " SPIS323 ,SPI Status Bit 323" "Low,High" bitfld.long 0x00 2. " SPIS322 ,SPI Status Bit 322" "Low,High" textline " " bitfld.long 0x00 1. " SPIS321 ,SPI Status Bit 321" "Low,High" bitfld.long 0x00 0. " SPIS320 ,SPI Status Bit 320" "Low,High" else hgroup.long 0xC0A8++0x03 hide.long 0x0 "GICD_SPISR9,Shared Peripheral Interrupt Status Register 9" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x0B) rgroup.long 0xC0AC++0x03 line.long 0x0 "GICD_SPISR10,Shared Peripheral Interrupt Status Register 10" bitfld.long 0x00 31. " SPIS383 ,SPI Status Bit 383" "Low,High" bitfld.long 0x00 30. " SPIS382 ,SPI Status Bit 382" "Low,High" bitfld.long 0x00 29. " SPIS381 ,SPI Status Bit 381" "Low,High" textline " " bitfld.long 0x00 28. " SPIS380 ,SPI Status Bit 380" "Low,High" bitfld.long 0x00 27. " SPIS379 ,SPI Status Bit 379" "Low,High" bitfld.long 0x00 26. " SPIS378 ,SPI Status Bit 378" "Low,High" textline " " bitfld.long 0x00 25. " SPIS377 ,SPI Status Bit 377" "Low,High" bitfld.long 0x00 24. " SPIS376 ,SPI Status Bit 376" "Low,High" bitfld.long 0x00 23. " SPIS375 ,SPI Status Bit 375" "Low,High" textline " " bitfld.long 0x00 22. " SPIS374 ,SPI Status Bit 374" "Low,High" bitfld.long 0x00 21. " SPIS373 ,SPI Status Bit 373" "Low,High" bitfld.long 0x00 20. " SPIS372 ,SPI Status Bit 372" "Low,High" textline " " bitfld.long 0x00 19. " SPIS371 ,SPI Status Bit 371" "Low,High" bitfld.long 0x00 18. " SPIS370 ,SPI Status Bit 370" "Low,High" bitfld.long 0x00 17. " SPIS369 ,SPI Status Bit 369" "Low,High" textline " " bitfld.long 0x00 16. " SPIS368 ,SPI Status Bit 368" "Low,High" bitfld.long 0x00 15. " SPIS367 ,SPI Status Bit 367" "Low,High" bitfld.long 0x00 14. " SPIS366 ,SPI Status Bit 366" "Low,High" textline " " bitfld.long 0x00 13. " SPIS365 ,SPI Status Bit 365" "Low,High" bitfld.long 0x00 12. " SPIS364 ,SPI Status Bit 364" "Low,High" bitfld.long 0x00 11. " SPIS363 ,SPI Status Bit 363" "Low,High" textline " " bitfld.long 0x00 10. " SPIS362 ,SPI Status Bit 362" "Low,High" bitfld.long 0x00 9. " SPIS361 ,SPI Status Bit 361" "Low,High" bitfld.long 0x00 8. " SPIS360 ,SPI Status Bit 360" "Low,High" textline " " bitfld.long 0x00 7. " SPIS359 ,SPI Status Bit 359" "Low,High" bitfld.long 0x00 6. " SPIS358 ,SPI Status Bit 358" "Low,High" bitfld.long 0x00 5. " SPIS357 ,SPI Status Bit 357" "Low,High" textline " " bitfld.long 0x00 4. " SPIS356 ,SPI Status Bit 356" "Low,High" bitfld.long 0x00 3. " SPIS355 ,SPI Status Bit 355" "Low,High" bitfld.long 0x00 2. " SPIS354 ,SPI Status Bit 354" "Low,High" textline " " bitfld.long 0x00 1. " SPIS353 ,SPI Status Bit 353" "Low,High" bitfld.long 0x00 0. " SPIS352 ,SPI Status Bit 352" "Low,High" else hgroup.long 0xC0AC++0x03 hide.long 0x0 "GICD_SPISR10,Shared Peripheral Interrupt Status Register 10" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x0C) rgroup.long 0xC0B0++0x03 line.long 0x0 "GICD_SPISR11,Shared Peripheral Interrupt Status Register 11" bitfld.long 0x00 31. " SPIS415 ,SPI Status Bit 415" "Low,High" bitfld.long 0x00 30. " SPIS414 ,SPI Status Bit 414" "Low,High" bitfld.long 0x00 29. " SPIS413 ,SPI Status Bit 413" "Low,High" textline " " bitfld.long 0x00 28. " SPIS412 ,SPI Status Bit 412" "Low,High" bitfld.long 0x00 27. " SPIS411 ,SPI Status Bit 411" "Low,High" bitfld.long 0x00 26. " SPIS410 ,SPI Status Bit 410" "Low,High" textline " " bitfld.long 0x00 25. " SPIS409 ,SPI Status Bit 409" "Low,High" bitfld.long 0x00 24. " SPIS408 ,SPI Status Bit 408" "Low,High" bitfld.long 0x00 23. " SPIS407 ,SPI Status Bit 407" "Low,High" textline " " bitfld.long 0x00 22. " SPIS406 ,SPI Status Bit 406" "Low,High" bitfld.long 0x00 21. " SPIS405 ,SPI Status Bit 405" "Low,High" bitfld.long 0x00 20. " SPIS404 ,SPI Status Bit 404" "Low,High" textline " " bitfld.long 0x00 19. " SPIS403 ,SPI Status Bit 403" "Low,High" bitfld.long 0x00 18. " SPIS402 ,SPI Status Bit 402" "Low,High" bitfld.long 0x00 17. " SPIS401 ,SPI Status Bit 401" "Low,High" textline " " bitfld.long 0x00 16. " SPIS400 ,SPI Status Bit 400" "Low,High" bitfld.long 0x00 15. " SPIS399 ,SPI Status Bit 399" "Low,High" bitfld.long 0x00 14. " SPIS398 ,SPI Status Bit 398" "Low,High" textline " " bitfld.long 0x00 13. " SPIS397 ,SPI Status Bit 397" "Low,High" bitfld.long 0x00 12. " SPIS396 ,SPI Status Bit 396" "Low,High" bitfld.long 0x00 11. " SPIS395 ,SPI Status Bit 395" "Low,High" textline " " bitfld.long 0x00 10. " SPIS394 ,SPI Status Bit 394" "Low,High" bitfld.long 0x00 9. " SPIS393 ,SPI Status Bit 393" "Low,High" bitfld.long 0x00 8. " SPIS392 ,SPI Status Bit 392" "Low,High" textline " " bitfld.long 0x00 7. " SPIS391 ,SPI Status Bit 391" "Low,High" bitfld.long 0x00 6. " SPIS390 ,SPI Status Bit 390" "Low,High" bitfld.long 0x00 5. " SPIS389 ,SPI Status Bit 389" "Low,High" textline " " bitfld.long 0x00 4. " SPIS388 ,SPI Status Bit 388" "Low,High" bitfld.long 0x00 3. " SPIS387 ,SPI Status Bit 387" "Low,High" bitfld.long 0x00 2. " SPIS386 ,SPI Status Bit 386" "Low,High" textline " " bitfld.long 0x00 1. " SPIS385 ,SPI Status Bit 385" "Low,High" bitfld.long 0x00 0. " SPIS384 ,SPI Status Bit 384" "Low,High" else hgroup.long 0xC0B0++0x03 hide.long 0x0 "GICD_SPISR11,Shared Peripheral Interrupt Status Register 11" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x0D) rgroup.long 0xC0B4++0x03 line.long 0x0 "GICD_SPISR12,Shared Peripheral Interrupt Status Register 12" bitfld.long 0x00 31. " SPIS447 ,SPI Status Bit 447" "Low,High" bitfld.long 0x00 30. " SPIS446 ,SPI Status Bit 446" "Low,High" bitfld.long 0x00 29. " SPIS445 ,SPI Status Bit 445" "Low,High" textline " " bitfld.long 0x00 28. " SPIS444 ,SPI Status Bit 444" "Low,High" bitfld.long 0x00 27. " SPIS443 ,SPI Status Bit 443" "Low,High" bitfld.long 0x00 26. " SPIS442 ,SPI Status Bit 442" "Low,High" textline " " bitfld.long 0x00 25. " SPIS441 ,SPI Status Bit 441" "Low,High" bitfld.long 0x00 24. " SPIS440 ,SPI Status Bit 440" "Low,High" bitfld.long 0x00 23. " SPIS439 ,SPI Status Bit 439" "Low,High" textline " " bitfld.long 0x00 22. " SPIS438 ,SPI Status Bit 438" "Low,High" bitfld.long 0x00 21. " SPIS437 ,SPI Status Bit 437" "Low,High" bitfld.long 0x00 20. " SPIS436 ,SPI Status Bit 436" "Low,High" textline " " bitfld.long 0x00 19. " SPIS435 ,SPI Status Bit 435" "Low,High" bitfld.long 0x00 18. " SPIS434 ,SPI Status Bit 434" "Low,High" bitfld.long 0x00 17. " SPIS433 ,SPI Status Bit 433" "Low,High" textline " " bitfld.long 0x00 16. " SPIS432 ,SPI Status Bit 432" "Low,High" bitfld.long 0x00 15. " SPIS431 ,SPI Status Bit 431" "Low,High" bitfld.long 0x00 14. " SPIS430 ,SPI Status Bit 430" "Low,High" textline " " bitfld.long 0x00 13. " SPIS429 ,SPI Status Bit 429" "Low,High" bitfld.long 0x00 12. " SPIS428 ,SPI Status Bit 428" "Low,High" bitfld.long 0x00 11. " SPIS427 ,SPI Status Bit 427" "Low,High" textline " " bitfld.long 0x00 10. " SPIS426 ,SPI Status Bit 426" "Low,High" bitfld.long 0x00 9. " SPIS425 ,SPI Status Bit 425" "Low,High" bitfld.long 0x00 8. " SPIS424 ,SPI Status Bit 424" "Low,High" textline " " bitfld.long 0x00 7. " SPIS423 ,SPI Status Bit 423" "Low,High" bitfld.long 0x00 6. " SPIS422 ,SPI Status Bit 422" "Low,High" bitfld.long 0x00 5. " SPIS421 ,SPI Status Bit 421" "Low,High" textline " " bitfld.long 0x00 4. " SPIS420 ,SPI Status Bit 420" "Low,High" bitfld.long 0x00 3. " SPIS419 ,SPI Status Bit 419" "Low,High" bitfld.long 0x00 2. " SPIS418 ,SPI Status Bit 418" "Low,High" textline " " bitfld.long 0x00 1. " SPIS417 ,SPI Status Bit 417" "Low,High" bitfld.long 0x00 0. " SPIS416 ,SPI Status Bit 416" "Low,High" else hgroup.long 0xC0B4++0x03 hide.long 0x0 "GICD_SPISR12,Shared Peripheral Interrupt Status Register 12" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x0E) rgroup.long 0xC0B8++0x03 line.long 0x0 "GICD_SPISR13,Shared Peripheral Interrupt Status Register 13" bitfld.long 0x00 31. " SPIS479 ,SPI Status Bit 479" "Low,High" bitfld.long 0x00 30. " SPIS478 ,SPI Status Bit 478" "Low,High" bitfld.long 0x00 29. " SPIS477 ,SPI Status Bit 477" "Low,High" textline " " bitfld.long 0x00 28. " SPIS476 ,SPI Status Bit 476" "Low,High" bitfld.long 0x00 27. " SPIS475 ,SPI Status Bit 475" "Low,High" bitfld.long 0x00 26. " SPIS474 ,SPI Status Bit 474" "Low,High" textline " " bitfld.long 0x00 25. " SPIS473 ,SPI Status Bit 473" "Low,High" bitfld.long 0x00 24. " SPIS472 ,SPI Status Bit 472" "Low,High" bitfld.long 0x00 23. " SPIS471 ,SPI Status Bit 471" "Low,High" textline " " bitfld.long 0x00 22. " SPIS470 ,SPI Status Bit 470" "Low,High" bitfld.long 0x00 21. " SPIS469 ,SPI Status Bit 469" "Low,High" bitfld.long 0x00 20. " SPIS468 ,SPI Status Bit 468" "Low,High" textline " " bitfld.long 0x00 19. " SPIS467 ,SPI Status Bit 467" "Low,High" bitfld.long 0x00 18. " SPIS466 ,SPI Status Bit 466" "Low,High" bitfld.long 0x00 17. " SPIS465 ,SPI Status Bit 465" "Low,High" textline " " bitfld.long 0x00 16. " SPIS464 ,SPI Status Bit 464" "Low,High" bitfld.long 0x00 15. " SPIS463 ,SPI Status Bit 463" "Low,High" bitfld.long 0x00 14. " SPIS462 ,SPI Status Bit 462" "Low,High" textline " " bitfld.long 0x00 13. " SPIS461 ,SPI Status Bit 461" "Low,High" bitfld.long 0x00 12. " SPIS460 ,SPI Status Bit 460" "Low,High" bitfld.long 0x00 11. " SPIS459 ,SPI Status Bit 459" "Low,High" textline " " bitfld.long 0x00 10. " SPIS458 ,SPI Status Bit 458" "Low,High" bitfld.long 0x00 9. " SPIS457 ,SPI Status Bit 457" "Low,High" bitfld.long 0x00 8. " SPIS456 ,SPI Status Bit 456" "Low,High" textline " " bitfld.long 0x00 7. " SPIS455 ,SPI Status Bit 455" "Low,High" bitfld.long 0x00 6. " SPIS454 ,SPI Status Bit 454" "Low,High" bitfld.long 0x00 5. " SPIS453 ,SPI Status Bit 453" "Low,High" textline " " bitfld.long 0x00 4. " SPIS452 ,SPI Status Bit 452" "Low,High" bitfld.long 0x00 3. " SPIS451 ,SPI Status Bit 451" "Low,High" bitfld.long 0x00 2. " SPIS450 ,SPI Status Bit 450" "Low,High" textline " " bitfld.long 0x00 1. " SPIS449 ,SPI Status Bit 449" "Low,High" bitfld.long 0x00 0. " SPIS448 ,SPI Status Bit 448" "Low,High" else hgroup.long 0xC0B8++0x03 hide.long 0x0 "GICD_SPISR13,Shared Peripheral Interrupt Status Register 13" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x0F) rgroup.long 0xC0BC++0x03 line.long 0x0 "GICD_SPISR14,Shared Peripheral Interrupt Status Register 14" bitfld.long 0x00 31. " SPIS511 ,SPI Status Bit 511" "Low,High" bitfld.long 0x00 30. " SPIS510 ,SPI Status Bit 510" "Low,High" bitfld.long 0x00 29. " SPIS509 ,SPI Status Bit 509" "Low,High" textline " " bitfld.long 0x00 28. " SPIS508 ,SPI Status Bit 508" "Low,High" bitfld.long 0x00 27. " SPIS507 ,SPI Status Bit 507" "Low,High" bitfld.long 0x00 26. " SPIS506 ,SPI Status Bit 506" "Low,High" textline " " bitfld.long 0x00 25. " SPIS505 ,SPI Status Bit 505" "Low,High" bitfld.long 0x00 24. " SPIS504 ,SPI Status Bit 504" "Low,High" bitfld.long 0x00 23. " SPIS503 ,SPI Status Bit 503" "Low,High" textline " " bitfld.long 0x00 22. " SPIS502 ,SPI Status Bit 502" "Low,High" bitfld.long 0x00 21. " SPIS501 ,SPI Status Bit 501" "Low,High" bitfld.long 0x00 20. " SPIS500 ,SPI Status Bit 500" "Low,High" textline " " bitfld.long 0x00 19. " SPIS499 ,SPI Status Bit 499" "Low,High" bitfld.long 0x00 18. " SPIS498 ,SPI Status Bit 498" "Low,High" bitfld.long 0x00 17. " SPIS497 ,SPI Status Bit 497" "Low,High" textline " " bitfld.long 0x00 16. " SPIS496 ,SPI Status Bit 496" "Low,High" bitfld.long 0x00 15. " SPIS495 ,SPI Status Bit 495" "Low,High" bitfld.long 0x00 14. " SPIS494 ,SPI Status Bit 494" "Low,High" textline " " bitfld.long 0x00 13. " SPIS493 ,SPI Status Bit 493" "Low,High" bitfld.long 0x00 12. " SPIS492 ,SPI Status Bit 492" "Low,High" bitfld.long 0x00 11. " SPIS491 ,SPI Status Bit 491" "Low,High" textline " " bitfld.long 0x00 10. " SPIS490 ,SPI Status Bit 490" "Low,High" bitfld.long 0x00 9. " SPIS489 ,SPI Status Bit 489" "Low,High" bitfld.long 0x00 8. " SPIS488 ,SPI Status Bit 488" "Low,High" textline " " bitfld.long 0x00 7. " SPIS487 ,SPI Status Bit 487" "Low,High" bitfld.long 0x00 6. " SPIS486 ,SPI Status Bit 486" "Low,High" bitfld.long 0x00 5. " SPIS485 ,SPI Status Bit 485" "Low,High" textline " " bitfld.long 0x00 4. " SPIS484 ,SPI Status Bit 484" "Low,High" bitfld.long 0x00 3. " SPIS483 ,SPI Status Bit 483" "Low,High" bitfld.long 0x00 2. " SPIS482 ,SPI Status Bit 482" "Low,High" textline " " bitfld.long 0x00 1. " SPIS481 ,SPI Status Bit 481" "Low,High" bitfld.long 0x00 0. " SPIS480 ,SPI Status Bit 480" "Low,High" else hgroup.long 0xC0BC++0x03 hide.long 0x0 "GICD_SPISR14,Shared Peripheral Interrupt Status Register 14" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x10) rgroup.long 0xC0C0++0x03 line.long 0x0 "GICD_SPISR15,Shared Peripheral Interrupt Status Register 15" bitfld.long 0x00 31. " SPIS543 ,SPI Status Bit 543" "Low,High" bitfld.long 0x00 30. " SPIS542 ,SPI Status Bit 542" "Low,High" bitfld.long 0x00 29. " SPIS541 ,SPI Status Bit 541" "Low,High" textline " " bitfld.long 0x00 28. " SPIS540 ,SPI Status Bit 540" "Low,High" bitfld.long 0x00 27. " SPIS539 ,SPI Status Bit 539" "Low,High" bitfld.long 0x00 26. " SPIS538 ,SPI Status Bit 538" "Low,High" textline " " bitfld.long 0x00 25. " SPIS537 ,SPI Status Bit 537" "Low,High" bitfld.long 0x00 24. " SPIS536 ,SPI Status Bit 536" "Low,High" bitfld.long 0x00 23. " SPIS535 ,SPI Status Bit 535" "Low,High" textline " " bitfld.long 0x00 22. " SPIS534 ,SPI Status Bit 534" "Low,High" bitfld.long 0x00 21. " SPIS533 ,SPI Status Bit 533" "Low,High" bitfld.long 0x00 20. " SPIS532 ,SPI Status Bit 532" "Low,High" textline " " bitfld.long 0x00 19. " SPIS531 ,SPI Status Bit 531" "Low,High" bitfld.long 0x00 18. " SPIS530 ,SPI Status Bit 530" "Low,High" bitfld.long 0x00 17. " SPIS529 ,SPI Status Bit 529" "Low,High" textline " " bitfld.long 0x00 16. " SPIS528 ,SPI Status Bit 528" "Low,High" bitfld.long 0x00 15. " SPIS527 ,SPI Status Bit 527" "Low,High" bitfld.long 0x00 14. " SPIS526 ,SPI Status Bit 526" "Low,High" textline " " bitfld.long 0x00 13. " SPIS525 ,SPI Status Bit 525" "Low,High" bitfld.long 0x00 12. " SPIS524 ,SPI Status Bit 524" "Low,High" bitfld.long 0x00 11. " SPIS523 ,SPI Status Bit 523" "Low,High" textline " " bitfld.long 0x00 10. " SPIS522 ,SPI Status Bit 522" "Low,High" bitfld.long 0x00 9. " SPIS521 ,SPI Status Bit 521" "Low,High" bitfld.long 0x00 8. " SPIS520 ,SPI Status Bit 520" "Low,High" textline " " bitfld.long 0x00 7. " SPIS519 ,SPI Status Bit 519" "Low,High" bitfld.long 0x00 6. " SPIS518 ,SPI Status Bit 518" "Low,High" bitfld.long 0x00 5. " SPIS517 ,SPI Status Bit 517" "Low,High" textline " " bitfld.long 0x00 4. " SPIS516 ,SPI Status Bit 516" "Low,High" bitfld.long 0x00 3. " SPIS515 ,SPI Status Bit 515" "Low,High" bitfld.long 0x00 2. " SPIS514 ,SPI Status Bit 514" "Low,High" textline " " bitfld.long 0x00 1. " SPIS513 ,SPI Status Bit 513" "Low,High" bitfld.long 0x00 0. " SPIS512 ,SPI Status Bit 512" "Low,High" else hgroup.long 0xC0C0++0x03 hide.long 0x0 "GICD_SPISR15,Shared Peripheral Interrupt Status Register 15" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x11) rgroup.long 0xC0C4++0x03 line.long 0x0 "GICD_SPISR16,Shared Peripheral Interrupt Status Register 16" bitfld.long 0x00 31. " SPIS575 ,SPI Status Bit 575" "Low,High" bitfld.long 0x00 30. " SPIS574 ,SPI Status Bit 574" "Low,High" bitfld.long 0x00 29. " SPIS573 ,SPI Status Bit 573" "Low,High" textline " " bitfld.long 0x00 28. " SPIS572 ,SPI Status Bit 572" "Low,High" bitfld.long 0x00 27. " SPIS571 ,SPI Status Bit 571" "Low,High" bitfld.long 0x00 26. " SPIS570 ,SPI Status Bit 570" "Low,High" textline " " bitfld.long 0x00 25. " SPIS569 ,SPI Status Bit 569" "Low,High" bitfld.long 0x00 24. " SPIS568 ,SPI Status Bit 568" "Low,High" bitfld.long 0x00 23. " SPIS567 ,SPI Status Bit 567" "Low,High" textline " " bitfld.long 0x00 22. " SPIS566 ,SPI Status Bit 566" "Low,High" bitfld.long 0x00 21. " SPIS565 ,SPI Status Bit 565" "Low,High" bitfld.long 0x00 20. " SPIS564 ,SPI Status Bit 564" "Low,High" textline " " bitfld.long 0x00 19. " SPIS563 ,SPI Status Bit 563" "Low,High" bitfld.long 0x00 18. " SPIS562 ,SPI Status Bit 562" "Low,High" bitfld.long 0x00 17. " SPIS561 ,SPI Status Bit 561" "Low,High" textline " " bitfld.long 0x00 16. " SPIS560 ,SPI Status Bit 560" "Low,High" bitfld.long 0x00 15. " SPIS559 ,SPI Status Bit 559" "Low,High" bitfld.long 0x00 14. " SPIS558 ,SPI Status Bit 558" "Low,High" textline " " bitfld.long 0x00 13. " SPIS557 ,SPI Status Bit 557" "Low,High" bitfld.long 0x00 12. " SPIS556 ,SPI Status Bit 556" "Low,High" bitfld.long 0x00 11. " SPIS555 ,SPI Status Bit 555" "Low,High" textline " " bitfld.long 0x00 10. " SPIS554 ,SPI Status Bit 554" "Low,High" bitfld.long 0x00 9. " SPIS553 ,SPI Status Bit 553" "Low,High" bitfld.long 0x00 8. " SPIS552 ,SPI Status Bit 552" "Low,High" textline " " bitfld.long 0x00 7. " SPIS551 ,SPI Status Bit 551" "Low,High" bitfld.long 0x00 6. " SPIS550 ,SPI Status Bit 550" "Low,High" bitfld.long 0x00 5. " SPIS549 ,SPI Status Bit 549" "Low,High" textline " " bitfld.long 0x00 4. " SPIS548 ,SPI Status Bit 548" "Low,High" bitfld.long 0x00 3. " SPIS547 ,SPI Status Bit 547" "Low,High" bitfld.long 0x00 2. " SPIS546 ,SPI Status Bit 546" "Low,High" textline " " bitfld.long 0x00 1. " SPIS545 ,SPI Status Bit 545" "Low,High" bitfld.long 0x00 0. " SPIS544 ,SPI Status Bit 544" "Low,High" else hgroup.long 0xC0C4++0x03 hide.long 0x0 "GICD_SPISR16,Shared Peripheral Interrupt Status Register 16" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x12) rgroup.long 0xC0C8++0x03 line.long 0x0 "GICD_SPISR17,Shared Peripheral Interrupt Status Register 17" bitfld.long 0x00 31. " SPIS607 ,SPI Status Bit 607" "Low,High" bitfld.long 0x00 30. " SPIS606 ,SPI Status Bit 606" "Low,High" bitfld.long 0x00 29. " SPIS605 ,SPI Status Bit 605" "Low,High" textline " " bitfld.long 0x00 28. " SPIS604 ,SPI Status Bit 604" "Low,High" bitfld.long 0x00 27. " SPIS603 ,SPI Status Bit 603" "Low,High" bitfld.long 0x00 26. " SPIS602 ,SPI Status Bit 602" "Low,High" textline " " bitfld.long 0x00 25. " SPIS601 ,SPI Status Bit 601" "Low,High" bitfld.long 0x00 24. " SPIS600 ,SPI Status Bit 600" "Low,High" bitfld.long 0x00 23. " SPIS599 ,SPI Status Bit 599" "Low,High" textline " " bitfld.long 0x00 22. " SPIS598 ,SPI Status Bit 598" "Low,High" bitfld.long 0x00 21. " SPIS597 ,SPI Status Bit 597" "Low,High" bitfld.long 0x00 20. " SPIS596 ,SPI Status Bit 596" "Low,High" textline " " bitfld.long 0x00 19. " SPIS595 ,SPI Status Bit 595" "Low,High" bitfld.long 0x00 18. " SPIS594 ,SPI Status Bit 594" "Low,High" bitfld.long 0x00 17. " SPIS593 ,SPI Status Bit 593" "Low,High" textline " " bitfld.long 0x00 16. " SPIS592 ,SPI Status Bit 592" "Low,High" bitfld.long 0x00 15. " SPIS591 ,SPI Status Bit 591" "Low,High" bitfld.long 0x00 14. " SPIS590 ,SPI Status Bit 590" "Low,High" textline " " bitfld.long 0x00 13. " SPIS589 ,SPI Status Bit 589" "Low,High" bitfld.long 0x00 12. " SPIS588 ,SPI Status Bit 588" "Low,High" bitfld.long 0x00 11. " SPIS587 ,SPI Status Bit 587" "Low,High" textline " " bitfld.long 0x00 10. " SPIS586 ,SPI Status Bit 586" "Low,High" bitfld.long 0x00 9. " SPIS585 ,SPI Status Bit 585" "Low,High" bitfld.long 0x00 8. " SPIS584 ,SPI Status Bit 584" "Low,High" textline " " bitfld.long 0x00 7. " SPIS583 ,SPI Status Bit 583" "Low,High" bitfld.long 0x00 6. " SPIS582 ,SPI Status Bit 582" "Low,High" bitfld.long 0x00 5. " SPIS581 ,SPI Status Bit 581" "Low,High" textline " " bitfld.long 0x00 4. " SPIS580 ,SPI Status Bit 580" "Low,High" bitfld.long 0x00 3. " SPIS579 ,SPI Status Bit 579" "Low,High" bitfld.long 0x00 2. " SPIS578 ,SPI Status Bit 578" "Low,High" textline " " bitfld.long 0x00 1. " SPIS577 ,SPI Status Bit 577" "Low,High" bitfld.long 0x00 0. " SPIS576 ,SPI Status Bit 576" "Low,High" else hgroup.long 0xC0C8++0x03 hide.long 0x0 "GICD_SPISR17,Shared Peripheral Interrupt Status Register 17" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x13) rgroup.long 0xC0CC++0x03 line.long 0x0 "GICD_SPISR18,Shared Peripheral Interrupt Status Register 18" bitfld.long 0x00 31. " SPIS639 ,SPI Status Bit 639" "Low,High" bitfld.long 0x00 30. " SPIS638 ,SPI Status Bit 638" "Low,High" bitfld.long 0x00 29. " SPIS637 ,SPI Status Bit 637" "Low,High" textline " " bitfld.long 0x00 28. " SPIS636 ,SPI Status Bit 636" "Low,High" bitfld.long 0x00 27. " SPIS635 ,SPI Status Bit 635" "Low,High" bitfld.long 0x00 26. " SPIS634 ,SPI Status Bit 634" "Low,High" textline " " bitfld.long 0x00 25. " SPIS633 ,SPI Status Bit 633" "Low,High" bitfld.long 0x00 24. " SPIS632 ,SPI Status Bit 632" "Low,High" bitfld.long 0x00 23. " SPIS631 ,SPI Status Bit 631" "Low,High" textline " " bitfld.long 0x00 22. " SPIS630 ,SPI Status Bit 630" "Low,High" bitfld.long 0x00 21. " SPIS629 ,SPI Status Bit 629" "Low,High" bitfld.long 0x00 20. " SPIS628 ,SPI Status Bit 628" "Low,High" textline " " bitfld.long 0x00 19. " SPIS627 ,SPI Status Bit 627" "Low,High" bitfld.long 0x00 18. " SPIS626 ,SPI Status Bit 626" "Low,High" bitfld.long 0x00 17. " SPIS625 ,SPI Status Bit 625" "Low,High" textline " " bitfld.long 0x00 16. " SPIS624 ,SPI Status Bit 624" "Low,High" bitfld.long 0x00 15. " SPIS623 ,SPI Status Bit 623" "Low,High" bitfld.long 0x00 14. " SPIS622 ,SPI Status Bit 622" "Low,High" textline " " bitfld.long 0x00 13. " SPIS621 ,SPI Status Bit 621" "Low,High" bitfld.long 0x00 12. " SPIS620 ,SPI Status Bit 620" "Low,High" bitfld.long 0x00 11. " SPIS619 ,SPI Status Bit 619" "Low,High" textline " " bitfld.long 0x00 10. " SPIS618 ,SPI Status Bit 618" "Low,High" bitfld.long 0x00 9. " SPIS617 ,SPI Status Bit 617" "Low,High" bitfld.long 0x00 8. " SPIS616 ,SPI Status Bit 616" "Low,High" textline " " bitfld.long 0x00 7. " SPIS615 ,SPI Status Bit 615" "Low,High" bitfld.long 0x00 6. " SPIS614 ,SPI Status Bit 614" "Low,High" bitfld.long 0x00 5. " SPIS613 ,SPI Status Bit 613" "Low,High" textline " " bitfld.long 0x00 4. " SPIS612 ,SPI Status Bit 612" "Low,High" bitfld.long 0x00 3. " SPIS611 ,SPI Status Bit 611" "Low,High" bitfld.long 0x00 2. " SPIS610 ,SPI Status Bit 610" "Low,High" textline " " bitfld.long 0x00 1. " SPIS609 ,SPI Status Bit 609" "Low,High" bitfld.long 0x00 0. " SPIS608 ,SPI Status Bit 608" "Low,High" else hgroup.long 0xC0CC++0x03 hide.long 0x0 "GICD_SPISR18,Shared Peripheral Interrupt Status Register 18" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x14) rgroup.long 0xC0D0++0x03 line.long 0x0 "GICD_SPISR19,Shared Peripheral Interrupt Status Register 19" bitfld.long 0x00 31. " SPIS671 ,SPI Status Bit 671" "Low,High" bitfld.long 0x00 30. " SPIS670 ,SPI Status Bit 670" "Low,High" bitfld.long 0x00 29. " SPIS669 ,SPI Status Bit 669" "Low,High" textline " " bitfld.long 0x00 28. " SPIS668 ,SPI Status Bit 668" "Low,High" bitfld.long 0x00 27. " SPIS667 ,SPI Status Bit 667" "Low,High" bitfld.long 0x00 26. " SPIS666 ,SPI Status Bit 666" "Low,High" textline " " bitfld.long 0x00 25. " SPIS665 ,SPI Status Bit 665" "Low,High" bitfld.long 0x00 24. " SPIS664 ,SPI Status Bit 664" "Low,High" bitfld.long 0x00 23. " SPIS663 ,SPI Status Bit 663" "Low,High" textline " " bitfld.long 0x00 22. " SPIS662 ,SPI Status Bit 662" "Low,High" bitfld.long 0x00 21. " SPIS661 ,SPI Status Bit 661" "Low,High" bitfld.long 0x00 20. " SPIS660 ,SPI Status Bit 660" "Low,High" textline " " bitfld.long 0x00 19. " SPIS659 ,SPI Status Bit 659" "Low,High" bitfld.long 0x00 18. " SPIS658 ,SPI Status Bit 658" "Low,High" bitfld.long 0x00 17. " SPIS657 ,SPI Status Bit 657" "Low,High" textline " " bitfld.long 0x00 16. " SPIS656 ,SPI Status Bit 656" "Low,High" bitfld.long 0x00 15. " SPIS655 ,SPI Status Bit 655" "Low,High" bitfld.long 0x00 14. " SPIS654 ,SPI Status Bit 654" "Low,High" textline " " bitfld.long 0x00 13. " SPIS653 ,SPI Status Bit 653" "Low,High" bitfld.long 0x00 12. " SPIS652 ,SPI Status Bit 652" "Low,High" bitfld.long 0x00 11. " SPIS651 ,SPI Status Bit 651" "Low,High" textline " " bitfld.long 0x00 10. " SPIS650 ,SPI Status Bit 650" "Low,High" bitfld.long 0x00 9. " SPIS649 ,SPI Status Bit 649" "Low,High" bitfld.long 0x00 8. " SPIS648 ,SPI Status Bit 648" "Low,High" textline " " bitfld.long 0x00 7. " SPIS647 ,SPI Status Bit 647" "Low,High" bitfld.long 0x00 6. " SPIS646 ,SPI Status Bit 646" "Low,High" bitfld.long 0x00 5. " SPIS645 ,SPI Status Bit 645" "Low,High" textline " " bitfld.long 0x00 4. " SPIS644 ,SPI Status Bit 644" "Low,High" bitfld.long 0x00 3. " SPIS643 ,SPI Status Bit 643" "Low,High" bitfld.long 0x00 2. " SPIS642 ,SPI Status Bit 642" "Low,High" textline " " bitfld.long 0x00 1. " SPIS641 ,SPI Status Bit 641" "Low,High" bitfld.long 0x00 0. " SPIS640 ,SPI Status Bit 640" "Low,High" else hgroup.long 0xC0D0++0x03 hide.long 0x0 "GICD_SPISR19,Shared Peripheral Interrupt Status Register 19" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x15) rgroup.long 0xC0D4++0x03 line.long 0x0 "GICD_SPISR20,Shared Peripheral Interrupt Status Register 20" bitfld.long 0x00 31. " SPIS703 ,SPI Status Bit 703" "Low,High" bitfld.long 0x00 30. " SPIS702 ,SPI Status Bit 702" "Low,High" bitfld.long 0x00 29. " SPIS701 ,SPI Status Bit 701" "Low,High" textline " " bitfld.long 0x00 28. " SPIS700 ,SPI Status Bit 700" "Low,High" bitfld.long 0x00 27. " SPIS699 ,SPI Status Bit 699" "Low,High" bitfld.long 0x00 26. " SPIS698 ,SPI Status Bit 698" "Low,High" textline " " bitfld.long 0x00 25. " SPIS697 ,SPI Status Bit 697" "Low,High" bitfld.long 0x00 24. " SPIS696 ,SPI Status Bit 696" "Low,High" bitfld.long 0x00 23. " SPIS695 ,SPI Status Bit 695" "Low,High" textline " " bitfld.long 0x00 22. " SPIS694 ,SPI Status Bit 694" "Low,High" bitfld.long 0x00 21. " SPIS693 ,SPI Status Bit 693" "Low,High" bitfld.long 0x00 20. " SPIS692 ,SPI Status Bit 692" "Low,High" textline " " bitfld.long 0x00 19. " SPIS691 ,SPI Status Bit 691" "Low,High" bitfld.long 0x00 18. " SPIS690 ,SPI Status Bit 690" "Low,High" bitfld.long 0x00 17. " SPIS689 ,SPI Status Bit 689" "Low,High" textline " " bitfld.long 0x00 16. " SPIS688 ,SPI Status Bit 688" "Low,High" bitfld.long 0x00 15. " SPIS687 ,SPI Status Bit 687" "Low,High" bitfld.long 0x00 14. " SPIS686 ,SPI Status Bit 686" "Low,High" textline " " bitfld.long 0x00 13. " SPIS685 ,SPI Status Bit 685" "Low,High" bitfld.long 0x00 12. " SPIS684 ,SPI Status Bit 684" "Low,High" bitfld.long 0x00 11. " SPIS683 ,SPI Status Bit 683" "Low,High" textline " " bitfld.long 0x00 10. " SPIS682 ,SPI Status Bit 682" "Low,High" bitfld.long 0x00 9. " SPIS681 ,SPI Status Bit 681" "Low,High" bitfld.long 0x00 8. " SPIS680 ,SPI Status Bit 680" "Low,High" textline " " bitfld.long 0x00 7. " SPIS679 ,SPI Status Bit 679" "Low,High" bitfld.long 0x00 6. " SPIS678 ,SPI Status Bit 678" "Low,High" bitfld.long 0x00 5. " SPIS677 ,SPI Status Bit 677" "Low,High" textline " " bitfld.long 0x00 4. " SPIS676 ,SPI Status Bit 676" "Low,High" bitfld.long 0x00 3. " SPIS675 ,SPI Status Bit 675" "Low,High" bitfld.long 0x00 2. " SPIS674 ,SPI Status Bit 674" "Low,High" textline " " bitfld.long 0x00 1. " SPIS673 ,SPI Status Bit 673" "Low,High" bitfld.long 0x00 0. " SPIS672 ,SPI Status Bit 672" "Low,High" else hgroup.long 0xC0D4++0x03 hide.long 0x0 "GICD_SPISR20,Shared Peripheral Interrupt Status Register 20" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x16) rgroup.long 0xC0D8++0x03 line.long 0x0 "GICD_SPISR21,Shared Peripheral Interrupt Status Register 21" bitfld.long 0x00 31. " SPIS735 ,SPI Status Bit 735" "Low,High" bitfld.long 0x00 30. " SPIS734 ,SPI Status Bit 734" "Low,High" bitfld.long 0x00 29. " SPIS733 ,SPI Status Bit 733" "Low,High" textline " " bitfld.long 0x00 28. " SPIS732 ,SPI Status Bit 732" "Low,High" bitfld.long 0x00 27. " SPIS731 ,SPI Status Bit 731" "Low,High" bitfld.long 0x00 26. " SPIS730 ,SPI Status Bit 730" "Low,High" textline " " bitfld.long 0x00 25. " SPIS729 ,SPI Status Bit 729" "Low,High" bitfld.long 0x00 24. " SPIS728 ,SPI Status Bit 728" "Low,High" bitfld.long 0x00 23. " SPIS727 ,SPI Status Bit 727" "Low,High" textline " " bitfld.long 0x00 22. " SPIS726 ,SPI Status Bit 726" "Low,High" bitfld.long 0x00 21. " SPIS725 ,SPI Status Bit 725" "Low,High" bitfld.long 0x00 20. " SPIS724 ,SPI Status Bit 724" "Low,High" textline " " bitfld.long 0x00 19. " SPIS723 ,SPI Status Bit 723" "Low,High" bitfld.long 0x00 18. " SPIS722 ,SPI Status Bit 722" "Low,High" bitfld.long 0x00 17. " SPIS721 ,SPI Status Bit 721" "Low,High" textline " " bitfld.long 0x00 16. " SPIS720 ,SPI Status Bit 720" "Low,High" bitfld.long 0x00 15. " SPIS719 ,SPI Status Bit 719" "Low,High" bitfld.long 0x00 14. " SPIS718 ,SPI Status Bit 718" "Low,High" textline " " bitfld.long 0x00 13. " SPIS717 ,SPI Status Bit 717" "Low,High" bitfld.long 0x00 12. " SPIS716 ,SPI Status Bit 716" "Low,High" bitfld.long 0x00 11. " SPIS715 ,SPI Status Bit 715" "Low,High" textline " " bitfld.long 0x00 10. " SPIS714 ,SPI Status Bit 714" "Low,High" bitfld.long 0x00 9. " SPIS713 ,SPI Status Bit 713" "Low,High" bitfld.long 0x00 8. " SPIS712 ,SPI Status Bit 712" "Low,High" textline " " bitfld.long 0x00 7. " SPIS711 ,SPI Status Bit 711" "Low,High" bitfld.long 0x00 6. " SPIS710 ,SPI Status Bit 710" "Low,High" bitfld.long 0x00 5. " SPIS709 ,SPI Status Bit 709" "Low,High" textline " " bitfld.long 0x00 4. " SPIS708 ,SPI Status Bit 708" "Low,High" bitfld.long 0x00 3. " SPIS707 ,SPI Status Bit 707" "Low,High" bitfld.long 0x00 2. " SPIS706 ,SPI Status Bit 706" "Low,High" textline " " bitfld.long 0x00 1. " SPIS705 ,SPI Status Bit 705" "Low,High" bitfld.long 0x00 0. " SPIS704 ,SPI Status Bit 704" "Low,High" else hgroup.long 0xC0D8++0x03 hide.long 0x0 "GICD_SPISR21,Shared Peripheral Interrupt Status Register 21" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x17) rgroup.long 0xC0DC++0x03 line.long 0x0 "GICD_SPISR22,Shared Peripheral Interrupt Status Register 22" bitfld.long 0x00 31. " SPIS767 ,SPI Status Bit 767" "Low,High" bitfld.long 0x00 30. " SPIS766 ,SPI Status Bit 766" "Low,High" bitfld.long 0x00 29. " SPIS765 ,SPI Status Bit 765" "Low,High" textline " " bitfld.long 0x00 28. " SPIS764 ,SPI Status Bit 764" "Low,High" bitfld.long 0x00 27. " SPIS763 ,SPI Status Bit 763" "Low,High" bitfld.long 0x00 26. " SPIS762 ,SPI Status Bit 762" "Low,High" textline " " bitfld.long 0x00 25. " SPIS761 ,SPI Status Bit 761" "Low,High" bitfld.long 0x00 24. " SPIS760 ,SPI Status Bit 760" "Low,High" bitfld.long 0x00 23. " SPIS759 ,SPI Status Bit 759" "Low,High" textline " " bitfld.long 0x00 22. " SPIS758 ,SPI Status Bit 758" "Low,High" bitfld.long 0x00 21. " SPIS757 ,SPI Status Bit 757" "Low,High" bitfld.long 0x00 20. " SPIS756 ,SPI Status Bit 756" "Low,High" textline " " bitfld.long 0x00 19. " SPIS755 ,SPI Status Bit 755" "Low,High" bitfld.long 0x00 18. " SPIS754 ,SPI Status Bit 754" "Low,High" bitfld.long 0x00 17. " SPIS753 ,SPI Status Bit 753" "Low,High" textline " " bitfld.long 0x00 16. " SPIS752 ,SPI Status Bit 752" "Low,High" bitfld.long 0x00 15. " SPIS751 ,SPI Status Bit 751" "Low,High" bitfld.long 0x00 14. " SPIS750 ,SPI Status Bit 750" "Low,High" textline " " bitfld.long 0x00 13. " SPIS749 ,SPI Status Bit 749" "Low,High" bitfld.long 0x00 12. " SPIS748 ,SPI Status Bit 748" "Low,High" bitfld.long 0x00 11. " SPIS747 ,SPI Status Bit 747" "Low,High" textline " " bitfld.long 0x00 10. " SPIS746 ,SPI Status Bit 746" "Low,High" bitfld.long 0x00 9. " SPIS745 ,SPI Status Bit 745" "Low,High" bitfld.long 0x00 8. " SPIS744 ,SPI Status Bit 744" "Low,High" textline " " bitfld.long 0x00 7. " SPIS743 ,SPI Status Bit 743" "Low,High" bitfld.long 0x00 6. " SPIS742 ,SPI Status Bit 742" "Low,High" bitfld.long 0x00 5. " SPIS741 ,SPI Status Bit 741" "Low,High" textline " " bitfld.long 0x00 4. " SPIS740 ,SPI Status Bit 740" "Low,High" bitfld.long 0x00 3. " SPIS739 ,SPI Status Bit 739" "Low,High" bitfld.long 0x00 2. " SPIS738 ,SPI Status Bit 738" "Low,High" textline " " bitfld.long 0x00 1. " SPIS737 ,SPI Status Bit 737" "Low,High" bitfld.long 0x00 0. " SPIS736 ,SPI Status Bit 736" "Low,High" else hgroup.long 0xC0DC++0x03 hide.long 0x0 "GICD_SPISR22,Shared Peripheral Interrupt Status Register 22" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x18) rgroup.long 0xC0E0++0x03 line.long 0x0 "GICD_SPISR23,Shared Peripheral Interrupt Status Register 23" bitfld.long 0x00 31. " SPIS799 ,SPI Status Bit 799" "Low,High" bitfld.long 0x00 30. " SPIS798 ,SPI Status Bit 798" "Low,High" bitfld.long 0x00 29. " SPIS797 ,SPI Status Bit 797" "Low,High" textline " " bitfld.long 0x00 28. " SPIS796 ,SPI Status Bit 796" "Low,High" bitfld.long 0x00 27. " SPIS795 ,SPI Status Bit 795" "Low,High" bitfld.long 0x00 26. " SPIS794 ,SPI Status Bit 794" "Low,High" textline " " bitfld.long 0x00 25. " SPIS793 ,SPI Status Bit 793" "Low,High" bitfld.long 0x00 24. " SPIS792 ,SPI Status Bit 792" "Low,High" bitfld.long 0x00 23. " SPIS791 ,SPI Status Bit 791" "Low,High" textline " " bitfld.long 0x00 22. " SPIS790 ,SPI Status Bit 790" "Low,High" bitfld.long 0x00 21. " SPIS789 ,SPI Status Bit 789" "Low,High" bitfld.long 0x00 20. " SPIS788 ,SPI Status Bit 788" "Low,High" textline " " bitfld.long 0x00 19. " SPIS787 ,SPI Status Bit 787" "Low,High" bitfld.long 0x00 18. " SPIS786 ,SPI Status Bit 786" "Low,High" bitfld.long 0x00 17. " SPIS785 ,SPI Status Bit 785" "Low,High" textline " " bitfld.long 0x00 16. " SPIS784 ,SPI Status Bit 784" "Low,High" bitfld.long 0x00 15. " SPIS783 ,SPI Status Bit 783" "Low,High" bitfld.long 0x00 14. " SPIS782 ,SPI Status Bit 782" "Low,High" textline " " bitfld.long 0x00 13. " SPIS781 ,SPI Status Bit 781" "Low,High" bitfld.long 0x00 12. " SPIS780 ,SPI Status Bit 780" "Low,High" bitfld.long 0x00 11. " SPIS779 ,SPI Status Bit 779" "Low,High" textline " " bitfld.long 0x00 10. " SPIS778 ,SPI Status Bit 778" "Low,High" bitfld.long 0x00 9. " SPIS777 ,SPI Status Bit 777" "Low,High" bitfld.long 0x00 8. " SPIS776 ,SPI Status Bit 776" "Low,High" textline " " bitfld.long 0x00 7. " SPIS775 ,SPI Status Bit 775" "Low,High" bitfld.long 0x00 6. " SPIS774 ,SPI Status Bit 774" "Low,High" bitfld.long 0x00 5. " SPIS773 ,SPI Status Bit 773" "Low,High" textline " " bitfld.long 0x00 4. " SPIS772 ,SPI Status Bit 772" "Low,High" bitfld.long 0x00 3. " SPIS771 ,SPI Status Bit 771" "Low,High" bitfld.long 0x00 2. " SPIS770 ,SPI Status Bit 770" "Low,High" textline " " bitfld.long 0x00 1. " SPIS769 ,SPI Status Bit 769" "Low,High" bitfld.long 0x00 0. " SPIS768 ,SPI Status Bit 768" "Low,High" else hgroup.long 0xC0E0++0x03 hide.long 0x0 "GICD_SPISR23,Shared Peripheral Interrupt Status Register 23" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x19) rgroup.long 0xC0E4++0x03 line.long 0x0 "GICD_SPISR24,Shared Peripheral Interrupt Status Register 24" bitfld.long 0x00 31. " SPIS831 ,SPI Status Bit 831" "Low,High" bitfld.long 0x00 30. " SPIS830 ,SPI Status Bit 830" "Low,High" bitfld.long 0x00 29. " SPIS829 ,SPI Status Bit 829" "Low,High" textline " " bitfld.long 0x00 28. " SPIS828 ,SPI Status Bit 828" "Low,High" bitfld.long 0x00 27. " SPIS827 ,SPI Status Bit 827" "Low,High" bitfld.long 0x00 26. " SPIS826 ,SPI Status Bit 826" "Low,High" textline " " bitfld.long 0x00 25. " SPIS825 ,SPI Status Bit 825" "Low,High" bitfld.long 0x00 24. " SPIS824 ,SPI Status Bit 824" "Low,High" bitfld.long 0x00 23. " SPIS823 ,SPI Status Bit 823" "Low,High" textline " " bitfld.long 0x00 22. " SPIS822 ,SPI Status Bit 822" "Low,High" bitfld.long 0x00 21. " SPIS821 ,SPI Status Bit 821" "Low,High" bitfld.long 0x00 20. " SPIS820 ,SPI Status Bit 820" "Low,High" textline " " bitfld.long 0x00 19. " SPIS819 ,SPI Status Bit 819" "Low,High" bitfld.long 0x00 18. " SPIS818 ,SPI Status Bit 818" "Low,High" bitfld.long 0x00 17. " SPIS817 ,SPI Status Bit 817" "Low,High" textline " " bitfld.long 0x00 16. " SPIS816 ,SPI Status Bit 816" "Low,High" bitfld.long 0x00 15. " SPIS815 ,SPI Status Bit 815" "Low,High" bitfld.long 0x00 14. " SPIS814 ,SPI Status Bit 814" "Low,High" textline " " bitfld.long 0x00 13. " SPIS813 ,SPI Status Bit 813" "Low,High" bitfld.long 0x00 12. " SPIS812 ,SPI Status Bit 812" "Low,High" bitfld.long 0x00 11. " SPIS811 ,SPI Status Bit 811" "Low,High" textline " " bitfld.long 0x00 10. " SPIS810 ,SPI Status Bit 810" "Low,High" bitfld.long 0x00 9. " SPIS809 ,SPI Status Bit 809" "Low,High" bitfld.long 0x00 8. " SPIS808 ,SPI Status Bit 808" "Low,High" textline " " bitfld.long 0x00 7. " SPIS807 ,SPI Status Bit 807" "Low,High" bitfld.long 0x00 6. " SPIS806 ,SPI Status Bit 806" "Low,High" bitfld.long 0x00 5. " SPIS805 ,SPI Status Bit 805" "Low,High" textline " " bitfld.long 0x00 4. " SPIS804 ,SPI Status Bit 804" "Low,High" bitfld.long 0x00 3. " SPIS803 ,SPI Status Bit 803" "Low,High" bitfld.long 0x00 2. " SPIS802 ,SPI Status Bit 802" "Low,High" textline " " bitfld.long 0x00 1. " SPIS801 ,SPI Status Bit 801" "Low,High" bitfld.long 0x00 0. " SPIS800 ,SPI Status Bit 800" "Low,High" else hgroup.long 0xC0E4++0x03 hide.long 0x0 "GICD_SPISR24,Shared Peripheral Interrupt Status Register 24" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1A) rgroup.long 0xC0E8++0x03 line.long 0x0 "GICD_SPISR25,Shared Peripheral Interrupt Status Register 25" bitfld.long 0x00 31. " SPIS863 ,SPI Status Bit 863" "Low,High" bitfld.long 0x00 30. " SPIS862 ,SPI Status Bit 862" "Low,High" bitfld.long 0x00 29. " SPIS861 ,SPI Status Bit 861" "Low,High" textline " " bitfld.long 0x00 28. " SPIS860 ,SPI Status Bit 860" "Low,High" bitfld.long 0x00 27. " SPIS859 ,SPI Status Bit 859" "Low,High" bitfld.long 0x00 26. " SPIS858 ,SPI Status Bit 858" "Low,High" textline " " bitfld.long 0x00 25. " SPIS857 ,SPI Status Bit 857" "Low,High" bitfld.long 0x00 24. " SPIS856 ,SPI Status Bit 856" "Low,High" bitfld.long 0x00 23. " SPIS855 ,SPI Status Bit 855" "Low,High" textline " " bitfld.long 0x00 22. " SPIS854 ,SPI Status Bit 854" "Low,High" bitfld.long 0x00 21. " SPIS853 ,SPI Status Bit 853" "Low,High" bitfld.long 0x00 20. " SPIS852 ,SPI Status Bit 852" "Low,High" textline " " bitfld.long 0x00 19. " SPIS851 ,SPI Status Bit 851" "Low,High" bitfld.long 0x00 18. " SPIS850 ,SPI Status Bit 850" "Low,High" bitfld.long 0x00 17. " SPIS849 ,SPI Status Bit 849" "Low,High" textline " " bitfld.long 0x00 16. " SPIS848 ,SPI Status Bit 848" "Low,High" bitfld.long 0x00 15. " SPIS847 ,SPI Status Bit 847" "Low,High" bitfld.long 0x00 14. " SPIS846 ,SPI Status Bit 846" "Low,High" textline " " bitfld.long 0x00 13. " SPIS845 ,SPI Status Bit 845" "Low,High" bitfld.long 0x00 12. " SPIS844 ,SPI Status Bit 844" "Low,High" bitfld.long 0x00 11. " SPIS843 ,SPI Status Bit 843" "Low,High" textline " " bitfld.long 0x00 10. " SPIS842 ,SPI Status Bit 842" "Low,High" bitfld.long 0x00 9. " SPIS841 ,SPI Status Bit 841" "Low,High" bitfld.long 0x00 8. " SPIS840 ,SPI Status Bit 840" "Low,High" textline " " bitfld.long 0x00 7. " SPIS839 ,SPI Status Bit 839" "Low,High" bitfld.long 0x00 6. " SPIS838 ,SPI Status Bit 838" "Low,High" bitfld.long 0x00 5. " SPIS837 ,SPI Status Bit 837" "Low,High" textline " " bitfld.long 0x00 4. " SPIS836 ,SPI Status Bit 836" "Low,High" bitfld.long 0x00 3. " SPIS835 ,SPI Status Bit 835" "Low,High" bitfld.long 0x00 2. " SPIS834 ,SPI Status Bit 834" "Low,High" textline " " bitfld.long 0x00 1. " SPIS833 ,SPI Status Bit 833" "Low,High" bitfld.long 0x00 0. " SPIS832 ,SPI Status Bit 832" "Low,High" else hgroup.long 0xC0E8++0x03 hide.long 0x0 "GICD_SPISR25,Shared Peripheral Interrupt Status Register 25" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1B) rgroup.long 0xC0EC++0x03 line.long 0x0 "GICD_SPISR26,Shared Peripheral Interrupt Status Register 26" bitfld.long 0x00 31. " SPIS895 ,SPI Status Bit 895" "Low,High" bitfld.long 0x00 30. " SPIS894 ,SPI Status Bit 894" "Low,High" bitfld.long 0x00 29. " SPIS893 ,SPI Status Bit 893" "Low,High" textline " " bitfld.long 0x00 28. " SPIS892 ,SPI Status Bit 892" "Low,High" bitfld.long 0x00 27. " SPIS891 ,SPI Status Bit 891" "Low,High" bitfld.long 0x00 26. " SPIS890 ,SPI Status Bit 890" "Low,High" textline " " bitfld.long 0x00 25. " SPIS889 ,SPI Status Bit 889" "Low,High" bitfld.long 0x00 24. " SPIS888 ,SPI Status Bit 888" "Low,High" bitfld.long 0x00 23. " SPIS887 ,SPI Status Bit 887" "Low,High" textline " " bitfld.long 0x00 22. " SPIS886 ,SPI Status Bit 886" "Low,High" bitfld.long 0x00 21. " SPIS885 ,SPI Status Bit 885" "Low,High" bitfld.long 0x00 20. " SPIS884 ,SPI Status Bit 884" "Low,High" textline " " bitfld.long 0x00 19. " SPIS883 ,SPI Status Bit 883" "Low,High" bitfld.long 0x00 18. " SPIS882 ,SPI Status Bit 882" "Low,High" bitfld.long 0x00 17. " SPIS881 ,SPI Status Bit 881" "Low,High" textline " " bitfld.long 0x00 16. " SPIS880 ,SPI Status Bit 880" "Low,High" bitfld.long 0x00 15. " SPIS879 ,SPI Status Bit 879" "Low,High" bitfld.long 0x00 14. " SPIS878 ,SPI Status Bit 878" "Low,High" textline " " bitfld.long 0x00 13. " SPIS877 ,SPI Status Bit 877" "Low,High" bitfld.long 0x00 12. " SPIS876 ,SPI Status Bit 876" "Low,High" bitfld.long 0x00 11. " SPIS875 ,SPI Status Bit 875" "Low,High" textline " " bitfld.long 0x00 10. " SPIS874 ,SPI Status Bit 874" "Low,High" bitfld.long 0x00 9. " SPIS873 ,SPI Status Bit 873" "Low,High" bitfld.long 0x00 8. " SPIS872 ,SPI Status Bit 872" "Low,High" textline " " bitfld.long 0x00 7. " SPIS871 ,SPI Status Bit 871" "Low,High" bitfld.long 0x00 6. " SPIS870 ,SPI Status Bit 870" "Low,High" bitfld.long 0x00 5. " SPIS869 ,SPI Status Bit 869" "Low,High" textline " " bitfld.long 0x00 4. " SPIS868 ,SPI Status Bit 868" "Low,High" bitfld.long 0x00 3. " SPIS867 ,SPI Status Bit 867" "Low,High" bitfld.long 0x00 2. " SPIS866 ,SPI Status Bit 866" "Low,High" textline " " bitfld.long 0x00 1. " SPIS865 ,SPI Status Bit 865" "Low,High" bitfld.long 0x00 0. " SPIS864 ,SPI Status Bit 864" "Low,High" else hgroup.long 0xC0EC++0x03 hide.long 0x0 "GICD_SPISR26,Shared Peripheral Interrupt Status Register 26" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1C) rgroup.long 0xC0F0++0x03 line.long 0x0 "GICD_SPISR27,Shared Peripheral Interrupt Status Register 27" bitfld.long 0x00 31. " SPIS927 ,SPI Status Bit 927" "Low,High" bitfld.long 0x00 30. " SPIS926 ,SPI Status Bit 926" "Low,High" bitfld.long 0x00 29. " SPIS925 ,SPI Status Bit 925" "Low,High" textline " " bitfld.long 0x00 28. " SPIS924 ,SPI Status Bit 924" "Low,High" bitfld.long 0x00 27. " SPIS923 ,SPI Status Bit 923" "Low,High" bitfld.long 0x00 26. " SPIS922 ,SPI Status Bit 922" "Low,High" textline " " bitfld.long 0x00 25. " SPIS921 ,SPI Status Bit 921" "Low,High" bitfld.long 0x00 24. " SPIS920 ,SPI Status Bit 920" "Low,High" bitfld.long 0x00 23. " SPIS919 ,SPI Status Bit 919" "Low,High" textline " " bitfld.long 0x00 22. " SPIS918 ,SPI Status Bit 918" "Low,High" bitfld.long 0x00 21. " SPIS917 ,SPI Status Bit 917" "Low,High" bitfld.long 0x00 20. " SPIS916 ,SPI Status Bit 916" "Low,High" textline " " bitfld.long 0x00 19. " SPIS915 ,SPI Status Bit 915" "Low,High" bitfld.long 0x00 18. " SPIS914 ,SPI Status Bit 914" "Low,High" bitfld.long 0x00 17. " SPIS913 ,SPI Status Bit 913" "Low,High" textline " " bitfld.long 0x00 16. " SPIS912 ,SPI Status Bit 912" "Low,High" bitfld.long 0x00 15. " SPIS911 ,SPI Status Bit 911" "Low,High" bitfld.long 0x00 14. " SPIS910 ,SPI Status Bit 910" "Low,High" textline " " bitfld.long 0x00 13. " SPIS909 ,SPI Status Bit 909" "Low,High" bitfld.long 0x00 12. " SPIS908 ,SPI Status Bit 908" "Low,High" bitfld.long 0x00 11. " SPIS907 ,SPI Status Bit 907" "Low,High" textline " " bitfld.long 0x00 10. " SPIS906 ,SPI Status Bit 906" "Low,High" bitfld.long 0x00 9. " SPIS905 ,SPI Status Bit 905" "Low,High" bitfld.long 0x00 8. " SPIS904 ,SPI Status Bit 904" "Low,High" textline " " bitfld.long 0x00 7. " SPIS903 ,SPI Status Bit 903" "Low,High" bitfld.long 0x00 6. " SPIS902 ,SPI Status Bit 902" "Low,High" bitfld.long 0x00 5. " SPIS901 ,SPI Status Bit 901" "Low,High" textline " " bitfld.long 0x00 4. " SPIS900 ,SPI Status Bit 900" "Low,High" bitfld.long 0x00 3. " SPIS899 ,SPI Status Bit 899" "Low,High" bitfld.long 0x00 2. " SPIS898 ,SPI Status Bit 898" "Low,High" textline " " bitfld.long 0x00 1. " SPIS897 ,SPI Status Bit 897" "Low,High" bitfld.long 0x00 0. " SPIS896 ,SPI Status Bit 896" "Low,High" else hgroup.long 0xC0F0++0x03 hide.long 0x0 "GICD_SPISR27,Shared Peripheral Interrupt Status Register 27" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1D) rgroup.long 0xC0F4++0x03 line.long 0x0 "GICD_SPISR28,Shared Peripheral Interrupt Status Register 28" bitfld.long 0x00 31. " SPIS959 ,SPI Status Bit 959" "Low,High" bitfld.long 0x00 30. " SPIS958 ,SPI Status Bit 958" "Low,High" bitfld.long 0x00 29. " SPIS957 ,SPI Status Bit 957" "Low,High" textline " " bitfld.long 0x00 28. " SPIS956 ,SPI Status Bit 956" "Low,High" bitfld.long 0x00 27. " SPIS955 ,SPI Status Bit 955" "Low,High" bitfld.long 0x00 26. " SPIS954 ,SPI Status Bit 954" "Low,High" textline " " bitfld.long 0x00 25. " SPIS953 ,SPI Status Bit 953" "Low,High" bitfld.long 0x00 24. " SPIS952 ,SPI Status Bit 952" "Low,High" bitfld.long 0x00 23. " SPIS951 ,SPI Status Bit 951" "Low,High" textline " " bitfld.long 0x00 22. " SPIS950 ,SPI Status Bit 950" "Low,High" bitfld.long 0x00 21. " SPIS949 ,SPI Status Bit 949" "Low,High" bitfld.long 0x00 20. " SPIS948 ,SPI Status Bit 948" "Low,High" textline " " bitfld.long 0x00 19. " SPIS947 ,SPI Status Bit 947" "Low,High" bitfld.long 0x00 18. " SPIS946 ,SPI Status Bit 946" "Low,High" bitfld.long 0x00 17. " SPIS945 ,SPI Status Bit 945" "Low,High" textline " " bitfld.long 0x00 16. " SPIS944 ,SPI Status Bit 944" "Low,High" bitfld.long 0x00 15. " SPIS943 ,SPI Status Bit 943" "Low,High" bitfld.long 0x00 14. " SPIS942 ,SPI Status Bit 942" "Low,High" textline " " bitfld.long 0x00 13. " SPIS941 ,SPI Status Bit 941" "Low,High" bitfld.long 0x00 12. " SPIS940 ,SPI Status Bit 940" "Low,High" bitfld.long 0x00 11. " SPIS939 ,SPI Status Bit 939" "Low,High" textline " " bitfld.long 0x00 10. " SPIS938 ,SPI Status Bit 938" "Low,High" bitfld.long 0x00 9. " SPIS937 ,SPI Status Bit 937" "Low,High" bitfld.long 0x00 8. " SPIS936 ,SPI Status Bit 936" "Low,High" textline " " bitfld.long 0x00 7. " SPIS935 ,SPI Status Bit 935" "Low,High" bitfld.long 0x00 6. " SPIS934 ,SPI Status Bit 934" "Low,High" bitfld.long 0x00 5. " SPIS933 ,SPI Status Bit 933" "Low,High" textline " " bitfld.long 0x00 4. " SPIS932 ,SPI Status Bit 932" "Low,High" bitfld.long 0x00 3. " SPIS931 ,SPI Status Bit 931" "Low,High" bitfld.long 0x00 2. " SPIS930 ,SPI Status Bit 930" "Low,High" textline " " bitfld.long 0x00 1. " SPIS929 ,SPI Status Bit 929" "Low,High" bitfld.long 0x00 0. " SPIS928 ,SPI Status Bit 928" "Low,High" else hgroup.long 0xC0F4++0x03 hide.long 0x0 "GICD_SPISR28,Shared Peripheral Interrupt Status Register 28" endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x0000001F)>=0x1E) rgroup.long 0xC0F8++0x03 line.long 0x0 "GICD_SPISR29,Shared Peripheral Interrupt Status Register 29" bitfld.long 0x00 31. " SPIS991 ,SPI Status Bit 991" "Low,High" bitfld.long 0x00 30. " SPIS990 ,SPI Status Bit 990" "Low,High" bitfld.long 0x00 29. " SPIS989 ,SPI Status Bit 989" "Low,High" textline " " bitfld.long 0x00 28. " SPIS988 ,SPI Status Bit 988" "Low,High" bitfld.long 0x00 27. " SPIS987 ,SPI Status Bit 987" "Low,High" bitfld.long 0x00 26. " SPIS986 ,SPI Status Bit 986" "Low,High" textline " " bitfld.long 0x00 25. " SPIS985 ,SPI Status Bit 985" "Low,High" bitfld.long 0x00 24. " SPIS984 ,SPI Status Bit 984" "Low,High" bitfld.long 0x00 23. " SPIS983 ,SPI Status Bit 983" "Low,High" textline " " bitfld.long 0x00 22. " SPIS982 ,SPI Status Bit 982" "Low,High" bitfld.long 0x00 21. " SPIS981 ,SPI Status Bit 981" "Low,High" bitfld.long 0x00 20. " SPIS980 ,SPI Status Bit 980" "Low,High" textline " " bitfld.long 0x00 19. " SPIS979 ,SPI Status Bit 979" "Low,High" bitfld.long 0x00 18. " SPIS978 ,SPI Status Bit 978" "Low,High" bitfld.long 0x00 17. " SPIS977 ,SPI Status Bit 977" "Low,High" textline " " bitfld.long 0x00 16. " SPIS976 ,SPI Status Bit 976" "Low,High" bitfld.long 0x00 15. " SPIS975 ,SPI Status Bit 975" "Low,High" bitfld.long 0x00 14. " SPIS974 ,SPI Status Bit 974" "Low,High" textline " " bitfld.long 0x00 13. " SPIS973 ,SPI Status Bit 973" "Low,High" bitfld.long 0x00 12. " SPIS972 ,SPI Status Bit 972" "Low,High" bitfld.long 0x00 11. " SPIS971 ,SPI Status Bit 971" "Low,High" textline " " bitfld.long 0x00 10. " SPIS970 ,SPI Status Bit 970" "Low,High" bitfld.long 0x00 9. " SPIS969 ,SPI Status Bit 969" "Low,High" bitfld.long 0x00 8. " SPIS968 ,SPI Status Bit 968" "Low,High" textline " " bitfld.long 0x00 7. " SPIS967 ,SPI Status Bit 967" "Low,High" bitfld.long 0x00 6. " SPIS966 ,SPI Status Bit 966" "Low,High" bitfld.long 0x00 5. " SPIS965 ,SPI Status Bit 965" "Low,High" textline " " bitfld.long 0x00 4. " SPIS964 ,SPI Status Bit 964" "Low,High" bitfld.long 0x00 3. " SPIS963 ,SPI Status Bit 963" "Low,High" bitfld.long 0x00 2. " SPIS962 ,SPI Status Bit 962" "Low,High" textline " " bitfld.long 0x00 1. " SPIS961 ,SPI Status Bit 961" "Low,High" bitfld.long 0x00 0. " SPIS960 ,SPI Status Bit 960" "Low,High" else hgroup.long 0xC0F8++0x03 hide.long 0x0 "GICD_SPISR29,Shared Peripheral Interrupt Status Register 29" endif tree.end width 12. tree "Peripheral/Component ID Registers" rgroup.long 0xFFE0++0x03 line.long 0x00 "GICD_PIDR0,Peripheral ID0 Register" hexmask.long.byte 0x00 0.--7. 1. " PART_0 ,Part number[7:0]" rgroup.long 0xFFE4++0x03 line.long 0x00 "GICD_PIDR1,Peripheral ID1 Register" bitfld.long 0x00 4.--7. " DES_1 ,JEP106 identity code [3:0]" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 0.--3. " PART_1 , Part number[11:8]" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" rgroup.long 0xFFE8++0x03 line.long 0x00 "GICD_PIDR2,Peripheral ID2 Register" bitfld.long 0x00 4.--7. " ARCHREV ,Identifies the version of the GIC architecture with which the GIC-500 complies" "Reserved,Reserved,Reserved,v3.0,?..." bitfld.long 0x00 3. " JEDEC ,Indicates that a JEDEC-assigned JEP106 identity code is used" "Not Used,Used" bitfld.long 0x00 0.--2. " DES_1 ,JEP106 identity code [6:4]" "0,1,2,3,4,5,6,7" rgroup.long 0xFFEC++0x03 line.long 0x00 "GICD_PIDR3,Peripheral ID3 Register" bitfld.long 0x00 4.--7. " REVAND ,Manufacturer defined revision number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 0.--3. " CMOD ,Indicates if the customer has modified the behavior of the component" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" rgroup.long 0xFFD0++0x03 line.long 0x00 "GICD_PIDR4,Peripheral ID4 Register" bitfld.long 0x00 4.--7. " SIZE ,64 KB software visible page" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 0.--3. " DES_2 ,ARM implementation" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" hgroup.long 0xFFD4++0x03 hide.long 0x00 "GICD_PIDR5,Peripheral ID5 Register" hgroup.long 0xFFD8++0x03 hide.long 0x00 "GICD_PIDR6,Peripheral ID6 Register" hgroup.long 0xFFDC++0x03 hide.long 0x00 "GICD_PIDR7,Peripheral ID7 Register" rgroup.long 0xFFF0++0x03 line.long 0x00 "GICD_CIDR0,Component ID0 Register" hexmask.long.byte 0x00 0.--7. 1. " FIXVAL ,ARM-defined fixed values for the preamble for component discovery" rgroup.long 0xFFF4++0x03 line.long 0x00 "GICD_CIDR1,Component ID1 Register" hexmask.long.byte 0x00 0.--7. 1. " FIXVAL ,ARM-defined fixed values for the preamble for component discovery" rgroup.long 0xFFF8++0x03 line.long 0x00 "GICD_CIDR2,Component ID2 Register" hexmask.long.byte 0x00 0.--7. 1. " FIXVAL ,ARM-defined fixed values for the preamble for component discovery" rgroup.long 0xFFFC++0x03 line.long 0x00 "GICD_CIDR3,Component ID3 Register" hexmask.long.byte 0x00 0.--7. 1. " FIXVAL ,ARM-defined fixed values for the preamble for component discovery" tree.end tree.end width 0x0B base (COMP.BASE("GICD",-1.)+0x20000) width 24. tree "Interrupt Translation Service" group.long 0x00++0x03 line.long 0x00 "GITS_CTLR,ITS Control Register" rbitfld.long 0x00 31. " QUIESCENT ,Indicates completion of all ITS operations" "Not quiescent,Quiescent" bitfld.long 0x00 0. " ENABLED ,Controls whether the ITS is enabled" "Disabled,Enabled" rgroup.long 0x04++0x03 line.long 0x00 "GITS_IIDR,ITS Implementer Identification Register" bitfld.long 0x00 24.--31. " PRODID ,Indicates the product ID" "GIC-500,?..." bitfld.long 0x00 16.--19. " VAR ,Major revison number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" textline " " bitfld.long 0x00 12.--15. " REV ,Minor revision number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" hexmask.long.word 0x00 0.--11. 1. " IMP ,Implementer" if (((per.q((COMP.BASE("GICD",-1.)+0x20000)+0x0008))&0x1000000000)==0x1000000000)&&(((per.q((COMP.BASE("GICD",-1.)+0x20000)+0x0008))&0xFF000000)!=0x00) rgroup.quad 0x08++0x07 line.quad 0x00 "GITS_TYPER,ITS Type Register" bitfld.quad 0x00 37. " VMOVP ,Indicates the form of the VMOVP command" "All ITSs,One ITS" bitfld.quad 0x00 36. " CIL ,Collection ID Limit" "16-bit,GITS_TYPER.CIDBITS value" textline " " bitfld.quad 0x00 32.--35. " CIDBITS ,Number of Collection ID bits" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" hexmask.quad.byte 0x00 24.--31. 1. " HCC ,Hardware Collection Count" textline " " bitfld.quad 0x00 19. " PTA ,Indicates the format of the target address" "GICR_TYPER.PROCESSOR_NUMBER value,Base physical address" bitfld.quad 0x00 18. " SEIS ,Indicates whether the virtual CPU interface supports generation of SEIs" "Not suppported,Supported" textline " " bitfld.quad 0x00 13.--17. " DEVBITS ,The number of DeviceID bits implemented 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" bitfld.quad 0x00 8.--12. " ID_BITS ,The number of EventID bits implemented 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" textline " " rbitfld.quad 0x00 4.--7. " ITT_ENTRY_SIZE ,The number of bytes per translation table entry minus one" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.quad 0x00 2. " CCT ,Cumulative Collection Tables" "0,1" elif (((per.q((COMP.BASE("GICD",-1.)+0x20000)+0x0008))&0x1000000000)==0x1000000000) rgroup.quad 0x08++0x07 line.quad 0x00 "GITS_TYPER,ITS Type Register" bitfld.quad 0x00 37. " VMOVP ,Indicates the form of the VMOVP command" "All ITSs,One ITS" bitfld.quad 0x00 36. " CIL ,Collection ID Limit" "16-bit,GITS_TYPER.CIDBITS value" textline " " bitfld.quad 0x00 32.--35. " CIDBITS ,Number of Collection ID bits minus one" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" hexmask.quad.byte 0x00 24.--31. 1. " HCC ,Hardware Collection Count" textline " " bitfld.quad 0x00 19. " PTA ,Indicates the format of the target address" "GICR_TYPER.PROCESSOR_NUMBER value,Base physical address" bitfld.quad 0x00 18. " SEIS ,Indicates whether the virtual CPU interface supports generation of SEIs" "Not suppported,Supported" textline " " bitfld.quad 0x00 13.--17. " DEVBITS ,The number of DeviceID bits implemented 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" bitfld.quad 0x00 8.--12. " ID_BITS ,The number of EventID bits implemented 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" textline " " rbitfld.quad 0x00 4.--7. " ITT_ENTRY_SIZE ,The number of bytes per translation table entry minus one" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" elif (((per.q((COMP.BASE("GICD",-1.)+0x20000)+0x0008))&0xFF000000)!=0x00) rgroup.quad 0x08++0x07 line.quad 0x00 "GITS_TYPER,ITS Type Register" bitfld.quad 0x00 37. " VMOVP ,Indicates the form of the VMOVP command" "All ITSs,One ITS" bitfld.quad 0x00 36. " CIL ,Collection ID Limit" "16-bit,GITS_TYPER.CIDBITS value" textline " " hexmask.quad.byte 0x00 24.--31. 1. " HCC ,Hardware Collection Count" bitfld.quad 0x00 19. " PTA ,Indicates the format of the target address" "GICR_TYPER.PROCESSOR_NUMBER value,Base physical address" textline " " bitfld.quad 0x00 18. " SEIS ,Indicates whether the virtual CPU interface supports generation of SEIs" "Not suppported,Supported" bitfld.quad 0x00 13.--17. " DEVBITS ,The number of DeviceID bits implemented 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" textline " " bitfld.quad 0x00 8.--12. " ID_BITS ,The number of EventID bits implemented 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" rbitfld.quad 0x00 4.--7. " ITT_ENTRY_SIZE ,The number of bytes per translation table entry minus one" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" textline " " bitfld.quad 0x00 2. " CCT ,Cumulative Collection Tables" "0,1" else rgroup.quad 0x08++0x07 line.quad 0x00 "GITS_TYPER,ITS Type Register" bitfld.quad 0x00 37. " VMOVP ,Indicates the form of the VMOVP command" "All ITSs,One ITS" bitfld.quad 0x00 36. " CIL ,Collection ID Limit" "16-bit,GITS_TYPER.CIDBITS value" textline " " hexmask.quad.byte 0x00 24.--31. 1. " HCC ,Hardware Collection Count" bitfld.quad 0x00 19. " PTA ,Indicates the format of the target address" "GICR_TYPER.PROCESSOR_NUMBER value,Base physical address" textline " " bitfld.quad 0x00 18. " SEIS ,Indicates whether the virtual CPU interface supports generation of SEIs" "Not suppported,Supported" bitfld.quad 0x00 13.--17. " DEVBITS ,The number of DeviceID bits implemented 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" textline " " bitfld.quad 0x00 8.--12. " ID_BITS ,The number of EventID bits implemented 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" rbitfld.quad 0x00 4.--7. " ITT_ENTRY_SIZE ,The number of bytes per translation table entry minus one" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" endif group.quad 0x80++0x07 line.quad 0x00 "GITS_CBASER,The command queue control register" bitfld.quad 0x00 63. " VALID ,Indicates whether software has allocated memory for the command queue" "Not allocated,Allocated" bitfld.quad 0x00 59.--61. " INNERCACHE ,Indicates the Inner Cacheability attributes of accesses to the command queue" "Device-nGnRnE,Normal inner non-cacheable,Normal inner RA WT cacheable,Normal inner RA WB cacheable,Normal inner WA WT cacheable,Normal inner WA WB cacheable,Normal inner RA WA WT cacheable,Normal inner RA WA WB cacheable" textline " " bitfld.quad 0x00 53.--55. " OUTERCACHE ,Indicates the Outer Cacheability attributes of accesses to the command queue" "Defined in INNERCACHE,Normal outer non-cacheable,Normal outer RA WT cacheable,Normal outer RA WB cacheable,Normal outer WA WT cacheable,Normal outer WA WB cacheable,Normal outer RA WA WT cacheable,Normal outer RA WA WB cacheable" hexmask.quad 0x00 12.--51. 0x10 " PHYSICAL_ADDRESS ,Bits [51:12] of the base physical address of the command queue" textline " " bitfld.quad 0x00 10.--11. " SHAREABILITY ,Indicates the Shareability attributes of accesses to the command queue" "Non-shareable,Inner Shareable,Outer Shareable,?..." hexmask.quad.byte 0x00 0.--7. 1. " SIZE ,The number of 4KB pages of physical memory allocated to the command queue minus one" group.quad 0x88++0x7 line.quad 0x00 "GITS_CWRITER,The command queue write pointer" hexmask.quad.word 0x00 5.--19. 0x20 " OFFSET ,Bits [19:5] of the offset from GITS_CBASER" bitfld.quad 0x00 0. " RETRY ,Restarts the processing of commands by the ITS if it stalled because of a command error" "No effect,Restarted" group.quad 0x90++0x07 line.quad 0x00 "GITS_CREADR,The command queue read pointer" hexmask.quad.word 0x00 5.--19. 0x20 " OFFSET ,Bits [19:5] of the offset from GITS_CBASER" bitfld.quad 0x00 0. " STALLED ,Reports whether the processing of commands is stalled because of a command error" "Not stalled,Stalled" if (((per.q((COMP.BASE("GICD",-1.)+0x20000)+0x0100))&0x700000000000000)==0x00) group.quad 0x100++0x07 line.quad 0x00 "GITS_BASER0,ITS table control register" bitfld.quad 0x00 63. " VALID ,Indicates whether software has allocated memory for the translation table" "Not allocated,Allocated" bitfld.quad 0x00 62. " INDIRECT ,This field indicates whether an implemented register specifies a single flat table or a two-level table where the first level contains a list of descriptors" "Single Level,Two Level" textline " " bitfld.quad 0x00 59.--61. " INNERCACHE ,Indicates the Inner Cacheability attributes of accesses to the table" "Device-nGnRnE,Normal inner non-cacheable,Normal inner RA WT cacheable,Normal inner RA WB cacheable,Normal inner WA WT cacheable,Normal inner WA WB cacheable,Normal inner RA WA WT cacheable,Normal inner RA WA WB cacheable" rbitfld.quad 0x00 56.--58. " TYPE ,Specifies the type of entity that requires entries in the corresponding translation table" "Unimplemented,Devices,Reserved,Reserved,Interrupt collections,?..." textline " " bitfld.quad 0x00 53.--55. " OUTERCACHE ,Indicates the Outer Cacheability attributes of accesses to the table" "Defined in INNERCACHE,Normal outer non-cacheable,Normal outer RA WT cacheable,Normal outer RA WB cacheable,Normal outer WA WT cacheable,Normal outer WA WB cacheable,Normal outer RA WA WT cacheable,Normal outer RA WA WB cacheable" rbitfld.quad 0x00 48.--52. " ENTRY_SIZE ,Specifies the number of bytes per translation table entry 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" textline " " hexmask.quad 0x00 12.--47. 1. " PHYSICAL_ADDRESS ,Physical Address" bitfld.quad 0x00 10.--11. " SHAREABILITY ,Indicates the Shareability attributes of accesses to the table" "Non-shareable,Inner Shareable,Outer Shareable,?..." textline " " bitfld.quad 0x00 8.--9. " PAGE_SIZE ,The size of page that the translation table uses" "4KB,16KB,64KB,?..." else group.quad 0x100++0x07 line.quad 0x00 "GITS_BASER0,ITS table control register" bitfld.quad 0x00 63. " VALID ,Indicates whether software has allocated memory for the translation table" "Not allocated,Allocated" bitfld.quad 0x00 62. " INDIRECT ,This field indicates whether an implemented register specifies a single flat table or a two-level table where the first level contains a list of descriptors" "Single Level,Two Level" textline " " bitfld.quad 0x00 59.--61. " INNERCACHE ,Indicates the Inner Cacheability attributes of accesses to the table" "Device-nGnRnE,Normal inner non-cacheable,Normal inner RA WT cacheable,Normal inner RA WB cacheable,Normal inner WA WT cacheable,Normal inner WA WB cacheable,Normal inner RA WA WT cacheable,Normal inner RA WA WB cacheable" rbitfld.quad 0x00 56.--58. " TYPE ,Specifies the type of entity that requires entries in the corresponding translation table" "Unimplemented,Devices,Reserved,Reserved,Interrupt collections,?..." textline " " bitfld.quad 0x00 53.--55. " OUTERCACHE ,Indicates the Outer Cacheability attributes of accesses to the table" "Defined in INNERCACHE,Normal outer non-cacheable,Normal outer RA WT cacheable,Normal outer RA WB cacheable,Normal outer WA WT cacheable,Normal outer WA WB cacheable,Normal outer RA WA WT cacheable,Normal outer RA WA WB cacheable" rbitfld.quad 0x00 48.--52. " ENTRY_SIZE ,Specifies the number of bytes per translation table entry 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" textline " " hexmask.quad 0x00 12.--47. 0x10 " PHYSICAL_ADDRESS ,Physical Address" bitfld.quad 0x00 10.--11. " SHAREABILITY ,Indicates the Shareability attributes of accesses to the table" "Non-shareable,Inner Shareable,Outer Shareable,?..." textline " " bitfld.quad 0x00 8.--9. " PAGE_SIZE ,The size of page that the translation table uses" "4KB,16KB,64KB,?..." hexmask.quad.byte 0x00 0.--7. 1. " SIZE ,The number of pages of physical memory allocated to the table minus one" endif textline " " wgroup.long 0xC000++0x03 line.long 0x00 "GITS_TRKCTLR,Tracking Control Register" bitfld.long 0x00 1. " LPI_TRACK ,Write 0b1 to capture information about the next interrupt that the ITS generated or failed to generate because of misprogramming" "No effect,Capture" bitfld.long 0x00 0. " CACHE_COUNT_RESET ,Write 0b1 to reset the cache hit and miss counters in GITS_TRKICR and GITS_TRKLCR" "No effect,Reset" if (((per.l((COMP.BASE("GICD",-1.)+0x20000)+0xC004))&0x1F)==0x01) rgroup.long 0xC004++0x03 line.long 0x00 "GITS_TRKR,Tracking Status Register" bitfld.long 0x00 6. " PID_OUT_OF_RANGE ,Indicates that the LPI PID is larger than that allowed by the IDbits field in the GICR_PROPBASER" "0,1" bitfld.long 0x00 5. " TARGET_OUT_OF_RANGE ,Indicates that target collection has not been successfully mapped using MAPC or that the target core does not have LPIs enabled in GICR_CTLR" "0,1" textline " " bitfld.long 0x00 4. " NO_TRANSLATION ,Indicates that no valid MAPI or MAPVI has successfully been performed for this combination of input ID and Device ID" "0,1" bitfld.long 0x00 3. " INPUT_ID_OUT_OF_RANGE ,Indicates that the input ID is larger than that allowed for that Device ID which is set during the MAPD command or it is larger than 65535" "0,1" textline " " bitfld.long 0x00 2. " DEVICE_ID_UNMAPPED ,Indicates that no valid MAPD has successfully been performed for this Device ID" "0,1" bitfld.long 0x00 1. " DEVICE_ID_OUT_OF_RANGE ,Indicates that the Device ID is larger than that allowed by the Size and Page Size in GITS_BASER0 or larger than the number of Device IDs configured" "0,1" textline " " bitfld.long 0x00 0. " LPI_TRACKED ,Indicates that the LPI tracking initiated by the LPI track bit in the GITS_TRKCTLR register is completed and the contents of the Debug Tracked registers are valid" "Not valid,Valid" elif (((per.l((COMP.BASE("GICD",-1.)+0x20000)+0xC004))&0xF)==0x01) rgroup.long 0xC004++0x03 line.long 0x00 "GITS_TRKR,Tracking Status Register" bitfld.long 0x00 4. " NO_TRANSLATION ,Indicates that no valid MAPI or MAPVI has successfully been performed for this combination of input ID and Device ID" "0,1" bitfld.long 0x00 3. " INPUT_ID_OUT_OF_RANGE ,Indicates that the input ID is larger than that allowed for that Device ID which is set during the MAPD command or it is larger than 65535" "0,1" textline " " bitfld.long 0x00 2. " DEVICE_ID_UNMAPPED ,Indicates that no valid MAPD has successfully been performed for this Device ID" "0,1" bitfld.long 0x00 1. " DEVICE_ID_OUT_OF_RANGE ,Indicates that the Device ID is larger than that allowed by the Size and Page Size in GITS_BASER0 or larger than the number of Device IDs configured" "0,1" textline " " bitfld.long 0x00 0. " LPI_TRACKED ,Indicates that the LPI tracking initiated by the LPI track bit in the GITS_TRKCTLR register is completed and the contents of the Debug Tracked registers are valid" "Not valid,Valid" elif (((per.l((COMP.BASE("GICD",-1.)+0x20000)+0xC004))&0x7)==0x01) rgroup.long 0xC004++0x03 line.long 0x00 "GITS_TRKR,Tracking Status Register" bitfld.long 0x00 3. " INPUT_ID_OUT_OF_RANGE ,Indicates that the input ID is larger than that allowed for that Device ID which is set during the MAPD command or it is larger than 65535" "0,1" bitfld.long 0x00 2. " DEVICE_ID_UNMAPPED ,Indicates that no valid MAPD has successfully been performed for this Device ID" "0,1" textline " " bitfld.long 0x00 1. " DEVICE_ID_OUT_OF_RANGE ,Indicates that the Device ID is larger than that allowed by the Size and Page Size in GITS_BASER0 or larger than the number of Device IDs configured" "0,1" bitfld.long 0x00 0. " LPI_TRACKED ,Indicates that the LPI tracking initiated by the LPI track bit in the GITS_TRKCTLR register is completed and the contents of the Debug Tracked registers are valid" "Not valid,Valid" elif (((per.l((COMP.BASE("GICD",-1.)+0x20000)+0xC004))&0x3)==0x01) rgroup.long 0xC004++0x03 line.long 0x00 "GITS_TRKR,Tracking Status Register" bitfld.long 0x00 2. " DEVICE_ID_UNMAPPED ,Indicates that no valid MAPD has successfully been performed for this Device ID" "0,1" bitfld.long 0x00 1. " DEVICE_ID_OUT_OF_RANGE ,Indicates that the Device ID is larger than that allowed by the Size and Page Size in GITS_BASER0 or larger than the number of Device IDs configured" "0,1" textline " " bitfld.long 0x00 0. " LPI_TRACKED ,Indicates that the LPI tracking initiated by the LPI track bit in the GITS_TRKCTLR register is completed and the contents of the Debug Tracked registers are valid" "Not valid,Valid" else rgroup.long 0xC004++0x03 line.long 0x00 "GITS_TRKR,Tracking Status Register" bitfld.long 0x00 1. " DEVICE_ID_OUT_OF_RANGE ,Indicates that the Device ID is larger than that allowed by the Size and Page Size in GITS_BASER0 or larger than the number of Device IDs configured" "0,1" bitfld.long 0x00 0. " LPI_TRACKED ,Indicates that the LPI tracking initiated by the LPI track bit in the GITS_TRKCTLR register is completed and the contents of the Debug Tracked registers are valid" "Not valid,Valid" endif if (((per.l((COMP.BASE("GICD",-1.)+0x20000)+0xC004))&0x01)==0x01) rgroup.long 0xC008++0x03 line.long 0x00 "GITS_TRKDIDR,Debug Tracked DID Register" hexmask.long.tbyte 0x00 0.--19. 1. " LPI_DID ,The Device ID for the interrupt that was tracked" else hgroup.long 0xC008++0x03 hide.long 0x00 "GITS_TRKDIDR,Debug Tracked DID Register" endif if (((per.l((COMP.BASE("GICD",-1.)+0x20000)+0xC004))&0x7F)==0x01) rgroup.long 0xC00C++0x03 line.long 0x00 "GITS_TRKPIDR,Debug Tracked PID Register" hexmask.long.word 0x00 0.--15. 1. " LPI_PID ,The ID after translation for an interrupt that was tracked and generated an LPI successfully" else hgroup.long 0xC00C++0x03 hide.long 0x00 "GITS_TRKPIDR,Debug Tracked PID Register" endif if (((per.l((COMP.BASE("GICD",-1.)+0x20000)+0xC004))&0x01)==0x01) rgroup.long 0xC010++0x03 line.long 0x00 "GITS_TRKVIDR,Debug Tracked ID Register" hexmask.long.word 0x00 0.--15. 1. " LPI_ID ,The ID before translation of the interrupt that was tracked" else hgroup.long 0xC010++0x03 hide.long 0x00 "GITS_TRKVIDR,Debug Tracked ID Register" endif if (((per.l((COMP.BASE("GICD",-1.)+0x20000)+0xC004))&0x7F)==0x01) rgroup.long 0xC014++0x03 line.long 0x00 "GITS_TRKTGTR,Debug Tracked Target Register" hexmask.long.byte 0x00 0.--6. 1. " LPI_TARGET_CORE ,The target core for an interrupt that was tracked and generated an LPI successfully" else hgroup.long 0xC014++0x03 hide.long 0x00 "GITS_TRKTGTR,Debug Tracked Target Register" endif rgroup.long 0xC018++0x03 line.long 0x00 "GITS_TRKICR,Debug ITE Cache Statistics" hexmask.long.word 0x00 16.--31. 1. " ITE_CACHE_HITS ,Number of hits in the ITE cache" hexmask.long.word 0x00 0.--15. 1. " ITE_CACHE_MISSES ,Number of misses in the ITE cache" rgroup.long 0xC01C++0x03 line.long 0x00 "GITS_TRKLCR,Debug LPI Cache Statistics" hexmask.long.word 0x00 16.--31. 1. " LPI_CACHE_HITS ,Number of hits in the LPI cache" hexmask.long.word 0x00 0.--15. 1. " LPI_CACHE_MISSES ,Number of misses in the LPI cache" rgroup.long 0xFFE0++0x03 line.long 0x00 "GITS_PIDR0,Peripheral ID0 Register" hexmask.long.byte 0x00 0.--7. 1. " PART_0 ,Part number[7:0]" rgroup.long 0xFFE4++0x03 line.long 0x00 "GITS_PIDR1,Peripheral ID1 Register" bitfld.long 0x00 4.--7. " DES_1 ,JEP106 identity code [3:0]" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 0.--3. " PART_1 , Part number[11:8]" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" rgroup.long 0xFFE8++0x03 line.long 0x00 "GITS_PIDR2,Peripheral ID2 Register" bitfld.long 0x00 4.--7. " ARCHREV ,Identifies the version of the GIC architecture with which the GIC-500 complies" "Reserved,Reserved,Reserved,v3.0,?..." bitfld.long 0x00 3. " JEDEC ,Indicates that a JEDEC-assigned JEP106 identity code is used" "Low,High" textline " " bitfld.long 0x00 0.--2. " DES_1 ,JEP106 identity code [6:4]" "0,1,2,3,4,5,6,7" rgroup.long 0xFFEC++0x03 line.long 0x00 "GITS_PIDR3,Peripheral ID3 Register" bitfld.long 0x00 4.--7. " REVAND ,Manufacturer defined revision number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 0.--3. " CMOD ,Indicates if the customer has modified the behavior of the component" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" rgroup.long 0xFFD0++0x03 line.long 0x00 "GITS_PIDR4,Peripheral ID4 Register" bitfld.long 0x00 4.--7. " SIZE ,64 KB software visible page" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 0.--3. " DES_2 ,ARM implementation" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" hgroup.long 0xFFD4++0x03 hide.long 0x00 "GITS_PIDR5,Peripheral ID5 Register" hgroup.long 0xFFD8++0x03 hide.long 0x00 "GITS_PIDR6,Peripheral ID6 Register" hgroup.long 0xFFDC++0x03 hide.long 0x00 "GITS_PIDR7,Peripheral ID7 Register" rgroup.long 0xFFF0++0x03 line.long 0x00 "GITS_CIDR0,Component ID0 Register" hexmask.long.byte 0x00 0.--7. 1. " FIXVAL ,ARM-defined fixed values for the preamble for component discovery" rgroup.long 0xFFF4++0x03 line.long 0x00 "GITS_CIDR1,Component ID1 Register" hexmask.long.byte 0x00 0.--7. 1. " FIXVAL ,ARM-defined fixed values for the preamble for component discovery" rgroup.long 0xFFF8++0x03 line.long 0x00 "GITS_CIDR2,Component ID2 Register" hexmask.long.byte 0x00 0.--7. 1. " FIXVAL ,ARM-defined fixed values for the preamble for component discovery" rgroup.long 0xFFFC++0x03 line.long 0x00 "GITS_CIDR3,Component ID3 Register" hexmask.long.byte 0x00 0.--7. 1. " FIXVAL ,ARM-defined fixed values for the preamble for component discovery" textline " " base (COMP.BASE("GICD",-1.)+0x20000)+0x10000 if (((per.l((COMP.BASE("GICD",-1.)+0x20000)))&0x01)==0x01) wgroup.long 0x40++0x03 line.long 0x00 "GITS_TRANSLATER,ITS Translation Register" else hgroup.long 0x40++0x03 hide.long 0x00 "GITS_TRANSLATER,ITS Translation Register" endif tree.end width 0x0B base COMP.BASE("GICR",-1.) width 17. tree "Redistributor Interface" tree "Control Registers" if (((per.q(COMP.BASE("GICR",-1.)+0x08))&0x21)==0x21) group.long 0x0000++0x03 line.long 0x00 "GICR_CTLR,Redistributor Control Register" rbitfld.long 0x00 31. " UWP ,Upstream Write Pending. Indicates whether all upstream writes have been communicated to the Distributor" "Not pending,Pending" bitfld.long 0x00 26. " DPG1S ,Disable Processor selection for Group 1 Secure interrupts" "No,Yes" bitfld.long 0x00 25. " DPG1NS ,Disable Processor selection for Group 1 Non-secure interrupts" "No,Yes" textline " " bitfld.long 0x00 24. " DPG0 ,Disable Processor selection for Group 0 interrupts" "No,Yes" bitfld.long 0x00 3. " RWP ,Register Write Pending. Indicates whether a register write for the current Security state is in progress or not" "Not pending,Pending" bitfld.long 0x00 0. " ENABLE_LPIS ,Enables LPIs in implementations where affinity routing is enabled for Security state" "Disabled,Enabled" elif (((per.q(COMP.BASE("GICR",-1.)+0x08))&0x21)==0x20) group.long 0x0000++0x03 line.long 0x00 "GICR_CTLR,Redistributor Control Register" rbitfld.long 0x00 31. " UWP ,Upstream Write Pending. Indicates whether all upstream writes have been communicated to the Distributor" "Not pending,Pending" bitfld.long 0x00 26. " DPG1S ,Disable Processor selection for Group 1 Secure interrupts" "No,Yes" bitfld.long 0x00 25. " DPG1NS ,Disable Processor selection for Group 1 Non-secure interrupts" "No,Yes" textline " " bitfld.long 0x00 24. " DPG0 ,Disable Processor selection for Group 0 interrupts" "No,Yes" bitfld.long 0x00 3. " RWP ,Register Write Pending. Indicates whether a register write for the current Security state is in progress or not" "Not pending,Pending" elif (((per.q(COMP.BASE("GICR",-1.)+0x08))&0x21)==0x01) group.long 0x0000++0x03 line.long 0x00 "GICR_CTLR,Redistributor Control Register" rbitfld.long 0x00 31. " UWP ,Upstream Write Pending. Indicates whether all upstream writes have been communicated to the Distributor" "Not pending,Pending" bitfld.long 0x00 3. " RWP ,Register Write Pending. Indicates whether a register write for the current Security state is in progress or not" "Not pending,Pending" bitfld.long 0x00 0. " ENABLE_LPIS ,Enables LPIs in implementations where affinity routing is enabled for Security state" "Disabled,Enabled" else group.long 0x0000++0x03 line.long 0x00 "GICR_CTLR,Redistributor Control Register" rbitfld.long 0x00 31. " UWP ,Upstream Write Pending. Indicates whether all upstream writes have been communicated to the Distributor" "Not pending,Pending" bitfld.long 0x00 3. " RWP ,Register Write Pending. Indicates whether a register write for the current Security state is in progress or not" "Not pending,Pending" endif rgroup.long 0x0004++0x03 line.long 0x00 "GICR_IIDR,Distributor Implementer Identification Register" bitfld.long 0x00 24.--31. " PRODID ,Indicates the product ID" "GIC-500,?..." bitfld.long 0x00 16.--19. " VAR ,Major revison number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" textline " " bitfld.long 0x00 12.--15. " REV ,Minor revision number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" hexmask.long.word 0x00 0.--11. 1. " IMP ,Implementer" rgroup.quad 0x0008++0x07 line.quad 0x00 "GICR_TYPER,Interrupt Controller Type Register" hexmask.quad.byte 0x00 56.--63. 1. " AFF3 ,Affinity level 3 value for the Redistributor" hexmask.quad.byte 0x00 48.--55. 1. " AFF2 ,Affinity level 2 value for the Redistributor" hexmask.quad.byte 0x00 40.--47. 1. " AFF1 ,Affinity level 1 value for the Redistributor" textline " " hexmask.quad.byte 0x00 32.--39. 1. " AFF0 ,Affinity level 0 value for the Redistributor" bitfld.quad 0x00 24.--25. " COMMONLPIAFF ,The affinity level at which Redistributors share a LPI Configuration table" "All levels,AFF3,AFF3/AFF2,AFF3/AFF2/AFF1" hexmask.quad.word 0x00 8.--23. 1. " PROCESSOR_NUMBER ,A unique identifier for the PE" textline " " bitfld.quad 0x00 5. " DPGS ,Sets support for GICR_CTLR.DPG* bits" "Not supported,Supported" bitfld.quad 0x00 4. " LAST ,Indicates whether this Redistributor is the highest-numbered Redistributor in a series of contiguous Redistributor pages" "Not highest,Highest" bitfld.quad 0x00 3. " DIRECTLPI ,Indicates whether this Redistributor supports direct injection of LPIs" "Not supported,Supported" textline " " bitfld.quad 0x00 0. " PLPIS ,Indicates whether the GIC implementation supports physical LPIs" "Not supported,Supported" if ((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x00)||((((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICR",-1.)+0x0014)))) group.long 0x0014++0x03 line.long 0x00 "GICR_WAKER,Power Management Control Register" bitfld.long 0x00 31. " QUIESCENT ,This bit shows that the GIC-500 is idle and can be powered down if required" "Not quiescent,Quiescent" bitfld.long 0x00 2. " CHILDRENASLEEP ,Indicates the bus between the CPU interface and this Redistributor is quiescent" "Not quiescent,Quiescent" bitfld.long 0x00 1. " PROCESSORASLEEP ,Indicates if this Redistributor must assert a WakeRequest if there is a pending interrupt targeted at the connected core" "No,Yes" textline " " bitfld.long 0x00 0. " SLEEP ,Indicates if GIC-500 ensures that all the caches are consistent with external memory and that it is safe to power off" "No,Yes" textline " " else hgroup.long 0x0014++0x03 hide.long 0x00 "GICR_WAKER,Power Management Control Register" endif group.quad 0x070++0x07 line.quad 0x00 "GICR_PROPBASER,Common LPI configuration table base register" bitfld.quad 0x00 56.--58. " OUTERCACHE ,Indicates the Outer Cacheability attributes of accesses to the LPI Configuration table" "Defined in INNERCACHE,Normal outer non-cacheable,Normal outer RA WT cacheable,Normal outer RA WB cacheable,Normal outer WA WT cacheable,Normal outer WA WB cacheable,Normal outer RA WA WT cacheable,Normal outer RA WA WB cacheable" hexmask.quad 0x00 12.--51. 0x10 " PHYSICAL_ADDRESS ,Bits [51:12] of the physical address containing the LPI Configuration table" textline " " bitfld.quad 0x00 10.--11. " SHAREABILITY ,Indicates the Shareability attributes of accesses to the LPI Configuration table" "Non-shareable,Inner Shareable,Outer Shareable,?..." bitfld.quad 0x00 7.--9. " INNERCACHE ,Indicates the Inner Cacheability attributes of accesses to the LPI Configuration table" "Device-nGnRnE,Normal inner non-cacheable,Normal inner RA WT cacheable,Normal inner RA WB cacheable,Normal inner WA WT cacheable,Normal inner WA WB cacheable,Normal inner RA WA WT cacheable,Normal inner RA WA WB cacheable" textline " " bitfld.quad 0x00 0.--4. " IDBITS ,The number of bits of LPI INTID supported minus one by the LPI Configuration table starting at Physical_Address" group.quad 0x78++0x07 line.quad 0x00 "GICR_PENDBASER,LPI pending table base register" bitfld.quad 0x00 62. " PTZ ,Pending Table Zero" "Not zero,Zero" bitfld.quad 0x00 56.--58. " OUTERCACHE ,Indicates the Outer Cacheability attributes of accesses to the LPI Pending table" "Defined in INNERCACHE,Normal outer non-cacheable,Normal outer RA WT cacheable,Normal outer RA WB cacheable,Normal outer WA WT cacheable,Normal outer WA WB cacheable,Normal outer RA WA WT cacheable,Normal outer RA WA WB cacheable" textline " " hexmask.quad 0x00 16.--51. 0x10 " PHYSICAL_ADDRESS ,Bits [51:16] of the physical address containing the LPI Pending table" bitfld.quad 0x00 10.--11. " SHAREABILITY ,Indicates the Shareability attributes of accesses to the LPI Pending table" "Non-shareable,Inner Shareable,Outer Shareable,?..." textline " " bitfld.quad 0x00 7.--9. " INNERCACHE ,Indicates the Inner Cacheability attributes of accesses to the LPI Pending table" "Device-nGnRnE,Normal inner non-cacheable,Normal inner RA WT cacheable,Normal inner RA WB cacheable,Normal inner WA WT cacheable,Normal inner WA WB cacheable,Normal inner RA WA WT cacheable,Normal inner RA WA WB cacheable" textline " " tree.end tree "SGI and PPI Registers" if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICR",-1.)+0x10080)) group.long 0x10080++0x03 line.long 0x0 "GICR_IGROUPR0,Interrupt Group Register 0" bitfld.long 0x00 31. " GSB31 ,Group Status Bit 31" "Secure,Non-secure Group 1" bitfld.long 0x00 30. " GSB30 ,Group Status Bit 30" "Secure,Non-secure Group 1" bitfld.long 0x00 29. " GSB29 ,Group Status Bit 29" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 28. " GSB28 ,Group Status Bit 28" "Secure,Non-secure Group 1" bitfld.long 0x00 27. " GSB27 ,Group Status Bit 27" "Secure,Non-secure Group 1" bitfld.long 0x00 26. " GSB26 ,Group Status Bit 26" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 25. " GSB25 ,Group Status Bit 25" "Secure,Non-secure Group 1" bitfld.long 0x00 24. " GSB24 ,Group Status Bit 24" "Secure,Non-secure Group 1" bitfld.long 0x00 23. " GSB23 ,Group Status Bit 23" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 22. " GSB22 ,Group Status Bit 22" "Secure,Non-secure Group 1" bitfld.long 0x00 21. " GSB21 ,Group Status Bit 21" "Secure,Non-secure Group 1" bitfld.long 0x00 20. " GSB20 ,Group Status Bit 20" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 19. " GSB19 ,Group Status Bit 19" "Secure,Non-secure Group 1" bitfld.long 0x00 18. " GSB18 ,Group Status Bit 18" "Secure,Non-secure Group 1" bitfld.long 0x00 17. " GSB17 ,Group Status Bit 17" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 16. " GSB16 ,Group Status Bit 16" "Secure,Non-secure Group 1" bitfld.long 0x00 15. " GSB15 ,Group Status Bit 15" "Secure,Non-secure Group 1" bitfld.long 0x00 14. " GSB14 ,Group Status Bit 14" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 13. " GSB13 ,Group Status Bit 13" "Secure,Non-secure Group 1" bitfld.long 0x00 12. " GSB12 ,Group Status Bit 12" "Secure,Non-secure Group 1" bitfld.long 0x00 11. " GSB11 ,Group Status Bit 11" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 10. " GSB10 ,Group Status Bit 10" "Secure,Non-secure Group 1" bitfld.long 0x00 9. " GSB9 ,Group Status Bit 9" "Secure,Non-secure Group 1" bitfld.long 0x00 8. " GSB8 ,Group Status Bit 8" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 7. " GSB7 ,Group Status Bit 7" "Secure,Non-secure Group 1" bitfld.long 0x00 6. " GSB6 ,Group Status Bit 6" "Secure,Non-secure Group 1" bitfld.long 0x00 5. " GSB5 ,Group Status Bit 5" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 4. " GSB4 ,Group Status Bit 4" "Secure,Non-secure Group 1" bitfld.long 0x00 3. " GSB3 ,Group Status Bit 3" "Secure,Non-secure Group 1" bitfld.long 0x00 2. " GSB2 ,Group Status Bit 2" "Secure,Non-secure Group 1" textline " " bitfld.long 0x00 1. " GSB1 ,Group Status Bit 1" "Secure,Non-secure Group 1" bitfld.long 0x00 0. " GSB0 ,Group Status Bit 0" "Secure,Non-secure Group 1" elif (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x000) group.long 0x10080++0x03 line.long 0x0 "GICR_IGROUPR0,Interrupt Group Register 0" bitfld.long 0x00 31. " GSB31 ,Group Status Bit 31" "Group 0,Group 1" bitfld.long 0x00 30. " GSB30 ,Group Status Bit 30" "Group 0,Group 1" bitfld.long 0x00 29. " GSB29 ,Group Status Bit 29" "Group 0,Group 1" textline " " bitfld.long 0x00 28. " GSB28 ,Group Status Bit 28" "Group 0,Group 1" bitfld.long 0x00 27. " GSB27 ,Group Status Bit 27" "Group 0,Group 1" bitfld.long 0x00 26. " GSB26 ,Group Status Bit 26" "Group 0,Group 1" textline " " bitfld.long 0x00 25. " GSB25 ,Group Status Bit 25" "Group 0,Group 1" bitfld.long 0x00 24. " GSB24 ,Group Status Bit 24" "Group 0,Group 1" bitfld.long 0x00 23. " GSB23 ,Group Status Bit 23" "Group 0,Group 1" textline " " bitfld.long 0x00 22. " GSB22 ,Group Status Bit 22" "Group 0,Group 1" bitfld.long 0x00 21. " GSB21 ,Group Status Bit 21" "Group 0,Group 1" bitfld.long 0x00 20. " GSB20 ,Group Status Bit 20" "Group 0,Group 1" textline " " bitfld.long 0x00 19. " GSB19 ,Group Status Bit 19" "Group 0,Group 1" bitfld.long 0x00 18. " GSB18 ,Group Status Bit 18" "Group 0,Group 1" bitfld.long 0x00 17. " GSB17 ,Group Status Bit 17" "Group 0,Group 1" textline " " bitfld.long 0x00 16. " GSB16 ,Group Status Bit 16" "Group 0,Group 1" bitfld.long 0x00 15. " GSB15 ,Group Status Bit 15" "Group 0,Group 1" bitfld.long 0x00 14. " GSB14 ,Group Status Bit 14" "Group 0,Group 1" textline " " bitfld.long 0x00 13. " GSB13 ,Group Status Bit 13" "Group 0,Group 1" bitfld.long 0x00 12. " GSB12 ,Group Status Bit 12" "Group 0,Group 1" bitfld.long 0x00 11. " GSB11 ,Group Status Bit 11" "Group 0,Group 1" textline " " bitfld.long 0x00 10. " GSB10 ,Group Status Bit 10" "Group 0,Group 1" bitfld.long 0x00 9. " GSB9 ,Group Status Bit 9" "Group 0,Group 1" bitfld.long 0x00 8. " GSB8 ,Group Status Bit 8" "Group 0,Group 1" textline " " bitfld.long 0x00 7. " GSB7 ,Group Status Bit 7" "Group 0,Group 1" bitfld.long 0x00 6. " GSB6 ,Group Status Bit 6" "Group 0,Group 1" bitfld.long 0x00 5. " GSB5 ,Group Status Bit 5" "Group 0,Group 1" textline " " bitfld.long 0x00 4. " GSB4 ,Group Status Bit 4" "Group 0,Group 1" bitfld.long 0x00 3. " GSB3 ,Group Status Bit 3" "Group 0,Group 1" bitfld.long 0x00 2. " GSB2 ,Group Status Bit 2" "Group 0,Group 1" textline " " bitfld.long 0x00 1. " GSB1 ,Group Status Bit 1" "Group 0,Group 1" bitfld.long 0x00 0. " GSB0 ,Group Status Bit 0" "Group 0,Group 1" else hgroup.long 0x10080++0x03 hide.long 0x00 "GICR_IGROUPR0,Interrupt Group Register 0" textline " " textline " " textline " " textline " " textline " " textline " " textline " " textline " " textline " " textline " " endif textline " " width 24. group.long 0x10100++0x03 line.long 0x0 "GICR_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" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRENB15 ,Set/Clear Enable Bit 15" "Disabled,Enabled" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRENB14 ,Set/Clear Enable Bit 14" "Disabled,Enabled" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB13 ,Set/Clear Enable Bit 13" "Disabled,Enabled" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRENB12 ,Set/Clear Enable Bit 12" "Disabled,Enabled" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRENB11 ,Set/Clear Enable Bit 11" "Disabled,Enabled" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB10 ,Set/Clear Enable Bit 10" "Disabled,Enabled" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRENB9 ,Set/Clear Enable Bit 9" "Disabled,Enabled" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRENB8 ,Set/Clear Enable Bit 8" "Disabled,Enabled" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB7 ,Set/Clear Enable Bit 7" "Disabled,Enabled" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRENB6 ,Set/Clear Enable Bit 6" "Disabled,Enabled" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRENB5 ,Set/Clear Enable Bit 5" "Disabled,Enabled" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB4 ,Set/Clear Enable Bit 4" "Disabled,Enabled" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRENB3 ,Set/Clear Enable Bit 3" "Disabled,Enabled" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRENB2 ,Set/Clear Enable Bit 2" "Disabled,Enabled" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB1 ,Set/Clear Enable Bit 1" "Disabled,Enabled" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRENB0 ,Set/Clear Enable Bit 0" "Disabled,Enabled" group.long 0x10200++0x03 line.long 0x0 "GICR_SET/CLR_PENDR0,Interrupt Set/Clear Pending Register 0" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND31 ,Set/Clear Pending Bit 31" "Not pending,Pending" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRPEND30 ,Set/Clear Pending Bit 30" "Not pending,Pending" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRPEND29 ,Set/Clear Pending Bit 29" "Not pending,Pending" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND28 ,Set/Clear Pending Bit 28" "Not pending,Pending" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND27 ,Set/Clear Pending Bit 27" "Not pending,Pending" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRPEND26 ,Set/Clear Pending Bit 26" "Not pending,Pending" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND25 ,Set/Clear Pending Bit 25" "Not pending,Pending" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRPEND24 ,Set/Clear Pending Bit 24" "Not pending,Pending" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRPEND23 ,Set/Clear Pending Bit 23" "Not pending,Pending" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND22 ,Set/Clear Pending Bit 22" "Not pending,Pending" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRPEND21 ,Set/Clear Pending Bit 21" "Not pending,Pending" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRPEND20 ,Set/Clear Pending Bit 20" "Not pending,Pending" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND19 ,Set/Clear Pending Bit 19" "Not pending,Pending" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRPEND18 ,Set/Clear Pending Bit 18" "Not pending,Pending" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRPEND17 ,Set/Clear Pending Bit 17" "Not pending,Pending" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND16 ,Set/Clear Pending Bit 16" "Not pending,Pending" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRPEND15 ,Set/Clear Pending Bit 15" "Not pending,Pending" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRPEND14 ,Set/Clear Pending Bit 14" "Not pending,Pending" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND13 ,Set/Clear Pending Bit 13" "Not pending,Pending" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRPEND12 ,Set/Clear Pending Bit 12" "Not pending,Pending" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRPEND11 ,Set/Clear Pending Bit 11" "Not pending,Pending" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND10 ,Set/Clear Pending Bit 10" "Not pending,Pending" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRPEND9 ,Set/Clear Pending Bit 9" "Not pending,Pending" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRPEND8 ,Set/Clear Pending Bit 8" "Not pending,Pending" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND7 ,Set/Clear Pending Bit 7" "Not pending,Pending" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRPEND6 ,Set/Clear Pending Bit 6" "Not pending,Pending" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRPEND5 ,Set/Clear Pending Bit 5" "Not pending,Pending" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND4 ,Set/Clear Pending Bit 4" "Not pending,Pending" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRPEND3 ,Set/Clear Pending Bit 3" "Not pending,Pending" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRPEND2 ,Set/Clear Pending Bit 2" "Not pending,Pending" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND1 ,Set/Clear Pending Bit 1" "Not pending,Pending" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRPEND0 ,Set/Clear Pending Bit 0" "Not pending,Pending" group.long 0x10300++0x03 line.long 0x0 "GICR_SET/CLR_ACTIVER0,Interrupt Set/Clear Active Register 0" setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRACTIVE31 ,Set/Clear Active Bit 31" "Not active,Active" setclrfld.long 0x00 30. 0x00 30. 0x80 30. " SET/CLRACTIVE30 ,Set/Clear Active Bit 30" "Not active,Active" setclrfld.long 0x00 29. 0x00 29. 0x80 29. " SET/CLRACTIVE29 ,Set/Clear Active Bit 29" "Not active,Active" textline " " setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRACTIVE28 ,Set/Clear Active Bit 28" "Not active,Active" setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRACTIVE27 ,Set/Clear Active Bit 27" "Not active,Active" setclrfld.long 0x00 26. 0x00 26. 0x80 26. " SET/CLRACTIVE26 ,Set/Clear Active Bit 26" "Not active,Active" textline " " setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRACTIVE25 ,Set/Clear Active Bit 25" "Not active,Active" setclrfld.long 0x00 24. 0x00 24. 0x80 24. " SET/CLRACTIVE24 ,Set/Clear Active Bit 24" "Not active,Active" setclrfld.long 0x00 23. 0x00 23. 0x80 23. " SET/CLRACTIVE23 ,Set/Clear Active Bit 23" "Not active,Active" textline " " setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRACTIVE22 ,Set/Clear Active Bit 22" "Not active,Active" setclrfld.long 0x00 21. 0x00 21. 0x80 21. " SET/CLRACTIVE21 ,Set/Clear Active Bit 21" "Not active,Active" setclrfld.long 0x00 20. 0x00 20. 0x80 20. " SET/CLRACTIVE20 ,Set/Clear Active Bit 20" "Not active,Active" textline " " setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRACTIVE19 ,Set/Clear Active Bit 19" "Not active,Active" setclrfld.long 0x00 18. 0x00 18. 0x80 18. " SET/CLRACTIVE18 ,Set/Clear Active Bit 18" "Not active,Active" setclrfld.long 0x00 17. 0x00 17. 0x80 17. " SET/CLRACTIVE17 ,Set/Clear Active Bit 17" "Not active,Active" textline " " setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRACTIVE16 ,Set/Clear Active Bit 16" "Not active,Active" setclrfld.long 0x00 15. 0x00 15. 0x80 15. " SET/CLRACTIVE15 ,Set/Clear Active Bit 15" "Not active,Active" setclrfld.long 0x00 14. 0x00 14. 0x80 14. " SET/CLRACTIVE14 ,Set/Clear Active Bit 14" "Not active,Active" textline " " setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRACTIVE13 ,Set/Clear Active Bit 13" "Not active,Active" setclrfld.long 0x00 12. 0x00 12. 0x80 12. " SET/CLRACTIVE12 ,Set/Clear Active Bit 12" "Not active,Active" setclrfld.long 0x00 11. 0x00 11. 0x80 11. " SET/CLRACTIVE11 ,Set/Clear Active Bit 11" "Not active,Active" textline " " setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRACTIVE10 ,Set/Clear Active Bit 10" "Not active,Active" setclrfld.long 0x00 9. 0x00 9. 0x80 9. " SET/CLRACTIVE9 ,Set/Clear Active Bit 9" "Not active,Active" setclrfld.long 0x00 8. 0x00 8. 0x80 8. " SET/CLRACTIVE8 ,Set/Clear Active Bit 8" "Not active,Active" textline " " setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRACTIVE7 ,Set/Clear Active Bit 7" "Not active,Active" setclrfld.long 0x00 6. 0x00 6. 0x80 6. " SET/CLRACTIVE6 ,Set/Clear Active Bit 6" "Not active,Active" setclrfld.long 0x00 5. 0x00 5. 0x80 5. " SET/CLRACTIVE5 ,Set/Clear Active Bit 5" "Not active,Active" textline " " setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRACTIVE4 ,Set/Clear Active Bit 4" "Not active,Active" setclrfld.long 0x00 3. 0x00 3. 0x80 3. " SET/CLRACTIVE3 ,Set/Clear Active Bit 3" "Not active,Active" setclrfld.long 0x00 2. 0x00 2. 0x80 2. " SET/CLRACTIVE2 ,Set/Clear Active Bit 2" "Not active,Active" textline " " setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRACTIVE1 ,Set/Clear Active Bit 1" "Not active,Active" setclrfld.long 0x00 0. 0x00 0. 0x80 0. " SET/CLRACTIVE0 ,Set/Clear Active Bit 0" "Not active,Active" textline " " width 18. group.long 0x10400++0x03 line.long 0x00 "GICR_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 0x10404++0x03 line.long 0x00 "GICR_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 0x10408++0x03 line.long 0x00 "GICR_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 0x1040C++0x03 line.long 0x00 "GICR_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 0x10410++0x03 line.long 0x00 "GICR_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 0x10414++0x03 line.long 0x00 "GICR_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 0x10418++0x03 line.long 0x00 "GICR_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 0x1041C++0x03 line.long 0x00 "GICR_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 " textline " " rgroup.long 0x10C00++0x03 line.long 0x00 "GICR_ICFGR0,Interrupt Configuration Register" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (SGI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (SGI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (SGI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (SGI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (SGI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (SGI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (SGI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (SGI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (SGI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (SGI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (SGI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (SGI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (SGI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (SGI)" "Level,Edge" group.long 0x10C04++0x03 line.long 0x00 "GICR_ICFGR1,Interrupt Configuration Register" bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15 (PPI)" "Level,Edge" bitfld.long 0x00 29. " ICF14 ,Interrupt Configuration 14 (PPI)" "Level,Edge" bitfld.long 0x00 27. " ICF13 ,Interrupt Configuration 13 (PPI)" "Level,Edge" textline " " bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12 (PPI)" "Level,Edge" bitfld.long 0x00 23. " ICF11 ,Interrupt Configuration 11 (PPI)" "Level,Edge" bitfld.long 0x00 21. " ICF10 ,Interrupt Configuration 10 (PPI)" "Level,Edge" textline " " bitfld.long 0x00 19. " ICF9 ,Interrupt Configuration 9 (PPI)" "Level,Edge" bitfld.long 0x00 17. " ICF8 ,Interrupt Configuration 8 (PPI)" "Level,Edge" bitfld.long 0x00 15. " ICF7 ,Interrupt Configuration 7 (PPI)" "Level,Edge" textline " " bitfld.long 0x00 13. " ICF6 ,Interrupt Configuration 6 (PPI)" "Level,Edge" bitfld.long 0x00 11. " ICF5 ,Interrupt Configuration 5 (PPI)" "Level,Edge" bitfld.long 0x00 9. " ICF4 ,Interrupt Configuration 4 (PPI)" "Level,Edge" textline " " bitfld.long 0x00 7. " ICF3 ,Interrupt Configuration 3 (PPI)" "Level,Edge" bitfld.long 0x00 5. " ICF2 ,Interrupt Configuration 2 (PPI)" "Level,Edge" bitfld.long 0x00 3. " ICF1 ,Interrupt Configuration 1 (PPI)" "Level,Edge" textline " " width 18. if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICR",-1.)+0x10D00)) group.long 0x10D00++0x03 line.long 0x0 "GICR_IGRPMODR0,Interrupt Group Modifier Register 0" bitfld.long 0x00 31. " GMB31 ,Group Modifier Bit 31" "0,1" bitfld.long 0x00 30. " GMB30 ,Group Modifier Bit 30" "0,1" bitfld.long 0x00 29. " GMB29 ,Group Modifier Bit 29" "0,1" textline " " bitfld.long 0x00 28. " GMB28 ,Group Modifier Bit 28" "0,1" bitfld.long 0x00 27. " GMB27 ,Group Modifier Bit 27" "0,1" bitfld.long 0x00 26. " GMB26 ,Group Modifier Bit 26" "0,1" textline " " bitfld.long 0x00 25. " GMB25 ,Group Modifier Bit 25" "0,1" bitfld.long 0x00 24. " GMB24 ,Group Modifier Bit 24" "0,1" bitfld.long 0x00 23. " GMB23 ,Group Modifier Bit 23" "0,1" textline " " bitfld.long 0x00 22. " GMB22 ,Group Modifier Bit 22" "0,1" bitfld.long 0x00 21. " GMB21 ,Group Modifier Bit 21" "0,1" bitfld.long 0x00 20. " GMB20 ,Group Modifier Bit 20" "0,1" textline " " bitfld.long 0x00 19. " GMB19 ,Group Modifier Bit 19" "0,1" bitfld.long 0x00 18. " GMB18 ,Group Modifier Bit 18" "0,1" bitfld.long 0x00 17. " GMB17 ,Group Modifier Bit 17" "0,1" textline " " bitfld.long 0x00 16. " GMB16 ,Group Modifier Bit 16" "0,1" bitfld.long 0x00 15. " GMB15 ,Group Modifier Bit 15" "0,1" bitfld.long 0x00 14. " GMB14 ,Group Modifier Bit 14" "0,1" textline " " bitfld.long 0x00 13. " GMB13 ,Group Modifier Bit 13" "0,1" bitfld.long 0x00 12. " GMB12 ,Group Modifier Bit 12" "0,1" bitfld.long 0x00 11. " GMB11 ,Group Modifier Bit 11" "0,1" textline " " bitfld.long 0x00 10. " GMB10 ,Group Modifier Bit 10" "0,1" bitfld.long 0x00 9. " GMB9 ,Group Modifier Bit 9" "0,1" bitfld.long 0x00 8. " GMB8 ,Group Modifier Bit 8" "0,1" textline " " bitfld.long 0x00 7. " GMB7 ,Group Modifier Bit 7" "0,1" bitfld.long 0x00 6. " GMB6 ,Group Modifier Bit 6" "0,1" bitfld.long 0x00 5. " GMB5 ,Group Modifier Bit 5" "0,1" textline " " bitfld.long 0x00 4. " GMB4 ,Group Modifier Bit 4" "0,1" bitfld.long 0x00 3. " GMB3 ,Group Modifier Bit 3" "0,1" bitfld.long 0x00 2. " GMB2 ,Group Modifier Bit 2" "0,1" textline " " bitfld.long 0x00 1. " GMB1 ,Group Modifier Bit 1" "0,1" bitfld.long 0x00 0. " GMB0 ,Group Modifier Bit 0" "0,1" textline " " else hgroup.long 0x10D00++0x03 hide.long 0x0 "GICR_IGRPMODR0,Interrupt Group Modifier Register 0" textline " " textline " " textline " " textline " " textline " " textline " " textline " " textline " " textline " " textline " " endif if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICR",-1.)+0x10E00)) group.long 0x10E00++0x03 line.long 0x00 "GICR_NSACR,Non-secure Access Control Register" bitfld.long 0x00 30.--31. " NS_ACCESS15 ,Configures the level of Non-secure access permitted when the SGI is in Secure Group 0 or Secure Group 1 for interrupt ID15" "No access,G0S,G0S/G1S,?..." bitfld.long 0x00 28.--29. " NS_ACCESS14 ,Configures the level of Non-secure access permitted when the SGI is in Secure Group 0 or Secure Group 1 for interrupt ID14" "No access,G0S,G0S/G1S,?..." bitfld.long 0x00 26.--27. " NS_ACCESS13 ,Configures the level of Non-secure access permitted when the SGI is in Secure Group 0 or Secure Group 1 for interrupt ID13" "No access,G0S,G0S/G1S,?..." textline " " bitfld.long 0x00 24.--25. " NS_ACCESS12 ,Configures the level of Non-secure access permitted when the SGI is in Secure Group 0 or Secure Group 1 for interrupt ID12" "No access,G0S,G0S/G1S,?..." bitfld.long 0x00 22.--23. " NS_ACCESS11 ,Configures the level of Non-secure access permitted when the SGI is in Secure Group 0 or Secure Group 1 for interrupt ID11" "No access,G0S,G0S/G1S,?..." bitfld.long 0x00 20.--21. " NS_ACCESS10 ,Configures the level of Non-secure access permitted when the SGI is in Secure Group 0 or Secure Group 1 for interrupt ID10" "No access,G0S,G0S/G1S,?..." textline " " bitfld.long 0x00 18.--19. " NS_ACCESS9 ,Configures the level of Non-secure access permitted when the SGI is in Secure Group 0 or Secure Group 1 for interrupt ID9" "No access,G0S,G0S/G1S,?..." bitfld.long 0x00 16.--17. " NS_ACCESS8 ,Configures the level of Non-secure access permitted when the SGI is in Secure Group 0 or Secure Group 1 for interrupt ID8" "No access,G0S,G0S/G1S,?..." bitfld.long 0x00 14.--15. " NS_ACCESS7 ,Configures the level of Non-secure access permitted when the SGI is in Secure Group 0 or Secure Group 1 for interrupt ID7" "No access,G0S,G0S/G1S,?..." textline " " bitfld.long 0x00 12.--13. " NS_ACCESS6 ,Configures the level of Non-secure access permitted when the SGI is in Secure Group 0 or Secure Group 1 for interrupt ID6" "No access,G0S,G0S/G1S,?..." bitfld.long 0x00 10.--11. " NS_ACCESS5 ,Configures the level of Non-secure access permitted when the SGI is in Secure Group 0 or Secure Group 1 for interrupt ID5" "No access,G0S,G0S/G1S,?..." bitfld.long 0x00 8.--9. " NS_ACCESS4 ,Configures the level of Non-secure access permitted when the SGI is in Secure Group 0 or Secure Group 1 for interrupt ID4" "No access,G0S,G0S/G1S,?..." textline " " bitfld.long 0x00 6.--7. " NS_ACCESS3 ,Configures the level of Non-secure access permitted when the SGI is in Secure Group 0 or Secure Group 1 for interrupt ID3" "No access,G0S,G0S/G1S,?..." bitfld.long 0x00 4.--5. " NS_ACCESS2 ,Configures the level of Non-secure access permitted when the SGI is in Secure Group 0 or Secure Group 1 for interrupt ID2" "No access,G0S,G0S/G1S,?..." bitfld.long 0x00 2.--3. " NS_ACCESS1 ,Configures the level of Non-secure access permitted when the SGI is in Secure Group 0 or Secure Group 1 for interrupt ID1" "No access,G0S,G0S/G1S,?..." textline " " bitfld.long 0x00 0.--1. " NS_ACCESS0 ,Configures the level of Non-secure access permitted when the SGI is in Secure Group 0 or Secure Group 1 for interrupt ID0" "No access,G0S,G0S/G1S,?..." textline " " else hgroup.long 0x10E00++0x03 hide.long 0x00 "GICR_NSACR,Non-secure Access Control Register" textline " " textline " " textline " " textline " " textline " " endif rgroup.long 0x1C000++0x03 line.long 0x00 "GICR_MISCSTATUSR,Miscellaneous Status Register" bitfld.long 0x00 31. " CPU_AS ,CPU active state. This bit returns the actual status of the cpu_active signal for the core corresponding to the Redistributor whose register is being read" "Low,High" bitfld.long 0x00 2. " ENABLEGRP1_S ,EnableGrp1 Secure" "0,1" bitfld.long 0x00 1. " ENABLEGRP1_NS ,EnableGrp1 Non-secure" "0,1" textline " " bitfld.long 0x00 0. " ENABLEGRP0 ,EnableGrp0" "0,1" rgroup.long 0x1C080++0x03 line.long 0x00 "GICR_PPISR,Private Peripheral Interrupt Status Register" bitfld.long 0x00 31. " PPI31S ,Actual status of the PPI31 input signal" "Low,High" bitfld.long 0x00 30. " PPI30S ,Actual status of the PPI30 input signal" "Low,High" bitfld.long 0x00 29. " PPI29S ,Actual status of the PPI29 input signal" "Low,High" textline " " bitfld.long 0x00 28. " PPI28S ,Actual status of the PPI28 input signal" "Low,High" bitfld.long 0x00 27. " PPI27S ,Actual status of the PPI27 input signal" "Low,High" bitfld.long 0x00 26. " PPI26S ,Actual status of the PPI26 input signal" "Low,High" textline " " bitfld.long 0x00 25. " PPI25S ,Actual status of the PPI25 input signal" "Low,High" bitfld.long 0x00 24. " PPI24S ,Actual status of the PPI24 input signal" "Low,High" bitfld.long 0x00 23. " PPI23S ,Actual status of the PPI23 input signal" "Low,High" textline " " bitfld.long 0x00 22. " PPI22S ,Actual status of the PPI22 input signal" "Low,High" bitfld.long 0x00 21. " PPI21S ,Actual status of the PPI21 input signal" "Low,High" bitfld.long 0x00 20. " PPI20S ,Actual status of the PPI20 input signal" "Low,High" textline " " bitfld.long 0x00 19. " PPI19S ,Actual status of the PPI19 input signal" "Low,High" bitfld.long 0x00 18. " PPI18S ,Actual status of the PPI18 input signal" "Low,High" bitfld.long 0x00 17. " PPI17S ,Actual status of the PPI17 input signal" "Low,High" textline " " bitfld.long 0x00 16. " PPI16S ,Actual status of the PPI16 input signal" "Low,High" tree.end width 12. tree "Peripheral/Component ID Registers" rgroup.long 0xFFE0++0x03 line.long 0x00 "GICR_PIDR0,Peripheral ID0 Register" hexmask.long.byte 0x00 0.--7. 1. " PART_0 ,Part number[7:0]" rgroup.long 0xFFE4++0x03 line.long 0x00 "GICR_PIDR1,Peripheral ID1 Register" bitfld.long 0x00 4.--7. " DES_1 ,JEP106 identity code [3:0]" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 0.--3. " PART_1 , Part number[11:8]" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" rgroup.long 0xFFE8++0x03 line.long 0x00 "GICR_PIDR2,Peripheral ID2 Register" bitfld.long 0x00 4.--7. " ARCHREV ,Identifies the version of the GIC architecture with which the GIC-500 complies" "Reserved,Reserved,Reserved,v3.0,?..." bitfld.long 0x00 3. " JEDEC ,Indicates that a JEDEC-assigned JEP106 identity code is used" "Low,High" bitfld.long 0x00 0.--2. " DES_1 ,JEP106 identity code [6:4]" "0,1,2,3,4,5,6,7" rgroup.long 0xFFEC++0x03 line.long 0x00 "GICR_PIDR3,Peripheral ID3 Register" bitfld.long 0x00 4.--7. " REVAND ,Manufacturer defined revision number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 0.--3. " CMOD ,Indicates if the customer has modified the behavior of the component" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" rgroup.long 0xFFD0++0x03 line.long 0x00 "GICR_PIDR4,Peripheral ID4 Register" bitfld.long 0x00 4.--7. " SIZE ,64 KB software visible page" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 0.--3. " DES_2 ,ARM implementation" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" hgroup.long 0xFFD4++0x03 hide.long 0x00 "GICR_PIDR5,Peripheral ID5 Register" hgroup.long 0xFFD8++0x03 hide.long 0x00 "GICR_PIDR6,Peripheral ID6 Register" hgroup.long 0xFFDC++0x03 hide.long 0x00 "GICR_PIDR7,Peripheral ID7 Register" rgroup.long 0xFFF0++0x03 line.long 0x00 "GICR_CIDR0,Component ID0 Register" hexmask.long 0x00 0.--7. 1. " FIXVAL ,ARM-defined fixed values for the preamble for component discovery" rgroup.long 0xFFF4++0x03 line.long 0x00 "GICR_CIDR1,Component ID1 Register" hexmask.long 0x00 0.--7. 1. " FIXVAL ,ARM-defined fixed values for the preamble for component discovery" rgroup.long 0xFFF8++0x03 line.long 0x00 "GICR_CIDR2,Component ID2 Register" hexmask.long 0x00 0.--7. 1. " FIXVAL ,ARM-defined fixed values for the preamble for component discovery" rgroup.long 0xFFFC++0x03 line.long 0x00 "GICR_CIDR3,Component ID3 Register" hexmask.long 0x00 0.--7. 1. " FIXVAL ,ARM-defined fixed values for the preamble for component discovery" tree.end tree.end width 0x0B sif COMP.AVAILABLE("GICC") base COMP.BASE("GICC",-1.) width 14. tree "CPU Interface" if (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400)&&(PER.ADDRESS.isSECUREEX(COMP.BASE("GICC",-1.))) group.long 0x00++0x03 line.long 0x00 "GICC_CTLR,CPU Interface Control Register" bitfld.long 0x00 10. " EOIMODENS ,Controls the behavior of Non-secure accesses to GICC_EOIR/GICC_AEOIR/GICC_DIR. PD - Priority Drop / ID - Interrupt Deactivation" "EOIR+AEOIR=PD+ID,EOIR+AEOIR=PD/DIR=ID" bitfld.long 0x00 9. " EOIMODES ,Controls the behavior of Secure accesses to GICC_EOIR/GICC_AEOIR/GICC_DIR. PD - Priority Drop / ID - Interrupt Deactivation" "EOIR+AEOIR=PD+ID,EOIR+AEOIR=PD/DIR=ID" bitfld.long 0x00 8. " IRQBYPDISGRP1 ,Controls whether the bypass IRQ signal is signaled to the PE for Group 1" "Signaled,Not signaled" textline " " bitfld.long 0x00 7. " FIQBYPDISGRP1 ,Controls whether the bypass FIQ signal is signaled to the PE for Group 1" "Signaled,Not signaled" bitfld.long 0x00 6. " IRQBYPDISGRP0 ,Controls whether the bypass IRQ signal is signaled to the PE for Group 0" "Signaled,Not signaled" bitfld.long 0x00 5. " FIQBYPDISGRP0 ,Controls whether the bypass FIQ signal is signaled to the PE for Group 0" "Signaled,Not signaled" textline " " bitfld.long 0x00 4. " CBPR ,Controls whether GICC_BPR provides common control of preemption to Group 0 and Group 1 interrupts" "Group 0,Both" bitfld.long 0x00 3. " FIQEN ,Controls whether the CPU interface signals Group 0 interrupts to a target PE using the FIQ or IRQ signal" "IRQ,FIQ" bitfld.long 0x00 1. " ENABLEGRP1 ,Enables the signaling of Group 1 interrupts by the CPU interface to a target PE" "Disabled,Enabled" textline " " bitfld.long 0x00 0. " ENABLEGRP0 ,Enables the signaling of Group 0 interrupts by the CPU interface to a target PE" "Disabled,Enabled" elif (((per.l(COMP.BASE("GICD",-1.)+0x04))&0x400)==0x400) group.long 0x00++0x03 line.long 0x00 "GICC_CTLR,CPU Interface Control Register" bitfld.long 0x00 9. " EOIMODENS ,Controls the behavior of Non-secure accesses to GICC_EOIR/GICC_AEOIR/GICC_DIR. PD - Priority Drop / ID - Interrupt Deactivation" "EOIR+AEOIR=PD+ID,EOIR+AEOIR=PD/DIR=ID" bitfld.long 0x00 6. " IRQBYPDISGRP1 ,Controls whether the bypass IRQ signal is signaled to the PE for Group 1" "Signaled,Not signaled" bitfld.long 0x00 5. " FIQBYPDISGRP1 ,Controls whether the bypass FIQ signal is signaled to the PE for Group 1" "Signaled,Not signaled" textline " " bitfld.long 0x00 0. " ENABLEGRP1 ,Enables the signaling of Group 1 interrupts by the CPU interface to a target PE" "Disabled,Enabled" else group.long 0x00++0x03 line.long 0x00 "GICC_CTLR,CPU Interface Control Register" bitfld.long 0x00 9. " EOIMODE ,Controls the behavior of accesses to GICC_EOIR/GICC_AEOIR/GICC_DIR. PD - Priority Drop / ID - Interrupt Deactivation" "EOIR+AEOIR=PD+ID,EOIR+AEOIR=PD/DIR=ID" bitfld.long 0x00 8. " IRQBYPDISGRP1 ,Controls whether the bypass IRQ signal is signaled to the PE for Group 1" "Signaled,Not signaled" bitfld.long 0x00 7. " FIQBYPDISGRP1 ,Controls whether the bypass FIQ signal is signaled to the PE for Group 1" "Signaled,Not signaled" textline " " bitfld.long 0x00 6. " IRQBYPDISGRP0 ,Controls whether the bypass IRQ signal is signaled to the PE for Group 0" "Signaled,Not signaled" bitfld.long 0x00 5. " FIQBYPDISGRP0 ,Controls whether the bypass FIQ signal is signaled to the PE for Group 0" "Signaled,Not signaled" bitfld.long 0x00 4. " CBPR ,Controls whether GICC_BPR provides common control of preemption to Group 0 and Group 1 interrupts" "Group 0,Both" textline " " bitfld.long 0x00 3. " FIQEN ,Controls whether the CPU interface signals Group 0 interrupts to a target PE using the FIQ or IRQ signal" "IRQ,FIQ" bitfld.long 0x00 1. " ENABLEGRP1 ,Enables the signaling of Group 1 interrupts by the CPU interface to a target PE" "Disabled,Enabled" bitfld.long 0x00 0. " ENABLEGRP0 ,Enables the signaling of Group 0 interrupts by the CPU interface to a target PE" "Disabled,Enabled" endif textline " " group.long 0x04++0x03 line.long 0x00 "GICC_PMR,Interrupt Priority Mask Register" hexmask.long.byte 0x00 0.--7. 1. " PRIORITY ,Priority mask level for CPU interface" group.long 0x08++0x03 line.long 0x00 "GICC_BPR,Binary Point Register" bitfld.long 0x00 0.--2. " BP ,Binary point" "0,1,2,3,4,5,6,7" hgroup.long 0x0C++0x03 hide.long 0x00 "GICC_IAR,Interrupt Acknowledge Register" in wgroup.long 0x10++0x03 line.long 0x00 "GICC_EOIR,End Of Interrupt Register" hexmask.long.tbyte 0x00 0.--23. 1. " INTID ,Interrupt ID" rgroup.long 0x14++0x03 line.long 0x00 "GICC_RPR,Running Priority Register" hexmask.long.byte 0x00 0.--7. 1. " PRIORITY ,Priority value of highest priority interrupt" rgroup.long 0x18++0x03 line.long 0x00 "GICC_HPPIR,Highest Priority Pending Interrupt Register" hexmask.long.tbyte 0x00 0.--23. 1. " INTID ,Interrupt ID" group.long 0x1C++0x03 line.long 0x00 "GICC_ABPR,Aliased Binary Point Register" bitfld.long 0x00 0.--2. " BP ,Binary point" "0,1,2,3,4,5,6,7" hgroup.long 0x20++0x03 hide.long 0x00 "GICC_AIAR,Aliased Interrupt Acknowledge Register" in wgroup.long 0x24++0x03 line.long 0x00 "GICC_AEOIR,Aliased End of Interrupt Register" hexmask.long.tbyte 0x00 0.--23. 1. " INTID ,Interrupt ID" rgroup.long 0x28++0x03 line.long 0x00 "GICC_AHPPIR,Aliased Highest Priority Pending Interrupt Register" hexmask.long.tbyte 0x00 0.--23. 1. " INTID ,Interrupt ID" rgroup.long 0x2C++0x03 line.long 0x00 "GICC_STATUSR,CPU Interface Status Register" bitfld.long 0x00 4. " ASV ,Attempted security violation" "Not detected,Detected" bitfld.long 0x00 3. " WROD ,Write to an RO location" "Not detected,Detected" bitfld.long 0x00 2. " RWOD ,Read of a WO location" "Not detected,Detected" textline " " bitfld.long 0x00 1. " WRD ,Write to a reserved location" "Not detected,Detected" bitfld.long 0x00 0. " RRD ,Read of a reserved location" "Not detected,Detected" group.long 0xD0++0x03 line.long 0x00 "GICC_APR0,Active Priorities Register 0" group.long 0xD4++0x03 line.long 0x00 "GICC_APR1,Active Priorities Register 1" group.long 0xD8++0x03 line.long 0x00 "GICC_APR2,Active Priorities Register 2" group.long 0xDC++0x03 line.long 0x00 "GICC_APR3,Active Priorities Register 3" group.long 0xE0++0x03 line.long 0x00 "GICC_NSAPR0,Non-Secure Active Priorities Register 0" group.long 0xE4++0x03 line.long 0x00 "GICC_NSAPR1,Non-Secure Active Priorities Register 1" group.long 0xE8++0x03 line.long 0x00 "GICC_NSAPR2,Non-Secure Active Priorities Register 2" group.long 0xEC++0x03 line.long 0x00 "GICC_NSAPR3,Non-Secure Active Priorities Register 3" rgroup.long 0xFC++0x03 line.long 0x00 "GICC_IIDR,CPU Interface Identification Register" hexmask.long.word 0x00 20.--31. 1. " PRODID ,Product ID" bitfld.long 0x00 16.--19. " ARCHVER ,The version of the GIC architecture that is implemented" ",,,GICv3,?..." bitfld.long 0x00 12.--15. " REV ,Revision number for the CPU interface" "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" wgroup.long 0x1000++0x03 line.long 0x00 "GICC_DIR,Deactivate Interrupt Register" hexmask.long.tbyte 0x00 0.--23. 1. " INTID ,Interrupt ID" tree.end width 0x0b endif sif COMP.AVAILABLE("GICH") base COMP.BASE("GICH",-1.) width 13. tree "Virtual CPU Control Interface" group.long 0x00++0x03 line.long 0x00 "GICH_HCR,Hypervisor Control Register" bitfld.long 0x00 27.--31. " EOICOUNT ,Counts the number of EOIs received that do not have a corresponding entry in the List 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 7. " VGRP1DIE ,VM Group 1 Disabled Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 6. " VGRP1EIE ,VM Group 1 Enabled Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 5. " VGRP0DIE ,VM Group 0 Disabled Interrupt Enable" "Disabled,Enabled" textline " " bitfld.long 0x00 4. " VGRP0EIE ,VM Group 0 Enabled Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 3. " NPIE ,No Pending Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 2. " LRENPIE ,List Register Entry Not Present Interrupt Enable" "Disabled,Enabled" bitfld.long 0x00 1. " UIE ,Underflow Interrupt Enable" "Disabled,Enabled" textline " " bitfld.long 0x00 0. " EN ,Virtual CPU interface Enable" "Disabled,Enabled" rgroup.long 0x04++0x03 line.long 0x00 "GICH_VTR,Virtual Type Register" bitfld.long 0x00 29.--31. " PRIBITS ,Number of priority bits" "1,2,3,4,5,6,7,8" bitfld.long 0x00 26.--28. " PREBITS ,Number of pre-emption bits" "1,2,3,4,5,6,7,8" bitfld.long 0x00 23.--25. " IDBITS ,The number of virtual interrupt identifier bits supported" "16 bits,24 bits,?..." textline " " bitfld.long 0x00 22. " SEIS ,Indicates whether the virtual CPU interface supports generation of SEIs" "Not supported,Supported" bitfld.long 0x00 21. " A3V ,Affinity 3 valid" "Invalid,Valid" bitfld.long 0x00 0.--4. " LISTREGS ,List regs number" "1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32" group.long 0x08++0x03 line.long 0x00 "GICH_VMCR,Virtual Machine Control Register" hexmask.long.byte 0x00 24.--31. 1. " VPMR ,Virtual priority mask" bitfld.long 0x00 21.--23. " VBPR0 ,Defines the point at which the priority value fields split into two parts the group priority field and the subpriority field (group 0)" "0,1,2,3,4,5,6,7" bitfld.long 0x00 18.--20. " VBPR1 ,Defines the point at which the priority value fields split into two parts the group priority field and the subpriority field (group 1)" "0,1,2,3,4,5,6,7" bitfld.long 0x00 9. " VEOIM ,Virtual EOImode. DP - Drop the priority / ID - interrupt deactivate" "EOIR+AEOIR=PD+ID,EOIR+AEOIR=PD/DIR=ID" textline " " bitfld.long 0x00 4. " VCBPR ,Virtual Common Binary Point Register" "ABPR,BPR" bitfld.long 0x00 3. " VFIQEN ,Virtual FIQ enable" "Disabled,Enabled" bitfld.long 0x00 2. " VACKCTL ,Virtual AckCtl" "INTID=1022,INTID=corresponding" bitfld.long 0x00 1. " VENG1 ,Virtual interrupt enable for group 1" "Disabled,Enabled" textline " " bitfld.long 0x00 0. " VENG0 ,Virtual interrupt enable for group 0" "Disabled,Enabled" rgroup.long 0x10++0x03 line.long 0x00 "GICH_MISR,Maintenance Interrupt Status Register" bitfld.long 0x00 7. " VGRP1D ,vPE Group 1 Disabled maintenance interrupt assertion" "Not asserted,Asserted" bitfld.long 0x00 6. " VGRP1E ,vPE Group 1 Enabled maintenance interrupt assertion" "Not asserted,Asserted" bitfld.long 0x00 5. " VGRP0D ,vPE Group 0 Disabled maintenance interrupt assertion" "Not asserted,Asserted" bitfld.long 0x00 4. " VGRP0E ,vPE Group 0 Enabled maintenance interrupt assertion" "Not asserted,Asserted" textline " " bitfld.long 0x00 3. " NP ,No Pending maintenance interrupt assertion" "Not asserted,Asserted" bitfld.long 0x00 2. " LRENP ,List Register Entry Not Present maintenance interrupt assertion" "Not asserted,Asserted" bitfld.long 0x00 1. " U ,Underflow maintenance interrupt assertion" "Not asserted,Asserted" bitfld.long 0x00 0. " EOI ,End Of Interrupt maintenance interrupt assertion" "Not asserted,Asserted" rgroup.long 0x20++0x03 line.long 0x00 "GICH_EISR0,End of Interrupt Status Register" bitfld.long 0x00 15. " STATUS15 ,EOI maintenance interrupt status for List register 15" "No interrupt,Interrupt" bitfld.long 0x00 14. " STATUS14 ,EOI maintenance interrupt status for List register 14" "No interrupt,Interrupt" bitfld.long 0x00 13. " STATUS13 ,EOI maintenance interrupt status for List register 13" "No interrupt,Interrupt" textline " " bitfld.long 0x00 12. " STATUS12 ,EOI maintenance interrupt status for List register 12" "No interrupt,Interrupt" bitfld.long 0x00 11. " STATUS11 ,EOI maintenance interrupt status for List register 11" "No interrupt,Interrupt" bitfld.long 0x00 10. " STATUS10 ,EOI maintenance interrupt status for List register 10" "No interrupt,Interrupt" textline " " bitfld.long 0x00 9. " STATUS9 ,EOI maintenance interrupt status for List register 9" "No interrupt,Interrupt" bitfld.long 0x00 8. " STATUS8 ,EOI maintenance interrupt status for List register 8" "No interrupt,Interrupt" bitfld.long 0x00 7. " STATUS7 ,EOI maintenance interrupt status for List register 7" "No interrupt,Interrupt" textline " " bitfld.long 0x00 6. " STATUS6 ,EOI maintenance interrupt status for List register 6" "No interrupt,Interrupt" bitfld.long 0x00 5. " STATUS5 ,EOI maintenance interrupt status for List register 5" "No interrupt,Interrupt" bitfld.long 0x00 4. " STATUS4 ,EOI maintenance interrupt status for List register 4" "No interrupt,Interrupt" textline " " bitfld.long 0x00 3. " STATUS3 ,EOI maintenance interrupt status for List register 3" "No interrupt,Interrupt" bitfld.long 0x00 2. " STATUS2 ,EOI maintenance interrupt status for List register 2" "No interrupt,Interrupt" bitfld.long 0x00 1. " STATUS1 ,EOI maintenance interrupt status for List register 1" "No interrupt,Interrupt" textline " " bitfld.long 0x00 0. " STATUS0 ,EOI maintenance interrupt status for List register 0" "No interrupt,Interrupt" rgroup.long 0x30++0x03 line.long 0x00 "GICH_ELRSR0,Empty List register Status Register" bitfld.long 0x00 15. " STATUS15 ,Status bit for List register 15" "No interrupt,Interrupt" bitfld.long 0x00 14. " STATUS14 ,Status bit for List register 14" "No interrupt,Interrupt" bitfld.long 0x00 13. " STATUS13 ,Status bit for List register 13" "No interrupt,Interrupt" textline " " bitfld.long 0x00 12. " STATUS12 ,Status bit for List register 12" "No interrupt,Interrupt" bitfld.long 0x00 11. " STATUS11 ,Status bit for List register 11" "No interrupt,Interrupt" bitfld.long 0x00 10. " STATUS10 ,Status bit for List register 10" "No interrupt,Interrupt" textline " " bitfld.long 0x00 9. " STATUS9 ,Status bit for List register 9" "No interrupt,Interrupt" bitfld.long 0x00 8. " STATUS8 ,Status bit for List register 8" "No interrupt,Interrupt" bitfld.long 0x00 7. " STATUS7 ,Status bit for List register 7" "No interrupt,Interrupt" textline " " bitfld.long 0x00 6. " STATUS6 ,Status bit for List register 6" "No interrupt,Interrupt" bitfld.long 0x00 5. " STATUS5 ,Status bit for List register 5" "No interrupt,Interrupt" bitfld.long 0x00 4. " STATUS4 ,Status bit for List register 4" "No interrupt,Interrupt" textline " " bitfld.long 0x00 3. " STATUS3 ,Status bit for List register 3" "No interrupt,Interrupt" bitfld.long 0x00 2. " STATUS2 ,Status bit for List register 2" "No interrupt,Interrupt" bitfld.long 0x00 1. " STATUS1 ,Status bit for List register 1" "No interrupt,Interrupt" textline " " bitfld.long 0x00 0. " STATUS0 ,Status bit for List register 0" "No interrupt,Interrupt" textline " " group.long 0xF0++0x03 line.long 0x00 "GICH_APR0,Active Priorities Register 0" bitfld.long 0x00 31. " P31 ,Active Priority 31" "0,1" bitfld.long 0x00 30. " P30 ,Active Priority 30" "0,1" bitfld.long 0x00 29. " P29 ,Active Priority 29" "0,1" bitfld.long 0x00 28. " P28 ,Active Priority 28" "0,1" textline " " bitfld.long 0x00 27. " P27 ,Active Priority 27" "0,1" bitfld.long 0x00 26. " P26 ,Active Priority 26" "0,1" bitfld.long 0x00 25. " P25 ,Active Priority 25" "0,1" bitfld.long 0x00 24. " P24 ,Active Priority 24" "0,1" textline " " bitfld.long 0x00 23. " P23 ,Active Priority 23" "0,1" bitfld.long 0x00 22. " P22 ,Active Priority 22" "0,1" bitfld.long 0x00 21. " P21 ,Active Priority 21" "0,1" bitfld.long 0x00 20. " P20 ,Active Priority 20" "0,1" textline " " bitfld.long 0x00 19. " P19 ,Active Priority 19" "0,1" bitfld.long 0x00 18. " P18 ,Active Priority 18" "0,1" bitfld.long 0x00 17. " P17 ,Active Priority 17" "0,1" bitfld.long 0x00 16. " P16 ,Active Priority 16" "0,1" textline " " bitfld.long 0x00 15. " P15 ,Active Priority 15" "0,1" bitfld.long 0x00 14. " P14 ,Active Priority 14" "0,1" bitfld.long 0x00 13. " P13 ,Active Priority 13" "0,1" bitfld.long 0x00 12. " P12 ,Active Priority 12" "0,1" textline " " bitfld.long 0x00 11. " P11 ,Active Priority 11" "0,1" bitfld.long 0x00 10. " P10 ,Active Priority 10" "0,1" bitfld.long 0x00 9. " P9 ,Active Priority 9" "0,1" bitfld.long 0x00 8. " P8 ,Active Priority 8" "0,1" textline " " bitfld.long 0x00 7. " P7 ,Active Priority 7" "0,1" bitfld.long 0x00 6. " P6 ,Active Priority 6" "0,1" bitfld.long 0x00 5. " P5 ,Active Priority 5" "0,1" bitfld.long 0x00 4. " P4 ,Active Priority 4" "0,1" textline " " bitfld.long 0x00 3. " P3 ,Active Priority 3" "0,1" bitfld.long 0x00 2. " P2 ,Active Priority 2" "0,1" bitfld.long 0x00 1. " P1 ,Active Priority 1" "0,1" bitfld.long 0x00 0. " P0 ,Active Priority 0" "0,1" group.long 0xF4++0x03 line.long 0x00 "GICH_APR1,Active Priorities Register 1" bitfld.long 0x00 31. " P31 ,Active Priority 31" "0,1" bitfld.long 0x00 30. " P30 ,Active Priority 30" "0,1" bitfld.long 0x00 29. " P29 ,Active Priority 29" "0,1" bitfld.long 0x00 28. " P28 ,Active Priority 28" "0,1" textline " " bitfld.long 0x00 27. " P27 ,Active Priority 27" "0,1" bitfld.long 0x00 26. " P26 ,Active Priority 26" "0,1" bitfld.long 0x00 25. " P25 ,Active Priority 25" "0,1" bitfld.long 0x00 24. " P24 ,Active Priority 24" "0,1" textline " " bitfld.long 0x00 23. " P23 ,Active Priority 23" "0,1" bitfld.long 0x00 22. " P22 ,Active Priority 22" "0,1" bitfld.long 0x00 21. " P21 ,Active Priority 21" "0,1" bitfld.long 0x00 20. " P20 ,Active Priority 20" "0,1" textline " " bitfld.long 0x00 19. " P19 ,Active Priority 19" "0,1" bitfld.long 0x00 18. " P18 ,Active Priority 18" "0,1" bitfld.long 0x00 17. " P17 ,Active Priority 17" "0,1" bitfld.long 0x00 16. " P16 ,Active Priority 16" "0,1" textline " " bitfld.long 0x00 15. " P15 ,Active Priority 15" "0,1" bitfld.long 0x00 14. " P14 ,Active Priority 14" "0,1" bitfld.long 0x00 13. " P13 ,Active Priority 13" "0,1" bitfld.long 0x00 12. " P12 ,Active Priority 12" "0,1" textline " " bitfld.long 0x00 11. " P11 ,Active Priority 11" "0,1" bitfld.long 0x00 10. " P10 ,Active Priority 10" "0,1" bitfld.long 0x00 9. " P9 ,Active Priority 9" "0,1" bitfld.long 0x00 8. " P8 ,Active Priority 8" "0,1" textline " " bitfld.long 0x00 7. " P7 ,Active Priority 7" "0,1" bitfld.long 0x00 6. " P6 ,Active Priority 6" "0,1" bitfld.long 0x00 5. " P5 ,Active Priority 5" "0,1" bitfld.long 0x00 4. " P4 ,Active Priority 4" "0,1" textline " " bitfld.long 0x00 3. " P3 ,Active Priority 3" "0,1" bitfld.long 0x00 2. " P2 ,Active Priority 2" "0,1" bitfld.long 0x00 1. " P1 ,Active Priority 1" "0,1" bitfld.long 0x00 0. " P0 ,Active Priority 0" "0,1" group.long 0xF8++0x03 line.long 0x00 "GICH_APR2,Active Priorities Register 2" bitfld.long 0x00 31. " P31 ,Active Priority 31" "0,1" bitfld.long 0x00 30. " P30 ,Active Priority 30" "0,1" bitfld.long 0x00 29. " P29 ,Active Priority 29" "0,1" bitfld.long 0x00 28. " P28 ,Active Priority 28" "0,1" textline " " bitfld.long 0x00 27. " P27 ,Active Priority 27" "0,1" bitfld.long 0x00 26. " P26 ,Active Priority 26" "0,1" bitfld.long 0x00 25. " P25 ,Active Priority 25" "0,1" bitfld.long 0x00 24. " P24 ,Active Priority 24" "0,1" textline " " bitfld.long 0x00 23. " P23 ,Active Priority 23" "0,1" bitfld.long 0x00 22. " P22 ,Active Priority 22" "0,1" bitfld.long 0x00 21. " P21 ,Active Priority 21" "0,1" bitfld.long 0x00 20. " P20 ,Active Priority 20" "0,1" textline " " bitfld.long 0x00 19. " P19 ,Active Priority 19" "0,1" bitfld.long 0x00 18. " P18 ,Active Priority 18" "0,1" bitfld.long 0x00 17. " P17 ,Active Priority 17" "0,1" bitfld.long 0x00 16. " P16 ,Active Priority 16" "0,1" textline " " bitfld.long 0x00 15. " P15 ,Active Priority 15" "0,1" bitfld.long 0x00 14. " P14 ,Active Priority 14" "0,1" bitfld.long 0x00 13. " P13 ,Active Priority 13" "0,1" bitfld.long 0x00 12. " P12 ,Active Priority 12" "0,1" textline " " bitfld.long 0x00 11. " P11 ,Active Priority 11" "0,1" bitfld.long 0x00 10. " P10 ,Active Priority 10" "0,1" bitfld.long 0x00 9. " P9 ,Active Priority 9" "0,1" bitfld.long 0x00 8. " P8 ,Active Priority 8" "0,1" textline " " bitfld.long 0x00 7. " P7 ,Active Priority 7" "0,1" bitfld.long 0x00 6. " P6 ,Active Priority 6" "0,1" bitfld.long 0x00 5. " P5 ,Active Priority 5" "0,1" bitfld.long 0x00 4. " P4 ,Active Priority 4" "0,1" textline " " bitfld.long 0x00 3. " P3 ,Active Priority 3" "0,1" bitfld.long 0x00 2. " P2 ,Active Priority 2" "0,1" bitfld.long 0x00 1. " P1 ,Active Priority 1" "0,1" bitfld.long 0x00 0. " P0 ,Active Priority 0" "0,1" group.long 0xFC++0x03 line.long 0x00 "GICH_APR3,Active Priorities Register 3" bitfld.long 0x00 31. " P31 ,Active Priority 31" "0,1" bitfld.long 0x00 30. " P30 ,Active Priority 30" "0,1" bitfld.long 0x00 29. " P29 ,Active Priority 29" "0,1" bitfld.long 0x00 28. " P28 ,Active Priority 28" "0,1" textline " " bitfld.long 0x00 27. " P27 ,Active Priority 27" "0,1" bitfld.long 0x00 26. " P26 ,Active Priority 26" "0,1" bitfld.long 0x00 25. " P25 ,Active Priority 25" "0,1" bitfld.long 0x00 24. " P24 ,Active Priority 24" "0,1" textline " " bitfld.long 0x00 23. " P23 ,Active Priority 23" "0,1" bitfld.long 0x00 22. " P22 ,Active Priority 22" "0,1" bitfld.long 0x00 21. " P21 ,Active Priority 21" "0,1" bitfld.long 0x00 20. " P20 ,Active Priority 20" "0,1" textline " " bitfld.long 0x00 19. " P19 ,Active Priority 19" "0,1" bitfld.long 0x00 18. " P18 ,Active Priority 18" "0,1" bitfld.long 0x00 17. " P17 ,Active Priority 17" "0,1" bitfld.long 0x00 16. " P16 ,Active Priority 16" "0,1" textline " " bitfld.long 0x00 15. " P15 ,Active Priority 15" "0,1" bitfld.long 0x00 14. " P14 ,Active Priority 14" "0,1" bitfld.long 0x00 13. " P13 ,Active Priority 13" "0,1" bitfld.long 0x00 12. " P12 ,Active Priority 12" "0,1" textline " " bitfld.long 0x00 11. " P11 ,Active Priority 11" "0,1" bitfld.long 0x00 10. " P10 ,Active Priority 10" "0,1" bitfld.long 0x00 9. " P9 ,Active Priority 9" "0,1" bitfld.long 0x00 8. " P8 ,Active Priority 8" "0,1" textline " " bitfld.long 0x00 7. " P7 ,Active Priority 7" "0,1" bitfld.long 0x00 6. " P6 ,Active Priority 6" "0,1" bitfld.long 0x00 5. " P5 ,Active Priority 5" "0,1" bitfld.long 0x00 4. " P4 ,Active Priority 4" "0,1" textline " " bitfld.long 0x00 3. " P3 ,Active Priority 3" "0,1" bitfld.long 0x00 2. " P2 ,Active Priority 2" "0,1" bitfld.long 0x00 1. " P1 ,Active Priority 1" "0,1" bitfld.long 0x00 0. " P0 ,Active Priority 0" "0,1" textline " " group.long 0x100++0x03 line.long 0x00 "GICH_LR0,List Register 0" bitfld.long 0x00 31. " HW ,Indicates whether this virtual interrupt is a hardware interrupt" "Software,Hardware" bitfld.long 0x00 30. " GROUP ,Indicates whether the interrupt is Group 0 or Group 1" "Group 0,Group 1" bitfld.long 0x00 28.--29. " STATE ,The state of the interrupt" "Inactive,Pending,Active,Active/Pending" bitfld.long 0x00 23.--27. " PRIORITY ,The priority of this interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" hexmask.long.word 0x00 10.--19. 1. " PINTID ,Physical interrupt ID" hexmask.long.word 0x00 0.--9. 1. " VINTID ,Virtual interrupt ID" group.long 0x104++0x03 line.long 0x00 "GICH_LR1,List Register 1" bitfld.long 0x00 31. " HW ,Indicates whether this virtual interrupt is a hardware interrupt" "Software,Hardware" bitfld.long 0x00 30. " GROUP ,Indicates whether the interrupt is Group 0 or Group 1" "Group 0,Group 1" bitfld.long 0x00 28.--29. " STATE ,The state of the interrupt" "Inactive,Pending,Active,Active/Pending" bitfld.long 0x00 23.--27. " PRIORITY ,The priority of this interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" hexmask.long.word 0x00 10.--19. 1. " PINTID ,Physical interrupt ID" hexmask.long.word 0x00 0.--9. 1. " VINTID ,Virtual interrupt ID" group.long 0x108++0x03 line.long 0x00 "GICH_LR2,List Register 2" bitfld.long 0x00 31. " HW ,Indicates whether this virtual interrupt is a hardware interrupt" "Software,Hardware" bitfld.long 0x00 30. " GROUP ,Indicates whether the interrupt is Group 0 or Group 1" "Group 0,Group 1" bitfld.long 0x00 28.--29. " STATE ,The state of the interrupt" "Inactive,Pending,Active,Active/Pending" bitfld.long 0x00 23.--27. " PRIORITY ,The priority of this interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" hexmask.long.word 0x00 10.--19. 1. " PINTID ,Physical interrupt ID" hexmask.long.word 0x00 0.--9. 1. " VINTID ,Virtual interrupt ID" group.long 0x10C++0x03 line.long 0x00 "GICH_LR3,List Register 3" bitfld.long 0x00 31. " HW ,Indicates whether this virtual interrupt is a hardware interrupt" "Software,Hardware" bitfld.long 0x00 30. " GROUP ,Indicates whether the interrupt is Group 0 or Group 1" "Group 0,Group 1" bitfld.long 0x00 28.--29. " STATE ,The state of the interrupt" "Inactive,Pending,Active,Active/Pending" bitfld.long 0x00 23.--27. " PRIORITY ,The priority of this interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" hexmask.long.word 0x00 10.--19. 1. " PINTID ,Physical interrupt ID" hexmask.long.word 0x00 0.--9. 1. " VINTID ,Virtual interrupt ID" group.long 0x110++0x03 line.long 0x00 "GICH_LR4,List Register 4" bitfld.long 0x00 31. " HW ,Indicates whether this virtual interrupt is a hardware interrupt" "Software,Hardware" bitfld.long 0x00 30. " GROUP ,Indicates whether the interrupt is Group 0 or Group 1" "Group 0,Group 1" bitfld.long 0x00 28.--29. " STATE ,The state of the interrupt" "Inactive,Pending,Active,Active/Pending" bitfld.long 0x00 23.--27. " PRIORITY ,The priority of this interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" hexmask.long.word 0x00 10.--19. 1. " PINTID ,Physical interrupt ID" hexmask.long.word 0x00 0.--9. 1. " VINTID ,Virtual interrupt ID" group.long 0x114++0x03 line.long 0x00 "GICH_LR5,List Register 5" bitfld.long 0x00 31. " HW ,Indicates whether this virtual interrupt is a hardware interrupt" "Software,Hardware" bitfld.long 0x00 30. " GROUP ,Indicates whether the interrupt is Group 0 or Group 1" "Group 0,Group 1" bitfld.long 0x00 28.--29. " STATE ,The state of the interrupt" "Inactive,Pending,Active,Active/Pending" bitfld.long 0x00 23.--27. " PRIORITY ,The priority of this interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" hexmask.long.word 0x00 10.--19. 1. " PINTID ,Physical interrupt ID" hexmask.long.word 0x00 0.--9. 1. " VINTID ,Virtual interrupt ID" group.long 0x118++0x03 line.long 0x00 "GICH_LR6,List Register 6" bitfld.long 0x00 31. " HW ,Indicates whether this virtual interrupt is a hardware interrupt" "Software,Hardware" bitfld.long 0x00 30. " GROUP ,Indicates whether the interrupt is Group 0 or Group 1" "Group 0,Group 1" bitfld.long 0x00 28.--29. " STATE ,The state of the interrupt" "Inactive,Pending,Active,Active/Pending" bitfld.long 0x00 23.--27. " PRIORITY ,The priority of this interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" hexmask.long.word 0x00 10.--19. 1. " PINTID ,Physical interrupt ID" hexmask.long.word 0x00 0.--9. 1. " VINTID ,Virtual interrupt ID" group.long 0x11C++0x03 line.long 0x00 "GICH_LR7,List Register 7" bitfld.long 0x00 31. " HW ,Indicates whether this virtual interrupt is a hardware interrupt" "Software,Hardware" bitfld.long 0x00 30. " GROUP ,Indicates whether the interrupt is Group 0 or Group 1" "Group 0,Group 1" bitfld.long 0x00 28.--29. " STATE ,The state of the interrupt" "Inactive,Pending,Active,Active/Pending" bitfld.long 0x00 23.--27. " PRIORITY ,The priority of this interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" hexmask.long.word 0x00 10.--19. 1. " PINTID ,Physical interrupt ID" hexmask.long.word 0x00 0.--9. 1. " VINTID ,Virtual interrupt ID" group.long 0x120++0x03 line.long 0x00 "GICH_LR8,List Register 8" bitfld.long 0x00 31. " HW ,Indicates whether this virtual interrupt is a hardware interrupt" "Software,Hardware" bitfld.long 0x00 30. " GROUP ,Indicates whether the interrupt is Group 0 or Group 1" "Group 0,Group 1" bitfld.long 0x00 28.--29. " STATE ,The state of the interrupt" "Inactive,Pending,Active,Active/Pending" bitfld.long 0x00 23.--27. " PRIORITY ,The priority of this interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" hexmask.long.word 0x00 10.--19. 1. " PINTID ,Physical interrupt ID" hexmask.long.word 0x00 0.--9. 1. " VINTID ,Virtual interrupt ID" group.long 0x124++0x03 line.long 0x00 "GICH_LR9,List Register 9" bitfld.long 0x00 31. " HW ,Indicates whether this virtual interrupt is a hardware interrupt" "Software,Hardware" bitfld.long 0x00 30. " GROUP ,Indicates whether the interrupt is Group 0 or Group 1" "Group 0,Group 1" bitfld.long 0x00 28.--29. " STATE ,The state of the interrupt" "Inactive,Pending,Active,Active/Pending" bitfld.long 0x00 23.--27. " PRIORITY ,The priority of this interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" hexmask.long.word 0x00 10.--19. 1. " PINTID ,Physical interrupt ID" hexmask.long.word 0x00 0.--9. 1. " VINTID ,Virtual interrupt ID" group.long 0x128++0x03 line.long 0x00 "GICH_LR10,List Register 10" bitfld.long 0x00 31. " HW ,Indicates whether this virtual interrupt is a hardware interrupt" "Software,Hardware" bitfld.long 0x00 30. " GROUP ,Indicates whether the interrupt is Group 0 or Group 1" "Group 0,Group 1" bitfld.long 0x00 28.--29. " STATE ,The state of the interrupt" "Inactive,Pending,Active,Active/Pending" bitfld.long 0x00 23.--27. " PRIORITY ,The priority of this interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" hexmask.long.word 0x00 10.--19. 1. " PINTID ,Physical interrupt ID" hexmask.long.word 0x00 0.--9. 1. " VINTID ,Virtual interrupt ID" group.long 0x12C++0x03 line.long 0x00 "GICH_LR11,List Register 11" bitfld.long 0x00 31. " HW ,Indicates whether this virtual interrupt is a hardware interrupt" "Software,Hardware" bitfld.long 0x00 30. " GROUP ,Indicates whether the interrupt is Group 0 or Group 1" "Group 0,Group 1" bitfld.long 0x00 28.--29. " STATE ,The state of the interrupt" "Inactive,Pending,Active,Active/Pending" bitfld.long 0x00 23.--27. " PRIORITY ,The priority of this interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" hexmask.long.word 0x00 10.--19. 1. " PINTID ,Physical interrupt ID" hexmask.long.word 0x00 0.--9. 1. " VINTID ,Virtual interrupt ID" group.long 0x130++0x03 line.long 0x00 "GICH_LR12,List Register 12" bitfld.long 0x00 31. " HW ,Indicates whether this virtual interrupt is a hardware interrupt" "Software,Hardware" bitfld.long 0x00 30. " GROUP ,Indicates whether the interrupt is Group 0 or Group 1" "Group 0,Group 1" bitfld.long 0x00 28.--29. " STATE ,The state of the interrupt" "Inactive,Pending,Active,Active/Pending" bitfld.long 0x00 23.--27. " PRIORITY ,The priority of this interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" hexmask.long.word 0x00 10.--19. 1. " PINTID ,Physical interrupt ID" hexmask.long.word 0x00 0.--9. 1. " VINTID ,Virtual interrupt ID" group.long 0x134++0x03 line.long 0x00 "GICH_LR13,List Register 13" bitfld.long 0x00 31. " HW ,Indicates whether this virtual interrupt is a hardware interrupt" "Software,Hardware" bitfld.long 0x00 30. " GROUP ,Indicates whether the interrupt is Group 0 or Group 1" "Group 0,Group 1" bitfld.long 0x00 28.--29. " STATE ,The state of the interrupt" "Inactive,Pending,Active,Active/Pending" bitfld.long 0x00 23.--27. " PRIORITY ,The priority of this interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" hexmask.long.word 0x00 10.--19. 1. " PINTID ,Physical interrupt ID" hexmask.long.word 0x00 0.--9. 1. " VINTID ,Virtual interrupt ID" group.long 0x138++0x03 line.long 0x00 "GICH_LR14,List Register 14" bitfld.long 0x00 31. " HW ,Indicates whether this virtual interrupt is a hardware interrupt" "Software,Hardware" bitfld.long 0x00 30. " GROUP ,Indicates whether the interrupt is Group 0 or Group 1" "Group 0,Group 1" bitfld.long 0x00 28.--29. " STATE ,The state of the interrupt" "Inactive,Pending,Active,Active/Pending" bitfld.long 0x00 23.--27. " PRIORITY ,The priority of this interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31" hexmask.long.word 0x00 10.--19. 1. " PINTID ,Physical interrupt ID" hexmask.long.word 0x00 0.--9. 1. " VINTID ,Virtual interrupt ID" tree.end width 0x0b endif sif COMP.AVAILABLE("GICV") base COMP.BASE("GICV",-1.) width 14. tree "Virtual CPU Interface" group.long 0x00++0x03 line.long 0x00 "GICV_CTLR,VM Control Register" bitfld.long 0x00 9. " EOIMODE ,Controls the behaviour of Non-secure accesses to GICC_EOIR/GICC_AEOIR/GICC_DIR. PD - Priority Drop / ID - Interrupt Deactivation" "EOIR+AEOIR=PD+ID,EOIR+AEOIR=PD/DIR=ID" bitfld.long 0x00 4. " CBPR ,Controls whether GICV_BPR affects both Group 0 and Group 1 interrupts" "Group 0,Both" bitfld.long 0x00 3. " FIQEN ,FIQ Enable" "Disabled,Enabled" bitfld.long 0x00 2. " ACKCTL ,Acknowledge control. Return ID of the corresponding interrupt" "1022,Corresponding" textline " " bitfld.long 0x00 1. " ENABLEGRP1 ,Enables the signalling of Group 1 interrupts by the CPU interface to the virtual machine" "Disabled,Enabled" bitfld.long 0x00 0. " ENABLEGRP0 ,Enables the signalling of Group 0 interrupts by the CPU interface to the virtual machine" "Disabled,Enabled" group.long 0x04++0x03 line.long 0x00 "GICV_PMR,VM Priority Mask Register" hexmask.long.byte 0x00 0.--7. 1. " PRIORITY ,Priority mask level for the virtual CPU interface" group.long 0x08++0x03 line.long 0x00 "GICV_BPR,VM Binary Point Register" bitfld.long 0x00 0.--2. " BP ,Binary point" "0,1,2,3,4,5,6,7" rgroup.long 0x0C++0x03 line.long 0x00 "GICV_IAR,VM Interrupt Acknowledge Register" hexmask.long 0x00 0.--24. 1. " INTID ,Interrupt ID" wgroup.long 0x10++0x03 line.long 0x00 "GICV_EOIR,VM End Of Interrupt Register" hexmask.long 0x00 0.--24. 1. " INTID ,Interrupt ID" rgroup.long 0x14++0x03 line.long 0x00 "GICV_RPR,VM Running Priority Register" hexmask.long.byte 0x00 0.--7. 1. " PRIORITY ,Priority value of highest priority interrupt" rgroup.long 0x18++0x03 line.long 0x00 "GICV_HPPIR,VM Highest Priority Pending Interrupt Register" hexmask.long 0x00 0.--24. 1. " INTID ,Interrupt ID" group.long 0x1C++0x03 line.long 0x00 "GICV_ABPR,VM Aliased Binary Point Register" bitfld.long 0x00 0.--2. " BP ,Binary point" "0,1,2,3,4,5,6,7" rgroup.long 0x20++0x03 line.long 0x00 "GICV_AIAR,VM Aliased Interrupt Acknowledge Register" hexmask.long 0x00 0.--24. 1. " INTID ,Interrupt ID" wgroup.long 0x24++0x03 line.long 0x00 "GICV_AEOIR,VM Aliased End of Interrupt Register" hexmask.long 0x00 0.--24. 1. " INTID ,Interrupt ID" rgroup.long 0x28++0x03 line.long 0x00 "GICV_AHPPIR,VM Aliased Highest Priority Pending Interrupt Register" hexmask.long 0x00 0.--24. 1. " INTID ,Interrupt ID" textline "" group.long 0xD0++0x03 line.long 0x00 "GICV_APR0,VM Active Priority Register 0" bitfld.long 0x00 31. " P31 ,Active Priority 31" "0,1" bitfld.long 0x00 30. " P30 ,Active Priority 30" "0,1" bitfld.long 0x00 29. " P29 ,Active Priority 29" "0,1" bitfld.long 0x00 28. " P28 ,Active Priority 28" "0,1" textline " " bitfld.long 0x00 27. " P27 ,Active Priority 27" "0,1" bitfld.long 0x00 26. " P26 ,Active Priority 26" "0,1" bitfld.long 0x00 25. " P25 ,Active Priority 25" "0,1" bitfld.long 0x00 24. " P24 ,Active Priority 24" "0,1" textline " " bitfld.long 0x00 23. " P23 ,Active Priority 23" "0,1" bitfld.long 0x00 22. " P22 ,Active Priority 22" "0,1" bitfld.long 0x00 21. " P21 ,Active Priority 21" "0,1" bitfld.long 0x00 20. " P20 ,Active Priority 20" "0,1" textline " " bitfld.long 0x00 19. " P19 ,Active Priority 19" "0,1" bitfld.long 0x00 18. " P18 ,Active Priority 18" "0,1" bitfld.long 0x00 17. " P17 ,Active Priority 17" "0,1" bitfld.long 0x00 16. " P16 ,Active Priority 16" "0,1" textline " " bitfld.long 0x00 15. " P15 ,Active Priority 15" "0,1" bitfld.long 0x00 14. " P14 ,Active Priority 14" "0,1" bitfld.long 0x00 13. " P13 ,Active Priority 13" "0,1" bitfld.long 0x00 12. " P12 ,Active Priority 12" "0,1" textline " " bitfld.long 0x00 11. " P11 ,Active Priority 11" "0,1" bitfld.long 0x00 10. " P10 ,Active Priority 10" "0,1" bitfld.long 0x00 9. " P9 ,Active Priority 9" "0,1" bitfld.long 0x00 8. " P8 ,Active Priority 8" "0,1" textline " " bitfld.long 0x00 7. " P7 ,Active Priority 7" "0,1" bitfld.long 0x00 6. " P6 ,Active Priority 6" "0,1" bitfld.long 0x00 5. " P5 ,Active Priority 5" "0,1" bitfld.long 0x00 4. " P4 ,Active Priority 4" "0,1" textline " " bitfld.long 0x00 3. " P3 ,Active Priority 3" "0,1" bitfld.long 0x00 2. " P2 ,Active Priority 2" "0,1" bitfld.long 0x00 1. " P1 ,Active Priority 1" "0,1" bitfld.long 0x00 0. " P0 ,Active Priority 0" "0,1" group.long 0xD4++0x03 line.long 0x00 "GICV_APR1,VM Active Priority Register 1" bitfld.long 0x00 31. " P31 ,Active Priority 31" "0,1" bitfld.long 0x00 30. " P30 ,Active Priority 30" "0,1" bitfld.long 0x00 29. " P29 ,Active Priority 29" "0,1" bitfld.long 0x00 28. " P28 ,Active Priority 28" "0,1" textline " " bitfld.long 0x00 27. " P27 ,Active Priority 27" "0,1" bitfld.long 0x00 26. " P26 ,Active Priority 26" "0,1" bitfld.long 0x00 25. " P25 ,Active Priority 25" "0,1" bitfld.long 0x00 24. " P24 ,Active Priority 24" "0,1" textline " " bitfld.long 0x00 23. " P23 ,Active Priority 23" "0,1" bitfld.long 0x00 22. " P22 ,Active Priority 22" "0,1" bitfld.long 0x00 21. " P21 ,Active Priority 21" "0,1" bitfld.long 0x00 20. " P20 ,Active Priority 20" "0,1" textline " " bitfld.long 0x00 19. " P19 ,Active Priority 19" "0,1" bitfld.long 0x00 18. " P18 ,Active Priority 18" "0,1" bitfld.long 0x00 17. " P17 ,Active Priority 17" "0,1" bitfld.long 0x00 16. " P16 ,Active Priority 16" "0,1" textline " " bitfld.long 0x00 15. " P15 ,Active Priority 15" "0,1" bitfld.long 0x00 14. " P14 ,Active Priority 14" "0,1" bitfld.long 0x00 13. " P13 ,Active Priority 13" "0,1" bitfld.long 0x00 12. " P12 ,Active Priority 12" "0,1" textline " " bitfld.long 0x00 11. " P11 ,Active Priority 11" "0,1" bitfld.long 0x00 10. " P10 ,Active Priority 10" "0,1" bitfld.long 0x00 9. " P9 ,Active Priority 9" "0,1" bitfld.long 0x00 8. " P8 ,Active Priority 8" "0,1" textline " " bitfld.long 0x00 7. " P7 ,Active Priority 7" "0,1" bitfld.long 0x00 6. " P6 ,Active Priority 6" "0,1" bitfld.long 0x00 5. " P5 ,Active Priority 5" "0,1" bitfld.long 0x00 4. " P4 ,Active Priority 4" "0,1" textline " " bitfld.long 0x00 3. " P3 ,Active Priority 3" "0,1" bitfld.long 0x00 2. " P2 ,Active Priority 2" "0,1" bitfld.long 0x00 1. " P1 ,Active Priority 1" "0,1" bitfld.long 0x00 0. " P0 ,Active Priority 0" "0,1" group.long 0xD8++0x03 line.long 0x00 "GICV_APR2,VM Active Priority Register 2" bitfld.long 0x00 31. " P31 ,Active Priority 31" "0,1" bitfld.long 0x00 30. " P30 ,Active Priority 30" "0,1" bitfld.long 0x00 29. " P29 ,Active Priority 29" "0,1" bitfld.long 0x00 28. " P28 ,Active Priority 28" "0,1" textline " " bitfld.long 0x00 27. " P27 ,Active Priority 27" "0,1" bitfld.long 0x00 26. " P26 ,Active Priority 26" "0,1" bitfld.long 0x00 25. " P25 ,Active Priority 25" "0,1" bitfld.long 0x00 24. " P24 ,Active Priority 24" "0,1" textline " " bitfld.long 0x00 23. " P23 ,Active Priority 23" "0,1" bitfld.long 0x00 22. " P22 ,Active Priority 22" "0,1" bitfld.long 0x00 21. " P21 ,Active Priority 21" "0,1" bitfld.long 0x00 20. " P20 ,Active Priority 20" "0,1" textline " " bitfld.long 0x00 19. " P19 ,Active Priority 19" "0,1" bitfld.long 0x00 18. " P18 ,Active Priority 18" "0,1" bitfld.long 0x00 17. " P17 ,Active Priority 17" "0,1" bitfld.long 0x00 16. " P16 ,Active Priority 16" "0,1" textline " " bitfld.long 0x00 15. " P15 ,Active Priority 15" "0,1" bitfld.long 0x00 14. " P14 ,Active Priority 14" "0,1" bitfld.long 0x00 13. " P13 ,Active Priority 13" "0,1" bitfld.long 0x00 12. " P12 ,Active Priority 12" "0,1" textline " " bitfld.long 0x00 11. " P11 ,Active Priority 11" "0,1" bitfld.long 0x00 10. " P10 ,Active Priority 10" "0,1" bitfld.long 0x00 9. " P9 ,Active Priority 9" "0,1" bitfld.long 0x00 8. " P8 ,Active Priority 8" "0,1" textline " " bitfld.long 0x00 7. " P7 ,Active Priority 7" "0,1" bitfld.long 0x00 6. " P6 ,Active Priority 6" "0,1" bitfld.long 0x00 5. " P5 ,Active Priority 5" "0,1" bitfld.long 0x00 4. " P4 ,Active Priority 4" "0,1" textline " " bitfld.long 0x00 3. " P3 ,Active Priority 3" "0,1" bitfld.long 0x00 2. " P2 ,Active Priority 2" "0,1" bitfld.long 0x00 1. " P1 ,Active Priority 1" "0,1" bitfld.long 0x00 0. " P0 ,Active Priority 0" "0,1" group.long 0xDC++0x03 line.long 0x00 "GICV_APR3,VM Active Priority Register 3" bitfld.long 0x00 31. " P31 ,Active Priority 31" "0,1" bitfld.long 0x00 30. " P30 ,Active Priority 30" "0,1" bitfld.long 0x00 29. " P29 ,Active Priority 29" "0,1" bitfld.long 0x00 28. " P28 ,Active Priority 28" "0,1" textline " " bitfld.long 0x00 27. " P27 ,Active Priority 27" "0,1" bitfld.long 0x00 26. " P26 ,Active Priority 26" "0,1" bitfld.long 0x00 25. " P25 ,Active Priority 25" "0,1" bitfld.long 0x00 24. " P24 ,Active Priority 24" "0,1" textline " " bitfld.long 0x00 23. " P23 ,Active Priority 23" "0,1" bitfld.long 0x00 22. " P22 ,Active Priority 22" "0,1" bitfld.long 0x00 21. " P21 ,Active Priority 21" "0,1" bitfld.long 0x00 20. " P20 ,Active Priority 20" "0,1" textline " " bitfld.long 0x00 19. " P19 ,Active Priority 19" "0,1" bitfld.long 0x00 18. " P18 ,Active Priority 18" "0,1" bitfld.long 0x00 17. " P17 ,Active Priority 17" "0,1" bitfld.long 0x00 16. " P16 ,Active Priority 16" "0,1" textline " " bitfld.long 0x00 15. " P15 ,Active Priority 15" "0,1" bitfld.long 0x00 14. " P14 ,Active Priority 14" "0,1" bitfld.long 0x00 13. " P13 ,Active Priority 13" "0,1" bitfld.long 0x00 12. " P12 ,Active Priority 12" "0,1" textline " " bitfld.long 0x00 11. " P11 ,Active Priority 11" "0,1" bitfld.long 0x00 10. " P10 ,Active Priority 10" "0,1" bitfld.long 0x00 9. " P9 ,Active Priority 9" "0,1" bitfld.long 0x00 8. " P8 ,Active Priority 8" "0,1" textline " " bitfld.long 0x00 7. " P7 ,Active Priority 7" "0,1" bitfld.long 0x00 6. " P6 ,Active Priority 6" "0,1" bitfld.long 0x00 5. " P5 ,Active Priority 5" "0,1" bitfld.long 0x00 4. " P4 ,Active Priority 4" "0,1" textline " " bitfld.long 0x00 3. " P3 ,Active Priority 3" "0,1" bitfld.long 0x00 2. " P2 ,Active Priority 2" "0,1" bitfld.long 0x00 1. " P1 ,Active Priority 1" "0,1" bitfld.long 0x00 0. " P0 ,Active Priority 0" "0,1" textline " " rgroup.long 0xFC++0x03 line.long 0x00 "GICV_IIDR,Virtual Machine CPU Interface Identification Register" hexmask.long.word 0x00 20.--31. 1. " PRODID ,Product ID" bitfld.long 0x00 16.--19. " ARCHVER ,The version of the GIC architecture that is implemented" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15" bitfld.long 0x00 12.--15. " REV ,Revision number for the CPU interface" ",,,GICv3,?..." hexmask.long.word 0x00 0.--11. 1. " IMP ,Implementer" wgroup.long 0x1000++0x03 line.long 0x00 "GICV_DIR,VM Deactivate Interrupt Register" hexmask.long 0x00 0.--24. 1. " INTID ,Interrupt ID" tree.end width 0x0b endif width 0x0B AUTOINDENT.POP tree.end tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "A53" base ad:0x0 tree "A53_RS_BW_LIMITER0_REGS (A53_RS_BW_LIMITER0_REGS)" base ad:0x30403000 rgroup.long 0x0++0x3 line.long 0x0 "REGS_PID,This is the standard TI peripheral ID register that exists at address 0 in the peripheral space" bitfld.long 0x0 30.--31. "SCHEME,PID scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,PID bu identifier" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,PID function identifier" hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,PID RTL version number" bitfld.long 0x0 8.--10. "MAJOR_REV,PID Major revision number" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,PID custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV,PID Minor revision number" group.long 0x4++0x3 line.long 0x0 "REGS_CTRL,This register controls the overall behavior of the rate limiter module" bitfld.long 0x0 4. "REGION_FILTER_EN,Enable the region filter which will only apply the bandwith and transaction limits to the configured address regions" "0,1" bitfld.long 0x0 3. "WR_TXN_ENABLE,Enable limiting maximum outstanding write transactions" "0,1" bitfld.long 0x0 2. "RD_TXN_ENABLE,Enable limiting maximum outstanding read transactions" "0,1" bitfld.long 0x0 1. "WR_BW_ENABLE,Enable write bandwidth limiting" "0,1" bitfld.long 0x0 0. "RD_BW_ENABLE,Enable read bandwidth limiting" "0,1" group.long 0x100++0xB line.long 0x0 "REGS_RD_BW_CIR,Read Bandwidth Committed Information Rate" hexmask.long 0x0 0.--31. 1. "CIR,Committed Information Rate" line.long 0x4 "REGS_RD_BW_PIR,Read Bandwidth Peak Information Rate" hexmask.long 0x4 0.--31. 1. "PIR,Peak Information Rate" line.long 0x8 "REGS_RD_BW_BURST_OFFSET,Read Bandwidth Burst Offset" hexmask.long.word 0x8 0.--15. 1. "OFFSET,Burst Offset - the number of bytes before the Committed Information Rate is applied at startup or after a period of inactivity. Peak Information Rate will still apply" rgroup.long 0x10C++0x3 line.long 0x0 "REGS_RD_BW_INFO,Read Bandwidth State machine information. Primarly for verification purposes" bitfld.long 0x0 0.--1. "COLOR,Read Bandwidth three-color marker output from rategen submodule" "0,1,2,3" group.long 0x120++0x7 line.long 0x0 "REGS_RD_BW_STATS,Read Bandwidth Statistics Control Register" hexmask.long.word 0x0 16.--31. 1. "WINDOW,Statistics window size. This cannot be set to 0. If 16'd0 is written it will be set to the reset value of 16'd1024" rbitfld.long 0x0 9. "OVERFLOW,Statistics overflow error" "0,1" bitfld.long 0x0 8. "CLR,Clear statistics data. Resets statistics counters at 0" "0,1" bitfld.long 0x0 0. "EN,Enable read bandwidth statistics" "0,1" line.long 0x4 "REGS_RD_BW_STATS_THRSHLD,A statistics threshold separate from the CIR and PIR" hexmask.long 0x4 0.--31. 1. "THRESHOLD,Read bandwidth stats threshold in bytes. Note that this is total bytes unlike CIR and PIR. CIR and PIR are based on a rolling window and the statistics threshold is based on a fixed window. This will still take into account DDR bytes used so.." rgroup.long 0x128++0x13 line.long 0x0 "REGS_RD_BW_WINDOWS_CNT,Read Bandwidth Statistics - Window Count" hexmask.long 0x0 0.--31. 1. "VAL,Read bandwidth window count - the number of windows elapsed since statistics collection began" line.long 0x4 "REGS_RD_BW_CIR_CNT,Read Bandwidth Statistics - CIR Count" hexmask.long 0x4 0.--31. 1. "VAL,The total number of statistics windows in which Read Commit Information Rate occurred. Note that if PIR is set to a lower value than CIR or if the burst offset feature is used this will also count times that PIR is reached." line.long 0x8 "REGS_RD_BW_PIR_CNT,Read Bandwidth Statistics - PIR Count" hexmask.long 0x8 0.--31. 1. "VAL,The total number of statistics windows in which Read Peak Information Rate occurred" line.long 0xC "REGS_RD_BW_THRSHLD_CNT,Read Bandwidth Statistics - Threshold Count" hexmask.long 0xC 0.--31. 1. "VAL,The total number of statistics windows in which Read bytes transferred exceeded the statistics threshold" line.long 0x10 "REGS_RD_BYTES_MAX,The maximum number of bytes seen in a single statitsics window. This can be compared with the window size to calculate the maximum bandwidth seen" hexmask.long 0x10 0.--31. 1. "VAL,Max number of bytes in a single window. This number accounts for DDR bandwidth consumed not simply the accumulation of the packet bytecnt values across a window. The max bandwidth calculation is the total bytes value in this MMR divided by the.." group.long 0x300++0x3 line.long 0x0 "REGS_RD_TXN,The maximum number of outstanding read transactions the rate limiter will allow" hexmask.long.word 0x0 0.--15. 1. "LIMIT,The maximum number of outstanding read transactions allowed. NOTE: This cannot be programmed to a zero. If a zero is written it will default to the reset value of 16'd64 as a limit of zero outstanding transactions would hang the interface." rgroup.long 0x30C++0x3 line.long 0x0 "REGS_RD_TXN_INFO,Read Transaction State machine information. Primarly for verification purposes" hexmask.long.byte 0x0 0.--6. 1. "OCC,Read transaction scoreboard occupancy" group.long 0x320++0x7 line.long 0x0 "REGS_RD_TXN_STATS,Read Transaction Stats Control Register" hexmask.long.word 0x0 16.--31. 1. "WINDOW,Statistics window size. This cannot be set to 0. If 16'd0 is written it will be set to the reset value of 16'd1024" rbitfld.long 0x0 9. "OVERFLOW,Statistics overflow error" "0,1" bitfld.long 0x0 8. "CLR,Clear statistics data. Resets statistics counters at 0" "0,1" bitfld.long 0x0 0. "EN,Enable read transaction statistics" "0,1" line.long 0x4 "REGS_RD_TXN_STATS_THRSHLD,A statistics threshold separate from the read transaction limit" hexmask.long.word 0x4 0.--15. 1. "THRESHOLD,Read transaction statistics threshold. The threshold can be set to any value though it will saturate at the outstanding transaction limit if it is set to a value greater than the programmed outstanding read transaction limit" rgroup.long 0x328++0x17 line.long 0x0 "REGS_RD_TXN_WINDOWS_CNT,Read Transaction Statistics - Window Count" hexmask.long 0x0 0.--31. 1. "VAL,Read transaction window count - the number of windows elapsed since statistics collection began" line.long 0x4 "REGS_RD_TXN_LMT_CNT,Read Transaction Statistics - number of windows in which the outstanding transaction limit was reached" hexmask.long 0x4 0.--31. 1. "VAL,The number of statistics windows in which the outstanding read transaction limit was reached" line.long 0x8 "REGS_RD_TXN_THRSHLD_CNT,Read Transaction Statistics - number of windows in which the statistics threshold was reached" hexmask.long 0x8 0.--31. 1. "VAL,The number of statistics windows in which the number of outstanding read transactions was greater than or equal to the threshold in RD_TXN_STATS_THRSHLD" line.long 0xC "REGS_RD_TXN_LIMIT_TOTAL,Read Transaction Statistics - Cycles at Outstanding Read Transactions Limit" hexmask.long 0xC 0.--31. 1. "VAL,The total number of cycles with the read transactions outstanding at the programmed limit since statistics collection began" line.long 0x10 "REGS_RD_TXN_THRSHLD_TOTAL,Read Transaction Statistics - Cycles at the Statistics Threshold" hexmask.long 0x10 0.--31. 1. "VAL,The total number of cycles with read transactions outstanding greater than or equal to the statistics threshold in RD_TXN_STATS_THRSHLD since statistics collection began" line.long 0x14 "REGS_RD_TXN_MAX,Read Transaction Statistics - Max Observed Outstanding Read Transactions" hexmask.long.word 0x14 0.--15. 1. "VAL,The maximum outstanding read transactions at any point in time regardless of the programmed limit" tree.end tree "A53_WS_BW_LIMITER1_REGS (A53_WS_BW_LIMITER1_REGS)" base ad:0x30402000 rgroup.long 0x0++0x3 line.long 0x0 "REGS_PID,This is the standard TI peripheral ID register that exists at address 0 in the peripheral space" bitfld.long 0x0 30.--31. "SCHEME,PID scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,PID bu identifier" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,PID function identifier" hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,PID RTL version number" bitfld.long 0x0 8.--10. "MAJOR_REV,PID Major revision number" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,PID custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV,PID Minor revision number" group.long 0x4++0x3 line.long 0x0 "REGS_CTRL,This register controls the overall behavior of the rate limiter module" bitfld.long 0x0 4. "REGION_FILTER_EN,Enable the region filter which will only apply the bandwith and transaction limits to the configured address regions" "0,1" bitfld.long 0x0 3. "WR_TXN_ENABLE,Enable limiting maximum outstanding write transactions" "0,1" bitfld.long 0x0 2. "RD_TXN_ENABLE,Enable limiting maximum outstanding read transactions" "0,1" bitfld.long 0x0 1. "WR_BW_ENABLE,Enable write bandwidth limiting" "0,1" bitfld.long 0x0 0. "RD_BW_ENABLE,Enable read bandwidth limiting" "0,1" group.long 0x200++0xB line.long 0x0 "REGS_WR_BW_CIR,Write Bandwidth Committed Information Rate" hexmask.long 0x0 0.--31. 1. "CIR,Committed Information Rate" line.long 0x4 "REGS_WR_BW_PIR,Write Bandwidth Peak Information Rate" hexmask.long 0x4 0.--31. 1. "PIR,Peak Information Rate" line.long 0x8 "REGS_WR_BW_BURST_OFFSET,Write Bandwidth Burst Offset" hexmask.long.word 0x8 0.--15. 1. "OFFSET,Burst Offset - the number of bytes before the Committed Information Rate is applied at startup or after a period of inactivity. Peak Information Rate will still apply" rgroup.long 0x20C++0x3 line.long 0x0 "REGS_WR_BW_INFO,Write Bandwidth State machine information. Primarly for verification purposes" bitfld.long 0x0 0.--1. "COLOR,Write Bandwidth three-color marker output from rategen submodule" "0,1,2,3" group.long 0x220++0x7 line.long 0x0 "REGS_WR_BW_STATS,Write Bandwidth Statistics Control Register" hexmask.long.word 0x0 16.--31. 1. "WINDOW,Statistics window size. This cannot be set to 0. If 16'd0 is written it will be set to the reset value of 16'd1024" rbitfld.long 0x0 9. "OVERFLOW,Statistics overflow error" "0,1" bitfld.long 0x0 8. "CLR,Clear statistics data. Resets statistics counters at 0" "0,1" bitfld.long 0x0 0. "EN,Enable write bandwidth statistics" "0,1" line.long 0x4 "REGS_WR_BW_STATS_THRSHLD,A statistics threshold separate from the CIR and PIR" hexmask.long 0x4 0.--31. 1. "THRESHOLD,Write bandwidth stats threshold in bytes. Note that this is total bytes unlike CIR and PIR. CIR and PIR are based on a rolling window and the statistics threshold is based on a fixed window. This will still take into account DDR bytes used .." rgroup.long 0x228++0x13 line.long 0x0 "REGS_WR_BW_WINDOWS_CNT,Write Bandwidth Statistics - Window Count" hexmask.long 0x0 0.--31. 1. "VAL,Write bandwidth window count - the number of windows elapsed since statistics collection began" line.long 0x4 "REGS_WR_BW_CIR_CNT,Write Bandwidth Statistics - CIR Count" hexmask.long 0x4 0.--31. 1. "VAL,The total number of statistics windows in which Write Commit Information Rate occurred. Note that if PIR is set to a lower value than CIR or if the burst offset feature is used this will also count times that PIR is reached." line.long 0x8 "REGS_WR_BW_PIR_CNT,Write Bandwidth Statistics - PIR Count" hexmask.long 0x8 0.--31. 1. "VAL,The total number of statistics windows in which Write Peak Information Rate occurred" line.long 0xC "REGS_WR_BW_THRSHLD_CNT,Write Bandwidth Statistics - Threshold Count" hexmask.long 0xC 0.--31. 1. "VAL,The total number of statistics windows in which Write bytes transferred exceeded the statistics threshold" line.long 0x10 "REGS_WR_BYTES_MAX,The maximum number of bytes seen in a single statitsics window. This can be compared with the window size to calculate the maximum bandwidth seen" hexmask.long 0x10 0.--31. 1. "VAL,Max number of bytes in a single window. This number accounts for DDR bandwidth consumed not simply the accumulation of the packet bytecnt values across a window. The max bandwidth calculation is the total bytes value in this MMR divided by the.." group.long 0x400++0x3 line.long 0x0 "REGS_WR_TXN,The maximum number of outstanding write transactions the rate limiter will allow" hexmask.long.word 0x0 0.--15. 1. "LIMIT,The maximum number of outstanding write transactions allowed. NOTE: This cannot be programmed to a zero. If a zero is written it will default to the reset value of 16'd64 as a limit of zero outstanding transactions would hang the interface." rgroup.long 0x40C++0x3 line.long 0x0 "REGS_WR_TXN_INFO,Write Transaction State machine information. Primarly for verification purposes" hexmask.long.byte 0x0 0.--6. 1. "OCC,Write transaction scoreboard occupancy" group.long 0x420++0x7 line.long 0x0 "REGS_WR_TXN_STATS,Write Transaction Stats Control Register" hexmask.long.word 0x0 16.--31. 1. "WINDOW,Statistics window size. This cannot be set to 0. If 16'd0 is written it will be set to the reset value of 16'd1024" rbitfld.long 0x0 9. "OVERFLOW,Statistics overflow error" "0,1" bitfld.long 0x0 8. "CLR,Clear statistics data. Resets statistics counters at 0" "0,1" bitfld.long 0x0 0. "EN,Enable write transaction statistics" "0,1" line.long 0x4 "REGS_WR_TXN_STATS_THRSHLD,A statistics threshold separate from the write transaction limit" hexmask.long.word 0x4 0.--15. 1. "THRESHOLD,Write transaction statistics threshold. The threshold can be set to any value though it will saturate at the outstanding transaction limit if it is set to a value greater than the programmed outstanding write transaction limit" rgroup.long 0x428++0x17 line.long 0x0 "REGS_WR_TXN_WINDOWS_CNT,Write Transaction Statistics - Window Count" hexmask.long 0x0 0.--31. 1. "VAL,Write transaction window count - the number of windows elapsed since statistics collection began" line.long 0x4 "REGS_WR_TXN_LMT_CNT,Write Transaction Statistics - number of windows in which the outstanding transaction limit was reached" hexmask.long 0x4 0.--31. 1. "VAL,The number of statistics windows in which the outstanding write transaction limit was reached" line.long 0x8 "REGS_WR_TXN_THRSHLD_CNT,Write Transaction Statistics - number of windows in which the statistics threshold was reached" hexmask.long 0x8 0.--31. 1. "VAL,The number of statistics windows in which the number of outstanding write transactions was greater than or equal to the threshold in WR_TXN_STATS_THRSHLD" line.long 0xC "REGS_WR_TXN_LIMIT_TOTAL,Write Transaction Statistics - Cycles at Outstanding Write Transactions Limit" hexmask.long 0xC 0.--31. 1. "VAL,The total number of cycles with the write transactions outstanding at the programmed limit since statistics collection began" line.long 0x10 "REGS_WR_TXN_THRSHLD_TOTAL,Write Transaction Statistics - Cycles at the Statistics Threshold" hexmask.long 0x10 0.--31. 1. "VAL,The total number of cycles with write transactions outstanding greater than or equal to the statistics threshold in WR_TXN_STATS_THRSHLD since statistics collection began" line.long 0x14 "REGS_WR_TXN_MAX,Write Transaction Statistics - Max Observed Outstanding Write Transactions" hexmask.long.word 0x14 0.--15. 1. "VAL,The maximum outstanding write transactions at any point in time regardless of the programmed limit" tree.end tree.end tree "A53SS0" base ad:0x0 tree "A53SS0_CORE0" tree "A53SS0_CORE0_ECC_AGGR (A53SS0_CORE0_ECC_AGGR)" base ad:0x718400 rgroup.long 0x0++0x3 line.long 0x0 "ECC_AGGR_CORE0_REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECC_AGGR_CORE0_REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECC_AGGR_CORE0_REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECC_AGGR_CORE0_REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECC_AGGR_CORE0_REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_CORE0_REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 26. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 25. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 24. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 23. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 22. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 21. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 20. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 19. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 18. "CPU0_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 17. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 16. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 15. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 14. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 13. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 12. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 11. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 10. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 9. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 8. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 7. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 6. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 5. "CPU0_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 4. "CPU0_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 3. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 2. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 1. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 0. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECC_AGGR_CORE0_REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 26. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 25. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 24. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 23. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "CPU0_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "CPU0_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "CPU0_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECC_AGGR_CORE0_REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 26. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 25. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 24. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 23. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "CPU0_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "CPU0_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "CPU0_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECC_AGGR_CORE0_REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_CORE0_REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 26. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 25. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 24. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 23. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 22. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 21. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 20. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 19. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 18. "CPU0_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 17. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 16. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 15. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 14. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 13. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 12. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 11. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 10. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 9. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 8. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 7. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 6. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 5. "CPU0_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 4. "CPU0_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 3. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 2. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 1. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 0. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_PEND,Interrupt Pending Status for cpu0_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECC_AGGR_CORE0_REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 26. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 25. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 24. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 23. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "CPU0_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "CPU0_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "CPU0_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu0_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECC_AGGR_CORE0_REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 26. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 25. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 24. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 23. "CPU0_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "CPU0_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "CPU0_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "CPU0_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "CPU0_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "CPU0_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "CPU0_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "CPU0_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECC_AGGR_CORE0_REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" newline bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECC_AGGR_CORE0_REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" newline bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECC_AGGR_CORE0_REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" newline bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECC_AGGR_CORE0_REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" newline bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "A53SS0_CORE0_DBG (A53SS0_CORE0_DBG)" base ad:0x730010000 group.long 0x20++0x7 line.long 0x0 "APBADDR_DBG_CPU0_EDESR,External Debug Event Status Register" hexmask.long 0x0 3.--31. 1. "RES0_EDESR_31_3,Reserved RES0." bitfld.long 0x0 2. "SS,Halting step debug event pending. Possible values of this field are: 0 Reading this means that a Halting step debug event is not pending. Writing this means no action. 1 Reading this means that.." "0,1" newline bitfld.long 0x0 1. "RC,Reset catch debug event pending. Possible values of this field are: 0 Reading this means that a Reset catch debug event is not pending. Writing this means no action. 1 Reading this means that a.." "0,1" bitfld.long 0x0 0. "OSUC,OS unlock debug event pending. Possible values of this field are: 0 Reading this means that an OS unlock catch debug event is not pending. Writing this means no action. 1 Reading this means.." "0,1" line.long 0x4 "APBADDR_DBG_CPU0_EDECR,External Debug Execution Control Register" hexmask.long 0x4 3.--31. 1. "RES0_EDECR_31_3,Reserved RES0." bitfld.long 0x4 2. "SS,Halting step enable. Possible values of this field are: 0 Halting step debug event disabled. 1 Halting step debug event enabled. If the value of EDECR.SS is changed when the.." "0,1" newline bitfld.long 0x4 1. "RCE,Reset catch enable. Possible values of this field are: 0 Reset catch debug event disabled. 1 Reset catch debug event enabled." "0,1" bitfld.long 0x4 0. "OSUCE,OS unlock catch enabled. Possible values of this field are: 0 OS unlock catch debug event disabled. 1 OS unlock catch debug event enabled." "0,1" group.long 0x30++0x7 line.long 0x0 "APBADDR_DBG_CPU0_EDWAR_31_0,External Debug Watchpoint Address Register (low word)" hexmask.long 0x0 0.--31. 1. "EDWAR_31_0,Watchpoint address. The virtual data address being accessed when a watchpoint debug event was triggered and caused entry to Debug state.UNKNOWN if the processor is not in Debug state or if Debug state was entered other than for a watchpoint.." line.long 0x4 "APBADDR_DBG_CPU0_EDWAR_63_32,External Debug Watchpoint Address Register (high word)" hexmask.long 0x4 0.--31. 1. "EDWAR_63_32,Watchpoint address. The virtual data address being accessed when a watchpoint debug event was triggered and caused entry to Debug state.UNKNOWN if the processor is not in Debug state or if Debug state was entered other than for a watchpoint.." group.long 0x80++0x1B line.long 0x0 "APBADDR_DBG_CPU0_DBGDTRRX_EL0,Debug Data Transfer Register Receive" hexmask.long 0x0 0.--31. 1. "DBGDTRRX_EL0,Update DTRRX. Writes to this register update the value in DTRRX and set RXfull to 1.Reads of this register return the last value written to DTRRX and do not change RXfull." line.long 0x4 "APBADDR_DBG_CPU0_EDITR,External Debug Instruction Transfer Register" hexmask.long 0x4 0.--31. 1. "EDITR,Used in Debug state for passing instructions to the processor for execution" line.long 0x8 "APBADDR_DBG_CPU0_EDSCR,External Debug Status and Control Register" bitfld.long 0x8 31. "RES0_EDSCR_31_31,Reserved RES0." "0,1" bitfld.long 0x8 30. "RXFULL,DTRRX full. This bit is RO." "0,1" newline bitfld.long 0x8 29. "TXFULL,DTRTX full. This bit is RO." "0,1" bitfld.long 0x8 28. "ITO,EDITR overrun. This bit is RO.If the processor is not in Debug state this bit is UNKNOWN. ITO is set to 0 on entry to Debug state." "0,1" newline bitfld.long 0x8 27. "RXO,DTRRX overrun. This bit is RO." "0,1" bitfld.long 0x8 26. "TXU,DTRTX underrun. This bit is RO." "0,1" newline bitfld.long 0x8 25. "PIPEADV,Pipeline advance. Read-only. Set to 1 every time the processor pipeline retires one or more instructions. Cleared to 0 by a write to EDRCR.CSPA.The architecture does not define precisely when this bit is set to 1. It requires only that this.." "0,1" bitfld.long 0x8 24. "ITE,ITR empty. This bit is RO.If the processor is not in Debug state this bit is UNKNOWN. It is always valid in Debug state." "0,1" newline bitfld.long 0x8 22.--23. "INTDIS,Interrupt disable. Disables taking interrupts [including virtual interrupts and System Error interrupts] in Non-Debug state.If external invasive debug is disabled the value of this field is ignored.If external invasive debug is enabled the.." "0,1,2,3" bitfld.long 0x8 21. "TDA,Trap debug registers accesses." "0,1" newline bitfld.long 0x8 20. "MA,Memory access mode. Controls use of memory-access mode for accessing EDITR and the DCC. This bit is ignored if in Non-debug state and set to zero on entry to Debug state.Possible values of this field are: 0 Normal access mode.." "0,1" bitfld.long 0x8 19. "RES0_EDSCR_19_19,Reserved RES0." "0,1" newline bitfld.long 0x8 18. "NS,Non-secure status. Read-only. When in Debug state gives the current security state: 0 Secure state IsSecure[] == TRUE 1 Non-secure state IsSecure[] == FALSE. In Non-debug.." "0,1" bitfld.long 0x8 17. "RES0_EDSCR_17_17,Reserved RES0." "0,1" newline bitfld.long 0x8 16. "SDD,Secure debug disabled. This bit is RO.On entry to Debug state:If entering in Secure state SDD is set to 0.If entering in Non-secure state SDD is set to the inverse of ExternalSecureInvasiveDebugEnabled[].In Debug state the value of the SDD bit.." "0,1" bitfld.long 0x8 15. "RES0_EDSCR_15_15,Reserved RES0." "0,1" newline bitfld.long 0x8 14. "HDE,Halting debug mode enable. Possible values of this bit are: 0 Halting debug mode disabled. 1 Halting debug mode enabled." "0,1" hexmask.long.byte 0x8 10.--13. 1. "RW,Exception level register-width status. Read-only. In Debug state each bit gives the current register width status of each EL: 1111 All exception levels are AArch64 state. 1110 EL0 is AArch32.." newline bitfld.long 0x8 8.--9. "EL,Exception level. Read-only. In Debug state this gives the current EL of the processor.In Non-debug state this field is RAZ." "0,1,2,3" bitfld.long 0x8 7. "A,System Error interrupt pending. Read-only. In Debug state indicates whether a SError interrupt is pending:If HCR_EL2.{AMO TGE} = {1 0} and in Non-secure EL0 or EL1 a virtual SError interrupt.Otherwise a physical SError interrupt. 0.." "0,1" newline bitfld.long 0x8 6. "ERR,Cumulative error flag. This field is RO. It is set to 1 following exceptions in Debug state and on any signaled overrun or underrun on the DTR or EDITR." "0,1" hexmask.long.byte 0x8 0.--5. 1. "STATUS,Debug status flags. This field is RO.The possible values of this field are: 000010 Processor is in Non-debug state. 000001 Processor is restarting [exiting Debug state]." line.long 0xC "APBADDR_DBG_CPU0_DBGDTRTX_EL0,Debug Data Transfer Register Transmit" hexmask.long 0xC 0.--31. 1. "DBGDTRTX_EL0,Return DTRTX. Reads of this register return the value in DTRTX and clear TXfull to 0.Writes of this register update the value in DTRTX and do not change TXfull." line.long 0x10 "APBADDR_DBG_CPU0_EDRCR,External Debug Reserve Control Register" hexmask.long 0x10 5.--31. 1. "RES0_EDRCR_31_5,Reserved RES0." bitfld.long 0x10 4. "CBRRQ,Allow imprecise entry to Debug state. The actions on writing to this bit are: 0 No action. 1 Allow imprecise entry to Debug state for example by canceling pending bus accesses." "0,1" newline bitfld.long 0x10 3. "CSPA,Clear Sticky Pipeline Advance. This bit is used to clear the EDSCR.PipeAdv bit to 0. The actions on writing to this bit are: 0 No action. 1 Clear the EDSCR.PipeAdv bit to 0." "0,1" bitfld.long 0x10 2. "CSE,Clear Sticky Error. Used to clear the EDSCR cumulative error bits to 0. The actions on writing to this bit are: 0 No action. 1 Clear the EDSCR.{TXU RXO ERR} bits and if the processor is in.." "0,1" newline bitfld.long 0x10 0.--1. "RES0_EDRCR_1_0,Reserved RES0." "0,1,2,3" line.long 0x14 "APBADDR_DBG_CPU0_EDACR,External Debug Auxiliary Control Register" hexmask.long 0x14 0.--31. 1. "RES0_EDACR_31_0,Reserved RES0" line.long 0x18 "APBADDR_DBG_CPU0_EDECCR,External Debug Exception Catch Control Register" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_EDECCR_31_8,Reserved RES0." hexmask.long.byte 0x18 4.--7. 1. "NSE,Coarse-grained Non-secure exception catch. Possible values of this field are: 0000 Exception catch debug event disabled for Non-secure exception levels. 0010 Exception catch debug event enabled.." newline hexmask.long.byte 0x18 0.--3. 1. "SE,Coarse-grained Secure exception catch. Possible values of this field are: 0000 Exception catch debug event disabled for Secure exception levels. 0010 Exception catch debug event enabled for.." group.long 0xA0++0xF line.long 0x0 "APBADDR_DBG_CPU0_EDPCSR_31_0,External Debug Program Counter Sample Register (low word)" hexmask.long 0x0 0.--31. 1. "EDPCSR_31_0,PC Sample low word EDPCSRlo. Bits [31:0] of the sampled instruction address value. Reading EDPCSRlo has the side-effect of updating EDCIDSR EDVIDSR and EDPCSRhi. However:If the processor is in Debug state or Sample-based profiling is.." line.long 0x4 "APBADDR_DBG_CPU0_EDCIDSR,External Debug Context ID Sample Register" hexmask.long 0x4 0.--31. 1. "CONTEXTIDR,The sampled value of CONTEXTIDR_EL1 captured on reading the low half of EDPCSR.If EL3 is implemented and using AArch32 then CONTEXTIDR is a Banked register and EDCIDSR samples the current Banked copy of CONTEXTIDR." line.long 0x8 "APBADDR_DBG_CPU0_EDVIDSR,External Debug Virtual Context Sample Register" bitfld.long 0x8 31. "NS,Non-secure state sample. Indicates the security state associated with the most recent EDPCSR sample." "0,1" bitfld.long 0x8 30. "E2,Exception level 2 status sample. Indicates whether the most recent EDPCSR sample was associated with EL2. If EDVIDSR.NS == 0 this bit is 0." "0,1" newline bitfld.long 0x8 29. "E3,Exception level 3 status sample. Indicates whether the most recent EDPCSR sample was associated with AArch64 EL3. If EDVIDSR.NS == 1 or the processor was in AArch32 state when EDPCSR was read this bit is 0." "0,1" bitfld.long 0x8 28. "HV,EDPCSR high half valid. Indicates whether bits [63:32] of the most recent EDPCSR sample are valid. If EDVIDSR.HV == 0 the value of EDPCSR[63:32] is RAZ." "0,1" newline hexmask.long.tbyte 0x8 8.--27. 1. "RES0_EDVIDSR_27_8,Reserved RES0." hexmask.long.byte 0x8 0.--7. 1. "VMID,VMID sample. The value of VTTBR_EL2.VMID associated with the most recent EDPCSR sample. If EDVIDSR.NS == 0 or EDVIDSR.E2 == 1 this field is RAZ." line.long 0xC "APBADDR_DBG_CPU0_EDPCSR_63_32,External Debug Program Counter Sample Register (high word)" hexmask.long 0xC 0.--31. 1. "EDPCSR_63_32,PC Sample high word EDPCSRhi. If EDVIDSR.HV == 0 then this field is RAZ otherwise bits [63:32] of the sampled PC." group.long 0x300++0x3 line.long 0x0 "APBADDR_DBG_CPU0_OSLAR_EL1,OS Lock Access Register" hexmask.long 0x0 1.--31. 1. "RES0_OSLAR_EL1_31_1,Reserved RES0." bitfld.long 0x0 0. "OSLK,On writes to OSLAR_EL1 bit[0] is copied to the OS lock.Use EDPRSR.OSLK to check the current status of the lock." "0,1" group.long 0x310++0x7 line.long 0x0 "APBADDR_DBG_CPU0_EDPRCR,External Debug Power/Reset Control Register" hexmask.long 0x0 4.--31. 1. "RES0_EDPRCR_31_4,Reserved RES0." bitfld.long 0x0 3. "COREPURQ,Core powerup request. Allows a debugger to request that the power controller power up the core enabling access to the debug register in the Core power domain. The actions on writing to this bit are: 0 No effect." "0,1" newline bitfld.long 0x0 2. "RES0_EDPRCR_2_2,Reserved RES0." "0,1" bitfld.long 0x0 1. "CWRR,Warm reset request. Write only bit that reads as zero. The actions on writing to this bit are: 0 No action. 1 Request Warm reset. The processor ignores writes to this bit if.." "0,1" newline bitfld.long 0x0 0. "CORENPDRQ,Core no powerdown request. Requests emulation of powerdown. Possible values of this bit are: 0 On a powerdown request the system powers down the Core power domain. 1 On a powerdown.." "0,1" line.long 0x4 "APBADDR_DBG_CPU0_EDPRSR,External Debug Processor Status Register" hexmask.long.tbyte 0x4 12.--31. 1. "RES0_EDPRSR_31_12,Reserved RES0." bitfld.long 0x4 11. "SDR,Sticky debug restart. Set to 1 when the processor exits Debug state and cleared to 0 following reads of EDPRSR. 0 The processor has not restarted since EDPRSR was last read. 1 The processor has.." "0,1" newline bitfld.long 0x4 10. "SPMAD,Sticky EPMAD error. Set to 1 if an access returns an error because AllowExternalPMUAccess[] == FALSE. 0 No accesses to the external performance monitors registers have failed since EDPRSR was last read. 1.." "0,1" bitfld.long 0x4 9. "EPMAD,External performance monitors access disable status. 0 External performance monitors access enabled. 1 External performance monitors access disabled. If external performance.." "0,1" newline bitfld.long 0x4 8. "SDAD,Sticky EDAD error. Set to 1 if an access returns an error because AllowExternalDebugAccess[] == FALSE. 0 No accesses to the external debug registers have failed since EDPRSR was last read. 1.." "0,1" bitfld.long 0x4 7. "EDAD,External debug access disable status. 0 External debug access enabled. 1 External debug access disabled. This bit is UNKNOWN on reads if either of EDPRSR.{DLK R} is 1 or.." "0,1" newline bitfld.long 0x4 6. "DLK,OS Double Lock status bit. 0 OSDLR_EL1.DLK == 0 or EDPRCR.CORENPDRQ == 1 or the processor is in Debug state. 1 OSDLR_EL1.DLK == 1 and EDPRCR.CORENPDRQ == 0 and the processor is in Non-debug.." "0,1" bitfld.long 0x4 5. "OSLK,OS lock status bit. A read of this bit returns the value of OSLSR_EL1.OSLK.This bit is UNKNOWN on reads if either of EDPRSR.{DLK R} is 1 or EDPRSR.PU is 0." "0,1" newline bitfld.long 0x4 4. "HALTED,Halted status bit. Possible values are: 0 EDSCR.STATUS is 0b000010 [processor in Non-debug state]. 1 EDSCR.STATUS is not 0b000010. This bit is UNKNOWN on reads if EDPRSR.PU.." "0,1" bitfld.long 0x4 3. "SR,Sticky core reset status bit. Possible values are: 0 The non-debug logic of the processor is not in reset state and has not been reset since the last time EDPRSR was read. 1 The non-debug logic.." "0,1" newline bitfld.long 0x4 2. "R,Core reset status bit. Possible values are: 0 The non-debug logic of the processor is not in reset state. 1 The non-debug logic of the processor is in reset state. This bit is.." "0,1" bitfld.long 0x4 1. "SPD,Sticky core power-down status bit.This bit is set to 1 on Cold reset to indicate the state of the debug registers has been lost. Since a Cold reset is required on powering up the processor this usually indicates the Core power domain has been.." "0,1" newline bitfld.long 0x4 0. "PU,Core power-up status bit. Indicates whether the Core power domain debug registers can be accessed: 0 Core is in a low-power or power-down state where the debug registers cannot be accessed. 1.." "0,1" group.long 0x400++0xB line.long 0x0 "APBADDR_DBG_CPU0_DBGBVR0_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR0_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR0_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU0_DBGBVR0_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR0_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR0_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU0_DBGBCR0_EL1,Debug Breakpoint Control Register 0" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR0_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR0_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR0_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x410++0xB line.long 0x0 "APBADDR_DBG_CPU0_DBGBVR1_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR1_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR1_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU0_DBGBVR1_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR1_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR1_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU0_DBGBCR1_EL1,Debug Breakpoint Control Register 1" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR1_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR1_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR1_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x420++0xB line.long 0x0 "APBADDR_DBG_CPU0_DBGBVR2_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR2_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR2_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU0_DBGBVR2_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR2_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR2_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU0_DBGBCR2_EL1,Debug Breakpoint Control Register 2" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR2_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR2_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR2_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x430++0xB line.long 0x0 "APBADDR_DBG_CPU0_DBGBVR3_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR3_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR3_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU0_DBGBVR3_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR3_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR3_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU0_DBGBCR3_EL1,Debug Breakpoint Control Register 3" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR3_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR3_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR3_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x440++0xB line.long 0x0 "APBADDR_DBG_CPU0_DBGBVR4_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR4_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR4_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU0_DBGBVR4_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR4_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR4_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU0_DBGBCR4_EL1,Debug Breakpoint Control Register 4" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR4_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR4_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR4_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x450++0xB line.long 0x0 "APBADDR_DBG_CPU0_DBGBVR5_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR5_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR5_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU0_DBGBVR5_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR5_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR5_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU0_DBGBCR5_EL1,Debug Breakpoint Control Register 5" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR5_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR5_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR5_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x800++0xB line.long 0x0 "APBADDR_DBG_CPU0_DBGWVR0_EL1_31_0,Debug Watchpoint Value Register 0" hexmask.long 0x0 2.--31. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." bitfld.long 0x0 0.--1. "RES0_DBGWVR0_EL1_31_0_1_0,Reserved RES0." "0,1,2,3" line.long 0x4 "APBADDR_DBG_CPU0_DBGWVR0_EL1_63_32,Debug Watchpoint Extended Value Register 0" hexmask.long.word 0x4 17.--31. 1. "RESS,Reserved Sign extended. Hardwired to the value of the sign bit bit [48]. Hardware and software must treat this field as RES0 if bit[48] is 0 and as RES1 if bit[48] is 1." hexmask.long.tbyte 0x4 0.--16. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." line.long 0x8 "APBADDR_DBG_CPU0_DBGWCR0_EL1,Debug Watchpoint Control Register 0" bitfld.long 0x8 29.--31. "RES0_DBGWCR0_EL1_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "MASK,Address mask. Only objects up to 2GB can be watched using a single mask. 00000 No mask. 00001 Reserved. 00010 Reserved. Other values.." newline bitfld.long 0x8 21.--23. "RES0_DBGWCR0_EL1_23_21,Reserved RES0." "0,1,2,3,4,5,6,7" bitfld.long 0x8 20. "WT,Watchpoint type. Possible values are: 0 Unlinked data address match. 1 Linked data address match." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked data address watchpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the HMC and PAC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and PAC fields." "0,1" hexmask.long.byte 0x8 5.--12. 1. "BAS,Byte address select. Each bit of this field selects whether a byte from within the word or double-word addressed by DBGWVR<n>_EL1 is being watched.BASDescriptionxxxxxxx1Match byte at DBGWVR<n>_EL1xxxxxx1xMatch byte at.." newline bitfld.long 0x8 3.--4. "LSC,Load/store control. This field enables watchpoint matching on the type of access being made. Possible values of this field are: 01 Match instructions that load from a watchpointed address. 10.." "0,1,2,3" bitfld.long 0x8 1.--2. "PAC,Privilege of access control. Determines the exception level or levels at which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" newline bitfld.long 0x8 0. "E,Enable watchpoint n. Possible values are: 0 Watchpoint disabled. 1 Watchpoint enabled." "0,1" group.long 0x810++0xB line.long 0x0 "APBADDR_DBG_CPU0_DBGWVR1_EL1_31_0,Debug Watchpoint Value Register 1" hexmask.long 0x0 2.--31. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." bitfld.long 0x0 0.--1. "RES0_DBGWVR1_EL1_31_0_1_0,Reserved RES0." "0,1,2,3" line.long 0x4 "APBADDR_DBG_CPU0_DBGWVR1_EL1_63_32,Debug Watchpoint Extended Value Register 1" hexmask.long.word 0x4 17.--31. 1. "RESS,Reserved Sign extended. Hardwired to the value of the sign bit bit [48]. Hardware and software must treat this field as RES0 if bit[48] is 0 and as RES1 if bit[48] is 1." hexmask.long.tbyte 0x4 0.--16. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." line.long 0x8 "APBADDR_DBG_CPU0_DBGWCR1_EL1,Debug Watchpoint Control Register 1" bitfld.long 0x8 29.--31. "RES0_DBGWCR1_EL1_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "MASK,Address mask. Only objects up to 2GB can be watched using a single mask. 00000 No mask. 00001 Reserved. 00010 Reserved. Other values.." newline bitfld.long 0x8 21.--23. "RES0_DBGWCR1_EL1_23_21,Reserved RES0." "0,1,2,3,4,5,6,7" bitfld.long 0x8 20. "WT,Watchpoint type. Possible values are: 0 Unlinked data address match. 1 Linked data address match." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked data address watchpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the HMC and PAC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and PAC fields." "0,1" hexmask.long.byte 0x8 5.--12. 1. "BAS,Byte address select. Each bit of this field selects whether a byte from within the word or double-word addressed by DBGWVR<n>_EL1 is being watched.BASDescriptionxxxxxxx1Match byte at DBGWVR<n>_EL1xxxxxx1xMatch byte at.." newline bitfld.long 0x8 3.--4. "LSC,Load/store control. This field enables watchpoint matching on the type of access being made. Possible values of this field are: 01 Match instructions that load from a watchpointed address. 10.." "0,1,2,3" bitfld.long 0x8 1.--2. "PAC,Privilege of access control. Determines the exception level or levels at which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" newline bitfld.long 0x8 0. "E,Enable watchpoint n. Possible values are: 0 Watchpoint disabled. 1 Watchpoint enabled." "0,1" group.long 0x820++0xB line.long 0x0 "APBADDR_DBG_CPU0_DBGWVR2_EL1_31_0,Debug Watchpoint Value Register 2" hexmask.long 0x0 2.--31. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." bitfld.long 0x0 0.--1. "RES0_DBGWVR2_EL1_31_0_1_0,Reserved RES0." "0,1,2,3" line.long 0x4 "APBADDR_DBG_CPU0_DBGWVR2_EL1_63_32,Debug Watchpoint Extended Value Register 2" hexmask.long.word 0x4 17.--31. 1. "RESS,Reserved Sign extended. Hardwired to the value of the sign bit bit [48]. Hardware and software must treat this field as RES0 if bit[48] is 0 and as RES1 if bit[48] is 1." hexmask.long.tbyte 0x4 0.--16. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." line.long 0x8 "APBADDR_DBG_CPU0_DBGWCR2_EL1,Debug Watchpoint Control Register 2" bitfld.long 0x8 29.--31. "RES0_DBGWCR2_EL1_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "MASK,Address mask. Only objects up to 2GB can be watched using a single mask. 00000 No mask. 00001 Reserved. 00010 Reserved. Other values.." newline bitfld.long 0x8 21.--23. "RES0_DBGWCR2_EL1_23_21,Reserved RES0." "0,1,2,3,4,5,6,7" bitfld.long 0x8 20. "WT,Watchpoint type. Possible values are: 0 Unlinked data address match. 1 Linked data address match." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked data address watchpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the HMC and PAC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and PAC fields." "0,1" hexmask.long.byte 0x8 5.--12. 1. "BAS,Byte address select. Each bit of this field selects whether a byte from within the word or double-word addressed by DBGWVR<n>_EL1 is being watched.BASDescriptionxxxxxxx1Match byte at DBGWVR<n>_EL1xxxxxx1xMatch byte at.." newline bitfld.long 0x8 3.--4. "LSC,Load/store control. This field enables watchpoint matching on the type of access being made. Possible values of this field are: 01 Match instructions that load from a watchpointed address. 10.." "0,1,2,3" bitfld.long 0x8 1.--2. "PAC,Privilege of access control. Determines the exception level or levels at which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" newline bitfld.long 0x8 0. "E,Enable watchpoint n. Possible values are: 0 Watchpoint disabled. 1 Watchpoint enabled." "0,1" group.long 0x830++0xB line.long 0x0 "APBADDR_DBG_CPU0_DBGWVR3_EL1_31_0,Debug Watchpoint Value Register 3" hexmask.long 0x0 2.--31. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." bitfld.long 0x0 0.--1. "RES0_DBGWVR3_EL1_31_0_1_0,Reserved RES0." "0,1,2,3" line.long 0x4 "APBADDR_DBG_CPU0_DBGWVR3_EL1_63_32,Debug Watchpoint Extended Value Register 3" hexmask.long.word 0x4 17.--31. 1. "RESS,Reserved Sign extended. Hardwired to the value of the sign bit bit [48]. Hardware and software must treat this field as RES0 if bit[48] is 0 and as RES1 if bit[48] is 1." hexmask.long.tbyte 0x4 0.--16. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." line.long 0x8 "APBADDR_DBG_CPU0_DBGWCR3_EL1,Debug Watchpoint Control Register 3" bitfld.long 0x8 29.--31. "RES0_DBGWCR3_EL1_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "MASK,Address mask. Only objects up to 2GB can be watched using a single mask. 00000 No mask. 00001 Reserved. 00010 Reserved. Other values.." newline bitfld.long 0x8 21.--23. "RES0_DBGWCR3_EL1_23_21,Reserved RES0." "0,1,2,3,4,5,6,7" bitfld.long 0x8 20. "WT,Watchpoint type. Possible values are: 0 Unlinked data address match. 1 Linked data address match." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked data address watchpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the HMC and PAC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and PAC fields." "0,1" hexmask.long.byte 0x8 5.--12. 1. "BAS,Byte address select. Each bit of this field selects whether a byte from within the word or double-word addressed by DBGWVR<n>_EL1 is being watched.BASDescriptionxxxxxxx1Match byte at DBGWVR<n>_EL1xxxxxx1xMatch byte at.." newline bitfld.long 0x8 3.--4. "LSC,Load/store control. This field enables watchpoint matching on the type of access being made. Possible values of this field are: 01 Match instructions that load from a watchpointed address. 10.." "0,1,2,3" bitfld.long 0x8 1.--2. "PAC,Privilege of access control. Determines the exception level or levels at which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" newline bitfld.long 0x8 0. "E,Enable watchpoint n. Possible values are: 0 Watchpoint disabled. 1 Watchpoint enabled." "0,1" group.long 0xD00++0x3 line.long 0x0 "APBADDR_DBG_CPU0_MIDR_EL1,Main ID Register" hexmask.long.byte 0x0 24.--31. 1. "IMPLEMENTER,The Implementer code. This field must hold an implementer code that has been assigned by ARM." hexmask.long.byte 0x0 20.--23. 1. "VARIANT,An IMPLEMENTATION DEFINED variant number. Typically this field is used to distinguish between different product variants or major revisions of a product." newline hexmask.long.byte 0x0 16.--19. 1. "ARCHITECTURE," hexmask.long.word 0x0 4.--15. 1. "PARTNUM,An IMPLEMENTATION DEFINED primary part number for the device. On processors implemented by ARM if the top four bits of the primary part number are 0x0 or 0x7 the variant and architecture are encoded differently" newline hexmask.long.byte 0x0 0.--3. 1. "REVISION,An IMPLEMENTATION DEFINED revision number for the device" group.long 0xD20++0x3F line.long 0x0 "APBADDR_DBG_CPU0_ID_AA64PFR0_EL1_31_0,Processor Feature Register 0 (low word)" hexmask.long.byte 0x0 28.--31. 1. "RES0_ID_AA64PFR0_EL1_31_0_31_28,Reserved RES0." hexmask.long.byte 0x0 24.--27. 1. "GIC,GIC system register interface. Permitted values are: 0000 No GIC system registers are supported. 0001 GICv3 system registers are supported. All other values are reserved." newline hexmask.long.byte 0x0 20.--23. 1. "ADVSIMD,Advanced SIMD. Permitted values are: 0000 Advanced SIMD is implemented. 1111 Advanced SIMD is not implemented. All other values are reserved." hexmask.long.byte 0x0 16.--19. 1. "FP,Floating-point. Permitted values are: 0000 Floating-point is implemented. 1111 Floating-point is not implemented. All other values are reserved." newline hexmask.long.byte 0x0 12.--15. 1. "EL3,EL3 exception level handling. Permitted values are: 0000 EL3 is not implemented. 0001 EL3 can be executed in AArch64 state only. 0010 EL3 can be executed.." hexmask.long.byte 0x0 8.--11. 1. "EL2,EL2 exception level handling. Permitted values are: 0000 EL2 is not implemented. 0001 EL2 can be executed in AArch64 state only. 0010 EL2 can be executed.." newline hexmask.long.byte 0x0 4.--7. 1. "EL1,EL1 exception level handling. Permitted values are: 0000 EL1 is not implemented. 0001 EL1 can be executed in AArch64 state only. 0010 EL1 can be executed.." hexmask.long.byte 0x0 0.--3. 1. "EL0,EL0 exception level handling. Permitted values are: 0000 EL0 is not implemented. 0001 EL0 can be executed in AArch64 state only. 0010 EL0 can be executed.." line.long 0x4 "APBADDR_DBG_CPU0_ID_AA64PFR0_EL1_63_32,Processor Feature Register 0 (high word)" hexmask.long 0x4 0.--31. 1. "RES0_ID_AA64PFR0_EL1_63_32_31_0,Reserved RES0." line.long 0x8 "APBADDR_DBG_CPU0_ID_AA64DFR0_EL1_31_0,Debug Feature Register 0 (low word)" hexmask.long.byte 0x8 28.--31. 1. "CTX_CMPS,Number of breakpoints that are context-aware minus 1. These are the highest numbered breakpoints." hexmask.long.byte 0x8 24.--27. 1. "RES0_ID_AA64DFR0_EL1_31_0_27_24,Reserved RES0." newline hexmask.long.byte 0x8 20.--23. 1. "WRPS,Number of watchpoints minus 1. The value of 0b0000 is reserved." hexmask.long.byte 0x8 16.--19. 1. "RES0_ID_AA64DFR0_EL1_31_0_19_16,Reserved RES0." newline hexmask.long.byte 0x8 12.--15. 1. "BRPS,Number of breakpoints minus 1. The value of 0b0000 is reserved." hexmask.long.byte 0x8 8.--11. 1. "PMUVER,Performance Monitors extension version. Indicates whether system register interface to Performance Monitors extension is implemented. Permitted values are: 0000 Performance Monitors extension system registers not implemented." newline hexmask.long.byte 0x8 4.--7. 1. "TRACEVER,Trace extension. Indicates whether system register interface to Trace extension is implemented. Permitted values are: 0000 Trace extension system registers not implemented. 0001 Trace.." hexmask.long.byte 0x8 0.--3. 1. "DEBUGVER,Debug architecture version. Indicates presence of v8-A debug architecture. 0110 v8-A debug architecture. All other values are reserved." line.long 0xC "APBADDR_DBG_CPU0_ID_AA64DFR0_EL1_63_32,Debug Feature Register 0 (high word)" hexmask.long 0xC 0.--31. 1. "RES0_ID_AA64DFR0_EL1_63_32_31_0,Reserved RES0." line.long 0x10 "APBADDR_DBG_CPU0_ID_AA64ISAR0_EL1_31_0,Instruction Set Attribute Register 0 (low word)" hexmask.long.word 0x10 20.--31. 1. "RES0_ID_AA64ISAR0_EL1_31_0_31_20,Reserved RES0." hexmask.long.byte 0x10 16.--19. 1. "CRC32,CRC32 instructions in AArch64. Possible values of this field are: 0000 No CRC32 instructions implemented. 0001 CRC32B CRC32H CRC32W CRC32X CRC32CB CRC32CH CRC32CW and CRC32CX.." newline hexmask.long.byte 0x10 12.--15. 1. "SHA2,SHA2 instructions in AArch64. Possible values of this field are: 0000 No SHA2 instructions implemented. 0001 SHA256H SHA256H2 SHA256SU0 and SHA256SU1 instructions implemented." hexmask.long.byte 0x10 8.--11. 1. "SHA1,SHA1 instructions in AArch64. Possible values of this field are: 0000 No SHA1 instructions implemented. 0001 SHA1C SHA1P SHA1M SHA1H SHA1SU0 and SHA1SU1 instructions implemented." newline hexmask.long.byte 0x10 4.--7. 1. "AES,AES instructions in AArch64. Possible values of this field are: 0000 No AES instructions implemented. 0001 AESE AESD AESMC and AESIMC instructions implemented. 0010.." hexmask.long.byte 0x10 0.--3. 1. "RES0_ID_AA64ISAR0_EL1_31_0_3_0,Reserved RES0." line.long 0x14 "APBADDR_DBG_CPU0_ID_AA64ISAR0_EL1_63_32,Instruction Set Attribute Register 0 (high word)" hexmask.long 0x14 0.--31. 1. "RES0_ID_AA64ISAR0_EL1_63_32_31_0,Reserved RES0." line.long 0x18 "APBADDR_DBG_CPU0_ID_AA64MMFR0_EL1_31_0,Memory Model Feature Register 0 (low word)" hexmask.long.byte 0x18 28.--31. 1. "TGRAN4,Support for 4 Kbyte memory translation granule size. Permitted values are: 0000 4 KB granule supported. 1111 4 KB granule not supported. All other values are reserved." hexmask.long.byte 0x18 24.--27. 1. "TGRAN64,Support for 64 Kbyte memory translation granule size. Permitted values are: 0000 64 KB granule supported. 1111 64 KB granule not supported. All other values are reserved." newline hexmask.long.byte 0x18 20.--23. 1. "TGRAN16,Support for 16 Kbyte memory translation granule size. Permitted values are: 0000 16 KB granule not supported. 0001 16 KB granule supported. All other values are reserved." hexmask.long.byte 0x18 16.--19. 1. "BIGENDEL0,Mixed-endian support at EL0 only. Permitted values are: 0000 No mixed-endian support at EL0. The SCTLR_EL1.E0E bit has a fixed value. 0001 Mixed-endian support at EL0. The SCTLR_EL1.E0E.." newline hexmask.long.byte 0x18 12.--15. 1. "SNSMEM,Secure versus Non-secure Memory distinction. Permitted values are: 0000 Does not support a distinction between Secure and Non-secure Memory. 0001 Does support a distinction between Secure.." hexmask.long.byte 0x18 8.--11. 1. "BIGEND,Mixed-endian configuration support. Permitted values are: 0000 No mixed-endian support. The SCTLR_ELx.EE bits have a fixed value. See the BigEndEL0 field bits[19:16] for whether EL0 supports mixed-endian." newline hexmask.long.byte 0x18 4.--7. 1. "ASIDBITS,Number of ASID bits. Permitted values are: 0000 8 bits. 0010 16 bits. All other values are reserved." hexmask.long.byte 0x18 0.--3. 1. "PARANGE,Physical Address range supported. Permitted values are: 0000 32 bits 4 GB. 0001 36 bits 64 GB. 0010 40 bits 1 TB. 0011.." line.long 0x1C "APBADDR_DBG_CPU0_ID_AA64MMFR0_EL1_63_32,Memory Model Feature Register 0 (high word)" hexmask.long 0x1C 0.--31. 1. "RES0_ID_AA64MMFR0_EL1_63_32_31_0,Reserved RES0." line.long 0x20 "APBADDR_DBG_CPU0_ID_AA64PFR1_EL1_31_0,Processor Feature Register 1 (low word)" hexmask.long 0x20 0.--31. 1. "RES0_ID_AA64PFR1_EL1_31_0_31_0,Reserved RES0." line.long 0x24 "APBADDR_DBG_CPU0_ID_AA64PFR1_EL1_63_32,Processor Feature Register 1 (high word)" hexmask.long 0x24 0.--31. 1. "RES0_ID_AA64PFR1_EL1_63_32_31_0,Reserved RES0." line.long 0x28 "APBADDR_DBG_CPU0_ID_AA64DFR1_EL1_31_0,Auxiliary Feature Register 1 (low word)" hexmask.long 0x28 0.--31. 1. "RES0_ID_AA64DFR1_EL1_31_0_31_0,Reserved RES0." line.long 0x2C "APBADDR_DBG_CPU0_ID_AA64DFR1_EL1_63_32,Auxiliary Feature Register 1 (high word)" hexmask.long 0x2C 0.--31. 1. "RES0_ID_AA64DFR1_EL1_63_32_31_0,Reserved RES0." line.long 0x30 "APBADDR_DBG_CPU0_ID_AA64ISAR1_EL1_31_0,Instruction Set Attribute Register 1 (low word)" hexmask.long 0x30 0.--31. 1. "RES0_ID_AA64ISAR1_EL1_31_0_31_0,Reserved RES0." line.long 0x34 "APBADDR_DBG_CPU0_ID_AA64ISAR1_EL1_63_32,Instruction Set Attribute Register 1 (high word)" hexmask.long 0x34 0.--31. 1. "RES0_ID_AA64ISAR1_EL1_63_32_31_0,Reserved RES0." line.long 0x38 "APBADDR_DBG_CPU0_ID_AA64MMFR1_EL1_31_0,Memory Model Feature Register 1 (low word)" hexmask.long 0x38 0.--31. 1. "RES0_ID_AA64MMFR1_EL1_31_0_31_0,Reserved RES0." line.long 0x3C "APBADDR_DBG_CPU0_ID_AA64MMFR1_EL1_63_32,Memory Model Feature Register 1 (high word)" hexmask.long 0x3C 0.--31. 1. "RES0_ID_AA64MMFR1_EL1_63_32_31_0,Reserved RES0." group.long 0xF00++0x3 line.long 0x0 "APBADDR_DBG_CPU0_EDITCTRL,External Debug Integration mode Control Register" hexmask.long 0x0 1.--31. 1. "RES0_EDITCTRL_31_1,Reserved RES0." bitfld.long 0x0 0. "IME,Integration mode enable. When IME == 1 the device reverts to an integration mode to enable integration testing or topology detection. The integration mode behavior is IMPLEMENTATION DEFINED. 0 Normal operation." "0,1" group.long 0xFA0++0x33 line.long 0x0 "APBADDR_DBG_CPU0_DBGCLAIMSET_EL1,Debug Claim Tag Set Register" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_DBGCLAIMSET_EL1_31_8,Reserved RAZ/SBZ. Software can rely on these bits reading as zero and must use a should-be-zero policy on writes. Implementations must ignore writes." hexmask.long.byte 0x0 0.--7. 1. "CLAIM,Claim set bits. RAO.Writing a 1 to one of these bits sets the corresponding CLAIM bit to 1. This is an indirect write to the CLAIM bits.A single write operation can set multiple bits to 1. Writing 0 to one of these bits has no effect." line.long 0x4 "APBADDR_DBG_CPU0_DBGCLAIMCLR_EL1,Debug Claim Tag Clear Register" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_DBGCLAIMCLR_EL1_31_8,Reserved RAZ/SBZ. Software can rely on these bits reading as zero and must use a should-be-zero policy on writes. Implementations must ignore writes." hexmask.long.byte 0x4 0.--7. 1. "CLAIM,Claim clear bits. Reading this field returns the current value of the CLAIM bits.Writing a 1 to one of these bits clears the corresponding CLAIM bit to 0. This is an indirect write to the CLAIM bits.A single write operation can clear multiple bits.." line.long 0x8 "APBADDR_DBG_CPU0_EDDEVAFF0,External Debug Device Affinity Register 0" hexmask.long 0x8 0.--31. 1. "EDDEVAFF0,MPIDR_EL1 low half. Read-only copy of the low half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0xC "APBADDR_DBG_CPU0_EDDEVAFF1,External Debug Device Affinity Register 1" hexmask.long 0xC 0.--31. 1. "EDDEVAFF1,MPIDR_EL1 high half. Read-only copy of the high half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x10 "APBADDR_DBG_CPU0_EDLAR,External Debug Lock Access Register" hexmask.long 0x10 0.--31. 1. "KEY,Lock Access control. Writing the key value 0xC5ACCE55 to this field unlocks the lock enabling write accesses to this component's registers through a memory-mapped interface.Writing any other value to this register locks the lock disabling write.." line.long 0x14 "APBADDR_DBG_CPU0_EDLSR,External Debug Lock Status Register" hexmask.long 0x14 3.--31. 1. "RES0_EDLSR_31_3,Reserved RES0." bitfld.long 0x14 2. "NTT,Not thirty-two bit access required. RAZ." "0,1" newline bitfld.long 0x14 1. "SLK,Software lock status for this component. For an access to LSR that is not a memory-mapped access or when the software lock is not implemented this field is RES0.For memory-mapped accesses when the software lock is implemented possible values of.." "0,1" bitfld.long 0x14 0. "SLI,Software lock implemented. For an access to LSR that is not a memory-mapped access this field is RAZ. For memory-mapped accesses the value of this field is IMPLEMENTATION DEFINED. Permitted values are: 0 Software lock not.." "0,1" line.long 0x18 "APBADDR_DBG_CPU0_DBGAUTHSTATUS_EL1,Debug Authentication Status register" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_DBGAUTHSTATUS_EL1_31_8,Reserved RES0." bitfld.long 0x18 6.--7. "SNID,Secure non-invasive debug. Possible values of this field are: 00 Not implemented. EL3 is not implemented and the processor is Non-secure. 10 Implemented and disabled." "0,1,2,3" newline bitfld.long 0x18 4.--5. "SID,Secure invasive debug. Possible values of this field are: 00 Not implemented. EL3 is not implemented and the processor is Non-secure. 10 Implemented and disabled." "0,1,2,3" bitfld.long 0x18 2.--3. "NSNID,Non-secure non-invasive debug. Possible values of this field are: 00 Not implemented. EL3 is not implemented and the processor is Secure. 10 Implemented and disabled." "0,1,2,3" newline bitfld.long 0x18 0.--1. "NSID,Non-secure invasive debug. Possible values of this field are: 00 Not implemented. EL3 is not implemented and the processor is Secure. 10 Implemented and disabled." "0,1,2,3" line.long 0x1C "APBADDR_DBG_CPU0_EDDEVARCH,External Debug Device Architecture Register" hexmask.long.word 0x1C 21.--31. 1. "ARCHITECT,Defines the architecture of the component. For debug this is ARM Limited.Bits [31:28] are the JEP 106 continuation code 0x4.Bits [27:21] are the JEP 106 ID code 0x3B." bitfld.long 0x1C 20. "PRESENT,When set to 1 indicates that the DEVARCH is present.This field is 1 in v8-A." "0,1" newline hexmask.long.byte 0x1C 16.--19. 1. "REVISION,Defines the architecture revision. For architectures defined by ARM this is the minor revision.For debug the revision defined by v8-A is 0x0.All other values are reserved." hexmask.long.word 0x1C 0.--15. 1. "ARCHID,Defines this part to be a v8-A debug component. For architectures defined by ARM this is further subdivided.For debug:Bits [15:12] are the architecture version 0x6.Bits [11:0] are the architecture part number 0xA15.This corresponds to debug.." line.long 0x20 "APBADDR_DBG_CPU0_EDDEVID2,External Debug Device ID Register 2" hexmask.long 0x20 0.--31. 1. "RES0_EDDEVID2_31_0,Reserved RES0." line.long 0x24 "APBADDR_DBG_CPU0_EDDEVID1,External Debug Device ID Register 1" hexmask.long 0x24 4.--31. 1. "RES0_EDDEVID1_31_4,Reserved RES0." hexmask.long.byte 0x24 0.--3. 1. "PCSROFFSET,This field indicates the offset applied to PC samples returned by reads of EDPCSR. Permitted values of this field in v8-A are: 0000 EDPCSR not implemented. 0010 EDPCSR implemented and.." line.long 0x28 "APBADDR_DBG_CPU0_EDDEVID,External Debug Device ID Register 0" hexmask.long.byte 0x28 28.--31. 1. "RES0_EDDEVID_31_28,Reserved RES0." hexmask.long.byte 0x28 24.--27. 1. "AUXREGS,Indicates support for Auxiliary registers. Permitted values for this field are: 0000 None supported. 0001 Support for External Debug Auxiliary Control Register EDACR. All.." newline hexmask.long.tbyte 0x28 4.--23. 1. "RES0_EDDEVID_23_4,Reserved RES0." hexmask.long.byte 0x28 0.--3. 1. "PCSAMPLE,Indicates the level of Sample-based profiling support using external debug registers 40 through 43. Permitted values of this field in v8-A are: 0000 Architecture-defined form of Sample-based profiling not implemented." line.long 0x2C "APBADDR_DBG_CPU0_EDDEVTYPE,External Debug Device Type Register" hexmask.long.tbyte 0x2C 8.--31. 1. "RES0_EDDEVTYPE_31_8,Reserved RES0." hexmask.long.byte 0x2C 4.--7. 1. "SUB,Subtype. Must read as 0x1 to indicate this is a processor component." newline hexmask.long.byte 0x2C 0.--3. 1. "MAJOR,Major type. Must read as 0x5 to indicate this is a debug logic component." line.long 0x30 "APBADDR_DBG_CPU0_EDPIDR4,External Debug Peripheral Identification Register 4" hexmask.long.tbyte 0x30 8.--31. 1. "RES0_EDPIDR4_31_8,Reserved RES0." hexmask.long.byte 0x30 4.--7. 1. "SIZE,Size of the component. RAZ. Log2 of the number of 4KB pages from the start of the component to the end of the component ID registers." newline hexmask.long.byte 0x30 0.--3. 1. "DES_2,Designer JEP106 continuation code least significant nibble. For ARM Limited this field is 0b0100." group.long 0xFE0++0x1F line.long 0x0 "APBADDR_DBG_CPU0_EDPIDR0,External Debug Peripheral Identification Register 0" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_EDPIDR0_31_8,Reserved RES0." hexmask.long.byte 0x0 0.--7. 1. "PART_0,Part number least significant byte." line.long 0x4 "APBADDR_DBG_CPU0_EDPIDR1,External Debug Peripheral Identification Register 1" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_EDPIDR1_31_8,Reserved RES0." hexmask.long.byte 0x4 4.--7. 1. "DES_0,Designer least significant nibble of JEP106 ID code. For ARM Limited this field is 0b1011." newline hexmask.long.byte 0x4 0.--3. 1. "PART_1,Part number most significant nibble." line.long 0x8 "APBADDR_DBG_CPU0_EDPIDR2,External Debug Peripheral Identification Register 2" hexmask.long.tbyte 0x8 8.--31. 1. "RES0_EDPIDR2_31_8,Reserved RES0." hexmask.long.byte 0x8 4.--7. 1. "REVISION,Part major revision. Parts can also use this field to extend Part number to 16-bits." newline bitfld.long 0x8 3. "JEDEC,RAO. Indicates a JEP106 identity code is used." "0,1" bitfld.long 0x8 0.--2. "DES_1,Designer most significant bits of JEP106 ID code. For ARM Limited this field is 0b011." "0,1,2,3,4,5,6,7" line.long 0xC "APBADDR_DBG_CPU0_EDPIDR3,External Debug Peripheral Identification Register 3" hexmask.long.tbyte 0xC 8.--31. 1. "RES0_EDPIDR3_31_8,Reserved RES0." hexmask.long.byte 0xC 4.--7. 1. "REVAND,Part minor revision. Parts using EDPIDR2.REVISION as an extension to the Part number must use this field as a major revision number." newline hexmask.long.byte 0xC 0.--3. 1. "CMOD,Customer modified. Indicates someone other than the Designer has modified the component." line.long 0x10 "APBADDR_DBG_CPU0_EDCIDR0,External Debug Component Identification Register 0" hexmask.long.tbyte 0x10 8.--31. 1. "RES0_EDCIDR0_31_8,Reserved RES0." hexmask.long.byte 0x10 0.--7. 1. "PRMBL_0,Preamble. Must read as 0x0D." line.long 0x14 "APBADDR_DBG_CPU0_EDCIDR1,External Debug Component Identification Register 1" hexmask.long.tbyte 0x14 8.--31. 1. "RES0_EDCIDR1_31_8,Reserved RES0." hexmask.long.byte 0x14 4.--7. 1. "CLASS,Component class. Reads as 0x9 debug component." newline hexmask.long.byte 0x14 0.--3. 1. "PRMBL_1,Preamble. RAZ." line.long 0x18 "APBADDR_DBG_CPU0_EDCIDR2,External Debug Component Identification Register 2" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_EDCIDR2_31_8,Reserved RES0." hexmask.long.byte 0x18 0.--7. 1. "PRMBL_2,Preamble. Must read as 0x05." line.long 0x1C "APBADDR_DBG_CPU0_EDCIDR3,External Debug Component Identification Register 3" hexmask.long.tbyte 0x1C 8.--31. 1. "RES0_EDCIDR3_31_8,Reserved RES0." hexmask.long.byte 0x1C 0.--7. 1. "PRMBL_3,Preamble. Must read as 0xB1." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "A53SS0_CORE0_CTI (A53SS0_CORE0_CTI)" base ad:0x730020000 group.long 0x0++0x3 line.long 0x0 "APBADDR_CTI_CPU0_CTICONTROL,CTI Control Register" hexmask.long 0x0 1.--31. 1. "RES0_CTICONTROL_31_1,Reserved RES0." bitfld.long 0x0 0. "GLBEN,Enables or disables the CTI mapping functions. Possible values of this field are: 0 CTI mapping functions disabled. 1 CTI mapping functions enabled. When the mapping.." "0,1" group.long 0x10++0x2F line.long 0x0 "APBADDR_CTI_CPU0_CTIINTACK,CTI Output Trigger Acknowledge Register" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--7. 1. "ACK_N,Can be used to create soft acknowledges for output triggers" line.long 0x4 "APBADDR_CTI_CPU0_CTIAPPSET,CTI Application Trigger Set Register" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "CTIAPPSETX,Application trigger <x> enable" line.long 0x8 "APBADDR_CTI_CPU0_CTIAPPCLEAR,CTI Application Trigger Clear Register" hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x8 0.--3. 1. "CTIAPPCLEARX,Application trigger <x> disable" line.long 0xC "APBADDR_CTI_CPU0_CTIAPPPULSE,CTI Application Pulse Register" hexmask.long 0xC 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0xC 0.--3. 1. "CTIAPPPULSEX,Generate event pulse on ECT channel <x>." line.long 0x10 "APBADDR_CTI_CPU0_CTIINEN0,CTI Input Trigger to Output Channel Enable Register 0" hexmask.long 0x10 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x10 0.--3. 1. "INENX,Input trigger 0 to output channel <x> enable" line.long 0x14 "APBADDR_CTI_CPU0_CTIINEN1,CTI Input Trigger to Output Channel Enable Register 1" hexmask.long 0x14 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x14 0.--3. 1. "INENX,Input trigger 1 to output channel <x> enable" line.long 0x18 "APBADDR_CTI_CPU0_CTIINEN2,CTI Input Trigger to Output Channel Enable Register 2" hexmask.long 0x18 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x18 0.--3. 1. "INENX,Input trigger 2 to output channel <x> enable" line.long 0x1C "APBADDR_CTI_CPU0_CTIINEN3,CTI Input Trigger to Output Channel Enable Register 3" hexmask.long 0x1C 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x1C 0.--3. 1. "INENX,Input trigger 3 to output channel <x> enable" line.long 0x20 "APBADDR_CTI_CPU0_CTIINEN4,CTI Input Trigger to Output Channel Enable Register 4" hexmask.long 0x20 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x20 0.--3. 1. "INENX,Input trigger 4 to output channel <x> enable" line.long 0x24 "APBADDR_CTI_CPU0_CTIINEN5,CTI Input Trigger to Output Channel Enable Register 5" hexmask.long 0x24 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x24 0.--3. 1. "INENX,Input trigger 5 to output channel <x> enable" line.long 0x28 "APBADDR_CTI_CPU0_CTIINEN6,CTI Input Trigger to Output Channel Enable Register 6" hexmask.long 0x28 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x28 0.--3. 1. "INENX,Input trigger 6 to output channel <x> enable" line.long 0x2C "APBADDR_CTI_CPU0_CTIINEN7,CTI Input Trigger to Output Channel Enable Register 7" hexmask.long 0x2C 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x2C 0.--3. 1. "INENX,Input trigger 7 to output channel <x> enable" group.long 0xA0++0x1F line.long 0x0 "APBADDR_CTI_CPU0_CTIOUTEN0,CTI Input Channel to Output Trigger Enable Register 0" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--3. 1. "OUTENX,Input channel <x> to output trigger 0 enable" line.long 0x4 "APBADDR_CTI_CPU0_CTIOUTEN1,CTI Input Channel to Output Trigger Enable Register 1" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "OUTENX,Input channel <x> to output trigger 1 enable" line.long 0x8 "APBADDR_CTI_CPU0_CTIOUTEN2,CTI Input Channel to Output Trigger Enable Register 2" hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x8 0.--3. 1. "OUTENX,Input channel <x> to output trigger 2 enable" line.long 0xC "APBADDR_CTI_CPU0_CTIOUTEN3,CTI Input Channel to Output Trigger Enable Register 3" hexmask.long 0xC 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0xC 0.--3. 1. "OUTENX,Input channel <x> to output trigger 3 enable" line.long 0x10 "APBADDR_CTI_CPU0_CTIOUTEN4,CTI Input Channel to Output Trigger Enable Register 4" hexmask.long 0x10 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x10 0.--3. 1. "OUTENX,Input channel <x> to output trigger 4 enable" line.long 0x14 "APBADDR_CTI_CPU0_CTIOUTEN5,CTI Input Channel to Output Trigger Enable Register 5" hexmask.long 0x14 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x14 0.--3. 1. "OUTENX,Input channel <x> to output trigger 5 enable" line.long 0x18 "APBADDR_CTI_CPU0_CTIOUTEN6,CTI Input Channel to Output Trigger Enable Register 6" hexmask.long 0x18 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x18 0.--3. 1. "OUTENX,Input channel <x> to output trigger 6 enable" line.long 0x1C "APBADDR_CTI_CPU0_CTIOUTEN7,CTI Input Channel to Output Trigger Enable Register 7" hexmask.long 0x1C 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x1C 0.--3. 1. "OUTENX,Input channel <x> to output trigger 7 enable" group.long 0x130++0x17 line.long 0x0 "APBADDR_CTI_CPU0_CTITRIGINSTATUS,CTI Trigger In Status Register" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--7. 1. "TRINN,Provides the status of the trigger inputs" line.long 0x4 "APBADDR_CTI_CPU0_CTITRIGOUTSTATUS,CTI Trigger Out Status Register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--7. 1. "TROUTN,Provides the status of the trigger outputs" line.long 0x8 "APBADDR_CTI_CPU0_CTICHINSTATUS,CTI Channel In Status Register" hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x8 0.--3. 1. "CHINN,Provides the raw status of the ECT channel inputs to the CTI" line.long 0xC "APBADDR_CTI_CPU0_CTICHOUTSTATUS,CTI Channel Out Status Register" hexmask.long 0xC 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0xC 0.--3. 1. "CHOUTN,Provides the status of the ECT channel outputs from the CTI" line.long 0x10 "APBADDR_CTI_CPU0_CTIGATE,CTI Channel Gate Enable Register" hexmask.long 0x10 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x10 0.--3. 1. "GATEX,Determines whether events on channels propagate through the CTM to other ECT components or from the CTM into the CTI" line.long 0x14 "APBADDR_CTI_CPU0_ASICCTL,CTI External Multiplexor Control register" hexmask.long.tbyte 0x14 8.--31. 1. "RES0_ASICCTL_31_8,Reserved RES0." hexmask.long.byte 0x14 0.--7. 1. "ASICCTL,IMPLEMENTATION DEFINED ASIC control. Provides a control for external multiplexing of additional triggers into the CTI.If external multiplexing of trigger signals is implemented then the number of multiplexed signals on each trigger must be.." group.long 0xF00++0x3 line.long 0x0 "APBADDR_CTI_CPU0_CTIITCTRL,CTI Integration mode Control Register" hexmask.long 0x0 1.--31. 1. "RES0_CTIITCTRL_31_1,Reserved RES0." bitfld.long 0x0 0. "IME,Integration mode enable. When IME == 1 the device reverts to an integration mode to enable integration testing or topology detection. The integration mode behavior is IMPLEMENTATION DEFINED. 0 Normal operation." "0,1" group.long 0xFA0++0x5F line.long 0x0 "APBADDR_CTI_CPU0_CTICLAIMSET,CTI Claim Set" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--3. 1. "CLAIMX,CLAIM tag set bit" line.long 0x4 "APBADDR_CTI_CPU0_CTICLAIMCLR,CTI Claim Clear" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "CLAIMX,Clear CLAIM tag" line.long 0x8 "APBADDR_CTI_CPU0_CTIDEVAFF0,CTI Device Affinity Register 0" hexmask.long 0x8 0.--31. 1. "CTIDEVAFF0,MPIDR_EL1 low half. Read-only copy of the low half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0xC "APBADDR_CTI_CPU0_CTIDEVAFF1,CTI Device Affinity Register 1" hexmask.long 0xC 0.--31. 1. "CTIDEVAFF1,MPIDR_EL1 high half. Read-only copy of the high half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x10 "APBADDR_CTI_CPU0_CTILAR,CTI Lock Access Register" hexmask.long 0x10 0.--31. 1. "KEY,Lock Access control. Writing the key value 0xC5ACCE55 to this field unlocks the lock enabling write accesses to this component's registers through a memory-mapped interface.Writing any other value to this register locks the lock disabling write.." line.long 0x14 "APBADDR_CTI_CPU0_CTILSR,CTI Lock Status Register" hexmask.long 0x14 3.--31. 1. "RES0_CTILSR_31_3,Reserved RES0." bitfld.long 0x14 2. "NTT,Not thirty-two bit access required. RAZ." "0,1" bitfld.long 0x14 1. "SLK,Software lock status for this component. For an access to LSR that is not a memory-mapped access or when the software lock is not implemented this field is RES0.For memory-mapped accesses when the software lock is implemented possible values of.." "0,1" newline bitfld.long 0x14 0. "SLI,Software lock implemented. For an access to LSR that is not a memory-mapped access this field is RAZ. For memory-mapped accesses the value of this field is IMPLEMENTATION DEFINED. Permitted values are: 0 Software lock not.." "0,1" line.long 0x18 "APBADDR_CTI_CPU0_CTIAUTHSTATUS,CTI Authentication Status Register" hexmask.long 0x18 4.--31. 1. "RES0_CTIAUTHSTATUS_31_4,Reserved RES0." bitfld.long 0x18 2.--3. "NSNID,If EL3 is not implemented and the processor is Secure holds the same value as DBGAUTHSTATUS_EL1.SNID.Otherwise holds the same value as DBGAUTHSTATUS_EL1.NSNID." "0,1,2,3" bitfld.long 0x18 0.--1. "NSID,If EL3 is not implemented and the processor is Secure holds the same value as DBGAUTHSTATUS_EL1.SID.Otherwise holds the same value as DBGAUTHSTATUS_EL1.NSID." "0,1,2,3" line.long 0x1C "APBADDR_CTI_CPU0_CTIDEVARCH,CTI Device Architecture Register" hexmask.long.word 0x1C 21.--31. 1. "ARCHITECT,Defines the architecture of the component. For CTI this is ARM Limited.Bits [31:28] are the JEP 106 continuation code 0x4.Bits [27:21] are the JEP 106 ID code 0x3B." bitfld.long 0x1C 20. "PRESENT,When set to 1 indicates that the DEVARCH is present.This field is 1 in v8-A." "0,1" hexmask.long.byte 0x1C 16.--19. 1. "REVISION,Defines the architecture revision. For architectures defined by ARM this is the minor revision.For CTI the revision defined by v8-A is 0x0.All other values are reserved." newline hexmask.long.word 0x1C 0.--15. 1. "ARCHID,Defines this part to be a v8-A debug component. For architectures defined by ARM this is further subdivided.For CTI:Bits [15:12] are the architecture version 0x1.Bits [11:0] are the architecture part number 0xA14.This corresponds to CTI.." line.long 0x20 "APBADDR_CTI_CPU0_CTIDEVID2,CTI Device ID Register 2" hexmask.long 0x20 0.--31. 1. "RES0_CTIDEVID2_31_0,Reserved RES0." line.long 0x24 "APBADDR_CTI_CPU0_CTIDEVID1,CTI Device ID Register 1" hexmask.long 0x24 0.--31. 1. "RES0_CTIDEVID1_31_0,Reserved RES0." line.long 0x28 "APBADDR_CTI_CPU0_CTIDEVID,CTI Device ID Register 0" hexmask.long.byte 0x28 26.--31. 1. "RES0_CTIDEVID_31_26,Reserved RES0." bitfld.long 0x28 24.--25. "INOUT,Input/output options. Indicates presence of the input gate. If the CTM is not implemented this field is RAZ. 00 CTIGATE does not mask propagation of input events from external channels. 01.." "0,1,2,3" bitfld.long 0x28 22.--23. "RES0_CTIDEVID_23_22,Reserved RES0." "0,1,2,3" newline hexmask.long.byte 0x28 16.--21. 1. "NUMCHAN,Number of ECT channels implemented. IMPLEMENTATION DEFINED. For v8-A valid values are: 000011 3 channels [0..2] implemented. 000100 4 channels [0..3] implemented." bitfld.long 0x28 14.--15. "RES0_CTIDEVID_15_14,Reserved RES0." "0,1,2,3" hexmask.long.byte 0x28 8.--13. 1. "NUMTRIG,Number of triggers implemented. IMPLEMENTATION DEFINED. This is one more than the index of the largest trigger rather than the actual number of triggers.For v8-A valid values are: 000011 Up to 3 triggers [0..2] implemented." newline bitfld.long 0x28 5.--7. "RES0_CTIDEVID_7_5,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x28 0.--4. 1. "EXTMUXNUM,Maximum number of external triggers available for multiplexing into the CTI. This relates only to additional external triggers outside those defined for v8-A." line.long 0x2C "APBADDR_CTI_CPU0_CTIDEVTYPE,CTI Device Type Register" hexmask.long.tbyte 0x2C 8.--31. 1. "RES0_CTIDEVTYPE_31_8,Reserved RES0." hexmask.long.byte 0x2C 4.--7. 1. "SUB,Subtype. Must read as 0x1 to indicate this is a processor component." hexmask.long.byte 0x2C 0.--3. 1. "MAJOR,Major type. Must read as 0x4 to indicate this is a cross-trigger component." line.long 0x30 "APBADDR_CTI_CPU0_CTIPIDR4,CTI Peripheral Identification Register 4" hexmask.long.tbyte 0x30 8.--31. 1. "RES0_CTIPIDR4_31_8,Reserved RES0." hexmask.long.byte 0x30 4.--7. 1. "SIZE,Size of the component. RAZ. Log2 of the number of 4KB pages from the start of the component to the end of the component ID registers." hexmask.long.byte 0x30 0.--3. 1. "DES_2,Designer JEP106 continuation code least significant nibble. For ARM Limited this field is 0b0100." line.long 0x34 "APBADDR_CTI_CPU0_CTIPIDR5,CTI Peripheral Identification Register 5" hexmask.long 0x34 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x38 "APBADDR_CTI_CPU0_CTIPIDR6,CTI Peripheral Identification Register 6" hexmask.long 0x38 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x3C "APBADDR_CTI_CPU0_CTIPIDR7,CTI Peripheral Identification Register 7" hexmask.long 0x3C 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x40 "APBADDR_CTI_CPU0_CTIPIDR0,CTI Peripheral Identification Register 0" hexmask.long.tbyte 0x40 8.--31. 1. "RES0_CTIPIDR0_31_8,Reserved RES0." hexmask.long.byte 0x40 0.--7. 1. "PART_0,Part number least significant byte." line.long 0x44 "APBADDR_CTI_CPU0_CTIPIDR1,CTI Peripheral Identification Register 1" hexmask.long.tbyte 0x44 8.--31. 1. "RES0_CTIPIDR1_31_8,Reserved RES0." hexmask.long.byte 0x44 4.--7. 1. "DES_0,Designer least significant nibble of JEP106 ID code. For ARM Limited this field is 0b1011." hexmask.long.byte 0x44 0.--3. 1. "PART_1,Part number most significant nibble." line.long 0x48 "APBADDR_CTI_CPU0_CTIPIDR2,CTI Peripheral Identification Register 2" hexmask.long.tbyte 0x48 8.--31. 1. "RES0_CTIPIDR2_31_8,Reserved RES0." hexmask.long.byte 0x48 4.--7. 1. "REVISION,Part major revision. Parts can also use this field to extend Part number to 16-bits." bitfld.long 0x48 3. "JEDEC,RAO. Indicates a JEP106 identity code is used." "0,1" newline bitfld.long 0x48 0.--2. "DES_1,Designer most significant bits of JEP106 ID code. For ARM Limited this field is 0b011." "0,1,2,3,4,5,6,7" line.long 0x4C "APBADDR_CTI_CPU0_CTIPIDR3,CTI Peripheral Identification Register 3" hexmask.long.tbyte 0x4C 8.--31. 1. "RES0_CTIPIDR3_31_8,Reserved RES0." hexmask.long.byte 0x4C 4.--7. 1. "REVAND,Part minor revision. Parts using CTIPIDR2.REVISION as an extension to the Part number must use this field as a major revision number." hexmask.long.byte 0x4C 0.--3. 1. "CMOD,Customer modified. Indicates someone other than the Designer has modified the component." line.long 0x50 "APBADDR_CTI_CPU0_CTICIDR0,CTI Component Identification Register 0" hexmask.long.tbyte 0x50 8.--31. 1. "RES0_CTICIDR0_31_8,Reserved RES0." hexmask.long.byte 0x50 0.--7. 1. "PRMBL_0,Preamble. Must read as 0x0D." line.long 0x54 "APBADDR_CTI_CPU0_CTICIDR1,CTI Component Identification Register 1" hexmask.long.tbyte 0x54 8.--31. 1. "RES0_CTICIDR1_31_8,Reserved RES0." hexmask.long.byte 0x54 4.--7. 1. "CLASS,Component class. Reads as 0x9 debug component." hexmask.long.byte 0x54 0.--3. 1. "PRMBL_1,Preamble. RAZ." line.long 0x58 "APBADDR_CTI_CPU0_CTICIDR2,CTI Component Identification Register 2" hexmask.long.tbyte 0x58 8.--31. 1. "RES0_CTICIDR2_31_8,Reserved RES0." hexmask.long.byte 0x58 0.--7. 1. "PRMBL_2,Preamble. Must read as 0x05." line.long 0x5C "APBADDR_CTI_CPU0_CTICIDR3,CTI Component Identification Register 3" hexmask.long.tbyte 0x5C 8.--31. 1. "RES0_CTICIDR3_31_8,Reserved RES0." hexmask.long.byte 0x5C 0.--7. 1. "PRMBL_3,Preamble. Must read as 0xB1." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "A53SS0_CORE0_PMU (A53SS0_CORE0_PMU)" base ad:0x730030000 group.long 0x0++0x3 line.long 0x0 "APBADDR_PMU_CPU0_PMEVCNTR0_EL0,Performance Monitors Event Count Register 0" hexmask.long 0x0 0.--31. 1. "PMEVCNTR0_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x8++0x3 line.long 0x0 "APBADDR_PMU_CPU0_PMEVCNTR1_EL0,Performance Monitors Event Count Register 1" hexmask.long 0x0 0.--31. 1. "PMEVCNTR1_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x10++0x3 line.long 0x0 "APBADDR_PMU_CPU0_PMEVCNTR2_EL0,Performance Monitors Event Count Register 2" hexmask.long 0x0 0.--31. 1. "PMEVCNTR2_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x18++0x3 line.long 0x0 "APBADDR_PMU_CPU0_PMEVCNTR3_EL0,Performance Monitors Event Count Register 3" hexmask.long 0x0 0.--31. 1. "PMEVCNTR3_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x20++0x3 line.long 0x0 "APBADDR_PMU_CPU0_PMEVCNTR4_EL0,Performance Monitors Event Count Register 4" hexmask.long 0x0 0.--31. 1. "PMEVCNTR4_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x28++0x3 line.long 0x0 "APBADDR_PMU_CPU0_PMEVCNTR5_EL0,Performance Monitors Event Count Register 5" hexmask.long 0x0 0.--31. 1. "PMEVCNTR5_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0xF8++0x7 line.long 0x0 "APBADDR_PMU_CPU0_PMCCNTR_EL0_31_0,Performance Monitors Cycle Counter (low word)" hexmask.long 0x0 0.--31. 1. "CCNT,Cycle count. Depending on the values of PMCR_EL0.{LC D} the cycle count increments in one of the following ways:Every processor clock cycle.Every 64th processor clock cycle.The cycle count can be reset to zero by writing 1 to PMCR_EL0.C." line.long 0x4 "APBADDR_PMU_CPU0_PMCCNTR_EL0_63_32,Performance Monitors Cycle Counter (high word)" hexmask.long 0x4 0.--31. 1. "CCNT,Cycle count. Depending on the values of PMCR_EL0.{LC D} the cycle count increments in one of the following ways:Every processor clock cycle.Every 64th processor clock cycle.The cycle count can be reset to zero by writing 1 to PMCR_EL0.C." group.long 0x400++0x17 line.long 0x0 "APBADDR_PMU_CPU0_PMEVTYPER0_EL0,Performance Monitors Event Type Register 0" bitfld.long 0x0 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x0 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x0 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x0 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x0 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x0 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x0 10.--25. 1. "RES0_PMEVTYPER0_EL0_25_10,Reserved RES0." hexmask.long.word 0x0 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0x4 "APBADDR_PMU_CPU0_PMEVTYPER1_EL0,Performance Monitors Event Type Register 1" bitfld.long 0x4 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x4 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x4 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x4 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x4 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x4 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x4 10.--25. 1. "RES0_PMEVTYPER1_EL0_25_10,Reserved RES0." hexmask.long.word 0x4 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0x8 "APBADDR_PMU_CPU0_PMEVTYPER2_EL0,Performance Monitors Event Type Register 2" bitfld.long 0x8 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x8 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x8 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x8 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x8 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x8 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x8 10.--25. 1. "RES0_PMEVTYPER2_EL0_25_10,Reserved RES0." hexmask.long.word 0x8 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0xC "APBADDR_PMU_CPU0_PMEVTYPER3_EL0,Performance Monitors Event Type Register 3" bitfld.long 0xC 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0xC 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0xC 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0xC 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0xC 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0xC 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0xC 10.--25. 1. "RES0_PMEVTYPER3_EL0_25_10,Reserved RES0." hexmask.long.word 0xC 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0x10 "APBADDR_PMU_CPU0_PMEVTYPER4_EL0,Performance Monitors Event Type Register 4" bitfld.long 0x10 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x10 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x10 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x10 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x10 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x10 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x10 10.--25. 1. "RES0_PMEVTYPER4_EL0_25_10,Reserved RES0." hexmask.long.word 0x10 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0x14 "APBADDR_PMU_CPU0_PMEVTYPER5_EL0,Performance Monitors Event Type Register 5" bitfld.long 0x14 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x14 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x14 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x14 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x14 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x14 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x14 10.--25. 1. "RES0_PMEVTYPER5_EL0_25_10,Reserved RES0." hexmask.long.word 0x14 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." group.long 0x47C++0x3 line.long 0x0 "APBADDR_PMU_CPU0_PMCCFILTR_EL0,Performance Monitors Cycle Counter Filter Register" bitfld.long 0x0 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count cycles in EL1. 1.." "0,1" bitfld.long 0x0 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count cycles in EL0. 1.." "0,1" newline bitfld.long 0x0 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P cycles in Non-secure EL1 are counted.Otherwise cycles in Non-secure EL1 are.." "0,1" bitfld.long 0x0 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U cycles in Non-secure EL0 are counted.Otherwise cycles in Non-secure EL0 are.." "0,1" newline bitfld.long 0x0 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count cycles in EL2. 1 Count cycles in EL2." "0,1" bitfld.long 0x0 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P cycles in Secure EL3 are counted.Otherwise cycles in Secure EL3.." "0,1" newline hexmask.long 0x0 0.--25. 1. "RES0_PMCCFILTR_EL0_25_0,Reserved RES0." group.long 0xC00++0x3 line.long 0x0 "APBADDR_PMU_CPU0_PMCNTENSET_EL0,Performance Monitors Count Enable Set Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 enable bit. Enables the cycle counter register. Possible values are: 0 When read means the cycle counter is disabled. When written has no effect. 1 When read means the cycle.." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter enable bit for PMEVCNTR<x>.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values of each bit are: 0 When read means that PMEVCNTR<x> is disabled. When written has no effect." group.long 0xC20++0x3 line.long 0x0 "APBADDR_PMU_CPU0_PMCNTENCLR_EL0,Performance Monitors Count Enable Clear Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 disable bit. Disables the cycle counter register. Possible values are: 0 When read means the cycle counter is disabled. When written has no effect. 1 When read means the cycle.." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter disable bit for PMEVCNTR<x>.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values of each bit are: 0 When read means that PMEVCNTR<x> is disabled. When written has no effect." group.long 0xC40++0x3 line.long 0x0 "APBADDR_PMU_CPU0_PMINTENSET_EL1,Performance Monitors Interrupt Enable Set Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 overflow interrupt request enable bit. Possible values are: 0 When read means the cycle counter overflow interrupt request is disabled. When written has no effect. 1 When read .." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter overflow interrupt request enable bit for PMEVCNTR<x>_EL0.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values are: 0 When read means that the PMEVCNTR<x>_EL0 event counter interrupt request.." group.long 0xC60++0x3 line.long 0x0 "APBADDR_PMU_CPU0_PMINTENCLR_EL1,Performance Monitors Interrupt Enable Clear Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 overflow interrupt request disable bit. Possible values are: 0 When read means the cycle counter overflow interrupt request is disabled. When written has no effect. 1 When read .." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter overflow interrupt request disable bit for PMEVCNTR<x>_EL0.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values are: 0 When read means that the PMEVCNTR<x>_EL0 event counter interrupt request.." group.long 0xC80++0x3 line.long 0x0 "APBADDR_PMU_CPU0_PMOVSCLR_EL0,Performance Monitors Overflow Flag Status Clear Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 overflow bit. Possible values are: 0 When read means the cycle counter has not overflowed. When written has no effect. 1 When read means the cycle counter has overflowed. When.." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter overflow clear bit for PMEVCNTR<x>.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values of each bit are: 0 When read means that PMEVCNTR<x> has not overflowed. When written has no effect." group.long 0xCA0++0x3 line.long 0x0 "APBADDR_PMU_CPU0_PMSWINC_EL0,Performance Monitors Software Increment Register" hexmask.long 0x0 6.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--5. 1. "P_X,Event counter software increment bit for PMEVCNTR<x>" group.long 0xCC0++0x3 line.long 0x0 "APBADDR_PMU_CPU0_PMOVSSET_EL0,Performance Monitors Overflow Flag Status Set Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 overflow bit. Possible values are: 0 When read means the cycle counter has not overflowed. When written has no effect. 1 When read means the cycle counter has overflowed. When.." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter overflow set bit for PMEVCNTR<x>.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values are: 0 When read means that PMEVCNTR<x> has not overflowed. When written has no effect." group.long 0xE00++0x7 line.long 0x0 "APBADDR_PMU_CPU0_PMCFGR,Performance Monitors Configuration Register" hexmask.long.word 0x0 20.--31. 1. "RES0_PMCFGR_31_20,Reserved RES0." bitfld.long 0x0 19. "UEN,User-mode Enable Register supported. PMUSERENR_EL0 is not visible in the external debug interface so this bit is RES0." "0,1" newline bitfld.long 0x0 18. "WT,This feature is not supported so this bit is RES0." "0,1" bitfld.long 0x0 17. "NA,This feature is not supported so this bit is RES0." "0,1" newline bitfld.long 0x0 16. "EX,Export supported. Value is IMPLEMENTATION DEFINED. 0 PMCR_EL0.X is RES0. 1 PMCR_EL0.X is read/write." "0,1" bitfld.long 0x0 15. "CCD,Cycle counter has prescale. This is RES1 if AArch32 is supported at any EL and RES0 otherwise. 0 PMCR_EL0.D is RES0. 1 PMCR_EL0.D is read/write." "0,1" newline bitfld.long 0x0 14. "CC,Dedicated cycle counter [counter 31] supported. This bit is RES1." "0,1" hexmask.long.byte 0x0 8.--13. 1. "SIZE,Size of counters. This field determines the spacing of counters in the memory-map.In v8-A the counters are at doubleword-aligned addresses and the largest counter is 64-bits so this field is 0b111111." newline hexmask.long.byte 0x0 0.--7. 1. "N,Number of counters implemented in addition to the cycle counter PMCCNTR_EL0. The maximum number of event counters is 31 so bits[7:5] are always RES0. 00000000 Only PMCCNTR_EL0 implemented. 00000001.." line.long 0x4 "APBADDR_PMU_CPU0_PMCR_EL0,Performance Monitors Control Register" hexmask.long.tbyte 0x4 11.--31. 1. "RES0_PMCR_EL0_31_11,Reserved RAZ/WI." hexmask.long.byte 0x4 7.--10. 1. "RES0_PMCR_EL0_10_7,Reserved RES0." newline bitfld.long 0x4 6. "LC,Long cycle counter enable. Determines which PMCCNTR_EL0 bit generates an overflow recorded by PMOVSR[31]. 0 Cycle counter overflow on increment that changes PMCCNTR_EL0[31] from 1 to 0. 1 Cycle.." "0,1" bitfld.long 0x4 5. "DP,Disable cycle counter when event counting is prohibited. The possible values of this bit are: 0 PMCCNTR_EL0 if enabled counts when event counting is prohibited. 1 PMCCNTR_EL0 does not count.." "0,1" newline bitfld.long 0x4 4. "X,Enable export of events in an IMPLEMENTATION DEFINED event stream. The possible values of this bit are: 0 Do not export events. 1 Export events where not prohibited. This bit is.." "0,1" bitfld.long 0x4 3. "D,Clock divider. The possible values of this bit are: 0 When enabled PMCCNTR_EL0 counts every clock cycle. 1 When enabled PMCCNTR_EL0 counts once every 64 clock cycles. This bit.." "0,1" newline bitfld.long 0x4 2. "C,Cycle counter reset. This bit is WO. The effects of writing to this bit are: 0 No action. 1 Reset PMCCNTR_EL0 to zero. This bit is always RAZ.Resetting PMCCNTR_EL0 does not.." "0,1" bitfld.long 0x4 1. "P,Event counter reset. This bit is WO. The effects of writing to this bit are: 0 No action. 1 Reset all event counters not including PMCCNTR_EL0 to zero. This bit is always.." "0,1" newline bitfld.long 0x4 0. "E,Enable. The possible values of this bit are: 0 All counters including PMCCNTR_EL0 are disabled. 1 All counters are enabled by PMCNTENSET_EL0. This bit is RW." "0,1" group.long 0xE20++0x7 line.long 0x0 "APBADDR_PMU_CPU0_PMCEID0_EL0,Performance Monitors Common Event Identification Register 0" hexmask.long 0x0 0.--31. 1. "CE_31_0,Common architectural and microarchitectural feature events that can be counted by the PMU event counters.For each bit described in the following table the event is implemented if the bit is set to 1 or not implemented if the bit is set to.." line.long 0x4 "APBADDR_PMU_CPU0_PMCEID1_EL0,Performance Monitors Common Event Identification Register 1" hexmask.long 0x4 1.--31. 1. "RES0_PMCEID1_EL0_31_1,Reserved RES0." bitfld.long 0x4 0. "CE_32,Common architectural and microarchitectural feature events that can be counted by the PMU event counters.For the bit described in the following table the event is implemented if the bit is set to 1 or not implemented if the bit is set to.." "0,1" group.long 0xF00++0x3 line.long 0x0 "APBADDR_PMU_CPU0_PMITCTRL,Performance Monitors Integration mode Control Register" hexmask.long 0x0 1.--31. 1. "RES0_PMITCTRL_31_1,Reserved RES0." bitfld.long 0x0 0. "IME,Integration mode enable. When IME == 1 the device reverts to an integration mode to enable integration testing or topology detection. The integration mode behavior is IMPLEMENTATION DEFINED. 0 Normal operation." "0,1" group.long 0xFA8++0x17 line.long 0x0 "APBADDR_PMU_CPU0_PMDEVAFF0,Performance Monitors Device Affinity Register 0" hexmask.long 0x0 0.--31. 1. "PMDEVAFF0,MPIDR_EL1 low half. Read-only copy of the low half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x4 "APBADDR_PMU_CPU0_PMDEVAFF1,Performance Monitors Device Affinity Register 1" hexmask.long 0x4 0.--31. 1. "PMDEVAFF1,MPIDR_EL1 high half. Read-only copy of the high half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x8 "APBADDR_PMU_CPU0_PMLAR,Performance Monitors Lock Access Register" hexmask.long 0x8 0.--31. 1. "KEY,Lock Access control. Writing the key value 0xC5ACCE55 to this field unlocks the lock enabling write accesses to this component's registers through a memory-mapped interface.Writing any other value to this register locks the lock disabling write.." line.long 0xC "APBADDR_PMU_CPU0_PMLSR,Performance Monitors Lock Status Register" hexmask.long 0xC 3.--31. 1. "RES0_PMLSR_31_3,Reserved RES0." bitfld.long 0xC 2. "NTT,Not thirty-two bit access required. RAZ." "0,1" newline bitfld.long 0xC 1. "SLK,Software lock status for this component. For an access to LSR that is not a memory-mapped access or when the software lock is not implemented this field is RES0.For memory-mapped accesses when the software lock is implemented possible values of.." "0,1" bitfld.long 0xC 0. "SLI,Software lock implemented. For an access to LSR that is not a memory-mapped access this field is RAZ. For memory-mapped accesses the value of this field is IMPLEMENTATION DEFINED. Permitted values are: 0 Software lock not.." "0,1" line.long 0x10 "APBADDR_PMU_CPU0_PMAUTHSTATUS,Performance Monitors Authentication Status Register" hexmask.long.tbyte 0x10 8.--31. 1. "RES0_PMAUTHSTATUS_31_8,Reserved RES0." bitfld.long 0x10 6.--7. "SNID,Holds the same value as DBGAUTHSTATUS_EL1.SNID." "0,1,2,3" newline bitfld.long 0x10 4.--5. "RES0_PMAUTHSTATUS_5_4,Reserved RES0." "0,1,2,3" bitfld.long 0x10 2.--3. "NSNID,Holds the same value as DBGAUTHSTATUS_EL1.NSNID." "0,1,2,3" newline bitfld.long 0x10 0.--1. "RES0_PMAUTHSTATUS_1_0,Reserved RES0." "0,1,2,3" line.long 0x14 "APBADDR_PMU_CPU0_PMDEVARCH,Performance Monitors Device Architecture Register" hexmask.long.word 0x14 21.--31. 1. "ARCHITECT,Defines the architecture of the component. For Performance Monitors this is ARM Limited.Bits [31:28] are the JEP 106 continuation code 0x4.Bits [27:21] are the JEP 106 ID code 0x3B." bitfld.long 0x14 20. "PRESENT,When set to 1 indicates that the DEVARCH is present.This field is 1 in v8-A." "0,1" newline hexmask.long.byte 0x14 16.--19. 1. "REVISION,Defines the architecture revision. For architectures defined by ARM this is the minor revision.For Performance Monitors the revision defined by v8-A is 0x0.All other values are reserved." hexmask.long.word 0x14 0.--15. 1. "ARCHID,Defines this part to be a v8-A debug component. For architectures defined by ARM this is further subdivided.For Performance Monitors:Bits [15:12] are the architecture version 0x2.Bits [11:0] are the architecture part number 0xA16.This.." group.long 0xFCC++0x33 line.long 0x0 "APBADDR_PMU_CPU0_PMDEVTYPE,Performance Monitors Device Type Register" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_PMDEVTYPE_31_8,Reserved RES0." hexmask.long.byte 0x0 4.--7. 1. "SUB,Subtype. Must read as 0x1 to indicate this is a processor component." newline hexmask.long.byte 0x0 0.--3. 1. "MAJOR,Major type. Must read as 0x6 to indicate this is a performance monitor component." line.long 0x4 "APBADDR_PMU_CPU0_PMPIDR4,Performance Monitors Peripheral Identification Register 4" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_PMPIDR4_31_8,Reserved RES0." hexmask.long.byte 0x4 4.--7. 1. "SIZE,Size of the component. RAZ. Log2 of the number of 4KB pages from the start of the component to the end of the component ID registers." newline hexmask.long.byte 0x4 0.--3. 1. "DES_2,Designer JEP106 continuation code least significant nibble. For ARM Limited this field is 0b0100." line.long 0x8 "APBADDR_PMU_CPU0_PMPIDR5,Performance Monitors Peripheral Identification Register 5" hexmask.long 0x8 0.--31. 1. "RESERVED,Reserved RES0" line.long 0xC "APBADDR_PMU_CPU0_PMPIDR6,Performance Monitors Peripheral Identification Register 6" hexmask.long 0xC 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x10 "APBADDR_PMU_CPU0_PMPIDR7,Performance Monitors Peripheral Identification Register 7" hexmask.long 0x10 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x14 "APBADDR_PMU_CPU0_PMPIDR0,Performance Monitors Peripheral Identification Register 0" hexmask.long.tbyte 0x14 8.--31. 1. "RES0_PMPIDR0_31_8,Reserved RES0." hexmask.long.byte 0x14 0.--7. 1. "PART_0,Part number least significant byte." line.long 0x18 "APBADDR_PMU_CPU0_PMPIDR1,Performance Monitors Peripheral Identification Register 1" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_PMPIDR1_31_8,Reserved RES0." hexmask.long.byte 0x18 4.--7. 1. "DES_0,Designer least significant nibble of JEP106 ID code. For ARM Limited this field is 0b1011." newline hexmask.long.byte 0x18 0.--3. 1. "PART_1,Part number most significant nibble." line.long 0x1C "APBADDR_PMU_CPU0_PMPIDR2,Performance Monitors Peripheral Identification Register 2" hexmask.long.tbyte 0x1C 8.--31. 1. "RES0_PMPIDR2_31_8,Reserved RES0." hexmask.long.byte 0x1C 4.--7. 1. "REVISION,Part major revision. Parts can also use this field to extend Part number to 16-bits." newline bitfld.long 0x1C 3. "JEDEC,RAO. Indicates a JEP106 identity code is used." "0,1" bitfld.long 0x1C 0.--2. "DES_1,Designer most significant bits of JEP106 ID code. For ARM Limited this field is 0b011." "0,1,2,3,4,5,6,7" line.long 0x20 "APBADDR_PMU_CPU0_PMPIDR3,Performance Monitors Peripheral Identification Register 3" hexmask.long.tbyte 0x20 8.--31. 1. "RES0_PMPIDR3_31_8,Reserved RES0." hexmask.long.byte 0x20 4.--7. 1. "REVAND,Part minor revision. Parts using PMPIDR2.REVISION as an extension to the Part number must use this field as a major revision number." newline hexmask.long.byte 0x20 0.--3. 1. "CMOD,Customer modified. Indicates someone other than the Designer has modified the component." line.long 0x24 "APBADDR_PMU_CPU0_PMCIDR0,Performance Monitors Component Identification Register 0" hexmask.long.tbyte 0x24 8.--31. 1. "RES0_PMCIDR0_31_8,Reserved RES0." hexmask.long.byte 0x24 0.--7. 1. "PRMBL_0,Preamble. Must read as 0x0D." line.long 0x28 "APBADDR_PMU_CPU0_PMCIDR1,Performance Monitors Component Identification Register 1" hexmask.long.tbyte 0x28 8.--31. 1. "RES0_PMCIDR1_31_8,Reserved RES0." hexmask.long.byte 0x28 4.--7. 1. "CLASS,Component class. Reads as 0x9 debug component." newline hexmask.long.byte 0x28 0.--3. 1. "PRMBL_1,Preamble. RAZ." line.long 0x2C "APBADDR_PMU_CPU0_PMCIDR2,Performance Monitors Component Identification Register 2" hexmask.long.tbyte 0x2C 8.--31. 1. "RES0_PMCIDR2_31_8,Reserved RES0." hexmask.long.byte 0x2C 0.--7. 1. "PRMBL_2,Preamble. Must read as 0x05." line.long 0x30 "APBADDR_PMU_CPU0_PMCIDR3,Performance Monitors Component Identification Register 3" hexmask.long.tbyte 0x30 8.--31. 1. "RES0_PMCIDR3_31_8,Reserved RES0." hexmask.long.byte 0x30 0.--7. 1. "PRMBL_3,Preamble. Must read as 0xB1." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "A53SS0_CORE0_ETM (A53SS0_CORE0_ETM)" base ad:0x730040000 group.long 0x4++0x3 line.long 0x0 "APBADDR_ETM_CPU0_TRCPRGCTLR,Programming Control Register" hexmask.long 0x0 1.--31. 1. "RES0_TRCPRGCTLR_31_1,Reserved RES0." bitfld.long 0x0 0. "EN,Trace unit enable bit. Possible values are: 0 The trace unit is disabled. All trace resources are inactive and no trace is generated. 1 The trace unit is enabled." "0,1" group.long 0xC++0x7 line.long 0x0 "APBADDR_ETM_CPU0_TRCSTATR,Status Register" hexmask.long 0x0 2.--31. 1. "RES0_TRCSTATR_31_2,Reserved RES0." bitfld.long 0x0 1. "PMSTABLE,Programmer's model stable bit: 0 The programmer's model is not stable. 1 The programmer's model is stable. When polled the trace unit trace registers return stable data." "0,1" bitfld.long 0x0 0. "IDLE,Idle status bit: 0 The trace unit is not idle. 1 The trace unit is idle. The trace unit is idle when all of the following are true:TRCPRGCTLR.EN==0 or the OS Lock is.." "0,1" line.long 0x4 "APBADDR_ETM_CPU0_TRCCONFIGR,Trace Configuration Register" hexmask.long.word 0x4 18.--31. 1. "RES0_TRCCONFIGR_31_18,Reserved RES0." bitfld.long 0x4 17. "DV,Data value tracing bit: 0 Data value tracing is disabled. 1 Data value tracing is enabled when INSTP0 is not 0b00. TRCIDR0.TRCDATA indicates whether this bit is supported. If.." "0,1" bitfld.long 0x4 16. "DA,Data address tracing bit: 0 Data address tracing is disabled. 1 Data address tracing is enabled when INSTP0 is not 0b00. TRCIDR0.TRCDATA indicates whether this bit is.." "0,1" newline bitfld.long 0x4 15. "RES0_TRCCONFIGR_15_15,Reserved RES0." "0,1" bitfld.long 0x4 13.--14. "QE,Q element enable field: 00 Q elements are disabled. 01 Q elements with instruction counts are enabled. Q elements without instruction counts are disabled. 11.." "0,1,2,3" bitfld.long 0x4 12. "RS,Return stack enable bit. 0 Return stack is disabled. 1 Return stack is enabled. TRCIDR0.RETSTACK indicates whether this bit is supported. If it is not supported then this bit.." "0,1" newline bitfld.long 0x4 11. "TS,Global timestamp tracing bit: 0 Global timestamp tracing is disabled. 1 Global timestamp tracing is enabled. TRCTSCTLR controls the insertion of timestamps in the trace." "0,1" bitfld.long 0x4 8.--10. "COND,Conditional instruction tracing bit. The permitted values are: 000 Conditional instruction tracing is disabled. 001 Conditional load instructions are traced. 010.." "0,1,2,3,4,5,6,7" bitfld.long 0x4 7. "VMID,VMID tracing bit: 0 VMID tracing is disabled. 1 VMID tracing is enabled. TRCIDR2.VMIDSIZE indicates whether this bit is supported. If it is not supported then this bit is RES0." "0,1" newline bitfld.long 0x4 6. "CID,Context ID tracing bit: 0 Context ID tracing is disabled. 1 Context ID tracing is enabled. TRCIDR2.CIDSIZE indicates whether this bit is supported. If it is not supported then.." "0,1" bitfld.long 0x4 5. "RES0_TRCCONFIGR_5_5,Reserved RES0." "0,1" bitfld.long 0x4 4. "CCI,Cycle counting instruction trace bit: 0 Cycle counting in the instruction trace is disabled. 1 Cycle counting in the instruction trace is enabled. TRCCCCTLR controls the threshold value for.." "0,1" newline bitfld.long 0x4 3. "BB,Branch broadcast mode bit: 0 Branch broadcast mode is disabled. 1 Branch broadcast mode is enabled. TRCBBCTLR controls which regions of memory are enabled to use branch broadcasting." "0,1" bitfld.long 0x4 1.--2. "INSTP0,Instruction P0 bit. This field controls whether load and store instructions are traced as P0 instructions: 00 Do not trace load and store instructions as P0 instructions. 01 Trace load.." "0,1,2,3" bitfld.long 0x4 0. "RES1_TRCCONFIGR_0_0,Reserved RES1." "0,1" group.long 0x18++0x3 line.long 0x0 "APBADDR_ETM_CPU0_TRCAUXCTLR,Auxiliary Control Register" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_TRCAUXCTLR_31_8,Reserved RES0" bitfld.long 0x0 7. "COREIFEN,Keep core interface enabled regardless of trace enable register state" "0,1" bitfld.long 0x0 6. "RES0_TRCAUXCTLR_6_6,Reserved RES0" "0,1" newline bitfld.long 0x0 5. "AUTHNOFLUSH,Do not flush trace on de-assertion of authentication inputs. When this bit is set to 1 the trace unit behavior deviates from architecturally-specified behavior." "0,1" bitfld.long 0x0 4. "TSNODELAY,Do not delay timestamp insertion based on FIFO depth." "0,1" bitfld.long 0x0 3. "SYNCDELAY,Delay periodic synchronization if FIFO is more than half-full." "0,1" newline bitfld.long 0x0 2. "OVFLW,Force an overflow if synchronization is not completed when second synchronization becomes due. When this bit is set to 1 the trace unit behavior deviates from architecturally-specified behavior." "0,1" bitfld.long 0x0 1. "IDLEACK,Force idle-drain acknowledge high CPU does not wait for trace to drain before entering WFX state. When this bit is set to 1 trace unit behavior deviates from architecturally-specified behavior." "0,1" bitfld.long 0x0 0. "AFREADY,Always respond to AFREADY immediately. Does not have any interaction with FIFO draining even in WFI state." "0,1" group.long 0x20++0x7 line.long 0x0 "APBADDR_ETM_CPU0_TRCEVENTCTL0R,Event Control 0 Register" bitfld.long 0x0 31. "TYPE3,Selects the resource type for trace event 3" "0,1" bitfld.long 0x0 28.--30. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 24.--27. 1. "SEL3,Selects the resource number based on the value of TYPE3" newline bitfld.long 0x0 23. "TYPE2,Selects the resource type for trace event 2" "0,1" bitfld.long 0x0 20.--22. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 16.--19. 1. "SEL2,Selects the resource number based on the value of TYPE2" newline bitfld.long 0x0 15. "TYPE1,Selects the resource type for trace event 1" "0,1" bitfld.long 0x0 12.--14. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "SEL1,Selects the resource number based on the value of TYPE1" newline bitfld.long 0x0 7. "TYPE0,Selects the resource type for trace event 0" "0,1" bitfld.long 0x0 4.--6. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 0.--3. 1. "SEL0,Selects the resource number based on the value of TYPE0" line.long 0x4 "APBADDR_ETM_CPU0_TRCEVENTCTL1R,Event Control 1 Register" hexmask.long.tbyte 0x4 13.--31. 1. "RESERVED,Reserved RES0" bitfld.long 0x4 12. "LPOVERRIDE,Low power state behavior override" "0,1" bitfld.long 0x4 11. "ATB,ATB trigger enable" "0,1" newline hexmask.long.byte 0x4 4.--10. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "EN,One bit per event to enable generation of an event element in the instruction trace stream when the selected event occurs" group.long 0x2C++0x17 line.long 0x0 "APBADDR_ETM_CPU0_TRCSTALLCTLR,Stall Control Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED,Reserved RES0" bitfld.long 0x0 8. "ISTALL,Controls if the trace unit can stall the processor when the instruction trace buffer space is less than LEVEL" "0,1" hexmask.long.byte 0x0 4.--7. 1. "RESERVED,Reserved RES0" newline bitfld.long 0x0 2.--3. "LEVEL,The field can support 4 monotonic levels from 0b00 to 0b11" "0,1,2,3" bitfld.long 0x0 0.--1. "RESERVED,Reserved RES0" "0,1,2,3" line.long 0x4 "APBADDR_ETM_CPU0_TRCTSCTLR,Global Timestamp Control Register" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_TRCTSCTLR_31_8,Reserved RES0." hexmask.long.byte 0x4 0.--7. 1. "EVENT,An event selector. When the selected event is triggered the trace unit inserts a global timestamp into the trace streams." line.long 0x8 "APBADDR_ETM_CPU0_TRCSYNCPR,Synchronization Period Register" hexmask.long 0x8 5.--31. 1. "RES0_TRCSYNCPR_31_5,Reserved RES0." hexmask.long.byte 0x8 0.--4. 1. "PERIOD,Controls how many bytes of trace the sum of instruction and data that a trace unit can generate before a periodic trace synchronization request occurs. The number of bytes is always a power of two and the permitted values are: 00000.." line.long 0xC "APBADDR_ETM_CPU0_TRCCCCTLR,Cycle Count Control Register" hexmask.long.tbyte 0xC 12.--31. 1. "RES0_TRCCCCTLR_31_12,Reserved RES0." hexmask.long.word 0xC 0.--11. 1. "THRESHOLD,Sets the threshold value for instruction trace cycle counting.The minimum threshold value that can be programmed into THRESHOLD is given in TRCIDR3.CCITMIN.Writing a value of zero might cause UNPREDICTABLE behaviour." line.long 0x10 "APBADDR_ETM_CPU0_TRCBBCTLR,Branch Broadcast Control Register" hexmask.long.tbyte 0x10 9.--31. 1. "RES0_TRCBBCTLR_31_9,Reserved RES0." bitfld.long 0x10 8. "MODE,Mode bit: 0 Exclude mode. Branch broadcasting is not enabled in the address range that RANGE defines. If RANGE==0 then branch broadcasting is enabled for the entire memory map. 1 Include mode." "0,1" hexmask.long.byte 0x10 0.--7. 1. "RANGE,Address range field. Selects which address range comparator pairs are in use with branch broadcasting. Each bit represents an address range comparator pair so bit[n] controls the selection of address range comparator pair n. If bit[n] is: 0.." line.long 0x14 "APBADDR_ETM_CPU0_TRCTRACEIDR,Trace ID Register" hexmask.long 0x14 7.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x14 0.--6. 1. "TRACEID,Trace ID value. When only instruction tracing is enabled this provides the trace ID." group.long 0x80++0xB line.long 0x0 "APBADDR_ETM_CPU0_TRCVICTLR,ViewInst Main Control Register" hexmask.long.byte 0x0 24.--31. 1. "RES0_TRCVICTLR_31_24,Reserved RES0." hexmask.long.byte 0x0 20.--23. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether instruction tracing is enabled for the corresponding exception level: 0 The trace unit generates instruction trace in Non-secure state for exception level n." hexmask.long.byte 0x0 16.--19. 1. "EXLEVEL_S,In Secure state each bit controls whether instruction tracing is enabled for the corresponding exception level: 0 The trace unit generates instruction trace in Secure state for exception level n. 1.." newline hexmask.long.byte 0x0 12.--15. 1. "RES0_TRCVICTLR_15_12,Reserved RES0." bitfld.long 0x0 11. "TRCERR,If TRCIDR3.TRCERR==1 this bit controls whether a trace unit must trace a system error exception: 0 The trace unit does not trace a system error exception unless it traces the exception or instruction immediately prior to the.." "0,1" bitfld.long 0x0 10. "TRCRESET,Controls whether a trace unit must trace a Reset exception: 0 The trace unit does not trace a Reset exception unless it traces the exception or instruction immediately prior to the Reset exception. 1.." "0,1" newline bitfld.long 0x0 9. "SSSTATUS,IF TRCIDR4.NUMACPAIRS>0 or TRCIDR.NUMPC>0 this bit returns the status of the start-stop logic: 0 The start-stop logic is in the stopped state. 1 The start-stop logic is in the started.." "0,1" bitfld.long 0x0 8. "RES0_TRCVICTLR_8_8,Reserved RES0." "0,1" hexmask.long.byte 0x0 0.--7. 1. "EVENT,An event selector. [TODO: Add the bit assignments for EVENT fields into the descriptions directly?]" line.long 0x4 "APBADDR_ETM_CPU0_TRCVIIECTLR,ViewInst Include-Exclude Control Register" hexmask.long.byte 0x4 24.--31. 1. "RES0_TRCVIIECTLR_31_24,Reserved RES0." hexmask.long.byte 0x4 16.--23. 1. "EXCLUDE,0 1 The implemented width of the field n is IMPLEMENTATION DEFINED and is set by the value of TRCIDR4.NUMACPAIRS. Unimplemented bits are RAZ/WI." hexmask.long.byte 0x4 8.--15. 1. "RES0_TRCVIIECTLR_15_8,Reserved RES0." newline hexmask.long.byte 0x4 0.--7. 1. "INCLUDE,Include range field. Selects which address range comparator pairs are in use with ViewInst include control. Each bit represents an address range comparator pair so bit[m] controls the selection of address range comparator pair m. If bit[m] is:.." line.long 0x8 "APBADDR_ETM_CPU0_TRCVISSCTLR,ViewInst Start-Stop Control Register" hexmask.long.word 0x8 16.--31. 1. "STOP,Selects which single address comparators are in use with ViewInst start-stop control for the purpose of stopping trace. Each bit represents a single address comparator so bit[m] controls the selection of single address comparator m-16. If bit[m].." hexmask.long.word 0x8 0.--15. 1. "START,Selects which single address comparators are in use with ViewInst start-stop control for the purpose of starting trace. Each bit represents a single address comparator so bit[n] controls the selection of single address comparator n. If bit[n] is:.." group.long 0x100++0xB line.long 0x0 "APBADDR_ETM_CPU0_TRCSEQEVR0,Sequencer State Transition Control Registers 0" hexmask.long.word 0x0 16.--31. 1. "RES0_TRCSEQEVR0_31_16,Reserved RES0." hexmask.long.byte 0x0 8.--15. 1. "B_N,Backward field. Contains an event number. When the event occurs then the sequencer state moves from state n+1 to state n.For example for TRCSEQEVR2 if B2==0x14 then when event 0x14 occurs the sequencer moves from state 3 to state 2." hexmask.long.byte 0x0 0.--7. 1. "F_N,Forward field. Contains an event number. When the event occurs then the sequencer state moves from state n to state n+1.For example for TRCSEQEVR1 if F1==0x12 then when event 0x12 occurs the sequencer moves from state 1 to state 2." line.long 0x4 "APBADDR_ETM_CPU0_TRCSEQEVR1,Sequencer State Transition Control Registers 1" hexmask.long.word 0x4 16.--31. 1. "RES0_TRCSEQEVR1_31_16,Reserved RES0." hexmask.long.byte 0x4 8.--15. 1. "B_N,Backward field. Contains an event number. When the event occurs then the sequencer state moves from state n+1 to state n.For example for TRCSEQEVR2 if B2==0x14 then when event 0x14 occurs the sequencer moves from state 3 to state 2." hexmask.long.byte 0x4 0.--7. 1. "F_N,Forward field. Contains an event number. When the event occurs then the sequencer state moves from state n to state n+1.For example for TRCSEQEVR1 if F1==0x12 then when event 0x12 occurs the sequencer moves from state 1 to state 2." line.long 0x8 "APBADDR_ETM_CPU0_TRCSEQEVR2,Sequencer State Transition Control Registers 2" hexmask.long.word 0x8 16.--31. 1. "RES0_TRCSEQEVR2_31_16,Reserved RES0." hexmask.long.byte 0x8 8.--15. 1. "B_N,Backward field. Contains an event number. When the event occurs then the sequencer state moves from state n+1 to state n.For example for TRCSEQEVR2 if B2==0x14 then when event 0x14 occurs the sequencer moves from state 3 to state 2." hexmask.long.byte 0x8 0.--7. 1. "F_N,Forward field. Contains an event number. When the event occurs then the sequencer state moves from state n to state n+1.For example for TRCSEQEVR1 if F1==0x12 then when event 0x12 occurs the sequencer moves from state 1 to state 2." group.long 0x118++0xB line.long 0x0 "APBADDR_ETM_CPU0_TRCSEQRSTEVR,Sequencer Reset Control Register" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_TRCSEQRSTEVR_31_8,Reserved RES0." hexmask.long.byte 0x0 0.--7. 1. "RST,Contains an event number. When the event occurs then the sequencer state moves to state 0." line.long 0x4 "APBADDR_ETM_CPU0_TRCSEQSTR,Sequencer State Register" hexmask.long 0x4 2.--31. 1. "RES0_TRCSEQSTR_31_2,Reserved RES0." bitfld.long 0x4 0.--1. "STATE,Sets or returns the state of the sequencer: 00 State 0. 01 State 1. 10 State 2. 11 State 3." "0,1,2,3" line.long 0x8 "APBADDR_ETM_CPU0_TRCEXTINSELR,External Input Select Register" bitfld.long 0x8 29.--31. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "SEL3,Selects an event from the external input bus for External Input Resource 3." bitfld.long 0x8 21.--23. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x8 16.--20. 1. "SEL2,Selects an event from the external input bus for External Input Resource 2" bitfld.long 0x8 13.--15. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 8.--12. 1. "SEL1,Selects an event from the external input bus for External Input Resource 1" newline bitfld.long 0x8 5.--7. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 0.--4. 1. "SEL0,Selects an event from the external input bus for External Input Resource 0" group.long 0x140++0x7 line.long 0x0 "APBADDR_ETM_CPU0_TRCCNTRLDVR0,Counter Reload Value Registers 0" hexmask.long.word 0x0 16.--31. 1. "RES0_TRCCNTRLDVR0_31_16,Reserved RES0." hexmask.long.word 0x0 0.--15. 1. "VALUE_N,Contains the reload value for counter <n>. When a reload event occurs for counter <n> then the trace unit copies the VALUE<n> field into counter <n>." line.long 0x4 "APBADDR_ETM_CPU0_TRCCNTRLDVR1,Counter Reload Value Registers 1" hexmask.long.word 0x4 16.--31. 1. "RES0_TRCCNTRLDVR1_31_16,Reserved RES0." hexmask.long.word 0x4 0.--15. 1. "VALUE_N,Contains the reload value for counter <n>. When a reload event occurs for counter <n> then the trace unit copies the VALUE<n> field into counter <n>." group.long 0x150++0x7 line.long 0x0 "APBADDR_ETM_CPU0_TRCCNTCTLR0,Counter Control Register 0" hexmask.long.word 0x0 18.--31. 1. "RES0_TRCCNTCTLR0_31_18,Reserved RES0." bitfld.long 0x0 17. "CNTCHAIN_N,For TRCCNTCTLR3 and TRCCNTCTLR1 controls whether counter <n> decrements when a reload event occurs for counter <n-1>: 0 1 For TRCCNTCTLR2 and TRCCNTCTLR0 .." "0,1" bitfld.long 0x0 16. "RLDSELF_N,Controls whether a reload event occurs for counter <n> when counter <n> reaches zero: 0 The trace unit does not generate a reload event. 1 The trace unit generates a reload event.." "0,1" newline hexmask.long.byte 0x0 8.--15. 1. "RLDEVENT_N,Selects an event that when it occurs causes a reload event for counter <n>." hexmask.long.byte 0x0 0.--7. 1. "CNTEVENT_N,Selects an event that when it occurs causes counter <n> to decrement." line.long 0x4 "APBADDR_ETM_CPU0_TRCCNTCTLR1,Counter Control Register 1" hexmask.long.word 0x4 18.--31. 1. "RES0_TRCCNTCTLR1_31_18,Reserved RES0." bitfld.long 0x4 17. "CNTCHAIN_N,For TRCCNTCTLR3 and TRCCNTCTLR1 controls whether counter <n> decrements when a reload event occurs for counter <n-1>: 0 1 For TRCCNTCTLR2 and TRCCNTCTLR0 .." "0,1" bitfld.long 0x4 16. "RLDSELF_N,Controls whether a reload event occurs for counter <n> when counter <n> reaches zero: 0 The trace unit does not generate a reload event. 1 The trace unit generates a reload event.." "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "RLDEVENT_N,Selects an event that when it occurs causes a reload event for counter <n>." hexmask.long.byte 0x4 0.--7. 1. "CNTEVENT_N,Selects an event that when it occurs causes counter <n> to decrement." group.long 0x160++0x7 line.long 0x0 "APBADDR_ETM_CPU0_TRCCNTVR0,Counter Value Registers 0" hexmask.long.word 0x0 16.--31. 1. "RES0_TRCCNTVR0_31_16,Reserved RES0." hexmask.long.word 0x0 0.--15. 1. "VALUE_N,Contains the count value of counter <n>." line.long 0x4 "APBADDR_ETM_CPU0_TRCCNTVR1,Counter Value Registers 1" hexmask.long.word 0x4 16.--31. 1. "RES0_TRCCNTVR1_31_16,Reserved RES0." hexmask.long.word 0x4 0.--15. 1. "VALUE_N,Contains the count value of counter <n>." group.long 0x180++0x17 line.long 0x0 "APBADDR_ETM_CPU0_TRCIDR8,ID Register 8" hexmask.long 0x0 0.--31. 1. "MAXSPEC,Indicates the maximum speculation depth of the instruction trace stream. This is the maximum number of P0 elements in the trace stream that can be speculative at any time." line.long 0x4 "APBADDR_ETM_CPU0_TRCIDR9,ID Register 9" hexmask.long 0x4 0.--31. 1. "NUMP0KEY,Indicates the number of P0 right-hand keys that the trace unit can use. A value of 0 or 1 indicates one P0 key." line.long 0x8 "APBADDR_ETM_CPU0_TRCIDR10,ID Register 10" hexmask.long 0x8 0.--31. 1. "NUMP1KEY,Indicates the number of P1 right-hand keys that the trace unit can use. The number includes normal and special keys." line.long 0xC "APBADDR_ETM_CPU0_TRCIDR11,ID Register 11" hexmask.long 0xC 0.--31. 1. "NUMP1SPC,Indicates the number of special P1 right-hand keys that the trace unit can use." line.long 0x10 "APBADDR_ETM_CPU0_TRCIDR12,ID Register 12" hexmask.long 0x10 0.--31. 1. "NUMCONDKEY,Indicates the number of conditional instruction right-hand keys that the trace unit can use. The number includes normal and special keys." line.long 0x14 "APBADDR_ETM_CPU0_TRCIDR13,ID Register 13" hexmask.long 0x14 0.--31. 1. "NUMCONDSPC,Indicates the number of special conditional instruction right-hand keys that the trace unit can use." group.long 0x1C0++0x3 line.long 0x0 "APBADDR_ETM_CPU0_TRCIMSPEC0,Implementation Specific Register 0" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_TRCIMSPEC0_31_8,Reserved RES0." hexmask.long.byte 0x0 4.--7. 1. "EN,If SUPPORT is not 0b0000 controls whether the IMPLEMENTATION DEFINED features are enabled. The permitted values are: 0000 The IMPLEMENTATION DEFINED features are not enabled. The trace unit must behave as if the IMPLEMENTATION.." hexmask.long.byte 0x0 0.--3. 1. "SUPPORT,Indicates whether the implementation supports IMPLEMENTATION DEFINED features. The permitted values are: 0000 No IMPLEMENTATION DEFINED features are supported. The EN field is RES0. and any other value which.." group.long 0x1E0++0x17 line.long 0x0 "APBADDR_ETM_CPU0_TRCIDR0,ID Register 0" bitfld.long 0x0 30.--31. "RES0_TRCIDR0_31_30,Reserved RES0." "0,1,2,3" bitfld.long 0x0 29. "COMMOPT,Conditional instruction tracing support bit. Indicates if the trace unit supports conditional instruction tracing: 0 Conditional instruction tracing is not supported. 1 Conditional.." "0,1" hexmask.long.byte 0x0 24.--28. 1. "TSSIZE,Global timestamp size field. The permitted values are: 00000 Global timestamping is not implemented. 00110 Implementation supports a maximum global timestamp of 48bits." newline hexmask.long.byte 0x0 17.--23. 1. "RES0_TRCIDR0_23_17,Reserved RES0." bitfld.long 0x0 15.--16. "QSUPP,Q element support field. The permitted values are: 00 Q element support is not implemented. TRCCONFIGR.QE is RES0. 01 Q element support is implemented and only supports Q elements with.." "0,1,2,3" bitfld.long 0x0 14. "QFILT,Q element filtering support field. The permitted values are: 0 Q element filtering is not implemented. 1 Q element filtering is implemented. TRCQCTLR is implemented. When.." "0,1" newline bitfld.long 0x0 12.--13. "CONDTYPE,Conditional tracing field. The permitted values are: 00 The trace unit indicates only if a conditional instruction is a pass or fail. 01 The trace unit provides the Current Program Status.." "0,1,2,3" bitfld.long 0x0 10.--11. "NUMEVENT,Number of events field. Indicates how many events the trace unit supports: 00 The trace unit supports 1 event. 01 The trace unit supports 2 events. 10.." "0,1,2,3" bitfld.long 0x0 9. "RETSTACK,Return stack bit. Indicates if the implementation supports a return stack: 0 Return stack is not implemented. 1 Return stack is implemented so TRCCONFIGR.RS is supported." "0,1" newline bitfld.long 0x0 8. "RES0_TRCIDR0_8_8,Reserved RES0." "0,1" bitfld.long 0x0 7. "TRCCCI,Cycle counting instruction bit. Indicates if the trace unit supports cycle counting for instructions: 0 Cycle counting in the instruction trace is not implemented. 1 Cycle counting in the.." "0,1" bitfld.long 0x0 6. "TRCCOND,Conditional instruction tracing support bit. Indicates if the trace unit supports conditional instruction tracing: 0 Conditional instruction tracing is not supported. 1 Conditional.." "0,1" newline bitfld.long 0x0 5. "TRCBB,Branch broadcast tracing support bit. Indicates if the trace unit supports branch broadcast tracing: 0 Branch broadcast tracing is not supported. 1 Branch broadcast tracing is supported so.." "0,1" bitfld.long 0x0 3.--4. "TRCDATA,Conditional tracing field. The permitted values are: 00 Data tracing is not supported. 11 Tracing of data addresses and data values is supported so TRCCONFIGR.DA TRCCONFIGR.DV .." "0,1,2,3" bitfld.long 0x0 1.--2. "INSTP0,P0 tracing support field. The permitted values are: 00 Tracing of load and store instructions as P0 elements is not supported. 11 Tracing of load and store instructions as P0 elements is.." "0,1,2,3" newline bitfld.long 0x0 0. "RES0_TRCIDR0_0_0,Reserved RES0." "0,1" line.long 0x4 "APBADDR_ETM_CPU0_TRCIDR1,ID Register 1" hexmask.long.byte 0x4 24.--31. 1. "DESIGNER,Indicates which company designed the trace unit. The permitted values are: 01000001 ARM Limited. 01000100 Digital Equipment Corporation. 01001101.." hexmask.long.byte 0x4 16.--23. 1. "RES0_TRCIDR1_23_16,Reserved RES0." hexmask.long.byte 0x4 12.--15. 1. "RES1_TRCIDR1_15_12,Reserved RES1." newline hexmask.long.byte 0x4 8.--11. 1. "TRCARCHMAJ,Indicates the major version of the ETM architecture. The permitted value is: 100 ETMv4. All other values are reserved." hexmask.long.byte 0x4 4.--7. 1. "TRCARCHMIN,Indicates the minor version of the ETM architecture. The permitted value is: 0 ETMv4 minor version 0. All other values are reserved." hexmask.long.byte 0x4 0.--3. 1. "REVISION,Returns an IMPLEMENTATION DEFINED value that identifies the revision of the trace registers and the OS Save and Restore registers.ARM recommends:That the initial implementation sets REVISION==0x0 and the field then increments for any subsequent.." line.long 0x8 "APBADDR_ETM_CPU0_TRCIDR2,ID Register 2" bitfld.long 0x8 29.--31. "RES0_TRCIDR2_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 25.--28. 1. "CCSIZE,Indicates the size of the cycle counter in bits minus 12. 0000 The cycle counter is 12 bits in length. 0001 The cycle counter is 13 bits in length. and so on up to 0b1000 .." hexmask.long.byte 0x8 20.--24. 1. "DVSIZE,Indicates the data value size in bytes. The permitted values are: 00000 Data value tracing is not supported. Therefore an implementation must also set TRCIDR0.TRCDATA==0b00. 00100 Maximum.." newline hexmask.long.byte 0x8 15.--19. 1. "DASIZE,Indicates the data address size in bytes. The permitted values are: 00000 Data address tracing is not supported. Therefore an implementation must also set TRCIDR0.TRCDATA==0b00. 00100.." hexmask.long.byte 0x8 10.--14. 1. "VMIDSIZE,Indicates the VMID size. The permitted values are: 00000 VMID tracing is not supported. 00001 Maximum of 8-bit VMID size so TRCCONFIGR.VMID is supported. All other.." hexmask.long.byte 0x8 5.--9. 1. "CIDSIZE,Indicates the Context ID size. The permitted values are: 00000 Context ID tracing is not supported. 00100 Maximum of 32-bit Context ID size so TRCCONFIGR.CID is supported." newline hexmask.long.byte 0x8 0.--4. 1. "IASIZE,Indicates the instruction address size. The permitted values are: 00100 Maximum of 32-bit address size. 01000 Maximum of 64-bit address size. All other values are reserved." line.long 0xC "APBADDR_ETM_CPU0_TRCIDR3,ID Register 3" bitfld.long 0xC 31. "NOOVERFLOW,Indicates if TRCSTALLCTLR.NOOVERFLOW is supported: 0 TRCSTALLCTLR.NOOVERFLOW is not supported or STALLCTL==0. 1 TRCSTALLCTLR.NOOVERFLOW is supported." "0,1" bitfld.long 0xC 28.--30. "NUMPROC,Indicates the number of processors available for tracing. The possible values are: 000 The trace unit can trace one processor. 001 The trace unit can trace two processors." "0,1,2,3,4,5,6,7" bitfld.long 0xC 27. "SYSSTALL,Indicates if the implementation can support stall control: 0 The system does not support stall control of the processor. 1 The system can support stall control of the processor." "0,1" newline bitfld.long 0xC 26. "STALLCTL,Indicates if TRCSTALLCTLR is supported: 0 TRCSTALLCTLR is not supported. 1 TRCSTALLCTLR is supported." "0,1" bitfld.long 0xC 25. "SYNCPR,Indicates if an implementation has a fixed synchronization period: 0 TRCSYNCPR is read-write so software can change the synchronization period. 1 TRCSYNCPR is read-only so the.." "0,1" bitfld.long 0xC 24. "TRCERR,Indicates if TRCVICTLR.TRCERR is supported: 0 TRCVICTLR.TRCERR is not supported 1 TRCVICTLR.TRCERR is supported." "0,1" newline hexmask.long.byte 0xC 20.--23. 1. "EXLEVEL_NS,In Non-secure state each bit indicates whether instruction tracing is supported for the corresponding exception level: 0 In Non-secure state exception level n is not supported so the corresponding bits in.." hexmask.long.byte 0xC 16.--19. 1. "EXLEVEL_S,In Secure state each bit indicates whether instruction tracing is supported for the corresponding exception level: 0 In Secure state exception level n is not supported so the corresponding bits in TRCACATRn.EXLEVEL_S and.." hexmask.long.byte 0xC 12.--15. 1. "RES0_TRCIDR3_15_12,Reserved RES0." newline hexmask.long.word 0xC 0.--11. 1. "CCITMIN,Indicates the minimum value that can be programmed in TRCCCCTLR.THRESHOLD.When cycle counting in the instruction trace is supported that is TRCIDR0.TRCCCI==1 then the minimum value of this field is 0x001 otherwise it is 0x000." line.long 0x10 "APBADDR_ETM_CPU0_TRCIDR4,ID Register 4" hexmask.long.byte 0x10 28.--31. 1. "NUMVMIDC,Indicates the number of VMID comparators that are available for tracing. The permitted values are: 0000 No VMID comparators are available. 0001 The implementation has one VMID comparator." hexmask.long.byte 0x10 24.--27. 1. "NUMCIDC,Indicates the number of Context ID comparators that are available for tracing. The permitted values are: 0000 No Context ID comparators are available. 0001 The implementation has one.." hexmask.long.byte 0x10 20.--23. 1. "NUMSSCC,Indicates the number of single-shot comparator controls that are available for tracing. The permitted values are: 0000 No single-shot comparator controls are available. 0001 The.." newline hexmask.long.byte 0x10 16.--19. 1. "NUMRSPAIR,Indicates the number of resource selection pairs that are available for tracing. The permitted values are: 0000 The implementation has one resource selection pair. 0001 The implementation.." hexmask.long.byte 0x10 12.--15. 1. "NUMPC,Indicates the number of processor comparator inputs that are available for tracing. The permitted values are: 0000 No processor comparator inputs are available. 0001 The implementation has.." bitfld.long 0x10 9.--11. "RES0_TRCIDR4_11_9,Reserved RES0." "0,1,2,3,4,5,6,7" newline bitfld.long 0x10 8. "SUPPDAC,Indicates if the implementation can support data address comparisons: 0 The implementation does not support data address comparisons. 1 The implementation can support data address comparisons" "0,1" hexmask.long.byte 0x10 4.--7. 1. "NUMDVC,Indicates the number of data value comparators that are available for tracing. The permitted values are: 0000 No data value comparators are available. 0001 The implementation has one data.." hexmask.long.byte 0x10 0.--3. 1. "NUMACPAIRS,Indicates the number of address comparator pairs that are available for tracing. The permitted values are: 0000 No address comparator pairs are available. 0001 The implementation has one.." line.long 0x14 "APBADDR_ETM_CPU0_TRCIDR5,ID Register 5" bitfld.long 0x14 31. "REDFUNCNTR,Indicates if the reduced function counter is implemented: 0 The reduced function counter is not supported. 1 Counter 0 is implemented as a reduced function counter." "0,1" bitfld.long 0x14 28.--30. "NUMCNTR,Indicates the number of counters that are available for tracing. The permitted values are: 000 No counters are available. 001 The implementation has one counter." "0,1,2,3,4,5,6,7" bitfld.long 0x14 25.--27. "NUMSEQSTATE,Indicates the number of sequencer states that are implemented. The permitted values are: 000 No sequencer states are implemented. 100 The implementation has four sequencer states." "0,1,2,3,4,5,6,7" newline bitfld.long 0x14 24. "RES0_TRCIDR5_24_24,Reserved RES0." "0,1" bitfld.long 0x14 23. "LPOVERRIDE,Indicates if the implementation can support low-power state override: 0 The implementation does not support low-power state override. 1 The implementation supports low-power state.." "0,1" bitfld.long 0x14 22. "ATBTRIG,Indicates if the implementation can support ATB triggers: 0 The implementation does not support ATB triggers. 1 The implementation supports ATB triggers and the TRCEVENTCTL1R.ATBTRIG field.." "0,1" newline hexmask.long.byte 0x14 16.--21. 1. "TRACEIDSIZE,Indicates the trace ID width. The permitted value is: 111 The implementation supports a 7-bit trace ID. This sets the width of the TRCTRACEIDR.TRACEID field. All other values are reserved.The CoreSight ATB.." hexmask.long.byte 0x14 12.--15. 1. "RES0_TRCIDR5_15_12,Reserved RES0." bitfld.long 0x14 9.--11. "NUMEXTINSEL,Indicates how many external input select resources are implemented. The permitted values are: 000 No external input select resources are available. If NUMEXTINSEL is zero NUMEXTIN must also be zero." "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x14 0.--8. 1. "NUMEXTIN,Indicates how many external inputs are implemented. The permitted values are: 000000000 No external inputs are available. If NUMEXTIN is zero NUMEXTINSEL must also be zero. 000000001 The.." group.long 0x208++0x37 line.long 0x0 "APBADDR_ETM_CPU0_TRCRSCTLR2,Resource Selection Control Registers 2" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCRSCTLR2_31_22,Reserved RES0." bitfld.long 0x0 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x0 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x0 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x4 "APBADDR_ETM_CPU0_TRCRSCTLR3,Resource Selection Control Registers 3" hexmask.long.word 0x4 22.--31. 1. "RES0_TRCRSCTLR3_31_22,Reserved RES0." bitfld.long 0x4 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x4 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x4 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x4 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x8 "APBADDR_ETM_CPU0_TRCRSCTLR4,Resource Selection Control Registers 4" hexmask.long.word 0x8 22.--31. 1. "RES0_TRCRSCTLR4_31_22,Reserved RES0." bitfld.long 0x8 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x8 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x8 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0xC "APBADDR_ETM_CPU0_TRCRSCTLR5,Resource Selection Control Registers 5" hexmask.long.word 0xC 22.--31. 1. "RES0_TRCRSCTLR5_31_22,Reserved RES0." bitfld.long 0xC 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0xC 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0xC 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0xC 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x10 "APBADDR_ETM_CPU0_TRCRSCTLR6,Resource Selection Control Registers 6" hexmask.long.word 0x10 22.--31. 1. "RES0_TRCRSCTLR6_31_22,Reserved RES0." bitfld.long 0x10 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x10 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x10 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x14 "APBADDR_ETM_CPU0_TRCRSCTLR7,Resource Selection Control Registers 7" hexmask.long.word 0x14 22.--31. 1. "RES0_TRCRSCTLR7_31_22,Reserved RES0." bitfld.long 0x14 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x14 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x14 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x14 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x18 "APBADDR_ETM_CPU0_TRCRSCTLR8,Resource Selection Control Registers 8" hexmask.long.word 0x18 22.--31. 1. "RES0_TRCRSCTLR8_31_22,Reserved RES0." bitfld.long 0x18 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x18 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x18 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x18 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x1C "APBADDR_ETM_CPU0_TRCRSCTLR9,Resource Selection Control Registers 9" hexmask.long.word 0x1C 22.--31. 1. "RES0_TRCRSCTLR9_31_22,Reserved RES0." bitfld.long 0x1C 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x1C 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x1C 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x1C 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x20 "APBADDR_ETM_CPU0_TRCRSCTLR10,Resource Selection Control Registers 10" hexmask.long.word 0x20 22.--31. 1. "RES0_TRCRSCTLR10_31_22,Reserved RES0." bitfld.long 0x20 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x20 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x20 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x20 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x24 "APBADDR_ETM_CPU0_TRCRSCTLR11,Resource Selection Control Registers 11" hexmask.long.word 0x24 22.--31. 1. "RES0_TRCRSCTLR11_31_22,Reserved RES0." bitfld.long 0x24 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x24 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x24 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x24 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x28 "APBADDR_ETM_CPU0_TRCRSCTLR12,Resource Selection Control Registers 12" hexmask.long.word 0x28 22.--31. 1. "RES0_TRCRSCTLR12_31_22,Reserved RES0." bitfld.long 0x28 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x28 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x28 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x28 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x2C "APBADDR_ETM_CPU0_TRCRSCTLR13,Resource Selection Control Registers 13" hexmask.long.word 0x2C 22.--31. 1. "RES0_TRCRSCTLR13_31_22,Reserved RES0." bitfld.long 0x2C 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x2C 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x2C 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x2C 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x30 "APBADDR_ETM_CPU0_TRCRSCTLR14,Resource Selection Control Registers 14" hexmask.long.word 0x30 22.--31. 1. "RES0_TRCRSCTLR14_31_22,Reserved RES0." bitfld.long 0x30 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x30 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x30 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x30 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x34 "APBADDR_ETM_CPU0_TRCRSCTLR15,Resource Selection Control Registers 15" hexmask.long.word 0x34 22.--31. 1. "RES0_TRCRSCTLR15_31_22,Reserved RES0." bitfld.long 0x34 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x34 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x34 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x34 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." group.long 0x280++0x3 line.long 0x0 "APBADDR_ETM_CPU0_TRCSSCCR0,Single-Shot Comparator Control Register 0" hexmask.long.byte 0x0 25.--31. 1. "RES0_TRCSSCCR0_31_25,Reserved RES0." bitfld.long 0x0 24. "RST,Controls whether the single-shot comparator resource is reset when it fires. 0 When the single-shot comparator resource fires it is not reset. 1 When the single-shot comparator resource fires .." "0,1" hexmask.long.byte 0x0 16.--23. 1. "ARC,Selects one or more address range comparators for single-shot control.Each bit represents an address range comparator pair so bit[n-16] controls the selection of address range comparator pair n-16. If bit[n-16] is: 0 The address.." newline hexmask.long.word 0x0 0.--15. 1. "SAC,Selects one or more single address comparators for single-shot control.Each bit represents a single address comparator so bit[n] controls the selection of single address comparator n. If bit[n] is: 0 The single address comparator.." group.long 0x2A0++0x3 line.long 0x0 "APBADDR_ETM_CPU0_TRCSSCSR0,Single-Shot Comparator Status Register 0" bitfld.long 0x0 31. "STATUS,Single-shot status bit. Indicates if any of the comparators that TRCSSCCRn.SAC or TRCSSCCRn.ARC selects have matched: 0 No match has occurred. 1 One or more matches has occurred. If.." "0,1" hexmask.long 0x0 3.--30. 1. "RES0_TRCSSCSR0_30_3,Reserved RES0." bitfld.long 0x0 2. "DV,Data value comparator support bit. Indicates if the trace unit supports data address with data value comparisons: 0 Single-shot data address with data value comparisons are not supported. 1.." "0,1" newline bitfld.long 0x0 1. "DA,Data address comparator support bit. Indicates if the trace unit supports data address comparisons: 0 Single-shot data address comparisons are not supported. 1 Single-shot data address.." "0,1" bitfld.long 0x0 0. "INST,Instruction address comparator support bit. Indicates if the trace unit supports instruction address comparisons: 0 Single-shot instruction address comparisons are not supported. 1 Single-shot.." "0,1" group.long 0x300++0x7 line.long 0x0 "APBADDR_ETM_CPU0_TRCOSLAR,OS Lock Access Register" hexmask.long 0x0 1.--31. 1. "RES0_TRCOSLAR_31_1,Reserved RES0." bitfld.long 0x0 0. "LOCK,OS Lock control bit: 0 Unlocks the OS Lock. 1 Locks the OS Lock. This setting disables the trace unit." "0,1" line.long 0x4 "APBADDR_ETM_CPU0_TRCOSLSR,OS Lock Status Register" hexmask.long 0x4 4.--31. 1. "RES0_TRCOSLSR_31_4,Reserved RES0." bitfld.long 0x4 3. "PRESENT,Indicates whether the OS Lock is implemented.This bit is RES1 which indicates that the OS Lock is always implemented." "0,1" bitfld.long 0x4 2. "BIT32,This bit is RES0 which indicates that software must perform a 32-bit write to update the TRCOSLAR." "0,1" newline bitfld.long 0x4 1. "LOCKED,OS Lock status bit: 0 The OS Lock is unlocked. 1 The OS Lock is locked. When the trace unit core power domain is powered down the value is UNKNOWN. The TRCPDSR indicates if.." "0,1" bitfld.long 0x4 0. "RES0_TRCOSLSR_0_0,Reserved RES0." "0,1" group.long 0x310++0x7 line.long 0x0 "APBADDR_ETM_CPU0_TRCPDCR,Power Down Control Register" hexmask.long 0x0 4.--31. 1. "RES0_TRCPDCR_31_4,Reserved RES0." bitfld.long 0x0 3. "PU,Powerup request bit: 0 The system can remove power from the trace unit. The TRCPDSR indicates if the trace unit is powered down. 1 The system must provide power to the trace unit." "0,1" bitfld.long 0x0 0.--2. "RES0_TRCPDCR_2_0,Reserved RES0." "0,1,2,3,4,5,6,7" line.long 0x4 "APBADDR_ETM_CPU0_TRCPDSR,Power Down Status Register" hexmask.long 0x4 6.--31. 1. "RES0_TRCPDSR_31_6,Reserved RES0." bitfld.long 0x4 5. "LOCKED,OS Lock status bit: 0 The OS Lock is unlocked. 1 The OS Lock is locked. The value is UNKNOWN when the trace unit core power domain is powered down that is when POWER==0." "0,1" bitfld.long 0x4 2.--4. "RES0_TRCPDSR_4_2,Reserved RES0." "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 1. "STICKYPD,Sticky powerdown status bit. Indicates whether the trace register state is valid: 0 If POWER==1 then the state of TRCOSLSR and the trace registers are valid. If POWER==0 then it is UNKNOWN whether the state of TRCOSLSR and the.." "0,1" bitfld.long 0x4 0. "POWER,Power status bit: 0 The trace unit core power domain is not powered. The trace registers are not accessible and they all return an error response. 1 The trace unit core power domain is.." "0,1" group.long 0x400++0x3F line.long 0x0 "APBADDR_ETM_CPU0_TRCACVR0_31_0,Address Comparator Value Registers 0 (low word)" hexmask.long 0x0 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x4 "APBADDR_ETM_CPU0_TRCACVR0_63_32,Address Comparator Value Registers 0 (high word)" hexmask.long 0x4 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x8 "APBADDR_ETM_CPU0_TRCACVR1_31_0,Address Comparator Value Registers 1 (low word)" hexmask.long 0x8 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0xC "APBADDR_ETM_CPU0_TRCACVR1_63_32,Address Comparator Value Registers 1 (high word)" hexmask.long 0xC 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x10 "APBADDR_ETM_CPU0_TRCACVR2_31_0,Address Comparator Value Registers 2 (low word)" hexmask.long 0x10 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x14 "APBADDR_ETM_CPU0_TRCACVR2_63_32,Address Comparator Value Registers 2 (high word)" hexmask.long 0x14 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x18 "APBADDR_ETM_CPU0_TRCACVR3_31_0,Address Comparator Value Registers 3 (low word)" hexmask.long 0x18 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x1C "APBADDR_ETM_CPU0_TRCACVR3_63_32,Address Comparator Value Registers 3 (high word)" hexmask.long 0x1C 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x20 "APBADDR_ETM_CPU0_TRCACVR4_31_0,Address Comparator Value Registers 4 (low word)" hexmask.long 0x20 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x24 "APBADDR_ETM_CPU0_TRCACVR4_63_32,Address Comparator Value Registers 4 (high word)" hexmask.long 0x24 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x28 "APBADDR_ETM_CPU0_TRCACVR5_31_0,Address Comparator Value Registers 5 (low word)" hexmask.long 0x28 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x2C "APBADDR_ETM_CPU0_TRCACVR5_63_32,Address Comparator Value Registers 5 (high word)" hexmask.long 0x2C 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x30 "APBADDR_ETM_CPU0_TRCACVR6_31_0,Address Comparator Value Registers 6 (low word)" hexmask.long 0x30 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x34 "APBADDR_ETM_CPU0_TRCACVR6_63_32,Address Comparator Value Registers 6 (high word)" hexmask.long 0x34 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x38 "APBADDR_ETM_CPU0_TRCACVR7_31_0,Address Comparator Value Registers 7 (low word)" hexmask.long 0x38 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x3C "APBADDR_ETM_CPU0_TRCACVR7_63_32,Address Comparator Value Registers 7 (high word)" hexmask.long 0x3C 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." group.long 0x480++0x3 line.long 0x0 "APBADDR_ETM_CPU0_TRCACATR0,Address Comparator Access Type Registers 0" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR0_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR0_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x488++0x3 line.long 0x0 "APBADDR_ETM_CPU0_TRCACATR1,Address Comparator Access Type Registers 1" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR1_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR1_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x490++0x3 line.long 0x0 "APBADDR_ETM_CPU0_TRCACATR2,Address Comparator Access Type Registers 2" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR2_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR2_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x498++0x3 line.long 0x0 "APBADDR_ETM_CPU0_TRCACATR3,Address Comparator Access Type Registers 3" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR3_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR3_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x4A0++0x3 line.long 0x0 "APBADDR_ETM_CPU0_TRCACATR4,Address Comparator Access Type Registers 4" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR4_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR4_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x4A8++0x3 line.long 0x0 "APBADDR_ETM_CPU0_TRCACATR5,Address Comparator Access Type Registers 5" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR5_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR5_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x4B0++0x3 line.long 0x0 "APBADDR_ETM_CPU0_TRCACATR6,Address Comparator Access Type Registers 6" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR6_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR6_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x4B8++0x3 line.long 0x0 "APBADDR_ETM_CPU0_TRCACATR7,Address Comparator Access Type Registers 7" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR7_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR7_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x600++0x3 line.long 0x0 "APBADDR_ETM_CPU0_TRCCIDCVR0,Context ID Comparator Value Register 0" hexmask.long 0x0 0.--31. 1. "VALUE,Context ID value. The implemented width of this field is IMPLEMENTATION DEFINED and is set by TRCIDR2.CIDSIZE. Unimplemented bits are RAZ/WI.After a processor reset the ETM architecture assumes that the Context ID is zero until the processor.." group.long 0x640++0x3 line.long 0x0 "APBADDR_ETM_CPU0_TRCVMIDCVR0,VMID Comparator Value Register 0" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--7. 1. "VALUE,Contains a VMID value." group.long 0x680++0x3 line.long 0x0 "APBADDR_ETM_CPU0_TRCCIDCCTLR0,Context ID Comparator Control Register 0" hexmask.long 0x0 0.--31. 1. "COMP_N,Controls the mask value that the trace unit applies to TRCCIDCVRn. Each bit in this field corresponds to a byte in TRCCIDCVRn. When a bit is: 0 The trace unit includes the relevant byte in TRCCIDCVRn when it performs the Context.." group.long 0xEE4++0x3 line.long 0x0 "APBADDR_ETM_CPU0_TRCITATBIDR,Integration ATB Identification Register" hexmask.long 0x0 7.--31. 1. "RES0_TRCITATBIDR_31_7,Reserved RES0" hexmask.long.byte 0x0 0.--6. 1. "ID,Drives the ATIDMn[6:0] output pins" group.long 0xEEC++0x3 line.long 0x0 "APBADDR_ETM_CPU0_TRCITIDATAR,Integration Instruction ATB Data Register" hexmask.long 0x0 5.--31. 1. "RES0_TRCITIDATAR_31_5,Reserved RES0" bitfld.long 0x0 4. "ATDATAM_31,Drives the ATDATAM[31] output" "0,1" bitfld.long 0x0 3. "ATDATAM_23,Drives the ATDATAM[23] output" "0,1" newline bitfld.long 0x0 2. "ATDATAM_15,Drives the ATDATAM[15] output" "0,1" bitfld.long 0x0 1. "ATDATAM_7,Drives the ATDATAM[7] output" "0,1" bitfld.long 0x0 0. "ATDATAM_0,Drives the ATDATAM[0] output" "0,1" group.long 0xEF4++0x3 line.long 0x0 "APBADDR_ETM_CPU0_TRCITIATBINR,Integration Instruction ATB In Register" hexmask.long 0x0 2.--31. 1. "RESERVED,Reserved. Read undefined." bitfld.long 0x0 1. "AFVALIDM,Returns the value of the AFVALIDMn input pin" "0,1" bitfld.long 0x0 0. "ATREADYM,Returns the value of the ATREADYMn input pin" "0,1" group.long 0xEFC++0x7 line.long 0x0 "APBADDR_ETM_CPU0_TRCITIATBOUTR,Integration Instruction ATB Out Register" hexmask.long.tbyte 0x0 10.--31. 1. "RESERVED,Reserved. Read undefined." bitfld.long 0x0 8.--9. "BYTES,Drives the ATBYTESMn[1:0] output pins" "0,1,2,3" hexmask.long.byte 0x0 2.--7. 1. "RESERVED,Reserved. Read undefined." newline bitfld.long 0x0 1. "AFREADY,Drives the AFREADYMn output pin" "0,1" bitfld.long 0x0 0. "ATVALID,Drives the ATVALIDMn output pin" "0,1" line.long 0x4 "APBADDR_ETM_CPU0_TRCITCTRL,Integration Mode Control Register" hexmask.long 0x4 1.--31. 1. "RES0_TRCITCTRL_31_1,Reserved RES0." bitfld.long 0x4 0. "ITEN,Integration mode enable bit: 0 The trace unit is not in integration mode. 1 The trace unit is in integration mode. This mode enables a debug agent to perform topology detection and.." "0,1" group.long 0xFA0++0x1F line.long 0x0 "APBADDR_ETM_CPU0_TRCCLAIMSET,Claim Tag Set Register" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--3. 1. "SET,Sets bits in the claim tag and determines the number of claim tag bits implemented." line.long 0x4 "APBADDR_ETM_CPU0_TRCCLAIMCLR,Claim Tag Clear Register" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "CLR,Clears bits in the claim tag and determines the current value of the claim tag." line.long 0x8 "APBADDR_ETM_CPU0_TRCDEVAFF0,Device Affinity Register 0" hexmask.long 0x8 0.--31. 1. "MPIDR_EL1_31_0,Read-only copy of the low half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0xC "APBADDR_ETM_CPU0_TRCDEVAFF1,Device Affinity Register 1" hexmask.long 0xC 0.--31. 1. "MPIDR_EL1_63_32,Read-only copy of the high half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x10 "APBADDR_ETM_CPU0_TRCLAR,Software Lock Access Register" hexmask.long 0x10 0.--31. 1. "KEY,Writing the key value 0xC5ACCE55 to this field clears the lock enabling write accesses to this component's registers through a memory-mapped interface.Writing any other value to this register sets the lock disabling write accesses to this.." line.long 0x14 "APBADDR_ETM_CPU0_TRCLSR,Software Lock Status Register" hexmask.long 0x14 3.--31. 1. "RES0_TRCLSR_31_3,Reserved RES0." bitfld.long 0x14 2. "NTT,Not thirty-two bit access required. RAZ." "0,1" bitfld.long 0x14 1. "SLK,Software lock status for this component. Possible values of this field are: 0 Lock clear. Writes are permitted to this component's registers. 1 Lock set. Writes to this component's registers.." "0,1" newline bitfld.long 0x14 0. "SLI,Software lock implemented. RAO." "0,1" line.long 0x18 "APBADDR_ETM_CPU0_TRCAUTHSTATUS,Authentication Status Register" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_TRCAUTHSTATUS_31_8,Reserved RES0." bitfld.long 0x18 6.--7. "SNID,Indicates whether the system enables the trace unit to support Secure non-invasive debug: 00 The trace unit does not implement support for Secure non-invasive debug. 01 Reserved." "0,1,2,3" bitfld.long 0x18 4.--5. "SID,Indicates whether the trace unit supports Secure invasive debug: 00 The trace unit does not support Secure invasive debug. All other values are reserved." "0,1,2,3" newline bitfld.long 0x18 2.--3. "NSNID,Indicates whether the system enables the trace unit to support Non-secure non-invasive debug: 00 The trace unit does not implement support for Non-secure non-invasive debug. 01 Reserved." "0,1,2,3" bitfld.long 0x18 0.--1. "NSID,Indicates whether the trace unit supports Non-secure invasive debug: 00 The trace unit does not support Non-secure invasive debug. All other values are reserved." "0,1,2,3" line.long 0x1C "APBADDR_ETM_CPU0_TRCDEVARCH,Device Architecture Register" hexmask.long.word 0x1C 21.--31. 1. "ARCHITECT,Defines the architecture of the component. For trace this is ARM Limited.Bits [31:28] are the JEP 106 continuation code 0x4.Bits [27:21] are the JEP 106 ID code 0x3B." bitfld.long 0x1C 20. "PRESENT,When set to 1 indicates that the DEVARCH is present.This field is RAO." "0,1" hexmask.long.byte 0x1C 16.--19. 1. "REVISION,Defines the architecture revision. For architectures defined by ARM this is the minor revision.For trace the revision defined by ETMv4 is 0x0.All other values are reserved." newline hexmask.long.word 0x1C 0.--15. 1. "ARCHID,Defines this part to be a v8-A debug component. For architectures defined by ARM this is further subdivided.For trace bits [15:12] are the architecture version 0x4; bits [11:0] are the architecture part number 0xA13.This corresponds to trace.." group.long 0xFC8++0x37 line.long 0x0 "APBADDR_ETM_CPU0_TRCDEVID,Device ID Register" hexmask.long 0x0 0.--31. 1. "DEVID,Indicates the capabilities of the trace unit. The implemented width of this field and its bit assignments are IMPLEMENTATION DEFINED. Unimplemented bits are RAZ/WI.If a component is configurable then ARM recommends that this field can also indicate.." line.long 0x4 "APBADDR_ETM_CPU0_TRCDEVTYPE,Device Type Register" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_TRCDEVTYPE_31_8,Reserved RES0." hexmask.long.byte 0x4 4.--7. 1. "SUB,Returns 0x1 to indicate that the ETM generates processor trace.All other values are reserved." hexmask.long.byte 0x4 0.--3. 1. "MAIN,Returns 0x3 to indicate that the ETM is a trace source.All other values are reserved." line.long 0x8 "APBADDR_ETM_CPU0_TRCPIDR4,Peripheral Identification Register 4" hexmask.long.tbyte 0x8 8.--31. 1. "RES0_TRCPIDR4_31_8,Reserved RES0." hexmask.long.byte 0x8 4.--7. 1. "SIZE,Size of the component. RES0. This indicates that the ETM memory map occupies 4KB." hexmask.long.byte 0x8 0.--3. 1. "DES_2,Designer JEP106 continuation code. For ARM Limited this field is 0b0100." line.long 0xC "APBADDR_ETM_CPU0_TRCPIDR5,Peripheral Identification Register 5" hexmask.long.tbyte 0xC 8.--31. 1. "RES0_TRCPIDR5_31_8,Reserved RES0." hexmask.long.byte 0xC 0.--7. 1. "RESERVED,RES0 reserved for future use." line.long 0x10 "APBADDR_ETM_CPU0_TRCPIDR6,Peripheral Identification Register 6" hexmask.long.tbyte 0x10 8.--31. 1. "RES0_TRCPIDR6_31_8,Reserved RES0." hexmask.long.byte 0x10 0.--7. 1. "RESERVED,RES0 reserved for future use." line.long 0x14 "APBADDR_ETM_CPU0_TRCPIDR7,Peripheral Identification Register 7" hexmask.long.tbyte 0x14 8.--31. 1. "RES0_TRCPIDR7_31_8,Reserved RES0." hexmask.long.byte 0x14 0.--7. 1. "RESERVED,RES0 reserved for future use." line.long 0x18 "APBADDR_ETM_CPU0_TRCPIDR0,Peripheral Identification Register 0" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_TRCPIDR0_31_8,Reserved RES0." hexmask.long.byte 0x18 0.--7. 1. "PART_0,Part number bits[7:0]." line.long 0x1C "APBADDR_ETM_CPU0_TRCPIDR1,Peripheral Identification Register 1" hexmask.long.tbyte 0x1C 8.--31. 1. "RES0_TRCPIDR1_31_8,Reserved RES0." hexmask.long.byte 0x1C 4.--7. 1. "DES_0,Designer bits[3:0] of JEP106 ID code. For ARM Limited this field is 0b1011." hexmask.long.byte 0x1C 0.--3. 1. "PART_1,Part number bits[11:8]." line.long 0x20 "APBADDR_ETM_CPU0_TRCPIDR2,Peripheral Identification Register 2" hexmask.long.tbyte 0x20 8.--31. 1. "RES0_TRCPIDR2_31_8,Reserved RES0." hexmask.long.byte 0x20 4.--7. 1. "REVISION,The IMPLEMENTATION DEFINED revision number for the ETM implementation. See also TRCIDR1.REVISION." bitfld.long 0x20 3. "JEDEC,RAO. Indicates a JEP106 identity code is used." "0,1" newline bitfld.long 0x20 0.--2. "DES_1,Designer most significant bits of JEP106 ID code. For ARM Limited this field is 0b011." "0,1,2,3,4,5,6,7" line.long 0x24 "APBADDR_ETM_CPU0_TRCPIDR3,Peripheral Identification Register 3" hexmask.long.tbyte 0x24 8.--31. 1. "RES0_TRCPIDR3_31_8,Reserved RES0." hexmask.long.byte 0x24 4.--7. 1. "REVAND,The IMPLEMENTATION DEFINED manufacturing revision number for the implementation. After silicon is available if metal fixes are necessary the manufacturer can alter the top metal layer so that this field can indicate any post-fab silicon changes." hexmask.long.byte 0x24 0.--3. 1. "CMOD,Customer modified. Indicates someone other than the Designer has modified the component." line.long 0x28 "APBADDR_ETM_CPU0_TRCCIDR0,Component Identification Register 0" hexmask.long.tbyte 0x28 8.--31. 1. "RES0_TRCCIDR0_31_8,Reserved RES0." hexmask.long.byte 0x28 0.--7. 1. "PRMBL_0,Preamble. Must read as 0x0D." line.long 0x2C "APBADDR_ETM_CPU0_TRCCIDR1,Component Identification Register 1" hexmask.long.tbyte 0x2C 8.--31. 1. "RES0_TRCCIDR1_31_8,Reserved RES0." hexmask.long.byte 0x2C 4.--7. 1. "CLASS,Component class. Reads as 0x9 to indicate that the ETM is a debug component with CoreSight architecture compliant management registers." hexmask.long.byte 0x2C 0.--3. 1. "PRMBL_1,Preamble. Must read as 0x0." line.long 0x30 "APBADDR_ETM_CPU0_TRCCIDR2,Component Identification Register 2" hexmask.long.tbyte 0x30 8.--31. 1. "RES0_TRCCIDR2_31_8,Reserved RES0." hexmask.long.byte 0x30 0.--7. 1. "PRMBL_2,Preamble. Must read as 0x05." line.long 0x34 "APBADDR_ETM_CPU0_TRCCIDR3,Component Identification Register 3" hexmask.long.tbyte 0x34 8.--31. 1. "RES0_TRCCIDR3_31_8,Reserved RES0." hexmask.long.byte 0x34 0.--7. 1. "PRMBL_3,Preamble. Must read as 0xB1." tree.end endif tree.end tree "A53SS0_CORE1" tree "A53SS0_CORE1_ECC_AGGR (A53SS0_CORE1_ECC_AGGR)" base ad:0x718800 rgroup.long 0x0++0x3 line.long 0x0 "ECC_AGGR_CORE1_REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECC_AGGR_CORE1_REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECC_AGGR_CORE1_REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECC_AGGR_CORE1_REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECC_AGGR_CORE1_REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_CORE1_REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 26. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 25. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 24. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 23. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 22. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 21. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 20. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 19. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 18. "CPU1_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 17. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 16. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 15. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 14. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 13. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 12. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 11. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 10. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 9. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 8. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 7. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 6. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 5. "CPU1_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 4. "CPU1_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 3. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 2. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 1. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 0. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECC_AGGR_CORE1_REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 26. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 25. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 24. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 23. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "CPU1_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "CPU1_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "CPU1_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECC_AGGR_CORE1_REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 26. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 25. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 24. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 23. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "CPU1_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "CPU1_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "CPU1_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECC_AGGR_CORE1_REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_CORE1_REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 26. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 25. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 24. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 23. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 22. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 21. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 20. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 19. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 18. "CPU1_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 17. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 16. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 15. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 14. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 13. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 12. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 11. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 10. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 9. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 8. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 7. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 6. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 5. "CPU1_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 4. "CPU1_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 3. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 2. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 1. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 0. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_PEND,Interrupt Pending Status for cpu1_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECC_AGGR_CORE1_REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 26. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 25. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 24. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 23. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "CPU1_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "CPU1_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "CPU1_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu1_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECC_AGGR_CORE1_REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 26. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 25. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 24. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 23. "CPU1_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "CPU1_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "CPU1_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "CPU1_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "CPU1_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "CPU1_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "CPU1_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "CPU1_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu1_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECC_AGGR_CORE1_REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" newline bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECC_AGGR_CORE1_REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" newline bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECC_AGGR_CORE1_REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" newline bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECC_AGGR_CORE1_REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" newline bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "A53SS0_CORE1_DBG (A53SS0_CORE1_DBG)" base ad:0x730110000 group.long 0x20++0x7 line.long 0x0 "APBADDR_DBG_CPU1_EDESR,External Debug Event Status Register" hexmask.long 0x0 3.--31. 1. "RES0_EDESR_31_3,Reserved RES0." bitfld.long 0x0 2. "SS,Halting step debug event pending. Possible values of this field are: 0 Reading this means that a Halting step debug event is not pending. Writing this means no action. 1 Reading this means that.." "0,1" newline bitfld.long 0x0 1. "RC,Reset catch debug event pending. Possible values of this field are: 0 Reading this means that a Reset catch debug event is not pending. Writing this means no action. 1 Reading this means that a.." "0,1" bitfld.long 0x0 0. "OSUC,OS unlock debug event pending. Possible values of this field are: 0 Reading this means that an OS unlock catch debug event is not pending. Writing this means no action. 1 Reading this means.." "0,1" line.long 0x4 "APBADDR_DBG_CPU1_EDECR,External Debug Execution Control Register" hexmask.long 0x4 3.--31. 1. "RES0_EDECR_31_3,Reserved RES0." bitfld.long 0x4 2. "SS,Halting step enable. Possible values of this field are: 0 Halting step debug event disabled. 1 Halting step debug event enabled. If the value of EDECR.SS is changed when the.." "0,1" newline bitfld.long 0x4 1. "RCE,Reset catch enable. Possible values of this field are: 0 Reset catch debug event disabled. 1 Reset catch debug event enabled." "0,1" bitfld.long 0x4 0. "OSUCE,OS unlock catch enabled. Possible values of this field are: 0 OS unlock catch debug event disabled. 1 OS unlock catch debug event enabled." "0,1" group.long 0x30++0x7 line.long 0x0 "APBADDR_DBG_CPU1_EDWAR_31_0,External Debug Watchpoint Address Register (low word)" hexmask.long 0x0 0.--31. 1. "EDWAR_31_0,Watchpoint address. The virtual data address being accessed when a watchpoint debug event was triggered and caused entry to Debug state.UNKNOWN if the processor is not in Debug state or if Debug state was entered other than for a watchpoint.." line.long 0x4 "APBADDR_DBG_CPU1_EDWAR_63_32,External Debug Watchpoint Address Register (high word)" hexmask.long 0x4 0.--31. 1. "EDWAR_63_32,Watchpoint address. The virtual data address being accessed when a watchpoint debug event was triggered and caused entry to Debug state.UNKNOWN if the processor is not in Debug state or if Debug state was entered other than for a watchpoint.." group.long 0x80++0x1B line.long 0x0 "APBADDR_DBG_CPU1_DBGDTRRX_EL0,Debug Data Transfer Register Receive" hexmask.long 0x0 0.--31. 1. "DBGDTRRX_EL0,Update DTRRX. Writes to this register update the value in DTRRX and set RXfull to 1.Reads of this register return the last value written to DTRRX and do not change RXfull." line.long 0x4 "APBADDR_DBG_CPU1_EDITR,External Debug Instruction Transfer Register" hexmask.long 0x4 0.--31. 1. "EDITR,Used in Debug state for passing instructions to the processor for execution" line.long 0x8 "APBADDR_DBG_CPU1_EDSCR,External Debug Status and Control Register" bitfld.long 0x8 31. "RES0_EDSCR_31_31,Reserved RES0." "0,1" bitfld.long 0x8 30. "RXFULL,DTRRX full. This bit is RO." "0,1" newline bitfld.long 0x8 29. "TXFULL,DTRTX full. This bit is RO." "0,1" bitfld.long 0x8 28. "ITO,EDITR overrun. This bit is RO.If the processor is not in Debug state this bit is UNKNOWN. ITO is set to 0 on entry to Debug state." "0,1" newline bitfld.long 0x8 27. "RXO,DTRRX overrun. This bit is RO." "0,1" bitfld.long 0x8 26. "TXU,DTRTX underrun. This bit is RO." "0,1" newline bitfld.long 0x8 25. "PIPEADV,Pipeline advance. Read-only. Set to 1 every time the processor pipeline retires one or more instructions. Cleared to 0 by a write to EDRCR.CSPA.The architecture does not define precisely when this bit is set to 1. It requires only that this.." "0,1" bitfld.long 0x8 24. "ITE,ITR empty. This bit is RO.If the processor is not in Debug state this bit is UNKNOWN. It is always valid in Debug state." "0,1" newline bitfld.long 0x8 22.--23. "INTDIS,Interrupt disable. Disables taking interrupts [including virtual interrupts and System Error interrupts] in Non-Debug state.If external invasive debug is disabled the value of this field is ignored.If external invasive debug is enabled the.." "0,1,2,3" bitfld.long 0x8 21. "TDA,Trap debug registers accesses." "0,1" newline bitfld.long 0x8 20. "MA,Memory access mode. Controls use of memory-access mode for accessing EDITR and the DCC. This bit is ignored if in Non-debug state and set to zero on entry to Debug state.Possible values of this field are: 0 Normal access mode.." "0,1" bitfld.long 0x8 19. "RES0_EDSCR_19_19,Reserved RES0." "0,1" newline bitfld.long 0x8 18. "NS,Non-secure status. Read-only. When in Debug state gives the current security state: 0 Secure state IsSecure[] == TRUE 1 Non-secure state IsSecure[] == FALSE. In Non-debug.." "0,1" bitfld.long 0x8 17. "RES0_EDSCR_17_17,Reserved RES0." "0,1" newline bitfld.long 0x8 16. "SDD,Secure debug disabled. This bit is RO.On entry to Debug state:If entering in Secure state SDD is set to 0.If entering in Non-secure state SDD is set to the inverse of ExternalSecureInvasiveDebugEnabled[].In Debug state the value of the SDD bit.." "0,1" bitfld.long 0x8 15. "RES0_EDSCR_15_15,Reserved RES0." "0,1" newline bitfld.long 0x8 14. "HDE,Halting debug mode enable. Possible values of this bit are: 0 Halting debug mode disabled. 1 Halting debug mode enabled." "0,1" hexmask.long.byte 0x8 10.--13. 1. "RW,Exception level register-width status. Read-only. In Debug state each bit gives the current register width status of each EL: 1111 All exception levels are AArch64 state. 1110 EL0 is AArch32.." newline bitfld.long 0x8 8.--9. "EL,Exception level. Read-only. In Debug state this gives the current EL of the processor.In Non-debug state this field is RAZ." "0,1,2,3" bitfld.long 0x8 7. "A,System Error interrupt pending. Read-only. In Debug state indicates whether a SError interrupt is pending:If HCR_EL2.{AMO TGE} = {1 0} and in Non-secure EL0 or EL1 a virtual SError interrupt.Otherwise a physical SError interrupt. 0.." "0,1" newline bitfld.long 0x8 6. "ERR,Cumulative error flag. This field is RO. It is set to 1 following exceptions in Debug state and on any signaled overrun or underrun on the DTR or EDITR." "0,1" hexmask.long.byte 0x8 0.--5. 1. "STATUS,Debug status flags. This field is RO.The possible values of this field are: 000010 Processor is in Non-debug state. 000001 Processor is restarting [exiting Debug state]." line.long 0xC "APBADDR_DBG_CPU1_DBGDTRTX_EL0,Debug Data Transfer Register Transmit" hexmask.long 0xC 0.--31. 1. "DBGDTRTX_EL0,Return DTRTX. Reads of this register return the value in DTRTX and clear TXfull to 0.Writes of this register update the value in DTRTX and do not change TXfull." line.long 0x10 "APBADDR_DBG_CPU1_EDRCR,External Debug Reserve Control Register" hexmask.long 0x10 5.--31. 1. "RES0_EDRCR_31_5,Reserved RES0." bitfld.long 0x10 4. "CBRRQ,Allow imprecise entry to Debug state. The actions on writing to this bit are: 0 No action. 1 Allow imprecise entry to Debug state for example by canceling pending bus accesses." "0,1" newline bitfld.long 0x10 3. "CSPA,Clear Sticky Pipeline Advance. This bit is used to clear the EDSCR.PipeAdv bit to 0. The actions on writing to this bit are: 0 No action. 1 Clear the EDSCR.PipeAdv bit to 0." "0,1" bitfld.long 0x10 2. "CSE,Clear Sticky Error. Used to clear the EDSCR cumulative error bits to 0. The actions on writing to this bit are: 0 No action. 1 Clear the EDSCR.{TXU RXO ERR} bits and if the processor is in.." "0,1" newline bitfld.long 0x10 0.--1. "RES0_EDRCR_1_0,Reserved RES0." "0,1,2,3" line.long 0x14 "APBADDR_DBG_CPU1_EDACR,External Debug Auxiliary Control Register" hexmask.long 0x14 0.--31. 1. "RES0_EDACR_31_0,Reserved RES0" line.long 0x18 "APBADDR_DBG_CPU1_EDECCR,External Debug Exception Catch Control Register" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_EDECCR_31_8,Reserved RES0." hexmask.long.byte 0x18 4.--7. 1. "NSE,Coarse-grained Non-secure exception catch. Possible values of this field are: 0000 Exception catch debug event disabled for Non-secure exception levels. 0010 Exception catch debug event enabled.." newline hexmask.long.byte 0x18 0.--3. 1. "SE,Coarse-grained Secure exception catch. Possible values of this field are: 0000 Exception catch debug event disabled for Secure exception levels. 0010 Exception catch debug event enabled for.." group.long 0xA0++0xF line.long 0x0 "APBADDR_DBG_CPU1_EDPCSR_31_0,External Debug Program Counter Sample Register (low word)" hexmask.long 0x0 0.--31. 1. "EDPCSR_31_0,PC Sample low word EDPCSRlo. Bits [31:0] of the sampled instruction address value. Reading EDPCSRlo has the side-effect of updating EDCIDSR EDVIDSR and EDPCSRhi. However:If the processor is in Debug state or Sample-based profiling is.." line.long 0x4 "APBADDR_DBG_CPU1_EDCIDSR,External Debug Context ID Sample Register" hexmask.long 0x4 0.--31. 1. "CONTEXTIDR,The sampled value of CONTEXTIDR_EL1 captured on reading the low half of EDPCSR.If EL3 is implemented and using AArch32 then CONTEXTIDR is a Banked register and EDCIDSR samples the current Banked copy of CONTEXTIDR." line.long 0x8 "APBADDR_DBG_CPU1_EDVIDSR,External Debug Virtual Context Sample Register" bitfld.long 0x8 31. "NS,Non-secure state sample. Indicates the security state associated with the most recent EDPCSR sample." "0,1" bitfld.long 0x8 30. "E2,Exception level 2 status sample. Indicates whether the most recent EDPCSR sample was associated with EL2. If EDVIDSR.NS == 0 this bit is 0." "0,1" newline bitfld.long 0x8 29. "E3,Exception level 3 status sample. Indicates whether the most recent EDPCSR sample was associated with AArch64 EL3. If EDVIDSR.NS == 1 or the processor was in AArch32 state when EDPCSR was read this bit is 0." "0,1" bitfld.long 0x8 28. "HV,EDPCSR high half valid. Indicates whether bits [63:32] of the most recent EDPCSR sample are valid. If EDVIDSR.HV == 0 the value of EDPCSR[63:32] is RAZ." "0,1" newline hexmask.long.tbyte 0x8 8.--27. 1. "RES0_EDVIDSR_27_8,Reserved RES0." hexmask.long.byte 0x8 0.--7. 1. "VMID,VMID sample. The value of VTTBR_EL2.VMID associated with the most recent EDPCSR sample. If EDVIDSR.NS == 0 or EDVIDSR.E2 == 1 this field is RAZ." line.long 0xC "APBADDR_DBG_CPU1_EDPCSR_63_32,External Debug Program Counter Sample Register (high word)" hexmask.long 0xC 0.--31. 1. "EDPCSR_63_32,PC Sample high word EDPCSRhi. If EDVIDSR.HV == 0 then this field is RAZ otherwise bits [63:32] of the sampled PC." group.long 0x300++0x3 line.long 0x0 "APBADDR_DBG_CPU1_OSLAR_EL1,OS Lock Access Register" hexmask.long 0x0 1.--31. 1. "RES0_OSLAR_EL1_31_1,Reserved RES0." bitfld.long 0x0 0. "OSLK,On writes to OSLAR_EL1 bit[0] is copied to the OS lock.Use EDPRSR.OSLK to check the current status of the lock." "0,1" group.long 0x310++0x7 line.long 0x0 "APBADDR_DBG_CPU1_EDPRCR,External Debug Power/Reset Control Register" hexmask.long 0x0 4.--31. 1. "RES0_EDPRCR_31_4,Reserved RES0." bitfld.long 0x0 3. "COREPURQ,Core powerup request. Allows a debugger to request that the power controller power up the core enabling access to the debug register in the Core power domain. The actions on writing to this bit are: 0 No effect." "0,1" newline bitfld.long 0x0 2. "RES0_EDPRCR_2_2,Reserved RES0." "0,1" bitfld.long 0x0 1. "CWRR,Warm reset request. Write only bit that reads as zero. The actions on writing to this bit are: 0 No action. 1 Request Warm reset. The processor ignores writes to this bit if.." "0,1" newline bitfld.long 0x0 0. "CORENPDRQ,Core no powerdown request. Requests emulation of powerdown. Possible values of this bit are: 0 On a powerdown request the system powers down the Core power domain. 1 On a powerdown.." "0,1" line.long 0x4 "APBADDR_DBG_CPU1_EDPRSR,External Debug Processor Status Register" hexmask.long.tbyte 0x4 12.--31. 1. "RES0_EDPRSR_31_12,Reserved RES0." bitfld.long 0x4 11. "SDR,Sticky debug restart. Set to 1 when the processor exits Debug state and cleared to 0 following reads of EDPRSR. 0 The processor has not restarted since EDPRSR was last read. 1 The processor has.." "0,1" newline bitfld.long 0x4 10. "SPMAD,Sticky EPMAD error. Set to 1 if an access returns an error because AllowExternalPMUAccess[] == FALSE. 0 No accesses to the external performance monitors registers have failed since EDPRSR was last read. 1.." "0,1" bitfld.long 0x4 9. "EPMAD,External performance monitors access disable status. 0 External performance monitors access enabled. 1 External performance monitors access disabled. If external performance.." "0,1" newline bitfld.long 0x4 8. "SDAD,Sticky EDAD error. Set to 1 if an access returns an error because AllowExternalDebugAccess[] == FALSE. 0 No accesses to the external debug registers have failed since EDPRSR was last read. 1.." "0,1" bitfld.long 0x4 7. "EDAD,External debug access disable status. 0 External debug access enabled. 1 External debug access disabled. This bit is UNKNOWN on reads if either of EDPRSR.{DLK R} is 1 or.." "0,1" newline bitfld.long 0x4 6. "DLK,OS Double Lock status bit. 0 OSDLR_EL1.DLK == 0 or EDPRCR.CORENPDRQ == 1 or the processor is in Debug state. 1 OSDLR_EL1.DLK == 1 and EDPRCR.CORENPDRQ == 0 and the processor is in Non-debug.." "0,1" bitfld.long 0x4 5. "OSLK,OS lock status bit. A read of this bit returns the value of OSLSR_EL1.OSLK.This bit is UNKNOWN on reads if either of EDPRSR.{DLK R} is 1 or EDPRSR.PU is 0." "0,1" newline bitfld.long 0x4 4. "HALTED,Halted status bit. Possible values are: 0 EDSCR.STATUS is 0b000010 [processor in Non-debug state]. 1 EDSCR.STATUS is not 0b000010. This bit is UNKNOWN on reads if EDPRSR.PU.." "0,1" bitfld.long 0x4 3. "SR,Sticky core reset status bit. Possible values are: 0 The non-debug logic of the processor is not in reset state and has not been reset since the last time EDPRSR was read. 1 The non-debug logic.." "0,1" newline bitfld.long 0x4 2. "R,Core reset status bit. Possible values are: 0 The non-debug logic of the processor is not in reset state. 1 The non-debug logic of the processor is in reset state. This bit is.." "0,1" bitfld.long 0x4 1. "SPD,Sticky core power-down status bit.This bit is set to 1 on Cold reset to indicate the state of the debug registers has been lost. Since a Cold reset is required on powering up the processor this usually indicates the Core power domain has been.." "0,1" newline bitfld.long 0x4 0. "PU,Core power-up status bit. Indicates whether the Core power domain debug registers can be accessed: 0 Core is in a low-power or power-down state where the debug registers cannot be accessed. 1.." "0,1" group.long 0x400++0xB line.long 0x0 "APBADDR_DBG_CPU1_DBGBVR0_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR0_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR0_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU1_DBGBVR0_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR0_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR0_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU1_DBGBCR0_EL1,Debug Breakpoint Control Register 0" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR0_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR0_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR0_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x410++0xB line.long 0x0 "APBADDR_DBG_CPU1_DBGBVR1_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR1_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR1_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU1_DBGBVR1_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR1_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR1_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU1_DBGBCR1_EL1,Debug Breakpoint Control Register 1" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR1_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR1_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR1_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x420++0xB line.long 0x0 "APBADDR_DBG_CPU1_DBGBVR2_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR2_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR2_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU1_DBGBVR2_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR2_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR2_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU1_DBGBCR2_EL1,Debug Breakpoint Control Register 2" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR2_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR2_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR2_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x430++0xB line.long 0x0 "APBADDR_DBG_CPU1_DBGBVR3_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR3_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR3_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU1_DBGBVR3_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR3_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR3_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU1_DBGBCR3_EL1,Debug Breakpoint Control Register 3" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR3_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR3_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR3_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x440++0xB line.long 0x0 "APBADDR_DBG_CPU1_DBGBVR4_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR4_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR4_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU1_DBGBVR4_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR4_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR4_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU1_DBGBCR4_EL1,Debug Breakpoint Control Register 4" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR4_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR4_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR4_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x450++0xB line.long 0x0 "APBADDR_DBG_CPU1_DBGBVR5_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR5_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR5_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU1_DBGBVR5_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR5_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR5_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU1_DBGBCR5_EL1,Debug Breakpoint Control Register 5" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR5_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR5_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR5_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x800++0xB line.long 0x0 "APBADDR_DBG_CPU1_DBGWVR0_EL1_31_0,Debug Watchpoint Value Register 0" hexmask.long 0x0 2.--31. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." bitfld.long 0x0 0.--1. "RES0_DBGWVR0_EL1_31_0_1_0,Reserved RES0." "0,1,2,3" line.long 0x4 "APBADDR_DBG_CPU1_DBGWVR0_EL1_63_32,Debug Watchpoint Extended Value Register 0" hexmask.long.word 0x4 17.--31. 1. "RESS,Reserved Sign extended. Hardwired to the value of the sign bit bit [48]. Hardware and software must treat this field as RES0 if bit[48] is 0 and as RES1 if bit[48] is 1." hexmask.long.tbyte 0x4 0.--16. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." line.long 0x8 "APBADDR_DBG_CPU1_DBGWCR0_EL1,Debug Watchpoint Control Register 0" bitfld.long 0x8 29.--31. "RES0_DBGWCR0_EL1_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "MASK,Address mask. Only objects up to 2GB can be watched using a single mask. 00000 No mask. 00001 Reserved. 00010 Reserved. Other values.." newline bitfld.long 0x8 21.--23. "RES0_DBGWCR0_EL1_23_21,Reserved RES0." "0,1,2,3,4,5,6,7" bitfld.long 0x8 20. "WT,Watchpoint type. Possible values are: 0 Unlinked data address match. 1 Linked data address match." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked data address watchpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the HMC and PAC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and PAC fields." "0,1" hexmask.long.byte 0x8 5.--12. 1. "BAS,Byte address select. Each bit of this field selects whether a byte from within the word or double-word addressed by DBGWVR<n>_EL1 is being watched.BASDescriptionxxxxxxx1Match byte at DBGWVR<n>_EL1xxxxxx1xMatch byte at.." newline bitfld.long 0x8 3.--4. "LSC,Load/store control. This field enables watchpoint matching on the type of access being made. Possible values of this field are: 01 Match instructions that load from a watchpointed address. 10.." "0,1,2,3" bitfld.long 0x8 1.--2. "PAC,Privilege of access control. Determines the exception level or levels at which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" newline bitfld.long 0x8 0. "E,Enable watchpoint n. Possible values are: 0 Watchpoint disabled. 1 Watchpoint enabled." "0,1" group.long 0x810++0xB line.long 0x0 "APBADDR_DBG_CPU1_DBGWVR1_EL1_31_0,Debug Watchpoint Value Register 1" hexmask.long 0x0 2.--31. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." bitfld.long 0x0 0.--1. "RES0_DBGWVR1_EL1_31_0_1_0,Reserved RES0." "0,1,2,3" line.long 0x4 "APBADDR_DBG_CPU1_DBGWVR1_EL1_63_32,Debug Watchpoint Extended Value Register 1" hexmask.long.word 0x4 17.--31. 1. "RESS,Reserved Sign extended. Hardwired to the value of the sign bit bit [48]. Hardware and software must treat this field as RES0 if bit[48] is 0 and as RES1 if bit[48] is 1." hexmask.long.tbyte 0x4 0.--16. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." line.long 0x8 "APBADDR_DBG_CPU1_DBGWCR1_EL1,Debug Watchpoint Control Register 1" bitfld.long 0x8 29.--31. "RES0_DBGWCR1_EL1_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "MASK,Address mask. Only objects up to 2GB can be watched using a single mask. 00000 No mask. 00001 Reserved. 00010 Reserved. Other values.." newline bitfld.long 0x8 21.--23. "RES0_DBGWCR1_EL1_23_21,Reserved RES0." "0,1,2,3,4,5,6,7" bitfld.long 0x8 20. "WT,Watchpoint type. Possible values are: 0 Unlinked data address match. 1 Linked data address match." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked data address watchpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the HMC and PAC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and PAC fields." "0,1" hexmask.long.byte 0x8 5.--12. 1. "BAS,Byte address select. Each bit of this field selects whether a byte from within the word or double-word addressed by DBGWVR<n>_EL1 is being watched.BASDescriptionxxxxxxx1Match byte at DBGWVR<n>_EL1xxxxxx1xMatch byte at.." newline bitfld.long 0x8 3.--4. "LSC,Load/store control. This field enables watchpoint matching on the type of access being made. Possible values of this field are: 01 Match instructions that load from a watchpointed address. 10.." "0,1,2,3" bitfld.long 0x8 1.--2. "PAC,Privilege of access control. Determines the exception level or levels at which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" newline bitfld.long 0x8 0. "E,Enable watchpoint n. Possible values are: 0 Watchpoint disabled. 1 Watchpoint enabled." "0,1" group.long 0x820++0xB line.long 0x0 "APBADDR_DBG_CPU1_DBGWVR2_EL1_31_0,Debug Watchpoint Value Register 2" hexmask.long 0x0 2.--31. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." bitfld.long 0x0 0.--1. "RES0_DBGWVR2_EL1_31_0_1_0,Reserved RES0." "0,1,2,3" line.long 0x4 "APBADDR_DBG_CPU1_DBGWVR2_EL1_63_32,Debug Watchpoint Extended Value Register 2" hexmask.long.word 0x4 17.--31. 1. "RESS,Reserved Sign extended. Hardwired to the value of the sign bit bit [48]. Hardware and software must treat this field as RES0 if bit[48] is 0 and as RES1 if bit[48] is 1." hexmask.long.tbyte 0x4 0.--16. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." line.long 0x8 "APBADDR_DBG_CPU1_DBGWCR2_EL1,Debug Watchpoint Control Register 2" bitfld.long 0x8 29.--31. "RES0_DBGWCR2_EL1_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "MASK,Address mask. Only objects up to 2GB can be watched using a single mask. 00000 No mask. 00001 Reserved. 00010 Reserved. Other values.." newline bitfld.long 0x8 21.--23. "RES0_DBGWCR2_EL1_23_21,Reserved RES0." "0,1,2,3,4,5,6,7" bitfld.long 0x8 20. "WT,Watchpoint type. Possible values are: 0 Unlinked data address match. 1 Linked data address match." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked data address watchpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the HMC and PAC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and PAC fields." "0,1" hexmask.long.byte 0x8 5.--12. 1. "BAS,Byte address select. Each bit of this field selects whether a byte from within the word or double-word addressed by DBGWVR<n>_EL1 is being watched.BASDescriptionxxxxxxx1Match byte at DBGWVR<n>_EL1xxxxxx1xMatch byte at.." newline bitfld.long 0x8 3.--4. "LSC,Load/store control. This field enables watchpoint matching on the type of access being made. Possible values of this field are: 01 Match instructions that load from a watchpointed address. 10.." "0,1,2,3" bitfld.long 0x8 1.--2. "PAC,Privilege of access control. Determines the exception level or levels at which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" newline bitfld.long 0x8 0. "E,Enable watchpoint n. Possible values are: 0 Watchpoint disabled. 1 Watchpoint enabled." "0,1" group.long 0x830++0xB line.long 0x0 "APBADDR_DBG_CPU1_DBGWVR3_EL1_31_0,Debug Watchpoint Value Register 3" hexmask.long 0x0 2.--31. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." bitfld.long 0x0 0.--1. "RES0_DBGWVR3_EL1_31_0_1_0,Reserved RES0." "0,1,2,3" line.long 0x4 "APBADDR_DBG_CPU1_DBGWVR3_EL1_63_32,Debug Watchpoint Extended Value Register 3" hexmask.long.word 0x4 17.--31. 1. "RESS,Reserved Sign extended. Hardwired to the value of the sign bit bit [48]. Hardware and software must treat this field as RES0 if bit[48] is 0 and as RES1 if bit[48] is 1." hexmask.long.tbyte 0x4 0.--16. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." line.long 0x8 "APBADDR_DBG_CPU1_DBGWCR3_EL1,Debug Watchpoint Control Register 3" bitfld.long 0x8 29.--31. "RES0_DBGWCR3_EL1_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "MASK,Address mask. Only objects up to 2GB can be watched using a single mask. 00000 No mask. 00001 Reserved. 00010 Reserved. Other values.." newline bitfld.long 0x8 21.--23. "RES0_DBGWCR3_EL1_23_21,Reserved RES0." "0,1,2,3,4,5,6,7" bitfld.long 0x8 20. "WT,Watchpoint type. Possible values are: 0 Unlinked data address match. 1 Linked data address match." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked data address watchpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the HMC and PAC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and PAC fields." "0,1" hexmask.long.byte 0x8 5.--12. 1. "BAS,Byte address select. Each bit of this field selects whether a byte from within the word or double-word addressed by DBGWVR<n>_EL1 is being watched.BASDescriptionxxxxxxx1Match byte at DBGWVR<n>_EL1xxxxxx1xMatch byte at.." newline bitfld.long 0x8 3.--4. "LSC,Load/store control. This field enables watchpoint matching on the type of access being made. Possible values of this field are: 01 Match instructions that load from a watchpointed address. 10.." "0,1,2,3" bitfld.long 0x8 1.--2. "PAC,Privilege of access control. Determines the exception level or levels at which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" newline bitfld.long 0x8 0. "E,Enable watchpoint n. Possible values are: 0 Watchpoint disabled. 1 Watchpoint enabled." "0,1" group.long 0xD00++0x3 line.long 0x0 "APBADDR_DBG_CPU1_MIDR_EL1,Main ID Register" hexmask.long.byte 0x0 24.--31. 1. "IMPLEMENTER,The Implementer code. This field must hold an implementer code that has been assigned by ARM." hexmask.long.byte 0x0 20.--23. 1. "VARIANT,An IMPLEMENTATION DEFINED variant number. Typically this field is used to distinguish between different product variants or major revisions of a product." newline hexmask.long.byte 0x0 16.--19. 1. "ARCHITECTURE," hexmask.long.word 0x0 4.--15. 1. "PARTNUM,An IMPLEMENTATION DEFINED primary part number for the device. On processors implemented by ARM if the top four bits of the primary part number are 0x0 or 0x7 the variant and architecture are encoded differently" newline hexmask.long.byte 0x0 0.--3. 1. "REVISION,An IMPLEMENTATION DEFINED revision number for the device" group.long 0xD20++0x3F line.long 0x0 "APBADDR_DBG_CPU1_ID_AA64PFR0_EL1_31_0,Processor Feature Register 0 (low word)" hexmask.long.byte 0x0 28.--31. 1. "RES0_ID_AA64PFR0_EL1_31_0_31_28,Reserved RES0." hexmask.long.byte 0x0 24.--27. 1. "GIC,GIC system register interface. Permitted values are: 0000 No GIC system registers are supported. 0001 GICv3 system registers are supported. All other values are reserved." newline hexmask.long.byte 0x0 20.--23. 1. "ADVSIMD,Advanced SIMD. Permitted values are: 0000 Advanced SIMD is implemented. 1111 Advanced SIMD is not implemented. All other values are reserved." hexmask.long.byte 0x0 16.--19. 1. "FP,Floating-point. Permitted values are: 0000 Floating-point is implemented. 1111 Floating-point is not implemented. All other values are reserved." newline hexmask.long.byte 0x0 12.--15. 1. "EL3,EL3 exception level handling. Permitted values are: 0000 EL3 is not implemented. 0001 EL3 can be executed in AArch64 state only. 0010 EL3 can be executed.." hexmask.long.byte 0x0 8.--11. 1. "EL2,EL2 exception level handling. Permitted values are: 0000 EL2 is not implemented. 0001 EL2 can be executed in AArch64 state only. 0010 EL2 can be executed.." newline hexmask.long.byte 0x0 4.--7. 1. "EL1,EL1 exception level handling. Permitted values are: 0000 EL1 is not implemented. 0001 EL1 can be executed in AArch64 state only. 0010 EL1 can be executed.." hexmask.long.byte 0x0 0.--3. 1. "EL0,EL0 exception level handling. Permitted values are: 0000 EL0 is not implemented. 0001 EL0 can be executed in AArch64 state only. 0010 EL0 can be executed.." line.long 0x4 "APBADDR_DBG_CPU1_ID_AA64PFR0_EL1_63_32,Processor Feature Register 0 (high word)" hexmask.long 0x4 0.--31. 1. "RES0_ID_AA64PFR0_EL1_63_32_31_0,Reserved RES0." line.long 0x8 "APBADDR_DBG_CPU1_ID_AA64DFR0_EL1_31_0,Debug Feature Register 0 (low word)" hexmask.long.byte 0x8 28.--31. 1. "CTX_CMPS,Number of breakpoints that are context-aware minus 1. These are the highest numbered breakpoints." hexmask.long.byte 0x8 24.--27. 1. "RES0_ID_AA64DFR0_EL1_31_0_27_24,Reserved RES0." newline hexmask.long.byte 0x8 20.--23. 1. "WRPS,Number of watchpoints minus 1. The value of 0b0000 is reserved." hexmask.long.byte 0x8 16.--19. 1. "RES0_ID_AA64DFR0_EL1_31_0_19_16,Reserved RES0." newline hexmask.long.byte 0x8 12.--15. 1. "BRPS,Number of breakpoints minus 1. The value of 0b0000 is reserved." hexmask.long.byte 0x8 8.--11. 1. "PMUVER,Performance Monitors extension version. Indicates whether system register interface to Performance Monitors extension is implemented. Permitted values are: 0000 Performance Monitors extension system registers not implemented." newline hexmask.long.byte 0x8 4.--7. 1. "TRACEVER,Trace extension. Indicates whether system register interface to Trace extension is implemented. Permitted values are: 0000 Trace extension system registers not implemented. 0001 Trace.." hexmask.long.byte 0x8 0.--3. 1. "DEBUGVER,Debug architecture version. Indicates presence of v8-A debug architecture. 0110 v8-A debug architecture. All other values are reserved." line.long 0xC "APBADDR_DBG_CPU1_ID_AA64DFR0_EL1_63_32,Debug Feature Register 0 (high word)" hexmask.long 0xC 0.--31. 1. "RES0_ID_AA64DFR0_EL1_63_32_31_0,Reserved RES0." line.long 0x10 "APBADDR_DBG_CPU1_ID_AA64ISAR0_EL1_31_0,Instruction Set Attribute Register 0 (low word)" hexmask.long.word 0x10 20.--31. 1. "RES0_ID_AA64ISAR0_EL1_31_0_31_20,Reserved RES0." hexmask.long.byte 0x10 16.--19. 1. "CRC32,CRC32 instructions in AArch64. Possible values of this field are: 0000 No CRC32 instructions implemented. 0001 CRC32B CRC32H CRC32W CRC32X CRC32CB CRC32CH CRC32CW and CRC32CX.." newline hexmask.long.byte 0x10 12.--15. 1. "SHA2,SHA2 instructions in AArch64. Possible values of this field are: 0000 No SHA2 instructions implemented. 0001 SHA256H SHA256H2 SHA256SU0 and SHA256SU1 instructions implemented." hexmask.long.byte 0x10 8.--11. 1. "SHA1,SHA1 instructions in AArch64. Possible values of this field are: 0000 No SHA1 instructions implemented. 0001 SHA1C SHA1P SHA1M SHA1H SHA1SU0 and SHA1SU1 instructions implemented." newline hexmask.long.byte 0x10 4.--7. 1. "AES,AES instructions in AArch64. Possible values of this field are: 0000 No AES instructions implemented. 0001 AESE AESD AESMC and AESIMC instructions implemented. 0010.." hexmask.long.byte 0x10 0.--3. 1. "RES0_ID_AA64ISAR0_EL1_31_0_3_0,Reserved RES0." line.long 0x14 "APBADDR_DBG_CPU1_ID_AA64ISAR0_EL1_63_32,Instruction Set Attribute Register 0 (high word)" hexmask.long 0x14 0.--31. 1. "RES0_ID_AA64ISAR0_EL1_63_32_31_0,Reserved RES0." line.long 0x18 "APBADDR_DBG_CPU1_ID_AA64MMFR0_EL1_31_0,Memory Model Feature Register 0 (low word)" hexmask.long.byte 0x18 28.--31. 1. "TGRAN4,Support for 4 Kbyte memory translation granule size. Permitted values are: 0000 4 KB granule supported. 1111 4 KB granule not supported. All other values are reserved." hexmask.long.byte 0x18 24.--27. 1. "TGRAN64,Support for 64 Kbyte memory translation granule size. Permitted values are: 0000 64 KB granule supported. 1111 64 KB granule not supported. All other values are reserved." newline hexmask.long.byte 0x18 20.--23. 1. "TGRAN16,Support for 16 Kbyte memory translation granule size. Permitted values are: 0000 16 KB granule not supported. 0001 16 KB granule supported. All other values are reserved." hexmask.long.byte 0x18 16.--19. 1. "BIGENDEL0,Mixed-endian support at EL0 only. Permitted values are: 0000 No mixed-endian support at EL0. The SCTLR_EL1.E0E bit has a fixed value. 0001 Mixed-endian support at EL0. The SCTLR_EL1.E0E.." newline hexmask.long.byte 0x18 12.--15. 1. "SNSMEM,Secure versus Non-secure Memory distinction. Permitted values are: 0000 Does not support a distinction between Secure and Non-secure Memory. 0001 Does support a distinction between Secure.." hexmask.long.byte 0x18 8.--11. 1. "BIGEND,Mixed-endian configuration support. Permitted values are: 0000 No mixed-endian support. The SCTLR_ELx.EE bits have a fixed value. See the BigEndEL0 field bits[19:16] for whether EL0 supports mixed-endian." newline hexmask.long.byte 0x18 4.--7. 1. "ASIDBITS,Number of ASID bits. Permitted values are: 0000 8 bits. 0010 16 bits. All other values are reserved." hexmask.long.byte 0x18 0.--3. 1. "PARANGE,Physical Address range supported. Permitted values are: 0000 32 bits 4 GB. 0001 36 bits 64 GB. 0010 40 bits 1 TB. 0011.." line.long 0x1C "APBADDR_DBG_CPU1_ID_AA64MMFR0_EL1_63_32,Memory Model Feature Register 0 (high word)" hexmask.long 0x1C 0.--31. 1. "RES0_ID_AA64MMFR0_EL1_63_32_31_0,Reserved RES0." line.long 0x20 "APBADDR_DBG_CPU1_ID_AA64PFR1_EL1_31_0,Processor Feature Register 1 (low word)" hexmask.long 0x20 0.--31. 1. "RES0_ID_AA64PFR1_EL1_31_0_31_0,Reserved RES0." line.long 0x24 "APBADDR_DBG_CPU1_ID_AA64PFR1_EL1_63_32,Processor Feature Register 1 (high word)" hexmask.long 0x24 0.--31. 1. "RES0_ID_AA64PFR1_EL1_63_32_31_0,Reserved RES0." line.long 0x28 "APBADDR_DBG_CPU1_ID_AA64DFR1_EL1_31_0,Auxiliary Feature Register 1 (low word)" hexmask.long 0x28 0.--31. 1. "RES0_ID_AA64DFR1_EL1_31_0_31_0,Reserved RES0." line.long 0x2C "APBADDR_DBG_CPU1_ID_AA64DFR1_EL1_63_32,Auxiliary Feature Register 1 (high word)" hexmask.long 0x2C 0.--31. 1. "RES0_ID_AA64DFR1_EL1_63_32_31_0,Reserved RES0." line.long 0x30 "APBADDR_DBG_CPU1_ID_AA64ISAR1_EL1_31_0,Instruction Set Attribute Register 1 (low word)" hexmask.long 0x30 0.--31. 1. "RES0_ID_AA64ISAR1_EL1_31_0_31_0,Reserved RES0." line.long 0x34 "APBADDR_DBG_CPU1_ID_AA64ISAR1_EL1_63_32,Instruction Set Attribute Register 1 (high word)" hexmask.long 0x34 0.--31. 1. "RES0_ID_AA64ISAR1_EL1_63_32_31_0,Reserved RES0." line.long 0x38 "APBADDR_DBG_CPU1_ID_AA64MMFR1_EL1_31_0,Memory Model Feature Register 1 (low word)" hexmask.long 0x38 0.--31. 1. "RES0_ID_AA64MMFR1_EL1_31_0_31_0,Reserved RES0." line.long 0x3C "APBADDR_DBG_CPU1_ID_AA64MMFR1_EL1_63_32,Memory Model Feature Register 1 (high word)" hexmask.long 0x3C 0.--31. 1. "RES0_ID_AA64MMFR1_EL1_63_32_31_0,Reserved RES0." group.long 0xF00++0x3 line.long 0x0 "APBADDR_DBG_CPU1_EDITCTRL,External Debug Integration mode Control Register" hexmask.long 0x0 1.--31. 1. "RES0_EDITCTRL_31_1,Reserved RES0." bitfld.long 0x0 0. "IME,Integration mode enable. When IME == 1 the device reverts to an integration mode to enable integration testing or topology detection. The integration mode behavior is IMPLEMENTATION DEFINED. 0 Normal operation." "0,1" group.long 0xFA0++0x33 line.long 0x0 "APBADDR_DBG_CPU1_DBGCLAIMSET_EL1,Debug Claim Tag Set Register" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_DBGCLAIMSET_EL1_31_8,Reserved RAZ/SBZ. Software can rely on these bits reading as zero and must use a should-be-zero policy on writes. Implementations must ignore writes." hexmask.long.byte 0x0 0.--7. 1. "CLAIM,Claim set bits. RAO.Writing a 1 to one of these bits sets the corresponding CLAIM bit to 1. This is an indirect write to the CLAIM bits.A single write operation can set multiple bits to 1. Writing 0 to one of these bits has no effect." line.long 0x4 "APBADDR_DBG_CPU1_DBGCLAIMCLR_EL1,Debug Claim Tag Clear Register" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_DBGCLAIMCLR_EL1_31_8,Reserved RAZ/SBZ. Software can rely on these bits reading as zero and must use a should-be-zero policy on writes. Implementations must ignore writes." hexmask.long.byte 0x4 0.--7. 1. "CLAIM,Claim clear bits. Reading this field returns the current value of the CLAIM bits.Writing a 1 to one of these bits clears the corresponding CLAIM bit to 0. This is an indirect write to the CLAIM bits.A single write operation can clear multiple bits.." line.long 0x8 "APBADDR_DBG_CPU1_EDDEVAFF0,External Debug Device Affinity Register 0" hexmask.long 0x8 0.--31. 1. "EDDEVAFF0,MPIDR_EL1 low half. Read-only copy of the low half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0xC "APBADDR_DBG_CPU1_EDDEVAFF1,External Debug Device Affinity Register 1" hexmask.long 0xC 0.--31. 1. "EDDEVAFF1,MPIDR_EL1 high half. Read-only copy of the high half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x10 "APBADDR_DBG_CPU1_EDLAR,External Debug Lock Access Register" hexmask.long 0x10 0.--31. 1. "KEY,Lock Access control. Writing the key value 0xC5ACCE55 to this field unlocks the lock enabling write accesses to this component's registers through a memory-mapped interface.Writing any other value to this register locks the lock disabling write.." line.long 0x14 "APBADDR_DBG_CPU1_EDLSR,External Debug Lock Status Register" hexmask.long 0x14 3.--31. 1. "RES0_EDLSR_31_3,Reserved RES0." bitfld.long 0x14 2. "NTT,Not thirty-two bit access required. RAZ." "0,1" newline bitfld.long 0x14 1. "SLK,Software lock status for this component. For an access to LSR that is not a memory-mapped access or when the software lock is not implemented this field is RES0.For memory-mapped accesses when the software lock is implemented possible values of.." "0,1" bitfld.long 0x14 0. "SLI,Software lock implemented. For an access to LSR that is not a memory-mapped access this field is RAZ. For memory-mapped accesses the value of this field is IMPLEMENTATION DEFINED. Permitted values are: 0 Software lock not.." "0,1" line.long 0x18 "APBADDR_DBG_CPU1_DBGAUTHSTATUS_EL1,Debug Authentication Status register" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_DBGAUTHSTATUS_EL1_31_8,Reserved RES0." bitfld.long 0x18 6.--7. "SNID,Secure non-invasive debug. Possible values of this field are: 00 Not implemented. EL3 is not implemented and the processor is Non-secure. 10 Implemented and disabled." "0,1,2,3" newline bitfld.long 0x18 4.--5. "SID,Secure invasive debug. Possible values of this field are: 00 Not implemented. EL3 is not implemented and the processor is Non-secure. 10 Implemented and disabled." "0,1,2,3" bitfld.long 0x18 2.--3. "NSNID,Non-secure non-invasive debug. Possible values of this field are: 00 Not implemented. EL3 is not implemented and the processor is Secure. 10 Implemented and disabled." "0,1,2,3" newline bitfld.long 0x18 0.--1. "NSID,Non-secure invasive debug. Possible values of this field are: 00 Not implemented. EL3 is not implemented and the processor is Secure. 10 Implemented and disabled." "0,1,2,3" line.long 0x1C "APBADDR_DBG_CPU1_EDDEVARCH,External Debug Device Architecture Register" hexmask.long.word 0x1C 21.--31. 1. "ARCHITECT,Defines the architecture of the component. For debug this is ARM Limited.Bits [31:28] are the JEP 106 continuation code 0x4.Bits [27:21] are the JEP 106 ID code 0x3B." bitfld.long 0x1C 20. "PRESENT,When set to 1 indicates that the DEVARCH is present.This field is 1 in v8-A." "0,1" newline hexmask.long.byte 0x1C 16.--19. 1. "REVISION,Defines the architecture revision. For architectures defined by ARM this is the minor revision.For debug the revision defined by v8-A is 0x0.All other values are reserved." hexmask.long.word 0x1C 0.--15. 1. "ARCHID,Defines this part to be a v8-A debug component. For architectures defined by ARM this is further subdivided.For debug:Bits [15:12] are the architecture version 0x6.Bits [11:0] are the architecture part number 0xA15.This corresponds to debug.." line.long 0x20 "APBADDR_DBG_CPU1_EDDEVID2,External Debug Device ID Register 2" hexmask.long 0x20 0.--31. 1. "RES0_EDDEVID2_31_0,Reserved RES0." line.long 0x24 "APBADDR_DBG_CPU1_EDDEVID1,External Debug Device ID Register 1" hexmask.long 0x24 4.--31. 1. "RES0_EDDEVID1_31_4,Reserved RES0." hexmask.long.byte 0x24 0.--3. 1. "PCSROFFSET,This field indicates the offset applied to PC samples returned by reads of EDPCSR. Permitted values of this field in v8-A are: 0000 EDPCSR not implemented. 0010 EDPCSR implemented and.." line.long 0x28 "APBADDR_DBG_CPU1_EDDEVID,External Debug Device ID Register 0" hexmask.long.byte 0x28 28.--31. 1. "RES0_EDDEVID_31_28,Reserved RES0." hexmask.long.byte 0x28 24.--27. 1. "AUXREGS,Indicates support for Auxiliary registers. Permitted values for this field are: 0000 None supported. 0001 Support for External Debug Auxiliary Control Register EDACR. All.." newline hexmask.long.tbyte 0x28 4.--23. 1. "RES0_EDDEVID_23_4,Reserved RES0." hexmask.long.byte 0x28 0.--3. 1. "PCSAMPLE,Indicates the level of Sample-based profiling support using external debug registers 40 through 43. Permitted values of this field in v8-A are: 0000 Architecture-defined form of Sample-based profiling not implemented." line.long 0x2C "APBADDR_DBG_CPU1_EDDEVTYPE,External Debug Device Type Register" hexmask.long.tbyte 0x2C 8.--31. 1. "RES0_EDDEVTYPE_31_8,Reserved RES0." hexmask.long.byte 0x2C 4.--7. 1. "SUB,Subtype. Must read as 0x1 to indicate this is a processor component." newline hexmask.long.byte 0x2C 0.--3. 1. "MAJOR,Major type. Must read as 0x5 to indicate this is a debug logic component." line.long 0x30 "APBADDR_DBG_CPU1_EDPIDR4,External Debug Peripheral Identification Register 4" hexmask.long.tbyte 0x30 8.--31. 1. "RES0_EDPIDR4_31_8,Reserved RES0." hexmask.long.byte 0x30 4.--7. 1. "SIZE,Size of the component. RAZ. Log2 of the number of 4KB pages from the start of the component to the end of the component ID registers." newline hexmask.long.byte 0x30 0.--3. 1. "DES_2,Designer JEP106 continuation code least significant nibble. For ARM Limited this field is 0b0100." group.long 0xFE0++0x1F line.long 0x0 "APBADDR_DBG_CPU1_EDPIDR0,External Debug Peripheral Identification Register 0" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_EDPIDR0_31_8,Reserved RES0." hexmask.long.byte 0x0 0.--7. 1. "PART_0,Part number least significant byte." line.long 0x4 "APBADDR_DBG_CPU1_EDPIDR1,External Debug Peripheral Identification Register 1" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_EDPIDR1_31_8,Reserved RES0." hexmask.long.byte 0x4 4.--7. 1. "DES_0,Designer least significant nibble of JEP106 ID code. For ARM Limited this field is 0b1011." newline hexmask.long.byte 0x4 0.--3. 1. "PART_1,Part number most significant nibble." line.long 0x8 "APBADDR_DBG_CPU1_EDPIDR2,External Debug Peripheral Identification Register 2" hexmask.long.tbyte 0x8 8.--31. 1. "RES0_EDPIDR2_31_8,Reserved RES0." hexmask.long.byte 0x8 4.--7. 1. "REVISION,Part major revision. Parts can also use this field to extend Part number to 16-bits." newline bitfld.long 0x8 3. "JEDEC,RAO. Indicates a JEP106 identity code is used." "0,1" bitfld.long 0x8 0.--2. "DES_1,Designer most significant bits of JEP106 ID code. For ARM Limited this field is 0b011." "0,1,2,3,4,5,6,7" line.long 0xC "APBADDR_DBG_CPU1_EDPIDR3,External Debug Peripheral Identification Register 3" hexmask.long.tbyte 0xC 8.--31. 1. "RES0_EDPIDR3_31_8,Reserved RES0." hexmask.long.byte 0xC 4.--7. 1. "REVAND,Part minor revision. Parts using EDPIDR2.REVISION as an extension to the Part number must use this field as a major revision number." newline hexmask.long.byte 0xC 0.--3. 1. "CMOD,Customer modified. Indicates someone other than the Designer has modified the component." line.long 0x10 "APBADDR_DBG_CPU1_EDCIDR0,External Debug Component Identification Register 0" hexmask.long.tbyte 0x10 8.--31. 1. "RES0_EDCIDR0_31_8,Reserved RES0." hexmask.long.byte 0x10 0.--7. 1. "PRMBL_0,Preamble. Must read as 0x0D." line.long 0x14 "APBADDR_DBG_CPU1_EDCIDR1,External Debug Component Identification Register 1" hexmask.long.tbyte 0x14 8.--31. 1. "RES0_EDCIDR1_31_8,Reserved RES0." hexmask.long.byte 0x14 4.--7. 1. "CLASS,Component class. Reads as 0x9 debug component." newline hexmask.long.byte 0x14 0.--3. 1. "PRMBL_1,Preamble. RAZ." line.long 0x18 "APBADDR_DBG_CPU1_EDCIDR2,External Debug Component Identification Register 2" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_EDCIDR2_31_8,Reserved RES0." hexmask.long.byte 0x18 0.--7. 1. "PRMBL_2,Preamble. Must read as 0x05." line.long 0x1C "APBADDR_DBG_CPU1_EDCIDR3,External Debug Component Identification Register 3" hexmask.long.tbyte 0x1C 8.--31. 1. "RES0_EDCIDR3_31_8,Reserved RES0." hexmask.long.byte 0x1C 0.--7. 1. "PRMBL_3,Preamble. Must read as 0xB1." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "A53SS0_CORE1_PMU (A53SS0_CORE1_PMU)" base ad:0x730120000 group.long 0x0++0x3 line.long 0x0 "APBADDR_PMU_CPU1_PMEVCNTR0_EL0,Performance Monitors Event Count Register 0" hexmask.long 0x0 0.--31. 1. "PMEVCNTR0_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x8++0x3 line.long 0x0 "APBADDR_PMU_CPU1_PMEVCNTR1_EL0,Performance Monitors Event Count Register 1" hexmask.long 0x0 0.--31. 1. "PMEVCNTR1_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x10++0x3 line.long 0x0 "APBADDR_PMU_CPU1_PMEVCNTR2_EL0,Performance Monitors Event Count Register 2" hexmask.long 0x0 0.--31. 1. "PMEVCNTR2_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x18++0x3 line.long 0x0 "APBADDR_PMU_CPU1_PMEVCNTR3_EL0,Performance Monitors Event Count Register 3" hexmask.long 0x0 0.--31. 1. "PMEVCNTR3_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x20++0x3 line.long 0x0 "APBADDR_PMU_CPU1_PMEVCNTR4_EL0,Performance Monitors Event Count Register 4" hexmask.long 0x0 0.--31. 1. "PMEVCNTR4_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x28++0x3 line.long 0x0 "APBADDR_PMU_CPU1_PMEVCNTR5_EL0,Performance Monitors Event Count Register 5" hexmask.long 0x0 0.--31. 1. "PMEVCNTR5_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0xF8++0x7 line.long 0x0 "APBADDR_PMU_CPU1_PMCCNTR_EL0_31_0,Performance Monitors Cycle Counter (low word)" hexmask.long 0x0 0.--31. 1. "CCNT,Cycle count. Depending on the values of PMCR_EL0.{LC D} the cycle count increments in one of the following ways:Every processor clock cycle.Every 64th processor clock cycle.The cycle count can be reset to zero by writing 1 to PMCR_EL0.C." line.long 0x4 "APBADDR_PMU_CPU1_PMCCNTR_EL0_63_32,Performance Monitors Cycle Counter (high word)" hexmask.long 0x4 0.--31. 1. "CCNT,Cycle count. Depending on the values of PMCR_EL0.{LC D} the cycle count increments in one of the following ways:Every processor clock cycle.Every 64th processor clock cycle.The cycle count can be reset to zero by writing 1 to PMCR_EL0.C." group.long 0x400++0x17 line.long 0x0 "APBADDR_PMU_CPU1_PMEVTYPER0_EL0,Performance Monitors Event Type Register 0" bitfld.long 0x0 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x0 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x0 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x0 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x0 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x0 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x0 10.--25. 1. "RES0_PMEVTYPER0_EL0_25_10,Reserved RES0." hexmask.long.word 0x0 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0x4 "APBADDR_PMU_CPU1_PMEVTYPER1_EL0,Performance Monitors Event Type Register 1" bitfld.long 0x4 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x4 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x4 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x4 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x4 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x4 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x4 10.--25. 1. "RES0_PMEVTYPER1_EL0_25_10,Reserved RES0." hexmask.long.word 0x4 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0x8 "APBADDR_PMU_CPU1_PMEVTYPER2_EL0,Performance Monitors Event Type Register 2" bitfld.long 0x8 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x8 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x8 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x8 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x8 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x8 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x8 10.--25. 1. "RES0_PMEVTYPER2_EL0_25_10,Reserved RES0." hexmask.long.word 0x8 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0xC "APBADDR_PMU_CPU1_PMEVTYPER3_EL0,Performance Monitors Event Type Register 3" bitfld.long 0xC 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0xC 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0xC 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0xC 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0xC 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0xC 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0xC 10.--25. 1. "RES0_PMEVTYPER3_EL0_25_10,Reserved RES0." hexmask.long.word 0xC 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0x10 "APBADDR_PMU_CPU1_PMEVTYPER4_EL0,Performance Monitors Event Type Register 4" bitfld.long 0x10 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x10 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x10 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x10 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x10 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x10 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x10 10.--25. 1. "RES0_PMEVTYPER4_EL0_25_10,Reserved RES0." hexmask.long.word 0x10 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0x14 "APBADDR_PMU_CPU1_PMEVTYPER5_EL0,Performance Monitors Event Type Register 5" bitfld.long 0x14 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x14 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x14 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x14 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x14 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x14 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x14 10.--25. 1. "RES0_PMEVTYPER5_EL0_25_10,Reserved RES0." hexmask.long.word 0x14 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." group.long 0x47C++0x3 line.long 0x0 "APBADDR_PMU_CPU1_PMCCFILTR_EL0,Performance Monitors Cycle Counter Filter Register" bitfld.long 0x0 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count cycles in EL1. 1.." "0,1" bitfld.long 0x0 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count cycles in EL0. 1.." "0,1" newline bitfld.long 0x0 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P cycles in Non-secure EL1 are counted.Otherwise cycles in Non-secure EL1 are.." "0,1" bitfld.long 0x0 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U cycles in Non-secure EL0 are counted.Otherwise cycles in Non-secure EL0 are.." "0,1" newline bitfld.long 0x0 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count cycles in EL2. 1 Count cycles in EL2." "0,1" bitfld.long 0x0 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P cycles in Secure EL3 are counted.Otherwise cycles in Secure EL3.." "0,1" newline hexmask.long 0x0 0.--25. 1. "RES0_PMCCFILTR_EL0_25_0,Reserved RES0." group.long 0xC00++0x3 line.long 0x0 "APBADDR_PMU_CPU1_PMCNTENSET_EL0,Performance Monitors Count Enable Set Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 enable bit. Enables the cycle counter register. Possible values are: 0 When read means the cycle counter is disabled. When written has no effect. 1 When read means the cycle.." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter enable bit for PMEVCNTR<x>.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values of each bit are: 0 When read means that PMEVCNTR<x> is disabled. When written has no effect." group.long 0xC20++0x3 line.long 0x0 "APBADDR_PMU_CPU1_PMCNTENCLR_EL0,Performance Monitors Count Enable Clear Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 disable bit. Disables the cycle counter register. Possible values are: 0 When read means the cycle counter is disabled. When written has no effect. 1 When read means the cycle.." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter disable bit for PMEVCNTR<x>.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values of each bit are: 0 When read means that PMEVCNTR<x> is disabled. When written has no effect." group.long 0xC40++0x3 line.long 0x0 "APBADDR_PMU_CPU1_PMINTENSET_EL1,Performance Monitors Interrupt Enable Set Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 overflow interrupt request enable bit. Possible values are: 0 When read means the cycle counter overflow interrupt request is disabled. When written has no effect. 1 When read .." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter overflow interrupt request enable bit for PMEVCNTR<x>_EL0.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values are: 0 When read means that the PMEVCNTR<x>_EL0 event counter interrupt request.." group.long 0xC60++0x3 line.long 0x0 "APBADDR_PMU_CPU1_PMINTENCLR_EL1,Performance Monitors Interrupt Enable Clear Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 overflow interrupt request disable bit. Possible values are: 0 When read means the cycle counter overflow interrupt request is disabled. When written has no effect. 1 When read .." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter overflow interrupt request disable bit for PMEVCNTR<x>_EL0.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values are: 0 When read means that the PMEVCNTR<x>_EL0 event counter interrupt request.." group.long 0xC80++0x3 line.long 0x0 "APBADDR_PMU_CPU1_PMOVSCLR_EL0,Performance Monitors Overflow Flag Status Clear Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 overflow bit. Possible values are: 0 When read means the cycle counter has not overflowed. When written has no effect. 1 When read means the cycle counter has overflowed. When.." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter overflow clear bit for PMEVCNTR<x>.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values of each bit are: 0 When read means that PMEVCNTR<x> has not overflowed. When written has no effect." group.long 0xCA0++0x3 line.long 0x0 "APBADDR_PMU_CPU1_PMSWINC_EL0,Performance Monitors Software Increment Register" hexmask.long 0x0 6.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--5. 1. "P_X,Event counter software increment bit for PMEVCNTR<x>" group.long 0xCC0++0x3 line.long 0x0 "APBADDR_PMU_CPU1_PMOVSSET_EL0,Performance Monitors Overflow Flag Status Set Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 overflow bit. Possible values are: 0 When read means the cycle counter has not overflowed. When written has no effect. 1 When read means the cycle counter has overflowed. When.." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter overflow set bit for PMEVCNTR<x>.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values are: 0 When read means that PMEVCNTR<x> has not overflowed. When written has no effect." group.long 0xE00++0x7 line.long 0x0 "APBADDR_PMU_CPU1_PMCFGR,Performance Monitors Configuration Register" hexmask.long.word 0x0 20.--31. 1. "RES0_PMCFGR_31_20,Reserved RES0." bitfld.long 0x0 19. "UEN,User-mode Enable Register supported. PMUSERENR_EL0 is not visible in the external debug interface so this bit is RES0." "0,1" newline bitfld.long 0x0 18. "WT,This feature is not supported so this bit is RES0." "0,1" bitfld.long 0x0 17. "NA,This feature is not supported so this bit is RES0." "0,1" newline bitfld.long 0x0 16. "EX,Export supported. Value is IMPLEMENTATION DEFINED. 0 PMCR_EL0.X is RES0. 1 PMCR_EL0.X is read/write." "0,1" bitfld.long 0x0 15. "CCD,Cycle counter has prescale. This is RES1 if AArch32 is supported at any EL and RES0 otherwise. 0 PMCR_EL0.D is RES0. 1 PMCR_EL0.D is read/write." "0,1" newline bitfld.long 0x0 14. "CC,Dedicated cycle counter [counter 31] supported. This bit is RES1." "0,1" hexmask.long.byte 0x0 8.--13. 1. "SIZE,Size of counters. This field determines the spacing of counters in the memory-map.In v8-A the counters are at doubleword-aligned addresses and the largest counter is 64-bits so this field is 0b111111." newline hexmask.long.byte 0x0 0.--7. 1. "N,Number of counters implemented in addition to the cycle counter PMCCNTR_EL0. The maximum number of event counters is 31 so bits[7:5] are always RES0. 00000000 Only PMCCNTR_EL0 implemented. 00000001.." line.long 0x4 "APBADDR_PMU_CPU1_PMCR_EL0,Performance Monitors Control Register" hexmask.long.tbyte 0x4 11.--31. 1. "RES0_PMCR_EL0_31_11,Reserved RAZ/WI." hexmask.long.byte 0x4 7.--10. 1. "RES0_PMCR_EL0_10_7,Reserved RES0." newline bitfld.long 0x4 6. "LC,Long cycle counter enable. Determines which PMCCNTR_EL0 bit generates an overflow recorded by PMOVSR[31]. 0 Cycle counter overflow on increment that changes PMCCNTR_EL0[31] from 1 to 0. 1 Cycle.." "0,1" bitfld.long 0x4 5. "DP,Disable cycle counter when event counting is prohibited. The possible values of this bit are: 0 PMCCNTR_EL0 if enabled counts when event counting is prohibited. 1 PMCCNTR_EL0 does not count.." "0,1" newline bitfld.long 0x4 4. "X,Enable export of events in an IMPLEMENTATION DEFINED event stream. The possible values of this bit are: 0 Do not export events. 1 Export events where not prohibited. This bit is.." "0,1" bitfld.long 0x4 3. "D,Clock divider. The possible values of this bit are: 0 When enabled PMCCNTR_EL0 counts every clock cycle. 1 When enabled PMCCNTR_EL0 counts once every 64 clock cycles. This bit.." "0,1" newline bitfld.long 0x4 2. "C,Cycle counter reset. This bit is WO. The effects of writing to this bit are: 0 No action. 1 Reset PMCCNTR_EL0 to zero. This bit is always RAZ.Resetting PMCCNTR_EL0 does not.." "0,1" bitfld.long 0x4 1. "P,Event counter reset. This bit is WO. The effects of writing to this bit are: 0 No action. 1 Reset all event counters not including PMCCNTR_EL0 to zero. This bit is always.." "0,1" newline bitfld.long 0x4 0. "E,Enable. The possible values of this bit are: 0 All counters including PMCCNTR_EL0 are disabled. 1 All counters are enabled by PMCNTENSET_EL0. This bit is RW." "0,1" group.long 0xE20++0x7 line.long 0x0 "APBADDR_PMU_CPU1_PMCEID0_EL0,Performance Monitors Common Event Identification Register 0" hexmask.long 0x0 0.--31. 1. "CE_31_0,Common architectural and microarchitectural feature events that can be counted by the PMU event counters.For each bit described in the following table the event is implemented if the bit is set to 1 or not implemented if the bit is set to.." line.long 0x4 "APBADDR_PMU_CPU1_PMCEID1_EL0,Performance Monitors Common Event Identification Register 1" hexmask.long 0x4 1.--31. 1. "RES0_PMCEID1_EL0_31_1,Reserved RES0." bitfld.long 0x4 0. "CE_32,Common architectural and microarchitectural feature events that can be counted by the PMU event counters.For the bit described in the following table the event is implemented if the bit is set to 1 or not implemented if the bit is set to.." "0,1" group.long 0xF00++0x3 line.long 0x0 "APBADDR_PMU_CPU1_PMITCTRL,Performance Monitors Integration mode Control Register" hexmask.long 0x0 1.--31. 1. "RES0_PMITCTRL_31_1,Reserved RES0." bitfld.long 0x0 0. "IME,Integration mode enable. When IME == 1 the device reverts to an integration mode to enable integration testing or topology detection. The integration mode behavior is IMPLEMENTATION DEFINED. 0 Normal operation." "0,1" group.long 0xFA8++0x17 line.long 0x0 "APBADDR_PMU_CPU1_PMDEVAFF0,Performance Monitors Device Affinity Register 0" hexmask.long 0x0 0.--31. 1. "PMDEVAFF0,MPIDR_EL1 low half. Read-only copy of the low half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x4 "APBADDR_PMU_CPU1_PMDEVAFF1,Performance Monitors Device Affinity Register 1" hexmask.long 0x4 0.--31. 1. "PMDEVAFF1,MPIDR_EL1 high half. Read-only copy of the high half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x8 "APBADDR_PMU_CPU1_PMLAR,Performance Monitors Lock Access Register" hexmask.long 0x8 0.--31. 1. "KEY,Lock Access control. Writing the key value 0xC5ACCE55 to this field unlocks the lock enabling write accesses to this component's registers through a memory-mapped interface.Writing any other value to this register locks the lock disabling write.." line.long 0xC "APBADDR_PMU_CPU1_PMLSR,Performance Monitors Lock Status Register" hexmask.long 0xC 3.--31. 1. "RES0_PMLSR_31_3,Reserved RES0." bitfld.long 0xC 2. "NTT,Not thirty-two bit access required. RAZ." "0,1" newline bitfld.long 0xC 1. "SLK,Software lock status for this component. For an access to LSR that is not a memory-mapped access or when the software lock is not implemented this field is RES0.For memory-mapped accesses when the software lock is implemented possible values of.." "0,1" bitfld.long 0xC 0. "SLI,Software lock implemented. For an access to LSR that is not a memory-mapped access this field is RAZ. For memory-mapped accesses the value of this field is IMPLEMENTATION DEFINED. Permitted values are: 0 Software lock not.." "0,1" line.long 0x10 "APBADDR_PMU_CPU1_PMAUTHSTATUS,Performance Monitors Authentication Status Register" hexmask.long.tbyte 0x10 8.--31. 1. "RES0_PMAUTHSTATUS_31_8,Reserved RES0." bitfld.long 0x10 6.--7. "SNID,Holds the same value as DBGAUTHSTATUS_EL1.SNID." "0,1,2,3" newline bitfld.long 0x10 4.--5. "RES0_PMAUTHSTATUS_5_4,Reserved RES0." "0,1,2,3" bitfld.long 0x10 2.--3. "NSNID,Holds the same value as DBGAUTHSTATUS_EL1.NSNID." "0,1,2,3" newline bitfld.long 0x10 0.--1. "RES0_PMAUTHSTATUS_1_0,Reserved RES0." "0,1,2,3" line.long 0x14 "APBADDR_PMU_CPU1_PMDEVARCH,Performance Monitors Device Architecture Register" hexmask.long.word 0x14 21.--31. 1. "ARCHITECT,Defines the architecture of the component. For Performance Monitors this is ARM Limited.Bits [31:28] are the JEP 106 continuation code 0x4.Bits [27:21] are the JEP 106 ID code 0x3B." bitfld.long 0x14 20. "PRESENT,When set to 1 indicates that the DEVARCH is present.This field is 1 in v8-A." "0,1" newline hexmask.long.byte 0x14 16.--19. 1. "REVISION,Defines the architecture revision. For architectures defined by ARM this is the minor revision.For Performance Monitors the revision defined by v8-A is 0x0.All other values are reserved." hexmask.long.word 0x14 0.--15. 1. "ARCHID,Defines this part to be a v8-A debug component. For architectures defined by ARM this is further subdivided.For Performance Monitors:Bits [15:12] are the architecture version 0x2.Bits [11:0] are the architecture part number 0xA16.This.." group.long 0xFCC++0x33 line.long 0x0 "APBADDR_PMU_CPU1_PMDEVTYPE,Performance Monitors Device Type Register" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_PMDEVTYPE_31_8,Reserved RES0." hexmask.long.byte 0x0 4.--7. 1. "SUB,Subtype. Must read as 0x1 to indicate this is a processor component." newline hexmask.long.byte 0x0 0.--3. 1. "MAJOR,Major type. Must read as 0x6 to indicate this is a performance monitor component." line.long 0x4 "APBADDR_PMU_CPU1_PMPIDR4,Performance Monitors Peripheral Identification Register 4" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_PMPIDR4_31_8,Reserved RES0." hexmask.long.byte 0x4 4.--7. 1. "SIZE,Size of the component. RAZ. Log2 of the number of 4KB pages from the start of the component to the end of the component ID registers." newline hexmask.long.byte 0x4 0.--3. 1. "DES_2,Designer JEP106 continuation code least significant nibble. For ARM Limited this field is 0b0100." line.long 0x8 "APBADDR_PMU_CPU1_PMPIDR5,Performance Monitors Peripheral Identification Register 5" hexmask.long 0x8 0.--31. 1. "RESERVED,Reserved RES0" line.long 0xC "APBADDR_PMU_CPU1_PMPIDR6,Performance Monitors Peripheral Identification Register 6" hexmask.long 0xC 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x10 "APBADDR_PMU_CPU1_PMPIDR7,Performance Monitors Peripheral Identification Register 7" hexmask.long 0x10 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x14 "APBADDR_PMU_CPU1_PMPIDR0,Performance Monitors Peripheral Identification Register 0" hexmask.long.tbyte 0x14 8.--31. 1. "RES0_PMPIDR0_31_8,Reserved RES0." hexmask.long.byte 0x14 0.--7. 1. "PART_0,Part number least significant byte." line.long 0x18 "APBADDR_PMU_CPU1_PMPIDR1,Performance Monitors Peripheral Identification Register 1" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_PMPIDR1_31_8,Reserved RES0." hexmask.long.byte 0x18 4.--7. 1. "DES_0,Designer least significant nibble of JEP106 ID code. For ARM Limited this field is 0b1011." newline hexmask.long.byte 0x18 0.--3. 1. "PART_1,Part number most significant nibble." line.long 0x1C "APBADDR_PMU_CPU1_PMPIDR2,Performance Monitors Peripheral Identification Register 2" hexmask.long.tbyte 0x1C 8.--31. 1. "RES0_PMPIDR2_31_8,Reserved RES0." hexmask.long.byte 0x1C 4.--7. 1. "REVISION,Part major revision. Parts can also use this field to extend Part number to 16-bits." newline bitfld.long 0x1C 3. "JEDEC,RAO. Indicates a JEP106 identity code is used." "0,1" bitfld.long 0x1C 0.--2. "DES_1,Designer most significant bits of JEP106 ID code. For ARM Limited this field is 0b011." "0,1,2,3,4,5,6,7" line.long 0x20 "APBADDR_PMU_CPU1_PMPIDR3,Performance Monitors Peripheral Identification Register 3" hexmask.long.tbyte 0x20 8.--31. 1. "RES0_PMPIDR3_31_8,Reserved RES0." hexmask.long.byte 0x20 4.--7. 1. "REVAND,Part minor revision. Parts using PMPIDR2.REVISION as an extension to the Part number must use this field as a major revision number." newline hexmask.long.byte 0x20 0.--3. 1. "CMOD,Customer modified. Indicates someone other than the Designer has modified the component." line.long 0x24 "APBADDR_PMU_CPU1_PMCIDR0,Performance Monitors Component Identification Register 0" hexmask.long.tbyte 0x24 8.--31. 1. "RES0_PMCIDR0_31_8,Reserved RES0." hexmask.long.byte 0x24 0.--7. 1. "PRMBL_0,Preamble. Must read as 0x0D." line.long 0x28 "APBADDR_PMU_CPU1_PMCIDR1,Performance Monitors Component Identification Register 1" hexmask.long.tbyte 0x28 8.--31. 1. "RES0_PMCIDR1_31_8,Reserved RES0." hexmask.long.byte 0x28 4.--7. 1. "CLASS,Component class. Reads as 0x9 debug component." newline hexmask.long.byte 0x28 0.--3. 1. "PRMBL_1,Preamble. RAZ." line.long 0x2C "APBADDR_PMU_CPU1_PMCIDR2,Performance Monitors Component Identification Register 2" hexmask.long.tbyte 0x2C 8.--31. 1. "RES0_PMCIDR2_31_8,Reserved RES0." hexmask.long.byte 0x2C 0.--7. 1. "PRMBL_2,Preamble. Must read as 0x05." line.long 0x30 "APBADDR_PMU_CPU1_PMCIDR3,Performance Monitors Component Identification Register 3" hexmask.long.tbyte 0x30 8.--31. 1. "RES0_PMCIDR3_31_8,Reserved RES0." hexmask.long.byte 0x30 0.--7. 1. "PRMBL_3,Preamble. Must read as 0xB1." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "A53SS0_CORE1_ETM (A53SS0_CORE1_ETM)" base ad:0x730130000 group.long 0x4++0x3 line.long 0x0 "APBADDR_ETM_CPU1_TRCPRGCTLR,Programming Control Register" hexmask.long 0x0 1.--31. 1. "RES0_TRCPRGCTLR_31_1,Reserved RES0." bitfld.long 0x0 0. "EN,Trace unit enable bit. Possible values are: 0 The trace unit is disabled. All trace resources are inactive and no trace is generated. 1 The trace unit is enabled." "0,1" group.long 0xC++0x7 line.long 0x0 "APBADDR_ETM_CPU1_TRCSTATR,Status Register" hexmask.long 0x0 2.--31. 1. "RES0_TRCSTATR_31_2,Reserved RES0." bitfld.long 0x0 1. "PMSTABLE,Programmer's model stable bit: 0 The programmer's model is not stable. 1 The programmer's model is stable. When polled the trace unit trace registers return stable data." "0,1" bitfld.long 0x0 0. "IDLE,Idle status bit: 0 The trace unit is not idle. 1 The trace unit is idle. The trace unit is idle when all of the following are true:TRCPRGCTLR.EN==0 or the OS Lock is.." "0,1" line.long 0x4 "APBADDR_ETM_CPU1_TRCCONFIGR,Trace Configuration Register" hexmask.long.word 0x4 18.--31. 1. "RES0_TRCCONFIGR_31_18,Reserved RES0." bitfld.long 0x4 17. "DV,Data value tracing bit: 0 Data value tracing is disabled. 1 Data value tracing is enabled when INSTP0 is not 0b00. TRCIDR0.TRCDATA indicates whether this bit is supported. If.." "0,1" bitfld.long 0x4 16. "DA,Data address tracing bit: 0 Data address tracing is disabled. 1 Data address tracing is enabled when INSTP0 is not 0b00. TRCIDR0.TRCDATA indicates whether this bit is.." "0,1" newline bitfld.long 0x4 15. "RES0_TRCCONFIGR_15_15,Reserved RES0." "0,1" bitfld.long 0x4 13.--14. "QE,Q element enable field: 00 Q elements are disabled. 01 Q elements with instruction counts are enabled. Q elements without instruction counts are disabled. 11.." "0,1,2,3" bitfld.long 0x4 12. "RS,Return stack enable bit. 0 Return stack is disabled. 1 Return stack is enabled. TRCIDR0.RETSTACK indicates whether this bit is supported. If it is not supported then this bit.." "0,1" newline bitfld.long 0x4 11. "TS,Global timestamp tracing bit: 0 Global timestamp tracing is disabled. 1 Global timestamp tracing is enabled. TRCTSCTLR controls the insertion of timestamps in the trace." "0,1" bitfld.long 0x4 8.--10. "COND,Conditional instruction tracing bit. The permitted values are: 000 Conditional instruction tracing is disabled. 001 Conditional load instructions are traced. 010.." "0,1,2,3,4,5,6,7" bitfld.long 0x4 7. "VMID,VMID tracing bit: 0 VMID tracing is disabled. 1 VMID tracing is enabled. TRCIDR2.VMIDSIZE indicates whether this bit is supported. If it is not supported then this bit is RES0." "0,1" newline bitfld.long 0x4 6. "CID,Context ID tracing bit: 0 Context ID tracing is disabled. 1 Context ID tracing is enabled. TRCIDR2.CIDSIZE indicates whether this bit is supported. If it is not supported then.." "0,1" bitfld.long 0x4 5. "RES0_TRCCONFIGR_5_5,Reserved RES0." "0,1" bitfld.long 0x4 4. "CCI,Cycle counting instruction trace bit: 0 Cycle counting in the instruction trace is disabled. 1 Cycle counting in the instruction trace is enabled. TRCCCCTLR controls the threshold value for.." "0,1" newline bitfld.long 0x4 3. "BB,Branch broadcast mode bit: 0 Branch broadcast mode is disabled. 1 Branch broadcast mode is enabled. TRCBBCTLR controls which regions of memory are enabled to use branch broadcasting." "0,1" bitfld.long 0x4 1.--2. "INSTP0,Instruction P0 bit. This field controls whether load and store instructions are traced as P0 instructions: 00 Do not trace load and store instructions as P0 instructions. 01 Trace load.." "0,1,2,3" bitfld.long 0x4 0. "RES1_TRCCONFIGR_0_0,Reserved RES1." "0,1" group.long 0x18++0x3 line.long 0x0 "APBADDR_ETM_CPU1_TRCAUXCTLR,Auxiliary Control Register" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_TRCAUXCTLR_31_8,Reserved RES0" bitfld.long 0x0 7. "COREIFEN,Keep core interface enabled regardless of trace enable register state" "0,1" bitfld.long 0x0 6. "RES0_TRCAUXCTLR_6_6,Reserved RES0" "0,1" newline bitfld.long 0x0 5. "AUTHNOFLUSH,Do not flush trace on de-assertion of authentication inputs. When this bit is set to 1 the trace unit behavior deviates from architecturally-specified behavior." "0,1" bitfld.long 0x0 4. "TSNODELAY,Do not delay timestamp insertion based on FIFO depth." "0,1" bitfld.long 0x0 3. "SYNCDELAY,Delay periodic synchronization if FIFO is more than half-full." "0,1" newline bitfld.long 0x0 2. "OVFLW,Force an overflow if synchronization is not completed when second synchronization becomes due. When this bit is set to 1 the trace unit behavior deviates from architecturally-specified behavior." "0,1" bitfld.long 0x0 1. "IDLEACK,Force idle-drain acknowledge high CPU does not wait for trace to drain before entering WFX state. When this bit is set to 1 trace unit behavior deviates from architecturally-specified behavior." "0,1" bitfld.long 0x0 0. "AFREADY,Always respond to AFREADY immediately. Does not have any interaction with FIFO draining even in WFI state." "0,1" group.long 0x20++0x7 line.long 0x0 "APBADDR_ETM_CPU1_TRCEVENTCTL0R,Event Control 0 Register" bitfld.long 0x0 31. "TYPE3,Selects the resource type for trace event 3" "0,1" bitfld.long 0x0 28.--30. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 24.--27. 1. "SEL3,Selects the resource number based on the value of TYPE3" newline bitfld.long 0x0 23. "TYPE2,Selects the resource type for trace event 2" "0,1" bitfld.long 0x0 20.--22. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 16.--19. 1. "SEL2,Selects the resource number based on the value of TYPE2" newline bitfld.long 0x0 15. "TYPE1,Selects the resource type for trace event 1" "0,1" bitfld.long 0x0 12.--14. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "SEL1,Selects the resource number based on the value of TYPE1" newline bitfld.long 0x0 7. "TYPE0,Selects the resource type for trace event 0" "0,1" bitfld.long 0x0 4.--6. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 0.--3. 1. "SEL0,Selects the resource number based on the value of TYPE0" line.long 0x4 "APBADDR_ETM_CPU1_TRCEVENTCTL1R,Event Control 1 Register" hexmask.long.tbyte 0x4 13.--31. 1. "RESERVED,Reserved RES0" bitfld.long 0x4 12. "LPOVERRIDE,Low power state behavior override" "0,1" bitfld.long 0x4 11. "ATB,ATB trigger enable" "0,1" newline hexmask.long.byte 0x4 4.--10. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "EN,One bit per event to enable generation of an event element in the instruction trace stream when the selected event occurs" group.long 0x2C++0x17 line.long 0x0 "APBADDR_ETM_CPU1_TRCSTALLCTLR,Stall Control Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED,Reserved RES0" bitfld.long 0x0 8. "ISTALL,Controls if the trace unit can stall the processor when the instruction trace buffer space is less than LEVEL" "0,1" hexmask.long.byte 0x0 4.--7. 1. "RESERVED,Reserved RES0" newline bitfld.long 0x0 2.--3. "LEVEL,The field can support 4 monotonic levels from 0b00 to 0b11" "0,1,2,3" bitfld.long 0x0 0.--1. "RESERVED,Reserved RES0" "0,1,2,3" line.long 0x4 "APBADDR_ETM_CPU1_TRCTSCTLR,Global Timestamp Control Register" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_TRCTSCTLR_31_8,Reserved RES0." hexmask.long.byte 0x4 0.--7. 1. "EVENT,An event selector. When the selected event is triggered the trace unit inserts a global timestamp into the trace streams." line.long 0x8 "APBADDR_ETM_CPU1_TRCSYNCPR,Synchronization Period Register" hexmask.long 0x8 5.--31. 1. "RES0_TRCSYNCPR_31_5,Reserved RES0." hexmask.long.byte 0x8 0.--4. 1. "PERIOD,Controls how many bytes of trace the sum of instruction and data that a trace unit can generate before a periodic trace synchronization request occurs. The number of bytes is always a power of two and the permitted values are: 00000.." line.long 0xC "APBADDR_ETM_CPU1_TRCCCCTLR,Cycle Count Control Register" hexmask.long.tbyte 0xC 12.--31. 1. "RES0_TRCCCCTLR_31_12,Reserved RES0." hexmask.long.word 0xC 0.--11. 1. "THRESHOLD,Sets the threshold value for instruction trace cycle counting.The minimum threshold value that can be programmed into THRESHOLD is given in TRCIDR3.CCITMIN.Writing a value of zero might cause UNPREDICTABLE behaviour." line.long 0x10 "APBADDR_ETM_CPU1_TRCBBCTLR,Branch Broadcast Control Register" hexmask.long.tbyte 0x10 9.--31. 1. "RES0_TRCBBCTLR_31_9,Reserved RES0." bitfld.long 0x10 8. "MODE,Mode bit: 0 Exclude mode. Branch broadcasting is not enabled in the address range that RANGE defines. If RANGE==0 then branch broadcasting is enabled for the entire memory map. 1 Include mode." "0,1" hexmask.long.byte 0x10 0.--7. 1. "RANGE,Address range field. Selects which address range comparator pairs are in use with branch broadcasting. Each bit represents an address range comparator pair so bit[n] controls the selection of address range comparator pair n. If bit[n] is: 0.." line.long 0x14 "APBADDR_ETM_CPU1_TRCTRACEIDR,Trace ID Register" hexmask.long 0x14 7.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x14 0.--6. 1. "TRACEID,Trace ID value. When only instruction tracing is enabled this provides the trace ID." group.long 0x80++0xB line.long 0x0 "APBADDR_ETM_CPU1_TRCVICTLR,ViewInst Main Control Register" hexmask.long.byte 0x0 24.--31. 1. "RES0_TRCVICTLR_31_24,Reserved RES0." hexmask.long.byte 0x0 20.--23. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether instruction tracing is enabled for the corresponding exception level: 0 The trace unit generates instruction trace in Non-secure state for exception level n." hexmask.long.byte 0x0 16.--19. 1. "EXLEVEL_S,In Secure state each bit controls whether instruction tracing is enabled for the corresponding exception level: 0 The trace unit generates instruction trace in Secure state for exception level n. 1.." newline hexmask.long.byte 0x0 12.--15. 1. "RES0_TRCVICTLR_15_12,Reserved RES0." bitfld.long 0x0 11. "TRCERR,If TRCIDR3.TRCERR==1 this bit controls whether a trace unit must trace a system error exception: 0 The trace unit does not trace a system error exception unless it traces the exception or instruction immediately prior to the.." "0,1" bitfld.long 0x0 10. "TRCRESET,Controls whether a trace unit must trace a Reset exception: 0 The trace unit does not trace a Reset exception unless it traces the exception or instruction immediately prior to the Reset exception. 1.." "0,1" newline bitfld.long 0x0 9. "SSSTATUS,IF TRCIDR4.NUMACPAIRS>0 or TRCIDR.NUMPC>0 this bit returns the status of the start-stop logic: 0 The start-stop logic is in the stopped state. 1 The start-stop logic is in the started.." "0,1" bitfld.long 0x0 8. "RES0_TRCVICTLR_8_8,Reserved RES0." "0,1" hexmask.long.byte 0x0 0.--7. 1. "EVENT,An event selector. [TODO: Add the bit assignments for EVENT fields into the descriptions directly?]" line.long 0x4 "APBADDR_ETM_CPU1_TRCVIIECTLR,ViewInst Include-Exclude Control Register" hexmask.long.byte 0x4 24.--31. 1. "RES0_TRCVIIECTLR_31_24,Reserved RES0." hexmask.long.byte 0x4 16.--23. 1. "EXCLUDE,0 1 The implemented width of the field n is IMPLEMENTATION DEFINED and is set by the value of TRCIDR4.NUMACPAIRS. Unimplemented bits are RAZ/WI." hexmask.long.byte 0x4 8.--15. 1. "RES0_TRCVIIECTLR_15_8,Reserved RES0." newline hexmask.long.byte 0x4 0.--7. 1. "INCLUDE,Include range field. Selects which address range comparator pairs are in use with ViewInst include control. Each bit represents an address range comparator pair so bit[m] controls the selection of address range comparator pair m. If bit[m] is:.." line.long 0x8 "APBADDR_ETM_CPU1_TRCVISSCTLR,ViewInst Start-Stop Control Register" hexmask.long.word 0x8 16.--31. 1. "STOP,Selects which single address comparators are in use with ViewInst start-stop control for the purpose of stopping trace. Each bit represents a single address comparator so bit[m] controls the selection of single address comparator m-16. If bit[m].." hexmask.long.word 0x8 0.--15. 1. "START,Selects which single address comparators are in use with ViewInst start-stop control for the purpose of starting trace. Each bit represents a single address comparator so bit[n] controls the selection of single address comparator n. If bit[n] is:.." group.long 0x100++0xB line.long 0x0 "APBADDR_ETM_CPU1_TRCSEQEVR0,Sequencer State Transition Control Registers 0" hexmask.long.word 0x0 16.--31. 1. "RES0_TRCSEQEVR0_31_16,Reserved RES0." hexmask.long.byte 0x0 8.--15. 1. "B_N,Backward field. Contains an event number. When the event occurs then the sequencer state moves from state n+1 to state n.For example for TRCSEQEVR2 if B2==0x14 then when event 0x14 occurs the sequencer moves from state 3 to state 2." hexmask.long.byte 0x0 0.--7. 1. "F_N,Forward field. Contains an event number. When the event occurs then the sequencer state moves from state n to state n+1.For example for TRCSEQEVR1 if F1==0x12 then when event 0x12 occurs the sequencer moves from state 1 to state 2." line.long 0x4 "APBADDR_ETM_CPU1_TRCSEQEVR1,Sequencer State Transition Control Registers 1" hexmask.long.word 0x4 16.--31. 1. "RES0_TRCSEQEVR1_31_16,Reserved RES0." hexmask.long.byte 0x4 8.--15. 1. "B_N,Backward field. Contains an event number. When the event occurs then the sequencer state moves from state n+1 to state n.For example for TRCSEQEVR2 if B2==0x14 then when event 0x14 occurs the sequencer moves from state 3 to state 2." hexmask.long.byte 0x4 0.--7. 1. "F_N,Forward field. Contains an event number. When the event occurs then the sequencer state moves from state n to state n+1.For example for TRCSEQEVR1 if F1==0x12 then when event 0x12 occurs the sequencer moves from state 1 to state 2." line.long 0x8 "APBADDR_ETM_CPU1_TRCSEQEVR2,Sequencer State Transition Control Registers 2" hexmask.long.word 0x8 16.--31. 1. "RES0_TRCSEQEVR2_31_16,Reserved RES0." hexmask.long.byte 0x8 8.--15. 1. "B_N,Backward field. Contains an event number. When the event occurs then the sequencer state moves from state n+1 to state n.For example for TRCSEQEVR2 if B2==0x14 then when event 0x14 occurs the sequencer moves from state 3 to state 2." hexmask.long.byte 0x8 0.--7. 1. "F_N,Forward field. Contains an event number. When the event occurs then the sequencer state moves from state n to state n+1.For example for TRCSEQEVR1 if F1==0x12 then when event 0x12 occurs the sequencer moves from state 1 to state 2." group.long 0x118++0xB line.long 0x0 "APBADDR_ETM_CPU1_TRCSEQRSTEVR,Sequencer Reset Control Register" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_TRCSEQRSTEVR_31_8,Reserved RES0." hexmask.long.byte 0x0 0.--7. 1. "RST,Contains an event number. When the event occurs then the sequencer state moves to state 0." line.long 0x4 "APBADDR_ETM_CPU1_TRCSEQSTR,Sequencer State Register" hexmask.long 0x4 2.--31. 1. "RES0_TRCSEQSTR_31_2,Reserved RES0." bitfld.long 0x4 0.--1. "STATE,Sets or returns the state of the sequencer: 00 State 0. 01 State 1. 10 State 2. 11 State 3." "0,1,2,3" line.long 0x8 "APBADDR_ETM_CPU1_TRCEXTINSELR,External Input Select Register" bitfld.long 0x8 29.--31. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "SEL3,Selects an event from the external input bus for External Input Resource 3." bitfld.long 0x8 21.--23. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x8 16.--20. 1. "SEL2,Selects an event from the external input bus for External Input Resource 2" bitfld.long 0x8 13.--15. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 8.--12. 1. "SEL1,Selects an event from the external input bus for External Input Resource 1" newline bitfld.long 0x8 5.--7. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 0.--4. 1. "SEL0,Selects an event from the external input bus for External Input Resource 0" group.long 0x140++0x7 line.long 0x0 "APBADDR_ETM_CPU1_TRCCNTRLDVR0,Counter Reload Value Registers 0" hexmask.long.word 0x0 16.--31. 1. "RES0_TRCCNTRLDVR0_31_16,Reserved RES0." hexmask.long.word 0x0 0.--15. 1. "VALUE_N,Contains the reload value for counter <n>. When a reload event occurs for counter <n> then the trace unit copies the VALUE<n> field into counter <n>." line.long 0x4 "APBADDR_ETM_CPU1_TRCCNTRLDVR1,Counter Reload Value Registers 1" hexmask.long.word 0x4 16.--31. 1. "RES0_TRCCNTRLDVR1_31_16,Reserved RES0." hexmask.long.word 0x4 0.--15. 1. "VALUE_N,Contains the reload value for counter <n>. When a reload event occurs for counter <n> then the trace unit copies the VALUE<n> field into counter <n>." group.long 0x150++0x7 line.long 0x0 "APBADDR_ETM_CPU1_TRCCNTCTLR0,Counter Control Register 0" hexmask.long.word 0x0 18.--31. 1. "RES0_TRCCNTCTLR0_31_18,Reserved RES0." bitfld.long 0x0 17. "CNTCHAIN_N,For TRCCNTCTLR3 and TRCCNTCTLR1 controls whether counter <n> decrements when a reload event occurs for counter <n-1>: 0 1 For TRCCNTCTLR2 and TRCCNTCTLR0 .." "0,1" bitfld.long 0x0 16. "RLDSELF_N,Controls whether a reload event occurs for counter <n> when counter <n> reaches zero: 0 The trace unit does not generate a reload event. 1 The trace unit generates a reload event.." "0,1" newline hexmask.long.byte 0x0 8.--15. 1. "RLDEVENT_N,Selects an event that when it occurs causes a reload event for counter <n>." hexmask.long.byte 0x0 0.--7. 1. "CNTEVENT_N,Selects an event that when it occurs causes counter <n> to decrement." line.long 0x4 "APBADDR_ETM_CPU1_TRCCNTCTLR1,Counter Control Register 1" hexmask.long.word 0x4 18.--31. 1. "RES0_TRCCNTCTLR1_31_18,Reserved RES0." bitfld.long 0x4 17. "CNTCHAIN_N,For TRCCNTCTLR3 and TRCCNTCTLR1 controls whether counter <n> decrements when a reload event occurs for counter <n-1>: 0 1 For TRCCNTCTLR2 and TRCCNTCTLR0 .." "0,1" bitfld.long 0x4 16. "RLDSELF_N,Controls whether a reload event occurs for counter <n> when counter <n> reaches zero: 0 The trace unit does not generate a reload event. 1 The trace unit generates a reload event.." "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "RLDEVENT_N,Selects an event that when it occurs causes a reload event for counter <n>." hexmask.long.byte 0x4 0.--7. 1. "CNTEVENT_N,Selects an event that when it occurs causes counter <n> to decrement." group.long 0x160++0x7 line.long 0x0 "APBADDR_ETM_CPU1_TRCCNTVR0,Counter Value Registers 0" hexmask.long.word 0x0 16.--31. 1. "RES0_TRCCNTVR0_31_16,Reserved RES0." hexmask.long.word 0x0 0.--15. 1. "VALUE_N,Contains the count value of counter <n>." line.long 0x4 "APBADDR_ETM_CPU1_TRCCNTVR1,Counter Value Registers 1" hexmask.long.word 0x4 16.--31. 1. "RES0_TRCCNTVR1_31_16,Reserved RES0." hexmask.long.word 0x4 0.--15. 1. "VALUE_N,Contains the count value of counter <n>." group.long 0x180++0x17 line.long 0x0 "APBADDR_ETM_CPU1_TRCIDR8,ID Register 8" hexmask.long 0x0 0.--31. 1. "MAXSPEC,Indicates the maximum speculation depth of the instruction trace stream. This is the maximum number of P0 elements in the trace stream that can be speculative at any time." line.long 0x4 "APBADDR_ETM_CPU1_TRCIDR9,ID Register 9" hexmask.long 0x4 0.--31. 1. "NUMP0KEY,Indicates the number of P0 right-hand keys that the trace unit can use. A value of 0 or 1 indicates one P0 key." line.long 0x8 "APBADDR_ETM_CPU1_TRCIDR10,ID Register 10" hexmask.long 0x8 0.--31. 1. "NUMP1KEY,Indicates the number of P1 right-hand keys that the trace unit can use. The number includes normal and special keys." line.long 0xC "APBADDR_ETM_CPU1_TRCIDR11,ID Register 11" hexmask.long 0xC 0.--31. 1. "NUMP1SPC,Indicates the number of special P1 right-hand keys that the trace unit can use." line.long 0x10 "APBADDR_ETM_CPU1_TRCIDR12,ID Register 12" hexmask.long 0x10 0.--31. 1. "NUMCONDKEY,Indicates the number of conditional instruction right-hand keys that the trace unit can use. The number includes normal and special keys." line.long 0x14 "APBADDR_ETM_CPU1_TRCIDR13,ID Register 13" hexmask.long 0x14 0.--31. 1. "NUMCONDSPC,Indicates the number of special conditional instruction right-hand keys that the trace unit can use." group.long 0x1C0++0x3 line.long 0x0 "APBADDR_ETM_CPU1_TRCIMSPEC0,Implementation Specific Register 0" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_TRCIMSPEC0_31_8,Reserved RES0." hexmask.long.byte 0x0 4.--7. 1. "EN,If SUPPORT is not 0b0000 controls whether the IMPLEMENTATION DEFINED features are enabled. The permitted values are: 0000 The IMPLEMENTATION DEFINED features are not enabled. The trace unit must behave as if the IMPLEMENTATION.." hexmask.long.byte 0x0 0.--3. 1. "SUPPORT,Indicates whether the implementation supports IMPLEMENTATION DEFINED features. The permitted values are: 0000 No IMPLEMENTATION DEFINED features are supported. The EN field is RES0. and any other value which.." group.long 0x1E0++0x17 line.long 0x0 "APBADDR_ETM_CPU1_TRCIDR0,ID Register 0" bitfld.long 0x0 30.--31. "RES0_TRCIDR0_31_30,Reserved RES0." "0,1,2,3" bitfld.long 0x0 29. "COMMOPT,Conditional instruction tracing support bit. Indicates if the trace unit supports conditional instruction tracing: 0 Conditional instruction tracing is not supported. 1 Conditional.." "0,1" hexmask.long.byte 0x0 24.--28. 1. "TSSIZE,Global timestamp size field. The permitted values are: 00000 Global timestamping is not implemented. 00110 Implementation supports a maximum global timestamp of 48bits." newline hexmask.long.byte 0x0 17.--23. 1. "RES0_TRCIDR0_23_17,Reserved RES0." bitfld.long 0x0 15.--16. "QSUPP,Q element support field. The permitted values are: 00 Q element support is not implemented. TRCCONFIGR.QE is RES0. 01 Q element support is implemented and only supports Q elements with.." "0,1,2,3" bitfld.long 0x0 14. "QFILT,Q element filtering support field. The permitted values are: 0 Q element filtering is not implemented. 1 Q element filtering is implemented. TRCQCTLR is implemented. When.." "0,1" newline bitfld.long 0x0 12.--13. "CONDTYPE,Conditional tracing field. The permitted values are: 00 The trace unit indicates only if a conditional instruction is a pass or fail. 01 The trace unit provides the Current Program Status.." "0,1,2,3" bitfld.long 0x0 10.--11. "NUMEVENT,Number of events field. Indicates how many events the trace unit supports: 00 The trace unit supports 1 event. 01 The trace unit supports 2 events. 10.." "0,1,2,3" bitfld.long 0x0 9. "RETSTACK,Return stack bit. Indicates if the implementation supports a return stack: 0 Return stack is not implemented. 1 Return stack is implemented so TRCCONFIGR.RS is supported." "0,1" newline bitfld.long 0x0 8. "RES0_TRCIDR0_8_8,Reserved RES0." "0,1" bitfld.long 0x0 7. "TRCCCI,Cycle counting instruction bit. Indicates if the trace unit supports cycle counting for instructions: 0 Cycle counting in the instruction trace is not implemented. 1 Cycle counting in the.." "0,1" bitfld.long 0x0 6. "TRCCOND,Conditional instruction tracing support bit. Indicates if the trace unit supports conditional instruction tracing: 0 Conditional instruction tracing is not supported. 1 Conditional.." "0,1" newline bitfld.long 0x0 5. "TRCBB,Branch broadcast tracing support bit. Indicates if the trace unit supports branch broadcast tracing: 0 Branch broadcast tracing is not supported. 1 Branch broadcast tracing is supported so.." "0,1" bitfld.long 0x0 3.--4. "TRCDATA,Conditional tracing field. The permitted values are: 00 Data tracing is not supported. 11 Tracing of data addresses and data values is supported so TRCCONFIGR.DA TRCCONFIGR.DV .." "0,1,2,3" bitfld.long 0x0 1.--2. "INSTP0,P0 tracing support field. The permitted values are: 00 Tracing of load and store instructions as P0 elements is not supported. 11 Tracing of load and store instructions as P0 elements is.." "0,1,2,3" newline bitfld.long 0x0 0. "RES0_TRCIDR0_0_0,Reserved RES0." "0,1" line.long 0x4 "APBADDR_ETM_CPU1_TRCIDR1,ID Register 1" hexmask.long.byte 0x4 24.--31. 1. "DESIGNER,Indicates which company designed the trace unit. The permitted values are: 01000001 ARM Limited. 01000100 Digital Equipment Corporation. 01001101.." hexmask.long.byte 0x4 16.--23. 1. "RES0_TRCIDR1_23_16,Reserved RES0." hexmask.long.byte 0x4 12.--15. 1. "RES1_TRCIDR1_15_12,Reserved RES1." newline hexmask.long.byte 0x4 8.--11. 1. "TRCARCHMAJ,Indicates the major version of the ETM architecture. The permitted value is: 100 ETMv4. All other values are reserved." hexmask.long.byte 0x4 4.--7. 1. "TRCARCHMIN,Indicates the minor version of the ETM architecture. The permitted value is: 0 ETMv4 minor version 0. All other values are reserved." hexmask.long.byte 0x4 0.--3. 1. "REVISION,Returns an IMPLEMENTATION DEFINED value that identifies the revision of the trace registers and the OS Save and Restore registers.ARM recommends:That the initial implementation sets REVISION==0x0 and the field then increments for any subsequent.." line.long 0x8 "APBADDR_ETM_CPU1_TRCIDR2,ID Register 2" bitfld.long 0x8 29.--31. "RES0_TRCIDR2_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 25.--28. 1. "CCSIZE,Indicates the size of the cycle counter in bits minus 12. 0000 The cycle counter is 12 bits in length. 0001 The cycle counter is 13 bits in length. and so on up to 0b1000 .." hexmask.long.byte 0x8 20.--24. 1. "DVSIZE,Indicates the data value size in bytes. The permitted values are: 00000 Data value tracing is not supported. Therefore an implementation must also set TRCIDR0.TRCDATA==0b00. 00100 Maximum.." newline hexmask.long.byte 0x8 15.--19. 1. "DASIZE,Indicates the data address size in bytes. The permitted values are: 00000 Data address tracing is not supported. Therefore an implementation must also set TRCIDR0.TRCDATA==0b00. 00100.." hexmask.long.byte 0x8 10.--14. 1. "VMIDSIZE,Indicates the VMID size. The permitted values are: 00000 VMID tracing is not supported. 00001 Maximum of 8-bit VMID size so TRCCONFIGR.VMID is supported. All other.." hexmask.long.byte 0x8 5.--9. 1. "CIDSIZE,Indicates the Context ID size. The permitted values are: 00000 Context ID tracing is not supported. 00100 Maximum of 32-bit Context ID size so TRCCONFIGR.CID is supported." newline hexmask.long.byte 0x8 0.--4. 1. "IASIZE,Indicates the instruction address size. The permitted values are: 00100 Maximum of 32-bit address size. 01000 Maximum of 64-bit address size. All other values are reserved." line.long 0xC "APBADDR_ETM_CPU1_TRCIDR3,ID Register 3" bitfld.long 0xC 31. "NOOVERFLOW,Indicates if TRCSTALLCTLR.NOOVERFLOW is supported: 0 TRCSTALLCTLR.NOOVERFLOW is not supported or STALLCTL==0. 1 TRCSTALLCTLR.NOOVERFLOW is supported." "0,1" bitfld.long 0xC 28.--30. "NUMPROC,Indicates the number of processors available for tracing. The possible values are: 000 The trace unit can trace one processor. 001 The trace unit can trace two processors." "0,1,2,3,4,5,6,7" bitfld.long 0xC 27. "SYSSTALL,Indicates if the implementation can support stall control: 0 The system does not support stall control of the processor. 1 The system can support stall control of the processor." "0,1" newline bitfld.long 0xC 26. "STALLCTL,Indicates if TRCSTALLCTLR is supported: 0 TRCSTALLCTLR is not supported. 1 TRCSTALLCTLR is supported." "0,1" bitfld.long 0xC 25. "SYNCPR,Indicates if an implementation has a fixed synchronization period: 0 TRCSYNCPR is read-write so software can change the synchronization period. 1 TRCSYNCPR is read-only so the.." "0,1" bitfld.long 0xC 24. "TRCERR,Indicates if TRCVICTLR.TRCERR is supported: 0 TRCVICTLR.TRCERR is not supported 1 TRCVICTLR.TRCERR is supported." "0,1" newline hexmask.long.byte 0xC 20.--23. 1. "EXLEVEL_NS,In Non-secure state each bit indicates whether instruction tracing is supported for the corresponding exception level: 0 In Non-secure state exception level n is not supported so the corresponding bits in.." hexmask.long.byte 0xC 16.--19. 1. "EXLEVEL_S,In Secure state each bit indicates whether instruction tracing is supported for the corresponding exception level: 0 In Secure state exception level n is not supported so the corresponding bits in TRCACATRn.EXLEVEL_S and.." hexmask.long.byte 0xC 12.--15. 1. "RES0_TRCIDR3_15_12,Reserved RES0." newline hexmask.long.word 0xC 0.--11. 1. "CCITMIN,Indicates the minimum value that can be programmed in TRCCCCTLR.THRESHOLD.When cycle counting in the instruction trace is supported that is TRCIDR0.TRCCCI==1 then the minimum value of this field is 0x001 otherwise it is 0x000." line.long 0x10 "APBADDR_ETM_CPU1_TRCIDR4,ID Register 4" hexmask.long.byte 0x10 28.--31. 1. "NUMVMIDC,Indicates the number of VMID comparators that are available for tracing. The permitted values are: 0000 No VMID comparators are available. 0001 The implementation has one VMID comparator." hexmask.long.byte 0x10 24.--27. 1. "NUMCIDC,Indicates the number of Context ID comparators that are available for tracing. The permitted values are: 0000 No Context ID comparators are available. 0001 The implementation has one.." hexmask.long.byte 0x10 20.--23. 1. "NUMSSCC,Indicates the number of single-shot comparator controls that are available for tracing. The permitted values are: 0000 No single-shot comparator controls are available. 0001 The.." newline hexmask.long.byte 0x10 16.--19. 1. "NUMRSPAIR,Indicates the number of resource selection pairs that are available for tracing. The permitted values are: 0000 The implementation has one resource selection pair. 0001 The implementation.." hexmask.long.byte 0x10 12.--15. 1. "NUMPC,Indicates the number of processor comparator inputs that are available for tracing. The permitted values are: 0000 No processor comparator inputs are available. 0001 The implementation has.." bitfld.long 0x10 9.--11. "RES0_TRCIDR4_11_9,Reserved RES0." "0,1,2,3,4,5,6,7" newline bitfld.long 0x10 8. "SUPPDAC,Indicates if the implementation can support data address comparisons: 0 The implementation does not support data address comparisons. 1 The implementation can support data address comparisons" "0,1" hexmask.long.byte 0x10 4.--7. 1. "NUMDVC,Indicates the number of data value comparators that are available for tracing. The permitted values are: 0000 No data value comparators are available. 0001 The implementation has one data.." hexmask.long.byte 0x10 0.--3. 1. "NUMACPAIRS,Indicates the number of address comparator pairs that are available for tracing. The permitted values are: 0000 No address comparator pairs are available. 0001 The implementation has one.." line.long 0x14 "APBADDR_ETM_CPU1_TRCIDR5,ID Register 5" bitfld.long 0x14 31. "REDFUNCNTR,Indicates if the reduced function counter is implemented: 0 The reduced function counter is not supported. 1 Counter 0 is implemented as a reduced function counter." "0,1" bitfld.long 0x14 28.--30. "NUMCNTR,Indicates the number of counters that are available for tracing. The permitted values are: 000 No counters are available. 001 The implementation has one counter." "0,1,2,3,4,5,6,7" bitfld.long 0x14 25.--27. "NUMSEQSTATE,Indicates the number of sequencer states that are implemented. The permitted values are: 000 No sequencer states are implemented. 100 The implementation has four sequencer states." "0,1,2,3,4,5,6,7" newline bitfld.long 0x14 24. "RES0_TRCIDR5_24_24,Reserved RES0." "0,1" bitfld.long 0x14 23. "LPOVERRIDE,Indicates if the implementation can support low-power state override: 0 The implementation does not support low-power state override. 1 The implementation supports low-power state.." "0,1" bitfld.long 0x14 22. "ATBTRIG,Indicates if the implementation can support ATB triggers: 0 The implementation does not support ATB triggers. 1 The implementation supports ATB triggers and the TRCEVENTCTL1R.ATBTRIG field.." "0,1" newline hexmask.long.byte 0x14 16.--21. 1. "TRACEIDSIZE,Indicates the trace ID width. The permitted value is: 111 The implementation supports a 7-bit trace ID. This sets the width of the TRCTRACEIDR.TRACEID field. All other values are reserved.The CoreSight ATB.." hexmask.long.byte 0x14 12.--15. 1. "RES0_TRCIDR5_15_12,Reserved RES0." bitfld.long 0x14 9.--11. "NUMEXTINSEL,Indicates how many external input select resources are implemented. The permitted values are: 000 No external input select resources are available. If NUMEXTINSEL is zero NUMEXTIN must also be zero." "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x14 0.--8. 1. "NUMEXTIN,Indicates how many external inputs are implemented. The permitted values are: 000000000 No external inputs are available. If NUMEXTIN is zero NUMEXTINSEL must also be zero. 000000001 The.." group.long 0x208++0x37 line.long 0x0 "APBADDR_ETM_CPU1_TRCRSCTLR2,Resource Selection Control Registers 2" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCRSCTLR2_31_22,Reserved RES0." bitfld.long 0x0 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x0 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x0 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x4 "APBADDR_ETM_CPU1_TRCRSCTLR3,Resource Selection Control Registers 3" hexmask.long.word 0x4 22.--31. 1. "RES0_TRCRSCTLR3_31_22,Reserved RES0." bitfld.long 0x4 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x4 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x4 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x4 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x8 "APBADDR_ETM_CPU1_TRCRSCTLR4,Resource Selection Control Registers 4" hexmask.long.word 0x8 22.--31. 1. "RES0_TRCRSCTLR4_31_22,Reserved RES0." bitfld.long 0x8 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x8 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x8 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0xC "APBADDR_ETM_CPU1_TRCRSCTLR5,Resource Selection Control Registers 5" hexmask.long.word 0xC 22.--31. 1. "RES0_TRCRSCTLR5_31_22,Reserved RES0." bitfld.long 0xC 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0xC 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0xC 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0xC 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x10 "APBADDR_ETM_CPU1_TRCRSCTLR6,Resource Selection Control Registers 6" hexmask.long.word 0x10 22.--31. 1. "RES0_TRCRSCTLR6_31_22,Reserved RES0." bitfld.long 0x10 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x10 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x10 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x14 "APBADDR_ETM_CPU1_TRCRSCTLR7,Resource Selection Control Registers 7" hexmask.long.word 0x14 22.--31. 1. "RES0_TRCRSCTLR7_31_22,Reserved RES0." bitfld.long 0x14 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x14 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x14 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x14 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x18 "APBADDR_ETM_CPU1_TRCRSCTLR8,Resource Selection Control Registers 8" hexmask.long.word 0x18 22.--31. 1. "RES0_TRCRSCTLR8_31_22,Reserved RES0." bitfld.long 0x18 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x18 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x18 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x18 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x1C "APBADDR_ETM_CPU1_TRCRSCTLR9,Resource Selection Control Registers 9" hexmask.long.word 0x1C 22.--31. 1. "RES0_TRCRSCTLR9_31_22,Reserved RES0." bitfld.long 0x1C 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x1C 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x1C 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x1C 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x20 "APBADDR_ETM_CPU1_TRCRSCTLR10,Resource Selection Control Registers 10" hexmask.long.word 0x20 22.--31. 1. "RES0_TRCRSCTLR10_31_22,Reserved RES0." bitfld.long 0x20 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x20 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x20 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x20 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x24 "APBADDR_ETM_CPU1_TRCRSCTLR11,Resource Selection Control Registers 11" hexmask.long.word 0x24 22.--31. 1. "RES0_TRCRSCTLR11_31_22,Reserved RES0." bitfld.long 0x24 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x24 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x24 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x24 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x28 "APBADDR_ETM_CPU1_TRCRSCTLR12,Resource Selection Control Registers 12" hexmask.long.word 0x28 22.--31. 1. "RES0_TRCRSCTLR12_31_22,Reserved RES0." bitfld.long 0x28 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x28 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x28 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x28 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x2C "APBADDR_ETM_CPU1_TRCRSCTLR13,Resource Selection Control Registers 13" hexmask.long.word 0x2C 22.--31. 1. "RES0_TRCRSCTLR13_31_22,Reserved RES0." bitfld.long 0x2C 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x2C 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x2C 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x2C 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x30 "APBADDR_ETM_CPU1_TRCRSCTLR14,Resource Selection Control Registers 14" hexmask.long.word 0x30 22.--31. 1. "RES0_TRCRSCTLR14_31_22,Reserved RES0." bitfld.long 0x30 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x30 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x30 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x30 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x34 "APBADDR_ETM_CPU1_TRCRSCTLR15,Resource Selection Control Registers 15" hexmask.long.word 0x34 22.--31. 1. "RES0_TRCRSCTLR15_31_22,Reserved RES0." bitfld.long 0x34 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x34 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x34 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x34 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." group.long 0x280++0x3 line.long 0x0 "APBADDR_ETM_CPU1_TRCSSCCR0,Single-Shot Comparator Control Register 0" hexmask.long.byte 0x0 25.--31. 1. "RES0_TRCSSCCR0_31_25,Reserved RES0." bitfld.long 0x0 24. "RST,Controls whether the single-shot comparator resource is reset when it fires. 0 When the single-shot comparator resource fires it is not reset. 1 When the single-shot comparator resource fires .." "0,1" hexmask.long.byte 0x0 16.--23. 1. "ARC,Selects one or more address range comparators for single-shot control.Each bit represents an address range comparator pair so bit[n-16] controls the selection of address range comparator pair n-16. If bit[n-16] is: 0 The address.." newline hexmask.long.word 0x0 0.--15. 1. "SAC,Selects one or more single address comparators for single-shot control.Each bit represents a single address comparator so bit[n] controls the selection of single address comparator n. If bit[n] is: 0 The single address comparator.." group.long 0x2A0++0x3 line.long 0x0 "APBADDR_ETM_CPU1_TRCSSCSR0,Single-Shot Comparator Status Register 0" bitfld.long 0x0 31. "STATUS,Single-shot status bit. Indicates if any of the comparators that TRCSSCCRn.SAC or TRCSSCCRn.ARC selects have matched: 0 No match has occurred. 1 One or more matches has occurred. If.." "0,1" hexmask.long 0x0 3.--30. 1. "RES0_TRCSSCSR0_30_3,Reserved RES0." bitfld.long 0x0 2. "DV,Data value comparator support bit. Indicates if the trace unit supports data address with data value comparisons: 0 Single-shot data address with data value comparisons are not supported. 1.." "0,1" newline bitfld.long 0x0 1. "DA,Data address comparator support bit. Indicates if the trace unit supports data address comparisons: 0 Single-shot data address comparisons are not supported. 1 Single-shot data address.." "0,1" bitfld.long 0x0 0. "INST,Instruction address comparator support bit. Indicates if the trace unit supports instruction address comparisons: 0 Single-shot instruction address comparisons are not supported. 1 Single-shot.." "0,1" group.long 0x300++0x7 line.long 0x0 "APBADDR_ETM_CPU1_TRCOSLAR,OS Lock Access Register" hexmask.long 0x0 1.--31. 1. "RES0_TRCOSLAR_31_1,Reserved RES0." bitfld.long 0x0 0. "LOCK,OS Lock control bit: 0 Unlocks the OS Lock. 1 Locks the OS Lock. This setting disables the trace unit." "0,1" line.long 0x4 "APBADDR_ETM_CPU1_TRCOSLSR,OS Lock Status Register" hexmask.long 0x4 4.--31. 1. "RES0_TRCOSLSR_31_4,Reserved RES0." bitfld.long 0x4 3. "PRESENT,Indicates whether the OS Lock is implemented.This bit is RES1 which indicates that the OS Lock is always implemented." "0,1" bitfld.long 0x4 2. "BIT32,This bit is RES0 which indicates that software must perform a 32-bit write to update the TRCOSLAR." "0,1" newline bitfld.long 0x4 1. "LOCKED,OS Lock status bit: 0 The OS Lock is unlocked. 1 The OS Lock is locked. When the trace unit core power domain is powered down the value is UNKNOWN. The TRCPDSR indicates if.." "0,1" bitfld.long 0x4 0. "RES0_TRCOSLSR_0_0,Reserved RES0." "0,1" group.long 0x310++0x7 line.long 0x0 "APBADDR_ETM_CPU1_TRCPDCR,Power Down Control Register" hexmask.long 0x0 4.--31. 1. "RES0_TRCPDCR_31_4,Reserved RES0." bitfld.long 0x0 3. "PU,Powerup request bit: 0 The system can remove power from the trace unit. The TRCPDSR indicates if the trace unit is powered down. 1 The system must provide power to the trace unit." "0,1" bitfld.long 0x0 0.--2. "RES0_TRCPDCR_2_0,Reserved RES0." "0,1,2,3,4,5,6,7" line.long 0x4 "APBADDR_ETM_CPU1_TRCPDSR,Power Down Status Register" hexmask.long 0x4 6.--31. 1. "RES0_TRCPDSR_31_6,Reserved RES0." bitfld.long 0x4 5. "LOCKED,OS Lock status bit: 0 The OS Lock is unlocked. 1 The OS Lock is locked. The value is UNKNOWN when the trace unit core power domain is powered down that is when POWER==0." "0,1" bitfld.long 0x4 2.--4. "RES0_TRCPDSR_4_2,Reserved RES0." "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 1. "STICKYPD,Sticky powerdown status bit. Indicates whether the trace register state is valid: 0 If POWER==1 then the state of TRCOSLSR and the trace registers are valid. If POWER==0 then it is UNKNOWN whether the state of TRCOSLSR and the.." "0,1" bitfld.long 0x4 0. "POWER,Power status bit: 0 The trace unit core power domain is not powered. The trace registers are not accessible and they all return an error response. 1 The trace unit core power domain is.." "0,1" group.long 0x400++0x3F line.long 0x0 "APBADDR_ETM_CPU1_TRCACVR0_31_0,Address Comparator Value Registers 0 (low word)" hexmask.long 0x0 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x4 "APBADDR_ETM_CPU1_TRCACVR0_63_32,Address Comparator Value Registers 0 (high word)" hexmask.long 0x4 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x8 "APBADDR_ETM_CPU1_TRCACVR1_31_0,Address Comparator Value Registers 1 (low word)" hexmask.long 0x8 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0xC "APBADDR_ETM_CPU1_TRCACVR1_63_32,Address Comparator Value Registers 1 (high word)" hexmask.long 0xC 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x10 "APBADDR_ETM_CPU1_TRCACVR2_31_0,Address Comparator Value Registers 2 (low word)" hexmask.long 0x10 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x14 "APBADDR_ETM_CPU1_TRCACVR2_63_32,Address Comparator Value Registers 2 (high word)" hexmask.long 0x14 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x18 "APBADDR_ETM_CPU1_TRCACVR3_31_0,Address Comparator Value Registers 3 (low word)" hexmask.long 0x18 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x1C "APBADDR_ETM_CPU1_TRCACVR3_63_32,Address Comparator Value Registers 3 (high word)" hexmask.long 0x1C 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x20 "APBADDR_ETM_CPU1_TRCACVR4_31_0,Address Comparator Value Registers 4 (low word)" hexmask.long 0x20 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x24 "APBADDR_ETM_CPU1_TRCACVR4_63_32,Address Comparator Value Registers 4 (high word)" hexmask.long 0x24 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x28 "APBADDR_ETM_CPU1_TRCACVR5_31_0,Address Comparator Value Registers 5 (low word)" hexmask.long 0x28 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x2C "APBADDR_ETM_CPU1_TRCACVR5_63_32,Address Comparator Value Registers 5 (high word)" hexmask.long 0x2C 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x30 "APBADDR_ETM_CPU1_TRCACVR6_31_0,Address Comparator Value Registers 6 (low word)" hexmask.long 0x30 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x34 "APBADDR_ETM_CPU1_TRCACVR6_63_32,Address Comparator Value Registers 6 (high word)" hexmask.long 0x34 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x38 "APBADDR_ETM_CPU1_TRCACVR7_31_0,Address Comparator Value Registers 7 (low word)" hexmask.long 0x38 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x3C "APBADDR_ETM_CPU1_TRCACVR7_63_32,Address Comparator Value Registers 7 (high word)" hexmask.long 0x3C 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." group.long 0x480++0x3 line.long 0x0 "APBADDR_ETM_CPU1_TRCACATR0,Address Comparator Access Type Registers 0" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR0_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR0_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x488++0x3 line.long 0x0 "APBADDR_ETM_CPU1_TRCACATR1,Address Comparator Access Type Registers 1" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR1_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR1_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x490++0x3 line.long 0x0 "APBADDR_ETM_CPU1_TRCACATR2,Address Comparator Access Type Registers 2" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR2_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR2_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x498++0x3 line.long 0x0 "APBADDR_ETM_CPU1_TRCACATR3,Address Comparator Access Type Registers 3" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR3_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR3_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x4A0++0x3 line.long 0x0 "APBADDR_ETM_CPU1_TRCACATR4,Address Comparator Access Type Registers 4" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR4_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR4_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x4A8++0x3 line.long 0x0 "APBADDR_ETM_CPU1_TRCACATR5,Address Comparator Access Type Registers 5" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR5_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR5_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x4B0++0x3 line.long 0x0 "APBADDR_ETM_CPU1_TRCACATR6,Address Comparator Access Type Registers 6" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR6_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR6_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x4B8++0x3 line.long 0x0 "APBADDR_ETM_CPU1_TRCACATR7,Address Comparator Access Type Registers 7" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR7_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR7_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x600++0x3 line.long 0x0 "APBADDR_ETM_CPU1_TRCCIDCVR0,Context ID Comparator Value Register 0" hexmask.long 0x0 0.--31. 1. "VALUE,Context ID value. The implemented width of this field is IMPLEMENTATION DEFINED and is set by TRCIDR2.CIDSIZE. Unimplemented bits are RAZ/WI.After a processor reset the ETM architecture assumes that the Context ID is zero until the processor.." group.long 0x640++0x3 line.long 0x0 "APBADDR_ETM_CPU1_TRCVMIDCVR0,VMID Comparator Value Register 0" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--7. 1. "VALUE,Contains a VMID value." group.long 0x680++0x3 line.long 0x0 "APBADDR_ETM_CPU1_TRCCIDCCTLR0,Context ID Comparator Control Register 0" hexmask.long 0x0 0.--31. 1. "COMP_N,Controls the mask value that the trace unit applies to TRCCIDCVRn. Each bit in this field corresponds to a byte in TRCCIDCVRn. When a bit is: 0 The trace unit includes the relevant byte in TRCCIDCVRn when it performs the Context.." group.long 0xEE4++0x3 line.long 0x0 "APBADDR_ETM_CPU1_TRCITATBIDR,Integration ATB Identification Register" hexmask.long 0x0 7.--31. 1. "RES0_TRCITATBIDR_31_7,Reserved RES0" hexmask.long.byte 0x0 0.--6. 1. "ID,Drives the ATIDMn[6:0] output pins" group.long 0xEEC++0x3 line.long 0x0 "APBADDR_ETM_CPU1_TRCITIDATAR,Integration Instruction ATB Data Register" hexmask.long 0x0 5.--31. 1. "RES0_TRCITIDATAR_31_5,Reserved RES0" bitfld.long 0x0 4. "ATDATAM_31,Drives the ATDATAM[31] output" "0,1" bitfld.long 0x0 3. "ATDATAM_23,Drives the ATDATAM[23] output" "0,1" newline bitfld.long 0x0 2. "ATDATAM_15,Drives the ATDATAM[15] output" "0,1" bitfld.long 0x0 1. "ATDATAM_7,Drives the ATDATAM[7] output" "0,1" bitfld.long 0x0 0. "ATDATAM_0,Drives the ATDATAM[0] output" "0,1" group.long 0xEF4++0x3 line.long 0x0 "APBADDR_ETM_CPU1_TRCITIATBINR,Integration Instruction ATB In Register" hexmask.long 0x0 2.--31. 1. "RESERVED,Reserved. Read undefined." bitfld.long 0x0 1. "AFVALIDM,Returns the value of the AFVALIDMn input pin" "0,1" bitfld.long 0x0 0. "ATREADYM,Returns the value of the ATREADYMn input pin" "0,1" group.long 0xEFC++0x7 line.long 0x0 "APBADDR_ETM_CPU1_TRCITIATBOUTR,Integration Instruction ATB Out Register" hexmask.long.tbyte 0x0 10.--31. 1. "RESERVED,Reserved. Read undefined." bitfld.long 0x0 8.--9. "BYTES,Drives the ATBYTESMn[1:0] output pins" "0,1,2,3" hexmask.long.byte 0x0 2.--7. 1. "RESERVED,Reserved. Read undefined." newline bitfld.long 0x0 1. "AFREADY,Drives the AFREADYMn output pin" "0,1" bitfld.long 0x0 0. "ATVALID,Drives the ATVALIDMn output pin" "0,1" line.long 0x4 "APBADDR_ETM_CPU1_TRCITCTRL,Integration Mode Control Register" hexmask.long 0x4 1.--31. 1. "RES0_TRCITCTRL_31_1,Reserved RES0." bitfld.long 0x4 0. "ITEN,Integration mode enable bit: 0 The trace unit is not in integration mode. 1 The trace unit is in integration mode. This mode enables a debug agent to perform topology detection and.." "0,1" group.long 0xFA0++0x1F line.long 0x0 "APBADDR_ETM_CPU1_TRCCLAIMSET,Claim Tag Set Register" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--3. 1. "SET,Sets bits in the claim tag and determines the number of claim tag bits implemented." line.long 0x4 "APBADDR_ETM_CPU1_TRCCLAIMCLR,Claim Tag Clear Register" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "CLR,Clears bits in the claim tag and determines the current value of the claim tag." line.long 0x8 "APBADDR_ETM_CPU1_TRCDEVAFF0,Device Affinity Register 0" hexmask.long 0x8 0.--31. 1. "MPIDR_EL1_31_0,Read-only copy of the low half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0xC "APBADDR_ETM_CPU1_TRCDEVAFF1,Device Affinity Register 1" hexmask.long 0xC 0.--31. 1. "MPIDR_EL1_63_32,Read-only copy of the high half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x10 "APBADDR_ETM_CPU1_TRCLAR,Software Lock Access Register" hexmask.long 0x10 0.--31. 1. "KEY,Writing the key value 0xC5ACCE55 to this field clears the lock enabling write accesses to this component's registers through a memory-mapped interface.Writing any other value to this register sets the lock disabling write accesses to this.." line.long 0x14 "APBADDR_ETM_CPU1_TRCLSR,Software Lock Status Register" hexmask.long 0x14 3.--31. 1. "RES0_TRCLSR_31_3,Reserved RES0." bitfld.long 0x14 2. "NTT,Not thirty-two bit access required. RAZ." "0,1" bitfld.long 0x14 1. "SLK,Software lock status for this component. Possible values of this field are: 0 Lock clear. Writes are permitted to this component's registers. 1 Lock set. Writes to this component's registers.." "0,1" newline bitfld.long 0x14 0. "SLI,Software lock implemented. RAO." "0,1" line.long 0x18 "APBADDR_ETM_CPU1_TRCAUTHSTATUS,Authentication Status Register" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_TRCAUTHSTATUS_31_8,Reserved RES0." bitfld.long 0x18 6.--7. "SNID,Indicates whether the system enables the trace unit to support Secure non-invasive debug: 00 The trace unit does not implement support for Secure non-invasive debug. 01 Reserved." "0,1,2,3" bitfld.long 0x18 4.--5. "SID,Indicates whether the trace unit supports Secure invasive debug: 00 The trace unit does not support Secure invasive debug. All other values are reserved." "0,1,2,3" newline bitfld.long 0x18 2.--3. "NSNID,Indicates whether the system enables the trace unit to support Non-secure non-invasive debug: 00 The trace unit does not implement support for Non-secure non-invasive debug. 01 Reserved." "0,1,2,3" bitfld.long 0x18 0.--1. "NSID,Indicates whether the trace unit supports Non-secure invasive debug: 00 The trace unit does not support Non-secure invasive debug. All other values are reserved." "0,1,2,3" line.long 0x1C "APBADDR_ETM_CPU1_TRCDEVARCH,Device Architecture Register" hexmask.long.word 0x1C 21.--31. 1. "ARCHITECT,Defines the architecture of the component. For trace this is ARM Limited.Bits [31:28] are the JEP 106 continuation code 0x4.Bits [27:21] are the JEP 106 ID code 0x3B." bitfld.long 0x1C 20. "PRESENT,When set to 1 indicates that the DEVARCH is present.This field is RAO." "0,1" hexmask.long.byte 0x1C 16.--19. 1. "REVISION,Defines the architecture revision. For architectures defined by ARM this is the minor revision.For trace the revision defined by ETMv4 is 0x0.All other values are reserved." newline hexmask.long.word 0x1C 0.--15. 1. "ARCHID,Defines this part to be a v8-A debug component. For architectures defined by ARM this is further subdivided.For trace bits [15:12] are the architecture version 0x4; bits [11:0] are the architecture part number 0xA13.This corresponds to trace.." group.long 0xFC8++0x37 line.long 0x0 "APBADDR_ETM_CPU1_TRCDEVID,Device ID Register" hexmask.long 0x0 0.--31. 1. "DEVID,Indicates the capabilities of the trace unit. The implemented width of this field and its bit assignments are IMPLEMENTATION DEFINED. Unimplemented bits are RAZ/WI.If a component is configurable then ARM recommends that this field can also indicate.." line.long 0x4 "APBADDR_ETM_CPU1_TRCDEVTYPE,Device Type Register" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_TRCDEVTYPE_31_8,Reserved RES0." hexmask.long.byte 0x4 4.--7. 1. "SUB,Returns 0x1 to indicate that the ETM generates processor trace.All other values are reserved." hexmask.long.byte 0x4 0.--3. 1. "MAIN,Returns 0x3 to indicate that the ETM is a trace source.All other values are reserved." line.long 0x8 "APBADDR_ETM_CPU1_TRCPIDR4,Peripheral Identification Register 4" hexmask.long.tbyte 0x8 8.--31. 1. "RES0_TRCPIDR4_31_8,Reserved RES0." hexmask.long.byte 0x8 4.--7. 1. "SIZE,Size of the component. RES0. This indicates that the ETM memory map occupies 4KB." hexmask.long.byte 0x8 0.--3. 1. "DES_2,Designer JEP106 continuation code. For ARM Limited this field is 0b0100." line.long 0xC "APBADDR_ETM_CPU1_TRCPIDR5,Peripheral Identification Register 5" hexmask.long.tbyte 0xC 8.--31. 1. "RES0_TRCPIDR5_31_8,Reserved RES0." hexmask.long.byte 0xC 0.--7. 1. "RESERVED,RES0 reserved for future use." line.long 0x10 "APBADDR_ETM_CPU1_TRCPIDR6,Peripheral Identification Register 6" hexmask.long.tbyte 0x10 8.--31. 1. "RES0_TRCPIDR6_31_8,Reserved RES0." hexmask.long.byte 0x10 0.--7. 1. "RESERVED,RES0 reserved for future use." line.long 0x14 "APBADDR_ETM_CPU1_TRCPIDR7,Peripheral Identification Register 7" hexmask.long.tbyte 0x14 8.--31. 1. "RES0_TRCPIDR7_31_8,Reserved RES0." hexmask.long.byte 0x14 0.--7. 1. "RESERVED,RES0 reserved for future use." line.long 0x18 "APBADDR_ETM_CPU1_TRCPIDR0,Peripheral Identification Register 0" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_TRCPIDR0_31_8,Reserved RES0." hexmask.long.byte 0x18 0.--7. 1. "PART_0,Part number bits[7:0]." line.long 0x1C "APBADDR_ETM_CPU1_TRCPIDR1,Peripheral Identification Register 1" hexmask.long.tbyte 0x1C 8.--31. 1. "RES0_TRCPIDR1_31_8,Reserved RES0." hexmask.long.byte 0x1C 4.--7. 1. "DES_0,Designer bits[3:0] of JEP106 ID code. For ARM Limited this field is 0b1011." hexmask.long.byte 0x1C 0.--3. 1. "PART_1,Part number bits[11:8]." line.long 0x20 "APBADDR_ETM_CPU1_TRCPIDR2,Peripheral Identification Register 2" hexmask.long.tbyte 0x20 8.--31. 1. "RES0_TRCPIDR2_31_8,Reserved RES0." hexmask.long.byte 0x20 4.--7. 1. "REVISION,The IMPLEMENTATION DEFINED revision number for the ETM implementation. See also TRCIDR1.REVISION." bitfld.long 0x20 3. "JEDEC,RAO. Indicates a JEP106 identity code is used." "0,1" newline bitfld.long 0x20 0.--2. "DES_1,Designer most significant bits of JEP106 ID code. For ARM Limited this field is 0b011." "0,1,2,3,4,5,6,7" line.long 0x24 "APBADDR_ETM_CPU1_TRCPIDR3,Peripheral Identification Register 3" hexmask.long.tbyte 0x24 8.--31. 1. "RES0_TRCPIDR3_31_8,Reserved RES0." hexmask.long.byte 0x24 4.--7. 1. "REVAND,The IMPLEMENTATION DEFINED manufacturing revision number for the implementation. After silicon is available if metal fixes are necessary the manufacturer can alter the top metal layer so that this field can indicate any post-fab silicon changes." hexmask.long.byte 0x24 0.--3. 1. "CMOD,Customer modified. Indicates someone other than the Designer has modified the component." line.long 0x28 "APBADDR_ETM_CPU1_TRCCIDR0,Component Identification Register 0" hexmask.long.tbyte 0x28 8.--31. 1. "RES0_TRCCIDR0_31_8,Reserved RES0." hexmask.long.byte 0x28 0.--7. 1. "PRMBL_0,Preamble. Must read as 0x0D." line.long 0x2C "APBADDR_ETM_CPU1_TRCCIDR1,Component Identification Register 1" hexmask.long.tbyte 0x2C 8.--31. 1. "RES0_TRCCIDR1_31_8,Reserved RES0." hexmask.long.byte 0x2C 4.--7. 1. "CLASS,Component class. Reads as 0x9 to indicate that the ETM is a debug component with CoreSight architecture compliant management registers." hexmask.long.byte 0x2C 0.--3. 1. "PRMBL_1,Preamble. Must read as 0x0." line.long 0x30 "APBADDR_ETM_CPU1_TRCCIDR2,Component Identification Register 2" hexmask.long.tbyte 0x30 8.--31. 1. "RES0_TRCCIDR2_31_8,Reserved RES0." hexmask.long.byte 0x30 0.--7. 1. "PRMBL_2,Preamble. Must read as 0x05." line.long 0x34 "APBADDR_ETM_CPU1_TRCCIDR3,Component Identification Register 3" hexmask.long.tbyte 0x34 8.--31. 1. "RES0_TRCCIDR3_31_8,Reserved RES0." hexmask.long.byte 0x34 0.--7. 1. "PRMBL_3,Preamble. Must read as 0xB1." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "A53SS0_CORE1_CTI (A53SS0_CORE1_CTI)" base ad:0x730140000 group.long 0x0++0x3 line.long 0x0 "APBADDR_CTI_CPU1_CTICONTROL,CTI Control Register" hexmask.long 0x0 1.--31. 1. "RES0_CTICONTROL_31_1,Reserved RES0." bitfld.long 0x0 0. "GLBEN,Enables or disables the CTI mapping functions. Possible values of this field are: 0 CTI mapping functions disabled. 1 CTI mapping functions enabled. When the mapping.." "0,1" group.long 0x10++0x2F line.long 0x0 "APBADDR_CTI_CPU1_CTIINTACK,CTI Output Trigger Acknowledge Register" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--7. 1. "ACK_N,Can be used to create soft acknowledges for output triggers" line.long 0x4 "APBADDR_CTI_CPU1_CTIAPPSET,CTI Application Trigger Set Register" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "CTIAPPSETX,Application trigger <x> enable" line.long 0x8 "APBADDR_CTI_CPU1_CTIAPPCLEAR,CTI Application Trigger Clear Register" hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x8 0.--3. 1. "CTIAPPCLEARX,Application trigger <x> disable" line.long 0xC "APBADDR_CTI_CPU1_CTIAPPPULSE,CTI Application Pulse Register" hexmask.long 0xC 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0xC 0.--3. 1. "CTIAPPPULSEX,Generate event pulse on ECT channel <x>." line.long 0x10 "APBADDR_CTI_CPU1_CTIINEN0,CTI Input Trigger to Output Channel Enable Register 0" hexmask.long 0x10 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x10 0.--3. 1. "INENX,Input trigger 0 to output channel <x> enable" line.long 0x14 "APBADDR_CTI_CPU1_CTIINEN1,CTI Input Trigger to Output Channel Enable Register 1" hexmask.long 0x14 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x14 0.--3. 1. "INENX,Input trigger 1 to output channel <x> enable" line.long 0x18 "APBADDR_CTI_CPU1_CTIINEN2,CTI Input Trigger to Output Channel Enable Register 2" hexmask.long 0x18 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x18 0.--3. 1. "INENX,Input trigger 2 to output channel <x> enable" line.long 0x1C "APBADDR_CTI_CPU1_CTIINEN3,CTI Input Trigger to Output Channel Enable Register 3" hexmask.long 0x1C 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x1C 0.--3. 1. "INENX,Input trigger 3 to output channel <x> enable" line.long 0x20 "APBADDR_CTI_CPU1_CTIINEN4,CTI Input Trigger to Output Channel Enable Register 4" hexmask.long 0x20 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x20 0.--3. 1. "INENX,Input trigger 4 to output channel <x> enable" line.long 0x24 "APBADDR_CTI_CPU1_CTIINEN5,CTI Input Trigger to Output Channel Enable Register 5" hexmask.long 0x24 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x24 0.--3. 1. "INENX,Input trigger 5 to output channel <x> enable" line.long 0x28 "APBADDR_CTI_CPU1_CTIINEN6,CTI Input Trigger to Output Channel Enable Register 6" hexmask.long 0x28 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x28 0.--3. 1. "INENX,Input trigger 6 to output channel <x> enable" line.long 0x2C "APBADDR_CTI_CPU1_CTIINEN7,CTI Input Trigger to Output Channel Enable Register 7" hexmask.long 0x2C 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x2C 0.--3. 1. "INENX,Input trigger 7 to output channel <x> enable" group.long 0xA0++0x1F line.long 0x0 "APBADDR_CTI_CPU1_CTIOUTEN0,CTI Input Channel to Output Trigger Enable Register 0" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--3. 1. "OUTENX,Input channel <x> to output trigger 0 enable" line.long 0x4 "APBADDR_CTI_CPU1_CTIOUTEN1,CTI Input Channel to Output Trigger Enable Register 1" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "OUTENX,Input channel <x> to output trigger 1 enable" line.long 0x8 "APBADDR_CTI_CPU1_CTIOUTEN2,CTI Input Channel to Output Trigger Enable Register 2" hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x8 0.--3. 1. "OUTENX,Input channel <x> to output trigger 2 enable" line.long 0xC "APBADDR_CTI_CPU1_CTIOUTEN3,CTI Input Channel to Output Trigger Enable Register 3" hexmask.long 0xC 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0xC 0.--3. 1. "OUTENX,Input channel <x> to output trigger 3 enable" line.long 0x10 "APBADDR_CTI_CPU1_CTIOUTEN4,CTI Input Channel to Output Trigger Enable Register 4" hexmask.long 0x10 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x10 0.--3. 1. "OUTENX,Input channel <x> to output trigger 4 enable" line.long 0x14 "APBADDR_CTI_CPU1_CTIOUTEN5,CTI Input Channel to Output Trigger Enable Register 5" hexmask.long 0x14 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x14 0.--3. 1. "OUTENX,Input channel <x> to output trigger 5 enable" line.long 0x18 "APBADDR_CTI_CPU1_CTIOUTEN6,CTI Input Channel to Output Trigger Enable Register 6" hexmask.long 0x18 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x18 0.--3. 1. "OUTENX,Input channel <x> to output trigger 6 enable" line.long 0x1C "APBADDR_CTI_CPU1_CTIOUTEN7,CTI Input Channel to Output Trigger Enable Register 7" hexmask.long 0x1C 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x1C 0.--3. 1. "OUTENX,Input channel <x> to output trigger 7 enable" group.long 0x130++0x17 line.long 0x0 "APBADDR_CTI_CPU1_CTITRIGINSTATUS,CTI Trigger In Status Register" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--7. 1. "TRINN,Provides the status of the trigger inputs" line.long 0x4 "APBADDR_CTI_CPU1_CTITRIGOUTSTATUS,CTI Trigger Out Status Register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--7. 1. "TROUTN,Provides the status of the trigger outputs" line.long 0x8 "APBADDR_CTI_CPU1_CTICHINSTATUS,CTI Channel In Status Register" hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x8 0.--3. 1. "CHINN,Provides the raw status of the ECT channel inputs to the CTI" line.long 0xC "APBADDR_CTI_CPU1_CTICHOUTSTATUS,CTI Channel Out Status Register" hexmask.long 0xC 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0xC 0.--3. 1. "CHOUTN,Provides the status of the ECT channel outputs from the CTI" line.long 0x10 "APBADDR_CTI_CPU1_CTIGATE,CTI Channel Gate Enable Register" hexmask.long 0x10 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x10 0.--3. 1. "GATEX,Determines whether events on channels propagate through the CTM to other ECT components or from the CTM into the CTI" line.long 0x14 "APBADDR_CTI_CPU1_ASICCTL,CTI External Multiplexor Control register" hexmask.long.tbyte 0x14 8.--31. 1. "RES0_ASICCTL_31_8,Reserved RES0." hexmask.long.byte 0x14 0.--7. 1. "ASICCTL,IMPLEMENTATION DEFINED ASIC control. Provides a control for external multiplexing of additional triggers into the CTI.If external multiplexing of trigger signals is implemented then the number of multiplexed signals on each trigger must be.." group.long 0xF00++0x3 line.long 0x0 "APBADDR_CTI_CPU1_CTIITCTRL,CTI Integration mode Control Register" hexmask.long 0x0 1.--31. 1. "RES0_CTIITCTRL_31_1,Reserved RES0." bitfld.long 0x0 0. "IME,Integration mode enable. When IME == 1 the device reverts to an integration mode to enable integration testing or topology detection. The integration mode behavior is IMPLEMENTATION DEFINED. 0 Normal operation." "0,1" group.long 0xFA0++0x5F line.long 0x0 "APBADDR_CTI_CPU1_CTICLAIMSET,CTI Claim Set" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--3. 1. "CLAIMX,CLAIM tag set bit" line.long 0x4 "APBADDR_CTI_CPU1_CTICLAIMCLR,CTI Claim Clear" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "CLAIMX,Clear CLAIM tag" line.long 0x8 "APBADDR_CTI_CPU1_CTIDEVAFF0,CTI Device Affinity Register 0" hexmask.long 0x8 0.--31. 1. "CTIDEVAFF0,MPIDR_EL1 low half. Read-only copy of the low half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0xC "APBADDR_CTI_CPU1_CTIDEVAFF1,CTI Device Affinity Register 1" hexmask.long 0xC 0.--31. 1. "CTIDEVAFF1,MPIDR_EL1 high half. Read-only copy of the high half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x10 "APBADDR_CTI_CPU1_CTILAR,CTI Lock Access Register" hexmask.long 0x10 0.--31. 1. "KEY,Lock Access control. Writing the key value 0xC5ACCE55 to this field unlocks the lock enabling write accesses to this component's registers through a memory-mapped interface.Writing any other value to this register locks the lock disabling write.." line.long 0x14 "APBADDR_CTI_CPU1_CTILSR,CTI Lock Status Register" hexmask.long 0x14 3.--31. 1. "RES0_CTILSR_31_3,Reserved RES0." bitfld.long 0x14 2. "NTT,Not thirty-two bit access required. RAZ." "0,1" bitfld.long 0x14 1. "SLK,Software lock status for this component. For an access to LSR that is not a memory-mapped access or when the software lock is not implemented this field is RES0.For memory-mapped accesses when the software lock is implemented possible values of.." "0,1" newline bitfld.long 0x14 0. "SLI,Software lock implemented. For an access to LSR that is not a memory-mapped access this field is RAZ. For memory-mapped accesses the value of this field is IMPLEMENTATION DEFINED. Permitted values are: 0 Software lock not.." "0,1" line.long 0x18 "APBADDR_CTI_CPU1_CTIAUTHSTATUS,CTI Authentication Status Register" hexmask.long 0x18 4.--31. 1. "RES0_CTIAUTHSTATUS_31_4,Reserved RES0." bitfld.long 0x18 2.--3. "NSNID,If EL3 is not implemented and the processor is Secure holds the same value as DBGAUTHSTATUS_EL1.SNID.Otherwise holds the same value as DBGAUTHSTATUS_EL1.NSNID." "0,1,2,3" bitfld.long 0x18 0.--1. "NSID,If EL3 is not implemented and the processor is Secure holds the same value as DBGAUTHSTATUS_EL1.SID.Otherwise holds the same value as DBGAUTHSTATUS_EL1.NSID." "0,1,2,3" line.long 0x1C "APBADDR_CTI_CPU1_CTIDEVARCH,CTI Device Architecture Register" hexmask.long.word 0x1C 21.--31. 1. "ARCHITECT,Defines the architecture of the component. For CTI this is ARM Limited.Bits [31:28] are the JEP 106 continuation code 0x4.Bits [27:21] are the JEP 106 ID code 0x3B." bitfld.long 0x1C 20. "PRESENT,When set to 1 indicates that the DEVARCH is present.This field is 1 in v8-A." "0,1" hexmask.long.byte 0x1C 16.--19. 1. "REVISION,Defines the architecture revision. For architectures defined by ARM this is the minor revision.For CTI the revision defined by v8-A is 0x0.All other values are reserved." newline hexmask.long.word 0x1C 0.--15. 1. "ARCHID,Defines this part to be a v8-A debug component. For architectures defined by ARM this is further subdivided.For CTI:Bits [15:12] are the architecture version 0x1.Bits [11:0] are the architecture part number 0xA14.This corresponds to CTI.." line.long 0x20 "APBADDR_CTI_CPU1_CTIDEVID2,CTI Device ID Register 2" hexmask.long 0x20 0.--31. 1. "RES0_CTIDEVID2_31_0,Reserved RES0." line.long 0x24 "APBADDR_CTI_CPU1_CTIDEVID1,CTI Device ID Register 1" hexmask.long 0x24 0.--31. 1. "RES0_CTIDEVID1_31_0,Reserved RES0." line.long 0x28 "APBADDR_CTI_CPU1_CTIDEVID,CTI Device ID Register 0" hexmask.long.byte 0x28 26.--31. 1. "RES0_CTIDEVID_31_26,Reserved RES0." bitfld.long 0x28 24.--25. "INOUT,Input/output options. Indicates presence of the input gate. If the CTM is not implemented this field is RAZ. 00 CTIGATE does not mask propagation of input events from external channels. 01.." "0,1,2,3" bitfld.long 0x28 22.--23. "RES0_CTIDEVID_23_22,Reserved RES0." "0,1,2,3" newline hexmask.long.byte 0x28 16.--21. 1. "NUMCHAN,Number of ECT channels implemented. IMPLEMENTATION DEFINED. For v8-A valid values are: 000011 3 channels [0..2] implemented. 000100 4 channels [0..3] implemented." bitfld.long 0x28 14.--15. "RES0_CTIDEVID_15_14,Reserved RES0." "0,1,2,3" hexmask.long.byte 0x28 8.--13. 1. "NUMTRIG,Number of triggers implemented. IMPLEMENTATION DEFINED. This is one more than the index of the largest trigger rather than the actual number of triggers.For v8-A valid values are: 000011 Up to 3 triggers [0..2] implemented." newline bitfld.long 0x28 5.--7. "RES0_CTIDEVID_7_5,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x28 0.--4. 1. "EXTMUXNUM,Maximum number of external triggers available for multiplexing into the CTI. This relates only to additional external triggers outside those defined for v8-A." line.long 0x2C "APBADDR_CTI_CPU1_CTIDEVTYPE,CTI Device Type Register" hexmask.long.tbyte 0x2C 8.--31. 1. "RES0_CTIDEVTYPE_31_8,Reserved RES0." hexmask.long.byte 0x2C 4.--7. 1. "SUB,Subtype. Must read as 0x1 to indicate this is a processor component." hexmask.long.byte 0x2C 0.--3. 1. "MAJOR,Major type. Must read as 0x4 to indicate this is a cross-trigger component." line.long 0x30 "APBADDR_CTI_CPU1_CTIPIDR4,CTI Peripheral Identification Register 4" hexmask.long.tbyte 0x30 8.--31. 1. "RES0_CTIPIDR4_31_8,Reserved RES0." hexmask.long.byte 0x30 4.--7. 1. "SIZE,Size of the component. RAZ. Log2 of the number of 4KB pages from the start of the component to the end of the component ID registers." hexmask.long.byte 0x30 0.--3. 1. "DES_2,Designer JEP106 continuation code least significant nibble. For ARM Limited this field is 0b0100." line.long 0x34 "APBADDR_CTI_CPU1_CTIPIDR5,CTI Peripheral Identification Register 5" hexmask.long 0x34 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x38 "APBADDR_CTI_CPU1_CTIPIDR6,CTI Peripheral Identification Register 6" hexmask.long 0x38 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x3C "APBADDR_CTI_CPU1_CTIPIDR7,CTI Peripheral Identification Register 7" hexmask.long 0x3C 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x40 "APBADDR_CTI_CPU1_CTIPIDR0,CTI Peripheral Identification Register 0" hexmask.long.tbyte 0x40 8.--31. 1. "RES0_CTIPIDR0_31_8,Reserved RES0." hexmask.long.byte 0x40 0.--7. 1. "PART_0,Part number least significant byte." line.long 0x44 "APBADDR_CTI_CPU1_CTIPIDR1,CTI Peripheral Identification Register 1" hexmask.long.tbyte 0x44 8.--31. 1. "RES0_CTIPIDR1_31_8,Reserved RES0." hexmask.long.byte 0x44 4.--7. 1. "DES_0,Designer least significant nibble of JEP106 ID code. For ARM Limited this field is 0b1011." hexmask.long.byte 0x44 0.--3. 1. "PART_1,Part number most significant nibble." line.long 0x48 "APBADDR_CTI_CPU1_CTIPIDR2,CTI Peripheral Identification Register 2" hexmask.long.tbyte 0x48 8.--31. 1. "RES0_CTIPIDR2_31_8,Reserved RES0." hexmask.long.byte 0x48 4.--7. 1. "REVISION,Part major revision. Parts can also use this field to extend Part number to 16-bits." bitfld.long 0x48 3. "JEDEC,RAO. Indicates a JEP106 identity code is used." "0,1" newline bitfld.long 0x48 0.--2. "DES_1,Designer most significant bits of JEP106 ID code. For ARM Limited this field is 0b011." "0,1,2,3,4,5,6,7" line.long 0x4C "APBADDR_CTI_CPU1_CTIPIDR3,CTI Peripheral Identification Register 3" hexmask.long.tbyte 0x4C 8.--31. 1. "RES0_CTIPIDR3_31_8,Reserved RES0." hexmask.long.byte 0x4C 4.--7. 1. "REVAND,Part minor revision. Parts using CTIPIDR2.REVISION as an extension to the Part number must use this field as a major revision number." hexmask.long.byte 0x4C 0.--3. 1. "CMOD,Customer modified. Indicates someone other than the Designer has modified the component." line.long 0x50 "APBADDR_CTI_CPU1_CTICIDR0,CTI Component Identification Register 0" hexmask.long.tbyte 0x50 8.--31. 1. "RES0_CTICIDR0_31_8,Reserved RES0." hexmask.long.byte 0x50 0.--7. 1. "PRMBL_0,Preamble. Must read as 0x0D." line.long 0x54 "APBADDR_CTI_CPU1_CTICIDR1,CTI Component Identification Register 1" hexmask.long.tbyte 0x54 8.--31. 1. "RES0_CTICIDR1_31_8,Reserved RES0." hexmask.long.byte 0x54 4.--7. 1. "CLASS,Component class. Reads as 0x9 debug component." hexmask.long.byte 0x54 0.--3. 1. "PRMBL_1,Preamble. RAZ." line.long 0x58 "APBADDR_CTI_CPU1_CTICIDR2,CTI Component Identification Register 2" hexmask.long.tbyte 0x58 8.--31. 1. "RES0_CTICIDR2_31_8,Reserved RES0." hexmask.long.byte 0x58 0.--7. 1. "PRMBL_2,Preamble. Must read as 0x05." line.long 0x5C "APBADDR_CTI_CPU1_CTICIDR3,CTI Component Identification Register 3" hexmask.long.tbyte 0x5C 8.--31. 1. "RES0_CTICIDR3_31_8,Reserved RES0." hexmask.long.byte 0x5C 0.--7. 1. "PRMBL_3,Preamble. Must read as 0xB1." tree.end endif tree.end tree "A53SS0_CORE2" tree "A53SS0_CORE2_ECC_AGGR (A53SS0_CORE2_ECC_AGGR)" base ad:0x718C00 rgroup.long 0x0++0x3 line.long 0x0 "ECC_AGGR_CORE2_REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECC_AGGR_CORE2_REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECC_AGGR_CORE2_REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECC_AGGR_CORE2_REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECC_AGGR_CORE2_REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_CORE2_REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 26. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 25. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 24. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 23. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 22. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 21. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 20. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 19. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 18. "CPU2_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 17. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 16. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 15. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 14. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 13. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 12. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 11. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 10. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 9. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 8. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 7. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 6. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 5. "CPU2_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 4. "CPU2_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 3. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 2. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 1. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 0. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECC_AGGR_CORE2_REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 26. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 25. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 24. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 23. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "CPU2_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "CPU2_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "CPU2_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECC_AGGR_CORE2_REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 26. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 25. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 24. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 23. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "CPU2_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "CPU2_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "CPU2_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECC_AGGR_CORE2_REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_CORE2_REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 26. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 25. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 24. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 23. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 22. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 21. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 20. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 19. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 18. "CPU2_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 17. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 16. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 15. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 14. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 13. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 12. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 11. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 10. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 9. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 8. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 7. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 6. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 5. "CPU2_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 4. "CPU2_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 3. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 2. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 1. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 0. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_PEND,Interrupt Pending Status for cpu2_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECC_AGGR_CORE2_REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 26. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 25. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 24. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 23. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "CPU2_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "CPU2_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "CPU2_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu2_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECC_AGGR_CORE2_REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 26. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 25. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 24. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 23. "CPU2_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "CPU2_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "CPU2_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "CPU2_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "CPU2_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "CPU2_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "CPU2_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "CPU2_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu2_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECC_AGGR_CORE2_REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" newline bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECC_AGGR_CORE2_REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" newline bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECC_AGGR_CORE2_REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" newline bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECC_AGGR_CORE2_REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" newline bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "A53SS0_CORE2_DBG (A53SS0_CORE2_DBG)" base ad:0x730210000 group.long 0x20++0x7 line.long 0x0 "APBADDR_DBG_CPU2_EDESR,External Debug Event Status Register" hexmask.long 0x0 3.--31. 1. "RES0_EDESR_31_3,Reserved RES0." bitfld.long 0x0 2. "SS,Halting step debug event pending. Possible values of this field are: 0 Reading this means that a Halting step debug event is not pending. Writing this means no action. 1 Reading this means that.." "0,1" newline bitfld.long 0x0 1. "RC,Reset catch debug event pending. Possible values of this field are: 0 Reading this means that a Reset catch debug event is not pending. Writing this means no action. 1 Reading this means that a.." "0,1" bitfld.long 0x0 0. "OSUC,OS unlock debug event pending. Possible values of this field are: 0 Reading this means that an OS unlock catch debug event is not pending. Writing this means no action. 1 Reading this means.." "0,1" line.long 0x4 "APBADDR_DBG_CPU2_EDECR,External Debug Execution Control Register" hexmask.long 0x4 3.--31. 1. "RES0_EDECR_31_3,Reserved RES0." bitfld.long 0x4 2. "SS,Halting step enable. Possible values of this field are: 0 Halting step debug event disabled. 1 Halting step debug event enabled. If the value of EDECR.SS is changed when the.." "0,1" newline bitfld.long 0x4 1. "RCE,Reset catch enable. Possible values of this field are: 0 Reset catch debug event disabled. 1 Reset catch debug event enabled." "0,1" bitfld.long 0x4 0. "OSUCE,OS unlock catch enabled. Possible values of this field are: 0 OS unlock catch debug event disabled. 1 OS unlock catch debug event enabled." "0,1" group.long 0x30++0x7 line.long 0x0 "APBADDR_DBG_CPU2_EDWAR_31_0,External Debug Watchpoint Address Register (low word)" hexmask.long 0x0 0.--31. 1. "EDWAR_31_0,Watchpoint address. The virtual data address being accessed when a watchpoint debug event was triggered and caused entry to Debug state.UNKNOWN if the processor is not in Debug state or if Debug state was entered other than for a watchpoint.." line.long 0x4 "APBADDR_DBG_CPU2_EDWAR_63_32,External Debug Watchpoint Address Register (high word)" hexmask.long 0x4 0.--31. 1. "EDWAR_63_32,Watchpoint address. The virtual data address being accessed when a watchpoint debug event was triggered and caused entry to Debug state.UNKNOWN if the processor is not in Debug state or if Debug state was entered other than for a watchpoint.." group.long 0x80++0x1B line.long 0x0 "APBADDR_DBG_CPU2_DBGDTRRX_EL0,Debug Data Transfer Register Receive" hexmask.long 0x0 0.--31. 1. "DBGDTRRX_EL0,Update DTRRX. Writes to this register update the value in DTRRX and set RXfull to 1.Reads of this register return the last value written to DTRRX and do not change RXfull." line.long 0x4 "APBADDR_DBG_CPU2_EDITR,External Debug Instruction Transfer Register" hexmask.long 0x4 0.--31. 1. "EDITR,Used in Debug state for passing instructions to the processor for execution" line.long 0x8 "APBADDR_DBG_CPU2_EDSCR,External Debug Status and Control Register" bitfld.long 0x8 31. "RES0_EDSCR_31_31,Reserved RES0." "0,1" bitfld.long 0x8 30. "RXFULL,DTRRX full. This bit is RO." "0,1" newline bitfld.long 0x8 29. "TXFULL,DTRTX full. This bit is RO." "0,1" bitfld.long 0x8 28. "ITO,EDITR overrun. This bit is RO.If the processor is not in Debug state this bit is UNKNOWN. ITO is set to 0 on entry to Debug state." "0,1" newline bitfld.long 0x8 27. "RXO,DTRRX overrun. This bit is RO." "0,1" bitfld.long 0x8 26. "TXU,DTRTX underrun. This bit is RO." "0,1" newline bitfld.long 0x8 25. "PIPEADV,Pipeline advance. Read-only. Set to 1 every time the processor pipeline retires one or more instructions. Cleared to 0 by a write to EDRCR.CSPA.The architecture does not define precisely when this bit is set to 1. It requires only that this.." "0,1" bitfld.long 0x8 24. "ITE,ITR empty. This bit is RO.If the processor is not in Debug state this bit is UNKNOWN. It is always valid in Debug state." "0,1" newline bitfld.long 0x8 22.--23. "INTDIS,Interrupt disable. Disables taking interrupts [including virtual interrupts and System Error interrupts] in Non-Debug state.If external invasive debug is disabled the value of this field is ignored.If external invasive debug is enabled the.." "0,1,2,3" bitfld.long 0x8 21. "TDA,Trap debug registers accesses." "0,1" newline bitfld.long 0x8 20. "MA,Memory access mode. Controls use of memory-access mode for accessing EDITR and the DCC. This bit is ignored if in Non-debug state and set to zero on entry to Debug state.Possible values of this field are: 0 Normal access mode.." "0,1" bitfld.long 0x8 19. "RES0_EDSCR_19_19,Reserved RES0." "0,1" newline bitfld.long 0x8 18. "NS,Non-secure status. Read-only. When in Debug state gives the current security state: 0 Secure state IsSecure[] == TRUE 1 Non-secure state IsSecure[] == FALSE. In Non-debug.." "0,1" bitfld.long 0x8 17. "RES0_EDSCR_17_17,Reserved RES0." "0,1" newline bitfld.long 0x8 16. "SDD,Secure debug disabled. This bit is RO.On entry to Debug state:If entering in Secure state SDD is set to 0.If entering in Non-secure state SDD is set to the inverse of ExternalSecureInvasiveDebugEnabled[].In Debug state the value of the SDD bit.." "0,1" bitfld.long 0x8 15. "RES0_EDSCR_15_15,Reserved RES0." "0,1" newline bitfld.long 0x8 14. "HDE,Halting debug mode enable. Possible values of this bit are: 0 Halting debug mode disabled. 1 Halting debug mode enabled." "0,1" hexmask.long.byte 0x8 10.--13. 1. "RW,Exception level register-width status. Read-only. In Debug state each bit gives the current register width status of each EL: 1111 All exception levels are AArch64 state. 1110 EL0 is AArch32.." newline bitfld.long 0x8 8.--9. "EL,Exception level. Read-only. In Debug state this gives the current EL of the processor.In Non-debug state this field is RAZ." "0,1,2,3" bitfld.long 0x8 7. "A,System Error interrupt pending. Read-only. In Debug state indicates whether a SError interrupt is pending:If HCR_EL2.{AMO TGE} = {1 0} and in Non-secure EL0 or EL1 a virtual SError interrupt.Otherwise a physical SError interrupt. 0.." "0,1" newline bitfld.long 0x8 6. "ERR,Cumulative error flag. This field is RO. It is set to 1 following exceptions in Debug state and on any signaled overrun or underrun on the DTR or EDITR." "0,1" hexmask.long.byte 0x8 0.--5. 1. "STATUS,Debug status flags. This field is RO.The possible values of this field are: 000010 Processor is in Non-debug state. 000001 Processor is restarting [exiting Debug state]." line.long 0xC "APBADDR_DBG_CPU2_DBGDTRTX_EL0,Debug Data Transfer Register Transmit" hexmask.long 0xC 0.--31. 1. "DBGDTRTX_EL0,Return DTRTX. Reads of this register return the value in DTRTX and clear TXfull to 0.Writes of this register update the value in DTRTX and do not change TXfull." line.long 0x10 "APBADDR_DBG_CPU2_EDRCR,External Debug Reserve Control Register" hexmask.long 0x10 5.--31. 1. "RES0_EDRCR_31_5,Reserved RES0." bitfld.long 0x10 4. "CBRRQ,Allow imprecise entry to Debug state. The actions on writing to this bit are: 0 No action. 1 Allow imprecise entry to Debug state for example by canceling pending bus accesses." "0,1" newline bitfld.long 0x10 3. "CSPA,Clear Sticky Pipeline Advance. This bit is used to clear the EDSCR.PipeAdv bit to 0. The actions on writing to this bit are: 0 No action. 1 Clear the EDSCR.PipeAdv bit to 0." "0,1" bitfld.long 0x10 2. "CSE,Clear Sticky Error. Used to clear the EDSCR cumulative error bits to 0. The actions on writing to this bit are: 0 No action. 1 Clear the EDSCR.{TXU RXO ERR} bits and if the processor is in.." "0,1" newline bitfld.long 0x10 0.--1. "RES0_EDRCR_1_0,Reserved RES0." "0,1,2,3" line.long 0x14 "APBADDR_DBG_CPU2_EDACR,External Debug Auxiliary Control Register" hexmask.long 0x14 0.--31. 1. "RES0_EDACR_31_0,Reserved RES0" line.long 0x18 "APBADDR_DBG_CPU2_EDECCR,External Debug Exception Catch Control Register" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_EDECCR_31_8,Reserved RES0." hexmask.long.byte 0x18 4.--7. 1. "NSE,Coarse-grained Non-secure exception catch. Possible values of this field are: 0000 Exception catch debug event disabled for Non-secure exception levels. 0010 Exception catch debug event enabled.." newline hexmask.long.byte 0x18 0.--3. 1. "SE,Coarse-grained Secure exception catch. Possible values of this field are: 0000 Exception catch debug event disabled for Secure exception levels. 0010 Exception catch debug event enabled for.." group.long 0xA0++0xF line.long 0x0 "APBADDR_DBG_CPU2_EDPCSR_31_0,External Debug Program Counter Sample Register (low word)" hexmask.long 0x0 0.--31. 1. "EDPCSR_31_0,PC Sample low word EDPCSRlo. Bits [31:0] of the sampled instruction address value. Reading EDPCSRlo has the side-effect of updating EDCIDSR EDVIDSR and EDPCSRhi. However:If the processor is in Debug state or Sample-based profiling is.." line.long 0x4 "APBADDR_DBG_CPU2_EDCIDSR,External Debug Context ID Sample Register" hexmask.long 0x4 0.--31. 1. "CONTEXTIDR,The sampled value of CONTEXTIDR_EL1 captured on reading the low half of EDPCSR.If EL3 is implemented and using AArch32 then CONTEXTIDR is a Banked register and EDCIDSR samples the current Banked copy of CONTEXTIDR." line.long 0x8 "APBADDR_DBG_CPU2_EDVIDSR,External Debug Virtual Context Sample Register" bitfld.long 0x8 31. "NS,Non-secure state sample. Indicates the security state associated with the most recent EDPCSR sample." "0,1" bitfld.long 0x8 30. "E2,Exception level 2 status sample. Indicates whether the most recent EDPCSR sample was associated with EL2. If EDVIDSR.NS == 0 this bit is 0." "0,1" newline bitfld.long 0x8 29. "E3,Exception level 3 status sample. Indicates whether the most recent EDPCSR sample was associated with AArch64 EL3. If EDVIDSR.NS == 1 or the processor was in AArch32 state when EDPCSR was read this bit is 0." "0,1" bitfld.long 0x8 28. "HV,EDPCSR high half valid. Indicates whether bits [63:32] of the most recent EDPCSR sample are valid. If EDVIDSR.HV == 0 the value of EDPCSR[63:32] is RAZ." "0,1" newline hexmask.long.tbyte 0x8 8.--27. 1. "RES0_EDVIDSR_27_8,Reserved RES0." hexmask.long.byte 0x8 0.--7. 1. "VMID,VMID sample. The value of VTTBR_EL2.VMID associated with the most recent EDPCSR sample. If EDVIDSR.NS == 0 or EDVIDSR.E2 == 1 this field is RAZ." line.long 0xC "APBADDR_DBG_CPU2_EDPCSR_63_32,External Debug Program Counter Sample Register (high word)" hexmask.long 0xC 0.--31. 1. "EDPCSR_63_32,PC Sample high word EDPCSRhi. If EDVIDSR.HV == 0 then this field is RAZ otherwise bits [63:32] of the sampled PC." group.long 0x300++0x3 line.long 0x0 "APBADDR_DBG_CPU2_OSLAR_EL1,OS Lock Access Register" hexmask.long 0x0 1.--31. 1. "RES0_OSLAR_EL1_31_1,Reserved RES0." bitfld.long 0x0 0. "OSLK,On writes to OSLAR_EL1 bit[0] is copied to the OS lock.Use EDPRSR.OSLK to check the current status of the lock." "0,1" group.long 0x310++0x7 line.long 0x0 "APBADDR_DBG_CPU2_EDPRCR,External Debug Power/Reset Control Register" hexmask.long 0x0 4.--31. 1. "RES0_EDPRCR_31_4,Reserved RES0." bitfld.long 0x0 3. "COREPURQ,Core powerup request. Allows a debugger to request that the power controller power up the core enabling access to the debug register in the Core power domain. The actions on writing to this bit are: 0 No effect." "0,1" newline bitfld.long 0x0 2. "RES0_EDPRCR_2_2,Reserved RES0." "0,1" bitfld.long 0x0 1. "CWRR,Warm reset request. Write only bit that reads as zero. The actions on writing to this bit are: 0 No action. 1 Request Warm reset. The processor ignores writes to this bit if.." "0,1" newline bitfld.long 0x0 0. "CORENPDRQ,Core no powerdown request. Requests emulation of powerdown. Possible values of this bit are: 0 On a powerdown request the system powers down the Core power domain. 1 On a powerdown.." "0,1" line.long 0x4 "APBADDR_DBG_CPU2_EDPRSR,External Debug Processor Status Register" hexmask.long.tbyte 0x4 12.--31. 1. "RES0_EDPRSR_31_12,Reserved RES0." bitfld.long 0x4 11. "SDR,Sticky debug restart. Set to 1 when the processor exits Debug state and cleared to 0 following reads of EDPRSR. 0 The processor has not restarted since EDPRSR was last read. 1 The processor has.." "0,1" newline bitfld.long 0x4 10. "SPMAD,Sticky EPMAD error. Set to 1 if an access returns an error because AllowExternalPMUAccess[] == FALSE. 0 No accesses to the external performance monitors registers have failed since EDPRSR was last read. 1.." "0,1" bitfld.long 0x4 9. "EPMAD,External performance monitors access disable status. 0 External performance monitors access enabled. 1 External performance monitors access disabled. If external performance.." "0,1" newline bitfld.long 0x4 8. "SDAD,Sticky EDAD error. Set to 1 if an access returns an error because AllowExternalDebugAccess[] == FALSE. 0 No accesses to the external debug registers have failed since EDPRSR was last read. 1.." "0,1" bitfld.long 0x4 7. "EDAD,External debug access disable status. 0 External debug access enabled. 1 External debug access disabled. This bit is UNKNOWN on reads if either of EDPRSR.{DLK R} is 1 or.." "0,1" newline bitfld.long 0x4 6. "DLK,OS Double Lock status bit. 0 OSDLR_EL1.DLK == 0 or EDPRCR.CORENPDRQ == 1 or the processor is in Debug state. 1 OSDLR_EL1.DLK == 1 and EDPRCR.CORENPDRQ == 0 and the processor is in Non-debug.." "0,1" bitfld.long 0x4 5. "OSLK,OS lock status bit. A read of this bit returns the value of OSLSR_EL1.OSLK.This bit is UNKNOWN on reads if either of EDPRSR.{DLK R} is 1 or EDPRSR.PU is 0." "0,1" newline bitfld.long 0x4 4. "HALTED,Halted status bit. Possible values are: 0 EDSCR.STATUS is 0b000010 [processor in Non-debug state]. 1 EDSCR.STATUS is not 0b000010. This bit is UNKNOWN on reads if EDPRSR.PU.." "0,1" bitfld.long 0x4 3. "SR,Sticky core reset status bit. Possible values are: 0 The non-debug logic of the processor is not in reset state and has not been reset since the last time EDPRSR was read. 1 The non-debug logic.." "0,1" newline bitfld.long 0x4 2. "R,Core reset status bit. Possible values are: 0 The non-debug logic of the processor is not in reset state. 1 The non-debug logic of the processor is in reset state. This bit is.." "0,1" bitfld.long 0x4 1. "SPD,Sticky core power-down status bit.This bit is set to 1 on Cold reset to indicate the state of the debug registers has been lost. Since a Cold reset is required on powering up the processor this usually indicates the Core power domain has been.." "0,1" newline bitfld.long 0x4 0. "PU,Core power-up status bit. Indicates whether the Core power domain debug registers can be accessed: 0 Core is in a low-power or power-down state where the debug registers cannot be accessed. 1.." "0,1" group.long 0x400++0xB line.long 0x0 "APBADDR_DBG_CPU2_DBGBVR0_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR0_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR0_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU2_DBGBVR0_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR0_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR0_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU2_DBGBCR0_EL1,Debug Breakpoint Control Register 0" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR0_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR0_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR0_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x410++0xB line.long 0x0 "APBADDR_DBG_CPU2_DBGBVR1_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR1_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR1_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU2_DBGBVR1_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR1_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR1_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU2_DBGBCR1_EL1,Debug Breakpoint Control Register 1" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR1_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR1_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR1_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x420++0xB line.long 0x0 "APBADDR_DBG_CPU2_DBGBVR2_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR2_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR2_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU2_DBGBVR2_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR2_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR2_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU2_DBGBCR2_EL1,Debug Breakpoint Control Register 2" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR2_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR2_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR2_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x430++0xB line.long 0x0 "APBADDR_DBG_CPU2_DBGBVR3_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR3_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR3_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU2_DBGBVR3_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR3_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR3_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU2_DBGBCR3_EL1,Debug Breakpoint Control Register 3" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR3_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR3_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR3_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x440++0xB line.long 0x0 "APBADDR_DBG_CPU2_DBGBVR4_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR4_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR4_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU2_DBGBVR4_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR4_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR4_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU2_DBGBCR4_EL1,Debug Breakpoint Control Register 4" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR4_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR4_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR4_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x450++0xB line.long 0x0 "APBADDR_DBG_CPU2_DBGBVR5_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR5_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR5_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU2_DBGBVR5_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR5_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR5_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU2_DBGBCR5_EL1,Debug Breakpoint Control Register 5" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR5_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR5_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR5_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x800++0xB line.long 0x0 "APBADDR_DBG_CPU2_DBGWVR0_EL1_31_0,Debug Watchpoint Value Register 0" hexmask.long 0x0 2.--31. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." bitfld.long 0x0 0.--1. "RES0_DBGWVR0_EL1_31_0_1_0,Reserved RES0." "0,1,2,3" line.long 0x4 "APBADDR_DBG_CPU2_DBGWVR0_EL1_63_32,Debug Watchpoint Extended Value Register 0" hexmask.long.word 0x4 17.--31. 1. "RESS,Reserved Sign extended. Hardwired to the value of the sign bit bit [48]. Hardware and software must treat this field as RES0 if bit[48] is 0 and as RES1 if bit[48] is 1." hexmask.long.tbyte 0x4 0.--16. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." line.long 0x8 "APBADDR_DBG_CPU2_DBGWCR0_EL1,Debug Watchpoint Control Register 0" bitfld.long 0x8 29.--31. "RES0_DBGWCR0_EL1_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "MASK,Address mask. Only objects up to 2GB can be watched using a single mask. 00000 No mask. 00001 Reserved. 00010 Reserved. Other values.." newline bitfld.long 0x8 21.--23. "RES0_DBGWCR0_EL1_23_21,Reserved RES0." "0,1,2,3,4,5,6,7" bitfld.long 0x8 20. "WT,Watchpoint type. Possible values are: 0 Unlinked data address match. 1 Linked data address match." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked data address watchpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the HMC and PAC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and PAC fields." "0,1" hexmask.long.byte 0x8 5.--12. 1. "BAS,Byte address select. Each bit of this field selects whether a byte from within the word or double-word addressed by DBGWVR<n>_EL1 is being watched.BASDescriptionxxxxxxx1Match byte at DBGWVR<n>_EL1xxxxxx1xMatch byte at.." newline bitfld.long 0x8 3.--4. "LSC,Load/store control. This field enables watchpoint matching on the type of access being made. Possible values of this field are: 01 Match instructions that load from a watchpointed address. 10.." "0,1,2,3" bitfld.long 0x8 1.--2. "PAC,Privilege of access control. Determines the exception level or levels at which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" newline bitfld.long 0x8 0. "E,Enable watchpoint n. Possible values are: 0 Watchpoint disabled. 1 Watchpoint enabled." "0,1" group.long 0x810++0xB line.long 0x0 "APBADDR_DBG_CPU2_DBGWVR1_EL1_31_0,Debug Watchpoint Value Register 1" hexmask.long 0x0 2.--31. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." bitfld.long 0x0 0.--1. "RES0_DBGWVR1_EL1_31_0_1_0,Reserved RES0." "0,1,2,3" line.long 0x4 "APBADDR_DBG_CPU2_DBGWVR1_EL1_63_32,Debug Watchpoint Extended Value Register 1" hexmask.long.word 0x4 17.--31. 1. "RESS,Reserved Sign extended. Hardwired to the value of the sign bit bit [48]. Hardware and software must treat this field as RES0 if bit[48] is 0 and as RES1 if bit[48] is 1." hexmask.long.tbyte 0x4 0.--16. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." line.long 0x8 "APBADDR_DBG_CPU2_DBGWCR1_EL1,Debug Watchpoint Control Register 1" bitfld.long 0x8 29.--31. "RES0_DBGWCR1_EL1_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "MASK,Address mask. Only objects up to 2GB can be watched using a single mask. 00000 No mask. 00001 Reserved. 00010 Reserved. Other values.." newline bitfld.long 0x8 21.--23. "RES0_DBGWCR1_EL1_23_21,Reserved RES0." "0,1,2,3,4,5,6,7" bitfld.long 0x8 20. "WT,Watchpoint type. Possible values are: 0 Unlinked data address match. 1 Linked data address match." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked data address watchpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the HMC and PAC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and PAC fields." "0,1" hexmask.long.byte 0x8 5.--12. 1. "BAS,Byte address select. Each bit of this field selects whether a byte from within the word or double-word addressed by DBGWVR<n>_EL1 is being watched.BASDescriptionxxxxxxx1Match byte at DBGWVR<n>_EL1xxxxxx1xMatch byte at.." newline bitfld.long 0x8 3.--4. "LSC,Load/store control. This field enables watchpoint matching on the type of access being made. Possible values of this field are: 01 Match instructions that load from a watchpointed address. 10.." "0,1,2,3" bitfld.long 0x8 1.--2. "PAC,Privilege of access control. Determines the exception level or levels at which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" newline bitfld.long 0x8 0. "E,Enable watchpoint n. Possible values are: 0 Watchpoint disabled. 1 Watchpoint enabled." "0,1" group.long 0x820++0xB line.long 0x0 "APBADDR_DBG_CPU2_DBGWVR2_EL1_31_0,Debug Watchpoint Value Register 2" hexmask.long 0x0 2.--31. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." bitfld.long 0x0 0.--1. "RES0_DBGWVR2_EL1_31_0_1_0,Reserved RES0." "0,1,2,3" line.long 0x4 "APBADDR_DBG_CPU2_DBGWVR2_EL1_63_32,Debug Watchpoint Extended Value Register 2" hexmask.long.word 0x4 17.--31. 1. "RESS,Reserved Sign extended. Hardwired to the value of the sign bit bit [48]. Hardware and software must treat this field as RES0 if bit[48] is 0 and as RES1 if bit[48] is 1." hexmask.long.tbyte 0x4 0.--16. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." line.long 0x8 "APBADDR_DBG_CPU2_DBGWCR2_EL1,Debug Watchpoint Control Register 2" bitfld.long 0x8 29.--31. "RES0_DBGWCR2_EL1_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "MASK,Address mask. Only objects up to 2GB can be watched using a single mask. 00000 No mask. 00001 Reserved. 00010 Reserved. Other values.." newline bitfld.long 0x8 21.--23. "RES0_DBGWCR2_EL1_23_21,Reserved RES0." "0,1,2,3,4,5,6,7" bitfld.long 0x8 20. "WT,Watchpoint type. Possible values are: 0 Unlinked data address match. 1 Linked data address match." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked data address watchpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the HMC and PAC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and PAC fields." "0,1" hexmask.long.byte 0x8 5.--12. 1. "BAS,Byte address select. Each bit of this field selects whether a byte from within the word or double-word addressed by DBGWVR<n>_EL1 is being watched.BASDescriptionxxxxxxx1Match byte at DBGWVR<n>_EL1xxxxxx1xMatch byte at.." newline bitfld.long 0x8 3.--4. "LSC,Load/store control. This field enables watchpoint matching on the type of access being made. Possible values of this field are: 01 Match instructions that load from a watchpointed address. 10.." "0,1,2,3" bitfld.long 0x8 1.--2. "PAC,Privilege of access control. Determines the exception level or levels at which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" newline bitfld.long 0x8 0. "E,Enable watchpoint n. Possible values are: 0 Watchpoint disabled. 1 Watchpoint enabled." "0,1" group.long 0x830++0xB line.long 0x0 "APBADDR_DBG_CPU2_DBGWVR3_EL1_31_0,Debug Watchpoint Value Register 3" hexmask.long 0x0 2.--31. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." bitfld.long 0x0 0.--1. "RES0_DBGWVR3_EL1_31_0_1_0,Reserved RES0." "0,1,2,3" line.long 0x4 "APBADDR_DBG_CPU2_DBGWVR3_EL1_63_32,Debug Watchpoint Extended Value Register 3" hexmask.long.word 0x4 17.--31. 1. "RESS,Reserved Sign extended. Hardwired to the value of the sign bit bit [48]. Hardware and software must treat this field as RES0 if bit[48] is 0 and as RES1 if bit[48] is 1." hexmask.long.tbyte 0x4 0.--16. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." line.long 0x8 "APBADDR_DBG_CPU2_DBGWCR3_EL1,Debug Watchpoint Control Register 3" bitfld.long 0x8 29.--31. "RES0_DBGWCR3_EL1_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "MASK,Address mask. Only objects up to 2GB can be watched using a single mask. 00000 No mask. 00001 Reserved. 00010 Reserved. Other values.." newline bitfld.long 0x8 21.--23. "RES0_DBGWCR3_EL1_23_21,Reserved RES0." "0,1,2,3,4,5,6,7" bitfld.long 0x8 20. "WT,Watchpoint type. Possible values are: 0 Unlinked data address match. 1 Linked data address match." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked data address watchpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the HMC and PAC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and PAC fields." "0,1" hexmask.long.byte 0x8 5.--12. 1. "BAS,Byte address select. Each bit of this field selects whether a byte from within the word or double-word addressed by DBGWVR<n>_EL1 is being watched.BASDescriptionxxxxxxx1Match byte at DBGWVR<n>_EL1xxxxxx1xMatch byte at.." newline bitfld.long 0x8 3.--4. "LSC,Load/store control. This field enables watchpoint matching on the type of access being made. Possible values of this field are: 01 Match instructions that load from a watchpointed address. 10.." "0,1,2,3" bitfld.long 0x8 1.--2. "PAC,Privilege of access control. Determines the exception level or levels at which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" newline bitfld.long 0x8 0. "E,Enable watchpoint n. Possible values are: 0 Watchpoint disabled. 1 Watchpoint enabled." "0,1" group.long 0xD00++0x3 line.long 0x0 "APBADDR_DBG_CPU2_MIDR_EL1,Main ID Register" hexmask.long.byte 0x0 24.--31. 1. "IMPLEMENTER,The Implementer code. This field must hold an implementer code that has been assigned by ARM." hexmask.long.byte 0x0 20.--23. 1. "VARIANT,An IMPLEMENTATION DEFINED variant number. Typically this field is used to distinguish between different product variants or major revisions of a product." newline hexmask.long.byte 0x0 16.--19. 1. "ARCHITECTURE," hexmask.long.word 0x0 4.--15. 1. "PARTNUM,An IMPLEMENTATION DEFINED primary part number for the device. On processors implemented by ARM if the top four bits of the primary part number are 0x0 or 0x7 the variant and architecture are encoded differently" newline hexmask.long.byte 0x0 0.--3. 1. "REVISION,An IMPLEMENTATION DEFINED revision number for the device" group.long 0xD20++0x3F line.long 0x0 "APBADDR_DBG_CPU2_ID_AA64PFR0_EL1_31_0,Processor Feature Register 0 (low word)" hexmask.long.byte 0x0 28.--31. 1. "RES0_ID_AA64PFR0_EL1_31_0_31_28,Reserved RES0." hexmask.long.byte 0x0 24.--27. 1. "GIC,GIC system register interface. Permitted values are: 0000 No GIC system registers are supported. 0001 GICv3 system registers are supported. All other values are reserved." newline hexmask.long.byte 0x0 20.--23. 1. "ADVSIMD,Advanced SIMD. Permitted values are: 0000 Advanced SIMD is implemented. 1111 Advanced SIMD is not implemented. All other values are reserved." hexmask.long.byte 0x0 16.--19. 1. "FP,Floating-point. Permitted values are: 0000 Floating-point is implemented. 1111 Floating-point is not implemented. All other values are reserved." newline hexmask.long.byte 0x0 12.--15. 1. "EL3,EL3 exception level handling. Permitted values are: 0000 EL3 is not implemented. 0001 EL3 can be executed in AArch64 state only. 0010 EL3 can be executed.." hexmask.long.byte 0x0 8.--11. 1. "EL2,EL2 exception level handling. Permitted values are: 0000 EL2 is not implemented. 0001 EL2 can be executed in AArch64 state only. 0010 EL2 can be executed.." newline hexmask.long.byte 0x0 4.--7. 1. "EL1,EL1 exception level handling. Permitted values are: 0000 EL1 is not implemented. 0001 EL1 can be executed in AArch64 state only. 0010 EL1 can be executed.." hexmask.long.byte 0x0 0.--3. 1. "EL0,EL0 exception level handling. Permitted values are: 0000 EL0 is not implemented. 0001 EL0 can be executed in AArch64 state only. 0010 EL0 can be executed.." line.long 0x4 "APBADDR_DBG_CPU2_ID_AA64PFR0_EL1_63_32,Processor Feature Register 0 (high word)" hexmask.long 0x4 0.--31. 1. "RES0_ID_AA64PFR0_EL1_63_32_31_0,Reserved RES0." line.long 0x8 "APBADDR_DBG_CPU2_ID_AA64DFR0_EL1_31_0,Debug Feature Register 0 (low word)" hexmask.long.byte 0x8 28.--31. 1. "CTX_CMPS,Number of breakpoints that are context-aware minus 1. These are the highest numbered breakpoints." hexmask.long.byte 0x8 24.--27. 1. "RES0_ID_AA64DFR0_EL1_31_0_27_24,Reserved RES0." newline hexmask.long.byte 0x8 20.--23. 1. "WRPS,Number of watchpoints minus 1. The value of 0b0000 is reserved." hexmask.long.byte 0x8 16.--19. 1. "RES0_ID_AA64DFR0_EL1_31_0_19_16,Reserved RES0." newline hexmask.long.byte 0x8 12.--15. 1. "BRPS,Number of breakpoints minus 1. The value of 0b0000 is reserved." hexmask.long.byte 0x8 8.--11. 1. "PMUVER,Performance Monitors extension version. Indicates whether system register interface to Performance Monitors extension is implemented. Permitted values are: 0000 Performance Monitors extension system registers not implemented." newline hexmask.long.byte 0x8 4.--7. 1. "TRACEVER,Trace extension. Indicates whether system register interface to Trace extension is implemented. Permitted values are: 0000 Trace extension system registers not implemented. 0001 Trace.." hexmask.long.byte 0x8 0.--3. 1. "DEBUGVER,Debug architecture version. Indicates presence of v8-A debug architecture. 0110 v8-A debug architecture. All other values are reserved." line.long 0xC "APBADDR_DBG_CPU2_ID_AA64DFR0_EL1_63_32,Debug Feature Register 0 (high word)" hexmask.long 0xC 0.--31. 1. "RES0_ID_AA64DFR0_EL1_63_32_31_0,Reserved RES0." line.long 0x10 "APBADDR_DBG_CPU2_ID_AA64ISAR0_EL1_31_0,Instruction Set Attribute Register 0 (low word)" hexmask.long.word 0x10 20.--31. 1. "RES0_ID_AA64ISAR0_EL1_31_0_31_20,Reserved RES0." hexmask.long.byte 0x10 16.--19. 1. "CRC32,CRC32 instructions in AArch64. Possible values of this field are: 0000 No CRC32 instructions implemented. 0001 CRC32B CRC32H CRC32W CRC32X CRC32CB CRC32CH CRC32CW and CRC32CX.." newline hexmask.long.byte 0x10 12.--15. 1. "SHA2,SHA2 instructions in AArch64. Possible values of this field are: 0000 No SHA2 instructions implemented. 0001 SHA256H SHA256H2 SHA256SU0 and SHA256SU1 instructions implemented." hexmask.long.byte 0x10 8.--11. 1. "SHA1,SHA1 instructions in AArch64. Possible values of this field are: 0000 No SHA1 instructions implemented. 0001 SHA1C SHA1P SHA1M SHA1H SHA1SU0 and SHA1SU1 instructions implemented." newline hexmask.long.byte 0x10 4.--7. 1. "AES,AES instructions in AArch64. Possible values of this field are: 0000 No AES instructions implemented. 0001 AESE AESD AESMC and AESIMC instructions implemented. 0010.." hexmask.long.byte 0x10 0.--3. 1. "RES0_ID_AA64ISAR0_EL1_31_0_3_0,Reserved RES0." line.long 0x14 "APBADDR_DBG_CPU2_ID_AA64ISAR0_EL1_63_32,Instruction Set Attribute Register 0 (high word)" hexmask.long 0x14 0.--31. 1. "RES0_ID_AA64ISAR0_EL1_63_32_31_0,Reserved RES0." line.long 0x18 "APBADDR_DBG_CPU2_ID_AA64MMFR0_EL1_31_0,Memory Model Feature Register 0 (low word)" hexmask.long.byte 0x18 28.--31. 1. "TGRAN4,Support for 4 Kbyte memory translation granule size. Permitted values are: 0000 4 KB granule supported. 1111 4 KB granule not supported. All other values are reserved." hexmask.long.byte 0x18 24.--27. 1. "TGRAN64,Support for 64 Kbyte memory translation granule size. Permitted values are: 0000 64 KB granule supported. 1111 64 KB granule not supported. All other values are reserved." newline hexmask.long.byte 0x18 20.--23. 1. "TGRAN16,Support for 16 Kbyte memory translation granule size. Permitted values are: 0000 16 KB granule not supported. 0001 16 KB granule supported. All other values are reserved." hexmask.long.byte 0x18 16.--19. 1. "BIGENDEL0,Mixed-endian support at EL0 only. Permitted values are: 0000 No mixed-endian support at EL0. The SCTLR_EL1.E0E bit has a fixed value. 0001 Mixed-endian support at EL0. The SCTLR_EL1.E0E.." newline hexmask.long.byte 0x18 12.--15. 1. "SNSMEM,Secure versus Non-secure Memory distinction. Permitted values are: 0000 Does not support a distinction between Secure and Non-secure Memory. 0001 Does support a distinction between Secure.." hexmask.long.byte 0x18 8.--11. 1. "BIGEND,Mixed-endian configuration support. Permitted values are: 0000 No mixed-endian support. The SCTLR_ELx.EE bits have a fixed value. See the BigEndEL0 field bits[19:16] for whether EL0 supports mixed-endian." newline hexmask.long.byte 0x18 4.--7. 1. "ASIDBITS,Number of ASID bits. Permitted values are: 0000 8 bits. 0010 16 bits. All other values are reserved." hexmask.long.byte 0x18 0.--3. 1. "PARANGE,Physical Address range supported. Permitted values are: 0000 32 bits 4 GB. 0001 36 bits 64 GB. 0010 40 bits 1 TB. 0011.." line.long 0x1C "APBADDR_DBG_CPU2_ID_AA64MMFR0_EL1_63_32,Memory Model Feature Register 0 (high word)" hexmask.long 0x1C 0.--31. 1. "RES0_ID_AA64MMFR0_EL1_63_32_31_0,Reserved RES0." line.long 0x20 "APBADDR_DBG_CPU2_ID_AA64PFR1_EL1_31_0,Processor Feature Register 1 (low word)" hexmask.long 0x20 0.--31. 1. "RES0_ID_AA64PFR1_EL1_31_0_31_0,Reserved RES0." line.long 0x24 "APBADDR_DBG_CPU2_ID_AA64PFR1_EL1_63_32,Processor Feature Register 1 (high word)" hexmask.long 0x24 0.--31. 1. "RES0_ID_AA64PFR1_EL1_63_32_31_0,Reserved RES0." line.long 0x28 "APBADDR_DBG_CPU2_ID_AA64DFR1_EL1_31_0,Auxiliary Feature Register 1 (low word)" hexmask.long 0x28 0.--31. 1. "RES0_ID_AA64DFR1_EL1_31_0_31_0,Reserved RES0." line.long 0x2C "APBADDR_DBG_CPU2_ID_AA64DFR1_EL1_63_32,Auxiliary Feature Register 1 (high word)" hexmask.long 0x2C 0.--31. 1. "RES0_ID_AA64DFR1_EL1_63_32_31_0,Reserved RES0." line.long 0x30 "APBADDR_DBG_CPU2_ID_AA64ISAR1_EL1_31_0,Instruction Set Attribute Register 1 (low word)" hexmask.long 0x30 0.--31. 1. "RES0_ID_AA64ISAR1_EL1_31_0_31_0,Reserved RES0." line.long 0x34 "APBADDR_DBG_CPU2_ID_AA64ISAR1_EL1_63_32,Instruction Set Attribute Register 1 (high word)" hexmask.long 0x34 0.--31. 1. "RES0_ID_AA64ISAR1_EL1_63_32_31_0,Reserved RES0." line.long 0x38 "APBADDR_DBG_CPU2_ID_AA64MMFR1_EL1_31_0,Memory Model Feature Register 1 (low word)" hexmask.long 0x38 0.--31. 1. "RES0_ID_AA64MMFR1_EL1_31_0_31_0,Reserved RES0." line.long 0x3C "APBADDR_DBG_CPU2_ID_AA64MMFR1_EL1_63_32,Memory Model Feature Register 1 (high word)" hexmask.long 0x3C 0.--31. 1. "RES0_ID_AA64MMFR1_EL1_63_32_31_0,Reserved RES0." group.long 0xF00++0x3 line.long 0x0 "APBADDR_DBG_CPU2_EDITCTRL,External Debug Integration mode Control Register" hexmask.long 0x0 1.--31. 1. "RES0_EDITCTRL_31_1,Reserved RES0." bitfld.long 0x0 0. "IME,Integration mode enable. When IME == 1 the device reverts to an integration mode to enable integration testing or topology detection. The integration mode behavior is IMPLEMENTATION DEFINED. 0 Normal operation." "0,1" group.long 0xFA0++0x33 line.long 0x0 "APBADDR_DBG_CPU2_DBGCLAIMSET_EL1,Debug Claim Tag Set Register" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_DBGCLAIMSET_EL1_31_8,Reserved RAZ/SBZ. Software can rely on these bits reading as zero and must use a should-be-zero policy on writes. Implementations must ignore writes." hexmask.long.byte 0x0 0.--7. 1. "CLAIM,Claim set bits. RAO.Writing a 1 to one of these bits sets the corresponding CLAIM bit to 1. This is an indirect write to the CLAIM bits.A single write operation can set multiple bits to 1. Writing 0 to one of these bits has no effect." line.long 0x4 "APBADDR_DBG_CPU2_DBGCLAIMCLR_EL1,Debug Claim Tag Clear Register" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_DBGCLAIMCLR_EL1_31_8,Reserved RAZ/SBZ. Software can rely on these bits reading as zero and must use a should-be-zero policy on writes. Implementations must ignore writes." hexmask.long.byte 0x4 0.--7. 1. "CLAIM,Claim clear bits. Reading this field returns the current value of the CLAIM bits.Writing a 1 to one of these bits clears the corresponding CLAIM bit to 0. This is an indirect write to the CLAIM bits.A single write operation can clear multiple bits.." line.long 0x8 "APBADDR_DBG_CPU2_EDDEVAFF0,External Debug Device Affinity Register 0" hexmask.long 0x8 0.--31. 1. "EDDEVAFF0,MPIDR_EL1 low half. Read-only copy of the low half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0xC "APBADDR_DBG_CPU2_EDDEVAFF1,External Debug Device Affinity Register 1" hexmask.long 0xC 0.--31. 1. "EDDEVAFF1,MPIDR_EL1 high half. Read-only copy of the high half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x10 "APBADDR_DBG_CPU2_EDLAR,External Debug Lock Access Register" hexmask.long 0x10 0.--31. 1. "KEY,Lock Access control. Writing the key value 0xC5ACCE55 to this field unlocks the lock enabling write accesses to this component's registers through a memory-mapped interface.Writing any other value to this register locks the lock disabling write.." line.long 0x14 "APBADDR_DBG_CPU2_EDLSR,External Debug Lock Status Register" hexmask.long 0x14 3.--31. 1. "RES0_EDLSR_31_3,Reserved RES0." bitfld.long 0x14 2. "NTT,Not thirty-two bit access required. RAZ." "0,1" newline bitfld.long 0x14 1. "SLK,Software lock status for this component. For an access to LSR that is not a memory-mapped access or when the software lock is not implemented this field is RES0.For memory-mapped accesses when the software lock is implemented possible values of.." "0,1" bitfld.long 0x14 0. "SLI,Software lock implemented. For an access to LSR that is not a memory-mapped access this field is RAZ. For memory-mapped accesses the value of this field is IMPLEMENTATION DEFINED. Permitted values are: 0 Software lock not.." "0,1" line.long 0x18 "APBADDR_DBG_CPU2_DBGAUTHSTATUS_EL1,Debug Authentication Status register" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_DBGAUTHSTATUS_EL1_31_8,Reserved RES0." bitfld.long 0x18 6.--7. "SNID,Secure non-invasive debug. Possible values of this field are: 00 Not implemented. EL3 is not implemented and the processor is Non-secure. 10 Implemented and disabled." "0,1,2,3" newline bitfld.long 0x18 4.--5. "SID,Secure invasive debug. Possible values of this field are: 00 Not implemented. EL3 is not implemented and the processor is Non-secure. 10 Implemented and disabled." "0,1,2,3" bitfld.long 0x18 2.--3. "NSNID,Non-secure non-invasive debug. Possible values of this field are: 00 Not implemented. EL3 is not implemented and the processor is Secure. 10 Implemented and disabled." "0,1,2,3" newline bitfld.long 0x18 0.--1. "NSID,Non-secure invasive debug. Possible values of this field are: 00 Not implemented. EL3 is not implemented and the processor is Secure. 10 Implemented and disabled." "0,1,2,3" line.long 0x1C "APBADDR_DBG_CPU2_EDDEVARCH,External Debug Device Architecture Register" hexmask.long.word 0x1C 21.--31. 1. "ARCHITECT,Defines the architecture of the component. For debug this is ARM Limited.Bits [31:28] are the JEP 106 continuation code 0x4.Bits [27:21] are the JEP 106 ID code 0x3B." bitfld.long 0x1C 20. "PRESENT,When set to 1 indicates that the DEVARCH is present.This field is 1 in v8-A." "0,1" newline hexmask.long.byte 0x1C 16.--19. 1. "REVISION,Defines the architecture revision. For architectures defined by ARM this is the minor revision.For debug the revision defined by v8-A is 0x0.All other values are reserved." hexmask.long.word 0x1C 0.--15. 1. "ARCHID,Defines this part to be a v8-A debug component. For architectures defined by ARM this is further subdivided.For debug:Bits [15:12] are the architecture version 0x6.Bits [11:0] are the architecture part number 0xA15.This corresponds to debug.." line.long 0x20 "APBADDR_DBG_CPU2_EDDEVID2,External Debug Device ID Register 2" hexmask.long 0x20 0.--31. 1. "RES0_EDDEVID2_31_0,Reserved RES0." line.long 0x24 "APBADDR_DBG_CPU2_EDDEVID1,External Debug Device ID Register 1" hexmask.long 0x24 4.--31. 1. "RES0_EDDEVID1_31_4,Reserved RES0." hexmask.long.byte 0x24 0.--3. 1. "PCSROFFSET,This field indicates the offset applied to PC samples returned by reads of EDPCSR. Permitted values of this field in v8-A are: 0000 EDPCSR not implemented. 0010 EDPCSR implemented and.." line.long 0x28 "APBADDR_DBG_CPU2_EDDEVID,External Debug Device ID Register 0" hexmask.long.byte 0x28 28.--31. 1. "RES0_EDDEVID_31_28,Reserved RES0." hexmask.long.byte 0x28 24.--27. 1. "AUXREGS,Indicates support for Auxiliary registers. Permitted values for this field are: 0000 None supported. 0001 Support for External Debug Auxiliary Control Register EDACR. All.." newline hexmask.long.tbyte 0x28 4.--23. 1. "RES0_EDDEVID_23_4,Reserved RES0." hexmask.long.byte 0x28 0.--3. 1. "PCSAMPLE,Indicates the level of Sample-based profiling support using external debug registers 40 through 43. Permitted values of this field in v8-A are: 0000 Architecture-defined form of Sample-based profiling not implemented." line.long 0x2C "APBADDR_DBG_CPU2_EDDEVTYPE,External Debug Device Type Register" hexmask.long.tbyte 0x2C 8.--31. 1. "RES0_EDDEVTYPE_31_8,Reserved RES0." hexmask.long.byte 0x2C 4.--7. 1. "SUB,Subtype. Must read as 0x1 to indicate this is a processor component." newline hexmask.long.byte 0x2C 0.--3. 1. "MAJOR,Major type. Must read as 0x5 to indicate this is a debug logic component." line.long 0x30 "APBADDR_DBG_CPU2_EDPIDR4,External Debug Peripheral Identification Register 4" hexmask.long.tbyte 0x30 8.--31. 1. "RES0_EDPIDR4_31_8,Reserved RES0." hexmask.long.byte 0x30 4.--7. 1. "SIZE,Size of the component. RAZ. Log2 of the number of 4KB pages from the start of the component to the end of the component ID registers." newline hexmask.long.byte 0x30 0.--3. 1. "DES_2,Designer JEP106 continuation code least significant nibble. For ARM Limited this field is 0b0100." group.long 0xFE0++0x1F line.long 0x0 "APBADDR_DBG_CPU2_EDPIDR0,External Debug Peripheral Identification Register 0" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_EDPIDR0_31_8,Reserved RES0." hexmask.long.byte 0x0 0.--7. 1. "PART_0,Part number least significant byte." line.long 0x4 "APBADDR_DBG_CPU2_EDPIDR1,External Debug Peripheral Identification Register 1" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_EDPIDR1_31_8,Reserved RES0." hexmask.long.byte 0x4 4.--7. 1. "DES_0,Designer least significant nibble of JEP106 ID code. For ARM Limited this field is 0b1011." newline hexmask.long.byte 0x4 0.--3. 1. "PART_1,Part number most significant nibble." line.long 0x8 "APBADDR_DBG_CPU2_EDPIDR2,External Debug Peripheral Identification Register 2" hexmask.long.tbyte 0x8 8.--31. 1. "RES0_EDPIDR2_31_8,Reserved RES0." hexmask.long.byte 0x8 4.--7. 1. "REVISION,Part major revision. Parts can also use this field to extend Part number to 16-bits." newline bitfld.long 0x8 3. "JEDEC,RAO. Indicates a JEP106 identity code is used." "0,1" bitfld.long 0x8 0.--2. "DES_1,Designer most significant bits of JEP106 ID code. For ARM Limited this field is 0b011." "0,1,2,3,4,5,6,7" line.long 0xC "APBADDR_DBG_CPU2_EDPIDR3,External Debug Peripheral Identification Register 3" hexmask.long.tbyte 0xC 8.--31. 1. "RES0_EDPIDR3_31_8,Reserved RES0." hexmask.long.byte 0xC 4.--7. 1. "REVAND,Part minor revision. Parts using EDPIDR2.REVISION as an extension to the Part number must use this field as a major revision number." newline hexmask.long.byte 0xC 0.--3. 1. "CMOD,Customer modified. Indicates someone other than the Designer has modified the component." line.long 0x10 "APBADDR_DBG_CPU2_EDCIDR0,External Debug Component Identification Register 0" hexmask.long.tbyte 0x10 8.--31. 1. "RES0_EDCIDR0_31_8,Reserved RES0." hexmask.long.byte 0x10 0.--7. 1. "PRMBL_0,Preamble. Must read as 0x0D." line.long 0x14 "APBADDR_DBG_CPU2_EDCIDR1,External Debug Component Identification Register 1" hexmask.long.tbyte 0x14 8.--31. 1. "RES0_EDCIDR1_31_8,Reserved RES0." hexmask.long.byte 0x14 4.--7. 1. "CLASS,Component class. Reads as 0x9 debug component." newline hexmask.long.byte 0x14 0.--3. 1. "PRMBL_1,Preamble. RAZ." line.long 0x18 "APBADDR_DBG_CPU2_EDCIDR2,External Debug Component Identification Register 2" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_EDCIDR2_31_8,Reserved RES0." hexmask.long.byte 0x18 0.--7. 1. "PRMBL_2,Preamble. Must read as 0x05." line.long 0x1C "APBADDR_DBG_CPU2_EDCIDR3,External Debug Component Identification Register 3" hexmask.long.tbyte 0x1C 8.--31. 1. "RES0_EDCIDR3_31_8,Reserved RES0." hexmask.long.byte 0x1C 0.--7. 1. "PRMBL_3,Preamble. Must read as 0xB1." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "A53SS0_CORE2_PMU (A53SS0_CORE2_PMU)" base ad:0x730220000 group.long 0x0++0x3 line.long 0x0 "APBADDR_PMU_CPU2_PMEVCNTR0_EL0,Performance Monitors Event Count Register 0" hexmask.long 0x0 0.--31. 1. "PMEVCNTR0_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x8++0x3 line.long 0x0 "APBADDR_PMU_CPU2_PMEVCNTR1_EL0,Performance Monitors Event Count Register 1" hexmask.long 0x0 0.--31. 1. "PMEVCNTR1_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x10++0x3 line.long 0x0 "APBADDR_PMU_CPU2_PMEVCNTR2_EL0,Performance Monitors Event Count Register 2" hexmask.long 0x0 0.--31. 1. "PMEVCNTR2_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x18++0x3 line.long 0x0 "APBADDR_PMU_CPU2_PMEVCNTR3_EL0,Performance Monitors Event Count Register 3" hexmask.long 0x0 0.--31. 1. "PMEVCNTR3_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x20++0x3 line.long 0x0 "APBADDR_PMU_CPU2_PMEVCNTR4_EL0,Performance Monitors Event Count Register 4" hexmask.long 0x0 0.--31. 1. "PMEVCNTR4_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x28++0x3 line.long 0x0 "APBADDR_PMU_CPU2_PMEVCNTR5_EL0,Performance Monitors Event Count Register 5" hexmask.long 0x0 0.--31. 1. "PMEVCNTR5_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0xF8++0x7 line.long 0x0 "APBADDR_PMU_CPU2_PMCCNTR_EL0_31_0,Performance Monitors Cycle Counter (low word)" hexmask.long 0x0 0.--31. 1. "CCNT,Cycle count. Depending on the values of PMCR_EL0.{LC D} the cycle count increments in one of the following ways:Every processor clock cycle.Every 64th processor clock cycle.The cycle count can be reset to zero by writing 1 to PMCR_EL0.C." line.long 0x4 "APBADDR_PMU_CPU2_PMCCNTR_EL0_63_32,Performance Monitors Cycle Counter (high word)" hexmask.long 0x4 0.--31. 1. "CCNT,Cycle count. Depending on the values of PMCR_EL0.{LC D} the cycle count increments in one of the following ways:Every processor clock cycle.Every 64th processor clock cycle.The cycle count can be reset to zero by writing 1 to PMCR_EL0.C." group.long 0x400++0x17 line.long 0x0 "APBADDR_PMU_CPU2_PMEVTYPER0_EL0,Performance Monitors Event Type Register 0" bitfld.long 0x0 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x0 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x0 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x0 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x0 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x0 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x0 10.--25. 1. "RES0_PMEVTYPER0_EL0_25_10,Reserved RES0." hexmask.long.word 0x0 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0x4 "APBADDR_PMU_CPU2_PMEVTYPER1_EL0,Performance Monitors Event Type Register 1" bitfld.long 0x4 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x4 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x4 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x4 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x4 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x4 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x4 10.--25. 1. "RES0_PMEVTYPER1_EL0_25_10,Reserved RES0." hexmask.long.word 0x4 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0x8 "APBADDR_PMU_CPU2_PMEVTYPER2_EL0,Performance Monitors Event Type Register 2" bitfld.long 0x8 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x8 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x8 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x8 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x8 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x8 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x8 10.--25. 1. "RES0_PMEVTYPER2_EL0_25_10,Reserved RES0." hexmask.long.word 0x8 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0xC "APBADDR_PMU_CPU2_PMEVTYPER3_EL0,Performance Monitors Event Type Register 3" bitfld.long 0xC 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0xC 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0xC 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0xC 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0xC 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0xC 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0xC 10.--25. 1. "RES0_PMEVTYPER3_EL0_25_10,Reserved RES0." hexmask.long.word 0xC 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0x10 "APBADDR_PMU_CPU2_PMEVTYPER4_EL0,Performance Monitors Event Type Register 4" bitfld.long 0x10 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x10 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x10 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x10 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x10 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x10 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x10 10.--25. 1. "RES0_PMEVTYPER4_EL0_25_10,Reserved RES0." hexmask.long.word 0x10 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0x14 "APBADDR_PMU_CPU2_PMEVTYPER5_EL0,Performance Monitors Event Type Register 5" bitfld.long 0x14 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x14 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x14 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x14 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x14 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x14 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x14 10.--25. 1. "RES0_PMEVTYPER5_EL0_25_10,Reserved RES0." hexmask.long.word 0x14 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." group.long 0x47C++0x3 line.long 0x0 "APBADDR_PMU_CPU2_PMCCFILTR_EL0,Performance Monitors Cycle Counter Filter Register" bitfld.long 0x0 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count cycles in EL1. 1.." "0,1" bitfld.long 0x0 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count cycles in EL0. 1.." "0,1" newline bitfld.long 0x0 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P cycles in Non-secure EL1 are counted.Otherwise cycles in Non-secure EL1 are.." "0,1" bitfld.long 0x0 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U cycles in Non-secure EL0 are counted.Otherwise cycles in Non-secure EL0 are.." "0,1" newline bitfld.long 0x0 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count cycles in EL2. 1 Count cycles in EL2." "0,1" bitfld.long 0x0 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P cycles in Secure EL3 are counted.Otherwise cycles in Secure EL3.." "0,1" newline hexmask.long 0x0 0.--25. 1. "RES0_PMCCFILTR_EL0_25_0,Reserved RES0." group.long 0xC00++0x3 line.long 0x0 "APBADDR_PMU_CPU2_PMCNTENSET_EL0,Performance Monitors Count Enable Set Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 enable bit. Enables the cycle counter register. Possible values are: 0 When read means the cycle counter is disabled. When written has no effect. 1 When read means the cycle.." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter enable bit for PMEVCNTR<x>.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values of each bit are: 0 When read means that PMEVCNTR<x> is disabled. When written has no effect." group.long 0xC20++0x3 line.long 0x0 "APBADDR_PMU_CPU2_PMCNTENCLR_EL0,Performance Monitors Count Enable Clear Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 disable bit. Disables the cycle counter register. Possible values are: 0 When read means the cycle counter is disabled. When written has no effect. 1 When read means the cycle.." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter disable bit for PMEVCNTR<x>.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values of each bit are: 0 When read means that PMEVCNTR<x> is disabled. When written has no effect." group.long 0xC40++0x3 line.long 0x0 "APBADDR_PMU_CPU2_PMINTENSET_EL1,Performance Monitors Interrupt Enable Set Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 overflow interrupt request enable bit. Possible values are: 0 When read means the cycle counter overflow interrupt request is disabled. When written has no effect. 1 When read .." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter overflow interrupt request enable bit for PMEVCNTR<x>_EL0.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values are: 0 When read means that the PMEVCNTR<x>_EL0 event counter interrupt request.." group.long 0xC60++0x3 line.long 0x0 "APBADDR_PMU_CPU2_PMINTENCLR_EL1,Performance Monitors Interrupt Enable Clear Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 overflow interrupt request disable bit. Possible values are: 0 When read means the cycle counter overflow interrupt request is disabled. When written has no effect. 1 When read .." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter overflow interrupt request disable bit for PMEVCNTR<x>_EL0.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values are: 0 When read means that the PMEVCNTR<x>_EL0 event counter interrupt request.." group.long 0xC80++0x3 line.long 0x0 "APBADDR_PMU_CPU2_PMOVSCLR_EL0,Performance Monitors Overflow Flag Status Clear Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 overflow bit. Possible values are: 0 When read means the cycle counter has not overflowed. When written has no effect. 1 When read means the cycle counter has overflowed. When.." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter overflow clear bit for PMEVCNTR<x>.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values of each bit are: 0 When read means that PMEVCNTR<x> has not overflowed. When written has no effect." group.long 0xCA0++0x3 line.long 0x0 "APBADDR_PMU_CPU2_PMSWINC_EL0,Performance Monitors Software Increment Register" hexmask.long 0x0 6.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--5. 1. "P_X,Event counter software increment bit for PMEVCNTR<x>" group.long 0xCC0++0x3 line.long 0x0 "APBADDR_PMU_CPU2_PMOVSSET_EL0,Performance Monitors Overflow Flag Status Set Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 overflow bit. Possible values are: 0 When read means the cycle counter has not overflowed. When written has no effect. 1 When read means the cycle counter has overflowed. When.." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter overflow set bit for PMEVCNTR<x>.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values are: 0 When read means that PMEVCNTR<x> has not overflowed. When written has no effect." group.long 0xE00++0x7 line.long 0x0 "APBADDR_PMU_CPU2_PMCFGR,Performance Monitors Configuration Register" hexmask.long.word 0x0 20.--31. 1. "RES0_PMCFGR_31_20,Reserved RES0." bitfld.long 0x0 19. "UEN,User-mode Enable Register supported. PMUSERENR_EL0 is not visible in the external debug interface so this bit is RES0." "0,1" newline bitfld.long 0x0 18. "WT,This feature is not supported so this bit is RES0." "0,1" bitfld.long 0x0 17. "NA,This feature is not supported so this bit is RES0." "0,1" newline bitfld.long 0x0 16. "EX,Export supported. Value is IMPLEMENTATION DEFINED. 0 PMCR_EL0.X is RES0. 1 PMCR_EL0.X is read/write." "0,1" bitfld.long 0x0 15. "CCD,Cycle counter has prescale. This is RES1 if AArch32 is supported at any EL and RES0 otherwise. 0 PMCR_EL0.D is RES0. 1 PMCR_EL0.D is read/write." "0,1" newline bitfld.long 0x0 14. "CC,Dedicated cycle counter [counter 31] supported. This bit is RES1." "0,1" hexmask.long.byte 0x0 8.--13. 1. "SIZE,Size of counters. This field determines the spacing of counters in the memory-map.In v8-A the counters are at doubleword-aligned addresses and the largest counter is 64-bits so this field is 0b111111." newline hexmask.long.byte 0x0 0.--7. 1. "N,Number of counters implemented in addition to the cycle counter PMCCNTR_EL0. The maximum number of event counters is 31 so bits[7:5] are always RES0. 00000000 Only PMCCNTR_EL0 implemented. 00000001.." line.long 0x4 "APBADDR_PMU_CPU2_PMCR_EL0,Performance Monitors Control Register" hexmask.long.tbyte 0x4 11.--31. 1. "RES0_PMCR_EL0_31_11,Reserved RAZ/WI." hexmask.long.byte 0x4 7.--10. 1. "RES0_PMCR_EL0_10_7,Reserved RES0." newline bitfld.long 0x4 6. "LC,Long cycle counter enable. Determines which PMCCNTR_EL0 bit generates an overflow recorded by PMOVSR[31]. 0 Cycle counter overflow on increment that changes PMCCNTR_EL0[31] from 1 to 0. 1 Cycle.." "0,1" bitfld.long 0x4 5. "DP,Disable cycle counter when event counting is prohibited. The possible values of this bit are: 0 PMCCNTR_EL0 if enabled counts when event counting is prohibited. 1 PMCCNTR_EL0 does not count.." "0,1" newline bitfld.long 0x4 4. "X,Enable export of events in an IMPLEMENTATION DEFINED event stream. The possible values of this bit are: 0 Do not export events. 1 Export events where not prohibited. This bit is.." "0,1" bitfld.long 0x4 3. "D,Clock divider. The possible values of this bit are: 0 When enabled PMCCNTR_EL0 counts every clock cycle. 1 When enabled PMCCNTR_EL0 counts once every 64 clock cycles. This bit.." "0,1" newline bitfld.long 0x4 2. "C,Cycle counter reset. This bit is WO. The effects of writing to this bit are: 0 No action. 1 Reset PMCCNTR_EL0 to zero. This bit is always RAZ.Resetting PMCCNTR_EL0 does not.." "0,1" bitfld.long 0x4 1. "P,Event counter reset. This bit is WO. The effects of writing to this bit are: 0 No action. 1 Reset all event counters not including PMCCNTR_EL0 to zero. This bit is always.." "0,1" newline bitfld.long 0x4 0. "E,Enable. The possible values of this bit are: 0 All counters including PMCCNTR_EL0 are disabled. 1 All counters are enabled by PMCNTENSET_EL0. This bit is RW." "0,1" group.long 0xE20++0x7 line.long 0x0 "APBADDR_PMU_CPU2_PMCEID0_EL0,Performance Monitors Common Event Identification Register 0" hexmask.long 0x0 0.--31. 1. "CE_31_0,Common architectural and microarchitectural feature events that can be counted by the PMU event counters.For each bit described in the following table the event is implemented if the bit is set to 1 or not implemented if the bit is set to.." line.long 0x4 "APBADDR_PMU_CPU2_PMCEID1_EL0,Performance Monitors Common Event Identification Register 1" hexmask.long 0x4 1.--31. 1. "RES0_PMCEID1_EL0_31_1,Reserved RES0." bitfld.long 0x4 0. "CE_32,Common architectural and microarchitectural feature events that can be counted by the PMU event counters.For the bit described in the following table the event is implemented if the bit is set to 1 or not implemented if the bit is set to.." "0,1" group.long 0xF00++0x3 line.long 0x0 "APBADDR_PMU_CPU2_PMITCTRL,Performance Monitors Integration mode Control Register" hexmask.long 0x0 1.--31. 1. "RES0_PMITCTRL_31_1,Reserved RES0." bitfld.long 0x0 0. "IME,Integration mode enable. When IME == 1 the device reverts to an integration mode to enable integration testing or topology detection. The integration mode behavior is IMPLEMENTATION DEFINED. 0 Normal operation." "0,1" group.long 0xFA8++0x17 line.long 0x0 "APBADDR_PMU_CPU2_PMDEVAFF0,Performance Monitors Device Affinity Register 0" hexmask.long 0x0 0.--31. 1. "PMDEVAFF0,MPIDR_EL1 low half. Read-only copy of the low half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x4 "APBADDR_PMU_CPU2_PMDEVAFF1,Performance Monitors Device Affinity Register 1" hexmask.long 0x4 0.--31. 1. "PMDEVAFF1,MPIDR_EL1 high half. Read-only copy of the high half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x8 "APBADDR_PMU_CPU2_PMLAR,Performance Monitors Lock Access Register" hexmask.long 0x8 0.--31. 1. "KEY,Lock Access control. Writing the key value 0xC5ACCE55 to this field unlocks the lock enabling write accesses to this component's registers through a memory-mapped interface.Writing any other value to this register locks the lock disabling write.." line.long 0xC "APBADDR_PMU_CPU2_PMLSR,Performance Monitors Lock Status Register" hexmask.long 0xC 3.--31. 1. "RES0_PMLSR_31_3,Reserved RES0." bitfld.long 0xC 2. "NTT,Not thirty-two bit access required. RAZ." "0,1" newline bitfld.long 0xC 1. "SLK,Software lock status for this component. For an access to LSR that is not a memory-mapped access or when the software lock is not implemented this field is RES0.For memory-mapped accesses when the software lock is implemented possible values of.." "0,1" bitfld.long 0xC 0. "SLI,Software lock implemented. For an access to LSR that is not a memory-mapped access this field is RAZ. For memory-mapped accesses the value of this field is IMPLEMENTATION DEFINED. Permitted values are: 0 Software lock not.." "0,1" line.long 0x10 "APBADDR_PMU_CPU2_PMAUTHSTATUS,Performance Monitors Authentication Status Register" hexmask.long.tbyte 0x10 8.--31. 1. "RES0_PMAUTHSTATUS_31_8,Reserved RES0." bitfld.long 0x10 6.--7. "SNID,Holds the same value as DBGAUTHSTATUS_EL1.SNID." "0,1,2,3" newline bitfld.long 0x10 4.--5. "RES0_PMAUTHSTATUS_5_4,Reserved RES0." "0,1,2,3" bitfld.long 0x10 2.--3. "NSNID,Holds the same value as DBGAUTHSTATUS_EL1.NSNID." "0,1,2,3" newline bitfld.long 0x10 0.--1. "RES0_PMAUTHSTATUS_1_0,Reserved RES0." "0,1,2,3" line.long 0x14 "APBADDR_PMU_CPU2_PMDEVARCH,Performance Monitors Device Architecture Register" hexmask.long.word 0x14 21.--31. 1. "ARCHITECT,Defines the architecture of the component. For Performance Monitors this is ARM Limited.Bits [31:28] are the JEP 106 continuation code 0x4.Bits [27:21] are the JEP 106 ID code 0x3B." bitfld.long 0x14 20. "PRESENT,When set to 1 indicates that the DEVARCH is present.This field is 1 in v8-A." "0,1" newline hexmask.long.byte 0x14 16.--19. 1. "REVISION,Defines the architecture revision. For architectures defined by ARM this is the minor revision.For Performance Monitors the revision defined by v8-A is 0x0.All other values are reserved." hexmask.long.word 0x14 0.--15. 1. "ARCHID,Defines this part to be a v8-A debug component. For architectures defined by ARM this is further subdivided.For Performance Monitors:Bits [15:12] are the architecture version 0x2.Bits [11:0] are the architecture part number 0xA16.This.." group.long 0xFCC++0x33 line.long 0x0 "APBADDR_PMU_CPU2_PMDEVTYPE,Performance Monitors Device Type Register" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_PMDEVTYPE_31_8,Reserved RES0." hexmask.long.byte 0x0 4.--7. 1. "SUB,Subtype. Must read as 0x1 to indicate this is a processor component." newline hexmask.long.byte 0x0 0.--3. 1. "MAJOR,Major type. Must read as 0x6 to indicate this is a performance monitor component." line.long 0x4 "APBADDR_PMU_CPU2_PMPIDR4,Performance Monitors Peripheral Identification Register 4" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_PMPIDR4_31_8,Reserved RES0." hexmask.long.byte 0x4 4.--7. 1. "SIZE,Size of the component. RAZ. Log2 of the number of 4KB pages from the start of the component to the end of the component ID registers." newline hexmask.long.byte 0x4 0.--3. 1. "DES_2,Designer JEP106 continuation code least significant nibble. For ARM Limited this field is 0b0100." line.long 0x8 "APBADDR_PMU_CPU2_PMPIDR5,Performance Monitors Peripheral Identification Register 5" hexmask.long 0x8 0.--31. 1. "RESERVED,Reserved RES0" line.long 0xC "APBADDR_PMU_CPU2_PMPIDR6,Performance Monitors Peripheral Identification Register 6" hexmask.long 0xC 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x10 "APBADDR_PMU_CPU2_PMPIDR7,Performance Monitors Peripheral Identification Register 7" hexmask.long 0x10 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x14 "APBADDR_PMU_CPU2_PMPIDR0,Performance Monitors Peripheral Identification Register 0" hexmask.long.tbyte 0x14 8.--31. 1. "RES0_PMPIDR0_31_8,Reserved RES0." hexmask.long.byte 0x14 0.--7. 1. "PART_0,Part number least significant byte." line.long 0x18 "APBADDR_PMU_CPU2_PMPIDR1,Performance Monitors Peripheral Identification Register 1" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_PMPIDR1_31_8,Reserved RES0." hexmask.long.byte 0x18 4.--7. 1. "DES_0,Designer least significant nibble of JEP106 ID code. For ARM Limited this field is 0b1011." newline hexmask.long.byte 0x18 0.--3. 1. "PART_1,Part number most significant nibble." line.long 0x1C "APBADDR_PMU_CPU2_PMPIDR2,Performance Monitors Peripheral Identification Register 2" hexmask.long.tbyte 0x1C 8.--31. 1. "RES0_PMPIDR2_31_8,Reserved RES0." hexmask.long.byte 0x1C 4.--7. 1. "REVISION,Part major revision. Parts can also use this field to extend Part number to 16-bits." newline bitfld.long 0x1C 3. "JEDEC,RAO. Indicates a JEP106 identity code is used." "0,1" bitfld.long 0x1C 0.--2. "DES_1,Designer most significant bits of JEP106 ID code. For ARM Limited this field is 0b011." "0,1,2,3,4,5,6,7" line.long 0x20 "APBADDR_PMU_CPU2_PMPIDR3,Performance Monitors Peripheral Identification Register 3" hexmask.long.tbyte 0x20 8.--31. 1. "RES0_PMPIDR3_31_8,Reserved RES0." hexmask.long.byte 0x20 4.--7. 1. "REVAND,Part minor revision. Parts using PMPIDR2.REVISION as an extension to the Part number must use this field as a major revision number." newline hexmask.long.byte 0x20 0.--3. 1. "CMOD,Customer modified. Indicates someone other than the Designer has modified the component." line.long 0x24 "APBADDR_PMU_CPU2_PMCIDR0,Performance Monitors Component Identification Register 0" hexmask.long.tbyte 0x24 8.--31. 1. "RES0_PMCIDR0_31_8,Reserved RES0." hexmask.long.byte 0x24 0.--7. 1. "PRMBL_0,Preamble. Must read as 0x0D." line.long 0x28 "APBADDR_PMU_CPU2_PMCIDR1,Performance Monitors Component Identification Register 1" hexmask.long.tbyte 0x28 8.--31. 1. "RES0_PMCIDR1_31_8,Reserved RES0." hexmask.long.byte 0x28 4.--7. 1. "CLASS,Component class. Reads as 0x9 debug component." newline hexmask.long.byte 0x28 0.--3. 1. "PRMBL_1,Preamble. RAZ." line.long 0x2C "APBADDR_PMU_CPU2_PMCIDR2,Performance Monitors Component Identification Register 2" hexmask.long.tbyte 0x2C 8.--31. 1. "RES0_PMCIDR2_31_8,Reserved RES0." hexmask.long.byte 0x2C 0.--7. 1. "PRMBL_2,Preamble. Must read as 0x05." line.long 0x30 "APBADDR_PMU_CPU2_PMCIDR3,Performance Monitors Component Identification Register 3" hexmask.long.tbyte 0x30 8.--31. 1. "RES0_PMCIDR3_31_8,Reserved RES0." hexmask.long.byte 0x30 0.--7. 1. "PRMBL_3,Preamble. Must read as 0xB1." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "A53SS0_CORE2_ETM (A53SS0_CORE2_ETM)" base ad:0x730230000 group.long 0x4++0x3 line.long 0x0 "APBADDR_ETM_CPU2_TRCPRGCTLR,Programming Control Register" hexmask.long 0x0 1.--31. 1. "RES0_TRCPRGCTLR_31_1,Reserved RES0." bitfld.long 0x0 0. "EN,Trace unit enable bit. Possible values are: 0 The trace unit is disabled. All trace resources are inactive and no trace is generated. 1 The trace unit is enabled." "0,1" group.long 0xC++0x7 line.long 0x0 "APBADDR_ETM_CPU2_TRCSTATR,Status Register" hexmask.long 0x0 2.--31. 1. "RES0_TRCSTATR_31_2,Reserved RES0." bitfld.long 0x0 1. "PMSTABLE,Programmer's model stable bit: 0 The programmer's model is not stable. 1 The programmer's model is stable. When polled the trace unit trace registers return stable data." "0,1" bitfld.long 0x0 0. "IDLE,Idle status bit: 0 The trace unit is not idle. 1 The trace unit is idle. The trace unit is idle when all of the following are true:TRCPRGCTLR.EN==0 or the OS Lock is.." "0,1" line.long 0x4 "APBADDR_ETM_CPU2_TRCCONFIGR,Trace Configuration Register" hexmask.long.word 0x4 18.--31. 1. "RES0_TRCCONFIGR_31_18,Reserved RES0." bitfld.long 0x4 17. "DV,Data value tracing bit: 0 Data value tracing is disabled. 1 Data value tracing is enabled when INSTP0 is not 0b00. TRCIDR0.TRCDATA indicates whether this bit is supported. If.." "0,1" bitfld.long 0x4 16. "DA,Data address tracing bit: 0 Data address tracing is disabled. 1 Data address tracing is enabled when INSTP0 is not 0b00. TRCIDR0.TRCDATA indicates whether this bit is.." "0,1" newline bitfld.long 0x4 15. "RES0_TRCCONFIGR_15_15,Reserved RES0." "0,1" bitfld.long 0x4 13.--14. "QE,Q element enable field: 00 Q elements are disabled. 01 Q elements with instruction counts are enabled. Q elements without instruction counts are disabled. 11.." "0,1,2,3" bitfld.long 0x4 12. "RS,Return stack enable bit. 0 Return stack is disabled. 1 Return stack is enabled. TRCIDR0.RETSTACK indicates whether this bit is supported. If it is not supported then this bit.." "0,1" newline bitfld.long 0x4 11. "TS,Global timestamp tracing bit: 0 Global timestamp tracing is disabled. 1 Global timestamp tracing is enabled. TRCTSCTLR controls the insertion of timestamps in the trace." "0,1" bitfld.long 0x4 8.--10. "COND,Conditional instruction tracing bit. The permitted values are: 000 Conditional instruction tracing is disabled. 001 Conditional load instructions are traced. 010.." "0,1,2,3,4,5,6,7" bitfld.long 0x4 7. "VMID,VMID tracing bit: 0 VMID tracing is disabled. 1 VMID tracing is enabled. TRCIDR2.VMIDSIZE indicates whether this bit is supported. If it is not supported then this bit is RES0." "0,1" newline bitfld.long 0x4 6. "CID,Context ID tracing bit: 0 Context ID tracing is disabled. 1 Context ID tracing is enabled. TRCIDR2.CIDSIZE indicates whether this bit is supported. If it is not supported then.." "0,1" bitfld.long 0x4 5. "RES0_TRCCONFIGR_5_5,Reserved RES0." "0,1" bitfld.long 0x4 4. "CCI,Cycle counting instruction trace bit: 0 Cycle counting in the instruction trace is disabled. 1 Cycle counting in the instruction trace is enabled. TRCCCCTLR controls the threshold value for.." "0,1" newline bitfld.long 0x4 3. "BB,Branch broadcast mode bit: 0 Branch broadcast mode is disabled. 1 Branch broadcast mode is enabled. TRCBBCTLR controls which regions of memory are enabled to use branch broadcasting." "0,1" bitfld.long 0x4 1.--2. "INSTP0,Instruction P0 bit. This field controls whether load and store instructions are traced as P0 instructions: 00 Do not trace load and store instructions as P0 instructions. 01 Trace load.." "0,1,2,3" bitfld.long 0x4 0. "RES1_TRCCONFIGR_0_0,Reserved RES1." "0,1" group.long 0x18++0x3 line.long 0x0 "APBADDR_ETM_CPU2_TRCAUXCTLR,Auxiliary Control Register" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_TRCAUXCTLR_31_8,Reserved RES0" bitfld.long 0x0 7. "COREIFEN,Keep core interface enabled regardless of trace enable register state" "0,1" bitfld.long 0x0 6. "RES0_TRCAUXCTLR_6_6,Reserved RES0" "0,1" newline bitfld.long 0x0 5. "AUTHNOFLUSH,Do not flush trace on de-assertion of authentication inputs. When this bit is set to 1 the trace unit behavior deviates from architecturally-specified behavior." "0,1" bitfld.long 0x0 4. "TSNODELAY,Do not delay timestamp insertion based on FIFO depth." "0,1" bitfld.long 0x0 3. "SYNCDELAY,Delay periodic synchronization if FIFO is more than half-full." "0,1" newline bitfld.long 0x0 2. "OVFLW,Force an overflow if synchronization is not completed when second synchronization becomes due. When this bit is set to 1 the trace unit behavior deviates from architecturally-specified behavior." "0,1" bitfld.long 0x0 1. "IDLEACK,Force idle-drain acknowledge high CPU does not wait for trace to drain before entering WFX state. When this bit is set to 1 trace unit behavior deviates from architecturally-specified behavior." "0,1" bitfld.long 0x0 0. "AFREADY,Always respond to AFREADY immediately. Does not have any interaction with FIFO draining even in WFI state." "0,1" group.long 0x20++0x7 line.long 0x0 "APBADDR_ETM_CPU2_TRCEVENTCTL0R,Event Control 0 Register" bitfld.long 0x0 31. "TYPE3,Selects the resource type for trace event 3" "0,1" bitfld.long 0x0 28.--30. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 24.--27. 1. "SEL3,Selects the resource number based on the value of TYPE3" newline bitfld.long 0x0 23. "TYPE2,Selects the resource type for trace event 2" "0,1" bitfld.long 0x0 20.--22. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 16.--19. 1. "SEL2,Selects the resource number based on the value of TYPE2" newline bitfld.long 0x0 15. "TYPE1,Selects the resource type for trace event 1" "0,1" bitfld.long 0x0 12.--14. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "SEL1,Selects the resource number based on the value of TYPE1" newline bitfld.long 0x0 7. "TYPE0,Selects the resource type for trace event 0" "0,1" bitfld.long 0x0 4.--6. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 0.--3. 1. "SEL0,Selects the resource number based on the value of TYPE0" line.long 0x4 "APBADDR_ETM_CPU2_TRCEVENTCTL1R,Event Control 1 Register" hexmask.long.tbyte 0x4 13.--31. 1. "RESERVED,Reserved RES0" bitfld.long 0x4 12. "LPOVERRIDE,Low power state behavior override" "0,1" bitfld.long 0x4 11. "ATB,ATB trigger enable" "0,1" newline hexmask.long.byte 0x4 4.--10. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "EN,One bit per event to enable generation of an event element in the instruction trace stream when the selected event occurs" group.long 0x2C++0x17 line.long 0x0 "APBADDR_ETM_CPU2_TRCSTALLCTLR,Stall Control Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED,Reserved RES0" bitfld.long 0x0 8. "ISTALL,Controls if the trace unit can stall the processor when the instruction trace buffer space is less than LEVEL" "0,1" hexmask.long.byte 0x0 4.--7. 1. "RESERVED,Reserved RES0" newline bitfld.long 0x0 2.--3. "LEVEL,The field can support 4 monotonic levels from 0b00 to 0b11" "0,1,2,3" bitfld.long 0x0 0.--1. "RESERVED,Reserved RES0" "0,1,2,3" line.long 0x4 "APBADDR_ETM_CPU2_TRCTSCTLR,Global Timestamp Control Register" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_TRCTSCTLR_31_8,Reserved RES0." hexmask.long.byte 0x4 0.--7. 1. "EVENT,An event selector. When the selected event is triggered the trace unit inserts a global timestamp into the trace streams." line.long 0x8 "APBADDR_ETM_CPU2_TRCSYNCPR,Synchronization Period Register" hexmask.long 0x8 5.--31. 1. "RES0_TRCSYNCPR_31_5,Reserved RES0." hexmask.long.byte 0x8 0.--4. 1. "PERIOD,Controls how many bytes of trace the sum of instruction and data that a trace unit can generate before a periodic trace synchronization request occurs. The number of bytes is always a power of two and the permitted values are: 00000.." line.long 0xC "APBADDR_ETM_CPU2_TRCCCCTLR,Cycle Count Control Register" hexmask.long.tbyte 0xC 12.--31. 1. "RES0_TRCCCCTLR_31_12,Reserved RES0." hexmask.long.word 0xC 0.--11. 1. "THRESHOLD,Sets the threshold value for instruction trace cycle counting.The minimum threshold value that can be programmed into THRESHOLD is given in TRCIDR3.CCITMIN.Writing a value of zero might cause UNPREDICTABLE behaviour." line.long 0x10 "APBADDR_ETM_CPU2_TRCBBCTLR,Branch Broadcast Control Register" hexmask.long.tbyte 0x10 9.--31. 1. "RES0_TRCBBCTLR_31_9,Reserved RES0." bitfld.long 0x10 8. "MODE,Mode bit: 0 Exclude mode. Branch broadcasting is not enabled in the address range that RANGE defines. If RANGE==0 then branch broadcasting is enabled for the entire memory map. 1 Include mode." "0,1" hexmask.long.byte 0x10 0.--7. 1. "RANGE,Address range field. Selects which address range comparator pairs are in use with branch broadcasting. Each bit represents an address range comparator pair so bit[n] controls the selection of address range comparator pair n. If bit[n] is: 0.." line.long 0x14 "APBADDR_ETM_CPU2_TRCTRACEIDR,Trace ID Register" hexmask.long 0x14 7.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x14 0.--6. 1. "TRACEID,Trace ID value. When only instruction tracing is enabled this provides the trace ID." group.long 0x80++0xB line.long 0x0 "APBADDR_ETM_CPU2_TRCVICTLR,ViewInst Main Control Register" hexmask.long.byte 0x0 24.--31. 1. "RES0_TRCVICTLR_31_24,Reserved RES0." hexmask.long.byte 0x0 20.--23. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether instruction tracing is enabled for the corresponding exception level: 0 The trace unit generates instruction trace in Non-secure state for exception level n." hexmask.long.byte 0x0 16.--19. 1. "EXLEVEL_S,In Secure state each bit controls whether instruction tracing is enabled for the corresponding exception level: 0 The trace unit generates instruction trace in Secure state for exception level n. 1.." newline hexmask.long.byte 0x0 12.--15. 1. "RES0_TRCVICTLR_15_12,Reserved RES0." bitfld.long 0x0 11. "TRCERR,If TRCIDR3.TRCERR==1 this bit controls whether a trace unit must trace a system error exception: 0 The trace unit does not trace a system error exception unless it traces the exception or instruction immediately prior to the.." "0,1" bitfld.long 0x0 10. "TRCRESET,Controls whether a trace unit must trace a Reset exception: 0 The trace unit does not trace a Reset exception unless it traces the exception or instruction immediately prior to the Reset exception. 1.." "0,1" newline bitfld.long 0x0 9. "SSSTATUS,IF TRCIDR4.NUMACPAIRS>0 or TRCIDR.NUMPC>0 this bit returns the status of the start-stop logic: 0 The start-stop logic is in the stopped state. 1 The start-stop logic is in the started.." "0,1" bitfld.long 0x0 8. "RES0_TRCVICTLR_8_8,Reserved RES0." "0,1" hexmask.long.byte 0x0 0.--7. 1. "EVENT,An event selector. [TODO: Add the bit assignments for EVENT fields into the descriptions directly?]" line.long 0x4 "APBADDR_ETM_CPU2_TRCVIIECTLR,ViewInst Include-Exclude Control Register" hexmask.long.byte 0x4 24.--31. 1. "RES0_TRCVIIECTLR_31_24,Reserved RES0." hexmask.long.byte 0x4 16.--23. 1. "EXCLUDE,0 1 The implemented width of the field n is IMPLEMENTATION DEFINED and is set by the value of TRCIDR4.NUMACPAIRS. Unimplemented bits are RAZ/WI." hexmask.long.byte 0x4 8.--15. 1. "RES0_TRCVIIECTLR_15_8,Reserved RES0." newline hexmask.long.byte 0x4 0.--7. 1. "INCLUDE,Include range field. Selects which address range comparator pairs are in use with ViewInst include control. Each bit represents an address range comparator pair so bit[m] controls the selection of address range comparator pair m. If bit[m] is:.." line.long 0x8 "APBADDR_ETM_CPU2_TRCVISSCTLR,ViewInst Start-Stop Control Register" hexmask.long.word 0x8 16.--31. 1. "STOP,Selects which single address comparators are in use with ViewInst start-stop control for the purpose of stopping trace. Each bit represents a single address comparator so bit[m] controls the selection of single address comparator m-16. If bit[m].." hexmask.long.word 0x8 0.--15. 1. "START,Selects which single address comparators are in use with ViewInst start-stop control for the purpose of starting trace. Each bit represents a single address comparator so bit[n] controls the selection of single address comparator n. If bit[n] is:.." group.long 0x100++0xB line.long 0x0 "APBADDR_ETM_CPU2_TRCSEQEVR0,Sequencer State Transition Control Registers 0" hexmask.long.word 0x0 16.--31. 1. "RES0_TRCSEQEVR0_31_16,Reserved RES0." hexmask.long.byte 0x0 8.--15. 1. "B_N,Backward field. Contains an event number. When the event occurs then the sequencer state moves from state n+1 to state n.For example for TRCSEQEVR2 if B2==0x14 then when event 0x14 occurs the sequencer moves from state 3 to state 2." hexmask.long.byte 0x0 0.--7. 1. "F_N,Forward field. Contains an event number. When the event occurs then the sequencer state moves from state n to state n+1.For example for TRCSEQEVR1 if F1==0x12 then when event 0x12 occurs the sequencer moves from state 1 to state 2." line.long 0x4 "APBADDR_ETM_CPU2_TRCSEQEVR1,Sequencer State Transition Control Registers 1" hexmask.long.word 0x4 16.--31. 1. "RES0_TRCSEQEVR1_31_16,Reserved RES0." hexmask.long.byte 0x4 8.--15. 1. "B_N,Backward field. Contains an event number. When the event occurs then the sequencer state moves from state n+1 to state n.For example for TRCSEQEVR2 if B2==0x14 then when event 0x14 occurs the sequencer moves from state 3 to state 2." hexmask.long.byte 0x4 0.--7. 1. "F_N,Forward field. Contains an event number. When the event occurs then the sequencer state moves from state n to state n+1.For example for TRCSEQEVR1 if F1==0x12 then when event 0x12 occurs the sequencer moves from state 1 to state 2." line.long 0x8 "APBADDR_ETM_CPU2_TRCSEQEVR2,Sequencer State Transition Control Registers 2" hexmask.long.word 0x8 16.--31. 1. "RES0_TRCSEQEVR2_31_16,Reserved RES0." hexmask.long.byte 0x8 8.--15. 1. "B_N,Backward field. Contains an event number. When the event occurs then the sequencer state moves from state n+1 to state n.For example for TRCSEQEVR2 if B2==0x14 then when event 0x14 occurs the sequencer moves from state 3 to state 2." hexmask.long.byte 0x8 0.--7. 1. "F_N,Forward field. Contains an event number. When the event occurs then the sequencer state moves from state n to state n+1.For example for TRCSEQEVR1 if F1==0x12 then when event 0x12 occurs the sequencer moves from state 1 to state 2." group.long 0x118++0xB line.long 0x0 "APBADDR_ETM_CPU2_TRCSEQRSTEVR,Sequencer Reset Control Register" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_TRCSEQRSTEVR_31_8,Reserved RES0." hexmask.long.byte 0x0 0.--7. 1. "RST,Contains an event number. When the event occurs then the sequencer state moves to state 0." line.long 0x4 "APBADDR_ETM_CPU2_TRCSEQSTR,Sequencer State Register" hexmask.long 0x4 2.--31. 1. "RES0_TRCSEQSTR_31_2,Reserved RES0." bitfld.long 0x4 0.--1. "STATE,Sets or returns the state of the sequencer: 00 State 0. 01 State 1. 10 State 2. 11 State 3." "0,1,2,3" line.long 0x8 "APBADDR_ETM_CPU2_TRCEXTINSELR,External Input Select Register" bitfld.long 0x8 29.--31. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "SEL3,Selects an event from the external input bus for External Input Resource 3." bitfld.long 0x8 21.--23. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x8 16.--20. 1. "SEL2,Selects an event from the external input bus for External Input Resource 2" bitfld.long 0x8 13.--15. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 8.--12. 1. "SEL1,Selects an event from the external input bus for External Input Resource 1" newline bitfld.long 0x8 5.--7. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 0.--4. 1. "SEL0,Selects an event from the external input bus for External Input Resource 0" group.long 0x140++0x7 line.long 0x0 "APBADDR_ETM_CPU2_TRCCNTRLDVR0,Counter Reload Value Registers 0" hexmask.long.word 0x0 16.--31. 1. "RES0_TRCCNTRLDVR0_31_16,Reserved RES0." hexmask.long.word 0x0 0.--15. 1. "VALUE_N,Contains the reload value for counter <n>. When a reload event occurs for counter <n> then the trace unit copies the VALUE<n> field into counter <n>." line.long 0x4 "APBADDR_ETM_CPU2_TRCCNTRLDVR1,Counter Reload Value Registers 1" hexmask.long.word 0x4 16.--31. 1. "RES0_TRCCNTRLDVR1_31_16,Reserved RES0." hexmask.long.word 0x4 0.--15. 1. "VALUE_N,Contains the reload value for counter <n>. When a reload event occurs for counter <n> then the trace unit copies the VALUE<n> field into counter <n>." group.long 0x150++0x7 line.long 0x0 "APBADDR_ETM_CPU2_TRCCNTCTLR0,Counter Control Register 0" hexmask.long.word 0x0 18.--31. 1. "RES0_TRCCNTCTLR0_31_18,Reserved RES0." bitfld.long 0x0 17. "CNTCHAIN_N,For TRCCNTCTLR3 and TRCCNTCTLR1 controls whether counter <n> decrements when a reload event occurs for counter <n-1>: 0 1 For TRCCNTCTLR2 and TRCCNTCTLR0 .." "0,1" bitfld.long 0x0 16. "RLDSELF_N,Controls whether a reload event occurs for counter <n> when counter <n> reaches zero: 0 The trace unit does not generate a reload event. 1 The trace unit generates a reload event.." "0,1" newline hexmask.long.byte 0x0 8.--15. 1. "RLDEVENT_N,Selects an event that when it occurs causes a reload event for counter <n>." hexmask.long.byte 0x0 0.--7. 1. "CNTEVENT_N,Selects an event that when it occurs causes counter <n> to decrement." line.long 0x4 "APBADDR_ETM_CPU2_TRCCNTCTLR1,Counter Control Register 1" hexmask.long.word 0x4 18.--31. 1. "RES0_TRCCNTCTLR1_31_18,Reserved RES0." bitfld.long 0x4 17. "CNTCHAIN_N,For TRCCNTCTLR3 and TRCCNTCTLR1 controls whether counter <n> decrements when a reload event occurs for counter <n-1>: 0 1 For TRCCNTCTLR2 and TRCCNTCTLR0 .." "0,1" bitfld.long 0x4 16. "RLDSELF_N,Controls whether a reload event occurs for counter <n> when counter <n> reaches zero: 0 The trace unit does not generate a reload event. 1 The trace unit generates a reload event.." "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "RLDEVENT_N,Selects an event that when it occurs causes a reload event for counter <n>." hexmask.long.byte 0x4 0.--7. 1. "CNTEVENT_N,Selects an event that when it occurs causes counter <n> to decrement." group.long 0x160++0x7 line.long 0x0 "APBADDR_ETM_CPU2_TRCCNTVR0,Counter Value Registers 0" hexmask.long.word 0x0 16.--31. 1. "RES0_TRCCNTVR0_31_16,Reserved RES0." hexmask.long.word 0x0 0.--15. 1. "VALUE_N,Contains the count value of counter <n>." line.long 0x4 "APBADDR_ETM_CPU2_TRCCNTVR1,Counter Value Registers 1" hexmask.long.word 0x4 16.--31. 1. "RES0_TRCCNTVR1_31_16,Reserved RES0." hexmask.long.word 0x4 0.--15. 1. "VALUE_N,Contains the count value of counter <n>." group.long 0x180++0x17 line.long 0x0 "APBADDR_ETM_CPU2_TRCIDR8,ID Register 8" hexmask.long 0x0 0.--31. 1. "MAXSPEC,Indicates the maximum speculation depth of the instruction trace stream. This is the maximum number of P0 elements in the trace stream that can be speculative at any time." line.long 0x4 "APBADDR_ETM_CPU2_TRCIDR9,ID Register 9" hexmask.long 0x4 0.--31. 1. "NUMP0KEY,Indicates the number of P0 right-hand keys that the trace unit can use. A value of 0 or 1 indicates one P0 key." line.long 0x8 "APBADDR_ETM_CPU2_TRCIDR10,ID Register 10" hexmask.long 0x8 0.--31. 1. "NUMP1KEY,Indicates the number of P1 right-hand keys that the trace unit can use. The number includes normal and special keys." line.long 0xC "APBADDR_ETM_CPU2_TRCIDR11,ID Register 11" hexmask.long 0xC 0.--31. 1. "NUMP1SPC,Indicates the number of special P1 right-hand keys that the trace unit can use." line.long 0x10 "APBADDR_ETM_CPU2_TRCIDR12,ID Register 12" hexmask.long 0x10 0.--31. 1. "NUMCONDKEY,Indicates the number of conditional instruction right-hand keys that the trace unit can use. The number includes normal and special keys." line.long 0x14 "APBADDR_ETM_CPU2_TRCIDR13,ID Register 13" hexmask.long 0x14 0.--31. 1. "NUMCONDSPC,Indicates the number of special conditional instruction right-hand keys that the trace unit can use." group.long 0x1C0++0x3 line.long 0x0 "APBADDR_ETM_CPU2_TRCIMSPEC0,Implementation Specific Register 0" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_TRCIMSPEC0_31_8,Reserved RES0." hexmask.long.byte 0x0 4.--7. 1. "EN,If SUPPORT is not 0b0000 controls whether the IMPLEMENTATION DEFINED features are enabled. The permitted values are: 0000 The IMPLEMENTATION DEFINED features are not enabled. The trace unit must behave as if the IMPLEMENTATION.." hexmask.long.byte 0x0 0.--3. 1. "SUPPORT,Indicates whether the implementation supports IMPLEMENTATION DEFINED features. The permitted values are: 0000 No IMPLEMENTATION DEFINED features are supported. The EN field is RES0. and any other value which.." group.long 0x1E0++0x17 line.long 0x0 "APBADDR_ETM_CPU2_TRCIDR0,ID Register 0" bitfld.long 0x0 30.--31. "RES0_TRCIDR0_31_30,Reserved RES0." "0,1,2,3" bitfld.long 0x0 29. "COMMOPT,Conditional instruction tracing support bit. Indicates if the trace unit supports conditional instruction tracing: 0 Conditional instruction tracing is not supported. 1 Conditional.." "0,1" hexmask.long.byte 0x0 24.--28. 1. "TSSIZE,Global timestamp size field. The permitted values are: 00000 Global timestamping is not implemented. 00110 Implementation supports a maximum global timestamp of 48bits." newline hexmask.long.byte 0x0 17.--23. 1. "RES0_TRCIDR0_23_17,Reserved RES0." bitfld.long 0x0 15.--16. "QSUPP,Q element support field. The permitted values are: 00 Q element support is not implemented. TRCCONFIGR.QE is RES0. 01 Q element support is implemented and only supports Q elements with.." "0,1,2,3" bitfld.long 0x0 14. "QFILT,Q element filtering support field. The permitted values are: 0 Q element filtering is not implemented. 1 Q element filtering is implemented. TRCQCTLR is implemented. When.." "0,1" newline bitfld.long 0x0 12.--13. "CONDTYPE,Conditional tracing field. The permitted values are: 00 The trace unit indicates only if a conditional instruction is a pass or fail. 01 The trace unit provides the Current Program Status.." "0,1,2,3" bitfld.long 0x0 10.--11. "NUMEVENT,Number of events field. Indicates how many events the trace unit supports: 00 The trace unit supports 1 event. 01 The trace unit supports 2 events. 10.." "0,1,2,3" bitfld.long 0x0 9. "RETSTACK,Return stack bit. Indicates if the implementation supports a return stack: 0 Return stack is not implemented. 1 Return stack is implemented so TRCCONFIGR.RS is supported." "0,1" newline bitfld.long 0x0 8. "RES0_TRCIDR0_8_8,Reserved RES0." "0,1" bitfld.long 0x0 7. "TRCCCI,Cycle counting instruction bit. Indicates if the trace unit supports cycle counting for instructions: 0 Cycle counting in the instruction trace is not implemented. 1 Cycle counting in the.." "0,1" bitfld.long 0x0 6. "TRCCOND,Conditional instruction tracing support bit. Indicates if the trace unit supports conditional instruction tracing: 0 Conditional instruction tracing is not supported. 1 Conditional.." "0,1" newline bitfld.long 0x0 5. "TRCBB,Branch broadcast tracing support bit. Indicates if the trace unit supports branch broadcast tracing: 0 Branch broadcast tracing is not supported. 1 Branch broadcast tracing is supported so.." "0,1" bitfld.long 0x0 3.--4. "TRCDATA,Conditional tracing field. The permitted values are: 00 Data tracing is not supported. 11 Tracing of data addresses and data values is supported so TRCCONFIGR.DA TRCCONFIGR.DV .." "0,1,2,3" bitfld.long 0x0 1.--2. "INSTP0,P0 tracing support field. The permitted values are: 00 Tracing of load and store instructions as P0 elements is not supported. 11 Tracing of load and store instructions as P0 elements is.." "0,1,2,3" newline bitfld.long 0x0 0. "RES0_TRCIDR0_0_0,Reserved RES0." "0,1" line.long 0x4 "APBADDR_ETM_CPU2_TRCIDR1,ID Register 1" hexmask.long.byte 0x4 24.--31. 1. "DESIGNER,Indicates which company designed the trace unit. The permitted values are: 01000001 ARM Limited. 01000100 Digital Equipment Corporation. 01001101.." hexmask.long.byte 0x4 16.--23. 1. "RES0_TRCIDR1_23_16,Reserved RES0." hexmask.long.byte 0x4 12.--15. 1. "RES1_TRCIDR1_15_12,Reserved RES1." newline hexmask.long.byte 0x4 8.--11. 1. "TRCARCHMAJ,Indicates the major version of the ETM architecture. The permitted value is: 100 ETMv4. All other values are reserved." hexmask.long.byte 0x4 4.--7. 1. "TRCARCHMIN,Indicates the minor version of the ETM architecture. The permitted value is: 0 ETMv4 minor version 0. All other values are reserved." hexmask.long.byte 0x4 0.--3. 1. "REVISION,Returns an IMPLEMENTATION DEFINED value that identifies the revision of the trace registers and the OS Save and Restore registers.ARM recommends:That the initial implementation sets REVISION==0x0 and the field then increments for any subsequent.." line.long 0x8 "APBADDR_ETM_CPU2_TRCIDR2,ID Register 2" bitfld.long 0x8 29.--31. "RES0_TRCIDR2_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 25.--28. 1. "CCSIZE,Indicates the size of the cycle counter in bits minus 12. 0000 The cycle counter is 12 bits in length. 0001 The cycle counter is 13 bits in length. and so on up to 0b1000 .." hexmask.long.byte 0x8 20.--24. 1. "DVSIZE,Indicates the data value size in bytes. The permitted values are: 00000 Data value tracing is not supported. Therefore an implementation must also set TRCIDR0.TRCDATA==0b00. 00100 Maximum.." newline hexmask.long.byte 0x8 15.--19. 1. "DASIZE,Indicates the data address size in bytes. The permitted values are: 00000 Data address tracing is not supported. Therefore an implementation must also set TRCIDR0.TRCDATA==0b00. 00100.." hexmask.long.byte 0x8 10.--14. 1. "VMIDSIZE,Indicates the VMID size. The permitted values are: 00000 VMID tracing is not supported. 00001 Maximum of 8-bit VMID size so TRCCONFIGR.VMID is supported. All other.." hexmask.long.byte 0x8 5.--9. 1. "CIDSIZE,Indicates the Context ID size. The permitted values are: 00000 Context ID tracing is not supported. 00100 Maximum of 32-bit Context ID size so TRCCONFIGR.CID is supported." newline hexmask.long.byte 0x8 0.--4. 1. "IASIZE,Indicates the instruction address size. The permitted values are: 00100 Maximum of 32-bit address size. 01000 Maximum of 64-bit address size. All other values are reserved." line.long 0xC "APBADDR_ETM_CPU2_TRCIDR3,ID Register 3" bitfld.long 0xC 31. "NOOVERFLOW,Indicates if TRCSTALLCTLR.NOOVERFLOW is supported: 0 TRCSTALLCTLR.NOOVERFLOW is not supported or STALLCTL==0. 1 TRCSTALLCTLR.NOOVERFLOW is supported." "0,1" bitfld.long 0xC 28.--30. "NUMPROC,Indicates the number of processors available for tracing. The possible values are: 000 The trace unit can trace one processor. 001 The trace unit can trace two processors." "0,1,2,3,4,5,6,7" bitfld.long 0xC 27. "SYSSTALL,Indicates if the implementation can support stall control: 0 The system does not support stall control of the processor. 1 The system can support stall control of the processor." "0,1" newline bitfld.long 0xC 26. "STALLCTL,Indicates if TRCSTALLCTLR is supported: 0 TRCSTALLCTLR is not supported. 1 TRCSTALLCTLR is supported." "0,1" bitfld.long 0xC 25. "SYNCPR,Indicates if an implementation has a fixed synchronization period: 0 TRCSYNCPR is read-write so software can change the synchronization period. 1 TRCSYNCPR is read-only so the.." "0,1" bitfld.long 0xC 24. "TRCERR,Indicates if TRCVICTLR.TRCERR is supported: 0 TRCVICTLR.TRCERR is not supported 1 TRCVICTLR.TRCERR is supported." "0,1" newline hexmask.long.byte 0xC 20.--23. 1. "EXLEVEL_NS,In Non-secure state each bit indicates whether instruction tracing is supported for the corresponding exception level: 0 In Non-secure state exception level n is not supported so the corresponding bits in.." hexmask.long.byte 0xC 16.--19. 1. "EXLEVEL_S,In Secure state each bit indicates whether instruction tracing is supported for the corresponding exception level: 0 In Secure state exception level n is not supported so the corresponding bits in TRCACATRn.EXLEVEL_S and.." hexmask.long.byte 0xC 12.--15. 1. "RES0_TRCIDR3_15_12,Reserved RES0." newline hexmask.long.word 0xC 0.--11. 1. "CCITMIN,Indicates the minimum value that can be programmed in TRCCCCTLR.THRESHOLD.When cycle counting in the instruction trace is supported that is TRCIDR0.TRCCCI==1 then the minimum value of this field is 0x001 otherwise it is 0x000." line.long 0x10 "APBADDR_ETM_CPU2_TRCIDR4,ID Register 4" hexmask.long.byte 0x10 28.--31. 1. "NUMVMIDC,Indicates the number of VMID comparators that are available for tracing. The permitted values are: 0000 No VMID comparators are available. 0001 The implementation has one VMID comparator." hexmask.long.byte 0x10 24.--27. 1. "NUMCIDC,Indicates the number of Context ID comparators that are available for tracing. The permitted values are: 0000 No Context ID comparators are available. 0001 The implementation has one.." hexmask.long.byte 0x10 20.--23. 1. "NUMSSCC,Indicates the number of single-shot comparator controls that are available for tracing. The permitted values are: 0000 No single-shot comparator controls are available. 0001 The.." newline hexmask.long.byte 0x10 16.--19. 1. "NUMRSPAIR,Indicates the number of resource selection pairs that are available for tracing. The permitted values are: 0000 The implementation has one resource selection pair. 0001 The implementation.." hexmask.long.byte 0x10 12.--15. 1. "NUMPC,Indicates the number of processor comparator inputs that are available for tracing. The permitted values are: 0000 No processor comparator inputs are available. 0001 The implementation has.." bitfld.long 0x10 9.--11. "RES0_TRCIDR4_11_9,Reserved RES0." "0,1,2,3,4,5,6,7" newline bitfld.long 0x10 8. "SUPPDAC,Indicates if the implementation can support data address comparisons: 0 The implementation does not support data address comparisons. 1 The implementation can support data address comparisons" "0,1" hexmask.long.byte 0x10 4.--7. 1. "NUMDVC,Indicates the number of data value comparators that are available for tracing. The permitted values are: 0000 No data value comparators are available. 0001 The implementation has one data.." hexmask.long.byte 0x10 0.--3. 1. "NUMACPAIRS,Indicates the number of address comparator pairs that are available for tracing. The permitted values are: 0000 No address comparator pairs are available. 0001 The implementation has one.." line.long 0x14 "APBADDR_ETM_CPU2_TRCIDR5,ID Register 5" bitfld.long 0x14 31. "REDFUNCNTR,Indicates if the reduced function counter is implemented: 0 The reduced function counter is not supported. 1 Counter 0 is implemented as a reduced function counter." "0,1" bitfld.long 0x14 28.--30. "NUMCNTR,Indicates the number of counters that are available for tracing. The permitted values are: 000 No counters are available. 001 The implementation has one counter." "0,1,2,3,4,5,6,7" bitfld.long 0x14 25.--27. "NUMSEQSTATE,Indicates the number of sequencer states that are implemented. The permitted values are: 000 No sequencer states are implemented. 100 The implementation has four sequencer states." "0,1,2,3,4,5,6,7" newline bitfld.long 0x14 24. "RES0_TRCIDR5_24_24,Reserved RES0." "0,1" bitfld.long 0x14 23. "LPOVERRIDE,Indicates if the implementation can support low-power state override: 0 The implementation does not support low-power state override. 1 The implementation supports low-power state.." "0,1" bitfld.long 0x14 22. "ATBTRIG,Indicates if the implementation can support ATB triggers: 0 The implementation does not support ATB triggers. 1 The implementation supports ATB triggers and the TRCEVENTCTL1R.ATBTRIG field.." "0,1" newline hexmask.long.byte 0x14 16.--21. 1. "TRACEIDSIZE,Indicates the trace ID width. The permitted value is: 111 The implementation supports a 7-bit trace ID. This sets the width of the TRCTRACEIDR.TRACEID field. All other values are reserved.The CoreSight ATB.." hexmask.long.byte 0x14 12.--15. 1. "RES0_TRCIDR5_15_12,Reserved RES0." bitfld.long 0x14 9.--11. "NUMEXTINSEL,Indicates how many external input select resources are implemented. The permitted values are: 000 No external input select resources are available. If NUMEXTINSEL is zero NUMEXTIN must also be zero." "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x14 0.--8. 1. "NUMEXTIN,Indicates how many external inputs are implemented. The permitted values are: 000000000 No external inputs are available. If NUMEXTIN is zero NUMEXTINSEL must also be zero. 000000001 The.." group.long 0x208++0x37 line.long 0x0 "APBADDR_ETM_CPU2_TRCRSCTLR2,Resource Selection Control Registers 2" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCRSCTLR2_31_22,Reserved RES0." bitfld.long 0x0 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x0 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x0 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x4 "APBADDR_ETM_CPU2_TRCRSCTLR3,Resource Selection Control Registers 3" hexmask.long.word 0x4 22.--31. 1. "RES0_TRCRSCTLR3_31_22,Reserved RES0." bitfld.long 0x4 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x4 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x4 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x4 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x8 "APBADDR_ETM_CPU2_TRCRSCTLR4,Resource Selection Control Registers 4" hexmask.long.word 0x8 22.--31. 1. "RES0_TRCRSCTLR4_31_22,Reserved RES0." bitfld.long 0x8 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x8 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x8 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0xC "APBADDR_ETM_CPU2_TRCRSCTLR5,Resource Selection Control Registers 5" hexmask.long.word 0xC 22.--31. 1. "RES0_TRCRSCTLR5_31_22,Reserved RES0." bitfld.long 0xC 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0xC 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0xC 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0xC 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x10 "APBADDR_ETM_CPU2_TRCRSCTLR6,Resource Selection Control Registers 6" hexmask.long.word 0x10 22.--31. 1. "RES0_TRCRSCTLR6_31_22,Reserved RES0." bitfld.long 0x10 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x10 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x10 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x14 "APBADDR_ETM_CPU2_TRCRSCTLR7,Resource Selection Control Registers 7" hexmask.long.word 0x14 22.--31. 1. "RES0_TRCRSCTLR7_31_22,Reserved RES0." bitfld.long 0x14 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x14 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x14 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x14 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x18 "APBADDR_ETM_CPU2_TRCRSCTLR8,Resource Selection Control Registers 8" hexmask.long.word 0x18 22.--31. 1. "RES0_TRCRSCTLR8_31_22,Reserved RES0." bitfld.long 0x18 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x18 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x18 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x18 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x1C "APBADDR_ETM_CPU2_TRCRSCTLR9,Resource Selection Control Registers 9" hexmask.long.word 0x1C 22.--31. 1. "RES0_TRCRSCTLR9_31_22,Reserved RES0." bitfld.long 0x1C 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x1C 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x1C 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x1C 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x20 "APBADDR_ETM_CPU2_TRCRSCTLR10,Resource Selection Control Registers 10" hexmask.long.word 0x20 22.--31. 1. "RES0_TRCRSCTLR10_31_22,Reserved RES0." bitfld.long 0x20 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x20 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x20 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x20 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x24 "APBADDR_ETM_CPU2_TRCRSCTLR11,Resource Selection Control Registers 11" hexmask.long.word 0x24 22.--31. 1. "RES0_TRCRSCTLR11_31_22,Reserved RES0." bitfld.long 0x24 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x24 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x24 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x24 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x28 "APBADDR_ETM_CPU2_TRCRSCTLR12,Resource Selection Control Registers 12" hexmask.long.word 0x28 22.--31. 1. "RES0_TRCRSCTLR12_31_22,Reserved RES0." bitfld.long 0x28 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x28 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x28 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x28 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x2C "APBADDR_ETM_CPU2_TRCRSCTLR13,Resource Selection Control Registers 13" hexmask.long.word 0x2C 22.--31. 1. "RES0_TRCRSCTLR13_31_22,Reserved RES0." bitfld.long 0x2C 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x2C 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x2C 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x2C 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x30 "APBADDR_ETM_CPU2_TRCRSCTLR14,Resource Selection Control Registers 14" hexmask.long.word 0x30 22.--31. 1. "RES0_TRCRSCTLR14_31_22,Reserved RES0." bitfld.long 0x30 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x30 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x30 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x30 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x34 "APBADDR_ETM_CPU2_TRCRSCTLR15,Resource Selection Control Registers 15" hexmask.long.word 0x34 22.--31. 1. "RES0_TRCRSCTLR15_31_22,Reserved RES0." bitfld.long 0x34 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x34 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x34 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x34 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." group.long 0x280++0x3 line.long 0x0 "APBADDR_ETM_CPU2_TRCSSCCR0,Single-Shot Comparator Control Register 0" hexmask.long.byte 0x0 25.--31. 1. "RES0_TRCSSCCR0_31_25,Reserved RES0." bitfld.long 0x0 24. "RST,Controls whether the single-shot comparator resource is reset when it fires. 0 When the single-shot comparator resource fires it is not reset. 1 When the single-shot comparator resource fires .." "0,1" hexmask.long.byte 0x0 16.--23. 1. "ARC,Selects one or more address range comparators for single-shot control.Each bit represents an address range comparator pair so bit[n-16] controls the selection of address range comparator pair n-16. If bit[n-16] is: 0 The address.." newline hexmask.long.word 0x0 0.--15. 1. "SAC,Selects one or more single address comparators for single-shot control.Each bit represents a single address comparator so bit[n] controls the selection of single address comparator n. If bit[n] is: 0 The single address comparator.." group.long 0x2A0++0x3 line.long 0x0 "APBADDR_ETM_CPU2_TRCSSCSR0,Single-Shot Comparator Status Register 0" bitfld.long 0x0 31. "STATUS,Single-shot status bit. Indicates if any of the comparators that TRCSSCCRn.SAC or TRCSSCCRn.ARC selects have matched: 0 No match has occurred. 1 One or more matches has occurred. If.." "0,1" hexmask.long 0x0 3.--30. 1. "RES0_TRCSSCSR0_30_3,Reserved RES0." bitfld.long 0x0 2. "DV,Data value comparator support bit. Indicates if the trace unit supports data address with data value comparisons: 0 Single-shot data address with data value comparisons are not supported. 1.." "0,1" newline bitfld.long 0x0 1. "DA,Data address comparator support bit. Indicates if the trace unit supports data address comparisons: 0 Single-shot data address comparisons are not supported. 1 Single-shot data address.." "0,1" bitfld.long 0x0 0. "INST,Instruction address comparator support bit. Indicates if the trace unit supports instruction address comparisons: 0 Single-shot instruction address comparisons are not supported. 1 Single-shot.." "0,1" group.long 0x300++0x7 line.long 0x0 "APBADDR_ETM_CPU2_TRCOSLAR,OS Lock Access Register" hexmask.long 0x0 1.--31. 1. "RES0_TRCOSLAR_31_1,Reserved RES0." bitfld.long 0x0 0. "LOCK,OS Lock control bit: 0 Unlocks the OS Lock. 1 Locks the OS Lock. This setting disables the trace unit." "0,1" line.long 0x4 "APBADDR_ETM_CPU2_TRCOSLSR,OS Lock Status Register" hexmask.long 0x4 4.--31. 1. "RES0_TRCOSLSR_31_4,Reserved RES0." bitfld.long 0x4 3. "PRESENT,Indicates whether the OS Lock is implemented.This bit is RES1 which indicates that the OS Lock is always implemented." "0,1" bitfld.long 0x4 2. "BIT32,This bit is RES0 which indicates that software must perform a 32-bit write to update the TRCOSLAR." "0,1" newline bitfld.long 0x4 1. "LOCKED,OS Lock status bit: 0 The OS Lock is unlocked. 1 The OS Lock is locked. When the trace unit core power domain is powered down the value is UNKNOWN. The TRCPDSR indicates if.." "0,1" bitfld.long 0x4 0. "RES0_TRCOSLSR_0_0,Reserved RES0." "0,1" group.long 0x310++0x7 line.long 0x0 "APBADDR_ETM_CPU2_TRCPDCR,Power Down Control Register" hexmask.long 0x0 4.--31. 1. "RES0_TRCPDCR_31_4,Reserved RES0." bitfld.long 0x0 3. "PU,Powerup request bit: 0 The system can remove power from the trace unit. The TRCPDSR indicates if the trace unit is powered down. 1 The system must provide power to the trace unit." "0,1" bitfld.long 0x0 0.--2. "RES0_TRCPDCR_2_0,Reserved RES0." "0,1,2,3,4,5,6,7" line.long 0x4 "APBADDR_ETM_CPU2_TRCPDSR,Power Down Status Register" hexmask.long 0x4 6.--31. 1. "RES0_TRCPDSR_31_6,Reserved RES0." bitfld.long 0x4 5. "LOCKED,OS Lock status bit: 0 The OS Lock is unlocked. 1 The OS Lock is locked. The value is UNKNOWN when the trace unit core power domain is powered down that is when POWER==0." "0,1" bitfld.long 0x4 2.--4. "RES0_TRCPDSR_4_2,Reserved RES0." "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 1. "STICKYPD,Sticky powerdown status bit. Indicates whether the trace register state is valid: 0 If POWER==1 then the state of TRCOSLSR and the trace registers are valid. If POWER==0 then it is UNKNOWN whether the state of TRCOSLSR and the.." "0,1" bitfld.long 0x4 0. "POWER,Power status bit: 0 The trace unit core power domain is not powered. The trace registers are not accessible and they all return an error response. 1 The trace unit core power domain is.." "0,1" group.long 0x400++0x3F line.long 0x0 "APBADDR_ETM_CPU2_TRCACVR0_31_0,Address Comparator Value Registers 0 (low word)" hexmask.long 0x0 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x4 "APBADDR_ETM_CPU2_TRCACVR0_63_32,Address Comparator Value Registers 0 (high word)" hexmask.long 0x4 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x8 "APBADDR_ETM_CPU2_TRCACVR1_31_0,Address Comparator Value Registers 1 (low word)" hexmask.long 0x8 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0xC "APBADDR_ETM_CPU2_TRCACVR1_63_32,Address Comparator Value Registers 1 (high word)" hexmask.long 0xC 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x10 "APBADDR_ETM_CPU2_TRCACVR2_31_0,Address Comparator Value Registers 2 (low word)" hexmask.long 0x10 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x14 "APBADDR_ETM_CPU2_TRCACVR2_63_32,Address Comparator Value Registers 2 (high word)" hexmask.long 0x14 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x18 "APBADDR_ETM_CPU2_TRCACVR3_31_0,Address Comparator Value Registers 3 (low word)" hexmask.long 0x18 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x1C "APBADDR_ETM_CPU2_TRCACVR3_63_32,Address Comparator Value Registers 3 (high word)" hexmask.long 0x1C 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x20 "APBADDR_ETM_CPU2_TRCACVR4_31_0,Address Comparator Value Registers 4 (low word)" hexmask.long 0x20 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x24 "APBADDR_ETM_CPU2_TRCACVR4_63_32,Address Comparator Value Registers 4 (high word)" hexmask.long 0x24 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x28 "APBADDR_ETM_CPU2_TRCACVR5_31_0,Address Comparator Value Registers 5 (low word)" hexmask.long 0x28 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x2C "APBADDR_ETM_CPU2_TRCACVR5_63_32,Address Comparator Value Registers 5 (high word)" hexmask.long 0x2C 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x30 "APBADDR_ETM_CPU2_TRCACVR6_31_0,Address Comparator Value Registers 6 (low word)" hexmask.long 0x30 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x34 "APBADDR_ETM_CPU2_TRCACVR6_63_32,Address Comparator Value Registers 6 (high word)" hexmask.long 0x34 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x38 "APBADDR_ETM_CPU2_TRCACVR7_31_0,Address Comparator Value Registers 7 (low word)" hexmask.long 0x38 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x3C "APBADDR_ETM_CPU2_TRCACVR7_63_32,Address Comparator Value Registers 7 (high word)" hexmask.long 0x3C 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." group.long 0x480++0x3 line.long 0x0 "APBADDR_ETM_CPU2_TRCACATR0,Address Comparator Access Type Registers 0" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR0_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR0_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x488++0x3 line.long 0x0 "APBADDR_ETM_CPU2_TRCACATR1,Address Comparator Access Type Registers 1" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR1_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR1_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x490++0x3 line.long 0x0 "APBADDR_ETM_CPU2_TRCACATR2,Address Comparator Access Type Registers 2" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR2_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR2_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x498++0x3 line.long 0x0 "APBADDR_ETM_CPU2_TRCACATR3,Address Comparator Access Type Registers 3" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR3_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR3_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x4A0++0x3 line.long 0x0 "APBADDR_ETM_CPU2_TRCACATR4,Address Comparator Access Type Registers 4" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR4_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR4_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x4A8++0x3 line.long 0x0 "APBADDR_ETM_CPU2_TRCACATR5,Address Comparator Access Type Registers 5" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR5_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR5_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x4B0++0x3 line.long 0x0 "APBADDR_ETM_CPU2_TRCACATR6,Address Comparator Access Type Registers 6" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR6_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR6_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x4B8++0x3 line.long 0x0 "APBADDR_ETM_CPU2_TRCACATR7,Address Comparator Access Type Registers 7" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR7_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR7_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x600++0x3 line.long 0x0 "APBADDR_ETM_CPU2_TRCCIDCVR0,Context ID Comparator Value Register 0" hexmask.long 0x0 0.--31. 1. "VALUE,Context ID value. The implemented width of this field is IMPLEMENTATION DEFINED and is set by TRCIDR2.CIDSIZE. Unimplemented bits are RAZ/WI.After a processor reset the ETM architecture assumes that the Context ID is zero until the processor.." group.long 0x640++0x3 line.long 0x0 "APBADDR_ETM_CPU2_TRCVMIDCVR0,VMID Comparator Value Register 0" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--7. 1. "VALUE,Contains a VMID value." group.long 0x680++0x3 line.long 0x0 "APBADDR_ETM_CPU2_TRCCIDCCTLR0,Context ID Comparator Control Register 0" hexmask.long 0x0 0.--31. 1. "COMP_N,Controls the mask value that the trace unit applies to TRCCIDCVRn. Each bit in this field corresponds to a byte in TRCCIDCVRn. When a bit is: 0 The trace unit includes the relevant byte in TRCCIDCVRn when it performs the Context.." group.long 0xEE4++0x3 line.long 0x0 "APBADDR_ETM_CPU2_TRCITATBIDR,Integration ATB Identification Register" hexmask.long 0x0 7.--31. 1. "RES0_TRCITATBIDR_31_7,Reserved RES0" hexmask.long.byte 0x0 0.--6. 1. "ID,Drives the ATIDMn[6:0] output pins" group.long 0xEEC++0x3 line.long 0x0 "APBADDR_ETM_CPU2_TRCITIDATAR,Integration Instruction ATB Data Register" hexmask.long 0x0 5.--31. 1. "RES0_TRCITIDATAR_31_5,Reserved RES0" bitfld.long 0x0 4. "ATDATAM_31,Drives the ATDATAM[31] output" "0,1" bitfld.long 0x0 3. "ATDATAM_23,Drives the ATDATAM[23] output" "0,1" newline bitfld.long 0x0 2. "ATDATAM_15,Drives the ATDATAM[15] output" "0,1" bitfld.long 0x0 1. "ATDATAM_7,Drives the ATDATAM[7] output" "0,1" bitfld.long 0x0 0. "ATDATAM_0,Drives the ATDATAM[0] output" "0,1" group.long 0xEF4++0x3 line.long 0x0 "APBADDR_ETM_CPU2_TRCITIATBINR,Integration Instruction ATB In Register" hexmask.long 0x0 2.--31. 1. "RESERVED,Reserved. Read undefined." bitfld.long 0x0 1. "AFVALIDM,Returns the value of the AFVALIDMn input pin" "0,1" bitfld.long 0x0 0. "ATREADYM,Returns the value of the ATREADYMn input pin" "0,1" group.long 0xEFC++0x7 line.long 0x0 "APBADDR_ETM_CPU2_TRCITIATBOUTR,Integration Instruction ATB Out Register" hexmask.long.tbyte 0x0 10.--31. 1. "RESERVED,Reserved. Read undefined." bitfld.long 0x0 8.--9. "BYTES,Drives the ATBYTESMn[1:0] output pins" "0,1,2,3" hexmask.long.byte 0x0 2.--7. 1. "RESERVED,Reserved. Read undefined." newline bitfld.long 0x0 1. "AFREADY,Drives the AFREADYMn output pin" "0,1" bitfld.long 0x0 0. "ATVALID,Drives the ATVALIDMn output pin" "0,1" line.long 0x4 "APBADDR_ETM_CPU2_TRCITCTRL,Integration Mode Control Register" hexmask.long 0x4 1.--31. 1. "RES0_TRCITCTRL_31_1,Reserved RES0." bitfld.long 0x4 0. "ITEN,Integration mode enable bit: 0 The trace unit is not in integration mode. 1 The trace unit is in integration mode. This mode enables a debug agent to perform topology detection and.." "0,1" group.long 0xFA0++0x1F line.long 0x0 "APBADDR_ETM_CPU2_TRCCLAIMSET,Claim Tag Set Register" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--3. 1. "SET,Sets bits in the claim tag and determines the number of claim tag bits implemented." line.long 0x4 "APBADDR_ETM_CPU2_TRCCLAIMCLR,Claim Tag Clear Register" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "CLR,Clears bits in the claim tag and determines the current value of the claim tag." line.long 0x8 "APBADDR_ETM_CPU2_TRCDEVAFF0,Device Affinity Register 0" hexmask.long 0x8 0.--31. 1. "MPIDR_EL1_31_0,Read-only copy of the low half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0xC "APBADDR_ETM_CPU2_TRCDEVAFF1,Device Affinity Register 1" hexmask.long 0xC 0.--31. 1. "MPIDR_EL1_63_32,Read-only copy of the high half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x10 "APBADDR_ETM_CPU2_TRCLAR,Software Lock Access Register" hexmask.long 0x10 0.--31. 1. "KEY,Writing the key value 0xC5ACCE55 to this field clears the lock enabling write accesses to this component's registers through a memory-mapped interface.Writing any other value to this register sets the lock disabling write accesses to this.." line.long 0x14 "APBADDR_ETM_CPU2_TRCLSR,Software Lock Status Register" hexmask.long 0x14 3.--31. 1. "RES0_TRCLSR_31_3,Reserved RES0." bitfld.long 0x14 2. "NTT,Not thirty-two bit access required. RAZ." "0,1" bitfld.long 0x14 1. "SLK,Software lock status for this component. Possible values of this field are: 0 Lock clear. Writes are permitted to this component's registers. 1 Lock set. Writes to this component's registers.." "0,1" newline bitfld.long 0x14 0. "SLI,Software lock implemented. RAO." "0,1" line.long 0x18 "APBADDR_ETM_CPU2_TRCAUTHSTATUS,Authentication Status Register" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_TRCAUTHSTATUS_31_8,Reserved RES0." bitfld.long 0x18 6.--7. "SNID,Indicates whether the system enables the trace unit to support Secure non-invasive debug: 00 The trace unit does not implement support for Secure non-invasive debug. 01 Reserved." "0,1,2,3" bitfld.long 0x18 4.--5. "SID,Indicates whether the trace unit supports Secure invasive debug: 00 The trace unit does not support Secure invasive debug. All other values are reserved." "0,1,2,3" newline bitfld.long 0x18 2.--3. "NSNID,Indicates whether the system enables the trace unit to support Non-secure non-invasive debug: 00 The trace unit does not implement support for Non-secure non-invasive debug. 01 Reserved." "0,1,2,3" bitfld.long 0x18 0.--1. "NSID,Indicates whether the trace unit supports Non-secure invasive debug: 00 The trace unit does not support Non-secure invasive debug. All other values are reserved." "0,1,2,3" line.long 0x1C "APBADDR_ETM_CPU2_TRCDEVARCH,Device Architecture Register" hexmask.long.word 0x1C 21.--31. 1. "ARCHITECT,Defines the architecture of the component. For trace this is ARM Limited.Bits [31:28] are the JEP 106 continuation code 0x4.Bits [27:21] are the JEP 106 ID code 0x3B." bitfld.long 0x1C 20. "PRESENT,When set to 1 indicates that the DEVARCH is present.This field is RAO." "0,1" hexmask.long.byte 0x1C 16.--19. 1. "REVISION,Defines the architecture revision. For architectures defined by ARM this is the minor revision.For trace the revision defined by ETMv4 is 0x0.All other values are reserved." newline hexmask.long.word 0x1C 0.--15. 1. "ARCHID,Defines this part to be a v8-A debug component. For architectures defined by ARM this is further subdivided.For trace bits [15:12] are the architecture version 0x4; bits [11:0] are the architecture part number 0xA13.This corresponds to trace.." group.long 0xFC8++0x37 line.long 0x0 "APBADDR_ETM_CPU2_TRCDEVID,Device ID Register" hexmask.long 0x0 0.--31. 1. "DEVID,Indicates the capabilities of the trace unit. The implemented width of this field and its bit assignments are IMPLEMENTATION DEFINED. Unimplemented bits are RAZ/WI.If a component is configurable then ARM recommends that this field can also indicate.." line.long 0x4 "APBADDR_ETM_CPU2_TRCDEVTYPE,Device Type Register" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_TRCDEVTYPE_31_8,Reserved RES0." hexmask.long.byte 0x4 4.--7. 1. "SUB,Returns 0x1 to indicate that the ETM generates processor trace.All other values are reserved." hexmask.long.byte 0x4 0.--3. 1. "MAIN,Returns 0x3 to indicate that the ETM is a trace source.All other values are reserved." line.long 0x8 "APBADDR_ETM_CPU2_TRCPIDR4,Peripheral Identification Register 4" hexmask.long.tbyte 0x8 8.--31. 1. "RES0_TRCPIDR4_31_8,Reserved RES0." hexmask.long.byte 0x8 4.--7. 1. "SIZE,Size of the component. RES0. This indicates that the ETM memory map occupies 4KB." hexmask.long.byte 0x8 0.--3. 1. "DES_2,Designer JEP106 continuation code. For ARM Limited this field is 0b0100." line.long 0xC "APBADDR_ETM_CPU2_TRCPIDR5,Peripheral Identification Register 5" hexmask.long.tbyte 0xC 8.--31. 1. "RES0_TRCPIDR5_31_8,Reserved RES0." hexmask.long.byte 0xC 0.--7. 1. "RESERVED,RES0 reserved for future use." line.long 0x10 "APBADDR_ETM_CPU2_TRCPIDR6,Peripheral Identification Register 6" hexmask.long.tbyte 0x10 8.--31. 1. "RES0_TRCPIDR6_31_8,Reserved RES0." hexmask.long.byte 0x10 0.--7. 1. "RESERVED,RES0 reserved for future use." line.long 0x14 "APBADDR_ETM_CPU2_TRCPIDR7,Peripheral Identification Register 7" hexmask.long.tbyte 0x14 8.--31. 1. "RES0_TRCPIDR7_31_8,Reserved RES0." hexmask.long.byte 0x14 0.--7. 1. "RESERVED,RES0 reserved for future use." line.long 0x18 "APBADDR_ETM_CPU2_TRCPIDR0,Peripheral Identification Register 0" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_TRCPIDR0_31_8,Reserved RES0." hexmask.long.byte 0x18 0.--7. 1. "PART_0,Part number bits[7:0]." line.long 0x1C "APBADDR_ETM_CPU2_TRCPIDR1,Peripheral Identification Register 1" hexmask.long.tbyte 0x1C 8.--31. 1. "RES0_TRCPIDR1_31_8,Reserved RES0." hexmask.long.byte 0x1C 4.--7. 1. "DES_0,Designer bits[3:0] of JEP106 ID code. For ARM Limited this field is 0b1011." hexmask.long.byte 0x1C 0.--3. 1. "PART_1,Part number bits[11:8]." line.long 0x20 "APBADDR_ETM_CPU2_TRCPIDR2,Peripheral Identification Register 2" hexmask.long.tbyte 0x20 8.--31. 1. "RES0_TRCPIDR2_31_8,Reserved RES0." hexmask.long.byte 0x20 4.--7. 1. "REVISION,The IMPLEMENTATION DEFINED revision number for the ETM implementation. See also TRCIDR1.REVISION." bitfld.long 0x20 3. "JEDEC,RAO. Indicates a JEP106 identity code is used." "0,1" newline bitfld.long 0x20 0.--2. "DES_1,Designer most significant bits of JEP106 ID code. For ARM Limited this field is 0b011." "0,1,2,3,4,5,6,7" line.long 0x24 "APBADDR_ETM_CPU2_TRCPIDR3,Peripheral Identification Register 3" hexmask.long.tbyte 0x24 8.--31. 1. "RES0_TRCPIDR3_31_8,Reserved RES0." hexmask.long.byte 0x24 4.--7. 1. "REVAND,The IMPLEMENTATION DEFINED manufacturing revision number for the implementation. After silicon is available if metal fixes are necessary the manufacturer can alter the top metal layer so that this field can indicate any post-fab silicon changes." hexmask.long.byte 0x24 0.--3. 1. "CMOD,Customer modified. Indicates someone other than the Designer has modified the component." line.long 0x28 "APBADDR_ETM_CPU2_TRCCIDR0,Component Identification Register 0" hexmask.long.tbyte 0x28 8.--31. 1. "RES0_TRCCIDR0_31_8,Reserved RES0." hexmask.long.byte 0x28 0.--7. 1. "PRMBL_0,Preamble. Must read as 0x0D." line.long 0x2C "APBADDR_ETM_CPU2_TRCCIDR1,Component Identification Register 1" hexmask.long.tbyte 0x2C 8.--31. 1. "RES0_TRCCIDR1_31_8,Reserved RES0." hexmask.long.byte 0x2C 4.--7. 1. "CLASS,Component class. Reads as 0x9 to indicate that the ETM is a debug component with CoreSight architecture compliant management registers." hexmask.long.byte 0x2C 0.--3. 1. "PRMBL_1,Preamble. Must read as 0x0." line.long 0x30 "APBADDR_ETM_CPU2_TRCCIDR2,Component Identification Register 2" hexmask.long.tbyte 0x30 8.--31. 1. "RES0_TRCCIDR2_31_8,Reserved RES0." hexmask.long.byte 0x30 0.--7. 1. "PRMBL_2,Preamble. Must read as 0x05." line.long 0x34 "APBADDR_ETM_CPU2_TRCCIDR3,Component Identification Register 3" hexmask.long.tbyte 0x34 8.--31. 1. "RES0_TRCCIDR3_31_8,Reserved RES0." hexmask.long.byte 0x34 0.--7. 1. "PRMBL_3,Preamble. Must read as 0xB1." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "A53SS0_CORE2_CTI (A53SS0_CORE2_CTI)" base ad:0x730240000 group.long 0x0++0x3 line.long 0x0 "APBADDR_CTI_CPU2_CTICONTROL,CTI Control Register" hexmask.long 0x0 1.--31. 1. "RES0_CTICONTROL_31_1,Reserved RES0." bitfld.long 0x0 0. "GLBEN,Enables or disables the CTI mapping functions. Possible values of this field are: 0 CTI mapping functions disabled. 1 CTI mapping functions enabled. When the mapping.." "0,1" group.long 0x10++0x2F line.long 0x0 "APBADDR_CTI_CPU2_CTIINTACK,CTI Output Trigger Acknowledge Register" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--7. 1. "ACK_N,Can be used to create soft acknowledges for output triggers" line.long 0x4 "APBADDR_CTI_CPU2_CTIAPPSET,CTI Application Trigger Set Register" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "CTIAPPSETX,Application trigger <x> enable" line.long 0x8 "APBADDR_CTI_CPU2_CTIAPPCLEAR,CTI Application Trigger Clear Register" hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x8 0.--3. 1. "CTIAPPCLEARX,Application trigger <x> disable" line.long 0xC "APBADDR_CTI_CPU2_CTIAPPPULSE,CTI Application Pulse Register" hexmask.long 0xC 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0xC 0.--3. 1. "CTIAPPPULSEX,Generate event pulse on ECT channel <x>." line.long 0x10 "APBADDR_CTI_CPU2_CTIINEN0,CTI Input Trigger to Output Channel Enable Register 0" hexmask.long 0x10 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x10 0.--3. 1. "INENX,Input trigger 0 to output channel <x> enable" line.long 0x14 "APBADDR_CTI_CPU2_CTIINEN1,CTI Input Trigger to Output Channel Enable Register 1" hexmask.long 0x14 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x14 0.--3. 1. "INENX,Input trigger 1 to output channel <x> enable" line.long 0x18 "APBADDR_CTI_CPU2_CTIINEN2,CTI Input Trigger to Output Channel Enable Register 2" hexmask.long 0x18 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x18 0.--3. 1. "INENX,Input trigger 2 to output channel <x> enable" line.long 0x1C "APBADDR_CTI_CPU2_CTIINEN3,CTI Input Trigger to Output Channel Enable Register 3" hexmask.long 0x1C 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x1C 0.--3. 1. "INENX,Input trigger 3 to output channel <x> enable" line.long 0x20 "APBADDR_CTI_CPU2_CTIINEN4,CTI Input Trigger to Output Channel Enable Register 4" hexmask.long 0x20 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x20 0.--3. 1. "INENX,Input trigger 4 to output channel <x> enable" line.long 0x24 "APBADDR_CTI_CPU2_CTIINEN5,CTI Input Trigger to Output Channel Enable Register 5" hexmask.long 0x24 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x24 0.--3. 1. "INENX,Input trigger 5 to output channel <x> enable" line.long 0x28 "APBADDR_CTI_CPU2_CTIINEN6,CTI Input Trigger to Output Channel Enable Register 6" hexmask.long 0x28 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x28 0.--3. 1. "INENX,Input trigger 6 to output channel <x> enable" line.long 0x2C "APBADDR_CTI_CPU2_CTIINEN7,CTI Input Trigger to Output Channel Enable Register 7" hexmask.long 0x2C 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x2C 0.--3. 1. "INENX,Input trigger 7 to output channel <x> enable" group.long 0xA0++0x1F line.long 0x0 "APBADDR_CTI_CPU2_CTIOUTEN0,CTI Input Channel to Output Trigger Enable Register 0" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--3. 1. "OUTENX,Input channel <x> to output trigger 0 enable" line.long 0x4 "APBADDR_CTI_CPU2_CTIOUTEN1,CTI Input Channel to Output Trigger Enable Register 1" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "OUTENX,Input channel <x> to output trigger 1 enable" line.long 0x8 "APBADDR_CTI_CPU2_CTIOUTEN2,CTI Input Channel to Output Trigger Enable Register 2" hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x8 0.--3. 1. "OUTENX,Input channel <x> to output trigger 2 enable" line.long 0xC "APBADDR_CTI_CPU2_CTIOUTEN3,CTI Input Channel to Output Trigger Enable Register 3" hexmask.long 0xC 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0xC 0.--3. 1. "OUTENX,Input channel <x> to output trigger 3 enable" line.long 0x10 "APBADDR_CTI_CPU2_CTIOUTEN4,CTI Input Channel to Output Trigger Enable Register 4" hexmask.long 0x10 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x10 0.--3. 1. "OUTENX,Input channel <x> to output trigger 4 enable" line.long 0x14 "APBADDR_CTI_CPU2_CTIOUTEN5,CTI Input Channel to Output Trigger Enable Register 5" hexmask.long 0x14 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x14 0.--3. 1. "OUTENX,Input channel <x> to output trigger 5 enable" line.long 0x18 "APBADDR_CTI_CPU2_CTIOUTEN6,CTI Input Channel to Output Trigger Enable Register 6" hexmask.long 0x18 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x18 0.--3. 1. "OUTENX,Input channel <x> to output trigger 6 enable" line.long 0x1C "APBADDR_CTI_CPU2_CTIOUTEN7,CTI Input Channel to Output Trigger Enable Register 7" hexmask.long 0x1C 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x1C 0.--3. 1. "OUTENX,Input channel <x> to output trigger 7 enable" group.long 0x130++0x17 line.long 0x0 "APBADDR_CTI_CPU2_CTITRIGINSTATUS,CTI Trigger In Status Register" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--7. 1. "TRINN,Provides the status of the trigger inputs" line.long 0x4 "APBADDR_CTI_CPU2_CTITRIGOUTSTATUS,CTI Trigger Out Status Register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--7. 1. "TROUTN,Provides the status of the trigger outputs" line.long 0x8 "APBADDR_CTI_CPU2_CTICHINSTATUS,CTI Channel In Status Register" hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x8 0.--3. 1. "CHINN,Provides the raw status of the ECT channel inputs to the CTI" line.long 0xC "APBADDR_CTI_CPU2_CTICHOUTSTATUS,CTI Channel Out Status Register" hexmask.long 0xC 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0xC 0.--3. 1. "CHOUTN,Provides the status of the ECT channel outputs from the CTI" line.long 0x10 "APBADDR_CTI_CPU2_CTIGATE,CTI Channel Gate Enable Register" hexmask.long 0x10 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x10 0.--3. 1. "GATEX,Determines whether events on channels propagate through the CTM to other ECT components or from the CTM into the CTI" line.long 0x14 "APBADDR_CTI_CPU2_ASICCTL,CTI External Multiplexor Control register" hexmask.long.tbyte 0x14 8.--31. 1. "RES0_ASICCTL_31_8,Reserved RES0." hexmask.long.byte 0x14 0.--7. 1. "ASICCTL,IMPLEMENTATION DEFINED ASIC control. Provides a control for external multiplexing of additional triggers into the CTI.If external multiplexing of trigger signals is implemented then the number of multiplexed signals on each trigger must be.." group.long 0xF00++0x3 line.long 0x0 "APBADDR_CTI_CPU2_CTIITCTRL,CTI Integration mode Control Register" hexmask.long 0x0 1.--31. 1. "RES0_CTIITCTRL_31_1,Reserved RES0." bitfld.long 0x0 0. "IME,Integration mode enable. When IME == 1 the device reverts to an integration mode to enable integration testing or topology detection. The integration mode behavior is IMPLEMENTATION DEFINED. 0 Normal operation." "0,1" group.long 0xFA0++0x5F line.long 0x0 "APBADDR_CTI_CPU2_CTICLAIMSET,CTI Claim Set" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--3. 1. "CLAIMX,CLAIM tag set bit" line.long 0x4 "APBADDR_CTI_CPU2_CTICLAIMCLR,CTI Claim Clear" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "CLAIMX,Clear CLAIM tag" line.long 0x8 "APBADDR_CTI_CPU2_CTIDEVAFF0,CTI Device Affinity Register 0" hexmask.long 0x8 0.--31. 1. "CTIDEVAFF0,MPIDR_EL1 low half. Read-only copy of the low half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0xC "APBADDR_CTI_CPU2_CTIDEVAFF1,CTI Device Affinity Register 1" hexmask.long 0xC 0.--31. 1. "CTIDEVAFF1,MPIDR_EL1 high half. Read-only copy of the high half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x10 "APBADDR_CTI_CPU2_CTILAR,CTI Lock Access Register" hexmask.long 0x10 0.--31. 1. "KEY,Lock Access control. Writing the key value 0xC5ACCE55 to this field unlocks the lock enabling write accesses to this component's registers through a memory-mapped interface.Writing any other value to this register locks the lock disabling write.." line.long 0x14 "APBADDR_CTI_CPU2_CTILSR,CTI Lock Status Register" hexmask.long 0x14 3.--31. 1. "RES0_CTILSR_31_3,Reserved RES0." bitfld.long 0x14 2. "NTT,Not thirty-two bit access required. RAZ." "0,1" bitfld.long 0x14 1. "SLK,Software lock status for this component. For an access to LSR that is not a memory-mapped access or when the software lock is not implemented this field is RES0.For memory-mapped accesses when the software lock is implemented possible values of.." "0,1" newline bitfld.long 0x14 0. "SLI,Software lock implemented. For an access to LSR that is not a memory-mapped access this field is RAZ. For memory-mapped accesses the value of this field is IMPLEMENTATION DEFINED. Permitted values are: 0 Software lock not.." "0,1" line.long 0x18 "APBADDR_CTI_CPU2_CTIAUTHSTATUS,CTI Authentication Status Register" hexmask.long 0x18 4.--31. 1. "RES0_CTIAUTHSTATUS_31_4,Reserved RES0." bitfld.long 0x18 2.--3. "NSNID,If EL3 is not implemented and the processor is Secure holds the same value as DBGAUTHSTATUS_EL1.SNID.Otherwise holds the same value as DBGAUTHSTATUS_EL1.NSNID." "0,1,2,3" bitfld.long 0x18 0.--1. "NSID,If EL3 is not implemented and the processor is Secure holds the same value as DBGAUTHSTATUS_EL1.SID.Otherwise holds the same value as DBGAUTHSTATUS_EL1.NSID." "0,1,2,3" line.long 0x1C "APBADDR_CTI_CPU2_CTIDEVARCH,CTI Device Architecture Register" hexmask.long.word 0x1C 21.--31. 1. "ARCHITECT,Defines the architecture of the component. For CTI this is ARM Limited.Bits [31:28] are the JEP 106 continuation code 0x4.Bits [27:21] are the JEP 106 ID code 0x3B." bitfld.long 0x1C 20. "PRESENT,When set to 1 indicates that the DEVARCH is present.This field is 1 in v8-A." "0,1" hexmask.long.byte 0x1C 16.--19. 1. "REVISION,Defines the architecture revision. For architectures defined by ARM this is the minor revision.For CTI the revision defined by v8-A is 0x0.All other values are reserved." newline hexmask.long.word 0x1C 0.--15. 1. "ARCHID,Defines this part to be a v8-A debug component. For architectures defined by ARM this is further subdivided.For CTI:Bits [15:12] are the architecture version 0x1.Bits [11:0] are the architecture part number 0xA14.This corresponds to CTI.." line.long 0x20 "APBADDR_CTI_CPU2_CTIDEVID2,CTI Device ID Register 2" hexmask.long 0x20 0.--31. 1. "RES0_CTIDEVID2_31_0,Reserved RES0." line.long 0x24 "APBADDR_CTI_CPU2_CTIDEVID1,CTI Device ID Register 1" hexmask.long 0x24 0.--31. 1. "RES0_CTIDEVID1_31_0,Reserved RES0." line.long 0x28 "APBADDR_CTI_CPU2_CTIDEVID,CTI Device ID Register 0" hexmask.long.byte 0x28 26.--31. 1. "RES0_CTIDEVID_31_26,Reserved RES0." bitfld.long 0x28 24.--25. "INOUT,Input/output options. Indicates presence of the input gate. If the CTM is not implemented this field is RAZ. 00 CTIGATE does not mask propagation of input events from external channels. 01.." "0,1,2,3" bitfld.long 0x28 22.--23. "RES0_CTIDEVID_23_22,Reserved RES0." "0,1,2,3" newline hexmask.long.byte 0x28 16.--21. 1. "NUMCHAN,Number of ECT channels implemented. IMPLEMENTATION DEFINED. For v8-A valid values are: 000011 3 channels [0..2] implemented. 000100 4 channels [0..3] implemented." bitfld.long 0x28 14.--15. "RES0_CTIDEVID_15_14,Reserved RES0." "0,1,2,3" hexmask.long.byte 0x28 8.--13. 1. "NUMTRIG,Number of triggers implemented. IMPLEMENTATION DEFINED. This is one more than the index of the largest trigger rather than the actual number of triggers.For v8-A valid values are: 000011 Up to 3 triggers [0..2] implemented." newline bitfld.long 0x28 5.--7. "RES0_CTIDEVID_7_5,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x28 0.--4. 1. "EXTMUXNUM,Maximum number of external triggers available for multiplexing into the CTI. This relates only to additional external triggers outside those defined for v8-A." line.long 0x2C "APBADDR_CTI_CPU2_CTIDEVTYPE,CTI Device Type Register" hexmask.long.tbyte 0x2C 8.--31. 1. "RES0_CTIDEVTYPE_31_8,Reserved RES0." hexmask.long.byte 0x2C 4.--7. 1. "SUB,Subtype. Must read as 0x1 to indicate this is a processor component." hexmask.long.byte 0x2C 0.--3. 1. "MAJOR,Major type. Must read as 0x4 to indicate this is a cross-trigger component." line.long 0x30 "APBADDR_CTI_CPU2_CTIPIDR4,CTI Peripheral Identification Register 4" hexmask.long.tbyte 0x30 8.--31. 1. "RES0_CTIPIDR4_31_8,Reserved RES0." hexmask.long.byte 0x30 4.--7. 1. "SIZE,Size of the component. RAZ. Log2 of the number of 4KB pages from the start of the component to the end of the component ID registers." hexmask.long.byte 0x30 0.--3. 1. "DES_2,Designer JEP106 continuation code least significant nibble. For ARM Limited this field is 0b0100." line.long 0x34 "APBADDR_CTI_CPU2_CTIPIDR5,CTI Peripheral Identification Register 5" hexmask.long 0x34 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x38 "APBADDR_CTI_CPU2_CTIPIDR6,CTI Peripheral Identification Register 6" hexmask.long 0x38 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x3C "APBADDR_CTI_CPU2_CTIPIDR7,CTI Peripheral Identification Register 7" hexmask.long 0x3C 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x40 "APBADDR_CTI_CPU2_CTIPIDR0,CTI Peripheral Identification Register 0" hexmask.long.tbyte 0x40 8.--31. 1. "RES0_CTIPIDR0_31_8,Reserved RES0." hexmask.long.byte 0x40 0.--7. 1. "PART_0,Part number least significant byte." line.long 0x44 "APBADDR_CTI_CPU2_CTIPIDR1,CTI Peripheral Identification Register 1" hexmask.long.tbyte 0x44 8.--31. 1. "RES0_CTIPIDR1_31_8,Reserved RES0." hexmask.long.byte 0x44 4.--7. 1. "DES_0,Designer least significant nibble of JEP106 ID code. For ARM Limited this field is 0b1011." hexmask.long.byte 0x44 0.--3. 1. "PART_1,Part number most significant nibble." line.long 0x48 "APBADDR_CTI_CPU2_CTIPIDR2,CTI Peripheral Identification Register 2" hexmask.long.tbyte 0x48 8.--31. 1. "RES0_CTIPIDR2_31_8,Reserved RES0." hexmask.long.byte 0x48 4.--7. 1. "REVISION,Part major revision. Parts can also use this field to extend Part number to 16-bits." bitfld.long 0x48 3. "JEDEC,RAO. Indicates a JEP106 identity code is used." "0,1" newline bitfld.long 0x48 0.--2. "DES_1,Designer most significant bits of JEP106 ID code. For ARM Limited this field is 0b011." "0,1,2,3,4,5,6,7" line.long 0x4C "APBADDR_CTI_CPU2_CTIPIDR3,CTI Peripheral Identification Register 3" hexmask.long.tbyte 0x4C 8.--31. 1. "RES0_CTIPIDR3_31_8,Reserved RES0." hexmask.long.byte 0x4C 4.--7. 1. "REVAND,Part minor revision. Parts using CTIPIDR2.REVISION as an extension to the Part number must use this field as a major revision number." hexmask.long.byte 0x4C 0.--3. 1. "CMOD,Customer modified. Indicates someone other than the Designer has modified the component." line.long 0x50 "APBADDR_CTI_CPU2_CTICIDR0,CTI Component Identification Register 0" hexmask.long.tbyte 0x50 8.--31. 1. "RES0_CTICIDR0_31_8,Reserved RES0." hexmask.long.byte 0x50 0.--7. 1. "PRMBL_0,Preamble. Must read as 0x0D." line.long 0x54 "APBADDR_CTI_CPU2_CTICIDR1,CTI Component Identification Register 1" hexmask.long.tbyte 0x54 8.--31. 1. "RES0_CTICIDR1_31_8,Reserved RES0." hexmask.long.byte 0x54 4.--7. 1. "CLASS,Component class. Reads as 0x9 debug component." hexmask.long.byte 0x54 0.--3. 1. "PRMBL_1,Preamble. RAZ." line.long 0x58 "APBADDR_CTI_CPU2_CTICIDR2,CTI Component Identification Register 2" hexmask.long.tbyte 0x58 8.--31. 1. "RES0_CTICIDR2_31_8,Reserved RES0." hexmask.long.byte 0x58 0.--7. 1. "PRMBL_2,Preamble. Must read as 0x05." line.long 0x5C "APBADDR_CTI_CPU2_CTICIDR3,CTI Component Identification Register 3" hexmask.long.tbyte 0x5C 8.--31. 1. "RES0_CTICIDR3_31_8,Reserved RES0." hexmask.long.byte 0x5C 0.--7. 1. "PRMBL_3,Preamble. Must read as 0xB1." tree.end endif tree.end tree "A53SS0_CORE3" tree "A53SS0_CORE3_ECC_AGGR (A53SS0_CORE3_ECC_AGGR)" base ad:0x719000 rgroup.long 0x0++0x3 line.long 0x0 "ECC_AGGR_CORE3_REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECC_AGGR_CORE3_REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECC_AGGR_CORE3_REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECC_AGGR_CORE3_REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECC_AGGR_CORE3_REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_CORE3_REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 26. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 25. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 24. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 23. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 22. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 21. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 20. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 19. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 18. "CPU3_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 17. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 16. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 15. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 14. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 13. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 12. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 11. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 10. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 9. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 8. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 7. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 6. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 5. "CPU3_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 4. "CPU3_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 3. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 2. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 1. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 0. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECC_AGGR_CORE3_REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 26. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 25. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 24. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 23. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "CPU3_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "CPU3_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "CPU3_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECC_AGGR_CORE3_REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 26. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 25. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 24. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 23. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "CPU3_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "CPU3_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "CPU3_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECC_AGGR_CORE3_REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_CORE3_REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 26. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 25. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 24. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 23. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 22. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 21. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 20. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 19. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 18. "CPU3_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 17. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 16. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 15. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 14. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 13. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 12. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 11. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 10. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 9. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 8. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 7. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 6. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 5. "CPU3_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 4. "CPU3_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 3. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 2. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 1. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 0. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_PEND,Interrupt Pending Status for cpu3_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECC_AGGR_CORE3_REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 26. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 25. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 24. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 23. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "CPU3_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "CPU3_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "CPU3_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for cpu3_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECC_AGGR_CORE3_REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 26. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_l1d_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 25. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_l1d_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 24. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_l1d_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 23. "CPU3_A53_DUAL_U_L1D_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_l1d_tagram_spram_way0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_tlb_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_tlb_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_tlb_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "CPU3_A53_DUAL_U_TLB_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_tlb_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "CPU3_A53_DUAL_U_DDIRTY_SPRAM_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_ddirty_spram_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_dtag_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_dtag_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_dtag_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "CPU3_A53_DUAL_U_DTAG_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_dtag_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK7_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_ddata_spram_bank7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK6_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_ddata_spram_bank6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK5_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_ddata_spram_bank5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK4_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_ddata_spram_bank4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_ddata_spram_bank3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_ddata_spram_bank2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_ddata_spram_bank1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "CPU3_A53_DUAL_U_DDATA_SPRAM_BANK0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_ddata_spram_bank0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "CPU3_A53_DUAL_U_ITAG_SPRAM_RAM1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_itag_spram_ram1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "CPU3_A53_DUAL_U_ITAG_SPRAM_RAM0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_itag_spram_ram0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK1_HI_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_idata_spram_bank1_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK1_LO_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_idata_spram_bank1_lo_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK0_HI_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_idata_spram_bank0_hi_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "CPU3_A53_DUAL_U_IDATA_SPRAM_BANK0_LO_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for cpu3_a53_dual_u_idata_spram_bank0_lo_ecc_svbus_pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECC_AGGR_CORE3_REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" newline bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECC_AGGR_CORE3_REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" newline bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECC_AGGR_CORE3_REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" newline bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECC_AGGR_CORE3_REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" newline bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "A53SS0_CORE3_DBG (A53SS0_CORE3_DBG)" base ad:0x730310000 group.long 0x20++0x7 line.long 0x0 "APBADDR_DBG_CPU3_EDESR,External Debug Event Status Register" hexmask.long 0x0 3.--31. 1. "RES0_EDESR_31_3,Reserved RES0." bitfld.long 0x0 2. "SS,Halting step debug event pending. Possible values of this field are: 0 Reading this means that a Halting step debug event is not pending. Writing this means no action. 1 Reading this means that.." "0,1" newline bitfld.long 0x0 1. "RC,Reset catch debug event pending. Possible values of this field are: 0 Reading this means that a Reset catch debug event is not pending. Writing this means no action. 1 Reading this means that a.." "0,1" bitfld.long 0x0 0. "OSUC,OS unlock debug event pending. Possible values of this field are: 0 Reading this means that an OS unlock catch debug event is not pending. Writing this means no action. 1 Reading this means.." "0,1" line.long 0x4 "APBADDR_DBG_CPU3_EDECR,External Debug Execution Control Register" hexmask.long 0x4 3.--31. 1. "RES0_EDECR_31_3,Reserved RES0." bitfld.long 0x4 2. "SS,Halting step enable. Possible values of this field are: 0 Halting step debug event disabled. 1 Halting step debug event enabled. If the value of EDECR.SS is changed when the.." "0,1" newline bitfld.long 0x4 1. "RCE,Reset catch enable. Possible values of this field are: 0 Reset catch debug event disabled. 1 Reset catch debug event enabled." "0,1" bitfld.long 0x4 0. "OSUCE,OS unlock catch enabled. Possible values of this field are: 0 OS unlock catch debug event disabled. 1 OS unlock catch debug event enabled." "0,1" group.long 0x30++0x7 line.long 0x0 "APBADDR_DBG_CPU3_EDWAR_31_0,External Debug Watchpoint Address Register (low word)" hexmask.long 0x0 0.--31. 1. "EDWAR_31_0,Watchpoint address. The virtual data address being accessed when a watchpoint debug event was triggered and caused entry to Debug state.UNKNOWN if the processor is not in Debug state or if Debug state was entered other than for a watchpoint.." line.long 0x4 "APBADDR_DBG_CPU3_EDWAR_63_32,External Debug Watchpoint Address Register (high word)" hexmask.long 0x4 0.--31. 1. "EDWAR_63_32,Watchpoint address. The virtual data address being accessed when a watchpoint debug event was triggered and caused entry to Debug state.UNKNOWN if the processor is not in Debug state or if Debug state was entered other than for a watchpoint.." group.long 0x80++0x1B line.long 0x0 "APBADDR_DBG_CPU3_DBGDTRRX_EL0,Debug Data Transfer Register Receive" hexmask.long 0x0 0.--31. 1. "DBGDTRRX_EL0,Update DTRRX. Writes to this register update the value in DTRRX and set RXfull to 1.Reads of this register return the last value written to DTRRX and do not change RXfull." line.long 0x4 "APBADDR_DBG_CPU3_EDITR,External Debug Instruction Transfer Register" hexmask.long 0x4 0.--31. 1. "EDITR,Used in Debug state for passing instructions to the processor for execution" line.long 0x8 "APBADDR_DBG_CPU3_EDSCR,External Debug Status and Control Register" bitfld.long 0x8 31. "RES0_EDSCR_31_31,Reserved RES0." "0,1" bitfld.long 0x8 30. "RXFULL,DTRRX full. This bit is RO." "0,1" newline bitfld.long 0x8 29. "TXFULL,DTRTX full. This bit is RO." "0,1" bitfld.long 0x8 28. "ITO,EDITR overrun. This bit is RO.If the processor is not in Debug state this bit is UNKNOWN. ITO is set to 0 on entry to Debug state." "0,1" newline bitfld.long 0x8 27. "RXO,DTRRX overrun. This bit is RO." "0,1" bitfld.long 0x8 26. "TXU,DTRTX underrun. This bit is RO." "0,1" newline bitfld.long 0x8 25. "PIPEADV,Pipeline advance. Read-only. Set to 1 every time the processor pipeline retires one or more instructions. Cleared to 0 by a write to EDRCR.CSPA.The architecture does not define precisely when this bit is set to 1. It requires only that this.." "0,1" bitfld.long 0x8 24. "ITE,ITR empty. This bit is RO.If the processor is not in Debug state this bit is UNKNOWN. It is always valid in Debug state." "0,1" newline bitfld.long 0x8 22.--23. "INTDIS,Interrupt disable. Disables taking interrupts [including virtual interrupts and System Error interrupts] in Non-Debug state.If external invasive debug is disabled the value of this field is ignored.If external invasive debug is enabled the.." "0,1,2,3" bitfld.long 0x8 21. "TDA,Trap debug registers accesses." "0,1" newline bitfld.long 0x8 20. "MA,Memory access mode. Controls use of memory-access mode for accessing EDITR and the DCC. This bit is ignored if in Non-debug state and set to zero on entry to Debug state.Possible values of this field are: 0 Normal access mode.." "0,1" bitfld.long 0x8 19. "RES0_EDSCR_19_19,Reserved RES0." "0,1" newline bitfld.long 0x8 18. "NS,Non-secure status. Read-only. When in Debug state gives the current security state: 0 Secure state IsSecure[] == TRUE 1 Non-secure state IsSecure[] == FALSE. In Non-debug.." "0,1" bitfld.long 0x8 17. "RES0_EDSCR_17_17,Reserved RES0." "0,1" newline bitfld.long 0x8 16. "SDD,Secure debug disabled. This bit is RO.On entry to Debug state:If entering in Secure state SDD is set to 0.If entering in Non-secure state SDD is set to the inverse of ExternalSecureInvasiveDebugEnabled[].In Debug state the value of the SDD bit.." "0,1" bitfld.long 0x8 15. "RES0_EDSCR_15_15,Reserved RES0." "0,1" newline bitfld.long 0x8 14. "HDE,Halting debug mode enable. Possible values of this bit are: 0 Halting debug mode disabled. 1 Halting debug mode enabled." "0,1" hexmask.long.byte 0x8 10.--13. 1. "RW,Exception level register-width status. Read-only. In Debug state each bit gives the current register width status of each EL: 1111 All exception levels are AArch64 state. 1110 EL0 is AArch32.." newline bitfld.long 0x8 8.--9. "EL,Exception level. Read-only. In Debug state this gives the current EL of the processor.In Non-debug state this field is RAZ." "0,1,2,3" bitfld.long 0x8 7. "A,System Error interrupt pending. Read-only. In Debug state indicates whether a SError interrupt is pending:If HCR_EL2.{AMO TGE} = {1 0} and in Non-secure EL0 or EL1 a virtual SError interrupt.Otherwise a physical SError interrupt. 0.." "0,1" newline bitfld.long 0x8 6. "ERR,Cumulative error flag. This field is RO. It is set to 1 following exceptions in Debug state and on any signaled overrun or underrun on the DTR or EDITR." "0,1" hexmask.long.byte 0x8 0.--5. 1. "STATUS,Debug status flags. This field is RO.The possible values of this field are: 000010 Processor is in Non-debug state. 000001 Processor is restarting [exiting Debug state]." line.long 0xC "APBADDR_DBG_CPU3_DBGDTRTX_EL0,Debug Data Transfer Register Transmit" hexmask.long 0xC 0.--31. 1. "DBGDTRTX_EL0,Return DTRTX. Reads of this register return the value in DTRTX and clear TXfull to 0.Writes of this register update the value in DTRTX and do not change TXfull." line.long 0x10 "APBADDR_DBG_CPU3_EDRCR,External Debug Reserve Control Register" hexmask.long 0x10 5.--31. 1. "RES0_EDRCR_31_5,Reserved RES0." bitfld.long 0x10 4. "CBRRQ,Allow imprecise entry to Debug state. The actions on writing to this bit are: 0 No action. 1 Allow imprecise entry to Debug state for example by canceling pending bus accesses." "0,1" newline bitfld.long 0x10 3. "CSPA,Clear Sticky Pipeline Advance. This bit is used to clear the EDSCR.PipeAdv bit to 0. The actions on writing to this bit are: 0 No action. 1 Clear the EDSCR.PipeAdv bit to 0." "0,1" bitfld.long 0x10 2. "CSE,Clear Sticky Error. Used to clear the EDSCR cumulative error bits to 0. The actions on writing to this bit are: 0 No action. 1 Clear the EDSCR.{TXU RXO ERR} bits and if the processor is in.." "0,1" newline bitfld.long 0x10 0.--1. "RES0_EDRCR_1_0,Reserved RES0." "0,1,2,3" line.long 0x14 "APBADDR_DBG_CPU3_EDACR,External Debug Auxiliary Control Register" hexmask.long 0x14 0.--31. 1. "RES0_EDACR_31_0,Reserved RES0" line.long 0x18 "APBADDR_DBG_CPU3_EDECCR,External Debug Exception Catch Control Register" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_EDECCR_31_8,Reserved RES0." hexmask.long.byte 0x18 4.--7. 1. "NSE,Coarse-grained Non-secure exception catch. Possible values of this field are: 0000 Exception catch debug event disabled for Non-secure exception levels. 0010 Exception catch debug event enabled.." newline hexmask.long.byte 0x18 0.--3. 1. "SE,Coarse-grained Secure exception catch. Possible values of this field are: 0000 Exception catch debug event disabled for Secure exception levels. 0010 Exception catch debug event enabled for.." group.long 0xA0++0xF line.long 0x0 "APBADDR_DBG_CPU3_EDPCSR_31_0,External Debug Program Counter Sample Register (low word)" hexmask.long 0x0 0.--31. 1. "EDPCSR_31_0,PC Sample low word EDPCSRlo. Bits [31:0] of the sampled instruction address value. Reading EDPCSRlo has the side-effect of updating EDCIDSR EDVIDSR and EDPCSRhi. However:If the processor is in Debug state or Sample-based profiling is.." line.long 0x4 "APBADDR_DBG_CPU3_EDCIDSR,External Debug Context ID Sample Register" hexmask.long 0x4 0.--31. 1. "CONTEXTIDR,The sampled value of CONTEXTIDR_EL1 captured on reading the low half of EDPCSR.If EL3 is implemented and using AArch32 then CONTEXTIDR is a Banked register and EDCIDSR samples the current Banked copy of CONTEXTIDR." line.long 0x8 "APBADDR_DBG_CPU3_EDVIDSR,External Debug Virtual Context Sample Register" bitfld.long 0x8 31. "NS,Non-secure state sample. Indicates the security state associated with the most recent EDPCSR sample." "0,1" bitfld.long 0x8 30. "E2,Exception level 2 status sample. Indicates whether the most recent EDPCSR sample was associated with EL2. If EDVIDSR.NS == 0 this bit is 0." "0,1" newline bitfld.long 0x8 29. "E3,Exception level 3 status sample. Indicates whether the most recent EDPCSR sample was associated with AArch64 EL3. If EDVIDSR.NS == 1 or the processor was in AArch32 state when EDPCSR was read this bit is 0." "0,1" bitfld.long 0x8 28. "HV,EDPCSR high half valid. Indicates whether bits [63:32] of the most recent EDPCSR sample are valid. If EDVIDSR.HV == 0 the value of EDPCSR[63:32] is RAZ." "0,1" newline hexmask.long.tbyte 0x8 8.--27. 1. "RES0_EDVIDSR_27_8,Reserved RES0." hexmask.long.byte 0x8 0.--7. 1. "VMID,VMID sample. The value of VTTBR_EL2.VMID associated with the most recent EDPCSR sample. If EDVIDSR.NS == 0 or EDVIDSR.E2 == 1 this field is RAZ." line.long 0xC "APBADDR_DBG_CPU3_EDPCSR_63_32,External Debug Program Counter Sample Register (high word)" hexmask.long 0xC 0.--31. 1. "EDPCSR_63_32,PC Sample high word EDPCSRhi. If EDVIDSR.HV == 0 then this field is RAZ otherwise bits [63:32] of the sampled PC." group.long 0x300++0x3 line.long 0x0 "APBADDR_DBG_CPU3_OSLAR_EL1,OS Lock Access Register" hexmask.long 0x0 1.--31. 1. "RES0_OSLAR_EL1_31_1,Reserved RES0." bitfld.long 0x0 0. "OSLK,On writes to OSLAR_EL1 bit[0] is copied to the OS lock.Use EDPRSR.OSLK to check the current status of the lock." "0,1" group.long 0x310++0x7 line.long 0x0 "APBADDR_DBG_CPU3_EDPRCR,External Debug Power/Reset Control Register" hexmask.long 0x0 4.--31. 1. "RES0_EDPRCR_31_4,Reserved RES0." bitfld.long 0x0 3. "COREPURQ,Core powerup request. Allows a debugger to request that the power controller power up the core enabling access to the debug register in the Core power domain. The actions on writing to this bit are: 0 No effect." "0,1" newline bitfld.long 0x0 2. "RES0_EDPRCR_2_2,Reserved RES0." "0,1" bitfld.long 0x0 1. "CWRR,Warm reset request. Write only bit that reads as zero. The actions on writing to this bit are: 0 No action. 1 Request Warm reset. The processor ignores writes to this bit if.." "0,1" newline bitfld.long 0x0 0. "CORENPDRQ,Core no powerdown request. Requests emulation of powerdown. Possible values of this bit are: 0 On a powerdown request the system powers down the Core power domain. 1 On a powerdown.." "0,1" line.long 0x4 "APBADDR_DBG_CPU3_EDPRSR,External Debug Processor Status Register" hexmask.long.tbyte 0x4 12.--31. 1. "RES0_EDPRSR_31_12,Reserved RES0." bitfld.long 0x4 11. "SDR,Sticky debug restart. Set to 1 when the processor exits Debug state and cleared to 0 following reads of EDPRSR. 0 The processor has not restarted since EDPRSR was last read. 1 The processor has.." "0,1" newline bitfld.long 0x4 10. "SPMAD,Sticky EPMAD error. Set to 1 if an access returns an error because AllowExternalPMUAccess[] == FALSE. 0 No accesses to the external performance monitors registers have failed since EDPRSR was last read. 1.." "0,1" bitfld.long 0x4 9. "EPMAD,External performance monitors access disable status. 0 External performance monitors access enabled. 1 External performance monitors access disabled. If external performance.." "0,1" newline bitfld.long 0x4 8. "SDAD,Sticky EDAD error. Set to 1 if an access returns an error because AllowExternalDebugAccess[] == FALSE. 0 No accesses to the external debug registers have failed since EDPRSR was last read. 1.." "0,1" bitfld.long 0x4 7. "EDAD,External debug access disable status. 0 External debug access enabled. 1 External debug access disabled. This bit is UNKNOWN on reads if either of EDPRSR.{DLK R} is 1 or.." "0,1" newline bitfld.long 0x4 6. "DLK,OS Double Lock status bit. 0 OSDLR_EL1.DLK == 0 or EDPRCR.CORENPDRQ == 1 or the processor is in Debug state. 1 OSDLR_EL1.DLK == 1 and EDPRCR.CORENPDRQ == 0 and the processor is in Non-debug.." "0,1" bitfld.long 0x4 5. "OSLK,OS lock status bit. A read of this bit returns the value of OSLSR_EL1.OSLK.This bit is UNKNOWN on reads if either of EDPRSR.{DLK R} is 1 or EDPRSR.PU is 0." "0,1" newline bitfld.long 0x4 4. "HALTED,Halted status bit. Possible values are: 0 EDSCR.STATUS is 0b000010 [processor in Non-debug state]. 1 EDSCR.STATUS is not 0b000010. This bit is UNKNOWN on reads if EDPRSR.PU.." "0,1" bitfld.long 0x4 3. "SR,Sticky core reset status bit. Possible values are: 0 The non-debug logic of the processor is not in reset state and has not been reset since the last time EDPRSR was read. 1 The non-debug logic.." "0,1" newline bitfld.long 0x4 2. "R,Core reset status bit. Possible values are: 0 The non-debug logic of the processor is not in reset state. 1 The non-debug logic of the processor is in reset state. This bit is.." "0,1" bitfld.long 0x4 1. "SPD,Sticky core power-down status bit.This bit is set to 1 on Cold reset to indicate the state of the debug registers has been lost. Since a Cold reset is required on powering up the processor this usually indicates the Core power domain has been.." "0,1" newline bitfld.long 0x4 0. "PU,Core power-up status bit. Indicates whether the Core power domain debug registers can be accessed: 0 Core is in a low-power or power-down state where the debug registers cannot be accessed. 1.." "0,1" group.long 0x400++0xB line.long 0x0 "APBADDR_DBG_CPU3_DBGBVR0_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR0_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR0_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU3_DBGBVR0_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR0_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR0_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU3_DBGBCR0_EL1,Debug Breakpoint Control Register 0" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR0_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR0_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR0_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x410++0xB line.long 0x0 "APBADDR_DBG_CPU3_DBGBVR1_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR1_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR1_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU3_DBGBVR1_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR1_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR1_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU3_DBGBCR1_EL1,Debug Breakpoint Control Register 1" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR1_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR1_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR1_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x420++0xB line.long 0x0 "APBADDR_DBG_CPU3_DBGBVR2_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR2_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR2_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU3_DBGBVR2_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR2_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR2_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU3_DBGBCR2_EL1,Debug Breakpoint Control Register 2" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR2_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR2_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR2_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x430++0xB line.long 0x0 "APBADDR_DBG_CPU3_DBGBVR3_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR3_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR3_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU3_DBGBVR3_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR3_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR3_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU3_DBGBCR3_EL1,Debug Breakpoint Control Register 3" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR3_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR3_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR3_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x440++0xB line.long 0x0 "APBADDR_DBG_CPU3_DBGBVR4_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR4_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR4_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU3_DBGBVR4_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR4_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR4_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU3_DBGBCR4_EL1,Debug Breakpoint Control Register 4" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR4_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR4_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR4_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x450++0xB line.long 0x0 "APBADDR_DBG_CPU3_DBGBVR5_EL1_31_0,Debug Breakpoint Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR5_EL1. Multiple uses of this register refer.." hexmask.long 0x0 0.--31. 1. "DBGBVR5_EL1_31_0,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x4 "APBADDR_DBG_CPU3_DBGBVR5_EL1_63_32,Debug Breakpoint Extended Value Registers. Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching. Forms breakpoint n together with control register DBGBCR5_EL1. Multiple uses of this.." hexmask.long 0x4 0.--31. 1. "DBGBVR5_EL1_63_32,Holds a virtual address or a VMID and/or a context ID for use in breakpoint matching" line.long 0x8 "APBADDR_DBG_CPU3_DBGBCR5_EL1,Debug Breakpoint Control Register 5" hexmask.long.byte 0x8 24.--31. 1. "RES0_DBGBCR5_EL1_31_24,Reserved RES0." hexmask.long.byte 0x8 20.--23. 1. "BT,Breakpoint Type. Possible values are: 0000 Unlinked instruction address match. 0001 Linked instruction address match. 0010 Unlinked context ID match." newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked address matching breakpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the HMC and PMC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and PMC fields." "0,1" hexmask.long.byte 0x8 9.--12. 1. "RES0_DBGBCR5_EL1_12_9,Reserved RES0." newline hexmask.long.byte 0x8 5.--8. 1. "BAS,Byte address select. Defines which half-words an address-matching breakpoint matches regardless of the instruction set and execution state. In an AArch64-only implementation this field is reserved RES1. Otherwise:BAS[2] and BAS[0] are.." bitfld.long 0x8 3.--4. "RES0_DBGBCR5_EL1_4_3,Reserved RES0." "0,1,2,3" newline bitfld.long 0x8 1.--2. "PMC,Privilege mode control. Determines the exception level or levels at which a breakpoint debug event for breakpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" bitfld.long 0x8 0. "E,Enable breakpoint DBGBVR<n>_EL1. Possible values are: 0 Breakpoint disabled. 1 Breakpoint enabled." "0,1" group.long 0x800++0xB line.long 0x0 "APBADDR_DBG_CPU3_DBGWVR0_EL1_31_0,Debug Watchpoint Value Register 0" hexmask.long 0x0 2.--31. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." bitfld.long 0x0 0.--1. "RES0_DBGWVR0_EL1_31_0_1_0,Reserved RES0." "0,1,2,3" line.long 0x4 "APBADDR_DBG_CPU3_DBGWVR0_EL1_63_32,Debug Watchpoint Extended Value Register 0" hexmask.long.word 0x4 17.--31. 1. "RESS,Reserved Sign extended. Hardwired to the value of the sign bit bit [48]. Hardware and software must treat this field as RES0 if bit[48] is 0 and as RES1 if bit[48] is 1." hexmask.long.tbyte 0x4 0.--16. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." line.long 0x8 "APBADDR_DBG_CPU3_DBGWCR0_EL1,Debug Watchpoint Control Register 0" bitfld.long 0x8 29.--31. "RES0_DBGWCR0_EL1_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "MASK,Address mask. Only objects up to 2GB can be watched using a single mask. 00000 No mask. 00001 Reserved. 00010 Reserved. Other values.." newline bitfld.long 0x8 21.--23. "RES0_DBGWCR0_EL1_23_21,Reserved RES0." "0,1,2,3,4,5,6,7" bitfld.long 0x8 20. "WT,Watchpoint type. Possible values are: 0 Unlinked data address match. 1 Linked data address match." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked data address watchpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the HMC and PAC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and PAC fields." "0,1" hexmask.long.byte 0x8 5.--12. 1. "BAS,Byte address select. Each bit of this field selects whether a byte from within the word or double-word addressed by DBGWVR<n>_EL1 is being watched.BASDescriptionxxxxxxx1Match byte at DBGWVR<n>_EL1xxxxxx1xMatch byte at.." newline bitfld.long 0x8 3.--4. "LSC,Load/store control. This field enables watchpoint matching on the type of access being made. Possible values of this field are: 01 Match instructions that load from a watchpointed address. 10.." "0,1,2,3" bitfld.long 0x8 1.--2. "PAC,Privilege of access control. Determines the exception level or levels at which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" newline bitfld.long 0x8 0. "E,Enable watchpoint n. Possible values are: 0 Watchpoint disabled. 1 Watchpoint enabled." "0,1" group.long 0x810++0xB line.long 0x0 "APBADDR_DBG_CPU3_DBGWVR1_EL1_31_0,Debug Watchpoint Value Register 1" hexmask.long 0x0 2.--31. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." bitfld.long 0x0 0.--1. "RES0_DBGWVR1_EL1_31_0_1_0,Reserved RES0." "0,1,2,3" line.long 0x4 "APBADDR_DBG_CPU3_DBGWVR1_EL1_63_32,Debug Watchpoint Extended Value Register 1" hexmask.long.word 0x4 17.--31. 1. "RESS,Reserved Sign extended. Hardwired to the value of the sign bit bit [48]. Hardware and software must treat this field as RES0 if bit[48] is 0 and as RES1 if bit[48] is 1." hexmask.long.tbyte 0x4 0.--16. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." line.long 0x8 "APBADDR_DBG_CPU3_DBGWCR1_EL1,Debug Watchpoint Control Register 1" bitfld.long 0x8 29.--31. "RES0_DBGWCR1_EL1_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "MASK,Address mask. Only objects up to 2GB can be watched using a single mask. 00000 No mask. 00001 Reserved. 00010 Reserved. Other values.." newline bitfld.long 0x8 21.--23. "RES0_DBGWCR1_EL1_23_21,Reserved RES0." "0,1,2,3,4,5,6,7" bitfld.long 0x8 20. "WT,Watchpoint type. Possible values are: 0 Unlinked data address match. 1 Linked data address match." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked data address watchpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the HMC and PAC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and PAC fields." "0,1" hexmask.long.byte 0x8 5.--12. 1. "BAS,Byte address select. Each bit of this field selects whether a byte from within the word or double-word addressed by DBGWVR<n>_EL1 is being watched.BASDescriptionxxxxxxx1Match byte at DBGWVR<n>_EL1xxxxxx1xMatch byte at.." newline bitfld.long 0x8 3.--4. "LSC,Load/store control. This field enables watchpoint matching on the type of access being made. Possible values of this field are: 01 Match instructions that load from a watchpointed address. 10.." "0,1,2,3" bitfld.long 0x8 1.--2. "PAC,Privilege of access control. Determines the exception level or levels at which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" newline bitfld.long 0x8 0. "E,Enable watchpoint n. Possible values are: 0 Watchpoint disabled. 1 Watchpoint enabled." "0,1" group.long 0x820++0xB line.long 0x0 "APBADDR_DBG_CPU3_DBGWVR2_EL1_31_0,Debug Watchpoint Value Register 2" hexmask.long 0x0 2.--31. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." bitfld.long 0x0 0.--1. "RES0_DBGWVR2_EL1_31_0_1_0,Reserved RES0." "0,1,2,3" line.long 0x4 "APBADDR_DBG_CPU3_DBGWVR2_EL1_63_32,Debug Watchpoint Extended Value Register 2" hexmask.long.word 0x4 17.--31. 1. "RESS,Reserved Sign extended. Hardwired to the value of the sign bit bit [48]. Hardware and software must treat this field as RES0 if bit[48] is 0 and as RES1 if bit[48] is 1." hexmask.long.tbyte 0x4 0.--16. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." line.long 0x8 "APBADDR_DBG_CPU3_DBGWCR2_EL1,Debug Watchpoint Control Register 2" bitfld.long 0x8 29.--31. "RES0_DBGWCR2_EL1_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "MASK,Address mask. Only objects up to 2GB can be watched using a single mask. 00000 No mask. 00001 Reserved. 00010 Reserved. Other values.." newline bitfld.long 0x8 21.--23. "RES0_DBGWCR2_EL1_23_21,Reserved RES0." "0,1,2,3,4,5,6,7" bitfld.long 0x8 20. "WT,Watchpoint type. Possible values are: 0 Unlinked data address match. 1 Linked data address match." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked data address watchpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the HMC and PAC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and PAC fields." "0,1" hexmask.long.byte 0x8 5.--12. 1. "BAS,Byte address select. Each bit of this field selects whether a byte from within the word or double-word addressed by DBGWVR<n>_EL1 is being watched.BASDescriptionxxxxxxx1Match byte at DBGWVR<n>_EL1xxxxxx1xMatch byte at.." newline bitfld.long 0x8 3.--4. "LSC,Load/store control. This field enables watchpoint matching on the type of access being made. Possible values of this field are: 01 Match instructions that load from a watchpointed address. 10.." "0,1,2,3" bitfld.long 0x8 1.--2. "PAC,Privilege of access control. Determines the exception level or levels at which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" newline bitfld.long 0x8 0. "E,Enable watchpoint n. Possible values are: 0 Watchpoint disabled. 1 Watchpoint enabled." "0,1" group.long 0x830++0xB line.long 0x0 "APBADDR_DBG_CPU3_DBGWVR3_EL1_31_0,Debug Watchpoint Value Register 3" hexmask.long 0x0 2.--31. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." bitfld.long 0x0 0.--1. "RES0_DBGWVR3_EL1_31_0_1_0,Reserved RES0." "0,1,2,3" line.long 0x4 "APBADDR_DBG_CPU3_DBGWVR3_EL1_63_32,Debug Watchpoint Extended Value Register 3" hexmask.long.word 0x4 17.--31. 1. "RESS,Reserved Sign extended. Hardwired to the value of the sign bit bit [48]. Hardware and software must treat this field as RES0 if bit[48] is 0 and as RES1 if bit[48] is 1." hexmask.long.tbyte 0x4 0.--16. 1. "VA,Bits[48:2] of the address value for comparison.ARM deprecates setting DBGWVR<n>_EL1[2] == 1." line.long 0x8 "APBADDR_DBG_CPU3_DBGWCR3_EL1,Debug Watchpoint Control Register 3" bitfld.long 0x8 29.--31. "RES0_DBGWCR3_EL1_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "MASK,Address mask. Only objects up to 2GB can be watched using a single mask. 00000 No mask. 00001 Reserved. 00010 Reserved. Other values.." newline bitfld.long 0x8 21.--23. "RES0_DBGWCR3_EL1_23_21,Reserved RES0." "0,1,2,3,4,5,6,7" bitfld.long 0x8 20. "WT,Watchpoint type. Possible values are: 0 Unlinked data address match. 1 Linked data address match." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "LBN,Linked breakpoint number. For Linked data address watchpoints this specifies the index of the Context-matching breakpoint linked to." bitfld.long 0x8 14.--15. "SSC,Security state control. Determines the security states under which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the HMC and PAC fields." "0,1,2,3" newline bitfld.long 0x8 13. "HMC,Higher mode control. Determines the debug perspective for deciding when a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and PAC fields." "0,1" hexmask.long.byte 0x8 5.--12. 1. "BAS,Byte address select. Each bit of this field selects whether a byte from within the word or double-word addressed by DBGWVR<n>_EL1 is being watched.BASDescriptionxxxxxxx1Match byte at DBGWVR<n>_EL1xxxxxx1xMatch byte at.." newline bitfld.long 0x8 3.--4. "LSC,Load/store control. This field enables watchpoint matching on the type of access being made. Possible values of this field are: 01 Match instructions that load from a watchpointed address. 10.." "0,1,2,3" bitfld.long 0x8 1.--2. "PAC,Privilege of access control. Determines the exception level or levels at which a watchpoint debug event for watchpoint n is generated. This field must be interpreted along with the SSC and HMC fields." "0,1,2,3" newline bitfld.long 0x8 0. "E,Enable watchpoint n. Possible values are: 0 Watchpoint disabled. 1 Watchpoint enabled." "0,1" group.long 0xD00++0x3 line.long 0x0 "APBADDR_DBG_CPU3_MIDR_EL1,Main ID Register" hexmask.long.byte 0x0 24.--31. 1. "IMPLEMENTER,The Implementer code. This field must hold an implementer code that has been assigned by ARM." hexmask.long.byte 0x0 20.--23. 1. "VARIANT,An IMPLEMENTATION DEFINED variant number. Typically this field is used to distinguish between different product variants or major revisions of a product." newline hexmask.long.byte 0x0 16.--19. 1. "ARCHITECTURE," hexmask.long.word 0x0 4.--15. 1. "PARTNUM,An IMPLEMENTATION DEFINED primary part number for the device. On processors implemented by ARM if the top four bits of the primary part number are 0x0 or 0x7 the variant and architecture are encoded differently" newline hexmask.long.byte 0x0 0.--3. 1. "REVISION,An IMPLEMENTATION DEFINED revision number for the device" group.long 0xD20++0x3F line.long 0x0 "APBADDR_DBG_CPU3_ID_AA64PFR0_EL1_31_0,Processor Feature Register 0 (low word)" hexmask.long.byte 0x0 28.--31. 1. "RES0_ID_AA64PFR0_EL1_31_0_31_28,Reserved RES0." hexmask.long.byte 0x0 24.--27. 1. "GIC,GIC system register interface. Permitted values are: 0000 No GIC system registers are supported. 0001 GICv3 system registers are supported. All other values are reserved." newline hexmask.long.byte 0x0 20.--23. 1. "ADVSIMD,Advanced SIMD. Permitted values are: 0000 Advanced SIMD is implemented. 1111 Advanced SIMD is not implemented. All other values are reserved." hexmask.long.byte 0x0 16.--19. 1. "FP,Floating-point. Permitted values are: 0000 Floating-point is implemented. 1111 Floating-point is not implemented. All other values are reserved." newline hexmask.long.byte 0x0 12.--15. 1. "EL3,EL3 exception level handling. Permitted values are: 0000 EL3 is not implemented. 0001 EL3 can be executed in AArch64 state only. 0010 EL3 can be executed.." hexmask.long.byte 0x0 8.--11. 1. "EL2,EL2 exception level handling. Permitted values are: 0000 EL2 is not implemented. 0001 EL2 can be executed in AArch64 state only. 0010 EL2 can be executed.." newline hexmask.long.byte 0x0 4.--7. 1. "EL1,EL1 exception level handling. Permitted values are: 0000 EL1 is not implemented. 0001 EL1 can be executed in AArch64 state only. 0010 EL1 can be executed.." hexmask.long.byte 0x0 0.--3. 1. "EL0,EL0 exception level handling. Permitted values are: 0000 EL0 is not implemented. 0001 EL0 can be executed in AArch64 state only. 0010 EL0 can be executed.." line.long 0x4 "APBADDR_DBG_CPU3_ID_AA64PFR0_EL1_63_32,Processor Feature Register 0 (high word)" hexmask.long 0x4 0.--31. 1. "RES0_ID_AA64PFR0_EL1_63_32_31_0,Reserved RES0." line.long 0x8 "APBADDR_DBG_CPU3_ID_AA64DFR0_EL1_31_0,Debug Feature Register 0 (low word)" hexmask.long.byte 0x8 28.--31. 1. "CTX_CMPS,Number of breakpoints that are context-aware minus 1. These are the highest numbered breakpoints." hexmask.long.byte 0x8 24.--27. 1. "RES0_ID_AA64DFR0_EL1_31_0_27_24,Reserved RES0." newline hexmask.long.byte 0x8 20.--23. 1. "WRPS,Number of watchpoints minus 1. The value of 0b0000 is reserved." hexmask.long.byte 0x8 16.--19. 1. "RES0_ID_AA64DFR0_EL1_31_0_19_16,Reserved RES0." newline hexmask.long.byte 0x8 12.--15. 1. "BRPS,Number of breakpoints minus 1. The value of 0b0000 is reserved." hexmask.long.byte 0x8 8.--11. 1. "PMUVER,Performance Monitors extension version. Indicates whether system register interface to Performance Monitors extension is implemented. Permitted values are: 0000 Performance Monitors extension system registers not implemented." newline hexmask.long.byte 0x8 4.--7. 1. "TRACEVER,Trace extension. Indicates whether system register interface to Trace extension is implemented. Permitted values are: 0000 Trace extension system registers not implemented. 0001 Trace.." hexmask.long.byte 0x8 0.--3. 1. "DEBUGVER,Debug architecture version. Indicates presence of v8-A debug architecture. 0110 v8-A debug architecture. All other values are reserved." line.long 0xC "APBADDR_DBG_CPU3_ID_AA64DFR0_EL1_63_32,Debug Feature Register 0 (high word)" hexmask.long 0xC 0.--31. 1. "RES0_ID_AA64DFR0_EL1_63_32_31_0,Reserved RES0." line.long 0x10 "APBADDR_DBG_CPU3_ID_AA64ISAR0_EL1_31_0,Instruction Set Attribute Register 0 (low word)" hexmask.long.word 0x10 20.--31. 1. "RES0_ID_AA64ISAR0_EL1_31_0_31_20,Reserved RES0." hexmask.long.byte 0x10 16.--19. 1. "CRC32,CRC32 instructions in AArch64. Possible values of this field are: 0000 No CRC32 instructions implemented. 0001 CRC32B CRC32H CRC32W CRC32X CRC32CB CRC32CH CRC32CW and CRC32CX.." newline hexmask.long.byte 0x10 12.--15. 1. "SHA2,SHA2 instructions in AArch64. Possible values of this field are: 0000 No SHA2 instructions implemented. 0001 SHA256H SHA256H2 SHA256SU0 and SHA256SU1 instructions implemented." hexmask.long.byte 0x10 8.--11. 1. "SHA1,SHA1 instructions in AArch64. Possible values of this field are: 0000 No SHA1 instructions implemented. 0001 SHA1C SHA1P SHA1M SHA1H SHA1SU0 and SHA1SU1 instructions implemented." newline hexmask.long.byte 0x10 4.--7. 1. "AES,AES instructions in AArch64. Possible values of this field are: 0000 No AES instructions implemented. 0001 AESE AESD AESMC and AESIMC instructions implemented. 0010.." hexmask.long.byte 0x10 0.--3. 1. "RES0_ID_AA64ISAR0_EL1_31_0_3_0,Reserved RES0." line.long 0x14 "APBADDR_DBG_CPU3_ID_AA64ISAR0_EL1_63_32,Instruction Set Attribute Register 0 (high word)" hexmask.long 0x14 0.--31. 1. "RES0_ID_AA64ISAR0_EL1_63_32_31_0,Reserved RES0." line.long 0x18 "APBADDR_DBG_CPU3_ID_AA64MMFR0_EL1_31_0,Memory Model Feature Register 0 (low word)" hexmask.long.byte 0x18 28.--31. 1. "TGRAN4,Support for 4 Kbyte memory translation granule size. Permitted values are: 0000 4 KB granule supported. 1111 4 KB granule not supported. All other values are reserved." hexmask.long.byte 0x18 24.--27. 1. "TGRAN64,Support for 64 Kbyte memory translation granule size. Permitted values are: 0000 64 KB granule supported. 1111 64 KB granule not supported. All other values are reserved." newline hexmask.long.byte 0x18 20.--23. 1. "TGRAN16,Support for 16 Kbyte memory translation granule size. Permitted values are: 0000 16 KB granule not supported. 0001 16 KB granule supported. All other values are reserved." hexmask.long.byte 0x18 16.--19. 1. "BIGENDEL0,Mixed-endian support at EL0 only. Permitted values are: 0000 No mixed-endian support at EL0. The SCTLR_EL1.E0E bit has a fixed value. 0001 Mixed-endian support at EL0. The SCTLR_EL1.E0E.." newline hexmask.long.byte 0x18 12.--15. 1. "SNSMEM,Secure versus Non-secure Memory distinction. Permitted values are: 0000 Does not support a distinction between Secure and Non-secure Memory. 0001 Does support a distinction between Secure.." hexmask.long.byte 0x18 8.--11. 1. "BIGEND,Mixed-endian configuration support. Permitted values are: 0000 No mixed-endian support. The SCTLR_ELx.EE bits have a fixed value. See the BigEndEL0 field bits[19:16] for whether EL0 supports mixed-endian." newline hexmask.long.byte 0x18 4.--7. 1. "ASIDBITS,Number of ASID bits. Permitted values are: 0000 8 bits. 0010 16 bits. All other values are reserved." hexmask.long.byte 0x18 0.--3. 1. "PARANGE,Physical Address range supported. Permitted values are: 0000 32 bits 4 GB. 0001 36 bits 64 GB. 0010 40 bits 1 TB. 0011.." line.long 0x1C "APBADDR_DBG_CPU3_ID_AA64MMFR0_EL1_63_32,Memory Model Feature Register 0 (high word)" hexmask.long 0x1C 0.--31. 1. "RES0_ID_AA64MMFR0_EL1_63_32_31_0,Reserved RES0." line.long 0x20 "APBADDR_DBG_CPU3_ID_AA64PFR1_EL1_31_0,Processor Feature Register 1 (low word)" hexmask.long 0x20 0.--31. 1. "RES0_ID_AA64PFR1_EL1_31_0_31_0,Reserved RES0." line.long 0x24 "APBADDR_DBG_CPU3_ID_AA64PFR1_EL1_63_32,Processor Feature Register 1 (high word)" hexmask.long 0x24 0.--31. 1. "RES0_ID_AA64PFR1_EL1_63_32_31_0,Reserved RES0." line.long 0x28 "APBADDR_DBG_CPU3_ID_AA64DFR1_EL1_31_0,Auxiliary Feature Register 1 (low word)" hexmask.long 0x28 0.--31. 1. "RES0_ID_AA64DFR1_EL1_31_0_31_0,Reserved RES0." line.long 0x2C "APBADDR_DBG_CPU3_ID_AA64DFR1_EL1_63_32,Auxiliary Feature Register 1 (high word)" hexmask.long 0x2C 0.--31. 1. "RES0_ID_AA64DFR1_EL1_63_32_31_0,Reserved RES0." line.long 0x30 "APBADDR_DBG_CPU3_ID_AA64ISAR1_EL1_31_0,Instruction Set Attribute Register 1 (low word)" hexmask.long 0x30 0.--31. 1. "RES0_ID_AA64ISAR1_EL1_31_0_31_0,Reserved RES0." line.long 0x34 "APBADDR_DBG_CPU3_ID_AA64ISAR1_EL1_63_32,Instruction Set Attribute Register 1 (high word)" hexmask.long 0x34 0.--31. 1. "RES0_ID_AA64ISAR1_EL1_63_32_31_0,Reserved RES0." line.long 0x38 "APBADDR_DBG_CPU3_ID_AA64MMFR1_EL1_31_0,Memory Model Feature Register 1 (low word)" hexmask.long 0x38 0.--31. 1. "RES0_ID_AA64MMFR1_EL1_31_0_31_0,Reserved RES0." line.long 0x3C "APBADDR_DBG_CPU3_ID_AA64MMFR1_EL1_63_32,Memory Model Feature Register 1 (high word)" hexmask.long 0x3C 0.--31. 1. "RES0_ID_AA64MMFR1_EL1_63_32_31_0,Reserved RES0." group.long 0xF00++0x3 line.long 0x0 "APBADDR_DBG_CPU3_EDITCTRL,External Debug Integration mode Control Register" hexmask.long 0x0 1.--31. 1. "RES0_EDITCTRL_31_1,Reserved RES0." bitfld.long 0x0 0. "IME,Integration mode enable. When IME == 1 the device reverts to an integration mode to enable integration testing or topology detection. The integration mode behavior is IMPLEMENTATION DEFINED. 0 Normal operation." "0,1" group.long 0xFA0++0x33 line.long 0x0 "APBADDR_DBG_CPU3_DBGCLAIMSET_EL1,Debug Claim Tag Set Register" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_DBGCLAIMSET_EL1_31_8,Reserved RAZ/SBZ. Software can rely on these bits reading as zero and must use a should-be-zero policy on writes. Implementations must ignore writes." hexmask.long.byte 0x0 0.--7. 1. "CLAIM,Claim set bits. RAO.Writing a 1 to one of these bits sets the corresponding CLAIM bit to 1. This is an indirect write to the CLAIM bits.A single write operation can set multiple bits to 1. Writing 0 to one of these bits has no effect." line.long 0x4 "APBADDR_DBG_CPU3_DBGCLAIMCLR_EL1,Debug Claim Tag Clear Register" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_DBGCLAIMCLR_EL1_31_8,Reserved RAZ/SBZ. Software can rely on these bits reading as zero and must use a should-be-zero policy on writes. Implementations must ignore writes." hexmask.long.byte 0x4 0.--7. 1. "CLAIM,Claim clear bits. Reading this field returns the current value of the CLAIM bits.Writing a 1 to one of these bits clears the corresponding CLAIM bit to 0. This is an indirect write to the CLAIM bits.A single write operation can clear multiple bits.." line.long 0x8 "APBADDR_DBG_CPU3_EDDEVAFF0,External Debug Device Affinity Register 0" hexmask.long 0x8 0.--31. 1. "EDDEVAFF0,MPIDR_EL1 low half. Read-only copy of the low half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0xC "APBADDR_DBG_CPU3_EDDEVAFF1,External Debug Device Affinity Register 1" hexmask.long 0xC 0.--31. 1. "EDDEVAFF1,MPIDR_EL1 high half. Read-only copy of the high half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x10 "APBADDR_DBG_CPU3_EDLAR,External Debug Lock Access Register" hexmask.long 0x10 0.--31. 1. "KEY,Lock Access control. Writing the key value 0xC5ACCE55 to this field unlocks the lock enabling write accesses to this component's registers through a memory-mapped interface.Writing any other value to this register locks the lock disabling write.." line.long 0x14 "APBADDR_DBG_CPU3_EDLSR,External Debug Lock Status Register" hexmask.long 0x14 3.--31. 1. "RES0_EDLSR_31_3,Reserved RES0." bitfld.long 0x14 2. "NTT,Not thirty-two bit access required. RAZ." "0,1" newline bitfld.long 0x14 1. "SLK,Software lock status for this component. For an access to LSR that is not a memory-mapped access or when the software lock is not implemented this field is RES0.For memory-mapped accesses when the software lock is implemented possible values of.." "0,1" bitfld.long 0x14 0. "SLI,Software lock implemented. For an access to LSR that is not a memory-mapped access this field is RAZ. For memory-mapped accesses the value of this field is IMPLEMENTATION DEFINED. Permitted values are: 0 Software lock not.." "0,1" line.long 0x18 "APBADDR_DBG_CPU3_DBGAUTHSTATUS_EL1,Debug Authentication Status register" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_DBGAUTHSTATUS_EL1_31_8,Reserved RES0." bitfld.long 0x18 6.--7. "SNID,Secure non-invasive debug. Possible values of this field are: 00 Not implemented. EL3 is not implemented and the processor is Non-secure. 10 Implemented and disabled." "0,1,2,3" newline bitfld.long 0x18 4.--5. "SID,Secure invasive debug. Possible values of this field are: 00 Not implemented. EL3 is not implemented and the processor is Non-secure. 10 Implemented and disabled." "0,1,2,3" bitfld.long 0x18 2.--3. "NSNID,Non-secure non-invasive debug. Possible values of this field are: 00 Not implemented. EL3 is not implemented and the processor is Secure. 10 Implemented and disabled." "0,1,2,3" newline bitfld.long 0x18 0.--1. "NSID,Non-secure invasive debug. Possible values of this field are: 00 Not implemented. EL3 is not implemented and the processor is Secure. 10 Implemented and disabled." "0,1,2,3" line.long 0x1C "APBADDR_DBG_CPU3_EDDEVARCH,External Debug Device Architecture Register" hexmask.long.word 0x1C 21.--31. 1. "ARCHITECT,Defines the architecture of the component. For debug this is ARM Limited.Bits [31:28] are the JEP 106 continuation code 0x4.Bits [27:21] are the JEP 106 ID code 0x3B." bitfld.long 0x1C 20. "PRESENT,When set to 1 indicates that the DEVARCH is present.This field is 1 in v8-A." "0,1" newline hexmask.long.byte 0x1C 16.--19. 1. "REVISION,Defines the architecture revision. For architectures defined by ARM this is the minor revision.For debug the revision defined by v8-A is 0x0.All other values are reserved." hexmask.long.word 0x1C 0.--15. 1. "ARCHID,Defines this part to be a v8-A debug component. For architectures defined by ARM this is further subdivided.For debug:Bits [15:12] are the architecture version 0x6.Bits [11:0] are the architecture part number 0xA15.This corresponds to debug.." line.long 0x20 "APBADDR_DBG_CPU3_EDDEVID2,External Debug Device ID Register 2" hexmask.long 0x20 0.--31. 1. "RES0_EDDEVID2_31_0,Reserved RES0." line.long 0x24 "APBADDR_DBG_CPU3_EDDEVID1,External Debug Device ID Register 1" hexmask.long 0x24 4.--31. 1. "RES0_EDDEVID1_31_4,Reserved RES0." hexmask.long.byte 0x24 0.--3. 1. "PCSROFFSET,This field indicates the offset applied to PC samples returned by reads of EDPCSR. Permitted values of this field in v8-A are: 0000 EDPCSR not implemented. 0010 EDPCSR implemented and.." line.long 0x28 "APBADDR_DBG_CPU3_EDDEVID,External Debug Device ID Register 0" hexmask.long.byte 0x28 28.--31. 1. "RES0_EDDEVID_31_28,Reserved RES0." hexmask.long.byte 0x28 24.--27. 1. "AUXREGS,Indicates support for Auxiliary registers. Permitted values for this field are: 0000 None supported. 0001 Support for External Debug Auxiliary Control Register EDACR. All.." newline hexmask.long.tbyte 0x28 4.--23. 1. "RES0_EDDEVID_23_4,Reserved RES0." hexmask.long.byte 0x28 0.--3. 1. "PCSAMPLE,Indicates the level of Sample-based profiling support using external debug registers 40 through 43. Permitted values of this field in v8-A are: 0000 Architecture-defined form of Sample-based profiling not implemented." line.long 0x2C "APBADDR_DBG_CPU3_EDDEVTYPE,External Debug Device Type Register" hexmask.long.tbyte 0x2C 8.--31. 1. "RES0_EDDEVTYPE_31_8,Reserved RES0." hexmask.long.byte 0x2C 4.--7. 1. "SUB,Subtype. Must read as 0x1 to indicate this is a processor component." newline hexmask.long.byte 0x2C 0.--3. 1. "MAJOR,Major type. Must read as 0x5 to indicate this is a debug logic component." line.long 0x30 "APBADDR_DBG_CPU3_EDPIDR4,External Debug Peripheral Identification Register 4" hexmask.long.tbyte 0x30 8.--31. 1. "RES0_EDPIDR4_31_8,Reserved RES0." hexmask.long.byte 0x30 4.--7. 1. "SIZE,Size of the component. RAZ. Log2 of the number of 4KB pages from the start of the component to the end of the component ID registers." newline hexmask.long.byte 0x30 0.--3. 1. "DES_2,Designer JEP106 continuation code least significant nibble. For ARM Limited this field is 0b0100." group.long 0xFE0++0x1F line.long 0x0 "APBADDR_DBG_CPU3_EDPIDR0,External Debug Peripheral Identification Register 0" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_EDPIDR0_31_8,Reserved RES0." hexmask.long.byte 0x0 0.--7. 1. "PART_0,Part number least significant byte." line.long 0x4 "APBADDR_DBG_CPU3_EDPIDR1,External Debug Peripheral Identification Register 1" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_EDPIDR1_31_8,Reserved RES0." hexmask.long.byte 0x4 4.--7. 1. "DES_0,Designer least significant nibble of JEP106 ID code. For ARM Limited this field is 0b1011." newline hexmask.long.byte 0x4 0.--3. 1. "PART_1,Part number most significant nibble." line.long 0x8 "APBADDR_DBG_CPU3_EDPIDR2,External Debug Peripheral Identification Register 2" hexmask.long.tbyte 0x8 8.--31. 1. "RES0_EDPIDR2_31_8,Reserved RES0." hexmask.long.byte 0x8 4.--7. 1. "REVISION,Part major revision. Parts can also use this field to extend Part number to 16-bits." newline bitfld.long 0x8 3. "JEDEC,RAO. Indicates a JEP106 identity code is used." "0,1" bitfld.long 0x8 0.--2. "DES_1,Designer most significant bits of JEP106 ID code. For ARM Limited this field is 0b011." "0,1,2,3,4,5,6,7" line.long 0xC "APBADDR_DBG_CPU3_EDPIDR3,External Debug Peripheral Identification Register 3" hexmask.long.tbyte 0xC 8.--31. 1. "RES0_EDPIDR3_31_8,Reserved RES0." hexmask.long.byte 0xC 4.--7. 1. "REVAND,Part minor revision. Parts using EDPIDR2.REVISION as an extension to the Part number must use this field as a major revision number." newline hexmask.long.byte 0xC 0.--3. 1. "CMOD,Customer modified. Indicates someone other than the Designer has modified the component." line.long 0x10 "APBADDR_DBG_CPU3_EDCIDR0,External Debug Component Identification Register 0" hexmask.long.tbyte 0x10 8.--31. 1. "RES0_EDCIDR0_31_8,Reserved RES0." hexmask.long.byte 0x10 0.--7. 1. "PRMBL_0,Preamble. Must read as 0x0D." line.long 0x14 "APBADDR_DBG_CPU3_EDCIDR1,External Debug Component Identification Register 1" hexmask.long.tbyte 0x14 8.--31. 1. "RES0_EDCIDR1_31_8,Reserved RES0." hexmask.long.byte 0x14 4.--7. 1. "CLASS,Component class. Reads as 0x9 debug component." newline hexmask.long.byte 0x14 0.--3. 1. "PRMBL_1,Preamble. RAZ." line.long 0x18 "APBADDR_DBG_CPU3_EDCIDR2,External Debug Component Identification Register 2" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_EDCIDR2_31_8,Reserved RES0." hexmask.long.byte 0x18 0.--7. 1. "PRMBL_2,Preamble. Must read as 0x05." line.long 0x1C "APBADDR_DBG_CPU3_EDCIDR3,External Debug Component Identification Register 3" hexmask.long.tbyte 0x1C 8.--31. 1. "RES0_EDCIDR3_31_8,Reserved RES0." hexmask.long.byte 0x1C 0.--7. 1. "PRMBL_3,Preamble. Must read as 0xB1." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "A53SS0_CORE3_PMU (A53SS0_CORE3_PMU)" base ad:0x730320000 group.long 0x0++0x3 line.long 0x0 "APBADDR_PMU_CPU3_PMEVCNTR0_EL0,Performance Monitors Event Count Register 0" hexmask.long 0x0 0.--31. 1. "PMEVCNTR0_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x8++0x3 line.long 0x0 "APBADDR_PMU_CPU3_PMEVCNTR1_EL0,Performance Monitors Event Count Register 1" hexmask.long 0x0 0.--31. 1. "PMEVCNTR1_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x10++0x3 line.long 0x0 "APBADDR_PMU_CPU3_PMEVCNTR2_EL0,Performance Monitors Event Count Register 2" hexmask.long 0x0 0.--31. 1. "PMEVCNTR2_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x18++0x3 line.long 0x0 "APBADDR_PMU_CPU3_PMEVCNTR3_EL0,Performance Monitors Event Count Register 3" hexmask.long 0x0 0.--31. 1. "PMEVCNTR3_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x20++0x3 line.long 0x0 "APBADDR_PMU_CPU3_PMEVCNTR4_EL0,Performance Monitors Event Count Register 4" hexmask.long 0x0 0.--31. 1. "PMEVCNTR4_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0x28++0x3 line.long 0x0 "APBADDR_PMU_CPU3_PMEVCNTR5_EL0,Performance Monitors Event Count Register 5" hexmask.long 0x0 0.--31. 1. "PMEVCNTR5_EL0,Event counter n. Value of event counter n where n is the number of this register and is a number from 0 to 30." group.long 0xF8++0x7 line.long 0x0 "APBADDR_PMU_CPU3_PMCCNTR_EL0_31_0,Performance Monitors Cycle Counter (low word)" hexmask.long 0x0 0.--31. 1. "CCNT,Cycle count. Depending on the values of PMCR_EL0.{LC D} the cycle count increments in one of the following ways:Every processor clock cycle.Every 64th processor clock cycle.The cycle count can be reset to zero by writing 1 to PMCR_EL0.C." line.long 0x4 "APBADDR_PMU_CPU3_PMCCNTR_EL0_63_32,Performance Monitors Cycle Counter (high word)" hexmask.long 0x4 0.--31. 1. "CCNT,Cycle count. Depending on the values of PMCR_EL0.{LC D} the cycle count increments in one of the following ways:Every processor clock cycle.Every 64th processor clock cycle.The cycle count can be reset to zero by writing 1 to PMCR_EL0.C." group.long 0x400++0x17 line.long 0x0 "APBADDR_PMU_CPU3_PMEVTYPER0_EL0,Performance Monitors Event Type Register 0" bitfld.long 0x0 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x0 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x0 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x0 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x0 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x0 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x0 10.--25. 1. "RES0_PMEVTYPER0_EL0_25_10,Reserved RES0." hexmask.long.word 0x0 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0x4 "APBADDR_PMU_CPU3_PMEVTYPER1_EL0,Performance Monitors Event Type Register 1" bitfld.long 0x4 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x4 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x4 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x4 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x4 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x4 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x4 10.--25. 1. "RES0_PMEVTYPER1_EL0_25_10,Reserved RES0." hexmask.long.word 0x4 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0x8 "APBADDR_PMU_CPU3_PMEVTYPER2_EL0,Performance Monitors Event Type Register 2" bitfld.long 0x8 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x8 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x8 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x8 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x8 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x8 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x8 10.--25. 1. "RES0_PMEVTYPER2_EL0_25_10,Reserved RES0." hexmask.long.word 0x8 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0xC "APBADDR_PMU_CPU3_PMEVTYPER3_EL0,Performance Monitors Event Type Register 3" bitfld.long 0xC 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0xC 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0xC 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0xC 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0xC 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0xC 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0xC 10.--25. 1. "RES0_PMEVTYPER3_EL0_25_10,Reserved RES0." hexmask.long.word 0xC 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0x10 "APBADDR_PMU_CPU3_PMEVTYPER4_EL0,Performance Monitors Event Type Register 4" bitfld.long 0x10 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x10 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x10 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x10 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x10 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x10 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x10 10.--25. 1. "RES0_PMEVTYPER4_EL0_25_10,Reserved RES0." hexmask.long.word 0x10 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." line.long 0x14 "APBADDR_PMU_CPU3_PMEVTYPER5_EL0,Performance Monitors Event Type Register 5" bitfld.long 0x14 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count events in EL1. 1.." "0,1" bitfld.long 0x14 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count events in EL0. 1.." "0,1" newline bitfld.long 0x14 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Non-secure EL1 are counted.Otherwise events in Non-secure EL1 are.." "0,1" bitfld.long 0x14 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U events in Non-secure EL0 are counted.Otherwise events in Non-secure EL0 are.." "0,1" newline bitfld.long 0x14 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count events in EL2. 1 Count events in EL2." "0,1" bitfld.long 0x14 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P events in Secure EL3 are counted.Otherwise events in Secure EL3.." "0,1" newline hexmask.long.word 0x14 10.--25. 1. "RES0_PMEVTYPER5_EL0_25_10,Reserved RES0." hexmask.long.word 0x14 0.--9. 1. "EVTCOUNT,Event to count. The event number of the event that is counted by event counter PMEVCNTR<n>_EL0.Software must program this field with an event defined by the processor or a common event defined by the architecture.If evtCount is programmed to.." group.long 0x47C++0x3 line.long 0x0 "APBADDR_PMU_CPU3_PMCCFILTR_EL0,Performance Monitors Cycle Counter Filter Register" bitfld.long 0x0 31. "P,EL1 modes filtering bit. Controls counting in EL1. If EL3 is implemented then counting in Non-secure EL1 is further controlled by the NSK bit. The possible values of this bit are: 0 Count cycles in EL1. 1.." "0,1" bitfld.long 0x0 30. "U,EL0 filtering bit. Controls counting in EL0. If EL3 is implemented then counting in Non-secure EL0 is further controlled by the NSU bit. The possible values of this bit are: 0 Count cycles in EL0. 1.." "0,1" newline bitfld.long 0x0 29. "NSK,Non-secure kernel modes filtering bit. Controls counting in Non-secure EL1. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P cycles in Non-secure EL1 are counted.Otherwise cycles in Non-secure EL1 are.." "0,1" bitfld.long 0x0 28. "NSU,Non-secure user modes filtering bit. Controls counting in Non-secure EL0. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of U cycles in Non-secure EL0 are counted.Otherwise cycles in Non-secure EL0 are.." "0,1" newline bitfld.long 0x0 27. "NSH,Non-secure Hyp modes filtering bit. Controls counting in Non-secure EL2. If EL2 is not implemented this bit is RES0. 0 Do not count cycles in EL2. 1 Count cycles in EL2." "0,1" bitfld.long 0x0 26. "M,Secure EL3 filtering bit. Most applications can ignore this bit and set the value to zero. If EL3 is not implemented this bit is RES0.If the value of this bit is equal to the value of P cycles in Secure EL3 are counted.Otherwise cycles in Secure EL3.." "0,1" newline hexmask.long 0x0 0.--25. 1. "RES0_PMCCFILTR_EL0_25_0,Reserved RES0." group.long 0xC00++0x3 line.long 0x0 "APBADDR_PMU_CPU3_PMCNTENSET_EL0,Performance Monitors Count Enable Set Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 enable bit. Enables the cycle counter register. Possible values are: 0 When read means the cycle counter is disabled. When written has no effect. 1 When read means the cycle.." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter enable bit for PMEVCNTR<x>.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values of each bit are: 0 When read means that PMEVCNTR<x> is disabled. When written has no effect." group.long 0xC20++0x3 line.long 0x0 "APBADDR_PMU_CPU3_PMCNTENCLR_EL0,Performance Monitors Count Enable Clear Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 disable bit. Disables the cycle counter register. Possible values are: 0 When read means the cycle counter is disabled. When written has no effect. 1 When read means the cycle.." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter disable bit for PMEVCNTR<x>.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values of each bit are: 0 When read means that PMEVCNTR<x> is disabled. When written has no effect." group.long 0xC40++0x3 line.long 0x0 "APBADDR_PMU_CPU3_PMINTENSET_EL1,Performance Monitors Interrupt Enable Set Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 overflow interrupt request enable bit. Possible values are: 0 When read means the cycle counter overflow interrupt request is disabled. When written has no effect. 1 When read .." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter overflow interrupt request enable bit for PMEVCNTR<x>_EL0.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values are: 0 When read means that the PMEVCNTR<x>_EL0 event counter interrupt request.." group.long 0xC60++0x3 line.long 0x0 "APBADDR_PMU_CPU3_PMINTENCLR_EL1,Performance Monitors Interrupt Enable Clear Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 overflow interrupt request disable bit. Possible values are: 0 When read means the cycle counter overflow interrupt request is disabled. When written has no effect. 1 When read .." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter overflow interrupt request disable bit for PMEVCNTR<x>_EL0.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values are: 0 When read means that the PMEVCNTR<x>_EL0 event counter interrupt request.." group.long 0xC80++0x3 line.long 0x0 "APBADDR_PMU_CPU3_PMOVSCLR_EL0,Performance Monitors Overflow Flag Status Clear Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 overflow bit. Possible values are: 0 When read means the cycle counter has not overflowed. When written has no effect. 1 When read means the cycle counter has overflowed. When.." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter overflow clear bit for PMEVCNTR<x>.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values of each bit are: 0 When read means that PMEVCNTR<x> has not overflowed. When written has no effect." group.long 0xCA0++0x3 line.long 0x0 "APBADDR_PMU_CPU3_PMSWINC_EL0,Performance Monitors Software Increment Register" hexmask.long 0x0 6.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--5. 1. "P_X,Event counter software increment bit for PMEVCNTR<x>" group.long 0xCC0++0x3 line.long 0x0 "APBADDR_PMU_CPU3_PMOVSSET_EL0,Performance Monitors Overflow Flag Status Set Register" bitfld.long 0x0 31. "C,PMCCNTR_EL0 overflow bit. Possible values are: 0 When read means the cycle counter has not overflowed. When written has no effect. 1 When read means the cycle counter has overflowed. When.." "0,1" hexmask.long 0x0 0.--30. 1. "P_X,Event counter overflow set bit for PMEVCNTR<x>.N is the value in PMCR_EL0.N. Bits [30:N] are RAZ/WI.Possible values are: 0 When read means that PMEVCNTR<x> has not overflowed. When written has no effect." group.long 0xE00++0x7 line.long 0x0 "APBADDR_PMU_CPU3_PMCFGR,Performance Monitors Configuration Register" hexmask.long.word 0x0 20.--31. 1. "RES0_PMCFGR_31_20,Reserved RES0." bitfld.long 0x0 19. "UEN,User-mode Enable Register supported. PMUSERENR_EL0 is not visible in the external debug interface so this bit is RES0." "0,1" newline bitfld.long 0x0 18. "WT,This feature is not supported so this bit is RES0." "0,1" bitfld.long 0x0 17. "NA,This feature is not supported so this bit is RES0." "0,1" newline bitfld.long 0x0 16. "EX,Export supported. Value is IMPLEMENTATION DEFINED. 0 PMCR_EL0.X is RES0. 1 PMCR_EL0.X is read/write." "0,1" bitfld.long 0x0 15. "CCD,Cycle counter has prescale. This is RES1 if AArch32 is supported at any EL and RES0 otherwise. 0 PMCR_EL0.D is RES0. 1 PMCR_EL0.D is read/write." "0,1" newline bitfld.long 0x0 14. "CC,Dedicated cycle counter [counter 31] supported. This bit is RES1." "0,1" hexmask.long.byte 0x0 8.--13. 1. "SIZE,Size of counters. This field determines the spacing of counters in the memory-map.In v8-A the counters are at doubleword-aligned addresses and the largest counter is 64-bits so this field is 0b111111." newline hexmask.long.byte 0x0 0.--7. 1. "N,Number of counters implemented in addition to the cycle counter PMCCNTR_EL0. The maximum number of event counters is 31 so bits[7:5] are always RES0. 00000000 Only PMCCNTR_EL0 implemented. 00000001.." line.long 0x4 "APBADDR_PMU_CPU3_PMCR_EL0,Performance Monitors Control Register" hexmask.long.tbyte 0x4 11.--31. 1. "RES0_PMCR_EL0_31_11,Reserved RAZ/WI." hexmask.long.byte 0x4 7.--10. 1. "RES0_PMCR_EL0_10_7,Reserved RES0." newline bitfld.long 0x4 6. "LC,Long cycle counter enable. Determines which PMCCNTR_EL0 bit generates an overflow recorded by PMOVSR[31]. 0 Cycle counter overflow on increment that changes PMCCNTR_EL0[31] from 1 to 0. 1 Cycle.." "0,1" bitfld.long 0x4 5. "DP,Disable cycle counter when event counting is prohibited. The possible values of this bit are: 0 PMCCNTR_EL0 if enabled counts when event counting is prohibited. 1 PMCCNTR_EL0 does not count.." "0,1" newline bitfld.long 0x4 4. "X,Enable export of events in an IMPLEMENTATION DEFINED event stream. The possible values of this bit are: 0 Do not export events. 1 Export events where not prohibited. This bit is.." "0,1" bitfld.long 0x4 3. "D,Clock divider. The possible values of this bit are: 0 When enabled PMCCNTR_EL0 counts every clock cycle. 1 When enabled PMCCNTR_EL0 counts once every 64 clock cycles. This bit.." "0,1" newline bitfld.long 0x4 2. "C,Cycle counter reset. This bit is WO. The effects of writing to this bit are: 0 No action. 1 Reset PMCCNTR_EL0 to zero. This bit is always RAZ.Resetting PMCCNTR_EL0 does not.." "0,1" bitfld.long 0x4 1. "P,Event counter reset. This bit is WO. The effects of writing to this bit are: 0 No action. 1 Reset all event counters not including PMCCNTR_EL0 to zero. This bit is always.." "0,1" newline bitfld.long 0x4 0. "E,Enable. The possible values of this bit are: 0 All counters including PMCCNTR_EL0 are disabled. 1 All counters are enabled by PMCNTENSET_EL0. This bit is RW." "0,1" group.long 0xE20++0x7 line.long 0x0 "APBADDR_PMU_CPU3_PMCEID0_EL0,Performance Monitors Common Event Identification Register 0" hexmask.long 0x0 0.--31. 1. "CE_31_0,Common architectural and microarchitectural feature events that can be counted by the PMU event counters.For each bit described in the following table the event is implemented if the bit is set to 1 or not implemented if the bit is set to.." line.long 0x4 "APBADDR_PMU_CPU3_PMCEID1_EL0,Performance Monitors Common Event Identification Register 1" hexmask.long 0x4 1.--31. 1. "RES0_PMCEID1_EL0_31_1,Reserved RES0." bitfld.long 0x4 0. "CE_32,Common architectural and microarchitectural feature events that can be counted by the PMU event counters.For the bit described in the following table the event is implemented if the bit is set to 1 or not implemented if the bit is set to.." "0,1" group.long 0xF00++0x3 line.long 0x0 "APBADDR_PMU_CPU3_PMITCTRL,Performance Monitors Integration mode Control Register" hexmask.long 0x0 1.--31. 1. "RES0_PMITCTRL_31_1,Reserved RES0." bitfld.long 0x0 0. "IME,Integration mode enable. When IME == 1 the device reverts to an integration mode to enable integration testing or topology detection. The integration mode behavior is IMPLEMENTATION DEFINED. 0 Normal operation." "0,1" group.long 0xFA8++0x17 line.long 0x0 "APBADDR_PMU_CPU3_PMDEVAFF0,Performance Monitors Device Affinity Register 0" hexmask.long 0x0 0.--31. 1. "PMDEVAFF0,MPIDR_EL1 low half. Read-only copy of the low half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x4 "APBADDR_PMU_CPU3_PMDEVAFF1,Performance Monitors Device Affinity Register 1" hexmask.long 0x4 0.--31. 1. "PMDEVAFF1,MPIDR_EL1 high half. Read-only copy of the high half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x8 "APBADDR_PMU_CPU3_PMLAR,Performance Monitors Lock Access Register" hexmask.long 0x8 0.--31. 1. "KEY,Lock Access control. Writing the key value 0xC5ACCE55 to this field unlocks the lock enabling write accesses to this component's registers through a memory-mapped interface.Writing any other value to this register locks the lock disabling write.." line.long 0xC "APBADDR_PMU_CPU3_PMLSR,Performance Monitors Lock Status Register" hexmask.long 0xC 3.--31. 1. "RES0_PMLSR_31_3,Reserved RES0." bitfld.long 0xC 2. "NTT,Not thirty-two bit access required. RAZ." "0,1" newline bitfld.long 0xC 1. "SLK,Software lock status for this component. For an access to LSR that is not a memory-mapped access or when the software lock is not implemented this field is RES0.For memory-mapped accesses when the software lock is implemented possible values of.." "0,1" bitfld.long 0xC 0. "SLI,Software lock implemented. For an access to LSR that is not a memory-mapped access this field is RAZ. For memory-mapped accesses the value of this field is IMPLEMENTATION DEFINED. Permitted values are: 0 Software lock not.." "0,1" line.long 0x10 "APBADDR_PMU_CPU3_PMAUTHSTATUS,Performance Monitors Authentication Status Register" hexmask.long.tbyte 0x10 8.--31. 1. "RES0_PMAUTHSTATUS_31_8,Reserved RES0." bitfld.long 0x10 6.--7. "SNID,Holds the same value as DBGAUTHSTATUS_EL1.SNID." "0,1,2,3" newline bitfld.long 0x10 4.--5. "RES0_PMAUTHSTATUS_5_4,Reserved RES0." "0,1,2,3" bitfld.long 0x10 2.--3. "NSNID,Holds the same value as DBGAUTHSTATUS_EL1.NSNID." "0,1,2,3" newline bitfld.long 0x10 0.--1. "RES0_PMAUTHSTATUS_1_0,Reserved RES0." "0,1,2,3" line.long 0x14 "APBADDR_PMU_CPU3_PMDEVARCH,Performance Monitors Device Architecture Register" hexmask.long.word 0x14 21.--31. 1. "ARCHITECT,Defines the architecture of the component. For Performance Monitors this is ARM Limited.Bits [31:28] are the JEP 106 continuation code 0x4.Bits [27:21] are the JEP 106 ID code 0x3B." bitfld.long 0x14 20. "PRESENT,When set to 1 indicates that the DEVARCH is present.This field is 1 in v8-A." "0,1" newline hexmask.long.byte 0x14 16.--19. 1. "REVISION,Defines the architecture revision. For architectures defined by ARM this is the minor revision.For Performance Monitors the revision defined by v8-A is 0x0.All other values are reserved." hexmask.long.word 0x14 0.--15. 1. "ARCHID,Defines this part to be a v8-A debug component. For architectures defined by ARM this is further subdivided.For Performance Monitors:Bits [15:12] are the architecture version 0x2.Bits [11:0] are the architecture part number 0xA16.This.." group.long 0xFCC++0x33 line.long 0x0 "APBADDR_PMU_CPU3_PMDEVTYPE,Performance Monitors Device Type Register" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_PMDEVTYPE_31_8,Reserved RES0." hexmask.long.byte 0x0 4.--7. 1. "SUB,Subtype. Must read as 0x1 to indicate this is a processor component." newline hexmask.long.byte 0x0 0.--3. 1. "MAJOR,Major type. Must read as 0x6 to indicate this is a performance monitor component." line.long 0x4 "APBADDR_PMU_CPU3_PMPIDR4,Performance Monitors Peripheral Identification Register 4" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_PMPIDR4_31_8,Reserved RES0." hexmask.long.byte 0x4 4.--7. 1. "SIZE,Size of the component. RAZ. Log2 of the number of 4KB pages from the start of the component to the end of the component ID registers." newline hexmask.long.byte 0x4 0.--3. 1. "DES_2,Designer JEP106 continuation code least significant nibble. For ARM Limited this field is 0b0100." line.long 0x8 "APBADDR_PMU_CPU3_PMPIDR5,Performance Monitors Peripheral Identification Register 5" hexmask.long 0x8 0.--31. 1. "RESERVED,Reserved RES0" line.long 0xC "APBADDR_PMU_CPU3_PMPIDR6,Performance Monitors Peripheral Identification Register 6" hexmask.long 0xC 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x10 "APBADDR_PMU_CPU3_PMPIDR7,Performance Monitors Peripheral Identification Register 7" hexmask.long 0x10 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x14 "APBADDR_PMU_CPU3_PMPIDR0,Performance Monitors Peripheral Identification Register 0" hexmask.long.tbyte 0x14 8.--31. 1. "RES0_PMPIDR0_31_8,Reserved RES0." hexmask.long.byte 0x14 0.--7. 1. "PART_0,Part number least significant byte." line.long 0x18 "APBADDR_PMU_CPU3_PMPIDR1,Performance Monitors Peripheral Identification Register 1" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_PMPIDR1_31_8,Reserved RES0." hexmask.long.byte 0x18 4.--7. 1. "DES_0,Designer least significant nibble of JEP106 ID code. For ARM Limited this field is 0b1011." newline hexmask.long.byte 0x18 0.--3. 1. "PART_1,Part number most significant nibble." line.long 0x1C "APBADDR_PMU_CPU3_PMPIDR2,Performance Monitors Peripheral Identification Register 2" hexmask.long.tbyte 0x1C 8.--31. 1. "RES0_PMPIDR2_31_8,Reserved RES0." hexmask.long.byte 0x1C 4.--7. 1. "REVISION,Part major revision. Parts can also use this field to extend Part number to 16-bits." newline bitfld.long 0x1C 3. "JEDEC,RAO. Indicates a JEP106 identity code is used." "0,1" bitfld.long 0x1C 0.--2. "DES_1,Designer most significant bits of JEP106 ID code. For ARM Limited this field is 0b011." "0,1,2,3,4,5,6,7" line.long 0x20 "APBADDR_PMU_CPU3_PMPIDR3,Performance Monitors Peripheral Identification Register 3" hexmask.long.tbyte 0x20 8.--31. 1. "RES0_PMPIDR3_31_8,Reserved RES0." hexmask.long.byte 0x20 4.--7. 1. "REVAND,Part minor revision. Parts using PMPIDR2.REVISION as an extension to the Part number must use this field as a major revision number." newline hexmask.long.byte 0x20 0.--3. 1. "CMOD,Customer modified. Indicates someone other than the Designer has modified the component." line.long 0x24 "APBADDR_PMU_CPU3_PMCIDR0,Performance Monitors Component Identification Register 0" hexmask.long.tbyte 0x24 8.--31. 1. "RES0_PMCIDR0_31_8,Reserved RES0." hexmask.long.byte 0x24 0.--7. 1. "PRMBL_0,Preamble. Must read as 0x0D." line.long 0x28 "APBADDR_PMU_CPU3_PMCIDR1,Performance Monitors Component Identification Register 1" hexmask.long.tbyte 0x28 8.--31. 1. "RES0_PMCIDR1_31_8,Reserved RES0." hexmask.long.byte 0x28 4.--7. 1. "CLASS,Component class. Reads as 0x9 debug component." newline hexmask.long.byte 0x28 0.--3. 1. "PRMBL_1,Preamble. RAZ." line.long 0x2C "APBADDR_PMU_CPU3_PMCIDR2,Performance Monitors Component Identification Register 2" hexmask.long.tbyte 0x2C 8.--31. 1. "RES0_PMCIDR2_31_8,Reserved RES0." hexmask.long.byte 0x2C 0.--7. 1. "PRMBL_2,Preamble. Must read as 0x05." line.long 0x30 "APBADDR_PMU_CPU3_PMCIDR3,Performance Monitors Component Identification Register 3" hexmask.long.tbyte 0x30 8.--31. 1. "RES0_PMCIDR3_31_8,Reserved RES0." hexmask.long.byte 0x30 0.--7. 1. "PRMBL_3,Preamble. Must read as 0xB1." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "A53SS0_CORE3_ETM (A53SS0_CORE3_ETM)" base ad:0x730330000 group.long 0x4++0x3 line.long 0x0 "APBADDR_ETM_CPU3_TRCPRGCTLR,Programming Control Register" hexmask.long 0x0 1.--31. 1. "RES0_TRCPRGCTLR_31_1,Reserved RES0." bitfld.long 0x0 0. "EN,Trace unit enable bit. Possible values are: 0 The trace unit is disabled. All trace resources are inactive and no trace is generated. 1 The trace unit is enabled." "0,1" group.long 0xC++0x7 line.long 0x0 "APBADDR_ETM_CPU3_TRCSTATR,Status Register" hexmask.long 0x0 2.--31. 1. "RES0_TRCSTATR_31_2,Reserved RES0." bitfld.long 0x0 1. "PMSTABLE,Programmer's model stable bit: 0 The programmer's model is not stable. 1 The programmer's model is stable. When polled the trace unit trace registers return stable data." "0,1" bitfld.long 0x0 0. "IDLE,Idle status bit: 0 The trace unit is not idle. 1 The trace unit is idle. The trace unit is idle when all of the following are true:TRCPRGCTLR.EN==0 or the OS Lock is.." "0,1" line.long 0x4 "APBADDR_ETM_CPU3_TRCCONFIGR,Trace Configuration Register" hexmask.long.word 0x4 18.--31. 1. "RES0_TRCCONFIGR_31_18,Reserved RES0." bitfld.long 0x4 17. "DV,Data value tracing bit: 0 Data value tracing is disabled. 1 Data value tracing is enabled when INSTP0 is not 0b00. TRCIDR0.TRCDATA indicates whether this bit is supported. If.." "0,1" bitfld.long 0x4 16. "DA,Data address tracing bit: 0 Data address tracing is disabled. 1 Data address tracing is enabled when INSTP0 is not 0b00. TRCIDR0.TRCDATA indicates whether this bit is.." "0,1" newline bitfld.long 0x4 15. "RES0_TRCCONFIGR_15_15,Reserved RES0." "0,1" bitfld.long 0x4 13.--14. "QE,Q element enable field: 00 Q elements are disabled. 01 Q elements with instruction counts are enabled. Q elements without instruction counts are disabled. 11.." "0,1,2,3" bitfld.long 0x4 12. "RS,Return stack enable bit. 0 Return stack is disabled. 1 Return stack is enabled. TRCIDR0.RETSTACK indicates whether this bit is supported. If it is not supported then this bit.." "0,1" newline bitfld.long 0x4 11. "TS,Global timestamp tracing bit: 0 Global timestamp tracing is disabled. 1 Global timestamp tracing is enabled. TRCTSCTLR controls the insertion of timestamps in the trace." "0,1" bitfld.long 0x4 8.--10. "COND,Conditional instruction tracing bit. The permitted values are: 000 Conditional instruction tracing is disabled. 001 Conditional load instructions are traced. 010.." "0,1,2,3,4,5,6,7" bitfld.long 0x4 7. "VMID,VMID tracing bit: 0 VMID tracing is disabled. 1 VMID tracing is enabled. TRCIDR2.VMIDSIZE indicates whether this bit is supported. If it is not supported then this bit is RES0." "0,1" newline bitfld.long 0x4 6. "CID,Context ID tracing bit: 0 Context ID tracing is disabled. 1 Context ID tracing is enabled. TRCIDR2.CIDSIZE indicates whether this bit is supported. If it is not supported then.." "0,1" bitfld.long 0x4 5. "RES0_TRCCONFIGR_5_5,Reserved RES0." "0,1" bitfld.long 0x4 4. "CCI,Cycle counting instruction trace bit: 0 Cycle counting in the instruction trace is disabled. 1 Cycle counting in the instruction trace is enabled. TRCCCCTLR controls the threshold value for.." "0,1" newline bitfld.long 0x4 3. "BB,Branch broadcast mode bit: 0 Branch broadcast mode is disabled. 1 Branch broadcast mode is enabled. TRCBBCTLR controls which regions of memory are enabled to use branch broadcasting." "0,1" bitfld.long 0x4 1.--2. "INSTP0,Instruction P0 bit. This field controls whether load and store instructions are traced as P0 instructions: 00 Do not trace load and store instructions as P0 instructions. 01 Trace load.." "0,1,2,3" bitfld.long 0x4 0. "RES1_TRCCONFIGR_0_0,Reserved RES1." "0,1" group.long 0x18++0x3 line.long 0x0 "APBADDR_ETM_CPU3_TRCAUXCTLR,Auxiliary Control Register" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_TRCAUXCTLR_31_8,Reserved RES0" bitfld.long 0x0 7. "COREIFEN,Keep core interface enabled regardless of trace enable register state" "0,1" bitfld.long 0x0 6. "RES0_TRCAUXCTLR_6_6,Reserved RES0" "0,1" newline bitfld.long 0x0 5. "AUTHNOFLUSH,Do not flush trace on de-assertion of authentication inputs. When this bit is set to 1 the trace unit behavior deviates from architecturally-specified behavior." "0,1" bitfld.long 0x0 4. "TSNODELAY,Do not delay timestamp insertion based on FIFO depth." "0,1" bitfld.long 0x0 3. "SYNCDELAY,Delay periodic synchronization if FIFO is more than half-full." "0,1" newline bitfld.long 0x0 2. "OVFLW,Force an overflow if synchronization is not completed when second synchronization becomes due. When this bit is set to 1 the trace unit behavior deviates from architecturally-specified behavior." "0,1" bitfld.long 0x0 1. "IDLEACK,Force idle-drain acknowledge high CPU does not wait for trace to drain before entering WFX state. When this bit is set to 1 trace unit behavior deviates from architecturally-specified behavior." "0,1" bitfld.long 0x0 0. "AFREADY,Always respond to AFREADY immediately. Does not have any interaction with FIFO draining even in WFI state." "0,1" group.long 0x20++0x7 line.long 0x0 "APBADDR_ETM_CPU3_TRCEVENTCTL0R,Event Control 0 Register" bitfld.long 0x0 31. "TYPE3,Selects the resource type for trace event 3" "0,1" bitfld.long 0x0 28.--30. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 24.--27. 1. "SEL3,Selects the resource number based on the value of TYPE3" newline bitfld.long 0x0 23. "TYPE2,Selects the resource type for trace event 2" "0,1" bitfld.long 0x0 20.--22. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 16.--19. 1. "SEL2,Selects the resource number based on the value of TYPE2" newline bitfld.long 0x0 15. "TYPE1,Selects the resource type for trace event 1" "0,1" bitfld.long 0x0 12.--14. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "SEL1,Selects the resource number based on the value of TYPE1" newline bitfld.long 0x0 7. "TYPE0,Selects the resource type for trace event 0" "0,1" bitfld.long 0x0 4.--6. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 0.--3. 1. "SEL0,Selects the resource number based on the value of TYPE0" line.long 0x4 "APBADDR_ETM_CPU3_TRCEVENTCTL1R,Event Control 1 Register" hexmask.long.tbyte 0x4 13.--31. 1. "RESERVED,Reserved RES0" bitfld.long 0x4 12. "LPOVERRIDE,Low power state behavior override" "0,1" bitfld.long 0x4 11. "ATB,ATB trigger enable" "0,1" newline hexmask.long.byte 0x4 4.--10. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "EN,One bit per event to enable generation of an event element in the instruction trace stream when the selected event occurs" group.long 0x2C++0x17 line.long 0x0 "APBADDR_ETM_CPU3_TRCSTALLCTLR,Stall Control Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED,Reserved RES0" bitfld.long 0x0 8. "ISTALL,Controls if the trace unit can stall the processor when the instruction trace buffer space is less than LEVEL" "0,1" hexmask.long.byte 0x0 4.--7. 1. "RESERVED,Reserved RES0" newline bitfld.long 0x0 2.--3. "LEVEL,The field can support 4 monotonic levels from 0b00 to 0b11" "0,1,2,3" bitfld.long 0x0 0.--1. "RESERVED,Reserved RES0" "0,1,2,3" line.long 0x4 "APBADDR_ETM_CPU3_TRCTSCTLR,Global Timestamp Control Register" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_TRCTSCTLR_31_8,Reserved RES0." hexmask.long.byte 0x4 0.--7. 1. "EVENT,An event selector. When the selected event is triggered the trace unit inserts a global timestamp into the trace streams." line.long 0x8 "APBADDR_ETM_CPU3_TRCSYNCPR,Synchronization Period Register" hexmask.long 0x8 5.--31. 1. "RES0_TRCSYNCPR_31_5,Reserved RES0." hexmask.long.byte 0x8 0.--4. 1. "PERIOD,Controls how many bytes of trace the sum of instruction and data that a trace unit can generate before a periodic trace synchronization request occurs. The number of bytes is always a power of two and the permitted values are: 00000.." line.long 0xC "APBADDR_ETM_CPU3_TRCCCCTLR,Cycle Count Control Register" hexmask.long.tbyte 0xC 12.--31. 1. "RES0_TRCCCCTLR_31_12,Reserved RES0." hexmask.long.word 0xC 0.--11. 1. "THRESHOLD,Sets the threshold value for instruction trace cycle counting.The minimum threshold value that can be programmed into THRESHOLD is given in TRCIDR3.CCITMIN.Writing a value of zero might cause UNPREDICTABLE behaviour." line.long 0x10 "APBADDR_ETM_CPU3_TRCBBCTLR,Branch Broadcast Control Register" hexmask.long.tbyte 0x10 9.--31. 1. "RES0_TRCBBCTLR_31_9,Reserved RES0." bitfld.long 0x10 8. "MODE,Mode bit: 0 Exclude mode. Branch broadcasting is not enabled in the address range that RANGE defines. If RANGE==0 then branch broadcasting is enabled for the entire memory map. 1 Include mode." "0,1" hexmask.long.byte 0x10 0.--7. 1. "RANGE,Address range field. Selects which address range comparator pairs are in use with branch broadcasting. Each bit represents an address range comparator pair so bit[n] controls the selection of address range comparator pair n. If bit[n] is: 0.." line.long 0x14 "APBADDR_ETM_CPU3_TRCTRACEIDR,Trace ID Register" hexmask.long 0x14 7.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x14 0.--6. 1. "TRACEID,Trace ID value. When only instruction tracing is enabled this provides the trace ID." group.long 0x80++0xB line.long 0x0 "APBADDR_ETM_CPU3_TRCVICTLR,ViewInst Main Control Register" hexmask.long.byte 0x0 24.--31. 1. "RES0_TRCVICTLR_31_24,Reserved RES0." hexmask.long.byte 0x0 20.--23. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether instruction tracing is enabled for the corresponding exception level: 0 The trace unit generates instruction trace in Non-secure state for exception level n." hexmask.long.byte 0x0 16.--19. 1. "EXLEVEL_S,In Secure state each bit controls whether instruction tracing is enabled for the corresponding exception level: 0 The trace unit generates instruction trace in Secure state for exception level n. 1.." newline hexmask.long.byte 0x0 12.--15. 1. "RES0_TRCVICTLR_15_12,Reserved RES0." bitfld.long 0x0 11. "TRCERR,If TRCIDR3.TRCERR==1 this bit controls whether a trace unit must trace a system error exception: 0 The trace unit does not trace a system error exception unless it traces the exception or instruction immediately prior to the.." "0,1" bitfld.long 0x0 10. "TRCRESET,Controls whether a trace unit must trace a Reset exception: 0 The trace unit does not trace a Reset exception unless it traces the exception or instruction immediately prior to the Reset exception. 1.." "0,1" newline bitfld.long 0x0 9. "SSSTATUS,IF TRCIDR4.NUMACPAIRS>0 or TRCIDR.NUMPC>0 this bit returns the status of the start-stop logic: 0 The start-stop logic is in the stopped state. 1 The start-stop logic is in the started.." "0,1" bitfld.long 0x0 8. "RES0_TRCVICTLR_8_8,Reserved RES0." "0,1" hexmask.long.byte 0x0 0.--7. 1. "EVENT,An event selector. [TODO: Add the bit assignments for EVENT fields into the descriptions directly?]" line.long 0x4 "APBADDR_ETM_CPU3_TRCVIIECTLR,ViewInst Include-Exclude Control Register" hexmask.long.byte 0x4 24.--31. 1. "RES0_TRCVIIECTLR_31_24,Reserved RES0." hexmask.long.byte 0x4 16.--23. 1. "EXCLUDE,0 1 The implemented width of the field n is IMPLEMENTATION DEFINED and is set by the value of TRCIDR4.NUMACPAIRS. Unimplemented bits are RAZ/WI." hexmask.long.byte 0x4 8.--15. 1. "RES0_TRCVIIECTLR_15_8,Reserved RES0." newline hexmask.long.byte 0x4 0.--7. 1. "INCLUDE,Include range field. Selects which address range comparator pairs are in use with ViewInst include control. Each bit represents an address range comparator pair so bit[m] controls the selection of address range comparator pair m. If bit[m] is:.." line.long 0x8 "APBADDR_ETM_CPU3_TRCVISSCTLR,ViewInst Start-Stop Control Register" hexmask.long.word 0x8 16.--31. 1. "STOP,Selects which single address comparators are in use with ViewInst start-stop control for the purpose of stopping trace. Each bit represents a single address comparator so bit[m] controls the selection of single address comparator m-16. If bit[m].." hexmask.long.word 0x8 0.--15. 1. "START,Selects which single address comparators are in use with ViewInst start-stop control for the purpose of starting trace. Each bit represents a single address comparator so bit[n] controls the selection of single address comparator n. If bit[n] is:.." group.long 0x100++0xB line.long 0x0 "APBADDR_ETM_CPU3_TRCSEQEVR0,Sequencer State Transition Control Registers 0" hexmask.long.word 0x0 16.--31. 1. "RES0_TRCSEQEVR0_31_16,Reserved RES0." hexmask.long.byte 0x0 8.--15. 1. "B_N,Backward field. Contains an event number. When the event occurs then the sequencer state moves from state n+1 to state n.For example for TRCSEQEVR2 if B2==0x14 then when event 0x14 occurs the sequencer moves from state 3 to state 2." hexmask.long.byte 0x0 0.--7. 1. "F_N,Forward field. Contains an event number. When the event occurs then the sequencer state moves from state n to state n+1.For example for TRCSEQEVR1 if F1==0x12 then when event 0x12 occurs the sequencer moves from state 1 to state 2." line.long 0x4 "APBADDR_ETM_CPU3_TRCSEQEVR1,Sequencer State Transition Control Registers 1" hexmask.long.word 0x4 16.--31. 1. "RES0_TRCSEQEVR1_31_16,Reserved RES0." hexmask.long.byte 0x4 8.--15. 1. "B_N,Backward field. Contains an event number. When the event occurs then the sequencer state moves from state n+1 to state n.For example for TRCSEQEVR2 if B2==0x14 then when event 0x14 occurs the sequencer moves from state 3 to state 2." hexmask.long.byte 0x4 0.--7. 1. "F_N,Forward field. Contains an event number. When the event occurs then the sequencer state moves from state n to state n+1.For example for TRCSEQEVR1 if F1==0x12 then when event 0x12 occurs the sequencer moves from state 1 to state 2." line.long 0x8 "APBADDR_ETM_CPU3_TRCSEQEVR2,Sequencer State Transition Control Registers 2" hexmask.long.word 0x8 16.--31. 1. "RES0_TRCSEQEVR2_31_16,Reserved RES0." hexmask.long.byte 0x8 8.--15. 1. "B_N,Backward field. Contains an event number. When the event occurs then the sequencer state moves from state n+1 to state n.For example for TRCSEQEVR2 if B2==0x14 then when event 0x14 occurs the sequencer moves from state 3 to state 2." hexmask.long.byte 0x8 0.--7. 1. "F_N,Forward field. Contains an event number. When the event occurs then the sequencer state moves from state n to state n+1.For example for TRCSEQEVR1 if F1==0x12 then when event 0x12 occurs the sequencer moves from state 1 to state 2." group.long 0x118++0xB line.long 0x0 "APBADDR_ETM_CPU3_TRCSEQRSTEVR,Sequencer Reset Control Register" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_TRCSEQRSTEVR_31_8,Reserved RES0." hexmask.long.byte 0x0 0.--7. 1. "RST,Contains an event number. When the event occurs then the sequencer state moves to state 0." line.long 0x4 "APBADDR_ETM_CPU3_TRCSEQSTR,Sequencer State Register" hexmask.long 0x4 2.--31. 1. "RES0_TRCSEQSTR_31_2,Reserved RES0." bitfld.long 0x4 0.--1. "STATE,Sets or returns the state of the sequencer: 00 State 0. 01 State 1. 10 State 2. 11 State 3." "0,1,2,3" line.long 0x8 "APBADDR_ETM_CPU3_TRCEXTINSELR,External Input Select Register" bitfld.long 0x8 29.--31. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 24.--28. 1. "SEL3,Selects an event from the external input bus for External Input Resource 3." bitfld.long 0x8 21.--23. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x8 16.--20. 1. "SEL2,Selects an event from the external input bus for External Input Resource 2" bitfld.long 0x8 13.--15. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 8.--12. 1. "SEL1,Selects an event from the external input bus for External Input Resource 1" newline bitfld.long 0x8 5.--7. "RESERVED,Reserved RES0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 0.--4. 1. "SEL0,Selects an event from the external input bus for External Input Resource 0" group.long 0x140++0x7 line.long 0x0 "APBADDR_ETM_CPU3_TRCCNTRLDVR0,Counter Reload Value Registers 0" hexmask.long.word 0x0 16.--31. 1. "RES0_TRCCNTRLDVR0_31_16,Reserved RES0." hexmask.long.word 0x0 0.--15. 1. "VALUE_N,Contains the reload value for counter <n>. When a reload event occurs for counter <n> then the trace unit copies the VALUE<n> field into counter <n>." line.long 0x4 "APBADDR_ETM_CPU3_TRCCNTRLDVR1,Counter Reload Value Registers 1" hexmask.long.word 0x4 16.--31. 1. "RES0_TRCCNTRLDVR1_31_16,Reserved RES0." hexmask.long.word 0x4 0.--15. 1. "VALUE_N,Contains the reload value for counter <n>. When a reload event occurs for counter <n> then the trace unit copies the VALUE<n> field into counter <n>." group.long 0x150++0x7 line.long 0x0 "APBADDR_ETM_CPU3_TRCCNTCTLR0,Counter Control Register 0" hexmask.long.word 0x0 18.--31. 1. "RES0_TRCCNTCTLR0_31_18,Reserved RES0." bitfld.long 0x0 17. "CNTCHAIN_N,For TRCCNTCTLR3 and TRCCNTCTLR1 controls whether counter <n> decrements when a reload event occurs for counter <n-1>: 0 1 For TRCCNTCTLR2 and TRCCNTCTLR0 .." "0,1" bitfld.long 0x0 16. "RLDSELF_N,Controls whether a reload event occurs for counter <n> when counter <n> reaches zero: 0 The trace unit does not generate a reload event. 1 The trace unit generates a reload event.." "0,1" newline hexmask.long.byte 0x0 8.--15. 1. "RLDEVENT_N,Selects an event that when it occurs causes a reload event for counter <n>." hexmask.long.byte 0x0 0.--7. 1. "CNTEVENT_N,Selects an event that when it occurs causes counter <n> to decrement." line.long 0x4 "APBADDR_ETM_CPU3_TRCCNTCTLR1,Counter Control Register 1" hexmask.long.word 0x4 18.--31. 1. "RES0_TRCCNTCTLR1_31_18,Reserved RES0." bitfld.long 0x4 17. "CNTCHAIN_N,For TRCCNTCTLR3 and TRCCNTCTLR1 controls whether counter <n> decrements when a reload event occurs for counter <n-1>: 0 1 For TRCCNTCTLR2 and TRCCNTCTLR0 .." "0,1" bitfld.long 0x4 16. "RLDSELF_N,Controls whether a reload event occurs for counter <n> when counter <n> reaches zero: 0 The trace unit does not generate a reload event. 1 The trace unit generates a reload event.." "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "RLDEVENT_N,Selects an event that when it occurs causes a reload event for counter <n>." hexmask.long.byte 0x4 0.--7. 1. "CNTEVENT_N,Selects an event that when it occurs causes counter <n> to decrement." group.long 0x160++0x7 line.long 0x0 "APBADDR_ETM_CPU3_TRCCNTVR0,Counter Value Registers 0" hexmask.long.word 0x0 16.--31. 1. "RES0_TRCCNTVR0_31_16,Reserved RES0." hexmask.long.word 0x0 0.--15. 1. "VALUE_N,Contains the count value of counter <n>." line.long 0x4 "APBADDR_ETM_CPU3_TRCCNTVR1,Counter Value Registers 1" hexmask.long.word 0x4 16.--31. 1. "RES0_TRCCNTVR1_31_16,Reserved RES0." hexmask.long.word 0x4 0.--15. 1. "VALUE_N,Contains the count value of counter <n>." group.long 0x180++0x17 line.long 0x0 "APBADDR_ETM_CPU3_TRCIDR8,ID Register 8" hexmask.long 0x0 0.--31. 1. "MAXSPEC,Indicates the maximum speculation depth of the instruction trace stream. This is the maximum number of P0 elements in the trace stream that can be speculative at any time." line.long 0x4 "APBADDR_ETM_CPU3_TRCIDR9,ID Register 9" hexmask.long 0x4 0.--31. 1. "NUMP0KEY,Indicates the number of P0 right-hand keys that the trace unit can use. A value of 0 or 1 indicates one P0 key." line.long 0x8 "APBADDR_ETM_CPU3_TRCIDR10,ID Register 10" hexmask.long 0x8 0.--31. 1. "NUMP1KEY,Indicates the number of P1 right-hand keys that the trace unit can use. The number includes normal and special keys." line.long 0xC "APBADDR_ETM_CPU3_TRCIDR11,ID Register 11" hexmask.long 0xC 0.--31. 1. "NUMP1SPC,Indicates the number of special P1 right-hand keys that the trace unit can use." line.long 0x10 "APBADDR_ETM_CPU3_TRCIDR12,ID Register 12" hexmask.long 0x10 0.--31. 1. "NUMCONDKEY,Indicates the number of conditional instruction right-hand keys that the trace unit can use. The number includes normal and special keys." line.long 0x14 "APBADDR_ETM_CPU3_TRCIDR13,ID Register 13" hexmask.long 0x14 0.--31. 1. "NUMCONDSPC,Indicates the number of special conditional instruction right-hand keys that the trace unit can use." group.long 0x1C0++0x3 line.long 0x0 "APBADDR_ETM_CPU3_TRCIMSPEC0,Implementation Specific Register 0" hexmask.long.tbyte 0x0 8.--31. 1. "RES0_TRCIMSPEC0_31_8,Reserved RES0." hexmask.long.byte 0x0 4.--7. 1. "EN,If SUPPORT is not 0b0000 controls whether the IMPLEMENTATION DEFINED features are enabled. The permitted values are: 0000 The IMPLEMENTATION DEFINED features are not enabled. The trace unit must behave as if the IMPLEMENTATION.." hexmask.long.byte 0x0 0.--3. 1. "SUPPORT,Indicates whether the implementation supports IMPLEMENTATION DEFINED features. The permitted values are: 0000 No IMPLEMENTATION DEFINED features are supported. The EN field is RES0. and any other value which.." group.long 0x1E0++0x17 line.long 0x0 "APBADDR_ETM_CPU3_TRCIDR0,ID Register 0" bitfld.long 0x0 30.--31. "RES0_TRCIDR0_31_30,Reserved RES0." "0,1,2,3" bitfld.long 0x0 29. "COMMOPT,Conditional instruction tracing support bit. Indicates if the trace unit supports conditional instruction tracing: 0 Conditional instruction tracing is not supported. 1 Conditional.." "0,1" hexmask.long.byte 0x0 24.--28. 1. "TSSIZE,Global timestamp size field. The permitted values are: 00000 Global timestamping is not implemented. 00110 Implementation supports a maximum global timestamp of 48bits." newline hexmask.long.byte 0x0 17.--23. 1. "RES0_TRCIDR0_23_17,Reserved RES0." bitfld.long 0x0 15.--16. "QSUPP,Q element support field. The permitted values are: 00 Q element support is not implemented. TRCCONFIGR.QE is RES0. 01 Q element support is implemented and only supports Q elements with.." "0,1,2,3" bitfld.long 0x0 14. "QFILT,Q element filtering support field. The permitted values are: 0 Q element filtering is not implemented. 1 Q element filtering is implemented. TRCQCTLR is implemented. When.." "0,1" newline bitfld.long 0x0 12.--13. "CONDTYPE,Conditional tracing field. The permitted values are: 00 The trace unit indicates only if a conditional instruction is a pass or fail. 01 The trace unit provides the Current Program Status.." "0,1,2,3" bitfld.long 0x0 10.--11. "NUMEVENT,Number of events field. Indicates how many events the trace unit supports: 00 The trace unit supports 1 event. 01 The trace unit supports 2 events. 10.." "0,1,2,3" bitfld.long 0x0 9. "RETSTACK,Return stack bit. Indicates if the implementation supports a return stack: 0 Return stack is not implemented. 1 Return stack is implemented so TRCCONFIGR.RS is supported." "0,1" newline bitfld.long 0x0 8. "RES0_TRCIDR0_8_8,Reserved RES0." "0,1" bitfld.long 0x0 7. "TRCCCI,Cycle counting instruction bit. Indicates if the trace unit supports cycle counting for instructions: 0 Cycle counting in the instruction trace is not implemented. 1 Cycle counting in the.." "0,1" bitfld.long 0x0 6. "TRCCOND,Conditional instruction tracing support bit. Indicates if the trace unit supports conditional instruction tracing: 0 Conditional instruction tracing is not supported. 1 Conditional.." "0,1" newline bitfld.long 0x0 5. "TRCBB,Branch broadcast tracing support bit. Indicates if the trace unit supports branch broadcast tracing: 0 Branch broadcast tracing is not supported. 1 Branch broadcast tracing is supported so.." "0,1" bitfld.long 0x0 3.--4. "TRCDATA,Conditional tracing field. The permitted values are: 00 Data tracing is not supported. 11 Tracing of data addresses and data values is supported so TRCCONFIGR.DA TRCCONFIGR.DV .." "0,1,2,3" bitfld.long 0x0 1.--2. "INSTP0,P0 tracing support field. The permitted values are: 00 Tracing of load and store instructions as P0 elements is not supported. 11 Tracing of load and store instructions as P0 elements is.." "0,1,2,3" newline bitfld.long 0x0 0. "RES0_TRCIDR0_0_0,Reserved RES0." "0,1" line.long 0x4 "APBADDR_ETM_CPU3_TRCIDR1,ID Register 1" hexmask.long.byte 0x4 24.--31. 1. "DESIGNER,Indicates which company designed the trace unit. The permitted values are: 01000001 ARM Limited. 01000100 Digital Equipment Corporation. 01001101.." hexmask.long.byte 0x4 16.--23. 1. "RES0_TRCIDR1_23_16,Reserved RES0." hexmask.long.byte 0x4 12.--15. 1. "RES1_TRCIDR1_15_12,Reserved RES1." newline hexmask.long.byte 0x4 8.--11. 1. "TRCARCHMAJ,Indicates the major version of the ETM architecture. The permitted value is: 100 ETMv4. All other values are reserved." hexmask.long.byte 0x4 4.--7. 1. "TRCARCHMIN,Indicates the minor version of the ETM architecture. The permitted value is: 0 ETMv4 minor version 0. All other values are reserved." hexmask.long.byte 0x4 0.--3. 1. "REVISION,Returns an IMPLEMENTATION DEFINED value that identifies the revision of the trace registers and the OS Save and Restore registers.ARM recommends:That the initial implementation sets REVISION==0x0 and the field then increments for any subsequent.." line.long 0x8 "APBADDR_ETM_CPU3_TRCIDR2,ID Register 2" bitfld.long 0x8 29.--31. "RES0_TRCIDR2_31_29,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 25.--28. 1. "CCSIZE,Indicates the size of the cycle counter in bits minus 12. 0000 The cycle counter is 12 bits in length. 0001 The cycle counter is 13 bits in length. and so on up to 0b1000 .." hexmask.long.byte 0x8 20.--24. 1. "DVSIZE,Indicates the data value size in bytes. The permitted values are: 00000 Data value tracing is not supported. Therefore an implementation must also set TRCIDR0.TRCDATA==0b00. 00100 Maximum.." newline hexmask.long.byte 0x8 15.--19. 1. "DASIZE,Indicates the data address size in bytes. The permitted values are: 00000 Data address tracing is not supported. Therefore an implementation must also set TRCIDR0.TRCDATA==0b00. 00100.." hexmask.long.byte 0x8 10.--14. 1. "VMIDSIZE,Indicates the VMID size. The permitted values are: 00000 VMID tracing is not supported. 00001 Maximum of 8-bit VMID size so TRCCONFIGR.VMID is supported. All other.." hexmask.long.byte 0x8 5.--9. 1. "CIDSIZE,Indicates the Context ID size. The permitted values are: 00000 Context ID tracing is not supported. 00100 Maximum of 32-bit Context ID size so TRCCONFIGR.CID is supported." newline hexmask.long.byte 0x8 0.--4. 1. "IASIZE,Indicates the instruction address size. The permitted values are: 00100 Maximum of 32-bit address size. 01000 Maximum of 64-bit address size. All other values are reserved." line.long 0xC "APBADDR_ETM_CPU3_TRCIDR3,ID Register 3" bitfld.long 0xC 31. "NOOVERFLOW,Indicates if TRCSTALLCTLR.NOOVERFLOW is supported: 0 TRCSTALLCTLR.NOOVERFLOW is not supported or STALLCTL==0. 1 TRCSTALLCTLR.NOOVERFLOW is supported." "0,1" bitfld.long 0xC 28.--30. "NUMPROC,Indicates the number of processors available for tracing. The possible values are: 000 The trace unit can trace one processor. 001 The trace unit can trace two processors." "0,1,2,3,4,5,6,7" bitfld.long 0xC 27. "SYSSTALL,Indicates if the implementation can support stall control: 0 The system does not support stall control of the processor. 1 The system can support stall control of the processor." "0,1" newline bitfld.long 0xC 26. "STALLCTL,Indicates if TRCSTALLCTLR is supported: 0 TRCSTALLCTLR is not supported. 1 TRCSTALLCTLR is supported." "0,1" bitfld.long 0xC 25. "SYNCPR,Indicates if an implementation has a fixed synchronization period: 0 TRCSYNCPR is read-write so software can change the synchronization period. 1 TRCSYNCPR is read-only so the.." "0,1" bitfld.long 0xC 24. "TRCERR,Indicates if TRCVICTLR.TRCERR is supported: 0 TRCVICTLR.TRCERR is not supported 1 TRCVICTLR.TRCERR is supported." "0,1" newline hexmask.long.byte 0xC 20.--23. 1. "EXLEVEL_NS,In Non-secure state each bit indicates whether instruction tracing is supported for the corresponding exception level: 0 In Non-secure state exception level n is not supported so the corresponding bits in.." hexmask.long.byte 0xC 16.--19. 1. "EXLEVEL_S,In Secure state each bit indicates whether instruction tracing is supported for the corresponding exception level: 0 In Secure state exception level n is not supported so the corresponding bits in TRCACATRn.EXLEVEL_S and.." hexmask.long.byte 0xC 12.--15. 1. "RES0_TRCIDR3_15_12,Reserved RES0." newline hexmask.long.word 0xC 0.--11. 1. "CCITMIN,Indicates the minimum value that can be programmed in TRCCCCTLR.THRESHOLD.When cycle counting in the instruction trace is supported that is TRCIDR0.TRCCCI==1 then the minimum value of this field is 0x001 otherwise it is 0x000." line.long 0x10 "APBADDR_ETM_CPU3_TRCIDR4,ID Register 4" hexmask.long.byte 0x10 28.--31. 1. "NUMVMIDC,Indicates the number of VMID comparators that are available for tracing. The permitted values are: 0000 No VMID comparators are available. 0001 The implementation has one VMID comparator." hexmask.long.byte 0x10 24.--27. 1. "NUMCIDC,Indicates the number of Context ID comparators that are available for tracing. The permitted values are: 0000 No Context ID comparators are available. 0001 The implementation has one.." hexmask.long.byte 0x10 20.--23. 1. "NUMSSCC,Indicates the number of single-shot comparator controls that are available for tracing. The permitted values are: 0000 No single-shot comparator controls are available. 0001 The.." newline hexmask.long.byte 0x10 16.--19. 1. "NUMRSPAIR,Indicates the number of resource selection pairs that are available for tracing. The permitted values are: 0000 The implementation has one resource selection pair. 0001 The implementation.." hexmask.long.byte 0x10 12.--15. 1. "NUMPC,Indicates the number of processor comparator inputs that are available for tracing. The permitted values are: 0000 No processor comparator inputs are available. 0001 The implementation has.." bitfld.long 0x10 9.--11. "RES0_TRCIDR4_11_9,Reserved RES0." "0,1,2,3,4,5,6,7" newline bitfld.long 0x10 8. "SUPPDAC,Indicates if the implementation can support data address comparisons: 0 The implementation does not support data address comparisons. 1 The implementation can support data address comparisons" "0,1" hexmask.long.byte 0x10 4.--7. 1. "NUMDVC,Indicates the number of data value comparators that are available for tracing. The permitted values are: 0000 No data value comparators are available. 0001 The implementation has one data.." hexmask.long.byte 0x10 0.--3. 1. "NUMACPAIRS,Indicates the number of address comparator pairs that are available for tracing. The permitted values are: 0000 No address comparator pairs are available. 0001 The implementation has one.." line.long 0x14 "APBADDR_ETM_CPU3_TRCIDR5,ID Register 5" bitfld.long 0x14 31. "REDFUNCNTR,Indicates if the reduced function counter is implemented: 0 The reduced function counter is not supported. 1 Counter 0 is implemented as a reduced function counter." "0,1" bitfld.long 0x14 28.--30. "NUMCNTR,Indicates the number of counters that are available for tracing. The permitted values are: 000 No counters are available. 001 The implementation has one counter." "0,1,2,3,4,5,6,7" bitfld.long 0x14 25.--27. "NUMSEQSTATE,Indicates the number of sequencer states that are implemented. The permitted values are: 000 No sequencer states are implemented. 100 The implementation has four sequencer states." "0,1,2,3,4,5,6,7" newline bitfld.long 0x14 24. "RES0_TRCIDR5_24_24,Reserved RES0." "0,1" bitfld.long 0x14 23. "LPOVERRIDE,Indicates if the implementation can support low-power state override: 0 The implementation does not support low-power state override. 1 The implementation supports low-power state.." "0,1" bitfld.long 0x14 22. "ATBTRIG,Indicates if the implementation can support ATB triggers: 0 The implementation does not support ATB triggers. 1 The implementation supports ATB triggers and the TRCEVENTCTL1R.ATBTRIG field.." "0,1" newline hexmask.long.byte 0x14 16.--21. 1. "TRACEIDSIZE,Indicates the trace ID width. The permitted value is: 111 The implementation supports a 7-bit trace ID. This sets the width of the TRCTRACEIDR.TRACEID field. All other values are reserved.The CoreSight ATB.." hexmask.long.byte 0x14 12.--15. 1. "RES0_TRCIDR5_15_12,Reserved RES0." bitfld.long 0x14 9.--11. "NUMEXTINSEL,Indicates how many external input select resources are implemented. The permitted values are: 000 No external input select resources are available. If NUMEXTINSEL is zero NUMEXTIN must also be zero." "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x14 0.--8. 1. "NUMEXTIN,Indicates how many external inputs are implemented. The permitted values are: 000000000 No external inputs are available. If NUMEXTIN is zero NUMEXTINSEL must also be zero. 000000001 The.." group.long 0x208++0x37 line.long 0x0 "APBADDR_ETM_CPU3_TRCRSCTLR2,Resource Selection Control Registers 2" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCRSCTLR2_31_22,Reserved RES0." bitfld.long 0x0 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x0 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x0 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x4 "APBADDR_ETM_CPU3_TRCRSCTLR3,Resource Selection Control Registers 3" hexmask.long.word 0x4 22.--31. 1. "RES0_TRCRSCTLR3_31_22,Reserved RES0." bitfld.long 0x4 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x4 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x4 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x4 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x8 "APBADDR_ETM_CPU3_TRCRSCTLR4,Resource Selection Control Registers 4" hexmask.long.word 0x8 22.--31. 1. "RES0_TRCRSCTLR4_31_22,Reserved RES0." bitfld.long 0x8 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x8 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x8 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0xC "APBADDR_ETM_CPU3_TRCRSCTLR5,Resource Selection Control Registers 5" hexmask.long.word 0xC 22.--31. 1. "RES0_TRCRSCTLR5_31_22,Reserved RES0." bitfld.long 0xC 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0xC 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0xC 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0xC 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x10 "APBADDR_ETM_CPU3_TRCRSCTLR6,Resource Selection Control Registers 6" hexmask.long.word 0x10 22.--31. 1. "RES0_TRCRSCTLR6_31_22,Reserved RES0." bitfld.long 0x10 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x10 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x10 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x14 "APBADDR_ETM_CPU3_TRCRSCTLR7,Resource Selection Control Registers 7" hexmask.long.word 0x14 22.--31. 1. "RES0_TRCRSCTLR7_31_22,Reserved RES0." bitfld.long 0x14 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x14 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x14 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x14 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x18 "APBADDR_ETM_CPU3_TRCRSCTLR8,Resource Selection Control Registers 8" hexmask.long.word 0x18 22.--31. 1. "RES0_TRCRSCTLR8_31_22,Reserved RES0." bitfld.long 0x18 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x18 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x18 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x18 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x1C "APBADDR_ETM_CPU3_TRCRSCTLR9,Resource Selection Control Registers 9" hexmask.long.word 0x1C 22.--31. 1. "RES0_TRCRSCTLR9_31_22,Reserved RES0." bitfld.long 0x1C 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x1C 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x1C 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x1C 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x20 "APBADDR_ETM_CPU3_TRCRSCTLR10,Resource Selection Control Registers 10" hexmask.long.word 0x20 22.--31. 1. "RES0_TRCRSCTLR10_31_22,Reserved RES0." bitfld.long 0x20 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x20 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x20 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x20 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x24 "APBADDR_ETM_CPU3_TRCRSCTLR11,Resource Selection Control Registers 11" hexmask.long.word 0x24 22.--31. 1. "RES0_TRCRSCTLR11_31_22,Reserved RES0." bitfld.long 0x24 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x24 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x24 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x24 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x28 "APBADDR_ETM_CPU3_TRCRSCTLR12,Resource Selection Control Registers 12" hexmask.long.word 0x28 22.--31. 1. "RES0_TRCRSCTLR12_31_22,Reserved RES0." bitfld.long 0x28 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x28 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x28 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x28 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x2C "APBADDR_ETM_CPU3_TRCRSCTLR13,Resource Selection Control Registers 13" hexmask.long.word 0x2C 22.--31. 1. "RES0_TRCRSCTLR13_31_22,Reserved RES0." bitfld.long 0x2C 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x2C 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x2C 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x2C 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x30 "APBADDR_ETM_CPU3_TRCRSCTLR14,Resource Selection Control Registers 14" hexmask.long.word 0x30 22.--31. 1. "RES0_TRCRSCTLR14_31_22,Reserved RES0." bitfld.long 0x30 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x30 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x30 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x30 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." line.long 0x34 "APBADDR_ETM_CPU3_TRCRSCTLR15,Resource Selection Control Registers 15" hexmask.long.word 0x34 22.--31. 1. "RES0_TRCRSCTLR15_31_22,Reserved RES0." bitfld.long 0x34 21. "PAIRINV,If n is an even number controls whether the combined result from a resource pair is inverted: 0 The combined result is not inverted. 1 The combined result is inverted. If.." "0,1" bitfld.long 0x34 20. "INV,Controls whether the resource that GROUP and SELECT selects is inverted: 0 The selected resource is not inverted. 1 The selected resource is inverted." "0,1" newline hexmask.long.byte 0x34 16.--19. 1. "GROUP,Selects a group of resources. Possible values are: 0000 For SELECT bits 0 to 3 selects external input selector 0 to 3; other bits are reserved. 0001 For SELECT bits 0 to 7 selects processor.." hexmask.long.word 0x34 0.--15. 1. "SELECT,Selects one or more resources from the group that the GROUP field selects. Each bit represents a resource from the selected group.See the GROUP field description for details." group.long 0x280++0x3 line.long 0x0 "APBADDR_ETM_CPU3_TRCSSCCR0,Single-Shot Comparator Control Register 0" hexmask.long.byte 0x0 25.--31. 1. "RES0_TRCSSCCR0_31_25,Reserved RES0." bitfld.long 0x0 24. "RST,Controls whether the single-shot comparator resource is reset when it fires. 0 When the single-shot comparator resource fires it is not reset. 1 When the single-shot comparator resource fires .." "0,1" hexmask.long.byte 0x0 16.--23. 1. "ARC,Selects one or more address range comparators for single-shot control.Each bit represents an address range comparator pair so bit[n-16] controls the selection of address range comparator pair n-16. If bit[n-16] is: 0 The address.." newline hexmask.long.word 0x0 0.--15. 1. "SAC,Selects one or more single address comparators for single-shot control.Each bit represents a single address comparator so bit[n] controls the selection of single address comparator n. If bit[n] is: 0 The single address comparator.." group.long 0x2A0++0x3 line.long 0x0 "APBADDR_ETM_CPU3_TRCSSCSR0,Single-Shot Comparator Status Register 0" bitfld.long 0x0 31. "STATUS,Single-shot status bit. Indicates if any of the comparators that TRCSSCCRn.SAC or TRCSSCCRn.ARC selects have matched: 0 No match has occurred. 1 One or more matches has occurred. If.." "0,1" hexmask.long 0x0 3.--30. 1. "RES0_TRCSSCSR0_30_3,Reserved RES0." bitfld.long 0x0 2. "DV,Data value comparator support bit. Indicates if the trace unit supports data address with data value comparisons: 0 Single-shot data address with data value comparisons are not supported. 1.." "0,1" newline bitfld.long 0x0 1. "DA,Data address comparator support bit. Indicates if the trace unit supports data address comparisons: 0 Single-shot data address comparisons are not supported. 1 Single-shot data address.." "0,1" bitfld.long 0x0 0. "INST,Instruction address comparator support bit. Indicates if the trace unit supports instruction address comparisons: 0 Single-shot instruction address comparisons are not supported. 1 Single-shot.." "0,1" group.long 0x300++0x7 line.long 0x0 "APBADDR_ETM_CPU3_TRCOSLAR,OS Lock Access Register" hexmask.long 0x0 1.--31. 1. "RES0_TRCOSLAR_31_1,Reserved RES0." bitfld.long 0x0 0. "LOCK,OS Lock control bit: 0 Unlocks the OS Lock. 1 Locks the OS Lock. This setting disables the trace unit." "0,1" line.long 0x4 "APBADDR_ETM_CPU3_TRCOSLSR,OS Lock Status Register" hexmask.long 0x4 4.--31. 1. "RES0_TRCOSLSR_31_4,Reserved RES0." bitfld.long 0x4 3. "PRESENT,Indicates whether the OS Lock is implemented.This bit is RES1 which indicates that the OS Lock is always implemented." "0,1" bitfld.long 0x4 2. "BIT32,This bit is RES0 which indicates that software must perform a 32-bit write to update the TRCOSLAR." "0,1" newline bitfld.long 0x4 1. "LOCKED,OS Lock status bit: 0 The OS Lock is unlocked. 1 The OS Lock is locked. When the trace unit core power domain is powered down the value is UNKNOWN. The TRCPDSR indicates if.." "0,1" bitfld.long 0x4 0. "RES0_TRCOSLSR_0_0,Reserved RES0." "0,1" group.long 0x310++0x7 line.long 0x0 "APBADDR_ETM_CPU3_TRCPDCR,Power Down Control Register" hexmask.long 0x0 4.--31. 1. "RES0_TRCPDCR_31_4,Reserved RES0." bitfld.long 0x0 3. "PU,Powerup request bit: 0 The system can remove power from the trace unit. The TRCPDSR indicates if the trace unit is powered down. 1 The system must provide power to the trace unit." "0,1" bitfld.long 0x0 0.--2. "RES0_TRCPDCR_2_0,Reserved RES0." "0,1,2,3,4,5,6,7" line.long 0x4 "APBADDR_ETM_CPU3_TRCPDSR,Power Down Status Register" hexmask.long 0x4 6.--31. 1. "RES0_TRCPDSR_31_6,Reserved RES0." bitfld.long 0x4 5. "LOCKED,OS Lock status bit: 0 The OS Lock is unlocked. 1 The OS Lock is locked. The value is UNKNOWN when the trace unit core power domain is powered down that is when POWER==0." "0,1" bitfld.long 0x4 2.--4. "RES0_TRCPDSR_4_2,Reserved RES0." "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 1. "STICKYPD,Sticky powerdown status bit. Indicates whether the trace register state is valid: 0 If POWER==1 then the state of TRCOSLSR and the trace registers are valid. If POWER==0 then it is UNKNOWN whether the state of TRCOSLSR and the.." "0,1" bitfld.long 0x4 0. "POWER,Power status bit: 0 The trace unit core power domain is not powered. The trace registers are not accessible and they all return an error response. 1 The trace unit core power domain is.." "0,1" group.long 0x400++0x3F line.long 0x0 "APBADDR_ETM_CPU3_TRCACVR0_31_0,Address Comparator Value Registers 0 (low word)" hexmask.long 0x0 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x4 "APBADDR_ETM_CPU3_TRCACVR0_63_32,Address Comparator Value Registers 0 (high word)" hexmask.long 0x4 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x8 "APBADDR_ETM_CPU3_TRCACVR1_31_0,Address Comparator Value Registers 1 (low word)" hexmask.long 0x8 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0xC "APBADDR_ETM_CPU3_TRCACVR1_63_32,Address Comparator Value Registers 1 (high word)" hexmask.long 0xC 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x10 "APBADDR_ETM_CPU3_TRCACVR2_31_0,Address Comparator Value Registers 2 (low word)" hexmask.long 0x10 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x14 "APBADDR_ETM_CPU3_TRCACVR2_63_32,Address Comparator Value Registers 2 (high word)" hexmask.long 0x14 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x18 "APBADDR_ETM_CPU3_TRCACVR3_31_0,Address Comparator Value Registers 3 (low word)" hexmask.long 0x18 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x1C "APBADDR_ETM_CPU3_TRCACVR3_63_32,Address Comparator Value Registers 3 (high word)" hexmask.long 0x1C 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x20 "APBADDR_ETM_CPU3_TRCACVR4_31_0,Address Comparator Value Registers 4 (low word)" hexmask.long 0x20 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x24 "APBADDR_ETM_CPU3_TRCACVR4_63_32,Address Comparator Value Registers 4 (high word)" hexmask.long 0x24 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x28 "APBADDR_ETM_CPU3_TRCACVR5_31_0,Address Comparator Value Registers 5 (low word)" hexmask.long 0x28 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x2C "APBADDR_ETM_CPU3_TRCACVR5_63_32,Address Comparator Value Registers 5 (high word)" hexmask.long 0x2C 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x30 "APBADDR_ETM_CPU3_TRCACVR6_31_0,Address Comparator Value Registers 6 (low word)" hexmask.long 0x30 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x34 "APBADDR_ETM_CPU3_TRCACVR6_63_32,Address Comparator Value Registers 6 (high word)" hexmask.long 0x34 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x38 "APBADDR_ETM_CPU3_TRCACVR7_31_0,Address Comparator Value Registers 7 (low word)" hexmask.long 0x38 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." line.long 0x3C "APBADDR_ETM_CPU3_TRCACVR7_63_32,Address Comparator Value Registers 7 (high word)" hexmask.long 0x3C 0.--31. 1. "ADDRESS,Address value.The address comparators can support implementations that use multiple address widths. When the trace unit compares the ADDRESS field with an address that has a width less than this field then it must ignore those upper bits in the.." group.long 0x480++0x3 line.long 0x0 "APBADDR_ETM_CPU3_TRCACATR0,Address Comparator Access Type Registers 0" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR0_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR0_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x488++0x3 line.long 0x0 "APBADDR_ETM_CPU3_TRCACATR1,Address Comparator Access Type Registers 1" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR1_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR1_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x490++0x3 line.long 0x0 "APBADDR_ETM_CPU3_TRCACATR2,Address Comparator Access Type Registers 2" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR2_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR2_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x498++0x3 line.long 0x0 "APBADDR_ETM_CPU3_TRCACATR3,Address Comparator Access Type Registers 3" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR3_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR3_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x4A0++0x3 line.long 0x0 "APBADDR_ETM_CPU3_TRCACATR4,Address Comparator Access Type Registers 4" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR4_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR4_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x4A8++0x3 line.long 0x0 "APBADDR_ETM_CPU3_TRCACATR5,Address Comparator Access Type Registers 5" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR5_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR5_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x4B0++0x3 line.long 0x0 "APBADDR_ETM_CPU3_TRCACATR6,Address Comparator Access Type Registers 6" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR6_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR6_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x4B8++0x3 line.long 0x0 "APBADDR_ETM_CPU3_TRCACATR7,Address Comparator Access Type Registers 7" hexmask.long.word 0x0 22.--31. 1. "RES0_TRCACATR7_31_22,Reserved RES0." bitfld.long 0x0 21. "DTBM,Controls whether data address comparisons use the data address [63:56] bits: 0 The trace unit ignores the data address [63:56] bits for data address comparisons. 1 The trace unit uses the data.." "0,1" bitfld.long 0x0 20. "DATARANGE,Controls whether a data value comparison uses the single address comparator or the address range comparator: 0 The trace unit uses the single address comparator for data value comparisons. The behavior of the address range.." "0,1" newline bitfld.long 0x0 18.--19. "DATASIZE,Controls the width of the data value comparison: 00 Byte. 01 Halfword. 10 Word. 11 Doubleword." "0,1,2,3" bitfld.long 0x0 16.--17. "DATAMATCH,Controls how the trace unit performs a data value comparison: 00 The trace unit does not perform a data value comparison. 01 The trace unit performs a data value comparison and signals a.." "0,1,2,3" hexmask.long.byte 0x0 12.--15. 1. "EXLEVEL_NS,In Non-secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Non-secure state for exception level n. 1.." newline hexmask.long.byte 0x0 8.--11. 1. "EXLEVEL_S,In Secure state each bit controls whether a comparison can occur for the corresponding exception level: 0 The trace unit can perform a comparison in Secure state for exception level n. 1.." bitfld.long 0x0 7. "RES0_TRCACATR7_7_7,Reserved RES0." "0,1" bitfld.long 0x0 4.--6. "CONTEXT,If TRCIDR4.NUMCIDFC > 0 or TRCIDR4.NUMVMIDC > 0 selects a Context ID comparator or VMID comparator: 000 Comparator 0. 001 Comparator 1. 010 Comparator.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2.--3. "CONTEXTTYPE,If TRCIDR4.NUMVMIDC>0 and TRCIDR4.NUMCIDC>0 this field controls whether the trace unit performs a Context ID comparison a virtual machine identifier [VMID] comparison or both comparisons: 00 The trace unit does not.." "0,1,2,3" bitfld.long 0x0 0.--1. "TYPE,Controls what type of comparison the trace unit performs: 00 Instruction address. 01 Data load address. 10 Data store address. 11.." "0,1,2,3" group.long 0x600++0x3 line.long 0x0 "APBADDR_ETM_CPU3_TRCCIDCVR0,Context ID Comparator Value Register 0" hexmask.long 0x0 0.--31. 1. "VALUE,Context ID value. The implemented width of this field is IMPLEMENTATION DEFINED and is set by TRCIDR2.CIDSIZE. Unimplemented bits are RAZ/WI.After a processor reset the ETM architecture assumes that the Context ID is zero until the processor.." group.long 0x640++0x3 line.long 0x0 "APBADDR_ETM_CPU3_TRCVMIDCVR0,VMID Comparator Value Register 0" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--7. 1. "VALUE,Contains a VMID value." group.long 0x680++0x3 line.long 0x0 "APBADDR_ETM_CPU3_TRCCIDCCTLR0,Context ID Comparator Control Register 0" hexmask.long 0x0 0.--31. 1. "COMP_N,Controls the mask value that the trace unit applies to TRCCIDCVRn. Each bit in this field corresponds to a byte in TRCCIDCVRn. When a bit is: 0 The trace unit includes the relevant byte in TRCCIDCVRn when it performs the Context.." group.long 0xEE4++0x3 line.long 0x0 "APBADDR_ETM_CPU3_TRCITATBIDR,Integration ATB Identification Register" hexmask.long 0x0 7.--31. 1. "RES0_TRCITATBIDR_31_7,Reserved RES0" hexmask.long.byte 0x0 0.--6. 1. "ID,Drives the ATIDMn[6:0] output pins" group.long 0xEEC++0x3 line.long 0x0 "APBADDR_ETM_CPU3_TRCITIDATAR,Integration Instruction ATB Data Register" hexmask.long 0x0 5.--31. 1. "RES0_TRCITIDATAR_31_5,Reserved RES0" bitfld.long 0x0 4. "ATDATAM_31,Drives the ATDATAM[31] output" "0,1" bitfld.long 0x0 3. "ATDATAM_23,Drives the ATDATAM[23] output" "0,1" newline bitfld.long 0x0 2. "ATDATAM_15,Drives the ATDATAM[15] output" "0,1" bitfld.long 0x0 1. "ATDATAM_7,Drives the ATDATAM[7] output" "0,1" bitfld.long 0x0 0. "ATDATAM_0,Drives the ATDATAM[0] output" "0,1" group.long 0xEF4++0x3 line.long 0x0 "APBADDR_ETM_CPU3_TRCITIATBINR,Integration Instruction ATB In Register" hexmask.long 0x0 2.--31. 1. "RESERVED,Reserved. Read undefined." bitfld.long 0x0 1. "AFVALIDM,Returns the value of the AFVALIDMn input pin" "0,1" bitfld.long 0x0 0. "ATREADYM,Returns the value of the ATREADYMn input pin" "0,1" group.long 0xEFC++0x7 line.long 0x0 "APBADDR_ETM_CPU3_TRCITIATBOUTR,Integration Instruction ATB Out Register" hexmask.long.tbyte 0x0 10.--31. 1. "RESERVED,Reserved. Read undefined." bitfld.long 0x0 8.--9. "BYTES,Drives the ATBYTESMn[1:0] output pins" "0,1,2,3" hexmask.long.byte 0x0 2.--7. 1. "RESERVED,Reserved. Read undefined." newline bitfld.long 0x0 1. "AFREADY,Drives the AFREADYMn output pin" "0,1" bitfld.long 0x0 0. "ATVALID,Drives the ATVALIDMn output pin" "0,1" line.long 0x4 "APBADDR_ETM_CPU3_TRCITCTRL,Integration Mode Control Register" hexmask.long 0x4 1.--31. 1. "RES0_TRCITCTRL_31_1,Reserved RES0." bitfld.long 0x4 0. "ITEN,Integration mode enable bit: 0 The trace unit is not in integration mode. 1 The trace unit is in integration mode. This mode enables a debug agent to perform topology detection and.." "0,1" group.long 0xFA0++0x1F line.long 0x0 "APBADDR_ETM_CPU3_TRCCLAIMSET,Claim Tag Set Register" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--3. 1. "SET,Sets bits in the claim tag and determines the number of claim tag bits implemented." line.long 0x4 "APBADDR_ETM_CPU3_TRCCLAIMCLR,Claim Tag Clear Register" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "CLR,Clears bits in the claim tag and determines the current value of the claim tag." line.long 0x8 "APBADDR_ETM_CPU3_TRCDEVAFF0,Device Affinity Register 0" hexmask.long 0x8 0.--31. 1. "MPIDR_EL1_31_0,Read-only copy of the low half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0xC "APBADDR_ETM_CPU3_TRCDEVAFF1,Device Affinity Register 1" hexmask.long 0xC 0.--31. 1. "MPIDR_EL1_63_32,Read-only copy of the high half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x10 "APBADDR_ETM_CPU3_TRCLAR,Software Lock Access Register" hexmask.long 0x10 0.--31. 1. "KEY,Writing the key value 0xC5ACCE55 to this field clears the lock enabling write accesses to this component's registers through a memory-mapped interface.Writing any other value to this register sets the lock disabling write accesses to this.." line.long 0x14 "APBADDR_ETM_CPU3_TRCLSR,Software Lock Status Register" hexmask.long 0x14 3.--31. 1. "RES0_TRCLSR_31_3,Reserved RES0." bitfld.long 0x14 2. "NTT,Not thirty-two bit access required. RAZ." "0,1" bitfld.long 0x14 1. "SLK,Software lock status for this component. Possible values of this field are: 0 Lock clear. Writes are permitted to this component's registers. 1 Lock set. Writes to this component's registers.." "0,1" newline bitfld.long 0x14 0. "SLI,Software lock implemented. RAO." "0,1" line.long 0x18 "APBADDR_ETM_CPU3_TRCAUTHSTATUS,Authentication Status Register" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_TRCAUTHSTATUS_31_8,Reserved RES0." bitfld.long 0x18 6.--7. "SNID,Indicates whether the system enables the trace unit to support Secure non-invasive debug: 00 The trace unit does not implement support for Secure non-invasive debug. 01 Reserved." "0,1,2,3" bitfld.long 0x18 4.--5. "SID,Indicates whether the trace unit supports Secure invasive debug: 00 The trace unit does not support Secure invasive debug. All other values are reserved." "0,1,2,3" newline bitfld.long 0x18 2.--3. "NSNID,Indicates whether the system enables the trace unit to support Non-secure non-invasive debug: 00 The trace unit does not implement support for Non-secure non-invasive debug. 01 Reserved." "0,1,2,3" bitfld.long 0x18 0.--1. "NSID,Indicates whether the trace unit supports Non-secure invasive debug: 00 The trace unit does not support Non-secure invasive debug. All other values are reserved." "0,1,2,3" line.long 0x1C "APBADDR_ETM_CPU3_TRCDEVARCH,Device Architecture Register" hexmask.long.word 0x1C 21.--31. 1. "ARCHITECT,Defines the architecture of the component. For trace this is ARM Limited.Bits [31:28] are the JEP 106 continuation code 0x4.Bits [27:21] are the JEP 106 ID code 0x3B." bitfld.long 0x1C 20. "PRESENT,When set to 1 indicates that the DEVARCH is present.This field is RAO." "0,1" hexmask.long.byte 0x1C 16.--19. 1. "REVISION,Defines the architecture revision. For architectures defined by ARM this is the minor revision.For trace the revision defined by ETMv4 is 0x0.All other values are reserved." newline hexmask.long.word 0x1C 0.--15. 1. "ARCHID,Defines this part to be a v8-A debug component. For architectures defined by ARM this is further subdivided.For trace bits [15:12] are the architecture version 0x4; bits [11:0] are the architecture part number 0xA13.This corresponds to trace.." group.long 0xFC8++0x37 line.long 0x0 "APBADDR_ETM_CPU3_TRCDEVID,Device ID Register" hexmask.long 0x0 0.--31. 1. "DEVID,Indicates the capabilities of the trace unit. The implemented width of this field and its bit assignments are IMPLEMENTATION DEFINED. Unimplemented bits are RAZ/WI.If a component is configurable then ARM recommends that this field can also indicate.." line.long 0x4 "APBADDR_ETM_CPU3_TRCDEVTYPE,Device Type Register" hexmask.long.tbyte 0x4 8.--31. 1. "RES0_TRCDEVTYPE_31_8,Reserved RES0." hexmask.long.byte 0x4 4.--7. 1. "SUB,Returns 0x1 to indicate that the ETM generates processor trace.All other values are reserved." hexmask.long.byte 0x4 0.--3. 1. "MAIN,Returns 0x3 to indicate that the ETM is a trace source.All other values are reserved." line.long 0x8 "APBADDR_ETM_CPU3_TRCPIDR4,Peripheral Identification Register 4" hexmask.long.tbyte 0x8 8.--31. 1. "RES0_TRCPIDR4_31_8,Reserved RES0." hexmask.long.byte 0x8 4.--7. 1. "SIZE,Size of the component. RES0. This indicates that the ETM memory map occupies 4KB." hexmask.long.byte 0x8 0.--3. 1. "DES_2,Designer JEP106 continuation code. For ARM Limited this field is 0b0100." line.long 0xC "APBADDR_ETM_CPU3_TRCPIDR5,Peripheral Identification Register 5" hexmask.long.tbyte 0xC 8.--31. 1. "RES0_TRCPIDR5_31_8,Reserved RES0." hexmask.long.byte 0xC 0.--7. 1. "RESERVED,RES0 reserved for future use." line.long 0x10 "APBADDR_ETM_CPU3_TRCPIDR6,Peripheral Identification Register 6" hexmask.long.tbyte 0x10 8.--31. 1. "RES0_TRCPIDR6_31_8,Reserved RES0." hexmask.long.byte 0x10 0.--7. 1. "RESERVED,RES0 reserved for future use." line.long 0x14 "APBADDR_ETM_CPU3_TRCPIDR7,Peripheral Identification Register 7" hexmask.long.tbyte 0x14 8.--31. 1. "RES0_TRCPIDR7_31_8,Reserved RES0." hexmask.long.byte 0x14 0.--7. 1. "RESERVED,RES0 reserved for future use." line.long 0x18 "APBADDR_ETM_CPU3_TRCPIDR0,Peripheral Identification Register 0" hexmask.long.tbyte 0x18 8.--31. 1. "RES0_TRCPIDR0_31_8,Reserved RES0." hexmask.long.byte 0x18 0.--7. 1. "PART_0,Part number bits[7:0]." line.long 0x1C "APBADDR_ETM_CPU3_TRCPIDR1,Peripheral Identification Register 1" hexmask.long.tbyte 0x1C 8.--31. 1. "RES0_TRCPIDR1_31_8,Reserved RES0." hexmask.long.byte 0x1C 4.--7. 1. "DES_0,Designer bits[3:0] of JEP106 ID code. For ARM Limited this field is 0b1011." hexmask.long.byte 0x1C 0.--3. 1. "PART_1,Part number bits[11:8]." line.long 0x20 "APBADDR_ETM_CPU3_TRCPIDR2,Peripheral Identification Register 2" hexmask.long.tbyte 0x20 8.--31. 1. "RES0_TRCPIDR2_31_8,Reserved RES0." hexmask.long.byte 0x20 4.--7. 1. "REVISION,The IMPLEMENTATION DEFINED revision number for the ETM implementation. See also TRCIDR1.REVISION." bitfld.long 0x20 3. "JEDEC,RAO. Indicates a JEP106 identity code is used." "0,1" newline bitfld.long 0x20 0.--2. "DES_1,Designer most significant bits of JEP106 ID code. For ARM Limited this field is 0b011." "0,1,2,3,4,5,6,7" line.long 0x24 "APBADDR_ETM_CPU3_TRCPIDR3,Peripheral Identification Register 3" hexmask.long.tbyte 0x24 8.--31. 1. "RES0_TRCPIDR3_31_8,Reserved RES0." hexmask.long.byte 0x24 4.--7. 1. "REVAND,The IMPLEMENTATION DEFINED manufacturing revision number for the implementation. After silicon is available if metal fixes are necessary the manufacturer can alter the top metal layer so that this field can indicate any post-fab silicon changes." hexmask.long.byte 0x24 0.--3. 1. "CMOD,Customer modified. Indicates someone other than the Designer has modified the component." line.long 0x28 "APBADDR_ETM_CPU3_TRCCIDR0,Component Identification Register 0" hexmask.long.tbyte 0x28 8.--31. 1. "RES0_TRCCIDR0_31_8,Reserved RES0." hexmask.long.byte 0x28 0.--7. 1. "PRMBL_0,Preamble. Must read as 0x0D." line.long 0x2C "APBADDR_ETM_CPU3_TRCCIDR1,Component Identification Register 1" hexmask.long.tbyte 0x2C 8.--31. 1. "RES0_TRCCIDR1_31_8,Reserved RES0." hexmask.long.byte 0x2C 4.--7. 1. "CLASS,Component class. Reads as 0x9 to indicate that the ETM is a debug component with CoreSight architecture compliant management registers." hexmask.long.byte 0x2C 0.--3. 1. "PRMBL_1,Preamble. Must read as 0x0." line.long 0x30 "APBADDR_ETM_CPU3_TRCCIDR2,Component Identification Register 2" hexmask.long.tbyte 0x30 8.--31. 1. "RES0_TRCCIDR2_31_8,Reserved RES0." hexmask.long.byte 0x30 0.--7. 1. "PRMBL_2,Preamble. Must read as 0x05." line.long 0x34 "APBADDR_ETM_CPU3_TRCCIDR3,Component Identification Register 3" hexmask.long.tbyte 0x34 8.--31. 1. "RES0_TRCCIDR3_31_8,Reserved RES0." hexmask.long.byte 0x34 0.--7. 1. "PRMBL_3,Preamble. Must read as 0xB1." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "A53SS0_CORE3_CTI (A53SS0_CORE3_CTI)" base ad:0x730340000 group.long 0x0++0x3 line.long 0x0 "APBADDR_CTI_CPU3_CTICONTROL,CTI Control Register" hexmask.long 0x0 1.--31. 1. "RES0_CTICONTROL_31_1,Reserved RES0." bitfld.long 0x0 0. "GLBEN,Enables or disables the CTI mapping functions. Possible values of this field are: 0 CTI mapping functions disabled. 1 CTI mapping functions enabled. When the mapping.." "0,1" group.long 0x10++0x2F line.long 0x0 "APBADDR_CTI_CPU3_CTIINTACK,CTI Output Trigger Acknowledge Register" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--7. 1. "ACK_N,Can be used to create soft acknowledges for output triggers" line.long 0x4 "APBADDR_CTI_CPU3_CTIAPPSET,CTI Application Trigger Set Register" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "CTIAPPSETX,Application trigger <x> enable" line.long 0x8 "APBADDR_CTI_CPU3_CTIAPPCLEAR,CTI Application Trigger Clear Register" hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x8 0.--3. 1. "CTIAPPCLEARX,Application trigger <x> disable" line.long 0xC "APBADDR_CTI_CPU3_CTIAPPPULSE,CTI Application Pulse Register" hexmask.long 0xC 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0xC 0.--3. 1. "CTIAPPPULSEX,Generate event pulse on ECT channel <x>." line.long 0x10 "APBADDR_CTI_CPU3_CTIINEN0,CTI Input Trigger to Output Channel Enable Register 0" hexmask.long 0x10 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x10 0.--3. 1. "INENX,Input trigger 0 to output channel <x> enable" line.long 0x14 "APBADDR_CTI_CPU3_CTIINEN1,CTI Input Trigger to Output Channel Enable Register 1" hexmask.long 0x14 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x14 0.--3. 1. "INENX,Input trigger 1 to output channel <x> enable" line.long 0x18 "APBADDR_CTI_CPU3_CTIINEN2,CTI Input Trigger to Output Channel Enable Register 2" hexmask.long 0x18 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x18 0.--3. 1. "INENX,Input trigger 2 to output channel <x> enable" line.long 0x1C "APBADDR_CTI_CPU3_CTIINEN3,CTI Input Trigger to Output Channel Enable Register 3" hexmask.long 0x1C 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x1C 0.--3. 1. "INENX,Input trigger 3 to output channel <x> enable" line.long 0x20 "APBADDR_CTI_CPU3_CTIINEN4,CTI Input Trigger to Output Channel Enable Register 4" hexmask.long 0x20 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x20 0.--3. 1. "INENX,Input trigger 4 to output channel <x> enable" line.long 0x24 "APBADDR_CTI_CPU3_CTIINEN5,CTI Input Trigger to Output Channel Enable Register 5" hexmask.long 0x24 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x24 0.--3. 1. "INENX,Input trigger 5 to output channel <x> enable" line.long 0x28 "APBADDR_CTI_CPU3_CTIINEN6,CTI Input Trigger to Output Channel Enable Register 6" hexmask.long 0x28 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x28 0.--3. 1. "INENX,Input trigger 6 to output channel <x> enable" line.long 0x2C "APBADDR_CTI_CPU3_CTIINEN7,CTI Input Trigger to Output Channel Enable Register 7" hexmask.long 0x2C 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x2C 0.--3. 1. "INENX,Input trigger 7 to output channel <x> enable" group.long 0xA0++0x1F line.long 0x0 "APBADDR_CTI_CPU3_CTIOUTEN0,CTI Input Channel to Output Trigger Enable Register 0" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--3. 1. "OUTENX,Input channel <x> to output trigger 0 enable" line.long 0x4 "APBADDR_CTI_CPU3_CTIOUTEN1,CTI Input Channel to Output Trigger Enable Register 1" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "OUTENX,Input channel <x> to output trigger 1 enable" line.long 0x8 "APBADDR_CTI_CPU3_CTIOUTEN2,CTI Input Channel to Output Trigger Enable Register 2" hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x8 0.--3. 1. "OUTENX,Input channel <x> to output trigger 2 enable" line.long 0xC "APBADDR_CTI_CPU3_CTIOUTEN3,CTI Input Channel to Output Trigger Enable Register 3" hexmask.long 0xC 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0xC 0.--3. 1. "OUTENX,Input channel <x> to output trigger 3 enable" line.long 0x10 "APBADDR_CTI_CPU3_CTIOUTEN4,CTI Input Channel to Output Trigger Enable Register 4" hexmask.long 0x10 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x10 0.--3. 1. "OUTENX,Input channel <x> to output trigger 4 enable" line.long 0x14 "APBADDR_CTI_CPU3_CTIOUTEN5,CTI Input Channel to Output Trigger Enable Register 5" hexmask.long 0x14 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x14 0.--3. 1. "OUTENX,Input channel <x> to output trigger 5 enable" line.long 0x18 "APBADDR_CTI_CPU3_CTIOUTEN6,CTI Input Channel to Output Trigger Enable Register 6" hexmask.long 0x18 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x18 0.--3. 1. "OUTENX,Input channel <x> to output trigger 6 enable" line.long 0x1C "APBADDR_CTI_CPU3_CTIOUTEN7,CTI Input Channel to Output Trigger Enable Register 7" hexmask.long 0x1C 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x1C 0.--3. 1. "OUTENX,Input channel <x> to output trigger 7 enable" group.long 0x130++0x17 line.long 0x0 "APBADDR_CTI_CPU3_CTITRIGINSTATUS,CTI Trigger In Status Register" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--7. 1. "TRINN,Provides the status of the trigger inputs" line.long 0x4 "APBADDR_CTI_CPU3_CTITRIGOUTSTATUS,CTI Trigger Out Status Register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--7. 1. "TROUTN,Provides the status of the trigger outputs" line.long 0x8 "APBADDR_CTI_CPU3_CTICHINSTATUS,CTI Channel In Status Register" hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x8 0.--3. 1. "CHINN,Provides the raw status of the ECT channel inputs to the CTI" line.long 0xC "APBADDR_CTI_CPU3_CTICHOUTSTATUS,CTI Channel Out Status Register" hexmask.long 0xC 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0xC 0.--3. 1. "CHOUTN,Provides the status of the ECT channel outputs from the CTI" line.long 0x10 "APBADDR_CTI_CPU3_CTIGATE,CTI Channel Gate Enable Register" hexmask.long 0x10 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x10 0.--3. 1. "GATEX,Determines whether events on channels propagate through the CTM to other ECT components or from the CTM into the CTI" line.long 0x14 "APBADDR_CTI_CPU3_ASICCTL,CTI External Multiplexor Control register" hexmask.long.tbyte 0x14 8.--31. 1. "RES0_ASICCTL_31_8,Reserved RES0." hexmask.long.byte 0x14 0.--7. 1. "ASICCTL,IMPLEMENTATION DEFINED ASIC control. Provides a control for external multiplexing of additional triggers into the CTI.If external multiplexing of trigger signals is implemented then the number of multiplexed signals on each trigger must be.." group.long 0xF00++0x3 line.long 0x0 "APBADDR_CTI_CPU3_CTIITCTRL,CTI Integration mode Control Register" hexmask.long 0x0 1.--31. 1. "RES0_CTIITCTRL_31_1,Reserved RES0." bitfld.long 0x0 0. "IME,Integration mode enable. When IME == 1 the device reverts to an integration mode to enable integration testing or topology detection. The integration mode behavior is IMPLEMENTATION DEFINED. 0 Normal operation." "0,1" group.long 0xFA0++0x5F line.long 0x0 "APBADDR_CTI_CPU3_CTICLAIMSET,CTI Claim Set" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x0 0.--3. 1. "CLAIMX,CLAIM tag set bit" line.long 0x4 "APBADDR_CTI_CPU3_CTICLAIMCLR,CTI Claim Clear" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved RES0" hexmask.long.byte 0x4 0.--3. 1. "CLAIMX,Clear CLAIM tag" line.long 0x8 "APBADDR_CTI_CPU3_CTIDEVAFF0,CTI Device Affinity Register 0" hexmask.long 0x8 0.--31. 1. "CTIDEVAFF0,MPIDR_EL1 low half. Read-only copy of the low half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0xC "APBADDR_CTI_CPU3_CTIDEVAFF1,CTI Device Affinity Register 1" hexmask.long 0xC 0.--31. 1. "CTIDEVAFF1,MPIDR_EL1 high half. Read-only copy of the high half of MPIDR_EL1 as seen from the highest implemented exception level." line.long 0x10 "APBADDR_CTI_CPU3_CTILAR,CTI Lock Access Register" hexmask.long 0x10 0.--31. 1. "KEY,Lock Access control. Writing the key value 0xC5ACCE55 to this field unlocks the lock enabling write accesses to this component's registers through a memory-mapped interface.Writing any other value to this register locks the lock disabling write.." line.long 0x14 "APBADDR_CTI_CPU3_CTILSR,CTI Lock Status Register" hexmask.long 0x14 3.--31. 1. "RES0_CTILSR_31_3,Reserved RES0." bitfld.long 0x14 2. "NTT,Not thirty-two bit access required. RAZ." "0,1" bitfld.long 0x14 1. "SLK,Software lock status for this component. For an access to LSR that is not a memory-mapped access or when the software lock is not implemented this field is RES0.For memory-mapped accesses when the software lock is implemented possible values of.." "0,1" newline bitfld.long 0x14 0. "SLI,Software lock implemented. For an access to LSR that is not a memory-mapped access this field is RAZ. For memory-mapped accesses the value of this field is IMPLEMENTATION DEFINED. Permitted values are: 0 Software lock not.." "0,1" line.long 0x18 "APBADDR_CTI_CPU3_CTIAUTHSTATUS,CTI Authentication Status Register" hexmask.long 0x18 4.--31. 1. "RES0_CTIAUTHSTATUS_31_4,Reserved RES0." bitfld.long 0x18 2.--3. "NSNID,If EL3 is not implemented and the processor is Secure holds the same value as DBGAUTHSTATUS_EL1.SNID.Otherwise holds the same value as DBGAUTHSTATUS_EL1.NSNID." "0,1,2,3" bitfld.long 0x18 0.--1. "NSID,If EL3 is not implemented and the processor is Secure holds the same value as DBGAUTHSTATUS_EL1.SID.Otherwise holds the same value as DBGAUTHSTATUS_EL1.NSID." "0,1,2,3" line.long 0x1C "APBADDR_CTI_CPU3_CTIDEVARCH,CTI Device Architecture Register" hexmask.long.word 0x1C 21.--31. 1. "ARCHITECT,Defines the architecture of the component. For CTI this is ARM Limited.Bits [31:28] are the JEP 106 continuation code 0x4.Bits [27:21] are the JEP 106 ID code 0x3B." bitfld.long 0x1C 20. "PRESENT,When set to 1 indicates that the DEVARCH is present.This field is 1 in v8-A." "0,1" hexmask.long.byte 0x1C 16.--19. 1. "REVISION,Defines the architecture revision. For architectures defined by ARM this is the minor revision.For CTI the revision defined by v8-A is 0x0.All other values are reserved." newline hexmask.long.word 0x1C 0.--15. 1. "ARCHID,Defines this part to be a v8-A debug component. For architectures defined by ARM this is further subdivided.For CTI:Bits [15:12] are the architecture version 0x1.Bits [11:0] are the architecture part number 0xA14.This corresponds to CTI.." line.long 0x20 "APBADDR_CTI_CPU3_CTIDEVID2,CTI Device ID Register 2" hexmask.long 0x20 0.--31. 1. "RES0_CTIDEVID2_31_0,Reserved RES0." line.long 0x24 "APBADDR_CTI_CPU3_CTIDEVID1,CTI Device ID Register 1" hexmask.long 0x24 0.--31. 1. "RES0_CTIDEVID1_31_0,Reserved RES0." line.long 0x28 "APBADDR_CTI_CPU3_CTIDEVID,CTI Device ID Register 0" hexmask.long.byte 0x28 26.--31. 1. "RES0_CTIDEVID_31_26,Reserved RES0." bitfld.long 0x28 24.--25. "INOUT,Input/output options. Indicates presence of the input gate. If the CTM is not implemented this field is RAZ. 00 CTIGATE does not mask propagation of input events from external channels. 01.." "0,1,2,3" bitfld.long 0x28 22.--23. "RES0_CTIDEVID_23_22,Reserved RES0." "0,1,2,3" newline hexmask.long.byte 0x28 16.--21. 1. "NUMCHAN,Number of ECT channels implemented. IMPLEMENTATION DEFINED. For v8-A valid values are: 000011 3 channels [0..2] implemented. 000100 4 channels [0..3] implemented." bitfld.long 0x28 14.--15. "RES0_CTIDEVID_15_14,Reserved RES0." "0,1,2,3" hexmask.long.byte 0x28 8.--13. 1. "NUMTRIG,Number of triggers implemented. IMPLEMENTATION DEFINED. This is one more than the index of the largest trigger rather than the actual number of triggers.For v8-A valid values are: 000011 Up to 3 triggers [0..2] implemented." newline bitfld.long 0x28 5.--7. "RES0_CTIDEVID_7_5,Reserved RES0." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x28 0.--4. 1. "EXTMUXNUM,Maximum number of external triggers available for multiplexing into the CTI. This relates only to additional external triggers outside those defined for v8-A." line.long 0x2C "APBADDR_CTI_CPU3_CTIDEVTYPE,CTI Device Type Register" hexmask.long.tbyte 0x2C 8.--31. 1. "RES0_CTIDEVTYPE_31_8,Reserved RES0." hexmask.long.byte 0x2C 4.--7. 1. "SUB,Subtype. Must read as 0x1 to indicate this is a processor component." hexmask.long.byte 0x2C 0.--3. 1. "MAJOR,Major type. Must read as 0x4 to indicate this is a cross-trigger component." line.long 0x30 "APBADDR_CTI_CPU3_CTIPIDR4,CTI Peripheral Identification Register 4" hexmask.long.tbyte 0x30 8.--31. 1. "RES0_CTIPIDR4_31_8,Reserved RES0." hexmask.long.byte 0x30 4.--7. 1. "SIZE,Size of the component. RAZ. Log2 of the number of 4KB pages from the start of the component to the end of the component ID registers." hexmask.long.byte 0x30 0.--3. 1. "DES_2,Designer JEP106 continuation code least significant nibble. For ARM Limited this field is 0b0100." line.long 0x34 "APBADDR_CTI_CPU3_CTIPIDR5,CTI Peripheral Identification Register 5" hexmask.long 0x34 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x38 "APBADDR_CTI_CPU3_CTIPIDR6,CTI Peripheral Identification Register 6" hexmask.long 0x38 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x3C "APBADDR_CTI_CPU3_CTIPIDR7,CTI Peripheral Identification Register 7" hexmask.long 0x3C 0.--31. 1. "RESERVED,Reserved RES0" line.long 0x40 "APBADDR_CTI_CPU3_CTIPIDR0,CTI Peripheral Identification Register 0" hexmask.long.tbyte 0x40 8.--31. 1. "RES0_CTIPIDR0_31_8,Reserved RES0." hexmask.long.byte 0x40 0.--7. 1. "PART_0,Part number least significant byte." line.long 0x44 "APBADDR_CTI_CPU3_CTIPIDR1,CTI Peripheral Identification Register 1" hexmask.long.tbyte 0x44 8.--31. 1. "RES0_CTIPIDR1_31_8,Reserved RES0." hexmask.long.byte 0x44 4.--7. 1. "DES_0,Designer least significant nibble of JEP106 ID code. For ARM Limited this field is 0b1011." hexmask.long.byte 0x44 0.--3. 1. "PART_1,Part number most significant nibble." line.long 0x48 "APBADDR_CTI_CPU3_CTIPIDR2,CTI Peripheral Identification Register 2" hexmask.long.tbyte 0x48 8.--31. 1. "RES0_CTIPIDR2_31_8,Reserved RES0." hexmask.long.byte 0x48 4.--7. 1. "REVISION,Part major revision. Parts can also use this field to extend Part number to 16-bits." bitfld.long 0x48 3. "JEDEC,RAO. Indicates a JEP106 identity code is used." "0,1" newline bitfld.long 0x48 0.--2. "DES_1,Designer most significant bits of JEP106 ID code. For ARM Limited this field is 0b011." "0,1,2,3,4,5,6,7" line.long 0x4C "APBADDR_CTI_CPU3_CTIPIDR3,CTI Peripheral Identification Register 3" hexmask.long.tbyte 0x4C 8.--31. 1. "RES0_CTIPIDR3_31_8,Reserved RES0." hexmask.long.byte 0x4C 4.--7. 1. "REVAND,Part minor revision. Parts using CTIPIDR2.REVISION as an extension to the Part number must use this field as a major revision number." hexmask.long.byte 0x4C 0.--3. 1. "CMOD,Customer modified. Indicates someone other than the Designer has modified the component." line.long 0x50 "APBADDR_CTI_CPU3_CTICIDR0,CTI Component Identification Register 0" hexmask.long.tbyte 0x50 8.--31. 1. "RES0_CTICIDR0_31_8,Reserved RES0." hexmask.long.byte 0x50 0.--7. 1. "PRMBL_0,Preamble. Must read as 0x0D." line.long 0x54 "APBADDR_CTI_CPU3_CTICIDR1,CTI Component Identification Register 1" hexmask.long.tbyte 0x54 8.--31. 1. "RES0_CTICIDR1_31_8,Reserved RES0." hexmask.long.byte 0x54 4.--7. 1. "CLASS,Component class. Reads as 0x9 debug component." hexmask.long.byte 0x54 0.--3. 1. "PRMBL_1,Preamble. RAZ." line.long 0x58 "APBADDR_CTI_CPU3_CTICIDR2,CTI Component Identification Register 2" hexmask.long.tbyte 0x58 8.--31. 1. "RES0_CTICIDR2_31_8,Reserved RES0." hexmask.long.byte 0x58 0.--7. 1. "PRMBL_2,Preamble. Must read as 0x05." line.long 0x5C "APBADDR_CTI_CPU3_CTICIDR3,CTI Component Identification Register 3" hexmask.long.tbyte 0x5C 8.--31. 1. "RES0_CTICIDR3_31_8,Reserved RES0." hexmask.long.byte 0x5C 0.--7. 1. "PRMBL_3,Preamble. Must read as 0xB1." tree.end endif tree.end tree "A53SS0_SS" tree "A53SS0_SS_ECC_AGGR (A53SS0_SS_ECC_AGGR)" base ad:0x718000 rgroup.long 0x0++0x3 line.long 0x0 "ECC_AGGR_COREPAC_REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECC_AGGR_COREPAC_REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECC_AGGR_COREPAC_REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECC_AGGR_COREPAC_REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECC_AGGR_COREPAC_REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_COREPAC_REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 23. "A53_DUAL_U_L2_DATARAM_SPRAM_7_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_dataram_spram_7_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 22. "A53_DUAL_U_L2_DATARAM_SPRAM_6_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_dataram_spram_6_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 21. "A53_DUAL_U_L2_DATARAM_SPRAM_5_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_dataram_spram_5_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 20. "A53_DUAL_U_L2_DATARAM_SPRAM_4_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_dataram_spram_4_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 19. "A53_DUAL_U_L2_DATARAM_SPRAM_3_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_dataram_spram_3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 18. "A53_DUAL_U_L2_DATARAM_SPRAM_2_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_dataram_spram_2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 17. "A53_DUAL_U_L2_DATARAM_SPRAM_1_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_dataram_spram_1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 16. "A53_DUAL_U_L2_DATARAM_SPRAM_0_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_dataram_spram_0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 15. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY15_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way15_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 14. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY14_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way14_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 13. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY13_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way13_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 12. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY12_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way12_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 11. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY11_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way11_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 10. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY10_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way10_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 9. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY9_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way9_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 8. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY8_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way8_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 7. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY7_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way7_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 6. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY6_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way6_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 5. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY5_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way5_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 4. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY4_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way4_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 3. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY3_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 2. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY2_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 1. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY1_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 0. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY0_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way0_ecc_svbus_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECC_AGGR_COREPAC_REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 23. "A53_DUAL_U_L2_DATARAM_SPRAM_7_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_dataram_spram_7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "A53_DUAL_U_L2_DATARAM_SPRAM_6_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_dataram_spram_6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "A53_DUAL_U_L2_DATARAM_SPRAM_5_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_dataram_spram_5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "A53_DUAL_U_L2_DATARAM_SPRAM_4_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_dataram_spram_4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "A53_DUAL_U_L2_DATARAM_SPRAM_3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_dataram_spram_3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "A53_DUAL_U_L2_DATARAM_SPRAM_2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_dataram_spram_2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "A53_DUAL_U_L2_DATARAM_SPRAM_1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_dataram_spram_1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "A53_DUAL_U_L2_DATARAM_SPRAM_0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_dataram_spram_0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY15_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way15_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY14_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way14_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY13_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way13_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY12_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way12_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY11_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way11_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY10_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way10_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY9_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way9_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY8_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way8_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY7_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY6_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY5_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY4_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way0_ecc_svbus_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECC_AGGR_COREPAC_REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 23. "A53_DUAL_U_L2_DATARAM_SPRAM_7_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_dataram_spram_7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "A53_DUAL_U_L2_DATARAM_SPRAM_6_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_dataram_spram_6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "A53_DUAL_U_L2_DATARAM_SPRAM_5_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_dataram_spram_5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "A53_DUAL_U_L2_DATARAM_SPRAM_4_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_dataram_spram_4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "A53_DUAL_U_L2_DATARAM_SPRAM_3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_dataram_spram_3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "A53_DUAL_U_L2_DATARAM_SPRAM_2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_dataram_spram_2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "A53_DUAL_U_L2_DATARAM_SPRAM_1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_dataram_spram_1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "A53_DUAL_U_L2_DATARAM_SPRAM_0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_dataram_spram_0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY15_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way15_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY14_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way14_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY13_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way13_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY12_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way12_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY11_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way11_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY10_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way10_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY9_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way9_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY8_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way8_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY7_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY6_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY5_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY4_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way0_ecc_svbus_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECC_AGGR_COREPAC_REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_COREPAC_REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 23. "A53_DUAL_U_L2_DATARAM_SPRAM_7_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_dataram_spram_7_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 22. "A53_DUAL_U_L2_DATARAM_SPRAM_6_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_dataram_spram_6_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 21. "A53_DUAL_U_L2_DATARAM_SPRAM_5_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_dataram_spram_5_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 20. "A53_DUAL_U_L2_DATARAM_SPRAM_4_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_dataram_spram_4_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 19. "A53_DUAL_U_L2_DATARAM_SPRAM_3_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_dataram_spram_3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 18. "A53_DUAL_U_L2_DATARAM_SPRAM_2_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_dataram_spram_2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 17. "A53_DUAL_U_L2_DATARAM_SPRAM_1_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_dataram_spram_1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 16. "A53_DUAL_U_L2_DATARAM_SPRAM_0_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_dataram_spram_0_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 15. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY15_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way15_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 14. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY14_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way14_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 13. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY13_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way13_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 12. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY12_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way12_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 11. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY11_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way11_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 10. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY10_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way10_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 9. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY9_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way9_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 8. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY8_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way8_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 7. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY7_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way7_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 6. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY6_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way6_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 5. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY5_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way5_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 4. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY4_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way4_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 3. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY3_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 2. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY2_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 1. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY1_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x4 0. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY0_ECC_SVBUS_PEND,Interrupt Pending Status for a53_dual_u_l2_tagram_spram_way0_ecc_svbus_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECC_AGGR_COREPAC_REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 23. "A53_DUAL_U_L2_DATARAM_SPRAM_7_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_dataram_spram_7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "A53_DUAL_U_L2_DATARAM_SPRAM_6_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_dataram_spram_6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "A53_DUAL_U_L2_DATARAM_SPRAM_5_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_dataram_spram_5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "A53_DUAL_U_L2_DATARAM_SPRAM_4_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_dataram_spram_4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "A53_DUAL_U_L2_DATARAM_SPRAM_3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_dataram_spram_3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "A53_DUAL_U_L2_DATARAM_SPRAM_2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_dataram_spram_2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "A53_DUAL_U_L2_DATARAM_SPRAM_1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_dataram_spram_1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "A53_DUAL_U_L2_DATARAM_SPRAM_0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_dataram_spram_0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY15_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way15_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY14_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way14_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY13_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way13_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY12_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way12_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY11_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way11_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY10_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way10_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY9_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way9_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY8_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way8_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY7_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY6_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY5_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY4_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_SET,Interrupt Enable Set Register for a53_dual_u_l2_tagram_spram_way0_ecc_svbus_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECC_AGGR_COREPAC_REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 23. "A53_DUAL_U_L2_DATARAM_SPRAM_7_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_dataram_spram_7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 22. "A53_DUAL_U_L2_DATARAM_SPRAM_6_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_dataram_spram_6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 21. "A53_DUAL_U_L2_DATARAM_SPRAM_5_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_dataram_spram_5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 20. "A53_DUAL_U_L2_DATARAM_SPRAM_4_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_dataram_spram_4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 19. "A53_DUAL_U_L2_DATARAM_SPRAM_3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_dataram_spram_3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 18. "A53_DUAL_U_L2_DATARAM_SPRAM_2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_dataram_spram_2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 17. "A53_DUAL_U_L2_DATARAM_SPRAM_1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_dataram_spram_1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 16. "A53_DUAL_U_L2_DATARAM_SPRAM_0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_dataram_spram_0_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 15. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY15_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way15_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 14. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY14_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way14_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 13. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY13_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way13_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 12. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY12_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way12_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 11. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY11_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way11_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 10. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY10_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way10_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 9. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY9_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way9_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 8. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY8_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way8_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 7. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY7_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way7_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 6. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY6_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way6_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 5. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY5_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way5_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 4. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY4_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way4_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 3. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY3_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way3_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 2. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY2_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way2_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 1. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY1_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way1_ecc_svbus_pend" "0,1" newline bitfld.long 0x0 0. "A53_DUAL_U_L2_TAGRAM_SPRAM_WAY0_ECC_SVBUS_ENABLE_CLR,Interrupt Enable Clear Register for a53_dual_u_l2_tagram_spram_way0_ecc_svbus_pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECC_AGGR_COREPAC_REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" newline bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECC_AGGR_COREPAC_REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" newline bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECC_AGGR_COREPAC_REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" newline bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECC_AGGR_COREPAC_REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" newline bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "A53SS0_SS_ROM (A53SS0_SS_ROM)" base ad:0x730000000 group.long 0x0++0x3F line.long 0x0 "APBADDR_ROMV8_ROMENTRY0,ROM Table Entry Register 0 (CPU 0 Debug Component)" line.long 0x4 "APBADDR_ROMV8_ROMENTRY1,ROM Table Entry Register 1 (CPU 0 CTI Component)" line.long 0x8 "APBADDR_ROMV8_ROMENTRY2,ROM Table Entry Register 2 (CPU 0 PMU Component)" line.long 0xC "APBADDR_ROMV8_ROMENTRY3,ROM Table Entry Register 3 (CPU 0 ETM Component)" line.long 0x10 "APBADDR_ROMV8_ROMENTRY4,ROM Table Entry Register 4 (CPU 1 Debug Component)" line.long 0x14 "APBADDR_ROMV8_ROMENTRY5,ROM Table Entry Register 5 (CPU 1 CTI Component)" line.long 0x18 "APBADDR_ROMV8_ROMENTRY6,ROM Table Entry Register 6 (CPU 1 PMU Component)" line.long 0x1C "APBADDR_ROMV8_ROMENTRY7,ROM Table Entry Register 7 (CPU 1 ETM Component)" line.long 0x20 "APBADDR_ROMV8_ROMENTRY8,ROM Table Entry Register 8 (CPU 2 Debug Component)" line.long 0x24 "APBADDR_ROMV8_ROMENTRY9,ROM Table Entry Register 9 (CPU 2 CTI Component)" line.long 0x28 "APBADDR_ROMV8_ROMENTRY10,ROM Table Entry Register 10 (CPU 2 PMU Component)" line.long 0x2C "APBADDR_ROMV8_ROMENTRY11,ROM Table Entry Register 11 (CPU 2 ETM Component)" line.long 0x30 "APBADDR_ROMV8_ROMENTRY12,ROM Table Entry Register 12 (CPU 3 Debug Component)" line.long 0x34 "APBADDR_ROMV8_ROMENTRY13,ROM Table Entry Register 13 (CPU 3 CTI Component)" line.long 0x38 "APBADDR_ROMV8_ROMENTRY14,ROM Table Entry Register 14 (CPU 3 PMU Component)" line.long 0x3C "APBADDR_ROMV8_ROMENTRY15,ROM Table Entry Register 15 (CPU 3 ETM Component)" group.long 0xFD0++0x2F line.long 0x0 "APBADDR_ROMV8_ROM_PERIPHID4_VAL,ROM Peripheral ID 4" line.long 0x4 "APBADDR_ROMV8_ROM_PERIPHID5_VAL,ROM Peripheral ID 5" line.long 0x8 "APBADDR_ROMV8_ROM_PERIPHID6_VAL,ROM Peripheral ID 6" line.long 0xC "APBADDR_ROMV8_ROM_PERIPHID7_VAL,ROM Peripheral ID 7" line.long 0x10 "APBADDR_ROMV8_ROM_PERIPHID0_VAL,ROM Peripheral ID 0" line.long 0x14 "APBADDR_ROMV8_ROM_PERIPHID1_VAL,ROM Peripheral ID 1" line.long 0x18 "APBADDR_ROMV8_ROM_PERIPHID2_VAL,ROM Peripheral ID 2" line.long 0x1C "APBADDR_ROMV8_ROM_PERIPHID3_VAL,ROM Peripheral ID 3" line.long 0x20 "APBADDR_ROMV8_ROM_COMPONID0_VAL,ROM Component ID 0" line.long 0x24 "APBADDR_ROMV8_ROM_COMPONID1_VAL,ROM Component ID 1" line.long 0x28 "APBADDR_ROMV8_ROM_COMPONID2_VAL,ROM Component ID 2" line.long 0x2C "APBADDR_ROMV8_ROM_COMPONID3_VAL,ROM Component ID 3" tree.end endif tree.end tree.end tree "CBASS" base ad:0x0 tree "CBASS_CENTRAL2" tree "CBASS_CENTRAL2_ERR (CBASS_CENTRAL2_ERR)" base ad:0x3F012000 rgroup.long 0x0++0x3 line.long 0x0 "ERR_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "ERR_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." rgroup.long 0x24++0x17 line.long 0x0 "ERR_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type. 7 = CBASS." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID. Always 0." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "ERR_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group. Always 0." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code. 0 = CBASS decode error." line.long 0x8 "ERR_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "ERR_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "ERR_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" newline bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "ERR_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x50++0x13 line.long 0x0 "ERR_REGS_err_intr_raw_stat,The interrupt raw status register indicates if there is null interrupt regardless of interrupt enable" bitfld.long 0x0 0. "INTR,Level Interrupt status" "0,1" line.long 0x4 "ERR_REGS_err_intr_enabled_stat,The interrupt status register is gated by the interrupt enable" bitfld.long 0x4 0. "ENABLED_INTR,Level Enabled Interrupt status" "0,1" line.long 0x8 "ERR_REGS_err_intr_enable_set,Only when this register is set. null access will cause interrupt to be generated." bitfld.long 0x8 0. "INTR_ENABLE_SET,Interrupt Enable Set Register" "0,1" line.long 0xC "ERR_REGS_err_intr_enable_clr,Setting this register disables the null interrupt generation" bitfld.long 0xC 0. "INTR_ENABLE_CLR,Interrupt Enable Clear Register" "0,1" line.long 0x10 "ERR_REGS_err_eoi,Writing to EOI Register indicates that current interrupt has been serviced which then allows next interrupt to be generated" hexmask.long.word 0x10 0.--15. 1. "EOI_WR,End Of Interrupt Register" tree.end tree "CBASS_CENTRAL2_FW (CBASS_CENTRAL2_FW)" base ad:0x45010000 group.long 0x800++0x7F line.long 0x0 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRP_32b_dmsc_hsm_to_scrp_hsm_clk2_l0 region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." tree.end tree "CBASS_CENTRAL2_GLB (CBASS_CENTRAL2_GLB)" base ad:0x45B04000 rgroup.long 0x0++0x3 line.long 0x0 "GLB_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "GLB_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." group.long 0x20++0x3 line.long 0x0 "GLB_REGS_exception_logging_control,The Exception Logging Control Register controls the exception logging." bitfld.long 0x0 1. "DISABLE_PEND,Disables logging pending when set." "0,1" bitfld.long 0x0 0. "DISABLE_F,Disables logging when set." "0,1" rgroup.long 0x24++0x17 line.long 0x0 "GLB_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "GLB_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code." line.long 0x8 "GLB_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "GLB_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "GLB_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" newline bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "GLB_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x40++0x7 line.long 0x0 "GLB_REGS_exception_pend_set,The Exception Logging Pending Set Register allows to set the pend signal." bitfld.long 0x0 0. "PEND_SET,Write a 1 to set the exception pend signal." "0,1" line.long 0x4 "GLB_REGS_exception_pend_clear,The Exception Logging Pending Clear Register allows to clear the pend signal." bitfld.long 0x4 0. "PEND_CLR,Write a 1 to clear the exception pend signal." "0,1" tree.end tree.end tree "CBASS_DBG0_ERR (CBASS_DBG0_ERR)" base ad:0x200000 rgroup.long 0x0++0x3 line.long 0x0 "ERR_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "ERR_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." rgroup.long 0x24++0x17 line.long 0x0 "ERR_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type. 7 = CBASS." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID. Always 0." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "ERR_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group. Always 0." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code. 0 = CBASS decode error." line.long 0x8 "ERR_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "ERR_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "ERR_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" newline bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "ERR_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x50++0x13 line.long 0x0 "ERR_REGS_err_intr_raw_stat,The interrupt raw status register indicates if there is null interrupt regardless of interrupt enable" bitfld.long 0x0 0. "INTR,Level Interrupt status" "0,1" line.long 0x4 "ERR_REGS_err_intr_enabled_stat,The interrupt status register is gated by the interrupt enable" bitfld.long 0x4 0. "ENABLED_INTR,Level Enabled Interrupt status" "0,1" line.long 0x8 "ERR_REGS_err_intr_enable_set,Only when this register is set. null access will cause interrupt to be generated." bitfld.long 0x8 0. "INTR_ENABLE_SET,Interrupt Enable Set Register" "0,1" line.long 0xC "ERR_REGS_err_intr_enable_clr,Setting this register disables the null interrupt generation" bitfld.long 0xC 0. "INTR_ENABLE_CLR,Interrupt Enable Clear Register" "0,1" line.long 0x10 "ERR_REGS_err_eoi,Writing to EOI Register indicates that current interrupt has been serviced which then allows next interrupt to be generated" hexmask.long.word 0x10 0.--15. 1. "EOI_WR,End Of Interrupt Register" tree.end tree "CBASS_FW0_ERR (CBASS_FW0_ERR)" base ad:0x220000 rgroup.long 0x0++0x3 line.long 0x0 "ERR_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "ERR_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." rgroup.long 0x24++0x17 line.long 0x0 "ERR_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type. 7 = CBASS." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID. Always 0." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "ERR_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group. Always 0." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code. 0 = CBASS decode error." line.long 0x8 "ERR_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "ERR_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "ERR_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" newline bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "ERR_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x50++0x13 line.long 0x0 "ERR_REGS_err_intr_raw_stat,The interrupt raw status register indicates if there is null interrupt regardless of interrupt enable" bitfld.long 0x0 0. "INTR,Level Interrupt status" "0,1" line.long 0x4 "ERR_REGS_err_intr_enabled_stat,The interrupt status register is gated by the interrupt enable" bitfld.long 0x4 0. "ENABLED_INTR,Level Enabled Interrupt status" "0,1" line.long 0x8 "ERR_REGS_err_intr_enable_set,Only when this register is set. null access will cause interrupt to be generated." bitfld.long 0x8 0. "INTR_ENABLE_SET,Interrupt Enable Set Register" "0,1" line.long 0xC "ERR_REGS_err_intr_enable_clr,Setting this register disables the null interrupt generation" bitfld.long 0xC 0. "INTR_ENABLE_CLR,Interrupt Enable Clear Register" "0,1" line.long 0x10 "ERR_REGS_err_eoi,Writing to EOI Register indicates that current interrupt has been serviced which then allows next interrupt to be generated" hexmask.long.word 0x10 0.--15. 1. "EOI_WR,End Of Interrupt Register" tree.end tree "CBASS_INFRA1_ERR (CBASS_INFRA1_ERR)" base ad:0x210000 rgroup.long 0x0++0x3 line.long 0x0 "ERR_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "ERR_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." rgroup.long 0x24++0x17 line.long 0x0 "ERR_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type. 7 = CBASS." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID. Always 0." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "ERR_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group. Always 0." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code. 0 = CBASS decode error." line.long 0x8 "ERR_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "ERR_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "ERR_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" newline bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "ERR_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x50++0x13 line.long 0x0 "ERR_REGS_err_intr_raw_stat,The interrupt raw status register indicates if there is null interrupt regardless of interrupt enable" bitfld.long 0x0 0. "INTR,Level Interrupt status" "0,1" line.long 0x4 "ERR_REGS_err_intr_enabled_stat,The interrupt status register is gated by the interrupt enable" bitfld.long 0x4 0. "ENABLED_INTR,Level Enabled Interrupt status" "0,1" line.long 0x8 "ERR_REGS_err_intr_enable_set,Only when this register is set. null access will cause interrupt to be generated." bitfld.long 0x8 0. "INTR_ENABLE_SET,Interrupt Enable Set Register" "0,1" line.long 0xC "ERR_REGS_err_intr_enable_clr,Setting this register disables the null interrupt generation" bitfld.long 0xC 0. "INTR_ENABLE_CLR,Interrupt Enable Clear Register" "0,1" line.long 0x10 "ERR_REGS_err_eoi,Writing to EOI Register indicates that current interrupt has been serviced which then allows next interrupt to be generated" hexmask.long.word 0x10 0.--15. 1. "EOI_WR,End Of Interrupt Register" tree.end base ad:0x0 tree "CBASS_IPCSS0" tree "CBASS_IPCSS0_ERR (CBASS_IPCSS0_ERR)" base ad:0x230000 rgroup.long 0x0++0x3 line.long 0x0 "ERR_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "ERR_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." rgroup.long 0x24++0x17 line.long 0x0 "ERR_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type. 7 = CBASS." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID. Always 0." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "ERR_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group. Always 0." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code. 0 = CBASS decode error." line.long 0x8 "ERR_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "ERR_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "ERR_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" newline bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "ERR_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x50++0x13 line.long 0x0 "ERR_REGS_err_intr_raw_stat,The interrupt raw status register indicates if there is null interrupt regardless of interrupt enable" bitfld.long 0x0 0. "INTR,Level Interrupt status" "0,1" line.long 0x4 "ERR_REGS_err_intr_enabled_stat,The interrupt status register is gated by the interrupt enable" bitfld.long 0x4 0. "ENABLED_INTR,Level Enabled Interrupt status" "0,1" line.long 0x8 "ERR_REGS_err_intr_enable_set,Only when this register is set. null access will cause interrupt to be generated." bitfld.long 0x8 0. "INTR_ENABLE_SET,Interrupt Enable Set Register" "0,1" line.long 0xC "ERR_REGS_err_intr_enable_clr,Setting this register disables the null interrupt generation" bitfld.long 0xC 0. "INTR_ENABLE_CLR,Interrupt Enable Clear Register" "0,1" line.long 0x10 "ERR_REGS_err_eoi,Writing to EOI Register indicates that current interrupt has been serviced which then allows next interrupt to be generated" hexmask.long.word 0x10 0.--15. 1. "EOI_WR,End Of Interrupt Register" tree.end tree "CBASS_IPCSS0_FW (CBASS_IPCSS0_FW)" base ad:0x45028000 group.long 0x0++0xFF line.long 0x0 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Idmss_am67_main_0.ipcss_vbm_dst region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Idmss_am67_main_0.ipcss_vbm_dst region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Idmss_am67_main_0.ipcss_vbm_dst region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Idmss_am67_main_0.ipcss_vbm_dst region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Idmss_am67_main_0.ipcss_vbm_dst region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Idmss_am67_main_0.ipcss_vbm_dst region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Idmss_am67_main_0.ipcss_vbm_dst region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Idmss_am67_main_0.ipcss_vbm_dst region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Idmss_am67_main_0.ipcss_vbm_dst region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Idmss_am67_main_0.ipcss_vbm_dst region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target Idmss_am67_main_0.ipcss_vbm_dst region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target Idmss_am67_main_0.ipcss_vbm_dst region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target Idmss_am67_main_0.ipcss_vbm_dst region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target Idmss_am67_main_0.ipcss_vbm_dst region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target Idmss_am67_main_0.ipcss_vbm_dst region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target Idmss_am67_main_0.ipcss_vbm_dst region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target Idmss_am67_main_0.ipcss_vbm_dst region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target Idmss_am67_main_0.ipcss_vbm_dst region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target Idmss_am67_main_0.ipcss_vbm_dst region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target Idmss_am67_main_0.ipcss_vbm_dst region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target Idmss_am67_main_0.ipcss_vbm_dst region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target Idmss_am67_main_0.ipcss_vbm_dst region 4 firewall." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target Idmss_am67_main_0.ipcss_vbm_dst region 4 firewall." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target Idmss_am67_main_0.ipcss_vbm_dst region 4 firewall." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target Idmss_am67_main_0.ipcss_vbm_dst region 4 firewall." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target Idmss_am67_main_0.ipcss_vbm_dst region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target Idmss_am67_main_0.ipcss_vbm_dst region 5 firewall." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target Idmss_am67_main_0.ipcss_vbm_dst region 5 firewall." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target Idmss_am67_main_0.ipcss_vbm_dst region 5 firewall." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target Idmss_am67_main_0.ipcss_vbm_dst region 5 firewall." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target Idmss_am67_main_0.ipcss_vbm_dst region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target Idmss_am67_main_0.ipcss_vbm_dst region 6 firewall." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target Idmss_am67_main_0.ipcss_vbm_dst region 6 firewall." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target Idmss_am67_main_0.ipcss_vbm_dst region 6 firewall." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target Idmss_am67_main_0.ipcss_vbm_dst region 6 firewall." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target Idmss_am67_main_0.ipcss_vbm_dst region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target Idmss_am67_main_0.ipcss_vbm_dst region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target Idmss_am67_main_0.ipcss_vbm_dst region 7 firewall." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target Idmss_am67_main_0.ipcss_vbm_dst region 7 firewall." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target Idmss_am67_main_0.ipcss_vbm_dst region 7 firewall." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "FW_REGS_Idmss_am67_main_0_ipcss_vbm_dst_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target Idmss_am67_main_0.ipcss_vbm_dst region 7 firewall." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x400++0xFF line.long 0x0 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 4 firewall." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 4 firewall." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 4 firewall." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 4 firewall." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 5 firewall." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 5 firewall." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 5 firewall." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 5 firewall." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 6 firewall." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 6 firewall." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 6 firewall." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 6 firewall." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 7 firewall." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 7 firewall." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 7 firewall." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "FW_REGS_Isa3ss_am62a_main_0_ipcss_vbm_dst_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target Isa3ss_am62a_main_0.ipcss_vbm_dst region 7 firewall." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." tree.end tree "CBASS_IPCSS0_GLB (CBASS_IPCSS0_GLB)" base ad:0x45B01000 rgroup.long 0x0++0x3 line.long 0x0 "GLB_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "GLB_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." group.long 0x20++0x3 line.long 0x0 "GLB_REGS_exception_logging_control,The Exception Logging Control Register controls the exception logging." bitfld.long 0x0 1. "DISABLE_PEND,Disables logging pending when set." "0,1" bitfld.long 0x0 0. "DISABLE_F,Disables logging when set." "0,1" rgroup.long 0x24++0x17 line.long 0x0 "GLB_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "GLB_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code." line.long 0x8 "GLB_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "GLB_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "GLB_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" newline bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "GLB_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x40++0x7 line.long 0x0 "GLB_REGS_exception_pend_set,The Exception Logging Pending Set Register allows to set the pend signal." bitfld.long 0x0 0. "PEND_SET,Write a 1 to set the exception pend signal." "0,1" line.long 0x4 "GLB_REGS_exception_pend_clear,The Exception Logging Pending Clear Register allows to clear the pend signal." bitfld.long 0x4 0. "PEND_CLR,Write a 1 to clear the exception pend signal." "0,1" tree.end tree.end tree "CBASS_MCASP0_ERR (CBASS_MCASP0_ERR)" base ad:0x240000 rgroup.long 0x0++0x3 line.long 0x0 "ERR_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "ERR_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." rgroup.long 0x24++0x17 line.long 0x0 "ERR_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type. 7 = CBASS." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID. Always 0." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "ERR_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group. Always 0." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code. 0 = CBASS decode error." line.long 0x8 "ERR_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "ERR_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "ERR_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" newline bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "ERR_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x50++0x13 line.long 0x0 "ERR_REGS_err_intr_raw_stat,The interrupt raw status register indicates if there is null interrupt regardless of interrupt enable" bitfld.long 0x0 0. "INTR,Level Interrupt status" "0,1" line.long 0x4 "ERR_REGS_err_intr_enabled_stat,The interrupt status register is gated by the interrupt enable" bitfld.long 0x4 0. "ENABLED_INTR,Level Enabled Interrupt status" "0,1" line.long 0x8 "ERR_REGS_err_intr_enable_set,Only when this register is set. null access will cause interrupt to be generated." bitfld.long 0x8 0. "INTR_ENABLE_SET,Interrupt Enable Set Register" "0,1" line.long 0xC "ERR_REGS_err_intr_enable_clr,Setting this register disables the null interrupt generation" bitfld.long 0xC 0. "INTR_ENABLE_CLR,Interrupt Enable Clear Register" "0,1" line.long 0x10 "ERR_REGS_err_eoi,Writing to EOI Register indicates that current interrupt has been serviced which then allows next interrupt to be generated" hexmask.long.word 0x10 0.--15. 1. "EOI_WR,End Of Interrupt Register" tree.end tree "CBASS_MISC_PERI0_ERR (CBASS_MISC_PERI0_ERR)" base ad:0x201F0000 rgroup.long 0x0++0x3 line.long 0x0 "ERR_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "ERR_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." rgroup.long 0x24++0x17 line.long 0x0 "ERR_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type. 7 = CBASS." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID. Always 0." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "ERR_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group. Always 0." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code. 0 = CBASS decode error." line.long 0x8 "ERR_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "ERR_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "ERR_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" newline bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "ERR_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x50++0x13 line.long 0x0 "ERR_REGS_err_intr_raw_stat,The interrupt raw status register indicates if there is null interrupt regardless of interrupt enable" bitfld.long 0x0 0. "INTR,Level Interrupt status" "0,1" line.long 0x4 "ERR_REGS_err_intr_enabled_stat,The interrupt status register is gated by the interrupt enable" bitfld.long 0x4 0. "ENABLED_INTR,Level Enabled Interrupt status" "0,1" line.long 0x8 "ERR_REGS_err_intr_enable_set,Only when this register is set. null access will cause interrupt to be generated." bitfld.long 0x8 0. "INTR_ENABLE_SET,Interrupt Enable Set Register" "0,1" line.long 0xC "ERR_REGS_err_intr_enable_clr,Setting this register disables the null interrupt generation" bitfld.long 0xC 0. "INTR_ENABLE_CLR,Interrupt Enable Clear Register" "0,1" line.long 0x10 "ERR_REGS_err_eoi,Writing to EOI Register indicates that current interrupt has been serviced which then allows next interrupt to be generated" hexmask.long.word 0x10 0.--15. 1. "EOI_WR,End Of Interrupt Register" tree.end base ad:0x0 tree "CBASS_RT" tree "CBASS_RT_CFG0" tree "CBASS_RT_CFG0_ERR (CBASS_RT_CFG0_ERR)" base ad:0x3A010000 rgroup.long 0x0++0x3 line.long 0x0 "ERR_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "ERR_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." rgroup.long 0x24++0x17 line.long 0x0 "ERR_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type. 7 = CBASS." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID. Always 0." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "ERR_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group. Always 0." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code. 0 = CBASS decode error." line.long 0x8 "ERR_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "ERR_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "ERR_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" newline bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "ERR_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x50++0x13 line.long 0x0 "ERR_REGS_err_intr_raw_stat,The interrupt raw status register indicates if there is null interrupt regardless of interrupt enable" bitfld.long 0x0 0. "INTR,Level Interrupt status" "0,1" line.long 0x4 "ERR_REGS_err_intr_enabled_stat,The interrupt status register is gated by the interrupt enable" bitfld.long 0x4 0. "ENABLED_INTR,Level Enabled Interrupt status" "0,1" line.long 0x8 "ERR_REGS_err_intr_enable_set,Only when this register is set. null access will cause interrupt to be generated." bitfld.long 0x8 0. "INTR_ENABLE_SET,Interrupt Enable Set Register" "0,1" line.long 0xC "ERR_REGS_err_intr_enable_clr,Setting this register disables the null interrupt generation" bitfld.long 0xC 0. "INTR_ENABLE_CLR,Interrupt Enable Clear Register" "0,1" line.long 0x10 "ERR_REGS_err_eoi,Writing to EOI Register indicates that current interrupt has been serviced which then allows next interrupt to be generated" hexmask.long.word 0x10 0.--15. 1. "EOI_WR,End Of Interrupt Register" tree.end tree "CBASS_RT_CFG0_GLB (CBASS_RT_CFG0_GLB)" base ad:0x45B06000 rgroup.long 0x0++0x3 line.long 0x0 "GLB_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" tree.end tree "CBASS_RT_CFG0_ISC (CBASS_RT_CFG0_ISC)" base ad:0x45834000 group.long 0x0++0x3 line.long 0x0 "ISC_REGS_Iusb2ss_16ffc_main_0_mstr0_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Iusb2ss_16ffc_main_0.mstr0 region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x10++0x13 line.long 0x0 "ISC_REGS_Iusb2ss_16ffc_main_0_mstr0_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Iusb2ss_16ffc_main_0.mstr0 region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Iusb2ss_16ffc_main_0_mstr0_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Iusb2ss_16ffc_main_0.mstr0 region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Iusb2ss_16ffc_main_0_mstr0_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Iusb2ss_16ffc_main_0.mstr0 region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Iusb2ss_16ffc_main_0_mstr0_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Iusb2ss_16ffc_main_0.mstr0 region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Iusb2ss_16ffc_main_0_mstr0_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Iusb2ss_16ffc_main_0.mstr0 region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x400++0x3 line.long 0x0 "ISC_REGS_Iusb2ss_16ffc_main_0_mstw0_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Iusb2ss_16ffc_main_0.mstw0 region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x410++0x13 line.long 0x0 "ISC_REGS_Iusb2ss_16ffc_main_0_mstw0_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Iusb2ss_16ffc_main_0.mstw0 region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Iusb2ss_16ffc_main_0_mstw0_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Iusb2ss_16ffc_main_0.mstw0 region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Iusb2ss_16ffc_main_0_mstw0_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Iusb2ss_16ffc_main_0.mstw0 region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Iusb2ss_16ffc_main_0_mstw0_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Iusb2ss_16ffc_main_0.mstw0 region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Iusb2ss_16ffc_main_0_mstw0_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Iusb2ss_16ffc_main_0.mstw0 region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x800++0x3 line.long 0x0 "ISC_REGS_Iemmc8ss_16ffc_main_0_emmcss_wr_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Iemmc8ss_16ffc_main_0.emmcss_wr region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x810++0x13 line.long 0x0 "ISC_REGS_Iemmc8ss_16ffc_main_0_emmcss_wr_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Iemmc8ss_16ffc_main_0.emmcss_wr region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Iemmc8ss_16ffc_main_0_emmcss_wr_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Iemmc8ss_16ffc_main_0.emmcss_wr region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Iemmc8ss_16ffc_main_0_emmcss_wr_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Iemmc8ss_16ffc_main_0.emmcss_wr region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Iemmc8ss_16ffc_main_0_emmcss_wr_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Iemmc8ss_16ffc_main_0.emmcss_wr region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Iemmc8ss_16ffc_main_0_emmcss_wr_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Iemmc8ss_16ffc_main_0.emmcss_wr region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xC00++0x3 line.long 0x0 "ISC_REGS_Iemmc8ss_16ffc_main_0_emmcss_rd_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Iemmc8ss_16ffc_main_0.emmcss_rd region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xC10++0x13 line.long 0x0 "ISC_REGS_Iemmc8ss_16ffc_main_0_emmcss_rd_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Iemmc8ss_16ffc_main_0.emmcss_rd region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Iemmc8ss_16ffc_main_0_emmcss_rd_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Iemmc8ss_16ffc_main_0.emmcss_rd region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Iemmc8ss_16ffc_main_0_emmcss_rd_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Iemmc8ss_16ffc_main_0.emmcss_rd region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Iemmc8ss_16ffc_main_0_emmcss_rd_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Iemmc8ss_16ffc_main_0.emmcss_rd region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Iemmc8ss_16ffc_main_0_emmcss_rd_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Iemmc8ss_16ffc_main_0.emmcss_rd region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1000++0x3 line.long 0x0 "ISC_REGS_Iusb2ss_16ffc_main_1_mstr0_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Iusb2ss_16ffc_main_1.mstr0 region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1010++0x13 line.long 0x0 "ISC_REGS_Iusb2ss_16ffc_main_1_mstr0_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Iusb2ss_16ffc_main_1.mstr0 region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Iusb2ss_16ffc_main_1_mstr0_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Iusb2ss_16ffc_main_1.mstr0 region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Iusb2ss_16ffc_main_1_mstr0_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Iusb2ss_16ffc_main_1.mstr0 region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Iusb2ss_16ffc_main_1_mstr0_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Iusb2ss_16ffc_main_1.mstr0 region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Iusb2ss_16ffc_main_1_mstr0_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Iusb2ss_16ffc_main_1.mstr0 region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1400++0x3 line.long 0x0 "ISC_REGS_Iusb2ss_16ffc_main_1_mstw0_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Iusb2ss_16ffc_main_1.mstw0 region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1410++0x13 line.long 0x0 "ISC_REGS_Iusb2ss_16ffc_main_1_mstw0_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Iusb2ss_16ffc_main_1.mstw0 region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Iusb2ss_16ffc_main_1_mstw0_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Iusb2ss_16ffc_main_1.mstw0 region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Iusb2ss_16ffc_main_1_mstw0_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Iusb2ss_16ffc_main_1.mstw0 region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Iusb2ss_16ffc_main_1_mstw0_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Iusb2ss_16ffc_main_1.mstw0 region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Iusb2ss_16ffc_main_1_mstw0_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Iusb2ss_16ffc_main_1.mstw0 region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." tree.end tree "CBASS_RT_CFG0_QOS (CBASS_RT_CFG0_QOS)" base ad:0x45D34000 group.long 0x100++0x3 line.long 0x0 "QOS_REGS_Iusb2ss_16ffc_main_0_mstr0_map0,The Map Register defines the fields for the initiator Iusb2ss_16ffc_main_0.mstr0 per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x500++0x3 line.long 0x0 "QOS_REGS_Iusb2ss_16ffc_main_0_mstw0_map0,The Map Register defines the fields for the initiator Iusb2ss_16ffc_main_0.mstw0 per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x900++0x3 line.long 0x0 "QOS_REGS_Iemmc8ss_16ffc_main_0_emmcss_wr_map0,The Map Register defines the fields for the initiator Iemmc8ss_16ffc_main_0.emmcss_wr per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0xD00++0x3 line.long 0x0 "QOS_REGS_Iemmc8ss_16ffc_main_0_emmcss_rd_map0,The Map Register defines the fields for the initiator Iemmc8ss_16ffc_main_0.emmcss_rd per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x1100++0x3 line.long 0x0 "QOS_REGS_Iusb2ss_16ffc_main_1_mstr0_map0,The Map Register defines the fields for the initiator Iusb2ss_16ffc_main_1.mstr0 per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x1500++0x3 line.long 0x0 "QOS_REGS_Iusb2ss_16ffc_main_1_mstw0_map0,The Map Register defines the fields for the initiator Iusb2ss_16ffc_main_1.mstw0 per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" tree.end tree.end tree "CBASS_RT_DATA0" tree "CBASS_RT_DATA0_ERR (CBASS_RT_DATA0_ERR)" base ad:0x3A020000 rgroup.long 0x0++0x3 line.long 0x0 "ERR_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "ERR_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." rgroup.long 0x24++0x17 line.long 0x0 "ERR_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type. 7 = CBASS." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID. Always 0." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "ERR_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group. Always 0." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code. 0 = CBASS decode error." line.long 0x8 "ERR_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "ERR_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "ERR_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" newline bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "ERR_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x50++0x13 line.long 0x0 "ERR_REGS_err_intr_raw_stat,The interrupt raw status register indicates if there is null interrupt regardless of interrupt enable" bitfld.long 0x0 0. "INTR,Level Interrupt status" "0,1" line.long 0x4 "ERR_REGS_err_intr_enabled_stat,The interrupt status register is gated by the interrupt enable" bitfld.long 0x4 0. "ENABLED_INTR,Level Enabled Interrupt status" "0,1" line.long 0x8 "ERR_REGS_err_intr_enable_set,Only when this register is set. null access will cause interrupt to be generated." bitfld.long 0x8 0. "INTR_ENABLE_SET,Interrupt Enable Set Register" "0,1" line.long 0xC "ERR_REGS_err_intr_enable_clr,Setting this register disables the null interrupt generation" bitfld.long 0xC 0. "INTR_ENABLE_CLR,Interrupt Enable Clear Register" "0,1" line.long 0x10 "ERR_REGS_err_eoi,Writing to EOI Register indicates that current interrupt has been serviced which then allows next interrupt to be generated" hexmask.long.word 0x10 0.--15. 1. "EOI_WR,End Of Interrupt Register" tree.end tree "CBASS_RT_DATA0_GLB (CBASS_RT_DATA0_GLB)" base ad:0x45B07000 rgroup.long 0x0++0x3 line.long 0x0 "GLB_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" tree.end tree "CBASS_RT_DATA0_ISC (CBASS_RT_DATA0_ISC)" base ad:0x45830000 group.long 0x0++0x3 line.long 0x0 "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Ik3_dss_ul_main_0.vbusm_dma region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x10++0x13 line.long 0x0 "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_dss_ul_main_0.vbusm_dma region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_dss_ul_main_0.vbusm_dma region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_dss_ul_main_0.vbusm_dma region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_dss_ul_main_0.vbusm_dma region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_1_control,The ISC Region 1 Control Register defines the control fields for the initiator Ik3_dss_ul_main_0.vbusm_dma region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x30++0x13 line.long 0x0 "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_1_start_address_l,The ISC Region 1 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_dss_ul_main_0.vbusm_dma region 1 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_1_start_address_h,The ISC Region 1 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_dss_ul_main_0.vbusm_dma region 1 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_1_end_address_l,The ISC Region 1 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_dss_ul_main_0.vbusm_dma region 1 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_1_end_address_h,The ISC Region 1 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_dss_ul_main_0.vbusm_dma region 1 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_2_control,The ISC Region 2 Control Register defines the control fields for the initiator Ik3_dss_ul_main_0.vbusm_dma region 2 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x50++0x13 line.long 0x0 "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_2_start_address_l,The ISC Region 2 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_dss_ul_main_0.vbusm_dma region 2 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_2_start_address_h,The ISC Region 2 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_dss_ul_main_0.vbusm_dma region 2 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_2_end_address_l,The ISC Region 2 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_dss_ul_main_0.vbusm_dma region 2 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_2_end_address_h,The ISC Region 2 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_dss_ul_main_0.vbusm_dma region 2 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_3_control,The ISC Region 3 Control Register defines the control fields for the initiator Ik3_dss_ul_main_0.vbusm_dma region 3 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x70++0x13 line.long 0x0 "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_3_start_address_l,The ISC Region 3 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_dss_ul_main_0.vbusm_dma region 3 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_3_start_address_h,The ISC Region 3 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_dss_ul_main_0.vbusm_dma region 3 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_3_end_address_l,The ISC Region 3 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_dss_ul_main_0.vbusm_dma region 3 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_3_end_address_h,The ISC Region 3 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_dss_ul_main_0.vbusm_dma region 3 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_dss_ul_main_0_vbusm_dma_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Ik3_dss_ul_main_0.vbusm_dma region 4 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x400++0x3 line.long 0x0 "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Ik3_dss_ul_main_1.vbusm_dma region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x410++0x13 line.long 0x0 "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_dss_ul_main_1.vbusm_dma region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_dss_ul_main_1.vbusm_dma region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_dss_ul_main_1.vbusm_dma region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_dss_ul_main_1.vbusm_dma region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_1_control,The ISC Region 1 Control Register defines the control fields for the initiator Ik3_dss_ul_main_1.vbusm_dma region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x430++0x13 line.long 0x0 "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_1_start_address_l,The ISC Region 1 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_dss_ul_main_1.vbusm_dma region 1 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_1_start_address_h,The ISC Region 1 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_dss_ul_main_1.vbusm_dma region 1 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_1_end_address_l,The ISC Region 1 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_dss_ul_main_1.vbusm_dma region 1 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_1_end_address_h,The ISC Region 1 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_dss_ul_main_1.vbusm_dma region 1 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_2_control,The ISC Region 2 Control Register defines the control fields for the initiator Ik3_dss_ul_main_1.vbusm_dma region 2 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x450++0x13 line.long 0x0 "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_2_start_address_l,The ISC Region 2 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_dss_ul_main_1.vbusm_dma region 2 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_2_start_address_h,The ISC Region 2 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_dss_ul_main_1.vbusm_dma region 2 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_2_end_address_l,The ISC Region 2 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_dss_ul_main_1.vbusm_dma region 2 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_2_end_address_h,The ISC Region 2 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_dss_ul_main_1.vbusm_dma region 2 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_3_control,The ISC Region 3 Control Register defines the control fields for the initiator Ik3_dss_ul_main_1.vbusm_dma region 3 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x470++0x13 line.long 0x0 "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_3_start_address_l,The ISC Region 3 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_dss_ul_main_1.vbusm_dma region 3 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_3_start_address_h,The ISC Region 3 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_dss_ul_main_1.vbusm_dma region 3 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_3_end_address_l,The ISC Region 3 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_dss_ul_main_1.vbusm_dma region 3 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_3_end_address_h,The ISC Region 3 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_dss_ul_main_1.vbusm_dma region 3 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_dss_ul_main_1_vbusm_dma_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Ik3_dss_ul_main_1.vbusm_dma region 4 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x800++0x3 line.long 0x0 "ISC_REGS_Idmss_csi_am67_main_0_bcdma_memr_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Idmss_csi_am67_main_0.bcdma_memr region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x810++0x13 line.long 0x0 "ISC_REGS_Idmss_csi_am67_main_0_bcdma_memr_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Idmss_csi_am67_main_0.bcdma_memr region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Idmss_csi_am67_main_0_bcdma_memr_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Idmss_csi_am67_main_0.bcdma_memr region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Idmss_csi_am67_main_0_bcdma_memr_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Idmss_csi_am67_main_0.bcdma_memr region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Idmss_csi_am67_main_0_bcdma_memr_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Idmss_csi_am67_main_0.bcdma_memr region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Idmss_csi_am67_main_0_bcdma_memr_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Idmss_csi_am67_main_0.bcdma_memr region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xC00++0x3 line.long 0x0 "ISC_REGS_Idmss_csi_am67_main_0_bcdma_memw_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Idmss_csi_am67_main_0.bcdma_memw region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xC10++0x13 line.long 0x0 "ISC_REGS_Idmss_csi_am67_main_0_bcdma_memw_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Idmss_csi_am67_main_0.bcdma_memw region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Idmss_csi_am67_main_0_bcdma_memw_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Idmss_csi_am67_main_0.bcdma_memw region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Idmss_csi_am67_main_0_bcdma_memw_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Idmss_csi_am67_main_0.bcdma_memw region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Idmss_csi_am67_main_0_bcdma_memw_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Idmss_csi_am67_main_0.bcdma_memw region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Idmss_csi_am67_main_0_bcdma_memw_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Idmss_csi_am67_main_0.bcdma_memw region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." tree.end tree "CBASS_RT_DATA0_QOS (CBASS_RT_DATA0_QOS)" base ad:0x45D30000 group.long 0x100++0xF line.long 0x0 "QOS_REGS_Ik3_dss_ul_main_0_vbusm_dma_map0,The Map Register defines the fields for the initiator Ik3_dss_ul_main_0.vbusm_dma per channel." hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x4 "QOS_REGS_Ik3_dss_ul_main_0_vbusm_dma_map1,The Map Register defines the fields for the initiator Ik3_dss_ul_main_0.vbusm_dma per channel." hexmask.long.byte 0x4 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x4 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x4 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x8 "QOS_REGS_Ik3_dss_ul_main_0_vbusm_dma_map2,The Map Register defines the fields for the initiator Ik3_dss_ul_main_0.vbusm_dma per channel." hexmask.long.byte 0x8 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x8 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x8 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0xC "QOS_REGS_Ik3_dss_ul_main_0_vbusm_dma_map3,The Map Register defines the fields for the initiator Ik3_dss_ul_main_0.vbusm_dma per channel." hexmask.long.byte 0xC 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0xC 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0xC 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x500++0xF line.long 0x0 "QOS_REGS_Ik3_dss_ul_main_1_vbusm_dma_map0,The Map Register defines the fields for the initiator Ik3_dss_ul_main_1.vbusm_dma per channel." hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x4 "QOS_REGS_Ik3_dss_ul_main_1_vbusm_dma_map1,The Map Register defines the fields for the initiator Ik3_dss_ul_main_1.vbusm_dma per channel." hexmask.long.byte 0x4 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x4 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x4 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x8 "QOS_REGS_Ik3_dss_ul_main_1_vbusm_dma_map2,The Map Register defines the fields for the initiator Ik3_dss_ul_main_1.vbusm_dma per channel." hexmask.long.byte 0x8 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x8 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x8 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0xC "QOS_REGS_Ik3_dss_ul_main_1_vbusm_dma_map3,The Map Register defines the fields for the initiator Ik3_dss_ul_main_1.vbusm_dma per channel." hexmask.long.byte 0xC 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0xC 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0xC 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" tree.end tree.end tree.end tree.end tree "CBASS0" base ad:0x0 tree "CBASS0_ERR (CBASS0_ERR)" base ad:0x3A000000 rgroup.long 0x0++0x3 line.long 0x0 "ERR_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "ERR_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." rgroup.long 0x24++0x17 line.long 0x0 "ERR_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type. 7 = CBASS." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID. Always 0." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "ERR_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group. Always 0." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code. 0 = CBASS decode error." line.long 0x8 "ERR_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "ERR_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "ERR_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" newline bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "ERR_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x50++0x13 line.long 0x0 "ERR_REGS_err_intr_raw_stat,The interrupt raw status register indicates if there is null interrupt regardless of interrupt enable" bitfld.long 0x0 0. "INTR,Level Interrupt status" "0,1" line.long 0x4 "ERR_REGS_err_intr_enabled_stat,The interrupt status register is gated by the interrupt enable" bitfld.long 0x4 0. "ENABLED_INTR,Level Enabled Interrupt status" "0,1" line.long 0x8 "ERR_REGS_err_intr_enable_set,Only when this register is set. null access will cause interrupt to be generated." bitfld.long 0x8 0. "INTR_ENABLE_SET,Interrupt Enable Set Register" "0,1" line.long 0xC "ERR_REGS_err_intr_enable_clr,Setting this register disables the null interrupt generation" bitfld.long 0xC 0. "INTR_ENABLE_CLR,Interrupt Enable Clear Register" "0,1" line.long 0x10 "ERR_REGS_err_eoi,Writing to EOI Register indicates that current interrupt has been serviced which then allows next interrupt to be generated" hexmask.long.word 0x10 0.--15. 1. "EOI_WR,End Of Interrupt Register" tree.end tree "CBASS0_FW (CBASS0_FW)" base ad:0x45000000 group.long 0x0++0x1FF line.long 0x0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 4 firewall." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 4 firewall." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 4 firewall." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 4 firewall." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 5 firewall." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 5 firewall." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 5 firewall." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 5 firewall." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 6 firewall." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 6 firewall." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 6 firewall." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 6 firewall." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 7 firewall." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 7 firewall." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 7 firewall." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 7 firewall." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x100 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_8_control,The FW Region 8 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 8 firewall." bitfld.long 0x100 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x100 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x100 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x100 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x104 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_8_permission_0,The FW Region 8 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 8 firewall." hexmask.long.byte 0x104 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x104 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x104 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x104 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x104 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x104 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x104 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x104 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x104 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x104 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x104 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x104 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x104 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x108 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_8_permission_1,The FW Region 8 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 8 firewall." hexmask.long.byte 0x108 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x108 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x108 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x108 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x108 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x108 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x108 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x108 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x108 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x108 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x108 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x108 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x108 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_8_permission_2,The FW Region 8 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 8 firewall." hexmask.long.byte 0x10C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x10C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x10C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x10C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x10C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x10C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x10C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x10C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x10C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x10C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x10C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x110 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_8_start_address_l,The FW Region 8 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 8 firewall." hexmask.long.tbyte 0x110 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x110 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x114 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_8_start_address_h,The FW Region 8 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 8 firewall." hexmask.long.word 0x114 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x118 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_8_end_address_l,The FW Region 8 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 8 firewall." hexmask.long.tbyte 0x118 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x118 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x11C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_8_end_address_h,The FW Region 8 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 8 firewall." hexmask.long.word 0x11C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x120 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_9_control,The FW Region 9 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 9 firewall." bitfld.long 0x120 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x120 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x120 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x120 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x124 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_9_permission_0,The FW Region 9 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 9 firewall." hexmask.long.byte 0x124 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x124 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x124 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x124 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x124 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x124 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x124 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x124 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x124 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x124 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x124 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x124 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x124 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x128 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_9_permission_1,The FW Region 9 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 9 firewall." hexmask.long.byte 0x128 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x128 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x128 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x128 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x128 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x128 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x128 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x128 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x128 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x128 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x128 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x128 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x128 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x12C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_9_permission_2,The FW Region 9 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 9 firewall." hexmask.long.byte 0x12C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x12C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x12C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x12C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x12C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x12C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x12C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x12C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x12C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x12C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x12C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x130 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_9_start_address_l,The FW Region 9 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 9 firewall." hexmask.long.tbyte 0x130 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x130 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x134 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_9_start_address_h,The FW Region 9 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 9 firewall." hexmask.long.word 0x134 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x138 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_9_end_address_l,The FW Region 9 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 9 firewall." hexmask.long.tbyte 0x138 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x138 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x13C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_9_end_address_h,The FW Region 9 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 9 firewall." hexmask.long.word 0x13C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x140 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_10_control,The FW Region 10 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 10 firewall." bitfld.long 0x140 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x140 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x140 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x140 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x144 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_10_permission_0,The FW Region 10 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 10 firewall." hexmask.long.byte 0x144 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x144 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x144 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x144 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x144 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x144 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x144 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x144 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x144 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x144 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x144 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x144 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x144 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x148 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_10_permission_1,The FW Region 10 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 10 firewall." hexmask.long.byte 0x148 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x148 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x148 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x148 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x148 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x148 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x148 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x148 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x148 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x148 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x148 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x148 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x148 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x14C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_10_permission_2,The FW Region 10 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 10 firewall." hexmask.long.byte 0x14C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x14C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x14C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x14C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x14C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x14C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x14C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x14C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x14C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x14C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x14C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x150 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_10_start_address_l,The FW Region 10 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 10 firewall." hexmask.long.tbyte 0x150 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x150 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x154 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_10_start_address_h,The FW Region 10 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 10 firewall." hexmask.long.word 0x154 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x158 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_10_end_address_l,The FW Region 10 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 10 firewall." hexmask.long.tbyte 0x158 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x158 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x15C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_10_end_address_h,The FW Region 10 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 10 firewall." hexmask.long.word 0x15C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x160 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_11_control,The FW Region 11 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 11 firewall." bitfld.long 0x160 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x160 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x160 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x160 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x164 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_11_permission_0,The FW Region 11 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 11 firewall." hexmask.long.byte 0x164 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x164 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x164 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x164 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x164 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x164 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x164 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x164 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x164 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x164 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x164 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x164 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x164 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x168 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_11_permission_1,The FW Region 11 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 11 firewall." hexmask.long.byte 0x168 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x168 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x168 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x168 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x168 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x168 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x168 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x168 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x168 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x168 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x168 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x168 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x168 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x16C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_11_permission_2,The FW Region 11 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 11 firewall." hexmask.long.byte 0x16C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x16C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x16C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x16C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x16C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x16C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x16C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x16C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x16C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x16C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x16C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x170 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_11_start_address_l,The FW Region 11 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 11 firewall." hexmask.long.tbyte 0x170 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x170 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x174 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_11_start_address_h,The FW Region 11 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 11 firewall." hexmask.long.word 0x174 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x178 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_11_end_address_l,The FW Region 11 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 11 firewall." hexmask.long.tbyte 0x178 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x178 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x17C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_11_end_address_h,The FW Region 11 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 11 firewall." hexmask.long.word 0x17C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x180 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_12_control,The FW Region 12 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 12 firewall." bitfld.long 0x180 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x180 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x180 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x180 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x184 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_12_permission_0,The FW Region 12 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 12 firewall." hexmask.long.byte 0x184 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x184 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x184 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x184 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x184 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x184 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x184 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x184 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x184 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x184 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x184 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x184 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x184 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x188 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_12_permission_1,The FW Region 12 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 12 firewall." hexmask.long.byte 0x188 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x188 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x188 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x188 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x188 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x188 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x188 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x188 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x188 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x188 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x188 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x188 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x188 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x18C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_12_permission_2,The FW Region 12 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 12 firewall." hexmask.long.byte 0x18C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x18C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x18C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x18C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x18C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x18C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x18C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x18C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x18C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x18C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x18C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x190 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_12_start_address_l,The FW Region 12 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 12 firewall." hexmask.long.tbyte 0x190 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x190 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x194 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_12_start_address_h,The FW Region 12 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 12 firewall." hexmask.long.word 0x194 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x198 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_12_end_address_l,The FW Region 12 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 12 firewall." hexmask.long.tbyte 0x198 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x198 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x19C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_12_end_address_h,The FW Region 12 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 12 firewall." hexmask.long.word 0x19C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1A0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_13_control,The FW Region 13 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 13 firewall." bitfld.long 0x1A0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1A0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1A0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1A0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1A4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_13_permission_0,The FW Region 13 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 13 firewall." hexmask.long.byte 0x1A4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1A8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_13_permission_1,The FW Region 13 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 13 firewall." hexmask.long.byte 0x1A8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1AC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_13_permission_2,The FW Region 13 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 13 firewall." hexmask.long.byte 0x1AC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1AC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1AC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1AC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1AC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1AC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1AC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1AC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1AC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1AC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1AC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1B0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_13_start_address_l,The FW Region 13 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 13 firewall." hexmask.long.tbyte 0x1B0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1B0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1B4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_13_start_address_h,The FW Region 13 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 13 firewall." hexmask.long.word 0x1B4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1B8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_13_end_address_l,The FW Region 13 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 13 firewall." hexmask.long.tbyte 0x1B8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1B8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1BC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_13_end_address_h,The FW Region 13 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 13 firewall." hexmask.long.word 0x1BC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1C0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_14_control,The FW Region 14 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 14 firewall." bitfld.long 0x1C0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1C0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1C0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1C0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1C4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_14_permission_0,The FW Region 14 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 14 firewall." hexmask.long.byte 0x1C4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1C8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_14_permission_1,The FW Region 14 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 14 firewall." hexmask.long.byte 0x1C8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1CC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_14_permission_2,The FW Region 14 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 14 firewall." hexmask.long.byte 0x1CC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1CC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1CC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1CC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1CC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1CC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1CC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1CC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1CC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1CC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1CC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1D0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_14_start_address_l,The FW Region 14 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 14 firewall." hexmask.long.tbyte 0x1D0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1D0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1D4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_14_start_address_h,The FW Region 14 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 14 firewall." hexmask.long.word 0x1D4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1D8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_14_end_address_l,The FW Region 14 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 14 firewall." hexmask.long.tbyte 0x1D8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1D8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1DC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_14_end_address_h,The FW Region 14 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 14 firewall." hexmask.long.word 0x1DC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1E0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_15_control,The FW Region 15 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 15 firewall." bitfld.long 0x1E0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1E0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1E0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1E0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1E4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_15_permission_0,The FW Region 15 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 15 firewall." hexmask.long.byte 0x1E4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1E8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_15_permission_1,The FW Region 15 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 15 firewall." hexmask.long.byte 0x1E8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1EC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_15_permission_2,The FW Region 15 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 15 firewall." hexmask.long.byte 0x1EC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1EC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1EC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1EC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1EC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1EC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1EC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1EC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1EC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1EC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1EC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1F0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_15_start_address_l,The FW Region 15 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 15 firewall." hexmask.long.tbyte 0x1F0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1F0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1F4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_15_start_address_h,The FW Region 15 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 15 firewall." hexmask.long.word 0x1F4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1F8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_15_end_address_l,The FW Region 15 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 15 firewall." hexmask.long.tbyte 0x1F8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1F8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1FC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_hpt_fw_region_15_end_address_h,The FW Region 15 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss_hpt region 15 firewall." hexmask.long.word 0x1FC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x400++0x1FF line.long 0x0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss region 4 firewall." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss region 4 firewall." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss region 4 firewall." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss region 4 firewall." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss region 5 firewall." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss region 5 firewall." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss region 5 firewall." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss region 5 firewall." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss region 6 firewall." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss region 6 firewall." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss region 6 firewall." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss region 6 firewall." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss region 7 firewall." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss region 7 firewall." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss region 7 firewall." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss region 7 firewall." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x100 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_8_control,The FW Region 8 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss region 8 firewall." bitfld.long 0x100 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x100 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x100 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x100 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x104 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_8_permission_0,The FW Region 8 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 8 firewall." hexmask.long.byte 0x104 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x104 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x104 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x104 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x104 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x104 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x104 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x104 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x104 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x104 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x104 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x104 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x104 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x108 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_8_permission_1,The FW Region 8 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 8 firewall." hexmask.long.byte 0x108 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x108 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x108 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x108 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x108 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x108 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x108 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x108 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x108 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x108 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x108 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x108 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x108 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_8_permission_2,The FW Region 8 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 8 firewall." hexmask.long.byte 0x10C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x10C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x10C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x10C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x10C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x10C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x10C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x10C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x10C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x10C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x10C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x110 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_8_start_address_l,The FW Region 8 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss region 8 firewall." hexmask.long.tbyte 0x110 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x110 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x114 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_8_start_address_h,The FW Region 8 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss region 8 firewall." hexmask.long.word 0x114 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x118 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_8_end_address_l,The FW Region 8 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss region 8 firewall." hexmask.long.tbyte 0x118 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x118 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x11C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_8_end_address_h,The FW Region 8 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss region 8 firewall." hexmask.long.word 0x11C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x120 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_9_control,The FW Region 9 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss region 9 firewall." bitfld.long 0x120 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x120 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x120 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x120 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x124 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_9_permission_0,The FW Region 9 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 9 firewall." hexmask.long.byte 0x124 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x124 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x124 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x124 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x124 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x124 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x124 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x124 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x124 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x124 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x124 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x124 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x124 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x128 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_9_permission_1,The FW Region 9 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 9 firewall." hexmask.long.byte 0x128 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x128 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x128 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x128 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x128 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x128 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x128 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x128 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x128 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x128 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x128 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x128 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x128 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x12C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_9_permission_2,The FW Region 9 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 9 firewall." hexmask.long.byte 0x12C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x12C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x12C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x12C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x12C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x12C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x12C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x12C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x12C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x12C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x12C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x130 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_9_start_address_l,The FW Region 9 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss region 9 firewall." hexmask.long.tbyte 0x130 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x130 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x134 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_9_start_address_h,The FW Region 9 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss region 9 firewall." hexmask.long.word 0x134 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x138 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_9_end_address_l,The FW Region 9 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss region 9 firewall." hexmask.long.tbyte 0x138 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x138 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x13C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_9_end_address_h,The FW Region 9 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss region 9 firewall." hexmask.long.word 0x13C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x140 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_10_control,The FW Region 10 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss region 10 firewall." bitfld.long 0x140 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x140 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x140 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x140 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x144 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_10_permission_0,The FW Region 10 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 10 firewall." hexmask.long.byte 0x144 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x144 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x144 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x144 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x144 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x144 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x144 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x144 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x144 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x144 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x144 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x144 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x144 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x148 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_10_permission_1,The FW Region 10 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 10 firewall." hexmask.long.byte 0x148 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x148 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x148 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x148 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x148 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x148 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x148 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x148 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x148 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x148 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x148 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x148 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x148 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x14C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_10_permission_2,The FW Region 10 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 10 firewall." hexmask.long.byte 0x14C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x14C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x14C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x14C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x14C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x14C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x14C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x14C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x14C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x14C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x14C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x150 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_10_start_address_l,The FW Region 10 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss region 10 firewall." hexmask.long.tbyte 0x150 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x150 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x154 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_10_start_address_h,The FW Region 10 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss region 10 firewall." hexmask.long.word 0x154 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x158 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_10_end_address_l,The FW Region 10 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss region 10 firewall." hexmask.long.tbyte 0x158 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x158 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x15C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_10_end_address_h,The FW Region 10 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss region 10 firewall." hexmask.long.word 0x15C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x160 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_11_control,The FW Region 11 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss region 11 firewall." bitfld.long 0x160 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x160 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x160 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x160 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x164 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_11_permission_0,The FW Region 11 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 11 firewall." hexmask.long.byte 0x164 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x164 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x164 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x164 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x164 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x164 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x164 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x164 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x164 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x164 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x164 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x164 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x164 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x168 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_11_permission_1,The FW Region 11 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 11 firewall." hexmask.long.byte 0x168 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x168 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x168 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x168 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x168 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x168 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x168 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x168 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x168 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x168 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x168 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x168 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x168 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x16C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_11_permission_2,The FW Region 11 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 11 firewall." hexmask.long.byte 0x16C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x16C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x16C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x16C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x16C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x16C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x16C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x16C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x16C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x16C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x16C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x170 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_11_start_address_l,The FW Region 11 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss region 11 firewall." hexmask.long.tbyte 0x170 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x170 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x174 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_11_start_address_h,The FW Region 11 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss region 11 firewall." hexmask.long.word 0x174 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x178 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_11_end_address_l,The FW Region 11 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss region 11 firewall." hexmask.long.tbyte 0x178 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x178 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x17C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_11_end_address_h,The FW Region 11 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss region 11 firewall." hexmask.long.word 0x17C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x180 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_12_control,The FW Region 12 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss region 12 firewall." bitfld.long 0x180 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x180 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x180 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x180 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x184 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_12_permission_0,The FW Region 12 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 12 firewall." hexmask.long.byte 0x184 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x184 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x184 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x184 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x184 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x184 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x184 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x184 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x184 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x184 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x184 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x184 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x184 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x188 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_12_permission_1,The FW Region 12 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 12 firewall." hexmask.long.byte 0x188 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x188 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x188 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x188 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x188 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x188 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x188 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x188 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x188 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x188 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x188 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x188 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x188 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x18C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_12_permission_2,The FW Region 12 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 12 firewall." hexmask.long.byte 0x18C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x18C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x18C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x18C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x18C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x18C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x18C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x18C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x18C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x18C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x18C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x190 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_12_start_address_l,The FW Region 12 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss region 12 firewall." hexmask.long.tbyte 0x190 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x190 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x194 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_12_start_address_h,The FW Region 12 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss region 12 firewall." hexmask.long.word 0x194 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x198 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_12_end_address_l,The FW Region 12 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss region 12 firewall." hexmask.long.tbyte 0x198 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x198 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x19C "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_12_end_address_h,The FW Region 12 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss region 12 firewall." hexmask.long.word 0x19C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1A0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_13_control,The FW Region 13 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss region 13 firewall." bitfld.long 0x1A0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1A0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1A0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1A0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1A4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_13_permission_0,The FW Region 13 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 13 firewall." hexmask.long.byte 0x1A4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1A8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_13_permission_1,The FW Region 13 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 13 firewall." hexmask.long.byte 0x1A8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1AC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_13_permission_2,The FW Region 13 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 13 firewall." hexmask.long.byte 0x1AC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1AC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1AC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1AC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1AC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1AC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1AC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1AC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1AC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1AC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1AC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1B0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_13_start_address_l,The FW Region 13 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss region 13 firewall." hexmask.long.tbyte 0x1B0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1B0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1B4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_13_start_address_h,The FW Region 13 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss region 13 firewall." hexmask.long.word 0x1B4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1B8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_13_end_address_l,The FW Region 13 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss region 13 firewall." hexmask.long.tbyte 0x1B8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1B8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1BC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_13_end_address_h,The FW Region 13 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss region 13 firewall." hexmask.long.word 0x1BC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1C0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_14_control,The FW Region 14 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss region 14 firewall." bitfld.long 0x1C0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1C0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1C0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1C0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1C4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_14_permission_0,The FW Region 14 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 14 firewall." hexmask.long.byte 0x1C4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1C8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_14_permission_1,The FW Region 14 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 14 firewall." hexmask.long.byte 0x1C8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1CC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_14_permission_2,The FW Region 14 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 14 firewall." hexmask.long.byte 0x1CC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1CC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1CC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1CC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1CC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1CC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1CC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1CC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1CC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1CC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1CC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1D0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_14_start_address_l,The FW Region 14 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss region 14 firewall." hexmask.long.tbyte 0x1D0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1D0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1D4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_14_start_address_h,The FW Region 14 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss region 14 firewall." hexmask.long.word 0x1D4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1D8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_14_end_address_l,The FW Region 14 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss region 14 firewall." hexmask.long.tbyte 0x1D8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1D8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1DC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_14_end_address_h,The FW Region 14 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss region 14 firewall." hexmask.long.word 0x1DC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1E0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_15_control,The FW Region 15 Control Register defines the control fields for the target Isam67_ddr_wrap_main_0.ddrss region 15 firewall." bitfld.long 0x1E0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1E0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1E0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1E0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1E4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_15_permission_0,The FW Region 15 Permission 0 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 15 firewall." hexmask.long.byte 0x1E4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1E8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_15_permission_1,The FW Region 15 Permission 1 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 15 firewall." hexmask.long.byte 0x1E8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1EC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_15_permission_2,The FW Region 15 Permission 2 Register defines the permissions for the target Isam67_ddr_wrap_main_0.ddrss region 15 firewall." hexmask.long.byte 0x1EC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1EC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1EC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1EC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1EC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1EC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1EC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1EC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1EC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1EC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1EC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1F0 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_15_start_address_l,The FW Region 15 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_ddr_wrap_main_0.ddrss region 15 firewall." hexmask.long.tbyte 0x1F0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1F0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1F4 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_15_start_address_h,The FW Region 15 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_ddr_wrap_main_0.ddrss region 15 firewall." hexmask.long.word 0x1F4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1F8 "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_15_end_address_l,The FW Region 15 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_ddr_wrap_main_0.ddrss region 15 firewall." hexmask.long.tbyte 0x1F8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1F8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1FC "FW_REGS_Isam67_ddr_wrap_main_0_ddrss_fw_region_15_end_address_h,The FW Region 15 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_ddr_wrap_main_0.ddrss region 15 firewall." hexmask.long.word 0x1FC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x800++0xFF line.long 0x0 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 0.." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 0.." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 0.." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region.." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 1.." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 1.." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 1.." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region.." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 2.." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 2.." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 2.." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region.." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 3.." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 3.." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 3.." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region.." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 4.." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 4.." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 4.." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region.." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 5.." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 5.." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 5.." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region.." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 6.." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 6.." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 6.." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region.." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 7.." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 7.." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region 7.." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "FW_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_acp_w_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_acp_w region.." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0xC00++0x7F line.long 0x0 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_Idebugss_k3_wrap_cv0_main_0_vbusp_cfg_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target Idebugss_k3_wrap_cv0_main_0.vbusp_cfg region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x1800++0xFF line.long 0x0 "FW_REGS_Igpmc_main_0_gpmc_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Igpmc_main_0.gpmc region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_Igpmc_main_0_gpmc_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Igpmc_main_0.gpmc region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_Igpmc_main_0_gpmc_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Igpmc_main_0.gpmc region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_Igpmc_main_0_gpmc_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Igpmc_main_0.gpmc region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_Igpmc_main_0_gpmc_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Igpmc_main_0.gpmc region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_Igpmc_main_0_gpmc_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Igpmc_main_0.gpmc region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_Igpmc_main_0_gpmc_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Igpmc_main_0.gpmc region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_Igpmc_main_0_gpmc_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Igpmc_main_0.gpmc region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_Igpmc_main_0_gpmc_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Igpmc_main_0.gpmc region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_Igpmc_main_0_gpmc_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Igpmc_main_0.gpmc region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_Igpmc_main_0_gpmc_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Igpmc_main_0.gpmc region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_Igpmc_main_0_gpmc_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Igpmc_main_0.gpmc region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_Igpmc_main_0_gpmc_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Igpmc_main_0.gpmc region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_Igpmc_main_0_gpmc_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Igpmc_main_0.gpmc region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_Igpmc_main_0_gpmc_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Igpmc_main_0.gpmc region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_Igpmc_main_0_gpmc_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Igpmc_main_0.gpmc region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_Igpmc_main_0_gpmc_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target Igpmc_main_0.gpmc region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_Igpmc_main_0_gpmc_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target Igpmc_main_0.gpmc region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_Igpmc_main_0_gpmc_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target Igpmc_main_0.gpmc region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_Igpmc_main_0_gpmc_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target Igpmc_main_0.gpmc region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_Igpmc_main_0_gpmc_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target Igpmc_main_0.gpmc region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_Igpmc_main_0_gpmc_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target Igpmc_main_0.gpmc region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_Igpmc_main_0_gpmc_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target Igpmc_main_0.gpmc region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_Igpmc_main_0_gpmc_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target Igpmc_main_0.gpmc region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_Igpmc_main_0_gpmc_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target Igpmc_main_0.gpmc region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_Igpmc_main_0_gpmc_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target Igpmc_main_0.gpmc region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_Igpmc_main_0_gpmc_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target Igpmc_main_0.gpmc region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_Igpmc_main_0_gpmc_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target Igpmc_main_0.gpmc region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_Igpmc_main_0_gpmc_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target Igpmc_main_0.gpmc region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_Igpmc_main_0_gpmc_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target Igpmc_main_0.gpmc region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_Igpmc_main_0_gpmc_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target Igpmc_main_0.gpmc region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_Igpmc_main_0_gpmc_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target Igpmc_main_0.gpmc region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "FW_REGS_Igpmc_main_0_gpmc_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target Igpmc_main_0.gpmc region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "FW_REGS_Igpmc_main_0_gpmc_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target Igpmc_main_0.gpmc region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "FW_REGS_Igpmc_main_0_gpmc_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target Igpmc_main_0.gpmc region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "FW_REGS_Igpmc_main_0_gpmc_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target Igpmc_main_0.gpmc region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "FW_REGS_Igpmc_main_0_gpmc_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target Igpmc_main_0.gpmc region 4 firewall." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "FW_REGS_Igpmc_main_0_gpmc_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target Igpmc_main_0.gpmc region 4 firewall." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "FW_REGS_Igpmc_main_0_gpmc_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target Igpmc_main_0.gpmc region 4 firewall." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "FW_REGS_Igpmc_main_0_gpmc_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target Igpmc_main_0.gpmc region 4 firewall." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "FW_REGS_Igpmc_main_0_gpmc_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target Igpmc_main_0.gpmc region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "FW_REGS_Igpmc_main_0_gpmc_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target Igpmc_main_0.gpmc region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "FW_REGS_Igpmc_main_0_gpmc_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target Igpmc_main_0.gpmc region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "FW_REGS_Igpmc_main_0_gpmc_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target Igpmc_main_0.gpmc region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "FW_REGS_Igpmc_main_0_gpmc_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target Igpmc_main_0.gpmc region 5 firewall." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "FW_REGS_Igpmc_main_0_gpmc_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target Igpmc_main_0.gpmc region 5 firewall." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "FW_REGS_Igpmc_main_0_gpmc_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target Igpmc_main_0.gpmc region 5 firewall." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "FW_REGS_Igpmc_main_0_gpmc_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target Igpmc_main_0.gpmc region 5 firewall." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "FW_REGS_Igpmc_main_0_gpmc_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target Igpmc_main_0.gpmc region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "FW_REGS_Igpmc_main_0_gpmc_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target Igpmc_main_0.gpmc region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "FW_REGS_Igpmc_main_0_gpmc_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target Igpmc_main_0.gpmc region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "FW_REGS_Igpmc_main_0_gpmc_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target Igpmc_main_0.gpmc region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "FW_REGS_Igpmc_main_0_gpmc_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target Igpmc_main_0.gpmc region 6 firewall." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "FW_REGS_Igpmc_main_0_gpmc_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target Igpmc_main_0.gpmc region 6 firewall." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "FW_REGS_Igpmc_main_0_gpmc_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target Igpmc_main_0.gpmc region 6 firewall." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "FW_REGS_Igpmc_main_0_gpmc_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target Igpmc_main_0.gpmc region 6 firewall." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "FW_REGS_Igpmc_main_0_gpmc_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target Igpmc_main_0.gpmc region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "FW_REGS_Igpmc_main_0_gpmc_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target Igpmc_main_0.gpmc region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "FW_REGS_Igpmc_main_0_gpmc_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target Igpmc_main_0.gpmc region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "FW_REGS_Igpmc_main_0_gpmc_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target Igpmc_main_0.gpmc region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "FW_REGS_Igpmc_main_0_gpmc_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target Igpmc_main_0.gpmc region 7 firewall." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "FW_REGS_Igpmc_main_0_gpmc_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target Igpmc_main_0.gpmc region 7 firewall." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "FW_REGS_Igpmc_main_0_gpmc_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target Igpmc_main_0.gpmc region 7 firewall." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "FW_REGS_Igpmc_main_0_gpmc_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target Igpmc_main_0.gpmc region 7 firewall." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x1C00++0xFF line.long 0x0 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Ifss_ul_main_0.fss_s0 region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Ifss_ul_main_0.fss_s0 region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Ifss_ul_main_0.fss_s0 region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Ifss_ul_main_0.fss_s0 region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Ifss_ul_main_0.fss_s0 region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Ifss_ul_main_0.fss_s0 region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Ifss_ul_main_0.fss_s0 region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Ifss_ul_main_0.fss_s0 region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Ifss_ul_main_0.fss_s0 region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Ifss_ul_main_0.fss_s0 region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target Ifss_ul_main_0.fss_s0 region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target Ifss_ul_main_0.fss_s0 region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target Ifss_ul_main_0.fss_s0 region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target Ifss_ul_main_0.fss_s0 region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target Ifss_ul_main_0.fss_s0 region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target Ifss_ul_main_0.fss_s0 region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target Ifss_ul_main_0.fss_s0 region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target Ifss_ul_main_0.fss_s0 region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target Ifss_ul_main_0.fss_s0 region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target Ifss_ul_main_0.fss_s0 region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target Ifss_ul_main_0.fss_s0 region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target Ifss_ul_main_0.fss_s0 region 4 firewall." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target Ifss_ul_main_0.fss_s0 region 4 firewall." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target Ifss_ul_main_0.fss_s0 region 4 firewall." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target Ifss_ul_main_0.fss_s0 region 4 firewall." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target Ifss_ul_main_0.fss_s0 region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target Ifss_ul_main_0.fss_s0 region 5 firewall." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target Ifss_ul_main_0.fss_s0 region 5 firewall." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target Ifss_ul_main_0.fss_s0 region 5 firewall." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target Ifss_ul_main_0.fss_s0 region 5 firewall." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target Ifss_ul_main_0.fss_s0 region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target Ifss_ul_main_0.fss_s0 region 6 firewall." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target Ifss_ul_main_0.fss_s0 region 6 firewall." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target Ifss_ul_main_0.fss_s0 region 6 firewall." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target Ifss_ul_main_0.fss_s0 region 6 firewall." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target Ifss_ul_main_0.fss_s0 region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target Ifss_ul_main_0.fss_s0 region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target Ifss_ul_main_0.fss_s0 region 7 firewall." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target Ifss_ul_main_0.fss_s0 region 7 firewall." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target Ifss_ul_main_0.fss_s0 region 7 firewall." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "FW_REGS_Ifss_ul_main_0_fss_s0_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target Ifss_ul_main_0.fss_s0 region 7 firewall." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x2400++0x5FF line.long 0x0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 4 firewall." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 4 firewall." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 4 firewall." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 4 firewall." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 5 firewall." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 5 firewall." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 5 firewall." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 5 firewall." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 6 firewall." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 6 firewall." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 6 firewall." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 6 firewall." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 7 firewall." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 7 firewall." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 7 firewall." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 7 firewall." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x100 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_8_control,The FW Region 8 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 8 firewall." bitfld.long 0x100 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x100 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x100 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x100 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x104 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_8_permission_0,The FW Region 8 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 8 firewall." hexmask.long.byte 0x104 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x104 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x104 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x104 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x104 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x104 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x104 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x104 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x104 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x104 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x104 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x104 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x104 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x108 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_8_permission_1,The FW Region 8 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 8 firewall." hexmask.long.byte 0x108 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x108 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x108 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x108 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x108 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x108 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x108 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x108 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x108 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x108 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x108 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x108 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x108 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_8_permission_2,The FW Region 8 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 8 firewall." hexmask.long.byte 0x10C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x10C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x10C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x10C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x10C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x10C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x10C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x10C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x10C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x10C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x10C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x110 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_8_start_address_l,The FW Region 8 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 8 firewall." hexmask.long.tbyte 0x110 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x110 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x114 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_8_start_address_h,The FW Region 8 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 8 firewall." hexmask.long.word 0x114 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x118 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_8_end_address_l,The FW Region 8 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 8 firewall." hexmask.long.tbyte 0x118 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x118 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x11C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_8_end_address_h,The FW Region 8 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 8 firewall." hexmask.long.word 0x11C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x120 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_9_control,The FW Region 9 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 9 firewall." bitfld.long 0x120 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x120 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x120 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x120 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x124 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_9_permission_0,The FW Region 9 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 9 firewall." hexmask.long.byte 0x124 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x124 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x124 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x124 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x124 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x124 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x124 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x124 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x124 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x124 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x124 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x124 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x124 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x128 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_9_permission_1,The FW Region 9 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 9 firewall." hexmask.long.byte 0x128 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x128 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x128 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x128 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x128 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x128 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x128 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x128 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x128 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x128 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x128 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x128 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x128 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x12C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_9_permission_2,The FW Region 9 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 9 firewall." hexmask.long.byte 0x12C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x12C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x12C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x12C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x12C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x12C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x12C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x12C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x12C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x12C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x12C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x130 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_9_start_address_l,The FW Region 9 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 9 firewall." hexmask.long.tbyte 0x130 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x130 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x134 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_9_start_address_h,The FW Region 9 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 9 firewall." hexmask.long.word 0x134 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x138 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_9_end_address_l,The FW Region 9 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 9 firewall." hexmask.long.tbyte 0x138 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x138 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x13C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_9_end_address_h,The FW Region 9 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 9 firewall." hexmask.long.word 0x13C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x140 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_10_control,The FW Region 10 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 10 firewall." bitfld.long 0x140 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x140 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x140 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x140 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x144 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_10_permission_0,The FW Region 10 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 10 firewall." hexmask.long.byte 0x144 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x144 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x144 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x144 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x144 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x144 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x144 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x144 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x144 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x144 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x144 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x144 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x144 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x148 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_10_permission_1,The FW Region 10 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 10 firewall." hexmask.long.byte 0x148 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x148 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x148 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x148 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x148 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x148 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x148 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x148 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x148 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x148 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x148 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x148 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x148 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x14C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_10_permission_2,The FW Region 10 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 10 firewall." hexmask.long.byte 0x14C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x14C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x14C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x14C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x14C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x14C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x14C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x14C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x14C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x14C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x14C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x150 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_10_start_address_l,The FW Region 10 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 10 firewall." hexmask.long.tbyte 0x150 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x150 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x154 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_10_start_address_h,The FW Region 10 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 10 firewall." hexmask.long.word 0x154 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x158 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_10_end_address_l,The FW Region 10 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 10 firewall." hexmask.long.tbyte 0x158 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x158 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x15C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_10_end_address_h,The FW Region 10 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 10 firewall." hexmask.long.word 0x15C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x160 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_11_control,The FW Region 11 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 11 firewall." bitfld.long 0x160 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x160 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x160 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x160 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x164 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_11_permission_0,The FW Region 11 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 11 firewall." hexmask.long.byte 0x164 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x164 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x164 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x164 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x164 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x164 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x164 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x164 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x164 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x164 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x164 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x164 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x164 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x168 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_11_permission_1,The FW Region 11 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 11 firewall." hexmask.long.byte 0x168 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x168 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x168 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x168 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x168 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x168 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x168 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x168 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x168 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x168 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x168 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x168 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x168 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x16C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_11_permission_2,The FW Region 11 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 11 firewall." hexmask.long.byte 0x16C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x16C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x16C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x16C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x16C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x16C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x16C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x16C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x16C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x16C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x16C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x170 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_11_start_address_l,The FW Region 11 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 11 firewall." hexmask.long.tbyte 0x170 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x170 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x174 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_11_start_address_h,The FW Region 11 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 11 firewall." hexmask.long.word 0x174 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x178 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_11_end_address_l,The FW Region 11 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 11 firewall." hexmask.long.tbyte 0x178 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x178 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x17C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_11_end_address_h,The FW Region 11 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 11 firewall." hexmask.long.word 0x17C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x180 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_12_control,The FW Region 12 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 12 firewall." bitfld.long 0x180 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x180 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x180 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x180 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x184 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_12_permission_0,The FW Region 12 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 12 firewall." hexmask.long.byte 0x184 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x184 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x184 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x184 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x184 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x184 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x184 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x184 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x184 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x184 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x184 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x184 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x184 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x188 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_12_permission_1,The FW Region 12 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 12 firewall." hexmask.long.byte 0x188 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x188 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x188 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x188 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x188 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x188 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x188 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x188 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x188 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x188 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x188 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x188 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x188 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x18C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_12_permission_2,The FW Region 12 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 12 firewall." hexmask.long.byte 0x18C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x18C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x18C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x18C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x18C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x18C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x18C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x18C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x18C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x18C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x18C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x190 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_12_start_address_l,The FW Region 12 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 12 firewall." hexmask.long.tbyte 0x190 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x190 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x194 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_12_start_address_h,The FW Region 12 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 12 firewall." hexmask.long.word 0x194 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x198 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_12_end_address_l,The FW Region 12 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 12 firewall." hexmask.long.tbyte 0x198 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x198 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x19C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_12_end_address_h,The FW Region 12 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 12 firewall." hexmask.long.word 0x19C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1A0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_13_control,The FW Region 13 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 13 firewall." bitfld.long 0x1A0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1A0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1A0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1A0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1A4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_13_permission_0,The FW Region 13 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 13 firewall." hexmask.long.byte 0x1A4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1A8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_13_permission_1,The FW Region 13 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 13 firewall." hexmask.long.byte 0x1A8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1AC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_13_permission_2,The FW Region 13 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 13 firewall." hexmask.long.byte 0x1AC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1AC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1AC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1AC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1AC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1AC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1AC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1AC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1AC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1AC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1AC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1B0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_13_start_address_l,The FW Region 13 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 13 firewall." hexmask.long.tbyte 0x1B0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1B0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1B4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_13_start_address_h,The FW Region 13 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 13 firewall." hexmask.long.word 0x1B4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1B8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_13_end_address_l,The FW Region 13 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 13 firewall." hexmask.long.tbyte 0x1B8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1B8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1BC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_13_end_address_h,The FW Region 13 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 13 firewall." hexmask.long.word 0x1BC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1C0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_14_control,The FW Region 14 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 14 firewall." bitfld.long 0x1C0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1C0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1C0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1C0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1C4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_14_permission_0,The FW Region 14 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 14 firewall." hexmask.long.byte 0x1C4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1C8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_14_permission_1,The FW Region 14 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 14 firewall." hexmask.long.byte 0x1C8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1CC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_14_permission_2,The FW Region 14 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 14 firewall." hexmask.long.byte 0x1CC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1CC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1CC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1CC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1CC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1CC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1CC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1CC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1CC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1CC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1CC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1D0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_14_start_address_l,The FW Region 14 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 14 firewall." hexmask.long.tbyte 0x1D0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1D0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1D4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_14_start_address_h,The FW Region 14 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 14 firewall." hexmask.long.word 0x1D4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1D8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_14_end_address_l,The FW Region 14 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 14 firewall." hexmask.long.tbyte 0x1D8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1D8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1DC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_14_end_address_h,The FW Region 14 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 14 firewall." hexmask.long.word 0x1DC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1E0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_15_control,The FW Region 15 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 15 firewall." bitfld.long 0x1E0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1E0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1E0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1E0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1E4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_15_permission_0,The FW Region 15 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 15 firewall." hexmask.long.byte 0x1E4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1E8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_15_permission_1,The FW Region 15 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 15 firewall." hexmask.long.byte 0x1E8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1EC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_15_permission_2,The FW Region 15 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 15 firewall." hexmask.long.byte 0x1EC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1EC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1EC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1EC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1EC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1EC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1EC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1EC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1EC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1EC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1EC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1F0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_15_start_address_l,The FW Region 15 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 15 firewall." hexmask.long.tbyte 0x1F0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1F0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1F4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_15_start_address_h,The FW Region 15 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 15 firewall." hexmask.long.word 0x1F4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1F8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_15_end_address_l,The FW Region 15 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 15 firewall." hexmask.long.tbyte 0x1F8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1F8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1FC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_15_end_address_h,The FW Region 15 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 15 firewall." hexmask.long.word 0x1FC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x200 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_16_control,The FW Region 16 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 16 firewall." bitfld.long 0x200 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x200 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x200 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x200 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x204 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_16_permission_0,The FW Region 16 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 16 firewall." hexmask.long.byte 0x204 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x204 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x204 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x204 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x204 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x204 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x204 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x204 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x204 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x204 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x204 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x204 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x204 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x204 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x204 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x204 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x204 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x208 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_16_permission_1,The FW Region 16 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 16 firewall." hexmask.long.byte 0x208 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x208 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x208 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x208 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x208 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x208 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x208 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x208 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x208 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x208 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x208 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x208 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x208 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x208 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x208 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x208 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x208 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x20C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_16_permission_2,The FW Region 16 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 16 firewall." hexmask.long.byte 0x20C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x20C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x20C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x20C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x20C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x20C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x20C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x20C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x20C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x20C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x20C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x20C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x20C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x20C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x20C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x20C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x20C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x210 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_16_start_address_l,The FW Region 16 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 16 firewall." hexmask.long.tbyte 0x210 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x210 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x214 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_16_start_address_h,The FW Region 16 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 16 firewall." hexmask.long.word 0x214 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x218 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_16_end_address_l,The FW Region 16 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 16 firewall." hexmask.long.tbyte 0x218 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x218 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x21C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_16_end_address_h,The FW Region 16 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 16 firewall." hexmask.long.word 0x21C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x220 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_17_control,The FW Region 17 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 17 firewall." bitfld.long 0x220 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x220 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x220 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x220 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x224 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_17_permission_0,The FW Region 17 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 17 firewall." hexmask.long.byte 0x224 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x224 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x224 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x224 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x224 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x224 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x224 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x224 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x224 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x224 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x224 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x224 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x224 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x224 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x224 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x224 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x224 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x228 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_17_permission_1,The FW Region 17 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 17 firewall." hexmask.long.byte 0x228 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x228 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x228 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x228 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x228 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x228 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x228 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x228 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x228 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x228 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x228 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x228 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x228 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x228 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x228 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x228 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x228 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x22C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_17_permission_2,The FW Region 17 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 17 firewall." hexmask.long.byte 0x22C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x22C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x22C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x22C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x22C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x22C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x22C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x22C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x22C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x22C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x22C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x22C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x22C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x22C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x22C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x22C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x22C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x230 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_17_start_address_l,The FW Region 17 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 17 firewall." hexmask.long.tbyte 0x230 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x230 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x234 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_17_start_address_h,The FW Region 17 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 17 firewall." hexmask.long.word 0x234 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x238 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_17_end_address_l,The FW Region 17 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 17 firewall." hexmask.long.tbyte 0x238 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x238 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x23C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_17_end_address_h,The FW Region 17 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 17 firewall." hexmask.long.word 0x23C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x240 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_18_control,The FW Region 18 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 18 firewall." bitfld.long 0x240 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x240 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x240 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x240 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x244 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_18_permission_0,The FW Region 18 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 18 firewall." hexmask.long.byte 0x244 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x244 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x244 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x244 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x244 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x244 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x244 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x244 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x244 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x244 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x244 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x244 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x244 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x244 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x244 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x244 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x244 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x248 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_18_permission_1,The FW Region 18 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 18 firewall." hexmask.long.byte 0x248 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x248 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x248 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x248 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x248 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x248 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x248 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x248 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x248 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x248 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x248 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x248 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x248 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x248 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x248 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x248 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x248 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x24C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_18_permission_2,The FW Region 18 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 18 firewall." hexmask.long.byte 0x24C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x250 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_18_start_address_l,The FW Region 18 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 18 firewall." hexmask.long.tbyte 0x250 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x250 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x254 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_18_start_address_h,The FW Region 18 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 18 firewall." hexmask.long.word 0x254 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x258 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_18_end_address_l,The FW Region 18 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 18 firewall." hexmask.long.tbyte 0x258 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x258 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x25C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_18_end_address_h,The FW Region 18 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 18 firewall." hexmask.long.word 0x25C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x260 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_19_control,The FW Region 19 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 19 firewall." bitfld.long 0x260 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x260 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x260 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x260 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x264 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_19_permission_0,The FW Region 19 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 19 firewall." hexmask.long.byte 0x264 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x264 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x264 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x264 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x264 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x264 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x264 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x264 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x264 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x264 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x264 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x264 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x264 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x264 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x264 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x264 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x264 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x268 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_19_permission_1,The FW Region 19 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 19 firewall." hexmask.long.byte 0x268 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x268 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x268 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x268 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x268 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x268 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x268 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x268 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x268 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x268 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x268 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x268 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x268 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x268 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x268 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x268 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x268 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x26C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_19_permission_2,The FW Region 19 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 19 firewall." hexmask.long.byte 0x26C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x26C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x26C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x26C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x26C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x26C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x26C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x26C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x26C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x26C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x26C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x26C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x26C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x26C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x26C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x26C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x26C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x270 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_19_start_address_l,The FW Region 19 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 19 firewall." hexmask.long.tbyte 0x270 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x270 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x274 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_19_start_address_h,The FW Region 19 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 19 firewall." hexmask.long.word 0x274 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x278 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_19_end_address_l,The FW Region 19 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 19 firewall." hexmask.long.tbyte 0x278 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x278 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x27C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_19_end_address_h,The FW Region 19 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 19 firewall." hexmask.long.word 0x27C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x280 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_20_control,The FW Region 20 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 20 firewall." bitfld.long 0x280 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x280 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x280 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x280 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x284 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_20_permission_0,The FW Region 20 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 20 firewall." hexmask.long.byte 0x284 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x284 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x284 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x284 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x284 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x284 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x284 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x284 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x284 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x284 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x284 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x284 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x284 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x284 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x284 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x284 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x284 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x288 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_20_permission_1,The FW Region 20 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 20 firewall." hexmask.long.byte 0x288 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x288 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x288 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x288 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x288 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x288 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x288 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x288 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x288 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x288 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x288 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x288 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x288 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x288 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x288 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x288 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x288 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_20_permission_2,The FW Region 20 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 20 firewall." hexmask.long.byte 0x28C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x290 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_20_start_address_l,The FW Region 20 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 20 firewall." hexmask.long.tbyte 0x290 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x290 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x294 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_20_start_address_h,The FW Region 20 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 20 firewall." hexmask.long.word 0x294 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x298 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_20_end_address_l,The FW Region 20 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 20 firewall." hexmask.long.tbyte 0x298 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x298 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x29C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_20_end_address_h,The FW Region 20 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 20 firewall." hexmask.long.word 0x29C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x2A0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_21_control,The FW Region 21 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 21 firewall." bitfld.long 0x2A0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x2A0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x2A0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x2A0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x2A4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_21_permission_0,The FW Region 21 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 21 firewall." hexmask.long.byte 0x2A4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2A4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2A4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2A4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2A4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2A4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2A4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2A4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2A4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2A4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2A4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2A4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2A4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2A4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2A4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2A4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2A4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2A8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_21_permission_1,The FW Region 21 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 21 firewall." hexmask.long.byte 0x2A8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2A8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2A8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2A8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2A8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2A8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2A8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2A8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2A8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2A8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2A8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2A8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2A8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2A8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2A8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2A8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2A8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2AC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_21_permission_2,The FW Region 21 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 21 firewall." hexmask.long.byte 0x2AC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2AC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2AC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2AC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2AC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2AC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2AC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2AC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2AC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2AC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2AC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2AC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2AC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2AC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2AC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2AC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2AC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2B0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_21_start_address_l,The FW Region 21 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 21 firewall." hexmask.long.tbyte 0x2B0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x2B0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x2B4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_21_start_address_h,The FW Region 21 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 21 firewall." hexmask.long.word 0x2B4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x2B8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_21_end_address_l,The FW Region 21 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 21 firewall." hexmask.long.tbyte 0x2B8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x2B8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x2BC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_21_end_address_h,The FW Region 21 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 21 firewall." hexmask.long.word 0x2BC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x2C0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_22_control,The FW Region 22 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 22 firewall." bitfld.long 0x2C0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x2C0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x2C0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x2C0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x2C4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_22_permission_0,The FW Region 22 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 22 firewall." hexmask.long.byte 0x2C4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_22_permission_1,The FW Region 22 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 22 firewall." hexmask.long.byte 0x2C8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2CC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_22_permission_2,The FW Region 22 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 22 firewall." hexmask.long.byte 0x2CC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2CC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2CC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2CC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2CC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2CC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2CC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2CC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2CC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2CC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2CC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2CC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2CC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2CC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2CC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2CC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2CC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2D0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_22_start_address_l,The FW Region 22 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 22 firewall." hexmask.long.tbyte 0x2D0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x2D0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x2D4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_22_start_address_h,The FW Region 22 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 22 firewall." hexmask.long.word 0x2D4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x2D8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_22_end_address_l,The FW Region 22 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 22 firewall." hexmask.long.tbyte 0x2D8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x2D8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x2DC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_22_end_address_h,The FW Region 22 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 22 firewall." hexmask.long.word 0x2DC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x2E0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_23_control,The FW Region 23 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 23 firewall." bitfld.long 0x2E0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x2E0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x2E0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x2E0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x2E4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_23_permission_0,The FW Region 23 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 23 firewall." hexmask.long.byte 0x2E4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2E4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2E4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2E4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2E4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2E4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2E4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2E4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2E4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2E4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2E4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2E4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2E4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2E4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2E4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2E4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2E4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2E8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_23_permission_1,The FW Region 23 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 23 firewall." hexmask.long.byte 0x2E8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2E8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2E8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2E8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2E8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2E8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2E8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2E8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2E8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2E8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2E8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2E8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2E8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2E8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2E8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2E8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2E8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2EC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_23_permission_2,The FW Region 23 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 23 firewall." hexmask.long.byte 0x2EC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2EC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2EC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2EC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2EC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2EC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2EC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2EC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2EC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2EC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2EC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2EC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2EC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2EC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2EC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2EC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2EC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2F0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_23_start_address_l,The FW Region 23 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 23 firewall." hexmask.long.tbyte 0x2F0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x2F0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x2F4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_23_start_address_h,The FW Region 23 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 23 firewall." hexmask.long.word 0x2F4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x2F8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_23_end_address_l,The FW Region 23 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 23 firewall." hexmask.long.tbyte 0x2F8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x2F8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x2FC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_23_end_address_h,The FW Region 23 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 23 firewall." hexmask.long.word 0x2FC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x300 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_24_control,The FW Region 24 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 24 firewall." bitfld.long 0x300 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x300 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x300 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x300 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x304 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_24_permission_0,The FW Region 24 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 24 firewall." hexmask.long.byte 0x304 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x304 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x304 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x304 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x304 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x304 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x304 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x304 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x304 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x304 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x304 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x304 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x304 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x304 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x304 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x304 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x304 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x308 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_24_permission_1,The FW Region 24 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 24 firewall." hexmask.long.byte 0x308 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x308 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x308 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x308 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x308 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x308 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x308 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x308 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x308 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x308 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x308 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x308 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x308 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x308 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x308 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x308 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x308 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_24_permission_2,The FW Region 24 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 24 firewall." hexmask.long.byte 0x30C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x30C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x30C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x30C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x30C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x30C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x30C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x30C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x30C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x30C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x30C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x30C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x30C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x30C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x30C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x30C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x30C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x310 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_24_start_address_l,The FW Region 24 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 24 firewall." hexmask.long.tbyte 0x310 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x310 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x314 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_24_start_address_h,The FW Region 24 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 24 firewall." hexmask.long.word 0x314 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x318 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_24_end_address_l,The FW Region 24 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 24 firewall." hexmask.long.tbyte 0x318 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x318 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x31C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_24_end_address_h,The FW Region 24 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 24 firewall." hexmask.long.word 0x31C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x320 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_25_control,The FW Region 25 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 25 firewall." bitfld.long 0x320 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x320 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x320 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x320 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x324 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_25_permission_0,The FW Region 25 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 25 firewall." hexmask.long.byte 0x324 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x324 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x324 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x324 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x324 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x324 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x324 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x324 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x324 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x324 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x324 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x324 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x324 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x324 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x324 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x324 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x324 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x328 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_25_permission_1,The FW Region 25 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 25 firewall." hexmask.long.byte 0x328 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x328 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x328 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x328 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x328 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x328 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x328 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x328 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x328 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x328 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x328 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x328 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x328 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x328 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x328 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x328 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x328 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x32C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_25_permission_2,The FW Region 25 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 25 firewall." hexmask.long.byte 0x32C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x32C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x32C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x32C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x32C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x32C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x32C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x32C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x32C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x32C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x32C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x32C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x32C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x32C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x32C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x32C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x32C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x330 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_25_start_address_l,The FW Region 25 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 25 firewall." hexmask.long.tbyte 0x330 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x330 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x334 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_25_start_address_h,The FW Region 25 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 25 firewall." hexmask.long.word 0x334 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x338 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_25_end_address_l,The FW Region 25 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 25 firewall." hexmask.long.tbyte 0x338 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x338 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x33C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_25_end_address_h,The FW Region 25 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 25 firewall." hexmask.long.word 0x33C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x340 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_26_control,The FW Region 26 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 26 firewall." bitfld.long 0x340 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x340 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x340 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x340 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x344 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_26_permission_0,The FW Region 26 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 26 firewall." hexmask.long.byte 0x344 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x344 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x344 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x344 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x344 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x344 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x344 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x344 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x344 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x344 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x344 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x344 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x344 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x344 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x344 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x344 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x344 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x348 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_26_permission_1,The FW Region 26 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 26 firewall." hexmask.long.byte 0x348 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x348 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x348 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x348 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x348 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x348 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x348 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x348 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x348 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x348 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x348 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x348 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x348 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x348 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x348 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x348 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x348 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x34C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_26_permission_2,The FW Region 26 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 26 firewall." hexmask.long.byte 0x34C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x34C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x34C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x34C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x34C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x34C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x34C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x34C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x34C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x34C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x34C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x34C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x34C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x34C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x34C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x34C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x34C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x350 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_26_start_address_l,The FW Region 26 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 26 firewall." hexmask.long.tbyte 0x350 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x350 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x354 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_26_start_address_h,The FW Region 26 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 26 firewall." hexmask.long.word 0x354 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x358 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_26_end_address_l,The FW Region 26 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 26 firewall." hexmask.long.tbyte 0x358 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x358 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x35C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_26_end_address_h,The FW Region 26 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 26 firewall." hexmask.long.word 0x35C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x360 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_27_control,The FW Region 27 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 27 firewall." bitfld.long 0x360 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x360 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x360 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x360 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x364 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_27_permission_0,The FW Region 27 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 27 firewall." hexmask.long.byte 0x364 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x364 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x364 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x364 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x364 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x364 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x364 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x364 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x364 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x364 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x364 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x364 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x364 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x364 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x364 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x364 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x364 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x368 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_27_permission_1,The FW Region 27 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 27 firewall." hexmask.long.byte 0x368 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x368 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x368 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x368 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x368 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x368 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x368 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x368 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x368 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x368 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x368 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x368 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x368 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x368 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x368 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x368 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x368 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x36C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_27_permission_2,The FW Region 27 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 27 firewall." hexmask.long.byte 0x36C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x36C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x36C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x36C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x36C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x36C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x36C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x36C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x36C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x36C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x36C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x36C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x36C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x36C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x36C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x36C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x36C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x370 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_27_start_address_l,The FW Region 27 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 27 firewall." hexmask.long.tbyte 0x370 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x370 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x374 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_27_start_address_h,The FW Region 27 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 27 firewall." hexmask.long.word 0x374 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x378 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_27_end_address_l,The FW Region 27 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 27 firewall." hexmask.long.tbyte 0x378 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x378 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x37C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_27_end_address_h,The FW Region 27 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 27 firewall." hexmask.long.word 0x37C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x380 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_28_control,The FW Region 28 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 28 firewall." bitfld.long 0x380 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x380 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x380 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x380 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x384 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_28_permission_0,The FW Region 28 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 28 firewall." hexmask.long.byte 0x384 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x384 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x384 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x384 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x384 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x384 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x384 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x384 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x384 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x384 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x384 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x384 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x384 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x384 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x384 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x384 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x384 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x388 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_28_permission_1,The FW Region 28 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 28 firewall." hexmask.long.byte 0x388 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x388 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x388 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x388 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x388 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x388 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x388 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x388 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x388 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x388 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x388 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x388 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x388 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x388 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x388 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x388 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x388 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x38C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_28_permission_2,The FW Region 28 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 28 firewall." hexmask.long.byte 0x38C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x38C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x38C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x38C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x38C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x38C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x38C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x38C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x38C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x38C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x38C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x38C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x38C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x38C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x38C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x38C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x38C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x390 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_28_start_address_l,The FW Region 28 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 28 firewall." hexmask.long.tbyte 0x390 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x390 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x394 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_28_start_address_h,The FW Region 28 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 28 firewall." hexmask.long.word 0x394 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x398 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_28_end_address_l,The FW Region 28 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 28 firewall." hexmask.long.tbyte 0x398 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x398 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x39C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_28_end_address_h,The FW Region 28 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 28 firewall." hexmask.long.word 0x39C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x3A0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_29_control,The FW Region 29 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 29 firewall." bitfld.long 0x3A0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x3A0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x3A0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x3A0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x3A4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_29_permission_0,The FW Region 29 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 29 firewall." hexmask.long.byte 0x3A4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x3A4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x3A4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x3A4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x3A4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x3A4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x3A4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x3A4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x3A4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x3A4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x3A4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x3A4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x3A4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x3A4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x3A4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x3A4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x3A4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x3A8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_29_permission_1,The FW Region 29 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 29 firewall." hexmask.long.byte 0x3A8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x3A8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x3A8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x3A8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x3A8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x3A8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x3A8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x3A8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x3A8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x3A8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x3A8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x3A8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x3A8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x3A8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x3A8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x3A8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x3A8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x3AC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_29_permission_2,The FW Region 29 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 29 firewall." hexmask.long.byte 0x3AC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x3AC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x3AC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x3AC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x3AC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x3AC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x3AC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x3AC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x3AC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x3AC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x3AC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x3AC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x3AC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x3AC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x3AC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x3AC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x3AC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x3B0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_29_start_address_l,The FW Region 29 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 29 firewall." hexmask.long.tbyte 0x3B0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x3B0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x3B4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_29_start_address_h,The FW Region 29 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 29 firewall." hexmask.long.word 0x3B4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x3B8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_29_end_address_l,The FW Region 29 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 29 firewall." hexmask.long.tbyte 0x3B8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x3B8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3BC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_29_end_address_h,The FW Region 29 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 29 firewall." hexmask.long.word 0x3BC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x3C0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_30_control,The FW Region 30 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 30 firewall." bitfld.long 0x3C0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x3C0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x3C0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x3C0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x3C4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_30_permission_0,The FW Region 30 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 30 firewall." hexmask.long.byte 0x3C4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x3C4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x3C4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x3C4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x3C4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x3C4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x3C4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x3C4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x3C4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x3C4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x3C4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x3C4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x3C4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x3C4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x3C4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x3C4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x3C4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x3C8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_30_permission_1,The FW Region 30 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 30 firewall." hexmask.long.byte 0x3C8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x3C8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x3C8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x3C8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x3C8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x3C8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x3C8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x3C8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x3C8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x3C8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x3C8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x3C8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x3C8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x3C8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x3C8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x3C8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x3C8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x3CC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_30_permission_2,The FW Region 30 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 30 firewall." hexmask.long.byte 0x3CC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x3CC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x3CC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x3CC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x3CC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x3CC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x3CC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x3CC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x3CC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x3CC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x3CC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x3CC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x3CC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x3CC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x3CC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x3CC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x3CC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x3D0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_30_start_address_l,The FW Region 30 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 30 firewall." hexmask.long.tbyte 0x3D0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x3D0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x3D4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_30_start_address_h,The FW Region 30 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 30 firewall." hexmask.long.word 0x3D4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x3D8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_30_end_address_l,The FW Region 30 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 30 firewall." hexmask.long.tbyte 0x3D8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x3D8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3DC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_30_end_address_h,The FW Region 30 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 30 firewall." hexmask.long.word 0x3DC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x3E0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_31_control,The FW Region 31 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 31 firewall." bitfld.long 0x3E0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x3E0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x3E0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x3E0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x3E4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_31_permission_0,The FW Region 31 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 31 firewall." hexmask.long.byte 0x3E4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x3E4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x3E4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x3E4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x3E4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x3E4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x3E4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x3E4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x3E4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x3E4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x3E4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x3E4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x3E4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x3E4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x3E4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x3E4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x3E4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x3E8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_31_permission_1,The FW Region 31 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 31 firewall." hexmask.long.byte 0x3E8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x3E8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x3E8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x3E8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x3E8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x3E8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x3E8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x3E8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x3E8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x3E8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x3E8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x3E8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x3E8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x3E8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x3E8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x3E8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x3E8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x3EC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_31_permission_2,The FW Region 31 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 31 firewall." hexmask.long.byte 0x3EC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x3EC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x3EC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x3EC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x3EC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x3EC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x3EC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x3EC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x3EC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x3EC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x3EC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x3EC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x3EC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x3EC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x3EC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x3EC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x3EC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x3F0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_31_start_address_l,The FW Region 31 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 31 firewall." hexmask.long.tbyte 0x3F0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x3F0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x3F4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_31_start_address_h,The FW Region 31 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 31 firewall." hexmask.long.word 0x3F4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x3F8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_31_end_address_l,The FW Region 31 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 31 firewall." hexmask.long.tbyte 0x3F8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x3F8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3FC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0_fw_region_31_end_address_h,The FW Region 31 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk2_dma_cfg_l0 region 31 firewall." hexmask.long.word 0x3FC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x400 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 0 firewall." bitfld.long 0x400 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x400 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x400 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x400 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x404 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 0 firewall." hexmask.long.byte 0x404 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x404 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x404 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x404 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x404 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x404 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x404 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x404 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x404 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x404 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x404 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x404 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x404 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x404 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x404 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x404 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x404 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x408 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 0 firewall." hexmask.long.byte 0x408 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x408 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x408 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x408 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x408 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x408 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x408 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x408 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x408 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x408 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x408 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x408 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x408 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x408 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x408 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x408 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x408 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x40C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 0 firewall." hexmask.long.byte 0x40C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x40C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x40C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x40C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x40C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x40C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x40C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x40C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x40C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x40C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x40C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x40C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x40C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x40C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x40C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x40C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x40C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x410 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 0 firewall." hexmask.long.tbyte 0x410 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x410 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x414 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 0 firewall." hexmask.long.word 0x414 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x418 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 0 firewall." hexmask.long.tbyte 0x418 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x418 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x41C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 0 firewall." hexmask.long.word 0x41C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x420 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 1 firewall." bitfld.long 0x420 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x420 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x420 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x420 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x424 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 1 firewall." hexmask.long.byte 0x424 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x424 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x424 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x424 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x424 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x424 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x424 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x424 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x424 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x424 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x424 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x424 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x424 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x424 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x424 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x424 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x424 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x428 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 1 firewall." hexmask.long.byte 0x428 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x428 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x428 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x428 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x428 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x428 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x428 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x428 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x428 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x428 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x428 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x428 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x428 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x428 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x428 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x428 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x428 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x42C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 1 firewall." hexmask.long.byte 0x42C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x42C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x42C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x42C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x42C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x42C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x42C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x42C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x42C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x42C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x42C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x42C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x42C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x42C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x42C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x42C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x42C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x430 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 1 firewall." hexmask.long.tbyte 0x430 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x430 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x434 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 1 firewall." hexmask.long.word 0x434 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x438 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 1 firewall." hexmask.long.tbyte 0x438 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x438 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x43C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 1 firewall." hexmask.long.word 0x43C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x440 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 2 firewall." bitfld.long 0x440 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x440 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x440 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x440 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x444 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 2 firewall." hexmask.long.byte 0x444 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x444 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x444 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x444 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x444 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x444 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x444 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x444 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x444 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x444 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x444 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x444 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x444 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x444 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x444 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x444 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x444 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x448 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 2 firewall." hexmask.long.byte 0x448 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x448 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x448 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x448 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x448 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x448 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x448 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x448 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x448 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x448 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x448 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x448 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x448 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x448 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x448 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x448 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x448 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x44C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 2 firewall." hexmask.long.byte 0x44C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x450 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 2 firewall." hexmask.long.tbyte 0x450 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x450 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x454 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 2 firewall." hexmask.long.word 0x454 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x458 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 2 firewall." hexmask.long.tbyte 0x458 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x458 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x45C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 2 firewall." hexmask.long.word 0x45C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x460 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 3 firewall." bitfld.long 0x460 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x460 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x460 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x460 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x464 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 3 firewall." hexmask.long.byte 0x464 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x464 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x464 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x464 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x464 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x464 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x464 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x464 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x464 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x464 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x464 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x464 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x464 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x464 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x464 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x464 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x464 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x468 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 3 firewall." hexmask.long.byte 0x468 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x468 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x468 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x468 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x468 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x468 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x468 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x468 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x468 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x468 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x468 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x468 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x468 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x468 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x468 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x468 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x468 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x46C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 3 firewall." hexmask.long.byte 0x46C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x46C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x46C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x46C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x46C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x46C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x46C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x46C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x46C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x46C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x46C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x46C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x46C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x46C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x46C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x46C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x46C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x470 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 3 firewall." hexmask.long.tbyte 0x470 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x470 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x474 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 3 firewall." hexmask.long.word 0x474 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x478 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 3 firewall." hexmask.long.tbyte 0x478 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x478 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x47C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 3 firewall." hexmask.long.word 0x47C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x480 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 4 firewall." bitfld.long 0x480 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x480 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x480 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x480 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x484 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 4 firewall." hexmask.long.byte 0x484 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x484 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x484 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x484 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x484 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x484 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x484 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x484 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x484 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x484 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x484 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x484 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x484 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x484 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x484 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x484 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x484 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x488 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 4 firewall." hexmask.long.byte 0x488 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x488 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x488 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x488 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x488 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x488 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x488 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x488 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x488 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x488 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x488 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x488 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x488 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x488 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x488 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x488 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x488 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 4 firewall." hexmask.long.byte 0x48C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x490 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 4 firewall." hexmask.long.tbyte 0x490 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x490 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x494 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 4 firewall." hexmask.long.word 0x494 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x498 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 4 firewall." hexmask.long.tbyte 0x498 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x498 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x49C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 4 firewall." hexmask.long.word 0x49C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x4A0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 5 firewall." bitfld.long 0x4A0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x4A0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x4A0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x4A0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4A4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 5 firewall." hexmask.long.byte 0x4A4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4A4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4A4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4A4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4A4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4A4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4A4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4A4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4A4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4A4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4A4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4A4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4A4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4A4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4A4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4A4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4A4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4A8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 5 firewall." hexmask.long.byte 0x4A8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4A8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4A8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4A8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4A8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4A8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4A8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4A8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4A8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4A8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4A8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4A8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4A8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4A8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4A8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4A8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4A8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4AC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 5 firewall." hexmask.long.byte 0x4AC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4AC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4AC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4AC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4AC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4AC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4AC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4AC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4AC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4AC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4AC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4AC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4AC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4AC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4AC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4AC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4AC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4B0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 5 firewall." hexmask.long.tbyte 0x4B0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x4B0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x4B4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 5 firewall." hexmask.long.word 0x4B4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x4B8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 5 firewall." hexmask.long.tbyte 0x4B8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x4B8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x4BC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 5 firewall." hexmask.long.word 0x4BC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x4C0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 6 firewall." bitfld.long 0x4C0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x4C0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x4C0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x4C0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4C4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 6 firewall." hexmask.long.byte 0x4C4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 6 firewall." hexmask.long.byte 0x4C8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4CC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 6 firewall." hexmask.long.byte 0x4CC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4CC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4CC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4CC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4CC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4CC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4CC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4CC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4CC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4CC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4CC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4CC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4CC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4CC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4CC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4CC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4CC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4D0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 6 firewall." hexmask.long.tbyte 0x4D0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x4D0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x4D4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 6 firewall." hexmask.long.word 0x4D4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x4D8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 6 firewall." hexmask.long.tbyte 0x4D8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x4D8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x4DC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 6 firewall." hexmask.long.word 0x4DC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x4E0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 7 firewall." bitfld.long 0x4E0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x4E0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x4E0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x4E0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4E4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 7 firewall." hexmask.long.byte 0x4E4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4E4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4E4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4E4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4E4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4E4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4E4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4E4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4E4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4E4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4E4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4E4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4E4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4E4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4E4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4E4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4E4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4E8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 7 firewall." hexmask.long.byte 0x4E8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4E8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4E8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4E8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4E8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4E8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4E8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4E8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4E8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4E8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4E8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4E8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4E8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4E8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4E8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4E8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4E8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4EC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 7 firewall." hexmask.long.byte 0x4EC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4EC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4EC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4EC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4EC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4EC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4EC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4EC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4EC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4EC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4EC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4EC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4EC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4EC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4EC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4EC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4EC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4F0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 7 firewall." hexmask.long.tbyte 0x4F0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x4F0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x4F4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 7 firewall." hexmask.long.word 0x4F4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x4F8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 7 firewall." hexmask.long.tbyte 0x4F8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x4F8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x4FC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 7 firewall." hexmask.long.word 0x4FC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x500 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_8_control,The FW Region 8 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 8 firewall." bitfld.long 0x500 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x500 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x500 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x500 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x504 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_8_permission_0,The FW Region 8 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 8 firewall." hexmask.long.byte 0x504 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x504 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x504 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x504 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x504 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x504 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x504 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x504 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x504 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x504 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x504 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x504 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x504 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x504 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x504 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x504 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x504 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x508 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_8_permission_1,The FW Region 8 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 8 firewall." hexmask.long.byte 0x508 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x508 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x508 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x508 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x508 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x508 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x508 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x508 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x508 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x508 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x508 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x508 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x508 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x508 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x508 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x508 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x508 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_8_permission_2,The FW Region 8 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 8 firewall." hexmask.long.byte 0x50C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x50C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x50C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x50C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x50C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x50C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x50C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x50C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x50C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x50C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x50C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x50C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x50C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x50C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x50C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x50C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x50C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x510 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_8_start_address_l,The FW Region 8 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 8 firewall." hexmask.long.tbyte 0x510 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x510 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x514 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_8_start_address_h,The FW Region 8 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 8 firewall." hexmask.long.word 0x514 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x518 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_8_end_address_l,The FW Region 8 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 8 firewall." hexmask.long.tbyte 0x518 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x518 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x51C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_8_end_address_h,The FW Region 8 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 8 firewall." hexmask.long.word 0x51C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x520 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_9_control,The FW Region 9 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 9 firewall." bitfld.long 0x520 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x520 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x520 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x520 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x524 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_9_permission_0,The FW Region 9 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 9 firewall." hexmask.long.byte 0x524 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x524 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x524 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x524 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x524 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x524 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x524 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x524 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x524 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x524 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x524 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x524 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x524 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x524 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x524 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x524 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x524 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x528 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_9_permission_1,The FW Region 9 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 9 firewall." hexmask.long.byte 0x528 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x528 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x528 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x528 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x528 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x528 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x528 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x528 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x528 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x528 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x528 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x528 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x528 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x528 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x528 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x528 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x528 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x52C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_9_permission_2,The FW Region 9 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 9 firewall." hexmask.long.byte 0x52C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x52C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x52C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x52C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x52C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x52C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x52C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x52C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x52C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x52C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x52C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x52C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x52C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x52C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x52C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x52C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x52C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x530 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_9_start_address_l,The FW Region 9 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 9 firewall." hexmask.long.tbyte 0x530 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x530 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x534 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_9_start_address_h,The FW Region 9 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 9 firewall." hexmask.long.word 0x534 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x538 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_9_end_address_l,The FW Region 9 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 9 firewall." hexmask.long.tbyte 0x538 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x538 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x53C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_9_end_address_h,The FW Region 9 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 9 firewall." hexmask.long.word 0x53C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x540 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_10_control,The FW Region 10 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 10 firewall." bitfld.long 0x540 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x540 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x540 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x540 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x544 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_10_permission_0,The FW Region 10 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 10 firewall." hexmask.long.byte 0x544 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x544 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x544 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x544 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x544 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x544 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x544 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x544 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x544 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x544 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x544 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x544 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x544 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x544 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x544 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x544 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x544 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x548 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_10_permission_1,The FW Region 10 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 10 firewall." hexmask.long.byte 0x548 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x548 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x548 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x548 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x548 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x548 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x548 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x548 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x548 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x548 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x548 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x548 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x548 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x548 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x548 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x548 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x548 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x54C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_10_permission_2,The FW Region 10 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 10 firewall." hexmask.long.byte 0x54C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x54C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x54C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x54C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x54C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x54C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x54C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x54C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x54C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x54C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x54C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x54C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x54C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x54C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x54C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x54C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x54C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x550 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_10_start_address_l,The FW Region 10 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 10 firewall." hexmask.long.tbyte 0x550 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x550 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x554 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_10_start_address_h,The FW Region 10 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 10 firewall." hexmask.long.word 0x554 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x558 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_10_end_address_l,The FW Region 10 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 10 firewall." hexmask.long.tbyte 0x558 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x558 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x55C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_10_end_address_h,The FW Region 10 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 10 firewall." hexmask.long.word 0x55C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x560 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_11_control,The FW Region 11 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 11 firewall." bitfld.long 0x560 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x560 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x560 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x560 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x564 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_11_permission_0,The FW Region 11 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 11 firewall." hexmask.long.byte 0x564 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x564 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x564 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x564 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x564 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x564 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x564 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x564 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x564 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x564 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x564 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x564 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x564 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x564 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x564 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x564 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x564 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x568 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_11_permission_1,The FW Region 11 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 11 firewall." hexmask.long.byte 0x568 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x568 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x568 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x568 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x568 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x568 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x568 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x568 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x568 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x568 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x568 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x568 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x568 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x568 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x568 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x568 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x568 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x56C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_11_permission_2,The FW Region 11 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 11 firewall." hexmask.long.byte 0x56C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x56C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x56C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x56C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x56C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x56C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x56C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x56C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x56C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x56C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x56C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x56C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x56C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x56C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x56C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x56C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x56C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x570 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_11_start_address_l,The FW Region 11 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 11 firewall." hexmask.long.tbyte 0x570 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x570 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x574 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_11_start_address_h,The FW Region 11 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 11 firewall." hexmask.long.word 0x574 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x578 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_11_end_address_l,The FW Region 11 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 11 firewall." hexmask.long.tbyte 0x578 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x578 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x57C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_11_end_address_h,The FW Region 11 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 11 firewall." hexmask.long.word 0x57C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x580 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_12_control,The FW Region 12 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 12 firewall." bitfld.long 0x580 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x580 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x580 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x580 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x584 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_12_permission_0,The FW Region 12 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 12 firewall." hexmask.long.byte 0x584 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x584 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x584 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x584 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x584 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x584 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x584 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x584 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x584 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x584 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x584 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x584 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x584 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x584 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x584 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x584 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x584 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x588 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_12_permission_1,The FW Region 12 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 12 firewall." hexmask.long.byte 0x588 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x588 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x588 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x588 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x588 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x588 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x588 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x588 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x588 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x588 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x588 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x588 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x588 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x588 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x588 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x588 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x588 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x58C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_12_permission_2,The FW Region 12 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 12 firewall." hexmask.long.byte 0x58C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x58C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x58C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x58C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x58C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x58C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x58C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x58C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x58C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x58C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x58C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x58C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x58C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x58C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x58C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x58C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x58C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x590 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_12_start_address_l,The FW Region 12 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 12 firewall." hexmask.long.tbyte 0x590 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x590 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x594 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_12_start_address_h,The FW Region 12 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 12 firewall." hexmask.long.word 0x594 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x598 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_12_end_address_l,The FW Region 12 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 12 firewall." hexmask.long.tbyte 0x598 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x598 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x59C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_12_end_address_h,The FW Region 12 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 12 firewall." hexmask.long.word 0x59C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x5A0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_13_control,The FW Region 13 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 13 firewall." bitfld.long 0x5A0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x5A0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x5A0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x5A0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x5A4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_13_permission_0,The FW Region 13 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 13 firewall." hexmask.long.byte 0x5A4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x5A4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x5A4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x5A4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x5A4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x5A4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x5A4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x5A4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x5A4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x5A4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x5A4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x5A4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x5A4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x5A4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x5A4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x5A4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x5A4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x5A8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_13_permission_1,The FW Region 13 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 13 firewall." hexmask.long.byte 0x5A8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x5A8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x5A8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x5A8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x5A8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x5A8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x5A8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x5A8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x5A8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x5A8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x5A8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x5A8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x5A8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x5A8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x5A8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x5A8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x5A8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x5AC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_13_permission_2,The FW Region 13 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 13 firewall." hexmask.long.byte 0x5AC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x5AC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x5AC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x5AC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x5AC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x5AC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x5AC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x5AC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x5AC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x5AC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x5AC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x5AC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x5AC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x5AC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x5AC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x5AC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x5AC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x5B0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_13_start_address_l,The FW Region 13 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 13 firewall." hexmask.long.tbyte 0x5B0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x5B0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x5B4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_13_start_address_h,The FW Region 13 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 13 firewall." hexmask.long.word 0x5B4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x5B8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_13_end_address_l,The FW Region 13 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 13 firewall." hexmask.long.tbyte 0x5B8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x5B8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5BC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_13_end_address_h,The FW Region 13 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 13 firewall." hexmask.long.word 0x5BC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x5C0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_14_control,The FW Region 14 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 14 firewall." bitfld.long 0x5C0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x5C0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x5C0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x5C0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x5C4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_14_permission_0,The FW Region 14 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 14 firewall." hexmask.long.byte 0x5C4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x5C4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x5C4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x5C4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x5C4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x5C4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x5C4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x5C4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x5C4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x5C4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x5C4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x5C4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x5C4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x5C4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x5C4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x5C4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x5C4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x5C8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_14_permission_1,The FW Region 14 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 14 firewall." hexmask.long.byte 0x5C8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x5C8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x5C8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x5C8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x5C8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x5C8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x5C8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x5C8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x5C8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x5C8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x5C8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x5C8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x5C8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x5C8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x5C8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x5C8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x5C8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x5CC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_14_permission_2,The FW Region 14 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 14 firewall." hexmask.long.byte 0x5CC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x5CC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x5CC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x5CC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x5CC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x5CC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x5CC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x5CC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x5CC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x5CC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x5CC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x5CC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x5CC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x5CC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x5CC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x5CC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x5CC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x5D0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_14_start_address_l,The FW Region 14 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 14 firewall." hexmask.long.tbyte 0x5D0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x5D0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x5D4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_14_start_address_h,The FW Region 14 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 14 firewall." hexmask.long.word 0x5D4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x5D8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_14_end_address_l,The FW Region 14 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 14 firewall." hexmask.long.tbyte 0x5D8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x5D8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5DC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_14_end_address_h,The FW Region 14 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 14 firewall." hexmask.long.word 0x5DC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x5E0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_15_control,The FW Region 15 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 15 firewall." bitfld.long 0x5E0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x5E0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x5E0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x5E0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x5E4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_15_permission_0,The FW Region 15 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 15 firewall." hexmask.long.byte 0x5E4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x5E4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x5E4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x5E4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x5E4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x5E4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x5E4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x5E4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x5E4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x5E4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x5E4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x5E4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x5E4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x5E4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x5E4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x5E4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x5E4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x5E8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_15_permission_1,The FW Region 15 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 15 firewall." hexmask.long.byte 0x5E8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x5E8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x5E8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x5E8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x5E8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x5E8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x5E8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x5E8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x5E8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x5E8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x5E8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x5E8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x5E8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x5E8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x5E8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x5E8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x5E8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x5EC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_15_permission_2,The FW Region 15 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 15 firewall." hexmask.long.byte 0x5EC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x5EC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x5EC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x5EC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x5EC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x5EC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x5EC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x5EC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x5EC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x5EC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x5EC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x5EC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x5EC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x5EC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x5EC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x5EC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x5EC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x5F0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_15_start_address_l,The FW Region 15 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 15 firewall." hexmask.long.tbyte 0x5F0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x5F0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x5F4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_15_start_address_h,The FW Region 15 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 15 firewall." hexmask.long.word 0x5F4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x5F8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_15_end_address_l,The FW Region 15 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 15 firewall." hexmask.long.tbyte 0x5F8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x5F8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5FC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0_fw_region_15_end_address_h,The FW Region 15 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_clk4_cfg_l0 region 15 firewall." hexmask.long.word 0x5FC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x2C00++0x1FF line.long 0x0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 4 firewall." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 4 firewall." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 4 firewall." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 4 firewall." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 5 firewall." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 5 firewall." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 5 firewall." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 5 firewall." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 6 firewall." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 6 firewall." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 6 firewall." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 6 firewall." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 7 firewall." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 7 firewall." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 7 firewall." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 7 firewall." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x100 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_8_control,The FW Region 8 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 8 firewall." bitfld.long 0x100 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x100 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x100 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x100 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x104 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_8_permission_0,The FW Region 8 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 8 firewall." hexmask.long.byte 0x104 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x104 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x104 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x104 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x104 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x104 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x104 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x104 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x104 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x104 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x104 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x104 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x104 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x108 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_8_permission_1,The FW Region 8 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 8 firewall." hexmask.long.byte 0x108 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x108 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x108 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x108 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x108 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x108 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x108 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x108 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x108 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x108 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x108 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x108 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x108 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_8_permission_2,The FW Region 8 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 8 firewall." hexmask.long.byte 0x10C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x10C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x10C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x10C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x10C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x10C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x10C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x10C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x10C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x10C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x10C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x110 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_8_start_address_l,The FW Region 8 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 8 firewall." hexmask.long.tbyte 0x110 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x110 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x114 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_8_start_address_h,The FW Region 8 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 8 firewall." hexmask.long.word 0x114 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x118 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_8_end_address_l,The FW Region 8 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 8 firewall." hexmask.long.tbyte 0x118 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x118 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x11C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_8_end_address_h,The FW Region 8 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 8 firewall." hexmask.long.word 0x11C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x120 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_9_control,The FW Region 9 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 9 firewall." bitfld.long 0x120 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x120 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x120 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x120 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x124 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_9_permission_0,The FW Region 9 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 9 firewall." hexmask.long.byte 0x124 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x124 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x124 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x124 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x124 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x124 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x124 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x124 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x124 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x124 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x124 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x124 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x124 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x128 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_9_permission_1,The FW Region 9 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 9 firewall." hexmask.long.byte 0x128 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x128 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x128 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x128 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x128 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x128 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x128 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x128 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x128 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x128 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x128 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x128 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x128 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x12C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_9_permission_2,The FW Region 9 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 9 firewall." hexmask.long.byte 0x12C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x12C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x12C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x12C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x12C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x12C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x12C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x12C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x12C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x12C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x12C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x130 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_9_start_address_l,The FW Region 9 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 9 firewall." hexmask.long.tbyte 0x130 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x130 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x134 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_9_start_address_h,The FW Region 9 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 9 firewall." hexmask.long.word 0x134 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x138 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_9_end_address_l,The FW Region 9 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 9 firewall." hexmask.long.tbyte 0x138 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x138 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x13C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_9_end_address_h,The FW Region 9 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 9 firewall." hexmask.long.word 0x13C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x140 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_10_control,The FW Region 10 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 10 firewall." bitfld.long 0x140 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x140 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x140 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x140 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x144 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_10_permission_0,The FW Region 10 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 10 firewall." hexmask.long.byte 0x144 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x144 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x144 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x144 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x144 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x144 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x144 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x144 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x144 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x144 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x144 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x144 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x144 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x148 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_10_permission_1,The FW Region 10 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 10 firewall." hexmask.long.byte 0x148 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x148 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x148 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x148 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x148 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x148 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x148 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x148 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x148 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x148 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x148 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x148 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x148 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x14C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_10_permission_2,The FW Region 10 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 10 firewall." hexmask.long.byte 0x14C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x14C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x14C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x14C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x14C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x14C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x14C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x14C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x14C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x14C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x14C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x150 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_10_start_address_l,The FW Region 10 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 10 firewall." hexmask.long.tbyte 0x150 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x150 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x154 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_10_start_address_h,The FW Region 10 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 10 firewall." hexmask.long.word 0x154 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x158 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_10_end_address_l,The FW Region 10 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 10 firewall." hexmask.long.tbyte 0x158 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x158 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x15C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_10_end_address_h,The FW Region 10 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 10 firewall." hexmask.long.word 0x15C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x160 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_11_control,The FW Region 11 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 11 firewall." bitfld.long 0x160 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x160 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x160 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x160 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x164 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_11_permission_0,The FW Region 11 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 11 firewall." hexmask.long.byte 0x164 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x164 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x164 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x164 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x164 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x164 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x164 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x164 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x164 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x164 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x164 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x164 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x164 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x168 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_11_permission_1,The FW Region 11 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 11 firewall." hexmask.long.byte 0x168 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x168 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x168 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x168 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x168 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x168 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x168 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x168 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x168 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x168 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x168 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x168 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x168 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x16C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_11_permission_2,The FW Region 11 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 11 firewall." hexmask.long.byte 0x16C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x16C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x16C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x16C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x16C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x16C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x16C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x16C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x16C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x16C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x16C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x170 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_11_start_address_l,The FW Region 11 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 11 firewall." hexmask.long.tbyte 0x170 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x170 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x174 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_11_start_address_h,The FW Region 11 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 11 firewall." hexmask.long.word 0x174 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x178 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_11_end_address_l,The FW Region 11 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 11 firewall." hexmask.long.tbyte 0x178 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x178 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x17C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_11_end_address_h,The FW Region 11 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 11 firewall." hexmask.long.word 0x17C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x180 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_12_control,The FW Region 12 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 12 firewall." bitfld.long 0x180 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x180 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x180 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x180 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x184 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_12_permission_0,The FW Region 12 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 12 firewall." hexmask.long.byte 0x184 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x184 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x184 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x184 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x184 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x184 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x184 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x184 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x184 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x184 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x184 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x184 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x184 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x188 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_12_permission_1,The FW Region 12 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 12 firewall." hexmask.long.byte 0x188 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x188 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x188 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x188 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x188 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x188 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x188 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x188 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x188 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x188 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x188 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x188 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x188 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x18C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_12_permission_2,The FW Region 12 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 12 firewall." hexmask.long.byte 0x18C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x18C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x18C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x18C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x18C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x18C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x18C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x18C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x18C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x18C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x18C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x190 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_12_start_address_l,The FW Region 12 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 12 firewall." hexmask.long.tbyte 0x190 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x190 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x194 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_12_start_address_h,The FW Region 12 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 12 firewall." hexmask.long.word 0x194 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x198 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_12_end_address_l,The FW Region 12 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 12 firewall." hexmask.long.tbyte 0x198 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x198 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x19C "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_12_end_address_h,The FW Region 12 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 12 firewall." hexmask.long.word 0x19C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1A0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_13_control,The FW Region 13 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 13 firewall." bitfld.long 0x1A0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1A0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1A0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1A0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1A4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_13_permission_0,The FW Region 13 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 13 firewall." hexmask.long.byte 0x1A4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1A8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_13_permission_1,The FW Region 13 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 13 firewall." hexmask.long.byte 0x1A8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1AC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_13_permission_2,The FW Region 13 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 13 firewall." hexmask.long.byte 0x1AC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1AC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1AC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1AC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1AC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1AC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1AC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1AC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1AC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1AC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1AC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1B0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_13_start_address_l,The FW Region 13 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 13 firewall." hexmask.long.tbyte 0x1B0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1B0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1B4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_13_start_address_h,The FW Region 13 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 13 firewall." hexmask.long.word 0x1B4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1B8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_13_end_address_l,The FW Region 13 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 13 firewall." hexmask.long.tbyte 0x1B8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1B8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1BC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_13_end_address_h,The FW Region 13 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 13 firewall." hexmask.long.word 0x1BC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1C0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_14_control,The FW Region 14 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 14 firewall." bitfld.long 0x1C0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1C0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1C0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1C0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1C4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_14_permission_0,The FW Region 14 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 14 firewall." hexmask.long.byte 0x1C4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1C8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_14_permission_1,The FW Region 14 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 14 firewall." hexmask.long.byte 0x1C8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1CC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_14_permission_2,The FW Region 14 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 14 firewall." hexmask.long.byte 0x1CC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1CC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1CC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1CC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1CC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1CC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1CC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1CC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1CC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1CC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1CC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1D0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_14_start_address_l,The FW Region 14 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 14 firewall." hexmask.long.tbyte 0x1D0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1D0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1D4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_14_start_address_h,The FW Region 14 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 14 firewall." hexmask.long.word 0x1D4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1D8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_14_end_address_l,The FW Region 14 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 14 firewall." hexmask.long.tbyte 0x1D8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1D8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1DC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_14_end_address_h,The FW Region 14 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 14 firewall." hexmask.long.word 0x1DC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1E0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_15_control,The FW Region 15 Control Register defines the control fields for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 15 firewall." bitfld.long 0x1E0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1E0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1E0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1E0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1E4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_15_permission_0,The FW Region 15 Permission 0 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 15 firewall." hexmask.long.byte 0x1E4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1E8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_15_permission_1,The FW Region 15 Permission 1 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 15 firewall." hexmask.long.byte 0x1E8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1EC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_15_permission_2,The FW Region 15 Permission 2 Register defines the permissions for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 15 firewall." hexmask.long.byte 0x1EC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1EC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1EC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1EC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1EC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1EC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1EC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1EC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1EC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1EC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1EC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1F0 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_15_start_address_l,The FW Region 15 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 15 firewall." hexmask.long.tbyte 0x1F0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1F0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1F4 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_15_start_address_h,The FW Region 15 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 15 firewall." hexmask.long.word 0x1F4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1F8 "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_15_end_address_l,The FW Region 15 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 15 firewall." hexmask.long.tbyte 0x1F8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1F8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1FC "FW_REGS_br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0_fw_region_15_end_address_h,The FW Region 15 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_64b_clk2_to_SCRP_32_clk2_misc_l0 region 15 firewall." hexmask.long.word 0x1FC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x3400++0x1F line.long 0x0 "FW_REGS_Imcrc64_main_0_s_cfg_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Imcrc64_main_0.s_cfg region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_Imcrc64_main_0_s_cfg_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Imcrc64_main_0.s_cfg region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_Imcrc64_main_0_s_cfg_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Imcrc64_main_0.s_cfg region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_Imcrc64_main_0_s_cfg_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Imcrc64_main_0.s_cfg region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_Imcrc64_main_0_s_cfg_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Imcrc64_main_0.s_cfg region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_Imcrc64_main_0_s_cfg_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Imcrc64_main_0.s_cfg region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_Imcrc64_main_0_s_cfg_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Imcrc64_main_0.s_cfg region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_Imcrc64_main_0_s_cfg_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Imcrc64_main_0.s_cfg region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x3800++0xFF line.long 0x0 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0.slv region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "FW_REGS_export_am62p_main_data_cbass_to_am67_main_mcasp_cbass_data_l0_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x3C00++0x1FF line.long 0x0 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Imsram2kx256e_main_0.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Imsram2kx256e_main_0.slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Imsram2kx256e_main_0.slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Imsram2kx256e_main_0.slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Imsram2kx256e_main_0.slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Imsram2kx256e_main_0.slv region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Imsram2kx256e_main_0.slv region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Imsram2kx256e_main_0.slv region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Imsram2kx256e_main_0.slv region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Imsram2kx256e_main_0.slv region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target Imsram2kx256e_main_0.slv region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target Imsram2kx256e_main_0.slv region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target Imsram2kx256e_main_0.slv region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target Imsram2kx256e_main_0.slv region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target Imsram2kx256e_main_0.slv region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target Imsram2kx256e_main_0.slv region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target Imsram2kx256e_main_0.slv region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target Imsram2kx256e_main_0.slv region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target Imsram2kx256e_main_0.slv region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target Imsram2kx256e_main_0.slv region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target Imsram2kx256e_main_0.slv region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target Imsram2kx256e_main_0.slv region 4 firewall." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target Imsram2kx256e_main_0.slv region 4 firewall." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target Imsram2kx256e_main_0.slv region 4 firewall." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target Imsram2kx256e_main_0.slv region 4 firewall." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target Imsram2kx256e_main_0.slv region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target Imsram2kx256e_main_0.slv region 5 firewall." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target Imsram2kx256e_main_0.slv region 5 firewall." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target Imsram2kx256e_main_0.slv region 5 firewall." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target Imsram2kx256e_main_0.slv region 5 firewall." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target Imsram2kx256e_main_0.slv region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target Imsram2kx256e_main_0.slv region 6 firewall." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target Imsram2kx256e_main_0.slv region 6 firewall." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target Imsram2kx256e_main_0.slv region 6 firewall." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target Imsram2kx256e_main_0.slv region 6 firewall." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target Imsram2kx256e_main_0.slv region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target Imsram2kx256e_main_0.slv region 7 firewall." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target Imsram2kx256e_main_0.slv region 7 firewall." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target Imsram2kx256e_main_0.slv region 7 firewall." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target Imsram2kx256e_main_0.slv region 7 firewall." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x100 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_8_control,The FW Region 8 Control Register defines the control fields for the target Imsram2kx256e_main_0.slv region 8 firewall." bitfld.long 0x100 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x100 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x100 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x100 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x104 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_8_permission_0,The FW Region 8 Permission 0 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 8 firewall." hexmask.long.byte 0x104 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x104 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x104 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x104 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x104 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x104 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x104 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x104 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x104 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x104 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x104 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x104 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x104 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x108 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_8_permission_1,The FW Region 8 Permission 1 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 8 firewall." hexmask.long.byte 0x108 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x108 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x108 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x108 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x108 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x108 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x108 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x108 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x108 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x108 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x108 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x108 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x108 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10C "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_8_permission_2,The FW Region 8 Permission 2 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 8 firewall." hexmask.long.byte 0x10C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x10C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x10C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x10C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x10C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x10C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x10C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x10C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x10C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x10C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x10C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x110 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_8_start_address_l,The FW Region 8 Start Address Low Register defines the start address bits 31 to 0 for the target Imsram2kx256e_main_0.slv region 8 firewall." hexmask.long.tbyte 0x110 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x110 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x114 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_8_start_address_h,The FW Region 8 Start Address High Register defines the start address bits 47 to 32 for the target Imsram2kx256e_main_0.slv region 8 firewall." hexmask.long.word 0x114 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x118 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_8_end_address_l,The FW Region 8 End Address Low Register defines the end address bits 31 to 0 to include for the target Imsram2kx256e_main_0.slv region 8 firewall." hexmask.long.tbyte 0x118 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x118 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x11C "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_8_end_address_h,The FW Region 8 End Address High Register defines the end address bits 47 to 32 to include for the target Imsram2kx256e_main_0.slv region 8 firewall." hexmask.long.word 0x11C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x120 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_9_control,The FW Region 9 Control Register defines the control fields for the target Imsram2kx256e_main_0.slv region 9 firewall." bitfld.long 0x120 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x120 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x120 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x120 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x124 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_9_permission_0,The FW Region 9 Permission 0 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 9 firewall." hexmask.long.byte 0x124 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x124 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x124 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x124 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x124 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x124 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x124 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x124 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x124 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x124 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x124 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x124 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x124 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x128 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_9_permission_1,The FW Region 9 Permission 1 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 9 firewall." hexmask.long.byte 0x128 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x128 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x128 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x128 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x128 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x128 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x128 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x128 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x128 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x128 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x128 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x128 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x128 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x12C "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_9_permission_2,The FW Region 9 Permission 2 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 9 firewall." hexmask.long.byte 0x12C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x12C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x12C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x12C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x12C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x12C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x12C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x12C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x12C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x12C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x12C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x130 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_9_start_address_l,The FW Region 9 Start Address Low Register defines the start address bits 31 to 0 for the target Imsram2kx256e_main_0.slv region 9 firewall." hexmask.long.tbyte 0x130 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x130 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x134 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_9_start_address_h,The FW Region 9 Start Address High Register defines the start address bits 47 to 32 for the target Imsram2kx256e_main_0.slv region 9 firewall." hexmask.long.word 0x134 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x138 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_9_end_address_l,The FW Region 9 End Address Low Register defines the end address bits 31 to 0 to include for the target Imsram2kx256e_main_0.slv region 9 firewall." hexmask.long.tbyte 0x138 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x138 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x13C "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_9_end_address_h,The FW Region 9 End Address High Register defines the end address bits 47 to 32 to include for the target Imsram2kx256e_main_0.slv region 9 firewall." hexmask.long.word 0x13C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x140 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_10_control,The FW Region 10 Control Register defines the control fields for the target Imsram2kx256e_main_0.slv region 10 firewall." bitfld.long 0x140 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x140 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x140 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x140 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x144 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_10_permission_0,The FW Region 10 Permission 0 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 10 firewall." hexmask.long.byte 0x144 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x144 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x144 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x144 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x144 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x144 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x144 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x144 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x144 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x144 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x144 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x144 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x144 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x148 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_10_permission_1,The FW Region 10 Permission 1 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 10 firewall." hexmask.long.byte 0x148 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x148 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x148 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x148 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x148 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x148 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x148 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x148 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x148 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x148 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x148 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x148 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x148 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x14C "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_10_permission_2,The FW Region 10 Permission 2 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 10 firewall." hexmask.long.byte 0x14C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x14C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x14C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x14C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x14C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x14C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x14C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x14C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x14C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x14C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x14C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x150 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_10_start_address_l,The FW Region 10 Start Address Low Register defines the start address bits 31 to 0 for the target Imsram2kx256e_main_0.slv region 10 firewall." hexmask.long.tbyte 0x150 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x150 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x154 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_10_start_address_h,The FW Region 10 Start Address High Register defines the start address bits 47 to 32 for the target Imsram2kx256e_main_0.slv region 10 firewall." hexmask.long.word 0x154 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x158 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_10_end_address_l,The FW Region 10 End Address Low Register defines the end address bits 31 to 0 to include for the target Imsram2kx256e_main_0.slv region 10 firewall." hexmask.long.tbyte 0x158 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x158 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x15C "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_10_end_address_h,The FW Region 10 End Address High Register defines the end address bits 47 to 32 to include for the target Imsram2kx256e_main_0.slv region 10 firewall." hexmask.long.word 0x15C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x160 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_11_control,The FW Region 11 Control Register defines the control fields for the target Imsram2kx256e_main_0.slv region 11 firewall." bitfld.long 0x160 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x160 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x160 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x160 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x164 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_11_permission_0,The FW Region 11 Permission 0 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 11 firewall." hexmask.long.byte 0x164 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x164 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x164 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x164 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x164 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x164 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x164 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x164 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x164 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x164 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x164 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x164 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x164 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x168 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_11_permission_1,The FW Region 11 Permission 1 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 11 firewall." hexmask.long.byte 0x168 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x168 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x168 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x168 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x168 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x168 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x168 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x168 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x168 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x168 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x168 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x168 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x168 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x16C "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_11_permission_2,The FW Region 11 Permission 2 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 11 firewall." hexmask.long.byte 0x16C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x16C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x16C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x16C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x16C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x16C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x16C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x16C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x16C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x16C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x16C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x170 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_11_start_address_l,The FW Region 11 Start Address Low Register defines the start address bits 31 to 0 for the target Imsram2kx256e_main_0.slv region 11 firewall." hexmask.long.tbyte 0x170 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x170 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x174 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_11_start_address_h,The FW Region 11 Start Address High Register defines the start address bits 47 to 32 for the target Imsram2kx256e_main_0.slv region 11 firewall." hexmask.long.word 0x174 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x178 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_11_end_address_l,The FW Region 11 End Address Low Register defines the end address bits 31 to 0 to include for the target Imsram2kx256e_main_0.slv region 11 firewall." hexmask.long.tbyte 0x178 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x178 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x17C "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_11_end_address_h,The FW Region 11 End Address High Register defines the end address bits 47 to 32 to include for the target Imsram2kx256e_main_0.slv region 11 firewall." hexmask.long.word 0x17C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x180 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_12_control,The FW Region 12 Control Register defines the control fields for the target Imsram2kx256e_main_0.slv region 12 firewall." bitfld.long 0x180 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x180 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x180 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x180 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x184 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_12_permission_0,The FW Region 12 Permission 0 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 12 firewall." hexmask.long.byte 0x184 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x184 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x184 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x184 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x184 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x184 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x184 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x184 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x184 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x184 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x184 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x184 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x184 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x188 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_12_permission_1,The FW Region 12 Permission 1 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 12 firewall." hexmask.long.byte 0x188 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x188 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x188 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x188 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x188 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x188 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x188 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x188 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x188 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x188 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x188 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x188 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x188 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x18C "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_12_permission_2,The FW Region 12 Permission 2 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 12 firewall." hexmask.long.byte 0x18C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x18C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x18C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x18C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x18C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x18C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x18C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x18C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x18C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x18C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x18C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x190 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_12_start_address_l,The FW Region 12 Start Address Low Register defines the start address bits 31 to 0 for the target Imsram2kx256e_main_0.slv region 12 firewall." hexmask.long.tbyte 0x190 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x190 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x194 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_12_start_address_h,The FW Region 12 Start Address High Register defines the start address bits 47 to 32 for the target Imsram2kx256e_main_0.slv region 12 firewall." hexmask.long.word 0x194 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x198 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_12_end_address_l,The FW Region 12 End Address Low Register defines the end address bits 31 to 0 to include for the target Imsram2kx256e_main_0.slv region 12 firewall." hexmask.long.tbyte 0x198 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x198 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x19C "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_12_end_address_h,The FW Region 12 End Address High Register defines the end address bits 47 to 32 to include for the target Imsram2kx256e_main_0.slv region 12 firewall." hexmask.long.word 0x19C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1A0 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_13_control,The FW Region 13 Control Register defines the control fields for the target Imsram2kx256e_main_0.slv region 13 firewall." bitfld.long 0x1A0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1A0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1A0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1A0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1A4 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_13_permission_0,The FW Region 13 Permission 0 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 13 firewall." hexmask.long.byte 0x1A4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1A8 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_13_permission_1,The FW Region 13 Permission 1 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 13 firewall." hexmask.long.byte 0x1A8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1AC "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_13_permission_2,The FW Region 13 Permission 2 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 13 firewall." hexmask.long.byte 0x1AC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1AC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1AC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1AC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1AC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1AC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1AC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1AC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1AC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1AC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1AC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1B0 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_13_start_address_l,The FW Region 13 Start Address Low Register defines the start address bits 31 to 0 for the target Imsram2kx256e_main_0.slv region 13 firewall." hexmask.long.tbyte 0x1B0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1B0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1B4 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_13_start_address_h,The FW Region 13 Start Address High Register defines the start address bits 47 to 32 for the target Imsram2kx256e_main_0.slv region 13 firewall." hexmask.long.word 0x1B4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1B8 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_13_end_address_l,The FW Region 13 End Address Low Register defines the end address bits 31 to 0 to include for the target Imsram2kx256e_main_0.slv region 13 firewall." hexmask.long.tbyte 0x1B8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1B8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1BC "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_13_end_address_h,The FW Region 13 End Address High Register defines the end address bits 47 to 32 to include for the target Imsram2kx256e_main_0.slv region 13 firewall." hexmask.long.word 0x1BC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1C0 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_14_control,The FW Region 14 Control Register defines the control fields for the target Imsram2kx256e_main_0.slv region 14 firewall." bitfld.long 0x1C0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1C0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1C0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1C0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1C4 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_14_permission_0,The FW Region 14 Permission 0 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 14 firewall." hexmask.long.byte 0x1C4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1C8 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_14_permission_1,The FW Region 14 Permission 1 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 14 firewall." hexmask.long.byte 0x1C8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1CC "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_14_permission_2,The FW Region 14 Permission 2 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 14 firewall." hexmask.long.byte 0x1CC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1CC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1CC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1CC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1CC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1CC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1CC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1CC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1CC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1CC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1CC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1D0 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_14_start_address_l,The FW Region 14 Start Address Low Register defines the start address bits 31 to 0 for the target Imsram2kx256e_main_0.slv region 14 firewall." hexmask.long.tbyte 0x1D0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1D0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1D4 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_14_start_address_h,The FW Region 14 Start Address High Register defines the start address bits 47 to 32 for the target Imsram2kx256e_main_0.slv region 14 firewall." hexmask.long.word 0x1D4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1D8 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_14_end_address_l,The FW Region 14 End Address Low Register defines the end address bits 31 to 0 to include for the target Imsram2kx256e_main_0.slv region 14 firewall." hexmask.long.tbyte 0x1D8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1D8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1DC "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_14_end_address_h,The FW Region 14 End Address High Register defines the end address bits 47 to 32 to include for the target Imsram2kx256e_main_0.slv region 14 firewall." hexmask.long.word 0x1DC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1E0 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_15_control,The FW Region 15 Control Register defines the control fields for the target Imsram2kx256e_main_0.slv region 15 firewall." bitfld.long 0x1E0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1E0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1E0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1E0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1E4 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_15_permission_0,The FW Region 15 Permission 0 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 15 firewall." hexmask.long.byte 0x1E4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1E8 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_15_permission_1,The FW Region 15 Permission 1 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 15 firewall." hexmask.long.byte 0x1E8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1EC "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_15_permission_2,The FW Region 15 Permission 2 Register defines the permissions for the target Imsram2kx256e_main_0.slv region 15 firewall." hexmask.long.byte 0x1EC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1EC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1EC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1EC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1EC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1EC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1EC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1EC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1EC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1EC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1EC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1F0 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_15_start_address_l,The FW Region 15 Start Address Low Register defines the start address bits 31 to 0 for the target Imsram2kx256e_main_0.slv region 15 firewall." hexmask.long.tbyte 0x1F0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1F0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1F4 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_15_start_address_h,The FW Region 15 Start Address High Register defines the start address bits 47 to 32 for the target Imsram2kx256e_main_0.slv region 15 firewall." hexmask.long.word 0x1F4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1F8 "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_15_end_address_l,The FW Region 15 End Address Low Register defines the end address bits 31 to 0 to include for the target Imsram2kx256e_main_0.slv region 15 firewall." hexmask.long.tbyte 0x1F8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1F8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1FC "FW_REGS_Imsram2kx256e_main_0_slv_fw_region_15_end_address_h,The FW Region 15 End Address High Register defines the end address bits 47 to 32 to include for the target Imsram2kx256e_main_0.slv region 15 firewall." hexmask.long.word 0x1FC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x4400++0x1FF line.long 0x0 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 0.." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 0.." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 0.." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 1.." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 1.." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 1.." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 2.." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 2.." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 2.." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 3.." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 3.." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 3.." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 4.." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 4.." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 4.." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 5.." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 5.." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 5.." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 6.." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 6.." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 6.." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 7.." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 7.." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 7.." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x100 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_8_control,The FW Region 8 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 8 firewall." bitfld.long 0x100 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x100 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x100 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x100 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x104 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_8_permission_0,The FW Region 8 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 8.." hexmask.long.byte 0x104 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x104 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x104 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x104 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x104 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x104 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x104 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x104 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x104 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x104 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x104 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x104 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x104 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x108 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_8_permission_1,The FW Region 8 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 8.." hexmask.long.byte 0x108 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x108 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x108 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x108 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x108 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x108 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x108 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x108 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x108 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x108 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x108 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x108 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x108 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10C "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_8_permission_2,The FW Region 8 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 8.." hexmask.long.byte 0x10C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x10C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x10C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x10C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x10C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x10C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x10C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x10C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x10C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x10C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x10C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x110 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_8_start_address_l,The FW Region 8 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x110 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x110 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x114 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_8_start_address_h,The FW Region 8 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x114 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x118 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_8_end_address_l,The FW Region 8 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x118 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x118 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x11C "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_8_end_address_h,The FW Region 8 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x11C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x120 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_9_control,The FW Region 9 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 9 firewall." bitfld.long 0x120 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x120 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x120 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x120 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x124 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_9_permission_0,The FW Region 9 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 9.." hexmask.long.byte 0x124 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x124 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x124 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x124 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x124 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x124 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x124 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x124 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x124 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x124 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x124 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x124 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x124 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x128 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_9_permission_1,The FW Region 9 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 9.." hexmask.long.byte 0x128 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x128 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x128 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x128 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x128 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x128 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x128 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x128 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x128 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x128 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x128 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x128 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x128 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x12C "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_9_permission_2,The FW Region 9 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 9.." hexmask.long.byte 0x12C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x12C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x12C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x12C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x12C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x12C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x12C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x12C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x12C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x12C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x12C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x130 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_9_start_address_l,The FW Region 9 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x130 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x130 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x134 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_9_start_address_h,The FW Region 9 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x134 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x138 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_9_end_address_l,The FW Region 9 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x138 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x138 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x13C "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_9_end_address_h,The FW Region 9 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x13C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x140 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_10_control,The FW Region 10 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 10 firewall." bitfld.long 0x140 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x140 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x140 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x140 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x144 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_10_permission_0,The FW Region 10 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 10.." hexmask.long.byte 0x144 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x144 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x144 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x144 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x144 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x144 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x144 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x144 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x144 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x144 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x144 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x144 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x144 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x148 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_10_permission_1,The FW Region 10 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 10.." hexmask.long.byte 0x148 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x148 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x148 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x148 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x148 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x148 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x148 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x148 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x148 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x148 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x148 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x148 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x148 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x14C "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_10_permission_2,The FW Region 10 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 10.." hexmask.long.byte 0x14C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x14C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x14C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x14C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x14C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x14C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x14C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x14C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x14C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x14C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x14C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x150 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_10_start_address_l,The FW Region 10 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x150 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x150 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x154 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_10_start_address_h,The FW Region 10 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x154 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x158 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_10_end_address_l,The FW Region 10 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x158 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x158 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x15C "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_10_end_address_h,The FW Region 10 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x15C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x160 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_11_control,The FW Region 11 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 11 firewall." bitfld.long 0x160 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x160 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x160 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x160 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x164 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_11_permission_0,The FW Region 11 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 11.." hexmask.long.byte 0x164 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x164 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x164 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x164 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x164 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x164 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x164 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x164 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x164 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x164 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x164 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x164 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x164 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x168 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_11_permission_1,The FW Region 11 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 11.." hexmask.long.byte 0x168 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x168 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x168 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x168 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x168 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x168 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x168 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x168 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x168 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x168 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x168 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x168 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x168 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x16C "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_11_permission_2,The FW Region 11 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 11.." hexmask.long.byte 0x16C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x16C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x16C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x16C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x16C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x16C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x16C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x16C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x16C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x16C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x16C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x170 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_11_start_address_l,The FW Region 11 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x170 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x170 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x174 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_11_start_address_h,The FW Region 11 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x174 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x178 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_11_end_address_l,The FW Region 11 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x178 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x178 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x17C "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_11_end_address_h,The FW Region 11 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x17C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x180 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_12_control,The FW Region 12 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 12 firewall." bitfld.long 0x180 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x180 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x180 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x180 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x184 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_12_permission_0,The FW Region 12 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 12.." hexmask.long.byte 0x184 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x184 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x184 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x184 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x184 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x184 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x184 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x184 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x184 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x184 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x184 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x184 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x184 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x188 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_12_permission_1,The FW Region 12 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 12.." hexmask.long.byte 0x188 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x188 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x188 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x188 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x188 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x188 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x188 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x188 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x188 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x188 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x188 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x188 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x188 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x18C "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_12_permission_2,The FW Region 12 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 12.." hexmask.long.byte 0x18C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x18C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x18C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x18C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x18C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x18C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x18C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x18C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x18C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x18C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x18C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x190 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_12_start_address_l,The FW Region 12 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x190 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x190 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x194 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_12_start_address_h,The FW Region 12 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x194 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x198 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_12_end_address_l,The FW Region 12 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x198 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x198 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x19C "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_12_end_address_h,The FW Region 12 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x19C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1A0 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_13_control,The FW Region 13 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 13 firewall." bitfld.long 0x1A0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1A0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1A0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1A0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1A4 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_13_permission_0,The FW Region 13 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 13.." hexmask.long.byte 0x1A4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1A8 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_13_permission_1,The FW Region 13 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 13.." hexmask.long.byte 0x1A8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1AC "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_13_permission_2,The FW Region 13 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 13.." hexmask.long.byte 0x1AC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1AC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1AC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1AC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1AC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1AC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1AC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1AC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1AC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1AC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1AC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1B0 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_13_start_address_l,The FW Region 13 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x1B0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1B0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1B4 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_13_start_address_h,The FW Region 13 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x1B4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1B8 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_13_end_address_l,The FW Region 13 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x1B8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1B8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1BC "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_13_end_address_h,The FW Region 13 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x1BC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1C0 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_14_control,The FW Region 14 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 14 firewall." bitfld.long 0x1C0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1C0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1C0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1C0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1C4 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_14_permission_0,The FW Region 14 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 14.." hexmask.long.byte 0x1C4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1C8 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_14_permission_1,The FW Region 14 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 14.." hexmask.long.byte 0x1C8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1CC "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_14_permission_2,The FW Region 14 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 14.." hexmask.long.byte 0x1CC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1CC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1CC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1CC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1CC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1CC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1CC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1CC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1CC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1CC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1CC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1D0 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_14_start_address_l,The FW Region 14 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x1D0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1D0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1D4 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_14_start_address_h,The FW Region 14 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x1D4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1D8 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_14_end_address_l,The FW Region 14 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x1D8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1D8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1DC "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_14_end_address_h,The FW Region 14 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x1DC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1E0 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_15_control,The FW Region 15 Control Register defines the control fields for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 15 firewall." bitfld.long 0x1E0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1E0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1E0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1E0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1E4 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_15_permission_0,The FW Region 15 Permission 0 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 15.." hexmask.long.byte 0x1E4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1E8 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_15_permission_1,The FW Region 15 Permission 1 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 15.." hexmask.long.byte 0x1E8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1EC "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_15_permission_2,The FW Region 15 Permission 2 Register defines the permissions for the target export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0.slv region 15.." hexmask.long.byte 0x1EC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1EC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1EC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1EC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1EC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1EC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1EC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1EC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1EC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1EC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1EC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1F0 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_15_start_address_l,The FW Region 15 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x1F0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1F0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1F4 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_15_start_address_h,The FW Region 15 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x1F4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1F8 "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_15_end_address_l,The FW Region 15 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x1F8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1F8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1FC "FW_REGS_export_am62p_main_data_cbass_to_am62p_main_RT_CFG_cbass_data_l0_fw_region_15_end_address_h,The FW Region 15 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x1FC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." tree.end tree "CBASS0_GLB (CBASS0_GLB)" base ad:0x45B08000 rgroup.long 0x0++0x3 line.long 0x0 "GLB_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "GLB_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." group.long 0x20++0x3 line.long 0x0 "GLB_REGS_exception_logging_control,The Exception Logging Control Register controls the exception logging." bitfld.long 0x0 1. "DISABLE_PEND,Disables logging pending when set." "0,1" bitfld.long 0x0 0. "DISABLE_F,Disables logging when set." "0,1" rgroup.long 0x24++0x17 line.long 0x0 "GLB_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "GLB_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code." line.long 0x8 "GLB_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "GLB_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "GLB_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" newline bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "GLB_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x40++0x7 line.long 0x0 "GLB_REGS_exception_pend_set,The Exception Logging Pending Set Register allows to set the pend signal." bitfld.long 0x0 0. "PEND_SET,Write a 1 to set the exception pend signal." "0,1" line.long 0x4 "GLB_REGS_exception_pend_clear,The Exception Logging Pending Clear Register allows to clear the pend signal." bitfld.long 0x4 0. "PEND_CLR,Write a 1 to clear the exception pend signal." "0,1" tree.end tree "CBASS0_ISC (CBASS0_ISC)" base ad:0x45820000 group.long 0x400++0x3 line.long 0x0 "ISC_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_axi_r_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_axi_r region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x410++0x13 line.long 0x0 "ISC_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_axi_r_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_axi_r region.." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_axi_r_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_axi_r.." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_axi_r_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_axi_r.." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_axi_r_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_axi_r region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_axi_r_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_axi_r region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x800++0x3 line.long 0x0 "ISC_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_axi_w_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_axi_w region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x810++0x13 line.long 0x0 "ISC_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_axi_w_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_axi_w region.." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_axi_w_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_axi_w.." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_axi_w_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_axi_w.." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_axi_w_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_axi_w region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_axi_w_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_axi_w region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1400++0x3 line.long 0x0 "ISC_REGS_Ik3_led2vbus_main_0_vbusp_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Ik3_led2vbus_main_0.vbusp region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1410++0x13 line.long 0x0 "ISC_REGS_Ik3_led2vbus_main_0_vbusp_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_led2vbus_main_0.vbusp region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_led2vbus_main_0_vbusp_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_led2vbus_main_0.vbusp region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_led2vbus_main_0_vbusp_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_led2vbus_main_0.vbusp region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_led2vbus_main_0_vbusp_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_led2vbus_main_0.vbusp region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_led2vbus_main_0_vbusp_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Ik3_led2vbus_main_0.vbusp region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1800++0x3 line.long 0x0 "ISC_REGS_Idebugss_k3_wrap_cv0_main_0_vbusmw_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Idebugss_k3_wrap_cv0_main_0.vbusmw region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1810++0x13 line.long 0x0 "ISC_REGS_Idebugss_k3_wrap_cv0_main_0_vbusmw_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Idebugss_k3_wrap_cv0_main_0.vbusmw region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Idebugss_k3_wrap_cv0_main_0_vbusmw_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Idebugss_k3_wrap_cv0_main_0.vbusmw region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Idebugss_k3_wrap_cv0_main_0_vbusmw_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Idebugss_k3_wrap_cv0_main_0.vbusmw region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Idebugss_k3_wrap_cv0_main_0_vbusmw_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Idebugss_k3_wrap_cv0_main_0.vbusmw region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Idebugss_k3_wrap_cv0_main_0_vbusmw_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Idebugss_k3_wrap_cv0_main_0.vbusmw region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1C00++0x3 line.long 0x0 "ISC_REGS_Idebugss_k3_wrap_cv0_main_0_vbusmr_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Idebugss_k3_wrap_cv0_main_0.vbusmr region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1C10++0x13 line.long 0x0 "ISC_REGS_Idebugss_k3_wrap_cv0_main_0_vbusmr_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Idebugss_k3_wrap_cv0_main_0.vbusmr region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Idebugss_k3_wrap_cv0_main_0_vbusmr_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Idebugss_k3_wrap_cv0_main_0.vbusmr region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Idebugss_k3_wrap_cv0_main_0_vbusmr_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Idebugss_k3_wrap_cv0_main_0.vbusmr region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Idebugss_k3_wrap_cv0_main_0_vbusmr_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Idebugss_k3_wrap_cv0_main_0.vbusmr region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Idebugss_k3_wrap_cv0_main_0_vbusmr_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Idebugss_k3_wrap_cv0_main_0.vbusmr region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x2000++0x3 line.long 0x0 "ISC_REGS_Igic500ss_1_4_main_0_mem_wr_vbusm_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Igic500ss_1_4_main_0.mem_wr_vbusm region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x2010++0x13 line.long 0x0 "ISC_REGS_Igic500ss_1_4_main_0_mem_wr_vbusm_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Igic500ss_1_4_main_0.mem_wr_vbusm region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Igic500ss_1_4_main_0_mem_wr_vbusm_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Igic500ss_1_4_main_0.mem_wr_vbusm region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Igic500ss_1_4_main_0_mem_wr_vbusm_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Igic500ss_1_4_main_0.mem_wr_vbusm region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Igic500ss_1_4_main_0_mem_wr_vbusm_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Igic500ss_1_4_main_0.mem_wr_vbusm region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Igic500ss_1_4_main_0_mem_wr_vbusm_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Igic500ss_1_4_main_0.mem_wr_vbusm region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x2400++0x3 line.long 0x0 "ISC_REGS_Igic500ss_1_4_main_0_mem_rd_vbusm_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Igic500ss_1_4_main_0.mem_rd_vbusm region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x2410++0x13 line.long 0x0 "ISC_REGS_Igic500ss_1_4_main_0_mem_rd_vbusm_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Igic500ss_1_4_main_0.mem_rd_vbusm region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Igic500ss_1_4_main_0_mem_rd_vbusm_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Igic500ss_1_4_main_0.mem_rd_vbusm region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Igic500ss_1_4_main_0_mem_rd_vbusm_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Igic500ss_1_4_main_0.mem_rd_vbusm region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Igic500ss_1_4_main_0_mem_rd_vbusm_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Igic500ss_1_4_main_0.mem_rd_vbusm region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Igic500ss_1_4_main_0_mem_rd_vbusm_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Igic500ss_1_4_main_0.mem_rd_vbusm region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x3000++0x3 line.long 0x0 "ISC_REGS_Iemmcsd4ss_main_0_emmcsdss_rd_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Iemmcsd4ss_main_0.emmcsdss_rd region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x3010++0x13 line.long 0x0 "ISC_REGS_Iemmcsd4ss_main_0_emmcsdss_rd_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Iemmcsd4ss_main_0.emmcsdss_rd region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Iemmcsd4ss_main_0_emmcsdss_rd_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Iemmcsd4ss_main_0.emmcsdss_rd region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Iemmcsd4ss_main_0_emmcsdss_rd_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Iemmcsd4ss_main_0.emmcsdss_rd region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Iemmcsd4ss_main_0_emmcsdss_rd_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Iemmcsd4ss_main_0.emmcsdss_rd region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Iemmcsd4ss_main_0_emmcsdss_rd_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Iemmcsd4ss_main_0.emmcsdss_rd region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x3400++0x3 line.long 0x0 "ISC_REGS_Iemmcsd4ss_main_0_emmcsdss_wr_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Iemmcsd4ss_main_0.emmcsdss_wr region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x3410++0x13 line.long 0x0 "ISC_REGS_Iemmcsd4ss_main_0_emmcsdss_wr_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Iemmcsd4ss_main_0.emmcsdss_wr region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Iemmcsd4ss_main_0_emmcsdss_wr_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Iemmcsd4ss_main_0.emmcsdss_wr region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Iemmcsd4ss_main_0_emmcsdss_wr_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Iemmcsd4ss_main_0.emmcsdss_wr region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Iemmcsd4ss_main_0_emmcsdss_wr_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Iemmcsd4ss_main_0.emmcsdss_wr region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Iemmcsd4ss_main_0_emmcsdss_wr_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Iemmcsd4ss_main_0.emmcsdss_wr region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x3800++0x3 line.long 0x0 "ISC_REGS_Iemmcsd4ss_main_1_emmcsdss_wr_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Iemmcsd4ss_main_1.emmcsdss_wr region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x3810++0x13 line.long 0x0 "ISC_REGS_Iemmcsd4ss_main_1_emmcsdss_wr_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Iemmcsd4ss_main_1.emmcsdss_wr region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Iemmcsd4ss_main_1_emmcsdss_wr_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Iemmcsd4ss_main_1.emmcsdss_wr region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Iemmcsd4ss_main_1_emmcsdss_wr_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Iemmcsd4ss_main_1.emmcsdss_wr region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Iemmcsd4ss_main_1_emmcsdss_wr_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Iemmcsd4ss_main_1.emmcsdss_wr region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Iemmcsd4ss_main_1_emmcsdss_wr_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Iemmcsd4ss_main_1.emmcsdss_wr region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x3C00++0x3 line.long 0x0 "ISC_REGS_Iemmcsd4ss_main_1_emmcsdss_rd_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Iemmcsd4ss_main_1.emmcsdss_rd region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x3C10++0x13 line.long 0x0 "ISC_REGS_Iemmcsd4ss_main_1_emmcsdss_rd_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Iemmcsd4ss_main_1.emmcsdss_rd region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Iemmcsd4ss_main_1_emmcsdss_rd_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Iemmcsd4ss_main_1.emmcsdss_rd region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Iemmcsd4ss_main_1_emmcsdss_rd_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Iemmcsd4ss_main_1.emmcsdss_rd region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Iemmcsd4ss_main_1_emmcsdss_rd_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Iemmcsd4ss_main_1.emmcsdss_rd region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Iemmcsd4ss_main_1_emmcsdss_rd_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Iemmcsd4ss_main_1.emmcsdss_rd region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x5400++0x3 line.long 0x0 "ISC_REGS_Isa3ss_am62a_main_0_ctxcach_ext_dma_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Isa3ss_am62a_main_0.ctxcach_ext_dma region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x5410++0x13 line.long 0x0 "ISC_REGS_Isa3ss_am62a_main_0_ctxcach_ext_dma_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isa3ss_am62a_main_0.ctxcach_ext_dma region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isa3ss_am62a_main_0_ctxcach_ext_dma_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Isa3ss_am62a_main_0.ctxcach_ext_dma region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isa3ss_am62a_main_0_ctxcach_ext_dma_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isa3ss_am62a_main_0.ctxcach_ext_dma region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isa3ss_am62a_main_0_ctxcach_ext_dma_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Isa3ss_am62a_main_0.ctxcach_ext_dma region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isa3ss_am62a_main_0_ctxcach_ext_dma_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Isa3ss_am62a_main_0.ctxcach_ext_dma region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x6800++0x3 line.long 0x0 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x6810++0x13 line.long 0x0 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_1_control,The ISC Region 1 Control Register defines the control fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x6830++0x13 line.long 0x0 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_1_start_address_l,The ISC Region 1 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 1 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_1_start_address_h,The ISC Region 1 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 1 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_1_end_address_l,The ISC Region 1 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 1 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_1_end_address_h,The ISC Region 1 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 1 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_2_control,The ISC Region 2 Control Register defines the control fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 2 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x6850++0x13 line.long 0x0 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_2_start_address_l,The ISC Region 2 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 2 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_2_start_address_h,The ISC Region 2 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 2 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_2_end_address_l,The ISC Region 2 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 2 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_2_end_address_h,The ISC Region 2 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 2 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_3_control,The ISC Region 3 Control Register defines the control fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 3 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x6870++0x13 line.long 0x0 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_3_start_address_l,The ISC Region 3 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 3 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_3_start_address_h,The ISC Region 3 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 3 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_3_end_address_l,The ISC Region 3 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 3 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_3_end_address_h,The ISC Region 3 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 3 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_4_control,The ISC Region 4 Control Register defines the control fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 4 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x6890++0x13 line.long 0x0 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_4_start_address_l,The ISC Region 4 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 4 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_4_start_address_h,The ISC Region 4 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 4 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_4_end_address_l,The ISC Region 4 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 4 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_4_end_address_h,The ISC Region 4 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 4 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async region 5 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x6C00++0x3 line.long 0x0 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x6C10++0x13 line.long 0x0 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_1_control,The ISC Region 1 Control Register defines the control fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x6C30++0x13 line.long 0x0 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_1_start_address_l,The ISC Region 1 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 1 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_1_start_address_h,The ISC Region 1 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 1 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_1_end_address_l,The ISC Region 1 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 1 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_1_end_address_h,The ISC Region 1 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 1 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_2_control,The ISC Region 2 Control Register defines the control fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 2 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x6C50++0x13 line.long 0x0 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_2_start_address_l,The ISC Region 2 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 2 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_2_start_address_h,The ISC Region 2 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 2 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_2_end_address_l,The ISC Region 2 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 2 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_2_end_address_h,The ISC Region 2 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 2 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_3_control,The ISC Region 3 Control Register defines the control fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 3 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x6C70++0x13 line.long 0x0 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_3_start_address_l,The ISC Region 3 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 3 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_3_start_address_h,The ISC Region 3 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 3 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_3_end_address_l,The ISC Region 3 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 3 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_3_end_address_h,The ISC Region 3 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 3 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_4_control,The ISC Region 4 Control Register defines the control fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 4 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x6C90++0x13 line.long 0x0 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_4_start_address_l,The ISC Region 4 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 4 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_4_start_address_h,The ISC Region 4 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 4 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_4_end_address_l,The ISC Region 4 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 4 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_4_end_address_h,The ISC Region 4 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 4 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async region 5 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x7000++0x3 line.long 0x0 "ISC_REGS_Ik3_vpu_wave521cl_main_0_sec_m_vbusm_r_async_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Ik3_vpu_wave521cl_main_0.sec_m_vbusm_r_async region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x7010++0x13 line.long 0x0 "ISC_REGS_Ik3_vpu_wave521cl_main_0_sec_m_vbusm_r_async_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.sec_m_vbusm_r_async region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_vpu_wave521cl_main_0_sec_m_vbusm_r_async_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.sec_m_vbusm_r_async region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_vpu_wave521cl_main_0_sec_m_vbusm_r_async_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.sec_m_vbusm_r_async region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_vpu_wave521cl_main_0_sec_m_vbusm_r_async_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.sec_m_vbusm_r_async region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_vpu_wave521cl_main_0_sec_m_vbusm_r_async_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Ik3_vpu_wave521cl_main_0.sec_m_vbusm_r_async region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x7400++0x3 line.long 0x0 "ISC_REGS_Ik3_vpu_wave521cl_main_0_sec_m_vbusm_w_async_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Ik3_vpu_wave521cl_main_0.sec_m_vbusm_w_async region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x7410++0x13 line.long 0x0 "ISC_REGS_Ik3_vpu_wave521cl_main_0_sec_m_vbusm_w_async_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.sec_m_vbusm_w_async region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ik3_vpu_wave521cl_main_0_sec_m_vbusm_w_async_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.sec_m_vbusm_w_async region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ik3_vpu_wave521cl_main_0_sec_m_vbusm_w_async_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ik3_vpu_wave521cl_main_0.sec_m_vbusm_w_async region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ik3_vpu_wave521cl_main_0_sec_m_vbusm_w_async_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Ik3_vpu_wave521cl_main_0.sec_m_vbusm_w_async region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ik3_vpu_wave521cl_main_0_sec_m_vbusm_w_async_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Ik3_vpu_wave521cl_main_0.sec_m_vbusm_w_async region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9800++0x3 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9810++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_1_control,The ISC Region 1 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9830++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_1_start_address_l,The ISC Region 1 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 1 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_1_start_address_h,The ISC Region 1 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 1 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_1_end_address_l,The ISC Region 1 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 1 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_1_end_address_h,The ISC Region 1 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 1 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_2_control,The ISC Region 2 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 2 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9850++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_2_start_address_l,The ISC Region 2 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 2 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_2_start_address_h,The ISC Region 2 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 2 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_2_end_address_l,The ISC Region 2 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 2 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_2_end_address_h,The ISC Region 2 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 2 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_3_control,The ISC Region 3 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 3 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9870++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_3_start_address_l,The ISC Region 3 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 3 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_3_start_address_h,The ISC Region 3 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 3 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_3_end_address_l,The ISC Region 3 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 3 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_3_end_address_h,The ISC Region 3 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 3 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_4_control,The ISC Region 4 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 4 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9890++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_4_start_address_l,The ISC Region 4 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 4 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_4_start_address_h,The ISC Region 4 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 4 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_4_end_address_l,The ISC Region 4 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 4 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_4_end_address_h,The ISC Region 4 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 4 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_5_control,The ISC Region 5 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 5 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x98B0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_5_start_address_l,The ISC Region 5 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 5 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_5_start_address_h,The ISC Region 5 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 5 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_5_end_address_l,The ISC Region 5 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 5 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_5_end_address_h,The ISC Region 5 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 5 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_6_control,The ISC Region 6 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 6 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x98D0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_6_start_address_l,The ISC Region 6 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 6 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_6_start_address_h,The ISC Region 6 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 6 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_6_end_address_l,The ISC Region 6 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 6 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_6_end_address_h,The ISC Region 6 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 6 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_7_control,The ISC Region 7 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 7 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x98F0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_7_start_address_l,The ISC Region 7 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 7 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_7_start_address_h,The ISC Region 7 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 7 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_7_end_address_l,The ISC Region 7 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 7 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_7_end_address_h,The ISC Region 7 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 7 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_8_control,The ISC Region 8 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 8 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9910++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_8_start_address_l,The ISC Region 8 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 8 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_8_start_address_h,The ISC Region 8 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 8 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_8_end_address_l,The ISC Region 8 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 8 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_8_end_address_h,The ISC Region 8 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 8 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_9_control,The ISC Region 9 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 9 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9930++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_9_start_address_l,The ISC Region 9 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 9 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_9_start_address_h,The ISC Region 9 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 9 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_9_end_address_l,The ISC Region 9 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 9 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_9_end_address_h,The ISC Region 9 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 9 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_10_control,The ISC Region 10 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 10 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9950++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_10_start_address_l,The ISC Region 10 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 10 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_10_start_address_h,The ISC Region 10 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 10 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_10_end_address_l,The ISC Region 10 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 10 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_10_end_address_h,The ISC Region 10 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 10 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_11_control,The ISC Region 11 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 11 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9970++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_11_start_address_l,The ISC Region 11 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 11 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_11_start_address_h,The ISC Region 11 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 11 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_11_end_address_l,The ISC Region 11 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 11 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_11_end_address_h,The ISC Region 11 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 11 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_12_control,The ISC Region 12 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 12 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9990++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_12_start_address_l,The ISC Region 12 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 12 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_12_start_address_h,The ISC Region 12 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 12 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_12_end_address_l,The ISC Region 12 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 12 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_12_end_address_h,The ISC Region 12 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 12 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_13_control,The ISC Region 13 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 13 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x99B0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_13_start_address_l,The ISC Region 13 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 13 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_13_start_address_h,The ISC Region 13 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 13 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_13_end_address_l,The ISC Region 13 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 13 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_13_end_address_h,The ISC Region 13 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 13 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_14_control,The ISC Region 14 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 14 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x99D0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_14_start_address_l,The ISC Region 14 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 14 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_14_start_address_h,The ISC Region 14 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 14 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_14_end_address_l,The ISC Region 14 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 14 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_14_end_address_h,The ISC Region 14 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 14 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_15_control,The ISC Region 15 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 15 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x99F0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_15_start_address_l,The ISC Region 15 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 15 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_15_start_address_h,The ISC Region 15 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 15 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_15_end_address_l,The ISC Region 15 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 15 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_15_end_address_h,The ISC Region 15 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 15 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_16_control,The ISC Region 16 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 16 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9A10++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_16_start_address_l,The ISC Region 16 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 16 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_16_start_address_h,The ISC Region 16 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 16 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_16_end_address_l,The ISC Region 16 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 16 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_16_end_address_h,The ISC Region 16 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 16 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_17_control,The ISC Region 17 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 17 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9A30++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_17_start_address_l,The ISC Region 17 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 17 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_17_start_address_h,The ISC Region 17 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 17 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_17_end_address_l,The ISC Region 17 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 17 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_17_end_address_h,The ISC Region 17 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 17 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_18_control,The ISC Region 18 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 18 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9A50++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_18_start_address_l,The ISC Region 18 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 18 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_18_start_address_h,The ISC Region 18 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 18 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_18_end_address_l,The ISC Region 18 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 18 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_18_end_address_h,The ISC Region 18 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 18 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_19_control,The ISC Region 19 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 19 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9A70++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_19_start_address_l,The ISC Region 19 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 19 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_19_start_address_h,The ISC Region 19 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 19 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_19_end_address_l,The ISC Region 19 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 19 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_19_end_address_h,The ISC Region 19 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 19 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_20_control,The ISC Region 20 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 20 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9A90++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_20_start_address_l,The ISC Region 20 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 20 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_20_start_address_h,The ISC Region 20 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 20 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_20_end_address_l,The ISC Region 20 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 20 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_20_end_address_h,The ISC Region 20 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 20 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_21_control,The ISC Region 21 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 21 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9AB0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_21_start_address_l,The ISC Region 21 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 21 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_21_start_address_h,The ISC Region 21 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 21 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_21_end_address_l,The ISC Region 21 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 21 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_21_end_address_h,The ISC Region 21 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 21 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_22_control,The ISC Region 22 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 22 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9AD0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_22_start_address_l,The ISC Region 22 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 22 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_22_start_address_h,The ISC Region 22 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 22 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_22_end_address_l,The ISC Region 22 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 22 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_22_end_address_h,The ISC Region 22 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 22 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_23_control,The ISC Region 23 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 23 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9AF0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_23_start_address_l,The ISC Region 23 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 23 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_23_start_address_h,The ISC Region 23 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 23 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_23_end_address_l,The ISC Region 23 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 23 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_23_end_address_h,The ISC Region 23 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 23 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_24_control,The ISC Region 24 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 24 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9B10++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_24_start_address_l,The ISC Region 24 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 24 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_24_start_address_h,The ISC Region 24 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 24 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_24_end_address_l,The ISC Region 24 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 24 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_24_end_address_h,The ISC Region 24 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 24 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_25_control,The ISC Region 25 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 25 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9B30++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_25_start_address_l,The ISC Region 25 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 25 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_25_start_address_h,The ISC Region 25 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 25 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_25_end_address_l,The ISC Region 25 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 25 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_25_end_address_h,The ISC Region 25 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 25 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_26_control,The ISC Region 26 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 26 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9B50++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_26_start_address_l,The ISC Region 26 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 26 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_26_start_address_h,The ISC Region 26 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 26 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_26_end_address_l,The ISC Region 26 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 26 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_26_end_address_h,The ISC Region 26 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 26 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_27_control,The ISC Region 27 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 27 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9B70++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_27_start_address_l,The ISC Region 27 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 27 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_27_start_address_h,The ISC Region 27 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 27 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_27_end_address_l,The ISC Region 27 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 27 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_27_end_address_h,The ISC Region 27 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 27 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_28_control,The ISC Region 28 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 28 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9B90++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_28_start_address_l,The ISC Region 28 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 28 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_28_start_address_h,The ISC Region 28 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 28 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_28_end_address_l,The ISC Region 28 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 28 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_28_end_address_h,The ISC Region 28 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 28 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_29_control,The ISC Region 29 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 29 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9BB0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_29_start_address_l,The ISC Region 29 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 29 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_29_start_address_h,The ISC Region 29 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 29 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_29_end_address_l,The ISC Region 29 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 29 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_29_end_address_h,The ISC Region 29 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 29 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_30_control,The ISC Region 30 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 30 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9BD0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_30_start_address_l,The ISC Region 30 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 30 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_30_start_address_h,The ISC Region 30 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 30 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_30_end_address_l,The ISC Region 30 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 30 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_30_end_address_h,The ISC Region 30 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 30 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_31_control,The ISC Region 31 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 31 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x9BF0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_31_start_address_l,The ISC Region 31 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 31 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_31_start_address_h,The ISC Region 31 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 31 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_31_end_address_l,The ISC Region 31 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 31 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_31_end_address_h,The ISC Region 31 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 31 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync region 32 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA000++0x3 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA010++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_1_control,The ISC Region 1 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA030++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_1_start_address_l,The ISC Region 1 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 1 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_1_start_address_h,The ISC Region 1 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 1 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_1_end_address_l,The ISC Region 1 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 1 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_1_end_address_h,The ISC Region 1 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 1 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_2_control,The ISC Region 2 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 2 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA050++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_2_start_address_l,The ISC Region 2 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 2 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_2_start_address_h,The ISC Region 2 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 2 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_2_end_address_l,The ISC Region 2 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 2 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_2_end_address_h,The ISC Region 2 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 2 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_3_control,The ISC Region 3 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 3 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA070++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_3_start_address_l,The ISC Region 3 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 3 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_3_start_address_h,The ISC Region 3 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 3 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_3_end_address_l,The ISC Region 3 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 3 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_3_end_address_h,The ISC Region 3 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 3 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_4_control,The ISC Region 4 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 4 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA090++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_4_start_address_l,The ISC Region 4 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 4 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_4_start_address_h,The ISC Region 4 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 4 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_4_end_address_l,The ISC Region 4 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 4 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_4_end_address_h,The ISC Region 4 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 4 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_5_control,The ISC Region 5 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 5 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA0B0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_5_start_address_l,The ISC Region 5 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 5 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_5_start_address_h,The ISC Region 5 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 5 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_5_end_address_l,The ISC Region 5 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 5 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_5_end_address_h,The ISC Region 5 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 5 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_6_control,The ISC Region 6 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 6 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA0D0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_6_start_address_l,The ISC Region 6 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 6 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_6_start_address_h,The ISC Region 6 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 6 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_6_end_address_l,The ISC Region 6 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 6 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_6_end_address_h,The ISC Region 6 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 6 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_7_control,The ISC Region 7 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 7 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA0F0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_7_start_address_l,The ISC Region 7 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 7 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_7_start_address_h,The ISC Region 7 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 7 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_7_end_address_l,The ISC Region 7 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 7 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_7_end_address_h,The ISC Region 7 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 7 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_8_control,The ISC Region 8 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 8 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA110++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_8_start_address_l,The ISC Region 8 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 8 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_8_start_address_h,The ISC Region 8 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 8 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_8_end_address_l,The ISC Region 8 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 8 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_8_end_address_h,The ISC Region 8 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 8 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_9_control,The ISC Region 9 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 9 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA130++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_9_start_address_l,The ISC Region 9 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 9 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_9_start_address_h,The ISC Region 9 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 9 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_9_end_address_l,The ISC Region 9 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 9 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_9_end_address_h,The ISC Region 9 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 9 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_10_control,The ISC Region 10 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 10 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA150++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_10_start_address_l,The ISC Region 10 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 10 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_10_start_address_h,The ISC Region 10 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 10 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_10_end_address_l,The ISC Region 10 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 10 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_10_end_address_h,The ISC Region 10 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 10 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_11_control,The ISC Region 11 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 11 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA170++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_11_start_address_l,The ISC Region 11 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 11 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_11_start_address_h,The ISC Region 11 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 11 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_11_end_address_l,The ISC Region 11 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 11 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_11_end_address_h,The ISC Region 11 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 11 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_12_control,The ISC Region 12 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 12 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA190++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_12_start_address_l,The ISC Region 12 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 12 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_12_start_address_h,The ISC Region 12 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 12 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_12_end_address_l,The ISC Region 12 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 12 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_12_end_address_h,The ISC Region 12 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 12 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_13_control,The ISC Region 13 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 13 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA1B0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_13_start_address_l,The ISC Region 13 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 13 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_13_start_address_h,The ISC Region 13 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 13 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_13_end_address_l,The ISC Region 13 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 13 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_13_end_address_h,The ISC Region 13 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 13 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_14_control,The ISC Region 14 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 14 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA1D0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_14_start_address_l,The ISC Region 14 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 14 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_14_start_address_h,The ISC Region 14 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 14 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_14_end_address_l,The ISC Region 14 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 14 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_14_end_address_h,The ISC Region 14 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 14 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_15_control,The ISC Region 15 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 15 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA1F0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_15_start_address_l,The ISC Region 15 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 15 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_15_start_address_h,The ISC Region 15 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 15 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_15_end_address_l,The ISC Region 15 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 15 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_15_end_address_h,The ISC Region 15 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 15 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_16_control,The ISC Region 16 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 16 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA210++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_16_start_address_l,The ISC Region 16 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 16 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_16_start_address_h,The ISC Region 16 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 16 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_16_end_address_l,The ISC Region 16 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 16 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_16_end_address_h,The ISC Region 16 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 16 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_17_control,The ISC Region 17 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 17 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA230++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_17_start_address_l,The ISC Region 17 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 17 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_17_start_address_h,The ISC Region 17 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 17 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_17_end_address_l,The ISC Region 17 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 17 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_17_end_address_h,The ISC Region 17 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 17 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_18_control,The ISC Region 18 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 18 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA250++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_18_start_address_l,The ISC Region 18 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 18 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_18_start_address_h,The ISC Region 18 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 18 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_18_end_address_l,The ISC Region 18 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 18 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_18_end_address_h,The ISC Region 18 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 18 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_19_control,The ISC Region 19 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 19 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA270++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_19_start_address_l,The ISC Region 19 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 19 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_19_start_address_h,The ISC Region 19 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 19 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_19_end_address_l,The ISC Region 19 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 19 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_19_end_address_h,The ISC Region 19 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 19 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_20_control,The ISC Region 20 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 20 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA290++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_20_start_address_l,The ISC Region 20 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 20 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_20_start_address_h,The ISC Region 20 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 20 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_20_end_address_l,The ISC Region 20 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 20 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_20_end_address_h,The ISC Region 20 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 20 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_21_control,The ISC Region 21 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 21 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA2B0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_21_start_address_l,The ISC Region 21 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 21 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_21_start_address_h,The ISC Region 21 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 21 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_21_end_address_l,The ISC Region 21 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 21 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_21_end_address_h,The ISC Region 21 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 21 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_22_control,The ISC Region 22 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 22 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA2D0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_22_start_address_l,The ISC Region 22 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 22 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_22_start_address_h,The ISC Region 22 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 22 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_22_end_address_l,The ISC Region 22 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 22 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_22_end_address_h,The ISC Region 22 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 22 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_23_control,The ISC Region 23 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 23 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA2F0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_23_start_address_l,The ISC Region 23 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 23 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_23_start_address_h,The ISC Region 23 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 23 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_23_end_address_l,The ISC Region 23 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 23 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_23_end_address_h,The ISC Region 23 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 23 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_24_control,The ISC Region 24 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 24 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA310++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_24_start_address_l,The ISC Region 24 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 24 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_24_start_address_h,The ISC Region 24 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 24 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_24_end_address_l,The ISC Region 24 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 24 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_24_end_address_h,The ISC Region 24 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 24 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_25_control,The ISC Region 25 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 25 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA330++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_25_start_address_l,The ISC Region 25 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 25 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_25_start_address_h,The ISC Region 25 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 25 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_25_end_address_l,The ISC Region 25 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 25 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_25_end_address_h,The ISC Region 25 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 25 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_26_control,The ISC Region 26 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 26 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA350++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_26_start_address_l,The ISC Region 26 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 26 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_26_start_address_h,The ISC Region 26 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 26 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_26_end_address_l,The ISC Region 26 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 26 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_26_end_address_h,The ISC Region 26 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 26 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_27_control,The ISC Region 27 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 27 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA370++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_27_start_address_l,The ISC Region 27 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 27 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_27_start_address_h,The ISC Region 27 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 27 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_27_end_address_l,The ISC Region 27 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 27 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_27_end_address_h,The ISC Region 27 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 27 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_28_control,The ISC Region 28 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 28 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA390++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_28_start_address_l,The ISC Region 28 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 28 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_28_start_address_h,The ISC Region 28 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 28 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_28_end_address_l,The ISC Region 28 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 28 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_28_end_address_h,The ISC Region 28 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 28 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_29_control,The ISC Region 29 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 29 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA3B0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_29_start_address_l,The ISC Region 29 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 29 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_29_start_address_h,The ISC Region 29 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 29 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_29_end_address_l,The ISC Region 29 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 29 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_29_end_address_h,The ISC Region 29 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 29 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_30_control,The ISC Region 30 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 30 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA3D0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_30_start_address_l,The ISC Region 30 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 30 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_30_start_address_h,The ISC Region 30 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 30 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_30_end_address_l,The ISC Region 30 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 30 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_30_end_address_h,The ISC Region 30 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 30 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_31_control,The ISC Region 31 Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 31 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0xA3F0++0x13 line.long 0x0 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_31_start_address_l,The ISC Region 31 Start Address Low Register defines the start address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 31 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_31_start_address_h,The ISC Region 31 Start Address High Register defines the start address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 31 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_31_end_address_l,The ISC Region 31 End Address Low Register defines the end included address bits 31 to 0 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 31 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_31_end_address_h,The ISC Region 31 End Address High Register defines the end address bits 47 to 32 for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 31 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync region 32 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" newline bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" newline hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" newline bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." tree.end tree "CBASS0_QOS (CBASS0_QOS)" base ad:0x45D20000 group.long 0x400++0x7 line.long 0x0 "QOS_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_axi_r_slv_grp_0_grp_map1,The Group Map Register defines the final orderid for the initiator Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_axi_r for group slv_grp_0." hexmask.long.byte 0x0 28.--31. 1. "ORDERID7,orderid signal for 7." hexmask.long.byte 0x0 24.--27. 1. "ORDERID6,orderid signal for 6." hexmask.long.byte 0x0 20.--23. 1. "ORDERID5,orderid signal for 5." hexmask.long.byte 0x0 16.--19. 1. "ORDERID4,orderid signal for 4." hexmask.long.byte 0x0 12.--15. 1. "ORDERID3,orderid signal for 3." newline hexmask.long.byte 0x0 8.--11. 1. "ORDERID2,orderid signal for 2." hexmask.long.byte 0x0 4.--7. 1. "ORDERID1,orderid signal for 1." hexmask.long.byte 0x0 0.--3. 1. "ORDERID0,orderid signal for 0." line.long 0x4 "QOS_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_axi_r_slv_grp_0_grp_map2,The Group Map Register defines the final orderid for the initiator Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_axi_r for group slv_grp_0." hexmask.long.byte 0x4 28.--31. 1. "ORDERID15,orderid signal for 7." hexmask.long.byte 0x4 24.--27. 1. "ORDERID14,orderid signal for 6." hexmask.long.byte 0x4 20.--23. 1. "ORDERID13,orderid signal for 5." hexmask.long.byte 0x4 16.--19. 1. "ORDERID12,orderid signal for 4." hexmask.long.byte 0x4 12.--15. 1. "ORDERID11,orderid signal for 3." newline hexmask.long.byte 0x4 8.--11. 1. "ORDERID10,orderid signal for 2." hexmask.long.byte 0x4 4.--7. 1. "ORDERID9,orderid signal for 1." hexmask.long.byte 0x4 0.--3. 1. "ORDERID8,orderid signal for 0." group.long 0x500++0x3 line.long 0x0 "QOS_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_axi_r_map0,The Map Register defines the fields for the initiator Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_axi_r per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x800++0x7 line.long 0x0 "QOS_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_axi_w_slv_grp_0_grp_map1,The Group Map Register defines the final orderid for the initiator Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_axi_w for group slv_grp_0." hexmask.long.byte 0x0 28.--31. 1. "ORDERID7,orderid signal for 7." hexmask.long.byte 0x0 24.--27. 1. "ORDERID6,orderid signal for 6." hexmask.long.byte 0x0 20.--23. 1. "ORDERID5,orderid signal for 5." hexmask.long.byte 0x0 16.--19. 1. "ORDERID4,orderid signal for 4." hexmask.long.byte 0x0 12.--15. 1. "ORDERID3,orderid signal for 3." newline hexmask.long.byte 0x0 8.--11. 1. "ORDERID2,orderid signal for 2." hexmask.long.byte 0x0 4.--7. 1. "ORDERID1,orderid signal for 1." hexmask.long.byte 0x0 0.--3. 1. "ORDERID0,orderid signal for 0." line.long 0x4 "QOS_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_axi_w_slv_grp_0_grp_map2,The Group Map Register defines the final orderid for the initiator Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_axi_w for group slv_grp_0." hexmask.long.byte 0x4 28.--31. 1. "ORDERID15,orderid signal for 7." hexmask.long.byte 0x4 24.--27. 1. "ORDERID14,orderid signal for 6." hexmask.long.byte 0x4 20.--23. 1. "ORDERID13,orderid signal for 5." hexmask.long.byte 0x4 16.--19. 1. "ORDERID12,orderid signal for 4." hexmask.long.byte 0x4 12.--15. 1. "ORDERID11,orderid signal for 3." newline hexmask.long.byte 0x4 8.--11. 1. "ORDERID10,orderid signal for 2." hexmask.long.byte 0x4 4.--7. 1. "ORDERID9,orderid signal for 1." hexmask.long.byte 0x4 0.--3. 1. "ORDERID8,orderid signal for 0." group.long 0x900++0x3 line.long 0x0 "QOS_REGS_Isam62a_a53_512kb_wrap_main_0_a53_quad_wrap_cba_axi_w_map0,The Map Register defines the fields for the initiator Isam62a_a53_512kb_wrap_main_0.a53_quad_wrap_cba_axi_w per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x1800++0x7 line.long 0x0 "QOS_REGS_Idebugss_k3_wrap_cv0_main_0_vbusmw_slv_grp_0_grp_map1,The Group Map Register defines the final orderid for the initiator Idebugss_k3_wrap_cv0_main_0.vbusmw for group slv_grp_0." hexmask.long.byte 0x0 28.--31. 1. "ORDERID7,orderid signal for 7." hexmask.long.byte 0x0 24.--27. 1. "ORDERID6,orderid signal for 6." hexmask.long.byte 0x0 20.--23. 1. "ORDERID5,orderid signal for 5." hexmask.long.byte 0x0 16.--19. 1. "ORDERID4,orderid signal for 4." hexmask.long.byte 0x0 12.--15. 1. "ORDERID3,orderid signal for 3." newline hexmask.long.byte 0x0 8.--11. 1. "ORDERID2,orderid signal for 2." hexmask.long.byte 0x0 4.--7. 1. "ORDERID1,orderid signal for 1." hexmask.long.byte 0x0 0.--3. 1. "ORDERID0,orderid signal for 0." line.long 0x4 "QOS_REGS_Idebugss_k3_wrap_cv0_main_0_vbusmw_slv_grp_0_grp_map2,The Group Map Register defines the final orderid for the initiator Idebugss_k3_wrap_cv0_main_0.vbusmw for group slv_grp_0." hexmask.long.byte 0x4 28.--31. 1. "ORDERID15,orderid signal for 7." hexmask.long.byte 0x4 24.--27. 1. "ORDERID14,orderid signal for 6." hexmask.long.byte 0x4 20.--23. 1. "ORDERID13,orderid signal for 5." hexmask.long.byte 0x4 16.--19. 1. "ORDERID12,orderid signal for 4." hexmask.long.byte 0x4 12.--15. 1. "ORDERID11,orderid signal for 3." newline hexmask.long.byte 0x4 8.--11. 1. "ORDERID10,orderid signal for 2." hexmask.long.byte 0x4 4.--7. 1. "ORDERID9,orderid signal for 1." hexmask.long.byte 0x4 0.--3. 1. "ORDERID8,orderid signal for 0." group.long 0x1900++0x3 line.long 0x0 "QOS_REGS_Idebugss_k3_wrap_cv0_main_0_vbusmw_map0,The Map Register defines the fields for the initiator Idebugss_k3_wrap_cv0_main_0.vbusmw per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x1C00++0x7 line.long 0x0 "QOS_REGS_Idebugss_k3_wrap_cv0_main_0_vbusmr_slv_grp_0_grp_map1,The Group Map Register defines the final orderid for the initiator Idebugss_k3_wrap_cv0_main_0.vbusmr for group slv_grp_0." hexmask.long.byte 0x0 28.--31. 1. "ORDERID7,orderid signal for 7." hexmask.long.byte 0x0 24.--27. 1. "ORDERID6,orderid signal for 6." hexmask.long.byte 0x0 20.--23. 1. "ORDERID5,orderid signal for 5." hexmask.long.byte 0x0 16.--19. 1. "ORDERID4,orderid signal for 4." hexmask.long.byte 0x0 12.--15. 1. "ORDERID3,orderid signal for 3." newline hexmask.long.byte 0x0 8.--11. 1. "ORDERID2,orderid signal for 2." hexmask.long.byte 0x0 4.--7. 1. "ORDERID1,orderid signal for 1." hexmask.long.byte 0x0 0.--3. 1. "ORDERID0,orderid signal for 0." line.long 0x4 "QOS_REGS_Idebugss_k3_wrap_cv0_main_0_vbusmr_slv_grp_0_grp_map2,The Group Map Register defines the final orderid for the initiator Idebugss_k3_wrap_cv0_main_0.vbusmr for group slv_grp_0." hexmask.long.byte 0x4 28.--31. 1. "ORDERID15,orderid signal for 7." hexmask.long.byte 0x4 24.--27. 1. "ORDERID14,orderid signal for 6." hexmask.long.byte 0x4 20.--23. 1. "ORDERID13,orderid signal for 5." hexmask.long.byte 0x4 16.--19. 1. "ORDERID12,orderid signal for 4." hexmask.long.byte 0x4 12.--15. 1. "ORDERID11,orderid signal for 3." newline hexmask.long.byte 0x4 8.--11. 1. "ORDERID10,orderid signal for 2." hexmask.long.byte 0x4 4.--7. 1. "ORDERID9,orderid signal for 1." hexmask.long.byte 0x4 0.--3. 1. "ORDERID8,orderid signal for 0." group.long 0x1D00++0x3 line.long 0x0 "QOS_REGS_Idebugss_k3_wrap_cv0_main_0_vbusmr_map0,The Map Register defines the fields for the initiator Idebugss_k3_wrap_cv0_main_0.vbusmr per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x2000++0x7 line.long 0x0 "QOS_REGS_Igic500ss_1_4_main_0_mem_wr_vbusm_slv_grp_0_grp_map1,The Group Map Register defines the final orderid for the initiator Igic500ss_1_4_main_0.mem_wr_vbusm for group slv_grp_0." hexmask.long.byte 0x0 28.--31. 1. "ORDERID7,orderid signal for 7." hexmask.long.byte 0x0 24.--27. 1. "ORDERID6,orderid signal for 6." hexmask.long.byte 0x0 20.--23. 1. "ORDERID5,orderid signal for 5." hexmask.long.byte 0x0 16.--19. 1. "ORDERID4,orderid signal for 4." hexmask.long.byte 0x0 12.--15. 1. "ORDERID3,orderid signal for 3." newline hexmask.long.byte 0x0 8.--11. 1. "ORDERID2,orderid signal for 2." hexmask.long.byte 0x0 4.--7. 1. "ORDERID1,orderid signal for 1." hexmask.long.byte 0x0 0.--3. 1. "ORDERID0,orderid signal for 0." line.long 0x4 "QOS_REGS_Igic500ss_1_4_main_0_mem_wr_vbusm_slv_grp_0_grp_map2,The Group Map Register defines the final orderid for the initiator Igic500ss_1_4_main_0.mem_wr_vbusm for group slv_grp_0." hexmask.long.byte 0x4 28.--31. 1. "ORDERID15,orderid signal for 7." hexmask.long.byte 0x4 24.--27. 1. "ORDERID14,orderid signal for 6." hexmask.long.byte 0x4 20.--23. 1. "ORDERID13,orderid signal for 5." hexmask.long.byte 0x4 16.--19. 1. "ORDERID12,orderid signal for 4." hexmask.long.byte 0x4 12.--15. 1. "ORDERID11,orderid signal for 3." newline hexmask.long.byte 0x4 8.--11. 1. "ORDERID10,orderid signal for 2." hexmask.long.byte 0x4 4.--7. 1. "ORDERID9,orderid signal for 1." hexmask.long.byte 0x4 0.--3. 1. "ORDERID8,orderid signal for 0." group.long 0x2100++0x3 line.long 0x0 "QOS_REGS_Igic500ss_1_4_main_0_mem_wr_vbusm_map0,The Map Register defines the fields for the initiator Igic500ss_1_4_main_0.mem_wr_vbusm per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x2400++0x7 line.long 0x0 "QOS_REGS_Igic500ss_1_4_main_0_mem_rd_vbusm_slv_grp_0_grp_map1,The Group Map Register defines the final orderid for the initiator Igic500ss_1_4_main_0.mem_rd_vbusm for group slv_grp_0." hexmask.long.byte 0x0 28.--31. 1. "ORDERID7,orderid signal for 7." hexmask.long.byte 0x0 24.--27. 1. "ORDERID6,orderid signal for 6." hexmask.long.byte 0x0 20.--23. 1. "ORDERID5,orderid signal for 5." hexmask.long.byte 0x0 16.--19. 1. "ORDERID4,orderid signal for 4." hexmask.long.byte 0x0 12.--15. 1. "ORDERID3,orderid signal for 3." newline hexmask.long.byte 0x0 8.--11. 1. "ORDERID2,orderid signal for 2." hexmask.long.byte 0x0 4.--7. 1. "ORDERID1,orderid signal for 1." hexmask.long.byte 0x0 0.--3. 1. "ORDERID0,orderid signal for 0." line.long 0x4 "QOS_REGS_Igic500ss_1_4_main_0_mem_rd_vbusm_slv_grp_0_grp_map2,The Group Map Register defines the final orderid for the initiator Igic500ss_1_4_main_0.mem_rd_vbusm for group slv_grp_0." hexmask.long.byte 0x4 28.--31. 1. "ORDERID15,orderid signal for 7." hexmask.long.byte 0x4 24.--27. 1. "ORDERID14,orderid signal for 6." hexmask.long.byte 0x4 20.--23. 1. "ORDERID13,orderid signal for 5." hexmask.long.byte 0x4 16.--19. 1. "ORDERID12,orderid signal for 4." hexmask.long.byte 0x4 12.--15. 1. "ORDERID11,orderid signal for 3." newline hexmask.long.byte 0x4 8.--11. 1. "ORDERID10,orderid signal for 2." hexmask.long.byte 0x4 4.--7. 1. "ORDERID9,orderid signal for 1." hexmask.long.byte 0x4 0.--3. 1. "ORDERID8,orderid signal for 0." group.long 0x2500++0x3 line.long 0x0 "QOS_REGS_Igic500ss_1_4_main_0_mem_rd_vbusm_map0,The Map Register defines the fields for the initiator Igic500ss_1_4_main_0.mem_rd_vbusm per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x3000++0x7 line.long 0x0 "QOS_REGS_Iemmcsd4ss_main_0_emmcsdss_rd_slv_grp_0_grp_map1,The Group Map Register defines the final orderid for the initiator Iemmcsd4ss_main_0.emmcsdss_rd for group slv_grp_0." hexmask.long.byte 0x0 28.--31. 1. "ORDERID7,orderid signal for 7." hexmask.long.byte 0x0 24.--27. 1. "ORDERID6,orderid signal for 6." hexmask.long.byte 0x0 20.--23. 1. "ORDERID5,orderid signal for 5." hexmask.long.byte 0x0 16.--19. 1. "ORDERID4,orderid signal for 4." hexmask.long.byte 0x0 12.--15. 1. "ORDERID3,orderid signal for 3." newline hexmask.long.byte 0x0 8.--11. 1. "ORDERID2,orderid signal for 2." hexmask.long.byte 0x0 4.--7. 1. "ORDERID1,orderid signal for 1." hexmask.long.byte 0x0 0.--3. 1. "ORDERID0,orderid signal for 0." line.long 0x4 "QOS_REGS_Iemmcsd4ss_main_0_emmcsdss_rd_slv_grp_0_grp_map2,The Group Map Register defines the final orderid for the initiator Iemmcsd4ss_main_0.emmcsdss_rd for group slv_grp_0." hexmask.long.byte 0x4 28.--31. 1. "ORDERID15,orderid signal for 7." hexmask.long.byte 0x4 24.--27. 1. "ORDERID14,orderid signal for 6." hexmask.long.byte 0x4 20.--23. 1. "ORDERID13,orderid signal for 5." hexmask.long.byte 0x4 16.--19. 1. "ORDERID12,orderid signal for 4." hexmask.long.byte 0x4 12.--15. 1. "ORDERID11,orderid signal for 3." newline hexmask.long.byte 0x4 8.--11. 1. "ORDERID10,orderid signal for 2." hexmask.long.byte 0x4 4.--7. 1. "ORDERID9,orderid signal for 1." hexmask.long.byte 0x4 0.--3. 1. "ORDERID8,orderid signal for 0." group.long 0x3100++0x3 line.long 0x0 "QOS_REGS_Iemmcsd4ss_main_0_emmcsdss_rd_map0,The Map Register defines the fields for the initiator Iemmcsd4ss_main_0.emmcsdss_rd per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x3400++0x7 line.long 0x0 "QOS_REGS_Iemmcsd4ss_main_0_emmcsdss_wr_slv_grp_0_grp_map1,The Group Map Register defines the final orderid for the initiator Iemmcsd4ss_main_0.emmcsdss_wr for group slv_grp_0." hexmask.long.byte 0x0 28.--31. 1. "ORDERID7,orderid signal for 7." hexmask.long.byte 0x0 24.--27. 1. "ORDERID6,orderid signal for 6." hexmask.long.byte 0x0 20.--23. 1. "ORDERID5,orderid signal for 5." hexmask.long.byte 0x0 16.--19. 1. "ORDERID4,orderid signal for 4." hexmask.long.byte 0x0 12.--15. 1. "ORDERID3,orderid signal for 3." newline hexmask.long.byte 0x0 8.--11. 1. "ORDERID2,orderid signal for 2." hexmask.long.byte 0x0 4.--7. 1. "ORDERID1,orderid signal for 1." hexmask.long.byte 0x0 0.--3. 1. "ORDERID0,orderid signal for 0." line.long 0x4 "QOS_REGS_Iemmcsd4ss_main_0_emmcsdss_wr_slv_grp_0_grp_map2,The Group Map Register defines the final orderid for the initiator Iemmcsd4ss_main_0.emmcsdss_wr for group slv_grp_0." hexmask.long.byte 0x4 28.--31. 1. "ORDERID15,orderid signal for 7." hexmask.long.byte 0x4 24.--27. 1. "ORDERID14,orderid signal for 6." hexmask.long.byte 0x4 20.--23. 1. "ORDERID13,orderid signal for 5." hexmask.long.byte 0x4 16.--19. 1. "ORDERID12,orderid signal for 4." hexmask.long.byte 0x4 12.--15. 1. "ORDERID11,orderid signal for 3." newline hexmask.long.byte 0x4 8.--11. 1. "ORDERID10,orderid signal for 2." hexmask.long.byte 0x4 4.--7. 1. "ORDERID9,orderid signal for 1." hexmask.long.byte 0x4 0.--3. 1. "ORDERID8,orderid signal for 0." group.long 0x3500++0x3 line.long 0x0 "QOS_REGS_Iemmcsd4ss_main_0_emmcsdss_wr_map0,The Map Register defines the fields for the initiator Iemmcsd4ss_main_0.emmcsdss_wr per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x3800++0x7 line.long 0x0 "QOS_REGS_Iemmcsd4ss_main_1_emmcsdss_wr_slv_grp_0_grp_map1,The Group Map Register defines the final orderid for the initiator Iemmcsd4ss_main_1.emmcsdss_wr for group slv_grp_0." hexmask.long.byte 0x0 28.--31. 1. "ORDERID7,orderid signal for 7." hexmask.long.byte 0x0 24.--27. 1. "ORDERID6,orderid signal for 6." hexmask.long.byte 0x0 20.--23. 1. "ORDERID5,orderid signal for 5." hexmask.long.byte 0x0 16.--19. 1. "ORDERID4,orderid signal for 4." hexmask.long.byte 0x0 12.--15. 1. "ORDERID3,orderid signal for 3." newline hexmask.long.byte 0x0 8.--11. 1. "ORDERID2,orderid signal for 2." hexmask.long.byte 0x0 4.--7. 1. "ORDERID1,orderid signal for 1." hexmask.long.byte 0x0 0.--3. 1. "ORDERID0,orderid signal for 0." line.long 0x4 "QOS_REGS_Iemmcsd4ss_main_1_emmcsdss_wr_slv_grp_0_grp_map2,The Group Map Register defines the final orderid for the initiator Iemmcsd4ss_main_1.emmcsdss_wr for group slv_grp_0." hexmask.long.byte 0x4 28.--31. 1. "ORDERID15,orderid signal for 7." hexmask.long.byte 0x4 24.--27. 1. "ORDERID14,orderid signal for 6." hexmask.long.byte 0x4 20.--23. 1. "ORDERID13,orderid signal for 5." hexmask.long.byte 0x4 16.--19. 1. "ORDERID12,orderid signal for 4." hexmask.long.byte 0x4 12.--15. 1. "ORDERID11,orderid signal for 3." newline hexmask.long.byte 0x4 8.--11. 1. "ORDERID10,orderid signal for 2." hexmask.long.byte 0x4 4.--7. 1. "ORDERID9,orderid signal for 1." hexmask.long.byte 0x4 0.--3. 1. "ORDERID8,orderid signal for 0." group.long 0x3900++0x3 line.long 0x0 "QOS_REGS_Iemmcsd4ss_main_1_emmcsdss_wr_map0,The Map Register defines the fields for the initiator Iemmcsd4ss_main_1.emmcsdss_wr per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x3C00++0x7 line.long 0x0 "QOS_REGS_Iemmcsd4ss_main_1_emmcsdss_rd_slv_grp_0_grp_map1,The Group Map Register defines the final orderid for the initiator Iemmcsd4ss_main_1.emmcsdss_rd for group slv_grp_0." hexmask.long.byte 0x0 28.--31. 1. "ORDERID7,orderid signal for 7." hexmask.long.byte 0x0 24.--27. 1. "ORDERID6,orderid signal for 6." hexmask.long.byte 0x0 20.--23. 1. "ORDERID5,orderid signal for 5." hexmask.long.byte 0x0 16.--19. 1. "ORDERID4,orderid signal for 4." hexmask.long.byte 0x0 12.--15. 1. "ORDERID3,orderid signal for 3." newline hexmask.long.byte 0x0 8.--11. 1. "ORDERID2,orderid signal for 2." hexmask.long.byte 0x0 4.--7. 1. "ORDERID1,orderid signal for 1." hexmask.long.byte 0x0 0.--3. 1. "ORDERID0,orderid signal for 0." line.long 0x4 "QOS_REGS_Iemmcsd4ss_main_1_emmcsdss_rd_slv_grp_0_grp_map2,The Group Map Register defines the final orderid for the initiator Iemmcsd4ss_main_1.emmcsdss_rd for group slv_grp_0." hexmask.long.byte 0x4 28.--31. 1. "ORDERID15,orderid signal for 7." hexmask.long.byte 0x4 24.--27. 1. "ORDERID14,orderid signal for 6." hexmask.long.byte 0x4 20.--23. 1. "ORDERID13,orderid signal for 5." hexmask.long.byte 0x4 16.--19. 1. "ORDERID12,orderid signal for 4." hexmask.long.byte 0x4 12.--15. 1. "ORDERID11,orderid signal for 3." newline hexmask.long.byte 0x4 8.--11. 1. "ORDERID10,orderid signal for 2." hexmask.long.byte 0x4 4.--7. 1. "ORDERID9,orderid signal for 1." hexmask.long.byte 0x4 0.--3. 1. "ORDERID8,orderid signal for 0." group.long 0x3D00++0x3 line.long 0x0 "QOS_REGS_Iemmcsd4ss_main_1_emmcsdss_rd_map0,The Map Register defines the fields for the initiator Iemmcsd4ss_main_1.emmcsdss_rd per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x5400++0x7 line.long 0x0 "QOS_REGS_Isa3ss_am62a_main_0_ctxcach_ext_dma_slv_grp_0_grp_map1,The Group Map Register defines the final orderid for the initiator Isa3ss_am62a_main_0.ctxcach_ext_dma for group slv_grp_0." hexmask.long.byte 0x0 28.--31. 1. "ORDERID7,orderid signal for 7." hexmask.long.byte 0x0 24.--27. 1. "ORDERID6,orderid signal for 6." hexmask.long.byte 0x0 20.--23. 1. "ORDERID5,orderid signal for 5." hexmask.long.byte 0x0 16.--19. 1. "ORDERID4,orderid signal for 4." hexmask.long.byte 0x0 12.--15. 1. "ORDERID3,orderid signal for 3." newline hexmask.long.byte 0x0 8.--11. 1. "ORDERID2,orderid signal for 2." hexmask.long.byte 0x0 4.--7. 1. "ORDERID1,orderid signal for 1." hexmask.long.byte 0x0 0.--3. 1. "ORDERID0,orderid signal for 0." line.long 0x4 "QOS_REGS_Isa3ss_am62a_main_0_ctxcach_ext_dma_slv_grp_0_grp_map2,The Group Map Register defines the final orderid for the initiator Isa3ss_am62a_main_0.ctxcach_ext_dma for group slv_grp_0." hexmask.long.byte 0x4 28.--31. 1. "ORDERID15,orderid signal for 7." hexmask.long.byte 0x4 24.--27. 1. "ORDERID14,orderid signal for 6." hexmask.long.byte 0x4 20.--23. 1. "ORDERID13,orderid signal for 5." hexmask.long.byte 0x4 16.--19. 1. "ORDERID12,orderid signal for 4." hexmask.long.byte 0x4 12.--15. 1. "ORDERID11,orderid signal for 3." newline hexmask.long.byte 0x4 8.--11. 1. "ORDERID10,orderid signal for 2." hexmask.long.byte 0x4 4.--7. 1. "ORDERID9,orderid signal for 1." hexmask.long.byte 0x4 0.--3. 1. "ORDERID8,orderid signal for 0." group.long 0x5500++0x3 line.long 0x0 "QOS_REGS_Isa3ss_am62a_main_0_ctxcach_ext_dma_map0,The Map Register defines the fields for the initiator Isa3ss_am62a_main_0.ctxcach_ext_dma per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x6800++0x7 line.long 0x0 "QOS_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_slv_grp_0_grp_map1,The Group Map Register defines the final orderid for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async for group slv_grp_0." hexmask.long.byte 0x0 28.--31. 1. "ORDERID7,orderid signal for 7." hexmask.long.byte 0x0 24.--27. 1. "ORDERID6,orderid signal for 6." hexmask.long.byte 0x0 20.--23. 1. "ORDERID5,orderid signal for 5." hexmask.long.byte 0x0 16.--19. 1. "ORDERID4,orderid signal for 4." hexmask.long.byte 0x0 12.--15. 1. "ORDERID3,orderid signal for 3." newline hexmask.long.byte 0x0 8.--11. 1. "ORDERID2,orderid signal for 2." hexmask.long.byte 0x0 4.--7. 1. "ORDERID1,orderid signal for 1." hexmask.long.byte 0x0 0.--3. 1. "ORDERID0,orderid signal for 0." line.long 0x4 "QOS_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_slv_grp_0_grp_map2,The Group Map Register defines the final orderid for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async for group slv_grp_0." hexmask.long.byte 0x4 28.--31. 1. "ORDERID15,orderid signal for 7." hexmask.long.byte 0x4 24.--27. 1. "ORDERID14,orderid signal for 6." hexmask.long.byte 0x4 20.--23. 1. "ORDERID13,orderid signal for 5." hexmask.long.byte 0x4 16.--19. 1. "ORDERID12,orderid signal for 4." hexmask.long.byte 0x4 12.--15. 1. "ORDERID11,orderid signal for 3." newline hexmask.long.byte 0x4 8.--11. 1. "ORDERID10,orderid signal for 2." hexmask.long.byte 0x4 4.--7. 1. "ORDERID9,orderid signal for 1." hexmask.long.byte 0x4 0.--3. 1. "ORDERID8,orderid signal for 0." group.long 0x6900++0x13 line.long 0x0 "QOS_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_map0,The Map Register defines the fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x4 "QOS_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_map1,The Map Register defines the fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async per channel." bitfld.long 0x4 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x4 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x4 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x8 "QOS_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_map2,The Map Register defines the fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async per channel." bitfld.long 0x8 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x8 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x8 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0xC "QOS_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_map3,The Map Register defines the fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async per channel." bitfld.long 0xC 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0xC 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0xC 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x10 "QOS_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_r_async_map4,The Map Register defines the fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_r_async per channel." bitfld.long 0x10 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x10 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x10 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x10 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x6C00++0x7 line.long 0x0 "QOS_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_slv_grp_0_grp_map1,The Group Map Register defines the final orderid for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async for group slv_grp_0." hexmask.long.byte 0x0 28.--31. 1. "ORDERID7,orderid signal for 7." hexmask.long.byte 0x0 24.--27. 1. "ORDERID6,orderid signal for 6." hexmask.long.byte 0x0 20.--23. 1. "ORDERID5,orderid signal for 5." hexmask.long.byte 0x0 16.--19. 1. "ORDERID4,orderid signal for 4." hexmask.long.byte 0x0 12.--15. 1. "ORDERID3,orderid signal for 3." newline hexmask.long.byte 0x0 8.--11. 1. "ORDERID2,orderid signal for 2." hexmask.long.byte 0x0 4.--7. 1. "ORDERID1,orderid signal for 1." hexmask.long.byte 0x0 0.--3. 1. "ORDERID0,orderid signal for 0." line.long 0x4 "QOS_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_slv_grp_0_grp_map2,The Group Map Register defines the final orderid for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async for group slv_grp_0." hexmask.long.byte 0x4 28.--31. 1. "ORDERID15,orderid signal for 7." hexmask.long.byte 0x4 24.--27. 1. "ORDERID14,orderid signal for 6." hexmask.long.byte 0x4 20.--23. 1. "ORDERID13,orderid signal for 5." hexmask.long.byte 0x4 16.--19. 1. "ORDERID12,orderid signal for 4." hexmask.long.byte 0x4 12.--15. 1. "ORDERID11,orderid signal for 3." newline hexmask.long.byte 0x4 8.--11. 1. "ORDERID10,orderid signal for 2." hexmask.long.byte 0x4 4.--7. 1. "ORDERID9,orderid signal for 1." hexmask.long.byte 0x4 0.--3. 1. "ORDERID8,orderid signal for 0." group.long 0x6D00++0x13 line.long 0x0 "QOS_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_map0,The Map Register defines the fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x4 "QOS_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_map1,The Map Register defines the fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async per channel." bitfld.long 0x4 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x4 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x4 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x8 "QOS_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_map2,The Map Register defines the fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async per channel." bitfld.long 0x8 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x8 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x8 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0xC "QOS_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_map3,The Map Register defines the fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async per channel." bitfld.long 0xC 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0xC 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0xC 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x10 "QOS_REGS_Ik3_vpu_wave521cl_main_0_pri_m_vbusm_w_async_map4,The Map Register defines the fields for the initiator Ik3_vpu_wave521cl_main_0.pri_m_vbusm_w_async per channel." bitfld.long 0x10 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x10 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x10 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x10 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x7000++0x7 line.long 0x0 "QOS_REGS_Ik3_vpu_wave521cl_main_0_sec_m_vbusm_r_async_slv_grp_0_grp_map1,The Group Map Register defines the final orderid for the initiator Ik3_vpu_wave521cl_main_0.sec_m_vbusm_r_async for group slv_grp_0." hexmask.long.byte 0x0 28.--31. 1. "ORDERID7,orderid signal for 7." hexmask.long.byte 0x0 24.--27. 1. "ORDERID6,orderid signal for 6." hexmask.long.byte 0x0 20.--23. 1. "ORDERID5,orderid signal for 5." hexmask.long.byte 0x0 16.--19. 1. "ORDERID4,orderid signal for 4." hexmask.long.byte 0x0 12.--15. 1. "ORDERID3,orderid signal for 3." newline hexmask.long.byte 0x0 8.--11. 1. "ORDERID2,orderid signal for 2." hexmask.long.byte 0x0 4.--7. 1. "ORDERID1,orderid signal for 1." hexmask.long.byte 0x0 0.--3. 1. "ORDERID0,orderid signal for 0." line.long 0x4 "QOS_REGS_Ik3_vpu_wave521cl_main_0_sec_m_vbusm_r_async_slv_grp_0_grp_map2,The Group Map Register defines the final orderid for the initiator Ik3_vpu_wave521cl_main_0.sec_m_vbusm_r_async for group slv_grp_0." hexmask.long.byte 0x4 28.--31. 1. "ORDERID15,orderid signal for 7." hexmask.long.byte 0x4 24.--27. 1. "ORDERID14,orderid signal for 6." hexmask.long.byte 0x4 20.--23. 1. "ORDERID13,orderid signal for 5." hexmask.long.byte 0x4 16.--19. 1. "ORDERID12,orderid signal for 4." hexmask.long.byte 0x4 12.--15. 1. "ORDERID11,orderid signal for 3." newline hexmask.long.byte 0x4 8.--11. 1. "ORDERID10,orderid signal for 2." hexmask.long.byte 0x4 4.--7. 1. "ORDERID9,orderid signal for 1." hexmask.long.byte 0x4 0.--3. 1. "ORDERID8,orderid signal for 0." group.long 0x7100++0x3 line.long 0x0 "QOS_REGS_Ik3_vpu_wave521cl_main_0_sec_m_vbusm_r_async_map0,The Map Register defines the fields for the initiator Ik3_vpu_wave521cl_main_0.sec_m_vbusm_r_async per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x7400++0x7 line.long 0x0 "QOS_REGS_Ik3_vpu_wave521cl_main_0_sec_m_vbusm_w_async_slv_grp_0_grp_map1,The Group Map Register defines the final orderid for the initiator Ik3_vpu_wave521cl_main_0.sec_m_vbusm_w_async for group slv_grp_0." hexmask.long.byte 0x0 28.--31. 1. "ORDERID7,orderid signal for 7." hexmask.long.byte 0x0 24.--27. 1. "ORDERID6,orderid signal for 6." hexmask.long.byte 0x0 20.--23. 1. "ORDERID5,orderid signal for 5." hexmask.long.byte 0x0 16.--19. 1. "ORDERID4,orderid signal for 4." hexmask.long.byte 0x0 12.--15. 1. "ORDERID3,orderid signal for 3." newline hexmask.long.byte 0x0 8.--11. 1. "ORDERID2,orderid signal for 2." hexmask.long.byte 0x0 4.--7. 1. "ORDERID1,orderid signal for 1." hexmask.long.byte 0x0 0.--3. 1. "ORDERID0,orderid signal for 0." line.long 0x4 "QOS_REGS_Ik3_vpu_wave521cl_main_0_sec_m_vbusm_w_async_slv_grp_0_grp_map2,The Group Map Register defines the final orderid for the initiator Ik3_vpu_wave521cl_main_0.sec_m_vbusm_w_async for group slv_grp_0." hexmask.long.byte 0x4 28.--31. 1. "ORDERID15,orderid signal for 7." hexmask.long.byte 0x4 24.--27. 1. "ORDERID14,orderid signal for 6." hexmask.long.byte 0x4 20.--23. 1. "ORDERID13,orderid signal for 5." hexmask.long.byte 0x4 16.--19. 1. "ORDERID12,orderid signal for 4." hexmask.long.byte 0x4 12.--15. 1. "ORDERID11,orderid signal for 3." newline hexmask.long.byte 0x4 8.--11. 1. "ORDERID10,orderid signal for 2." hexmask.long.byte 0x4 4.--7. 1. "ORDERID9,orderid signal for 1." hexmask.long.byte 0x4 0.--3. 1. "ORDERID8,orderid signal for 0." group.long 0x7500++0x3 line.long 0x0 "QOS_REGS_Ik3_vpu_wave521cl_main_0_sec_m_vbusm_w_async_map0,The Map Register defines the fields for the initiator Ik3_vpu_wave521cl_main_0.sec_m_vbusm_w_async per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x9800++0x7 line.long 0x0 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_slv_grp_0_grp_map1,The Group Map Register defines the final orderid for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync for group slv_grp_0." hexmask.long.byte 0x0 28.--31. 1. "ORDERID7,orderid signal for 7." hexmask.long.byte 0x0 24.--27. 1. "ORDERID6,orderid signal for 6." hexmask.long.byte 0x0 20.--23. 1. "ORDERID5,orderid signal for 5." hexmask.long.byte 0x0 16.--19. 1. "ORDERID4,orderid signal for 4." hexmask.long.byte 0x0 12.--15. 1. "ORDERID3,orderid signal for 3." newline hexmask.long.byte 0x0 8.--11. 1. "ORDERID2,orderid signal for 2." hexmask.long.byte 0x0 4.--7. 1. "ORDERID1,orderid signal for 1." hexmask.long.byte 0x0 0.--3. 1. "ORDERID0,orderid signal for 0." line.long 0x4 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_slv_grp_0_grp_map2,The Group Map Register defines the final orderid for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync for group slv_grp_0." hexmask.long.byte 0x4 28.--31. 1. "ORDERID15,orderid signal for 7." hexmask.long.byte 0x4 24.--27. 1. "ORDERID14,orderid signal for 6." hexmask.long.byte 0x4 20.--23. 1. "ORDERID13,orderid signal for 5." hexmask.long.byte 0x4 16.--19. 1. "ORDERID12,orderid signal for 4." hexmask.long.byte 0x4 12.--15. 1. "ORDERID11,orderid signal for 3." newline hexmask.long.byte 0x4 8.--11. 1. "ORDERID10,orderid signal for 2." hexmask.long.byte 0x4 4.--7. 1. "ORDERID9,orderid signal for 1." hexmask.long.byte 0x4 0.--3. 1. "ORDERID8,orderid signal for 0." group.long 0x9900++0x7F line.long 0x0 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map0,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x4 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map1,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x4 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x4 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x4 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x8 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map2,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x8 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x8 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x8 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0xC "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map3,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0xC 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0xC 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0xC 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x10 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map4,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x10 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x10 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x10 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x10 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x14 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map5,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x14 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x14 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x14 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x14 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x18 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map6,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x18 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x18 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x18 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x18 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x1C "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map7,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x1C 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x1C 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x1C 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x1C 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x20 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map8,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x20 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x20 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x20 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x20 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x24 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map9,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x24 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x24 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x24 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x24 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x28 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map10,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x28 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x28 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x28 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x28 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x2C "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map11,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x2C 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x2C 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x2C 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x2C 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x30 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map12,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x30 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x30 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x30 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x30 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x34 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map13,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x34 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x34 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x34 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x34 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x38 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map14,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x38 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x38 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x38 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x38 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x3C "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map15,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x3C 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x3C 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x3C 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x3C 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x40 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map16,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x40 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x40 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x40 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x40 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x44 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map17,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x44 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x44 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x44 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x44 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x48 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map18,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x48 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x48 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x48 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x48 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x4C "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map19,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x4C 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4C 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x4C 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x4C 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x50 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map20,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x50 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x50 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x50 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x50 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x54 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map21,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x54 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x54 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x54 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x54 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x58 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map22,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x58 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x58 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x58 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x58 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x5C "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map23,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x5C 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x5C 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x5C 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x5C 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x60 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map24,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x60 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x60 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x60 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x60 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x64 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map25,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x64 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x64 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x64 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x64 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x68 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map26,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x68 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x68 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x68 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x68 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x6C "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map27,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x6C 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x6C 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x6C 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x6C 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x70 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map28,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x70 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x70 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x70 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x70 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x74 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map29,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x74 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x74 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x74 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x74 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x78 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map30,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x78 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x78 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x78 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x78 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x7C "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_w_sync_map31,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_w_sync per channel." bitfld.long 0x7C 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x7C 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x7C 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x7C 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0xA000++0x7 line.long 0x0 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_slv_grp_0_grp_map1,The Group Map Register defines the final orderid for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync for group slv_grp_0." hexmask.long.byte 0x0 28.--31. 1. "ORDERID7,orderid signal for 7." hexmask.long.byte 0x0 24.--27. 1. "ORDERID6,orderid signal for 6." hexmask.long.byte 0x0 20.--23. 1. "ORDERID5,orderid signal for 5." hexmask.long.byte 0x0 16.--19. 1. "ORDERID4,orderid signal for 4." hexmask.long.byte 0x0 12.--15. 1. "ORDERID3,orderid signal for 3." newline hexmask.long.byte 0x0 8.--11. 1. "ORDERID2,orderid signal for 2." hexmask.long.byte 0x0 4.--7. 1. "ORDERID1,orderid signal for 1." hexmask.long.byte 0x0 0.--3. 1. "ORDERID0,orderid signal for 0." line.long 0x4 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_slv_grp_0_grp_map2,The Group Map Register defines the final orderid for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync for group slv_grp_0." hexmask.long.byte 0x4 28.--31. 1. "ORDERID15,orderid signal for 7." hexmask.long.byte 0x4 24.--27. 1. "ORDERID14,orderid signal for 6." hexmask.long.byte 0x4 20.--23. 1. "ORDERID13,orderid signal for 5." hexmask.long.byte 0x4 16.--19. 1. "ORDERID12,orderid signal for 4." hexmask.long.byte 0x4 12.--15. 1. "ORDERID11,orderid signal for 3." newline hexmask.long.byte 0x4 8.--11. 1. "ORDERID10,orderid signal for 2." hexmask.long.byte 0x4 4.--7. 1. "ORDERID9,orderid signal for 1." hexmask.long.byte 0x4 0.--3. 1. "ORDERID8,orderid signal for 0." group.long 0xA100++0x7F line.long 0x0 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map0,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x4 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map1,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x4 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x4 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x4 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x8 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map2,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x8 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x8 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x8 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0xC "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map3,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0xC 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0xC 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0xC 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x10 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map4,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x10 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x10 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x10 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x10 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x14 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map5,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x14 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x14 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x14 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x14 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x18 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map6,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x18 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x18 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x18 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x18 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x1C "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map7,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x1C 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x1C 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x1C 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x1C 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x20 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map8,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x20 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x20 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x20 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x20 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x24 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map9,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x24 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x24 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x24 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x24 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x28 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map10,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x28 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x28 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x28 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x28 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x2C "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map11,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x2C 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x2C 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x2C 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x2C 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x30 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map12,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x30 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x30 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x30 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x30 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x34 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map13,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x34 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x34 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x34 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x34 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x38 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map14,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x38 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x38 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x38 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x38 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x3C "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map15,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x3C 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x3C 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x3C 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x3C 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x40 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map16,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x40 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x40 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x40 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x40 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x44 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map17,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x44 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x44 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x44 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x44 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x48 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map18,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x48 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x48 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x48 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x48 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x4C "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map19,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x4C 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4C 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x4C 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x4C 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x50 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map20,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x50 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x50 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x50 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x50 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x54 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map21,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x54 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x54 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x54 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x54 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x58 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map22,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x58 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x58 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x58 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x58 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x5C "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map23,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x5C 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x5C 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x5C 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x5C 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x60 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map24,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x60 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x60 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x60 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x60 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x64 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map25,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x64 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x64 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x64 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x64 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x68 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map26,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x68 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x68 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x68 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x68 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x6C "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map27,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x6C 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x6C 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x6C 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x6C 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x70 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map28,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x70 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x70 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x70 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x70 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x74 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map29,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x74 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x74 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x74 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x74 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x78 "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map30,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x78 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x78 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x78 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x78 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" line.long 0x7C "QOS_REGS_Isam67_gpu_bxs464_wrap_main_0_m_vbusm_r_sync_map31,The Map Register defines the fields for the initiator Isam67_gpu_bxs464_wrap_main_0.m_vbusm_r_sync per channel." bitfld.long 0x7C 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x7C 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x7C 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x7C 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" tree.end tree.end tree "CODEC" base ad:0x0 tree "CODEC_RS_BW_LIMITER2_REGS (CODEC_RS_BW_LIMITER2_REGS)" base ad:0x30408000 rgroup.long 0x0++0x3 line.long 0x0 "REGS_PID,This is the standard TI peripheral ID register that exists at address 0 in the peripheral space" bitfld.long 0x0 30.--31. "SCHEME,PID scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,PID bu identifier" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,PID function identifier" hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,PID RTL version number" bitfld.long 0x0 8.--10. "MAJOR_REV,PID Major revision number" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,PID custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV,PID Minor revision number" group.long 0x4++0x3 line.long 0x0 "REGS_CTRL,This register controls the overall behavior of the rate limiter module" bitfld.long 0x0 4. "REGION_FILTER_EN,Enable the region filter which will only apply the bandwith and transaction limits to the configured address regions" "0,1" bitfld.long 0x0 3. "WR_TXN_ENABLE,Enable limiting maximum outstanding write transactions" "0,1" bitfld.long 0x0 2. "RD_TXN_ENABLE,Enable limiting maximum outstanding read transactions" "0,1" bitfld.long 0x0 1. "WR_BW_ENABLE,Enable write bandwidth limiting" "0,1" bitfld.long 0x0 0. "RD_BW_ENABLE,Enable read bandwidth limiting" "0,1" group.long 0x100++0xB line.long 0x0 "REGS_RD_BW_CIR,Read Bandwidth Committed Information Rate" hexmask.long 0x0 0.--31. 1. "CIR,Committed Information Rate" line.long 0x4 "REGS_RD_BW_PIR,Read Bandwidth Peak Information Rate" hexmask.long 0x4 0.--31. 1. "PIR,Peak Information Rate" line.long 0x8 "REGS_RD_BW_BURST_OFFSET,Read Bandwidth Burst Offset" hexmask.long.word 0x8 0.--15. 1. "OFFSET,Burst Offset - the number of bytes before the Committed Information Rate is applied at startup or after a period of inactivity. Peak Information Rate will still apply" rgroup.long 0x10C++0x3 line.long 0x0 "REGS_RD_BW_INFO,Read Bandwidth State machine information. Primarly for verification purposes" bitfld.long 0x0 0.--1. "COLOR,Read Bandwidth three-color marker output from rategen submodule" "0,1,2,3" group.long 0x120++0x7 line.long 0x0 "REGS_RD_BW_STATS,Read Bandwidth Statistics Control Register" hexmask.long.word 0x0 16.--31. 1. "WINDOW,Statistics window size. This cannot be set to 0. If 16'd0 is written it will be set to the reset value of 16'd1024" rbitfld.long 0x0 9. "OVERFLOW,Statistics overflow error" "0,1" bitfld.long 0x0 8. "CLR,Clear statistics data. Resets statistics counters at 0" "0,1" bitfld.long 0x0 0. "EN,Enable read bandwidth statistics" "0,1" line.long 0x4 "REGS_RD_BW_STATS_THRSHLD,A statistics threshold separate from the CIR and PIR" hexmask.long 0x4 0.--31. 1. "THRESHOLD,Read bandwidth stats threshold in bytes. Note that this is total bytes unlike CIR and PIR. CIR and PIR are based on a rolling window and the statistics threshold is based on a fixed window. This will still take into account DDR bytes used so.." rgroup.long 0x128++0x13 line.long 0x0 "REGS_RD_BW_WINDOWS_CNT,Read Bandwidth Statistics - Window Count" hexmask.long 0x0 0.--31. 1. "VAL,Read bandwidth window count - the number of windows elapsed since statistics collection began" line.long 0x4 "REGS_RD_BW_CIR_CNT,Read Bandwidth Statistics - CIR Count" hexmask.long 0x4 0.--31. 1. "VAL,The total number of statistics windows in which Read Commit Information Rate occurred. Note that if PIR is set to a lower value than CIR or if the burst offset feature is used this will also count times that PIR is reached." line.long 0x8 "REGS_RD_BW_PIR_CNT,Read Bandwidth Statistics - PIR Count" hexmask.long 0x8 0.--31. 1. "VAL,The total number of statistics windows in which Read Peak Information Rate occurred" line.long 0xC "REGS_RD_BW_THRSHLD_CNT,Read Bandwidth Statistics - Threshold Count" hexmask.long 0xC 0.--31. 1. "VAL,The total number of statistics windows in which Read bytes transferred exceeded the statistics threshold" line.long 0x10 "REGS_RD_BYTES_MAX,The maximum number of bytes seen in a single statitsics window. This can be compared with the window size to calculate the maximum bandwidth seen" hexmask.long 0x10 0.--31. 1. "VAL,Max number of bytes in a single window. This number accounts for DDR bandwidth consumed not simply the accumulation of the packet bytecnt values across a window. The max bandwidth calculation is the total bytes value in this MMR divided by the.." group.long 0x300++0x3 line.long 0x0 "REGS_RD_TXN,The maximum number of outstanding read transactions the rate limiter will allow" hexmask.long.word 0x0 0.--15. 1. "LIMIT,The maximum number of outstanding read transactions allowed. NOTE: This cannot be programmed to a zero. If a zero is written it will default to the reset value of 16'd64 as a limit of zero outstanding transactions would hang the interface." rgroup.long 0x30C++0x3 line.long 0x0 "REGS_RD_TXN_INFO,Read Transaction State machine information. Primarly for verification purposes" hexmask.long.byte 0x0 0.--6. 1. "OCC,Read transaction scoreboard occupancy" group.long 0x320++0x7 line.long 0x0 "REGS_RD_TXN_STATS,Read Transaction Stats Control Register" hexmask.long.word 0x0 16.--31. 1. "WINDOW,Statistics window size. This cannot be set to 0. If 16'd0 is written it will be set to the reset value of 16'd1024" rbitfld.long 0x0 9. "OVERFLOW,Statistics overflow error" "0,1" bitfld.long 0x0 8. "CLR,Clear statistics data. Resets statistics counters at 0" "0,1" bitfld.long 0x0 0. "EN,Enable read transaction statistics" "0,1" line.long 0x4 "REGS_RD_TXN_STATS_THRSHLD,A statistics threshold separate from the read transaction limit" hexmask.long.word 0x4 0.--15. 1. "THRESHOLD,Read transaction statistics threshold. The threshold can be set to any value though it will saturate at the outstanding transaction limit if it is set to a value greater than the programmed outstanding read transaction limit" rgroup.long 0x328++0x17 line.long 0x0 "REGS_RD_TXN_WINDOWS_CNT,Read Transaction Statistics - Window Count" hexmask.long 0x0 0.--31. 1. "VAL,Read transaction window count - the number of windows elapsed since statistics collection began" line.long 0x4 "REGS_RD_TXN_LMT_CNT,Read Transaction Statistics - number of windows in which the outstanding transaction limit was reached" hexmask.long 0x4 0.--31. 1. "VAL,The number of statistics windows in which the outstanding read transaction limit was reached" line.long 0x8 "REGS_RD_TXN_THRSHLD_CNT,Read Transaction Statistics - number of windows in which the statistics threshold was reached" hexmask.long 0x8 0.--31. 1. "VAL,The number of statistics windows in which the number of outstanding read transactions was greater than or equal to the threshold in RD_TXN_STATS_THRSHLD" line.long 0xC "REGS_RD_TXN_LIMIT_TOTAL,Read Transaction Statistics - Cycles at Outstanding Read Transactions Limit" hexmask.long 0xC 0.--31. 1. "VAL,The total number of cycles with the read transactions outstanding at the programmed limit since statistics collection began" line.long 0x10 "REGS_RD_TXN_THRSHLD_TOTAL,Read Transaction Statistics - Cycles at the Statistics Threshold" hexmask.long 0x10 0.--31. 1. "VAL,The total number of cycles with read transactions outstanding greater than or equal to the statistics threshold in RD_TXN_STATS_THRSHLD since statistics collection began" line.long 0x14 "REGS_RD_TXN_MAX,Read Transaction Statistics - Max Observed Outstanding Read Transactions" hexmask.long.word 0x14 0.--15. 1. "VAL,The maximum outstanding read transactions at any point in time regardless of the programmed limit" tree.end tree "CODEC_WS_BW_LIMITER3_REGS (CODEC_WS_BW_LIMITER3_REGS)" base ad:0x30401000 rgroup.long 0x0++0x3 line.long 0x0 "REGS_PID,This is the standard TI peripheral ID register that exists at address 0 in the peripheral space" bitfld.long 0x0 30.--31. "SCHEME,PID scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,PID bu identifier" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,PID function identifier" hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,PID RTL version number" bitfld.long 0x0 8.--10. "MAJOR_REV,PID Major revision number" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,PID custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV,PID Minor revision number" group.long 0x4++0x3 line.long 0x0 "REGS_CTRL,This register controls the overall behavior of the rate limiter module" bitfld.long 0x0 4. "REGION_FILTER_EN,Enable the region filter which will only apply the bandwith and transaction limits to the configured address regions" "0,1" bitfld.long 0x0 3. "WR_TXN_ENABLE,Enable limiting maximum outstanding write transactions" "0,1" bitfld.long 0x0 2. "RD_TXN_ENABLE,Enable limiting maximum outstanding read transactions" "0,1" bitfld.long 0x0 1. "WR_BW_ENABLE,Enable write bandwidth limiting" "0,1" bitfld.long 0x0 0. "RD_BW_ENABLE,Enable read bandwidth limiting" "0,1" group.long 0x200++0xB line.long 0x0 "REGS_WR_BW_CIR,Write Bandwidth Committed Information Rate" hexmask.long 0x0 0.--31. 1. "CIR,Committed Information Rate" line.long 0x4 "REGS_WR_BW_PIR,Write Bandwidth Peak Information Rate" hexmask.long 0x4 0.--31. 1. "PIR,Peak Information Rate" line.long 0x8 "REGS_WR_BW_BURST_OFFSET,Write Bandwidth Burst Offset" hexmask.long.word 0x8 0.--15. 1. "OFFSET,Burst Offset - the number of bytes before the Committed Information Rate is applied at startup or after a period of inactivity. Peak Information Rate will still apply" rgroup.long 0x20C++0x3 line.long 0x0 "REGS_WR_BW_INFO,Write Bandwidth State machine information. Primarly for verification purposes" bitfld.long 0x0 0.--1. "COLOR,Write Bandwidth three-color marker output from rategen submodule" "0,1,2,3" group.long 0x220++0x7 line.long 0x0 "REGS_WR_BW_STATS,Write Bandwidth Statistics Control Register" hexmask.long.word 0x0 16.--31. 1. "WINDOW,Statistics window size. This cannot be set to 0. If 16'd0 is written it will be set to the reset value of 16'd1024" rbitfld.long 0x0 9. "OVERFLOW,Statistics overflow error" "0,1" bitfld.long 0x0 8. "CLR,Clear statistics data. Resets statistics counters at 0" "0,1" bitfld.long 0x0 0. "EN,Enable write bandwidth statistics" "0,1" line.long 0x4 "REGS_WR_BW_STATS_THRSHLD,A statistics threshold separate from the CIR and PIR" hexmask.long 0x4 0.--31. 1. "THRESHOLD,Write bandwidth stats threshold in bytes. Note that this is total bytes unlike CIR and PIR. CIR and PIR are based on a rolling window and the statistics threshold is based on a fixed window. This will still take into account DDR bytes used .." rgroup.long 0x228++0x13 line.long 0x0 "REGS_WR_BW_WINDOWS_CNT,Write Bandwidth Statistics - Window Count" hexmask.long 0x0 0.--31. 1. "VAL,Write bandwidth window count - the number of windows elapsed since statistics collection began" line.long 0x4 "REGS_WR_BW_CIR_CNT,Write Bandwidth Statistics - CIR Count" hexmask.long 0x4 0.--31. 1. "VAL,The total number of statistics windows in which Write Commit Information Rate occurred. Note that if PIR is set to a lower value than CIR or if the burst offset feature is used this will also count times that PIR is reached." line.long 0x8 "REGS_WR_BW_PIR_CNT,Write Bandwidth Statistics - PIR Count" hexmask.long 0x8 0.--31. 1. "VAL,The total number of statistics windows in which Write Peak Information Rate occurred" line.long 0xC "REGS_WR_BW_THRSHLD_CNT,Write Bandwidth Statistics - Threshold Count" hexmask.long 0xC 0.--31. 1. "VAL,The total number of statistics windows in which Write bytes transferred exceeded the statistics threshold" line.long 0x10 "REGS_WR_BYTES_MAX,The maximum number of bytes seen in a single statitsics window. This can be compared with the window size to calculate the maximum bandwidth seen" hexmask.long 0x10 0.--31. 1. "VAL,Max number of bytes in a single window. This number accounts for DDR bandwidth consumed not simply the accumulation of the packet bytecnt values across a window. The max bandwidth calculation is the total bytes value in this MMR divided by the.." group.long 0x400++0x3 line.long 0x0 "REGS_WR_TXN,The maximum number of outstanding write transactions the rate limiter will allow" hexmask.long.word 0x0 0.--15. 1. "LIMIT,The maximum number of outstanding write transactions allowed. NOTE: This cannot be programmed to a zero. If a zero is written it will default to the reset value of 16'd64 as a limit of zero outstanding transactions would hang the interface." rgroup.long 0x40C++0x3 line.long 0x0 "REGS_WR_TXN_INFO,Write Transaction State machine information. Primarly for verification purposes" hexmask.long.byte 0x0 0.--6. 1. "OCC,Write transaction scoreboard occupancy" group.long 0x420++0x7 line.long 0x0 "REGS_WR_TXN_STATS,Write Transaction Stats Control Register" hexmask.long.word 0x0 16.--31. 1. "WINDOW,Statistics window size. This cannot be set to 0. If 16'd0 is written it will be set to the reset value of 16'd1024" rbitfld.long 0x0 9. "OVERFLOW,Statistics overflow error" "0,1" bitfld.long 0x0 8. "CLR,Clear statistics data. Resets statistics counters at 0" "0,1" bitfld.long 0x0 0. "EN,Enable write transaction statistics" "0,1" line.long 0x4 "REGS_WR_TXN_STATS_THRSHLD,A statistics threshold separate from the write transaction limit" hexmask.long.word 0x4 0.--15. 1. "THRESHOLD,Write transaction statistics threshold. The threshold can be set to any value though it will saturate at the outstanding transaction limit if it is set to a value greater than the programmed outstanding write transaction limit" rgroup.long 0x428++0x17 line.long 0x0 "REGS_WR_TXN_WINDOWS_CNT,Write Transaction Statistics - Window Count" hexmask.long 0x0 0.--31. 1. "VAL,Write transaction window count - the number of windows elapsed since statistics collection began" line.long 0x4 "REGS_WR_TXN_LMT_CNT,Write Transaction Statistics - number of windows in which the outstanding transaction limit was reached" hexmask.long 0x4 0.--31. 1. "VAL,The number of statistics windows in which the outstanding write transaction limit was reached" line.long 0x8 "REGS_WR_TXN_THRSHLD_CNT,Write Transaction Statistics - number of windows in which the statistics threshold was reached" hexmask.long 0x8 0.--31. 1. "VAL,The number of statistics windows in which the number of outstanding write transactions was greater than or equal to the threshold in WR_TXN_STATS_THRSHLD" line.long 0xC "REGS_WR_TXN_LIMIT_TOTAL,Write Transaction Statistics - Cycles at Outstanding Write Transactions Limit" hexmask.long 0xC 0.--31. 1. "VAL,The total number of cycles with the write transactions outstanding at the programmed limit since statistics collection began" line.long 0x10 "REGS_WR_TXN_THRSHLD_TOTAL,Write Transaction Statistics - Cycles at the Statistics Threshold" hexmask.long 0x10 0.--31. 1. "VAL,The total number of cycles with write transactions outstanding greater than or equal to the statistics threshold in WR_TXN_STATS_THRSHLD since statistics collection began" line.long 0x14 "REGS_WR_TXN_MAX,Write Transaction Statistics - Max Observed Outstanding Write Transactions" hexmask.long.word 0x14 0.--15. 1. "VAL,The maximum outstanding write transactions at any point in time regardless of the programmed limit" tree.end tree.end tree "CODEC0_VPU (CODEC0_VPU)" base ad:0x30210000 wgroup.long 0x0++0x3 line.long 0x0 "VPU_REGS_VPU_PO_CONF,Power On Configuration" bitfld.long 0x0 3. "USE_PO_CONF,Host processor should set 0 when initialization" "0,1" bitfld.long 0x0 0. "DEBUGMODE,Power on Debug Mode" "0,1" rgroup.long 0x4++0x7 line.long 0x0 "VPU_REGS_VCPU_CUR_PC,Current PC" hexmask.long 0x0 0.--31. 1. "CUR_PC,PC value represents the address of instruction which is executed in V-CPU" line.long 0x4 "VPU_REGS_VCPU_CUR_LR,Current LR" hexmask.long 0x4 0.--31. 1. "CUR_LR,Current LR (Link Register) to find out caller address" group.long 0xC++0x3 line.long 0x0 "VPU_REGS_VPU_PDBG_STEP_MASK,V-CPU Debugger Step Mask" bitfld.long 0x0 0. "STEP_MASK_ENABLE,Interrupt Disable at step for debugger" "0,1" wgroup.long 0x10++0xF line.long 0x0 "VPU_REGS_VPU_PDBG_CTRL,V-CPU Debugger Control" bitfld.long 0x0 3. "IMMBRK,Immediate break" "0,1" bitfld.long 0x0 2. "STABLEBRK,Stable break" "0,1" bitfld.long 0x0 1. "RESUME,Resume" "0,1" newline bitfld.long 0x0 0. "STEP,Step" "0,1" line.long 0x4 "VPU_REGS_VPU_PDBG_IDX_REG,V-CPU Debugger Index" bitfld.long 0x4 9. "RDDBG,Read Operation Request" "0,1" bitfld.long 0x4 8. "WRDBG,Write Operation Request" "0,1" hexmask.long.byte 0x4 0.--7. 1. "DBGIDX,Debug Index" line.long 0x8 "VPU_REGS_VPU_PDBG_WDATA_REG,V-CPU Debugger Write Data" hexmask.long 0x8 0.--31. 1. "VPU_PDBG_WDATA_REG,Write data to the debugger" line.long 0xC "VPU_REGS_VPU_PDBG_RDATA_REG,V-CPU Debugger Read Data" hexmask.long 0xC 0.--31. 1. "VPU_PDBG_RDATA_REG,Read data to the debugger" group.long 0x20++0x7 line.long 0x0 "VPU_REGS_VPU_FIO_CTRL_ADDR,FastIO Control/Address" rbitfld.long 0x0 31. "READY,Ready for the transaction" "0,1" bitfld.long 0x0 16. "RW_FLAG,Read/Write transaction control" "0,1" hexmask.long.word 0x0 0.--15. 1. "FIO_ADDR,FIO Address" line.long 0x4 "VPU_REGS_VPU_FIO_DATA,FastIO Data" hexmask.long 0x4 0.--31. 1. "FIO_DATA,FIO DATA" group.long 0x30++0x3 line.long 0x0 "VPU_REGS_VPU_VINT_REASON_USR,Interrupt Reason User" bitfld.long 0x0 15. "BSEMPTY_INTR_USER,Bitstream empty feeding request interrupt" "0,1" bitfld.long 0x0 14. "CMDE_INTR_USER,QUERY command done interrupt" "0,1" bitfld.long 0x0 13. "CMDD_INTR_USER,Low latency interrupt. Valid if low latency feature is enabled." "0,1" newline bitfld.long 0x0 10. "REL_SRC_INTR_USER,Release source buffer interrupt. Valid only if feature of release src buf is enabled" "0,1" bitfld.long 0x0 9. "CMD9_INTR_USER,ENC_SET_PARAM command done interrupt" "0,1" bitfld.long 0x0 8. "CMD8_INTR_USER,DEC_PIC/ENC_PIC command done interrupt" "0,1" newline bitfld.long 0x0 7. "CMD7_INTR_USER,SET_FRAMEBUFFER command done interrupt" "0,1" bitfld.long 0x0 6. "CMD6_INTR_USER,INIT_SEQ command done interrupt" "0,1" bitfld.long 0x0 5. "CMD5_INTR_USER,DESTROY_INSTANCE command done interrupt" "0,1" newline bitfld.long 0x0 4. "CMD4_INTR_USER,FLUSH_INSTANCE command done interrupt" "0,1" bitfld.long 0x0 3. "CMD3_INTR_USER,CREATE_INSTANCE command done interrupt" "0,1" bitfld.long 0x0 2. "CMD2_INTR_USER,SLEEP_VPU command done interrupt" "0,1" newline bitfld.long 0x0 1. "CMD1_INTR_USER,WAKE_VPU command done interrupt" "0,1" bitfld.long 0x0 0. "CMD0_INTR_USER,INIT_VPU command done interrupt" "0,1" rgroup.long 0x34++0x3 line.long 0x0 "VPU_REGS_VPU_VINT_REASON_CLR,Interrupt Reason Clear" bitfld.long 0x0 15. "BSEMPTY_CLR,Bitstream empty bitstream feeding request interrupt clear" "0,1" bitfld.long 0x0 14. "CMDE_CLR,QUERY command done interrupt clear" "0,1" bitfld.long 0x0 13. "CMDD_CLR,Low Latency interrupt clear. Valid only if low latency feature is enabled" "0,1" newline bitfld.long 0x0 11. "INSUFFICIENT_VLC_BUFFER,VLC buffer realloc request interrupt enable. Valid only if VLC BUFFER CUSTOMIZATION features in VPU" "0,1" bitfld.long 0x0 10. "REL_SRC_CLR,Release source buffer interrupt. Valid only if the feature of release src buf is enabled" "0,1" bitfld.long 0x0 9. "CMD9_CLR,ENC_SET_PARAM command done interrupt clear" "0,1" newline bitfld.long 0x0 8. "CMD8_CLR,DEC_PIC/ENC_PIC command done interrupt clear" "0,1" bitfld.long 0x0 7. "CMD7_CLR,SET_FRAMEBUFFER command done interrupt clear" "0,1" bitfld.long 0x0 6. "CMD6_CLR,INIT_SEQ command done interrupt clear" "0,1" newline bitfld.long 0x0 5. "CMD5_CLR,DESTROY_INSTANCE command done interrupt clear" "0,1" bitfld.long 0x0 4. "CMD4_CLR,FLSUH_INSTANCE command done interrupt clear" "0,1" bitfld.long 0x0 3. "CMD3_CLR,CREATE_INSTANCE command done interrupt clear" "0,1" newline bitfld.long 0x0 2. "CMD2_CLR,SLEEP_VPU command done interrupt clear" "0,1" bitfld.long 0x0 1. "CMD1_CLR,WAKE_VPU command done interrupt clear" "0,1" bitfld.long 0x0 0. "CMD0_CLR,INIT_VPU command done interrupt clear" "0,1" group.long 0x38++0x3 line.long 0x0 "VPU_REGS_VPU_HOST_INT_REQ,Host Interrupt Request" bitfld.long 0x0 0. "HINTREQ,If this is set to 1 an interrupt named HOST interrupt is sent to VPU." "0,1" rgroup.long 0x3C++0x3 line.long 0x0 "VPU_REGS_VPU_VINT_CLEAR,VPU Interrupt Clear" bitfld.long 0x0 0. "VINTREQ,Clear VPU interrupt." "0,1" group.long 0x40++0x3 line.long 0x0 "VPU_REGS_VPU_HINT_CLEAR,Host Interrupt Clear" bitfld.long 0x0 0. "HINTCLR,Check Host Command Interrupt is cleared." "0,1" rgroup.long 0x44++0x3 line.long 0x0 "VPU_REGS_VPU_VPU_INT_STS,VPU Interrupt Status" bitfld.long 0x0 0. "VPU_VPU_INT_STS,Interrupt Status" "0,1" group.long 0x48++0xB line.long 0x0 "VPU_REGS_VPU_VINT_ENABLE,VPU Interrupt Enable" bitfld.long 0x0 15. "CMDF_EN,UPDATE_BS command done interrupt enable" "0,1" bitfld.long 0x0 14. "CMDE_EN,QUERY command done interrupt enable" "0,1" bitfld.long 0x0 13. "CMDD_EN,Low latency interrupt enable" "0,1" newline bitfld.long 0x0 11. "INSUFFICIENT_VLC_BUFFER,VLC Buffer Realloc request interrupt enable. Valid only if VLC BUFFER CUSTOMIZATION feature in VPU" "0,1" bitfld.long 0x0 10. "REL_SRC_EN,Release Source buffer interrupt enable. Valid only if feature of release src buf is enabled." "0,1" bitfld.long 0x0 9. "CMD9_EN,ENC_SET_PARAM command done interrupt enable" "0,1" newline bitfld.long 0x0 8. "CMD8_EN,DEC_PIC/ENC_PIC command done interrupt enable" "0,1" bitfld.long 0x0 7. "CMD7_EN,SET_FRAMEBUFFER command done interrupt enable" "0,1" bitfld.long 0x0 6. "CMD6_EN,SET_FRAMEBUFFER command done interrupt enable" "0,1" newline bitfld.long 0x0 5. "CMD5_EN,DESTROY_INSTANCE command done interrupt enable" "0,1" bitfld.long 0x0 4. "CMD4_EN,FLUSH INSTANCE command done interrupt enable" "0,1" bitfld.long 0x0 3. "CMD3_EN,CREATE INSTANCE command done interrupt enable" "0,1" newline bitfld.long 0x0 2. "CMD2_EN,SLEEP_VPU command done interrupt enable" "0,1" bitfld.long 0x0 1. "CMD1_EN,WAKE_VPU command done interrupt enable" "0,1" bitfld.long 0x0 0. "CMD0_EN,INIT_VPU command done interrupt enable" "0,1" line.long 0x4 "VPU_REGS_VPU_VINT_REASON,VPU Interrupt Reason" bitfld.long 0x4 15. "BSEMPTY_INTR,Bitstream empty bitstream feeding request." "0,1" bitfld.long 0x4 14. "CMDE_INTR,QUERY command done interrupt" "0,1" bitfld.long 0x4 13. "CMDD_INTR,Low latency interrupt" "0,1" newline bitfld.long 0x4 11. "INSUFFICIENT_VLC_BUFFER,VLC Buffer realloc request interrupt. Valid only if VLC BUFFER CUSTOMIZATION feature in VPU" "0,1" bitfld.long 0x4 10. "REL_SRC_INTR,Release source buffer Interrupt. Valid only if the feature of release src buf is enabled" "0,1" bitfld.long 0x4 9. "CMD9_INTR,ENC_SET_PARAM command done interrupt" "0,1" newline bitfld.long 0x4 8. "CMD8_INTR,DEC_PIC/ENC_PIC command done interrupt" "0,1" bitfld.long 0x4 7. "CMD7_INTR,SET_FRAMEBUFFER command done interrupt" "0,1" bitfld.long 0x4 6. "CMD6_INTR,INIT_SEQ command done interrupt" "0,1" newline bitfld.long 0x4 5. "CMD5_INTR,DESTROY_INSTANCE command done interrupt" "0,1" bitfld.long 0x4 4. "CMD4_INTR,FLUSH_INSTANCE command done interrupt" "0,1" bitfld.long 0x4 3. "CMD3_INTR,CREATE_INSTANCE command done interrupt" "0,1" newline bitfld.long 0x4 2. "CMD2_INTR,SLEEP_VPU command done interrupt" "0,1" bitfld.long 0x4 1. "CMD1_INTR,WAKE_VPU command done interrupt" "0,1" bitfld.long 0x4 0. "CMD0_INTR,INIT_VPU command done interrupt" "0,1" line.long 0x8 "VPU_REGS_VPU_RESET_REQ,VPU Reset Request" bitfld.long 0x8 26. "VCRST_REQ,CCLK domain for V-CPU Reset request" "0,1" bitfld.long 0x8 25. "VBRST_REQ,BCLK domain for V-CPU Reset request" "0,1" bitfld.long 0x8 24. "VARST_REQ,ACLK domain for V-CPU Reset request" "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "ARST_REQ,ACLK domain reset request for each vCORE" hexmask.long.byte 0x8 8.--11. 1. "BRST_REQ,BCLK domain reset request for each vCORE" hexmask.long.byte 0x8 0.--3. 1. "CRST_REQ,CCLK domain reset request for each vCORE" rgroup.long 0x54++0x3 line.long 0x0 "VPU_REGS_VPU_RESET_STATUS,VPU Reset Status" bitfld.long 0x0 26. "VCRST_STS,CCLK domain for V-CPU reset status" "0,1" bitfld.long 0x0 25. "VBRST_STS,BCLK domain for V-CPU reset status" "0,1" bitfld.long 0x0 24. "VARST_STS,ACLK domain for V-CPU reset status" "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "ARST_STS,ACLK domain for each V-Core reset status" hexmask.long.byte 0x0 8.--15. 1. "BRST_STS,BCLK domain for each V-Core reset status" hexmask.long.byte 0x0 0.--7. 1. "CRST_STS,CCLK domain for each V-Core reset status" wgroup.long 0x58++0x3 line.long 0x0 "VPU_REGS_VCPU_RESTART,V-CPU Restart Request" bitfld.long 0x0 0. "VCPU_RESTART_FIELD,This register restarts V-CPU from the reset vector without clearing H/W logic" "0,1" group.long 0x5C++0x17 line.long 0x0 "VPU_REGS_VPU_CLK_MASK,VPU Clock Control" bitfld.long 0x0 26. "CCLK_CPU_EN,CCLK domain for V-CPU Gating" "0,1" bitfld.long 0x0 25. "BCLK_CPU_EN,BCLK domain for V-CPU Gating" "0,1" bitfld.long 0x0 24. "ACLK_CPU_EN,ACLK domain for V-CPU Gating" "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "ACLK_EN,ACLK domain for V-Core Gating" hexmask.long.byte 0x0 8.--15. 1. "BCLK_EN,BCLK domain for V-Core Gating" hexmask.long.byte 0x0 0.--7. 1. "CCLK_EN,CCLK domain for V-Core Gating" line.long 0x4 "VPU_REGS_VPU_REMAP_CTRL,Remap Control" rbitfld.long 0x4 31. "REMAP_GLOBEN,Set 1 if you want to change the [30:12] part of this register" "0,1" hexmask.long.byte 0x4 20.--23. 1. "AXIID_PROC,Upper AXI-ID for processor bus to distinguish guest OS" hexmask.long.byte 0x4 16.--19. 1. "ENDIAN,Endianness for memory access" newline hexmask.long.byte 0x4 12.--15. 1. "REMAP_IDX,Remap index" bitfld.long 0x4 11. "REMAP_PAGE_SIZE_EN,Set 1 if you want to change the REMAP_PSIZE field" "0,1" hexmask.long.word 0x4 0.--8. 1. "REMAP_PSIZE,Remap Page Size" line.long 0x8 "VPU_REGS_VPU_REMAP_VADDR,Remap Virutal Address" hexmask.long.tbyte 0x8 12.--31. 1. "VPU_REMAP_VADDR,Remap region base address in virtual address space." line.long 0xC "VPU_REGS_VPU_REMAP_PADDR,Remap Physical Address" hexmask.long.tbyte 0xC 12.--31. 1. "VPU_REMAP_PADDR,Real address (physical address) as a pair of virtual address." line.long 0x10 "VPU_REGS_VPU_REMAP_CORE_START,VPU Start Request" bitfld.long 0x10 0. "VPU_REMAP_CORE_START,It starts VPU after initial setting has been done." "0,1" line.long 0x14 "VPU_REGS_VPU_BUSY_STATUS,VPU Busy Status" bitfld.long 0x14 0. "VPU_BUSY_STATUS,Command Reentrance Check [0]" "0,1" rgroup.long 0x74++0x7 line.long 0x0 "VPU_REGS_VPU_HALT_STATUS,VPU Halt Status" bitfld.long 0x0 4. "VPU_HALT_STATUS,V-CPU is on the HALT Status" "0,1" hexmask.long.byte 0x0 0.--3. 1. "VPU_HALT_STATUS_DEBUG,For debugging" line.long 0x4 "VPU_REGS_VPU_VCPU_STATUS,VCPU STATUS" hexmask.long.word 0x4 0.--14. 1. "VPU_VCPU_STATUS,If [15:0] is 0x0040 V-CPU is on the halt status.Thus the value returns 0x40 power for VPU can be turnned-off" group.long 0x7C++0x3 line.long 0x0 "VPU_REGS_RSVD,RSVD" rgroup.long 0x80++0x3 line.long 0x0 "VPU_REGS_RET_FIO_STATUS,RETURN FIO STATUS" hexmask.long 0x0 0.--31. 1. "RESERVED,RET FIO STATUS" rgroup.long 0x90++0xB line.long 0x0 "VPU_REGS_RET_PRODUCT_NAME,HW product name" bitfld.long 0x0 0.--2. "HW_NAME,VPU hardware product name" "0,1,2,3,4,5,6,7" line.long 0x4 "VPU_REGS_RET_PRODUCT_VERSION,HW product version" bitfld.long 0x4 0.--2. "HW_VERSION,VPU hardware product version" "0,1,2,3,4,5,6,7" line.long 0x8 "VPU_REGS_RET_VCPU_CONFIG0,Configuration Information 0" hexmask.long 0x8 0.--31. 1. "RESERVED,Configuration Information 0" rgroup.long 0x98++0x3 line.long 0x0 "VPU_REGS_RET_VCPU_CONFIG1,Configuration Information 0" hexmask.long 0x0 4.--31. 1. "RESERVED,Configuration Information 0" bitfld.long 0x0 3. "AVC_DEC_EN,AVC decoder Enable" "0,1" bitfld.long 0x0 2. "HEVC_DEC_EN,HEVC decoder Enable" "0,1" newline bitfld.long 0x0 1. "AVC_ENC_EN,AVC encoder Enable" "0,1" bitfld.long 0x0 0. "HEVC_ENC_EN,HEVC encoder Enable" "0,1" rgroup.long 0xA0++0x23 line.long 0x0 "VPU_REGS_RET_CODEC_STD,Standard Definition" hexmask.long 0x0 0.--31. 1. "CODEC_STD,General Configuration Information - Internal Use only" line.long 0x4 "VPU_REGS_RET_CONF_DATE,Configuration Date" hexmask.long 0x4 0.--31. 1. "HW_DATE,The date that the hardware has been configured in YYYYMMDD. Internal Use only." line.long 0x8 "VPU_REGS_RET_CONF_REVISION,The revision of H/W configuration" hexmask.long 0x8 0.--31. 1. "HW_VERSION,Revision Number when the hardware has been configured. Internal Use only" line.long 0xC "VPU_REGS_RET_CONF_TYPE,The define value of H/W configuration" hexmask.long 0xC 0.--31. 1. "HW_TYPE,The define value used in hardware configuration. Internal Use only." line.long 0x10 "VPU_REGS_RET_VCORE0_CFG,Configuration Information of VCORE0" hexmask.long 0x10 0.--31. 1. "CONFIG_VCORE0,The VCORE0 configuration information. Internal Use only" line.long 0x14 "VPU_REGS_RET_VCORE1_CFG,Configuration Information of VCORE1" hexmask.long 0x14 0.--31. 1. "CONFIG_VCORE1,The VCORE1 configuration information. Internal Use only" line.long 0x18 "VPU_REGS_RET_VCORE2_CFG,Configuration Information of VCORE2" hexmask.long 0x18 0.--31. 1. "CONFIG_VCORE2,The VCORE2 configuration information. Internal Use only" line.long 0x1C "VPU_REGS_RET_VCORE3_CFG,Configuration Information of VCORE3" hexmask.long 0x1C 0.--31. 1. "CONFIG_VCORE3,The VCORE3 configuration information. Internal Use only" line.long 0x20 "VPU_REGS_VPU_RET_VCORE_PRESET,Number of VCOREs present" hexmask.long.byte 0x20 0.--3. 1. "VCORE_PRESENT,Each bit represent turn-on VCORE" tree.end tree "COMPUTE_CLUSTER0_PBIST_0_PBIST (COMPUTE_CLUSTER0_PBIST_0_PBIST)" base ad:0x330000 group.long 0x0++0x7F line.long 0x0 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF0L," hexmask.long 0x0 0.--31. 1. "RF0L,Register Files / Instruction Registers RF0 lower (RF0L)" line.long 0x4 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF1L," hexmask.long 0x4 0.--31. 1. "RF1L,Register Files / Instruction Registers RF1 lower (RF1L)" line.long 0x8 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF2L," hexmask.long 0x8 0.--31. 1. "RF2L,Register Files / Instruction Registers RF2 lower (RF2L)" line.long 0xC "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF3L," hexmask.long 0xC 0.--31. 1. "RF3L,Register Files / Instruction Registers RF3 lower (RF3L)" line.long 0x10 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF4L," hexmask.long 0x10 0.--31. 1. "RF4L,Register Files / Instruction Registers RF4 lower (RF4L)" line.long 0x14 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF5L," hexmask.long 0x14 0.--31. 1. "RF5L,Register Files / Instruction Registers RF5 lower (RF5L)" line.long 0x18 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF6L," hexmask.long 0x18 0.--31. 1. "RF6L,Register Files / Instruction Registers RF6 lower (RF6L)" line.long 0x1C "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF7L," hexmask.long 0x1C 0.--31. 1. "RF7L,Register Files / Instruction Registers RF7 lower (RF7L)" line.long 0x20 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF8L," hexmask.long 0x20 0.--31. 1. "RF8L,Register Files / Instruction Registers RF8 lower (RF8L)" line.long 0x24 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF9L," hexmask.long 0x24 0.--31. 1. "RF9L,Register Files / Instruction Registers RF9 lower (RF9L)" line.long 0x28 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF10L," hexmask.long 0x28 0.--31. 1. "RF10L,Register Files / Instruction Registers RF10 lower (RF10L)" line.long 0x2C "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF11L," hexmask.long 0x2C 0.--31. 1. "RF11L,Register Files / Instruction Registers RF11 lower (RF11L)" line.long 0x30 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF12L," hexmask.long 0x30 0.--31. 1. "RF12L,Register Files / Instruction Registers RF12 lower (RF12L)" line.long 0x34 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF13L," hexmask.long 0x34 0.--31. 1. "RF13L,Register Files / Instruction Registers RF13 lower (RF13L)" line.long 0x38 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF14L," hexmask.long 0x38 0.--31. 1. "RF14L,Register Files / Instruction Registers RF14 lower (RF14L)" line.long 0x3C "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF15L," hexmask.long 0x3C 0.--31. 1. "RF15L,Register Files / Instruction Registers RF15 lower (RF15L)" line.long 0x40 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF0U," hexmask.long 0x40 0.--31. 1. "RF0U,Register Files / Instruction Registers RF0 upper (RF0U)" line.long 0x44 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF1U," hexmask.long 0x44 0.--31. 1. "RF1U,Register Files / Instruction Registers RF1 upper (RF1U)" line.long 0x48 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF2U," hexmask.long 0x48 0.--31. 1. "RF2U,Register Files / Instruction Registers RF2 upper (RF2U)" line.long 0x4C "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF3U," hexmask.long 0x4C 0.--31. 1. "RF3U,Register Files / Instruction Registers RF3 upper (RF3U)" line.long 0x50 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF4U," hexmask.long 0x50 0.--31. 1. "RF4U,Register Files / Instruction Registers RF4 upper (RF4U)" line.long 0x54 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF5U," hexmask.long 0x54 0.--31. 1. "RF5U,Register Files / Instruction Registers RF5 upper (RF5U)" line.long 0x58 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF6U," hexmask.long 0x58 0.--31. 1. "RF6U,Register Files / Instruction Registers RF6 upper (RF6U)" line.long 0x5C "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF7U," hexmask.long 0x5C 0.--31. 1. "RF7U,Register Files / Instruction Registers RF7 upper (RF7U)" line.long 0x60 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF8U," hexmask.long 0x60 0.--31. 1. "RF8U,Register Files / Instruction Registers RF8 upper (RF8U)" line.long 0x64 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF9U," hexmask.long 0x64 0.--31. 1. "RF9U,Register Files / Instruction Registers RF9 upper (RF9U)" line.long 0x68 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF10U," hexmask.long 0x68 0.--31. 1. "RF10U,Register Files / Instruction Registers RF10 upper (RF10U)" line.long 0x6C "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF11U," hexmask.long 0x6C 0.--31. 1. "RF11U,Register Files / Instruction Registers RF11 upper (RF11U)" line.long 0x70 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF12U," hexmask.long 0x70 0.--31. 1. "RF12U,Register Files / Instruction Registers RF12 upper (RF12U)" line.long 0x74 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF13U," hexmask.long 0x74 0.--31. 1. "RF13U,Register Files / Instruction Registers RF13 upper (RF13U)" line.long 0x78 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF14U," hexmask.long 0x78 0.--31. 1. "RF14U,Register Files / Instruction Registers RF14 upper (RF14U)" line.long 0x7C "K3_PBIST_4C28P_4BIT_WRAP_REGS_RF15U," hexmask.long 0x7C 0.--31. 1. "RF15U,Register Files / Instruction Registers RF15 upper (RF15U)" group.long 0x100++0x27 line.long 0x0 "K3_PBIST_4C28P_4BIT_WRAP_REGS_A0," hexmask.long.word 0x0 0.--15. 1. "A0,Variable Address Register 0 (A0)" line.long 0x4 "K3_PBIST_4C28P_4BIT_WRAP_REGS_A1," hexmask.long.word 0x4 0.--15. 1. "A1,Variable Address Register 1 (A1)" line.long 0x8 "K3_PBIST_4C28P_4BIT_WRAP_REGS_A2," hexmask.long.word 0x8 0.--15. 1. "A2,Variable Address Register 2 (A2)" line.long 0xC "K3_PBIST_4C28P_4BIT_WRAP_REGS_A3," hexmask.long.word 0xC 0.--15. 1. "A3,Variable Address Register 3 (A3)" line.long 0x10 "K3_PBIST_4C28P_4BIT_WRAP_REGS_L0," hexmask.long.word 0x10 0.--15. 1. "L0,Variable Loop Count Register 0 (L0)" line.long 0x14 "K3_PBIST_4C28P_4BIT_WRAP_REGS_L1," hexmask.long.word 0x14 0.--15. 1. "L1,Variable Loop Count Register 1 (L1)" line.long 0x18 "K3_PBIST_4C28P_4BIT_WRAP_REGS_L2," hexmask.long.word 0x18 0.--15. 1. "L2,Variable Loop Count Register 2 (L2)" line.long 0x1C "K3_PBIST_4C28P_4BIT_WRAP_REGS_L3," hexmask.long.word 0x1C 0.--15. 1. "L3,Variable Loop Count Register 3 (L3)" line.long 0x20 "K3_PBIST_4C28P_4BIT_WRAP_REGS_D," hexmask.long.word 0x20 16.--31. 1. "D1,DD1 Data Register Upper 16 (D1)" hexmask.long.word 0x20 0.--15. 1. "D0,DD0 Data Register Lower 16 (D0)" line.long 0x24 "K3_PBIST_4C28P_4BIT_WRAP_REGS_E," hexmask.long.word 0x24 16.--31. 1. "E1,EE1 Data Register Upper 16 (E1)" hexmask.long.word 0x24 0.--15. 1. "E0,EE0 Data Register Lower 16 (E0)" group.long 0x130++0x3F line.long 0x0 "K3_PBIST_4C28P_4BIT_WRAP_REGS_CA0," hexmask.long.word 0x0 0.--15. 1. "CA0,Constant Address Register 0 (CA0)" line.long 0x4 "K3_PBIST_4C28P_4BIT_WRAP_REGS_CA1," hexmask.long.word 0x4 0.--15. 1. "CA1,Constant Address Register 1 (CA1)" line.long 0x8 "K3_PBIST_4C28P_4BIT_WRAP_REGS_CA2," hexmask.long.word 0x8 0.--15. 1. "CA2,Constant Address Register 2 (CA2)" line.long 0xC "K3_PBIST_4C28P_4BIT_WRAP_REGS_CA3," hexmask.long.word 0xC 0.--15. 1. "CA3,Constant Address Register 3 (CA3)" line.long 0x10 "K3_PBIST_4C28P_4BIT_WRAP_REGS_CL0," hexmask.long.word 0x10 0.--15. 1. "CL0,Constant Loop Count Register 0 (CL0)" line.long 0x14 "K3_PBIST_4C28P_4BIT_WRAP_REGS_CL1," hexmask.long.word 0x14 0.--15. 1. "CL1,Constant Loop Count Register 1 (CL1)" line.long 0x18 "K3_PBIST_4C28P_4BIT_WRAP_REGS_CL2," hexmask.long.word 0x18 0.--15. 1. "CL2,Constant Loop Count Register 2 (CL2)" line.long 0x1C "K3_PBIST_4C28P_4BIT_WRAP_REGS_CL3," hexmask.long.word 0x1C 0.--15. 1. "CL3,Constant Loop Count Register 3 (CL3)" line.long 0x20 "K3_PBIST_4C28P_4BIT_WRAP_REGS_I0," hexmask.long.word 0x20 0.--15. 1. "I0,Constant Increment Register 0 (I0)" line.long 0x24 "K3_PBIST_4C28P_4BIT_WRAP_REGS_I1," hexmask.long.word 0x24 0.--15. 1. "I0,Constant Increment Register 1 (I1)" line.long 0x28 "K3_PBIST_4C28P_4BIT_WRAP_REGS_I2," hexmask.long.word 0x28 0.--15. 1. "I0,Constant Increment Register 2 (I2)" line.long 0x2C "K3_PBIST_4C28P_4BIT_WRAP_REGS_I3," hexmask.long.word 0x2C 0.--15. 1. "I0,Constant Increment Register 3 (I3)" line.long 0x30 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RAMT," hexmask.long.byte 0x30 24.--31. 1. "RGS,RAM Group Select RGS" hexmask.long.byte 0x30 16.--23. 1. "RDS,Return Data select RDS" hexmask.long.byte 0x30 8.--15. 1. "DWR,Data Width Register DWR" hexmask.long.byte 0x30 2.--5. 1. "PLS,Pipeline Latency Select" newline bitfld.long 0x30 0.--1. "RLS,RAM Latency Select" "0,1,2,3" line.long 0x34 "K3_PBIST_4C28P_4BIT_WRAP_REGS_DLR," hexmask.long.byte 0x34 16.--23. 1. "BRP,Datalogger 2 (BRP)" bitfld.long 0x34 10. "DLR1_RTM,Retention testing mode" "0,1" bitfld.long 0x34 9. "DLR1_GNG,GO / NO-GO testing mode" "0,1" bitfld.long 0x34 8. "DLR1_MISR,MISR testing mode (mainly for ROM testing)" "0,1" newline bitfld.long 0x34 7. "DLR0_TSM,Time stamp mode" "0,1" bitfld.long 0x34 6. "DLR0_CFMM,Column Fail Masking mode" "0,1" bitfld.long 0x34 5. "DLR0_ECAM,Emulation cache access mode" "0,1" bitfld.long 0x34 4. "DLR0_CAM,Config access mode" "0,1" newline bitfld.long 0x34 3. "DLR0_TCK,TCK Gated mode" "0,1" bitfld.long 0x34 2. "DLR0_ROM,ROM-based testing mode" "0,1" bitfld.long 0x34 1. "DLR0_IDDQ,IDDQ testing mode" "0,1" bitfld.long 0x34 0. "DLR0_DCM,Distributed Compare mode" "0,1" line.long 0x38 "K3_PBIST_4C28P_4BIT_WRAP_REGS_CMS," hexmask.long.byte 0x38 0.--3. 1. "CMS,Clock Mux Select (CMS)" line.long 0x3C "K3_PBIST_4C28P_4BIT_WRAP_REGS_STR," bitfld.long 0x3C 4. "CHK,Check MISR mode" "0,1" bitfld.long 0x3C 3. "STEP,Step / Step for emulation mode" "0,1" bitfld.long 0x3C 2. "STOP,Stop" "0,1" bitfld.long 0x3C 1. "RES,Resume / Emulation read" "0,1" newline bitfld.long 0x3C 0. "START,Start / Time Stamp mode restart" "0,1" group.quad 0x170++0x7 line.quad 0x0 "K3_PBIST_4C28P_4BIT_WRAP_REGS_SCR," hexmask.quad.byte 0x0 56.--63. 1. "SCR7,Address Scrambling Register 7" hexmask.quad.byte 0x0 48.--55. 1. "SCR6,Address Scrambling Register 6" hexmask.quad.byte 0x0 40.--47. 1. "SCR5,Address Scrambling Register 5" hexmask.quad.byte 0x0 32.--39. 1. "SCR4,Address Scrambling Register 4" newline hexmask.quad.byte 0x0 24.--31. 1. "SCR3,Address Scrambling Register 3" hexmask.quad.byte 0x0 16.--23. 1. "SCR2,Address Scrambling Register 2" hexmask.quad.byte 0x0 8.--15. 1. "SCR1,Address Scrambling Register 1" hexmask.quad.byte 0x0 0.--7. 1. "SCR0,Address Scrambling Register 0" group.long 0x178++0x13 line.long 0x0 "K3_PBIST_4C28P_4BIT_WRAP_REGS_CSR," hexmask.long.byte 0x0 24.--31. 1. "CSR3,Chip Select 3 (CSR3)" hexmask.long.byte 0x0 16.--23. 1. "CSR2,Chip Select 2 (CSR2)" hexmask.long.byte 0x0 8.--15. 1. "CSR1,Chip Select 1(CSR1)" hexmask.long.byte 0x0 0.--7. 1. "CSR0,Chip Select 0 (CSR0)" line.long 0x4 "K3_PBIST_4C28P_4BIT_WRAP_REGS_FDLY," hexmask.long.byte 0x4 0.--7. 1. "FDLY,Fail Delay (FDLY)" line.long 0x8 "K3_PBIST_4C28P_4BIT_WRAP_REGS_PACT," bitfld.long 0x8 0. "PACT,PBIST Activate (PACT)" "0,1" line.long 0xC "K3_PBIST_4C28P_4BIT_WRAP_REGS_PID," hexmask.long.byte 0xC 0.--4. 1. "PID,PBIST ID" line.long 0x10 "K3_PBIST_4C28P_4BIT_WRAP_REGS_OVER," bitfld.long 0x10 3. "ALGO,PBIST Override Algorithm Override" "0,1" bitfld.long 0x10 2. "MM,PBIST Override Multiple Memory" "0,1" bitfld.long 0x10 1. "READ,PBIST Override READ Override" "0,1" bitfld.long 0x10 0. "RINFO,PBIST Override RINFO Override" "0,1" rgroup.quad 0x190++0x17 line.quad 0x0 "K3_PBIST_4C28P_4BIT_WRAP_REGS_FSRF," bitfld.quad 0x0 32. "FRSF1,Fail Status Fail - Port 1 (FSRF1)" "0,1" bitfld.quad 0x0 0. "FRSF0,Fail Status Fail - Port 0 (FSRF0)" "0,1" line.quad 0x8 "K3_PBIST_4C28P_4BIT_WRAP_REGS_FSRC," hexmask.quad.byte 0x8 32.--35. 1. "FSRC1,Fail Status Count - Port 1 (FSRC1)" hexmask.quad.byte 0x8 0.--3. 1. "FSRC0,Fail Status Count - Port 0 (FSRC0)" line.quad 0x10 "K3_PBIST_4C28P_4BIT_WRAP_REGS_FSRA," hexmask.quad.word 0x10 32.--47. 1. "FSRA1,Fail Status Address - Port 1 (FSRA1)" hexmask.quad.word 0x10 0.--15. 1. "FSRA0,Fail Status Address - Port 0 (FSRA0)" rgroup.long 0x1A8++0x3 line.long 0x0 "K3_PBIST_4C28P_4BIT_WRAP_REGS_FSRDL0," hexmask.long 0x0 0.--31. 1. "FSRDL0,Fail Status Data - Port 0 (FSRDL0)" rgroup.long 0x1B0++0xF line.long 0x0 "K3_PBIST_4C28P_4BIT_WRAP_REGS_FSRDL1," hexmask.long 0x0 0.--31. 1. "FSRDL1,Fail Status Data - Port 1 (FSRDL1)" line.long 0x4 "K3_PBIST_4C28P_4BIT_WRAP_REGS_MARGIN_MODE," bitfld.long 0x4 2.--3. "PBIST_DFT_READ,pbist_dft_read[1:0]" "0,1,2,3" bitfld.long 0x4 0.--1. "PBIST_DFT_WRITE,pbist_dft_write[1:0]" "0,1,2,3" line.long 0x8 "K3_PBIST_4C28P_4BIT_WRAP_REGS_WRENZ," bitfld.long 0x8 0.--1. "WRENZ,pbist_ram_wrenz[1:0]" "0,1,2,3" line.long 0xC "K3_PBIST_4C28P_4BIT_WRAP_REGS_PAGE_PGS," bitfld.long 0xC 0.--1. "PGS,pbist_ram_pgs[1:0]" "0,1,2,3" group.long 0x1C0++0x7 line.long 0x0 "K3_PBIST_4C28P_4BIT_WRAP_REGS_ROM," bitfld.long 0x0 0.--1. "ROM,ROM Mask (ROM)" "0,1,2,3" line.long 0x4 "K3_PBIST_4C28P_4BIT_WRAP_REGS_ALGO," hexmask.long.byte 0x4 24.--31. 1. "ALGO_3,ROM Algorithm Mask 3 (ALGO 3)" hexmask.long.byte 0x4 16.--23. 1. "ALGO_2,ROM Algorithm Mask 2 (ALGO 2)" hexmask.long.byte 0x4 8.--15. 1. "ALGO_1,ROM Algorithm Mask 1 (ALGO 1)" hexmask.long.byte 0x4 0.--7. 1. "ALGO_0,ROM Algorithm Mask 0 (ALGO 0)" group.quad 0x1C8++0x7 line.quad 0x0 "K3_PBIST_4C28P_4BIT_WRAP_REGS_RINFO," hexmask.quad.byte 0x0 56.--63. 1. "U3,RAM Info Mask Upper 3 (RINFOU3)" hexmask.quad.byte 0x0 48.--55. 1. "U2,RAM Info Mask Upper 2 (RINFOU2)" hexmask.quad.byte 0x0 40.--47. 1. "U1,RAM Info Mask Upper 1 (RINFOU1)" hexmask.quad.byte 0x0 32.--39. 1. "U0,RAM Info Mask Upper 0 (RINFOU0)" newline hexmask.quad.byte 0x0 24.--31. 1. "L3,RAM Info Mask Lower 3 (RINFOL3)" hexmask.quad.byte 0x0 16.--23. 1. "L2,RAM Info Mask Lower 2 (RINFOL2)" hexmask.quad.byte 0x0 8.--15. 1. "L1,RAM Info Mask Lower 1 (RINFOL1)" hexmask.quad.byte 0x0 0.--7. 1. "L0,RAM Info Mask Lower 0 (RINFOL0)" tree.end tree "CPSW0" base ad:0x0 tree "CPSW0_ECC (CPSW0_ECC)" base ad:0x704000 rgroup.long 0x0++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_ECC_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_ECC_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_ECC_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,8 RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_ECC_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "CPSW_NUSS_VBUSP_ECC_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "CPSW_NUSS_VBUSP_ECC_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 19. "RAMECC19_PEND,Interrupt Pending Status for ramecc19_pend" "0,1" bitfld.long 0x4 18. "RAMECC18_PEND,Interrupt Pending Status for ramecc18_pend" "0,1" bitfld.long 0x4 17. "RAMECC17_PEND,Interrupt Pending Status for ramecc17_pend" "0,1" newline bitfld.long 0x4 16. "RAMECC16_PEND,Interrupt Pending Status for ramecc16_pend" "0,1" bitfld.long 0x4 15. "RAMECC15_PEND,Interrupt Pending Status for ramecc15_pend" "0,1" bitfld.long 0x4 14. "RAMECC14_PEND,Interrupt Pending Status for ramecc14_pend" "0,1" newline bitfld.long 0x4 13. "RAMECC13_PEND,Interrupt Pending Status for ramecc13_pend" "0,1" bitfld.long 0x4 12. "RAMECC12_PEND,Interrupt Pending Status for ramecc12_pend" "0,1" bitfld.long 0x4 11. "RAMECC11_PEND,Interrupt Pending Status for ramecc11_pend" "0,1" newline bitfld.long 0x4 10. "RAMECC10_PEND,Interrupt Pending Status for ramecc10_pend" "0,1" bitfld.long 0x4 9. "RAMECC9_PEND,Interrupt Pending Status for ramecc9_pend" "0,1" bitfld.long 0x4 8. "RAMECC8_PEND,Interrupt Pending Status for ramecc8_pend" "0,1" newline bitfld.long 0x4 7. "RAMECC7_PEND,Interrupt Pending Status for ramecc7_pend" "0,1" bitfld.long 0x4 6. "RAMECC6_PEND,Interrupt Pending Status for ramecc6_pend" "0,1" bitfld.long 0x4 5. "RAMECC5_PEND,Interrupt Pending Status for ramecc5_pend" "0,1" newline bitfld.long 0x4 4. "RAMECC4_PEND,Interrupt Pending Status for ramecc4_pend" "0,1" bitfld.long 0x4 3. "RAMECC3_PEND,Interrupt Pending Status for ramecc3_pend" "0,1" bitfld.long 0x4 2. "RAMECC2_PEND,Interrupt Pending Status for ramecc2_pend" "0,1" newline bitfld.long 0x4 1. "RAMECC1_PEND,Interrupt Pending Status for ramecc1_pend" "0,1" bitfld.long 0x4 0. "RAMECC0_PEND,Interrupt Pending Status for ramecc0_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_ECC_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 19. "RAMECC19_ENABLE_SET,Interrupt Enable Set Register for ramecc19_pend" "0,1" bitfld.long 0x0 18. "RAMECC18_ENABLE_SET,Interrupt Enable Set Register for ramecc18_pend" "0,1" bitfld.long 0x0 17. "RAMECC17_ENABLE_SET,Interrupt Enable Set Register for ramecc17_pend" "0,1" newline bitfld.long 0x0 16. "RAMECC16_ENABLE_SET,Interrupt Enable Set Register for ramecc16_pend" "0,1" bitfld.long 0x0 15. "RAMECC15_ENABLE_SET,Interrupt Enable Set Register for ramecc15_pend" "0,1" bitfld.long 0x0 14. "RAMECC14_ENABLE_SET,Interrupt Enable Set Register for ramecc14_pend" "0,1" newline bitfld.long 0x0 13. "RAMECC13_ENABLE_SET,Interrupt Enable Set Register for ramecc13_pend" "0,1" bitfld.long 0x0 12. "RAMECC12_ENABLE_SET,Interrupt Enable Set Register for ramecc12_pend" "0,1" bitfld.long 0x0 11. "RAMECC11_ENABLE_SET,Interrupt Enable Set Register for ramecc11_pend" "0,1" newline bitfld.long 0x0 10. "RAMECC10_ENABLE_SET,Interrupt Enable Set Register for ramecc10_pend" "0,1" bitfld.long 0x0 9. "RAMECC9_ENABLE_SET,Interrupt Enable Set Register for ramecc9_pend" "0,1" bitfld.long 0x0 8. "RAMECC8_ENABLE_SET,Interrupt Enable Set Register for ramecc8_pend" "0,1" newline bitfld.long 0x0 7. "RAMECC7_ENABLE_SET,Interrupt Enable Set Register for ramecc7_pend" "0,1" bitfld.long 0x0 6. "RAMECC6_ENABLE_SET,Interrupt Enable Set Register for ramecc6_pend" "0,1" bitfld.long 0x0 5. "RAMECC5_ENABLE_SET,Interrupt Enable Set Register for ramecc5_pend" "0,1" newline bitfld.long 0x0 4. "RAMECC4_ENABLE_SET,Interrupt Enable Set Register for ramecc4_pend" "0,1" bitfld.long 0x0 3. "RAMECC3_ENABLE_SET,Interrupt Enable Set Register for ramecc3_pend" "0,1" bitfld.long 0x0 2. "RAMECC2_ENABLE_SET,Interrupt Enable Set Register for ramecc2_pend" "0,1" newline bitfld.long 0x0 1. "RAMECC1_ENABLE_SET,Interrupt Enable Set Register for ramecc1_pend" "0,1" bitfld.long 0x0 0. "RAMECC0_ENABLE_SET,Interrupt Enable Set Register for ramecc0_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_ECC_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 19. "RAMECC19_ENABLE_CLR,Interrupt Enable Clear Register for ramecc19_pend" "0,1" bitfld.long 0x0 18. "RAMECC18_ENABLE_CLR,Interrupt Enable Clear Register for ramecc18_pend" "0,1" bitfld.long 0x0 17. "RAMECC17_ENABLE_CLR,Interrupt Enable Clear Register for ramecc17_pend" "0,1" newline bitfld.long 0x0 16. "RAMECC16_ENABLE_CLR,Interrupt Enable Clear Register for ramecc16_pend" "0,1" bitfld.long 0x0 15. "RAMECC15_ENABLE_CLR,Interrupt Enable Clear Register for ramecc15_pend" "0,1" bitfld.long 0x0 14. "RAMECC14_ENABLE_CLR,Interrupt Enable Clear Register for ramecc14_pend" "0,1" newline bitfld.long 0x0 13. "RAMECC13_ENABLE_CLR,Interrupt Enable Clear Register for ramecc13_pend" "0,1" bitfld.long 0x0 12. "RAMECC12_ENABLE_CLR,Interrupt Enable Clear Register for ramecc12_pend" "0,1" bitfld.long 0x0 11. "RAMECC11_ENABLE_CLR,Interrupt Enable Clear Register for ramecc11_pend" "0,1" newline bitfld.long 0x0 10. "RAMECC10_ENABLE_CLR,Interrupt Enable Clear Register for ramecc10_pend" "0,1" bitfld.long 0x0 9. "RAMECC9_ENABLE_CLR,Interrupt Enable Clear Register for ramecc9_pend" "0,1" bitfld.long 0x0 8. "RAMECC8_ENABLE_CLR,Interrupt Enable Clear Register for ramecc8_pend" "0,1" newline bitfld.long 0x0 7. "RAMECC7_ENABLE_CLR,Interrupt Enable Clear Register for ramecc7_pend" "0,1" bitfld.long 0x0 6. "RAMECC6_ENABLE_CLR,Interrupt Enable Clear Register for ramecc6_pend" "0,1" bitfld.long 0x0 5. "RAMECC5_ENABLE_CLR,Interrupt Enable Clear Register for ramecc5_pend" "0,1" newline bitfld.long 0x0 4. "RAMECC4_ENABLE_CLR,Interrupt Enable Clear Register for ramecc4_pend" "0,1" bitfld.long 0x0 3. "RAMECC3_ENABLE_CLR,Interrupt Enable Clear Register for ramecc3_pend" "0,1" bitfld.long 0x0 2. "RAMECC2_ENABLE_CLR,Interrupt Enable Clear Register for ramecc2_pend" "0,1" newline bitfld.long 0x0 1. "RAMECC1_ENABLE_CLR,Interrupt Enable Clear Register for ramecc1_pend" "0,1" bitfld.long 0x0 0. "RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for ramecc0_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "CPSW_NUSS_VBUSP_ECC_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "CPSW_NUSS_VBUSP_ECC_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 19. "RAMECC19_PEND,Interrupt Pending Status for ramecc19_pend" "0,1" bitfld.long 0x4 18. "RAMECC18_PEND,Interrupt Pending Status for ramecc18_pend" "0,1" bitfld.long 0x4 17. "RAMECC17_PEND,Interrupt Pending Status for ramecc17_pend" "0,1" newline bitfld.long 0x4 16. "RAMECC16_PEND,Interrupt Pending Status for ramecc16_pend" "0,1" bitfld.long 0x4 15. "RAMECC15_PEND,Interrupt Pending Status for ramecc15_pend" "0,1" bitfld.long 0x4 14. "RAMECC14_PEND,Interrupt Pending Status for ramecc14_pend" "0,1" newline bitfld.long 0x4 13. "RAMECC13_PEND,Interrupt Pending Status for ramecc13_pend" "0,1" bitfld.long 0x4 12. "RAMECC12_PEND,Interrupt Pending Status for ramecc12_pend" "0,1" bitfld.long 0x4 11. "RAMECC11_PEND,Interrupt Pending Status for ramecc11_pend" "0,1" newline bitfld.long 0x4 10. "RAMECC10_PEND,Interrupt Pending Status for ramecc10_pend" "0,1" bitfld.long 0x4 9. "RAMECC9_PEND,Interrupt Pending Status for ramecc9_pend" "0,1" bitfld.long 0x4 8. "RAMECC8_PEND,Interrupt Pending Status for ramecc8_pend" "0,1" newline bitfld.long 0x4 7. "RAMECC7_PEND,Interrupt Pending Status for ramecc7_pend" "0,1" bitfld.long 0x4 6. "RAMECC6_PEND,Interrupt Pending Status for ramecc6_pend" "0,1" bitfld.long 0x4 5. "RAMECC5_PEND,Interrupt Pending Status for ramecc5_pend" "0,1" newline bitfld.long 0x4 4. "RAMECC4_PEND,Interrupt Pending Status for ramecc4_pend" "0,1" bitfld.long 0x4 3. "RAMECC3_PEND,Interrupt Pending Status for ramecc3_pend" "0,1" bitfld.long 0x4 2. "RAMECC2_PEND,Interrupt Pending Status for ramecc2_pend" "0,1" newline bitfld.long 0x4 1. "RAMECC1_PEND,Interrupt Pending Status for ramecc1_pend" "0,1" bitfld.long 0x4 0. "RAMECC0_PEND,Interrupt Pending Status for ramecc0_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_ECC_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 19. "RAMECC19_ENABLE_SET,Interrupt Enable Set Register for ramecc19_pend" "0,1" bitfld.long 0x0 18. "RAMECC18_ENABLE_SET,Interrupt Enable Set Register for ramecc18_pend" "0,1" bitfld.long 0x0 17. "RAMECC17_ENABLE_SET,Interrupt Enable Set Register for ramecc17_pend" "0,1" newline bitfld.long 0x0 16. "RAMECC16_ENABLE_SET,Interrupt Enable Set Register for ramecc16_pend" "0,1" bitfld.long 0x0 15. "RAMECC15_ENABLE_SET,Interrupt Enable Set Register for ramecc15_pend" "0,1" bitfld.long 0x0 14. "RAMECC14_ENABLE_SET,Interrupt Enable Set Register for ramecc14_pend" "0,1" newline bitfld.long 0x0 13. "RAMECC13_ENABLE_SET,Interrupt Enable Set Register for ramecc13_pend" "0,1" bitfld.long 0x0 12. "RAMECC12_ENABLE_SET,Interrupt Enable Set Register for ramecc12_pend" "0,1" bitfld.long 0x0 11. "RAMECC11_ENABLE_SET,Interrupt Enable Set Register for ramecc11_pend" "0,1" newline bitfld.long 0x0 10. "RAMECC10_ENABLE_SET,Interrupt Enable Set Register for ramecc10_pend" "0,1" bitfld.long 0x0 9. "RAMECC9_ENABLE_SET,Interrupt Enable Set Register for ramecc9_pend" "0,1" bitfld.long 0x0 8. "RAMECC8_ENABLE_SET,Interrupt Enable Set Register for ramecc8_pend" "0,1" newline bitfld.long 0x0 7. "RAMECC7_ENABLE_SET,Interrupt Enable Set Register for ramecc7_pend" "0,1" bitfld.long 0x0 6. "RAMECC6_ENABLE_SET,Interrupt Enable Set Register for ramecc6_pend" "0,1" bitfld.long 0x0 5. "RAMECC5_ENABLE_SET,Interrupt Enable Set Register for ramecc5_pend" "0,1" newline bitfld.long 0x0 4. "RAMECC4_ENABLE_SET,Interrupt Enable Set Register for ramecc4_pend" "0,1" bitfld.long 0x0 3. "RAMECC3_ENABLE_SET,Interrupt Enable Set Register for ramecc3_pend" "0,1" bitfld.long 0x0 2. "RAMECC2_ENABLE_SET,Interrupt Enable Set Register for ramecc2_pend" "0,1" newline bitfld.long 0x0 1. "RAMECC1_ENABLE_SET,Interrupt Enable Set Register for ramecc1_pend" "0,1" bitfld.long 0x0 0. "RAMECC0_ENABLE_SET,Interrupt Enable Set Register for ramecc0_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_ECC_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 19. "RAMECC19_ENABLE_CLR,Interrupt Enable Clear Register for ramecc19_pend" "0,1" bitfld.long 0x0 18. "RAMECC18_ENABLE_CLR,Interrupt Enable Clear Register for ramecc18_pend" "0,1" bitfld.long 0x0 17. "RAMECC17_ENABLE_CLR,Interrupt Enable Clear Register for ramecc17_pend" "0,1" newline bitfld.long 0x0 16. "RAMECC16_ENABLE_CLR,Interrupt Enable Clear Register for ramecc16_pend" "0,1" bitfld.long 0x0 15. "RAMECC15_ENABLE_CLR,Interrupt Enable Clear Register for ramecc15_pend" "0,1" bitfld.long 0x0 14. "RAMECC14_ENABLE_CLR,Interrupt Enable Clear Register for ramecc14_pend" "0,1" newline bitfld.long 0x0 13. "RAMECC13_ENABLE_CLR,Interrupt Enable Clear Register for ramecc13_pend" "0,1" bitfld.long 0x0 12. "RAMECC12_ENABLE_CLR,Interrupt Enable Clear Register for ramecc12_pend" "0,1" bitfld.long 0x0 11. "RAMECC11_ENABLE_CLR,Interrupt Enable Clear Register for ramecc11_pend" "0,1" newline bitfld.long 0x0 10. "RAMECC10_ENABLE_CLR,Interrupt Enable Clear Register for ramecc10_pend" "0,1" bitfld.long 0x0 9. "RAMECC9_ENABLE_CLR,Interrupt Enable Clear Register for ramecc9_pend" "0,1" bitfld.long 0x0 8. "RAMECC8_ENABLE_CLR,Interrupt Enable Clear Register for ramecc8_pend" "0,1" newline bitfld.long 0x0 7. "RAMECC7_ENABLE_CLR,Interrupt Enable Clear Register for ramecc7_pend" "0,1" bitfld.long 0x0 6. "RAMECC6_ENABLE_CLR,Interrupt Enable Clear Register for ramecc6_pend" "0,1" bitfld.long 0x0 5. "RAMECC5_ENABLE_CLR,Interrupt Enable Clear Register for ramecc5_pend" "0,1" newline bitfld.long 0x0 4. "RAMECC4_ENABLE_CLR,Interrupt Enable Clear Register for ramecc4_pend" "0,1" bitfld.long 0x0 3. "RAMECC3_ENABLE_CLR,Interrupt Enable Clear Register for ramecc3_pend" "0,1" bitfld.long 0x0 2. "RAMECC2_ENABLE_CLR,Interrupt Enable Clear Register for ramecc2_pend" "0,1" newline bitfld.long 0x0 1. "RAMECC1_ENABLE_CLR,Interrupt Enable Clear Register for ramecc1_pend" "0,1" bitfld.long 0x0 0. "RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for ramecc0_pend" "0,1" group.long 0x200++0xF line.long 0x0 "CPSW_NUSS_VBUSP_ECC_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "CPSW_NUSS_VBUSP_ECC_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "CPSW_NUSS_VBUSP_ECC_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "CPSW_NUSS_VBUSP_ECC_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "CPSW0_NUSS (CPSW0_NUSS)" base ad:0x8000000 rgroup.long 0x0++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_CPSW_NUSS_IDVER_REG,ID Version Register" hexmask.long.word 0x0 16.--31. 1. "IDENT,Identification value" newline hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,RTL version value" newline bitfld.long 0x0 8.--10. "MAJOR_VER,Major version value" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--7. 1. "MINOR_VER,Minor version value" group.long 0x4++0x13 line.long 0x0 "CPSW_NUSS_VBUSP_SYNCE_COUNT_REG,SyncE Count Register" hexmask.long 0x0 0.--31. 1. "SYNCE_CNT,Sync E Count Value" line.long 0x4 "CPSW_NUSS_VBUSP_SYNCE_MUX_REG,SyncE Mux Register" hexmask.long.byte 0x4 0.--5. 1. "SYNCE_SEL,Sync E Select Value" line.long 0x8 "CPSW_NUSS_VBUSP_CONTROL_REG,Control Register" bitfld.long 0x8 1. "EEE_PHY_ONLY,Energy Efficient Enable Phy Only Mode: 0=The low power indicate state includes gating off the CPPI_GCLK to the CPSW 1=The low power indicate state does not gate the clock to the CPSW" "0: The low power indicate state includes gating off..,1: The low power indicate state does not gate the.." newline bitfld.long 0x8 0. "EEE_EN,Energy Efficient Ethernet Enable: 0=EEE is disabled 1=EEE is enabled" "0: EEE is disabled,1: EEE is enabled" line.long 0xC "CPSW_NUSS_VBUSP_SGMII_NON_FIBER_MODE_REG,SGMII NON FIBER Mode Register" bitfld.long 0xC 0.--1. "SGMII_NON_FIBER_MODE,This register bit goes to the CPSGMII mode input only" "0,1,2,3" line.long 0x10 "CPSW_NUSS_VBUSP_SERDES_RESET_ISO_REG,SyncE Mux Register" bitfld.long 0x10 0.--1. "SERDES_RESET_ISO,These bits control whether the SERDES ignores the hard reset for isolation or not" "0,1,2,3" rgroup.long 0x1C++0x7 line.long 0x0 "CPSW_NUSS_VBUSP_SUBSSYSTEM_STATUS_REG,Subsystem Status Register" bitfld.long 0x0 0. "EEE_CLKSTOP_ACK,Energy Efficient Ethernet clockstop acknowledge from CPSW" "0,1" line.long 0x4 "CPSW_NUSS_VBUSP_SUBSYSTEM_CONFIG_REG,Subsystem Configuration Register" hexmask.long.byte 0x4 20.--27. 1. "XGMII,The Number of XGMII Ports included in the CPSW_NUSS" newline bitfld.long 0x4 19. "QSGMII,QSGMII is included in the CPSW_NUSS" "0,1" newline bitfld.long 0x4 18. "SGMII,SGMII is included in the CPSW_NUSS" "0,1" newline bitfld.long 0x4 17. "RGMII,RGMII is included in the CPSW_NUSS" "0,1" newline bitfld.long 0x4 16. "RMII,RMII is included in the CPSW_NUSS" "0,1" newline hexmask.long.byte 0x4 8.--12. 1. "NUM_GENF,The number of CPTS GENF outputs" newline hexmask.long.byte 0x4 0.--7. 1. "NUM_PORTS,The total number of ports including the host port 0" rgroup.long 0x30++0x7 line.long 0x0 "CPSW_NUSS_VBUSP_RGMII1_STATUS_REG,RGMII1 Status Register" bitfld.long 0x0 3. "FULLDUPLEX,Rgmii1 full dulex: 0=Half-duplex 1=Full-duplex" "0: Half-duplex,1: Full-duplex" newline bitfld.long 0x0 1.--2. "SPEED,Rgmii1 speed: 00=10Mbps 01=100Mbps 10=1000Mbps 11=reserved" "0: 10Mbps,1: 100Mbps,?,?" newline bitfld.long 0x0 0. "LINK,Rgmii1 link indicator: 0=Link is down 1=Link is up" "0: Link is down,1: Link is up" line.long 0x4 "CPSW_NUSS_VBUSP_RGMII2_STATUS_REG,RGMII2 Status Register" bitfld.long 0x4 3. "FULLDUPLEX,Rgmii2 full dulex: 0=Half-duplex 1=Full-duplex" "0: Half-duplex,1: Full-duplex" newline bitfld.long 0x4 1.--2. "SPEED,Rgmii2 speed: 00=10Mbps 01=100Mbps 10=1000Mbps 11=reserved" "0: 10Mbps,1: 100Mbps,?,?" newline bitfld.long 0x4 0. "LINK,Rgmii2 link indicator: 0=Link is down 1=Link is up" "0: Link is down,1: Link is up" rgroup.long 0x100++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_SGMII_IDVER_REG,SGMII IDVER register" hexmask.long.word 0x0 16.--31. 1. "TX_IDENT,MODULE value" newline hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,RTL version value" newline bitfld.long 0x0 8.--10. "MAJOR_VER,Major version value" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--7. 1. "MINOR_VER,Minor version value" group.long 0x104++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_SOFT_RESET_REG,SGMII Soft Reset Register" bitfld.long 0x0 1. "RT_SOFT_RESET,Transmit and receive software reset" "0,1" newline bitfld.long 0x0 0. "SOFT_RESET,Software reset" "0,1" group.long 0x110++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_CONTROL_REG,SGMII Control Register" bitfld.long 0x0 6. "TEST_PATTERN_EN,Test pattern enable" "0,1" newline bitfld.long 0x0 5. "MASTER,Controller mode" "0,1" newline bitfld.long 0x0 4. "LOOPBACK,Loopback mode" "0,1" newline bitfld.long 0x0 3. "MR_NP_LOADED,Next page loaded" "0,1" newline bitfld.long 0x0 2. "FAST_LINK_TIMER,Fast link timer" "0,1" newline bitfld.long 0x0 1. "MR_AN_RESTART,Auto-negotiation restart" "0,1" newline bitfld.long 0x0 0. "MR_AN_ENABLE,Auto-negotiation enable" "0,1" rgroup.long 0x114++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_STATUS_REG,SGMII Status Register" bitfld.long 0x0 5. "FIB_SIG_DETECT,Fiber signal detect" "0,1" newline bitfld.long 0x0 4. "LOCK,Lock" "0,1" newline bitfld.long 0x0 3. "MR_PAGE_RX,Next page received" "0,1" newline bitfld.long 0x0 2. "MR_AN_COMPLETE,Auto-negotiation complete" "0,1" newline bitfld.long 0x0 1. "AN_ERROR,Auto-negotiation error" "0,1" newline bitfld.long 0x0 0. "LINK,Link indicator" "0,1" group.long 0x118++0x7 line.long 0x0 "CPSW_NUSS_VBUSP_MR_ADV_ABILITY_REG,SGMII MR Advertized Ability Register" hexmask.long.word 0x0 0.--15. 1. "MR_ADV_ABILITY,Advertised ability" line.long 0x4 "CPSW_NUSS_VBUSP_MR_NP_TX_REG,SGMII Next Pate Transmit Register" hexmask.long.word 0x4 0.--15. 1. "MR_NP_TX,Next page transmit" rgroup.long 0x120++0x7 line.long 0x0 "CPSW_NUSS_VBUSP_MR_LP_ADV_ABILITY_REG,SGMII Link Partner Advertized Ability Register" hexmask.long.word 0x0 0.--15. 1. "MR_LP_ADV_ABILITY,Link partner advertised ability" line.long 0x4 "CPSW_NUSS_VBUSP_MR_LP_NP_RX_REG,SGMII Link Partner Next Page Receive Register" hexmask.long.word 0x4 0.--15. 1. "MR_LP_NP_RX,Link Partner Next Page Received" group.long 0x140++0x7 line.long 0x0 "CPSW_NUSS_VBUSP_DIAG_CLEAR_REG,SGMII Diagnostics Clear Register" bitfld.long 0x0 0. "DIAG_CLEAR,Diagnostics clear" "0,1" line.long 0x4 "CPSW_NUSS_VBUSP_DIAG_CONTROL_REG,SGMII Diagnostics Control Register" bitfld.long 0x4 4.--6. "DIAG_SM_SEL,Diagnostic select" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 0.--1. "DIAG_EDGE_SEL,Diagnostics hold signals edge select" "0,1,2,3" rgroup.long 0x148++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_DIAG_STATUS_REG,SGMII Diagnostics Status Register" hexmask.long.word 0x0 0.--15. 1. "DIAG_STATUS,Diagnostics status" rgroup.long 0xF00++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_MDIO_VERSION_REG,MDIO Version Register" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0xF04++0x7 line.long 0x0 "CPSW_NUSS_VBUSP_CONTROL_REG,MDIO Control Register" rbitfld.long 0x0 31. "IDLE,MDIO state machine idle" "0,1" newline bitfld.long 0x0 30. "ENABLE,Enable control" "0,1" newline hexmask.long.byte 0x0 24.--28. 1. "HIGHEST_USER_CHANNEL,Highest user channel" newline bitfld.long 0x0 20. "PREAMBLE,Preamble disable" "0,1" newline bitfld.long 0x0 19. "FAULT,Fault indicator" "0,1" newline bitfld.long 0x0 18. "FAULT_DETECT_ENABLE,Fault detect enable" "0,1" newline bitfld.long 0x0 17. "INT_TEST_ENABLE,Interrupt test enable" "0,1" newline hexmask.long.word 0x0 0.--15. 1. "CLKDIV,Clock divider" line.long 0x4 "CPSW_NUSS_VBUSP_ALIVE_REG,MDIO Alive Register" hexmask.long 0x4 0.--31. 1. "ALIVE,MDIO alive" rgroup.long 0xF0C++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_LINK_REG,MDIO Link Register" hexmask.long 0x0 0.--31. 1. "LINK,MDIO link state" group.long 0xF10++0x37 line.long 0x0 "CPSW_NUSS_VBUSP_LINK_INT_RAW_REG,MDIO Link Interrupt Raw Register" bitfld.long 0x0 0.--1. "LINKINTRAW,MDIO link change event raw value" "0,1,2,3" line.long 0x4 "CPSW_NUSS_VBUSP_LINK_INT_MASKED_REG,MDIO Link Interrupt Masked Register" bitfld.long 0x4 0.--1. "LINKINTMASKED,MDIO link change interrupt masked value" "0,1,2,3" line.long 0x8 "CPSW_NUSS_VBUSP_LINK_INT_MASK_SET_REG,MDIO Link Interrupt Mask Set Register" bitfld.long 0x8 0. "LINKINTMASKSET,MDIO link interrupt mask set" "0,1" line.long 0xC "CPSW_NUSS_VBUSP_LINK_INT_MASK_CLEAR_REG,MDIO Link Interrupt Mask Clear Register" bitfld.long 0xC 0. "LINKINTMASKCLR,MDIO link interrupt mask clear" "0,1" line.long 0x10 "CPSW_NUSS_VBUSP_USER_INT_RAW_REG,MDIO User Interrupt Raw Register" bitfld.long 0x10 0.--1. "USERINTRAW,User interrupt raw" "0,1,2,3" line.long 0x14 "CPSW_NUSS_VBUSP_USER_INT_MASKED_REG,MDIO User Interrupt Masked Register" bitfld.long 0x14 0.--1. "USERINTMASKED,User interrupt masked" "0,1,2,3" line.long 0x18 "CPSW_NUSS_VBUSP_USER_INT_MASK_SET_REG,MDIO User Interrupt Mask Set Register" bitfld.long 0x18 0.--1. "USERINTMASKSET,MDIO user interrupt mask set" "0,1,2,3" line.long 0x1C "CPSW_NUSS_VBUSP_USER_INT_MASK_CLEAR_REG,MDIO User Interrupt Mask Clear Register" bitfld.long 0x1C 0.--1. "USERINTMASKCLR,MDIO user interrupt mask clear" "0,1,2,3" line.long 0x20 "CPSW_NUSS_VBUSP_MANUAL_IF_REG,MDIO Manual Interface Register" bitfld.long 0x20 2. "MDIO_MDCLK_O,MDIO Clock Output" "0,1" newline bitfld.long 0x20 1. "MDIO_OE,MDIO Output Enable" "0,1" newline bitfld.long 0x20 0. "MDIO_PIN,MDIO Pin" "0,1" line.long 0x24 "CPSW_NUSS_VBUSP_POLL_REG,MDIO Poll Register" bitfld.long 0x24 31. "MANUALMODE,MDIO Manual Mode" "0,1" newline bitfld.long 0x24 30. "STATECHANGEMODE,MDIO State Change Mode" "0,1" newline hexmask.long.byte 0x24 0.--7. 1. "IPG,MDIO IPG" line.long 0x28 "CPSW_NUSS_VBUSP_POLL_EN_REG,MDIO Poll Enable Register" hexmask.long 0x28 0.--31. 1. "POLL_EN,MDIO Poll Enable" line.long 0x2C "CPSW_NUSS_VBUSP_CLAUS45_REG,MDIO Clause45 Register" hexmask.long 0x2C 0.--31. 1. "CLAUSE45,MDIO Clause 45" line.long 0x30 "CPSW_NUSS_VBUSP_USER_ADDR0_REG,MDIO Address 0 Register" hexmask.long.word 0x30 0.--15. 1. "USER_ADDR0,MDIO USER Address 0" line.long 0x34 "CPSW_NUSS_VBUSP_USER_ADDR1_REG,MDIO Address 1 Register" hexmask.long.word 0x34 0.--15. 1. "USER_ADDR1,MDIO USER Address 1" rgroup.long 0x1000++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_REVISION,Revision Register" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,BU" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "FUNCTION,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "RTLVER,RTL revisions" newline bitfld.long 0x0 8.--10. "MAJREV,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom revision" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINREV,Minor revision" group.long 0x1010++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_eoi_reg,End of Interrupt Register" hexmask.long.byte 0x0 0.--7. 1. "EOI_VECTOR,End of Interrupt Vector" rgroup.long 0x1014++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_intr_vector_reg,Interrupt Vector Register" hexmask.long 0x0 0.--31. 1. "INTR_VECTOR,Interrupt Vector Register" group.long 0x1100++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_enable_reg_out_pulse_0,Enable Register 0" bitfld.long 0x0 2. "ENABLE_OUT_PULSE_EN_STAT_PENDA,Enable Set for out_pulse_en_stat_penda" "0,1" newline bitfld.long 0x0 1. "ENABLE_OUT_PULSE_EN_MDIO_PENDA,Enable Set for out_pulse_en_mdio_penda" "0,1" newline bitfld.long 0x0 0. "ENABLE_OUT_PULSE_EN_EVNT_PENDA,Enable Set for out_pulse_en_evnt_penda" "0,1" group.long 0x1300++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_enable_clr_reg_out_pulse_0,Enable Clear Register 0" bitfld.long 0x0 2. "ENABLE_OUT_PULSE_EN_STAT_PENDA_CLR,Enable Clear for out_pulse_en_stat_penda" "0,1" newline bitfld.long 0x0 1. "ENABLE_OUT_PULSE_EN_MDIO_PENDA_CLR,Enable Clear for out_pulse_en_mdio_penda" "0,1" newline bitfld.long 0x0 0. "ENABLE_OUT_PULSE_EN_EVNT_PENDA_CLR,Enable Clear for out_pulse_en_evnt_penda" "0,1" rgroup.long 0x1500++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_status_reg_out_pulse_0,Status Register 0" bitfld.long 0x0 2. "STATUS_OUT_PULSE_STAT_PENDA,Status for out_pulse_en_stat_penda" "0,1" newline bitfld.long 0x0 1. "STATUS_OUT_PULSE_MDIO_PENDA,Status for out_pulse_en_mdio_penda" "0,1" newline bitfld.long 0x0 0. "STATUS_OUT_PULSE_EVNT_PENDA,Status for out_pulse_en_evnt_penda" "0,1" rgroup.long 0x1A80++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_intr_vector_reg_out_pulse,Interrupt Vector for out_pulse" hexmask.long 0x0 0.--31. 1. "INTR_VECTOR_OUT_PULSE,Interrupt Vector" rgroup.long 0x20000++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_CPSW_ID_VER_REG,CPSW ID Version" hexmask.long.word 0x0 16.--31. 1. "IDENT,Identification Value" newline hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,RTL Version Value" newline bitfld.long 0x0 8.--10. "MAJOR_VER,Major Version Value" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--7. 1. "MINOR_VER,Minor Version Value" group.long 0x20004++0x3 line.long 0x0 "CPSW_NUSS_VBUSP_CONTROL_REG,CPSW Switch Control" bitfld.long 0x0 31. "ECC_CRC_MODE,ECC CRC Mode" "0,1" newline bitfld.long 0x0 19. "CUT_THRU_ENABLE,Cut-Thru enable" "0,1" newline bitfld.long 0x0 18. "EST_ENABLE,Intersperced Express Traffic enable" "0,1" newline bitfld.long 0x0 17. "IET_ENABLE,Intersperced Express Traffic enable" "0,1" newline bitfld.long 0x0 16. "EEE_ENABLE,Energy Efficient Ethernet enable" "0,1" newline bitfld.long 0x0 15. "P0_RX_PASS_CRC_ERR,Port 0 Pass Received CRC errors" "0,1" newline bitfld.long 0x0 14. "P0_RX_PAD,Port 0 Receive Short Packet Pad" "0,1" newline bitfld.long 0x0 13. "P0_TX_CRC_REMOVE,Port 0 Transmit CRC remove" "0,1" newline bitfld.long 0x0 12. "P0_TX_CRC_TYPE,Port 0 Transmit CRC Type" "0,1" newline bitfld.long 0x0 11. "P8_PASS_PRI_TAGGED,Port 8 Pass Priority Tagged" "0,1" newline bitfld.long 0x0 10. "P7_PASS_PRI_TAGGED,Port 7 Pass Priority Tagged" "0,1" newline bitfld.long 0x0 9. "P6_PASS_PRI_TAGGED,Port 6 Pass Priority Tagged" "0,1" newline bitfld.long 0x0 8. "P5_PASS_PRI_TAGGED,Port 5 Pass Priority Tagged" "0,1" newline bitfld.long 0x0 7. "P4_PASS_PRI_TAGGED,Port 4 Pass Priority Tagged" "0,1" newline bitfld.long 0x0 6. "P3_PASS_PRI_TAGGED,Port 3 Pass Priority Tagged" "0,1" newline bitfld.long 0x0 5. "P2_PASS_PRI_TAGGED,Port 2 Pass Priority Tagged" "0,1" newline bitfld.long 0x0 4. "P1_PASS_PRI_TAGGED,Port 1 Pass Priority Tagged" "0,1" newline bitfld.long 0x0 3. "P0_PASS_PRI_TAGGED,Port 0 Pass Priority Tagged" "0,1" newline bitfld.long 0x0 2. "P0_ENABLE,Port 0 Enable" "0,1" newline bitfld.long 0x0 1. "VLAN_AWARE,VLAN Aware Mode" "0,1" newline bitfld.long 0x0 0. "S_CN_SWITCH,VLAN Aware Mode" "0,1" group.long 0x20010++0x17 line.long 0x0 "CPSW_NUSS_VBUSP_EM_CONTROL_REG,CPSW Emulation Control" bitfld.long 0x0 1. "SOFT,Emulation Soft Bit" "0,1" newline bitfld.long 0x0 0. "FREE,Emulation Free Bit" "0,1" line.long 0x4 "CPSW_NUSS_VBUSP_STAT_PORT_EN_REG,CPSW Statistics Port Enable" bitfld.long 0x4 8. "P8_STAT_EN,Port 8 Statistics Enable" "0,1" newline bitfld.long 0x4 7. "P7_STAT_EN,Port 7 Statistics Enable" "0,1" newline bitfld.long 0x4 6. "P6_STAT_EN,Port 6 Statistics Enable" "0,1" newline bitfld.long 0x4 5. "P5_STAT_EN,Port 5 Statistics Enable" "0,1" newline bitfld.long 0x4 4. "P4_STAT_EN,Port 4 Statistics Enable" "0,1" newline bitfld.long 0x4 3. "P3_STAT_EN,Port 3 Statistics Enable" "0,1" newline bitfld.long 0x4 2. "P2_STAT_EN,Port 2 Statistics Enable" "0,1" newline bitfld.long 0x4 1. "P1_STAT_EN,Port 1 Statistics Enable" "0,1" newline bitfld.long 0x4 0. "P0_STAT_EN,Port 0 Statistics Enable" "0,1" line.long 0x8 "CPSW_NUSS_VBUSP_PTYPE_REG,CPSW Transmit Priority Type" bitfld.long 0x8 16. "P8_PTYPE_ESC,Port 8 Priority Type Escalate" "0,1" newline bitfld.long 0x8 15. "P7_PTYPE_ESC,Port 7 Priority Type Escalate" "0,1" newline bitfld.long 0x8 14. "P6_PTYPE_ESC,Port 6 Priority Type Escalate" "0,1" newline bitfld.long 0x8 13. "P5_PTYPE_ESC,Port 5 Priority Type Escalate" "0,1" newline bitfld.long 0x8 12. "P4_PTYPE_ESC,Port 4 Priority Type Escalate" "0,1" newline bitfld.long 0x8 11. "P3_PTYPE_ESC,Port 3 Priority Type Escalate" "0,1" newline bitfld.long 0x8 10. "P2_PTYPE_ESC,Port 2 Priority Type Escalate" "0,1" newline bitfld.long 0x8 9. "P1_PTYPE_ESC,Port 1 Priority Type Escalate" "0,1" newline bitfld.long 0x8 8. "P0_PTYPE_ESC,Port 0 Priority Type Escalate" "0,1" newline hexmask.long.byte 0x8 0.--4. 1. "ESC_PRI_LD_VAL,Escalate Priority Load Value" line.long 0xC "CPSW_NUSS_VBUSP_SOFT_IDLE_REG,CPSW Software Idle" bitfld.long 0xC 0. "SOFT_IDLE,Software Idle" "0,1" line.long 0x10 "CPSW_NUSS_VBUSP_THRU_RATE_REG,CPSW Thru Rate" hexmask.long.byte 0x10 12.--15. 1. "SL_RX_THRU_RATE,Switch FIFO receive through rate" newline hexmask.long.byte 0x10 0.--3. 1. "P0_RX_THRU_RATE,CPPI FIFO receive through rate" line.long 0x14 "CPSW_NUSS_VBUSP_GAP_THRESH_REG,CPSW Transmit FIFO Short Gap Threshold" hexmask.long.byte 0x14 0.--4. 1. "GAP_THRESH,Short Gap Threshold" group.long 0x2002C++0x1B line.long 0x0 "CPSW_NUSS_VBUSP_EEE_PRESCALE_REG,CPSW Energy Efficient Ethernet Prescale Value" hexmask.long.word 0x0 0.--11. 1. "EEE_PRESCALE,Energy Efficient Ethernet Pre-scale count load value" line.long 0x4 "CPSW_NUSS_VBUSP_TX_G_OFLOW_THRESH_SET_REG,CPSW PFC Tx Global Out Flow Threshold Set" hexmask.long.byte 0x4 28.--31. 1. "PRI7,Priority Based Flow Control Global Outflow Usage Threshold for Pri 7" newline hexmask.long.byte 0x4 24.--27. 1. "PRI6,Priority Based Flow Control Global Outflow Usage Threshold for Pri 6" newline hexmask.long.byte 0x4 20.--23. 1. "PRI5,Priority Based Flow Control Global Outflow Usage Threshold for Pri 5" newline hexmask.long.byte 0x4 16.--19. 1. "PRI4,Priority Based Flow Control Global Outflow Usage Threshold for Pri 4" newline hexmask.long.byte 0x4 12.--15. 1. "PRI3,Priority Based Flow Control Global Outflow Usage Threshold for Pri 3" newline hexmask.long.byte 0x4 8.--11. 1. "PRI2,Priority Based Flow Control Global Outflow Usage Threshold for Pri 2" newline hexmask.long.byte 0x4 4.--7. 1. "PRI1,Priority Based Flow Control Global Outflow Usage Threshold for Pri 1" newline hexmask.long.byte 0x4 0.--3. 1. "PRI0,Priority Based Flow Control Global Outflow Usage Threshold for Pri 0" line.long 0x8 "CPSW_NUSS_VBUSP_TX_G_OFLOW_THRESH_CLR_REG,CPSW PFC Tx Global Out Flow Threshold Clear" hexmask.long.byte 0x8 28.--31. 1. "PRI7,Priority Based Flow Control Global Outflow Usage Threshold for Pri 7" newline hexmask.long.byte 0x8 24.--27. 1. "PRI6,Priority Based Flow Control Global Outflow Usage Threshold for Pri 6" newline hexmask.long.byte 0x8 20.--23. 1. "PRI5,Priority Based Flow Control Global Outflow Usage Threshold for Pri 5" newline hexmask.long.byte 0x8 16.--19. 1. "PRI4,Priority Based Flow Control Global Outflow Usage Threshold for Pri 4" newline hexmask.long.byte 0x8 12.--15. 1. "PRI3,Priority Based Flow Control Global Outflow Usage Threshold for Pri 3" newline hexmask.long.byte 0x8 8.--11. 1. "PRI2,Priority Based Flow Control Global Outflow Usage Threshold for Pri 2" newline hexmask.long.byte 0x8 4.--7. 1. "PRI1,Priority Based Flow Control Global Outflow Usage Threshold for Pri 1" newline hexmask.long.byte 0x8 0.--3. 1. "PRI0,Priority Based Flow Control Global Outflow Usage Threshold for Pri 0" line.long 0xC "CPSW_NUSS_VBUSP_TX_G_BUF_THRESH_SET_L_REG,CPSW PFC Global Tx Buffer Threshold Set Low" hexmask.long.byte 0xC 24.--31. 1. "PRI3,Priority Based Flow Control Global Buffer Usage Threshold for Priority 3" newline hexmask.long.byte 0xC 16.--23. 1. "PRI2,Priority Based Flow Control Global Buffer Usage Threshold for Priority 2" newline hexmask.long.byte 0xC 8.--15. 1. "PRI1,Priority Based Flow Control Global Buffer Usage Threshold for Priority 1" newline hexmask.long.byte 0xC 0.--7. 1. "PRI0,Priority Based Flow Control Global Buffer Usage Threshold for Priority 0" line.long 0x10 "CPSW_NUSS_VBUSP_TX_G_BUF_THRESH_SET_H_REG,CPSW PFC Global Tx Buffer Threshold Set High" hexmask.long.byte 0x10 24.--31. 1. "PRI7,Priority Based Flow Control Global Buffer Usage Threshold for Priority 7" newline hexmask.long.byte 0x10 16.--23. 1. "PRI6,Priority Based Flow Control Global Buffer Usage Threshold for Priority 6" newline hexmask.long.byte 0x10 8.--15. 1. "PRI5,Priority Based Flow Control Global Buffer Usage Threshold for Priority 5" newline hexmask.long.byte 0x10 0.--7. 1. "PRI4,Priority Based Flow Control Global Buffer Usage Threshold for Priority 4" line.long 0x14 "CPSW_NUSS_VBUSP_TX_G_BUF_THRESH_CLR_L_REG,CPSW PFC Global Tx Buffer Threshold Clear Low" hexmask.long.byte 0x14 24.--31. 1. "PRI3,Priority Based Flow Control Global Buffer Usage Threshold for Priority 3" newline hexmask.long.byte 0x14 16.--23. 1. "PRI2,Priority Based Flow Control Global Buffer Usage Threshold for Priority 2" newline hexmask.long.byte 0x14 8.--15. 1. "PRI1,Priority Based Flow Control Global Buffer Usage Threshold for Priority 1" newline hexmask.long.byte 0x14 0.--7. 1. "PRI0,Priority Based Flow Control Global Buffer Usage Threshold for Priority 0" line.long 0x18 "CPSW_NUSS_VBUSP_TX_G_BUF_THRESH_CLR_H_REG,CPSW PFC Global Tx Buffer Threshold Clear High" hexmask.long.byte 0x18 24.--31. 1. "PRI7,Priority Based Flow Control Global Buffer Usage Threshold for Priority 7" newline hexmask.long.byte 0x18 16.--23. 1. "PRI6,Priority Based Flow Control Global Buffer Usage Threshold for Priority 6" newline hexmask.long.byte 0x18 8.--15. 1. "PRI5,Priority Based Flow Control Global Buffer Usage Threshold for Priority 5" newline hexmask.long.byte 0x18 0.--7. 1. "PRI4,Priority Based Flow Control Global Buffer Usage Threshold for Priority 4" group.long 0x20050++0x13 line.long 0x0 "CPSW_NUSS_VBUSP_VLAN_LTYPE_REG,VLAN Length/type" hexmask.long.word 0x0 16.--31. 1. "VLAN_LTYPE_OUTER,Outer VLAN LType" newline hexmask.long.word 0x0 0.--15. 1. "VLAN_LTYPE_INNER,Inner VLAN LType" line.long 0x4 "CPSW_NUSS_VBUSP_EST_TS_DOMAIN_REG,Enhanced Scheduled Traffic Host Event Domain" hexmask.long.byte 0x4 0.--7. 1. "EST_TS_DOMAIN,Enhanced Scheduled Traffic Host Event Domain" line.long 0x8 "CPSW_NUSS_VBUSP_CUT_THRESHOLD_REG,Cut-thru Threshold" hexmask.long.byte 0x8 0.--3. 1. "CUT_THRESH,Cut-thru Threshold" line.long 0xC "CPSW_NUSS_VBUSP_FREQUENCY_REG,CPSW CPPI_CLK Frequency in Mhz" hexmask.long.word 0xC 0.--9. 1. "CUT_THRESH,CPSW CPPI_CLK Frequency in Mhz" line.long 0x10 "CPSW_NUSS_VBUSP_IET_HOLD_CNT_LD_VAL_REG,IET Hold Count Load Value for cut thru packets" hexmask.long.byte 0x10 0.--7. 1. "IET_HOLD_CNT_LD_VAL,IET_HOLD_CNT_LD_VAL" group.long 0x20100++0x1F line.long 0x0 "CPSW_NUSS_VBUSP_TX_PRI0_MAXLEN_REG,Transmit Priority 0 Maximum Length" hexmask.long.word 0x0 0.--13. 1. "TX_PRI0_MAXLEN,Transmit Priority 0 Maximum Length" line.long 0x4 "CPSW_NUSS_VBUSP_TX_PRI1_MAXLEN_REG,Transmit Priority 1 Maximum Length" hexmask.long.word 0x4 0.--13. 1. "TX_PRI1_MAXLEN,Transmit Priority 1 Maximum Length" line.long 0x8 "CPSW_NUSS_VBUSP_TX_PRI2_MAXLEN_REG,Transmit Priority 2 Maximum Length" hexmask.long.word 0x8 0.--13. 1. "TX_PRI2_MAXLEN,Transmit Priority 2 Maximum Length" line.long 0xC "CPSW_NUSS_VBUSP_TX_PRI3_MAXLEN_REG,Transmit Priority 3 Maximum Length" hexmask.long.word 0xC 0.--13. 1. "TX_PRI3_MAXLEN,Transmit Priority 3 Maximum Length" line.long 0x10 "CPSW_NUSS_VBUSP_TX_PRI4_MAXLEN_REG,Transmit Priority 4 Maximum Length" hexmask.long.word 0x10 0.--13. 1. "TX_PRI4_MAXLEN,Transmit Priority 4 Maximum Length" line.long 0x14 "CPSW_NUSS_VBUSP_TX_PRI5_MAXLEN_REG,Transmit Priority 5 Maximum Length" hexmask.long.word 0x14 0.--13. 1. "TX_PRI5_MAXLEN,Transmit Priority 5 Maximum Length" line.long 0x18 "CPSW_NUSS_VBUSP_TX_PRI6_MAXLEN_REG,Transmit Priority 6 Maximum Length" hexmask.long.word 0x18 0.--13. 1. "TX_PRI6_MAXLEN,Transmit Priority 6 Maximum Length" line.long 0x1C "CPSW_NUSS_VBUSP_TX_PRI7_MAXLEN_REG,Transmit Priority 7 Maximum Length" hexmask.long.word 0x1C 0.--13. 1. "TX_PRI7_MAXLEN,Transmit Priority 7 Maximum Length" tree.end tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "CPT2" base ad:0x0 tree "CPT2_AGGR0" tree "CPT2_AGGR0_MMR (CPT2_AGGR0_MMR)" base ad:0x73E100000 rgroup.long 0x0++0x3 line.long 0x0 "MMR__SLV__REGS_AGGREGATOR_ID,This is the standard TI peripheral ID register that exists at address 0 in the preipheral space" bitfld.long 0x0 30.--31. "SCHEME," "0,1,2,3" bitfld.long 0x0 28.--29. "BU," "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION," hexmask.long.byte 0x0 11.--15. 1. "RTL_VER," newline bitfld.long 0x0 8.--10. "MAJOR_REV," "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM," "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV," group.long 0x4++0x7 line.long 0x0 "MMR__SLV__REGS_AGGREGATOR_CNTL,This register contains the controls for serial indrect access and trace processing" hexmask.long.tbyte 0x0 11.--31. 1. "RSVD1," bitfld.long 0x0 9.--10. "CONTINUOUS_READ_NUM," "0,1,2,3" bitfld.long 0x0 8. "CONTINUOUS_READ_MODE," "0,1" hexmask.long.byte 0x0 1.--7. 1. "RSVD0," newline bitfld.long 0x0 0. "TRACE_EN," "0,1" line.long 0x4 "MMR__SLV__REGS_AGGREGATOR_OWN,Module Ownership Control and Status Register" hexmask.long 0x4 3.--31. 1. "RSVD," rbitfld.long 0x4 1.--2. "OWN," "0,1,2,3" bitfld.long 0x4 0. "CLAIM," "0,1" group.long 0x20++0x7 line.long 0x0 "MMR__SLV__REGS_CONT_READ_PORT0,Designates which port (peripheral) is the target of this port. address. data register group" hexmask.long 0x0 5.--31. 1. "RSVD," hexmask.long.byte 0x0 0.--4. 1. "PORT," line.long 0x4 "MMR__SLV__REGS_CONT_READ_ADDR0,Designates the offest (in peripheral space) that is the target of this port. address. data register group" hexmask.long.word 0x4 16.--31. 1. "RSVD," hexmask.long.word 0x4 0.--15. 1. "ADDR," rgroup.long 0x28++0x3 line.long 0x0 "MMR__SLV__REGS_CONT_READ_DATA0,Provides the continuous read data for this port. address. data register group" hexmask.long 0x0 0.--31. 1. "DATA," group.long 0x30++0x7 line.long 0x0 "MMR__SLV__REGS_CONT_READ_PORT1,Designates which port (peripheral) is the target of this port. address. data register group" hexmask.long 0x0 5.--31. 1. "RSVD," hexmask.long.byte 0x0 0.--4. 1. "PORT," line.long 0x4 "MMR__SLV__REGS_CONT_READ_ADDR1,Designates the offest (in peripheral space) that is the target of this port. address. data register group" hexmask.long.word 0x4 16.--31. 1. "RSVD," hexmask.long.word 0x4 0.--15. 1. "ADDR," rgroup.long 0x38++0x3 line.long 0x0 "MMR__SLV__REGS_CONT_READ_DATA1,Provides the continuous read data for this port. address. data register group" hexmask.long 0x0 0.--31. 1. "DATA," group.long 0x40++0x7 line.long 0x0 "MMR__SLV__REGS_CONT_READ_PORT2,Designates which port (peripheral) is the target of this port. address. data register group" hexmask.long 0x0 5.--31. 1. "RSVD," hexmask.long.byte 0x0 0.--4. 1. "PORT," line.long 0x4 "MMR__SLV__REGS_CONT_READ_ADDR2,Designates the offest (in peripheral space) that is the target of this port. address. data register group" hexmask.long.word 0x4 16.--31. 1. "RSVD," hexmask.long.word 0x4 0.--15. 1. "ADDR," rgroup.long 0x48++0x3 line.long 0x0 "MMR__SLV__REGS_CONT_READ_DATA2,Provides the continuous read data for this port. address. data register group" hexmask.long 0x0 0.--31. 1. "DATA," group.long 0x50++0x7 line.long 0x0 "MMR__SLV__REGS_CONT_READ_PORT3,Designates which port (peripheral) is the target of this port. address. data register group" hexmask.long 0x0 5.--31. 1. "RSVD," hexmask.long.byte 0x0 0.--4. 1. "PORT," line.long 0x4 "MMR__SLV__REGS_CONT_READ_ADDR3,Designates the offest (in peripheral space) that is the target of this port. address. data register group" hexmask.long.word 0x4 16.--31. 1. "RSVD," hexmask.long.word 0x4 0.--15. 1. "ADDR," rgroup.long 0x58++0x3 line.long 0x0 "MMR__SLV__REGS_CONT_READ_DATA3,Provides the continuous read data for this port. address. data register group" hexmask.long 0x0 0.--31. 1. "DATA," tree.end tree "CPT2_AGGR0_STP2ATB_CFG (CPT2_AGGR0_STP2ATB_CFG)" base ad:0x73E100100 group.long 0x0++0x7 line.long 0x0 "VBUSP2APB_WRAP__STP2ATB_VBUS__CFG_REGS_STP_TRACE_CONTROL,This register contains the control and status settings for STP Trace control register. MID_Fifofull indicates status of internal Initiator/Channel Fifo as full. Data_Fifofull indicates the status.." hexmask.long.byte 0x0 25.--31. 1. "RSVD3," rbitfld.long 0x0 24. "MID_FIFO_FUL," "0,1" rbitfld.long 0x0 23. "DATA_FIFO_FULL," "0,1" hexmask.long.tbyte 0x0 6.--22. 1. "RSVD2," newline bitfld.long 0x0 5. "COMPEN," "0,1" rbitfld.long 0x0 3.--4. "RSVD1," "0,1,2,3" rbitfld.long 0x0 2. "SNCEN," "0,1" bitfld.long 0x0 1. "TSEN," "0,1" newline rbitfld.long 0x0 0. "RSVD0," "0,1" line.long 0x4 "VBUSP2APB_WRAP__STP2ATB_VBUS__CFG_REGS_STP_TRACE_ID,This register contains the trace id register settings. This value is sampled from input and is exported on ATB interface as ATID field. This is usually programmed only when top-level configuration.." hexmask.long 0x4 7.--31. 1. "RSVD," hexmask.long.byte 0x4 0.--6. 1. "TRACEID," group.long 0x10++0x7 line.long 0x0 "VBUSP2APB_WRAP__STP2ATB_VBUS__CFG_REGS_STP_SYNC_CONTROL,This register contains the periodic interval after which an ASYNC packet is exported over ATB interface. This counter register controls the interval between synchronization packets. The number of.." hexmask.long.tbyte 0x0 13.--31. 1. "RSVD," bitfld.long 0x0 12. "MODE," "0,1" hexmask.long.word 0x0 0.--11. 1. "COUNT," line.long 0x4 "VBUSP2APB_WRAP__STP2ATB_VBUS__CFG_REGS_STP_FLUSH_CONTROL,This register contains the bits to indicate flush in STPMI2ATB. It also controls priority control for other conditions in STPMI2ATB." hexmask.long 0x4 6.--31. 1. "RSVD1," bitfld.long 0x4 5. "FORCE_FLUSH," "0,1" rbitfld.long 0x4 2.--4. "RSVD0," "0,1,2,3,4,5,6,7" bitfld.long 0x4 1. "ASYNC_PE," "0,1" newline bitfld.long 0x4 0. "AUTO_FLUSH," "0,1" rgroup.long 0x18++0x3 line.long 0x0 "VBUSP2APB_WRAP__STP2ATB_VBUS__CFG_REGS_STP_FEATURES,This register contains the bits to indicate the features implemented in STPMI2ATB. It shows the VERSION packet implemented based on STP2.0 type of encoding timestamp packet. It also indicates what.." hexmask.long 0x0 7.--31. 1. "RSVD," bitfld.long 0x0 4.--6. "STP_TS_VERSION," "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 0.--3. 1. "PROT," tree.end tree.end tree "CPT2_AGGR1" tree "CPT2_AGGR1_MMR (CPT2_AGGR1_MMR)" base ad:0x73E140000 rgroup.long 0x0++0x3 line.long 0x0 "MMR__SLV__REGS_AGGREGATOR_ID,This is the standard TI peripheral ID register that exists at address 0 in the preipheral space" bitfld.long 0x0 30.--31. "SCHEME," "0,1,2,3" bitfld.long 0x0 28.--29. "BU," "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION," hexmask.long.byte 0x0 11.--15. 1. "RTL_VER," newline bitfld.long 0x0 8.--10. "MAJOR_REV," "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM," "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV," group.long 0x4++0x7 line.long 0x0 "MMR__SLV__REGS_AGGREGATOR_CNTL,This register contains the controls for serial indrect access and trace processing" hexmask.long.tbyte 0x0 11.--31. 1. "RSVD1," bitfld.long 0x0 9.--10. "CONTINUOUS_READ_NUM," "0,1,2,3" bitfld.long 0x0 8. "CONTINUOUS_READ_MODE," "0,1" hexmask.long.byte 0x0 1.--7. 1. "RSVD0," newline bitfld.long 0x0 0. "TRACE_EN," "0,1" line.long 0x4 "MMR__SLV__REGS_AGGREGATOR_OWN,Module Ownership Control and Status Register" hexmask.long 0x4 3.--31. 1. "RSVD," rbitfld.long 0x4 1.--2. "OWN," "0,1,2,3" bitfld.long 0x4 0. "CLAIM," "0,1" group.long 0x20++0x7 line.long 0x0 "MMR__SLV__REGS_CONT_READ_PORT0,Designates which port (peripheral) is the target of this port. address. data register group" hexmask.long 0x0 5.--31. 1. "RSVD," hexmask.long.byte 0x0 0.--4. 1. "PORT," line.long 0x4 "MMR__SLV__REGS_CONT_READ_ADDR0,Designates the offest (in peripheral space) that is the target of this port. address. data register group" hexmask.long.word 0x4 16.--31. 1. "RSVD," hexmask.long.word 0x4 0.--15. 1. "ADDR," rgroup.long 0x28++0x3 line.long 0x0 "MMR__SLV__REGS_CONT_READ_DATA0,Provides the continuous read data for this port. address. data register group" hexmask.long 0x0 0.--31. 1. "DATA," group.long 0x30++0x7 line.long 0x0 "MMR__SLV__REGS_CONT_READ_PORT1,Designates which port (peripheral) is the target of this port. address. data register group" hexmask.long 0x0 5.--31. 1. "RSVD," hexmask.long.byte 0x0 0.--4. 1. "PORT," line.long 0x4 "MMR__SLV__REGS_CONT_READ_ADDR1,Designates the offest (in peripheral space) that is the target of this port. address. data register group" hexmask.long.word 0x4 16.--31. 1. "RSVD," hexmask.long.word 0x4 0.--15. 1. "ADDR," rgroup.long 0x38++0x3 line.long 0x0 "MMR__SLV__REGS_CONT_READ_DATA1,Provides the continuous read data for this port. address. data register group" hexmask.long 0x0 0.--31. 1. "DATA," group.long 0x40++0x7 line.long 0x0 "MMR__SLV__REGS_CONT_READ_PORT2,Designates which port (peripheral) is the target of this port. address. data register group" hexmask.long 0x0 5.--31. 1. "RSVD," hexmask.long.byte 0x0 0.--4. 1. "PORT," line.long 0x4 "MMR__SLV__REGS_CONT_READ_ADDR2,Designates the offest (in peripheral space) that is the target of this port. address. data register group" hexmask.long.word 0x4 16.--31. 1. "RSVD," hexmask.long.word 0x4 0.--15. 1. "ADDR," rgroup.long 0x48++0x3 line.long 0x0 "MMR__SLV__REGS_CONT_READ_DATA2,Provides the continuous read data for this port. address. data register group" hexmask.long 0x0 0.--31. 1. "DATA," group.long 0x50++0x7 line.long 0x0 "MMR__SLV__REGS_CONT_READ_PORT3,Designates which port (peripheral) is the target of this port. address. data register group" hexmask.long 0x0 5.--31. 1. "RSVD," hexmask.long.byte 0x0 0.--4. 1. "PORT," line.long 0x4 "MMR__SLV__REGS_CONT_READ_ADDR3,Designates the offest (in peripheral space) that is the target of this port. address. data register group" hexmask.long.word 0x4 16.--31. 1. "RSVD," hexmask.long.word 0x4 0.--15. 1. "ADDR," rgroup.long 0x58++0x3 line.long 0x0 "MMR__SLV__REGS_CONT_READ_DATA3,Provides the continuous read data for this port. address. data register group" hexmask.long 0x0 0.--31. 1. "DATA," tree.end tree "CPT2_AGGR1_STP2ATB_CFG (CPT2_AGGR1_STP2ATB_CFG)" base ad:0x73E140100 group.long 0x0++0x7 line.long 0x0 "VBUSP2APB_WRAP__STP2ATB_VBUS__CFG_REGS_STP_TRACE_CONTROL,This register contains the control and status settings for STP Trace control register. MID_Fifofull indicates status of internal Initiator/Channel Fifo as full. Data_Fifofull indicates the status.." hexmask.long.byte 0x0 25.--31. 1. "RSVD3," rbitfld.long 0x0 24. "MID_FIFO_FUL," "0,1" rbitfld.long 0x0 23. "DATA_FIFO_FULL," "0,1" hexmask.long.tbyte 0x0 6.--22. 1. "RSVD2," newline bitfld.long 0x0 5. "COMPEN," "0,1" rbitfld.long 0x0 3.--4. "RSVD1," "0,1,2,3" rbitfld.long 0x0 2. "SNCEN," "0,1" bitfld.long 0x0 1. "TSEN," "0,1" newline rbitfld.long 0x0 0. "RSVD0," "0,1" line.long 0x4 "VBUSP2APB_WRAP__STP2ATB_VBUS__CFG_REGS_STP_TRACE_ID,This register contains the trace id register settings. This value is sampled from input and is exported on ATB interface as ATID field. This is usually programmed only when top-level configuration.." hexmask.long 0x4 7.--31. 1. "RSVD," hexmask.long.byte 0x4 0.--6. 1. "TRACEID," group.long 0x10++0x7 line.long 0x0 "VBUSP2APB_WRAP__STP2ATB_VBUS__CFG_REGS_STP_SYNC_CONTROL,This register contains the periodic interval after which an ASYNC packet is exported over ATB interface. This counter register controls the interval between synchronization packets. The number of.." hexmask.long.tbyte 0x0 13.--31. 1. "RSVD," bitfld.long 0x0 12. "MODE," "0,1" hexmask.long.word 0x0 0.--11. 1. "COUNT," line.long 0x4 "VBUSP2APB_WRAP__STP2ATB_VBUS__CFG_REGS_STP_FLUSH_CONTROL,This register contains the bits to indicate flush in STPMI2ATB. It also controls priority control for other conditions in STPMI2ATB." hexmask.long 0x4 6.--31. 1. "RSVD1," bitfld.long 0x4 5. "FORCE_FLUSH," "0,1" rbitfld.long 0x4 2.--4. "RSVD0," "0,1,2,3,4,5,6,7" bitfld.long 0x4 1. "ASYNC_PE," "0,1" newline bitfld.long 0x4 0. "AUTO_FLUSH," "0,1" rgroup.long 0x18++0x3 line.long 0x0 "VBUSP2APB_WRAP__STP2ATB_VBUS__CFG_REGS_STP_FEATURES,This register contains the bits to indicate the features implemented in STPMI2ATB. It shows the VERSION packet implemented based on STP2.0 type of encoding timestamp packet. It also indicates what.." hexmask.long 0x0 7.--31. 1. "RSVD," bitfld.long 0x0 4.--6. "STP_TS_VERSION," "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 0.--3. 1. "PROT," tree.end tree.end tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "csi_rx_if0" base ad:0x0 tree "csi_rx_if0_CP_INTD_CFG_INTD_CFG (csi_rx_if0_CP_INTD_CFG_INTD_CFG)" base ad:0x30100000 rgroup.long 0x0++0x3 line.long 0x0 "CP_INTD__INTD_CFG__INTD_CFG_REVISION,Revision Register" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,BU" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "FUNCTION,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "RTLVER,RTL revisions" newline bitfld.long 0x0 8.--10. "MAJREV,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom revision" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINREV,Minor revision" group.long 0x10++0x3 line.long 0x0 "CP_INTD__INTD_CFG__INTD_CFG_eoi_reg,End of Interrupt Register" hexmask.long.byte 0x0 0.--7. 1. "EOI_VECTOR,End of Interrupt Vector" rgroup.long 0x14++0x3 line.long 0x0 "CP_INTD__INTD_CFG__INTD_CFG_intr_vector_reg,Interrupt Vector Register" hexmask.long 0x0 0.--31. 1. "INTR_VECTOR,Interrupt Vector Register" group.long 0x100++0x7 line.long 0x0 "CP_INTD__INTD_CFG__INTD_CFG_enable_reg_level_0,Enable Register 0" bitfld.long 0x0 4. "ENABLE_LEVEL_EN_INT_VP1_ERROVERFLOW,Enable Set for level_en_int_vp1_erroverflow" "0,1" newline bitfld.long 0x0 3. "ENABLE_LEVEL_EN_INT_VP1_ERRINLNFRM,Enable Set for level_en_int_vp1_errInLnFrm" "0,1" newline bitfld.long 0x0 2. "ENABLE_LEVEL_EN_INT_VP0_ERROVERFLOW,Enable Set for level_en_int_vp0_erroverflow" "0,1" newline bitfld.long 0x0 1. "ENABLE_LEVEL_EN_INT_VP0_ERRINLNFRM,Enable Set for level_en_int_vp0_errInLnFrm" "0,1" newline bitfld.long 0x0 0. "ENABLE_LEVEL_EN_FIFO_OVERFLOW,Enable Set for level_en_fifo_overflow" "0,1" line.long 0x4 "CP_INTD__INTD_CFG__INTD_CFG_enable_reg_pulse_0,Enable Register 1" bitfld.long 0x4 4. "ENABLE_PULSE_EN_INT_VP1_ERROVERFLOW,Enable Set for pulse_en_int_vp1_erroverflow" "0,1" newline bitfld.long 0x4 3. "ENABLE_PULSE_EN_INT_VP1_ERRINLNFRM,Enable Set for pulse_en_int_vp1_errInLnFrm" "0,1" newline bitfld.long 0x4 2. "ENABLE_PULSE_EN_INT_VP0_ERROVERFLOW,Enable Set for pulse_en_int_vp0_erroverflow" "0,1" newline bitfld.long 0x4 1. "ENABLE_PULSE_EN_INT_VP0_ERRINLNFRM,Enable Set for pulse_en_int_vp0_errInLnFrm" "0,1" newline bitfld.long 0x4 0. "ENABLE_PULSE_EN_FIFO_OVERFLOW,Enable Set for pulse_en_fifo_overflow" "0,1" group.long 0x300++0x7 line.long 0x0 "CP_INTD__INTD_CFG__INTD_CFG_enable_clr_reg_level_0,Enable Clear Register 0" bitfld.long 0x0 4. "ENABLE_LEVEL_EN_INT_VP1_ERROVERFLOW_CLR,Enable Clear for level_en_int_vp1_erroverflow" "0,1" newline bitfld.long 0x0 3. "ENABLE_LEVEL_EN_INT_VP1_ERRINLNFRM_CLR,Enable Clear for level_en_int_vp1_errInLnFrm" "0,1" newline bitfld.long 0x0 2. "ENABLE_LEVEL_EN_INT_VP0_ERROVERFLOW_CLR,Enable Clear for level_en_int_vp0_erroverflow" "0,1" newline bitfld.long 0x0 1. "ENABLE_LEVEL_EN_INT_VP0_ERRINLNFRM_CLR,Enable Clear for level_en_int_vp0_errInLnFrm" "0,1" newline bitfld.long 0x0 0. "ENABLE_LEVEL_EN_FIFO_OVERFLOW_CLR,Enable Clear for level_en_fifo_overflow" "0,1" line.long 0x4 "CP_INTD__INTD_CFG__INTD_CFG_enable_clr_reg_pulse_0,Enable Clear Register 1" bitfld.long 0x4 4. "ENABLE_PULSE_EN_INT_VP1_ERROVERFLOW_CLR,Enable Clear for pulse_en_int_vp1_erroverflow" "0,1" newline bitfld.long 0x4 3. "ENABLE_PULSE_EN_INT_VP1_ERRINLNFRM_CLR,Enable Clear for pulse_en_int_vp1_errInLnFrm" "0,1" newline bitfld.long 0x4 2. "ENABLE_PULSE_EN_INT_VP0_ERROVERFLOW_CLR,Enable Clear for pulse_en_int_vp0_erroverflow" "0,1" newline bitfld.long 0x4 1. "ENABLE_PULSE_EN_INT_VP0_ERRINLNFRM_CLR,Enable Clear for pulse_en_int_vp0_errInLnFrm" "0,1" newline bitfld.long 0x4 0. "ENABLE_PULSE_EN_FIFO_OVERFLOW_CLR,Enable Clear for pulse_en_fifo_overflow" "0,1" group.long 0x500++0x7 line.long 0x0 "CP_INTD__INTD_CFG__INTD_CFG_status_reg_level_0,Status Register 0" bitfld.long 0x0 4. "STATUS_LEVEL_INT_VP1_ERROVERFLOW,Status write 1 to set for level_en_int_vp1_erroverflow" "0,1" newline bitfld.long 0x0 3. "STATUS_LEVEL_INT_VP1_ERRINLNFRM,Status write 1 to set for level_en_int_vp1_errInLnFrm" "0,1" newline bitfld.long 0x0 2. "STATUS_LEVEL_INT_VP0_ERROVERFLOW,Status write 1 to set for level_en_int_vp0_erroverflow" "0,1" newline bitfld.long 0x0 1. "STATUS_LEVEL_INT_VP0_ERRINLNFRM,Status write 1 to set for level_en_int_vp0_errInLnFrm" "0,1" newline bitfld.long 0x0 0. "STATUS_LEVEL_FIFO_OVERFLOW,Status write 1 to set for level_en_fifo_overflow" "0,1" line.long 0x4 "CP_INTD__INTD_CFG__INTD_CFG_status_reg_pulse_0,Status Register 1" bitfld.long 0x4 4. "STATUS_PULSE_INT_VP1_ERROVERFLOW,Status write 1 to set for pulse_en_int_vp1_erroverflow" "0,1" newline bitfld.long 0x4 3. "STATUS_PULSE_INT_VP1_ERRINLNFRM,Status write 1 to set for pulse_en_int_vp1_errInLnFrm" "0,1" newline bitfld.long 0x4 2. "STATUS_PULSE_INT_VP0_ERROVERFLOW,Status write 1 to set for pulse_en_int_vp0_erroverflow" "0,1" newline bitfld.long 0x4 1. "STATUS_PULSE_INT_VP0_ERRINLNFRM,Status write 1 to set for pulse_en_int_vp0_errInLnFrm" "0,1" newline bitfld.long 0x4 0. "STATUS_PULSE_FIFO_OVERFLOW,Status write 1 to set for pulse_en_fifo_overflow" "0,1" group.long 0x700++0x7 line.long 0x0 "CP_INTD__INTD_CFG__INTD_CFG_status_clr_reg_level_0,Status Clear Register 0" bitfld.long 0x0 4. "STATUS_LEVEL_INT_VP1_ERROVERFLOW_CLR,Status write 1 to clear for level_en_int_vp1_erroverflow" "0,1" newline bitfld.long 0x0 3. "STATUS_LEVEL_INT_VP1_ERRINLNFRM_CLR,Status write 1 to clear for level_en_int_vp1_errInLnFrm" "0,1" newline bitfld.long 0x0 2. "STATUS_LEVEL_INT_VP0_ERROVERFLOW_CLR,Status write 1 to clear for level_en_int_vp0_erroverflow" "0,1" newline bitfld.long 0x0 1. "STATUS_LEVEL_INT_VP0_ERRINLNFRM_CLR,Status write 1 to clear for level_en_int_vp0_errInLnFrm" "0,1" newline bitfld.long 0x0 0. "STATUS_LEVEL_FIFO_OVERFLOW_CLR,Status write 1 to clear for level_en_fifo_overflow" "0,1" line.long 0x4 "CP_INTD__INTD_CFG__INTD_CFG_status_clr_reg_pulse_0,Status Clear Register 1" bitfld.long 0x4 4. "STATUS_PULSE_INT_VP1_ERROVERFLOW_CLR,Status write 1 to clear for pulse_en_int_vp1_erroverflow" "0,1" newline bitfld.long 0x4 3. "STATUS_PULSE_INT_VP1_ERRINLNFRM_CLR,Status write 1 to clear for pulse_en_int_vp1_errInLnFrm" "0,1" newline bitfld.long 0x4 2. "STATUS_PULSE_INT_VP0_ERROVERFLOW_CLR,Status write 1 to clear for pulse_en_int_vp0_erroverflow" "0,1" newline bitfld.long 0x4 1. "STATUS_PULSE_INT_VP0_ERRINLNFRM_CLR,Status write 1 to clear for pulse_en_int_vp0_errInLnFrm" "0,1" newline bitfld.long 0x4 0. "STATUS_PULSE_FIFO_OVERFLOW_CLR,Status write 1 to clear for pulse_en_fifo_overflow" "0,1" rgroup.long 0xA80++0x7 line.long 0x0 "CP_INTD__INTD_CFG__INTD_CFG_intr_vector_reg_level,Interrupt Vector for level" hexmask.long 0x0 0.--31. 1. "INTR_VECTOR_LEVEL,Interrupt Vector" line.long 0x4 "CP_INTD__INTD_CFG__INTD_CFG_intr_vector_reg_pulse,Interrupt Vector for pulse" hexmask.long 0x4 0.--31. 1. "INTR_VECTOR_PULSE,Interrupt Vector" tree.end tree "csi_rx_if0_ECC_AGGR_CFG (csi_rx_if0_ECC_AGGR_CFG)" base ad:0x70E000 rgroup.long 0x0++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECC_AGGR__CFG__REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR__CFG__REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 7. "VP1_FIFO_RAMECC_PEND,Interrupt Pending Status for vp1_fifo_ramecc_pend" "0,1" bitfld.long 0x4 6. "VP0_FIFO_RAMECC_PEND,Interrupt Pending Status for vp0_fifo_ramecc_pend" "0,1" bitfld.long 0x4 5. "RAM_RAMECC3_PEND,Interrupt Pending Status for ram_ramecc3_pend" "0,1" newline bitfld.long 0x4 4. "RAM_RAMECC2_PEND,Interrupt Pending Status for ram_ramecc2_pend" "0,1" bitfld.long 0x4 3. "RAM_RAMECC1_PEND,Interrupt Pending Status for ram_ramecc1_pend" "0,1" bitfld.long 0x4 2. "RAM_RAMECC0_PEND,Interrupt Pending Status for ram_ramecc0_pend" "0,1" newline bitfld.long 0x4 1. "PSIL_FIFO_RAMECC_PEND,Interrupt Pending Status for psil_fifo_ramecc_pend" "0,1" bitfld.long 0x4 0. "BUSECC_PEND,Interrupt Pending Status for busecc_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 7. "VP1_FIFO_RAMECC_ENABLE_SET,Interrupt Enable Set Register for vp1_fifo_ramecc_pend" "0,1" bitfld.long 0x0 6. "VP0_FIFO_RAMECC_ENABLE_SET,Interrupt Enable Set Register for vp0_fifo_ramecc_pend" "0,1" bitfld.long 0x0 5. "RAM_RAMECC3_ENABLE_SET,Interrupt Enable Set Register for ram_ramecc3_pend" "0,1" newline bitfld.long 0x0 4. "RAM_RAMECC2_ENABLE_SET,Interrupt Enable Set Register for ram_ramecc2_pend" "0,1" bitfld.long 0x0 3. "RAM_RAMECC1_ENABLE_SET,Interrupt Enable Set Register for ram_ramecc1_pend" "0,1" bitfld.long 0x0 2. "RAM_RAMECC0_ENABLE_SET,Interrupt Enable Set Register for ram_ramecc0_pend" "0,1" newline bitfld.long 0x0 1. "PSIL_FIFO_RAMECC_ENABLE_SET,Interrupt Enable Set Register for psil_fifo_ramecc_pend" "0,1" bitfld.long 0x0 0. "BUSECC_ENABLE_SET,Interrupt Enable Set Register for busecc_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 7. "VP1_FIFO_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for vp1_fifo_ramecc_pend" "0,1" bitfld.long 0x0 6. "VP0_FIFO_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for vp0_fifo_ramecc_pend" "0,1" bitfld.long 0x0 5. "RAM_RAMECC3_ENABLE_CLR,Interrupt Enable Clear Register for ram_ramecc3_pend" "0,1" newline bitfld.long 0x0 4. "RAM_RAMECC2_ENABLE_CLR,Interrupt Enable Clear Register for ram_ramecc2_pend" "0,1" bitfld.long 0x0 3. "RAM_RAMECC1_ENABLE_CLR,Interrupt Enable Clear Register for ram_ramecc1_pend" "0,1" bitfld.long 0x0 2. "RAM_RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for ram_ramecc0_pend" "0,1" newline bitfld.long 0x0 1. "PSIL_FIFO_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for psil_fifo_ramecc_pend" "0,1" bitfld.long 0x0 0. "BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for busecc_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECC_AGGR__CFG__REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR__CFG__REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 7. "VP1_FIFO_RAMECC_PEND,Interrupt Pending Status for vp1_fifo_ramecc_pend" "0,1" bitfld.long 0x4 6. "VP0_FIFO_RAMECC_PEND,Interrupt Pending Status for vp0_fifo_ramecc_pend" "0,1" bitfld.long 0x4 5. "RAM_RAMECC3_PEND,Interrupt Pending Status for ram_ramecc3_pend" "0,1" newline bitfld.long 0x4 4. "RAM_RAMECC2_PEND,Interrupt Pending Status for ram_ramecc2_pend" "0,1" bitfld.long 0x4 3. "RAM_RAMECC1_PEND,Interrupt Pending Status for ram_ramecc1_pend" "0,1" bitfld.long 0x4 2. "RAM_RAMECC0_PEND,Interrupt Pending Status for ram_ramecc0_pend" "0,1" newline bitfld.long 0x4 1. "PSIL_FIFO_RAMECC_PEND,Interrupt Pending Status for psil_fifo_ramecc_pend" "0,1" bitfld.long 0x4 0. "BUSECC_PEND,Interrupt Pending Status for busecc_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 7. "VP1_FIFO_RAMECC_ENABLE_SET,Interrupt Enable Set Register for vp1_fifo_ramecc_pend" "0,1" bitfld.long 0x0 6. "VP0_FIFO_RAMECC_ENABLE_SET,Interrupt Enable Set Register for vp0_fifo_ramecc_pend" "0,1" bitfld.long 0x0 5. "RAM_RAMECC3_ENABLE_SET,Interrupt Enable Set Register for ram_ramecc3_pend" "0,1" newline bitfld.long 0x0 4. "RAM_RAMECC2_ENABLE_SET,Interrupt Enable Set Register for ram_ramecc2_pend" "0,1" bitfld.long 0x0 3. "RAM_RAMECC1_ENABLE_SET,Interrupt Enable Set Register for ram_ramecc1_pend" "0,1" bitfld.long 0x0 2. "RAM_RAMECC0_ENABLE_SET,Interrupt Enable Set Register for ram_ramecc0_pend" "0,1" newline bitfld.long 0x0 1. "PSIL_FIFO_RAMECC_ENABLE_SET,Interrupt Enable Set Register for psil_fifo_ramecc_pend" "0,1" bitfld.long 0x0 0. "BUSECC_ENABLE_SET,Interrupt Enable Set Register for busecc_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 7. "VP1_FIFO_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for vp1_fifo_ramecc_pend" "0,1" bitfld.long 0x0 6. "VP0_FIFO_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for vp0_fifo_ramecc_pend" "0,1" bitfld.long 0x0 5. "RAM_RAMECC3_ENABLE_CLR,Interrupt Enable Clear Register for ram_ramecc3_pend" "0,1" newline bitfld.long 0x0 4. "RAM_RAMECC2_ENABLE_CLR,Interrupt Enable Clear Register for ram_ramecc2_pend" "0,1" bitfld.long 0x0 3. "RAM_RAMECC1_ENABLE_CLR,Interrupt Enable Clear Register for ram_ramecc1_pend" "0,1" bitfld.long 0x0 2. "RAM_RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for ram_ramecc0_pend" "0,1" newline bitfld.long 0x0 1. "PSIL_FIFO_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for psil_fifo_ramecc_pend" "0,1" bitfld.long 0x0 0. "BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for busecc_pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECC_AGGR__CFG__REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECC_AGGR__CFG__REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECC_AGGR__CFG__REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECC_AGGR__CFG__REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "csi_rx_if0_RX_SHIM_VBUSP_MMR_CSI2RXIF (csi_rx_if0_RX_SHIM_VBUSP_MMR_CSI2RXIF)" base ad:0x30102000 rgroup.long 0x0++0x3 line.long 0x0 "RX_SHIM__VBUSP_MMR__CSI2RXIF_REGS_csirx_id,nothing" bitfld.long 0x0 30.--31. "SCHEME,scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,function" hexmask.long.byte 0x0 11.--15. 1. "RTLVER,rtl version" newline bitfld.long 0x0 8.--10. "MAJREV,major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,custom revision" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINREV,min revision" group.long 0x8++0xB line.long 0x0 "RX_SHIM__VBUSP_MMR__CSI2RXIF_REGS_vp0,Video Port 0 configuration" bitfld.long 0x0 31. "EN_CFG,Video Port enable. Disable:drops pixel data Enable: start on VS captures and sends frame data. Will force ih and iw size by zero pad or trunc. When 1 prevents writing rest of fields in this register." "0,1" hexmask.long.word 0x0 16.--28. 1. "IH_CFG,(U13) input height in units of lines. Only writable when vp0_en_cfg=0. writes blockes when vp0_en_cfg=1" hexmask.long.word 0x0 0.--12. 1. "IW_CFG,(U13) input width in units of RAW data samples. Max usable value determined by populated line buffer RAM size. Only writable when vp0_en_cfg=0. writes blockes when vp0_en_cfg=1. You should read this value first and if set to 0 then you should.." line.long 0x4 "RX_SHIM__VBUSP_MMR__CSI2RXIF_REGS_vp1,Video Port 1 configuration" bitfld.long 0x4 31. "EN_CFG,Video Port enable. Disable:drops pixel data Enable: start on VS captures and sends frame data. Will force ih and iw size by zero pad or trunc. When 1 prevents writing rest of fields in this register." "0,1" hexmask.long.word 0x4 16.--28. 1. "IH_CFG,(U13) input height in units of lines. Only writable when vp0_en_cfg=0. writes blovkes when vp1_en_cfg=1" hexmask.long.word 0x4 0.--12. 1. "IW_CFG,(U13) input width in units of RAW data samples. Max usable value determined by populated line buffer RAM size. Only writable when vp1_en_cfg=0. writes blockes when vp1_en_cfg=1. You should read this value first and if set to 0 then you should.." line.long 0x8 "RX_SHIM__VBUSP_MMR__CSI2RXIF_REGS_cntl,control register for csi rx wrapper" rbitfld.long 0x8 11. "STREAM3_IDLE,indicates if stream interface is idle(1) or not(0)" "0,1" rbitfld.long 0x8 10. "STREAM2_IDLE,indicates if stream interface is idle(1) or not(0)" "0,1" rbitfld.long 0x8 9. "STREAM1_IDLE,indicates if stream interface is idle(1) or not(0)" "0,1" rbitfld.long 0x8 8. "STREAM0_IDLE,indicates if stream interface is idle(1) or not(0)" "0,1" newline bitfld.long 0x8 0. "PIXEL_RESET,reset for the pixeal interface. 0-reset 1 not in reset. this shoud be asserted till after you program the csi controller configuration registers" "0,1" group.long 0x20++0xB line.long 0x0 "RX_SHIM__VBUSP_MMR__CSI2RXIF_REGS_dmaCntx,DMA Channel Context. Configuration for each of 32 possible channel contexts. Illegal to program 2 chanCntx with same extraction values." bitfld.long 0x0 31. "EN_CFG,DMA context is enabled. Will extract channel if input matches dataType and VirtualChan" "0,1" bitfld.long 0x0 29. "RSV0,reserved" "0,1" bitfld.long 0x0 26.--27. "YUV422_MODE_CFG,yuv422 mode 00:UYVY 01:VYUY 10:YUYV 11:YVYU" "0: UYVY,1: VYUY,?,?" bitfld.long 0x0 24. "DUAL_PCK_CFG,dual packed format extraction for 8 bits or less" "0,1" newline bitfld.long 0x0 20.--21. "SIZE_CFG,data size shift when unpacking 00=8 01=16 10=32 11=RSVD" "0: 8,1: 16,?,?" bitfld.long 0x0 18. "PCK12_CFG,12-bit packing enable" "0,1" hexmask.long.byte 0x0 6.--9. 1. "VIRTCH_CFG,CSI virtual channel index. Supplied by MIPI CSI protocol to DPHY. For CSIver1.3 program 2MSb==0" hexmask.long.byte 0x0 0.--5. 1. "DATTYP_CFG,CSI data type index. Supplied by MIPI CSI protocol to DPHY" line.long 0x4 "RX_SHIM__VBUSP_MMR__CSI2RXIF_REGS_psi_cfg0,psi configuration register0" hexmask.long.word 0x4 16.--31. 1. "DST_TAG,psi dst tag" hexmask.long.word 0x4 0.--15. 1. "SRC_TAG,psi source tag" line.long 0x8 "RX_SHIM__VBUSP_MMR__CSI2RXIF_REGS_psi_cfg1,psi configuration register1" hexmask.long.byte 0x8 8.--11. 1. "PS_FLAGS,ps flags" hexmask.long.byte 0x8 0.--4. 1. "PKT_TYPE,psi packet type" tree.end tree "csi_rx_if0_VBUS2APB_WRAP_VBUSP_APB_CSI2RX (csi_rx_if0_VBUS2APB_WRAP_VBUSP_APB_CSI2RX)" base ad:0x30101000 rgroup.long 0x0++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_device_config,This register provides information related to the current configuration." bitfld.long 0x0 31. "STREAM3_MONITOR_PRESENT,Pixel stream 3 Monitor present 1 = implemented" "?,1: implemented" newline bitfld.long 0x0 29.--30. "STREAM3_NUM_PIXELS,The width of the pixel interface and the bits per pixel for the selected datatype will determine how many pixels can be output in a single cycle. Default will be 1 pixel per clock. 00 -> 1.." "0: 1 pixel per clock,1: 2 pixels per clock,?,?" newline bitfld.long 0x0 27.--28. "STREAM3_FIFO_MODE,Stream 3 FIFO Mode." "0,1,2,3" newline bitfld.long 0x0 26. "STREAM2_MONITOR_PRESENT,Pixel stream 2 Monitor present 1 = implemented" "?,1: implemented" newline bitfld.long 0x0 24.--25. "STREAM2_NUM_PIXELS,The width of the pixel interface and the bits per pixel for the selected datatype will determine how many pixels can be output in a single cycle. Default will be 1 pixel per clock. 00 -> 1.." "0: 1 pixel per clock,1: 2 pixels per clock,?,?" newline bitfld.long 0x0 22.--23. "STREAM2_FIFO_MODE,Stream 2 FIFO Mode." "0,1,2,3" newline bitfld.long 0x0 21. "STREAM1_MONITOR_PRESENT,Pixel stream 1 Monitor present 1 = implemented" "?,1: implemented" newline bitfld.long 0x0 19.--20. "STREAM1_NUM_PIXELS,The width of the pixel interface and the bits per pixel for the selected datatype will determine how many pixels can be output in a single cycle. Default will be 1 pixel per clock. 00 -> 1.." "0: 1 pixel per clock,1: 2 pixels per clock,?,?" newline bitfld.long 0x0 17.--18. "STREAM1_FIFO_MODE,Stream 1 FIFO Mode." "0,1,2,3" newline bitfld.long 0x0 16. "STREAM0_MONITOR_PRESENT,Pixel stream 0 Monitor present 1 = implemented" "?,1: implemented" newline bitfld.long 0x0 14.--15. "STREAM0_NUM_PIXELS,The width of the pixel interface and the bits per pixel for the selected datatype will determine how many pixels can be output in a single cycle. Default will be 1 pixel per clock. 00 -> 1.." "0: 1 pixel per clock,1: 2 pixels per clock,?,?" newline bitfld.long 0x0 12.--13. "STREAM0_FIFO_MODE,Stream 0 FIFO Mode." "0,1,2,3" newline bitfld.long 0x0 10. "ASF_CONFIG,Additional Safety Features [ASF] Configuration: 0 = None; 1 = Full ASF." "0: None,1: Full ASF" newline bitfld.long 0x0 9. "VCX_CONFIG,Extended Virtual Channel [VCX] Configuration: 0 = 4 VCs; 1 = 16 VCs" "0: 4 VCs,1: 16 VCs" newline bitfld.long 0x0 7.--8. "DATAPATH_SIZE,Internal Datapath width 00 - 32 bit 01 - 64bit 10 - 16 bit 11 - 8 Bits." "0,1,2,3" newline bitfld.long 0x0 4.--6. "NUM_STREAMS,Number of Stream interfaces [1-4]" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 3. "CDNS_PHY_PRESENT,Cadence DPDHY present 1 = Yes" "?,1: Yes" newline bitfld.long 0x0 0.--2. "MAX_LANE_NB,Max Number of Lanes [1-4]" "0,1,2,3,4,5,6,7" group.long 0x4++0x7 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_soft_reset,CSI2 Target Controller Individual Soft Reset for Front and Protocol blocks." bitfld.long 0x0 1. "PROTOCOL,writing 1'b1 will apply a synchronous soft reset to the protocol module" "0,1" newline bitfld.long 0x0 0. "FRONT,writing 1'b1 will apply a synchronous soft reset to the Front module" "0,1" line.long 0x4 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_static_cfg,Configuration register to set the physical/logical DPHY lane mapping." bitfld.long 0x4 28.--30. "DL3_MAP,physical mapping of logical data lane 3" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 24.--26. "DL2_MAP,physical mapping of logical data lane 2." "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 20.--22. "DL1_MAP,physical mapping of logical data lane 1." "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 16.--18. "DL0_MAP,physical mapping of logical data lane 0." "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 8.--10. "LANE_NB,The number of lanes" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 4. "V2P0_SUPPORT_ENABLE,Support extended VC up to 16 virtual channels [4-bits] and RAW16/20. as per CSI2RX v2.0. Default is up to 4 virtual channels [3-bits] as per CSI2RX v1.3" "0,1" newline bitfld.long 0x4 0.--1. "SEL,selection of DPHY used as input of CSI2RX module" "0,1,2,3" group.long 0x10++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_error_bypass_cfg,Error detection event flag configuration." bitfld.long 0x0 2. "DATA_ID,Enables Data ID error bypass for stream outputs. When enabled Data ID errors in packets are signalled as interrupt events however the data is still passed to the pixel/packed data outputs. The system must decide to.." "0,1" newline bitfld.long 0x0 1. "ECC,Enables ECC error bypass for stream outputs. When enabled CRC errors in packets are signalled as interrupt events however the data is still passed to the pixel/packed data outputs. The system must decide to mask of use the.." "0,1" newline bitfld.long 0x0 0. "CRC,Enables CRC error bypass for stream outputs. When enabled CRC errors in packets are signalled as interrupt events however the data is still passed to the pixel/packed data outputs. The system must decide to mask of use the.." "0,1" group.long 0x18++0x17 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_monitor_irqs,Information type Interrupt status (non-error conditions)" bitfld.long 0x0 31. "STREAM3_LINE_CNT_ERROR_IRQ,Stream 3 Line count error interrupt" "0,1" newline bitfld.long 0x0 30. "STREAM3_FRAME_MISMATCH_IRQ,Stream 3 Frame mismatch error interrupt" "0,1" newline bitfld.long 0x0 29. "STREAM3_FRAME_CNT_ERROR_IRQ,Stream 3 Frame count error interrupt" "0,1" newline bitfld.long 0x0 28. "STREAM3_FCC_STOP_IRQ,Stream 3 FCC stop interrupt" "0,1" newline bitfld.long 0x0 27. "STREAM3_FCC_START_IRQ,Stream 3 FCC start interrupt" "0,1" newline bitfld.long 0x0 26. "STREAM3_FRAME_IRQ,Stream 3 Frame interrupt" "0,1" newline bitfld.long 0x0 25. "STREAM3_LB_IRQ,Stream 3 Line/byte interrupt" "0,1" newline bitfld.long 0x0 24. "STREAM3_TIMER_IRQ,Stream 3 Timer interrupt" "0,1" newline bitfld.long 0x0 23. "STREAM2_LINE_CNT_ERROR_IRQ,Stream 2 Line count error interrupt" "0,1" newline bitfld.long 0x0 22. "STREAM2_FRAME_MISMATCH_IRQ,Stream 2 Frame mismatch error interrupt" "0,1" newline bitfld.long 0x0 21. "STREAM2_FRAME_CNT_ERROR_IRQ,Stream 2 Frame count error interrupt" "0,1" newline bitfld.long 0x0 20. "STREAM2_FCC_STOP_IRQ,Stream 2 FCC stop interrupt" "0,1" newline bitfld.long 0x0 19. "STREAM2_FCC_START_IRQ,Stream 2 FCC start interrupt" "0,1" newline bitfld.long 0x0 18. "STREAM2_FRAME_IRQ,Stream 2 Frame interrupt" "0,1" newline bitfld.long 0x0 17. "STREAM2_LB_IRQ,Stream 2 Line/byte interrupt" "0,1" newline bitfld.long 0x0 16. "STREAM2_TIMER_IRQ,Stream 2 Timer interrupt" "0,1" newline bitfld.long 0x0 15. "STREAM1_LINE_CNT_ERROR_IRQ,Stream 1 Line count error interrupt" "0,1" newline bitfld.long 0x0 14. "STREAM1_FRAME_MISMATCH_IRQ,Stream 1 Frame mismatch error interrupt" "0,1" newline bitfld.long 0x0 13. "STREAM1_FRAME_CNT_ERROR_IRQ,Stream 1 Frame count error interrupt" "0,1" newline bitfld.long 0x0 12. "STREAM1_FCC_STOP_IRQ,Stream 1 FCC stop interrupt" "0,1" newline bitfld.long 0x0 11. "STREAM1_FCC_START_IRQ,Stream 1 FCC start interrupt" "0,1" newline bitfld.long 0x0 10. "STREAM1_FRAME_IRQ,Stream 1 Frame interrupt" "0,1" newline bitfld.long 0x0 9. "STREAM1_LB_IRQ,Stream 1 Line/byte interrupt" "0,1" newline bitfld.long 0x0 8. "STREAM1_TIMER_IRQ,Stream 1 Timer interrupt" "0,1" newline bitfld.long 0x0 7. "STREAM0_LINE_CNT_ERROR_IRQ,Stream 0 Line count error interrupt" "0,1" newline bitfld.long 0x0 6. "STREAM0_FRAME_MISMATCH_IRQ,Stream 0 Frame mismatch error interrupt" "0,1" newline bitfld.long 0x0 5. "STREAM0_FRAME_CNT_ERROR_IRQ,Stream 0 Frame count error interrupt" "0,1" newline bitfld.long 0x0 4. "STREAM0_FCC_STOP_IRQ,Stream 0 FCC stop interrupt" "0,1" newline bitfld.long 0x0 3. "STREAM0_FCC_START_IRQ,Stream 0 FCC start interrupt" "0,1" newline bitfld.long 0x0 2. "STREAM0_FRAME_IRQ,Stream 0 Frame interrupt" "0,1" newline bitfld.long 0x0 1. "STREAM0_LB_IRQ,Stream 0 Line/byte interrupt" "0,1" newline bitfld.long 0x0 0. "STREAM0_TIMER_IRQ,Stream 0 Timer interrupt" "0,1" line.long 0x4 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_monitor_irqs_mask_cfg,Monitor interrupt mask. Bit addressable mask register in order to independently enable" bitfld.long 0x4 31. "STREAM3_LINE_CNT_ERROR_IRQM,Interrupt mask for stream 3 Line count error." "0,1" newline bitfld.long 0x4 30. "STREAM3_FRAME_MISMATCH_IRQM,Interrupt mask for stream 3 Frame mismatch error." "0,1" newline bitfld.long 0x4 29. "STREAM3_FRAME_CNT_ERROR_IRQM,Interrupt mask for stream 3 Frame count error." "0,1" newline bitfld.long 0x4 28. "STREAM3_FCC_STOP_IRQM,Interrupt mask for stream 3 FCC stop." "0,1" newline bitfld.long 0x4 27. "STREAM3_FCC_START_IRQM,Interrupt mask for stream 3 FCC start." "0,1" newline bitfld.long 0x4 26. "STREAM3_FRAME_IRQM,Interrupt mask for stream 3 Frame." "0,1" newline bitfld.long 0x4 25. "STREAM3_LB_IRQM,Interrupt mask for stream 3 Line/byte." "0,1" newline bitfld.long 0x4 24. "STREAM3_TIMER_IRQM,Interrupt mask stream 3 Timer" "0,1" newline bitfld.long 0x4 23. "STREAM2_LINE_CNT_ERROR_IRQM,Interrupt mask for stream 2 Line count error." "0,1" newline bitfld.long 0x4 22. "STREAM2_FRAME_MISMATCH_IRQM,Interrupt mask for stream 2 Frame mismatch error." "0,1" newline bitfld.long 0x4 21. "STREAM2_FRAME_CNT_ERROR_IRQM,Interrupt mask for stream 2 Frame count error." "0,1" newline bitfld.long 0x4 20. "STREAM2_FCC_STOP_IRQM,Interrupt mask for stream 2 FCC stop." "0,1" newline bitfld.long 0x4 19. "STREAM2_FCC_START_IRQM,Interrupt mask for stream 2 FCC start." "0,1" newline bitfld.long 0x4 18. "STREAM2_FRAME_IRQM,Interrupt mask for stream 2 Frame." "0,1" newline bitfld.long 0x4 17. "STREAM2_LB_IRQM,Interrupt mask for stream 2 Line/byte." "0,1" newline bitfld.long 0x4 16. "STREAM2_TIMER_IRQM,Interrupt mask stream 2 Timer" "0,1" newline bitfld.long 0x4 15. "STREAM1_LINE_CNT_ERROR_IRQM,Interrupt mask for stream 1 Line count error." "0,1" newline bitfld.long 0x4 14. "STREAM1_FRAME_MISMATCH_IRQM,Interrupt mask for stream 1 Frame mismatch error." "0,1" newline bitfld.long 0x4 13. "STREAM1_FRAME_CNT_ERROR_IRQM,Interrupt mask for stream 1 Frame count error." "0,1" newline bitfld.long 0x4 12. "STREAM1_FCC_STOP_IRQM,Interrupt mask for stream 1 FCC stop." "0,1" newline bitfld.long 0x4 11. "STREAM1_FCC_START_IRQM,Interrupt mask for stream 1 FCC start." "0,1" newline bitfld.long 0x4 10. "STREAM1_FRAME_IRQM,Interrupt mask for stream 1 Frame." "0,1" newline bitfld.long 0x4 9. "STREAM1_LB_IRQM,Interrupt mask for stream 1 Line/byte." "0,1" newline bitfld.long 0x4 8. "STREAM1_TIMER_IRQM,Interrupt mask stream 1 Timer" "0,1" newline bitfld.long 0x4 7. "STREAM0_LINE_CNT_ERROR_IRQM,Interrupt mask for stream 0 Line count error." "0,1" newline bitfld.long 0x4 6. "STREAM0_FRAME_MISMATCH_IRQM,Interrupt mask for stream 0 Frame mismatch error." "0,1" newline bitfld.long 0x4 5. "STREAM0_FRAME_CNT_ERROR_IRQM,Interrupt mask for stream 0 Frame count error." "0,1" newline bitfld.long 0x4 4. "STREAM0_FCC_STOP_IRQM,Interrupt mask for stream 0 FCC stop." "0,1" newline bitfld.long 0x4 3. "STREAM0_FCC_START_IRQM,Interrupt mask for stream 0 FCC start." "0,1" newline bitfld.long 0x4 2. "STREAM0_FRAME_IRQM,Interrupt mask for stream 0 Frame." "0,1" newline bitfld.long 0x4 1. "STREAM0_LB_IRQM,Interrupt mask for stream 0 Line/byte." "0,1" newline bitfld.long 0x4 0. "STREAM0_TIMER_IRQM,Interrupt mask stream 0 Timer" "0,1" line.long 0x8 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_info_irqs,Information type Interrupt status (non-error conditions)" bitfld.long 0x8 14. "STREAM3_ABORT_IRQ,Stream 3 Abort process complete. Apply a Soft reset before re-enabling the stream." "0,1" newline bitfld.long 0x8 13. "STREAM3_STOP_IRQ,Stream 3 Stop process complete. Apply a Soft reset before re-enabling the stream." "0,1" newline bitfld.long 0x8 12. "STREAM2_ABORT_IRQ,Stream 2 Abort process complete. Apply a Soft reset before re-enabling the stream." "0,1" newline bitfld.long 0x8 11. "STREAM2_STOP_IRQ,Stream 2 Stop process complete. Apply a Soft reset before re-enabling the stream." "0,1" newline bitfld.long 0x8 10. "STREAM1_ABORT_IRQ,Stream 1 Abort process complete. Apply a Soft reset before re-enabling the stream." "0,1" newline bitfld.long 0x8 9. "STREAM1_STOP_IRQ,Stream 1 Stop process complete. Apply a Soft reset before re-enabling the stream." "0,1" newline bitfld.long 0x8 8. "STREAM0_ABORT_IRQ,Stream 0 Abort process complete. Apply a Soft reset before re-enabling the stream." "0,1" newline bitfld.long 0x8 7. "STREAM0_STOP_IRQ,Stream 0 Stop process complete. Apply a Soft reset before re-enabling the stream." "0,1" newline bitfld.long 0x8 6. "SP_GENERIC_RCVD_IRQ,A generic short packet has been received." "0,1" newline bitfld.long 0x8 5. "DESKEW_ENTRY_IRQ,Either clock or any datalane has entered deskew" "0,1" newline bitfld.long 0x8 4. "ECC_SPARES_NONZERO_IRQ,Bits 7:6 of the ECC byte are non-zero. Indicates non compliance with the MIPI specification although the core will continue to operate as normal." "0,1" newline bitfld.long 0x8 3. "WAKEUP_IRQ,Wake-up interrupt." "0,1" newline bitfld.long 0x8 2. "SLEEP_IRQ,Sleep interrupt." "0,1" newline bitfld.long 0x8 1. "LP_RCVD_IRQ,Long Packet received by the protocol module" "0,1" newline bitfld.long 0x8 0. "SP_RCVD_IRQ,Short Packet received by the protocol module" "0,1" line.long 0xC "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_info_irqs_mask_cfg,Information interrupt mask. Bit addressable mask register in order to independently enable" bitfld.long 0xC 14. "STREAM3_ABORT_IRQM,Interrupt mask for stream 3 Abort process." "0,1" newline bitfld.long 0xC 13. "STREAM3_STOP_IRQM,Interrupt mask for Stream 3 Stop process complete." "0,1" newline bitfld.long 0xC 12. "STREAM2_ABORT_IRQM,Interrupt mask for stream 2 Abort process." "0,1" newline bitfld.long 0xC 11. "STREAM2_STOP_IRQM,Interrupt mask for Stream 2 Stop process complete." "0,1" newline bitfld.long 0xC 10. "STREAM1_ABORT_IRQM,Interrupt mask for stream 1 Abort process." "0,1" newline bitfld.long 0xC 9. "STREAM1_STOP_IRQM,Interrupt mask for Stream 1 Stop process complete." "0,1" newline bitfld.long 0xC 8. "STREAM0_ABORT_IRQM,Interrupt mask for stream 0 Abort process." "0,1" newline bitfld.long 0xC 7. "STREAM0_STOP_IRQM,Interrupt mask for Stream 0 Stop process complete." "0,1" newline bitfld.long 0xC 6. "SP_GENERIC_RCVD_IRQM,Interrupt mask for Generic Short Packet received" "0,1" newline bitfld.long 0xC 5. "DESKEW_ENTRY_IRQM,Interrupt mask for Deskew entry check" "0,1" newline bitfld.long 0xC 4. "ECC_SPARES_NONZERO_IRQM,Interrupt mask for ECC spares check" "0,1" newline bitfld.long 0xC 3. "WAKEUP_IRQM,Interrupt mask for Wake-up interrupt." "0,1" newline bitfld.long 0xC 2. "SLEEP_IRQM,Interrupt mask for Sleep interrupt." "0,1" newline bitfld.long 0xC 1. "LP_RCVD_IRQM,Interrupt mask for Long Packet received flag" "0,1" newline bitfld.long 0xC 0. "SP_RCVD_IRQM,Interrupt mask for Short Packet received" "0,1" line.long 0x10 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_error_irqs,Datapath error interrupt status." bitfld.long 0x10 19. "STREAM3_FIFO_OVERFLOW_IRQ,Overflow of the Stream FIFO detected: stream_fifo_overflow[19] -> Stream 3 overflow" "0,1" newline bitfld.long 0x10 18. "STREAM2_FIFO_OVERFLOW_IRQ,Overflow of the Stream FIFO detected: stream_fifo_overflow[18] -> Stream 2 overflow" "0,1" newline bitfld.long 0x10 17. "STREAM1_FIFO_OVERFLOW_IRQ,Overflow of the Stream FIFO detected: stream_fifo_overflow[17] -> Stream 1 overflow" "0,1" newline bitfld.long 0x10 16. "STREAM0_FIFO_OVERFLOW_IRQ,Overflow of the Stream FIFO detected: stream_fifo_overflow[16] -> Stream 0 overflow" "0,1" newline bitfld.long 0x10 12. "FRONT_TRUNC_HDR_IRQ,A truncated header [short or Long] has been received" "0,1" newline bitfld.long 0x10 11. "PROT_TRUNCATED_PACKET_IRQ,A truncated Long packet has been received. Too few/many bytes" "0,1" newline bitfld.long 0x10 10. "FRONT_LP_NO_PAYLOAD_IRQ,A truncated Long packet has been received. No payload" "0,1" newline bitfld.long 0x10 9. "SP_INVALID_RCVD_IRQ,A reserved or invalid short packet has been received" "0,1" newline bitfld.long 0x10 8. "INVALID_ACCESS_IRQ,Invalid access to the configuration register space." "0,1" newline bitfld.long 0x10 7. "DATA_ID_IRQ,Data ID error has been detected in the header packet" "0,1" newline bitfld.long 0x10 6. "HEADER_CORRECTED_ECC_IRQ,ECC error has been detected and corrected." "0,1" newline bitfld.long 0x10 5. "HEADER_ECC_IRQ,Unrecoverable ECC error has been detected." "0,1" newline bitfld.long 0x10 4. "PAYLOAD_CRC_IRQ,CRC error has been detected." "0,1" newline bitfld.long 0x10 0. "FRONT_FIFO_OVERFLOW_IRQ,Overflow detected in resynchronization FIFO between DPHY Lane Management and Protocol blocks. This will occur if sys_clk is not fast enough and should be increased since the byte clock frequency is fixed" "0,1" line.long 0x14 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_error_irqs_mask_cfg,Datapath error interrupt enable Bits. This register is used to independently enable each event" bitfld.long 0x14 19. "STREAM3_FIFO_OVERFLOW_IRQM,Interrupt enable bit for: stream_fifo_overflow[19] -> Stream 3 overflow" "0,1" newline bitfld.long 0x14 18. "STREAM2_FIFO_OVERFLOW_IRQM,Interrupt enable bit for: stream_fifo_overflow[18] -> Stream 2 overflow" "0,1" newline bitfld.long 0x14 17. "STREAM1_FIFO_OVERFLOW_IRQM,Interrupt enable bit for: stream_fifo_overflow[17] -> Stream 1 overflow" "0,1" newline bitfld.long 0x14 16. "STREAM0_FIFO_OVERFLOW_IRQM,Interrupt enable bit for: stream_fifo_overflow[16] -> Stream 0 overflow" "0,1" newline bitfld.long 0x14 12. "FRONT_TRUNC_HDR_IRQM,Interrupt enable bit for truncated hdr." "0,1" newline bitfld.long 0x14 11. "PROT_TRUNCATED_PACKET_IRQM,Interrupt enable bit for long packet payload with too many/few bytes" "0,1" newline bitfld.long 0x14 10. "FRONT_LP_NO_PAYLOAD_IRQM,Interrupt enable bit for long packet header received with no payload" "0,1" newline bitfld.long 0x14 9. "SP_INVALID_RCVD_IRQM,Interrupt enable bit for invalid short packet" "0,1" newline bitfld.long 0x14 8. "INVALID_ACCESS_IRQM,Interrupt enable bit for error_irqs_invalid_access." "0,1" newline bitfld.long 0x14 7. "DATA_ID_IRQM,Interrupt enable bit for error_irqs_data_id" "0,1" newline bitfld.long 0x14 6. "HEADER_CORRECTED_ECC_IRQM,Interrupt enable bit for error_irqs_header_corrected_ecc" "0,1" newline bitfld.long 0x14 5. "HEADER_ECC_IRQM,Interrupt enable bit for error_irqs_header_ecc" "0,1" newline bitfld.long 0x14 4. "PAYLOAD_CRC_IRQM,Interrupt enable bit for error_irqs_payload_crc" "0,1" newline bitfld.long 0x14 0. "FRONT_FIFO_OVERFLOW_IRQM,Interrupt enable bit for error_irqs_front_fifo_overflow" "0,1" group.long 0x40++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_dphy_lane_control,DPHY lane control for data and clock lanes enables and resets" bitfld.long 0x0 16. "CL_RESET,DPHY Clock lane Reset" "0,1" newline bitfld.long 0x0 15. "DL3_RESET,DPHY data lane 3 Reset" "0,1" newline bitfld.long 0x0 14. "DL2_RESET,DPHY data lane 2 Reset" "0,1" newline bitfld.long 0x0 13. "DL1_RESET,DPHY data lane 1 Reset" "0,1" newline bitfld.long 0x0 12. "DL0_RESET,DPHY data lane 0 Reset" "0,1" newline bitfld.long 0x0 4. "CL_ENABLE,DPHY Clock lane Enable" "0,1" newline bitfld.long 0x0 3. "DL3_ENABLE,DPHY data lane 3 Enable" "0,1" newline bitfld.long 0x0 2. "DL2_ENABLE,DPHY data lane 2 Enable" "0,1" newline bitfld.long 0x0 1. "DL1_ENABLE,DPHY data lane 1 Enable" "0,1" newline bitfld.long 0x0 0. "DL0_ENABLE,DPHY data lane 0 Enable" "0,1" rgroup.long 0x48++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_dphy_status,DPHY Clock and Data Lane mode status" bitfld.long 0x0 22. "DL3_RXULPSESC,DPHY Data lane 3 ULPS Esc" "0,1" newline bitfld.long 0x0 21. "DL3_ULPSACTIVENOT,DPHY Data lane 3 ULPSActiveNot" "0,1" newline bitfld.long 0x0 20. "DL3_STOPSTATE,DPHY Data lane 3 Stop State" "0,1" newline bitfld.long 0x0 18. "DL2_RXULPSESC,DPHY Data lane 2 ULPS Esc" "0,1" newline bitfld.long 0x0 17. "DL2_ULPSACTIVENOT,DPHY Data lane 2 ULPSActiveNot" "0,1" newline bitfld.long 0x0 16. "DL2_STOPSTATE,DPHY Data lane 2 Stop State" "0,1" newline bitfld.long 0x0 14. "DL1_RXULPSESC,DPHY Data lane 1 ULPS Esc" "0,1" newline bitfld.long 0x0 13. "DL1_ULPSACTIVENOT,DPHY Data lane 1 ULPSActiveNot" "0,1" newline bitfld.long 0x0 12. "DL1_STOPSTATE,DPHY Data lane 1 Stop State" "0,1" newline bitfld.long 0x0 10. "DL0_RXULPSESC,DPHY Data lane 0 ULPS Esc" "0,1" newline bitfld.long 0x0 9. "DL0_ULPSACTIVENOT,DPHY Data lane 0 ULPSActiveNot" "0,1" newline bitfld.long 0x0 8. "DL0_STOPSTATE,DPHY Data lane 0 Stop State" "0,1" newline bitfld.long 0x0 2. "CL_RXULPSCLKNOT,DPHY Clock lane RxULPSClkNot" "0,1" newline bitfld.long 0x0 1. "CL_ULPSACTIVENOT,DPHY Clock lane ULPSActiveNot" "0,1" newline bitfld.long 0x0 0. "CL_STOPSTATE,DPHY Clock lane Stop State" "0,1" group.long 0x4C++0x7 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_dphy_err_status_irq,DPHY error interrupt status" bitfld.long 0x0 20. "DL3_ERRSOTHS_IRQ,DPHY Data lane 3 ErrSotHS" "0,1" newline bitfld.long 0x0 16. "DL2_ERRSOTHS_IRQ,DPHY Data lane 2 ErrSotHS" "0,1" newline bitfld.long 0x0 12. "DL1_ERRSOTHS_IRQ,DPHY Data lane 1 ErrSotHS" "0,1" newline bitfld.long 0x0 8. "DL0_ERRSOTHS_IRQ,DPHY Data lane 0 ErrSotHS" "0,1" line.long 0x4 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_dphy_err_irq_mask_cfg,DPHY error interrupt status" bitfld.long 0x4 20. "DL3_ERRSOTHS_IRQM,DPHY Data lane 3 ErrSotHS mask" "0,1" newline bitfld.long 0x4 16. "DL2_ERRSOTHS_IRQM,DPHY Data lane 2 ErrSotHS mask" "0,1" newline bitfld.long 0x4 12. "DL1_ERRSOTHS_IRQM,DPHY Data lane 1 ErrSotHS mask" "0,1" newline bitfld.long 0x4 8. "DL0_ERRSOTHS_IRQM,DPHY Data lane 0 ErrSotHS mask" "0,1" rgroup.long 0x60++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_integration_debug,Used to observe the current data field. extracted by the protocol block from the last" hexmask.long.byte 0x0 28.--31. 1. "PROT_FSM_STATE,csi2rx_fsm_state 0x1: WAIT_FOR_PACKET 0x2: PAYLOAD_DATA 0x4: PACKET_FOOTER_CHECK" newline hexmask.long.byte 0x0 22.--25. 1. "PROT_VC,Protocol Virtual Channel" newline hexmask.long.byte 0x0 16.--21. 1. "PROT_DT,Protocol Datatype" newline hexmask.long.word 0x0 0.--15. 1. "PROT_WORD_COUNT,Protocol Word Count [Data Field]" rgroup.long 0x74++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_error_debug,Error condition debug. After an error is detected by the CSI2RX. this register indicates which virtual channel." hexmask.long.word 0x0 16.--31. 1. "DATA_FIELD,Indicates the Data Field for an invalid CRC/ECC/Data ID" newline hexmask.long.byte 0x0 6.--9. 1. "VC,Indicates the Virtual Channel for a invalid CRC/ECC/Data ID" newline hexmask.long.byte 0x0 0.--5. 1. "DT,Indicates the Data Type for a invalid CRC/ECC/Data ID" group.long 0x80++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_test_generic,Generic test control and status register that controls and reads primary I/O." hexmask.long.word 0x0 16.--31. 1. "STATUS,Test status - Directly reflects after resynchronisation into the pclk domain the state of 'test_generic_status' primary inputs." newline hexmask.long.word 0x0 0.--15. 1. "CTRL,Test control - Directly controls primary outputs 'test_generic_ctrl'" group.long 0x100++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream0_ctrl,CSI2RX Stream Data output datapath control." bitfld.long 0x0 4. "SOFT_RST,Writing 1'b1 will apply a synchronous soft reset of this stream registers/FIFO" "0,1" newline bitfld.long 0x0 2. "ABORT,Writing 1 this register will cause the csi2rx to stop streaming on the corresponding output immediately. This may corrupt the output protocol. stream_abort_irq is generated on completion of the abort operation." "0,1" newline bitfld.long 0x0 1. "STOP,Writing 1 in this register will cause csi2rx to stop streaming on the corresponding output at the end of the current frame. If the command is issued during frame blanking then the datapath will immediately stop streaming.." "0,1" newline bitfld.long 0x0 0. "START,Writing 1 in this register enables the corresponding datapath output. It will start streaming data at the start of the next frame that complies with the output configuration. stream_status[31] running indicates when data.." "0,1" rgroup.long 0x104++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream0_status,CSI2 Target Controller Status. Contains useful debug information such as" bitfld.long 0x0 31. "RUNNING,The Stream is enabled" "0,1" newline bitfld.long 0x0 8. "READY_STATE,Indicates the state of the pushback signal pixel_ready_if for this stream" "0,1" newline hexmask.long.byte 0x0 4.--7. 1. "STREAM_FSM,Output to Stream FSM states: 0x0: STREAM_IDLE 0x1: STREAM_WAIT_CTRL_DATA // Expecting control data next 0x2: STREAM_CTRL // Check contents of Ctrl packet and extract header.." newline bitfld.long 0x0 0.--1. "PROTOCOL_FSM,Input to Stream FSM states: 0x0: PROT_IDLE 0x1: PROT_WAIT_CTRL 0x2: PROT_CTRL 0x3: PROT_DATA" "0: PROT_IDLE,1: PROT_WAIT_CTRL,2: PROT_CTRL,3: PROT_DATA" group.long 0x108++0xB line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream0_data_cfg,Secondary CSI2 Target Controller Data outputs configuration." hexmask.long.word 0x0 16.--31. 1. "VC_SELECT,Selection of Virtual Channels to be processed: Default '0' -> All Virtual Channels are processed vc_select0[16] -> Virtual Channel Select 0 is processed vc_select1[17] -> Virtual Channel Select 1 is processed vc_select2[18] ->.." newline bitfld.long 0x0 15. "ENABLE_DT1,Enable processing of dt1" "0,1" newline hexmask.long.byte 0x0 8.--13. 1. "DATATYPE_SELECT1,Second data type format that this stream will process" newline bitfld.long 0x0 7. "ENABLE_DT0,Enable processing of dt0" "0,1" newline hexmask.long.byte 0x0 0.--5. 1. "DATATYPE_SELECT0,First data type format that this stream will process" line.long 0x4 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream0_cfg,Primary CSI2 Target Controller Data pixel outputs configuration." hexmask.long.word 0x4 16.--31. 1. "FIFO_FILL,Set the FIFO_FILL_LEVEL which is used to hold data in the FIFO until this level is reached before allow data to be pulled. This setting is only used when fifo_mode is set for Large Buffer operation" newline bitfld.long 0x4 12.--14. "BPP_BYPASS,Force unpacking of any Data type as selected RAW type. 0 - No bypass 1 - unpack as RAW6 2 - unpack as RAW7 3 - unpack as RAW8 4 - unpack as RAW10 5 - unpack as.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 8.--9. "FIFO_MODE,Stream FIFO configuration which must be set in accordance to FIFO sizing flow control and the relationship between the link and pixel interface data rates. Refer to Use Case descriptions for further guidance on FIFO sizing and.." "0: Full Line Buffer,1: Large Buffer [Fill Level Controlled],?,?" newline bitfld.long 0x4 4.--5. "NUM_PIXELS,Number of pixels to output from the stream. Valid values are 1 2 4 and 8. The width of the pixel interface and the bits per pixel for the selected datatype will determine how many pixels can be.." "0: 1 pixel per clock,1: 2 pixels per clock,?,?" newline bitfld.long 0x4 1. "LS_LE_MODE,Enable LS/LE control of HYSNC_VALID output. By default LS and LE short packets are not required and HYSC_VALID will be generated from the start and end of payload data." "0,1" newline bitfld.long 0x4 0. "INTERFACE_MODE,Select the output configuration. Pixel = 0 [default] Packed = 1" "0,1" line.long 0x8 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream0_monitor_ctrl,Stream Monitor configuration." hexmask.long.word 0x8 16.--31. 1. "FRAME_LENGTH,Indicates the frame length in lines to detect truncated frames. This value must not change while monitor is enabled i.e. it must only be changed when the frame_mon_en bit is low. 0x0000 means truncated.." newline bitfld.long 0x8 15. "FRAME_MON_EN,Enables monitor. This bit must only be set high after the frame_mon_vc and frame_length have been set." "0,1" newline hexmask.long.byte 0x8 11.--14. 1. "FRAME_MON_VC,Indicates virtual channel for monitor. This value must not change while monitor is enabled i.e. it must only be changed when the frame_mon_en bit is low." newline bitfld.long 0x8 10. "TIMER_EOF,Select the starting point of the timer: 0x0: Start of Frame event on selected virtual channel 0x1: End of Frame event on selected virtual channel. This value must not change while timer_en is enabled" "0: Start of Frame event on selected virtual channel,1: End of Frame event on selected virtual channel" newline bitfld.long 0x8 9. "TIMER_EN,Enables timer based interrupt. This bit must only be set high after the timer_eof and timer_vc have been set." "0,1" newline hexmask.long.byte 0x8 5.--8. 1. "TIMER_VC,Indicates which VC should be used to generate timer based interrupt. This value must not change while timer_en is enabled." newline bitfld.long 0x8 4. "LB_EN,Enables line/byte counter. This bit must only be set high after the lb_vc line_count and byte_count have been set." "0,1" newline hexmask.long.byte 0x8 0.--3. 1. "LB_VC,Indicates which VC should be used to generate line/byte counter interrupt. This value must not change while lb_en is enabled" rgroup.long 0x114++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream0_monitor_frame,Stream Monitor Frame." hexmask.long.word 0x0 16.--31. 1. "PACKET_SIZE,Size of the current payload" newline hexmask.long.word 0x0 0.--15. 1. "NB,Number of the last frame processed." group.long 0x118++0x13 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream0_monitor_lb,Stream Monitor Line." hexmask.long.word 0x0 16.--31. 1. "LINE_COUNT,Indicates the line number to generate an interrupt. [First line of a Frame is line number 0]" newline hexmask.long.word 0x0 0.--15. 1. "BYTE_COUNT,Indicates the byte number of the line to generate an interrupt. [First byte of a line is byte number 0]" line.long 0x4 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream0_timer,Stream Timer." hexmask.long 0x4 0.--24. 1. "COUNT,Number of clock cycles" line.long 0x8 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream0_fcc_cfg,Stream Frame Capture Control configuration." hexmask.long.word 0x8 16.--31. 1. "FRAME_COUNT_STOP,Indicates the frame number on which the interrupt should be generated and the stream will stop outputting data on the pixel interface. [0x0000 will be continuous frames.]" newline hexmask.long.word 0x8 0.--15. 1. "FRAME_COUNT_START,Indicates the frame number on which the interrupt should be generated and the stream will start outputting data on the pixel interface. [0x0000 will be the current frame.]" line.long 0xC "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream0_fcc_ctrl,Stream Frame Capture Counter control." hexmask.long.word 0xC 16.--31. 1. "FRAME_COUNTER,Current Frame number being processed" newline hexmask.long.byte 0xC 1.--4. 1. "FCC_VC,Indicates which VC should be used to generate FCC interrupts. This value must not change while fcc_en is enabled" newline bitfld.long 0xC 0. "FCC_EN,Frame Capture Counter enable." "0,1" line.long 0x10 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream0_fifo_fill_lvl,Stream FIFO fill level monitor. This can operate in 2 modes:" bitfld.long 0x10 12.--13. "MODE,00 -> Fill level detection disabled 01 -> Mode 1 10 -> Mode 2 11 -> Reserved" "0: Fill level detection disabled,1: Mode 1,?,?" newline hexmask.long.word 0x10 0.--9. 1. "COUNT,Peak fill level of FIFO." group.long 0x200++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream1_ctrl,CSI2RX Stream Data output datapath control." bitfld.long 0x0 4. "SOFT_RST,Writing 1'b1 will apply a synchronous soft reset of this stream registers/FIFO" "0,1" newline bitfld.long 0x0 2. "ABORT,Writing 1 this register will cause the csi2rx to stop streaming on the corresponding output immediately. This may corrupt the output protocol. stream_abort_irq is generated on completion of the abort operation." "0,1" newline bitfld.long 0x0 1. "STOP,Writing 1 in this register will cause csi2rx to stop streaming on the corresponding output at the end of the current frame. If the command is issued during frame blanking then the datapath will immediately stop streaming.." "0,1" newline bitfld.long 0x0 0. "START,Writing 1 in this register enables the corresponding datapath output. It will start streaming data at the start of the next frame that complies with the output configuration. stream_status[31] running indicates when data.." "0,1" rgroup.long 0x204++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream1_status,CSI2 Target Controller Status. Contains useful debug information such as" bitfld.long 0x0 31. "RUNNING,The Stream is enabled" "0,1" newline bitfld.long 0x0 8. "READY_STATE,Indicates the state of the pushback signal pixel_ready_if for this stream" "0,1" newline hexmask.long.byte 0x0 4.--7. 1. "STREAM_FSM,Output to Stream FSM states: 0x0: STREAM_IDLE 0x1: STREAM_WAIT_CTRL_DATA // Expecting control data next 0x2: STREAM_CTRL // Check contents of Ctrl packet and extract header.." newline bitfld.long 0x0 0.--1. "PROTOCOL_FSM,Input to Stream FSM states: 0x0: PROT_IDLE 0x1: PROT_WAIT_CTRL 0x2: PROT_CTRL 0x3: PROT_DATA" "0: PROT_IDLE,1: PROT_WAIT_CTRL,2: PROT_CTRL,3: PROT_DATA" group.long 0x208++0xB line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream1_data_cfg,Secondary CSI2 Target Controller Data outputs configuration." hexmask.long.word 0x0 16.--31. 1. "VC_SELECT,Selection of Virtual Channels to be processed: Default '0' -> All Virtual Channels are processed vc_select0[16] -> Virtual Channel Select 0 is processed vc_select1[17] -> Virtual Channel Select 1 is processed vc_select2[18] ->.." newline bitfld.long 0x0 15. "ENABLE_DT1,Enable processing of dt1" "0,1" newline hexmask.long.byte 0x0 8.--13. 1. "DATATYPE_SELECT1,Second data type format that this stream will process" newline bitfld.long 0x0 7. "ENABLE_DT0,Enable processing of dt0" "0,1" newline hexmask.long.byte 0x0 0.--5. 1. "DATATYPE_SELECT0,First data type format that this stream will process" line.long 0x4 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream1_cfg,Primary CSI2 Target Controller Data pixel outputs configuration." hexmask.long.word 0x4 16.--31. 1. "FIFO_FILL,Set the FIFO_FILL_LEVEL which is used to hold data in the FIFO until this level is reached before allow data to be pulled. This setting is only used when fifo_mode is set for Large Buffer operation" newline bitfld.long 0x4 12.--14. "BPP_BYPASS,Force unpacking of any Data type as selected RAW type. 0 - No bypass 1 - unpack as RAW6 2 - unpack as RAW7 3 - unpack as RAW8 4 - unpack as RAW10 5 - unpack as.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 8.--9. "FIFO_MODE,Stream FIFO configuration which must be set in accordance to FIFO sizing flow control and the relationship between the link and pixel interface data rates. Refer to Use Case descriptions for further guidance on FIFO sizing and.." "0: Full Line Buffer,1: Large Buffer [Fill Level Controlled],?,?" newline bitfld.long 0x4 4.--5. "NUM_PIXELS,Number of pixels to output from the stream. Valid values are 1 2 4 and 8. The width of the pixel interface and the bits per pixel for the selected datatype will determine how many pixels can be.." "0: 1 pixel per clock,1: 2 pixels per clock,?,?" newline bitfld.long 0x4 1. "LS_LE_MODE,Enable LS/LE control of HYSNC_VALID output. By default LS and LE short packets are not required and HYSC_VALID will be generated from the start and end of payload data." "0,1" newline bitfld.long 0x4 0. "INTERFACE_MODE,Select the output configuration. Pixel = 0 [default] Packed = 1" "0,1" line.long 0x8 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream1_monitor_ctrl,Stream Monitor configuration." hexmask.long.word 0x8 16.--31. 1. "FRAME_LENGTH,Indicates the frame length in lines to detect truncated frames. This value must not change while monitor is enabled i.e. it must only be changed when the frame_mon_en bit is low. 0x0000 means truncated.." newline bitfld.long 0x8 15. "FRAME_MON_EN,Enables monitor. This bit must only be set high after the frame_mon_vc and frame_length have been set." "0,1" newline hexmask.long.byte 0x8 11.--14. 1. "FRAME_MON_VC,Indicates virtual channel for monitor. This value must not change while monitor is enabled i.e. it must only be changed when the frame_mon_en bit is low." newline bitfld.long 0x8 10. "TIMER_EOF,Select the starting point of the timer: 0x0: Start of Frame event on selected virtual channel 0x1: End of Frame event on selected virtual channel. This value must not change while timer_en is enabled" "0: Start of Frame event on selected virtual channel,1: End of Frame event on selected virtual channel" newline bitfld.long 0x8 9. "TIMER_EN,Enables timer based interrupt. This bit must only be set high after the timer_eof and timer_vc have been set." "0,1" newline hexmask.long.byte 0x8 5.--8. 1. "TIMER_VC,Indicates which VC should be used to generate timer based interrupt. This value must not change while timer_en is enabled." newline bitfld.long 0x8 4. "LB_EN,Enables line/byte counter. This bit must only be set high after the lb_vc line_count and byte_count have been set." "0,1" newline hexmask.long.byte 0x8 0.--3. 1. "LB_VC,Indicates which VC should be used to generate line/byte counter interrupt. This value must not change while lb_en is enabled" rgroup.long 0x214++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream1_monitor_frame,Stream Monitor Frame." hexmask.long.word 0x0 16.--31. 1. "PACKET_SIZE,Size of the current payload" newline hexmask.long.word 0x0 0.--15. 1. "NB,Number of the last frame processed." group.long 0x218++0x13 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream1_monitor_lb,Stream Monitor Line." hexmask.long.word 0x0 16.--31. 1. "LINE_COUNT,Indicates the line number to generate an interrupt. [First line of a Frame is line number 0]" newline hexmask.long.word 0x0 0.--15. 1. "BYTE_COUNT,Indicates the byte number of the line to generate an interrupt. [First byte of a line is byte number 0]" line.long 0x4 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream1_timer,Stream Timer." hexmask.long 0x4 0.--24. 1. "COUNT,Number of clock cycles" line.long 0x8 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream1_fcc_cfg,Stream Frame Capture Control configuration." hexmask.long.word 0x8 16.--31. 1. "FRAME_COUNT_STOP,Indicates the frame number on which the interrupt should be generated and the stream will stop outputting data on the pixel interface. [0x0000 will be continuous frames.]" newline hexmask.long.word 0x8 0.--15. 1. "FRAME_COUNT_START,Indicates the frame number on which the interrupt should be generated and the stream will start outputting data on the pixel interface. [0x0000 will be the current frame.]" line.long 0xC "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream1_fcc_ctrl,Stream Frame Capture Counter control." hexmask.long.word 0xC 16.--31. 1. "FRAME_COUNTER,Current Frame number being processed" newline hexmask.long.byte 0xC 1.--4. 1. "FCC_VC,Indicates which VC should be used to generate FCC interrupts. This value must not change while fcc_en is enabled" newline bitfld.long 0xC 0. "FCC_EN,Frame Capture Counter enable." "0,1" line.long 0x10 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream1_fifo_fill_lvl,Stream FIFO fill level monitor. This can operate in 2 modes:" bitfld.long 0x10 12.--13. "MODE,00 -> Fill level detection disabled 01 -> Mode 1 10 -> Mode 2 11 -> Reserved" "0: Fill level detection disabled,1: Mode 1,?,?" newline hexmask.long.word 0x10 0.--9. 1. "COUNT,Peak fill level of FIFO." group.long 0x300++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream2_ctrl,CSI2RX Stream Data output datapath control." bitfld.long 0x0 4. "SOFT_RST,Writing 1'b1 will apply a synchronous soft reset of this stream registers/FIFO" "0,1" newline bitfld.long 0x0 2. "ABORT,Writing 1 this register will cause the csi2rx to stop streaming on the corresponding output immediately. This may corrupt the output protocol. stream_abort_irq is generated on completion of the abort operation." "0,1" newline bitfld.long 0x0 1. "STOP,Writing 1 in this register will cause csi2rx to stop streaming on the corresponding output at the end of the current frame. If the command is issued during frame blanking then the datapath will immediately stop streaming.." "0,1" newline bitfld.long 0x0 0. "START,Writing 1 in this register enables the corresponding datapath output. It will start streaming data at the start of the next frame that complies with the output configuration. stream_status[31] running indicates when data.." "0,1" rgroup.long 0x304++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream2_status,CSI2 Target Controller Status. Contains useful debug information such as" bitfld.long 0x0 31. "RUNNING,The Stream is enabled" "0,1" newline bitfld.long 0x0 8. "READY_STATE,Indicates the state of the pushback signal pixel_ready_if for this stream" "0,1" newline hexmask.long.byte 0x0 4.--7. 1. "STREAM_FSM,Output to Stream FSM states: 0x0: STREAM_IDLE 0x1: STREAM_WAIT_CTRL_DATA // Expecting control data next 0x2: STREAM_CTRL // Check contents of Ctrl packet and extract header.." newline bitfld.long 0x0 0.--1. "PROTOCOL_FSM,Input to Stream FSM states: 0x0: PROT_IDLE 0x1: PROT_WAIT_CTRL 0x2: PROT_CTRL 0x3: PROT_DATA" "0: PROT_IDLE,1: PROT_WAIT_CTRL,2: PROT_CTRL,3: PROT_DATA" group.long 0x308++0xB line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream2_data_cfg,Secondary CSI2 Target Controller Data outputs configuration." hexmask.long.word 0x0 16.--31. 1. "VC_SELECT,Selection of Virtual Channels to be processed: Default '0' -> All Virtual Channels are processed vc_select0[16] -> Virtual Channel Select 0 is processed vc_select1[17] -> Virtual Channel Select 1 is processed vc_select2[18] ->.." newline bitfld.long 0x0 15. "ENABLE_DT1,Enable processing of dt1" "0,1" newline hexmask.long.byte 0x0 8.--13. 1. "DATATYPE_SELECT1,Second data type format that this stream will process" newline bitfld.long 0x0 7. "ENABLE_DT0,Enable processing of dt0" "0,1" newline hexmask.long.byte 0x0 0.--5. 1. "DATATYPE_SELECT0,First data type format that this stream will process" line.long 0x4 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream2_cfg,Primary CSI2 Target Controller Data pixel outputs configuration." hexmask.long.word 0x4 16.--31. 1. "FIFO_FILL,Set the FIFO_FILL_LEVEL which is used to hold data in the FIFO until this level is reached before allow data to be pulled. This setting is only used when fifo_mode is set for Large Buffer operation" newline bitfld.long 0x4 12.--14. "BPP_BYPASS,Force unpacking of any Data type as selected RAW type. 0 - No bypass 1 - unpack as RAW6 2 - unpack as RAW7 3 - unpack as RAW8 4 - unpack as RAW10 5 - unpack as.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 8.--9. "FIFO_MODE,Stream FIFO configuration which must be set in accordance to FIFO sizing flow control and the relationship between the link and pixel interface data rates. Refer to Use Case descriptions for further guidance on FIFO sizing and.." "0: Full Line Buffer,1: Large Buffer [Fill Level Controlled],?,?" newline bitfld.long 0x4 4.--5. "NUM_PIXELS,Number of pixels to output from the stream. Valid values are 1 2 4 and 8. The width of the pixel interface and the bits per pixel for the selected datatype will determine how many pixels can be.." "0: 1 pixel per clock,1: 2 pixels per clock,?,?" newline bitfld.long 0x4 1. "LS_LE_MODE,Enable LS/LE control of HYSNC_VALID output. By default LS and LE short packets are not required and HYSC_VALID will be generated from the start and end of payload data." "0,1" newline bitfld.long 0x4 0. "INTERFACE_MODE,Select the output configuration. Pixel = 0 [default] Packed = 1" "0,1" line.long 0x8 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream2_monitor_ctrl,Stream Monitor configuration." hexmask.long.word 0x8 16.--31. 1. "FRAME_LENGTH,Indicates the frame length in lines to detect truncated frames. This value must not change while monitor is enabled i.e. it must only be changed when the frame_mon_en bit is low. 0x0000 means truncated.." newline bitfld.long 0x8 15. "FRAME_MON_EN,Enables monitor. This bit must only be set high after the frame_mon_vc and frame_length have been set." "0,1" newline hexmask.long.byte 0x8 11.--14. 1. "FRAME_MON_VC,Indicates virtual channel for monitor. This value must not change while monitor is enabled i.e. it must only be changed when the frame_mon_en bit is low." newline bitfld.long 0x8 10. "TIMER_EOF,Select the starting point of the timer: 0x0: Start of Frame event on selected virtual channel 0x1: End of Frame event on selected virtual channel. This value must not change while timer_en is enabled" "0: Start of Frame event on selected virtual channel,1: End of Frame event on selected virtual channel" newline bitfld.long 0x8 9. "TIMER_EN,Enables timer based interrupt. This bit must only be set high after the timer_eof and timer_vc have been set." "0,1" newline hexmask.long.byte 0x8 5.--8. 1. "TIMER_VC,Indicates which VC should be used to generate timer based interrupt. This value must not change while timer_en is enabled." newline bitfld.long 0x8 4. "LB_EN,Enables line/byte counter. This bit must only be set high after the lb_vc line_count and byte_count have been set." "0,1" newline hexmask.long.byte 0x8 0.--3. 1. "LB_VC,Indicates which VC should be used to generate line/byte counter interrupt. This value must not change while lb_en is enabled" rgroup.long 0x314++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream2_monitor_frame,Stream Monitor Frame." hexmask.long.word 0x0 16.--31. 1. "PACKET_SIZE,Size of the current payload" newline hexmask.long.word 0x0 0.--15. 1. "NB,Number of the last frame processed." group.long 0x318++0x13 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream2_monitor_lb,Stream Monitor Line." hexmask.long.word 0x0 16.--31. 1. "LINE_COUNT,Indicates the line number to generate an interrupt. [First line of a Frame is line number 0]" newline hexmask.long.word 0x0 0.--15. 1. "BYTE_COUNT,Indicates the byte number of the line to generate an interrupt. [First byte of a line is byte number 0]" line.long 0x4 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream2_timer,Stream Timer." hexmask.long 0x4 0.--24. 1. "COUNT,Number of clock cycles" line.long 0x8 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream2_fcc_cfg,Stream Frame Capture Control configuration." hexmask.long.word 0x8 16.--31. 1. "FRAME_COUNT_STOP,Indicates the frame number on which the interrupt should be generated and the stream will stop outputting data on the pixel interface. [0x0000 will be continuous frames.]" newline hexmask.long.word 0x8 0.--15. 1. "FRAME_COUNT_START,Indicates the frame number on which the interrupt should be generated and the stream will start outputting data on the pixel interface. [0x0000 will be the current frame.]" line.long 0xC "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream2_fcc_ctrl,Stream Frame Capture Counter control." hexmask.long.word 0xC 16.--31. 1. "FRAME_COUNTER,Current Frame number being processed" newline hexmask.long.byte 0xC 1.--4. 1. "FCC_VC,Indicates which VC should be used to generate FCC interrupts. This value must not change while fcc_en is enabled" newline bitfld.long 0xC 0. "FCC_EN,Frame Capture Counter enable." "0,1" line.long 0x10 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream2_fifo_fill_lvl,Stream FIFO fill level monitor. This can operate in 2 modes:" bitfld.long 0x10 12.--13. "MODE,00 -> Fill level detection disabled 01 -> Mode 1 10 -> Mode 2 11 -> Reserved" "0: Fill level detection disabled,1: Mode 1,?,?" newline hexmask.long.word 0x10 0.--9. 1. "COUNT,Peak fill level of FIFO." group.long 0x400++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream3_ctrl,CSI2RX Stream Data output datapath control." bitfld.long 0x0 4. "SOFT_RST,Writing 1'b1 will apply a synchronous soft reset of this stream registers/FIFO" "0,1" newline bitfld.long 0x0 2. "ABORT,Writing 1 this register will cause the csi2rx to stop streaming on the corresponding output immediately. This may corrupt the output protocol. stream_abort_irq is generated on completion of the abort operation." "0,1" newline bitfld.long 0x0 1. "STOP,Writing 1 in this register will cause csi2rx to stop streaming on the corresponding output at the end of the current frame. If the command is issued during frame blanking then the datapath will immediately stop streaming.." "0,1" newline bitfld.long 0x0 0. "START,Writing 1 in this register enables the corresponding datapath output. It will start streaming data at the start of the next frame that complies with the output configuration. stream_status[31] running indicates when data.." "0,1" rgroup.long 0x404++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream3_status,CSI2 Target Controller Status. Contains useful debug information such as" bitfld.long 0x0 31. "RUNNING,The Stream is enabled" "0,1" newline bitfld.long 0x0 8. "READY_STATE,Indicates the state of the pushback signal pixel_ready_if for this stream" "0,1" newline hexmask.long.byte 0x0 4.--7. 1. "STREAM_FSM,Output to Stream FSM states: 0x0: STREAM_IDLE 0x1: STREAM_WAIT_CTRL_DATA // Expecting control data next 0x2: STREAM_CTRL // Check contents of Ctrl packet and extract header.." newline bitfld.long 0x0 0.--1. "PROTOCOL_FSM,Input to Stream FSM states: 0x0: PROT_IDLE 0x1: PROT_WAIT_CTRL 0x2: PROT_CTRL 0x3: PROT_DATA" "0: PROT_IDLE,1: PROT_WAIT_CTRL,2: PROT_CTRL,3: PROT_DATA" group.long 0x408++0xB line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream3_data_cfg,Secondary CSI2 Target Controller Data outputs configuration." hexmask.long.word 0x0 16.--31. 1. "VC_SELECT,Selection of Virtual Channels to be processed: Default '0' -> All Virtual Channels are processed vc_select0[16] -> Virtual Channel Select 0 is processed vc_select1[17] -> Virtual Channel Select 1 is processed vc_select2[18] ->.." newline bitfld.long 0x0 15. "ENABLE_DT1,Enable processing of dt1" "0,1" newline hexmask.long.byte 0x0 8.--13. 1. "DATATYPE_SELECT1,Second data type format that this stream will process" newline bitfld.long 0x0 7. "ENABLE_DT0,Enable processing of dt0" "0,1" newline hexmask.long.byte 0x0 0.--5. 1. "DATATYPE_SELECT0,First data type format that this stream will process" line.long 0x4 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream3_cfg,Primary CSI2 Target Controller Data pixel outputs configuration." hexmask.long.word 0x4 16.--31. 1. "FIFO_FILL,Set the FIFO_FILL_LEVEL which is used to hold data in the FIFO until this level is reached before allow data to be pulled. This setting is only used when fifo_mode is set for Large Buffer operation" newline bitfld.long 0x4 12.--14. "BPP_BYPASS,Force unpacking of any Data type as selected RAW type. 0 - No bypass 1 - unpack as RAW6 2 - unpack as RAW7 3 - unpack as RAW8 4 - unpack as RAW10 5 - unpack as.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 8.--9. "FIFO_MODE,Stream FIFO configuration which must be set in accordance to FIFO sizing flow control and the relationship between the link and pixel interface data rates. Refer to Use Case descriptions for further guidance on FIFO sizing and.." "0: Full Line Buffer,1: Large Buffer [Fill Level Controlled],?,?" newline bitfld.long 0x4 4.--5. "NUM_PIXELS,Number of pixels to output from the stream. Valid values are 1 2 4 and 8. The width of the pixel interface and the bits per pixel for the selected datatype will determine how many pixels can be.." "0: 1 pixel per clock,1: 2 pixels per clock,?,?" newline bitfld.long 0x4 1. "LS_LE_MODE,Enable LS/LE control of HYSNC_VALID output. By default LS and LE short packets are not required and HYSC_VALID will be generated from the start and end of payload data." "0,1" newline bitfld.long 0x4 0. "INTERFACE_MODE,Select the output configuration. Pixel = 0 [default] Packed = 1" "0,1" line.long 0x8 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream3_monitor_ctrl,Stream Monitor configuration." hexmask.long.word 0x8 16.--31. 1. "FRAME_LENGTH,Indicates the frame length in lines to detect truncated frames. This value must not change while monitor is enabled i.e. it must only be changed when the frame_mon_en bit is low. 0x0000 means truncated.." newline bitfld.long 0x8 15. "FRAME_MON_EN,Enables monitor. This bit must only be set high after the frame_mon_vc and frame_length have been set." "0,1" newline hexmask.long.byte 0x8 11.--14. 1. "FRAME_MON_VC,Indicates virtual channel for monitor. This value must not change while monitor is enabled i.e. it must only be changed when the frame_mon_en bit is low." newline bitfld.long 0x8 10. "TIMER_EOF,Select the starting point of the timer: 0x0: Start of Frame event on selected virtual channel 0x1: End of Frame event on selected virtual channel. This value must not change while timer_en is enabled" "0: Start of Frame event on selected virtual channel,1: End of Frame event on selected virtual channel" newline bitfld.long 0x8 9. "TIMER_EN,Enables timer based interrupt. This bit must only be set high after the timer_eof and timer_vc have been set." "0,1" newline hexmask.long.byte 0x8 5.--8. 1. "TIMER_VC,Indicates which VC should be used to generate timer based interrupt. This value must not change while timer_en is enabled." newline bitfld.long 0x8 4. "LB_EN,Enables line/byte counter. This bit must only be set high after the lb_vc line_count and byte_count have been set." "0,1" newline hexmask.long.byte 0x8 0.--3. 1. "LB_VC,Indicates which VC should be used to generate line/byte counter interrupt. This value must not change while lb_en is enabled" rgroup.long 0x414++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream3_monitor_frame,Stream Monitor Frame." hexmask.long.word 0x0 16.--31. 1. "PACKET_SIZE,Size of the current payload" newline hexmask.long.word 0x0 0.--15. 1. "NB,Number of the last frame processed." group.long 0x418++0x13 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream3_monitor_lb,Stream Monitor Line." hexmask.long.word 0x0 16.--31. 1. "LINE_COUNT,Indicates the line number to generate an interrupt. [First line of a Frame is line number 0]" newline hexmask.long.word 0x0 0.--15. 1. "BYTE_COUNT,Indicates the byte number of the line to generate an interrupt. [First byte of a line is byte number 0]" line.long 0x4 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream3_timer,Stream Timer." hexmask.long 0x4 0.--24. 1. "COUNT,Number of clock cycles" line.long 0x8 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream3_fcc_cfg,Stream Frame Capture Control configuration." hexmask.long.word 0x8 16.--31. 1. "FRAME_COUNT_STOP,Indicates the frame number on which the interrupt should be generated and the stream will stop outputting data on the pixel interface. [0x0000 will be continuous frames.]" newline hexmask.long.word 0x8 0.--15. 1. "FRAME_COUNT_START,Indicates the frame number on which the interrupt should be generated and the stream will start outputting data on the pixel interface. [0x0000 will be the current frame.]" line.long 0xC "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream3_fcc_ctrl,Stream Frame Capture Counter control." hexmask.long.word 0xC 16.--31. 1. "FRAME_COUNTER,Current Frame number being processed" newline hexmask.long.byte 0xC 1.--4. 1. "FCC_VC,Indicates which VC should be used to generate FCC interrupts. This value must not change while fcc_en is enabled" newline bitfld.long 0xC 0. "FCC_EN,Frame Capture Counter enable." "0,1" line.long 0x10 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_stream3_fifo_fill_lvl,Stream FIFO fill level monitor. This can operate in 2 modes:" bitfld.long 0x10 12.--13. "MODE,00 -> Fill level detection disabled 01 -> Mode 1 10 -> Mode 2 11 -> Reserved" "0: Fill level detection disabled,1: Mode 1,?,?" newline hexmask.long.word 0x10 0.--9. 1. "COUNT,Peak fill level of FIFO." group.long 0x900++0x13 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_asf_int_status,ASF Interrupt Status Register. This register indicates the source of ASF interrupts. The corresponding bit in the mask register must be clear for a bit to be set. If any bit is set in this register the.." hexmask.long 0x0 7.--31. 1. "RESERVED,Reserved read as 0 ignored on write." newline bitfld.long 0x0 6. "ASF_INTEGRITY_ERR,Integrity error interrupt" "0,1" newline bitfld.long 0x0 5. "ASF_PROTOCOL_ERR,Protocol error interrupt" "0,1" newline bitfld.long 0x0 4. "ASF_TRANS_TO_ERR,Transaction timeouts error interrupt" "0,1" newline bitfld.long 0x0 3. "ASF_CSR_ERR,Configuration and status registers error interrupt" "0,1" newline bitfld.long 0x0 2. "ASF_DAP_ERR,Data and address paths parity error interrupt" "0,1" newline bitfld.long 0x0 1. "ASF_SRAM_UNCORR_ERR,SRAM uncorrectable error interrupt" "0,1" newline bitfld.long 0x0 0. "ASF_SRAM_CORR_ERR,SRAM correctable error interrupt" "0,1" line.long 0x4 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_asf_int_raw_status,ASF Interrupt Raw Status Register. A bit set in this raw register indicates a source of ASF fault in the corresponding feature. Writing to either raw or masked status registers. clear both.." hexmask.long 0x4 7.--31. 1. "RESERVED,Reserved read as 0 ignored on write." newline bitfld.long 0x4 6. "ASF_INTEGRITY_ERR,Integrity error interrupt" "0,1" newline bitfld.long 0x4 5. "ASF_PROTOCOL_ERR,Protocol error interrupt" "0,1" newline bitfld.long 0x4 4. "ASF_TRANS_TO_ERR,Transaction timeouts error interrupt" "0,1" newline bitfld.long 0x4 3. "ASF_CSR_ERR,Configuration and status registers error interrupt" "0,1" newline bitfld.long 0x4 2. "ASF_DAP_ERR,Data and address paths parity error interrupt" "0,1" newline bitfld.long 0x4 1. "ASF_SRAM_UNCORR_ERR,SRAM uncorrectable error interrupt" "0,1" newline bitfld.long 0x4 0. "ASF_SRAM_CORR_ERR,SRAM correctable error interrupt" "0,1" line.long 0x8 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_asf_int_mask,The ASF interrupt mask register indicating which interrupt bits in the ASF interrupt status register are masked. All bits are set at reset. Clear the individual bit to enable the corresponding interrupt." hexmask.long 0x8 7.--31. 1. "RESERVED,Reserved read as 0 ignored on write." newline bitfld.long 0x8 6. "ASF_INTEGRITY_ERR_MASK,Mask bit for integrity error interrupt" "0,1" newline bitfld.long 0x8 5. "ASF_PROTOCOL_ERR_MASK,Mask bit for protocol error interrupt." "0,1" newline bitfld.long 0x8 4. "ASF_TRANS_TO_ERR_MASK,Mask bit for transaction timeouts error interrupt." "0,1" newline bitfld.long 0x8 3. "ASF_CSR_ERR_MASK,Mask bit for configuration and status registers error interrupt." "0,1" newline bitfld.long 0x8 2. "ASF_DAP_ERR_MASK,Mask bit for data and address paths parity error interrupt." "0,1" newline bitfld.long 0x8 1. "ASF_SRAM_UNCORR_ERR_MASK,Mask bit for SRAM uncorrectable error interrupt." "0,1" newline bitfld.long 0x8 0. "ASF_SRAM_CORR_ERR_MASK,Mask bit for SRAM correctable error interrupt." "0,1" line.long 0xC "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_asf_int_test,The ASF interrupt test register emulate hardware even. Write one to individual bit to trigger single event in (masked and raw) status registers according to mask and will generate interrupt accordingly." hexmask.long 0xC 7.--31. 1. "RESERVED,Reserved read as 0 ignored on write." newline bitfld.long 0xC 6. "ASF_INTEGRITY_ERR_TEST,Test bit for integrity error interrupt" "0,1" newline bitfld.long 0xC 5. "ASF_PROTOCOL_ERR_TEST,Test bit for protocol error interrupt." "0,1" newline bitfld.long 0xC 4. "ASF_TRANS_TO_ERR_TEST,Test bit for transaction timeouts error interrupt." "0,1" newline bitfld.long 0xC 3. "ASF_CSR_ERR_TEST,Test bit for configuration and status registers error interrupt." "0,1" newline bitfld.long 0xC 2. "ASF_DAP_ERR_TEST,Test bit for data and address paths parity error interrupt." "0,1" newline bitfld.long 0xC 1. "ASF_SRAM_UNCORR_ERR_TEST,Test bit for SRAM uncorrectable error interrupt." "0,1" newline bitfld.long 0xC 0. "ASF_SRAM_CORR_ERR_TEST,Test bit for SRAM correctable error interrupt." "0,1" line.long 0x10 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_asf_fatal_nonfatal_select,The fatal or non-fatal interrupt register selects whether a fatal (asf_int_fatal) or non-fatal (asf_int_nonfatal) interrupt is triggered. If the bit of the event will be set to one then.." hexmask.long 0x10 7.--31. 1. "RESERVED,Reserved read as 0 ignored on write." newline bitfld.long 0x10 6. "ASF_INTEGRITY_ERR,Enable integrity error interrupt as fatal" "0,1" newline bitfld.long 0x10 5. "ASF_PROTOCOL_ERR,Enable protocol error interrupt as fatal." "0,1" newline bitfld.long 0x10 4. "ASF_TRANS_TO_ERR,Enable transaction timeouts error interrupt as fatal." "0,1" newline bitfld.long 0x10 3. "ASF_CSR_ERR,Enable configuration and status registers error interrupt as fatal." "0,1" newline bitfld.long 0x10 2. "ASF_DAP_ERR,Enable data and address paths parity error interrupt as fatal." "0,1" newline bitfld.long 0x10 1. "ASF_SRAM_UNCORR_ERR,Enable SRAM uncorrectable error interrupt as fatal." "0,1" newline bitfld.long 0x10 0. "ASF_SRAM_CORR_ERR,Enable SRAM correctable error interrupt as fatal." "0,1" rgroup.long 0x920++0x7 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_asf_sram_corr_fault_status,Status register for SRAM correctable fault. These fields are updated whenever asf_sram_corr_fault input is active." hexmask.long.byte 0x0 24.--31. 1. "ASF_SRAM_CORR_FAULT_INST,Last SRAM instance that generated fault." newline hexmask.long.tbyte 0x0 0.--23. 1. "ASF_SRAM_CORR_FAULT_ADDR,Last SRAM address that generated fault." line.long 0x4 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_asf_sram_uncorr_fault_status,Status register for SRAM uncorrectable fault. These fields are updated whenever asf_sram_uncorr_fault input is active." hexmask.long.byte 0x4 24.--31. 1. "ASF_SRAM_UNCORR_FAULT_INST,Last SRAM instance that generated fault." newline hexmask.long.tbyte 0x4 0.--23. 1. "ASF_SRAM_UNCORR_FAULT_ADDR,Last SRAM address that generated fault." group.long 0x928++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_asf_sram_fault_stats,Statistics register for SRAM faults. Note that this register clears when software writes to any field." hexmask.long.word 0x0 16.--31. 1. "RESERVED,Reserved read as 0 ignored on write." newline hexmask.long.word 0x0 0.--15. 1. "ASF_SRAM_FAULT_CORR_STATS,Count of number of correctable errors if implemented. Count value will saturate at 0xffff." group.long 0x930++0xB line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_asf_trans_to_ctrl,Control register to configure the ASF transaction timeout monitors." bitfld.long 0x0 31. "ASF_TRANS_TO_EN,Enable transaction timeout monitoring." "0,1" newline hexmask.long.word 0x0 0.--15. 1. "ASF_TRANS_TO_CTRL,Timer value to use for transaction timeout monitor." line.long 0x4 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_asf_trans_to_fault_mask,Control register to mask out ASF transaction timeout faults from triggering interrupts. On reset. all bits are set to mask out all sources. Clear the corresponding bit to enable the interrupt.." bitfld.long 0x4 0. "ASF_TRANS_TO_FAULT_0_MASK,Mask register for each ASF transaction timeout fault source." "0,1" line.long 0x8 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_asf_trans_to_fault_status,Status register for transaction timeouts fault. If a fault occurs the revelant status bit will be set to 1. Each bit can be cleared by software writing 1 to each bit." bitfld.long 0x8 0. "ASF_TRANS_TO_FAULT_0_STATUS,Status bits for transaction timeouts faults." "0,1" group.long 0x940++0x7 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_asf_protocol_fault_mask,Control register to mask out ASF Protocol faults from triggering interrupts. On reset. all bits are set to mask out all sources. Clear the corresponding bit to enable the interrupt source. The.." bitfld.long 0x0 13. "ASF_PROTOCOL_FAULT_13_MASK,Mask register for each ASF protocol fault source." "0,1" newline bitfld.long 0x0 12. "ASF_PROTOCOL_FAULT_12_MASK,Mask register for each ASF protocol fault source." "0,1" newline bitfld.long 0x0 11. "ASF_PROTOCOL_FAULT_11_MASK,Mask register for each ASF protocol fault source." "0,1" newline bitfld.long 0x0 10. "ASF_PROTOCOL_FAULT_10_MASK,Mask register for each ASF protocol fault source." "0,1" newline bitfld.long 0x0 9. "ASF_PROTOCOL_FAULT_9_MASK,Mask register for each ASF protocol fault source." "0,1" newline bitfld.long 0x0 8. "ASF_PROTOCOL_FAULT_8_MASK,Mask register for each ASF protocol fault source." "0,1" newline bitfld.long 0x0 7. "ASF_PROTOCOL_FAULT_7_MASK,Mask register for each ASF protocol fault source." "0,1" newline bitfld.long 0x0 6. "ASF_PROTOCOL_FAULT_6_MASK,Mask register for each ASF protocol fault source." "0,1" newline bitfld.long 0x0 5. "ASF_PROTOCOL_FAULT_5_MASK,Mask register for each ASF protocol fault source." "0,1" newline bitfld.long 0x0 4. "ASF_PROTOCOL_FAULT_4_MASK,Mask register for each ASF protocol fault source." "0,1" newline bitfld.long 0x0 3. "ASF_PROTOCOL_FAULT_3_MASK,Mask register for each ASF protocol fault source." "0,1" newline bitfld.long 0x0 2. "ASF_PROTOCOL_FAULT_2_MASK,Mask register for each ASF protocol fault source." "0,1" newline bitfld.long 0x0 1. "ASF_PROTOCOL_FAULT_1_MASK,Mask register for each ASF protocol fault source." "0,1" newline bitfld.long 0x0 0. "ASF_PROTOCOL_FAULT_0_MASK,Mask register for each ASF protocol fault source." "0,1" line.long 0x4 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_asf_protocol_fault_status,Status register for protocol faults. If a fault occurs the revelant status bit will be set to 1. Each bit can be cleared by software writing 1 to each bit" bitfld.long 0x4 13. "ASF_PROTOCOL_FAULT_13_STATUS,Status bits for protocol faults." "0,1" newline bitfld.long 0x4 12. "ASF_PROTOCOL_FAULT_12_STATUS,Status bits for protocol faults." "0,1" newline bitfld.long 0x4 11. "ASF_PROTOCOL_FAULT_11_STATUS,Status bits for protocol faults." "0,1" newline bitfld.long 0x4 10. "ASF_PROTOCOL_FAULT_10_STATUS,Status bits for protocol faults." "0,1" newline bitfld.long 0x4 9. "ASF_PROTOCOL_FAULT_9_STATUS,Status bits for protocol faults." "0,1" newline bitfld.long 0x4 8. "ASF_PROTOCOL_FAULT_8_STATUS,Status bits for protocol faults." "0,1" newline bitfld.long 0x4 7. "ASF_PROTOCOL_FAULT_7_STATUS,Status bits for protocol faults." "0,1" newline bitfld.long 0x4 6. "ASF_PROTOCOL_FAULT_6_STATUS,Status bits for protocol faults." "0,1" newline bitfld.long 0x4 5. "ASF_PROTOCOL_FAULT_5_STATUS,Status bits for protocol faults." "0,1" newline bitfld.long 0x4 4. "ASF_PROTOCOL_FAULT_4_STATUS,Status bits for protocol faults." "0,1" newline bitfld.long 0x4 3. "ASF_PROTOCOL_FAULT_3_STATUS,Status bits for protocol faults." "0,1" newline bitfld.long 0x4 2. "ASF_PROTOCOL_FAULT_2_STATUS,Status bits for protocol faults." "0,1" newline bitfld.long 0x4 1. "ASF_PROTOCOL_FAULT_1_STATUS,Status bits for protocol faults." "0,1" newline bitfld.long 0x4 0. "ASF_PROTOCOL_FAULT_0_STATUS,Status bits for protocol faults." "0,1" rgroup.long 0xFFC++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP_APB__CSI2RX_REGS_id_prod_ver,This register is hard-coded in order to allow software to identify the product and its" hexmask.long.word 0x0 16.--31. 1. "PRODUCT_ID,Product Identification Number [IP5022/IP5022A]." newline hexmask.long.word 0x0 0.--15. 1. "VERSION_ID,Product Version Number [R200]." tree.end tree.end tree "CTRL_MMR0_CFG0 (CTRL_MMR0_CFG0)" base ad:0x100000 rgroup.long 0x0++0x3 line.long 0x0 "CFG0_PID," hexmask.long.word 0x0 16.--31. 1. "PID_MSB16," hexmask.long.byte 0x0 11.--15. 1. "PID_MISC," newline bitfld.long 0x0 8.--10. "PID_MAJOR," "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "PID_CUSTOM," "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "PID_MINOR," rgroup.long 0x8++0x3 line.long 0x0 "CFG0_MMR_CFG1," bitfld.long 0x0 31. "MMR_CFG1_PROXY_EN,Proxy addressing activated" "0,1" hexmask.long.byte 0x0 0.--7. 1. "MMR_CFG1_PARTITIONS,Indicates present partitions" group.long 0x100++0x3 line.long 0x0 "CFG0_IPC_SET," hexmask.long 0x0 4.--31. 1. "IPC_SRC_SET,Read returns current value Write: 0 - No effect 1 - Sets both corresponding IPC_CLR and the IPC_SET bits" bitfld.long 0x0 0. "IPC_SET,Read returns 0 Write: 0 - No effect 1 - Sets both corresponding IPC_CLR and the IPC_SET bits" "0,1" group.long 0x180++0x3 line.long 0x0 "CFG0_IPC_CLR," hexmask.long 0x0 4.--31. 1. "IPC_SRC_CLR,Read returns current value Write: 0 - No effect 1 - Clears both corresponding IPC_CLR and the IPC_SET bits" bitfld.long 0x0 0. "IPC_CLR,Read returns current value Write: 0 - No effect 1 - Clears both corresponding IPC_CLR and the IPC_SET bits" "0,1" group.long 0x1008++0x1B line.long 0x0 "CFG0_LOCK0_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK0_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK0_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK0_KICK1,- KICK1 component" line.long 0x8 "CFG0_intr_raw_status," bitfld.long 0x8 3. "PROXY_ERR,Proxy0 access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" bitfld.long 0x8 2. "KICK_ERR,Kick access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 1. "ADDR_ERR,Addressing violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" bitfld.long 0x8 0. "PROT_ERR,Protection violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" line.long 0xC "CFG0_intr_enabled_status_clear," bitfld.long 0xC 3. "ENABLED_PROXY_ERR,Proxy0 access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" bitfld.long 0xC 2. "ENABLED_KICK_ERR,Kick access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 1. "ENABLED_ADDR_ERR,Addressing violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" bitfld.long 0xC 0. "ENABLED_PROT_ERR,Protection violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" line.long 0x10 "CFG0_intr_enable," bitfld.long 0x10 3. "PROXY_ERR_EN,Proxy0 access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x10 2. "KICK_ERR_EN,Kick access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 1. "ADDR_ERR_EN,Addressing violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x10 0. "PROT_ERR_EN,Protection violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" line.long 0x14 "CFG0_intr_enable_clear," bitfld.long 0x14 3. "PROXY_ERR_EN_CLR,Proxy0 access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x14 2. "KICK_ERR_EN_CLR,Kick access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x14 1. "ADDR_ERR_EN_CLR,Addressing violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x14 0. "PROT_ERR_EN_CLR,Protection violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" line.long 0x18 "CFG0_eoi," hexmask.long.byte 0x18 0.--7. 1. "EOI_VECTOR,EOI vector value. Write this with interrupt distribution value in the chip." rgroup.long 0x1024++0xB line.long 0x0 "CFG0_fault_address," hexmask.long 0x0 0.--31. 1. "FAULT_ADDR,Fault Address." line.long 0x4 "CFG0_fault_type_status," bitfld.long 0x4 6. "FAULT_NS,Non-secure access." "0,1" hexmask.long.byte 0x4 0.--5. 1. "FAULT_TYPE,Fault Type 10_0000 = Supervisor read fault - priv = 1 dir = 1 dtype != 1 01_0000 = Supervisor write fault - priv = 1 dir = 0 00_1000 = Supervisor execute fault - priv = 1 dir = 1 dtype = 1 00_0100 = User read fault - priv = 0 dir.." line.long 0x8 "CFG0_fault_attr_status," hexmask.long.word 0x8 20.--31. 1. "FAULT_XID,XID." hexmask.long.word 0x8 8.--19. 1. "FAULT_ROUTEID,Route ID." newline hexmask.long.byte 0x8 0.--7. 1. "FAULT_PRIVID,Privilege ID." wgroup.long 0x1030++0x3 line.long 0x0 "CFG0_fault_clear," bitfld.long 0x0 0. "FAULT_CLR,Fault clear. Writing a 1 clears the current fault. Writing a 0 has no effect." "0,1" rgroup.long 0x1100++0x1B line.long 0x0 "CFG0_CLAIMREG_P0_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P0_R0_READONLY,Claim bits for Partition 0" line.long 0x4 "CFG0_CLAIMREG_P0_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P0_R1_READONLY,Claim bits for Partition 0" line.long 0x8 "CFG0_CLAIMREG_P0_R2_READONLY," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P0_R2_READONLY,Claim bits for Partition 0" line.long 0xC "CFG0_CLAIMREG_P0_R3_READONLY," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P0_R3_READONLY,Claim bits for Partition 0" line.long 0x10 "CFG0_CLAIMREG_P0_R4_READONLY," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P0_R4_READONLY,Claim bits for Partition 0" line.long 0x14 "CFG0_CLAIMREG_P0_R5_READONLY," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P0_R5_READONLY,Claim bits for Partition 0" line.long 0x18 "CFG0_CLAIMREG_P0_R6_READONLY," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P0_R6_READONLY,Claim bits for Partition 0" rgroup.long 0x2000++0x3 line.long 0x0 "CFG0_PID_PROXY," hexmask.long.word 0x0 16.--31. 1. "PID_MSB16_PROXY," hexmask.long.byte 0x0 11.--15. 1. "PID_MISC_PROXY," newline bitfld.long 0x0 8.--10. "PID_MAJOR_PROXY," "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "PID_CUSTOM_PROXY," "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "PID_MINOR_PROXY," rgroup.long 0x2008++0x3 line.long 0x0 "CFG0_MMR_CFG1_PROXY," bitfld.long 0x0 31. "MMR_CFG1_PROXY_EN_PROXY,Proxy addressing activated" "0,1" hexmask.long.byte 0x0 0.--7. 1. "MMR_CFG1_PARTITIONS_PROXY,Indicates present partitions" group.long 0x2100++0x3 line.long 0x0 "CFG0_IPC_SET_PROXY," hexmask.long 0x0 4.--31. 1. "IPC_SRC_SET_PROXY,Read returns current value Write: 0 - No effect 1 - Sets both corresponding IPC_CLR and the IPC_SET bits" bitfld.long 0x0 0. "IPC_SET_PROXY,Read returns 0 Write: 0 - No effect 1 - Sets both corresponding IPC_CLR and the IPC_SET bits" "0,1" group.long 0x2180++0x3 line.long 0x0 "CFG0_IPC_CLR_PROXY," hexmask.long 0x0 4.--31. 1. "IPC_SRC_CLR_PROXY,Read returns current value Write: 0 - No effect 1 - Clears both corresponding IPC_CLR and the IPC_SET bits" bitfld.long 0x0 0. "IPC_CLR_PROXY,Read returns current value Write: 0 - No effect 1 - Clears both corresponding IPC_CLR and the IPC_SET bits" "0,1" group.long 0x3008++0x1B line.long 0x0 "CFG0_LOCK0_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK0_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK0_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK0_KICK1_PROXY,- KICK1 component" line.long 0x8 "CFG0_intr_raw_status_PROXY," bitfld.long 0x8 3. "PROXY_ERR_PROXY,Proxy0 access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" bitfld.long 0x8 2. "KICK_ERR_PROXY,Kick access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 1. "ADDR_ERR_PROXY,Addressing violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" bitfld.long 0x8 0. "PROT_ERR_PROXY,Protection violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" line.long 0xC "CFG0_intr_enabled_status_clear_PROXY," bitfld.long 0xC 3. "ENABLED_PROXY_ERR_PROXY,Proxy0 access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" bitfld.long 0xC 2. "ENABLED_KICK_ERR_PROXY,Kick access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 1. "ENABLED_ADDR_ERR_PROXY,Addressing violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" bitfld.long 0xC 0. "ENABLED_PROT_ERR_PROXY,Protection violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" line.long 0x10 "CFG0_intr_enable_PROXY," bitfld.long 0x10 3. "PROXY_ERR_EN_PROXY,Proxy0 access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x10 2. "KICK_ERR_EN_PROXY,Kick access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 1. "ADDR_ERR_EN_PROXY,Addressing violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x10 0. "PROT_ERR_EN_PROXY,Protection violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" line.long 0x14 "CFG0_intr_enable_clear_PROXY," bitfld.long 0x14 3. "PROXY_ERR_EN_CLR_PROXY,Proxy0 access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x14 2. "KICK_ERR_EN_CLR_PROXY,Kick access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x14 1. "ADDR_ERR_EN_CLR_PROXY,Addressing violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x14 0. "PROT_ERR_EN_CLR_PROXY,Protection violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" line.long 0x18 "CFG0_eoi_PROXY," hexmask.long.byte 0x18 0.--7. 1. "EOI_VECTOR_PROXY,EOI vector value. Write this with interrupt distribution value in the chip." rgroup.long 0x3024++0xB line.long 0x0 "CFG0_fault_address_PROXY," hexmask.long 0x0 0.--31. 1. "FAULT_ADDR_PROXY,Fault Address." line.long 0x4 "CFG0_fault_type_status_PROXY," bitfld.long 0x4 6. "FAULT_NS_PROXY,Non-secure access." "0,1" hexmask.long.byte 0x4 0.--5. 1. "FAULT_TYPE_PROXY,Fault Type 10_0000 = Supervisor read fault - priv = 1 dir = 1 dtype != 1 01_0000 = Supervisor write fault - priv = 1 dir = 0 00_1000 = Supervisor execute fault - priv = 1 dir = 1 dtype = 1 00_0100 = User read fault - priv =.." line.long 0x8 "CFG0_fault_attr_status_PROXY," hexmask.long.word 0x8 20.--31. 1. "FAULT_XID_PROXY,XID." hexmask.long.word 0x8 8.--19. 1. "FAULT_ROUTEID_PROXY,Route ID." newline hexmask.long.byte 0x8 0.--7. 1. "FAULT_PRIVID_PROXY,Privilege ID." wgroup.long 0x3030++0x3 line.long 0x0 "CFG0_fault_clear_PROXY," bitfld.long 0x0 0. "FAULT_CLR_PROXY,Fault clear. Writing a 1 clears the current fault. Writing a 0 has no effect." "0,1" group.long 0x3100++0x1B line.long 0x0 "CFG0_CLAIMREG_P0_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P0_R0,Claim bits for Partition 0" line.long 0x4 "CFG0_CLAIMREG_P0_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P0_R1,Claim bits for Partition 0" line.long 0x8 "CFG0_CLAIMREG_P0_R2," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P0_R2,Claim bits for Partition 0" line.long 0xC "CFG0_CLAIMREG_P0_R3," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P0_R3,Claim bits for Partition 0" line.long 0x10 "CFG0_CLAIMREG_P0_R4," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P0_R4,Claim bits for Partition 0" line.long 0x14 "CFG0_CLAIMREG_P0_R5," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P0_R5,Claim bits for Partition 0" line.long 0x18 "CFG0_CLAIMREG_P0_R6," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P0_R6,Claim bits for Partition 0" group.long 0x4044++0x7 line.long 0x0 "CFG0_ENET1_CTRL," bitfld.long 0x0 0.--2. "ENET1_CTRL_PORT_MODE_SEL,Selects Ethernet switch Port1 interface Field values (others are reserved): 3'b000 - GMII/MII (not supported) 3'b001 - RMII 3'b010 - RGMII 3'b011 - SGMII 3'b100 - QSGMII (not supported) 3'b101 - XFI (not supported) 3'b110 -.." "0,1,2,3,4,5,6,7" line.long 0x4 "CFG0_ENET2_CTRL," bitfld.long 0x4 0.--2. "ENET2_CTRL_PORT_MODE_SEL,Selects Ethernet switch Port2 interface Field values (others are reserved): 3'b000 - GMII/MII (not supported) 3'b001 - RMII 3'b010 - RGMII 3'b011 - SGMII 3'b100 - QSGMII (not supported) 3'b101 - XFI (not supported) 3'b110 -.." "0,1,2,3,4,5,6,7" group.long 0x4080++0x3 line.long 0x0 "CFG0_SERDES0_LN0_CTRL," bitfld.long 0x0 0.--1. "SERDES0_LN0_CTRL_LANE_FUNC_SEL,Selects the SERDES0 lane0 function Field values (others are reserved): 2'b00 - USBSS0 2'b01 - CPSW0_SGMII2" "0,1,2,3" group.long 0x4090++0x3 line.long 0x0 "CFG0_SERDES1_LN0_CTRL," bitfld.long 0x0 0.--1. "SERDES1_LN0_CTRL_LANE_FUNC_SEL,Selects the SERDES1 lane0 function Field values (others are reserved): undefined - undefined undefined - undefined undefined - undefined undefined - undefined 2'b00 - PCIE0 2'b01 - CPSW0_SGMII1" "0,1,2,3" group.long 0x40E0++0x7 line.long 0x0 "CFG0_SERDES0_CTRL," bitfld.long 0x0 8. "SERDES0_CTRL_RET_EN,Retention activate Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" line.long 0x4 "CFG0_SERDES1_CTRL," bitfld.long 0x4 8. "SERDES1_CTRL_RET_EN,Retention activate Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" group.long 0x4128++0x3 line.long 0x0 "CFG0_DPI0_OUT_SEL," bitfld.long 0x0 0.--1. "DPI0_OUT_SEL_OUTSEL,Selects Source of DPI0 output Field values (others are reserved): undefined - undefined 2'b01 - DSS0_DISPC0_DPI1 2'b10 - DSS1_DISPC0_DPI0 2'b11 - DSS1_DISPC0_DPI1" "0,1,2,3" group.long 0x4130++0x3 line.long 0x0 "CFG0_EPWM_TB_CLKEN," bitfld.long 0x0 2. "EPWM_TB_CLKEN_EPWM2_TB_CLKEN,Activates Timebase Clock of EPWM2 When Set Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" bitfld.long 0x0 1. "EPWM_TB_CLKEN_EPWM1_TB_CLKEN,Activates Timebase Clock of EPWM1 When Set Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" newline bitfld.long 0x0 0. "EPWM_TB_CLKEN_EPWM0_TB_CLKEN,Activates Timebase Clock of EPWM0 When Set Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" group.long 0x4140++0xB line.long 0x0 "CFG0_EPWM0_CTRL," bitfld.long 0x0 8.--10. "EPWM0_CTRL_SYNCIN_SEL,Selects the source of the EPWM0 synchronization input Field values (others are reserved): 3'b000 - EPWM0_SYNCIN (Pin) undefined - undefined 3'b010 - Time Sync Router 19 3'b011 - CPSW CMP Event 3'b100 - PCI CMP Event" "0,1,2,3,4,5,6,7" bitfld.long 0x0 4. "EPWM0_CTRL_EALLOW,Activate write access to EPWM tripzone registers Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" line.long 0x4 "CFG0_EPWM1_CTRL," bitfld.long 0x4 4. "EPWM1_CTRL_EALLOW,Activate write access to EPWM tripzone registers Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" line.long 0x8 "CFG0_EPWM2_CTRL," bitfld.long 0x8 4. "EPWM2_CTRL_EALLOW,Activate write access to EPWM tripzone registers Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" group.long 0x4180++0xB line.long 0x0 "CFG0_EQEP0_CTRL," hexmask.long.byte 0x0 0.--4. 1. "EQEP0_CTRL_SOCA_SEL,Selects the source of SOCA input for EQEP0 Field values (others are reserved): undefined - undefined undefined - undefined 5'b00010 - EPWM SOCA_OUT 5'b00011 - EPWM SOCB_OUT 5'b00100 - MCU_TIMER0 PWM 5'b00101 - MCU_TIMER1 PWM.." line.long 0x4 "CFG0_EQEP1_CTRL," hexmask.long.byte 0x4 0.--4. 1. "EQEP1_CTRL_SOCA_SEL,Selects the source of SOCA input for EQEP1 Field values (others are reserved): undefined - undefined undefined - undefined 5'b00010 - EPWM SOCA_OUT 5'b00011 - EPWM SOCB_OUT 5'b00100 - MCU_TIMER0 PWM 5'b00101 - MCU_TIMER1 PWM.." line.long 0x8 "CFG0_EQEP2_CTRL," hexmask.long.byte 0x8 0.--4. 1. "EQEP2_CTRL_SOCA_SEL,Selects the source of SOCA input for EQEP2 Field values (others are reserved): undefined - undefined undefined - undefined 5'b00010 - EPWM SOCA_OUT 5'b00011 - EPWM SOCB_OUT 5'b00100 - MCU_TIMER0 PWM 5'b00101 - MCU_TIMER1 PWM.." rgroup.long 0x41A0++0x3 line.long 0x0 "CFG0_EQEP_STAT," bitfld.long 0x0 2. "EQEP_STAT_PHASE_ERR2,EQEP2 Phase error status Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - PHASE_ERROR" "0,1" bitfld.long 0x0 1. "EQEP_STAT_PHASE_ERR1,EQEP1 Phase error status Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - PHASE_ERROR" "0,1" newline bitfld.long 0x0 0. "EQEP_STAT_PHASE_ERR0,EQEP0 Phase error status Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - PHASE_ERROR" "0,1" group.long 0x4204++0x3 line.long 0x0 "CFG0_TIMER1_CTRL," bitfld.long 0x0 8. "TIMER1_CTRL_CASCADE_EN,Activates cascading of TIMER1 to TIMER0 Field values (others are reserved): 1'b0 - CASCADE_DEACTIVATED 1'b1 - CASCADE_ACTIVATED" "0,1" group.long 0x420C++0x3 line.long 0x0 "CFG0_TIMER3_CTRL," bitfld.long 0x0 8. "TIMER3_CTRL_CASCADE_EN,Activates cascading of TIMER3 to TIMER2 Field values (others are reserved): 1'b0 - CASCADE_DEACTIVATED 1'b1 - CASCADE_ACTIVATED" "0,1" group.long 0x4214++0x3 line.long 0x0 "CFG0_TIMER5_CTRL," bitfld.long 0x0 8. "TIMER5_CTRL_CASCADE_EN,Activates cascading of TIMER5 to TIMER4 Field values (others are reserved): 1'b0 - CASCADE_DEACTIVATED 1'b1 - CASCADE_ACTIVATED" "0,1" group.long 0x421C++0x3 line.long 0x0 "CFG0_TIMER7_CTRL," bitfld.long 0x0 8. "TIMER7_CTRL_CASCADE_EN,Activates cascading of TIMER7 to TIMER6 Field values (others are reserved): 1'b0 - CASCADE_DEACTIVATED 1'b1 - CASCADE_ACTIVATED" "0,1" group.long 0x4300++0x3 line.long 0x0 "CFG0_C7XV_CTRL0," bitfld.long 0x0 15. "C7XV_CTRL0_ORD15,Ordering Rule for Order ID 15 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 14. "C7XV_CTRL0_ORD14,Ordering Rule for Order ID 14 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 13. "C7XV_CTRL0_ORD13,Ordering Rule for Order ID 13 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 12. "C7XV_CTRL0_ORD12,Ordering Rule for Order ID 12 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 11. "C7XV_CTRL0_ORD11,Ordering Rule for Order ID 11 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 10. "C7XV_CTRL0_ORD10,Ordering Rule for Order ID 10 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 9. "C7XV_CTRL0_ORD9,Ordering Rule for Order ID 9 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 8. "C7XV_CTRL0_ORD8,Ordering Rule for Order ID 8 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 7. "C7XV_CTRL0_ORD7,Ordering Rule for Order ID 7 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 6. "C7XV_CTRL0_ORD6,Ordering Rule for Order ID 6 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 5. "C7XV_CTRL0_ORD5,Ordering Rule for Order ID 5 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 4. "C7XV_CTRL0_ORD4,Ordering Rule for Order ID 4 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 3. "C7XV_CTRL0_ORD3,Ordering Rule for Order ID 3 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 2. "C7XV_CTRL0_ORD2,Ordering Rule for Order ID 2 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 1. "C7XV_CTRL0_ORD1,Ordering Rule for Order ID 1 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 0. "C7XV_CTRL0_ORD0,Ordering Rule for Order ID 0 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" group.long 0x4308++0x3 line.long 0x0 "CFG0_C7XV_CTRL1," bitfld.long 0x0 15. "C7XV_CTRL1_ORD15,Ordering Rule for Order ID 15 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 14. "C7XV_CTRL1_ORD14,Ordering Rule for Order ID 14 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 13. "C7XV_CTRL1_ORD13,Ordering Rule for Order ID 13 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 12. "C7XV_CTRL1_ORD12,Ordering Rule for Order ID 12 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 11. "C7XV_CTRL1_ORD11,Ordering Rule for Order ID 11 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 10. "C7XV_CTRL1_ORD10,Ordering Rule for Order ID 10 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 9. "C7XV_CTRL1_ORD9,Ordering Rule for Order ID 9 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 8. "C7XV_CTRL1_ORD8,Ordering Rule for Order ID 8 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 7. "C7XV_CTRL1_ORD7,Ordering Rule for Order ID 7 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 6. "C7XV_CTRL1_ORD6,Ordering Rule for Order ID 6 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 5. "C7XV_CTRL1_ORD5,Ordering Rule for Order ID 5 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 4. "C7XV_CTRL1_ORD4,Ordering Rule for Order ID 4 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 3. "C7XV_CTRL1_ORD3,Ordering Rule for Order ID 3 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 2. "C7XV_CTRL1_ORD2,Ordering Rule for Order ID 2 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 1. "C7XV_CTRL1_ORD1,Ordering Rule for Order ID 1 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 0. "C7XV_CTRL1_ORD0,Ordering Rule for Order ID 0 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" group.long 0x4310++0x3 line.long 0x0 "CFG0_DPHY_TX0_CTRL," bitfld.long 0x0 0.--1. "DPHY_TX0_CTRL_LANE_FUNC_SEL,Selects the source for the 4 lanes of DPHY_TX 0 Field values (others are reserved): 2'b00 - DSI0 PPI0 2'b01 - CSI-TX0 2'b10 - Reserved 2'b11 - Reserved" "0,1,2,3" group.long 0x4320++0x3 line.long 0x0 "CFG0_VPAC_CAL0_CTRL," bitfld.long 0x0 0.--1. "VPAC_CAL0_CTRL_CAL0_SEL,Selects the CSI-RX source for the VPAC CAL0 input Field values (others are reserved): 2'b00 - CSI_RX0 2'b01 - CSI_RX1 2'b10 - CSI_RX2 2'b11 - CSI_RX3" "0,1,2,3" group.long 0x43F0++0x3 line.long 0x0 "CFG0_CSI_RX_LOOPBACK," bitfld.long 0x0 0.--1. "CSI_RX_LOOPBACK_CSITX0_LB_SEL,Selects the CSI-RX loopback source for CSI-TX0 . Field values (others are reserved): 2'b00 - CSI_RX0 2'b01 - CSI_RX1 2'b10 - CSI_RX2 2'b11 - CSI_RX3" "0,1,2,3" rgroup.long 0x44C4++0x7 line.long 0x0 "CFG0_EMMC1_STAT," bitfld.long 0x0 0. "EMMC1_STAT_SIG1P8_EN,Status of 1.8V Signal Activate from EMMC1 Module Field values (others are reserved): 1'b0 - DISABLE_1P8V_SIGNALLING 1'b1 - ENABLE_1P8V_SIGNALLING" "0,1" line.long 0x4 "CFG0_EMMC2_STAT," bitfld.long 0x4 0. "EMMC2_STAT_SIG1P8_EN,Status of 1.8V Signal Activate from EMMC2 Module Field values (others are reserved): 1'b0 - DISABLE_1P8V_SIGNALLING 1'b1 - ENABLE_1P8V_SIGNALLING" "0,1" group.long 0x4500++0x3 line.long 0x0 "CFG0_GPU_GP_IN_REQ," bitfld.long 0x0 15. "GPU_GP_IN_REQ_REQ,Input request. This bit is set to generate a GPIO request to the GPU to read the requestor data input. This bit should be cleared by the requestor after the GPU has acknowledged the request. Field values (others are reserved): 1'b0 -.." "0,1" hexmask.long.byte 0x0 0.--7. 1. "GPU_GP_IN_REQ_DATA,GPIO requestor data input to the GPU" rgroup.long 0x4504++0x7 line.long 0x0 "CFG0_GPU_GP_IN_ACK," bitfld.long 0x0 15. "GPU_GP_IN_ACK_ACK,Input acknowledge. The GPU will set this bit to acknowledge a GPIO input request. This will generate a gpu_gpio_ack interrupt which will be cleared when the requestor clears the req bit in the GPU_GP_IN_REQ register. Field values.." "0,1" line.long 0x4 "CFG0_GPU_GP_OUT_REQ," bitfld.long 0x4 15. "GPU_GP_OUT_REQ_REQ,Output request. This bit is set to generate a GPIO request from the GPU to read the requestor data output. This will generat a gpu_gpio_req interrupt which will be cleared when the receiver clears the ack bit in the GPU_GPIO_OUT_ACK.." "0,1" hexmask.long.byte 0x4 0.--7. 1. "GPU_GP_OUT_REQ_DATA,GPIO requestor data output from the GPU" group.long 0x450C++0x3 line.long 0x0 "CFG0_GPU_GP_OUT_ACK," bitfld.long 0x0 15. "GPU_GP_OUT_ACK_ACK,Output acknowledge. The receiver of the gpu_gpio_req interrupt will set this bit to acknowledge the GPIO output request. This bit is cleared when the GPU deasserts its gpio_output_req signal. Field values (others are reserved): 1'b0.." "0,1" group.long 0x4700++0x3 line.long 0x0 "CFG0_FSS_CTRL," bitfld.long 0x0 8. "FSS_CTRL_S0_BOOT_SIZE,Selects the size of the boot block to be used for the S0 (OSPI0) flash interface Field values (others are reserved): 1'b0 - S0_BOOT_SIZE_64MB 1'b1 - S0_BOOT_SIZE_128MB" "0,1" hexmask.long.byte 0x0 0.--5. 1. "FSS_CTRL_S0_BOOT_SEG,Selects the boot block to be used for the S0 (OSPI0) flash interface. If the s0_boot_size is 128 MB then only bits [4:0] of this field are used. Care must be taken to account for the address translation as to not fall off or wrap.." rgroup.long 0x4750++0x3 line.long 0x0 "CFG0_DCC_STAT," bitfld.long 0x0 17. "DCC_STAT_MCU_DCC1_INTR_DONE,MCU_DCC1 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" bitfld.long 0x0 16. "DCC_STAT_MCU_DCC0_INTR_DONE,MCU_DCC0 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" newline bitfld.long 0x0 8. "DCC_STAT_DCC8_INTR_DONE,DCC8 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" bitfld.long 0x0 7. "DCC_STAT_DCC7_INTR_DONE,DCC7 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" newline bitfld.long 0x0 6. "DCC_STAT_DCC6_INTR_DONE,DCC6 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" bitfld.long 0x0 5. "DCC_STAT_DCC5_INTR_DONE,DCC5 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" newline bitfld.long 0x0 4. "DCC_STAT_DCC4_INTR_DONE,DCC4 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" bitfld.long 0x0 3. "DCC_STAT_DCC3_INTR_DONE,DCC3 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" newline bitfld.long 0x0 2. "DCC_STAT_DCC2_INTR_DONE,DCC2 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" bitfld.long 0x0 1. "DCC_STAT_DCC1_INTR_DONE,DCC1 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" newline bitfld.long 0x0 0. "DCC_STAT_DCC0_INTR_DONE,DCC0 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" group.long 0x5008++0x7 line.long 0x0 "CFG0_LOCK1_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK1_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK1_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK1_KICK1,- KICK1 component" rgroup.long 0x5100++0x3B line.long 0x0 "CFG0_CLAIMREG_P1_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P1_R0_READONLY,Claim bits for Partition 1" line.long 0x4 "CFG0_CLAIMREG_P1_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P1_R1_READONLY,Claim bits for Partition 1" line.long 0x8 "CFG0_CLAIMREG_P1_R2_READONLY," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P1_R2_READONLY,Claim bits for Partition 1" line.long 0xC "CFG0_CLAIMREG_P1_R3_READONLY," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P1_R3_READONLY,Claim bits for Partition 1" line.long 0x10 "CFG0_CLAIMREG_P1_R4_READONLY," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P1_R4_READONLY,Claim bits for Partition 1" line.long 0x14 "CFG0_CLAIMREG_P1_R5_READONLY," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P1_R5_READONLY,Claim bits for Partition 1" line.long 0x18 "CFG0_CLAIMREG_P1_R6_READONLY," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P1_R6_READONLY,Claim bits for Partition 1" line.long 0x1C "CFG0_CLAIMREG_P1_R7_READONLY," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P1_R7_READONLY,Claim bits for Partition 1" line.long 0x20 "CFG0_CLAIMREG_P1_R8_READONLY," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P1_R8_READONLY,Claim bits for Partition 1" line.long 0x24 "CFG0_CLAIMREG_P1_R9_READONLY," hexmask.long 0x24 0.--31. 1. "CLAIMREG_P1_R9_READONLY,Claim bits for Partition 1" line.long 0x28 "CFG0_CLAIMREG_P1_R10_READONLY," hexmask.long 0x28 0.--31. 1. "CLAIMREG_P1_R10_READONLY,Claim bits for Partition 1" line.long 0x2C "CFG0_CLAIMREG_P1_R11_READONLY," hexmask.long 0x2C 0.--31. 1. "CLAIMREG_P1_R11_READONLY,Claim bits for Partition 1" line.long 0x30 "CFG0_CLAIMREG_P1_R12_READONLY," hexmask.long 0x30 0.--31. 1. "CLAIMREG_P1_R12_READONLY,Claim bits for Partition 1" line.long 0x34 "CFG0_CLAIMREG_P1_R13_READONLY," hexmask.long 0x34 0.--31. 1. "CLAIMREG_P1_R13_READONLY,Claim bits for Partition 1" line.long 0x38 "CFG0_CLAIMREG_P1_R14_READONLY," hexmask.long 0x38 0.--31. 1. "CLAIMREG_P1_R14_READONLY,Claim bits for Partition 1" group.long 0x6044++0x7 line.long 0x0 "CFG0_ENET1_CTRL_PROXY," bitfld.long 0x0 0.--2. "ENET1_CTRL_PORT_MODE_SEL_PROXY,Selects Ethernet switch Port1 interface Field values (others are reserved): 3'b000 - GMII/MII (not supported) 3'b001 - RMII 3'b010 - RGMII 3'b011 - SGMII 3'b100 - QSGMII (not supported) 3'b101 - XFI (not supported) 3'b110.." "0,1,2,3,4,5,6,7" line.long 0x4 "CFG0_ENET2_CTRL_PROXY," bitfld.long 0x4 0.--2. "ENET2_CTRL_PORT_MODE_SEL_PROXY,Selects Ethernet switch Port2 interface Field values (others are reserved): 3'b000 - GMII/MII (not supported) 3'b001 - RMII 3'b010 - RGMII 3'b011 - SGMII 3'b100 - QSGMII (not supported) 3'b101 - XFI (not supported) 3'b110.." "0,1,2,3,4,5,6,7" group.long 0x6080++0x3 line.long 0x0 "CFG0_SERDES0_LN0_CTRL_PROXY," bitfld.long 0x0 0.--1. "SERDES0_LN0_CTRL_LANE_FUNC_SEL_PROXY,Selects the SERDES0 lane0 function Field values (others are reserved): 2'b00 - USBSS0 2'b01 - CPSW0_SGMII2" "0,1,2,3" group.long 0x6090++0x3 line.long 0x0 "CFG0_SERDES1_LN0_CTRL_PROXY," bitfld.long 0x0 0.--1. "SERDES1_LN0_CTRL_LANE_FUNC_SEL_PROXY,Selects the SERDES1 lane0 function Field values (others are reserved): undefined - undefined undefined - undefined undefined - undefined undefined - undefined 2'b00 - PCIE0 2'b01 - CPSW0_SGMII1" "0,1,2,3" group.long 0x60E0++0x7 line.long 0x0 "CFG0_SERDES0_CTRL_PROXY," bitfld.long 0x0 8. "SERDES0_CTRL_RET_EN_PROXY,Retention activate Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" line.long 0x4 "CFG0_SERDES1_CTRL_PROXY," bitfld.long 0x4 8. "SERDES1_CTRL_RET_EN_PROXY,Retention activate Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" group.long 0x6128++0x3 line.long 0x0 "CFG0_DPI0_OUT_SEL_PROXY," bitfld.long 0x0 0.--1. "DPI0_OUT_SEL_OUTSEL_PROXY,Selects Source of DPI0 output Field values (others are reserved): undefined - undefined 2'b01 - DSS0_DISPC0_DPI1 2'b10 - DSS1_DISPC0_DPI0 2'b11 - DSS1_DISPC0_DPI1" "0,1,2,3" group.long 0x6130++0x3 line.long 0x0 "CFG0_EPWM_TB_CLKEN_PROXY," bitfld.long 0x0 2. "EPWM_TB_CLKEN_EPWM2_TB_CLKEN_PROXY,Activates Timebase Clock of EPWM2 When Set Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" bitfld.long 0x0 1. "EPWM_TB_CLKEN_EPWM1_TB_CLKEN_PROXY,Activates Timebase Clock of EPWM1 When Set Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" newline bitfld.long 0x0 0. "EPWM_TB_CLKEN_EPWM0_TB_CLKEN_PROXY,Activates Timebase Clock of EPWM0 When Set Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" group.long 0x6140++0xB line.long 0x0 "CFG0_EPWM0_CTRL_PROXY," bitfld.long 0x0 8.--10. "EPWM0_CTRL_SYNCIN_SEL_PROXY,Selects the source of the EPWM0 synchronization input Field values (others are reserved): 3'b000 - EPWM0_SYNCIN (Pin) undefined - undefined 3'b010 - Time Sync Router 19 3'b011 - CPSW CMP Event 3'b100 - PCI CMP Event" "0,1,2,3,4,5,6,7" bitfld.long 0x0 4. "EPWM0_CTRL_EALLOW_PROXY,Activate write access to EPWM tripzone registers Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" line.long 0x4 "CFG0_EPWM1_CTRL_PROXY," bitfld.long 0x4 4. "EPWM1_CTRL_EALLOW_PROXY,Activate write access to EPWM tripzone registers Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" line.long 0x8 "CFG0_EPWM2_CTRL_PROXY," bitfld.long 0x8 4. "EPWM2_CTRL_EALLOW_PROXY,Activate write access to EPWM tripzone registers Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" group.long 0x6180++0xB line.long 0x0 "CFG0_EQEP0_CTRL_PROXY," hexmask.long.byte 0x0 0.--4. 1. "EQEP0_CTRL_SOCA_SEL_PROXY,Selects the source of SOCA input for EQEP0 Field values (others are reserved): undefined - undefined undefined - undefined 5'b00010 - EPWM SOCA_OUT 5'b00011 - EPWM SOCB_OUT 5'b00100 - MCU_TIMER0 PWM 5'b00101 - MCU_TIMER1 PWM.." line.long 0x4 "CFG0_EQEP1_CTRL_PROXY," hexmask.long.byte 0x4 0.--4. 1. "EQEP1_CTRL_SOCA_SEL_PROXY,Selects the source of SOCA input for EQEP1 Field values (others are reserved): undefined - undefined undefined - undefined 5'b00010 - EPWM SOCA_OUT 5'b00011 - EPWM SOCB_OUT 5'b00100 - MCU_TIMER0 PWM 5'b00101 - MCU_TIMER1 PWM.." line.long 0x8 "CFG0_EQEP2_CTRL_PROXY," hexmask.long.byte 0x8 0.--4. 1. "EQEP2_CTRL_SOCA_SEL_PROXY,Selects the source of SOCA input for EQEP2 Field values (others are reserved): undefined - undefined undefined - undefined 5'b00010 - EPWM SOCA_OUT 5'b00011 - EPWM SOCB_OUT 5'b00100 - MCU_TIMER0 PWM 5'b00101 - MCU_TIMER1 PWM.." rgroup.long 0x61A0++0x3 line.long 0x0 "CFG0_EQEP_STAT_PROXY," bitfld.long 0x0 2. "EQEP_STAT_PHASE_ERR2_PROXY,EQEP2 Phase error status Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - PHASE_ERROR" "0,1" bitfld.long 0x0 1. "EQEP_STAT_PHASE_ERR1_PROXY,EQEP1 Phase error status Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - PHASE_ERROR" "0,1" newline bitfld.long 0x0 0. "EQEP_STAT_PHASE_ERR0_PROXY,EQEP0 Phase error status Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - PHASE_ERROR" "0,1" group.long 0x6204++0x3 line.long 0x0 "CFG0_TIMER1_CTRL_PROXY," bitfld.long 0x0 8. "TIMER1_CTRL_CASCADE_EN_PROXY,Activates cascading of TIMER1 to TIMER0 Field values (others are reserved): 1'b0 - CASCADE_DEACTIVATED 1'b1 - CASCADE_ACTIVATED" "0,1" group.long 0x620C++0x3 line.long 0x0 "CFG0_TIMER3_CTRL_PROXY," bitfld.long 0x0 8. "TIMER3_CTRL_CASCADE_EN_PROXY,Activates cascading of TIMER3 to TIMER2 Field values (others are reserved): 1'b0 - CASCADE_DEACTIVATED 1'b1 - CASCADE_ACTIVATED" "0,1" group.long 0x6214++0x3 line.long 0x0 "CFG0_TIMER5_CTRL_PROXY," bitfld.long 0x0 8. "TIMER5_CTRL_CASCADE_EN_PROXY,Activates cascading of TIMER5 to TIMER4 Field values (others are reserved): 1'b0 - CASCADE_DEACTIVATED 1'b1 - CASCADE_ACTIVATED" "0,1" group.long 0x621C++0x3 line.long 0x0 "CFG0_TIMER7_CTRL_PROXY," bitfld.long 0x0 8. "TIMER7_CTRL_CASCADE_EN_PROXY,Activates cascading of TIMER7 to TIMER6 Field values (others are reserved): 1'b0 - CASCADE_DEACTIVATED 1'b1 - CASCADE_ACTIVATED" "0,1" group.long 0x6300++0x3 line.long 0x0 "CFG0_C7XV_CTRL0_PROXY," bitfld.long 0x0 15. "C7XV_CTRL0_ORD15_PROXY,Ordering Rule for Order ID 15 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 14. "C7XV_CTRL0_ORD14_PROXY,Ordering Rule for Order ID 14 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 13. "C7XV_CTRL0_ORD13_PROXY,Ordering Rule for Order ID 13 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 12. "C7XV_CTRL0_ORD12_PROXY,Ordering Rule for Order ID 12 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 11. "C7XV_CTRL0_ORD11_PROXY,Ordering Rule for Order ID 11 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 10. "C7XV_CTRL0_ORD10_PROXY,Ordering Rule for Order ID 10 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 9. "C7XV_CTRL0_ORD9_PROXY,Ordering Rule for Order ID 9 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 8. "C7XV_CTRL0_ORD8_PROXY,Ordering Rule for Order ID 8 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 7. "C7XV_CTRL0_ORD7_PROXY,Ordering Rule for Order ID 7 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 6. "C7XV_CTRL0_ORD6_PROXY,Ordering Rule for Order ID 6 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 5. "C7XV_CTRL0_ORD5_PROXY,Ordering Rule for Order ID 5 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 4. "C7XV_CTRL0_ORD4_PROXY,Ordering Rule for Order ID 4 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 3. "C7XV_CTRL0_ORD3_PROXY,Ordering Rule for Order ID 3 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 2. "C7XV_CTRL0_ORD2_PROXY,Ordering Rule for Order ID 2 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 1. "C7XV_CTRL0_ORD1_PROXY,Ordering Rule for Order ID 1 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 0. "C7XV_CTRL0_ORD0_PROXY,Ordering Rule for Order ID 0 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" group.long 0x6308++0x3 line.long 0x0 "CFG0_C7XV_CTRL1_PROXY," bitfld.long 0x0 15. "C7XV_CTRL1_ORD15_PROXY,Ordering Rule for Order ID 15 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 14. "C7XV_CTRL1_ORD14_PROXY,Ordering Rule for Order ID 14 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 13. "C7XV_CTRL1_ORD13_PROXY,Ordering Rule for Order ID 13 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 12. "C7XV_CTRL1_ORD12_PROXY,Ordering Rule for Order ID 12 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 11. "C7XV_CTRL1_ORD11_PROXY,Ordering Rule for Order ID 11 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 10. "C7XV_CTRL1_ORD10_PROXY,Ordering Rule for Order ID 10 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 9. "C7XV_CTRL1_ORD9_PROXY,Ordering Rule for Order ID 9 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 8. "C7XV_CTRL1_ORD8_PROXY,Ordering Rule for Order ID 8 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 7. "C7XV_CTRL1_ORD7_PROXY,Ordering Rule for Order ID 7 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 6. "C7XV_CTRL1_ORD6_PROXY,Ordering Rule for Order ID 6 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 5. "C7XV_CTRL1_ORD5_PROXY,Ordering Rule for Order ID 5 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 4. "C7XV_CTRL1_ORD4_PROXY,Ordering Rule for Order ID 4 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 3. "C7XV_CTRL1_ORD3_PROXY,Ordering Rule for Order ID 3 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 2. "C7XV_CTRL1_ORD2_PROXY,Ordering Rule for Order ID 2 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" newline bitfld.long 0x0 1. "C7XV_CTRL1_ORD1_PROXY,Ordering Rule for Order ID 1 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" bitfld.long 0x0 0. "C7XV_CTRL1_ORD0_PROXY,Ordering Rule for Order ID 0 Field values (others are reserved): 1'b0 - RELAXED_READ 1'b1 - RELAXED_R_TO_W" "0,1" group.long 0x6310++0x3 line.long 0x0 "CFG0_DPHY_TX0_CTRL_PROXY," bitfld.long 0x0 0.--1. "DPHY_TX0_CTRL_LANE_FUNC_SEL_PROXY,Selects the source for the 4 lanes of DPHY_TX 0 Field values (others are reserved): 2'b00 - DSI0 PPI0 2'b01 - CSI-TX0 2'b10 - Reserved 2'b11 - Reserved" "0,1,2,3" group.long 0x6320++0x3 line.long 0x0 "CFG0_VPAC_CAL0_CTRL_PROXY," bitfld.long 0x0 0.--1. "VPAC_CAL0_CTRL_CAL0_SEL_PROXY,Selects the CSI-RX source for the VPAC CAL0 input Field values (others are reserved): 2'b00 - CSI_RX0 2'b01 - CSI_RX1 2'b10 - CSI_RX2 2'b11 - CSI_RX3" "0,1,2,3" group.long 0x63F0++0x3 line.long 0x0 "CFG0_CSI_RX_LOOPBACK_PROXY," bitfld.long 0x0 0.--1. "CSI_RX_LOOPBACK_CSITX0_LB_SEL_PROXY,Selects the CSI-RX loopback source for CSI-TX0 . Field values (others are reserved): 2'b00 - CSI_RX0 2'b01 - CSI_RX1 2'b10 - CSI_RX2 2'b11 - CSI_RX3" "0,1,2,3" rgroup.long 0x64C4++0x7 line.long 0x0 "CFG0_EMMC1_STAT_PROXY," bitfld.long 0x0 0. "EMMC1_STAT_SIG1P8_EN_PROXY,Status of 1.8V Signal Activate from EMMC1 Module Field values (others are reserved): 1'b0 - DISABLE_1P8V_SIGNALLING 1'b1 - ENABLE_1P8V_SIGNALLING" "0,1" line.long 0x4 "CFG0_EMMC2_STAT_PROXY," bitfld.long 0x4 0. "EMMC2_STAT_SIG1P8_EN_PROXY,Status of 1.8V Signal Activate from EMMC2 Module Field values (others are reserved): 1'b0 - DISABLE_1P8V_SIGNALLING 1'b1 - ENABLE_1P8V_SIGNALLING" "0,1" group.long 0x6500++0x3 line.long 0x0 "CFG0_GPU_GP_IN_REQ_PROXY," bitfld.long 0x0 15. "GPU_GP_IN_REQ_REQ_PROXY,Input request. This bit is set to generate a GPIO request to the GPU to read the requestor data input. This bit should be cleared by the requestor after the GPU has acknowledged the request. Field values (others are reserved):.." "0,1" hexmask.long.byte 0x0 0.--7. 1. "GPU_GP_IN_REQ_DATA_PROXY,GPIO requestor data input to the GPU" rgroup.long 0x6504++0x7 line.long 0x0 "CFG0_GPU_GP_IN_ACK_PROXY," bitfld.long 0x0 15. "GPU_GP_IN_ACK_ACK_PROXY,Input acknowledge. The GPU will set this bit to acknowledge a GPIO input request. This will generate a gpu_gpio_ack interrupt which will be cleared when the requestor clears the req bit in the GPU_GP_IN_REQ register. Field.." "0,1" line.long 0x4 "CFG0_GPU_GP_OUT_REQ_PROXY," bitfld.long 0x4 15. "GPU_GP_OUT_REQ_REQ_PROXY,Output request. This bit is set to generate a GPIO request from the GPU to read the requestor data output. This will generat a gpu_gpio_req interrupt which will be cleared when the receiver clears the ack bit in the.." "0,1" hexmask.long.byte 0x4 0.--7. 1. "GPU_GP_OUT_REQ_DATA_PROXY,GPIO requestor data output from the GPU" group.long 0x650C++0x3 line.long 0x0 "CFG0_GPU_GP_OUT_ACK_PROXY," bitfld.long 0x0 15. "GPU_GP_OUT_ACK_ACK_PROXY,Output acknowledge. The receiver of the gpu_gpio_req interrupt will set this bit to acknowledge the GPIO output request. This bit is cleared when the GPU deasserts its gpio_output_req signal. Field values (others are reserved):.." "0,1" group.long 0x6700++0x3 line.long 0x0 "CFG0_FSS_CTRL_PROXY," bitfld.long 0x0 8. "FSS_CTRL_S0_BOOT_SIZE_PROXY,Selects the size of the boot block to be used for the S0 (OSPI0) flash interface Field values (others are reserved): 1'b0 - S0_BOOT_SIZE_64MB 1'b1 - S0_BOOT_SIZE_128MB" "0,1" hexmask.long.byte 0x0 0.--5. 1. "FSS_CTRL_S0_BOOT_SEG_PROXY,Selects the boot block to be used for the S0 (OSPI0) flash interface. If the s0_boot_size is 128 MB then only bits [4:0] of this field are used. Care must be taken to account for the address translation as to not fall off or.." rgroup.long 0x6750++0x3 line.long 0x0 "CFG0_DCC_STAT_PROXY," bitfld.long 0x0 17. "DCC_STAT_MCU_DCC1_INTR_DONE_PROXY,MCU_DCC1 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" bitfld.long 0x0 16. "DCC_STAT_MCU_DCC0_INTR_DONE_PROXY,MCU_DCC0 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" newline bitfld.long 0x0 8. "DCC_STAT_DCC8_INTR_DONE_PROXY,DCC8 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" bitfld.long 0x0 7. "DCC_STAT_DCC7_INTR_DONE_PROXY,DCC7 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" newline bitfld.long 0x0 6. "DCC_STAT_DCC6_INTR_DONE_PROXY,DCC6 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" bitfld.long 0x0 5. "DCC_STAT_DCC5_INTR_DONE_PROXY,DCC5 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" newline bitfld.long 0x0 4. "DCC_STAT_DCC4_INTR_DONE_PROXY,DCC4 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" bitfld.long 0x0 3. "DCC_STAT_DCC3_INTR_DONE_PROXY,DCC3 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" newline bitfld.long 0x0 2. "DCC_STAT_DCC2_INTR_DONE_PROXY,DCC2 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" bitfld.long 0x0 1. "DCC_STAT_DCC1_INTR_DONE_PROXY,DCC1 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" newline bitfld.long 0x0 0. "DCC_STAT_DCC0_INTR_DONE_PROXY,DCC0 Done Interrupt Status Field values (others are reserved): 1'b0 - CLR 1'b1 - PEND" "0,1" group.long 0x7008++0x7 line.long 0x0 "CFG0_LOCK1_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK1_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK1_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK1_KICK1_PROXY,- KICK1 component" group.long 0x7100++0x3B line.long 0x0 "CFG0_CLAIMREG_P1_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P1_R0,Claim bits for Partition 1" line.long 0x4 "CFG0_CLAIMREG_P1_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P1_R1,Claim bits for Partition 1" line.long 0x8 "CFG0_CLAIMREG_P1_R2," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P1_R2,Claim bits for Partition 1" line.long 0xC "CFG0_CLAIMREG_P1_R3," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P1_R3,Claim bits for Partition 1" line.long 0x10 "CFG0_CLAIMREG_P1_R4," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P1_R4,Claim bits for Partition 1" line.long 0x14 "CFG0_CLAIMREG_P1_R5," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P1_R5,Claim bits for Partition 1" line.long 0x18 "CFG0_CLAIMREG_P1_R6," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P1_R6,Claim bits for Partition 1" line.long 0x1C "CFG0_CLAIMREG_P1_R7," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P1_R7,Claim bits for Partition 1" line.long 0x20 "CFG0_CLAIMREG_P1_R8," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P1_R8,Claim bits for Partition 1" line.long 0x24 "CFG0_CLAIMREG_P1_R9," hexmask.long 0x24 0.--31. 1. "CLAIMREG_P1_R9,Claim bits for Partition 1" line.long 0x28 "CFG0_CLAIMREG_P1_R10," hexmask.long 0x28 0.--31. 1. "CLAIMREG_P1_R10,Claim bits for Partition 1" line.long 0x2C "CFG0_CLAIMREG_P1_R11," hexmask.long 0x2C 0.--31. 1. "CLAIMREG_P1_R11,Claim bits for Partition 1" line.long 0x30 "CFG0_CLAIMREG_P1_R12," hexmask.long 0x30 0.--31. 1. "CLAIMREG_P1_R12,Claim bits for Partition 1" line.long 0x34 "CFG0_CLAIMREG_P1_R13," hexmask.long 0x34 0.--31. 1. "CLAIMREG_P1_R13,Claim bits for Partition 1" line.long 0x38 "CFG0_CLAIMREG_P1_R14," hexmask.long 0x38 0.--31. 1. "CLAIMREG_P1_R14,Claim bits for Partition 1" group.long 0x8000++0x3 line.long 0x0 "CFG0_OBSCLK0_CTRL," bitfld.long 0x0 24. "OBSCLK0_CTRL_OUT_MUX_SEL,OBSCLK pin output mux selection. HFOSC0_CLK is a direct output from the HFOSC0 Field values (others are reserved): 1'b0 - CLK_DIV_OUT 1'b1 - HFOSC0_CLK (clk_sel must be OFF)" "0,1" bitfld.long 0x0 16. "OBSCLK0_CTRL_CLK_DIV_LD,Load divisor value from clk_div field when the bit is toggled from 0 to 1. Field values (others are reserved): 1'b0 - READY 1'b1 - LOAD" "0,1" newline hexmask.long.byte 0x0 8.--15. 1. "OBSCLK0_CTRL_CLK_DIV,OBSCLK0 output divider. Sets divider to divide by clkdiv + 1. Divide by 1 to 256 are supported. After writing to this field the clk_div_ld field must be toggled." hexmask.long.byte 0x0 0.--4. 1. "OBSCLK0_CTRL_CLK_SEL,OBSCLK0 clock source selection. Selects the source of the clock to be divided by the OBSCLK0 divider. Field values (others are reserved): 5'b00000 - MAIN_PLL0_HSDIV0_CLKOUT 5'b00001 - MAIN_PLL1_HSDIV0_CLKOUT 5'b00010 -.." group.long 0x8010++0x3 line.long 0x0 "CFG0_CLKOUT_CTRL," bitfld.long 0x0 0. "CLKOUT_CTRL_CLK_SEL,Selects CLKOUT clock source Field values (others are reserved): 1'b0 - MAIN_PLL2_HSDIV1_CLKOUT / 5 1'b1 - MAIN_PLL2_HSDIV1_CLKOUT / 10" "0,1" group.long 0x8060++0xB line.long 0x0 "CFG0_MAIN_PLL0_CLKSEL," bitfld.long 0x0 31. "MAIN_PLL0_CLKSEL_BYPASS_SW_OVRD,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL0. This bit must not be set until after the corresponding byp_warm_rst bit has been.." "0,1" bitfld.long 0x0 23. "MAIN_PLL0_CLKSEL_BYP_WARM_RST,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL0 in bypass mode.." "0,1" line.long 0x4 "CFG0_MAIN_PLL1_CLKSEL," bitfld.long 0x4 31. "MAIN_PLL1_CLKSEL_BYPASS_SW_OVRD,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL1. This bit must not be set until after the corresponding byp_warm_rst bit has been.." "0,1" bitfld.long 0x4 23. "MAIN_PLL1_CLKSEL_BYP_WARM_RST,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL1 in bypass mode.." "0,1" line.long 0x8 "CFG0_MAIN_PLL2_CLKSEL," bitfld.long 0x8 31. "MAIN_PLL2_CLKSEL_BYPASS_SW_OVRD,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL2. This bit must not be set until after the corresponding byp_warm_rst bit has been.." "0,1" bitfld.long 0x8 23. "MAIN_PLL2_CLKSEL_BYP_WARM_RST,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL2 in bypass mode.." "0,1" group.long 0x8074++0xF line.long 0x0 "CFG0_MAIN_PLL5_CLKSEL," bitfld.long 0x0 31. "MAIN_PLL5_CLKSEL_BYPASS_SW_OVRD,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL5. This bit must not be set until after the corresponding byp_warm_rst bit has been.." "0,1" bitfld.long 0x0 23. "MAIN_PLL5_CLKSEL_BYP_WARM_RST,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL5 in bypass mode.." "0,1" line.long 0x4 "CFG0_MAIN_PLL6_CLKSEL," bitfld.long 0x4 31. "MAIN_PLL6_CLKSEL_BYPASS_SW_OVRD,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL6. This bit must not be set until after the corresponding byp_warm_rst bit has been.." "0,1" bitfld.long 0x4 23. "MAIN_PLL6_CLKSEL_BYP_WARM_RST,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL6 in bypass mode.." "0,1" line.long 0x8 "CFG0_MAIN_PLL7_CLKSEL," bitfld.long 0x8 31. "MAIN_PLL7_CLKSEL_BYPASS_SW_OVRD,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL7. This bit must not be set until after the corresponding byp_warm_rst bit has been.." "0,1" bitfld.long 0x8 23. "MAIN_PLL7_CLKSEL_BYP_WARM_RST,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL7 in bypass mode.." "0,1" line.long 0xC "CFG0_MAIN_PLL8_CLKSEL," bitfld.long 0xC 31. "MAIN_PLL8_CLKSEL_BYPASS_SW_OVRD,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL8. This bit must not be set until after the corresponding byp_warm_rst bit has been.." "0,1" bitfld.long 0xC 23. "MAIN_PLL8_CLKSEL_BYP_WARM_RST,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL8 in bypass mode.." "0,1" group.long 0x8090++0x3 line.long 0x0 "CFG0_MAIN_PLL12_CLKSEL," bitfld.long 0x0 31. "MAIN_PLL12_CLKSEL_BYPASS_SW_OVRD,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL12. This bit must not be set until after the corresponding byp_warm_rst bit has been.." "0,1" bitfld.long 0x0 23. "MAIN_PLL12_CLKSEL_BYP_WARM_RST,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL12 in bypass mode.." "0,1" group.long 0x80A0++0xB line.long 0x0 "CFG0_MAIN_PLL16_CLKSEL," bitfld.long 0x0 31. "MAIN_PLL16_CLKSEL_BYPASS_SW_OVRD,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL16. This bit must not be set until after the corresponding byp_warm_rst bit has been.." "0,1" bitfld.long 0x0 23. "MAIN_PLL16_CLKSEL_BYP_WARM_RST,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL16 in bypass mode.." "0,1" line.long 0x4 "CFG0_MAIN_PLL17_CLKSEL," bitfld.long 0x4 31. "MAIN_PLL17_CLKSEL_BYPASS_SW_OVRD,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL17. This bit must not be set until after the corresponding byp_warm_rst bit has been.." "0,1" bitfld.long 0x4 23. "MAIN_PLL17_CLKSEL_BYP_WARM_RST,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL17 in bypass mode.." "0,1" line.long 0x8 "CFG0_MAIN_PLL18_CLKSEL," bitfld.long 0x8 31. "MAIN_PLL18_CLKSEL_BYPASS_SW_OVRD,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL18. This bit must not be set until after the corresponding byp_warm_rst bit has been.." "0,1" bitfld.long 0x8 23. "MAIN_PLL18_CLKSEL_BYP_WARM_RST,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL18 in bypass mode.." "0,1" group.long 0x8120++0x3 line.long 0x0 "CFG0_PCIE0_CLKSEL," bitfld.long 0x0 0.--2. "PCIE0_CLKSEL_CPTS_CLKSEL,Selects the clock source for the PCIE0 Common Platform Time Stamp module Field values (others are reserved): 3'b000 - MAIN_PLL2_HSDIV6_CLKOUT 3'b001 - MAIN_PLL0_HSDIV6_CLKOUT 3'b010 - CP_GEMAC_CPTS0_RFT_CLK (Pin) undefined -.." "0,1,2,3,4,5,6,7" group.long 0x8140++0x3 line.long 0x0 "CFG0_CPSW_CLKSEL," bitfld.long 0x0 0.--2. "CPSW_CLKSEL_CPTS_CLKSEL,Selects the clock source for the CPSW Ethernet switch Common Platform Time Stamp module Field values (others are reserved): 3'b000 - MAIN_PLL2_HSDIV5_CLKOUT 3'b001 - MAIN_PLL0_HSDIV6_CLKOUT 3'b010 - CP_GEMAC_CPTS0_RFT_CLK (Pin).." "0,1,2,3,4,5,6,7" group.long 0x8160++0x3 line.long 0x0 "CFG0_EMMC0_CLKSEL," bitfld.long 0x0 0. "EMMC0_CLKSEL_EMMCSD_REFCLK_SEL,Selects the functional clock for the MMC Module Field values (others are reserved): 1'b0 - MAIN_PLL0_HSDIV5_CLKOUT 1'b1 - MAIN_PLL2_HSDIV2_CLKOUT" "0,1" group.long 0x8168++0x7 line.long 0x0 "CFG0_EMMC1_CLKSEL," bitfld.long 0x0 16. "EMMC1_CLKSEL_EMMCSD_IO_CLKLB_SEL,Selects IO Pad Loopback for the MMC Module Field values (others are reserved): 1'b0 - Loopback from Unbonded Pad MMCSD1_CLKLB 1'b1 - Loopback from IO Pin MMCSD1_CLK" "0,1" bitfld.long 0x0 0. "EMMC1_CLKSEL_EMMCSD_REFCLK_SEL,Selects the functional clock for the MMC Module Field values (others are reserved): 1'b0 - MAIN_PLL0_HSDIV5_CLKOUT 1'b1 - MAIN_PLL2_HSDIV2_CLKOUT" "0,1" line.long 0x4 "CFG0_EMMC2_CLKSEL," bitfld.long 0x4 16. "EMMC2_CLKSEL_EMMCSD_IO_CLKLB_SEL,Selects IO Pad Loopback for the MMC Module Field values (others are reserved): 1'b0 - Loopback from Unbonded Pad MMCSD2_CLKLB 1'b1 - Loopback from IO Pin MMCSD2_CLK" "0,1" bitfld.long 0x4 0. "EMMC2_CLKSEL_EMMCSD_REFCLK_SEL,Selects the functional clock for the MMC Module Field values (others are reserved): 1'b0 - MAIN_PLL0_HSDIV5_CLKOUT 1'b1 - MAIN_PLL2_HSDIV2_CLKOUT" "0,1" group.long 0x8180++0x3 line.long 0x0 "CFG0_GPMC_CLKSEL," bitfld.long 0x0 0. "GPMC_CLKSEL_CLK_SEL,Selects the GPMC clock source: Field values (others are reserved): 1'b0 - MAIN_PLL0_HSDIV3_CLKOUT 1'b1 - MAIN_PLL2_HSDIV7_CLKOUT" "0,1" group.long 0x81B0++0x1F line.long 0x0 "CFG0_TIMER0_CLKSEL," hexmask.long.byte 0x0 0.--3. 1. "TIMER0_CLKSEL_CLK_SEL,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 4'b0000 - HFOSC0_CLKOUT 4'b0001 - DEVICE_CLKOUT_32K 4'b0010 - MAIN_PLL0_HSDIV7_CLKOUT 4'b0011 - CLK_12M_RC.." line.long 0x4 "CFG0_TIMER1_CLKSEL," hexmask.long.byte 0x4 0.--3. 1. "TIMER1_CLKSEL_CLK_SEL,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 4'b0000 - HFOSC0_CLKOUT 4'b0001 - DEVICE_CLKOUT_32K 4'b0010 - MAIN_PLL0_HSDIV7_CLKOUT 4'b0011 - CLK_12M_RC.." line.long 0x8 "CFG0_TIMER2_CLKSEL," hexmask.long.byte 0x8 0.--3. 1. "TIMER2_CLKSEL_CLK_SEL,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 4'b0000 - HFOSC0_CLKOUT 4'b0001 - DEVICE_CLKOUT_32K 4'b0010 - MAIN_PLL0_HSDIV7_CLKOUT 4'b0011 - CLK_12M_RC.." line.long 0xC "CFG0_TIMER3_CLKSEL," hexmask.long.byte 0xC 0.--3. 1. "TIMER3_CLKSEL_CLK_SEL,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 4'b0000 - HFOSC0_CLKOUT 4'b0001 - DEVICE_CLKOUT_32K 4'b0010 - MAIN_PLL0_HSDIV7_CLKOUT 4'b0011 - CLK_12M_RC.." line.long 0x10 "CFG0_TIMER4_CLKSEL," hexmask.long.byte 0x10 0.--3. 1. "TIMER4_CLKSEL_CLK_SEL,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 4'b0000 - HFOSC0_CLKOUT 4'b0001 - DEVICE_CLKOUT_32K 4'b0010 - MAIN_PLL0_HSDIV7_CLKOUT 4'b0011 - CLK_12M_RC.." line.long 0x14 "CFG0_TIMER5_CLKSEL," hexmask.long.byte 0x14 0.--3. 1. "TIMER5_CLKSEL_CLK_SEL,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 4'b0000 - HFOSC0_CLKOUT 4'b0001 - DEVICE_CLKOUT_32K 4'b0010 - MAIN_PLL0_HSDIV7_CLKOUT 4'b0011 - CLK_12M_RC.." line.long 0x18 "CFG0_TIMER6_CLKSEL," hexmask.long.byte 0x18 0.--3. 1. "TIMER6_CLKSEL_CLK_SEL,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 4'b0000 - HFOSC0_CLKOUT 4'b0001 - DEVICE_CLKOUT_32K 4'b0010 - MAIN_PLL0_HSDIV7_CLKOUT 4'b0011 - CLK_12M_RC.." line.long 0x1C "CFG0_TIMER7_CLKSEL," hexmask.long.byte 0x1C 0.--3. 1. "TIMER7_CLKSEL_CLK_SEL,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 4'b0000 - HFOSC0_CLKOUT 4'b0001 - DEVICE_CLKOUT_32K 4'b0010 - MAIN_PLL0_HSDIV7_CLKOUT 4'b0011 - CLK_12M_RC.." group.long 0x8200++0xB line.long 0x0 "CFG0_SPI0_CLKSEL," bitfld.long 0x0 16. "SPI0_CLKSEL_MSTR_LB_CLKSEL,Controller mode receive capture clock loopback selection Field values (others are reserved): 1'b0 - INTERNAL_LOOPBACK 1'b1 - EXTERNAL_LOOPBACK" "0,1" line.long 0x4 "CFG0_SPI1_CLKSEL," bitfld.long 0x4 16. "SPI1_CLKSEL_MSTR_LB_CLKSEL,Controller mode receive capture clock loopback selection Field values (others are reserved): 1'b0 - INTERNAL_LOOPBACK 1'b1 - EXTERNAL_LOOPBACK" "0,1" line.long 0x8 "CFG0_SPI2_CLKSEL," bitfld.long 0x8 16. "SPI2_CLKSEL_MSTR_LB_CLKSEL,Controller mode receive capture clock loopback selection Field values (others are reserved): 1'b0 - INTERNAL_LOOPBACK 1'b1 - EXTERNAL_LOOPBACK" "0,1" group.long 0x8240++0x1B line.long 0x0 "CFG0_USART0_CLK_CTRL," bitfld.long 0x0 16. "USART0_CLK_CTRL_CLK_DIV_LD,Load the output divider value Writing 1 to this bit will generate a load pulse to load the USART0 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div value.." "0,1" bitfld.long 0x0 0.--1. "USART0_CLK_CTRL_CLK_DIV,Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1. Field values (others are reserved): 2'b00 - Divide by 1 2'b01 -.." "0,1,2,3" line.long 0x4 "CFG0_USART1_CLK_CTRL," bitfld.long 0x4 16. "USART1_CLK_CTRL_CLK_DIV_LD,Load the output divider value Writing 1 to this bit will generate a load pulse to load the USART1 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div value.." "0,1" bitfld.long 0x4 0.--1. "USART1_CLK_CTRL_CLK_DIV,Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1. Field values (others are reserved): 2'b00 - Divide by 1 2'b01 -.." "0,1,2,3" line.long 0x8 "CFG0_USART2_CLK_CTRL," bitfld.long 0x8 16. "USART2_CLK_CTRL_CLK_DIV_LD,Load the output divider value Writing 1 to this bit will generate a load pulse to load the USART2 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div value.." "0,1" bitfld.long 0x8 0.--1. "USART2_CLK_CTRL_CLK_DIV,Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1. Field values (others are reserved): 2'b00 - Divide by 1 2'b01 -.." "0,1,2,3" line.long 0xC "CFG0_USART3_CLK_CTRL," bitfld.long 0xC 16. "USART3_CLK_CTRL_CLK_DIV_LD,Load the output divider value Writing 1 to this bit will generate a load pulse to load the USART3 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div value.." "0,1" bitfld.long 0xC 0.--1. "USART3_CLK_CTRL_CLK_DIV,Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1. Field values (others are reserved): 2'b00 - Divide by 1 2'b01 -.." "0,1,2,3" line.long 0x10 "CFG0_USART4_CLK_CTRL," bitfld.long 0x10 16. "USART4_CLK_CTRL_CLK_DIV_LD,Load the output divider value Writing 1 to this bit will generate a load pulse to load the USART4 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div value.." "0,1" bitfld.long 0x10 0.--1. "USART4_CLK_CTRL_CLK_DIV,Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1. Field values (others are reserved): 2'b00 - Divide by 1 2'b01 -.." "0,1,2,3" line.long 0x14 "CFG0_USART5_CLK_CTRL," bitfld.long 0x14 16. "USART5_CLK_CTRL_CLK_DIV_LD,Load the output divider value Writing 1 to this bit will generate a load pulse to load the USART5 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div value.." "0,1" bitfld.long 0x14 0.--1. "USART5_CLK_CTRL_CLK_DIV,Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1. Field values (others are reserved): 2'b00 - Divide by 1 2'b01 -.." "0,1,2,3" line.long 0x18 "CFG0_USART6_CLK_CTRL," bitfld.long 0x18 16. "USART6_CLK_CTRL_CLK_DIV_LD,Load the output divider value Writing 1 to this bit will generate a load pulse to load the USART6 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div value.." "0,1" bitfld.long 0x18 0.--1. "USART6_CLK_CTRL_CLK_DIV,Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1. Field values (others are reserved): 2'b00 - Divide by 1 2'b01 -.." "0,1,2,3" group.long 0x8280++0x1B line.long 0x0 "CFG0_USART0_CLKSEL," bitfld.long 0x0 0. "USART0_CLKSEL_CLK_SEL,Selects the clock source for UART0: Field values (others are reserved): 1'b0 - MAIN_PLL1_HSDIV0_CLKOUT Divider Output (See USART0_CLK_CTRL) 1'b1 - MAIN_PLL1_HSDIV1_CLKOUT" "0,1" line.long 0x4 "CFG0_USART1_CLKSEL," bitfld.long 0x4 0. "USART1_CLKSEL_CLK_SEL,Selects the clock source for UART1: Field values (others are reserved): 1'b0 - MAIN_PLL1_HSDIV0_CLKOUT Divider Output (See USART1_CLK_CTRL) 1'b1 - MAIN_PLL1_HSDIV1_CLKOUT" "0,1" line.long 0x8 "CFG0_USART2_CLKSEL," bitfld.long 0x8 0. "USART2_CLKSEL_CLK_SEL,Selects the clock source for UART2: Field values (others are reserved): 1'b0 - MAIN_PLL1_HSDIV0_CLKOUT Divider Output (See USART2_CLK_CTRL) 1'b1 - MAIN_PLL1_HSDIV1_CLKOUT" "0,1" line.long 0xC "CFG0_USART3_CLKSEL," bitfld.long 0xC 0. "USART3_CLKSEL_CLK_SEL,Selects the clock source for UART3: Field values (others are reserved): 1'b0 - MAIN_PLL1_HSDIV0_CLKOUT Divider Output (See USART3_CLK_CTRL) 1'b1 - MAIN_PLL1_HSDIV1_CLKOUT" "0,1" line.long 0x10 "CFG0_USART4_CLKSEL," bitfld.long 0x10 0. "USART4_CLKSEL_CLK_SEL,Selects the clock source for UART4: Field values (others are reserved): 1'b0 - MAIN_PLL1_HSDIV0_CLKOUT Divider Output (See USART4_CLK_CTRL) 1'b1 - MAIN_PLL1_HSDIV1_CLKOUT" "0,1" line.long 0x14 "CFG0_USART5_CLKSEL," bitfld.long 0x14 0. "USART5_CLKSEL_CLK_SEL,Selects the clock source for UART5: Field values (others are reserved): 1'b0 - MAIN_PLL1_HSDIV0_CLKOUT Divider Output (See USART5_CLK_CTRL) 1'b1 - MAIN_PLL1_HSDIV1_CLKOUT" "0,1" line.long 0x18 "CFG0_USART6_CLKSEL," bitfld.long 0x18 0. "USART6_CLKSEL_CLK_SEL,Selects the clock source for UART6: Field values (others are reserved): 1'b0 - MAIN_PLL1_HSDIV0_CLKOUT Divider Output (See USART6_CLK_CTRL) 1'b1 - MAIN_PLL1_HSDIV1_CLKOUT" "0,1" group.long 0x82B0++0x3 line.long 0x0 "CFG0_ATL_CLKSEL," bitfld.long 0x0 0.--2. "ATL_CLKSEL_PCLK_SEL,Selects the PCLK clock source Field values (others are reserved): 3'b000 - MAIN_PLL2_HSDIV8_CLKOUT 3'b001 - MAIN_PLL1_HSDIV6_CLKOUT 3'b100 - MAIN_PLL0_HSDIV7_CLKOUT 3'b101 - MCU_EXT_REFCLK0 (Pin) 3'b110 - EXT_REFCLK1 (Pin)" "0,1,2,3,4,5,6,7" group.long 0x82C0++0x2B line.long 0x0 "CFG0_ATL_BWS0_SEL," hexmask.long.byte 0x0 0.--3. 1. "ATL_BWS0_SEL_WD_SEL,BWS source signal Field values (others are reserved): 4'b0000 - MCASP0_AFSX_IN 4'b0001 - MCASP1_AFSX_IN 4'b0010 - MCASP2_AFSX_IN 4'b0011 - MCASP3_AFSX_IN 4'b0100 - MCASP4_AFSX_IN 4'b0101 - MCASP0_AFSX_IN 4'b0110 - MCASP1_AFSX_IN.." line.long 0x4 "CFG0_ATL_BWS1_SEL," hexmask.long.byte 0x4 0.--3. 1. "ATL_BWS1_SEL_WD_SEL,BWS source signal Field values (others are reserved): 4'b0000 - MCASP0_AFSX_IN 4'b0001 - MCASP1_AFSX_IN 4'b0010 - MCASP2_AFSX_IN 4'b0011 - MCASP3_AFSX_IN 4'b0100 - MCASP4_AFSX_IN 4'b0101 - MCASP0_AFSX_IN 4'b0110 - MCASP1_AFSX_IN.." line.long 0x8 "CFG0_ATL_BWS2_SEL," hexmask.long.byte 0x8 0.--3. 1. "ATL_BWS2_SEL_WD_SEL,BWS source signal Field values (others are reserved): 4'b0000 - MCASP0_AFSX_IN 4'b0001 - MCASP1_AFSX_IN 4'b0010 - MCASP2_AFSX_IN 4'b0011 - MCASP3_AFSX_IN 4'b0100 - MCASP4_AFSX_IN 4'b0101 - MCASP0_AFSX_IN 4'b0110 - MCASP1_AFSX_IN.." line.long 0xC "CFG0_ATL_BWS3_SEL," hexmask.long.byte 0xC 0.--3. 1. "ATL_BWS3_SEL_WD_SEL,BWS source signal Field values (others are reserved): 4'b0000 - MCASP0_AFSX_IN 4'b0001 - MCASP1_AFSX_IN 4'b0010 - MCASP2_AFSX_IN 4'b0011 - MCASP3_AFSX_IN 4'b0100 - MCASP4_AFSX_IN 4'b0101 - MCASP0_AFSX_IN 4'b0110 - MCASP1_AFSX_IN.." line.long 0x10 "CFG0_ATL_AWS0_SEL," hexmask.long.byte 0x10 0.--3. 1. "ATL_AWS0_SEL_WD_SEL,AWS source signal Field values (others are reserved): 4'b0000 - MCASP0_AFSX_IN 4'b0001 - MCASP1_AFSX_IN 4'b0010 - MCASP2_AFSX_IN 4'b0011 - MCASP3_AFSX_IN 4'b0100 - MCASP4_AFSX_IN 4'b0101 - MCASP0_AFSX_IN 4'b0110 - MCASP1_AFSX_IN.." line.long 0x14 "CFG0_ATL_AWS1_SEL," hexmask.long.byte 0x14 0.--3. 1. "ATL_AWS1_SEL_WD_SEL,AWS source signal Field values (others are reserved): 4'b0000 - MCASP0_AFSX_IN 4'b0001 - MCASP1_AFSX_IN 4'b0010 - MCASP2_AFSX_IN 4'b0011 - MCASP3_AFSX_IN 4'b0100 - MCASP4_AFSX_IN 4'b0101 - MCASP0_AFSX_IN 4'b0110 - MCASP1_AFSX_IN.." line.long 0x18 "CFG0_ATL_AWS2_SEL," hexmask.long.byte 0x18 0.--3. 1. "ATL_AWS2_SEL_WD_SEL,AWS source signal Field values (others are reserved): 4'b0000 - MCASP0_AFSX_IN 4'b0001 - MCASP1_AFSX_IN 4'b0010 - MCASP2_AFSX_IN 4'b0011 - MCASP3_AFSX_IN 4'b0100 - MCASP4_AFSX_IN 4'b0101 - MCASP0_AFSX_IN 4'b0110 - MCASP1_AFSX_IN.." line.long 0x1C "CFG0_ATL_AWS3_SEL," hexmask.long.byte 0x1C 0.--3. 1. "ATL_AWS3_SEL_WD_SEL,AWS source signal Field values (others are reserved): 4'b0000 - MCASP0_AFSX_IN 4'b0001 - MCASP1_AFSX_IN 4'b0010 - MCASP2_AFSX_IN 4'b0011 - MCASP3_AFSX_IN 4'b0100 - MCASP4_AFSX_IN 4'b0101 - MCASP0_AFSX_IN 4'b0110 - MCASP1_AFSX_IN.." line.long 0x20 "CFG0_AUDIO_REFCLK0_CTRL," bitfld.long 0x20 15. "AUDIO_REFCLK0_CTRL_CLKOUT_EN,AUDIO_REFCLK 0 output activate Field values (others are reserved): 1'b0 - INPUT 1'b1 - OUTPUT" "0,1" hexmask.long.byte 0x20 0.--3. 1. "AUDIO_REFCLK0_CTRL_CLK_SEL,Selects the source of AUDIO_REFCLK0 Field values (others are reserved): 4'b0000 - MCASP0_AHCLKR 4'b0001 - MCASP1_AHCLKR 4'b0010 - MCASP2_AHCLKR 4'b0011 - MCASP3_AHCLKR 4'b0100 - MCASP4_AHCLKR 4'b0101 - MCASP0_AHCLKX 4'b0110 -.." line.long 0x24 "CFG0_AUDIO_REFCLK1_CTRL," bitfld.long 0x24 15. "AUDIO_REFCLK1_CTRL_CLKOUT_EN,AUDIO_REFCLK 1 output activate Field values (others are reserved): 1'b0 - INPUT 1'b1 - OUTPUT" "0,1" hexmask.long.byte 0x24 0.--3. 1. "AUDIO_REFCLK1_CTRL_CLK_SEL,Selects the source of AUDIO_REFCLK1 Field values (others are reserved): 4'b0000 - MCASP0_AHCLKR 4'b0001 - MCASP1_AHCLKR 4'b0010 - MCASP2_AHCLKR 4'b0011 - MCASP3_AHCLKR 4'b0100 - MCASP4_AHCLKR 4'b0101 - MCASP0_AHCLKX 4'b0110 -.." line.long 0x28 "CFG0_AUDIO_REFCLK2_CTRL," bitfld.long 0x28 15. "AUDIO_REFCLK2_CTRL_CLKOUT_EN,AUDIO_REFCLK 2 output activate Field values (others are reserved): 1'b0 - INPUT 1'b1 - OUTPUT" "0,1" hexmask.long.byte 0x28 0.--3. 1. "AUDIO_REFCLK2_CTRL_CLK_SEL,Selects the source of AUDIO_REFCLK2 Field values (others are reserved): 4'b0000 - MCASP0_AHCLKR 4'b0001 - MCASP1_AHCLKR 4'b0010 - MCASP2_AHCLKR 4'b0011 - MCASP3_AHCLKR 4'b0100 - MCASP4_AHCLKR 4'b0101 - MCASP0_AHCLKX 4'b0110 -.." group.long 0x8300++0x3 line.long 0x0 "CFG0_DPI0_CLK_CTRL," bitfld.long 0x0 9. "DPI0_CLK_CTRL_SYNC_CLK_INVDIS,Clock edge select for DPI0 HSYNC and VSYNC outputs. Value must match the programmed value of the DSS POL_FREQ.RF bitfield.8 Note that this value should be opposite of the programmed value of DSS POL_FREQ[16] RF. Field.." "0,1" bitfld.long 0x0 8. "DPI0_CLK_CTRL_DATA_CLK_INVDIS,Clock edge select for DPI0 DATA and DE outputs Value must match the programmed value of the DSS POL_FREQ.IPC bitfield.0 Field values (others are reserved): 1'b0 - FALLING 1'b1 - RISING" "0,1" group.long 0x8310++0x3 line.long 0x0 "CFG0_DPHY0_CLKSEL," bitfld.long 0x0 0. "DPHY0_CLKSEL_REF_CLK_SEL,DPHY reference clock source Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT_SERDES 1'b1 - MAIN_PLL0_HSDIV9_CLKOUT" "0,1" group.long 0x8320++0xB line.long 0x0 "CFG0_DSS0_DISPC0_CLKSEL," bitfld.long 0x0 1. "DSS0_DISPC0_CLKSEL_DPI1_PCLK,DPI pixel Clock Source - DSS0_DISPC0_VP1 Field values (others are reserved): 1'b0 - MAIN_PLL17_HSDIV0_CLKOUT 1'b1 - VOUT0_EXTPCLKIN" "0,1" line.long 0x4 "CFG0_DSS1_DISPC0_CLKSEL," bitfld.long 0x4 18. "DSS1_DISPC0_CLKSEL_DPI1_PLLSEL,When dpi1_pclk selection is PLL Selects specific PLL Field values (others are reserved): 1'b0 - MAIN_PLL18_HSDIV0_CLKOUT 1'b1 - MAIN_PLL17_HSDIV0_CLKOUT" "0,1" bitfld.long 0x4 16. "DSS1_DISPC0_CLKSEL_DPI0_PLLSEL,When dpi0_pclk selection is PLL Selects specific PLL Field values (others are reserved): 1'b0 - MAIN_PLL18_HSDIV0_CLKOUT 1'b1 - MAIN_PLL17_HSDIV0_CLKOUT" "0,1" newline bitfld.long 0x4 1. "DSS1_DISPC0_CLKSEL_DPI1_PCLK,DPI pixel Clock Source - DSS1_DISPC0_VP1 Field values (others are reserved): 1'b0 - PLL (Selected by dpi1_pllsel) 1'b1 - VOUT0_EXTPCLKIN" "0,1" bitfld.long 0x4 0. "DSS1_DISPC0_CLKSEL_DPI0_PCLK,DPI pixel Clock Source - DSS1_DISPC0_VP0 Field values (others are reserved): 1'b0 - PLL (Selected by dpi0_pllsel) 1'b1 - VOUT0_EXTPCLKIN" "0,1" line.long 0x8 "CFG0_OLDI1_CLKSEL," bitfld.long 0x8 0. "OLDI1_CLKSEL_CLKSEL,Selects the input (PLL) clock for OLDI1 Field values (others are reserved): 1'b0 - MAIN_PLL16_HSDIV0_CLKOUT 1'b1 - MAIN_PLL18_HSDIV0_CLKOUT" "0,1" group.long 0x8330++0x13 line.long 0x0 "CFG0_MCASP0_CLKSEL," bitfld.long 0x0 0.--2. "MCASP0_CLKSEL_AUXCLK_SEL,Selects the AUXCLK input source for McASP0 Field values (others are reserved): 3'b000 - MAIN_PLL2_HSDIV8_CLKOUT 3'b001 - MAIN_PLL1_HSDIV6_CLKOUT 3'b100 - ATCLK0 3'b101 - ATCLK1 3'b110 - ATCLK2 3'b111 - ATCLK3" "0,1,2,3,4,5,6,7" line.long 0x4 "CFG0_MCASP1_CLKSEL," bitfld.long 0x4 0.--2. "MCASP1_CLKSEL_AUXCLK_SEL,Selects the AUXCLK input source for McASP0 Field values (others are reserved): 3'b000 - MAIN_PLL2_HSDIV8_CLKOUT 3'b001 - MAIN_PLL1_HSDIV6_CLKOUT 3'b100 - ATCLK0 3'b101 - ATCLK1 3'b110 - ATCLK2 3'b111 - ATCLK3" "0,1,2,3,4,5,6,7" line.long 0x8 "CFG0_MCASP2_CLKSEL," bitfld.long 0x8 0.--2. "MCASP2_CLKSEL_AUXCLK_SEL,Selects the AUXCLK input source for McASP0 Field values (others are reserved): 3'b000 - MAIN_PLL2_HSDIV8_CLKOUT 3'b001 - MAIN_PLL1_HSDIV6_CLKOUT 3'b100 - ATCLK0 3'b101 - ATCLK1 3'b110 - ATCLK2 3'b111 - ATCLK3" "0,1,2,3,4,5,6,7" line.long 0xC "CFG0_MCASP3_CLKSEL," bitfld.long 0xC 0.--2. "MCASP3_CLKSEL_AUXCLK_SEL,Selects the AUXCLK input source for McASP0 Field values (others are reserved): 3'b000 - MAIN_PLL2_HSDIV8_CLKOUT 3'b001 - MAIN_PLL1_HSDIV6_CLKOUT 3'b100 - ATCLK0 3'b101 - ATCLK1 3'b110 - ATCLK2 3'b111 - ATCLK3" "0,1,2,3,4,5,6,7" line.long 0x10 "CFG0_MCASP4_CLKSEL," bitfld.long 0x10 0.--2. "MCASP4_CLKSEL_AUXCLK_SEL,Selects the AUXCLK input source for McASP0 Field values (others are reserved): 3'b000 - MAIN_PLL2_HSDIV8_CLKOUT 3'b001 - MAIN_PLL1_HSDIV6_CLKOUT 3'b100 - ATCLK0 3'b101 - ATCLK1 3'b110 - ATCLK2 3'b111 - ATCLK3" "0,1,2,3,4,5,6,7" group.long 0x8350++0x13 line.long 0x0 "CFG0_MCASP0_AHCLKSEL," hexmask.long.byte 0x0 8.--11. 1. "MCASP0_AHCLKSEL_AHCLKX_SEL,Selects the AHCLKX input source for McASP0 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 - AUDIO_EXT_REFCLK2.." hexmask.long.byte 0x0 0.--3. 1. "MCASP0_AHCLKSEL_AHCLKR_SEL,Selects the AHCLKR input source for McASP0 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 - AUDIO_EXT_REFCLK2.." line.long 0x4 "CFG0_MCASP1_AHCLKSEL," hexmask.long.byte 0x4 8.--11. 1. "MCASP1_AHCLKSEL_AHCLKX_SEL,Selects the AHCLKX input source for McASP1 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 - AUDIO_EXT_REFCLK2.." hexmask.long.byte 0x4 0.--3. 1. "MCASP1_AHCLKSEL_AHCLKR_SEL,Selects the AHCLKR input source for McASP1 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 - AUDIO_EXT_REFCLK2.." line.long 0x8 "CFG0_MCASP2_AHCLKSEL," hexmask.long.byte 0x8 8.--11. 1. "MCASP2_AHCLKSEL_AHCLKX_SEL,Selects the AHCLKX input source for McASP2 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 - AUDIO_EXT_REFCLK2.." hexmask.long.byte 0x8 0.--3. 1. "MCASP2_AHCLKSEL_AHCLKR_SEL,Selects the AHCLKR input source for McASP2 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 - AUDIO_EXT_REFCLK2.." line.long 0xC "CFG0_MCASP3_AHCLKSEL," hexmask.long.byte 0xC 8.--11. 1. "MCASP3_AHCLKSEL_AHCLKX_SEL,Selects the AHCLKX input source for McASP3 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 - AUDIO_EXT_REFCLK2.." hexmask.long.byte 0xC 0.--3. 1. "MCASP3_AHCLKSEL_AHCLKR_SEL,Selects the AHCLKR input source for McASP3 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 - AUDIO_EXT_REFCLK2.." line.long 0x10 "CFG0_MCASP4_AHCLKSEL," hexmask.long.byte 0x10 8.--11. 1. "MCASP4_AHCLKSEL_AHCLKX_SEL,Selects the AHCLKX input source for McASP4 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 - AUDIO_EXT_REFCLK2.." hexmask.long.byte 0x10 0.--3. 1. "MCASP4_AHCLKSEL_AHCLKR_SEL,Selects the AHCLKR input source for McASP4 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 - AUDIO_EXT_REFCLK2.." group.long 0x8380++0x17 line.long 0x0 "CFG0_WWD0_CLKSEL," bitfld.long 0x0 31. "WWD0_CLKSEL_WRTLOCK,When set locks WWD0_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" bitfld.long 0x0 0.--1. "WWD0_CLKSEL_CLK_SEL,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K" "0,1,2,3" line.long 0x4 "CFG0_WWD1_CLKSEL," bitfld.long 0x4 31. "WWD1_CLKSEL_WRTLOCK,When set locks WWD1_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" bitfld.long 0x4 0.--1. "WWD1_CLKSEL_CLK_SEL,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K" "0,1,2,3" line.long 0x8 "CFG0_WWD2_CLKSEL," bitfld.long 0x8 31. "WWD2_CLKSEL_WRTLOCK,When set locks WWD2_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" bitfld.long 0x8 0.--1. "WWD2_CLKSEL_CLK_SEL,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K" "0,1,2,3" line.long 0xC "CFG0_WWD3_CLKSEL," bitfld.long 0xC 31. "WWD3_CLKSEL_WRTLOCK,When set locks WWD3_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" bitfld.long 0xC 0.--1. "WWD3_CLKSEL_CLK_SEL,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K" "0,1,2,3" line.long 0x10 "CFG0_WWD4_CLKSEL," bitfld.long 0x10 31. "WWD4_CLKSEL_WRTLOCK,When set locks WWD4_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" bitfld.long 0x10 0.--1. "WWD4_CLKSEL_CLK_SEL,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K" "0,1,2,3" line.long 0x14 "CFG0_WWD5_CLKSEL," bitfld.long 0x14 31. "WWD5_CLKSEL_WRTLOCK,When set locks WWD5_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" bitfld.long 0x14 0.--1. "WWD5_CLKSEL_CLK_SEL,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K" "0,1,2,3" group.long 0x83A0++0x3 line.long 0x0 "CFG0_WWD8_CLKSEL," bitfld.long 0x0 31. "WWD8_CLKSEL_WRTLOCK,When set locks WWD8_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" bitfld.long 0x0 0.--1. "WWD8_CLKSEL_CLK_SEL,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K" "0,1,2,3" group.long 0x83BC++0x3 line.long 0x0 "CFG0_WWD15_CLKSEL," bitfld.long 0x0 31. "WWD15_CLKSEL_WRTLOCK,When set locks WWD15_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" bitfld.long 0x0 0.--1. "WWD15_CLKSEL_CLK_SEL,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K" "0,1,2,3" group.long 0x8400++0x3 line.long 0x0 "CFG0_SERDES0_CLKSEL," bitfld.long 0x0 0.--1. "SERDES0_CLKSEL_CORE_REFCLK_SEL,Selects the source for the core_refclk input Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT_SERDES 2'b01 - EXT_REFCLK1 (Pin) 2'b10 - MAIN_PLL2_HSDIV0_CLKOUT 2'b11 - MAIN_PLL0_HSDIV9_CLKOUT" "0,1,2,3" group.long 0x8410++0x3 line.long 0x0 "CFG0_SERDES1_CLKSEL," bitfld.long 0x0 0.--1. "SERDES1_CLKSEL_CORE_REFCLK_SEL,Selects the source for the core_refclk input Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT_SERDES 2'b01 - EXT_REFCLK1 (Pin) 2'b10 - MAIN_PLL2_HSDIV0_CLKOUT 2'b11 - MAIN_PLL0_HSDIV9_CLKOUT" "0,1,2,3" group.long 0x8480++0x7 line.long 0x0 "CFG0_MCAN0_CLKSEL," bitfld.long 0x0 0.--1. "MCAN0_CLKSEL_CLK_SEL,MAIN MCAN_CLK selection Field values (others are reserved): 2'b00 - MAIN_PLL0_HSDIV4_CLKOUT 2'b01 - MCU_EXT_REFCLK0 (Pin) 2'b10 - EXT_REFCLK1 (Pin) 2'b11 - HFOSC0_CLKOUT" "0,1,2,3" line.long 0x4 "CFG0_MCAN1_CLKSEL," bitfld.long 0x4 0.--1. "MCAN1_CLKSEL_CLK_SEL,MAIN MCAN_CLK selection Field values (others are reserved): 2'b00 - MAIN_PLL0_HSDIV4_CLKOUT 2'b01 - MCU_EXT_REFCLK0 (Pin) 2'b10 - EXT_REFCLK1 (Pin) 2'b11 - HFOSC0_CLKOUT" "0,1,2,3" group.long 0x8500++0x3 line.long 0x0 "CFG0_OSPI0_CLKSEL," bitfld.long 0x0 4. "OSPI0_CLKSEL_LOOPCLK_SEL,OBSPI0 Loopback clock source Field values (others are reserved): 1'b0 - Board Level Loopback 1'b1 - Internal Loopback" "0,1" bitfld.long 0x0 0. "OSPI0_CLKSEL_CLK_SEL,OSPI0 reference clock selection Field values (others are reserved): 1'b0 - MAIN_PLL0_HSDIV1_CLKOUT 1'b1 - MAIN_PLL1_HSDIV5_CLKOUT" "0,1" group.long 0x8700++0x3 line.long 0x0 "CFG0_OLDI_PD_CTRL," rbitfld.long 0x0 31. "OLDI_PD_CTRL_BGOK,OLDI Bandgap Reference Status Field values (others are reserved): 1'b0 - BG_NOT_READY 1'b1 - BG_READY" "0,1" bitfld.long 0x0 8. "OLDI_PD_CTRL_PD_BG,Bandgap Power Down Field values (others are reserved): 1'b0 - BG_ON 1'b1 - BG_OFF" "0,1" newline bitfld.long 0x0 1. "OLDI_PD_CTRL_PD_OLDI1,Forces OLDI1 LVDS IOs to Power Down Field values (others are reserved): 1'b0 - LVDS_ON 1'b1 - LVDS_OFF" "0,1" bitfld.long 0x0 0. "OLDI_PD_CTRL_PD_OLDI0,Forces OLDI0 LVDS IOs to Power Down Field values (others are reserved): 1'b0 - LVDS_ON 1'b1 - LVDS_OFF" "0,1" group.long 0x9008++0x7 line.long 0x0 "CFG0_LOCK2_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK2_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK2_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK2_KICK1,- KICK1 component" rgroup.long 0x9100++0x3B line.long 0x0 "CFG0_CLAIMREG_P2_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P2_R0_READONLY,Claim bits for Partition 2" line.long 0x4 "CFG0_CLAIMREG_P2_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P2_R1_READONLY,Claim bits for Partition 2" line.long 0x8 "CFG0_CLAIMREG_P2_R2_READONLY," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P2_R2_READONLY,Claim bits for Partition 2" line.long 0xC "CFG0_CLAIMREG_P2_R3_READONLY," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P2_R3_READONLY,Claim bits for Partition 2" line.long 0x10 "CFG0_CLAIMREG_P2_R4_READONLY," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P2_R4_READONLY,Claim bits for Partition 2" line.long 0x14 "CFG0_CLAIMREG_P2_R5_READONLY," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P2_R5_READONLY,Claim bits for Partition 2" line.long 0x18 "CFG0_CLAIMREG_P2_R6_READONLY," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P2_R6_READONLY,Claim bits for Partition 2" line.long 0x1C "CFG0_CLAIMREG_P2_R7_READONLY," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P2_R7_READONLY,Claim bits for Partition 2" line.long 0x20 "CFG0_CLAIMREG_P2_R8_READONLY," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P2_R8_READONLY,Claim bits for Partition 2" line.long 0x24 "CFG0_CLAIMREG_P2_R9_READONLY," hexmask.long 0x24 0.--31. 1. "CLAIMREG_P2_R9_READONLY,Claim bits for Partition 2" line.long 0x28 "CFG0_CLAIMREG_P2_R10_READONLY," hexmask.long 0x28 0.--31. 1. "CLAIMREG_P2_R10_READONLY,Claim bits for Partition 2" line.long 0x2C "CFG0_CLAIMREG_P2_R11_READONLY," hexmask.long 0x2C 0.--31. 1. "CLAIMREG_P2_R11_READONLY,Claim bits for Partition 2" line.long 0x30 "CFG0_CLAIMREG_P2_R12_READONLY," hexmask.long 0x30 0.--31. 1. "CLAIMREG_P2_R12_READONLY,Claim bits for Partition 2" line.long 0x34 "CFG0_CLAIMREG_P2_R13_READONLY," hexmask.long 0x34 0.--31. 1. "CLAIMREG_P2_R13_READONLY,Claim bits for Partition 2" line.long 0x38 "CFG0_CLAIMREG_P2_R14_READONLY," hexmask.long 0x38 0.--31. 1. "CLAIMREG_P2_R14_READONLY,Claim bits for Partition 2" group.long 0xA000++0x3 line.long 0x0 "CFG0_OBSCLK0_CTRL_PROXY," bitfld.long 0x0 24. "OBSCLK0_CTRL_OUT_MUX_SEL_PROXY,OBSCLK pin output mux selection. HFOSC0_CLK is a direct output from the HFOSC0 Field values (others are reserved): 1'b0 - CLK_DIV_OUT 1'b1 - HFOSC0_CLK (clk_sel must be OFF)" "0,1" bitfld.long 0x0 16. "OBSCLK0_CTRL_CLK_DIV_LD_PROXY,Load divisor value from clk_div field when the bit is toggled from 0 to 1. Field values (others are reserved): 1'b0 - READY 1'b1 - LOAD" "0,1" newline hexmask.long.byte 0x0 8.--15. 1. "OBSCLK0_CTRL_CLK_DIV_PROXY,OBSCLK0 output divider. Sets divider to divide by clkdiv + 1. Divide by 1 to 256 are supported. After writing to this field the clk_div_ld field must be toggled." hexmask.long.byte 0x0 0.--4. 1. "OBSCLK0_CTRL_CLK_SEL_PROXY,OBSCLK0 clock source selection. Selects the source of the clock to be divided by the OBSCLK0 divider. Field values (others are reserved): 5'b00000 - MAIN_PLL0_HSDIV0_CLKOUT 5'b00001 - MAIN_PLL1_HSDIV0_CLKOUT 5'b00010 -.." group.long 0xA010++0x3 line.long 0x0 "CFG0_CLKOUT_CTRL_PROXY," bitfld.long 0x0 0. "CLKOUT_CTRL_CLK_SEL_PROXY,Selects CLKOUT clock source Field values (others are reserved): 1'b0 - MAIN_PLL2_HSDIV1_CLKOUT / 5 1'b1 - MAIN_PLL2_HSDIV1_CLKOUT / 10" "0,1" group.long 0xA060++0xB line.long 0x0 "CFG0_MAIN_PLL0_CLKSEL_PROXY," bitfld.long 0x0 31. "MAIN_PLL0_CLKSEL_BYPASS_SW_OVRD_PROXY,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL0. This bit must not be set until after the corresponding byp_warm_rst bit has been.." "0,1" bitfld.long 0x0 23. "MAIN_PLL0_CLKSEL_BYP_WARM_RST_PROXY,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL0 in bypass.." "0,1" line.long 0x4 "CFG0_MAIN_PLL1_CLKSEL_PROXY," bitfld.long 0x4 31. "MAIN_PLL1_CLKSEL_BYPASS_SW_OVRD_PROXY,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL1. This bit must not be set until after the corresponding byp_warm_rst bit has been.." "0,1" bitfld.long 0x4 23. "MAIN_PLL1_CLKSEL_BYP_WARM_RST_PROXY,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL1 in bypass.." "0,1" line.long 0x8 "CFG0_MAIN_PLL2_CLKSEL_PROXY," bitfld.long 0x8 31. "MAIN_PLL2_CLKSEL_BYPASS_SW_OVRD_PROXY,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL2. This bit must not be set until after the corresponding byp_warm_rst bit has been.." "0,1" bitfld.long 0x8 23. "MAIN_PLL2_CLKSEL_BYP_WARM_RST_PROXY,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL2 in bypass.." "0,1" group.long 0xA074++0xF line.long 0x0 "CFG0_MAIN_PLL5_CLKSEL_PROXY," bitfld.long 0x0 31. "MAIN_PLL5_CLKSEL_BYPASS_SW_OVRD_PROXY,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL5. This bit must not be set until after the corresponding byp_warm_rst bit has been.." "0,1" bitfld.long 0x0 23. "MAIN_PLL5_CLKSEL_BYP_WARM_RST_PROXY,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL5 in bypass.." "0,1" line.long 0x4 "CFG0_MAIN_PLL6_CLKSEL_PROXY," bitfld.long 0x4 31. "MAIN_PLL6_CLKSEL_BYPASS_SW_OVRD_PROXY,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL6. This bit must not be set until after the corresponding byp_warm_rst bit has been.." "0,1" bitfld.long 0x4 23. "MAIN_PLL6_CLKSEL_BYP_WARM_RST_PROXY,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL6 in bypass.." "0,1" line.long 0x8 "CFG0_MAIN_PLL7_CLKSEL_PROXY," bitfld.long 0x8 31. "MAIN_PLL7_CLKSEL_BYPASS_SW_OVRD_PROXY,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL7. This bit must not be set until after the corresponding byp_warm_rst bit has been.." "0,1" bitfld.long 0x8 23. "MAIN_PLL7_CLKSEL_BYP_WARM_RST_PROXY,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL7 in bypass.." "0,1" line.long 0xC "CFG0_MAIN_PLL8_CLKSEL_PROXY," bitfld.long 0xC 31. "MAIN_PLL8_CLKSEL_BYPASS_SW_OVRD_PROXY,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL8. This bit must not be set until after the corresponding byp_warm_rst bit has been.." "0,1" bitfld.long 0xC 23. "MAIN_PLL8_CLKSEL_BYP_WARM_RST_PROXY,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL8 in bypass.." "0,1" group.long 0xA090++0x3 line.long 0x0 "CFG0_MAIN_PLL12_CLKSEL_PROXY," bitfld.long 0x0 31. "MAIN_PLL12_CLKSEL_BYPASS_SW_OVRD_PROXY,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL12. This bit must not be set until after the corresponding byp_warm_rst bit has.." "0,1" bitfld.long 0x0 23. "MAIN_PLL12_CLKSEL_BYP_WARM_RST_PROXY,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL12 in bypass.." "0,1" group.long 0xA0A0++0xB line.long 0x0 "CFG0_MAIN_PLL16_CLKSEL_PROXY," bitfld.long 0x0 31. "MAIN_PLL16_CLKSEL_BYPASS_SW_OVRD_PROXY,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL16. This bit must not be set until after the corresponding byp_warm_rst bit has.." "0,1" bitfld.long 0x0 23. "MAIN_PLL16_CLKSEL_BYP_WARM_RST_PROXY,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL16 in bypass.." "0,1" line.long 0x4 "CFG0_MAIN_PLL17_CLKSEL_PROXY," bitfld.long 0x4 31. "MAIN_PLL17_CLKSEL_BYPASS_SW_OVRD_PROXY,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL17. This bit must not be set until after the corresponding byp_warm_rst bit has.." "0,1" bitfld.long 0x4 23. "MAIN_PLL17_CLKSEL_BYP_WARM_RST_PROXY,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL17 in bypass.." "0,1" line.long 0x8 "CFG0_MAIN_PLL18_CLKSEL_PROXY," bitfld.long 0x8 31. "MAIN_PLL18_CLKSEL_BYPASS_SW_OVRD_PROXY,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a main_reset_z for MAIN PLL18. This bit must not be set until after the corresponding byp_warm_rst bit has.." "0,1" bitfld.long 0x8 23. "MAIN_PLL18_CLKSEL_BYP_WARM_RST_PROXY,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL18 in bypass.." "0,1" group.long 0xA120++0x3 line.long 0x0 "CFG0_PCIE0_CLKSEL_PROXY," bitfld.long 0x0 0.--2. "PCIE0_CLKSEL_CPTS_CLKSEL_PROXY,Selects the clock source for the PCIE0 Common Platform Time Stamp module Field values (others are reserved): 3'b000 - MAIN_PLL2_HSDIV6_CLKOUT 3'b001 - MAIN_PLL0_HSDIV6_CLKOUT 3'b010 - CP_GEMAC_CPTS0_RFT_CLK (Pin) undefined.." "0,1,2,3,4,5,6,7" group.long 0xA140++0x3 line.long 0x0 "CFG0_CPSW_CLKSEL_PROXY," bitfld.long 0x0 0.--2. "CPSW_CLKSEL_CPTS_CLKSEL_PROXY,Selects the clock source for the CPSW Ethernet switch Common Platform Time Stamp module Field values (others are reserved): 3'b000 - MAIN_PLL2_HSDIV5_CLKOUT 3'b001 - MAIN_PLL0_HSDIV6_CLKOUT 3'b010 - CP_GEMAC_CPTS0_RFT_CLK.." "0,1,2,3,4,5,6,7" group.long 0xA160++0x3 line.long 0x0 "CFG0_EMMC0_CLKSEL_PROXY," bitfld.long 0x0 0. "EMMC0_CLKSEL_EMMCSD_REFCLK_SEL_PROXY,Selects the functional clock for the MMC Module Field values (others are reserved): 1'b0 - MAIN_PLL0_HSDIV5_CLKOUT 1'b1 - MAIN_PLL2_HSDIV2_CLKOUT" "0,1" group.long 0xA168++0x7 line.long 0x0 "CFG0_EMMC1_CLKSEL_PROXY," bitfld.long 0x0 16. "EMMC1_CLKSEL_EMMCSD_IO_CLKLB_SEL_PROXY,Selects IO Pad Loopback for the MMC Module Field values (others are reserved): 1'b0 - Loopback from Unbonded Pad MMCSD1_CLKLB 1'b1 - Loopback from IO Pin MMCSD1_CLK" "0,1" bitfld.long 0x0 0. "EMMC1_CLKSEL_EMMCSD_REFCLK_SEL_PROXY,Selects the functional clock for the MMC Module Field values (others are reserved): 1'b0 - MAIN_PLL0_HSDIV5_CLKOUT 1'b1 - MAIN_PLL2_HSDIV2_CLKOUT" "0,1" line.long 0x4 "CFG0_EMMC2_CLKSEL_PROXY," bitfld.long 0x4 16. "EMMC2_CLKSEL_EMMCSD_IO_CLKLB_SEL_PROXY,Selects IO Pad Loopback for the MMC Module Field values (others are reserved): 1'b0 - Loopback from Unbonded Pad MMCSD2_CLKLB 1'b1 - Loopback from IO Pin MMCSD2_CLK" "0,1" bitfld.long 0x4 0. "EMMC2_CLKSEL_EMMCSD_REFCLK_SEL_PROXY,Selects the functional clock for the MMC Module Field values (others are reserved): 1'b0 - MAIN_PLL0_HSDIV5_CLKOUT 1'b1 - MAIN_PLL2_HSDIV2_CLKOUT" "0,1" group.long 0xA180++0x3 line.long 0x0 "CFG0_GPMC_CLKSEL_PROXY," bitfld.long 0x0 0. "GPMC_CLKSEL_CLK_SEL_PROXY,Selects the GPMC clock source: Field values (others are reserved): 1'b0 - MAIN_PLL0_HSDIV3_CLKOUT 1'b1 - MAIN_PLL2_HSDIV7_CLKOUT" "0,1" group.long 0xA1B0++0x1F line.long 0x0 "CFG0_TIMER0_CLKSEL_PROXY," hexmask.long.byte 0x0 0.--3. 1. "TIMER0_CLKSEL_CLK_SEL_PROXY,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 4'b0000 - HFOSC0_CLKOUT 4'b0001 - DEVICE_CLKOUT_32K 4'b0010 - MAIN_PLL0_HSDIV7_CLKOUT 4'b0011 -.." line.long 0x4 "CFG0_TIMER1_CLKSEL_PROXY," hexmask.long.byte 0x4 0.--3. 1. "TIMER1_CLKSEL_CLK_SEL_PROXY,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 4'b0000 - HFOSC0_CLKOUT 4'b0001 - DEVICE_CLKOUT_32K 4'b0010 - MAIN_PLL0_HSDIV7_CLKOUT 4'b0011 -.." line.long 0x8 "CFG0_TIMER2_CLKSEL_PROXY," hexmask.long.byte 0x8 0.--3. 1. "TIMER2_CLKSEL_CLK_SEL_PROXY,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 4'b0000 - HFOSC0_CLKOUT 4'b0001 - DEVICE_CLKOUT_32K 4'b0010 - MAIN_PLL0_HSDIV7_CLKOUT 4'b0011 -.." line.long 0xC "CFG0_TIMER3_CLKSEL_PROXY," hexmask.long.byte 0xC 0.--3. 1. "TIMER3_CLKSEL_CLK_SEL_PROXY,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 4'b0000 - HFOSC0_CLKOUT 4'b0001 - DEVICE_CLKOUT_32K 4'b0010 - MAIN_PLL0_HSDIV7_CLKOUT 4'b0011 -.." line.long 0x10 "CFG0_TIMER4_CLKSEL_PROXY," hexmask.long.byte 0x10 0.--3. 1. "TIMER4_CLKSEL_CLK_SEL_PROXY,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 4'b0000 - HFOSC0_CLKOUT 4'b0001 - DEVICE_CLKOUT_32K 4'b0010 - MAIN_PLL0_HSDIV7_CLKOUT 4'b0011 -.." line.long 0x14 "CFG0_TIMER5_CLKSEL_PROXY," hexmask.long.byte 0x14 0.--3. 1. "TIMER5_CLKSEL_CLK_SEL_PROXY,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 4'b0000 - HFOSC0_CLKOUT 4'b0001 - DEVICE_CLKOUT_32K 4'b0010 - MAIN_PLL0_HSDIV7_CLKOUT 4'b0011 -.." line.long 0x18 "CFG0_TIMER6_CLKSEL_PROXY," hexmask.long.byte 0x18 0.--3. 1. "TIMER6_CLKSEL_CLK_SEL_PROXY,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 4'b0000 - HFOSC0_CLKOUT 4'b0001 - DEVICE_CLKOUT_32K 4'b0010 - MAIN_PLL0_HSDIV7_CLKOUT 4'b0011 -.." line.long 0x1C "CFG0_TIMER7_CLKSEL_PROXY," hexmask.long.byte 0x1C 0.--3. 1. "TIMER7_CLKSEL_CLK_SEL_PROXY,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 4'b0000 - HFOSC0_CLKOUT 4'b0001 - DEVICE_CLKOUT_32K 4'b0010 - MAIN_PLL0_HSDIV7_CLKOUT 4'b0011 -.." group.long 0xA200++0xB line.long 0x0 "CFG0_SPI0_CLKSEL_PROXY," bitfld.long 0x0 16. "SPI0_CLKSEL_MSTR_LB_CLKSEL_PROXY,Controller mode receive capture clock loopback selection Field values (others are reserved): 1'b0 - INTERNAL_LOOPBACK 1'b1 - EXTERNAL_LOOPBACK" "0,1" line.long 0x4 "CFG0_SPI1_CLKSEL_PROXY," bitfld.long 0x4 16. "SPI1_CLKSEL_MSTR_LB_CLKSEL_PROXY,Controller mode receive capture clock loopback selection Field values (others are reserved): 1'b0 - INTERNAL_LOOPBACK 1'b1 - EXTERNAL_LOOPBACK" "0,1" line.long 0x8 "CFG0_SPI2_CLKSEL_PROXY," bitfld.long 0x8 16. "SPI2_CLKSEL_MSTR_LB_CLKSEL_PROXY,Controller mode receive capture clock loopback selection Field values (others are reserved): 1'b0 - INTERNAL_LOOPBACK 1'b1 - EXTERNAL_LOOPBACK" "0,1" group.long 0xA240++0x1B line.long 0x0 "CFG0_USART0_CLK_CTRL_PROXY," bitfld.long 0x0 16. "USART0_CLK_CTRL_CLK_DIV_LD_PROXY,Load the output divider value Writing 1 to this bit will generate a load pulse to load the USART0 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div.." "0,1" bitfld.long 0x0 0.--1. "USART0_CLK_CTRL_CLK_DIV_PROXY,Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1. Field values (others are reserved): 2'b00 - Divide by 1.." "0,1,2,3" line.long 0x4 "CFG0_USART1_CLK_CTRL_PROXY," bitfld.long 0x4 16. "USART1_CLK_CTRL_CLK_DIV_LD_PROXY,Load the output divider value Writing 1 to this bit will generate a load pulse to load the USART1 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div.." "0,1" bitfld.long 0x4 0.--1. "USART1_CLK_CTRL_CLK_DIV_PROXY,Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1. Field values (others are reserved): 2'b00 - Divide by 1.." "0,1,2,3" line.long 0x8 "CFG0_USART2_CLK_CTRL_PROXY," bitfld.long 0x8 16. "USART2_CLK_CTRL_CLK_DIV_LD_PROXY,Load the output divider value Writing 1 to this bit will generate a load pulse to load the USART2 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div.." "0,1" bitfld.long 0x8 0.--1. "USART2_CLK_CTRL_CLK_DIV_PROXY,Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1. Field values (others are reserved): 2'b00 - Divide by 1.." "0,1,2,3" line.long 0xC "CFG0_USART3_CLK_CTRL_PROXY," bitfld.long 0xC 16. "USART3_CLK_CTRL_CLK_DIV_LD_PROXY,Load the output divider value Writing 1 to this bit will generate a load pulse to load the USART3 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div.." "0,1" bitfld.long 0xC 0.--1. "USART3_CLK_CTRL_CLK_DIV_PROXY,Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1. Field values (others are reserved): 2'b00 - Divide by 1.." "0,1,2,3" line.long 0x10 "CFG0_USART4_CLK_CTRL_PROXY," bitfld.long 0x10 16. "USART4_CLK_CTRL_CLK_DIV_LD_PROXY,Load the output divider value Writing 1 to this bit will generate a load pulse to load the USART4 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div.." "0,1" bitfld.long 0x10 0.--1. "USART4_CLK_CTRL_CLK_DIV_PROXY,Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1. Field values (others are reserved): 2'b00 - Divide by 1.." "0,1,2,3" line.long 0x14 "CFG0_USART5_CLK_CTRL_PROXY," bitfld.long 0x14 16. "USART5_CLK_CTRL_CLK_DIV_LD_PROXY,Load the output divider value Writing 1 to this bit will generate a load pulse to load the USART5 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div.." "0,1" bitfld.long 0x14 0.--1. "USART5_CLK_CTRL_CLK_DIV_PROXY,Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1. Field values (others are reserved): 2'b00 - Divide by 1.." "0,1,2,3" line.long 0x18 "CFG0_USART6_CLK_CTRL_PROXY," bitfld.long 0x18 16. "USART6_CLK_CTRL_CLK_DIV_LD_PROXY,Load the output divider value Writing 1 to this bit will generate a load pulse to load the USART6 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div.." "0,1" bitfld.long 0x18 0.--1. "USART6_CLK_CTRL_CLK_DIV_PROXY,Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1. Field values (others are reserved): 2'b00 - Divide by 1.." "0,1,2,3" group.long 0xA280++0x1B line.long 0x0 "CFG0_USART0_CLKSEL_PROXY," bitfld.long 0x0 0. "USART0_CLKSEL_CLK_SEL_PROXY,Selects the clock source for UART0: Field values (others are reserved): 1'b0 - MAIN_PLL1_HSDIV0_CLKOUT Divider Output (See USART0_CLK_CTRL) 1'b1 - MAIN_PLL1_HSDIV1_CLKOUT" "0,1" line.long 0x4 "CFG0_USART1_CLKSEL_PROXY," bitfld.long 0x4 0. "USART1_CLKSEL_CLK_SEL_PROXY,Selects the clock source for UART1: Field values (others are reserved): 1'b0 - MAIN_PLL1_HSDIV0_CLKOUT Divider Output (See USART1_CLK_CTRL) 1'b1 - MAIN_PLL1_HSDIV1_CLKOUT" "0,1" line.long 0x8 "CFG0_USART2_CLKSEL_PROXY," bitfld.long 0x8 0. "USART2_CLKSEL_CLK_SEL_PROXY,Selects the clock source for UART2: Field values (others are reserved): 1'b0 - MAIN_PLL1_HSDIV0_CLKOUT Divider Output (See USART2_CLK_CTRL) 1'b1 - MAIN_PLL1_HSDIV1_CLKOUT" "0,1" line.long 0xC "CFG0_USART3_CLKSEL_PROXY," bitfld.long 0xC 0. "USART3_CLKSEL_CLK_SEL_PROXY,Selects the clock source for UART3: Field values (others are reserved): 1'b0 - MAIN_PLL1_HSDIV0_CLKOUT Divider Output (See USART3_CLK_CTRL) 1'b1 - MAIN_PLL1_HSDIV1_CLKOUT" "0,1" line.long 0x10 "CFG0_USART4_CLKSEL_PROXY," bitfld.long 0x10 0. "USART4_CLKSEL_CLK_SEL_PROXY,Selects the clock source for UART4: Field values (others are reserved): 1'b0 - MAIN_PLL1_HSDIV0_CLKOUT Divider Output (See USART4_CLK_CTRL) 1'b1 - MAIN_PLL1_HSDIV1_CLKOUT" "0,1" line.long 0x14 "CFG0_USART5_CLKSEL_PROXY," bitfld.long 0x14 0. "USART5_CLKSEL_CLK_SEL_PROXY,Selects the clock source for UART5: Field values (others are reserved): 1'b0 - MAIN_PLL1_HSDIV0_CLKOUT Divider Output (See USART5_CLK_CTRL) 1'b1 - MAIN_PLL1_HSDIV1_CLKOUT" "0,1" line.long 0x18 "CFG0_USART6_CLKSEL_PROXY," bitfld.long 0x18 0. "USART6_CLKSEL_CLK_SEL_PROXY,Selects the clock source for UART6: Field values (others are reserved): 1'b0 - MAIN_PLL1_HSDIV0_CLKOUT Divider Output (See USART6_CLK_CTRL) 1'b1 - MAIN_PLL1_HSDIV1_CLKOUT" "0,1" group.long 0xA2B0++0x3 line.long 0x0 "CFG0_ATL_CLKSEL_PROXY," bitfld.long 0x0 0.--2. "ATL_CLKSEL_PCLK_SEL_PROXY,Selects the PCLK clock source Field values (others are reserved): 3'b000 - MAIN_PLL2_HSDIV8_CLKOUT 3'b001 - MAIN_PLL1_HSDIV6_CLKOUT 3'b100 - MAIN_PLL0_HSDIV7_CLKOUT 3'b101 - MCU_EXT_REFCLK0 (Pin) 3'b110 - EXT_REFCLK1 (Pin)" "0,1,2,3,4,5,6,7" group.long 0xA2C0++0x2B line.long 0x0 "CFG0_ATL_BWS0_SEL_PROXY," hexmask.long.byte 0x0 0.--3. 1. "ATL_BWS0_SEL_WD_SEL_PROXY,BWS source signal Field values (others are reserved): 4'b0000 - MCASP0_AFSX_IN 4'b0001 - MCASP1_AFSX_IN 4'b0010 - MCASP2_AFSX_IN 4'b0011 - MCASP3_AFSX_IN 4'b0100 - MCASP4_AFSX_IN 4'b0101 - MCASP0_AFSX_IN 4'b0110 - MCASP1_AFSX_IN.." line.long 0x4 "CFG0_ATL_BWS1_SEL_PROXY," hexmask.long.byte 0x4 0.--3. 1. "ATL_BWS1_SEL_WD_SEL_PROXY,BWS source signal Field values (others are reserved): 4'b0000 - MCASP0_AFSX_IN 4'b0001 - MCASP1_AFSX_IN 4'b0010 - MCASP2_AFSX_IN 4'b0011 - MCASP3_AFSX_IN 4'b0100 - MCASP4_AFSX_IN 4'b0101 - MCASP0_AFSX_IN 4'b0110 - MCASP1_AFSX_IN.." line.long 0x8 "CFG0_ATL_BWS2_SEL_PROXY," hexmask.long.byte 0x8 0.--3. 1. "ATL_BWS2_SEL_WD_SEL_PROXY,BWS source signal Field values (others are reserved): 4'b0000 - MCASP0_AFSX_IN 4'b0001 - MCASP1_AFSX_IN 4'b0010 - MCASP2_AFSX_IN 4'b0011 - MCASP3_AFSX_IN 4'b0100 - MCASP4_AFSX_IN 4'b0101 - MCASP0_AFSX_IN 4'b0110 - MCASP1_AFSX_IN.." line.long 0xC "CFG0_ATL_BWS3_SEL_PROXY," hexmask.long.byte 0xC 0.--3. 1. "ATL_BWS3_SEL_WD_SEL_PROXY,BWS source signal Field values (others are reserved): 4'b0000 - MCASP0_AFSX_IN 4'b0001 - MCASP1_AFSX_IN 4'b0010 - MCASP2_AFSX_IN 4'b0011 - MCASP3_AFSX_IN 4'b0100 - MCASP4_AFSX_IN 4'b0101 - MCASP0_AFSX_IN 4'b0110 - MCASP1_AFSX_IN.." line.long 0x10 "CFG0_ATL_AWS0_SEL_PROXY," hexmask.long.byte 0x10 0.--3. 1. "ATL_AWS0_SEL_WD_SEL_PROXY,AWS source signal Field values (others are reserved): 4'b0000 - MCASP0_AFSX_IN 4'b0001 - MCASP1_AFSX_IN 4'b0010 - MCASP2_AFSX_IN 4'b0011 - MCASP3_AFSX_IN 4'b0100 - MCASP4_AFSX_IN 4'b0101 - MCASP0_AFSX_IN 4'b0110 - MCASP1_AFSX_IN.." line.long 0x14 "CFG0_ATL_AWS1_SEL_PROXY," hexmask.long.byte 0x14 0.--3. 1. "ATL_AWS1_SEL_WD_SEL_PROXY,AWS source signal Field values (others are reserved): 4'b0000 - MCASP0_AFSX_IN 4'b0001 - MCASP1_AFSX_IN 4'b0010 - MCASP2_AFSX_IN 4'b0011 - MCASP3_AFSX_IN 4'b0100 - MCASP4_AFSX_IN 4'b0101 - MCASP0_AFSX_IN 4'b0110 - MCASP1_AFSX_IN.." line.long 0x18 "CFG0_ATL_AWS2_SEL_PROXY," hexmask.long.byte 0x18 0.--3. 1. "ATL_AWS2_SEL_WD_SEL_PROXY,AWS source signal Field values (others are reserved): 4'b0000 - MCASP0_AFSX_IN 4'b0001 - MCASP1_AFSX_IN 4'b0010 - MCASP2_AFSX_IN 4'b0011 - MCASP3_AFSX_IN 4'b0100 - MCASP4_AFSX_IN 4'b0101 - MCASP0_AFSX_IN 4'b0110 - MCASP1_AFSX_IN.." line.long 0x1C "CFG0_ATL_AWS3_SEL_PROXY," hexmask.long.byte 0x1C 0.--3. 1. "ATL_AWS3_SEL_WD_SEL_PROXY,AWS source signal Field values (others are reserved): 4'b0000 - MCASP0_AFSX_IN 4'b0001 - MCASP1_AFSX_IN 4'b0010 - MCASP2_AFSX_IN 4'b0011 - MCASP3_AFSX_IN 4'b0100 - MCASP4_AFSX_IN 4'b0101 - MCASP0_AFSX_IN 4'b0110 - MCASP1_AFSX_IN.." line.long 0x20 "CFG0_AUDIO_REFCLK0_CTRL_PROXY," bitfld.long 0x20 15. "AUDIO_REFCLK0_CTRL_CLKOUT_EN_PROXY,AUDIO_REFCLK 0 output activate Field values (others are reserved): 1'b0 - INPUT 1'b1 - OUTPUT" "0,1" hexmask.long.byte 0x20 0.--3. 1. "AUDIO_REFCLK0_CTRL_CLK_SEL_PROXY,Selects the source of AUDIO_REFCLK0 Field values (others are reserved): 4'b0000 - MCASP0_AHCLKR 4'b0001 - MCASP1_AHCLKR 4'b0010 - MCASP2_AHCLKR 4'b0011 - MCASP3_AHCLKR 4'b0100 - MCASP4_AHCLKR 4'b0101 - MCASP0_AHCLKX.." line.long 0x24 "CFG0_AUDIO_REFCLK1_CTRL_PROXY," bitfld.long 0x24 15. "AUDIO_REFCLK1_CTRL_CLKOUT_EN_PROXY,AUDIO_REFCLK 1 output activate Field values (others are reserved): 1'b0 - INPUT 1'b1 - OUTPUT" "0,1" hexmask.long.byte 0x24 0.--3. 1. "AUDIO_REFCLK1_CTRL_CLK_SEL_PROXY,Selects the source of AUDIO_REFCLK1 Field values (others are reserved): 4'b0000 - MCASP0_AHCLKR 4'b0001 - MCASP1_AHCLKR 4'b0010 - MCASP2_AHCLKR 4'b0011 - MCASP3_AHCLKR 4'b0100 - MCASP4_AHCLKR 4'b0101 - MCASP0_AHCLKX.." line.long 0x28 "CFG0_AUDIO_REFCLK2_CTRL_PROXY," bitfld.long 0x28 15. "AUDIO_REFCLK2_CTRL_CLKOUT_EN_PROXY,AUDIO_REFCLK 2 output activate Field values (others are reserved): 1'b0 - INPUT 1'b1 - OUTPUT" "0,1" hexmask.long.byte 0x28 0.--3. 1. "AUDIO_REFCLK2_CTRL_CLK_SEL_PROXY,Selects the source of AUDIO_REFCLK2 Field values (others are reserved): 4'b0000 - MCASP0_AHCLKR 4'b0001 - MCASP1_AHCLKR 4'b0010 - MCASP2_AHCLKR 4'b0011 - MCASP3_AHCLKR 4'b0100 - MCASP4_AHCLKR 4'b0101 - MCASP0_AHCLKX.." group.long 0xA300++0x3 line.long 0x0 "CFG0_DPI0_CLK_CTRL_PROXY," bitfld.long 0x0 9. "DPI0_CLK_CTRL_SYNC_CLK_INVDIS_PROXY,Clock edge select for DPI0 HSYNC and VSYNC outputs. Value must match the programmed value of the DSS POL_FREQ.RF bitfield.8 Note that this value should be opposite of the programmed value of DSS POL_FREQ[16] RF. Field.." "0,1" bitfld.long 0x0 8. "DPI0_CLK_CTRL_DATA_CLK_INVDIS_PROXY,Clock edge select for DPI0 DATA and DE outputs Value must match the programmed value of the DSS POL_FREQ.IPC bitfield.0 Field values (others are reserved): 1'b0 - FALLING 1'b1 - RISING" "0,1" group.long 0xA310++0x3 line.long 0x0 "CFG0_DPHY0_CLKSEL_PROXY," bitfld.long 0x0 0. "DPHY0_CLKSEL_REF_CLK_SEL_PROXY,DPHY reference clock source Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT_SERDES 1'b1 - MAIN_PLL0_HSDIV9_CLKOUT" "0,1" group.long 0xA320++0xB line.long 0x0 "CFG0_DSS0_DISPC0_CLKSEL_PROXY," bitfld.long 0x0 1. "DSS0_DISPC0_CLKSEL_DPI1_PCLK_PROXY,DPI pixel Clock Source - DSS0_DISPC0_VP1 Field values (others are reserved): 1'b0 - MAIN_PLL17_HSDIV0_CLKOUT 1'b1 - VOUT0_EXTPCLKIN" "0,1" line.long 0x4 "CFG0_DSS1_DISPC0_CLKSEL_PROXY," bitfld.long 0x4 18. "DSS1_DISPC0_CLKSEL_DPI1_PLLSEL_PROXY,When dpi1_pclk selection is PLL Selects specific PLL Field values (others are reserved): 1'b0 - MAIN_PLL18_HSDIV0_CLKOUT 1'b1 - MAIN_PLL17_HSDIV0_CLKOUT" "0,1" bitfld.long 0x4 16. "DSS1_DISPC0_CLKSEL_DPI0_PLLSEL_PROXY,When dpi0_pclk selection is PLL Selects specific PLL Field values (others are reserved): 1'b0 - MAIN_PLL18_HSDIV0_CLKOUT 1'b1 - MAIN_PLL17_HSDIV0_CLKOUT" "0,1" newline bitfld.long 0x4 1. "DSS1_DISPC0_CLKSEL_DPI1_PCLK_PROXY,DPI pixel Clock Source - DSS1_DISPC0_VP1 Field values (others are reserved): 1'b0 - PLL (Selected by dpi1_pllsel) 1'b1 - VOUT0_EXTPCLKIN" "0,1" bitfld.long 0x4 0. "DSS1_DISPC0_CLKSEL_DPI0_PCLK_PROXY,DPI pixel Clock Source - DSS1_DISPC0_VP0 Field values (others are reserved): 1'b0 - PLL (Selected by dpi0_pllsel) 1'b1 - VOUT0_EXTPCLKIN" "0,1" line.long 0x8 "CFG0_OLDI1_CLKSEL_PROXY," bitfld.long 0x8 0. "OLDI1_CLKSEL_CLKSEL_PROXY,Selects the input (PLL) clock for OLDI1 Field values (others are reserved): 1'b0 - MAIN_PLL16_HSDIV0_CLKOUT 1'b1 - MAIN_PLL18_HSDIV0_CLKOUT" "0,1" group.long 0xA330++0x13 line.long 0x0 "CFG0_MCASP0_CLKSEL_PROXY," bitfld.long 0x0 0.--2. "MCASP0_CLKSEL_AUXCLK_SEL_PROXY,Selects the AUXCLK input source for McASP0 Field values (others are reserved): 3'b000 - MAIN_PLL2_HSDIV8_CLKOUT 3'b001 - MAIN_PLL1_HSDIV6_CLKOUT 3'b100 - ATCLK0 3'b101 - ATCLK1 3'b110 - ATCLK2 3'b111 - ATCLK3" "0,1,2,3,4,5,6,7" line.long 0x4 "CFG0_MCASP1_CLKSEL_PROXY," bitfld.long 0x4 0.--2. "MCASP1_CLKSEL_AUXCLK_SEL_PROXY,Selects the AUXCLK input source for McASP0 Field values (others are reserved): 3'b000 - MAIN_PLL2_HSDIV8_CLKOUT 3'b001 - MAIN_PLL1_HSDIV6_CLKOUT 3'b100 - ATCLK0 3'b101 - ATCLK1 3'b110 - ATCLK2 3'b111 - ATCLK3" "0,1,2,3,4,5,6,7" line.long 0x8 "CFG0_MCASP2_CLKSEL_PROXY," bitfld.long 0x8 0.--2. "MCASP2_CLKSEL_AUXCLK_SEL_PROXY,Selects the AUXCLK input source for McASP0 Field values (others are reserved): 3'b000 - MAIN_PLL2_HSDIV8_CLKOUT 3'b001 - MAIN_PLL1_HSDIV6_CLKOUT 3'b100 - ATCLK0 3'b101 - ATCLK1 3'b110 - ATCLK2 3'b111 - ATCLK3" "0,1,2,3,4,5,6,7" line.long 0xC "CFG0_MCASP3_CLKSEL_PROXY," bitfld.long 0xC 0.--2. "MCASP3_CLKSEL_AUXCLK_SEL_PROXY,Selects the AUXCLK input source for McASP0 Field values (others are reserved): 3'b000 - MAIN_PLL2_HSDIV8_CLKOUT 3'b001 - MAIN_PLL1_HSDIV6_CLKOUT 3'b100 - ATCLK0 3'b101 - ATCLK1 3'b110 - ATCLK2 3'b111 - ATCLK3" "0,1,2,3,4,5,6,7" line.long 0x10 "CFG0_MCASP4_CLKSEL_PROXY," bitfld.long 0x10 0.--2. "MCASP4_CLKSEL_AUXCLK_SEL_PROXY,Selects the AUXCLK input source for McASP0 Field values (others are reserved): 3'b000 - MAIN_PLL2_HSDIV8_CLKOUT 3'b001 - MAIN_PLL1_HSDIV6_CLKOUT 3'b100 - ATCLK0 3'b101 - ATCLK1 3'b110 - ATCLK2 3'b111 - ATCLK3" "0,1,2,3,4,5,6,7" group.long 0xA350++0x13 line.long 0x0 "CFG0_MCASP0_AHCLKSEL_PROXY," hexmask.long.byte 0x0 8.--11. 1. "MCASP0_AHCLKSEL_AHCLKX_SEL_PROXY,Selects the AHCLKX input source for McASP0 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 -.." hexmask.long.byte 0x0 0.--3. 1. "MCASP0_AHCLKSEL_AHCLKR_SEL_PROXY,Selects the AHCLKR input source for McASP0 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 -.." line.long 0x4 "CFG0_MCASP1_AHCLKSEL_PROXY," hexmask.long.byte 0x4 8.--11. 1. "MCASP1_AHCLKSEL_AHCLKX_SEL_PROXY,Selects the AHCLKX input source for McASP1 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 -.." hexmask.long.byte 0x4 0.--3. 1. "MCASP1_AHCLKSEL_AHCLKR_SEL_PROXY,Selects the AHCLKR input source for McASP1 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 -.." line.long 0x8 "CFG0_MCASP2_AHCLKSEL_PROXY," hexmask.long.byte 0x8 8.--11. 1. "MCASP2_AHCLKSEL_AHCLKX_SEL_PROXY,Selects the AHCLKX input source for McASP2 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 -.." hexmask.long.byte 0x8 0.--3. 1. "MCASP2_AHCLKSEL_AHCLKR_SEL_PROXY,Selects the AHCLKR input source for McASP2 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 -.." line.long 0xC "CFG0_MCASP3_AHCLKSEL_PROXY," hexmask.long.byte 0xC 8.--11. 1. "MCASP3_AHCLKSEL_AHCLKX_SEL_PROXY,Selects the AHCLKX input source for McASP3 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 -.." hexmask.long.byte 0xC 0.--3. 1. "MCASP3_AHCLKSEL_AHCLKR_SEL_PROXY,Selects the AHCLKR input source for McASP3 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 -.." line.long 0x10 "CFG0_MCASP4_AHCLKSEL_PROXY," hexmask.long.byte 0x10 8.--11. 1. "MCASP4_AHCLKSEL_AHCLKX_SEL_PROXY,Selects the AHCLKX input source for McASP4 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 -.." hexmask.long.byte 0x10 0.--3. 1. "MCASP4_AHCLKSEL_AHCLKR_SEL_PROXY,Selects the AHCLKR input source for McASP4 Field values (others are reserved): 4'b0000 - EXT_REFCLK1 (Pin) 4'b0001 - HFOSC0_CLKOUT 4'b0010 - AUDIO_EXT_REFCLK0 (Pin) 4'b0011 - AUDIO_EXT_REFCLK1 (Pin) 4'b0100 -.." group.long 0xA380++0x17 line.long 0x0 "CFG0_WWD0_CLKSEL_PROXY," bitfld.long 0x0 31. "WWD0_CLKSEL_WRTLOCK_PROXY,When set locks WWD0_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" bitfld.long 0x0 0.--1. "WWD0_CLKSEL_CLK_SEL_PROXY,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K" "0,1,2,3" line.long 0x4 "CFG0_WWD1_CLKSEL_PROXY," bitfld.long 0x4 31. "WWD1_CLKSEL_WRTLOCK_PROXY,When set locks WWD1_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" bitfld.long 0x4 0.--1. "WWD1_CLKSEL_CLK_SEL_PROXY,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K" "0,1,2,3" line.long 0x8 "CFG0_WWD2_CLKSEL_PROXY," bitfld.long 0x8 31. "WWD2_CLKSEL_WRTLOCK_PROXY,When set locks WWD2_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" bitfld.long 0x8 0.--1. "WWD2_CLKSEL_CLK_SEL_PROXY,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K" "0,1,2,3" line.long 0xC "CFG0_WWD3_CLKSEL_PROXY," bitfld.long 0xC 31. "WWD3_CLKSEL_WRTLOCK_PROXY,When set locks WWD3_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" bitfld.long 0xC 0.--1. "WWD3_CLKSEL_CLK_SEL_PROXY,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K" "0,1,2,3" line.long 0x10 "CFG0_WWD4_CLKSEL_PROXY," bitfld.long 0x10 31. "WWD4_CLKSEL_WRTLOCK_PROXY,When set locks WWD4_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" bitfld.long 0x10 0.--1. "WWD4_CLKSEL_CLK_SEL_PROXY,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K" "0,1,2,3" line.long 0x14 "CFG0_WWD5_CLKSEL_PROXY," bitfld.long 0x14 31. "WWD5_CLKSEL_WRTLOCK_PROXY,When set locks WWD5_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" bitfld.long 0x14 0.--1. "WWD5_CLKSEL_CLK_SEL_PROXY,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K" "0,1,2,3" group.long 0xA3A0++0x3 line.long 0x0 "CFG0_WWD8_CLKSEL_PROXY," bitfld.long 0x0 31. "WWD8_CLKSEL_WRTLOCK_PROXY,When set locks WWD8_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" bitfld.long 0x0 0.--1. "WWD8_CLKSEL_CLK_SEL_PROXY,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K" "0,1,2,3" group.long 0xA3BC++0x3 line.long 0x0 "CFG0_WWD15_CLKSEL_PROXY," bitfld.long 0x0 31. "WWD15_CLKSEL_WRTLOCK_PROXY,When set locks WWD15_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" bitfld.long 0x0 0.--1. "WWD15_CLKSEL_CLK_SEL_PROXY,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K" "0,1,2,3" group.long 0xA400++0x3 line.long 0x0 "CFG0_SERDES0_CLKSEL_PROXY," bitfld.long 0x0 0.--1. "SERDES0_CLKSEL_CORE_REFCLK_SEL_PROXY,Selects the source for the core_refclk input Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT_SERDES 2'b01 - EXT_REFCLK1 (Pin) 2'b10 - MAIN_PLL2_HSDIV0_CLKOUT 2'b11 - MAIN_PLL0_HSDIV9_CLKOUT" "0,1,2,3" group.long 0xA410++0x3 line.long 0x0 "CFG0_SERDES1_CLKSEL_PROXY," bitfld.long 0x0 0.--1. "SERDES1_CLKSEL_CORE_REFCLK_SEL_PROXY,Selects the source for the core_refclk input Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT_SERDES 2'b01 - EXT_REFCLK1 (Pin) 2'b10 - MAIN_PLL2_HSDIV0_CLKOUT 2'b11 - MAIN_PLL0_HSDIV9_CLKOUT" "0,1,2,3" group.long 0xA480++0x7 line.long 0x0 "CFG0_MCAN0_CLKSEL_PROXY," bitfld.long 0x0 0.--1. "MCAN0_CLKSEL_CLK_SEL_PROXY,MAIN MCAN_CLK selection Field values (others are reserved): 2'b00 - MAIN_PLL0_HSDIV4_CLKOUT 2'b01 - MCU_EXT_REFCLK0 (Pin) 2'b10 - EXT_REFCLK1 (Pin) 2'b11 - HFOSC0_CLKOUT" "0,1,2,3" line.long 0x4 "CFG0_MCAN1_CLKSEL_PROXY," bitfld.long 0x4 0.--1. "MCAN1_CLKSEL_CLK_SEL_PROXY,MAIN MCAN_CLK selection Field values (others are reserved): 2'b00 - MAIN_PLL0_HSDIV4_CLKOUT 2'b01 - MCU_EXT_REFCLK0 (Pin) 2'b10 - EXT_REFCLK1 (Pin) 2'b11 - HFOSC0_CLKOUT" "0,1,2,3" group.long 0xA500++0x3 line.long 0x0 "CFG0_OSPI0_CLKSEL_PROXY," bitfld.long 0x0 4. "OSPI0_CLKSEL_LOOPCLK_SEL_PROXY,OBSPI0 Loopback clock source Field values (others are reserved): 1'b0 - Board Level Loopback 1'b1 - Internal Loopback" "0,1" bitfld.long 0x0 0. "OSPI0_CLKSEL_CLK_SEL_PROXY,OSPI0 reference clock selection Field values (others are reserved): 1'b0 - MAIN_PLL0_HSDIV1_CLKOUT 1'b1 - MAIN_PLL1_HSDIV5_CLKOUT" "0,1" group.long 0xA700++0x3 line.long 0x0 "CFG0_OLDI_PD_CTRL_PROXY," rbitfld.long 0x0 31. "OLDI_PD_CTRL_BGOK_PROXY,OLDI Bandgap Reference Status Field values (others are reserved): 1'b0 - BG_NOT_READY 1'b1 - BG_READY" "0,1" bitfld.long 0x0 8. "OLDI_PD_CTRL_PD_BG_PROXY,Bandgap Power Down Field values (others are reserved): 1'b0 - BG_ON 1'b1 - BG_OFF" "0,1" newline bitfld.long 0x0 1. "OLDI_PD_CTRL_PD_OLDI1_PROXY,Forces OLDI1 LVDS IOs to Power Down Field values (others are reserved): 1'b0 - LVDS_ON 1'b1 - LVDS_OFF" "0,1" bitfld.long 0x0 0. "OLDI_PD_CTRL_PD_OLDI0_PROXY,Forces OLDI0 LVDS IOs to Power Down Field values (others are reserved): 1'b0 - LVDS_ON 1'b1 - LVDS_OFF" "0,1" group.long 0xB008++0x7 line.long 0x0 "CFG0_LOCK2_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK2_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK2_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK2_KICK1_PROXY,- KICK1 component" group.long 0xB100++0x3B line.long 0x0 "CFG0_CLAIMREG_P2_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P2_R0,Claim bits for Partition 2" line.long 0x4 "CFG0_CLAIMREG_P2_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P2_R1,Claim bits for Partition 2" line.long 0x8 "CFG0_CLAIMREG_P2_R2," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P2_R2,Claim bits for Partition 2" line.long 0xC "CFG0_CLAIMREG_P2_R3," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P2_R3,Claim bits for Partition 2" line.long 0x10 "CFG0_CLAIMREG_P2_R4," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P2_R4,Claim bits for Partition 2" line.long 0x14 "CFG0_CLAIMREG_P2_R5," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P2_R5,Claim bits for Partition 2" line.long 0x18 "CFG0_CLAIMREG_P2_R6," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P2_R6,Claim bits for Partition 2" line.long 0x1C "CFG0_CLAIMREG_P2_R7," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P2_R7,Claim bits for Partition 2" line.long 0x20 "CFG0_CLAIMREG_P2_R8," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P2_R8,Claim bits for Partition 2" line.long 0x24 "CFG0_CLAIMREG_P2_R9," hexmask.long 0x24 0.--31. 1. "CLAIMREG_P2_R9,Claim bits for Partition 2" line.long 0x28 "CFG0_CLAIMREG_P2_R10," hexmask.long 0x28 0.--31. 1. "CLAIMREG_P2_R10,Claim bits for Partition 2" line.long 0x2C "CFG0_CLAIMREG_P2_R11," hexmask.long 0x2C 0.--31. 1. "CLAIMREG_P2_R11,Claim bits for Partition 2" line.long 0x30 "CFG0_CLAIMREG_P2_R12," hexmask.long 0x30 0.--31. 1. "CLAIMREG_P2_R12,Claim bits for Partition 2" line.long 0x34 "CFG0_CLAIMREG_P2_R13," hexmask.long 0x34 0.--31. 1. "CLAIMREG_P2_R13,Claim bits for Partition 2" line.long 0x38 "CFG0_CLAIMREG_P2_R14," hexmask.long 0x38 0.--31. 1. "CLAIMREG_P2_R14,Claim bits for Partition 2" group.long 0x10500++0x3 line.long 0x0 "CFG0_MAIN_PLL_TEST_CLKSEL," bitfld.long 0x0 18. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL18,Selects the alternate clock source for MAIN PLL18 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" bitfld.long 0x0 17. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL17,Selects the alternate clock source for MAIN PLL17 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" newline bitfld.long 0x0 16. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL16,Selects the alternate clock source for MAIN PLL16 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" bitfld.long 0x0 12. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL12,Selects the alternate clock source for MAIN PLL12 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" newline bitfld.long 0x0 8. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL8,Selects the alternate clock source for MAIN PLL8 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" bitfld.long 0x0 7. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL7,Selects the alternate clock source for MAIN PLL7 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" newline bitfld.long 0x0 6. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL6,Selects the alternate clock source for MAIN PLL6 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" bitfld.long 0x0 5. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL5,Selects the alternate clock source for MAIN PLL5 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" newline bitfld.long 0x0 2. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL2,Selects the alternate clock source for MAIN PLL2 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" bitfld.long 0x0 1. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL1,Selects the alternate clock source for MAIN PLL1 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" newline bitfld.long 0x0 0. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL0,Selects the alternate clock source for MAIN PLL0 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" group.long 0x11008++0x7 line.long 0x0 "CFG0_LOCK4_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK4_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK4_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK4_KICK1,- KICK1 component" rgroup.long 0x11100++0x2B line.long 0x0 "CFG0_CLAIMREG_P4_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P4_R0_READONLY,Claim bits for Partition 4" line.long 0x4 "CFG0_CLAIMREG_P4_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P4_R1_READONLY,Claim bits for Partition 4" line.long 0x8 "CFG0_CLAIMREG_P4_R2_READONLY," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P4_R2_READONLY,Claim bits for Partition 4" line.long 0xC "CFG0_CLAIMREG_P4_R3_READONLY," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P4_R3_READONLY,Claim bits for Partition 4" line.long 0x10 "CFG0_CLAIMREG_P4_R4_READONLY," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P4_R4_READONLY,Claim bits for Partition 4" line.long 0x14 "CFG0_CLAIMREG_P4_R5_READONLY," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P4_R5_READONLY,Claim bits for Partition 4" line.long 0x18 "CFG0_CLAIMREG_P4_R6_READONLY," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P4_R6_READONLY,Claim bits for Partition 4" line.long 0x1C "CFG0_CLAIMREG_P4_R7_READONLY," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P4_R7_READONLY,Claim bits for Partition 4" line.long 0x20 "CFG0_CLAIMREG_P4_R8_READONLY," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P4_R8_READONLY,Claim bits for Partition 4" line.long 0x24 "CFG0_CLAIMREG_P4_R9_READONLY," hexmask.long 0x24 0.--31. 1. "CLAIMREG_P4_R9_READONLY,Claim bits for Partition 4" line.long 0x28 "CFG0_CLAIMREG_P4_R10_READONLY," hexmask.long 0x28 0.--31. 1. "CLAIMREG_P4_R10_READONLY,Claim bits for Partition 4" group.long 0x12500++0x3 line.long 0x0 "CFG0_MAIN_PLL_TEST_CLKSEL_PROXY," bitfld.long 0x0 18. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL18_PROXY,Selects the alternate clock source for MAIN PLL18 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" bitfld.long 0x0 17. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL17_PROXY,Selects the alternate clock source for MAIN PLL17 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" newline bitfld.long 0x0 16. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL16_PROXY,Selects the alternate clock source for MAIN PLL16 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" bitfld.long 0x0 12. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL12_PROXY,Selects the alternate clock source for MAIN PLL12 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" newline bitfld.long 0x0 8. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL8_PROXY,Selects the alternate clock source for MAIN PLL8 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" bitfld.long 0x0 7. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL7_PROXY,Selects the alternate clock source for MAIN PLL7 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" newline bitfld.long 0x0 6. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL6_PROXY,Selects the alternate clock source for MAIN PLL6 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" bitfld.long 0x0 5. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL5_PROXY,Selects the alternate clock source for MAIN PLL5 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" newline bitfld.long 0x0 2. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL2_PROXY,Selects the alternate clock source for MAIN PLL2 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" bitfld.long 0x0 1. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL1_PROXY,Selects the alternate clock source for MAIN PLL1 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" newline bitfld.long 0x0 0. "MAIN_PLL_TEST_CLKSEL_CLK_SEL_PLL0_PROXY,Selects the alternate clock source for MAIN PLL0 Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - EXT_REFCLK1 (Pin)" "0,1" group.long 0x13008++0x7 line.long 0x0 "CFG0_LOCK4_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK4_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK4_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK4_KICK1_PROXY,- KICK1 component" group.long 0x13100++0x2B line.long 0x0 "CFG0_CLAIMREG_P4_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P4_R0,Claim bits for Partition 4" line.long 0x4 "CFG0_CLAIMREG_P4_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P4_R1,Claim bits for Partition 4" line.long 0x8 "CFG0_CLAIMREG_P4_R2," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P4_R2,Claim bits for Partition 4" line.long 0xC "CFG0_CLAIMREG_P4_R3," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P4_R3,Claim bits for Partition 4" line.long 0x10 "CFG0_CLAIMREG_P4_R4," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P4_R4,Claim bits for Partition 4" line.long 0x14 "CFG0_CLAIMREG_P4_R5," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P4_R5,Claim bits for Partition 4" line.long 0x18 "CFG0_CLAIMREG_P4_R6," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P4_R6,Claim bits for Partition 4" line.long 0x1C "CFG0_CLAIMREG_P4_R7," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P4_R7,Claim bits for Partition 4" line.long 0x20 "CFG0_CLAIMREG_P4_R8," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P4_R8,Claim bits for Partition 4" line.long 0x24 "CFG0_CLAIMREG_P4_R9," hexmask.long 0x24 0.--31. 1. "CLAIMREG_P4_R9,Claim bits for Partition 4" line.long 0x28 "CFG0_CLAIMREG_P4_R10," hexmask.long 0x28 0.--31. 1. "CLAIMREG_P4_R10,Claim bits for Partition 4" group.long 0x19008++0x7 line.long 0x0 "CFG0_LOCK6_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK6_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK6_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK6_KICK1,- KICK1 component" rgroup.long 0x19100++0x23 line.long 0x0 "CFG0_CLAIMREG_P6_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P6_R0_READONLY,Claim bits for Partition 6" line.long 0x4 "CFG0_CLAIMREG_P6_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P6_R1_READONLY,Claim bits for Partition 6" line.long 0x8 "CFG0_CLAIMREG_P6_R2_READONLY," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P6_R2_READONLY,Claim bits for Partition 6" line.long 0xC "CFG0_CLAIMREG_P6_R3_READONLY," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P6_R3_READONLY,Claim bits for Partition 6" line.long 0x10 "CFG0_CLAIMREG_P6_R4_READONLY," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P6_R4_READONLY,Claim bits for Partition 6" line.long 0x14 "CFG0_CLAIMREG_P6_R5_READONLY," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P6_R5_READONLY,Claim bits for Partition 6" line.long 0x18 "CFG0_CLAIMREG_P6_R6_READONLY," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P6_R6_READONLY,Claim bits for Partition 6" line.long 0x1C "CFG0_CLAIMREG_P6_R7_READONLY," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P6_R7_READONLY,Claim bits for Partition 6" line.long 0x20 "CFG0_CLAIMREG_P6_R8_READONLY," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P6_R8_READONLY,Claim bits for Partition 6" group.long 0x1B008++0x7 line.long 0x0 "CFG0_LOCK6_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK6_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK6_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK6_KICK1_PROXY,- KICK1 component" group.long 0x1B100++0x23 line.long 0x0 "CFG0_CLAIMREG_P6_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P6_R0,Claim bits for Partition 6" line.long 0x4 "CFG0_CLAIMREG_P6_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P6_R1,Claim bits for Partition 6" line.long 0x8 "CFG0_CLAIMREG_P6_R2," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P6_R2,Claim bits for Partition 6" line.long 0xC "CFG0_CLAIMREG_P6_R3," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P6_R3,Claim bits for Partition 6" line.long 0x10 "CFG0_CLAIMREG_P6_R4," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P6_R4,Claim bits for Partition 6" line.long 0x14 "CFG0_CLAIMREG_P6_R5," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P6_R5,Claim bits for Partition 6" line.long 0x18 "CFG0_CLAIMREG_P6_R6," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P6_R6,Claim bits for Partition 6" line.long 0x1C "CFG0_CLAIMREG_P6_R7," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P6_R7,Claim bits for Partition 6" line.long 0x20 "CFG0_CLAIMREG_P6_R8," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P6_R8,Claim bits for Partition 6" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "DBGSUSPENDROUTER0_INTR_ROUTER_CFG (DBGSUSPENDROUTER0_INTR_ROUTER_CFG)" base ad:0x73D300000 rgroup.long 0x0++0x3 line.long 0x0 "INTR_ROUTER_CFG_PID,Identification register" bitfld.long 0x0 30.--31. "SCHEME,scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION,function" hexmask.long.byte 0x0 11.--15. 1. "RTLVER,rtl version" bitfld.long 0x0 8.--10. "MAJREV,major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,custom id" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINREV,minor version" group.long 0x4++0x3 line.long 0x0 "INTR_ROUTER_CFG_INTR_MUXCNTL,Interrupt mux control register" bitfld.long 0x0 16. "INT_ENABLE,interrupt output enable for interrupt N" "0,1" hexmask.long.byte 0x0 0.--4. 1. "MUX_CNTL,Mux control for interrupt N" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "DCC" base ad:0x0 tree "DCC0 (DCC0)" base ad:0x800000 group.long 0x0++0x3 line.long 0x0 "CFG_DCCGCTRL,Starts / stops the counters. Clears the error signal." hexmask.long.byte 0x0 12.--15. 1. "DONEENA,The DONEENA bit enables/disables the done interrupt signal but has no effect on the done status flag in DCCSTAT register. User privilege and debug mode (read): 0101 = the done signal is disabled others = the done signal is enabled Privilege.." hexmask.long.byte 0x0 8.--11. 1. "SINGLESHOT,The SINGLESHOT bit enables/disables repetitive operation of the DCC. User privilege and debug mode (read): 1010 = stop counting when counter0 and valid0 both reach zero 1011 = stop counting when counter1 reaches zero others = continuously.." newline hexmask.long.byte 0x0 4.--7. 1. "ERRENA,The ERRENA bit enables/disables the error signal. User privilege and debug mode (read): 0101 = the error signal is disabled others = the error signal is enabled Privilege and debug mode (write): 0101 = disable error signal generation others =.." hexmask.long.byte 0x0 0.--3. 1. "DCCENA,The DCCENA bit starts and stops the operation of the dcc. User privilege and debug mode (read): 0101 = counters are stopped others = counters are running Privilege and debug mode (write): 0101 = stop counters and error-checking others = load the.." rgroup.long 0x4++0x3 line.long 0x0 "CFG_DCCREV,Specifies the module version." bitfld.long 0x0 30.--31. "SCHEME,User privilege and debug mode (read): Returns 01. Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Reflects software-compatability. If there is no level of software compatability a unique func number is assigned; for compatible modules the same number is maintained. User privilege and debug mode (read): 0x0 Privilege and debug mode (write):.." newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Incremented for releases due to spec changes or post-release design changes. Reset to 0 when either MAJOR or MINOR is incremented. User privilege and debug mode (read): 0x1 Privilege and debug mode (write): Writes have no effect." bitfld.long 0x0 8.--10. "MAJOR,Represents major changes to the module (e.g. entirely new features are added/changed). The major revision number for this module. User privilege and debug mode (read): 0x2 Privilege and debug mode (write): Writes have no effect." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version of the module. May not be supported by standard software. User privilege and debug mode (read): 0x0 Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Represents minor changes to the module (e.g. enhancements to existing features). The minor revision number for this module. User privilege and debug mode (read): 0x4 Privilege and debug mode (write): Writes have no effect." group.long 0x8++0xF line.long 0x0 "CFG_DCCCNTSEED0,Seed value for the counter attached to clock source 0" hexmask.long.tbyte 0x0 0.--19. 1. "COUNTSEED0,This field contains the seed value that gets loaded into counter 0 (clock source 0). User privilege and debug mode (read): Returns the current seed value for counter 0. Privilege and debug mode (write): Sets the current seed value for.." line.long 0x4 "CFG_DCCVALIDSEED0,Seed value for the timeout counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALIDSEED0,This field contains the seed value that gets loaded into the valid duration counter for clock source 0. User privilege and debug mode (read): Returns the current seed value for VALID0. Privilege and debug mode (write): Sets the current seed.." line.long 0x8 "CFG_DCCCNTSEED1,Seed value for the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNTSEED1,This field contains the seed value that gets loaded into counter 1 (clock source 1). User privilege and debug mode (read): Returns the current seed value for counter 1. Privilege and debug mode (write): Sets the current seed value for.." line.long 0xC "CFG_DCCSTAT,Specifies the status of the DCC Module." bitfld.long 0xC 1. "DONEFLG,Indicates when single-shot mode is complete without error. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = single-shot mode is not done 1 = single-shot mode is done Privilege and debug mode (write): 0 = no.." "0: no effect,1: clear the done flag" bitfld.long 0xC 0. "ERRFLG,Indicates whether or not an error has occured. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = an error has not occurred 1 = an error has occurred Privilege and debug mode (write): 0 = no effect 1 = clear the.." "0: no effect,1: clear the error flag" rgroup.long 0x18++0xB line.long 0x0 "CFG_DCCCNT0,Value of the counter attached to clock source 0." hexmask.long.tbyte 0x0 0.--19. 1. "COUNT0,This field contains the current value of counter 0. User privilege and debug mode (read): Returns the current value for counter 0. Privilege and debug mode (write): Writes have no effect. NOTE - Reads of the counter value may not be exact since.." line.long 0x4 "CFG_DCCVALID0,Value of the valid counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALID0,This field contains the current value of valid counter 0. User privilege and debug mode (read): Returns the current value for valid counter 0. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be.." line.long 0x8 "CFG_DCCCNT1,Value of the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNT1,This field contains the current value of counter 1. User privilege and debug mode (read): Returns the current value for counter 1. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be exact since.." group.long 0x24++0xB line.long 0x0 "CFG_DCCCLKSRC1,Selects the clock source for counter 1." hexmask.long.byte 0x0 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 1. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x0 0.--4. 1. "CLKSRC1,This field specifies the clock source for counter 1 when the KEY field enables this feature. User privilege and debug mode (read): Returns the current value of CLKSRC. Privilege and debug mode (write): Sets the value of CLKSRC. NOTE: DCC does.." line.long 0x4 "CFG_DCCCLKSRC0,Selects the clock source for counter 0." hexmask.long.byte 0x4 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 0. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x4 0.--3. 1. "CLKSRC0,This field specifies the clock source for counter 0. User privilege and debug mode (read): Returns the current value of CLKSRC0. Privilege and debug mode (write): Sets the value of CLKSRC0. NOTE: DCC does not generate an error when the clock.." line.long 0x8 "CFG_DCCGCTRL2,Allows configuring different modes of operation for DCC." hexmask.long.byte 0x8 8.--11. 1. "FIFO_NONERR,Enables/disables FIFO writes without the error event on completion of comparison window. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." hexmask.long.byte 0x8 4.--7. 1. "FIFO_READ,Enables the counter read registers reflect FIFO output instead of the live counter value. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." newline hexmask.long.byte 0x8 0.--3. 1. "CONT_ON_ERR,Continues to next window of comparison despite the error condition. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Enable values: 0101: Comparison and.." rgroup.long 0x30++0x3 line.long 0x0 "CFG_DCCSTATUS2,Specifies the status of the DCC FIFOs." bitfld.long 0x0 5. "COUNT1_FIFO_FULL,Count1 FIFO Full. Indicates whether Count1 FIFO is full. User privilege and debug mode (read): 0: Count1 FIFO is not full 1: Count1 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not full,1: Count1 FIFO is full" bitfld.long 0x0 4. "VALID0_FIFO_FULL,Valid0 FIFO Full. Indicates whether Valid0 FIFO is full. User privilege and debug mode (read): 0: Valid0 FIFO is not full 1: Valid0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not full,1: Valid0 FIFO is full" newline bitfld.long 0x0 3. "COUNT0_FIFO_FULL,Count0 FIFO Full. Indicates whether Count0 FIFO is full. User privilege and debug mode (read): 0: Count0 FIFO is not full 1: Count0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not full,1: Count0 FIFO is full" bitfld.long 0x0 2. "COUNT1_FIFO_EMPTY,Count1 FIFO Empty. Indicates whether Count1 FIFO is empty. User privilege and debug mode (read): 0: Count1 FIFO is not empty 1: Count1 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not empty,1: Count1 FIFO is empty" newline bitfld.long 0x0 1. "VALID0_FIFO_EMPTY,Valid0 FIFO Empty. Indicates whether Valid0 FIFO is empty. User privilege and debug mode (read): 0: Valid0 FIFO is not empty 1: Valid0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not empty,1: Valid0 FIFO is empty" bitfld.long 0x0 0. "COUNT0_FIFO_EMPTY,Count0 FIFO Empty. Indicates whether Count0 FIFO is empty. User privilege and debug mode (read): 0: Count0 FIFO is not empty 1: Count0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not empty,1: Count0 FIFO is empty" group.long 0x34++0x3 line.long 0x0 "CFG_DCCERRCNT,Counts number of errors since last clear." hexmask.long.word 0x0 0.--9. 1. "ERRCNT,Counts the number of errors after the last write to this register or reset. If reached terminal count the count freezes. User needs to clear it." tree.end tree "DCC1 (DCC1)" base ad:0x804000 group.long 0x0++0x3 line.long 0x0 "CFG_DCCGCTRL,Starts / stops the counters. Clears the error signal." hexmask.long.byte 0x0 12.--15. 1. "DONEENA,The DONEENA bit enables/disables the done interrupt signal but has no effect on the done status flag in DCCSTAT register. User privilege and debug mode (read): 0101 = the done signal is disabled others = the done signal is enabled Privilege.." hexmask.long.byte 0x0 8.--11. 1. "SINGLESHOT,The SINGLESHOT bit enables/disables repetitive operation of the DCC. User privilege and debug mode (read): 1010 = stop counting when counter0 and valid0 both reach zero 1011 = stop counting when counter1 reaches zero others = continuously.." newline hexmask.long.byte 0x0 4.--7. 1. "ERRENA,The ERRENA bit enables/disables the error signal. User privilege and debug mode (read): 0101 = the error signal is disabled others = the error signal is enabled Privilege and debug mode (write): 0101 = disable error signal generation others =.." hexmask.long.byte 0x0 0.--3. 1. "DCCENA,The DCCENA bit starts and stops the operation of the dcc. User privilege and debug mode (read): 0101 = counters are stopped others = counters are running Privilege and debug mode (write): 0101 = stop counters and error-checking others = load the.." rgroup.long 0x4++0x3 line.long 0x0 "CFG_DCCREV,Specifies the module version." bitfld.long 0x0 30.--31. "SCHEME,User privilege and debug mode (read): Returns 01. Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Reflects software-compatability. If there is no level of software compatability a unique func number is assigned; for compatible modules the same number is maintained. User privilege and debug mode (read): 0x0 Privilege and debug mode (write):.." newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Incremented for releases due to spec changes or post-release design changes. Reset to 0 when either MAJOR or MINOR is incremented. User privilege and debug mode (read): 0x1 Privilege and debug mode (write): Writes have no effect." bitfld.long 0x0 8.--10. "MAJOR,Represents major changes to the module (e.g. entirely new features are added/changed). The major revision number for this module. User privilege and debug mode (read): 0x2 Privilege and debug mode (write): Writes have no effect." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version of the module. May not be supported by standard software. User privilege and debug mode (read): 0x0 Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Represents minor changes to the module (e.g. enhancements to existing features). The minor revision number for this module. User privilege and debug mode (read): 0x4 Privilege and debug mode (write): Writes have no effect." group.long 0x8++0xF line.long 0x0 "CFG_DCCCNTSEED0,Seed value for the counter attached to clock source 0" hexmask.long.tbyte 0x0 0.--19. 1. "COUNTSEED0,This field contains the seed value that gets loaded into counter 0 (clock source 0). User privilege and debug mode (read): Returns the current seed value for counter 0. Privilege and debug mode (write): Sets the current seed value for.." line.long 0x4 "CFG_DCCVALIDSEED0,Seed value for the timeout counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALIDSEED0,This field contains the seed value that gets loaded into the valid duration counter for clock source 0. User privilege and debug mode (read): Returns the current seed value for VALID0. Privilege and debug mode (write): Sets the current seed.." line.long 0x8 "CFG_DCCCNTSEED1,Seed value for the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNTSEED1,This field contains the seed value that gets loaded into counter 1 (clock source 1). User privilege and debug mode (read): Returns the current seed value for counter 1. Privilege and debug mode (write): Sets the current seed value for.." line.long 0xC "CFG_DCCSTAT,Specifies the status of the DCC Module." bitfld.long 0xC 1. "DONEFLG,Indicates when single-shot mode is complete without error. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = single-shot mode is not done 1 = single-shot mode is done Privilege and debug mode (write): 0 = no.." "0: no effect,1: clear the done flag" bitfld.long 0xC 0. "ERRFLG,Indicates whether or not an error has occured. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = an error has not occurred 1 = an error has occurred Privilege and debug mode (write): 0 = no effect 1 = clear the.." "0: no effect,1: clear the error flag" rgroup.long 0x18++0xB line.long 0x0 "CFG_DCCCNT0,Value of the counter attached to clock source 0." hexmask.long.tbyte 0x0 0.--19. 1. "COUNT0,This field contains the current value of counter 0. User privilege and debug mode (read): Returns the current value for counter 0. Privilege and debug mode (write): Writes have no effect. NOTE - Reads of the counter value may not be exact since.." line.long 0x4 "CFG_DCCVALID0,Value of the valid counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALID0,This field contains the current value of valid counter 0. User privilege and debug mode (read): Returns the current value for valid counter 0. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be.." line.long 0x8 "CFG_DCCCNT1,Value of the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNT1,This field contains the current value of counter 1. User privilege and debug mode (read): Returns the current value for counter 1. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be exact since.." group.long 0x24++0xB line.long 0x0 "CFG_DCCCLKSRC1,Selects the clock source for counter 1." hexmask.long.byte 0x0 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 1. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x0 0.--4. 1. "CLKSRC1,This field specifies the clock source for counter 1 when the KEY field enables this feature. User privilege and debug mode (read): Returns the current value of CLKSRC. Privilege and debug mode (write): Sets the value of CLKSRC. NOTE: DCC does.." line.long 0x4 "CFG_DCCCLKSRC0,Selects the clock source for counter 0." hexmask.long.byte 0x4 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 0. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x4 0.--3. 1. "CLKSRC0,This field specifies the clock source for counter 0. User privilege and debug mode (read): Returns the current value of CLKSRC0. Privilege and debug mode (write): Sets the value of CLKSRC0. NOTE: DCC does not generate an error when the clock.." line.long 0x8 "CFG_DCCGCTRL2,Allows configuring different modes of operation for DCC." hexmask.long.byte 0x8 8.--11. 1. "FIFO_NONERR,Enables/disables FIFO writes without the error event on completion of comparison window. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." hexmask.long.byte 0x8 4.--7. 1. "FIFO_READ,Enables the counter read registers reflect FIFO output instead of the live counter value. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." newline hexmask.long.byte 0x8 0.--3. 1. "CONT_ON_ERR,Continues to next window of comparison despite the error condition. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Enable values: 0101: Comparison and.." rgroup.long 0x30++0x3 line.long 0x0 "CFG_DCCSTATUS2,Specifies the status of the DCC FIFOs." bitfld.long 0x0 5. "COUNT1_FIFO_FULL,Count1 FIFO Full. Indicates whether Count1 FIFO is full. User privilege and debug mode (read): 0: Count1 FIFO is not full 1: Count1 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not full,1: Count1 FIFO is full" bitfld.long 0x0 4. "VALID0_FIFO_FULL,Valid0 FIFO Full. Indicates whether Valid0 FIFO is full. User privilege and debug mode (read): 0: Valid0 FIFO is not full 1: Valid0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not full,1: Valid0 FIFO is full" newline bitfld.long 0x0 3. "COUNT0_FIFO_FULL,Count0 FIFO Full. Indicates whether Count0 FIFO is full. User privilege and debug mode (read): 0: Count0 FIFO is not full 1: Count0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not full,1: Count0 FIFO is full" bitfld.long 0x0 2. "COUNT1_FIFO_EMPTY,Count1 FIFO Empty. Indicates whether Count1 FIFO is empty. User privilege and debug mode (read): 0: Count1 FIFO is not empty 1: Count1 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not empty,1: Count1 FIFO is empty" newline bitfld.long 0x0 1. "VALID0_FIFO_EMPTY,Valid0 FIFO Empty. Indicates whether Valid0 FIFO is empty. User privilege and debug mode (read): 0: Valid0 FIFO is not empty 1: Valid0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not empty,1: Valid0 FIFO is empty" bitfld.long 0x0 0. "COUNT0_FIFO_EMPTY,Count0 FIFO Empty. Indicates whether Count0 FIFO is empty. User privilege and debug mode (read): 0: Count0 FIFO is not empty 1: Count0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not empty,1: Count0 FIFO is empty" group.long 0x34++0x3 line.long 0x0 "CFG_DCCERRCNT,Counts number of errors since last clear." hexmask.long.word 0x0 0.--9. 1. "ERRCNT,Counts the number of errors after the last write to this register or reset. If reached terminal count the count freezes. User needs to clear it." tree.end tree "DCC2 (DCC2)" base ad:0x808000 group.long 0x0++0x3 line.long 0x0 "CFG_DCCGCTRL,Starts / stops the counters. Clears the error signal." hexmask.long.byte 0x0 12.--15. 1. "DONEENA,The DONEENA bit enables/disables the done interrupt signal but has no effect on the done status flag in DCCSTAT register. User privilege and debug mode (read): 0101 = the done signal is disabled others = the done signal is enabled Privilege.." hexmask.long.byte 0x0 8.--11. 1. "SINGLESHOT,The SINGLESHOT bit enables/disables repetitive operation of the DCC. User privilege and debug mode (read): 1010 = stop counting when counter0 and valid0 both reach zero 1011 = stop counting when counter1 reaches zero others = continuously.." newline hexmask.long.byte 0x0 4.--7. 1. "ERRENA,The ERRENA bit enables/disables the error signal. User privilege and debug mode (read): 0101 = the error signal is disabled others = the error signal is enabled Privilege and debug mode (write): 0101 = disable error signal generation others =.." hexmask.long.byte 0x0 0.--3. 1. "DCCENA,The DCCENA bit starts and stops the operation of the dcc. User privilege and debug mode (read): 0101 = counters are stopped others = counters are running Privilege and debug mode (write): 0101 = stop counters and error-checking others = load the.." rgroup.long 0x4++0x3 line.long 0x0 "CFG_DCCREV,Specifies the module version." bitfld.long 0x0 30.--31. "SCHEME,User privilege and debug mode (read): Returns 01. Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Reflects software-compatability. If there is no level of software compatability a unique func number is assigned; for compatible modules the same number is maintained. User privilege and debug mode (read): 0x0 Privilege and debug mode (write):.." newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Incremented for releases due to spec changes or post-release design changes. Reset to 0 when either MAJOR or MINOR is incremented. User privilege and debug mode (read): 0x1 Privilege and debug mode (write): Writes have no effect." bitfld.long 0x0 8.--10. "MAJOR,Represents major changes to the module (e.g. entirely new features are added/changed). The major revision number for this module. User privilege and debug mode (read): 0x2 Privilege and debug mode (write): Writes have no effect." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version of the module. May not be supported by standard software. User privilege and debug mode (read): 0x0 Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Represents minor changes to the module (e.g. enhancements to existing features). The minor revision number for this module. User privilege and debug mode (read): 0x4 Privilege and debug mode (write): Writes have no effect." group.long 0x8++0xF line.long 0x0 "CFG_DCCCNTSEED0,Seed value for the counter attached to clock source 0" hexmask.long.tbyte 0x0 0.--19. 1. "COUNTSEED0,This field contains the seed value that gets loaded into counter 0 (clock source 0). User privilege and debug mode (read): Returns the current seed value for counter 0. Privilege and debug mode (write): Sets the current seed value for.." line.long 0x4 "CFG_DCCVALIDSEED0,Seed value for the timeout counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALIDSEED0,This field contains the seed value that gets loaded into the valid duration counter for clock source 0. User privilege and debug mode (read): Returns the current seed value for VALID0. Privilege and debug mode (write): Sets the current seed.." line.long 0x8 "CFG_DCCCNTSEED1,Seed value for the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNTSEED1,This field contains the seed value that gets loaded into counter 1 (clock source 1). User privilege and debug mode (read): Returns the current seed value for counter 1. Privilege and debug mode (write): Sets the current seed value for.." line.long 0xC "CFG_DCCSTAT,Specifies the status of the DCC Module." bitfld.long 0xC 1. "DONEFLG,Indicates when single-shot mode is complete without error. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = single-shot mode is not done 1 = single-shot mode is done Privilege and debug mode (write): 0 = no.." "0: no effect,1: clear the done flag" bitfld.long 0xC 0. "ERRFLG,Indicates whether or not an error has occured. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = an error has not occurred 1 = an error has occurred Privilege and debug mode (write): 0 = no effect 1 = clear the.." "0: no effect,1: clear the error flag" rgroup.long 0x18++0xB line.long 0x0 "CFG_DCCCNT0,Value of the counter attached to clock source 0." hexmask.long.tbyte 0x0 0.--19. 1. "COUNT0,This field contains the current value of counter 0. User privilege and debug mode (read): Returns the current value for counter 0. Privilege and debug mode (write): Writes have no effect. NOTE - Reads of the counter value may not be exact since.." line.long 0x4 "CFG_DCCVALID0,Value of the valid counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALID0,This field contains the current value of valid counter 0. User privilege and debug mode (read): Returns the current value for valid counter 0. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be.." line.long 0x8 "CFG_DCCCNT1,Value of the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNT1,This field contains the current value of counter 1. User privilege and debug mode (read): Returns the current value for counter 1. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be exact since.." group.long 0x24++0xB line.long 0x0 "CFG_DCCCLKSRC1,Selects the clock source for counter 1." hexmask.long.byte 0x0 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 1. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x0 0.--4. 1. "CLKSRC1,This field specifies the clock source for counter 1 when the KEY field enables this feature. User privilege and debug mode (read): Returns the current value of CLKSRC. Privilege and debug mode (write): Sets the value of CLKSRC. NOTE: DCC does.." line.long 0x4 "CFG_DCCCLKSRC0,Selects the clock source for counter 0." hexmask.long.byte 0x4 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 0. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x4 0.--3. 1. "CLKSRC0,This field specifies the clock source for counter 0. User privilege and debug mode (read): Returns the current value of CLKSRC0. Privilege and debug mode (write): Sets the value of CLKSRC0. NOTE: DCC does not generate an error when the clock.." line.long 0x8 "CFG_DCCGCTRL2,Allows configuring different modes of operation for DCC." hexmask.long.byte 0x8 8.--11. 1. "FIFO_NONERR,Enables/disables FIFO writes without the error event on completion of comparison window. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." hexmask.long.byte 0x8 4.--7. 1. "FIFO_READ,Enables the counter read registers reflect FIFO output instead of the live counter value. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." newline hexmask.long.byte 0x8 0.--3. 1. "CONT_ON_ERR,Continues to next window of comparison despite the error condition. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Enable values: 0101: Comparison and.." rgroup.long 0x30++0x3 line.long 0x0 "CFG_DCCSTATUS2,Specifies the status of the DCC FIFOs." bitfld.long 0x0 5. "COUNT1_FIFO_FULL,Count1 FIFO Full. Indicates whether Count1 FIFO is full. User privilege and debug mode (read): 0: Count1 FIFO is not full 1: Count1 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not full,1: Count1 FIFO is full" bitfld.long 0x0 4. "VALID0_FIFO_FULL,Valid0 FIFO Full. Indicates whether Valid0 FIFO is full. User privilege and debug mode (read): 0: Valid0 FIFO is not full 1: Valid0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not full,1: Valid0 FIFO is full" newline bitfld.long 0x0 3. "COUNT0_FIFO_FULL,Count0 FIFO Full. Indicates whether Count0 FIFO is full. User privilege and debug mode (read): 0: Count0 FIFO is not full 1: Count0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not full,1: Count0 FIFO is full" bitfld.long 0x0 2. "COUNT1_FIFO_EMPTY,Count1 FIFO Empty. Indicates whether Count1 FIFO is empty. User privilege and debug mode (read): 0: Count1 FIFO is not empty 1: Count1 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not empty,1: Count1 FIFO is empty" newline bitfld.long 0x0 1. "VALID0_FIFO_EMPTY,Valid0 FIFO Empty. Indicates whether Valid0 FIFO is empty. User privilege and debug mode (read): 0: Valid0 FIFO is not empty 1: Valid0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not empty,1: Valid0 FIFO is empty" bitfld.long 0x0 0. "COUNT0_FIFO_EMPTY,Count0 FIFO Empty. Indicates whether Count0 FIFO is empty. User privilege and debug mode (read): 0: Count0 FIFO is not empty 1: Count0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not empty,1: Count0 FIFO is empty" group.long 0x34++0x3 line.long 0x0 "CFG_DCCERRCNT,Counts number of errors since last clear." hexmask.long.word 0x0 0.--9. 1. "ERRCNT,Counts the number of errors after the last write to this register or reset. If reached terminal count the count freezes. User needs to clear it." tree.end tree "DCC3 (DCC3)" base ad:0x80C000 group.long 0x0++0x3 line.long 0x0 "CFG_DCCGCTRL,Starts / stops the counters. Clears the error signal." hexmask.long.byte 0x0 12.--15. 1. "DONEENA,The DONEENA bit enables/disables the done interrupt signal but has no effect on the done status flag in DCCSTAT register. User privilege and debug mode (read): 0101 = the done signal is disabled others = the done signal is enabled Privilege.." hexmask.long.byte 0x0 8.--11. 1. "SINGLESHOT,The SINGLESHOT bit enables/disables repetitive operation of the DCC. User privilege and debug mode (read): 1010 = stop counting when counter0 and valid0 both reach zero 1011 = stop counting when counter1 reaches zero others = continuously.." newline hexmask.long.byte 0x0 4.--7. 1. "ERRENA,The ERRENA bit enables/disables the error signal. User privilege and debug mode (read): 0101 = the error signal is disabled others = the error signal is enabled Privilege and debug mode (write): 0101 = disable error signal generation others =.." hexmask.long.byte 0x0 0.--3. 1. "DCCENA,The DCCENA bit starts and stops the operation of the dcc. User privilege and debug mode (read): 0101 = counters are stopped others = counters are running Privilege and debug mode (write): 0101 = stop counters and error-checking others = load the.." rgroup.long 0x4++0x3 line.long 0x0 "CFG_DCCREV,Specifies the module version." bitfld.long 0x0 30.--31. "SCHEME,User privilege and debug mode (read): Returns 01. Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Reflects software-compatability. If there is no level of software compatability a unique func number is assigned; for compatible modules the same number is maintained. User privilege and debug mode (read): 0x0 Privilege and debug mode (write):.." newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Incremented for releases due to spec changes or post-release design changes. Reset to 0 when either MAJOR or MINOR is incremented. User privilege and debug mode (read): 0x1 Privilege and debug mode (write): Writes have no effect." bitfld.long 0x0 8.--10. "MAJOR,Represents major changes to the module (e.g. entirely new features are added/changed). The major revision number for this module. User privilege and debug mode (read): 0x2 Privilege and debug mode (write): Writes have no effect." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version of the module. May not be supported by standard software. User privilege and debug mode (read): 0x0 Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Represents minor changes to the module (e.g. enhancements to existing features). The minor revision number for this module. User privilege and debug mode (read): 0x4 Privilege and debug mode (write): Writes have no effect." group.long 0x8++0xF line.long 0x0 "CFG_DCCCNTSEED0,Seed value for the counter attached to clock source 0" hexmask.long.tbyte 0x0 0.--19. 1. "COUNTSEED0,This field contains the seed value that gets loaded into counter 0 (clock source 0). User privilege and debug mode (read): Returns the current seed value for counter 0. Privilege and debug mode (write): Sets the current seed value for.." line.long 0x4 "CFG_DCCVALIDSEED0,Seed value for the timeout counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALIDSEED0,This field contains the seed value that gets loaded into the valid duration counter for clock source 0. User privilege and debug mode (read): Returns the current seed value for VALID0. Privilege and debug mode (write): Sets the current seed.." line.long 0x8 "CFG_DCCCNTSEED1,Seed value for the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNTSEED1,This field contains the seed value that gets loaded into counter 1 (clock source 1). User privilege and debug mode (read): Returns the current seed value for counter 1. Privilege and debug mode (write): Sets the current seed value for.." line.long 0xC "CFG_DCCSTAT,Specifies the status of the DCC Module." bitfld.long 0xC 1. "DONEFLG,Indicates when single-shot mode is complete without error. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = single-shot mode is not done 1 = single-shot mode is done Privilege and debug mode (write): 0 = no.." "0: no effect,1: clear the done flag" bitfld.long 0xC 0. "ERRFLG,Indicates whether or not an error has occured. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = an error has not occurred 1 = an error has occurred Privilege and debug mode (write): 0 = no effect 1 = clear the.." "0: no effect,1: clear the error flag" rgroup.long 0x18++0xB line.long 0x0 "CFG_DCCCNT0,Value of the counter attached to clock source 0." hexmask.long.tbyte 0x0 0.--19. 1. "COUNT0,This field contains the current value of counter 0. User privilege and debug mode (read): Returns the current value for counter 0. Privilege and debug mode (write): Writes have no effect. NOTE - Reads of the counter value may not be exact since.." line.long 0x4 "CFG_DCCVALID0,Value of the valid counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALID0,This field contains the current value of valid counter 0. User privilege and debug mode (read): Returns the current value for valid counter 0. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be.." line.long 0x8 "CFG_DCCCNT1,Value of the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNT1,This field contains the current value of counter 1. User privilege and debug mode (read): Returns the current value for counter 1. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be exact since.." group.long 0x24++0xB line.long 0x0 "CFG_DCCCLKSRC1,Selects the clock source for counter 1." hexmask.long.byte 0x0 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 1. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x0 0.--4. 1. "CLKSRC1,This field specifies the clock source for counter 1 when the KEY field enables this feature. User privilege and debug mode (read): Returns the current value of CLKSRC. Privilege and debug mode (write): Sets the value of CLKSRC. NOTE: DCC does.." line.long 0x4 "CFG_DCCCLKSRC0,Selects the clock source for counter 0." hexmask.long.byte 0x4 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 0. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x4 0.--3. 1. "CLKSRC0,This field specifies the clock source for counter 0. User privilege and debug mode (read): Returns the current value of CLKSRC0. Privilege and debug mode (write): Sets the value of CLKSRC0. NOTE: DCC does not generate an error when the clock.." line.long 0x8 "CFG_DCCGCTRL2,Allows configuring different modes of operation for DCC." hexmask.long.byte 0x8 8.--11. 1. "FIFO_NONERR,Enables/disables FIFO writes without the error event on completion of comparison window. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." hexmask.long.byte 0x8 4.--7. 1. "FIFO_READ,Enables the counter read registers reflect FIFO output instead of the live counter value. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." newline hexmask.long.byte 0x8 0.--3. 1. "CONT_ON_ERR,Continues to next window of comparison despite the error condition. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Enable values: 0101: Comparison and.." rgroup.long 0x30++0x3 line.long 0x0 "CFG_DCCSTATUS2,Specifies the status of the DCC FIFOs." bitfld.long 0x0 5. "COUNT1_FIFO_FULL,Count1 FIFO Full. Indicates whether Count1 FIFO is full. User privilege and debug mode (read): 0: Count1 FIFO is not full 1: Count1 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not full,1: Count1 FIFO is full" bitfld.long 0x0 4. "VALID0_FIFO_FULL,Valid0 FIFO Full. Indicates whether Valid0 FIFO is full. User privilege and debug mode (read): 0: Valid0 FIFO is not full 1: Valid0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not full,1: Valid0 FIFO is full" newline bitfld.long 0x0 3. "COUNT0_FIFO_FULL,Count0 FIFO Full. Indicates whether Count0 FIFO is full. User privilege and debug mode (read): 0: Count0 FIFO is not full 1: Count0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not full,1: Count0 FIFO is full" bitfld.long 0x0 2. "COUNT1_FIFO_EMPTY,Count1 FIFO Empty. Indicates whether Count1 FIFO is empty. User privilege and debug mode (read): 0: Count1 FIFO is not empty 1: Count1 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not empty,1: Count1 FIFO is empty" newline bitfld.long 0x0 1. "VALID0_FIFO_EMPTY,Valid0 FIFO Empty. Indicates whether Valid0 FIFO is empty. User privilege and debug mode (read): 0: Valid0 FIFO is not empty 1: Valid0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not empty,1: Valid0 FIFO is empty" bitfld.long 0x0 0. "COUNT0_FIFO_EMPTY,Count0 FIFO Empty. Indicates whether Count0 FIFO is empty. User privilege and debug mode (read): 0: Count0 FIFO is not empty 1: Count0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not empty,1: Count0 FIFO is empty" group.long 0x34++0x3 line.long 0x0 "CFG_DCCERRCNT,Counts number of errors since last clear." hexmask.long.word 0x0 0.--9. 1. "ERRCNT,Counts the number of errors after the last write to this register or reset. If reached terminal count the count freezes. User needs to clear it." tree.end tree "DCC4 (DCC4)" base ad:0x810000 group.long 0x0++0x3 line.long 0x0 "CFG_DCCGCTRL,Starts / stops the counters. Clears the error signal." hexmask.long.byte 0x0 12.--15. 1. "DONEENA,The DONEENA bit enables/disables the done interrupt signal but has no effect on the done status flag in DCCSTAT register. User privilege and debug mode (read): 0101 = the done signal is disabled others = the done signal is enabled Privilege.." hexmask.long.byte 0x0 8.--11. 1. "SINGLESHOT,The SINGLESHOT bit enables/disables repetitive operation of the DCC. User privilege and debug mode (read): 1010 = stop counting when counter0 and valid0 both reach zero 1011 = stop counting when counter1 reaches zero others = continuously.." newline hexmask.long.byte 0x0 4.--7. 1. "ERRENA,The ERRENA bit enables/disables the error signal. User privilege and debug mode (read): 0101 = the error signal is disabled others = the error signal is enabled Privilege and debug mode (write): 0101 = disable error signal generation others =.." hexmask.long.byte 0x0 0.--3. 1. "DCCENA,The DCCENA bit starts and stops the operation of the dcc. User privilege and debug mode (read): 0101 = counters are stopped others = counters are running Privilege and debug mode (write): 0101 = stop counters and error-checking others = load the.." rgroup.long 0x4++0x3 line.long 0x0 "CFG_DCCREV,Specifies the module version." bitfld.long 0x0 30.--31. "SCHEME,User privilege and debug mode (read): Returns 01. Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Reflects software-compatability. If there is no level of software compatability a unique func number is assigned; for compatible modules the same number is maintained. User privilege and debug mode (read): 0x0 Privilege and debug mode (write):.." newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Incremented for releases due to spec changes or post-release design changes. Reset to 0 when either MAJOR or MINOR is incremented. User privilege and debug mode (read): 0x1 Privilege and debug mode (write): Writes have no effect." bitfld.long 0x0 8.--10. "MAJOR,Represents major changes to the module (e.g. entirely new features are added/changed). The major revision number for this module. User privilege and debug mode (read): 0x2 Privilege and debug mode (write): Writes have no effect." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version of the module. May not be supported by standard software. User privilege and debug mode (read): 0x0 Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Represents minor changes to the module (e.g. enhancements to existing features). The minor revision number for this module. User privilege and debug mode (read): 0x4 Privilege and debug mode (write): Writes have no effect." group.long 0x8++0xF line.long 0x0 "CFG_DCCCNTSEED0,Seed value for the counter attached to clock source 0" hexmask.long.tbyte 0x0 0.--19. 1. "COUNTSEED0,This field contains the seed value that gets loaded into counter 0 (clock source 0). User privilege and debug mode (read): Returns the current seed value for counter 0. Privilege and debug mode (write): Sets the current seed value for.." line.long 0x4 "CFG_DCCVALIDSEED0,Seed value for the timeout counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALIDSEED0,This field contains the seed value that gets loaded into the valid duration counter for clock source 0. User privilege and debug mode (read): Returns the current seed value for VALID0. Privilege and debug mode (write): Sets the current seed.." line.long 0x8 "CFG_DCCCNTSEED1,Seed value for the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNTSEED1,This field contains the seed value that gets loaded into counter 1 (clock source 1). User privilege and debug mode (read): Returns the current seed value for counter 1. Privilege and debug mode (write): Sets the current seed value for.." line.long 0xC "CFG_DCCSTAT,Specifies the status of the DCC Module." bitfld.long 0xC 1. "DONEFLG,Indicates when single-shot mode is complete without error. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = single-shot mode is not done 1 = single-shot mode is done Privilege and debug mode (write): 0 = no.." "0: no effect,1: clear the done flag" bitfld.long 0xC 0. "ERRFLG,Indicates whether or not an error has occured. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = an error has not occurred 1 = an error has occurred Privilege and debug mode (write): 0 = no effect 1 = clear the.." "0: no effect,1: clear the error flag" rgroup.long 0x18++0xB line.long 0x0 "CFG_DCCCNT0,Value of the counter attached to clock source 0." hexmask.long.tbyte 0x0 0.--19. 1. "COUNT0,This field contains the current value of counter 0. User privilege and debug mode (read): Returns the current value for counter 0. Privilege and debug mode (write): Writes have no effect. NOTE - Reads of the counter value may not be exact since.." line.long 0x4 "CFG_DCCVALID0,Value of the valid counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALID0,This field contains the current value of valid counter 0. User privilege and debug mode (read): Returns the current value for valid counter 0. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be.." line.long 0x8 "CFG_DCCCNT1,Value of the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNT1,This field contains the current value of counter 1. User privilege and debug mode (read): Returns the current value for counter 1. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be exact since.." group.long 0x24++0xB line.long 0x0 "CFG_DCCCLKSRC1,Selects the clock source for counter 1." hexmask.long.byte 0x0 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 1. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x0 0.--4. 1. "CLKSRC1,This field specifies the clock source for counter 1 when the KEY field enables this feature. User privilege and debug mode (read): Returns the current value of CLKSRC. Privilege and debug mode (write): Sets the value of CLKSRC. NOTE: DCC does.." line.long 0x4 "CFG_DCCCLKSRC0,Selects the clock source for counter 0." hexmask.long.byte 0x4 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 0. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x4 0.--3. 1. "CLKSRC0,This field specifies the clock source for counter 0. User privilege and debug mode (read): Returns the current value of CLKSRC0. Privilege and debug mode (write): Sets the value of CLKSRC0. NOTE: DCC does not generate an error when the clock.." line.long 0x8 "CFG_DCCGCTRL2,Allows configuring different modes of operation for DCC." hexmask.long.byte 0x8 8.--11. 1. "FIFO_NONERR,Enables/disables FIFO writes without the error event on completion of comparison window. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." hexmask.long.byte 0x8 4.--7. 1. "FIFO_READ,Enables the counter read registers reflect FIFO output instead of the live counter value. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." newline hexmask.long.byte 0x8 0.--3. 1. "CONT_ON_ERR,Continues to next window of comparison despite the error condition. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Enable values: 0101: Comparison and.." rgroup.long 0x30++0x3 line.long 0x0 "CFG_DCCSTATUS2,Specifies the status of the DCC FIFOs." bitfld.long 0x0 5. "COUNT1_FIFO_FULL,Count1 FIFO Full. Indicates whether Count1 FIFO is full. User privilege and debug mode (read): 0: Count1 FIFO is not full 1: Count1 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not full,1: Count1 FIFO is full" bitfld.long 0x0 4. "VALID0_FIFO_FULL,Valid0 FIFO Full. Indicates whether Valid0 FIFO is full. User privilege and debug mode (read): 0: Valid0 FIFO is not full 1: Valid0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not full,1: Valid0 FIFO is full" newline bitfld.long 0x0 3. "COUNT0_FIFO_FULL,Count0 FIFO Full. Indicates whether Count0 FIFO is full. User privilege and debug mode (read): 0: Count0 FIFO is not full 1: Count0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not full,1: Count0 FIFO is full" bitfld.long 0x0 2. "COUNT1_FIFO_EMPTY,Count1 FIFO Empty. Indicates whether Count1 FIFO is empty. User privilege and debug mode (read): 0: Count1 FIFO is not empty 1: Count1 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not empty,1: Count1 FIFO is empty" newline bitfld.long 0x0 1. "VALID0_FIFO_EMPTY,Valid0 FIFO Empty. Indicates whether Valid0 FIFO is empty. User privilege and debug mode (read): 0: Valid0 FIFO is not empty 1: Valid0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not empty,1: Valid0 FIFO is empty" bitfld.long 0x0 0. "COUNT0_FIFO_EMPTY,Count0 FIFO Empty. Indicates whether Count0 FIFO is empty. User privilege and debug mode (read): 0: Count0 FIFO is not empty 1: Count0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not empty,1: Count0 FIFO is empty" group.long 0x34++0x3 line.long 0x0 "CFG_DCCERRCNT,Counts number of errors since last clear." hexmask.long.word 0x0 0.--9. 1. "ERRCNT,Counts the number of errors after the last write to this register or reset. If reached terminal count the count freezes. User needs to clear it." tree.end tree "DCC5 (DCC5)" base ad:0x814000 group.long 0x0++0x3 line.long 0x0 "CFG_DCCGCTRL,Starts / stops the counters. Clears the error signal." hexmask.long.byte 0x0 12.--15. 1. "DONEENA,The DONEENA bit enables/disables the done interrupt signal but has no effect on the done status flag in DCCSTAT register. User privilege and debug mode (read): 0101 = the done signal is disabled others = the done signal is enabled Privilege.." hexmask.long.byte 0x0 8.--11. 1. "SINGLESHOT,The SINGLESHOT bit enables/disables repetitive operation of the DCC. User privilege and debug mode (read): 1010 = stop counting when counter0 and valid0 both reach zero 1011 = stop counting when counter1 reaches zero others = continuously.." newline hexmask.long.byte 0x0 4.--7. 1. "ERRENA,The ERRENA bit enables/disables the error signal. User privilege and debug mode (read): 0101 = the error signal is disabled others = the error signal is enabled Privilege and debug mode (write): 0101 = disable error signal generation others =.." hexmask.long.byte 0x0 0.--3. 1. "DCCENA,The DCCENA bit starts and stops the operation of the dcc. User privilege and debug mode (read): 0101 = counters are stopped others = counters are running Privilege and debug mode (write): 0101 = stop counters and error-checking others = load the.." rgroup.long 0x4++0x3 line.long 0x0 "CFG_DCCREV,Specifies the module version." bitfld.long 0x0 30.--31. "SCHEME,User privilege and debug mode (read): Returns 01. Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Reflects software-compatability. If there is no level of software compatability a unique func number is assigned; for compatible modules the same number is maintained. User privilege and debug mode (read): 0x0 Privilege and debug mode (write):.." newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Incremented for releases due to spec changes or post-release design changes. Reset to 0 when either MAJOR or MINOR is incremented. User privilege and debug mode (read): 0x1 Privilege and debug mode (write): Writes have no effect." bitfld.long 0x0 8.--10. "MAJOR,Represents major changes to the module (e.g. entirely new features are added/changed). The major revision number for this module. User privilege and debug mode (read): 0x2 Privilege and debug mode (write): Writes have no effect." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version of the module. May not be supported by standard software. User privilege and debug mode (read): 0x0 Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Represents minor changes to the module (e.g. enhancements to existing features). The minor revision number for this module. User privilege and debug mode (read): 0x4 Privilege and debug mode (write): Writes have no effect." group.long 0x8++0xF line.long 0x0 "CFG_DCCCNTSEED0,Seed value for the counter attached to clock source 0" hexmask.long.tbyte 0x0 0.--19. 1. "COUNTSEED0,This field contains the seed value that gets loaded into counter 0 (clock source 0). User privilege and debug mode (read): Returns the current seed value for counter 0. Privilege and debug mode (write): Sets the current seed value for.." line.long 0x4 "CFG_DCCVALIDSEED0,Seed value for the timeout counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALIDSEED0,This field contains the seed value that gets loaded into the valid duration counter for clock source 0. User privilege and debug mode (read): Returns the current seed value for VALID0. Privilege and debug mode (write): Sets the current seed.." line.long 0x8 "CFG_DCCCNTSEED1,Seed value for the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNTSEED1,This field contains the seed value that gets loaded into counter 1 (clock source 1). User privilege and debug mode (read): Returns the current seed value for counter 1. Privilege and debug mode (write): Sets the current seed value for.." line.long 0xC "CFG_DCCSTAT,Specifies the status of the DCC Module." bitfld.long 0xC 1. "DONEFLG,Indicates when single-shot mode is complete without error. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = single-shot mode is not done 1 = single-shot mode is done Privilege and debug mode (write): 0 = no.." "0: no effect,1: clear the done flag" bitfld.long 0xC 0. "ERRFLG,Indicates whether or not an error has occured. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = an error has not occurred 1 = an error has occurred Privilege and debug mode (write): 0 = no effect 1 = clear the.." "0: no effect,1: clear the error flag" rgroup.long 0x18++0xB line.long 0x0 "CFG_DCCCNT0,Value of the counter attached to clock source 0." hexmask.long.tbyte 0x0 0.--19. 1. "COUNT0,This field contains the current value of counter 0. User privilege and debug mode (read): Returns the current value for counter 0. Privilege and debug mode (write): Writes have no effect. NOTE - Reads of the counter value may not be exact since.." line.long 0x4 "CFG_DCCVALID0,Value of the valid counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALID0,This field contains the current value of valid counter 0. User privilege and debug mode (read): Returns the current value for valid counter 0. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be.." line.long 0x8 "CFG_DCCCNT1,Value of the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNT1,This field contains the current value of counter 1. User privilege and debug mode (read): Returns the current value for counter 1. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be exact since.." group.long 0x24++0xB line.long 0x0 "CFG_DCCCLKSRC1,Selects the clock source for counter 1." hexmask.long.byte 0x0 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 1. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x0 0.--4. 1. "CLKSRC1,This field specifies the clock source for counter 1 when the KEY field enables this feature. User privilege and debug mode (read): Returns the current value of CLKSRC. Privilege and debug mode (write): Sets the value of CLKSRC. NOTE: DCC does.." line.long 0x4 "CFG_DCCCLKSRC0,Selects the clock source for counter 0." hexmask.long.byte 0x4 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 0. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x4 0.--3. 1. "CLKSRC0,This field specifies the clock source for counter 0. User privilege and debug mode (read): Returns the current value of CLKSRC0. Privilege and debug mode (write): Sets the value of CLKSRC0. NOTE: DCC does not generate an error when the clock.." line.long 0x8 "CFG_DCCGCTRL2,Allows configuring different modes of operation for DCC." hexmask.long.byte 0x8 8.--11. 1. "FIFO_NONERR,Enables/disables FIFO writes without the error event on completion of comparison window. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." hexmask.long.byte 0x8 4.--7. 1. "FIFO_READ,Enables the counter read registers reflect FIFO output instead of the live counter value. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." newline hexmask.long.byte 0x8 0.--3. 1. "CONT_ON_ERR,Continues to next window of comparison despite the error condition. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Enable values: 0101: Comparison and.." rgroup.long 0x30++0x3 line.long 0x0 "CFG_DCCSTATUS2,Specifies the status of the DCC FIFOs." bitfld.long 0x0 5. "COUNT1_FIFO_FULL,Count1 FIFO Full. Indicates whether Count1 FIFO is full. User privilege and debug mode (read): 0: Count1 FIFO is not full 1: Count1 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not full,1: Count1 FIFO is full" bitfld.long 0x0 4. "VALID0_FIFO_FULL,Valid0 FIFO Full. Indicates whether Valid0 FIFO is full. User privilege and debug mode (read): 0: Valid0 FIFO is not full 1: Valid0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not full,1: Valid0 FIFO is full" newline bitfld.long 0x0 3. "COUNT0_FIFO_FULL,Count0 FIFO Full. Indicates whether Count0 FIFO is full. User privilege and debug mode (read): 0: Count0 FIFO is not full 1: Count0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not full,1: Count0 FIFO is full" bitfld.long 0x0 2. "COUNT1_FIFO_EMPTY,Count1 FIFO Empty. Indicates whether Count1 FIFO is empty. User privilege and debug mode (read): 0: Count1 FIFO is not empty 1: Count1 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not empty,1: Count1 FIFO is empty" newline bitfld.long 0x0 1. "VALID0_FIFO_EMPTY,Valid0 FIFO Empty. Indicates whether Valid0 FIFO is empty. User privilege and debug mode (read): 0: Valid0 FIFO is not empty 1: Valid0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not empty,1: Valid0 FIFO is empty" bitfld.long 0x0 0. "COUNT0_FIFO_EMPTY,Count0 FIFO Empty. Indicates whether Count0 FIFO is empty. User privilege and debug mode (read): 0: Count0 FIFO is not empty 1: Count0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not empty,1: Count0 FIFO is empty" group.long 0x34++0x3 line.long 0x0 "CFG_DCCERRCNT,Counts number of errors since last clear." hexmask.long.word 0x0 0.--9. 1. "ERRCNT,Counts the number of errors after the last write to this register or reset. If reached terminal count the count freezes. User needs to clear it." tree.end tree "DCC6 (DCC6)" base ad:0x818000 group.long 0x0++0x3 line.long 0x0 "CFG_DCCGCTRL,Starts / stops the counters. Clears the error signal." hexmask.long.byte 0x0 12.--15. 1. "DONEENA,The DONEENA bit enables/disables the done interrupt signal but has no effect on the done status flag in DCCSTAT register. User privilege and debug mode (read): 0101 = the done signal is disabled others = the done signal is enabled Privilege.." hexmask.long.byte 0x0 8.--11. 1. "SINGLESHOT,The SINGLESHOT bit enables/disables repetitive operation of the DCC. User privilege and debug mode (read): 1010 = stop counting when counter0 and valid0 both reach zero 1011 = stop counting when counter1 reaches zero others = continuously.." newline hexmask.long.byte 0x0 4.--7. 1. "ERRENA,The ERRENA bit enables/disables the error signal. User privilege and debug mode (read): 0101 = the error signal is disabled others = the error signal is enabled Privilege and debug mode (write): 0101 = disable error signal generation others =.." hexmask.long.byte 0x0 0.--3. 1. "DCCENA,The DCCENA bit starts and stops the operation of the dcc. User privilege and debug mode (read): 0101 = counters are stopped others = counters are running Privilege and debug mode (write): 0101 = stop counters and error-checking others = load the.." rgroup.long 0x4++0x3 line.long 0x0 "CFG_DCCREV,Specifies the module version." bitfld.long 0x0 30.--31. "SCHEME,User privilege and debug mode (read): Returns 01. Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Reflects software-compatability. If there is no level of software compatability a unique func number is assigned; for compatible modules the same number is maintained. User privilege and debug mode (read): 0x0 Privilege and debug mode (write):.." newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Incremented for releases due to spec changes or post-release design changes. Reset to 0 when either MAJOR or MINOR is incremented. User privilege and debug mode (read): 0x1 Privilege and debug mode (write): Writes have no effect." bitfld.long 0x0 8.--10. "MAJOR,Represents major changes to the module (e.g. entirely new features are added/changed). The major revision number for this module. User privilege and debug mode (read): 0x2 Privilege and debug mode (write): Writes have no effect." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version of the module. May not be supported by standard software. User privilege and debug mode (read): 0x0 Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Represents minor changes to the module (e.g. enhancements to existing features). The minor revision number for this module. User privilege and debug mode (read): 0x4 Privilege and debug mode (write): Writes have no effect." group.long 0x8++0xF line.long 0x0 "CFG_DCCCNTSEED0,Seed value for the counter attached to clock source 0" hexmask.long.tbyte 0x0 0.--19. 1. "COUNTSEED0,This field contains the seed value that gets loaded into counter 0 (clock source 0). User privilege and debug mode (read): Returns the current seed value for counter 0. Privilege and debug mode (write): Sets the current seed value for.." line.long 0x4 "CFG_DCCVALIDSEED0,Seed value for the timeout counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALIDSEED0,This field contains the seed value that gets loaded into the valid duration counter for clock source 0. User privilege and debug mode (read): Returns the current seed value for VALID0. Privilege and debug mode (write): Sets the current seed.." line.long 0x8 "CFG_DCCCNTSEED1,Seed value for the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNTSEED1,This field contains the seed value that gets loaded into counter 1 (clock source 1). User privilege and debug mode (read): Returns the current seed value for counter 1. Privilege and debug mode (write): Sets the current seed value for.." line.long 0xC "CFG_DCCSTAT,Specifies the status of the DCC Module." bitfld.long 0xC 1. "DONEFLG,Indicates when single-shot mode is complete without error. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = single-shot mode is not done 1 = single-shot mode is done Privilege and debug mode (write): 0 = no.." "0: no effect,1: clear the done flag" bitfld.long 0xC 0. "ERRFLG,Indicates whether or not an error has occured. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = an error has not occurred 1 = an error has occurred Privilege and debug mode (write): 0 = no effect 1 = clear the.." "0: no effect,1: clear the error flag" rgroup.long 0x18++0xB line.long 0x0 "CFG_DCCCNT0,Value of the counter attached to clock source 0." hexmask.long.tbyte 0x0 0.--19. 1. "COUNT0,This field contains the current value of counter 0. User privilege and debug mode (read): Returns the current value for counter 0. Privilege and debug mode (write): Writes have no effect. NOTE - Reads of the counter value may not be exact since.." line.long 0x4 "CFG_DCCVALID0,Value of the valid counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALID0,This field contains the current value of valid counter 0. User privilege and debug mode (read): Returns the current value for valid counter 0. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be.." line.long 0x8 "CFG_DCCCNT1,Value of the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNT1,This field contains the current value of counter 1. User privilege and debug mode (read): Returns the current value for counter 1. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be exact since.." group.long 0x24++0xB line.long 0x0 "CFG_DCCCLKSRC1,Selects the clock source for counter 1." hexmask.long.byte 0x0 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 1. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x0 0.--4. 1. "CLKSRC1,This field specifies the clock source for counter 1 when the KEY field enables this feature. User privilege and debug mode (read): Returns the current value of CLKSRC. Privilege and debug mode (write): Sets the value of CLKSRC. NOTE: DCC does.." line.long 0x4 "CFG_DCCCLKSRC0,Selects the clock source for counter 0." hexmask.long.byte 0x4 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 0. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x4 0.--3. 1. "CLKSRC0,This field specifies the clock source for counter 0. User privilege and debug mode (read): Returns the current value of CLKSRC0. Privilege and debug mode (write): Sets the value of CLKSRC0. NOTE: DCC does not generate an error when the clock.." line.long 0x8 "CFG_DCCGCTRL2,Allows configuring different modes of operation for DCC." hexmask.long.byte 0x8 8.--11. 1. "FIFO_NONERR,Enables/disables FIFO writes without the error event on completion of comparison window. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." hexmask.long.byte 0x8 4.--7. 1. "FIFO_READ,Enables the counter read registers reflect FIFO output instead of the live counter value. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." newline hexmask.long.byte 0x8 0.--3. 1. "CONT_ON_ERR,Continues to next window of comparison despite the error condition. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Enable values: 0101: Comparison and.." rgroup.long 0x30++0x3 line.long 0x0 "CFG_DCCSTATUS2,Specifies the status of the DCC FIFOs." bitfld.long 0x0 5. "COUNT1_FIFO_FULL,Count1 FIFO Full. Indicates whether Count1 FIFO is full. User privilege and debug mode (read): 0: Count1 FIFO is not full 1: Count1 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not full,1: Count1 FIFO is full" bitfld.long 0x0 4. "VALID0_FIFO_FULL,Valid0 FIFO Full. Indicates whether Valid0 FIFO is full. User privilege and debug mode (read): 0: Valid0 FIFO is not full 1: Valid0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not full,1: Valid0 FIFO is full" newline bitfld.long 0x0 3. "COUNT0_FIFO_FULL,Count0 FIFO Full. Indicates whether Count0 FIFO is full. User privilege and debug mode (read): 0: Count0 FIFO is not full 1: Count0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not full,1: Count0 FIFO is full" bitfld.long 0x0 2. "COUNT1_FIFO_EMPTY,Count1 FIFO Empty. Indicates whether Count1 FIFO is empty. User privilege and debug mode (read): 0: Count1 FIFO is not empty 1: Count1 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not empty,1: Count1 FIFO is empty" newline bitfld.long 0x0 1. "VALID0_FIFO_EMPTY,Valid0 FIFO Empty. Indicates whether Valid0 FIFO is empty. User privilege and debug mode (read): 0: Valid0 FIFO is not empty 1: Valid0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not empty,1: Valid0 FIFO is empty" bitfld.long 0x0 0. "COUNT0_FIFO_EMPTY,Count0 FIFO Empty. Indicates whether Count0 FIFO is empty. User privilege and debug mode (read): 0: Count0 FIFO is not empty 1: Count0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not empty,1: Count0 FIFO is empty" group.long 0x34++0x3 line.long 0x0 "CFG_DCCERRCNT,Counts number of errors since last clear." hexmask.long.word 0x0 0.--9. 1. "ERRCNT,Counts the number of errors after the last write to this register or reset. If reached terminal count the count freezes. User needs to clear it." tree.end tree "DCC7 (DCC7)" base ad:0x81C000 group.long 0x0++0x3 line.long 0x0 "CFG_DCCGCTRL,Starts / stops the counters. Clears the error signal." hexmask.long.byte 0x0 12.--15. 1. "DONEENA,The DONEENA bit enables/disables the done interrupt signal but has no effect on the done status flag in DCCSTAT register. User privilege and debug mode (read): 0101 = the done signal is disabled others = the done signal is enabled Privilege.." hexmask.long.byte 0x0 8.--11. 1. "SINGLESHOT,The SINGLESHOT bit enables/disables repetitive operation of the DCC. User privilege and debug mode (read): 1010 = stop counting when counter0 and valid0 both reach zero 1011 = stop counting when counter1 reaches zero others = continuously.." newline hexmask.long.byte 0x0 4.--7. 1. "ERRENA,The ERRENA bit enables/disables the error signal. User privilege and debug mode (read): 0101 = the error signal is disabled others = the error signal is enabled Privilege and debug mode (write): 0101 = disable error signal generation others =.." hexmask.long.byte 0x0 0.--3. 1. "DCCENA,The DCCENA bit starts and stops the operation of the dcc. User privilege and debug mode (read): 0101 = counters are stopped others = counters are running Privilege and debug mode (write): 0101 = stop counters and error-checking others = load the.." rgroup.long 0x4++0x3 line.long 0x0 "CFG_DCCREV,Specifies the module version." bitfld.long 0x0 30.--31. "SCHEME,User privilege and debug mode (read): Returns 01. Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Reflects software-compatability. If there is no level of software compatability a unique func number is assigned; for compatible modules the same number is maintained. User privilege and debug mode (read): 0x0 Privilege and debug mode (write):.." newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Incremented for releases due to spec changes or post-release design changes. Reset to 0 when either MAJOR or MINOR is incremented. User privilege and debug mode (read): 0x1 Privilege and debug mode (write): Writes have no effect." bitfld.long 0x0 8.--10. "MAJOR,Represents major changes to the module (e.g. entirely new features are added/changed). The major revision number for this module. User privilege and debug mode (read): 0x2 Privilege and debug mode (write): Writes have no effect." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version of the module. May not be supported by standard software. User privilege and debug mode (read): 0x0 Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Represents minor changes to the module (e.g. enhancements to existing features). The minor revision number for this module. User privilege and debug mode (read): 0x4 Privilege and debug mode (write): Writes have no effect." group.long 0x8++0xF line.long 0x0 "CFG_DCCCNTSEED0,Seed value for the counter attached to clock source 0" hexmask.long.tbyte 0x0 0.--19. 1. "COUNTSEED0,This field contains the seed value that gets loaded into counter 0 (clock source 0). User privilege and debug mode (read): Returns the current seed value for counter 0. Privilege and debug mode (write): Sets the current seed value for.." line.long 0x4 "CFG_DCCVALIDSEED0,Seed value for the timeout counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALIDSEED0,This field contains the seed value that gets loaded into the valid duration counter for clock source 0. User privilege and debug mode (read): Returns the current seed value for VALID0. Privilege and debug mode (write): Sets the current seed.." line.long 0x8 "CFG_DCCCNTSEED1,Seed value for the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNTSEED1,This field contains the seed value that gets loaded into counter 1 (clock source 1). User privilege and debug mode (read): Returns the current seed value for counter 1. Privilege and debug mode (write): Sets the current seed value for.." line.long 0xC "CFG_DCCSTAT,Specifies the status of the DCC Module." bitfld.long 0xC 1. "DONEFLG,Indicates when single-shot mode is complete without error. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = single-shot mode is not done 1 = single-shot mode is done Privilege and debug mode (write): 0 = no.." "0: no effect,1: clear the done flag" bitfld.long 0xC 0. "ERRFLG,Indicates whether or not an error has occured. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = an error has not occurred 1 = an error has occurred Privilege and debug mode (write): 0 = no effect 1 = clear the.." "0: no effect,1: clear the error flag" rgroup.long 0x18++0xB line.long 0x0 "CFG_DCCCNT0,Value of the counter attached to clock source 0." hexmask.long.tbyte 0x0 0.--19. 1. "COUNT0,This field contains the current value of counter 0. User privilege and debug mode (read): Returns the current value for counter 0. Privilege and debug mode (write): Writes have no effect. NOTE - Reads of the counter value may not be exact since.." line.long 0x4 "CFG_DCCVALID0,Value of the valid counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALID0,This field contains the current value of valid counter 0. User privilege and debug mode (read): Returns the current value for valid counter 0. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be.." line.long 0x8 "CFG_DCCCNT1,Value of the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNT1,This field contains the current value of counter 1. User privilege and debug mode (read): Returns the current value for counter 1. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be exact since.." group.long 0x24++0xB line.long 0x0 "CFG_DCCCLKSRC1,Selects the clock source for counter 1." hexmask.long.byte 0x0 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 1. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x0 0.--4. 1. "CLKSRC1,This field specifies the clock source for counter 1 when the KEY field enables this feature. User privilege and debug mode (read): Returns the current value of CLKSRC. Privilege and debug mode (write): Sets the value of CLKSRC. NOTE: DCC does.." line.long 0x4 "CFG_DCCCLKSRC0,Selects the clock source for counter 0." hexmask.long.byte 0x4 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 0. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x4 0.--3. 1. "CLKSRC0,This field specifies the clock source for counter 0. User privilege and debug mode (read): Returns the current value of CLKSRC0. Privilege and debug mode (write): Sets the value of CLKSRC0. NOTE: DCC does not generate an error when the clock.." line.long 0x8 "CFG_DCCGCTRL2,Allows configuring different modes of operation for DCC." hexmask.long.byte 0x8 8.--11. 1. "FIFO_NONERR,Enables/disables FIFO writes without the error event on completion of comparison window. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." hexmask.long.byte 0x8 4.--7. 1. "FIFO_READ,Enables the counter read registers reflect FIFO output instead of the live counter value. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." newline hexmask.long.byte 0x8 0.--3. 1. "CONT_ON_ERR,Continues to next window of comparison despite the error condition. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Enable values: 0101: Comparison and.." rgroup.long 0x30++0x3 line.long 0x0 "CFG_DCCSTATUS2,Specifies the status of the DCC FIFOs." bitfld.long 0x0 5. "COUNT1_FIFO_FULL,Count1 FIFO Full. Indicates whether Count1 FIFO is full. User privilege and debug mode (read): 0: Count1 FIFO is not full 1: Count1 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not full,1: Count1 FIFO is full" bitfld.long 0x0 4. "VALID0_FIFO_FULL,Valid0 FIFO Full. Indicates whether Valid0 FIFO is full. User privilege and debug mode (read): 0: Valid0 FIFO is not full 1: Valid0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not full,1: Valid0 FIFO is full" newline bitfld.long 0x0 3. "COUNT0_FIFO_FULL,Count0 FIFO Full. Indicates whether Count0 FIFO is full. User privilege and debug mode (read): 0: Count0 FIFO is not full 1: Count0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not full,1: Count0 FIFO is full" bitfld.long 0x0 2. "COUNT1_FIFO_EMPTY,Count1 FIFO Empty. Indicates whether Count1 FIFO is empty. User privilege and debug mode (read): 0: Count1 FIFO is not empty 1: Count1 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not empty,1: Count1 FIFO is empty" newline bitfld.long 0x0 1. "VALID0_FIFO_EMPTY,Valid0 FIFO Empty. Indicates whether Valid0 FIFO is empty. User privilege and debug mode (read): 0: Valid0 FIFO is not empty 1: Valid0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not empty,1: Valid0 FIFO is empty" bitfld.long 0x0 0. "COUNT0_FIFO_EMPTY,Count0 FIFO Empty. Indicates whether Count0 FIFO is empty. User privilege and debug mode (read): 0: Count0 FIFO is not empty 1: Count0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not empty,1: Count0 FIFO is empty" group.long 0x34++0x3 line.long 0x0 "CFG_DCCERRCNT,Counts number of errors since last clear." hexmask.long.word 0x0 0.--9. 1. "ERRCNT,Counts the number of errors after the last write to this register or reset. If reached terminal count the count freezes. User needs to clear it." tree.end tree "DCC8 (DCC8)" base ad:0x820000 group.long 0x0++0x3 line.long 0x0 "CFG_DCCGCTRL,Starts / stops the counters. Clears the error signal." hexmask.long.byte 0x0 12.--15. 1. "DONEENA,The DONEENA bit enables/disables the done interrupt signal but has no effect on the done status flag in DCCSTAT register. User privilege and debug mode (read): 0101 = the done signal is disabled others = the done signal is enabled Privilege.." hexmask.long.byte 0x0 8.--11. 1. "SINGLESHOT,The SINGLESHOT bit enables/disables repetitive operation of the DCC. User privilege and debug mode (read): 1010 = stop counting when counter0 and valid0 both reach zero 1011 = stop counting when counter1 reaches zero others = continuously.." newline hexmask.long.byte 0x0 4.--7. 1. "ERRENA,The ERRENA bit enables/disables the error signal. User privilege and debug mode (read): 0101 = the error signal is disabled others = the error signal is enabled Privilege and debug mode (write): 0101 = disable error signal generation others =.." hexmask.long.byte 0x0 0.--3. 1. "DCCENA,The DCCENA bit starts and stops the operation of the dcc. User privilege and debug mode (read): 0101 = counters are stopped others = counters are running Privilege and debug mode (write): 0101 = stop counters and error-checking others = load the.." rgroup.long 0x4++0x3 line.long 0x0 "CFG_DCCREV,Specifies the module version." bitfld.long 0x0 30.--31. "SCHEME,User privilege and debug mode (read): Returns 01. Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Reflects software-compatability. If there is no level of software compatability a unique func number is assigned; for compatible modules the same number is maintained. User privilege and debug mode (read): 0x0 Privilege and debug mode (write):.." newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Incremented for releases due to spec changes or post-release design changes. Reset to 0 when either MAJOR or MINOR is incremented. User privilege and debug mode (read): 0x1 Privilege and debug mode (write): Writes have no effect." bitfld.long 0x0 8.--10. "MAJOR,Represents major changes to the module (e.g. entirely new features are added/changed). The major revision number for this module. User privilege and debug mode (read): 0x2 Privilege and debug mode (write): Writes have no effect." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version of the module. May not be supported by standard software. User privilege and debug mode (read): 0x0 Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Represents minor changes to the module (e.g. enhancements to existing features). The minor revision number for this module. User privilege and debug mode (read): 0x4 Privilege and debug mode (write): Writes have no effect." group.long 0x8++0xF line.long 0x0 "CFG_DCCCNTSEED0,Seed value for the counter attached to clock source 0" hexmask.long.tbyte 0x0 0.--19. 1. "COUNTSEED0,This field contains the seed value that gets loaded into counter 0 (clock source 0). User privilege and debug mode (read): Returns the current seed value for counter 0. Privilege and debug mode (write): Sets the current seed value for.." line.long 0x4 "CFG_DCCVALIDSEED0,Seed value for the timeout counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALIDSEED0,This field contains the seed value that gets loaded into the valid duration counter for clock source 0. User privilege and debug mode (read): Returns the current seed value for VALID0. Privilege and debug mode (write): Sets the current seed.." line.long 0x8 "CFG_DCCCNTSEED1,Seed value for the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNTSEED1,This field contains the seed value that gets loaded into counter 1 (clock source 1). User privilege and debug mode (read): Returns the current seed value for counter 1. Privilege and debug mode (write): Sets the current seed value for.." line.long 0xC "CFG_DCCSTAT,Specifies the status of the DCC Module." bitfld.long 0xC 1. "DONEFLG,Indicates when single-shot mode is complete without error. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = single-shot mode is not done 1 = single-shot mode is done Privilege and debug mode (write): 0 = no.." "0: no effect,1: clear the done flag" bitfld.long 0xC 0. "ERRFLG,Indicates whether or not an error has occured. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = an error has not occurred 1 = an error has occurred Privilege and debug mode (write): 0 = no effect 1 = clear the.." "0: no effect,1: clear the error flag" rgroup.long 0x18++0xB line.long 0x0 "CFG_DCCCNT0,Value of the counter attached to clock source 0." hexmask.long.tbyte 0x0 0.--19. 1. "COUNT0,This field contains the current value of counter 0. User privilege and debug mode (read): Returns the current value for counter 0. Privilege and debug mode (write): Writes have no effect. NOTE - Reads of the counter value may not be exact since.." line.long 0x4 "CFG_DCCVALID0,Value of the valid counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALID0,This field contains the current value of valid counter 0. User privilege and debug mode (read): Returns the current value for valid counter 0. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be.." line.long 0x8 "CFG_DCCCNT1,Value of the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNT1,This field contains the current value of counter 1. User privilege and debug mode (read): Returns the current value for counter 1. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be exact since.." group.long 0x24++0xB line.long 0x0 "CFG_DCCCLKSRC1,Selects the clock source for counter 1." hexmask.long.byte 0x0 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 1. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x0 0.--4. 1. "CLKSRC1,This field specifies the clock source for counter 1 when the KEY field enables this feature. User privilege and debug mode (read): Returns the current value of CLKSRC. Privilege and debug mode (write): Sets the value of CLKSRC. NOTE: DCC does.." line.long 0x4 "CFG_DCCCLKSRC0,Selects the clock source for counter 0." hexmask.long.byte 0x4 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 0. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x4 0.--3. 1. "CLKSRC0,This field specifies the clock source for counter 0. User privilege and debug mode (read): Returns the current value of CLKSRC0. Privilege and debug mode (write): Sets the value of CLKSRC0. NOTE: DCC does not generate an error when the clock.." line.long 0x8 "CFG_DCCGCTRL2,Allows configuring different modes of operation for DCC." hexmask.long.byte 0x8 8.--11. 1. "FIFO_NONERR,Enables/disables FIFO writes without the error event on completion of comparison window. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." hexmask.long.byte 0x8 4.--7. 1. "FIFO_READ,Enables the counter read registers reflect FIFO output instead of the live counter value. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." newline hexmask.long.byte 0x8 0.--3. 1. "CONT_ON_ERR,Continues to next window of comparison despite the error condition. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Enable values: 0101: Comparison and.." rgroup.long 0x30++0x3 line.long 0x0 "CFG_DCCSTATUS2,Specifies the status of the DCC FIFOs." bitfld.long 0x0 5. "COUNT1_FIFO_FULL,Count1 FIFO Full. Indicates whether Count1 FIFO is full. User privilege and debug mode (read): 0: Count1 FIFO is not full 1: Count1 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not full,1: Count1 FIFO is full" bitfld.long 0x0 4. "VALID0_FIFO_FULL,Valid0 FIFO Full. Indicates whether Valid0 FIFO is full. User privilege and debug mode (read): 0: Valid0 FIFO is not full 1: Valid0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not full,1: Valid0 FIFO is full" newline bitfld.long 0x0 3. "COUNT0_FIFO_FULL,Count0 FIFO Full. Indicates whether Count0 FIFO is full. User privilege and debug mode (read): 0: Count0 FIFO is not full 1: Count0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not full,1: Count0 FIFO is full" bitfld.long 0x0 2. "COUNT1_FIFO_EMPTY,Count1 FIFO Empty. Indicates whether Count1 FIFO is empty. User privilege and debug mode (read): 0: Count1 FIFO is not empty 1: Count1 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not empty,1: Count1 FIFO is empty" newline bitfld.long 0x0 1. "VALID0_FIFO_EMPTY,Valid0 FIFO Empty. Indicates whether Valid0 FIFO is empty. User privilege and debug mode (read): 0: Valid0 FIFO is not empty 1: Valid0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not empty,1: Valid0 FIFO is empty" bitfld.long 0x0 0. "COUNT0_FIFO_EMPTY,Count0 FIFO Empty. Indicates whether Count0 FIFO is empty. User privilege and debug mode (read): 0: Count0 FIFO is not empty 1: Count0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not empty,1: Count0 FIFO is empty" group.long 0x34++0x3 line.long 0x0 "CFG_DCCERRCNT,Counts number of errors since last clear." hexmask.long.word 0x0 0.--9. 1. "ERRCNT,Counts the number of errors after the last write to this register or reset. If reached terminal count the count freezes. User needs to clear it." tree.end tree.end tree "DDPA0 (DDPA0)" base ad:0x580000 rgroup.long 0x0++0x7 line.long 0x0 "DDPA_REVISION_REG,K3_DDPA PID" bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish between old scheme and new scheme. Spare bit to encode future schemes" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,BU indicator DSPS ==> 0x0 WTBU ==> 0x1 Processors ==> 0x2" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Function indicates a software compatible module family. If there is no level of software compatibility a new FUNC number and hence PID should be assigned." hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL Version. R as described in PDR with additional clarifications and definitions below. Must be easily ECO-able or controlled during fabrication. Ideally through a top level metal mask or e-fuse. This number is maintained/owned by IP design.." bitfld.long 0x0 8.--10. "MAJOR,Major Revision. X as described in PDR with additional clarifications/definitions below. This number is owned/maintained by IP specification owner. X is part of IP numbering X.Y.R.Z. X changes ONLY when: (1) There is a major feature addition. An.." "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version for a particular device. Consequence of use may avoid use of standard Chip Support Library (CSL) / Drivers. 0 if non-custom." "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor Revision. Y as described in PDR with additional clarifications/definitions below. This number is owned/maintained by IP specification owner. Y changes ONLY when: (1) Features are scaled (up or down). Flexibility exists in that this.." line.long 0x4 "DDPA_DEBUGSS_INHIBITSLEEP_REQ_STAT,Status bits showing the lel of INHIBIT_SLEEP request inputs from the Power-AP module into DDPA" hexmask.long 0x4 0.--31. 1. "PORT,Status bits showing the level of the Inhibit_sleep request inputs from Power-AP into DDPA." group.long 0x14++0x3 line.long 0x0 "DDPA_DEBUGSS_INHIBITSLEEP_REQ_SET,Interrupt RAW event status and set for interrupt INHIBIT_SLEEP per AP-power port" hexmask.long 0x0 0.--31. 1. "PORT,Write-operation: 0: Nothing happens. 1: Causes the interrupt flag to be set. Used to manually force/drive an interrupt pending event. Reads: This MMR reflects the RAW status of the interrupt flag due to inhibitsleep request events by any of.." group.long 0x24++0x3 line.long 0x0 "DDPA_DEBUGSS_INHIBITSLEEP_REQ_CLR,Enabled interrupt event status and clear for interrupt INHIBIT_SLEEP per AP-power port." hexmask.long 0x0 0.--31. 1. "PORT,Write-operation: 0: Nothing happens. 1: Causes the bit to be cleared. Reads: This MMR reflects the MASKED status of the interrupt flag due to inhibitsleep request events by any of the 32 power-AP ports. The mask source is DDPA_INT_EN_SET/CLR." group.long 0x34++0x3 line.long 0x0 "DDPA_DEBUGSS_INHIBITSLEEP_ACK_SET,Interrupt RAW event status and set for interrupt INHIBIT_SLEEP per AP-power port" hexmask.long 0x0 0.--31. 1. "PORT,Write-operation: 0: Nothing happens. 1: Set the inhibit sleep acknowledgement" group.long 0x44++0x3 line.long 0x0 "DDPA_DEBUGSS_INHIBITSLEEP_ACK_CLR,Enabled interrupt event status and clear for interrupt INHIBIT_SLEEP per AP-power port." hexmask.long 0x0 0.--31. 1. "PORT,Write-operation: 0: Nothing happens. 1: clears the inhibit sleep acknowledgement" rgroup.long 0x54++0x3 line.long 0x0 "DDPA_DEBUGSS_FORCEACTIVE_REQ_STAT,Status bits showing the lel of FORCE_ACTIVE request inputs from the Power-AP module into DDPA" hexmask.long 0x0 0.--31. 1. "PORT,Status bits showing the level of the FORCE_ACTIVE request inputs from Power-AP into DDPA." group.long 0x64++0x3 line.long 0x0 "DDPA_DEBUGSS_FORCEACTIVE_REQ_SET,Interrupt RAW event status and set for interrupt FORCE_ACTIVE per AP-power port" hexmask.long 0x0 0.--31. 1. "PORT,Write-operation: 0: Nothing happens. 1: Causes the interrupt flag to be set. Used to manually force/drive an interrupt pending event. Reads: This MMR reflects the RAW status of the interrupt flag due to inhibitsleep request events by any of.." group.long 0x74++0x3 line.long 0x0 "DDPA_DEBUGSS_FORCEACTIVE_REQ_CLR,Enabled interrupt event status and clear for interrupt FORCE_ACTIVE per AP-power port." hexmask.long 0x0 0.--31. 1. "PORT,Write-operation: 0: Nothing happens. 1: Causes the bit to be cleared. Reads: This MMR reflects the MASKED status of the interrupt flag due to inhibitsleep request events by any of the 32 power-AP ports. The mask source is DDPA_INT_EN_SET/CLR." group.long 0x84++0x3 line.long 0x0 "DDPA_DEBUGSS_FORCEACTIVE_ACK_SET,Interrupt RAW event status and set for interrupt FORCE_ACTIVE per AP-power port" hexmask.long 0x0 0.--31. 1. "PORT,Write-operation: 0: Nothing happens. 1: Set the force active acknowledgement" group.long 0x94++0x3 line.long 0x0 "DDPA_DEBUGSS_FORCEACTIVE_ACK_CLR,Enabled interrupt event status and clear for interrupt FORCE_ACTIVE per AP-power port." hexmask.long 0x0 0.--31. 1. "PORT,Write-operation: 0: Nothing happens. 1: clears the force active acknowledgement" rgroup.long 0xA4++0x3 line.long 0x0 "DDPA_DEBUGSS_BLOCKRESET_REQ_STAT,Status bits showing the lel of BLOCK_RESET request inputs from the Power-AP module into DDPA" hexmask.long 0x0 0.--31. 1. "PORT,Status bits showing the level of the BLOCK_RESET request inputs from Power-AP into DDPA." group.long 0xB4++0x3 line.long 0x0 "DDPA_DEBUGSS_BLOCKRESET_REQ_SET,Interrupt RAW event status and set for interrupt BLOCK_RESET per AP-power port" hexmask.long 0x0 0.--31. 1. "PORT,Write-operation: 0: Nothing happens. 1: Causes the interrupt flag to be set. Used to manually force/drive an interrupt pending event. Reads: This MMR reflects the RAW status of the interrupt flag due to inhibitsleep request events by any of.." group.long 0xC4++0x3 line.long 0x0 "DDPA_DEBUGSS_BLOCKRESET_REQ_CLR,Enabled interrupt event status and clear for interrupt BLOCK_RESET per AP-power port." hexmask.long 0x0 0.--31. 1. "PORT,Write-operation: 0: Nothing happens. 1: Causes the bit to be cleared. Reads: This MMR reflects the MASKED status of the interrupt flag due to inhibitsleep request events by any of the 32 power-AP ports. The mask source is DDPA_INT_EN_SET/CLR." rgroup.long 0xD4++0x3 line.long 0x0 "DDPA_DEBUGSS_ASSERTRESET_REQ_STAT,Status bits showing the lel of ASSERT_RESET request inputs from the Power-AP module into DDPA" hexmask.long 0x0 0.--31. 1. "PORT,Status bits showing the level of the ASSERT_RESET request inputs from Power-AP into DDPA." group.long 0xE4++0x3 line.long 0x0 "DDPA_DEBUGSS_ASSERTRESET_REQ_SET,Interrupt RAW event status and set for interrupt ASSERT_RESET per AP-power port" hexmask.long 0x0 0.--31. 1. "PORT,Write-operation: 0: Nothing happens. 1: Causes the interrupt flag to be set. Used to manually force/drive an interrupt pending event. Reads: This MMR reflects the RAW status of the interrupt flag due to inhibitsleep request events by any of.." group.long 0xF4++0x3 line.long 0x0 "DDPA_DEBUGSS_ASSERTRESET_REQ_CLR,Enabled interrupt event status and clear for interrupt ASSERT_RESET per AP-power port." hexmask.long 0x0 0.--31. 1. "PORT,Write-operation: 0: Nothing happens. 1: Causes the bit to be cleared. Reads: This MMR reflects the MASKED status of the interrupt flag due to inhibitsleep request events by any of the 32 power-AP ports. The mask source is DDPA_INT_EN_SET/CLR." group.long 0x104++0x3 line.long 0x0 "DDPA_PSC_INHIBITSLEEP_SET,MMR used to set to '1' the bit contents of PSC_INHIBIT_SLEEP_SET/CLR." hexmask.long 0x0 0.--31. 1. "PORT,0: Writing 0 to this field produces no effect. 1: Writing 1 to any of the bits in this field sets to '1' the corresponding bit in that field." group.long 0x124++0x3 line.long 0x0 "DDPA_PSC_INHIBITSLEEP_CLR,MMR used to set to '0' the bit contents of PSC_INHIBIT_SLEEP_SET/CLR." hexmask.long 0x0 0.--31. 1. "PORT,0: Writing 0 to this field produces no effect. 1: Writing 1 to any of the bits in this field sets to '0' the corresponding bit in that field." rgroup.long 0x144++0x3 line.long 0x0 "DDPA_PSC_INHIBITSLEEP_STAT,Status bits showing the ACK for the INHIBIT_SLEEP request." hexmask.long 0x0 0.--31. 1. "PORT,Status bits showing the level of the INHIBIT_SLEEP request ACK inputs from PSC into DDPA." group.long 0x164++0x3 line.long 0x0 "DDPA_PSC_FORCEACTIVE_SET,MMR used to set to '1' the bit contents of PSC_FORCE_ACTIVE_SET/CLR." hexmask.long 0x0 0.--31. 1. "PORT,0: Writing 0 to this field produces no effect. 1: Writing 1 to any of the bits in this field sets to '1' the corresponding bit in that field." group.long 0x184++0x3 line.long 0x0 "DDPA_PSC_FORCEACTIVE_CLR,MMR used to set to '0' the bit contents of PSC_FORCE_ACTIVE_SET/CLR." hexmask.long 0x0 0.--31. 1. "PORT,0: Writing 0 to this field produces no effect. 1: Writing 1 to any of the bits in this field sets to '0' the corresponding bit in that field." rgroup.long 0x1A4++0x3 line.long 0x0 "DDPA_PSC_FORCEACTIVE_STAT,Status bits showing the ACK for the FORCE_ACTIVE request." hexmask.long 0x0 0.--31. 1. "PORT,Status bits showing the level of the FORCE_ACTIVE request ACK inputs from PSC into DDPA." group.long 0x1C4++0x3 line.long 0x0 "DDPA_PSC_BLOCKRESET_SET,MMR used to set to '1' the bit contents of PSC_BLOCK_RESET_SET/CLR." hexmask.long 0x0 0.--31. 1. "PORT,0: Writing 0 to this field produces no effect. 1: Writing 1 to any of the bits in this field sets to '1' the corresponding bit in that field." group.long 0x1E4++0x3 line.long 0x0 "DDPA_PSC_BLOCKRESET_CLR,MMR used to set to '0' the bit contents of PSC_BLOCK_RESET_SET/CLR." hexmask.long 0x0 0.--31. 1. "PORT,0: Writing 0 to this field produces no effect. 1: Writing 1 to any of the bits in this field sets to '0' the corresponding bit in that field." group.long 0x204++0x3 line.long 0x0 "DDPA_PSC_ASSERTRESET_SET,MMR used to set to '1' the bit contents of PSC_ASSERT_RESET_SET/CLR." hexmask.long 0x0 0.--31. 1. "PORT,0: Writing 0 to this field produces no effect. 1: Writing 1 to any of the bits in this field sets to '1' the corresponding bit in that field." group.long 0x224++0x3 line.long 0x0 "DDPA_PSC_ASSERTRESET_CLR,MMR used to set to '0' the bit contents of PSC_ASSERT_RESET_SET/CLR." hexmask.long 0x0 0.--31. 1. "PORT,0: Writing 0 to this field produces no effect. 1: Writing 1 to any of the bits in this field sets to '0' the corresponding bit in that field." group.long 0x244++0x7 line.long 0x0 "DDPA_BYPASS_OVERRIDE,MMR used to enable/disable the DMSC firmware bypass" bitfld.long 0x0 0. "PORT,Enable/Disable the DMSC firmware bypass 0: Disable 1:Enable" "0: Disable,1: Enable" line.long 0x4 "DDPA_INT_EN_SET,MMR used to set to '1' the bit contents of DDPA_INT_EN_SET/CLR." hexmask.long 0x4 0.--31. 1. "PORT,0: Writing 0 to this field produces no effect. 1: Writing 1 to any of the bits in this field sets to '1' the corresponding bit in that field." group.long 0x258++0x3 line.long 0x0 "DDPA_INT_EN_CLR,MMR used to set to '0' the bit contents of DDPA_INT_EN_SET/CLR." hexmask.long 0x0 0.--31. 1. "PORT,0: Writing 0 to this field produces no effect. 1: Writing 1 to any of the bits in this field sets to '0' the corresponding bit in that field." tree.end tree "DDR32SS0" base ad:0x0 tree "DDR32SS0_CTLPHY_WRAP_CTL_CFG_CTLCFG (DDR32SS0_CTLPHY_WRAP_CTL_CFG_CTLCFG)" base ad:0xF308000 group.long 0x0++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_0," hexmask.long.word 0x0 16.--31. 1. "CONTROLLER_ID,Holds the controller product id number. READ-ONLY" newline hexmask.long.byte 0x0 8.--11. 1. "DRAM_CLASS,Defines the class of DRAM memory which is connected to the controller." newline bitfld.long 0x0 0. "START,Initiate command processing in the controller. Set to 1 to initiate." "0,1" rgroup.long 0x4++0x17 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_1," hexmask.long 0x0 0.--31. 1. "CONTROLLER_VERSION_0,Holds the controller version id. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_2," hexmask.long 0x4 0.--31. 1. "CONTROLLER_VERSION_1,Holds the controller version id. READ-ONLY" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_3," hexmask.long.byte 0x8 24.--31. 1. "READ_DATA_FIFO_DEPTH,Reports the depth of the controller core read data queue. READ-ONLY" newline bitfld.long 0x8 16.--17. "MAX_CS_REG,Holds the maximum number of chip selects available. READ-ONLY" "0,1,2,3" newline hexmask.long.byte 0x8 8.--11. 1. "MAX_COL_REG,Holds the maximum width of column address in DRAMs. READ-ONLY" newline hexmask.long.byte 0x8 0.--4. 1. "MAX_ROW_REG,Holds the maximum width of memory address bus. READ-ONLY" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_4," hexmask.long.byte 0xC 16.--23. 1. "WRITE_DATA_FIFO_PTR_WIDTH,Reports the width of the controller core write data latency queue pointer. READ-ONLY" newline hexmask.long.byte 0xC 8.--15. 1. "WRITE_DATA_FIFO_DEPTH,Reports the depth of the controller core write data latency queue. READ-ONLY" newline hexmask.long.byte 0xC 0.--7. 1. "READ_DATA_FIFO_PTR_WIDTH,Reports the width of the controller core read data queue pointer. READ-ONLY" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_5," hexmask.long.byte 0x10 24.--31. 1. "ASYNC_CDC_STAGES,Reports the number of synchronizer delays specified for the asynchronous boundary crossings. READ-ONLY" newline hexmask.long.byte 0x10 16.--23. 1. "MEMCD_RMODW_FIFO_PTR_WIDTH,Reports the width of the controller core read/modify/write FIFO pointer. READ-ONLY" newline hexmask.long.word 0x10 0.--15. 1. "MEMCD_RMODW_FIFO_DEPTH,Reports the depth of the controller core read/modify/write FIFO. READ-ONLY" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_6," hexmask.long.byte 0x14 24.--31. 1. "AXI0_WRCMD_PROC_FIFO_LOG2_DEPTH,Reports the depth of the AXI port 0 write command processing FIFO. Value is the log2 value of the depth. READ-ONLY" newline hexmask.long.byte 0x14 16.--23. 1. "AXI0_WR_ARRAY_LOG2_DEPTH,Reports the depth of the AXI port 0 write data array. Value is the log2 value of the depth. READ-ONLY" newline hexmask.long.byte 0x14 8.--15. 1. "AXI0_RDFIFO_LOG2_DEPTH,Reports the depth of the AXI port 0 read data FIFO. Value is the log2 value of the depth. READ-ONLY" newline hexmask.long.byte 0x14 0.--7. 1. "AXI0_CMDFIFO_LOG2_DEPTH,Reports the depth of the AXI port 0 command FIFO. Value is the log2 value of the depth. READ-ONLY" group.long 0x1C++0x73 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_7," hexmask.long.tbyte 0x0 0.--23. 1. "TINIT_F0,DRAM TINIT value in cycles. FC=0" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_8," hexmask.long.tbyte 0x4 0.--23. 1. "TINIT3_F0,DRAM TINIT3 value in cycles. FC=0" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_9," hexmask.long.tbyte 0x8 0.--23. 1. "TINIT4_F0,DRAM TINIT4 value in cycles. FC=0" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_10," hexmask.long.tbyte 0xC 0.--23. 1. "TINIT5_F0,DRAM TINIT5 value in cycles. FC=0" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_11," hexmask.long.tbyte 0x10 0.--23. 1. "TINIT_F1,DRAM TINIT value in cycles. FC=1" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_12," hexmask.long.tbyte 0x14 0.--23. 1. "TINIT3_F1,DRAM TINIT3 value in cycles. FC=1" line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_13," hexmask.long.tbyte 0x18 0.--23. 1. "TINIT4_F1,DRAM TINIT4 value in cycles. FC=1" line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_14," hexmask.long.tbyte 0x1C 0.--23. 1. "TINIT5_F1,DRAM TINIT5 value in cycles. FC=1" line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_15," hexmask.long.tbyte 0x20 0.--23. 1. "TINIT_F2,DRAM TINIT value in cycles. FC=2" line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_16," hexmask.long.tbyte 0x24 0.--23. 1. "TINIT3_F2,DRAM TINIT3 value in cycles. FC=2" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_17," hexmask.long.tbyte 0x28 0.--23. 1. "TINIT4_F2,DRAM TINIT4 value in cycles. FC=2" line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_18," bitfld.long 0x2C 24. "NO_AUTO_MRR_INIT,Disable MRR commands during initialization. Set to 1 to disable." "0,1" newline hexmask.long.tbyte 0x2C 0.--23. 1. "TINIT5_F2,DRAM TINIT5 value in cycles. FC=2" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_19," bitfld.long 0x30 24.--25. "DFI_FREQ_RATIO_F2,Defines how dfi_freq_ratio is driven on the DFI bus. For LPDDR5 specifies the DFI clock to WCK ratio. For all other memory classes specifies the controller clock to DFI PHY clock ratio. Program to zero for a 1:1 ratio one for a.." "?,1: 4 ratio,?,?" newline bitfld.long 0x30 16.--17. "DFI_FREQ_RATIO_F1,Defines how dfi_freq_ratio is driven on the DFI bus. For LPDDR5 specifies the DFI clock to WCK ratio. For all other memory classes specifies the controller clock to DFI PHY clock ratio. Program to zero for a 1:1 ratio one for a.." "?,1: 4 ratio,?,?" newline bitfld.long 0x30 8.--9. "DFI_FREQ_RATIO_F0,Defines how dfi_freq_ratio is driven on the DFI bus. For LPDDR5 specifies the DFI clock to WCK ratio. For all other memory classes specifies the controller clock to DFI PHY clock ratio. Program to zero for a 1:1 ratio one for a.." "?,1: 4 ratio,?,?" newline rbitfld.long 0x30 0. "MRR_ERROR_STATUS,Indicates that an MRR was issued while in self-refresh. Value of 1 indicates a violation. READ-ONLY" "0,1" line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_20," bitfld.long 0x34 24. "PHY_INDEP_TRAIN_MODE,Enable PHY independent training mode commands during initialization. Set to 1 to enable." "0,1" newline bitfld.long 0x34 16.--17. "ODT_VALUE,When using LPDDR4 this value will be driven out on the dfi_odt signal." "0,1,2,3" newline bitfld.long 0x34 8. "NO_MRW_INIT,Disable MRW commands during initialization. Set to 1 to disable." "0,1" newline rbitfld.long 0x34 0. "DFI_CMD_RATIO,Indicates the controller clock to DFI PHY clock ratio for the DFI command interface. For LPDDR5 this is always a 1:1 ratio. For all other memory classes this will be the same as the dfi_freq_ratio. Zero specifies a 1:1 ratio and one.." "?,1: 2 ratio" line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_21," hexmask.long.byte 0x38 24.--28. 1. "DFIBUS_FREQ_F1,Defines the DFI bus frequency. FC=1" newline hexmask.long.byte 0x38 16.--20. 1. "DFIBUS_FREQ_F0,Defines the DFI bus frequency. FC=0" newline bitfld.long 0x38 8. "PHY_INDEP_INIT_MODE,Enable PHY independent initailization mode commands during initialization. Set to 1 to enable." "0,1" newline hexmask.long.byte 0x38 0.--5. 1. "TSREF2PHYMSTR,Specifies the minimum time after a self-refresh exit command on the DFI bus that the Controller will wait for the PHY to assert the dfi_phymstr_req signal before completing other commands. Used when the low power control logic is expected.." line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_22," bitfld.long 0x3C 24.--25. "FREQ_CHANGE_TYPE_F2,Defines the encoded frequency driven out on the cntrl_freq_change_req_type signal during a frequency change operation. FC=2" "0,1,2,3" newline bitfld.long 0x3C 16.--17. "FREQ_CHANGE_TYPE_F1,Defines the encoded frequency driven out on the cntrl_freq_change_req_type signal during a frequency change operation. FC=1" "0,1,2,3" newline bitfld.long 0x3C 8.--9. "FREQ_CHANGE_TYPE_F0,Defines the encoded frequency driven out on the cntrl_freq_change_req_type signal during a frequency change operation. FC=0" "0,1,2,3" newline hexmask.long.byte 0x3C 0.--4. 1. "DFIBUS_FREQ_F2,Defines the DFI bus frequency. FC=2" line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_23," hexmask.long 0x40 0.--31. 1. "TRST_PWRON,Duration of memory reset during power-on initialization." line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_24," hexmask.long 0x44 0.--31. 1. "CKE_INACTIVE,Number of cycles after reset before CKE will be active." line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_25," hexmask.long.word 0x48 16.--31. 1. "TDLL_F1,DRAM TDLL value in cycles. FC=1" newline hexmask.long.word 0x48 0.--15. 1. "TDLL_F0,DRAM TDLL value in cycles. FC=0" line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_26," rbitfld.long 0x4C 24.--25. "DQS_OSC_PER_CS_OOV_TRAINING_STATUS,Set the CS information for which DQS oscillator is having out of variance value. READ-ONLY" "0,1,2,3" newline rbitfld.long 0x4C 16. "LPC_SW_ENTER_DQS_OSC_IN_PROGRESS_ERR_STATUS,Error response for Software issued Low power command while DQS Oscillator is in progress. READ-ONLY" "0,1" newline hexmask.long.word 0x4C 0.--15. 1. "TDLL_F2,DRAM TDLL value in cycles. FC=2" line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_27," hexmask.long.tbyte 0x50 8.--31. 1. "DQS_OSC_MPC_CMD,Set MPC encoding for DQS Oscillator TEST mode." newline bitfld.long 0x50 0. "DQS_OSC_TST,Enable DQS Oscillator TEST mode." "0,1" line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_28," bitfld.long 0x54 16. "DQS_OSC_ENABLE,Enable DQS oscillator measurement function in DRAM. Set to 1 to enable." "0,1" newline hexmask.long.byte 0x54 8.--15. 1. "MRR_MSB_REG,Set MSB MRR register number for DQS Oscillator TEST mode." newline hexmask.long.byte 0x54 0.--7. 1. "MRR_LSB_REG,Set LSB MRR register number for DQS Oscillator TEST mode." line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_29," hexmask.long.byte 0x58 16.--19. 1. "FUNC_VALID_CYCLES,Number of cycles to hold dfi_function_valid asserted." newline hexmask.long.word 0x58 0.--14. 1. "DQS_OSC_PERIOD,Number of cycles to run the oscillator measurement. Must reflect cycles programmed into mode register." line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_30," hexmask.long 0x5C 0.--31. 1. "DQS_OSC_NORM_THRESHOLD,Number of long counts until the normal priority request is asserted for DQS Oscillator." line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_31," hexmask.long 0x60 0.--31. 1. "DQS_OSC_HIGH_THRESHOLD,Number of long counts until the high priority request is asserted for DQS Oscillator." line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_32," hexmask.long 0x64 0.--31. 1. "DQS_OSC_TIMEOUT,Number of long counts until the timeout is asserted for DQS Oscillator." line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_33," hexmask.long 0x68 0.--31. 1. "DQS_OSC_PROMOTE_THRESHOLD,Number of long counts until a software request for the DQS Oscillator is promoted to high priority." line.long 0x6C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_34," hexmask.long.byte 0x6C 24.--31. 1. "TOSCO_F0,Number of cycles for tOSCO timing parameter the time for the DQS Oscillator measurement to be available in the mode registers. FC=0" newline bitfld.long 0x6C 16. "DQS_OSC_REQUEST,Software request for DQS Oscillator measurement function in DRAM. WRITE-ONLY" "0,1" newline hexmask.long.word 0x6C 0.--15. 1. "OSC_VARIANCE_LIMIT,Allowed difference between base value and DQS Oscillator measurement." line.long 0x70 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_35," hexmask.long.word 0x70 16.--31. 1. "DQS_OSC_BASE_VALUE_0_CS0,Base value for device 0 on chip 0. READ-ONLY DEV=0" newline hexmask.long.byte 0x70 8.--15. 1. "TOSCO_F2,Number of cycles for tOSCO timing parameter the time for the DQS Oscillator measurement to be available in the mode registers. FC=2" newline hexmask.long.byte 0x70 0.--7. 1. "TOSCO_F1,Number of cycles for tOSCO timing parameter the time for the DQS Oscillator measurement to be available in the mode registers. FC=1" rgroup.long 0x90++0xF line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_36," hexmask.long.word 0x0 16.--31. 1. "DQS_OSC_BASE_VALUE_2_CS0,Base value for device 2 on chip 0. READ-ONLY DEV=2" newline hexmask.long.word 0x0 0.--15. 1. "DQS_OSC_BASE_VALUE_1_CS0,Base value for device 1 on chip 0. READ-ONLY DEV=1" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_37," hexmask.long.word 0x4 16.--31. 1. "DQS_OSC_BASE_VALUE_0_CS1,Base value for device 0 on chip 1. READ-ONLY DEV=0" newline hexmask.long.word 0x4 0.--15. 1. "DQS_OSC_BASE_VALUE_3_CS0,Base value for device 3 on chip 0. READ-ONLY DEV=3" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_38," hexmask.long.word 0x8 16.--31. 1. "DQS_OSC_BASE_VALUE_2_CS1,Base value for device 2 on chip 1. READ-ONLY DEV=2" newline hexmask.long.word 0x8 0.--15. 1. "DQS_OSC_BASE_VALUE_1_CS1,Base value for device 1 on chip 1. READ-ONLY DEV=1" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_39," bitfld.long 0xC 24. "DQS_OSC_IN_PROGRESS_STATUS,DQS Oscillator is in progress.Set '1' DQS OSC is in progress READ-ONLY" "0,1" newline hexmask.long.byte 0xC 16.--19. 1. "DQS_OSC_STATUS,Holds the overflow and out of variance status associated with the resp. interrupts. Bit [0] set indicates overflow of DQS oscillator bit [1] set indicates overflow of WCKO oscillator bit [2] set.." newline hexmask.long.word 0xC 0.--15. 1. "DQS_OSC_BASE_VALUE_3_CS1,Base value for device 3 on chip 1. READ-ONLY DEV=3" group.long 0xA0++0x117 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_40," hexmask.long.byte 0x0 24.--27. 1. "CA_PARITY_LAT_F0,DRAM CA parity latency value in cycles. FC=0" newline hexmask.long.byte 0x0 16.--21. 1. "ADDITIVE_LAT_F0,DRAM additive latency value in cycles. FC=0" newline hexmask.long.byte 0x0 8.--14. 1. "WRLAT_F0,DRAM WRLAT value in cycles. FC=0" newline hexmask.long.byte 0x0 0.--6. 1. "CASLAT_LIN_F0,Sets latency from read command send to data receive from/to controller. Bit [0] is half-cycle increment and the upper bits define memory CAS latency for the controller. FC=0" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_41," hexmask.long.byte 0x4 24.--31. 1. "TMRD_PAR_MAX_PL_F0,DRAM TMRD value with maximum CA parity for frequency copy 4 in cycles. Used during changes of CA parity latency value in DRAM. FC=0" newline hexmask.long.byte 0x4 16.--23. 1. "TMOD_PAR_MAX_PL_F0,DRAM TMOD value with maximum CA parity for frequency copy 4 in cycles. Used during changes of CA parity latency value in DRAM. FC=0" newline hexmask.long.byte 0x4 8.--15. 1. "TMRD_PAR_F0,DRAM TMRD value when CA parity is enabled in cycles. FC=0" newline hexmask.long.byte 0x4 0.--7. 1. "TMOD_PAR_F0,DRAM TMOD value when CA parity is enabled in cycles. FC=0" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_42," hexmask.long.byte 0x8 24.--27. 1. "CA_PARITY_LAT_F1,DRAM CA parity latency value in cycles. FC=1" newline hexmask.long.byte 0x8 16.--21. 1. "ADDITIVE_LAT_F1,DRAM additive latency value in cycles. FC=1" newline hexmask.long.byte 0x8 8.--14. 1. "WRLAT_F1,DRAM WRLAT value in cycles. FC=1" newline hexmask.long.byte 0x8 0.--6. 1. "CASLAT_LIN_F1,Sets latency from read command send to data receive from/to controller. Bit [0] is half-cycle increment and the upper bits define memory CAS latency for the controller. FC=1" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_43," hexmask.long.byte 0xC 24.--31. 1. "TMRD_PAR_MAX_PL_F1,DRAM TMRD value with maximum CA parity for frequency copy 4 in cycles. Used during changes of CA parity latency value in DRAM. FC=1" newline hexmask.long.byte 0xC 16.--23. 1. "TMOD_PAR_MAX_PL_F1,DRAM TMOD value with maximum CA parity for frequency copy 4 in cycles. Used during changes of CA parity latency value in DRAM. FC=1" newline hexmask.long.byte 0xC 8.--15. 1. "TMRD_PAR_F1,DRAM TMRD value when CA parity is enabled in cycles. FC=1" newline hexmask.long.byte 0xC 0.--7. 1. "TMOD_PAR_F1,DRAM TMOD value when CA parity is enabled in cycles. FC=1" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_44," hexmask.long.byte 0x10 24.--27. 1. "CA_PARITY_LAT_F2,DRAM CA parity latency value in cycles. FC=2" newline hexmask.long.byte 0x10 16.--21. 1. "ADDITIVE_LAT_F2,DRAM additive latency value in cycles. FC=2" newline hexmask.long.byte 0x10 8.--14. 1. "WRLAT_F2,DRAM WRLAT value in cycles. FC=2" newline hexmask.long.byte 0x10 0.--6. 1. "CASLAT_LIN_F2,Sets latency from read command send to data receive from/to controller. Bit [0] is half-cycle increment and the upper bits define memory CAS latency for the controller. FC=2" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_45," hexmask.long.byte 0x14 24.--31. 1. "TMRD_PAR_MAX_PL_F2,DRAM TMRD value with maximum CA parity for frequency copy 4 in cycles. Used during changes of CA parity latency value in DRAM. FC=2" newline hexmask.long.byte 0x14 16.--23. 1. "TMOD_PAR_MAX_PL_F2,DRAM TMOD value with maximum CA parity for frequency copy 4 in cycles. Used during changes of CA parity latency value in DRAM. FC=2" newline hexmask.long.byte 0x14 8.--15. 1. "TMRD_PAR_F2,DRAM TMRD value when CA parity is enabled in cycles. FC=2" newline hexmask.long.byte 0x14 0.--7. 1. "TMOD_PAR_F2,DRAM TMOD value when CA parity is enabled in cycles. FC=2" line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_46," hexmask.long.byte 0x18 24.--31. 1. "TRRD_F0,DRAM TRRD value in cycles. FC=0" newline hexmask.long.byte 0x18 16.--20. 1. "TCCD_L_F0,DRAM CAS-to-CAS value within the same bank group in cycles. FC=0" newline hexmask.long.byte 0x18 8.--12. 1. "TCCD,DRAM CAS-to-CAS value in cycles." newline bitfld.long 0x18 0.--2. "TBST_INT_INTERVAL,DRAM burst interrupt interval value in cycles." "0,1,2,3,4,5,6,7" line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_47," hexmask.long.word 0x1C 8.--16. 1. "TRC_F0,DRAM TRC value in cycles. FC=0" newline hexmask.long.byte 0x1C 0.--7. 1. "TRRD_L_F0,DRAM TRRD_L value in cycles. FC=0" line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_48," hexmask.long.byte 0x20 24.--29. 1. "TWTR_L_F0,DRAM TWTR_L value in cycles. FC=0" newline hexmask.long.byte 0x20 16.--21. 1. "TWTR_F0,DRAM TWTR value in cycles. FC=0" newline hexmask.long.word 0x20 0.--8. 1. "TRAS_MIN_F0,DRAM TRAS_MIN value in cycles. FC=0" line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_49," hexmask.long.byte 0x24 24.--28. 1. "TCCD_L_F1,DRAM CAS-to-CAS value within the same bank group in cycles. FC=1" newline hexmask.long.word 0x24 8.--16. 1. "TFAW_F0,DRAM TFAW value in cycles. FC=0" newline hexmask.long.byte 0x24 0.--7. 1. "TRP_F0,DRAM TRP value in cycles. FC=0" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_50," hexmask.long.word 0x28 16.--24. 1. "TRC_F1,DRAM TRC value in cycles. FC=1" newline hexmask.long.byte 0x28 8.--15. 1. "TRRD_L_F1,DRAM TRRD_L value in cycles. FC=1" newline hexmask.long.byte 0x28 0.--7. 1. "TRRD_F1,DRAM TRRD value in cycles. FC=1" line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_51," hexmask.long.byte 0x2C 24.--29. 1. "TWTR_L_F1,DRAM TWTR_L value in cycles. FC=1" newline hexmask.long.byte 0x2C 16.--21. 1. "TWTR_F1,DRAM TWTR value in cycles. FC=1" newline hexmask.long.word 0x2C 0.--8. 1. "TRAS_MIN_F1,DRAM TRAS_MIN value in cycles. FC=1" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_52," hexmask.long.byte 0x30 24.--28. 1. "TCCD_L_F2,DRAM CAS-to-CAS value within the same bank group in cycles. FC=2" newline hexmask.long.word 0x30 8.--16. 1. "TFAW_F1,DRAM TFAW value in cycles. FC=1" newline hexmask.long.byte 0x30 0.--7. 1. "TRP_F1,DRAM TRP value in cycles. FC=1" line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_53," hexmask.long.word 0x34 16.--24. 1. "TRC_F2,DRAM TRC value in cycles. FC=2" newline hexmask.long.byte 0x34 8.--15. 1. "TRRD_L_F2,DRAM TRRD_L value in cycles. FC=2" newline hexmask.long.byte 0x34 0.--7. 1. "TRRD_F2,DRAM TRRD value in cycles. FC=2" line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_54," hexmask.long.byte 0x38 24.--29. 1. "TWTR_L_F2,DRAM TWTR_L value in cycles. FC=2" newline hexmask.long.byte 0x38 16.--21. 1. "TWTR_F2,DRAM TWTR value in cycles. FC=2" newline hexmask.long.word 0x38 0.--8. 1. "TRAS_MIN_F2,DRAM TRAS_MIN value in cycles. FC=2" line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_55," hexmask.long.byte 0x3C 24.--31. 1. "TRTP_F0,DRAM TRTP value in cycles. FC=0" newline hexmask.long.word 0x3C 8.--16. 1. "TFAW_F2,DRAM TFAW value in cycles. FC=2" newline hexmask.long.byte 0x3C 0.--7. 1. "TRP_F2,DRAM TRP value in cycles. FC=2" line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_56," hexmask.long.byte 0x40 16.--23. 1. "TMOD_F0,Number of cycles after MRS command and before any other command. FC=0" newline hexmask.long.byte 0x40 8.--15. 1. "TMRD_F0,DRAM TMRD value in cycles. FC=0" newline hexmask.long.byte 0x40 0.--7. 1. "TRTP_AP_F0,DRAM TRTP for auto-precharge value in cycles. FC=0" line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_57," hexmask.long.byte 0x44 24.--28. 1. "TCKE_F0,Minimum CKE pulse width. FC=0" newline hexmask.long.tbyte 0x44 0.--19. 1. "TRAS_MAX_F0,DRAM TRAS_MAX value in cycles. FC=0" line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_58," hexmask.long.byte 0x48 24.--31. 1. "TRTP_AP_F1,DRAM TRTP for auto-precharge value in cycles. FC=1" newline hexmask.long.byte 0x48 16.--23. 1. "TRTP_F1,DRAM TRTP value in cycles. FC=1" newline hexmask.long.byte 0x48 8.--13. 1. "TCCDMW_F0,DRAM CAS-to-CAS masked write value in cycles. FC=0" newline hexmask.long.byte 0x48 0.--7. 1. "TCKESR_F0,Minimum CKE low pulse width during a self-refresh. FC=0" line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_59," hexmask.long.byte 0x4C 8.--15. 1. "TMOD_F1,Number of cycles after MRS command and before any other command. FC=1" newline hexmask.long.byte 0x4C 0.--7. 1. "TMRD_F1,DRAM TMRD value in cycles. FC=1" line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_60," hexmask.long.byte 0x50 24.--28. 1. "TCKE_F1,Minimum CKE pulse width. FC=1" newline hexmask.long.tbyte 0x50 0.--19. 1. "TRAS_MAX_F1,DRAM TRAS_MAX value in cycles. FC=1" line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_61," hexmask.long.byte 0x54 24.--31. 1. "TRTP_AP_F2,DRAM TRTP for auto-precharge value in cycles. FC=2" newline hexmask.long.byte 0x54 16.--23. 1. "TRTP_F2,DRAM TRTP value in cycles. FC=2" newline hexmask.long.byte 0x54 8.--13. 1. "TCCDMW_F1,DRAM CAS-to-CAS masked write value in cycles. FC=1" newline hexmask.long.byte 0x54 0.--7. 1. "TCKESR_F1,Minimum CKE low pulse width during a self-refresh. FC=1" line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_62," hexmask.long.byte 0x58 8.--15. 1. "TMOD_F2,Number of cycles after MRS command and before any other command. FC=2" newline hexmask.long.byte 0x58 0.--7. 1. "TMRD_F2,DRAM TMRD value in cycles. FC=2" line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_63," hexmask.long.byte 0x5C 24.--28. 1. "TCKE_F2,Minimum CKE pulse width. FC=2" newline hexmask.long.tbyte 0x5C 0.--19. 1. "TRAS_MAX_F2,DRAM TRAS_MAX value in cycles. FC=2" line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_64," bitfld.long 0x60 16.--18. "TPPD,DRAM TPPD value in cycles." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x60 8.--13. 1. "TCCDMW_F2,DRAM CAS-to-CAS masked write value in cycles. FC=2" newline hexmask.long.byte 0x60 0.--7. 1. "TCKESR_F2,Minimum CKE low pulse width during a self-refresh. FC=2" line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_65," hexmask.long.byte 0x64 24.--31. 1. "TWR_F0,DRAM TWR value in cycles. FC=0" newline hexmask.long.byte 0x64 16.--23. 1. "TRCD_F0,DRAM TRCD value in cycles. FC=0" newline bitfld.long 0x64 8. "WRITEINTERP,Allow controller to interrupt a write burst to the DRAMs with a read command. Set to 1 to allow interruption." "0,1" line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_66," hexmask.long.byte 0x68 24.--31. 1. "TWR_F2,DRAM TWR value in cycles. FC=2" newline hexmask.long.byte 0x68 16.--23. 1. "TRCD_F2,DRAM TRCD value in cycles. FC=2" newline hexmask.long.byte 0x68 8.--15. 1. "TWR_F1,DRAM TWR value in cycles. FC=1" newline hexmask.long.byte 0x68 0.--7. 1. "TRCD_F1,DRAM TRCD value in cycles. FC=1" line.long 0x6C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_67," bitfld.long 0x6C 24. "TRAS_LOCKOUT,IF the DRAM supports it this allows the controller to execute auto pre-charge commands before the TRAS_MIN parameter expires. Set to 1 to enable." "0,1" newline bitfld.long 0x6C 16. "CONCURRENTAP,IF the DRAM supports it this allows the controller to issue commands to other banks while a bank is in auto pre-charge. Set to 1 to enable." "0,1" newline bitfld.long 0x6C 8. "AP,Enable auto pre-charge mode of controller. Set to 1 to enable." "0,1" newline hexmask.long.byte 0x6C 0.--3. 1. "TMRR,DRAM TMRR value in cycles." line.long 0x70 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_68," hexmask.long.byte 0x70 24.--29. 1. "BSTLEN,Encoded burst length sent to DRAMs during initialization. Program to 1 for BL2 program to 2 for BL4 program to 3 for BL8 program to 4 for BL16 or program to 5 for BL32. All other settings are reserved." newline hexmask.long.byte 0x70 16.--23. 1. "TDAL_F2,DRAM TDAL value in cycles. FC=2" newline hexmask.long.byte 0x70 8.--15. 1. "TDAL_F1,DRAM TDAL value in cycles. FC=1" newline hexmask.long.byte 0x70 0.--7. 1. "TDAL_F0,DRAM TDAL value in cycles. FC=0" line.long 0x74 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_69," hexmask.long.byte 0x74 24.--31. 1. "TRP_AB_F0_1,DRAM TRP all bank value in cycles. FC=0" newline hexmask.long.byte 0x74 16.--23. 1. "TRP_AB_F2_0,DRAM TRP all bank value in cycles. FC=2" newline hexmask.long.byte 0x74 8.--15. 1. "TRP_AB_F1_0,DRAM TRP all bank value in cycles. FC=1" newline hexmask.long.byte 0x74 0.--7. 1. "TRP_AB_F0_0,DRAM TRP all bank value in cycles. FC=0" line.long 0x78 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_70," bitfld.long 0x78 24.--25. "ADDRESS_MIRRORING,Indicates which chip selects support address mirroring. Bit [0] controls cs0 bit [1] controls cs1 etc. Set each bit to 1 to enable." "0,1,2,3" newline bitfld.long 0x78 16. "REG_DIMM_ENABLE,Enable registered DIMM operation of the controller. Set to 1 to enable." "0,1" newline hexmask.long.byte 0x78 8.--15. 1. "TRP_AB_F2_1,DRAM TRP all bank value in cycles. FC=2" newline hexmask.long.byte 0x78 0.--7. 1. "TRP_AB_F1_1,DRAM TRP all bank value in cycles. FC=1" line.long 0x7C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_71," bitfld.long 0x7C 16. "NO_MEMORY_DM,Indicates that the external DRAM does not support DM masking. Set to 1 for no DM masking at the DRAM." "0,1" newline bitfld.long 0x7C 0. "OPTIMAL_RMODW_EN,Enables optimized RMODW logic in the controller. A value of 1 enables optimized RMODW operation. All RMODW operations are still supported in a non-optimal manner when the value is 0." "0,1" line.long 0x80 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_72," hexmask.long 0x80 0.--25. 1. "CA_PARITY_ERROR_INJECT,Selects bit to corrupt on the CA bus for CA parity error injection." line.long 0x84 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_73," bitfld.long 0x84 24. "TREF_ENABLE,Issue auto-refresh commands to the DRAMs at the interval defined in the TREF parameter. Set to 1 to enable." "0,1" newline rbitfld.long 0x84 16. "AREF_STATUS,Indicates a SR error associated with the AREF interrupt. Value of 1 indicates a violation. READ-ONLY" "0,1" newline bitfld.long 0x84 8. "AREFRESH,Initiate auto-refresh at the end of the current burst boundary. Set to 1 to trigger. WRITE-ONLY" "0,1" newline rbitfld.long 0x84 0. "CA_PARITY_ERROR,Contains one hot indication of registered DIMM parity errors. Value of 1 indicates an error on that DIMM. READ-ONLY" "0,1" line.long 0x88 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_74," hexmask.long.word 0x88 16.--25. 1. "TRFC_F0,DRAM TRFC value in cycles. FC=0" newline hexmask.long.byte 0x88 8.--13. 1. "CS_COMPARISON_FOR_REFRESH_DEPTH,Defines the number of entries of the command queue that the refresh logic will consider for sending a refresh command. A non-zero value limits the decode to a subset of the full command pipeline." newline bitfld.long 0x88 0.--2. "TRFC_OPT_THRESHOLD,Number of clocks before TRFC expires when the refresh task will deassert its request for optimal command to command turn-around timing." "0,1,2,3,4,5,6,7" line.long 0x8C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_75," hexmask.long.tbyte 0x8C 0.--19. 1. "TREF_F0,DRAM TREF value in cycles. FC=0" line.long 0x90 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_76," hexmask.long.word 0x90 0.--9. 1. "TRFC_F1,DRAM TRFC value in cycles. FC=1" line.long 0x94 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_77," hexmask.long.tbyte 0x94 0.--19. 1. "TREF_F1,DRAM TREF value in cycles. FC=1" line.long 0x98 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_78," hexmask.long.word 0x98 0.--9. 1. "TRFC_F2,DRAM TRFC value in cycles. FC=2" line.long 0x9C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_79," hexmask.long.tbyte 0x9C 0.--19. 1. "TREF_F2,DRAM TREF value in cycles. FC=2" line.long 0xA0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_80," hexmask.long.tbyte 0xA0 0.--19. 1. "TREF_INTERVAL,Defines the cycles between refreshes to different chip selects." line.long 0xA4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_81," hexmask.long.word 0xA4 0.--9. 1. "TRFC_PB_F0,DRAM TRFC_PB value in cycles. FC=0" line.long 0xA8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_82," hexmask.long.tbyte 0xA8 0.--19. 1. "TREFI_PB_F0,DRAM TREFI_PB value in cycles. FC=0" line.long 0xAC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_83," hexmask.long.word 0xAC 0.--9. 1. "TRFC_PB_F1,DRAM TRFC_PB value in cycles. FC=1" line.long 0xB0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_84," hexmask.long.tbyte 0xB0 0.--19. 1. "TREFI_PB_F1,DRAM TREFI_PB value in cycles. FC=1" line.long 0xB4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_85," hexmask.long.word 0xB4 0.--9. 1. "TRFC_PB_F2,DRAM TRFC_PB value in cycles. FC=2" line.long 0xB8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_86," bitfld.long 0xB8 24. "PBR_EN,Enables the per-bank refresh feature. Set to 1 to enable." "0,1" newline hexmask.long.tbyte 0xB8 0.--19. 1. "TREFI_PB_F2,DRAM TREFI_PB value in cycles. FC=2" line.long 0xBC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_87," hexmask.long.byte 0xBC 24.--27. 1. "PBR_BANK_SELECT_DELAY,Defines the PBR bank select to command delay the time from bank selection to when the command queue bank selection logic is guaranteed to have blocked the bank." newline hexmask.long.word 0xBC 8.--23. 1. "PBR_MAX_BANK_WAIT,Defines the maximum number of cycles that the PBR module will wait for Strategy to release the target bank until the PBR will assert the inhibit and close the target bank." newline bitfld.long 0xBC 0. "PBR_NUMERIC_ORDER,Enables the PBR to run REFpb commands in numeric bank order [0 1 2 3 etc.] When disabled the order may be modified if supported by the memory type. Set to 1 to enable." "0,1" line.long 0xC0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_88," hexmask.long.byte 0xC0 16.--20. 1. "AREF_PBR_CONT_DIS_THRESHOLD,Sets the auto-refresh request count threshold when the PBR continuous refresh request enable will be deasserted." newline hexmask.long.byte 0xC0 8.--12. 1. "AREF_PBR_CONT_EN_THRESHOLD,Sets the auto-refresh request count threshold when the PBR continuous refresh request enable will be asserted." newline bitfld.long 0xC0 0. "PBR_CONT_REQ_EN,Enables the per-bank refresh continuous request feature. Set to 1 to enable." "0,1" line.long 0xC4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_89," hexmask.long.word 0xC4 16.--31. 1. "TPDEX_F1,DRAM TPDEX value in cycles. FC=1" newline hexmask.long.word 0xC4 0.--15. 1. "TPDEX_F0,DRAM TPDEX value in cycles. FC=0" line.long 0xC8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_90," hexmask.long.byte 0xC8 24.--31. 1. "TMRRI_F1,DRAM TMRRI value in cycles. FC=1" newline hexmask.long.byte 0xC8 16.--23. 1. "TMRRI_F0,DRAM TMRRI value in cycles. FC=0" newline hexmask.long.word 0xC8 0.--15. 1. "TPDEX_F2,DRAM TPDEX value in cycles. FC=2" line.long 0xCC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_91," hexmask.long.byte 0xCC 24.--28. 1. "TMRWCKEL_F0,DRAM TMRWCKEL value in cycles. FC=0" newline hexmask.long.byte 0xCC 16.--20. 1. "TCKEHCS_F0,DRAM TCKEHCS value in cycles. FC=0" newline hexmask.long.byte 0xCC 8.--12. 1. "TCKELCS_F0,DRAM TCKELCS value in cycles. FC=0" newline hexmask.long.byte 0xCC 0.--7. 1. "TMRRI_F2,DRAM TMRRI value in cycles. FC=2" line.long 0xD0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_92," hexmask.long.byte 0xD0 24.--28. 1. "TMRWCKEL_F1,DRAM TMRWCKEL value in cycles. FC=1" newline hexmask.long.byte 0xD0 16.--20. 1. "TCKEHCS_F1,DRAM TCKEHCS value in cycles. FC=1" newline hexmask.long.byte 0xD0 8.--12. 1. "TCKELCS_F1,DRAM TCKELCS value in cycles. FC=1" newline hexmask.long.byte 0xD0 0.--3. 1. "TZQCKE_F0,DRAM TZQCKE value in cycles. FC=0" line.long 0xD4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_93," hexmask.long.byte 0xD4 24.--28. 1. "TMRWCKEL_F2,DRAM TMRWCKEL value in cycles. FC=2" newline hexmask.long.byte 0xD4 16.--20. 1. "TCKEHCS_F2,DRAM TCKEHCS value in cycles. FC=2" newline hexmask.long.byte 0xD4 8.--12. 1. "TCKELCS_F2,DRAM TCKELCS value in cycles. FC=2" newline hexmask.long.byte 0xD4 0.--3. 1. "TZQCKE_F1,DRAM TZQCKE value in cycles. FC=1" line.long 0xD8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_94," hexmask.long.byte 0xD8 24.--28. 1. "TCSCKE_F1,DRAM TCSCKE value in cycles. FC=1" newline bitfld.long 0xD8 16. "CA_DEFAULT_VAL_F0,Defines how unused address/command bits are driven. Set to 1 to use last value or clear to 0 to drive low. FC=0" "0,1" newline hexmask.long.byte 0xD8 8.--12. 1. "TCSCKE_F0,DRAM TCSCKE value in cycles. FC=0" newline hexmask.long.byte 0xD8 0.--3. 1. "TZQCKE_F2,DRAM TZQCKE value in cycles. FC=2" line.long 0xDC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_95," bitfld.long 0xDC 16. "CA_DEFAULT_VAL_F2,Defines how unused address/command bits are driven. Set to 1 to use last value or clear to 0 to drive low. FC=2" "0,1" newline hexmask.long.byte 0xDC 8.--12. 1. "TCSCKE_F2,DRAM TCSCKE value in cycles. FC=2" newline bitfld.long 0xDC 0. "CA_DEFAULT_VAL_F1,Defines how unused address/command bits are driven. Set to 1 to use last value or clear to 0 to drive low. FC=1" "0,1" line.long 0xE0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_96," hexmask.long.word 0xE0 16.--31. 1. "TXSNR_F0,DRAM TXSNR value in cycles. FC=0" newline hexmask.long.word 0xE0 0.--15. 1. "TXSR_F0,DRAM TXSR value in cycles. FC=0" line.long 0xE4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_97," hexmask.long.word 0xE4 16.--31. 1. "TXSNR_F1,DRAM TXSNR value in cycles. FC=1" newline hexmask.long.word 0xE4 0.--15. 1. "TXSR_F1,DRAM TXSR value in cycles. FC=1" line.long 0xE8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_98," hexmask.long.word 0xE8 16.--31. 1. "TXSNR_F2,DRAM TXSNR value in cycles. FC=2" newline hexmask.long.word 0xE8 0.--15. 1. "TXSR_F2,DRAM TXSR value in cycles. FC=2" line.long 0xEC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_99," hexmask.long.word 0xEC 16.--31. 1. "TXPR_F1,DRAM TXPR value in cycles. This parameter defines reset exit time from CKE HIGH to a valid command. FC=1" newline hexmask.long.word 0xEC 0.--15. 1. "TXPR_F0,DRAM TXPR value in cycles. This parameter defines reset exit time from CKE HIGH to a valid command. FC=0" line.long 0xF0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_100," bitfld.long 0xF0 24.--26. "TESCKE_F0,DRAM TESCKE value in cycles. FC=0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0xF0 16.--23. 1. "TSR_F0,DRAM TSR value in cycles. FC=0" newline hexmask.long.word 0xF0 0.--15. 1. "TXPR_F2,DRAM TXPR value in cycles. This parameter defines reset exit time from CKE HIGH to a valid command. FC=2" line.long 0xF4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_101," hexmask.long.byte 0xF4 24.--28. 1. "TCKCKEL_F0,DRAM TCKCKEL value in cycles. FC=0" newline hexmask.long.byte 0xF4 16.--20. 1. "TCKEHCMD_F0,DRAM TCKEHCMD value in cycles. FC=0" newline hexmask.long.byte 0xF4 8.--12. 1. "TCKELCMD_F0,DRAM TCKELCMD value in cycles. FC=0" newline hexmask.long.byte 0xF4 0.--4. 1. "TCSCKEH_F0,DRAM TCSCKEH value in cycles. FC=0" line.long 0xF8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_102," hexmask.long.byte 0xF8 24.--28. 1. "TCSCKEH_F1,DRAM TCSCKEH value in cycles. FC=1" newline bitfld.long 0xF8 16.--18. "TESCKE_F1,DRAM TESCKE value in cycles. FC=1" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0xF8 8.--15. 1. "TSR_F1,DRAM TSR value in cycles. FC=1" newline hexmask.long.byte 0xF8 0.--4. 1. "TCKELPD_F0,DRAM TCKELPD value in cycles. FC=0" line.long 0xFC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_103," hexmask.long.byte 0xFC 24.--28. 1. "TCKELPD_F1,DRAM TCKELPD value in cycles. FC=1" newline hexmask.long.byte 0xFC 16.--20. 1. "TCKCKEL_F1,DRAM TCKCKEL value in cycles. FC=1" newline hexmask.long.byte 0xFC 8.--12. 1. "TCKEHCMD_F1,DRAM TCKEHCMD value in cycles. FC=1" newline hexmask.long.byte 0xFC 0.--4. 1. "TCKELCMD_F1,DRAM TCKELCMD value in cycles. FC=1" line.long 0x100 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_104," hexmask.long.byte 0x100 24.--28. 1. "TCKELCMD_F2,DRAM TCKELCMD value in cycles. FC=2" newline hexmask.long.byte 0x100 16.--20. 1. "TCSCKEH_F2,DRAM TCSCKEH value in cycles. FC=2" newline bitfld.long 0x100 8.--10. "TESCKE_F2,DRAM TESCKE value in cycles. FC=2" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x100 0.--7. 1. "TSR_F2,DRAM TSR value in cycles. FC=2" line.long 0x104 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_105," hexmask.long.byte 0x104 24.--28. 1. "TCMDCKE_F0,DRAM TCMDCKE value in cycles. FC=0" newline hexmask.long.byte 0x104 16.--20. 1. "TCKELPD_F2,DRAM TCKELPD value in cycles. FC=2" newline hexmask.long.byte 0x104 8.--12. 1. "TCKCKEL_F2,DRAM TCKCKEL value in cycles. FC=2" newline hexmask.long.byte 0x104 0.--4. 1. "TCKEHCMD_F2,DRAM TCKEHCMD value in cycles. FC=2" line.long 0x108 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_106," bitfld.long 0x108 24. "SREFRESH_EXIT_NO_REFRESH,Disables the automatic refresh request associated with self-refresh exit. Set to 1 to disable." "0,1" newline bitfld.long 0x108 16. "PWRUP_SREFRESH_EXIT,Allow powerup via self-refresh instead of full memory initialization. Set to 1 to enable." "0,1" newline hexmask.long.byte 0x108 8.--12. 1. "TCMDCKE_F2,DRAM TCMDCKE value in cycles. FC=2" newline hexmask.long.byte 0x108 0.--4. 1. "TCMDCKE_F1,DRAM TCMDCKE value in cycles. FC=1" line.long 0x10C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_107," hexmask.long.byte 0x10C 24.--30. 1. "DFS_STATUS,Contains status and interrupt information related to DFS. Bit [0] set indicates that the DFS request from the hardware interface was ignored because param_dfs_enable was zero or because another HWI-initiated DFS operation was already in.." newline hexmask.long.byte 0x10C 16.--20. 1. "DFS_CMD,lt Currently not supported gt DFS software command request interface. Bit [0] sends the DFS exit request when set. Bit [1] sends the DFS enter request when set. Bit [2] tells the controller to gate the memory clock before handing control to the.." newline bitfld.long 0x10C 8.--10. "CKE_DELAY,Additional cycles to delay CKE for status reporting." "0,1,2,3,4,5,6,7" newline bitfld.long 0x10C 0. "ENABLE_QUICK_SREFRESH,Allow user to interrupt memory initialization to enter self-refresh mode. Set to 1 to allow interruption." "0,1" line.long 0x110 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_108," hexmask.long.word 0x110 8.--23. 1. "DFS_PROMOTE_THRESHOLD_F0,DFS promotion number of long counts until the high priority request is asserted for frequency copy 0. Applies to SW and HW DFS commands. FC=0" newline bitfld.long 0x110 0. "DFS_ZQ_EN,Enables ZQ calibration across all ranks during a DFS exit. Set to 1 to enable. Not valid when operating in ZQ background mode." "0,1" line.long 0x114 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_109," hexmask.long.word 0x114 16.--31. 1. "DFS_PROMOTE_THRESHOLD_F2,DFS promotion number of long counts until the high priority request is asserted for frequency copy 2. Applies to SW and HW DFS commands. FC=2" newline hexmask.long.word 0x114 0.--15. 1. "DFS_PROMOTE_THRESHOLD_F1,DFS promotion number of long counts until the high priority request is asserted for frequency copy 1. Applies to SW and HW DFS commands. FC=1" rgroup.long 0x1B8++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_110," bitfld.long 0x0 0.--2. "ZQ_STATUS_LOG,Indicates what kind of ZQ command was terminated without execution that caused the ZQ status interrupt to assert. Bit [0] correlates to a ZQ cal init reset short or long command. Bit [1] correlates to a ZQ cal start command. Bit [2].." "0,1,2,3,4,5,6,7" group.long 0x1BC++0x143 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_111," hexmask.long.word 0x0 16.--31. 1. "UPD_CTRLUPD_NORM_THRESHOLD_F0,DFI control update number of long counts until the normal priority request is asserted. FC=0" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_112," hexmask.long.word 0x4 16.--31. 1. "UPD_CTRLUPD_TIMEOUT_F0,DFI control update number of long counts until the timeout is asserted. FC=0" newline hexmask.long.word 0x4 0.--15. 1. "UPD_CTRLUPD_HIGH_THRESHOLD_F0,DFI control update number of long counts until the high priority request is asserted. FC=0" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_113," hexmask.long.word 0x8 16.--31. 1. "UPD_PHYUPD_DFI_PROMOTE_THRESHOLD_F0,DFI PHY update DFI promotion number of long counts until the high priority request is asserted. FC=0" newline hexmask.long.word 0x8 0.--15. 1. "UPD_CTRLUPD_SW_PROMOTE_THRESHOLD_F0,DFI control update SW promotion number of long counts until the high priority request is asserted. FC=0" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_114," hexmask.long.word 0xC 16.--31. 1. "UPD_CTRLUPD_HIGH_THRESHOLD_F1,DFI control update number of long counts until the high priority request is asserted. FC=1" newline hexmask.long.word 0xC 0.--15. 1. "UPD_CTRLUPD_NORM_THRESHOLD_F1,DFI control update number of long counts until the normal priority request is asserted. FC=1" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_115," hexmask.long.word 0x10 16.--31. 1. "UPD_CTRLUPD_SW_PROMOTE_THRESHOLD_F1,DFI control update SW promotion number of long counts until the high priority request is asserted. FC=1" newline hexmask.long.word 0x10 0.--15. 1. "UPD_CTRLUPD_TIMEOUT_F1,DFI control update number of long counts until the timeout is asserted. FC=1" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_116," hexmask.long.word 0x14 16.--31. 1. "UPD_CTRLUPD_NORM_THRESHOLD_F2,DFI control update number of long counts until the normal priority request is asserted. FC=2" newline hexmask.long.word 0x14 0.--15. 1. "UPD_PHYUPD_DFI_PROMOTE_THRESHOLD_F1,DFI PHY update DFI promotion number of long counts until the high priority request is asserted. FC=1" line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_117," hexmask.long.word 0x18 16.--31. 1. "UPD_CTRLUPD_TIMEOUT_F2,DFI control update number of long counts until the timeout is asserted. FC=2" newline hexmask.long.word 0x18 0.--15. 1. "UPD_CTRLUPD_HIGH_THRESHOLD_F2,DFI control update number of long counts until the high priority request is asserted. FC=2" line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_118," hexmask.long.word 0x1C 16.--31. 1. "UPD_PHYUPD_DFI_PROMOTE_THRESHOLD_F2,DFI PHY update DFI promotion number of long counts until the high priority request is asserted. FC=2" newline hexmask.long.word 0x1C 0.--15. 1. "UPD_CTRLUPD_SW_PROMOTE_THRESHOLD_F2,DFI control update SW promotion number of long counts until the high priority request is asserted. FC=2" line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_119," hexmask.long 0x20 0.--31. 1. "TDFI_PHYMSTR_MAX_F0,Defines the DFI tPHYMSTR_MAX timing parameter [in DFI clocks] the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack. If programmed to a non-zero a timing violation will cause an interrupt.." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_120," hexmask.long 0x24 0.--31. 1. "TDFI_PHYMSTR_MAX_TYPE0_F0,Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE0 timing parameter [in DFI clocks] the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=0. If programmed to a non-zero a.." line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_121," hexmask.long 0x28 0.--31. 1. "TDFI_PHYMSTR_MAX_TYPE1_F0,Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE1 timing parameter [in DFI clocks] the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=1. If programmed to a non-zero a.." line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_122," hexmask.long 0x2C 0.--31. 1. "TDFI_PHYMSTR_MAX_TYPE2_F0,Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE2 timing parameter [in DFI clocks] the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=2. If programmed to a non-zero a.." line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_123," hexmask.long 0x30 0.--31. 1. "TDFI_PHYMSTR_MAX_TYPE3_F0,Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE3 timing parameter [in DFI clocks] the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=3. If programmed to a non-zero a.." line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_124," hexmask.long.word 0x34 0.--15. 1. "PHYMSTR_DFI4_PROMOTE_THRESHOLD_F0,Defines the DFI[4.0 and 4.0v2] PHY controller request promotion number of regular [not long] counts until the high priority request is asserted. FC=0" line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_125," hexmask.long.tbyte 0x38 0.--19. 1. "TDFI_PHYMSTR_RESP_F0,Defines the DFI tPHYMSTR_RESP timing parameter [in DFI clocks] the maximum cycles between a dfi_phymstr_req assertion and a dfi_phymstr_ack assertion. If programmed to a non-zero a timing violation will cause an interrupt and bit.." line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_126," hexmask.long 0x3C 0.--31. 1. "TDFI_PHYMSTR_MAX_F1,Defines the DFI tPHYMSTR_MAX timing parameter [in DFI clocks] the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack. If programmed to a non-zero a timing violation will cause an interrupt.." line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_127," hexmask.long 0x40 0.--31. 1. "TDFI_PHYMSTR_MAX_TYPE0_F1,Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE0 timing parameter [in DFI clocks] the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=0. If programmed to a non-zero a.." line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_128," hexmask.long 0x44 0.--31. 1. "TDFI_PHYMSTR_MAX_TYPE1_F1,Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE1 timing parameter [in DFI clocks] the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=1. If programmed to a non-zero a.." line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_129," hexmask.long 0x48 0.--31. 1. "TDFI_PHYMSTR_MAX_TYPE2_F1,Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE2 timing parameter [in DFI clocks] the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=2. If programmed to a non-zero a.." line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_130," hexmask.long 0x4C 0.--31. 1. "TDFI_PHYMSTR_MAX_TYPE3_F1,Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE3 timing parameter [in DFI clocks] the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=3. If programmed to a non-zero a.." line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_131," hexmask.long.word 0x50 0.--15. 1. "PHYMSTR_DFI4_PROMOTE_THRESHOLD_F1,Defines the DFI[4.0 and 4.0v2] PHY controller request promotion number of regular [not long] counts until the high priority request is asserted. FC=1" line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_132," hexmask.long.tbyte 0x54 0.--19. 1. "TDFI_PHYMSTR_RESP_F1,Defines the DFI tPHYMSTR_RESP timing parameter [in DFI clocks] the maximum cycles between a dfi_phymstr_req assertion and a dfi_phymstr_ack assertion. If programmed to a non-zero a timing violation will cause an interrupt and bit.." line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_133," hexmask.long 0x58 0.--31. 1. "TDFI_PHYMSTR_MAX_F2,Defines the DFI tPHYMSTR_MAX timing parameter [in DFI clocks] the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack. If programmed to a non-zero a timing violation will cause an interrupt.." line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_134," hexmask.long 0x5C 0.--31. 1. "TDFI_PHYMSTR_MAX_TYPE0_F2,Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE0 timing parameter [in DFI clocks] the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=0. If programmed to a non-zero a.." line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_135," hexmask.long 0x60 0.--31. 1. "TDFI_PHYMSTR_MAX_TYPE1_F2,Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE1 timing parameter [in DFI clocks] the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=1. If programmed to a non-zero a.." line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_136," hexmask.long 0x64 0.--31. 1. "TDFI_PHYMSTR_MAX_TYPE2_F2,Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE2 timing parameter [in DFI clocks] the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=2. If programmed to a non-zero a.." line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_137," hexmask.long 0x68 0.--31. 1. "TDFI_PHYMSTR_MAX_TYPE3_F2,Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE3 timing parameter [in DFI clocks] the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=3. If programmed to a non-zero a.." line.long 0x6C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_138," hexmask.long.word 0x6C 0.--15. 1. "PHYMSTR_DFI4_PROMOTE_THRESHOLD_F2,Defines the DFI[4.0 and 4.0v2] PHY controller request promotion number of regular [not long] counts until the high priority request is asserted. FC=2" line.long 0x70 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_139," bitfld.long 0x70 24. "PHYMSTR_NO_AREF,isables refreshes during the PHY controller interface sequence. Set to 1 to disable. Refreshes during reset are only supported for DFI 4.0 and this parameter may be set or cleared for DFI 4.0. For all other DFI versions this parameter.." "0,1" newline hexmask.long.tbyte 0x70 0.--19. 1. "TDFI_PHYMSTR_RESP_F2,Defines the DFI tPHYMSTR_RESP timing parameter [in DFI clocks] the maximum cycles between a dfi_phymstr_req assertion and a dfi_phymstr_ack assertion. If programmed to a non-zero a timing violation will cause an interrupt and bit.." line.long 0x74 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_140," bitfld.long 0x74 16. "PHYMSTR_TRAIN_AFTER_INIT_COMPLETE,Defines how the PHY will use the PHY Controller Interface for training. Clear to 0 to perform training without the PHY Controller Interface or set to 1 to use the PHY Controller Interface to gain control over the DFI.." "0,1" newline bitfld.long 0x74 8. "PHYMSTR_DFI_VERSION_4P0V1,Defines the version of the DFI 4.0 specification supported. Clear to 0 for DFI 4.0 version 2 PHY Controller Interface or set to 1 for DFI 4.0 version 1 PHY Controller Interface. Default is cleared to 0 for version 2." "0,1" newline rbitfld.long 0x74 0.--1. "PHYMSTR_ERROR_STATUS,Identifies the source of any DFI PHY Controller Interface errors. Value of 1 indicates a timing violation of the associated timing parameter. Bit [0] set indicates a TDFI_PHYMSTR_MAX or TDFI_PHYMSTR_TYPEn_MAX parmaeter violation and.." "0,1,2,3" line.long 0x78 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_141," hexmask.long.tbyte 0x78 0.--23. 1. "MRR_TEMPCHK_NORM_THRESHOLD_F0,MRR temp check number of long counts until the normal priority request is asserted. FC=0" line.long 0x7C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_142," hexmask.long.tbyte 0x7C 0.--23. 1. "MRR_TEMPCHK_HIGH_THRESHOLD_F0,MRR temp check number of long counts until the high priority request is asserted. FC=0" line.long 0x80 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_143," hexmask.long.tbyte 0x80 0.--23. 1. "MRR_TEMPCHK_TIMEOUT_F0,MRR temp check number of long counts until the timeout is asserted. FC=0" line.long 0x84 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_144," hexmask.long.tbyte 0x84 0.--23. 1. "MRR_TEMPCHK_NORM_THRESHOLD_F1,MRR temp check number of long counts until the normal priority request is asserted. FC=1" line.long 0x88 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_145," hexmask.long.tbyte 0x88 0.--23. 1. "MRR_TEMPCHK_HIGH_THRESHOLD_F1,MRR temp check number of long counts until the high priority request is asserted. FC=1" line.long 0x8C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_146," hexmask.long.tbyte 0x8C 0.--23. 1. "MRR_TEMPCHK_TIMEOUT_F1,MRR temp check number of long counts until the timeout is asserted. FC=1" line.long 0x90 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_147," hexmask.long.tbyte 0x90 0.--23. 1. "MRR_TEMPCHK_NORM_THRESHOLD_F2,MRR temp check number of long counts until the normal priority request is asserted. FC=2" line.long 0x94 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_148," hexmask.long.tbyte 0x94 0.--23. 1. "MRR_TEMPCHK_HIGH_THRESHOLD_F2,MRR temp check number of long counts until the high priority request is asserted. FC=2" line.long 0x98 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_149," bitfld.long 0x98 24. "PPR_CONTROL,Enables the post-package repair feature. Set to 1 to enable. This parameter may only be programmed before initialization begins." "0,1" newline hexmask.long.tbyte 0x98 0.--23. 1. "MRR_TEMPCHK_TIMEOUT_F2,MRR temp check number of long counts until the timeout is asserted. FC=2" line.long 0x9C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_150," hexmask.long.byte 0x9C 8.--15. 1. "PPR_COMMAND_MRW_REGNUM,Specifies the mode register to be used. Clear to 0 for MRW0 or program to 4 for MRW4. All other values are reserved.." newline bitfld.long 0x9C 0.--2. "PPR_COMMAND,Specifies the type of PPR command. Program to 1 for pre-charge all program to 2 for MRW program to 3 for activate or program to 5 for write. All other values are reserved. WRITE-ONLY" "0,1,2,3,4,5,6,7" line.long 0xA0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_151," hexmask.long.tbyte 0xA0 0.--16. 1. "PPR_COMMAND_MRW_DATA,Specifies the data for the mode register write." line.long 0xA4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_152," hexmask.long.byte 0xA4 24.--27. 1. "PPR_BANK_ADDRESS,Specifies the bank for the row to be repaired." newline hexmask.long.tbyte 0xA4 0.--17. 1. "PPR_ROW_ADDRESS,Specifies the encoded row address to be repaired." line.long 0xA8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_153," bitfld.long 0xA8 0. "PPR_CS_ADDRESS,Specifies the chip select for the row to be repaired." "0,1" line.long 0xAC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_154," hexmask.long 0xAC 0.--31. 1. "PPR_DATA_0,Holds the data pattern to be written to memory for all data phases. This is specific to DDR4 memories." line.long 0xB0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_155," hexmask.long 0xB0 0.--31. 1. "PPR_DATA_1,Holds the data pattern to be written to memory for all data phases. This is specific to DDR4 memories." line.long 0xB4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_156," hexmask.long 0xB4 0.--31. 1. "PPR_DATA_2,Holds the data pattern to be written to memory for all data phases. This is specific to DDR4 memories." line.long 0xB8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_157," hexmask.long 0xB8 0.--31. 1. "PPR_DATA_3,Holds the data pattern to be written to memory for all data phases. This is specific to DDR4 memories." line.long 0xBC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_158," hexmask.long.byte 0xBC 24.--31. 1. "CKSRX_F0,Clock stable delay on self-refresh exit. FC=0" newline hexmask.long.byte 0xBC 16.--23. 1. "CKSRE_F0,Clock hold delay on self-refresh entry. FC=0" newline bitfld.long 0xBC 8. "FM_OVRIDE_CONTROL,Enables the FM Override feature. Set to 1 to enable." "0,1" newline rbitfld.long 0xBC 0.--1. "PPR_STATUS,Reports the status of the PPR operation. Bit [0] set indicates that PPR operations are now allowed and bit [1] set indicates if the last PPR command is complete. READ-ONLY" "0,1,2,3" line.long 0xC0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_159," hexmask.long.byte 0xC0 24.--31. 1. "CKSRX_F2,Clock stable delay on self-refresh exit. FC=2" newline hexmask.long.byte 0xC0 16.--23. 1. "CKSRE_F2,Clock hold delay on self-refresh entry. FC=2" newline hexmask.long.byte 0xC0 8.--15. 1. "CKSRX_F1,Clock stable delay on self-refresh exit. FC=1" newline hexmask.long.byte 0xC0 0.--7. 1. "CKSRE_F1,Clock hold delay on self-refresh entry. FC=1" line.long 0xC4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_160," hexmask.long.byte 0xC4 24.--27. 1. "LPI_SR_SHORT_WAKEUP_F0,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when LPDDR4 memory is in the self-refresh short state [with or without memory clock gating]. For LPDDR4 SR_SHORT is used to send few commands so this wakeup.." newline hexmask.long.byte 0xC4 16.--19. 1. "LPI_IDLE_WAKEUP_F0,Defines the DFI tLP_CTRL_WAKEUP timing parameter [in DFI clocks] to be driven when controller is idle. FC=0" newline hexmask.long.byte 0xC4 8.--14. 1. "LP_CMD,Low power software command request interface. Bit [0] controls exit bit [1] controls entry bits [4:2] define the low power state bit [5] controls memory clock gating bit [6] controls controller clock gating and bit [7] controls lock. WRITE-ONLY" newline bitfld.long 0xC4 0.--1. "LOWPOWER_REFRESH_ENABLE,Enable refreshes while in low power mode. Bit [0] controls cs0 bit [1] controls cs1 etc. Set each bit to 1 to disable." "0,1,2,3" line.long 0xC8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_161," hexmask.long.byte 0xC8 24.--27. 1. "LPI_SRPD_SHORT_WAKEUP_F0,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when memory is in the self-refresh power-down short state [with or without memory clock gating]. FC=0" newline hexmask.long.byte 0xC8 16.--19. 1. "LPI_PD_WAKEUP_F0,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when memory is in any of the power-down states [with or without memory clock gating]. FC=0" newline hexmask.long.byte 0xC8 8.--11. 1. "LPI_SR_LONG_MCCLK_GATE_WAKEUP_F0,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when memory is in the self-refresh long with memory and controller clock gating state. FC=0" newline hexmask.long.byte 0xC8 0.--3. 1. "LPI_SR_LONG_WAKEUP_F0,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when memory is in the self-refresh long state [with or without memory clock gating]. FC=0" line.long 0xCC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_162," hexmask.long.byte 0xCC 24.--27. 1. "LPI_IDLE_WAKEUP_F1,Defines the DFI tLP_CTRL_WAKEUP timing parameter [in DFI clocks] to be driven when controller is idle. FC=1" newline hexmask.long.byte 0xCC 16.--19. 1. "LPI_TIMER_WAKEUP_F0,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when the LPI timer expires. FC=0" newline hexmask.long.byte 0xCC 8.--11. 1. "LPI_SRPD_LONG_MCCLK_GATE_WAKEUP_F0,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when memory is in the self-refresh power-down long with memory and controller clock gating state. FC=0" newline hexmask.long.byte 0xCC 0.--3. 1. "LPI_SRPD_LONG_WAKEUP_F0,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when memory is in the self-refresh power-down long state [with or without memory clock gating]. FC=0" line.long 0xD0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_163," hexmask.long.byte 0xD0 24.--27. 1. "LPI_PD_WAKEUP_F1,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when memory is in any of the power-down states [with or without memory clock gating]. FC=1" newline hexmask.long.byte 0xD0 16.--19. 1. "LPI_SR_LONG_MCCLK_GATE_WAKEUP_F1,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when memory is in the self-refresh long with memory and controller clock gating state. FC=1" newline hexmask.long.byte 0xD0 8.--11. 1. "LPI_SR_LONG_WAKEUP_F1,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when memory is in the self-refresh long state [with or without memory clock gating]. FC=1" newline hexmask.long.byte 0xD0 0.--3. 1. "LPI_SR_SHORT_WAKEUP_F1,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when LPDDR4 memory is in the self-refresh short state [with or without memory clock gating]. For LPDDR4 SR_SHORT is used to send few commands so this wakeup.." line.long 0xD4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_164," hexmask.long.byte 0xD4 24.--27. 1. "LPI_TIMER_WAKEUP_F1,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when the LPI timer expires. FC=1" newline hexmask.long.byte 0xD4 16.--19. 1. "LPI_SRPD_LONG_MCCLK_GATE_WAKEUP_F1,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when memory is in the self-refresh power-down long with memory and controller clock gating state. FC=1" newline hexmask.long.byte 0xD4 8.--11. 1. "LPI_SRPD_LONG_WAKEUP_F1,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when memory is in the self-refresh power-down long state [with or without memory clock gating]. FC=1" newline hexmask.long.byte 0xD4 0.--3. 1. "LPI_SRPD_SHORT_WAKEUP_F1,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when memory is in the self-refresh power-down short state [with or without memory clock gating]. FC=1" line.long 0xD8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_165," hexmask.long.byte 0xD8 24.--27. 1. "LPI_SR_LONG_MCCLK_GATE_WAKEUP_F2,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when memory is in the self-refresh long with memory and controller clock gating state. FC=2" newline hexmask.long.byte 0xD8 16.--19. 1. "LPI_SR_LONG_WAKEUP_F2,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when memory is in the self-refresh long state [with or without memory clock gating]. FC=2" newline hexmask.long.byte 0xD8 8.--11. 1. "LPI_SR_SHORT_WAKEUP_F2,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when LPDDR4 memory is in the self-refresh short state [with or without memory clock gating]. For LPDDR4 SR_SHORT is used to send few commands so this wakeup.." newline hexmask.long.byte 0xD8 0.--3. 1. "LPI_IDLE_WAKEUP_F2,Defines the DFI tLP_CTRL_WAKEUP timing parameter [in DFI clocks] to be driven when controller is idle. FC=2" line.long 0xDC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_166," hexmask.long.byte 0xDC 24.--27. 1. "LPI_SRPD_LONG_MCCLK_GATE_WAKEUP_F2,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when memory is in the self-refresh power-down long with memory and controller clock gating state. FC=2" newline hexmask.long.byte 0xDC 16.--19. 1. "LPI_SRPD_LONG_WAKEUP_F2,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when memory is in the self-refresh power-down long state [with or without memory clock gating]. FC=2" newline hexmask.long.byte 0xDC 8.--11. 1. "LPI_SRPD_SHORT_WAKEUP_F2,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when memory is in the self-refresh power-down short state [with or without memory clock gating]. FC=2" newline hexmask.long.byte 0xDC 0.--3. 1. "LPI_PD_WAKEUP_F2,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when memory is in any of the power-down states [with or without memory clock gating]. FC=2" line.long 0xE0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_167," bitfld.long 0xE0 16. "LPI_CTRL_REQ_EN,Enables the dfi_lpi_ctrl_req signal for the LPI. This signal is only relevant for DFI versions 3.1 and beyond. Set to 1 to enable or clear to 0 to disable." "0,1" newline hexmask.long.byte 0xE0 8.--13. 1. "LPI_WAKEUP_EN,Enables the various low power state wakeup parameters for LPI request uses. Bit [0] enables controller idle wakeup bit [1] enables power-down wakeup bit [2] enables either self-refresh short self-refresh long with or without mem clk.." newline hexmask.long.byte 0xE0 0.--3. 1. "LPI_TIMER_WAKEUP_F2,Defines the DFI tLP_WAKEUP timing parameter [in DFI clocks] to be driven when the LPI timer expires. FC=2" line.long 0xE4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_168," hexmask.long.word 0xE4 16.--27. 1. "LPI_WAKEUP_TIMEOUT,Defines the LPI timeout time the maximum cycles between a dfi_lp_req de-assertion and a dfi_lp_ack de-assertion. If this value is exceeded an interrupt will occur." newline hexmask.long.word 0xE4 0.--11. 1. "LPI_TIMER_COUNT,Defines the LPI timer count." line.long 0xE8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_169," hexmask.long.byte 0xE8 24.--27. 1. "LP_AUTO_EXIT_EN,Enable auto exit from each of the low power states when a read or write command enters the command queue. Bit [0] controls power-down bit [1] controls self-refresh long or self-refresh power-down long bit [2] controls self-refresh long.." newline hexmask.long.byte 0xE8 16.--19. 1. "LP_AUTO_ENTRY_EN,Enable auto entry into each of the low power states when the associated idle timer expires. Bit [0] controls power-down bit [1] controls self-refresh long or self-refresh power-down long bit [2] controls self-refresh long with memory.." newline hexmask.long.byte 0xE8 8.--14. 1. "LP_STATE,Low power state status parameter. Bits [5:0] indicate the current low power state and bit [6] set indicates that status bits are valid. READ-ONLY" newline bitfld.long 0xE8 0.--2. "TDFI_LP_RESP,Defines the DFI tLP_RESP timing parameter [in DFI clocks] the maximum cycles between a dfi_lp_req assertion and a dfi_lp_ack assertion." "0,1,2,3,4,5,6,7" line.long 0xEC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_170," hexmask.long.word 0xEC 8.--19. 1. "LP_AUTO_PD_IDLE,Defines the idle time [in controller clocks] until the controller will automatically issue an entry into one of the power-down low power states." newline bitfld.long 0xEC 0.--2. "LP_AUTO_MEM_GATE_EN,Enable memory clock gating when entering a low power state via the auto low power counters. Bit [0] controls power-down bit [1] controls self-refresh long or self-refresh power-down long and bit [2] controls self-refresh short or.." "0,1,2,3,4,5,6,7" line.long 0xF0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_171," hexmask.long.byte 0xF0 24.--31. 1. "LP_AUTO_SR_LONG_MC_GATE_IDLE,Defines the idle time [in long counts] until the controller will automatically issue an entry into the self-refresh long with memory and controller clock gating or self-refresh power-down long with memory and controller clock.." newline hexmask.long.byte 0xF0 16.--23. 1. "LP_AUTO_SR_LONG_IDLE,Defines the idle time [in long counts] until the controller will automatically issue an entry into the self-refresh long or self-refresh power-down long [with or without memory clock gating] low power states." newline hexmask.long.word 0xF0 0.--11. 1. "LP_AUTO_SR_SHORT_IDLE,Defines the idle time [in controller clocks] until the controller will automatically issue an entry into the self-refresh short or self-refresh power-down short [with or without memory clock gating] low power states." line.long 0xF4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_172," hexmask.long.word 0xF4 16.--31. 1. "HW_PROMOTE_THRESHOLD_F1,HW interface promotion number of long counts until the high priority request is asserted. FC=1" newline hexmask.long.word 0xF4 0.--15. 1. "HW_PROMOTE_THRESHOLD_F0,HW interface promotion number of long counts until the high priority request is asserted. FC=0" line.long 0xF8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_173," hexmask.long.word 0xF8 16.--31. 1. "LPC_PROMOTE_THRESHOLD_F0,LPC promotion number of long counts until the high priority request is asserted for frequency copy 4. Applies to SW and auto low power commands. FC=0" newline hexmask.long.word 0xF8 0.--15. 1. "HW_PROMOTE_THRESHOLD_F2,HW interface promotion number of long counts until the high priority request is asserted. FC=2" line.long 0xFC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_174," hexmask.long.word 0xFC 16.--31. 1. "LPC_PROMOTE_THRESHOLD_F2,LPC promotion number of long counts until the high priority request is asserted for frequency copy 4. Applies to SW and auto low power commands. FC=2" newline hexmask.long.word 0xFC 0.--15. 1. "LPC_PROMOTE_THRESHOLD_F1,LPC promotion number of long counts until the high priority request is asserted for frequency copy 4. Applies to SW and auto low power commands. FC=1" line.long 0x100 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_175," bitfld.long 0x100 24. "LPC_SR_EXIT_CMD_EN,Enable LPC to execute any of the commands on self-refresh exit while exiting. Set to 1 to enable." "0,1" newline bitfld.long 0x100 16. "LPC_SR_PHYMSTR_EN,Enable LPC to execute a DFI PHY Controller request on a self-refresh exit sequence. Set to 1 to enable." "0,1" newline bitfld.long 0x100 8. "LPC_SR_PHYUPD_EN,Enable LPC to execute a DFI PHY update on a self-refresh exit sequence. Set to 1 to enable." "0,1" newline bitfld.long 0x100 0. "LPC_SR_CTRLUPD_EN,Enable LPC to execute a DFI control update on a self-refresh exit sequence. Set to 1 to enable." "0,1" line.long 0x104 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_176," bitfld.long 0x104 24. "DFS_ENABLE,Enable hardware dynamic frequency scaling. Set to 1 to enable." "0,1" newline hexmask.long.word 0x104 8.--16. 1. "PWRDN_SHIFT_DELAY,This parameter should be programmed to zero. Manual adjustment of inhibit_pwrdn_shift in memcd_strategy_data_delay." newline bitfld.long 0x104 0. "LPC_SR_ZQ_EN,Enable LPC to execute a ZQ calibration on a self-refresh exit sequence. Set to 1 to enable." "0,1" line.long 0x108 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_177," bitfld.long 0x108 8. "DFS_PHY_REG_WRITE_EN,Enable a register write to the PHY during a frequency change. Set to 1 to enable." "0,1" newline bitfld.long 0x108 0.--2. "DFS_DLL_OFF,Defines if the memory DLL must be off for the associated frequency set. Bit [0] corresponds to frequency set 0 bit [1] corresponds to frequency set 1 etc. Set each bit to 1 to require DLL off." "0,1,2,3,4,5,6,7" line.long 0x10C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_178," hexmask.long 0x10C 0.--31. 1. "DFS_PHY_REG_WRITE_ADDR,Register address which will be written during a frequency change. Must be a PHY register address." line.long 0x110 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_179," rbitfld.long 0x110 24.--25. "CURRENT_REG_COPY,Indicates the current copy of timing parameters that is in use by the controller." "0,1,2,3" newline hexmask.long.word 0x110 8.--23. 1. "DFS_PHY_REG_WRITE_WAIT,Defines the number of DFI PHY clocks that the controller will wait after issuing the register write to the PHY during a frequency change." newline hexmask.long.byte 0x110 0.--3. 1. "DFS_PHY_REG_WRITE_MASK,Register mask which will be written during a frequency change." line.long 0x114 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_180," bitfld.long 0x114 8.--9. "DFIBUS_BOOT_FREQ,Defines the DFI bus boot frequency register copy" "0,1,2,3" newline bitfld.long 0x114 0.--1. "INIT_FREQ,Specifies what frequency register copy will be in use by the memory after initialization completes." "0,1,2,3" line.long 0x118 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_181," hexmask.long 0x118 0.--31. 1. "DFS_PHY_REG_WRITE_DATA_F0,Register data which will be written during a frequency change. FC=0" line.long 0x11C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_182," hexmask.long 0x11C 0.--31. 1. "DFS_PHY_REG_WRITE_DATA_F1,Register data which will be written during a frequency change. FC=1" line.long 0x120 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_183," hexmask.long 0x120 0.--31. 1. "DFS_PHY_REG_WRITE_DATA_F2,Register data which will be written during a frequency change. FC=2" line.long 0x124 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_184," hexmask.long.tbyte 0x124 0.--23. 1. "TDFI_INIT_START_F0,Defines the DFI tINIT_START timing parameter [in DFI clocks] the maximum number of cycles between a dfi_init_start assertion and a dfi_init_complete de-assertion from the PHY. FC=0" line.long 0x128 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_185," hexmask.long.tbyte 0x128 0.--23. 1. "TDFI_INIT_COMPLETE_F0,Defines the DFI tINIT_COMPLETE timing parameter [in DFI clocks] the maximum cycles between a dfi_init_start de-assertion and a dfi_init_complete assertion from the PHY. FC=0" line.long 0x12C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_186," hexmask.long.tbyte 0x12C 0.--23. 1. "TDFI_INIT_START_F1,Defines the DFI tINIT_START timing parameter [in DFI clocks] the maximum number of cycles between a dfi_init_start assertion and a dfi_init_complete de-assertion from the PHY. FC=1" line.long 0x130 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_187," hexmask.long.tbyte 0x130 0.--23. 1. "TDFI_INIT_COMPLETE_F1,Defines the DFI tINIT_COMPLETE timing parameter [in DFI clocks] the maximum cycles between a dfi_init_start de-assertion and a dfi_init_complete assertion from the PHY. FC=1" line.long 0x134 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_188," hexmask.long.tbyte 0x134 0.--23. 1. "TDFI_INIT_START_F2,Defines the DFI tINIT_START timing parameter [in DFI clocks] the maximum number of cycles between a dfi_init_start assertion and a dfi_init_complete de-assertion from the PHY. FC=2" line.long 0x138 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_189," hexmask.long.tbyte 0x138 0.--23. 1. "TDFI_INIT_COMPLETE_F2,Defines the DFI tINIT_COMPLETE timing parameter [in DFI clocks] the maximum cycles between a dfi_init_start de-assertion and a dfi_init_complete assertion from the PHY. FC=2" line.long 0x13C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_190," hexmask.long 0x13C 0.--26. 1. "WRITE_MODEREG,Write memory mode register data to the DRAMs. Bits [7:0] define the memory mode register number if bit [23] is set bits [15:8] define the chip select if bit [24] is clear bits [23:16] define which memory mode register/s to write bit [24].." line.long 0x140 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_191," hexmask.long.tbyte 0x140 8.--24. 1. "READ_MODEREG,Read the specified memory mode register from specified chip when start bit set. Bits [7:0] define the memory mode register and bits [15:8] define the chip select. Set bit [16] to 1 to trigger." newline hexmask.long.byte 0x140 0.--7. 1. "MRW_STATUS,Write memory mode register status. Bit [0] set indicates a WRITE_MODEREG parameter programming error. Bit [1] set indicates a PASR error. Bit [2] is Reserved. Bit [3] set indicates a self-refresh or deep power-down error. Bit [4] set indicates.." rgroup.long 0x300++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_192," hexmask.long 0x0 0.--31. 1. "PERIPHERAL_MRR_DATA_0,Data and chip returned from memory mode register read requested by the READ_MODEREG parameter. Bits [7:0] indicate the read data and bits [15:8] indicate the chip. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_193," hexmask.long.word 0x4 8.--23. 1. "AUTO_TEMPCHK_VAL_0,MR4 data for all devices accessed by automatic MRR commands. Bits [3:0] correlate to the device on the lower byte bits [7:4] correlate to the devices on the 2nd byte etc. Value indicates the OP7 OP2 OP1 and OP0 bits. READ-ONLY." newline hexmask.long.byte 0x4 0.--7. 1. "PERIPHERAL_MRR_DATA_1,Data and chip returned from memory mode register read requested by the READ_MODEREG parameter. Bits [7:0] indicate the read data and bits [15:8] indicate the chip. READ-ONLY" group.long 0x308++0x24F line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_194," bitfld.long 0x0 24.--25. "MRW_DFS_UPDATE_FRC,Defines the frequency register set to use when doing a software MRW with WRITE_MODEREG bit [26]." "0,1,2,3" newline bitfld.long 0x0 16. "DISABLE_UPDATE_TVRCG,Bypass changing for TVRCG during a DFS operation. Set to 1 to skip TVRCG." "0,1" newline hexmask.long.word 0x0 0.--15. 1. "AUTO_TEMPCHK_VAL_1,MR4 data for all devices accessed by automatic MRR commands. Bits [3:0] correlate to the device on the lower byte bits [7:4] correlate to the devices on the 2nd byte etc. Value indicates the OP7 OP2 OP1 and OP0 bits. READ-ONLY." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_195," hexmask.long.word 0x4 16.--25. 1. "TVRCG_DISABLE_F0,JEDEC TVRCG_DISABLE time. FC=0" newline hexmask.long.word 0x4 0.--9. 1. "TVRCG_ENABLE_F0,JEDEC TVRCG_ENABLE time. FC=0" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_196," hexmask.long.byte 0x8 24.--28. 1. "TCKFSPX_F0,JEDEC TCKFSPX the frequency set point switching time. FC=0" newline hexmask.long.byte 0x8 16.--20. 1. "TCKFSPE_F0,JEDEC TCKFSPE the frequency set point switching time. FC=0" newline hexmask.long.word 0x8 0.--9. 1. "TFC_F0,JEDEC TFC the frequency set point switching time. FC=0" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_197," hexmask.long.tbyte 0xC 0.--19. 1. "TVREF_LONG_F0,JEDEC TVREF design will always use the long value. FC=0" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_198," hexmask.long.word 0x10 16.--25. 1. "TVRCG_DISABLE_F1,JEDEC TVRCG_DISABLE time. FC=1" newline hexmask.long.word 0x10 0.--9. 1. "TVRCG_ENABLE_F1,JEDEC TVRCG_ENABLE time. FC=1" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_199," hexmask.long.byte 0x14 24.--28. 1. "TCKFSPX_F1,JEDEC TCKFSPX the frequency set point switching time. FC=1" newline hexmask.long.byte 0x14 16.--20. 1. "TCKFSPE_F1,JEDEC TCKFSPE the frequency set point switching time. FC=1" newline hexmask.long.word 0x14 0.--9. 1. "TFC_F1,JEDEC TFC the frequency set point switching time. FC=1" line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_200," hexmask.long.tbyte 0x18 0.--19. 1. "TVREF_LONG_F1,JEDEC TVREF design will always use the long value. FC=1" line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_201," hexmask.long.word 0x1C 16.--25. 1. "TVRCG_DISABLE_F2,JEDEC TVRCG_DISABLE time. FC=2" newline hexmask.long.word 0x1C 0.--9. 1. "TVRCG_ENABLE_F2,JEDEC TVRCG_ENABLE time. FC=2" line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_202," hexmask.long.byte 0x20 24.--28. 1. "TCKFSPX_F2,JEDEC TCKFSPX the frequency set point switching time. FC=2" newline hexmask.long.byte 0x20 16.--20. 1. "TCKFSPE_F2,JEDEC TCKFSPE the frequency set point switching time. FC=2" newline hexmask.long.word 0x20 0.--9. 1. "TFC_F2,JEDEC TFC the frequency set point switching time. FC=2" line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_203," hexmask.long.tbyte 0x24 0.--19. 1. "TVREF_LONG_F2,JEDEC TVREF design will always use the long value. FC=2" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_204," hexmask.long.word 0x28 16.--31. 1. "MRR_PROMOTE_THRESHOLD_F1,MRR promotion number of long counts until the high priority request is asserted. Applies to SW MRR commands. FC=1" newline hexmask.long.word 0x28 0.--15. 1. "MRR_PROMOTE_THRESHOLD_F0,MRR promotion number of long counts until the high priority request is asserted. Applies to SW MRR commands. FC=0" line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_205," hexmask.long.word 0x2C 16.--31. 1. "MRW_PROMOTE_THRESHOLD_F0,MRW promotion number of long counts until the high priority request is asserted. Applies to SW MRW commands. FC=0" newline hexmask.long.word 0x2C 0.--15. 1. "MRR_PROMOTE_THRESHOLD_F2,MRR promotion number of long counts until the high priority request is asserted. Applies to SW MRR commands. FC=2" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_206," hexmask.long.word 0x30 16.--31. 1. "MRW_PROMOTE_THRESHOLD_F2,MRW promotion number of long counts until the high priority request is asserted. Applies to SW MRW commands. FC=2" newline hexmask.long.word 0x30 0.--15. 1. "MRW_PROMOTE_THRESHOLD_F1,MRW promotion number of long counts until the high priority request is asserted. Applies to SW MRW commands. FC=1" line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_207," hexmask.long.tbyte 0x34 8.--24. 1. "MR0_DATA_F0_0,Data to program into memory mode register 0. FC=0" newline bitfld.long 0x34 0. "MR4_DLL_RST,Asserted if DRAM DLL Reset bit resides in MR4." "0,1" line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_208," hexmask.long.tbyte 0x38 0.--16. 1. "MR1_DATA_F0_0,Data to program into memory mode register 1. FC=0" line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_209," hexmask.long.tbyte 0x3C 0.--16. 1. "MR2_DATA_F0_0,Data to program into memory mode register 2. FC=0" line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_210," hexmask.long.tbyte 0x40 0.--16. 1. "MR0_DATA_F1_0,Data to program into memory mode register 0. FC=1" line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_211," hexmask.long.tbyte 0x44 0.--16. 1. "MR1_DATA_F1_0,Data to program into memory mode register 1. FC=1" line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_212," hexmask.long.tbyte 0x48 0.--16. 1. "MR2_DATA_F1_0,Data to program into memory mode register 2. FC=1" line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_213," hexmask.long.tbyte 0x4C 0.--16. 1. "MR0_DATA_F2_0,Data to program into memory mode register 0. FC=2" line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_214," hexmask.long.tbyte 0x50 0.--16. 1. "MR1_DATA_F2_0,Data to program into memory mode register 1. FC=2" line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_215," hexmask.long.tbyte 0x54 0.--16. 1. "MR2_DATA_F2_0,Data to program into memory mode register 2. FC=2" line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_216," hexmask.long.tbyte 0x58 0.--16. 1. "MR0_DATA_F0_1,Data to program into memory mode register 0. FC=0" line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_217," hexmask.long.tbyte 0x5C 0.--16. 1. "MR1_DATA_F0_1,Data to program into memory mode register 1. FC=0" line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_218," hexmask.long.tbyte 0x60 0.--16. 1. "MR2_DATA_F0_1,Data to program into memory mode register 2. FC=0" line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_219," hexmask.long.tbyte 0x64 0.--16. 1. "MR0_DATA_F1_1,Data to program into memory mode register 0. FC=1" line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_220," hexmask.long.tbyte 0x68 0.--16. 1. "MR1_DATA_F1_1,Data to program into memory mode register 1. FC=1" line.long 0x6C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_221," hexmask.long.tbyte 0x6C 0.--16. 1. "MR2_DATA_F1_1,Data to program into memory mode register 2. FC=1" line.long 0x70 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_222," hexmask.long.tbyte 0x70 0.--16. 1. "MR0_DATA_F2_1,Data to program into memory mode register 0. FC=2" line.long 0x74 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_223," hexmask.long.tbyte 0x74 0.--16. 1. "MR1_DATA_F2_1,Data to program into memory mode register 1. FC=2" line.long 0x78 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_224," hexmask.long.tbyte 0x78 0.--16. 1. "MR2_DATA_F2_1,Data to program into memory mode register 2. FC=2" line.long 0x7C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_225," hexmask.long.tbyte 0x7C 0.--16. 1. "MRSINGLE_DATA_0,Data to program into memory mode register single write." line.long 0x80 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_226," hexmask.long.tbyte 0x80 0.--16. 1. "MRSINGLE_DATA_1,Data to program into memory mode register single write." line.long 0x84 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_227," hexmask.long.tbyte 0x84 0.--16. 1. "MR3_DATA_F0_0,Data to program into memory mode register 3. FC=0" line.long 0x88 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_228," hexmask.long.tbyte 0x88 0.--16. 1. "MR3_DATA_F1_0,Data to program into memory mode register 3. FC=1" line.long 0x8C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_229," hexmask.long.tbyte 0x8C 0.--16. 1. "MR3_DATA_F2_0,Data to program into memory mode register 3. FC=2" line.long 0x90 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_230," hexmask.long.tbyte 0x90 0.--16. 1. "MR3_DATA_F0_1,Data to program into memory mode register 3. FC=0" line.long 0x94 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_231," hexmask.long.tbyte 0x94 0.--16. 1. "MR3_DATA_F1_1,Data to program into memory mode register 3. FC=1" line.long 0x98 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_232," hexmask.long.tbyte 0x98 0.--16. 1. "MR3_DATA_F2_1,Data to program into memory mode register 3. FC=2" line.long 0x9C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_233," hexmask.long.tbyte 0x9C 0.--16. 1. "MR4_DATA_F0_0,Data to program into memory mode register 4. FC=0" line.long 0xA0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_234," hexmask.long.tbyte 0xA0 0.--16. 1. "MR4_DATA_F1_0,Data to program into memory mode register 4. FC=1" line.long 0xA4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_235," hexmask.long.tbyte 0xA4 0.--16. 1. "MR4_DATA_F2_0,Data to program into memory mode register 4. FC=2" line.long 0xA8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_236," hexmask.long.tbyte 0xA8 0.--16. 1. "MR4_DATA_F0_1,Data to program into memory mode register 4. FC=0" line.long 0xAC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_237," hexmask.long.tbyte 0xAC 0.--16. 1. "MR4_DATA_F1_1,Data to program into memory mode register 4. FC=1" line.long 0xB0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_238," hexmask.long.tbyte 0xB0 0.--16. 1. "MR4_DATA_F2_1,Data to program into memory mode register 4. FC=2" line.long 0xB4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_239," hexmask.long.tbyte 0xB4 0.--16. 1. "MR5_DATA_F0_0,Data to program into memory mode register 5. FC=0" line.long 0xB8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_240," hexmask.long.tbyte 0xB8 0.--16. 1. "MR5_DATA_F1_0,Data to program into memory mode register 5. FC=1" line.long 0xBC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_241," hexmask.long.tbyte 0xBC 0.--16. 1. "MR5_DATA_F2_0,Data to program into memory mode register 5. FC=2" line.long 0xC0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_242," hexmask.long.tbyte 0xC0 0.--16. 1. "MR5_DATA_F0_1,Data to program into memory mode register 5. FC=0" line.long 0xC4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_243," hexmask.long.tbyte 0xC4 0.--16. 1. "MR5_DATA_F1_1,Data to program into memory mode register 5. FC=1" line.long 0xC8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_244," hexmask.long.tbyte 0xC8 0.--16. 1. "MR5_DATA_F2_1,Data to program into memory mode register 5. FC=2" line.long 0xCC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_245," hexmask.long.tbyte 0xCC 0.--16. 1. "MR6_DATA_F0_0,Data to program into memory mode register 6. FC=0" line.long 0xD0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_246," hexmask.long.tbyte 0xD0 0.--16. 1. "MR6_DATA_F1_0,Data to program into memory mode register 6. FC=1" line.long 0xD4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_247," hexmask.long.tbyte 0xD4 0.--16. 1. "MR6_DATA_F2_0,Data to program into memory mode register 6. FC=2" line.long 0xD8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_248," hexmask.long.tbyte 0xD8 0.--16. 1. "MR6_DATA_F0_1,Data to program into memory mode register 6. FC=0" line.long 0xDC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_249," hexmask.long.tbyte 0xDC 0.--16. 1. "MR6_DATA_F1_1,Data to program into memory mode register 6. FC=1" line.long 0xE0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_250," hexmask.long.byte 0xE0 24.--31. 1. "MR8_DATA_0,Data to program into memory mode register 8 for each chip select. READ-ONLY." newline hexmask.long.tbyte 0xE0 0.--16. 1. "MR6_DATA_F2_1,Data to program into memory mode register 6. FC=2" line.long 0xE4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_251," hexmask.long.tbyte 0xE4 8.--24. 1. "MR10_DATA_F0_0,Data to program into memory mode register 10. FC=0" newline hexmask.long.byte 0xE4 0.--7. 1. "MR8_DATA_1,Data to program into memory mode register 8 for each chip select. READ-ONLY." line.long 0xE8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_252," hexmask.long.tbyte 0xE8 0.--16. 1. "MR10_DATA_F1_0,Data to program into memory mode register 10. FC=1" line.long 0xEC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_253," hexmask.long.tbyte 0xEC 0.--16. 1. "MR10_DATA_F2_0,Data to program into memory mode register 10. FC=2" line.long 0xF0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_254," hexmask.long.tbyte 0xF0 0.--16. 1. "MR10_DATA_F0_1,Data to program into memory mode register 10. FC=0" line.long 0xF4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_255," hexmask.long.tbyte 0xF4 0.--16. 1. "MR10_DATA_F1_1,Data to program into memory mode register 10. FC=1" line.long 0xF8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_256," hexmask.long.byte 0xF8 24.--31. 1. "MR11_DATA_F0_0,Data to program into memory mode register 11. FC=0" newline hexmask.long.tbyte 0xF8 0.--16. 1. "MR10_DATA_F2_1,Data to program into memory mode register 10. FC=2" line.long 0xFC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_257," hexmask.long.byte 0xFC 24.--31. 1. "MR11_DATA_F1_1,Data to program into memory mode register 11. FC=1" newline hexmask.long.byte 0xFC 16.--23. 1. "MR11_DATA_F0_1,Data to program into memory mode register 11. FC=0" newline hexmask.long.byte 0xFC 8.--15. 1. "MR11_DATA_F2_0,Data to program into memory mode register 11. FC=2" newline hexmask.long.byte 0xFC 0.--7. 1. "MR11_DATA_F1_0,Data to program into memory mode register 11. FC=1" line.long 0x100 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_258," hexmask.long.tbyte 0x100 8.--24. 1. "MR12_DATA_F0_0,Data to program into memory mode register 12. FC=0" newline hexmask.long.byte 0x100 0.--7. 1. "MR11_DATA_F2_1,Data to program into memory mode register 11. FC=2" line.long 0x104 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_259," hexmask.long.tbyte 0x104 0.--16. 1. "MR12_DATA_F1_0,Data to program into memory mode register 12. FC=1" line.long 0x108 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_260," hexmask.long.tbyte 0x108 0.--16. 1. "MR12_DATA_F2_0,Data to program into memory mode register 12. FC=2" line.long 0x10C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_261," hexmask.long.tbyte 0x10C 0.--16. 1. "MR12_DATA_F0_1,Data to program into memory mode register 12. FC=0" line.long 0x110 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_262," hexmask.long.tbyte 0x110 0.--16. 1. "MR12_DATA_F1_1,Data to program into memory mode register 12. FC=1" line.long 0x114 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_263," hexmask.long.tbyte 0x114 0.--16. 1. "MR12_DATA_F2_1,Data to program into memory mode register 12. FC=2" line.long 0x118 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_264," hexmask.long.tbyte 0x118 0.--16. 1. "MR13_DATA_0,Data to program into memory mode register 13." line.long 0x11C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_265," hexmask.long.tbyte 0x11C 0.--16. 1. "MR13_DATA_1,Data to program into memory mode register 13." line.long 0x120 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_266," hexmask.long.tbyte 0x120 0.--16. 1. "MR14_DATA_F0_0,Data to program into memory mode register 14. FC=0" line.long 0x124 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_267," hexmask.long.tbyte 0x124 0.--16. 1. "MR14_DATA_F1_0,Data to program into memory mode register 14. FC=1" line.long 0x128 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_268," hexmask.long.tbyte 0x128 0.--16. 1. "MR14_DATA_F2_0,Data to program into memory mode register 14. FC=2" line.long 0x12C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_269," hexmask.long.tbyte 0x12C 0.--16. 1. "MR14_DATA_F0_1,Data to program into memory mode register 14. FC=0" line.long 0x130 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_270," hexmask.long.tbyte 0x130 0.--16. 1. "MR14_DATA_F1_1,Data to program into memory mode register 14. FC=1" line.long 0x134 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_271," hexmask.long.byte 0x134 24.--31. 1. "MR16_DATA_0,Data to program into memory mode register 16." newline hexmask.long.tbyte 0x134 0.--16. 1. "MR14_DATA_F2_1,Data to program into memory mode register 14. FC=2" line.long 0x138 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_272," hexmask.long.byte 0x138 24.--31. 1. "MR20_DATA_0,Data to program into memory mode register 20." newline hexmask.long.byte 0x138 16.--23. 1. "MR17_DATA_1,Data to program into memory mode register 17." newline hexmask.long.byte 0x138 8.--15. 1. "MR17_DATA_0,Data to program into memory mode register 17." newline hexmask.long.byte 0x138 0.--7. 1. "MR16_DATA_1,Data to program into memory mode register 16." line.long 0x13C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_273," hexmask.long.tbyte 0x13C 8.--24. 1. "MR22_DATA_F0_0,Data to program into memory mode register 22. FC=0" newline hexmask.long.byte 0x13C 0.--7. 1. "MR20_DATA_1,Data to program into memory mode register 20." line.long 0x140 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_274," hexmask.long.tbyte 0x140 0.--16. 1. "MR22_DATA_F1_0,Data to program into memory mode register 22. FC=1" line.long 0x144 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_275," hexmask.long.tbyte 0x144 0.--16. 1. "MR22_DATA_F2_0,Data to program into memory mode register 22. FC=2" line.long 0x148 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_276," hexmask.long.tbyte 0x148 0.--16. 1. "MR22_DATA_F0_1,Data to program into memory mode register 22. FC=0" line.long 0x14C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_277," hexmask.long.tbyte 0x14C 0.--16. 1. "MR22_DATA_F1_1,Data to program into memory mode register 22. FC=1" line.long 0x150 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_278," hexmask.long.tbyte 0x150 0.--16. 1. "MR22_DATA_F2_1,Data to program into memory mode register 22. FC=2" line.long 0x154 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_279," bitfld.long 0x154 24. "MR_FSP_DATA_VALID_F0,Indicates that at this frequency memory was trained and the associated data has been loaded into the MRx_DATA parameter[s]. Value of 1 means memory was trained. FC=0" "0,1" newline hexmask.long.tbyte 0x154 0.--16. 1. "MR23_DATA,Data to program into memory mode register 23." line.long 0x158 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_280," rbitfld.long 0x158 24. "DFS_FSP_INSYNC_INACTIVE,When cleared this indicates that the contents in memcd_param is new that the values in memory's MRx FSP reg and if a dfs occurs they need to be updated. READ-ONLY" "0,1" newline rbitfld.long 0x158 16. "DFS_FSP_INSYNC_ACTIVE,When cleared this indicates that the contents in memcd_param is new that the values in memory's MRx FSP reg and if a dfs occurs they need to be updated. READ-ONLY" "0,1" newline bitfld.long 0x158 8. "MR_FSP_DATA_VALID_F2,Indicates that at this frequency memory was trained and the associated data has been loaded into the MRx_DATA parameter[s]. Value of 1 means memory was trained. FC=2" "0,1" newline bitfld.long 0x158 0. "MR_FSP_DATA_VALID_F1,Indicates that at this frequency memory was trained and the associated data has been loaded into the MRx_DATA parameter[s]. Value of 1 means memory was trained. FC=1" "0,1" line.long 0x15C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_281," bitfld.long 0x15C 24. "FSP_OP_CURRENT,Reports which FSP set the memory is currently using." "0,1" newline bitfld.long 0x15C 16. "FSP_STATUS,Indicates that a DFS event caused the FSP mode registers to be updated. Value of 1 means that the FSP mode registers were changed." "0,1" newline bitfld.long 0x15C 8. "DFS_ALWAYS_WRITE_FSP,Forces all FSP mode registers to be written by the controller during a DFS event. Set to 1 to force the write." "0,1" newline bitfld.long 0x15C 0. "FSP_PHY_UPDATE_MRW,Identifies the logic responsible for updating MR12 and MR14 in memory. Clear to 0 for the controller or set to 1 for the PHY or PI." "0,1" line.long 0x160 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_282," bitfld.long 0x160 24.--25. "FSP0_FRC,Identifies which of the controller's frequency copy is associated with FSP0." "0,1,2,3" newline bitfld.long 0x160 16. "FSP1_FRC_VALID,Specifies whether the FSP set defined in the FSP1_FRC parameter reflects the frequency used to program the FSP1 registers." "0,1" newline bitfld.long 0x160 8. "FSP0_FRC_VALID,Specifies whether the FSP set defined in the FSP0_FRC parameter reflects the frequency used to program the FSP0 registers." "0,1" newline bitfld.long 0x160 0. "FSP_WR_CURRENT,Reports which FSP set the memory will target with write commands." "0,1" line.long 0x164 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_283," hexmask.long.byte 0x164 24.--29. 1. "ADDR_SPACE,Sets the number of address bits to check during BIST operation." newline rbitfld.long 0x164 16.--17. "BIST_RESULT,BIST operation status [pass/fail]. Bit [0] indicates data check status and bit [1] indicates address check status. Value of 1 is a passing result. READ-ONLY" "0,1,2,3" newline bitfld.long 0x164 8. "BIST_GO,Initiate a BIST operation. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0x164 0.--1. "FSP1_FRC,Identifies which of the controller's frequency copy is associated with FSP1." "0,1,2,3" line.long 0x168 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_284," bitfld.long 0x168 8. "BIST_ADDR_CHECK,Enable address checking with BIST operation. Set to 1 to enable." "0,1" newline bitfld.long 0x168 0. "BIST_DATA_CHECK,Enable data checking with BIST operation. Set to 1 to enable." "0,1" line.long 0x16C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_285," hexmask.long 0x16C 0.--31. 1. "BIST_START_ADDRESS_0,Start BIST checking at this address." line.long 0x170 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_286," bitfld.long 0x170 0.--2. "BIST_START_ADDRESS_1,Start BIST checking at this address." "0,1,2,3,4,5,6,7" line.long 0x174 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_287," hexmask.long 0x174 0.--31. 1. "BIST_DATA_MASK_0,Mask applied to data for BIST error checking. Bit [0] controls memory data path bit [0] bit [1] controls memory data path bit [1] etc. Set each bit to 1 to mask." line.long 0x178 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_288," hexmask.long 0x178 0.--31. 1. "BIST_DATA_MASK_1,Mask applied to data for BIST error checking. Bit [0] controls memory data path bit [0] bit [1] controls memory data path bit [1] etc. Set each bit to 1 to mask." line.long 0x17C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_289," bitfld.long 0x17C 0.--2. "BIST_TEST_MODE,Sets the BIST test mode. Value of 0 specifies standard BIST operation value of 1 specifies a reduced BIST operation value of 2 specifies a self-refresh retention test value of 3 specifies an idle retention test and value of 4 specifies.." "0,1,2,3,4,5,6,7" line.long 0x180 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_290," hexmask.long 0x180 0.--31. 1. "BIST_DATA_PATTERN_0,Data pattern to be used when the BIST_TEST_MODE parameter is programmed to 1 2 3 or 4. Only data corresponding to active portion of core word will be used while inactive portion will be ignored." line.long 0x184 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_291," hexmask.long 0x184 0.--31. 1. "BIST_DATA_PATTERN_1,Data pattern to be used when the BIST_TEST_MODE parameter is programmed to 1 2 3 or 4. Only data corresponding to active portion of core word will be used while inactive portion will be ignored." line.long 0x188 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_292," hexmask.long 0x188 0.--31. 1. "BIST_DATA_PATTERN_2,Data pattern to be used when the BIST_TEST_MODE parameter is programmed to 1 2 3 or 4. Only data corresponding to active portion of core word will be used while inactive portion will be ignored." line.long 0x18C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_293," hexmask.long 0x18C 0.--31. 1. "BIST_DATA_PATTERN_3,Data pattern to be used when the BIST_TEST_MODE parameter is programmed to 1 2 3 or 4. Only data corresponding to active portion of core word will be used while inactive portion will be ignored." line.long 0x190 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_294," hexmask.long.word 0x190 8.--19. 1. "BIST_ERR_STOP,Defines the maximum number of error occurrences allowed prior to quitting when the BIST_TEST_MODE parameter is programmed to 1 2 or 3. A value of 0 will allow the test to run to completion." newline rbitfld.long 0x190 0. "BIST_RET_STATE,Indicates if BIST is in a retention wait state used when the BIST_TEST_MODE parameter is programmed to 2 or 3. Value of 1 indicates BIST is waiting. READ-ONLY" "0,1" line.long 0x194 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_295," hexmask.long.byte 0x194 24.--28. 1. "LONG_COUNT_MASK,Reduces the length of the long counter from 1024 cycles. The only supported values are 0x00 [1024 cycles] 0x10 [512 clocks] 0x18 [256 clocks] 0x1C [128 clocks] 0x1E [64 clocks] and 0x1F [32 clocks]." newline bitfld.long 0x194 16. "BIST_RET_STATE_EXIT,Exit self-refresh or idle retention state used when the BIST_TEST_MODE parameter is programmed to 2 or 3. Set to 1 to trigger. WRITE-ONLY" "0,1" newline hexmask.long.word 0x194 0.--11. 1. "BIST_ERR_COUNT,Indicates the number of BIST errors found when the BIST_TEST_MODE parameter is programmed to 1 2 or 3. READ-ONLY" line.long 0x198 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_296," hexmask.long.byte 0x198 24.--28. 1. "AREF_MAX_CREDIT,AREF number of posted refreshes until the maximum number of refresh credits has been reached." newline hexmask.long.byte 0x198 16.--20. 1. "AREF_MAX_DEFICIT,AREF number of pending refreshes until the maximum number of refreshes has been exceeded." newline hexmask.long.byte 0x198 8.--12. 1. "AREF_HIGH_THRESHOLD,AREF number of pending refreshes until the high priority request is asserted." newline hexmask.long.byte 0x198 0.--4. 1. "AREF_NORM_THRESHOLD,AREF number of pending refreshes until the normal priority request is asserted." line.long 0x19C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_297," hexmask.long.word 0x19C 16.--31. 1. "ZQ_CALSTART_NORM_THRESHOLD_F0,ZQ START number of long counts until the normal priority request is asserted. This value should be scaled based on the number of ranks [chip selects] the controller handles. The more chip selects there are the more.." newline bitfld.long 0x19C 8.--10. "ZQCS_OPT_THRESHOLD,Number of clocks before ZQCS expires when the ZQ task will deassert its request for optimal command to command turn-around timing." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x19C 0.--3. 1. "AREF_CMD_MAX_PER_TREFI,Sets the maximum number of auto-refreshes that will be executed in a TREFI period - both normal and high priority. This does not prevent refreshes generated by sub-task requests such as a self-refresh exit and enter." line.long 0x1A0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_298," hexmask.long.word 0x1A0 16.--31. 1. "ZQ_CALLATCH_HIGH_THRESHOLD_F0,ZQ LATCH number of long counts until the high priority request is asserted. FC=0" newline hexmask.long.word 0x1A0 0.--15. 1. "ZQ_CALSTART_HIGH_THRESHOLD_F0,ZQ START number of long counts until the high priority request is asserted. FC=0" line.long 0x1A4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_299," hexmask.long.word 0x1A4 16.--31. 1. "ZQ_CS_HIGH_THRESHOLD_F0,ZQ CS number of long counts until the high priority request is asserted. FC=0" newline hexmask.long.word 0x1A4 0.--15. 1. "ZQ_CS_NORM_THRESHOLD_F0,ZQ CS number of long counts until the normal priority request is asserted. FC=0" line.long 0x1A8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_300," hexmask.long.word 0x1A8 16.--31. 1. "ZQ_CALLATCH_TIMEOUT_F0,ZQ LATCH number of long counts until the timeout is asserted. FC=0" newline hexmask.long.word 0x1A8 0.--15. 1. "ZQ_CALSTART_TIMEOUT_F0,ZQ START number of long counts until the timeout is asserted. FC=0" line.long 0x1AC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_301," hexmask.long.word 0x1AC 16.--31. 1. "ZQ_PROMOTE_THRESHOLD_F0,ZQ SW promotion number of long counts until the high priority request is asserted. FC=0" newline hexmask.long.word 0x1AC 0.--15. 1. "ZQ_CS_TIMEOUT_F0,ZQ CS number of long counts until the timeout is asserted. FC=0" line.long 0x1B0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_302," hexmask.long.word 0x1B0 16.--31. 1. "ZQ_CALSTART_HIGH_THRESHOLD_F1,ZQ START number of long counts until the high priority request is asserted. FC=1" newline hexmask.long.word 0x1B0 0.--15. 1. "ZQ_CALSTART_NORM_THRESHOLD_F1,ZQ START number of long counts until the normal priority request is asserted. This value should be scaled based on the number of ranks [chip selects] the controller handles. The more chip selects there are the more.." line.long 0x1B4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_303," hexmask.long.word 0x1B4 16.--31. 1. "ZQ_CS_NORM_THRESHOLD_F1,ZQ CS number of long counts until the normal priority request is asserted. FC=1" newline hexmask.long.word 0x1B4 0.--15. 1. "ZQ_CALLATCH_HIGH_THRESHOLD_F1,ZQ LATCH number of long counts until the high priority request is asserted. FC=1" line.long 0x1B8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_304," hexmask.long.word 0x1B8 16.--31. 1. "ZQ_CALSTART_TIMEOUT_F1,ZQ START number of long counts until the timeout is asserted. FC=1" newline hexmask.long.word 0x1B8 0.--15. 1. "ZQ_CS_HIGH_THRESHOLD_F1,ZQ CS number of long counts until the high priority request is asserted. FC=1" line.long 0x1BC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_305," hexmask.long.word 0x1BC 16.--31. 1. "ZQ_CS_TIMEOUT_F1,ZQ CS number of long counts until the timeout is asserted. FC=1" newline hexmask.long.word 0x1BC 0.--15. 1. "ZQ_CALLATCH_TIMEOUT_F1,ZQ LATCH number of long counts until the timeout is asserted. FC=1" line.long 0x1C0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_306," hexmask.long.word 0x1C0 16.--31. 1. "ZQ_CALSTART_NORM_THRESHOLD_F2,ZQ START number of long counts until the normal priority request is asserted. This value should be scaled based on the number of ranks [chip selects] the controller handles. The more chip selects there are the more.." newline hexmask.long.word 0x1C0 0.--15. 1. "ZQ_PROMOTE_THRESHOLD_F1,ZQ SW promotion number of long counts until the high priority request is asserted. FC=1" line.long 0x1C4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_307," hexmask.long.word 0x1C4 16.--31. 1. "ZQ_CALLATCH_HIGH_THRESHOLD_F2,ZQ LATCH number of long counts until the high priority request is asserted. FC=2" newline hexmask.long.word 0x1C4 0.--15. 1. "ZQ_CALSTART_HIGH_THRESHOLD_F2,ZQ START number of long counts until the high priority request is asserted. FC=2" line.long 0x1C8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_308," hexmask.long.word 0x1C8 16.--31. 1. "ZQ_CS_HIGH_THRESHOLD_F2,ZQ CS number of long counts until the high priority request is asserted. FC=2" newline hexmask.long.word 0x1C8 0.--15. 1. "ZQ_CS_NORM_THRESHOLD_F2,ZQ CS number of long counts until the normal priority request is asserted. FC=2" line.long 0x1CC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_309," hexmask.long.word 0x1CC 16.--31. 1. "ZQ_CALLATCH_TIMEOUT_F2,ZQ LATCH number of long counts until the timeout is asserted. FC=2" newline hexmask.long.word 0x1CC 0.--15. 1. "ZQ_CALSTART_TIMEOUT_F2,ZQ START number of long counts until the timeout is asserted. FC=2" line.long 0x1D0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_310," hexmask.long.word 0x1D0 16.--31. 1. "ZQ_PROMOTE_THRESHOLD_F2,ZQ SW promotion number of long counts until the high priority request is asserted. FC=2" newline hexmask.long.word 0x1D0 0.--15. 1. "ZQ_CS_TIMEOUT_F2,ZQ CS number of long counts until the timeout is asserted. FC=2" line.long 0x1D4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_311," hexmask.long.word 0x1D4 8.--19. 1. "ZQINIT_F0,Number of cycles needed for a ZQINIT command. FC=0" newline hexmask.long.byte 0x1D4 0.--7. 1. "TIMEOUT_TIMER_LOG,Reflects which timers experienced a timeout error [or had an uncleared error] when the timeout interrupt fired. Bit [0] correlates to a ZQ cal init cs cl or reset FM timeout. Bit [1] correlates to the ZQ calstart FM timeout. Bit.." line.long 0x1D8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_312," hexmask.long.word 0x1D8 16.--27. 1. "ZQCS_F0,Number of cycles needed for a ZQCS command. FC=0" newline hexmask.long.word 0x1D8 0.--11. 1. "ZQCL_F0,Number of cycles needed for a ZQCL command. FC=0" line.long 0x1DC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_313," hexmask.long.byte 0x1DC 16.--22. 1. "TZQLAT_F0,Holds the DRAM ZQLAT value in cycles. FC=0" newline hexmask.long.word 0x1DC 0.--11. 1. "TZQCAL_F0,Holds the DRAM ZQCAL value in cycles. FC=0" line.long 0x1E0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_314," hexmask.long.word 0x1E0 16.--27. 1. "ZQCL_F1,Number of cycles needed for a ZQCL command. FC=1" newline hexmask.long.word 0x1E0 0.--11. 1. "ZQINIT_F1,Number of cycles needed for a ZQINIT command. FC=1" line.long 0x1E4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_315," hexmask.long.word 0x1E4 16.--27. 1. "TZQCAL_F1,Holds the DRAM ZQCAL value in cycles. FC=1" newline hexmask.long.word 0x1E4 0.--11. 1. "ZQCS_F1,Number of cycles needed for a ZQCS command. FC=1" line.long 0x1E8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_316," hexmask.long.word 0x1E8 8.--19. 1. "ZQINIT_F2,Number of cycles needed for a ZQINIT command. FC=2" newline hexmask.long.byte 0x1E8 0.--6. 1. "TZQLAT_F1,Holds the DRAM ZQLAT value in cycles. FC=1" line.long 0x1EC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_317," hexmask.long.word 0x1EC 16.--27. 1. "ZQCS_F2,Number of cycles needed for a ZQCS command. FC=2" newline hexmask.long.word 0x1EC 0.--11. 1. "ZQCL_F2,Number of cycles needed for a ZQCL command. FC=2" line.long 0x1F0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_318," bitfld.long 0x1F0 24.--25. "ZQ_SW_REQ_START_LATCH_MAP,Specifies which chip selects will simultaneously receive a ZQ start or latch command once the ZQ_REQ parameter is written with a ZQ Start or ZQ Latch command." "0,1,2,3" newline hexmask.long.byte 0x1F0 16.--22. 1. "TZQLAT_F2,Holds the DRAM ZQLAT value in cycles. FC=2" newline hexmask.long.word 0x1F0 0.--11. 1. "TZQCAL_F2,Holds the DRAM ZQCAL value in cycles. FC=2" line.long 0x1F4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_319," hexmask.long.word 0x1F4 16.--27. 1. "ZQRESET_F0,Number of cycles needed for a ZQRESET command. FC=0" newline rbitfld.long 0x1F4 8. "ZQ_REQ_PENDING,Indicates that a ZQ command is currently in progress or waiting to run. Value of 1 indicates command in progress or waiting to run. When this is asserted no writes to ZQ_REQ should occur. READ-ONLY" "0,1" newline hexmask.long.byte 0x1F4 0.--3. 1. "ZQ_REQ,User request to initiate a ZQ calibration. Program to 3 for ZQ Start program to 4 for ZQ Initialization [ZQINIT] program to 5 for ZQ Latch or program to 8 for ZQ Reset. Clearing to 0 will not trigger any ZQ command. This parameter should only.." line.long 0x1F8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_320," hexmask.long.word 0x1F8 16.--27. 1. "ZQRESET_F2,Number of cycles needed for a ZQRESET command. FC=2" newline hexmask.long.word 0x1F8 0.--11. 1. "ZQRESET_F1,Number of cycles needed for a ZQRESET command. FC=1" line.long 0x1FC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_321," bitfld.long 0x1FC 24.--25. "ZQ_CAL_LATCH_MAP_0,Defines which chip select[s] will receive ZQ calibration latch commands simultaneously on iteration 0 of the ZQ LATCH initialization and periodic command sequences. Clear to all zeros for no ZQ LATCH commands. CS=0" "0,1,2,3" newline bitfld.long 0x1FC 16.--17. "ZQ_CAL_START_MAP_0,Defines which chip select[s] will receive ZQ calibration start commands simultaneously on iteration 0 of the ZQ START initialization and periodic command sequences. Clear to all zeros for no ZQ START commands. CS=0" "0,1,2,3" newline bitfld.long 0x1FC 8. "ZQCS_ROTATE,For memories that perform ZQ short commands [ZQCS] selects whether a ZQCS command will calibrate just one chip select or all chip selects. When rotation is off all chip selects will be calibrated requiring a longer time frame but ZQ.." "0,1" newline bitfld.long 0x1FC 0. "NO_ZQ_INIT,Disable ZQ operations during initialization. Set to 1 to disable." "0,1" line.long 0x200 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_322," bitfld.long 0x200 24.--25. "BANK_DIFF_1,Encoded number of banks on the DRAM[s]." "0,1,2,3" newline bitfld.long 0x200 16.--17. "BANK_DIFF_0,Encoded number of banks on the DRAM[s]." "0,1,2,3" newline bitfld.long 0x200 8.--9. "ZQ_CAL_LATCH_MAP_1,Defines which chip select[s] will receive ZQ calibration latch commands simultaneously on iteration 1 of the ZQ LATCH initialization and periodic command sequences. Clear to all zeros for no ZQ LATCH commands. CS=1" "0,1,2,3" newline bitfld.long 0x200 0.--1. "ZQ_CAL_START_MAP_1,Defines which chip select[s] will receive ZQ calibration start commands simultaneously on iteration 1 of the ZQ START initialization and periodic command sequences. Clear to all zeros for no ZQ START commands. CS=1" "0,1,2,3" line.long 0x204 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_323," hexmask.long.byte 0x204 24.--27. 1. "COL_DIFF_1,Difference between number of column pins available and number being used." newline hexmask.long.byte 0x204 16.--19. 1. "COL_DIFF_0,Difference between number of column pins available and number being used." newline bitfld.long 0x204 8.--10. "ROW_DIFF_1,Difference between number of address pins available and number being used." "0,1,2,3,4,5,6,7" newline bitfld.long 0x204 0.--2. "ROW_DIFF_0,Difference between number of address pins available and number being used." "0,1,2,3,4,5,6,7" line.long 0x208 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_324," hexmask.long.word 0x208 16.--31. 1. "CS_VAL_UPPER_0,Upper bound address for chip select 0." newline hexmask.long.word 0x208 0.--15. 1. "CS_VAL_LOWER_0,Lower bound address for chip select 0." line.long 0x20C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_325," hexmask.long.word 0x20C 8.--23. 1. "CS_MSK_0,Mask applied to the address decode for chip select 0." newline bitfld.long 0x20C 0.--1. "ROW_START_VAL_0,Row start value for chip select 0." "0,1,2,3" line.long 0x210 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_326," hexmask.long.word 0x210 16.--31. 1. "CS_VAL_UPPER_1,Upper bound address for chip select 1." newline hexmask.long.word 0x210 0.--15. 1. "CS_VAL_LOWER_1,Lower bound address for chip select 1." line.long 0x214 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_327," bitfld.long 0x214 24.--25. "CS_MAP_NON_POW2,Defines which chip selects are non-power-of-2 memory sizes." "0,1,2,3" newline hexmask.long.word 0x214 8.--23. 1. "CS_MSK_1,Mask applied to the address decode for chip select 1." newline bitfld.long 0x214 0.--1. "ROW_START_VAL_1,Row start value for chip select 1." "0,1,2,3" line.long 0x218 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_328," hexmask.long.byte 0x218 24.--28. 1. "APREBIT,Location of the auto pre-charge bit in the DRAM address." newline bitfld.long 0x218 0. "CS_LOWER_ADDR_EN,Enables moving the CS field to lower in the address map. When set to 1 the memory address map will be changed to ROW__CS__BANK. Please refer to the limitations before setting this bit." "0,1" line.long 0x21C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_329," bitfld.long 0x21C 24. "ADDR_COLLISION_MPM_DIS,Disable address collision detection extension using micro page mask for command queue placement and selection. Set to 1 to disable." "0,1" newline bitfld.long 0x21C 16. "ADDR_CMP_EN,Enable address collision detection as a rule for command queue placement. Set to 1 to enable." "0,1" newline hexmask.long.byte 0x21C 8.--15. 1. "COMMAND_AGE_COUNT,Initial value of individual command aging counters for command aging." newline hexmask.long.byte 0x21C 0.--7. 1. "AGE_COUNT,Initial value of controller aging-rate counter for command aging." line.long 0x220 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_330," bitfld.long 0x220 24. "RW_SAME_EN,Enable read/write grouping as a rule for command queue placement. Set to 1 to enable." "0,1" newline bitfld.long 0x220 16. "PRIORITY_EN,Enable priority as a rule for command queue placement. Set to 1 to enable." "0,1" newline bitfld.long 0x220 8. "PLACEMENT_EN,Enable placement logic for command queue. Set to 1 to enable." "0,1" newline bitfld.long 0x220 0. "BANK_SPLIT_EN,Enable bank splitting as a rule for command queue placement. Set to 1 to enable." "0,1" line.long 0x224 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_331," bitfld.long 0x224 24.--25. "DISABLE_RW_GROUP_W_BNK_CONFLICT,Disables placement to read/write group when grouping creates a bank collision. Bit [0] controls placement next to bank conflict command and bit [1] controls placement 2 away from bank conflict command. Set each bit to 1 to.." "0,1,2,3" newline bitfld.long 0x224 16. "W2R_SPLIT_EN,Enable splitting of commands to the same chip select from a write to a read command as a rule for command queue placement." "0,1" newline bitfld.long 0x224 8. "CS_SAME_EN,Enable chip select grouping when read/write grouping as a rule for command queue placement. This is only valid when the RW_SAME_EN parameter is set. Set to 1 to enable." "0,1" newline bitfld.long 0x224 0. "RW_SAME_PAGE_EN,Enable page grouping when read/write grouping as a rule for command queue placement. This is only valid when the RW_SAME_EN parameter is set. Set to 1 to enable." "0,1" line.long 0x228 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_332," bitfld.long 0x228 24.--25. "INHIBIT_DRAM_CMD,Inhibit command types from being executed from the command queue. Clear to 0 to enable any command program to 1 to inhibit read/write and bank commands program to 2 to inhibit MRR and peripheral MRR commands or program to 3 to inhibit.." "0,1,2,3" newline bitfld.long 0x228 16. "DISABLE_RD_INTERLEAVE,Disable read data interleaving for commands from the same port regardless of the requestor ID." "0,1" newline bitfld.long 0x228 8. "SWAP_EN,Enable command swapping logic in execution unit. Set to 1 to enable." "0,1" newline hexmask.long.byte 0x228 0.--4. 1. "NUM_Q_ENTRIES_ACT_DISABLE,Number of queue entries in which ACT requests will be disabled. Programming to X will disable ACT requests from the X entries lowest in the command queue." line.long 0x22C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_333," bitfld.long 0x22C 24.--26. "MEMDATA_RATIO_0,Defines the ratio of the DRAM device size on chip select 0 to the memory data width. Program with the log2 ratio of the memory data width to the device data width. CS=0" "0,1,2,3,4,5,6,7" newline bitfld.long 0x22C 16. "MEM_DP_REDUCTION,Enable the half datapath feature of the controller. Set to 1 to enable." "0,1" newline hexmask.long.byte 0x22C 8.--11. 1. "BURST_ON_FLY_BIT,Identifies the burst-on-fly bit in the memory mode registers." newline bitfld.long 0x22C 0.--1. "CS_MAP,Defines which chip selects are active." "0,1,2,3" line.long 0x230 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_334," hexmask.long.byte 0x230 24.--27. 1. "DEVICE2_BYTE0_CS0,Defines the byte location of byte0 in the memory datapath for device 2 on chip 0. Used for MRRs to identify where data will be returned. DEV=2" newline hexmask.long.byte 0x230 16.--19. 1. "DEVICE1_BYTE0_CS0,Defines the byte location of byte0 in the memory datapath for device 1 on chip 0. Used for MRRs to identify where data will be returned. DEV=1" newline hexmask.long.byte 0x230 8.--11. 1. "DEVICE0_BYTE0_CS0,Defines the byte location of byte0 in the memory datapath for device 0 on chip 0. Used for MRRs to identify where data will be returned. DEV=0" newline bitfld.long 0x230 0.--2. "MEMDATA_RATIO_1,Defines the ratio of the DRAM device size on chip select 1 to the memory data width. Program with the log2 ratio of the memory data width to the device data width. CS=1" "0,1,2,3,4,5,6,7" line.long 0x234 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_335," hexmask.long.byte 0x234 24.--27. 1. "DEVICE2_BYTE0_CS1,Defines the byte location of byte0 in the memory datapath for device 2 on chip 1. Used for MRRs to identify where data will be returned. DEV=2" newline hexmask.long.byte 0x234 16.--19. 1. "DEVICE1_BYTE0_CS1,Defines the byte location of byte0 in the memory datapath for device 1 on chip 1. Used for MRRs to identify where data will be returned. DEV=1" newline hexmask.long.byte 0x234 8.--11. 1. "DEVICE0_BYTE0_CS1,Defines the byte location of byte0 in the memory datapath for device 0 on chip 1. Used for MRRs to identify where data will be returned. DEV=0" newline hexmask.long.byte 0x234 0.--3. 1. "DEVICE3_BYTE0_CS0,Defines the byte location of byte0 in the memory datapath for device 3 on chip 0. Used for MRRs to identify where data will be returned. DEV=3" line.long 0x238 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_336," bitfld.long 0x238 24.--25. "WR_ORDER_REQ,Determines if the controller can re-order write commands from the same source ID and/or the same port. Bit [0] controls source ID usage and bit [1] controls port ID usage. Set each bit to 1 to enable usage in placement logic." "0,1,2,3" newline bitfld.long 0x238 16. "IN_ORDER_ACCEPT,Forces the controller to accept commands in the order in which they are placed in the command queue." "0,1" newline hexmask.long.byte 0x238 8.--12. 1. "Q_FULLNESS,Quantity that determines when the command queue almost full signal will assert [q_almost_full]. When cleared to 0 the q_almost_full signal will be driven to 0 irrespective of number of entries in the command queue." newline hexmask.long.byte 0x238 0.--3. 1. "DEVICE3_BYTE0_CS1,Defines the byte location of byte0 in the memory datapath for device 3 on chip 1. Used for MRRs to identify where data will be returned. DEV=3" line.long 0x23C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_337," bitfld.long 0x23C 24. "CTRLUPD_AREF_HP_ENABLE,Enable an automatic controller-initiated update [dfi_ctrlupd_req] after every high priority refresh when executing as a subtask request. Set to 1 to enable." "0,1" newline bitfld.long 0x23C 16. "CTRLUPD_REQ_PER_AREF_EN,Enable an automatic controller-initiated update [dfi_ctrlupd_req] after every refresh. Set to 1 to enable." "0,1" newline bitfld.long 0x23C 8. "CTRLUPD_REQ,Assert the DFI controller-initiated update request signal dfi_ctrlupd_req. Set to 1 to trigger. WRITE-ONLY" "0,1" newline rbitfld.long 0x23C 0. "CONTROLLER_BUSY,Indicator that the controller is processing a command. Evaluates all ports for outstanding transactions. Value of 1 indicates controller busy. READ-ONLY" "0,1" line.long 0x240 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_338," bitfld.long 0x240 24. "RD_PREAMBLE_TRAINING_EN,Enable read preamble training during gate training. Set to 1 to enable." "0,1" newline bitfld.long 0x240 16.--17. "PREAMBLE_SUPPORT_F2,Selection the preamble for read and write burst transfers. FC=2" "0,1,2,3" newline bitfld.long 0x240 8.--9. "PREAMBLE_SUPPORT_F1,Selection the preamble for read and write burst transfers. FC=1" "0,1,2,3" newline bitfld.long 0x240 0.--1. "PREAMBLE_SUPPORT_F0,Selection the preamble for read and write burst transfers. FC=0" "0,1,2,3" line.long 0x244 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_339," hexmask.long.byte 0x244 16.--20. 1. "DFI_ERROR,Indicates that the DFI error flag has been asserted. READ-ONLY" newline bitfld.long 0x244 8. "RD_DBI_EN,Enables controller support of DRAM DBI feature for read data with DDR4 devices. Set to 1 to enable." "0,1" newline bitfld.long 0x244 0. "WR_DBI_EN,Enables controller support of DRAM DBI feature for write data with DDR4 devices. Set to 1 to enable." "0,1" line.long 0x248 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_340," bitfld.long 0x248 24. "BG_ROTATE_EN,Enable bank group rotation. Set to 1 to enable." "0,1" newline hexmask.long.tbyte 0x248 0.--19. 1. "DFI_ERROR_INFO,Holds the encoded DFI error type associated with the DFI_ERROR parameter assertion. READ-ONLY" line.long 0x24C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_341," rgroup.long 0x558++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_342," hexmask.long 0x0 0.--31. 1. "INT_STATUS_MASTER,Controller status reporting register for interrupt status groups. READ-ONLY" group.long 0x55C++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_343," hexmask.long 0x0 0.--31. 1. "INT_MASK_MASTER,Controller mask register for interrupt status groups. WRITE-ONLY" rgroup.long 0x560++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_344," hexmask.long 0x0 0.--31. 1. "INT_STATUS_TIMEOUT,Status of interrupts in the controller related to Timeout monitors. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_345," hexmask.long.word 0x4 16.--31. 1. "INT_STATUS_LOWPOWER,Status of interrupts in the controller related to Low Power. READ-ONLY" group.long 0x568++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_346," rgroup.long 0x56C++0x13 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_347," hexmask.long 0x0 0.--31. 1. "INT_STATUS_TRAINING,Status of interrupts in the controller related to Training/Calibration. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_348," hexmask.long 0x4 0.--31. 1. "INT_STATUS_USERIF,Status of interrupts in the controller related to ASIC to Controller Interface. READ-ONLY" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_349," hexmask.long.byte 0x8 16.--23. 1. "INT_STATUS_BIST,Status of interrupts in the controller related to BIST. READ-ONLY" newline hexmask.long.word 0x8 0.--15. 1. "INT_STATUS_MISC,Status of interrupts in the controller related to Miscellaneous features. READ-ONLY" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_350," hexmask.long.byte 0xC 24.--31. 1. "INT_STATUS_INIT,Status of interrupts in the controller related to Initialization. READ-ONLY" newline hexmask.long.byte 0xC 16.--23. 1. "INT_STATUS_FREQ,Status of interrupts in the controller related to Frequency Scaling. READ-ONLY" newline hexmask.long.byte 0xC 0.--7. 1. "INT_STATUS_DFI,Status of interrupts in the controller related to DFI. READ-ONLY" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_351," hexmask.long.byte 0x10 8.--15. 1. "INT_STATUS_PARITY,Status of interrupts in the controller related to Parity. READ-ONLY" newline hexmask.long.byte 0x10 0.--7. 1. "INT_STATUS_MODE,Status of interrupts in the controller related to Memory Mode Settings. READ-ONLY" wgroup.long 0x580++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_352," hexmask.long 0x0 0.--31. 1. "INT_ACK_TIMEOUT,Clear status of the INT_STATUS_TIMEOUT parameter. WRITE-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_353," hexmask.long.word 0x4 16.--31. 1. "INT_ACK_LOWPOWER,Clear status of the INT_STATUS_LOWPOWER parameter. WRITE-ONLY" group.long 0x588++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_354," wgroup.long 0x58C++0x13 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_355," hexmask.long 0x0 0.--31. 1. "INT_ACK_TRAINING,Clear status of the INT_STATUS_TRAINING parameter. WRITE-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_356," hexmask.long 0x4 0.--31. 1. "INT_ACK_USERIF,Clear status of the INT_STATUS_USERIF parameter. WRITE-ONLY" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_357," hexmask.long.byte 0x8 16.--23. 1. "INT_ACK_BIST,Clear status of the INT_STATUS_BIST parameter. WRITE-ONLY" newline hexmask.long.word 0x8 0.--15. 1. "INT_ACK_MISC,Clear status of the INT_STATUS_MISC parameter. WRITE-ONLY" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_358," hexmask.long.byte 0xC 24.--31. 1. "INT_ACK_INIT,Clear status of the INT_STATUS_INIT parameter. WRITE-ONLY" newline hexmask.long.byte 0xC 16.--23. 1. "INT_ACK_FREQ,Clear status of the INT_STATUS_FREQ parameter. WRITE-ONLY" newline hexmask.long.byte 0xC 0.--7. 1. "INT_ACK_DFI,Clear status of the INT_STATUS_DFI parameter. WRITE-ONLY" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_359," hexmask.long.byte 0x10 8.--15. 1. "INT_ACK_PARITY,Clear status of the INT_STATUS_PARITY parameter. WRITE-ONLY" newline hexmask.long.byte 0x10 0.--7. 1. "INT_ACK_MODE,Clear status of the INT_STATUS_MODE parameter. WRITE-ONLY" group.long 0x5A0++0x1F line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_360," hexmask.long 0x0 0.--31. 1. "INT_MASK_TIMEOUT,Mask for the controller_int signal from the INT_MASK_TIMEOUT parameter" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_361," hexmask.long.word 0x4 16.--31. 1. "INT_MASK_LOWPOWER,Mask for the controller_int signal from the INT_MASK_LOWPOWER parameter" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_362," line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_363," hexmask.long 0xC 0.--31. 1. "INT_MASK_TRAINING,Mask for the controller_int signal from the INT_MASK_TRAINING parameter" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_364," hexmask.long 0x10 0.--31. 1. "INT_MASK_USERIF,Mask for the controller_int signal from the INT_MASK_USERIF parameter" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_365," hexmask.long.byte 0x14 16.--23. 1. "INT_MASK_BIST,Mask for the controller_int signal from the INT_MASK_BIST parameter" newline hexmask.long.word 0x14 0.--15. 1. "INT_MASK_MISC,Mask for the controller_int signal from the INT_MASK_MISC parameter" line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_366," hexmask.long.byte 0x18 24.--31. 1. "INT_MASK_INIT,Mask for the controller_int signal from the INT_MASK_INIT parameter" newline hexmask.long.byte 0x18 16.--23. 1. "INT_MASK_FREQ,Mask for the controller_int signal from the INT_MASK_FREQ parameter" newline hexmask.long.byte 0x18 0.--7. 1. "INT_MASK_DFI,Mask for the controller_int signal from the INT_MASK_DFI parameter" line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_367," hexmask.long.byte 0x1C 8.--15. 1. "INT_MASK_PARITY,Mask for the controller_int signal from the INT_MASK_PARITY parameter" newline hexmask.long.byte 0x1C 0.--7. 1. "INT_MASK_MODE,Mask for the controller_int signal from the INT_MASK_MODE parameter" rgroup.long 0x5C0++0x37 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_368," hexmask.long 0x0 0.--31. 1. "OUT_OF_RANGE_ADDR_0,Address of command that caused an out-of-range interrupt. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_369," hexmask.long.byte 0x4 24.--30. 1. "OUT_OF_RANGE_TYPE,Type of command that caused an out-of-range interrupt. READ-ONLY" newline hexmask.long.word 0x4 8.--19. 1. "OUT_OF_RANGE_LENGTH,Length of command that caused an out-of-range interrupt. READ-ONLY" newline bitfld.long 0x4 0.--2. "OUT_OF_RANGE_ADDR_1,Address of command that caused an out-of-range interrupt. READ-ONLY" "0,1,2,3,4,5,6,7" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_370," hexmask.long.byte 0x8 0.--5. 1. "OUT_OF_RANGE_SOURCE_ID,Source ID of command that caused an out-of-range interrupt. READ-ONLY" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_371," hexmask.long 0xC 0.--31. 1. "BIST_EXP_DATA_0,Expected data on BIST error. READ-ONLY" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_372," hexmask.long 0x10 0.--31. 1. "BIST_EXP_DATA_1,Expected data on BIST error. READ-ONLY" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_373," hexmask.long 0x14 0.--31. 1. "BIST_EXP_DATA_2,Expected data on BIST error. READ-ONLY" line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_374," hexmask.long 0x18 0.--31. 1. "BIST_EXP_DATA_3,Expected data on BIST error. READ-ONLY" line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_375," hexmask.long 0x1C 0.--31. 1. "BIST_FAIL_DATA_0,Actual data on BIST error. READ-ONLY" line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_376," hexmask.long 0x20 0.--31. 1. "BIST_FAIL_DATA_1,Actual data on BIST error. READ-ONLY" line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_377," hexmask.long 0x24 0.--31. 1. "BIST_FAIL_DATA_2,Actual data on BIST error. READ-ONLY" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_378," hexmask.long 0x28 0.--31. 1. "BIST_FAIL_DATA_3,Actual data on BIST error. READ-ONLY" line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_379," hexmask.long 0x2C 0.--31. 1. "BIST_FAIL_ADDR_0,Address of BIST error. READ-ONLY" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_380," bitfld.long 0x30 0.--2. "BIST_FAIL_ADDR_1,Address of BIST error. READ-ONLY" "0,1,2,3,4,5,6,7" line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_381," hexmask.long 0x34 0.--31. 1. "PORT_CMD_ERROR_ADDR_0,Address of command that caused the PORT command error. READ-ONLY" group.long 0x5F8++0xD3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_382," hexmask.long.byte 0x0 24.--31. 1. "TODTL_2CMD_F0,Defines the DRAM delay from an ODT de-assertion to the next non-write non-read command. FC=0" newline rbitfld.long 0x0 16.--17. "PORT_CMD_ERROR_TYPE,Type of error and access type that caused the PORT command error. READ-ONLY" "0,1,2,3" newline hexmask.long.byte 0x0 8.--13. 1. "PORT_CMD_ERROR_ID,Source ID of command that caused the PORT command error. READ-ONLY" newline rbitfld.long 0x0 0.--2. "PORT_CMD_ERROR_ADDR_1,Address of command that caused the PORT command error. READ-ONLY" "0,1,2,3,4,5,6,7" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_383," hexmask.long.byte 0x4 24.--27. 1. "TODTH_WR_F1,Defines the DRAM minimum ODT high time after an ODT assertion for a write command. FC=1" newline hexmask.long.byte 0x4 16.--23. 1. "TODTL_2CMD_F1,Defines the DRAM delay from an ODT de-assertion to the next non-write non-read command. FC=1" newline hexmask.long.byte 0x4 8.--11. 1. "TODTH_RD_F0,Defines the DRAM minimum ODT high time after an ODT assertion for a read command. FC=0" newline hexmask.long.byte 0x4 0.--3. 1. "TODTH_WR_F0,Defines the DRAM minimum ODT high time after an ODT assertion for a write command. FC=0" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_384," hexmask.long.byte 0x8 24.--27. 1. "TODTH_RD_F2,Defines the DRAM minimum ODT high time after an ODT assertion for a read command. FC=2" newline hexmask.long.byte 0x8 16.--19. 1. "TODTH_WR_F2,Defines the DRAM minimum ODT high time after an ODT assertion for a write command. FC=2" newline hexmask.long.byte 0x8 8.--15. 1. "TODTL_2CMD_F2,Defines the DRAM delay from an ODT de-assertion to the next non-write non-read command. FC=2" newline hexmask.long.byte 0x8 0.--3. 1. "TODTH_RD_F1,Defines the DRAM minimum ODT high time after an ODT assertion for a read command. FC=1" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_385," bitfld.long 0xC 24. "EN_ODT_ASSERT_EXCEPT_RD,Enable controller to assert ODT at all times except during reads. Assumes single ODT pin connected. Set to 1 to enable." "0,1" newline bitfld.long 0xC 16. "ODT_EN_F2,Enable support of DRAM ODT. When enabled controller will assert and de-assert ODT output to DRAM as needed. FC=2" "0,1" newline bitfld.long 0xC 8. "ODT_EN_F1,Enable support of DRAM ODT. When enabled controller will assert and de-assert ODT output to DRAM as needed. FC=1" "0,1" newline bitfld.long 0xC 0. "ODT_EN_F0,Enable support of DRAM ODT. When enabled controller will assert and de-assert ODT output to DRAM as needed. FC=0" "0,1" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_386," bitfld.long 0x10 24.--25. "ODT_RD_MAP_CS0,Determines which chip[s] will have termination when a read occurs. Set bit X to enable termination on csX when a read is performed. CS=0" "0,1,2,3" newline hexmask.long.byte 0x10 16.--21. 1. "WR_TO_ODTH_F2,Defines the delay from a write command to ODT assertion. FC=2" newline hexmask.long.byte 0x10 8.--13. 1. "WR_TO_ODTH_F1,Defines the delay from a write command to ODT assertion. FC=1" newline hexmask.long.byte 0x10 0.--5. 1. "WR_TO_ODTH_F0,Defines the delay from a write command to ODT assertion. FC=0" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_387," hexmask.long.byte 0x14 24.--29. 1. "RD_TO_ODTH_F0,Defines the delay from a read command to ODT assertion. FC=0" newline bitfld.long 0x14 16.--17. "ODT_WR_MAP_CS1,Determines which chip[s] will have termination when a write occurs. Set bit X to enable termination on csX when a write is performed. CS=1" "0,1,2,3" newline bitfld.long 0x14 8.--9. "ODT_RD_MAP_CS1,Determines which chip[s] will have termination when a read occurs. Set bit X to enable termination on csX when a read is performed. CS=1" "0,1,2,3" newline bitfld.long 0x14 0.--1. "ODT_WR_MAP_CS0,Determines which chip[s] will have termination when a write occurs. Set bit X to enable termination on csX when a write is performed. CS=0" "0,1,2,3" line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_388," hexmask.long.byte 0x18 24.--28. 1. "RW2MRW_DLY_F1,Additional delay to insert between read or write and mode_reg_write. Allowed programming dependent on memory system. FC=1" newline hexmask.long.byte 0x18 16.--20. 1. "RW2MRW_DLY_F0,Additional delay to insert between read or write and mode_reg_write. Allowed programming dependent on memory system. FC=0" newline hexmask.long.byte 0x18 8.--13. 1. "RD_TO_ODTH_F2,Defines the delay from a read command to ODT assertion. FC=2" newline hexmask.long.byte 0x18 0.--5. 1. "RD_TO_ODTH_F1,Defines the delay from a read command to ODT assertion. FC=1" line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_389," hexmask.long.byte 0x1C 24.--28. 1. "W2R_DIFFCS_DLY_F0,Additional delay to insert between writes and reads to different chip selects. Allowed programming dependent on memory system. FC=0" newline hexmask.long.byte 0x1C 16.--20. 1. "R2W_DIFFCS_DLY_F0,Additional delay to insert between reads and writes to different chip selects. Program to a non-zero value. FC=0" newline hexmask.long.byte 0x1C 8.--12. 1. "R2R_DIFFCS_DLY_F0,Additional delay to insert between reads to different chip selects. Program to a non-zero value. FC=0" newline hexmask.long.byte 0x1C 0.--4. 1. "RW2MRW_DLY_F2,Additional delay to insert between read or write and mode_reg_write. Allowed programming dependent on memory system. FC=2" line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_390," hexmask.long.byte 0x20 24.--28. 1. "W2R_DIFFCS_DLY_F1,Additional delay to insert between writes and reads to different chip selects. Allowed programming dependent on memory system. FC=1" newline hexmask.long.byte 0x20 16.--20. 1. "R2W_DIFFCS_DLY_F1,Additional delay to insert between reads and writes to different chip selects. Program to a non-zero value. FC=1" newline hexmask.long.byte 0x20 8.--12. 1. "R2R_DIFFCS_DLY_F1,Additional delay to insert between reads to different chip selects. Program to a non-zero value. FC=1" newline hexmask.long.byte 0x20 0.--4. 1. "W2W_DIFFCS_DLY_F0,Additional delay to insert between writes to different chip selects. Program to a non-zero value. FC=0" line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_391," hexmask.long.byte 0x24 24.--28. 1. "W2R_DIFFCS_DLY_F2,Additional delay to insert between writes and reads to different chip selects. Allowed programming dependent on memory system. FC=2" newline hexmask.long.byte 0x24 16.--20. 1. "R2W_DIFFCS_DLY_F2,Additional delay to insert between reads and writes to different chip selects. Program to a non-zero value. FC=2" newline hexmask.long.byte 0x24 8.--12. 1. "R2R_DIFFCS_DLY_F2,Additional delay to insert between reads to different chip selects. Program to a non-zero value. FC=2" newline hexmask.long.byte 0x24 0.--4. 1. "W2W_DIFFCS_DLY_F1,Additional delay to insert between writes to different chip selects. Program to a non-zero value. FC=1" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_392," hexmask.long.byte 0x28 24.--28. 1. "R2W_SAMECS_DLY_F2,Additional delay to insert between reads and writes to the same chip select. Program to a non-zero value. FC=2" newline hexmask.long.byte 0x28 16.--20. 1. "R2W_SAMECS_DLY_F1,Additional delay to insert between reads and writes to the same chip select. Program to a non-zero value. FC=1" newline hexmask.long.byte 0x28 8.--12. 1. "R2W_SAMECS_DLY_F0,Additional delay to insert between reads and writes to the same chip select. Program to a non-zero value. FC=0" newline hexmask.long.byte 0x28 0.--4. 1. "W2W_DIFFCS_DLY_F2,Additional delay to insert between writes to different chip selects. Program to a non-zero value. FC=2" line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_393," hexmask.long.byte 0x2C 24.--27. 1. "TDQSCK_MAX_F0,Additional delay needed for tDQSCK. FC=0" newline hexmask.long.byte 0x2C 16.--20. 1. "W2W_SAMECS_DLY,Additional delay to insert between two writes to the same chip select. Any value including 0 supported." newline hexmask.long.byte 0x2C 8.--12. 1. "W2R_SAMECS_DLY,Additional delay to insert between writes and reads to the same chip select." newline hexmask.long.byte 0x2C 0.--4. 1. "R2R_SAMECS_DLY,Additional delay to insert between two reads to the same chip select. Any value including 0 supported." line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_394," hexmask.long.byte 0x30 24.--27. 1. "TDQSCK_MAX_F2,Additional delay needed for tDQSCK. FC=2" newline bitfld.long 0x30 16.--18. "TDQSCK_MIN_F1,Additional delay needed for tDQSCK. FC=1" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x30 8.--11. 1. "TDQSCK_MAX_F1,Additional delay needed for tDQSCK. FC=1" newline bitfld.long 0x30 0.--2. "TDQSCK_MIN_F0,Additional delay needed for tDQSCK. FC=0" "0,1,2,3,4,5,6,7" line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_395," bitfld.long 0x34 24.--26. "AXI0_R_PRIORITY,Priority of read commands from AXI port 0. 0 is the highest priority. This may only be changed before initialization begins or when the controller is quiescent there is no data in the port FIFOs and the AXI0_FIXED_PORT_PRIORITY_ENABLE.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x34 16. "AXI0_FIXED_PORT_PRIORITY_ENABLE,Defines the priority control for AXI port 0 as per-port or per-command. Set to 1 for per-port with priority defined through the AXI.0._R_PRIORITY and AXI.0._W_PRIORITY parameters. Clear to 0 for per-command." "0,1" newline bitfld.long 0x34 8. "AXI0_ALL_STROBES_USED_ENABLE,Enables use of the AWALLSTRB signal for AXI port 0. Set to 1 to enable." "0,1" newline bitfld.long 0x34 0.--2. "TDQSCK_MIN_F2,Additional delay needed for tDQSCK. FC=2" "0,1,2,3,4,5,6,7" line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_396," hexmask.long.byte 0x38 24.--31. 1. "TDFI_PHY_RDLAT_F0,Defines the DFI tPHY_RDLAT timing parameter [in DFI PHY clocks] the maximum cycles between a dfi_rddata_en assertion and a dfi_rddata_valid assertion. FC=0" newline rbitfld.long 0x38 16. "MEM_RST_VALID,Register access to mem_rst_valid signal. READ-ONLY" "0,1" newline rbitfld.long 0x38 8.--9. "CKE_STATUS,Register access to cke_status signal. READ-ONLY" "0,1,2,3" newline bitfld.long 0x38 0.--2. "AXI0_W_PRIORITY,Priority of write commands from AXI port 0. 0 is the highest priority. This may only be changed before initialization begins or when the controller is quiescent there is no data in the port FIFOs and the AXI0_FIXED_PORT_PRIORITY_ENABLE.." "0,1,2,3,4,5,6,7" line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_397," hexmask.long.tbyte 0x3C 0.--20. 1. "TDFI_CTRLUPD_MAX_F0,Defines the DFI tCTRLUPD_MAX timing parameter [in DFI clocks] the maximum cycles that dfi_ctrlupd_req can be asserted. If programmed to a non-zero a timing violation will cause an interrupt and bit [0] set in the UPDATE_ERROR_STATUS.." line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_398," hexmask.long 0x40 0.--31. 1. "TDFI_PHYUPD_TYPE0_F0,Defines the DFI tPHYUPD_TYPE0 timing parameter [in DFI clocks] the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 0. If programmed to a non-zero a timing violation will cause an interrupt and.." line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_399," hexmask.long 0x44 0.--31. 1. "TDFI_PHYUPD_TYPE1_F0,Defines the DFI tPHYUPD_TYPE1 timing parameter [in DFI clocks] the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 1. If programmed to a non-zero a timing violation will cause an interrupt and.." line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_400," hexmask.long 0x48 0.--31. 1. "TDFI_PHYUPD_TYPE2_F0,Defines the DFI tPHYUPD_TYPE2 timing parameter [in DFI clocks] the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 2. If programmed to a non-zero a timing violation will cause an interrupt and.." line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_401," hexmask.long 0x4C 0.--31. 1. "TDFI_PHYUPD_TYPE3_F0,Defines the DFI tPHYUPD_TYPE3 timing parameter [in DFI clocks] the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 3. If programmed to a non-zero a timing violation will cause an interrupt and.." line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_402," hexmask.long.tbyte 0x50 0.--22. 1. "TDFI_PHYUPD_RESP_F0,Defines the DFI tPHYUPD_RESP timing parameter [in DFI clocks] the maximum cycles between a dfi_phyupd_req assertion and a dfi_phyupd_ack assertion. If programmed to a non-zero a timing violation will cause an interrupt and bit [5].." line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_403," hexmask.long 0x54 0.--31. 1. "TDFI_CTRLUPD_INTERVAL_F0,Defines the DFI tCTRLUPD_INTERVAL timing parameter [in DFI clocks] the maximum cycles between dfi_ctrlupd_req assertions. If programmed to a non-zero a timing violation will cause an interrupt and bit [6] set in the.." line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_404," hexmask.long.byte 0x58 24.--31. 1. "TDFI_RDDATA_EN_F0,DFI tRDDATA_EN timing parameter. This is the number of DFI data phases between a read command and the first assertion of dfi_rddata_en_pN. FC=0" newline hexmask.long.byte 0x58 16.--23. 1. "TDFI_RDCSLAT_F0,Defines the DFI tPHY_RDCSLAT timing parameter [in DFI PHY clocks] the maximum cycles between a read command and a dfi_rddata_cs_n assertion. FC=0" newline bitfld.long 0x58 8.--10. "TDFI_PHY_WRDATA_F0,Defines the DFI tPHY_WRDATA timing parameter [in DFI PHY clocks] the maximum cycles between a dfi_wrdata_en assertion and a dfi_wrdata signal. FC=0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x58 0.--3. 1. "TDFI_CTRL_DELAY_F0,Defines the DFI tCTRL_DELAY timing parameter [in DFI clocks] the delay between a DFI command change and a memory command. FC=0" line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_405," hexmask.long.byte 0x5C 24.--31. 1. "TDFI_PHY_RDLAT_F1,Defines the DFI tPHY_RDLAT timing parameter [in DFI PHY clocks] the maximum cycles between a dfi_rddata_en assertion and a dfi_rddata_valid assertion. FC=1" newline hexmask.long.byte 0x5C 16.--22. 1. "TDFI_CTRLMSG_RESP_F0,Defines the DFI tCTRLMSG_RESP timing parameter [in DFI clocks] the maximum number of DFI clocks allowed for dfi_ctrlmsg_ack to assert after dfi_ctrlmsg_req goes high. FC=0" newline hexmask.long.byte 0x5C 8.--15. 1. "TDFI_PHY_WRLAT_F0,DFI tPHY_WRLAT timing parameter. This is the number of DFI data phases between a write command and the first assertion of dfi_wrdata_en_pN. FC=0" newline hexmask.long.byte 0x5C 0.--7. 1. "TDFI_WRCSLAT_F0,Defines the DFI tPHY_WRCSLAT timing parameter [in DFI PHY clocks] the maximum cycles between a write command and a dfi_wrdata_cs_n assertion. FC=0" line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_406," hexmask.long.tbyte 0x60 0.--20. 1. "TDFI_CTRLUPD_MAX_F1,Defines the DFI tCTRLUPD_MAX timing parameter [in DFI clocks] the maximum cycles that dfi_ctrlupd_req can be asserted. If programmed to a non-zero a timing violation will cause an interrupt and bit [0] set in the UPDATE_ERROR_STATUS.." line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_407," hexmask.long 0x64 0.--31. 1. "TDFI_PHYUPD_TYPE0_F1,Defines the DFI tPHYUPD_TYPE0 timing parameter [in DFI clocks] the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 0. If programmed to a non-zero a timing violation will cause an interrupt and.." line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_408," hexmask.long 0x68 0.--31. 1. "TDFI_PHYUPD_TYPE1_F1,Defines the DFI tPHYUPD_TYPE1 timing parameter [in DFI clocks] the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 1. If programmed to a non-zero a timing violation will cause an interrupt and.." line.long 0x6C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_409," hexmask.long 0x6C 0.--31. 1. "TDFI_PHYUPD_TYPE2_F1,Defines the DFI tPHYUPD_TYPE2 timing parameter [in DFI clocks] the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 2. If programmed to a non-zero a timing violation will cause an interrupt and.." line.long 0x70 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_410," hexmask.long 0x70 0.--31. 1. "TDFI_PHYUPD_TYPE3_F1,Defines the DFI tPHYUPD_TYPE3 timing parameter [in DFI clocks] the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 3. If programmed to a non-zero a timing violation will cause an interrupt and.." line.long 0x74 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_411," hexmask.long.tbyte 0x74 0.--22. 1. "TDFI_PHYUPD_RESP_F1,Defines the DFI tPHYUPD_RESP timing parameter [in DFI clocks] the maximum cycles between a dfi_phyupd_req assertion and a dfi_phyupd_ack assertion. If programmed to a non-zero a timing violation will cause an interrupt and bit [5].." line.long 0x78 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_412," hexmask.long 0x78 0.--31. 1. "TDFI_CTRLUPD_INTERVAL_F1,Defines the DFI tCTRLUPD_INTERVAL timing parameter [in DFI clocks] the maximum cycles between dfi_ctrlupd_req assertions. If programmed to a non-zero a timing violation will cause an interrupt and bit [6] set in the.." line.long 0x7C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_413," hexmask.long.byte 0x7C 24.--31. 1. "TDFI_RDDATA_EN_F1,DFI tRDDATA_EN timing parameter. This is the number of DFI data phases between a read command and the first assertion of dfi_rddata_en_pN. FC=1" newline hexmask.long.byte 0x7C 16.--23. 1. "TDFI_RDCSLAT_F1,Defines the DFI tPHY_RDCSLAT timing parameter [in DFI PHY clocks] the maximum cycles between a read command and a dfi_rddata_cs_n assertion. FC=1" newline bitfld.long 0x7C 8.--10. "TDFI_PHY_WRDATA_F1,Defines the DFI tPHY_WRDATA timing parameter [in DFI PHY clocks] the maximum cycles between a dfi_wrdata_en assertion and a dfi_wrdata signal. FC=1" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x7C 0.--3. 1. "TDFI_CTRL_DELAY_F1,Defines the DFI tCTRL_DELAY timing parameter [in DFI clocks] the delay between a DFI command change and a memory command. FC=1" line.long 0x80 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_414," hexmask.long.byte 0x80 24.--31. 1. "TDFI_PHY_RDLAT_F2,Defines the DFI tPHY_RDLAT timing parameter [in DFI PHY clocks] the maximum cycles between a dfi_rddata_en assertion and a dfi_rddata_valid assertion. FC=2" newline hexmask.long.byte 0x80 16.--22. 1. "TDFI_CTRLMSG_RESP_F1,Defines the DFI tCTRLMSG_RESP timing parameter [in DFI clocks] the maximum number of DFI clocks allowed for dfi_ctrlmsg_ack to assert after dfi_ctrlmsg_req goes high. FC=1" newline hexmask.long.byte 0x80 8.--15. 1. "TDFI_PHY_WRLAT_F1,DFI tPHY_WRLAT timing parameter. This is the number of DFI data phases between a write command and the first assertion of dfi_wrdata_en_pN. FC=1" newline hexmask.long.byte 0x80 0.--7. 1. "TDFI_WRCSLAT_F1,Defines the DFI tPHY_WRCSLAT timing parameter [in DFI PHY clocks] the maximum cycles between a write command and a dfi_wrdata_cs_n assertion. FC=1" line.long 0x84 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_415," hexmask.long.tbyte 0x84 0.--20. 1. "TDFI_CTRLUPD_MAX_F2,Defines the DFI tCTRLUPD_MAX timing parameter [in DFI clocks] the maximum cycles that dfi_ctrlupd_req can be asserted. If programmed to a non-zero a timing violation will cause an interrupt and bit [0] set in the UPDATE_ERROR_STATUS.." line.long 0x88 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_416," hexmask.long 0x88 0.--31. 1. "TDFI_PHYUPD_TYPE0_F2,Defines the DFI tPHYUPD_TYPE0 timing parameter [in DFI clocks] the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 0. If programmed to a non-zero a timing violation will cause an interrupt and.." line.long 0x8C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_417," hexmask.long 0x8C 0.--31. 1. "TDFI_PHYUPD_TYPE1_F2,Defines the DFI tPHYUPD_TYPE1 timing parameter [in DFI clocks] the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 1. If programmed to a non-zero a timing violation will cause an interrupt and.." line.long 0x90 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_418," hexmask.long 0x90 0.--31. 1. "TDFI_PHYUPD_TYPE2_F2,Defines the DFI tPHYUPD_TYPE2 timing parameter [in DFI clocks] the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 2. If programmed to a non-zero a timing violation will cause an interrupt and.." line.long 0x94 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_419," hexmask.long 0x94 0.--31. 1. "TDFI_PHYUPD_TYPE3_F2,Defines the DFI tPHYUPD_TYPE3 timing parameter [in DFI clocks] the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 3. If programmed to a non-zero a timing violation will cause an interrupt and.." line.long 0x98 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_420," hexmask.long.tbyte 0x98 0.--22. 1. "TDFI_PHYUPD_RESP_F2,Defines the DFI tPHYUPD_RESP timing parameter [in DFI clocks] the maximum cycles between a dfi_phyupd_req assertion and a dfi_phyupd_ack assertion. If programmed to a non-zero a timing violation will cause an interrupt and bit [5].." line.long 0x9C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_421," hexmask.long 0x9C 0.--31. 1. "TDFI_CTRLUPD_INTERVAL_F2,Defines the DFI tCTRLUPD_INTERVAL timing parameter [in DFI clocks] the maximum cycles between dfi_ctrlupd_req assertions. If programmed to a non-zero a timing violation will cause an interrupt and bit [6] set in the.." line.long 0xA0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_422," hexmask.long.byte 0xA0 24.--31. 1. "TDFI_RDDATA_EN_F2,DFI tRDDATA_EN timing parameter. This is the number of DFI data phases between a read command and the first assertion of dfi_rddata_en_pN. FC=2" newline hexmask.long.byte 0xA0 16.--23. 1. "TDFI_RDCSLAT_F2,Defines the DFI tPHY_RDCSLAT timing parameter [in DFI PHY clocks] the maximum cycles between a read command and a dfi_rddata_cs_n assertion. FC=2" newline bitfld.long 0xA0 8.--10. "TDFI_PHY_WRDATA_F2,Defines the DFI tPHY_WRDATA timing parameter [in DFI PHY clocks] the maximum cycles between a dfi_wrdata_en assertion and a dfi_wrdata signal. FC=2" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0xA0 0.--3. 1. "TDFI_CTRL_DELAY_F2,Defines the DFI tCTRL_DELAY timing parameter [in DFI clocks] the delay between a DFI command change and a memory command. FC=2" line.long 0xA4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_423," hexmask.long.byte 0xA4 16.--22. 1. "TDFI_CTRLMSG_RESP_F2,Defines the DFI tCTRLMSG_RESP timing parameter [in DFI clocks] the maximum number of DFI clocks allowed for dfi_ctrlmsg_ack to assert after dfi_ctrlmsg_req goes high. FC=2" newline hexmask.long.byte 0xA4 8.--15. 1. "TDFI_PHY_WRLAT_F2,DFI tPHY_WRLAT timing parameter. This is the number of DFI data phases between a write command and the first assertion of dfi_wrdata_en_pN. FC=2" newline hexmask.long.byte 0xA4 0.--7. 1. "TDFI_WRCSLAT_F2,Defines the DFI tPHY_WRCSLAT timing parameter [in DFI PHY clocks] the maximum cycles between a write command and a dfi_wrdata_cs_n assertion. FC=2" line.long 0xA8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_424," hexmask.long.byte 0xA8 24.--30. 1. "UPDATE_ERROR_STATUS,Identifies the source of any DFI MC-initiated or PHY-initiated update errors. Value of 1 indicates a timing violation of the associated timing parameter. READ-ONLY" newline hexmask.long.byte 0xA8 16.--23. 1. "DLL_RST_ADJ_DLY,Minimum cycles after setting controller delay in DLL until the DLL reset signal dll_rst_n may be asserted. If this signal is not being used by the PHY this parameter may be ignored." newline hexmask.long.word 0xA8 0.--15. 1. "DLL_RST_DELAY,Minimum cycles required for DLL reset signal dll_rst_n to be held. If this signal is not being used by the PHY this parameter may be ignored." line.long 0xAC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_425," hexmask.long.byte 0xAC 24.--27. 1. "TDFI_DRAM_CLK_DISABLE,Defines the DFI tDRAM_CLK_DISABLE timing parameter [in DFI clocks] the delay between a dfi_dram_clock_disable assertion and the memory clock disable." newline hexmask.long.word 0xAC 8.--23. 1. "TDFI_CTRLUPD_MIN,Defines the DFI tCTRLUPD_MIN timing parameter [in DFI clocks] the minimum cycles that dfi_ctrlupd_req must be asserted." newline bitfld.long 0xAC 0.--1. "DRAM_CLK_DISABLE,Set value for the dfi_dram_clk_disable signal. Bit [0] controls cs0 bit [1] controls cs1 etc. Set each bit to 1 to disable." "0,1,2,3" line.long 0xB0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_426," bitfld.long 0xB0 24. "DISABLE_MEMORY_MASKED_WRITE,Restricts the controller from masked write commands. Set to 1 to not issue these commands. Only used if connected to an LPDDR4 device." "0,1" newline hexmask.long.byte 0xB0 16.--23. 1. "TDFI_WRDATA_DELAY,Defines the tWRDATA_DELAY timing parameter [in DFI PHY clocks] the maximum cycles between when the dfi_wrdata_en signal is asserted and when the corresponding write data transfer is completed on the DRAM bus." newline bitfld.long 0xB0 8.--10. "TDFI_PARIN_LAT,Defines the DFI tPARIN_LAT timing parameter [in DFI PHY clocks] the maximum cycles between a DFI command and a dfi_parity_in signal assertion." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0xB0 0.--3. 1. "TDFI_DRAM_CLK_ENABLE,Defines the DFI tDRAM_CLK_ENABLE timing parameter [in DFI clocks] the delay between a dfi_dram_clk_disable de-assertion and the memory clock enable." line.long 0xB4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_427," bitfld.long 0xB4 24.--26. "PRE_2TICK_COUNT,NEED TO FiLL IN ." "0,1,2,3,4,5,6,7" newline bitfld.long 0xB4 16.--18. "BANK_ACTIVATE_2TICK_COUNT,NEED TO FiLL IN ." "0,1,2,3,4,5,6,7" newline bitfld.long 0xB4 8.--10. "STRATEGY_2TICK_COUNT,NEED TO FiLL IN ." "0,1,2,3,4,5,6,7" newline bitfld.long 0xB4 0. "MULTI_CHANNEL_ZQ_CAL_MASTER,In a two controller scenario defines if this controller will issue ZQ calibration start commands when neither controller is in a low power mode. Set to 1 to define this controller as the controller that issues ZQ calibration.." "0,1" line.long 0xB8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_428," hexmask.long.byte 0xB8 24.--27. 1. "TMP_2X4_TICK_PLUS_ADJ,NEED TO FiLL IN ." newline bitfld.long 0xB8 16.--18. "PRE_4TICK_COUNT,NEED TO FiLL IN ." "0,1,2,3,4,5,6,7" newline bitfld.long 0xB8 8.--10. "BANK_ACTIVATE_4TICK_COUNT,NEED TO FiLL IN ." "0,1,2,3,4,5,6,7" newline bitfld.long 0xB8 0.--2. "STRATEGY_4TICK_COUNT,NEED TO FiLL IN ." "0,1,2,3,4,5,6,7" line.long 0xBC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_429," hexmask.long.byte 0xBC 24.--27. 1. "ODT_TICK_PLUS_ADJ,NEED TO FiLL IN ." newline hexmask.long.byte 0xBC 16.--19. 1. "TMP_NXN_TICK_MINUS_ADJ,NEED TO FiLL IN ." newline hexmask.long.byte 0xBC 8.--11. 1. "TMP_NXN_TICK_PLUS_ADJ,NEED TO FiLL IN ." newline hexmask.long.byte 0xBC 0.--3. 1. "TMP_2X4_TICK_MINUS_ADJ,NEED TO FiLL IN ." line.long 0xC0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_430," hexmask.long.byte 0xC0 24.--27. 1. "TRP_TICK_PLUS_ADJ,NEED TO FiLL IN ." newline hexmask.long.byte 0xC0 16.--19. 1. "TRAS_TICK_MINUS_ADJ,NEED TO FiLL IN ." newline hexmask.long.byte 0xC0 8.--11. 1. "TRAS_TICK_PLUS_ADJ,NEED TO FiLL IN ." newline hexmask.long.byte 0xC0 0.--3. 1. "ODT_TICK_MINUS_ADJ,NEED TO FiLL IN ." line.long 0xC4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_431," hexmask.long.byte 0xC4 24.--27. 1. "TMP_4X2_TICK_PLUS_ADJ,NEED TO FiLL IN ." newline hexmask.long.byte 0xC4 16.--19. 1. "TWR_TICK_MINUS_ADJ,NEED TO FiLL IN ." newline hexmask.long.byte 0xC4 8.--11. 1. "TWR_TICK_PLUS_ADJ,NEED TO FiLL IN ." newline hexmask.long.byte 0xC4 0.--3. 1. "TRP_TICK_MINUS_ADJ,NEED TO FiLL IN ." line.long 0xC8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_432," hexmask.long.byte 0xC8 24.--27. 1. "RL_TICK_PLUS_ADJ,NEED TO FiLL IN ." newline hexmask.long.byte 0xC8 16.--19. 1. "TRFC_TICK_MINUS_ADJ,NEED TO FiLL IN ." newline hexmask.long.byte 0xC8 8.--11. 1. "TRFC_TICK_PLUS_ADJ,NEED TO FiLL IN ." newline hexmask.long.byte 0xC8 0.--3. 1. "TMP_4X2_TICK_MINUS_ADJ,NEED TO FiLL IN ." line.long 0xCC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_433," hexmask.long.byte 0xCC 24.--31. 1. "NWR_F0,DRAM NWR value in cycles. FC=0" newline hexmask.long.byte 0xCC 16.--19. 1. "WL_TICK_MINUS_ADJ,NEED TO FiLL IN ." newline hexmask.long.byte 0xCC 8.--11. 1. "WL_TICK_PLUS_ADJ,NEED TO FiLL IN ." newline hexmask.long.byte 0xCC 0.--3. 1. "RL_TICK_MINUS_ADJ,NEED TO FiLL IN ." line.long 0xD0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_CTL_434," hexmask.long.byte 0xD0 8.--15. 1. "NWR_F2,DRAM NWR value in cycles. FC=2" newline hexmask.long.byte 0xD0 0.--7. 1. "NWR_F1,DRAM NWR value in cycles. FC=1" group.long 0x2000++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_0," hexmask.long.byte 0x0 8.--11. 1. "PI_DRAM_CLASS,Defines the memory class for the PI." newline bitfld.long 0x0 0. "PI_START,Initiate command processing in the PI. Set to 1 to initiate." "0,1" rgroup.long 0x2004++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_1," hexmask.long 0x0 0.--31. 1. "PI_VERSION_0,Holds the PI version number. This is a unique number for each PHY IP delivery. This will help in identifying different version of the PHY IP. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_2," hexmask.long 0x4 0.--31. 1. "PI_VERSION_1,Holds the PI version number. This is a unique number for each PHY IP delivery. This will help in identifying different version of the PHY IP. READ-ONLY" group.long 0x200C++0xF line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_3," bitfld.long 0x0 24. "PI_NORMAL_LVL_SEQ,Enable the PI to finish all the pending leveling before releasing the DFI bus." "0,1" newline rbitfld.long 0x0 16. "PI_RELEASE_DFI,This is a status whether PI has release DFI. READ-ONLY." "0,1" newline hexmask.long.word 0x0 0.--15. 1. "PI_ID,Holds the PI ID number. This is a Cadence DDR PHY IP identifier. It is set to 0x1387. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_4," hexmask.long.word 0x4 16.--31. 1. "PI_TCMD_GAP,Specifies the minimum gap in DFI clocks between two commands. Used to guard the timing from the last command of MC and the first command of PI when MC hand over the control of DFI to PI." newline bitfld.long 0x4 8.--9. "PI_NOTCARE_PHYUPD,Allow the PI to issue a controller request to the controller if a phyupd_req from the PHY has been detected.bit[1] represents supports in normal state;bit[0] represents supports in initialization state. Set to 1 to issue the controller.." "0,1,2,3" newline bitfld.long 0x4 0. "PI_INIT_LVL_EN,Enables the initial leveling sequence after PI initialization procedure. Set to 1 to enable." "0,1" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_5," bitfld.long 0x8 24.--25. "PI_DFI_PHYMSTR_TYPE,DFI Controller Request Type used for dfi 4.1 verision: This signal indicates the required state of DRAM when PHY becomes the controller. Each memory rank uses one bit. 1'b0: IDLE. The MC should close all the pages. 1'b1: IDLE or Self.." "0: IDLE,1: IDLE or Self Refresh,?,?" newline bitfld.long 0x8 16. "PI_DFI_VERSION,Define the DFI controller version set 1 for DFI4.1 set 0 for DFI4.0" "0,1" newline bitfld.long 0x8 8. "PI_TRAIN_ALL_FREQ_REQ,Triggers training for all supported frequencies in PI_FREQ_MAP. Applies to LPDDR4 devices onlyh. Set to 1 to trigger. Only applicable after memory initialization has been completed. Can be used to train new frequencies that were not.." "0,1" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_6," bitfld.long 0xC 8. "PI_DFI_PHYMSTR_STATE_SEL_R,DFI PHY Controller State Select: Indication from the PHY to the MC whether the requested memory state is IDLE or Self refresh. 'b0: indicates that the corresponding CS must be put into the IDLE state. 'b1: indicates that the.." "0: indicates that the corresponding CS must be put..,1: indicates that the corresponding CS must be put.." newline bitfld.long 0xC 0. "PI_DFI_PHYMSTR_CS_STATE_R,This signal indicates the state of the DRAM when the PHY becomes the controller. 'b0: The PHY specifies the required state using the dfi_phymstr_state_sel signal. 'b1: is reserved." "0: The PHY specifies the required state,1: is reserved" rgroup.long 0x201C++0xF line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_7," hexmask.long 0x0 0.--31. 1. "PI_TDFI_PHYMSTR_MAX,Indicates the maximum number of DFI clock cycles registered while the dfi_phymstr_req signal is asserted and the dfi_phymstr_ack signal is asserted. READ-ONLY." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_8," hexmask.long.tbyte 0x4 0.--19. 1. "PI_TDFI_PHYMSTR_RESP,Indicates the maximum number of DFI clock cycles registered between a dfi_phymstr_req signal assertion and a dfi_phymstr_ack signal assertion. READ-ONLY" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_9," hexmask.long.tbyte 0x8 0.--19. 1. "PI_TDFI_PHYUPD_RESP,Indicates the maximum number of DFI clock cycles registered between a dfi_phyupd_req signal assertion and a dfi_phyupd_ack signal assertion. READ-ONLY." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_10," hexmask.long 0xC 0.--31. 1. "PI_TDFI_PHYUPD_MAX,Indicates the maximum number of DFI clock cycles registered while the dfi_phyupd_req signal is asserted and the dfi_phy_ack signal is asserted. READ-ONLY." group.long 0x202C++0x1B line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_11," bitfld.long 0x0 8. "PI_INIT_DFS_CALVL_ONLY,Enables frequency training for CA leveling only. Other trainings are not performed." "0,1" newline hexmask.long.byte 0x0 0.--4. 1. "PI_INIT_WORK_FREQ,Indicates the initial work frequency after initialization and initial leveling sequence." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_12," hexmask.long 0x4 0.--31. 1. "PI_FREQ_MAP,Frequency map for supported working frequencies. Each bit represents one supported frequency." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_13," bitfld.long 0x8 24. "PI_SWLVL_CS_SEL,Defines which chip selects are active in swlvl 0 for binary 1 for one-hot." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "PI_CS_MAP,Defines which chip selects are active." newline bitfld.long 0x8 0. "PI_SW_RST_N,User request to reset the whole PI except the parameter modules. Set 0 to reset set to 1 to release." "0,1" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_14," hexmask.long.byte 0xC 24.--27. 1. "PI_TMRR,DRAM tMRR value in memory clock cycles." newline bitfld.long 0xC 16. "PI_SRX_LVL_TARGET_CS_EN,Defines self refresh exit trigger target rank/ranks training or all ranks training. 1: The rank/ranks exit from self refresh will trigger the corresponding rank/ranks training. Note: If multiple ranks exit from self refresh .." "0: Any rank/ranks exit from self refresh will..,1: The rank/ranks exit from self refresh will.." newline hexmask.long.byte 0xC 8.--12. 1. "PI_RANK_NUM_PER_CKE,Defines the number of chip selects share one cke" newline hexmask.long.byte 0xC 0.--3. 1. "PI_CS_MASK,Defines which chip selects are active." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_15," bitfld.long 0x10 16. "PI_MCAREF_FORWARD_ONLY,Controls the generation of AREF from the PI module or forward the MC received value." "0,1" newline bitfld.long 0x10 8.--10. "PI_VRCG_EN,Whether enable VRCG mode in two cases: bit0 - when DFS. bit1-when setting DQ Vref. bit2-when setting CBT." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x10 0.--3. 1. "PI_TMPRR,DRAM tMPRR value in memory clock cycles." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_16," rbitfld.long 0x14 24. "PI_ON_DFIBUS,Monitors the state of the PI controlling the DFI bus. 1 means PI is in control. READ-ONLY." "0,1" newline hexmask.long.tbyte 0x14 0.--19. 1. "PI_TREF_INTERVAL,Defines the cycles between refreshes to different chip selects." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_17," rbitfld.long 0x18 24. "PI_SW_WRLVL_RESP_0,Write leveling response for data slice 0. READ-ONLY" "0,1" newline rbitfld.long 0x18 16. "PI_SWLVL_OP_DONE,Reports the status of the software leveling operation. Value of 1 indicates operation complete. READ-ONLY" "0,1" newline bitfld.long 0x18 8. "PI_SWLVL_LOAD,User request to load delays and execute software leveling. Set to 1 to trigger. WRITE-ONLY" "0,1" newline rbitfld.long 0x18 0. "PI_DATA_RETENTION,Monitors the readiness for the PHY to be put into data retention mode after pi_sref_entry req parameter has been written. 1 means ready for data retention. READ-ONLY." "0,1" rgroup.long 0x2048++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_18," bitfld.long 0x0 24.--25. "PI_SW_RDLVL_RESP_0,Read leveling response for data slice 0. READ-ONLY" "0,1,2,3" newline bitfld.long 0x0 16. "PI_SW_WRLVL_RESP_3,Write leveling response for data slice 3. READ-ONLY" "0,1" newline bitfld.long 0x0 8. "PI_SW_WRLVL_RESP_2,Write leveling response for data slice 2. READ-ONLY" "0,1" newline bitfld.long 0x0 0. "PI_SW_WRLVL_RESP_1,Write leveling response for data slice 1. READ-ONLY" "0,1" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_19," bitfld.long 0x4 24.--25. "PI_SW_CALVL_RESP_0,CA leveling response for address slice 0. READ-ONLY" "0,1,2,3" newline bitfld.long 0x4 16.--17. "PI_SW_RDLVL_RESP_3,Read leveling response for data slice 3. READ-ONLY" "0,1,2,3" newline bitfld.long 0x4 8.--9. "PI_SW_RDLVL_RESP_2,Read leveling response for data slice 2. READ-ONLY" "0,1,2,3" newline bitfld.long 0x4 0.--1. "PI_SW_RDLVL_RESP_1,Read leveling response for data slice 1. READ-ONLY" "0,1,2,3" group.long 0x2050++0x3F line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_20," bitfld.long 0x0 24. "PI_SWLVL_WR_SLICE_0,SW leveling write command in WDQ training. WRITE-ONLY" "0,1" newline bitfld.long 0x0 16. "PI_SWLVL_EXIT,User request to exit software leveling. Set to 1 to exit. WRITE-ONLY" "0,1" newline bitfld.long 0x0 8. "PI_SWLVL_START,User request to initiate software leveling of type in the SW_LEVELING_MODE parameter. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0x0 0.--2. "PI_SW_LEVELING_MODE,Defines the leveling operation for software leveling. Set to 'b111 for DDR4 VREF training set to b001 for write leveling set to b010 for read data eye training or set to b011 for read gate training set to b100 for ca training set.." "0,1,2,3,4,5,6,7" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_21," bitfld.long 0x4 24. "PI_SWLVL_WR_SLICE_1,SW leveling write command in WDQ training. WRITE-ONLY" "0,1" newline rbitfld.long 0x4 16.--17. "PI_SW_WDQLVL_RESP_0,Leveling response for data slice 0. READ-ONLY" "0,1,2,3" newline bitfld.long 0x4 8. "PI_SWLVL_VREF_UPDATE_SLICE_0,SW leveling vref update command in WDQ training. WRITE-ONLY" "0,1" newline bitfld.long 0x4 0. "PI_SWLVL_RD_SLICE_0,SW leveling read command in WDQ training. WRITE-ONLY" "0,1" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_22," bitfld.long 0x8 24. "PI_SWLVL_WR_SLICE_2,SW leveling write command in WDQ training. WRITE-ONLY" "0,1" newline rbitfld.long 0x8 16.--17. "PI_SW_WDQLVL_RESP_1,Leveling response for data slice 1. READ-ONLY" "0,1,2,3" newline bitfld.long 0x8 8. "PI_SWLVL_VREF_UPDATE_SLICE_1,SW leveling vref update command in WDQ training. WRITE-ONLY" "0,1" newline bitfld.long 0x8 0. "PI_SWLVL_RD_SLICE_1,SW leveling read command in WDQ training. WRITE-ONLY" "0,1" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_23," bitfld.long 0xC 24. "PI_SWLVL_WR_SLICE_3,SW leveling write command in WDQ training. WRITE-ONLY" "0,1" newline rbitfld.long 0xC 16.--17. "PI_SW_WDQLVL_RESP_2,Leveling response for data slice 2. READ-ONLY" "0,1,2,3" newline bitfld.long 0xC 8. "PI_SWLVL_VREF_UPDATE_SLICE_2,SW leveling vref update command in WDQ training. WRITE-ONLY" "0,1" newline bitfld.long 0xC 0. "PI_SWLVL_RD_SLICE_2,SW leveling read command in WDQ training. WRITE-ONLY" "0,1" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_24," bitfld.long 0x10 24. "PI_SWLVL_SM2_START,SW leveling start command for stage 2. WRITE-ONLY" "0,1" newline rbitfld.long 0x10 16.--17. "PI_SW_WDQLVL_RESP_3,Leveling response for data slice 3. READ-ONLY" "0,1,2,3" newline bitfld.long 0x10 8. "PI_SWLVL_VREF_UPDATE_SLICE_3,SW leveling vref update command in WDQ training. WRITE-ONLY" "0,1" newline bitfld.long 0x10 0. "PI_SWLVL_RD_SLICE_3,SW leveling read command in WDQ training. WRITE-ONLY" "0,1" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_25," bitfld.long 0x14 24. "PI_DFS_PERIOD_EN,Enable the DFS triggered periodic leveling." "0,1" newline bitfld.long 0x14 16. "PI_SEQUENTIAL_LVL_REQ,User request to initiate all possible leveling sequences. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0x14 8. "PI_SWLVL_SM2_RD,SW leveling read command for stage 2. WRITE-ONLY" "0,1" newline bitfld.long 0x14 0. "PI_SWLVL_SM2_WR,SW leveling write command for stage 2. WRITE-ONLY" "0,1" line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_26," bitfld.long 0x18 24. "PI_16BIT_DRAM_CONNECT,Enable 16/32 bit DRAM configuration. 0: 16bit DRAM. 1: 32 bit DRAM." "0: 16bit DRAM,1: 32 bit DRAM" newline bitfld.long 0x18 16. "PI_DFI40_POLARITY,Defines the polarity of the dfi_wrdata_cs_n/dfi_rddata_cs_n signals." "0,1" newline bitfld.long 0x18 8. "PI_MPD_PERIOD_EN,Enable the max power saving mode exit triggered periodic leveling." "0,1" newline bitfld.long 0x18 0. "PI_SRE_PERIOD_EN,Enable the self refresh exit triggered periodic leveling." "0,1" line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_27," hexmask.long.byte 0x1C 24.--29. 1. "PI_WLDQSEN,Delay from issuing MRS to first DQS strobe for write leveling." newline bitfld.long 0x1C 16.--17. "PI_WRLVL_CS,Specifies the target chip select for the write leveling operation initiated through the WRLVL_REQ parameter." "0,1,2,3" newline hexmask.long.byte 0x1C 8.--11. 1. "PI_WRLVL_CS_SW,Specifies the target chip select for the write leveling operation initiated through the WRLVL_REQ parameter." newline bitfld.long 0x1C 0. "PI_WRLVL_REQ,User request to initiate write leveling. Set to 1 to trigger. WRITE-ONLY" "0,1" line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_28," bitfld.long 0x20 24. "PI_WRLVL_ON_SREF_EXIT,Enables automatic write leveling on a self-refresh exit. Set to 1 to enable." "0,1" newline hexmask.long.word 0x20 8.--23. 1. "PI_WRLVL_INTERVAL,Number of long count sequences counted between automatic write leveling commands." newline hexmask.long.byte 0x20 0.--5. 1. "PI_WLMRD,Delay from issuing MRS to first write leveling strobe." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_29," hexmask.long.byte 0x24 24.--27. 1. "PI_WRLVL_CS_MAP,Defines the chip select map for write leveling operations. Bit [0] controls cs0 bit [1] controls cs1 etc. Set each bit to 1 to enable chip for write leveling." newline bitfld.long 0x24 16. "PI_WRLVL_ROTATE,Enables rotational CS for counter triggered automatic write leveling. Set to 1 only one rank's write levling will process the rank number is rotational for each time that write leveling been triggered by counter expiring. Set to 0 or.." "0,1" newline hexmask.long.byte 0x24 8.--11. 1. "PI_WRLVL_RESP_MASK,Mask for the dfi_wrlvl_resp signal during write leveling." newline bitfld.long 0x24 0. "PI_WRLVL_DISABLE_DFS,Disable automatic write leveling on freq change. Set to 1 to disable wrlvl on dfs set 0 enable wrlvl on dfs." "0,1" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_30," hexmask.long.byte 0x28 16.--23. 1. "PI_TDFI_WRLVL_EN,Defines the DFI tWRLVL_EN timing parameter [in DFI clocks] the minimum cycles from a dfi_wrlvl_en assertion to the first dfi_wrlvl_strobe assertion." newline rbitfld.long 0x28 8. "PI_WRLVL_ERROR_STATUS,Holds the error associated with the write level error interrupt. Bit [0] set indicates a TDFI_WRLVL_MAX parameter violation and bit [1] set indicates a TDFI_WRLVL_RESP parameter violation. READ-ONLY" "0,1" newline bitfld.long 0x28 0. "PI_WRLVL_ON_MPD_EXIT,Enables automatic write leveling on a maximum power down mode exit. Set to 1 to enable." "0,1" line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_31," hexmask.long 0x2C 0.--31. 1. "PI_TDFI_WRLVL_RESP,Defines the DFI tWRLVL_RESP timing parameter [in DFI clocks] the maximum cycles between a dfi_wrlvl_req assertion and a dfi_wrlvl_en assertion." line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_32," hexmask.long 0x30 0.--31. 1. "PI_TDFI_WRLVL_MAX,Defines the DFI tWRLVL_MAX timing parameter [in DFI clocks] the maximum cycles between a dfi_wrlvl_en assertion and a valid dfi_wrlvl_resp." line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_33," hexmask.long.byte 0x34 24.--27. 1. "PI_ODT_VALUE,When using LPDDR4 this value will be driven out on the dfi_odt signal." newline hexmask.long.byte 0x34 16.--19. 1. "PI_TODTH_RD,Defines the minimum DRAM cycles of ODT high time for a read command in memory clocks." newline hexmask.long.byte 0x34 8.--11. 1. "PI_TODTH_WR,Defines the minimum DRAM cycles of ODT high time for a write command in memory clocks." newline hexmask.long.byte 0x34 0.--4. 1. "PI_WRLVL_STROBE_NUM,Defines the number of write leveling strobes generated." line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_34," hexmask.long.byte 0x38 0.--3. 1. "PI_ADDRESS_MIRRORING,Indicates which chip selects support address mirroring. Bit [0] controls cs0 bit [1] controls cs1 etc. Set each bit to 1 to enable." line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_35," hexmask.long 0x3C 0.--25. 1. "PI_CA_PARITY_ERROR_INJECT,Selects bit to corrupt on the CA bus for CA parity error injection." wgroup.long 0x2090++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_36," bitfld.long 0x0 24. "PI_RDLVL_GATE_REQ,User request to initiate gate training. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0x0 16. "PI_RDLVL_REQ,User request to initiate data eye training. Set to 1 to trigger. WRITE-ONLY" "0,1" group.long 0x2094++0xC7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_37," bitfld.long 0x0 8.--9. "PI_RDLVL_CS,Specifies the target chip select for the data eye training operation initiated through the RDLVL_REQ parameter or the gate training operation initiated through the RDLVL_GATE_REQ parameter." "0,1,2,3" newline hexmask.long.byte 0x0 0.--3. 1. "PI_RDLVL_CS_SW,Specifies the target chip select for the data eye training operation initiated through the RDLVL_REQ parameter or the gate training operation initiated through the RDLVL_GATE_REQ parameter." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_38," hexmask.long 0x4 0.--31. 1. "PI_RDLVL_PAT_0,Non-default pattern 0 used for read data eye training of DDR4 or LPDDR4 and read dbi training of DDR4." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_39," hexmask.long 0x8 0.--31. 1. "PI_RDLVL_PAT_1,Non-default pattern 1 used for read data eye training of DDR4 or LPDDR4 and read dbi training of DDR4." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_40," hexmask.long 0xC 0.--31. 1. "PI_RDLVL_PAT_2,Non-default pattern 2 used for read data eye training of DDR4 or LPDDR4 and read dbi training of DDR4." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_41," hexmask.long 0x10 0.--31. 1. "PI_RDLVL_PAT_3,Non-default pattern 3 used for read data eye training of DDR4 or LPDDR4 and read dbi training of DDR4." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_42," hexmask.long 0x14 0.--31. 1. "PI_RDLVL_PAT_4,Non-default pattern 4 used for read data eye training of DDR4 or LPDDR4 and read dbi training of DDR4." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_43," hexmask.long 0x18 0.--31. 1. "PI_RDLVL_PAT_5,Non-default pattern 5 used for read data eye training of DDR4 or LPDDR4 and read dbi training of DDR4." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_44," hexmask.long 0x1C 0.--31. 1. "PI_RDLVL_PAT_6,Non-default pattern 6 used for read data eye training of DDR4 or LPDDR4 and read dbi training of DDR4." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_45," hexmask.long 0x20 0.--31. 1. "PI_RDLVL_PAT_7,Non-default pattern 7 used for read data eye training of DDR4 or LPDDR4 and read dbi training of DDR4." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_46," bitfld.long 0x24 24. "PI_RDLVL_GATE_ON_SREF_EXIT,Enables automatic gate training on a self-refresh exit. Set to 1 to enable." "0,1" newline bitfld.long 0x24 16. "PI_RDLVL_DISABLE_DFS,Disables automatic data eye training on freq change. Set to 1 to disable rdlvl on dfs Set to 0 to enable rdlvl on dfs." "0,1" newline bitfld.long 0x24 8. "PI_RDLVL_ON_SREF_EXIT,Enables automatic data eye training on a self-refresh exit. Set to 1 to enable." "0,1" newline hexmask.long.byte 0x24 0.--3. 1. "PI_RDLVL_SEQ_EN,Specifies the pattern format and MPR for data eye training." line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_47," bitfld.long 0x28 24. "PI_RDLVL_ROTATE,Enables rotational CS for interval data eye training. Set to 1 for rotating CS." "0,1" newline bitfld.long 0x28 16. "PI_RDLVL_GATE_ON_MPD_EXIT,Enables automatic gate training on a maximum power down mode exit. Set to 1 to enable." "0,1" newline bitfld.long 0x28 8. "PI_RDLVL_ON_MPD_EXIT,Enables automatic data eye training on a maximum power down mode exit. Set to 1 to enable." "0,1" newline bitfld.long 0x28 0. "PI_RDLVL_GATE_DISABLE_DFS,Disables automatic gate training on freq change. Set to 1 to disable rdlvl_gate on dfs Set to 0 to enable rdlvl_gate on dfs." "0,1" line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_48," hexmask.long.byte 0x2C 16.--19. 1. "PI_RDLVL_GATE_CS_MAP,Defines the chip select map for gate training operations. Bit [0] controls cs0 bit [1] controls cs1 etc. Set each bit to 1 to enable chip for gate training." newline hexmask.long.byte 0x2C 8.--11. 1. "PI_RDLVL_CS_MAP,Defines the chip select map for data eye training operations. Bit [0] controls cs0 bit [1] controls cs1 etc. Set each bit to 1 to enable chip for data eye training." newline bitfld.long 0x2C 0. "PI_RDLVL_GATE_ROTATE,Enables rotational CS for interval gate training. Set to 1 for rotating CS." "0,1" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_49," hexmask.long.word 0x30 0.--9. 1. "PI_TDFI_RDLVL_RR,Defines the DFI tRDLVL_RR timing parameter [in DFI clocks] the minimum cycles between read commands." line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_50," hexmask.long 0x34 0.--31. 1. "PI_TDFI_RDLVL_RESP,Defines the DFI tRDLVL_RESP timing parameter [in DFI clocks] the maximum cycles between a dfi_rdlvl_req or dfi_rdlvl_gate_req assertion and a dfi_rdlvl_en or dfi_rdlvl_gate_en assertion." line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_51," hexmask.long.byte 0x38 8.--15. 1. "PI_TDFI_RDLVL_EN,Defines the DFI tRDLVL_EN timing parameter [in DFI clocks] the minimum cycles from a dfi_rdlvl_en or dfi_rdlvl_gate_en assertion to the first read or MRR. Set to 1 means the minium value[1 cycle] set to 0 means the maxium value" newline hexmask.long.byte 0x38 0.--3. 1. "PI_RDLVL_RESP_MASK,Mask for the dfi_rdlvl_resp signal during data eye training." line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_52," hexmask.long 0x3C 0.--31. 1. "PI_TDFI_RDLVL_MAX,Defines the DFI tRDLVL_MAX timing parameter [in DFI clocks] the maximum cycles between a dfi_rdlvl_en or dfi_rdlvl_gate_en assertion and a valid dfi_rdlvl_resp." line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_53," hexmask.long.word 0x40 8.--23. 1. "PI_RDLVL_INTERVAL,Number of long count sequences counted between automatic data eye training commands." newline rbitfld.long 0x40 0. "PI_RDLVL_ERROR_STATUS,Holds the error associated with the data eye training error or gate training error interrupt. Uppermost bit set indicates a TDFI_RDLVL_RESP parameter violation. Next uppermost bit set indicates a TDFI_RDLVL_MAX parameter violation." "0,1" line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_54," hexmask.long.byte 0x44 24.--27. 1. "PI_RDLVL_PATTERN_NUM,Defines the number of pattern supported in read leveling." newline hexmask.long.byte 0x44 16.--19. 1. "PI_RDLVL_PATTERN_START,Defines the start pattern in read leveling." newline hexmask.long.word 0x44 0.--15. 1. "PI_RDLVL_GATE_INTERVAL,Number of long count sequences counted between automatic gate training commands." line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_55," bitfld.long 0x48 24. "PI_REG_DIMM_ENABLE,Enable registered DIMM operation. Set to 1 to enable." "0,1" newline bitfld.long 0x48 16. "PI_RD_PREAMBLE_TRAINING_EN,Enable read preamble training during gate training. Set to 1 to enable." "0,1" newline hexmask.long.byte 0x48 8.--12. 1. "PI_RDLVL_GATE_STROBE_NUM,Defines the number of back to back MPC command in one read process in read gate training." newline hexmask.long.byte 0x48 0.--4. 1. "PI_RDLVL_STROBE_NUM,Defines the number of back to back MPC command in one read process in read eye training." line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_56," hexmask.long.byte 0x4C 24.--27. 1. "PI_CALVL_CS_SW,Specifies the target chip select for the CA training operation initiated through the CALVL_REQ parameter." newline bitfld.long 0x4C 16. "PI_CALVL_REQ,User request to initiate CA training. Set to 1 to trigger. WRITE-ONLY" "0,1" newline hexmask.long.byte 0x4C 8.--15. 1. "PI_TDFI_PHY_WRLAT,Holds the calculated DFI tPHY_WRLAT timing parameter [in DFI PHY clocks] the maximum cycles between a write command and a dfi_wrdata_en assertion. READ-ONLY" newline hexmask.long.byte 0x4C 0.--7. 1. "PI_TDFI_RDDATA_EN,Holds the calculated DFI tRDDATA_EN timing parameter [in DFI PHY clocks] the maximum cycles between a read command and a dfi_rddata_en assertion. READ-ONLY" line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_57," bitfld.long 0x50 24.--25. "PI_CALVL_SEQ_EN,Specifies which CA training patterns will be used. Set to 0 for pattern 0 only set to 1 for patterns 0 and 1 set to 2 for patterns 0 1 and 2 or set to 3 for all patterns." "0,1,2,3" newline bitfld.long 0x50 0.--1. "PI_CALVL_CS,Specifies the target chip select for the CA training operation initiated through the CALVL_REQ parameter." "0,1,2,3" line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_58," bitfld.long 0x54 24. "PI_CALVL_ROTATE,Enables rotational CS for interval CA training. Set to 1 for rotating CS." "0,1" newline bitfld.long 0x54 16. "PI_CALVL_DISABLE_DFS,Disables automatic CA training on freq change. Set to 1 to disable CA training on dfs Set to 0 to enable CA training ." "0,1" newline bitfld.long 0x54 8. "PI_CALVL_ON_SREF_EXIT,Enables automatic CA training on a self-refresh exit. Set to 1 to enable." "0,1" newline bitfld.long 0x54 0. "PI_CALVL_PERIODIC,Enables the use of the dfi_lvl_periodic signal during CA training. Set to 1 to enable." "0,1" line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_59," hexmask.long.byte 0x58 8.--15. 1. "PI_TDFI_CALVL_EN,Defines the DFI tCALVL_EN timing parameter [in DFI clocks] the minimum cycles between a dfi_calvl_en assertion and a dfi_cke de-assertion." newline hexmask.long.byte 0x58 0.--3. 1. "PI_CALVL_CS_MAP,Defines the chip select map for CA training operations. Bit [0] controls cs0 bit [1] controls cs1 etc. Set each bit to 1 to enable chip for CA training." line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_60," hexmask.long 0x5C 0.--31. 1. "PI_TDFI_CALVL_RESP,Defines the DFI tCALVL_RESP timing parameter [in DFI clocks] the maximum cycles between a dfi_calvl_req assertion and a dfi_calvl_en assertion." line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_61," hexmask.long 0x60 0.--31. 1. "PI_TDFI_CALVL_MAX,Defines the DFI tCALVL_MAX timing parameter [in DFI clocks] the maximum cycles between a dfi_calvl_en assertion and a valid dfi_calvl_resp." line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_62," hexmask.long.word 0x64 16.--31. 1. "PI_CALVL_INTERVAL,Number of long count sequences counted between automatic CA training commands." newline rbitfld.long 0x64 8.--9. "PI_CALVL_ERROR_STATUS,Holds the error associated with the CA training error interrupt. Bit [0] set indicates a TDFI_CALVL_RESP parameter violation and bit [1] set indicates a TDFI_CALVL_MAX parameter violation. READ-ONLY" "0,1,2,3" newline bitfld.long 0x64 0. "PI_CALVL_RESP_MASK,Mask for the dfi_calvl_resp signal during CA training." "0,1" line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_63," hexmask.long.byte 0x68 24.--28. 1. "PI_TCAEXT,DRAM tCAEXT value in memory cycles." newline hexmask.long.byte 0x68 16.--20. 1. "PI_TCACKEH,DRAM tCACKEH value in memory cycles." newline hexmask.long.byte 0x68 8.--13. 1. "PI_TCAMRD,DRAM tCAMRD value in memory cycles." newline hexmask.long.byte 0x68 0.--4. 1. "PI_TCACKEL,DRAM tCACKEL value in memory cycles." line.long 0x6C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_64," hexmask.long.byte 0x6C 24.--31. 1. "PI_TDFI_INIT_START_MIN,Minimum number of DFI clocks before dfi_init_start can be driven after a previous command/training event." newline hexmask.long.byte 0x6C 16.--19. 1. "PI_CALVL_VREF_NORMAL_STEPSIZE,The adjust step for the post-initial Vref[ca] training." newline hexmask.long.byte 0x6C 8.--11. 1. "PI_CALVL_VREF_INITIAL_STEPSIZE,The adjust step for the initial Vref[ca] training." newline bitfld.long 0x6C 0. "PI_CA_TRAIN_VREF_EN,Control for VREF training during CA training post power-on initialization. Set to enable VREF training." "0,1" line.long 0x70 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_65," bitfld.long 0x70 24. "PI_REFRESH_BETWEEN_SEGMENT_DISABLE,Disable the refresh between CA first and second segment training. Set to 1 to disable." "0,1" newline hexmask.long.byte 0x70 16.--22. 1. "PI_SW_CA_TRAIN_VREF,The Vref value which is set for SW step by step CA training." newline hexmask.long.byte 0x70 8.--12. 1. "PI_CALVL_STROBE_NUM,The consecutive dfi_calvl_strobe number when updating the CA vref data." newline hexmask.long.byte 0x70 0.--7. 1. "PI_TCKCKEH,DRAM tCKELCK Clock and command valid before CKE HIGH." line.long 0x74 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_66," hexmask.long.byte 0x74 24.--31. 1. "PI_TDFI_INIT_COMPLETE_MIN,Minimum number of DFI clocks from dfi_init_complete to a command/training event." newline bitfld.long 0x74 16. "PI_DRAM_CLK_DISABLE_DEASSERT_SEL,Indicate dfi_dram_clk_disable deassert following dfi_init_start deassert or dfi_init_complete assert. Set to 0: dfi_dram_clk_disable deassert following dfi_init_start deassert. Set to 1: dfi_dram_clk_disable deassert.." "0: dfi_dram_clk_disable deassert following..,1: dfi_dram_clk_disable deassert following.." newline hexmask.long.byte 0x74 8.--15. 1. "PI_INIT_STARTORCOMPLETE_2_CLKDISABLE,Defines the delay from deasserting of dfi_init_start or asserting of dfi_init_complete to deasserting of dfi_dram_clk_disable in DFI clock." newline hexmask.long.byte 0x74 0.--7. 1. "PI_CLKDISABLE_2_INIT_START,Defines the delay from the asserting of dfi_dram_clk_disable to the asserting of dfi_init_start in DFI clock." line.long 0x78 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_67," bitfld.long 0x78 24. "PI_MC_DFS_PI_SET_VREF_ENABLE,Enable the PI to set VREF value after DFS issued by MC. MR12 and MR14 for LPDDR4. MR6 for DDR4. 1 means disable." "0,1" newline bitfld.long 0x78 16. "PI_VREFLVL_DISABLE_DFS,Disables automatic VREF training on freq change. Set to 1 to disable." "0,1" newline bitfld.long 0x78 8. "PI_VREF_PDA_EN,Enable per-DRAM addressability during VREF training. Set to 1 to enable." "0,1" newline bitfld.long 0x78 0.--1. "PI_VREF_CS,Specifies the target chip select for the VREF training operation." "0,1,2,3" line.long 0x7C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_68," hexmask.long.byte 0x7C 24.--27. 1. "PI_WDQLVL_RESP_MASK,Write DQ training response mask. When set to 1 the dfi_wdqlvl_en of the slice is not asserted." newline bitfld.long 0x7C 16.--18. "PI_WDQLVL_BST_NUM,Defines the number of write/read bursts issued at each step in write DQ training." "0,1,2,3,4,5,6,7" newline bitfld.long 0x7C 8. "PI_WDQLVL_VREF_EN,Control for VREF training as part of non-initialization write DQ training." "0,1" newline hexmask.long.byte 0x7C 0.--7. 1. "PI_INIT_COMPLETE_TO_MC_DELAY_COUNT,It controls the time PI bypass CKE at the beginning of PI mask dfi_init_complete to controller." line.long 0x80 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_69," hexmask.long.byte 0x80 24.--28. 1. "PI_WDQLVL_VREF_NORMAL_STEPSIZE,Write DQ training vref step size for post_initial training." newline hexmask.long.byte 0x80 16.--20. 1. "PI_WDQLVL_VREF_INITIAL_STEPSIZE,Write DQ training vref step size for initial training." newline hexmask.long.byte 0x80 8.--11. 1. "PI_WDQLVL_CS_MAP,Map of CS's included in write DQ training sequence." newline bitfld.long 0x80 0. "PI_WDQLVL_ROTATE,Enables write DQ training rotate for interval training." "0,1" line.long 0x84 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_70," bitfld.long 0x84 24.--25. "PI_WDQLVL_CS,Write DQ training target chip select." "0,1,2,3" newline hexmask.long.byte 0x84 16.--19. 1. "PI_WDQLVL_CS_SW,Write DQ training target chip select." newline bitfld.long 0x84 8. "PI_WDQLVL_REQ,SW write to initiate Write DQ training request. WRITE-ONLY" "0,1" newline bitfld.long 0x84 0. "PI_WDQLVL_PERIODIC,Enables periodic write DQ training." "0,1" line.long 0x88 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_71," hexmask.long.byte 0x88 0.--7. 1. "PI_TDFI_WDQLVL_EN,DFI timing param tWDQLVL_EN. Minimum number of DFI clocks required after the write DQ training enable signal is asserted until the first write command may be asserted." line.long 0x8C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_72," hexmask.long 0x8C 0.--31. 1. "PI_TDFI_WDQLVL_RESP,DFI timing param tWDQLVL_RESP. Maximum number of DFI clocks that may occur between a write DQ training request and the associated mode enable." line.long 0x90 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_73," hexmask.long 0x90 0.--31. 1. "PI_TDFI_WDQLVL_MAX,DFI timing param tWDQLVL_MAX. Maximum number of DFI clocks that the PI will wait for a response from the PHY." line.long 0x94 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_74," bitfld.long 0x94 24. "PI_WDQLVL_ON_MPD_EXIT,Issue a write DQ training command on maximum power saving mode exit." "0,1" newline bitfld.long 0x94 16. "PI_WDQLVL_ON_SREF_EXIT,Issue a write DQ training command on self-refresh exit." "0,1" newline hexmask.long.word 0x94 0.--15. 1. "PI_WDQLVL_INTERVAL,Sets the maximum number of long count sequences allowed between automatic write DQ training operations." line.long 0x98 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_75," bitfld.long 0x98 16.--17. "PI_WDQLVL_NEED_SAVE_RESTORE,Enables the use of functional DRAM address space for write DQ training 1 = enable not for LPDDR4." "?,1: enable,?,?" newline rbitfld.long 0x98 8.--9. "PI_WDQLVL_ERROR_STATUS,Holds the error associated with the write dq level error interrupt. Bit [0] set indicates a PI_TDFI_WDQLVL_MAX parameter violation and bit [1] set indicates a PI_TDFI_WDQLVL_RESP parameter violation. READ-ONLY." "0,1,2,3" newline bitfld.long 0x98 0. "PI_WDQLVL_DISABLE_DFS,Disable automatic write DQ training on freq change. Set to 1 to disable." "0,1" line.long 0x9C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_76," hexmask.long 0x9C 0.--31. 1. "PI_WDQLVL_DRAM_LVL_START_ADDR_0,Start address of WDQ leveling not for LPDDR4." line.long 0xA0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_77," bitfld.long 0xA0 16. "PI_NO_MEMORY_DM,Defines if the attached memory supports the Data Mask function 1 = not supported." "?,1: not supported" newline bitfld.long 0xA0 8. "PI_WDQLVL_DM_LEVEL_EN,Enable for write DM training as part of the write DQ training not for LPDDR4." "0,1" newline bitfld.long 0xA0 0.--2. "PI_WDQLVL_DRAM_LVL_START_ADDR_1,Start address of WDQ leveling not for LPDDR4." "0,1,2,3,4,5,6,7" line.long 0xA4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_78," bitfld.long 0xA4 24. "PI_WDQLVL_NIBBLE_MODE,WDQ Training Nibble mode indication. When set to 1 nibble mode is enabled and the training timing is doubled." "0,1" newline bitfld.long 0xA4 16. "PI_SWLVL_SM2_DM_NIBBLE_START,Start command for stage 2 when in the process of DM leveling or nibble mode. WRITE-ONLY" "0,1" newline hexmask.long.word 0xA4 0.--9. 1. "PI_TDFI_WDQLVL_WW,Minimum number of DFI clocks to be inserted between write commands during the DM portion of write DQ training." line.long 0xA8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_79," bitfld.long 0xA8 24. "PI_WDQLVL_PDA_VREF_TRAIN,Enable for the use of PDA to set the VREF during write DQ training 1 = enabled." "?,1: enabled" newline bitfld.long 0xA8 16. "PI_WDQLVL_PDA_EN,Enable for the use of write DQ training for PDA mode 1 = enabled." "?,1: enabled" newline bitfld.long 0xA8 8. "PI_DQS_OSC_PERIOD_EN,Enable for DQS oscillator triggered periodic write DQ training 1 = enabled." "?,1: enabled" newline bitfld.long 0xA8 0. "PI_WDQLVL_OSC_EN,Enable for DQS oscillator triggered write DQ training 1 = enabled." "?,1: enabled" line.long 0xAC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_80," bitfld.long 0xAC 24.--26. "PI_ROW_DIFF,Difference between number of address pins available and number being used." "0,1,2,3,4,5,6,7" newline bitfld.long 0xAC 16.--17. "PI_BANK_DIFF,Difference between number of bank pins available and number being used." "0,1,2,3" newline hexmask.long.byte 0xAC 8.--11. 1. "PI_DBILVL_RESP_MASK,Mask for the dfi_rdlvl_resp signal during read dbi training." newline bitfld.long 0xAC 0. "PI_PARALLEL_WDQLVL_EN,Enable per rank parallel Write DQ training for LPDDR4 1 = enabled." "?,1: enabled" line.long 0xB0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_81," hexmask.long.byte 0xB0 0.--4. 1. "PI_TCCD,DRAM CAS-to-CAS value in cycles." line.long 0xB4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_82," line.long 0xB8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_83," line.long 0xBC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_84," line.long 0xC0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_85," line.long 0xC4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_86," rgroup.long 0x215C++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_87," hexmask.long 0x0 0.--29. 1. "PI_INT_STATUS,Status of interrupt features in the PI. READ-ONLY" wgroup.long 0x2160++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_88," hexmask.long 0x0 0.--28. 1. "PI_INT_ACK,Clear the corresponding interrupt bit of the PI_INT_STATUS parameter. WRITE-ONLY" group.long 0x2164++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_89," hexmask.long 0x0 0.--29. 1. "PI_INT_MASK,Mask for PI_int signals from the PI_INT_STATUS parameter." rgroup.long 0x2168++0x23 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_90," hexmask.long 0x0 0.--31. 1. "PI_BIST_EXP_DATA_0,Expected data on BIST error. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_91," hexmask.long 0x4 0.--31. 1. "PI_BIST_EXP_DATA_1,Expected data on BIST error. READ-ONLY" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_92," hexmask.long 0x8 0.--31. 1. "PI_BIST_EXP_DATA_2,Expected data on BIST error. READ-ONLY" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_93," hexmask.long 0xC 0.--31. 1. "PI_BIST_EXP_DATA_3,Expected data on BIST error. READ-ONLY" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_94," hexmask.long 0x10 0.--31. 1. "PI_BIST_FAIL_DATA_0,Actual data on BIST error. READ-ONLY" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_95," hexmask.long 0x14 0.--31. 1. "PI_BIST_FAIL_DATA_1,Actual data on BIST error. READ-ONLY" line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_96," hexmask.long 0x18 0.--31. 1. "PI_BIST_FAIL_DATA_2,Actual data on BIST error. READ-ONLY" line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_97," hexmask.long 0x1C 0.--31. 1. "PI_BIST_FAIL_DATA_3,Actual data on BIST error. READ-ONLY" line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_98," hexmask.long 0x20 0.--31. 1. "PI_BIST_FAIL_ADDR_0,The burst aligned address of BIST error. READ-ONLY" group.long 0x218C++0xD7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_99," bitfld.long 0x0 24. "PI_CMD_SWAP_EN,Command pin swap function enable" "0,1" newline hexmask.long.byte 0x0 16.--20. 1. "PI_LONG_COUNT_MASK,Reduces the length of the long counter from 1024 cycles." newline hexmask.long.byte 0x0 8.--13. 1. "PI_BSTLEN,Encoded burst length sent to DRAMs during initialization." newline rbitfld.long 0x0 0.--2. "PI_BIST_FAIL_ADDR_1,The burst aligned address of BIST error. READ-ONLY" "0,1,2,3,4,5,6,7" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_100," hexmask.long.byte 0x4 24.--28. 1. "PI_BG_MUX_1,Command pin BG_1 mux selector" newline hexmask.long.byte 0x4 16.--20. 1. "PI_BG_MUX_0,Command pin BG_0 mux selector" newline hexmask.long.byte 0x4 8.--12. 1. "PI_ACT_N_MUX,Command pin ACT_N mux selector" newline hexmask.long.byte 0x4 0.--4. 1. "PI_PARITY_IN_MUX,Command pin parity mux selector" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_101," hexmask.long.byte 0x8 24.--28. 1. "PI_BANK_MUX_0,Command pin BANK_0 mux selector" newline hexmask.long.byte 0x8 16.--20. 1. "PI_WE_N_MUX,Command pin WE_N mux selector" newline hexmask.long.byte 0x8 8.--12. 1. "PI_CAS_N_MUX,Command pin CAS_N mux selector" newline hexmask.long.byte 0x8 0.--4. 1. "PI_RAS_N_MUX,Command pin RAS_N mux selector" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_102," bitfld.long 0xC 24.--25. "PI_DATA_BYTE_SWAP_SLICE1,DATA pin 1 mux selector" "0,1,2,3" newline bitfld.long 0xC 16.--17. "PI_DATA_BYTE_SWAP_SLICE0,DATA pin 0 mux selector" "0,1,2,3" newline bitfld.long 0xC 8. "PI_DATA_BYTE_SWAP_EN,DATA pin swap function enable" "0,1" newline hexmask.long.byte 0xC 0.--4. 1. "PI_BANK_MUX_1,Command pin BANK_1 mux selector" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_103," bitfld.long 0x10 16. "PI_CTRLUPD_REQ_PER_AREF_EN,Enable an automatic PI initiated update [dfi_ctrlupd_req] after every refresh. Set to 1 to enable." "0,1" newline bitfld.long 0x10 8.--9. "PI_DATA_BYTE_SWAP_SLICE3,DATA pin 3 mux selector" "0,1,2,3" newline bitfld.long 0x10 0.--1. "PI_DATA_BYTE_SWAP_SLICE2,DATA pin 2 mux selector" "0,1,2,3" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_104," bitfld.long 0x14 24.--26. "PI_TDFI_PARIN_LAT,Defines the DFI tPARIN_LAT timing parameter [in DFI PHY clocks] the maximum cycles between a DFI command and a dfi_parity_in signal assertion." "0,1,2,3,4,5,6,7" newline rbitfld.long 0x14 16.--17. "PI_UPDATE_ERROR_STATUS,Identifies the source of any DFI PI-initiated update errors. Value of 1 indicates a timing violation of the associated timing parameter. Bit 1-0: ctrlupd_max_error ctrlupd_interval_error. Bit 6-2: reserved. READ-ONLY" "0,1,2,3" newline hexmask.long.word 0x14 0.--15. 1. "PI_TDFI_CTRLUPD_MIN,Reports the DFI tCTRLUPD_MIN timing parameter [in DFI clocks] the minimum cycles that dfi_ctrlupd_req must be asserted." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_105," hexmask.long.byte 0x18 24.--31. 1. "PI_ADDR_SPACE,Sets the number of address bits to check during BIST operation. The end address of BIST is start_address+[1 shifted up by PI_ADDR_SPACE]-1. The end address should not beyond the actual memory address range." newline rbitfld.long 0x18 16. "PI_BIST_LFSR_PATTERN_DONE,BIST operation lfsr pattern data pattern 1'b0 means the data is useful 1'b1 means next pattern sequence can ingore. READ-ONLY" "0,1" newline rbitfld.long 0x18 8.--9. "PI_BIST_RESULT,BIST operation status [pass/fail]. Bit [0] indicates data check status and bit [1] indicates address check status. Value of 1 is a passing result. READ-ONLY" "0,1,2,3" newline bitfld.long 0x18 0. "PI_BIST_GO,Initiate a BIST operation. Set to 1 to trigger." "0,1" line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_106," bitfld.long 0x1C 8. "PI_BIST_ADDR_CHECK,Enable address checking with BIST operation. Set to 1 to enable." "0,1" newline bitfld.long 0x1C 0. "PI_BIST_DATA_CHECK,Enable data checking with BIST operation. Set to 1 to enable." "0,1" line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_107," hexmask.long 0x20 0.--31. 1. "PI_BIST_START_ADDRESS_0,Start BIST checking at this address." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_108," hexmask.long.byte 0x24 8.--15. 1. "PI_MBIST_INIT_PATTERN,PI mbist data check random lfsr pattern mode init pattern seed." newline bitfld.long 0x24 0.--2. "PI_BIST_START_ADDRESS_1,Start BIST checking at this address." "0,1,2,3,4,5,6,7" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_109," hexmask.long 0x28 0.--31. 1. "PI_BIST_DATA_MASK_0,Mask applied to data for BIST error checking. Bit [0] controls memory data path bit [0] bit [1] controls memory data path bit [1] etc. The mask range is the data transfer size in each memory clock cycle [The data on a rising edge.." line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_110," hexmask.long 0x2C 0.--31. 1. "PI_BIST_DATA_MASK_1,Mask applied to data for BIST error checking. Bit [0] controls memory data path bit [0] bit [1] controls memory data path bit [1] etc. The mask range is the data transfer size in each memory clock cycle [The data on a rising edge.." line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_111," hexmask.long.word 0x30 16.--27. 1. "PI_BIST_ERR_STOP,Defines the maximum number of error occurrences allowed prior to quitting when the BIST_TEST_MODE parameter is set to 1 2 or 3. A value of 0 will allow the test to run to completion." newline hexmask.long.word 0x30 0.--11. 1. "PI_BIST_ERR_COUNT,Indicates the number of BIST errors found when the BIST_TEST_MODE parameter is set to 1 2 or 3. READ-ONLY" line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_112," hexmask.long 0x34 0.--31. 1. "PI_BIST_ADDR_MASK_0_0,Defines an address to be masked during the BIST operation.." line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_113," hexmask.long.byte 0x38 0.--3. 1. "PI_BIST_ADDR_MASK_0_1,Defines an address to be masked during the BIST operation.." line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_114," hexmask.long 0x3C 0.--31. 1. "PI_BIST_ADDR_MASK_1_0,Defines an address to be masked during the BIST operation.." line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_115," hexmask.long.byte 0x40 0.--3. 1. "PI_BIST_ADDR_MASK_1_1,Defines an address to be masked during the BIST operation.." line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_116," hexmask.long 0x44 0.--31. 1. "PI_BIST_ADDR_MASK_2_0,Defines an address to be masked during the BIST operation.." line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_117," hexmask.long.byte 0x48 0.--3. 1. "PI_BIST_ADDR_MASK_2_1,Defines an address to be masked during the BIST operation.." line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_118," hexmask.long 0x4C 0.--31. 1. "PI_BIST_ADDR_MASK_3_0,Defines an address to be masked during the BIST operation.." line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_119," hexmask.long.byte 0x50 0.--3. 1. "PI_BIST_ADDR_MASK_3_1,Defines an address to be masked during the BIST operation.." line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_120," hexmask.long 0x54 0.--31. 1. "PI_BIST_ADDR_MASK_4_0,Defines an address to be masked during the BIST operation.." line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_121," hexmask.long.byte 0x58 0.--3. 1. "PI_BIST_ADDR_MASK_4_1,Defines an address to be masked during the BIST operation.." line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_122," hexmask.long 0x5C 0.--31. 1. "PI_BIST_ADDR_MASK_5_0,Defines an address to be masked during the BIST operation.." line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_123," hexmask.long.byte 0x60 0.--3. 1. "PI_BIST_ADDR_MASK_5_1,Defines an address to be masked during the BIST operation.." line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_124," hexmask.long 0x64 0.--31. 1. "PI_BIST_ADDR_MASK_6_0,Defines an address to be masked during the BIST operation.." line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_125," hexmask.long.byte 0x68 0.--3. 1. "PI_BIST_ADDR_MASK_6_1,Defines an address to be masked during the BIST operation.." line.long 0x6C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_126," hexmask.long 0x6C 0.--31. 1. "PI_BIST_ADDR_MASK_7_0,Defines an address to be masked during the BIST operation.." line.long 0x70 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_127," hexmask.long.byte 0x70 0.--3. 1. "PI_BIST_ADDR_MASK_7_1,Defines an address to be masked during the BIST operation.." line.long 0x74 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_128," hexmask.long 0x74 0.--31. 1. "PI_BIST_ADDR_MASK_8_0,Defines an address to be masked during the BIST operation.." line.long 0x78 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_129," hexmask.long.byte 0x78 0.--3. 1. "PI_BIST_ADDR_MASK_8_1,Defines an address to be masked during the BIST operation.." line.long 0x7C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_130," hexmask.long 0x7C 0.--31. 1. "PI_BIST_ADDR_MASK_9_0,Defines an address to be masked during the BIST operation.." line.long 0x80 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_131," bitfld.long 0x80 24.--25. "PI_BIST_PAT_MODE,Sets the pattern mode of BIST. 'b00 indicates using built-in pattern. 'b01 indicates checkerboard pattern each data transfer inverts the last data transfer based on the built-in pattern. 'b10 indicates using both user pattern and.." "0,1,2,3" newline bitfld.long 0x80 16.--17. "PI_BIST_ADDR_MODE,Sets the address traversing order of BIST. 'b00 indicates fast column order [burst-column-bank-row-rank]. 'b01 indicates fast row order [burst-row-column-bank-rank]. 'b10 indicates fast bank order [burst-bank-column-row-rank]." "0,1,2,3" newline bitfld.long 0x80 8.--10. "PI_BIST_MODE,Sets the BIST data checking mode. 'b00 indicates MOVI13N mode. 'b01 indicates March C mode. 'b10 indicates GALPAT mode. 'b11 indicates PRBS mode. 'b100 indicates programmable March data check mode." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x80 0.--3. 1. "PI_BIST_ADDR_MASK_9_1,Defines an address to be masked during the BIST operation.." line.long 0x84 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_132," hexmask.long 0x84 0.--31. 1. "PI_BIST_USER_PAT_0,Sets the user-specified pattern of BIST." line.long 0x88 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_133," hexmask.long 0x88 0.--31. 1. "PI_BIST_USER_PAT_1,Sets the user-specified pattern of BIST." line.long 0x8C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_134," hexmask.long 0x8C 0.--31. 1. "PI_BIST_USER_PAT_2,Sets the user-specified pattern of BIST." line.long 0x90 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_135," hexmask.long 0x90 0.--31. 1. "PI_BIST_USER_PAT_3,Sets the user-specified pattern of BIST." line.long 0x94 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_136," hexmask.long.byte 0x94 0.--6. 1. "PI_BIST_PAT_NUM,Sets the max used pattern number of BIST from a total of 8 built-in patterns. Ex. set to 3 The BIST would use pattern 1 2 and 3." line.long 0x98 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_137," hexmask.long 0x98 0.--29. 1. "PI_BIST_STAGE_0,Sets the programmable algorithm of each stage X when pi_bist_mmode = 'h4." line.long 0x9C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_138," hexmask.long 0x9C 0.--29. 1. "PI_BIST_STAGE_1,Sets the programmable algorithm of each stage X when pi_bist_mmode = 'h4." line.long 0xA0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_139," hexmask.long 0xA0 0.--29. 1. "PI_BIST_STAGE_2,Sets the programmable algorithm of each stage X when pi_bist_mmode = 'h4." line.long 0xA4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_140," hexmask.long 0xA4 0.--29. 1. "PI_BIST_STAGE_3,Sets the programmable algorithm of each stage X when pi_bist_mmode = 'h4." line.long 0xA8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_141," hexmask.long 0xA8 0.--29. 1. "PI_BIST_STAGE_4,Sets the programmable algorithm of each stage X when pi_bist_mmode = 'h4." line.long 0xAC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_142," hexmask.long 0xAC 0.--29. 1. "PI_BIST_STAGE_5,Sets the programmable algorithm of each stage X when pi_bist_mmode = 'h4." line.long 0xB0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_143," hexmask.long 0xB0 0.--29. 1. "PI_BIST_STAGE_6,Sets the programmable algorithm of each stage X when pi_bist_mmode = 'h4." line.long 0xB4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_144," hexmask.long 0xB4 0.--29. 1. "PI_BIST_STAGE_7,Sets the programmable algorithm of each stage X when pi_bist_mmode = 'h4." line.long 0xB8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_145," bitfld.long 0xB8 24. "PI_SELF_REFRESH_EN,Control for PI to enable self refresh mode. Set to 1 to enable." "0,1" newline bitfld.long 0xB8 16. "PI_CRC_CALC,Defines where CRC is performed; set to 1 for PI responsibility or clear to 0 for PHY responsibility." "0,1" newline bitfld.long 0xB8 8. "PI_BG_ROTATE_EN,Enable bank group rotation. Set to 1 to enable." "0,1" newline hexmask.long.byte 0xB8 0.--3. 1. "PI_COL_DIFF,Difference between number of column pins available and number being used." line.long 0xBC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_146," bitfld.long 0xBC 24. "PI_SREF_ENTRY_REQ,In PI power up data retention PI can issued sref entry command. WRITE-ONLY" "0,1" newline bitfld.long 0xBC 16. "PI_SREFRESH_EXIT_NO_REFRESH,Disables the automatic refresh request associated with self-refresh exit. Set to 1 to disable." "0,1" newline bitfld.long 0xBC 8. "PI_PWRUP_SREFRESH_EXIT,PI control powerup via self-refresh instead of full memory initialization. Set to 1 to enable." "0,1" newline bitfld.long 0xBC 0. "PI_MC_PWRUP_SREFRESH_EXIT,It indicates MC control powerup via self-refresh instead of full memory initialization. Set to 1 to enable." "0,1" line.long 0xC0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_147," bitfld.long 0xC0 24. "PI_NO_AUTO_MRR_INIT,Disable MRR commands during initialization. Set to 1 to disable." "0,1" newline bitfld.long 0xC0 16. "PI_NO_PHY_IND_TRAIN_INIT,Disable PHY Independent Training during initialization. Set to 1 to disable." "0,1" newline bitfld.long 0xC0 8. "PI_NO_MRW_INIT,Disable MRW commands after training during initialization. Set to 1 to disable." "0,1" newline bitfld.long 0xC0 0. "PI_NO_MRW_BT_INIT,Disable MRW commands before training during initialization. Set to 1 to disable." "0,1" line.long 0xC4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_148," hexmask.long 0xC4 0.--31. 1. "PI_TRST_PWRON,Duration of memory reset during power-on initialization." line.long 0xC8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_149," hexmask.long 0xC8 0.--31. 1. "PI_CKE_INACTIVE,Number of cycles after reset before CKE will be active." line.long 0xCC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_150," hexmask.long.word 0xCC 16.--31. 1. "PI_DLL_RST_DELAY,Minimum cycles required for DLL reset signal dll_rst_n to be held." newline bitfld.long 0xCC 8. "PI_DRAM_INIT_EN,Control for the initialization of DRAM by the PI." "0,1" newline bitfld.long 0xCC 0. "PI_DLL_RST,Enables use of the DLL reset [dll_rst_n]." "0,1" line.long 0xD0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_151," hexmask.long.byte 0xD0 0.--7. 1. "PI_DLL_RST_ADJ_DLY,Minimum cycles after setting controller delay in DLL until the DLL reset signal dll_rst_n may be asserted." line.long 0xD4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_152," hexmask.long 0xD4 0.--25. 1. "PI_WRITE_MODEREG,Write memory mode register data to the DRAMs. Bits [7:0] define the memory mode register number if bit [23] is set bits [15:8] define the chip select if bit [24] is clear bits [23:16] define which memory mode register/s to write bit.." rgroup.long 0x2264++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_153," hexmask.long.byte 0x0 0.--7. 1. "PI_MRW_STATUS,Write memory mode register status. Bit [0] set indicates a WRITE_MODEREG parameter programming error. Bit [1] set indicates a PASR error. Bit [2] is Reserved. Bit [3] set indicates a self refresh or deep power down error. Bit [4] set.." group.long 0x2268++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_154," hexmask.long.tbyte 0x0 0.--16. 1. "PI_READ_MODEREG,Read the specified memory mode register from specified chip when start bit set. Bits [7:0] define the memory mode register and bits [15:8] define the chip select. Set bit [16] to 1 to trigger." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_155," bitfld.long 0x4 24. "PI_NO_ZQ_INIT,Disable ZQ operations during initialization. Set to 1 to disable." "0,1" newline hexmask.long.tbyte 0x4 0.--23. 1. "PI_PERIPHERAL_MRR_DATA_0,Data and chip returned from memory mode register read requested by the READ_MODEREG parameter Bits [15:0] define MRR data [23:16] define the chip select. READ-ONLY" rgroup.long 0x2270++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_156," bitfld.long 0x0 16. "PI_ZQ_REQ_PENDING,Indicates that a ZQ command is currently in progress or waiting to run. When this is asserted no writes to ZQ_REQ should occur. READ-ONLY" "0,1" group.long 0x2274++0x17 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_157," hexmask.long.byte 0x0 24.--31. 1. "PI_MONITOR_0,Monitor register 0. READ-ONLY." newline bitfld.long 0x0 16. "PI_MONITOR_CAP_SEL_0,Selection of captures for pi_monitor_0." "0,1" newline hexmask.long.byte 0x0 8.--11. 1. "PI_MONITOR_SRC_SEL_0,Selection of sources for pi_monitor_0." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_158," hexmask.long.byte 0x4 24.--27. 1. "PI_MONITOR_SRC_SEL_2,Selection of sources for pi_monitor_2." newline hexmask.long.byte 0x4 16.--23. 1. "PI_MONITOR_1,Monitor register 1. READ-ONLY." newline bitfld.long 0x4 8. "PI_MONITOR_CAP_SEL_1,Selection of captures for pi_monitor_1." "0,1" newline hexmask.long.byte 0x4 0.--3. 1. "PI_MONITOR_SRC_SEL_1,Selection of sources for pi_monitor_1." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_159," bitfld.long 0x8 24. "PI_MONITOR_CAP_SEL_3,Selection of captures for pi_monitor_3." "0,1" newline hexmask.long.byte 0x8 16.--19. 1. "PI_MONITOR_SRC_SEL_3,Selection of sources for pi_monitor_3." newline hexmask.long.byte 0x8 8.--15. 1. "PI_MONITOR_2,Monitor register 2. READ-ONLY." newline bitfld.long 0x8 0. "PI_MONITOR_CAP_SEL_2,Selection of captures for pi_monitor_2." "0,1" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_160," hexmask.long.byte 0xC 24.--31. 1. "PI_MONITOR_4,Monitor register 4. READ-ONLY." newline bitfld.long 0xC 16. "PI_MONITOR_CAP_SEL_4,Selection of captures for pi_monitor_4." "0,1" newline hexmask.long.byte 0xC 8.--11. 1. "PI_MONITOR_SRC_SEL_4,Selection of sources for pi_monitor_4." newline hexmask.long.byte 0xC 0.--7. 1. "PI_MONITOR_3,Monitor register 3. READ-ONLY." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_161," hexmask.long.byte 0x10 24.--27. 1. "PI_MONITOR_SRC_SEL_6,Selection of sources for pi_monitor_6." newline hexmask.long.byte 0x10 16.--23. 1. "PI_MONITOR_5,Monitor register 5. READ-ONLY." newline bitfld.long 0x10 8. "PI_MONITOR_CAP_SEL_5,Selection of captures for pi_monitor_5." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "PI_MONITOR_SRC_SEL_5,Selection of sources for pi_monitor_5." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_162," bitfld.long 0x14 24. "PI_MONITOR_CAP_SEL_7,Selection of captures for pi_monitor_7." "0,1" newline hexmask.long.byte 0x14 16.--19. 1. "PI_MONITOR_SRC_SEL_7,Selection of sources for pi_monitor_7." newline hexmask.long.byte 0x14 8.--15. 1. "PI_MONITOR_6,Monitor register 6. READ-ONLY." newline bitfld.long 0x14 0. "PI_MONITOR_CAP_SEL_6,Selection of captures for pi_monitor_6." "0,1" rgroup.long 0x228C++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_163," hexmask.long.byte 0x0 0.--7. 1. "PI_MONITOR_7,Monitor register 7. READ-ONLY." wgroup.long 0x2290++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_164," hexmask.long.byte 0x0 0.--7. 1. "PI_MONITOR_STROBE,Strobe the pi_monitor once. Every bit corresponds respectively with a pi_monitor. WRITE-ONLY" group.long 0x2294++0x227 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_165," hexmask.long.byte 0x0 16.--20. 1. "PI_FREQ_RETENTION_NUM,Monitor active freq number in PI for data_retention" newline hexmask.long.byte 0x0 8.--12. 1. "PI_FREQ_NUMBER_STATUS,Monitor active freq number in PI. READ-ONLY." newline rbitfld.long 0x0 0. "PI_DLL_LOCK,Monitor dfi_init_complete from PHY. READ-ONLY." "0,1" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_166," bitfld.long 0x4 16. "PI_POWER_REDUC_EN,PI Power reduction enable 1 = enabled." "?,1: enabled" newline bitfld.long 0x4 0.--1. "PI_PHYMSTR_TYPE,Defines how the controller should set the state of DRAM before turning control of the DFI bus over to the PI." "0,1,2,3" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_167," line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_168," line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_169," line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_170," line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_171," hexmask.long.byte 0x18 16.--23. 1. "PI_WRLVL_MAX_STROBE_PEND,Defines the maximum number of wrlvl_strobes that be accumulated before an AREF is prevented from being generated." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_172," hexmask.long.word 0x1C 0.--8. 1. "PI_TREFBW_THR,Threshold value to control the AREF command interval. When the number of pending AREF is over this value the interval is expanded to be tREF/8." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_173," hexmask.long.byte 0x20 0.--4. 1. "PI_FREQ_CHANGE_REG_COPY,In non-DFI 4.0 mode contains the frequency copy value." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_174," hexmask.long.byte 0x24 24.--27. 1. "PI_CATR,It indicates LP4 DRAM CA terminition ON/OFF state. Each bit corresponds to each chip select. 1:ON 0:OFF. This parameter is active when PI_NO_CATR_READ==1. When PI_NO_CATR_READ==0 this param is inactive" newline bitfld.long 0x24 16. "PI_PARALLEL_CALVL_EN,Enable parallel channel CA training for LPDDR4. 1: All the channels in one rank do CA Training in parallel. 0: Each channel does CA Training in sequence" "0: Each channel does CA Training in sequence,1: All the channels in one rank do CA Training in.." newline bitfld.long 0x24 0. "PI_FREQ_SEL_FROM_REGIF,In non-DFI 4.0 mode user select the frequency copies from pi_freq_change_reg_copy." "0,1" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_175," bitfld.long 0x28 24. "PI_DISABLE_PHYMSTR_REQ,PI mask dfi_phymstr_req to the controller and get dfi bus without dfi_phymstr_ack 1: disconnect" "?,1: disconnect" newline bitfld.long 0x28 16. "PI_DISCONNECT_MC,PI disconnects the controller from the PHY 1: disconnect" "?,1: disconnect" newline bitfld.long 0x28 8. "PI_MASK_INIT_COMPLETE,Enable the masking of the dfi_init_complete signal back to the controller 1: mask." "?,1: mask" newline bitfld.long 0x28 0. "PI_NO_CATR_READ,Defines how the LPDDR4 termination status is determined. 1: PI use PI_CATR to get DRAM CA Termination status. 0: PI reads DRAM MR0.OP7 to get DRAM CA Termination status." "0: PI reads DRAM MR0,1: PI use PI_CATR to get DRAM CA Termination status" line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_176," hexmask.long.word 0x2C 16.--31. 1. "PI_TVREF_F0,Defines the number of cycles that the PI should wait before issuing the next command after a VREF training MRW command for frequency set 0." newline bitfld.long 0x2C 8.--10. "PI_PHYMSTR_REQ_ACK_LOOP_DELAY,The delay between phymstr_req and inner phymstr_ack when PI_DISABLE_PHYMSTR_REQ set 1" "0,1,2,3,4,5,6,7" newline bitfld.long 0x2C 0. "PI_NOTCARE_MC_INIT_START,Defines whether PI waits for the controller to initiate dfi_init_start before PI memory initialization 1: wait for dfi_init_start" "?,1: wait for dfi_init_start" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_177," hexmask.long.word 0x30 16.--31. 1. "PI_TVREF_F2,Defines the number of cycles that the PI should wait before issuing the next command after a VREF training MRW command for frequency set 2." newline hexmask.long.word 0x30 0.--15. 1. "PI_TVREF_F1,Defines the number of cycles that the PI should wait before issuing the next command after a VREF training MRW command for frequency set 1." line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_178," hexmask.long.byte 0x34 16.--23. 1. "PI_TSDO_F2,The delay from the read preamble training MRS command to the data strobe drive out for frequency set 2 in PI clocks" newline hexmask.long.byte 0x34 8.--15. 1. "PI_TSDO_F1,The delay from the read preamble training MRS command to the data strobe drive out for frequency set 1 in PI clocks" newline hexmask.long.byte 0x34 0.--7. 1. "PI_TSDO_F0,The delay from the read preamble training MRS command to the data strobe drive out for frequency set 0 in PI clocks" line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_179," hexmask.long.byte 0x38 0.--7. 1. "PI_TDELAY_RDWR_2_BUS_IDLE_F0,The delay from read or write to bus idle for frequency set 0. Recommend setting is: delay time from read command issued to last read data received." line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_180," hexmask.long.byte 0x3C 0.--7. 1. "PI_TDELAY_RDWR_2_BUS_IDLE_F1,The delay from read or write to bus idle for frequency set 1. Recommend setting is: delay time from read command issued to last read data received." line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_181," hexmask.long.word 0x40 8.--19. 1. "PI_ZQINIT_F0,Number of cycles needed for a ZQINIT command for frequency set 0." newline hexmask.long.byte 0x40 0.--7. 1. "PI_TDELAY_RDWR_2_BUS_IDLE_F2,The delay from read or write to bus idle for frequency set 2. Recommend setting is: delay time from read command issued to last read data received." line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_182," hexmask.long.word 0x44 16.--27. 1. "PI_ZQINIT_F2,Number of cycles needed for a ZQINIT command for frequency set 2." newline hexmask.long.word 0x44 0.--11. 1. "PI_ZQINIT_F1,Number of cycles needed for a ZQINIT command for frequency set 1." line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_183," hexmask.long.byte 0x48 24.--31. 1. "PI_TPARITY_ERROR_CMD_INHIBIT_F0,Defines the window after the PI receives a parity error during which DRAM commands will not execute for frequency set 0." newline hexmask.long.byte 0x48 16.--19. 1. "PI_CA_PARITY_LAT_F0,DRAM CA parity latency value in cycles for frequency set 0." newline hexmask.long.byte 0x48 8.--13. 1. "PI_ADDITIVE_LAT_F0,DRAM additive latency value in cycles for frequency set 0." newline hexmask.long.byte 0x48 0.--6. 1. "PI_WRLAT_F0,DRAM WRLAT value in cycles for frequency set 0." line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_184," hexmask.long.byte 0x4C 24.--27. 1. "PI_CA_PARITY_LAT_F1,DRAM CA parity latency value in cycles for frequency set 1." newline hexmask.long.byte 0x4C 16.--21. 1. "PI_ADDITIVE_LAT_F1,DRAM additive latency value in cycles for frequency set 1." newline hexmask.long.byte 0x4C 8.--14. 1. "PI_WRLAT_F1,DRAM WRLAT value in cycles for frequency set 1." newline hexmask.long.byte 0x4C 0.--6. 1. "PI_CASLAT_LIN_F0,Sets latency from read command sent to data received from/to controller for frequency set 0. Bit [0] is half-cycle increment and the upper bits define memory CAS latency for the controller." line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_185," hexmask.long.byte 0x50 24.--29. 1. "PI_ADDITIVE_LAT_F2,DRAM additive latency value in cycles for frequency set 2." newline hexmask.long.byte 0x50 16.--22. 1. "PI_WRLAT_F2,DRAM WRLAT value in cycles for frequency set 2." newline hexmask.long.byte 0x50 8.--14. 1. "PI_CASLAT_LIN_F1,Sets latency from read command sent to data received from/to controller for frequency set 1. Bit [0] is half-cycle increment and the upper bits define memory CAS latency for the controller." newline hexmask.long.byte 0x50 0.--7. 1. "PI_TPARITY_ERROR_CMD_INHIBIT_F1,Defines the window after the PI receives a parity error during which DRAM commands will not execute for frequency set 1." line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_186," hexmask.long.byte 0x54 16.--22. 1. "PI_CASLAT_LIN_F2,Sets latency from read command sent to data received from/to controller for frequency set 2. Bit [0] is half-cycle increment and the upper bits define memory CAS latency for the controller." newline hexmask.long.byte 0x54 8.--15. 1. "PI_TPARITY_ERROR_CMD_INHIBIT_F2,Defines the window after the PI receives a parity error during which DRAM commands will not execute for frequency set 2." newline hexmask.long.byte 0x54 0.--3. 1. "PI_CA_PARITY_LAT_F2,DRAM CA parity latency value in cycles for frequency set 2." line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_187," hexmask.long.word 0x58 0.--9. 1. "PI_TRFC_F0,DRAM tRFC value in memory clocks for frequency set 0." line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_188," hexmask.long.tbyte 0x5C 0.--19. 1. "PI_TREF_F0,DRAM tREF value in memory clocks for frequency set 0." line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_189," hexmask.long.word 0x60 0.--9. 1. "PI_TRFC_F1,DRAM tRFC value in memory clocks for frequency set 1." line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_190," hexmask.long.tbyte 0x64 0.--19. 1. "PI_TREF_F1,DRAM tREF value in memory clocks for frequency set 1." line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_191," hexmask.long.word 0x68 0.--9. 1. "PI_TRFC_F2,DRAM tRFC value in memory clocks for frequency set 2." line.long 0x6C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_192," hexmask.long.byte 0x6C 24.--27. 1. "PI_TDFI_CTRL_DELAY_F0,Defines the DFI tCTRL_DELAY timing parameter [in DFI clocks] for frequency set 0 the delay between a DFI command change and a memory command." newline hexmask.long.tbyte 0x6C 0.--19. 1. "PI_TREF_F2,DRAM tREF value in memory clocks for frequency set 2." line.long 0x70 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_193," bitfld.long 0x70 24.--25. "PI_WRLVL_EN_F1,Enable the PI write leveling module for frequency set 1. Bit[1] represents the support when non-initialization. Bit[0]represents the support when initialization. Set to 1 to enable." "0,1,2,3" newline bitfld.long 0x70 16.--17. "PI_WRLVL_EN_F0,Enable the PI write leveling module for frequency set 0. Bit[1] represents the support when non-initialization. Bit[0]represents the support when initialization. Set to 1 to enable." "0,1,2,3" newline hexmask.long.byte 0x70 8.--11. 1. "PI_TDFI_CTRL_DELAY_F2,Defines the DFI tCTRL_DELAY timing parameter [in DFI clocks] for frequency set 2 the delay between a DFI command change and a memory command." newline hexmask.long.byte 0x70 0.--3. 1. "PI_TDFI_CTRL_DELAY_F1,Defines the DFI tCTRL_DELAY timing parameter [in DFI clocks] for frequency set 1 the delay between a DFI command change and a memory command." line.long 0x74 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_194," hexmask.long.word 0x74 8.--17. 1. "PI_TDFI_WRLVL_WW_F0,Defines the DFI tWRLVL_WW timing parameter [in DFI clocks] for frequency set 0 the minimum cycles between dfi_wrlvl_strobe assertions." newline bitfld.long 0x74 0.--1. "PI_WRLVL_EN_F2,Enable the PI write leveling module for frequency set 2. Bit[1] represents the support when non-initialization. Bit[0]represents the support when initialization. Set to 1 to enable." "0,1,2,3" line.long 0x78 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_195," hexmask.long.word 0x78 16.--25. 1. "PI_TDFI_WRLVL_WW_F2,Defines the DFI tWRLVL_WW timing parameter [in DFI clocks] for frequency set 2 the minimum cycles between dfi_wrlvl_strobe assertions." newline hexmask.long.word 0x78 0.--9. 1. "PI_TDFI_WRLVL_WW_F1,Defines the DFI tWRLVL_WW timing parameter [in DFI clocks] for frequency set 1 the minimum cycles between dfi_wrlvl_strobe assertions." line.long 0x7C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_196," bitfld.long 0x7C 24. "PI_ODT_EN_F1,Enable support of DRAM ODT. When enabled PI will assert and de-assert ODT output to DRAM as needed for frequency set 1." "0,1" newline hexmask.long.byte 0x7C 16.--23. 1. "PI_TODTL_2CMD_F1,Defines the DRAM delay from an ODT de-assertion to the next non-write non-read command for frequency set 1." newline bitfld.long 0x7C 8. "PI_ODT_EN_F0,Enable support of DRAM ODT. When enabled PI will assert and de-assert ODT output to DRAM as needed for frequency set 0." "0,1" newline hexmask.long.byte 0x7C 0.--7. 1. "PI_TODTL_2CMD_F0,Defines the DRAM delay from an ODT de-assertion to the next non-write non-read command for frequency set 0." line.long 0x80 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_197," hexmask.long.byte 0x80 24.--27. 1. "PI_TODTON_MIN_F0,Defines the point in time when the device termination circuit leaves High-Z and ODT resistance begins to turn on for frequency set 0." newline hexmask.long.byte 0x80 16.--19. 1. "PI_ODTLON_F0,Defines the latency from a CAS-2 command to the tODTon reference for frequency set 0." newline bitfld.long 0x80 8. "PI_ODT_EN_F2,Enable support of DRAM ODT. When enabled PI will assert and de-assert ODT output to DRAM as needed for frequency set 2." "0,1" newline hexmask.long.byte 0x80 0.--7. 1. "PI_TODTL_2CMD_F2,Defines the DRAM delay from an ODT de-assertion to the next non-write non-read command for frequency set 2." line.long 0x84 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_198," hexmask.long.byte 0x84 24.--27. 1. "PI_TODTON_MIN_F2,Defines the point in time when the device termination circuit leaves High-Z and ODT resistance begins to turn on for frequency set 2." newline hexmask.long.byte 0x84 16.--19. 1. "PI_ODTLON_F2,Defines the latency from a CAS-2 command to the tODTon reference for frequency set 2." newline hexmask.long.byte 0x84 8.--11. 1. "PI_TODTON_MIN_F1,Defines the point in time when the device termination circuit leaves High-Z and ODT resistance begins to turn on for frequency set 1." newline hexmask.long.byte 0x84 0.--3. 1. "PI_ODTLON_F1,Defines the latency from a CAS-2 command to the tODTon reference for frequency set 1." line.long 0x88 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_199," hexmask.long.byte 0x88 24.--29. 1. "PI_RD_TO_ODTH_F0,Defines the delay from a read command to ODT assertion for frequency set 0." newline hexmask.long.byte 0x88 16.--21. 1. "PI_WR_TO_ODTH_F2,Defines the delay from a write command to ODT assertion for frequency set 2." newline hexmask.long.byte 0x88 8.--13. 1. "PI_WR_TO_ODTH_F1,Defines the delay from a write command to ODT assertion for frequency set 1." newline hexmask.long.byte 0x88 0.--5. 1. "PI_WR_TO_ODTH_F0,Defines the delay from a write command to ODT assertion for frequency set 0." line.long 0x8C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_200," bitfld.long 0x8C 24.--25. "PI_RDLVL_GATE_EN_F0,Enable the PI gate training module for frequency set 0. Bit[1] represents the support when non-initialization. Bit[0]represents the support when initialization. Set to 1 to enable." "0,1,2,3" newline bitfld.long 0x8C 16.--17. "PI_RDLVL_EN_F0,Enable the PI data eye training module for frequency set 0. Bit[1] represents the support when non-initialization. Bit[0]represents the support when initialization. Set to 1 to enable." "0,1,2,3" newline hexmask.long.byte 0x8C 8.--13. 1. "PI_RD_TO_ODTH_F2,Defines the delay from a read command to ODT assertion for frequency set 2." newline hexmask.long.byte 0x8C 0.--5. 1. "PI_RD_TO_ODTH_F1,Defines the delay from a read command to ODT assertion for frequency set 1." line.long 0x90 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_201," bitfld.long 0x90 24.--25. "PI_RDLVL_GATE_EN_F2,Enable the PI gate training module for frequency set 2. Bit[1] represents the support when non-initialization. Bit[0]represents the support when initialization. Set to 1 to enable." "0,1,2,3" newline bitfld.long 0x90 16.--17. "PI_RDLVL_EN_F2,Enable the PI data eye training module for frequency set 2. Bit[1] represents the support when non-initialization. Bit[0]represents the support when initialization. Set to 1 to enable." "0,1,2,3" newline bitfld.long 0x90 8.--9. "PI_RDLVL_GATE_EN_F1,Enable the PI gate training module for frequency set 1. Bit[1] represents the support when non-initialization. Bit[0]represents the support when initialization. Set to 1 to enable." "0,1,2,3" newline bitfld.long 0x90 0.--1. "PI_RDLVL_EN_F1,Enable the PI data eye training module for frequency set 1. Bit[1] represents the support when non-initialization. Bit[0]represents the support when initialization. Set to 1 to enable." "0,1,2,3" line.long 0x94 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_202," bitfld.long 0x94 24.--25. "PI_RDLVL_PAT0_EN_F0,Enable PATTERN-0 for read training for frequency set 0. bit1 for normal; bit0 for initialization." "0,1,2,3" newline hexmask.long.byte 0x94 16.--23. 1. "PI_TWR_MPR_F2,Number of cycles after MPR write command and before any other command for frequency set 2." newline hexmask.long.byte 0x94 8.--15. 1. "PI_TWR_MPR_F1,Number of cycles after MPR write command and before any other command for frequency set 1." newline hexmask.long.byte 0x94 0.--7. 1. "PI_TWR_MPR_F0,Number of cycles after MPR write command and before any other command for frequency set 0." line.long 0x98 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_203," bitfld.long 0x98 24.--25. "PI_RDLVL_PAT0_EN_F1,Enable PATTERN-0 for read training for frequency set 1. bit1 for normal; bit0 for initialization." "0,1,2,3" newline bitfld.long 0x98 16.--17. "PI_RDLVL_MULTI_EN_F0,Enable Multi-pattern [from PI_RDLVL_PATTERN_START total PI_RDLVL_PATTERN_NUM] for read training for frequency set 0. bit1 for normal; bit0 for initialization." "0,1,2,3" newline bitfld.long 0x98 8.--9. "PI_RDLVL_DFE_EN_F0,Enable DFE [PATTERN 8 9] for read training for frequency set 0. bit1 for normal; bit0 for initialization." "0,1,2,3" newline bitfld.long 0x98 0.--1. "PI_RDLVL_RXCAL_EN_F0,Enable RX Offset calibration [PATTERN 14 15] for read training for frequency set 0. bit1 for normal; bit0 for initialization." "0,1,2,3" line.long 0x9C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_204," bitfld.long 0x9C 24.--25. "PI_RDLVL_PAT0_EN_F2,Enable PATTERN-0 for read training for frequency set 2. bit1 for normal; bit0 for initialization." "0,1,2,3" newline bitfld.long 0x9C 16.--17. "PI_RDLVL_MULTI_EN_F1,Enable Multi-pattern [from PI_RDLVL_PATTERN_START total PI_RDLVL_PATTERN_NUM] for read training for frequency set 1. bit1 for normal; bit0 for initialization." "0,1,2,3" newline bitfld.long 0x9C 8.--9. "PI_RDLVL_DFE_EN_F1,Enable DFE [PATTERN 8 9] for read training for frequency set 1. bit1 for normal; bit0 for initialization." "0,1,2,3" newline bitfld.long 0x9C 0.--1. "PI_RDLVL_RXCAL_EN_F1,Enable RX Offset calibration [PATTERN 14 15] for read training for frequency set 1. bit1 for normal; bit0 for initialization." "0,1,2,3" line.long 0xA0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_205," hexmask.long.byte 0xA0 24.--31. 1. "PI_RDLAT_ADJ_F0,Adjusts the relative timing between DFI read commands and the dfi_rddata_en signal for frequency set 0." newline bitfld.long 0xA0 16.--17. "PI_RDLVL_MULTI_EN_F2,Enable Multi-pattern [from PI_RDLVL_PATTERN_START total PI_RDLVL_PATTERN_NUM] for read training for frequency set 2. bit1 for normal; bit0 for initialization." "0,1,2,3" newline bitfld.long 0xA0 8.--9. "PI_RDLVL_DFE_EN_F2,Enable DFE [PATTERN 8 9] for read training for frequency set 2. bit1 for normal; bit0 for initialization." "0,1,2,3" newline bitfld.long 0xA0 0.--1. "PI_RDLVL_RXCAL_EN_F2,Enable RX Offset calibration [PATTERN 14 15] for read training for frequency set 2. bit1 for normal; bit0 for initialization." "0,1,2,3" line.long 0xA4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_206," hexmask.long.byte 0xA4 24.--31. 1. "PI_WRLAT_ADJ_F1,Adjusts the relative timing in memory clocks between DFI write commands and the dfi_wrdata_en signal for frequency set 1." newline hexmask.long.byte 0xA4 16.--23. 1. "PI_WRLAT_ADJ_F0,Adjusts the relative timing in memory clocks between DFI write commands and the dfi_wrdata_en signal for frequency set 0." newline hexmask.long.byte 0xA4 8.--15. 1. "PI_RDLAT_ADJ_F2,Adjusts the relative timing between DFI read commands and the dfi_rddata_en signal for frequency set 2." newline hexmask.long.byte 0xA4 0.--7. 1. "PI_RDLAT_ADJ_F1,Adjusts the relative timing between DFI read commands and the dfi_rddata_en signal for frequency set 1." line.long 0xA8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_207," bitfld.long 0xA8 24.--26. "PI_TDFI_PHY_WRDATA_F2,Defines the DFI tPHY_WRDATA timing parameter [in DFI PHY clocks] for frequency set 2 the maximum cycles between a dfi_wrdata_en assertion and a dfi_wrdata signal." "0,1,2,3,4,5,6,7" newline bitfld.long 0xA8 16.--18. "PI_TDFI_PHY_WRDATA_F1,Defines the DFI tPHY_WRDATA timing parameter [in DFI PHY clocks] for frequency set 1 the maximum cycles between a dfi_wrdata_en assertion and a dfi_wrdata signal." "0,1,2,3,4,5,6,7" newline bitfld.long 0xA8 8.--10. "PI_TDFI_PHY_WRDATA_F0,Defines the DFI tPHY_WRDATA timing parameter [in DFI PHY clocks] for frequency set 0 the maximum cycles between a dfi_wrdata_en assertion and a dfi_wrdata signal." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0xA8 0.--7. 1. "PI_WRLAT_ADJ_F2,Adjusts the relative timing in memory clocks between DFI write commands and the dfi_wrdata_en signal for frequency set 2." line.long 0xAC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_208," hexmask.long.word 0xAC 16.--25. 1. "PI_TDFI_CALVL_CAPTURE_F0,Defines the DFI tCALVL_CAPTURE timing parameter [in DFI clocks] for frequency set 0 the minimum cycles between a calibration command and a dfi_calvl_capture pulse." newline hexmask.long.word 0xAC 0.--9. 1. "PI_TDFI_CALVL_CC_F0,Defines the DFI tCALVL_CC timing parameter [in DFI clocks] for frequency set 0 the minimum cycles between calibration commands." line.long 0xB0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_209," hexmask.long.word 0xB0 16.--25. 1. "PI_TDFI_CALVL_CAPTURE_F1,Defines the DFI tCALVL_CAPTURE timing parameter [in DFI clocks] for frequency set 1 the minimum cycles between a calibration command and a dfi_calvl_capture pulse." newline hexmask.long.word 0xB0 0.--9. 1. "PI_TDFI_CALVL_CC_F1,Defines the DFI tCALVL_CC timing parameter [in DFI clocks] for frequency set 1 the minimum cycles between calibration commands." line.long 0xB4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_210," hexmask.long.word 0xB4 16.--25. 1. "PI_TDFI_CALVL_CAPTURE_F2,Defines the DFI tCALVL_CAPTURE timing parameter [in DFI clocks] for frequency set 2 the minimum cycles between a calibration command and a dfi_calvl_capture pulse." newline hexmask.long.word 0xB4 0.--9. 1. "PI_TDFI_CALVL_CC_F2,Defines the DFI tCALVL_CC timing parameter [in DFI clocks] for frequency set 2 the minimum cycles between calibration commands." line.long 0xB8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_211," hexmask.long.byte 0xB8 24.--28. 1. "PI_TMRZ_F0,Defines the delay between a MRW CA exit command and the DQ tristate in memory clocks for frequency set 0." newline bitfld.long 0xB8 16.--17. "PI_CALVL_EN_F2,Enable the PI CA training module. Bit[1] represents the support when non-initialization for frequency set 2. Bit[0]represents the support when initialization. Set to 1 to enable." "0,1,2,3" newline bitfld.long 0xB8 8.--9. "PI_CALVL_EN_F1,Enable the PI CA training module. Bit[1] represents the support when non-initialization for frequency set 1. Bit[0]represents the support when initialization. Set to 1 to enable." "0,1,2,3" newline bitfld.long 0xB8 0.--1. "PI_CALVL_EN_F0,Enable the PI CA training module. Bit[1] represents the support when non-initialization for frequency set 0. Bit[0]represents the support when initialization. Set to 1 to enable." "0,1,2,3" line.long 0xBC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_212," hexmask.long.byte 0xBC 16.--20. 1. "PI_TMRZ_F1,Defines the delay between a MRW CA exit command and the DQ tristate in memory clocks for frequency set 1." newline hexmask.long.word 0xBC 0.--13. 1. "PI_TCAENT_F0,Defines the DRAM tCAENT term in memory clocks for frequency set 0." line.long 0xC0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_213," hexmask.long.byte 0xC0 16.--20. 1. "PI_TMRZ_F2,Defines the delay between a MRW CA exit command and the DQ tristate in memory clocks for frequency set 2." newline hexmask.long.word 0xC0 0.--13. 1. "PI_TCAENT_F1,Defines the DRAM tCAENT term in memory clocks for frequency set 1." line.long 0xC4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_214," hexmask.long.byte 0xC4 24.--28. 1. "PI_TDFI_CASEL_F0,Defines the DFI tcalvl_ca_sel timing parameter the width of dfi_calvl_ca_sel in PHY DFI clock cycles for frequency set 0." newline hexmask.long.byte 0xC4 16.--20. 1. "PI_TDFI_CACSCA_F0,Defines the DFI tcalvl_cs_ca timing parameter the number of PHY DFI clocks from the assertion of dfi_calvl_ca_sel to the assertion of dfi_cs for frequency set 0." newline hexmask.long.word 0xC4 0.--13. 1. "PI_TCAENT_F2,Defines the DRAM tCAENT term in memory clocks for frequency set 2." line.long 0xC8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_215," hexmask.long.word 0xC8 16.--25. 1. "PI_TVREF_LONG_F0,Defines the delay in PI clock cycles between the dfi_calvl_strobe to the next command if the pi_calvl_vref_stepsize parameter gt 1 for frequency set 0." newline hexmask.long.word 0xC8 0.--9. 1. "PI_TVREF_SHORT_F0,Defines the delay in PI clock cycles between the dfi_calvl_strobe to the next command if the pi_calvl_vref_stepsize parameter = 1 for frequency set 0." line.long 0xCC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_216," hexmask.long.word 0xCC 16.--25. 1. "PI_TVREF_SHORT_F1,Defines the delay in PI clock cycles between the dfi_calvl_strobe to the next command if the pi_calvl_vref_stepsize parameter = 1 for frequency set 1." newline hexmask.long.byte 0xCC 8.--12. 1. "PI_TDFI_CASEL_F1,Defines the DFI tcalvl_ca_sel timing parameter the width of dfi_calvl_ca_sel in PHY DFI clock cycles for frequency set 1." newline hexmask.long.byte 0xCC 0.--4. 1. "PI_TDFI_CACSCA_F1,Defines the DFI tcalvl_cs_ca timing parameter the number of PHY DFI clocks from the assertion of dfi_calvl_ca_sel to the assertion of dfi_cs for frequency set 1." line.long 0xD0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_217," hexmask.long.byte 0xD0 24.--28. 1. "PI_TDFI_CASEL_F2,Defines the DFI tcalvl_ca_sel timing parameter the width of dfi_calvl_ca_sel in PHY DFI clock cycles for frequency set 2." newline hexmask.long.byte 0xD0 16.--20. 1. "PI_TDFI_CACSCA_F2,Defines the DFI tcalvl_cs_ca timing parameter the number of PHY DFI clocks from the assertion of dfi_calvl_ca_sel to the assertion of dfi_cs for frequency set 2." newline hexmask.long.word 0xD0 0.--9. 1. "PI_TVREF_LONG_F1,Defines the delay in PI clock cycles between the dfi_calvl_strobe to the next command if the pi_calvl_vref_stepsize parameter gt 1 for frequency set 1." line.long 0xD4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_218," hexmask.long.word 0xD4 16.--25. 1. "PI_TVREF_LONG_F2,Defines the delay in PI clock cycles between the dfi_calvl_strobe to the next command if the pi_calvl_vref_stepsize parameter gt 1 for frequency set 2." newline hexmask.long.word 0xD4 0.--9. 1. "PI_TVREF_SHORT_F2,Defines the delay in PI clock cycles between the dfi_calvl_strobe to the next command if the pi_calvl_vref_stepsize parameter = 1 for frequency set 2." line.long 0xD8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_219," hexmask.long.byte 0xD8 24.--30. 1. "PI_CALVL_VREF_INITIAL_STOP_POINT_F1,The end point of initial training for the Vref[ca] training for frequency set 1 { vrefca_range vref_ca_setting[5:0]}." newline hexmask.long.byte 0xD8 16.--22. 1. "PI_CALVL_VREF_INITIAL_START_POINT_F1,The start point of initial training for the Vref[ca] training for frequency set 1 { vrefca_range vref_ca_setting[5:0]}." newline hexmask.long.byte 0xD8 8.--14. 1. "PI_CALVL_VREF_INITIAL_STOP_POINT_F0,The end point of initial training for the Vref[ca] training for frequency set 0 { vrefca_range vref_ca_setting[5:0]}." newline hexmask.long.byte 0xD8 0.--6. 1. "PI_CALVL_VREF_INITIAL_START_POINT_F0,The start point of initial training for the Vref[ca] training for frequency set 0 { vrefca_range vref_ca_setting[5:0]}." line.long 0xDC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_220," hexmask.long.byte 0xDC 24.--27. 1. "PI_CALVL_VREF_DELTA_F1,The delta fro the current CA vref for non-initial CA training for frequency set 1." newline hexmask.long.byte 0xDC 16.--19. 1. "PI_CALVL_VREF_DELTA_F0,The delta fro the current CA vref for non-initial CA training for frequency set 0." newline hexmask.long.byte 0xDC 8.--14. 1. "PI_CALVL_VREF_INITIAL_STOP_POINT_F2,The end point of initial training for the Vref[ca] training for frequency set 2 { vrefca_range vref_ca_setting[5:0]}." newline hexmask.long.byte 0xDC 0.--6. 1. "PI_CALVL_VREF_INITIAL_START_POINT_F2,The start point of initial training for the Vref[ca] training for frequency set 2 { vrefca_range vref_ca_setting[5:0]}." line.long 0xE0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_221," hexmask.long.byte 0xE0 24.--31. 1. "PI_TMRWCKEL_F0,Valid Clock and CS Requirement before CKE deassert after MRW Command for frequency set 0." newline hexmask.long.byte 0xE0 16.--20. 1. "PI_TXP_F0,CKE assert to next valid command delay for frequency set 0." newline hexmask.long.byte 0xE0 8.--11. 1. "PI_TDFI_CALVL_STROBE_F0,Minimum number of DFI PHY clocks from dfi_calvl_data to dfi_calvl_strobe mode for frequency set 0." newline hexmask.long.byte 0xE0 0.--3. 1. "PI_CALVL_VREF_DELTA_F2,The delta fro the current CA vref for non-initial CA training for frequency set 2." line.long 0xE4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_222," hexmask.long.byte 0xE4 24.--31. 1. "PI_TMRWCKEL_F1,Valid Clock and CS Requirement before CKE deassert after MRW Command for frequency set 1." newline hexmask.long.byte 0xE4 16.--20. 1. "PI_TXP_F1,CKE assert to next valid command delay for frequency set 1." newline hexmask.long.byte 0xE4 8.--11. 1. "PI_TDFI_CALVL_STROBE_F1,Minimum number of DFI PHY clocks from dfi_calvl_data to dfi_calvl_strobe mode for frequency set 1." newline hexmask.long.byte 0xE4 0.--4. 1. "PI_TCKELCK_F0,Valid Clock Requirement after CKE deassert for frequency set 0." line.long 0xE8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_223," hexmask.long.byte 0xE8 24.--31. 1. "PI_TMRWCKEL_F2,Valid Clock and CS Requirement before CKE deassert after MRW Command for frequency set 2." newline hexmask.long.byte 0xE8 16.--20. 1. "PI_TXP_F2,CKE assert to next valid command delay for frequency set 2." newline hexmask.long.byte 0xE8 8.--11. 1. "PI_TDFI_CALVL_STROBE_F2,Minimum number of DFI PHY clocks from dfi_calvl_data to dfi_calvl_strobe mode for frequency set 2." newline hexmask.long.byte 0xE8 0.--4. 1. "PI_TCKELCK_F1,Valid Clock Requirement after CKE deassert for frequency set 1." line.long 0xEC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_224," hexmask.long.tbyte 0xEC 8.--31. 1. "PI_TDFI_INIT_START_F0,Defines the DFI tINIT_START timing parameter [in DFI clocks] for frequency set 0 the maximum number of cycles between a dfi_init_start assertion and a dfi_init_complete de-assertion from the PHY." newline hexmask.long.byte 0xEC 0.--4. 1. "PI_TCKELCK_F2,Valid Clock Requirement after CKE deassert for frequency set 2." line.long 0xF0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_225," hexmask.long.tbyte 0xF0 0.--23. 1. "PI_TDFI_INIT_COMPLETE_F0,Defines the DFI tINIT_COMPLETE timing parameter [in DFI clocks] for frequency set 0 the maximum cycles between a dfi_init_start de-assertion and a dfi_init_complete assertion from the PHY." line.long 0xF4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_226," hexmask.long.tbyte 0xF4 0.--23. 1. "PI_TDFI_INIT_START_F1,Defines the DFI tINIT_START timing parameter [in DFI clocks] for frequency set 1 the maximum number of cycles between a dfi_init_start assertion and a dfi_init_complete de-assertion from the PHY." line.long 0xF8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_227," hexmask.long.tbyte 0xF8 0.--23. 1. "PI_TDFI_INIT_COMPLETE_F1,Defines the DFI tINIT_COMPLETE timing parameter [in DFI clocks] for frequency set 1 the maximum cycles between a dfi_init_start de-assertion and a dfi_init_complete assertion from the PHY." line.long 0xFC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_228," hexmask.long.tbyte 0xFC 0.--23. 1. "PI_TDFI_INIT_START_F2,Defines the DFI tINIT_START timing parameter [in DFI clocks] for frequency set 2 the maximum number of cycles between a dfi_init_start assertion and a dfi_init_complete de-assertion from the PHY." line.long 0x100 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_229," hexmask.long.byte 0x100 24.--29. 1. "PI_TCKEHDQS_F0,The DRAM timing tCKEHDQS minimum delay from CKE high to strobe high impedance for frequency set 0." newline hexmask.long.tbyte 0x100 0.--23. 1. "PI_TDFI_INIT_COMPLETE_F2,Defines the DFI tINIT_COMPLETE timing parameter [in DFI clocks] for frequency set 2 the maximum cycles between a dfi_init_start de-assertion and a dfi_init_complete assertion from the PHY." line.long 0x104 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_230," hexmask.long.byte 0x104 16.--21. 1. "PI_TCKEHDQS_F1,The DRAM timing tCKEHDQS minimum delay from CKE high to strobe high impedance for frequency set 1." newline hexmask.long.word 0x104 0.--9. 1. "PI_TFC_F0,The delay in PHY clock cycles from setting MR13.OP7 to any valid command for frequency set 0." line.long 0x108 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_231," hexmask.long.byte 0x108 16.--21. 1. "PI_TCKEHDQS_F2,The DRAM timing tCKEHDQS minimum delay from CKE high to strobe high impedance for frequency set 2." newline hexmask.long.word 0x108 0.--9. 1. "PI_TFC_F1,The delay in PHY clock cycles from setting MR13.OP7 to any valid command for frequency set 1." line.long 0x10C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_232," bitfld.long 0x10C 24.--25. "PI_VREF_EN_F1,Enable VREF training during power-up initialization for frequency set 1. Bit[1] represents the support when non-initialization. Bit[0]represents the support when initialization. Set to 1 to enable." "0,1,2,3" newline bitfld.long 0x10C 16.--17. "PI_VREF_EN_F0,Enable VREF training during power-up initialization for frequency set 0. Bit[1] represents the support when non-initialization. Bit[0]represents the support when initialization. Set to 1 to enable." "0,1,2,3" newline hexmask.long.word 0x10C 0.--9. 1. "PI_TFC_F2,The delay in PHY clock cycles from setting MR13.OP7 to any valid command for frequency set 2." line.long 0x110 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_233," hexmask.long.word 0x110 8.--17. 1. "PI_TDFI_WDQLVL_WR_F0,Switch time from write to read for frequency set 0." newline bitfld.long 0x110 0.--1. "PI_VREF_EN_F2,Enable VREF training during power-up initialization for frequency set 2. Bit[1] represents the support when non-initialization. Bit[0]represents the support when initialization. Set to 1 to enable." "0,1,2,3" line.long 0x114 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_234," hexmask.long.byte 0x114 24.--30. 1. "PI_WDQLVL_VREF_INITIAL_STOP_POINT_F0,Write DQ training vref initial training stop value for frequency set 0." newline hexmask.long.byte 0x114 16.--22. 1. "PI_WDQLVL_VREF_INITIAL_START_POINT_F0,Write DQ training vref initial training start value for frequency set 0." newline hexmask.long.word 0x114 0.--9. 1. "PI_TDFI_WDQLVL_RW_F0,Switch time from read to write for frequency set 0." line.long 0x118 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_235," hexmask.long.byte 0x118 24.--28. 1. "PI_WDQLVL_CL_F0,CL when the Read DBI disabled while doing WDQ training for frequency set 0." newline bitfld.long 0x118 16.--17. "PI_NTP_TRAIN_EN_F0,Indicates whether the no topology WDQ training is enabled. Bit[1] represents the support when non-initialization. Bit[0]represents the support when initialization." "0,1,2,3" newline bitfld.long 0x118 8.--9. "PI_WDQLVL_EN_F0,Indicates if Write DQ leveling is enabled for frequency set 0. Bit[1] represents the support when non-initialization. Bit[0]represents the support when initialization." "0,1,2,3" newline hexmask.long.byte 0x118 0.--3. 1. "PI_WDQLVL_VREF_DELTA_F0,The delta from the current Write DQ vref adjustment for non-initial wdq training for frequency set 0." line.long 0x11C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_236," hexmask.long.word 0x11C 16.--25. 1. "PI_TDFI_WDQLVL_WR_F1,Switch time from write to read for frequency set 1." newline hexmask.long.byte 0x11C 8.--15. 1. "PI_WDQLVL_WRLAT_ADJ_F0,Adjusted Tdfi_wrdata_en value for PHY read timing when read dbi disabled for frequency set 0 used for WDQ training." newline hexmask.long.byte 0x11C 0.--7. 1. "PI_WDQLVL_RDLAT_ADJ_F0,Adjusted Tdfi_rddata_en value for PHY read timing when read dbi disabled for frequency set 0 used for WDQ training." line.long 0x120 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_237," hexmask.long.byte 0x120 24.--30. 1. "PI_WDQLVL_VREF_INITIAL_STOP_POINT_F1,Write DQ training vref initial training stop value for frequency set 1." newline hexmask.long.byte 0x120 16.--22. 1. "PI_WDQLVL_VREF_INITIAL_START_POINT_F1,Write DQ training vref initial training start value for frequency set 1." newline hexmask.long.word 0x120 0.--9. 1. "PI_TDFI_WDQLVL_RW_F1,Switch time from read to write for frequency set 1." line.long 0x124 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_238," hexmask.long.byte 0x124 24.--28. 1. "PI_WDQLVL_CL_F1,CL when the Read DBI disabled while doing WDQ training for frequency set 1." newline bitfld.long 0x124 16.--17. "PI_NTP_TRAIN_EN_F1,Indicates whether the no topology WDQ training is enabled. Bit[1] represents the support when non-initialization. Bit[0]represents the support when initialization." "0,1,2,3" newline bitfld.long 0x124 8.--9. "PI_WDQLVL_EN_F1,Indicates if Write DQ leveling is enabled for frequency set 1. Bit[1] represents the support when non-initialization. Bit[0]represents the support when initialization." "0,1,2,3" newline hexmask.long.byte 0x124 0.--3. 1. "PI_WDQLVL_VREF_DELTA_F1,The delta from the current Write DQ vref adjustment for non-initial wdq training for frequency set 1." line.long 0x128 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_239," hexmask.long.word 0x128 16.--25. 1. "PI_TDFI_WDQLVL_WR_F2,Switch time from write to read for frequency set 2." newline hexmask.long.byte 0x128 8.--15. 1. "PI_WDQLVL_WRLAT_ADJ_F1,Adjusted Tdfi_wrdata_en value for PHY read timing when read dbi disabled for frequency set 1 used for WDQ training." newline hexmask.long.byte 0x128 0.--7. 1. "PI_WDQLVL_RDLAT_ADJ_F1,Adjusted Tdfi_rddata_en value for PHY read timing when read dbi disabled for frequency set 1 used for WDQ training." line.long 0x12C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_240," hexmask.long.byte 0x12C 24.--30. 1. "PI_WDQLVL_VREF_INITIAL_STOP_POINT_F2,Write DQ training vref initial training stop value for frequency set 2." newline hexmask.long.byte 0x12C 16.--22. 1. "PI_WDQLVL_VREF_INITIAL_START_POINT_F2,Write DQ training vref initial training start value for frequency set 2." newline hexmask.long.word 0x12C 0.--9. 1. "PI_TDFI_WDQLVL_RW_F2,Switch time from read to write for frequency set 2." line.long 0x130 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_241," hexmask.long.byte 0x130 24.--28. 1. "PI_WDQLVL_CL_F2,CL when the Read DBI disabled while doing WDQ training for frequency set 2." newline bitfld.long 0x130 16.--17. "PI_NTP_TRAIN_EN_F2,Indicates whether the no topology WDQ training is enabled. Bit[1] represents the support when non-initialization. Bit[0]represents the support when initialization." "0,1,2,3" newline bitfld.long 0x130 8.--9. "PI_WDQLVL_EN_F2,Indicates if Write DQ leveling is enabled for frequency set 2. Bit[1] represents the support when non-initialization. Bit[0]represents the support when initialization." "0,1,2,3" newline hexmask.long.byte 0x130 0.--3. 1. "PI_WDQLVL_VREF_DELTA_F2,The delta from the current Write DQ vref adjustment for non-initial wdq training for frequency set 2." line.long 0x134 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_242," bitfld.long 0x134 24.--25. "PI_RD_DBI_LEVEL_EN_F1,Read DBI leveling enable only can be enabled when READ DBI supported for DDR4 and PI_WDQLVL_EN or PI_RDLVL_EN configured by 1 for frequency set 1. Bit[1] represents the support when non-initialization. Bit[0]represents the support.." "0,1,2,3" newline bitfld.long 0x134 16.--17. "PI_RD_DBI_LEVEL_EN_F0,Read DBI leveling enable only can be enabled when READ DBI supported for DDR4 and PI_WDQLVL_EN or PI_RDLVL_EN configured by 1 for frequency set 0. Bit[1] represents the support when non-initialization. Bit[0]represents the support.." "0,1,2,3" newline hexmask.long.byte 0x134 8.--15. 1. "PI_WDQLVL_WRLAT_ADJ_F2,Adjusted Tdfi_wrdata_en value for PHY read timing when read dbi disabled for frequency set 2 used for WDQ training." newline hexmask.long.byte 0x134 0.--7. 1. "PI_WDQLVL_RDLAT_ADJ_F2,Adjusted Tdfi_rddata_en value for PHY read timing when read dbi disabled for frequency set 2 used for WDQ training." line.long 0x138 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_243," hexmask.long.byte 0x138 24.--31. 1. "PI_TRCD_F0,DRAM tRCD value in cycles for frequency set 0." newline hexmask.long.byte 0x138 16.--23. 1. "PI_TRP_F0,DRAM tRP value in cycles for frequency set 0." newline hexmask.long.byte 0x138 8.--15. 1. "PI_TRTP_F0,DRAM tRTP value in cycles for frequency set 0." newline bitfld.long 0x138 0.--1. "PI_RD_DBI_LEVEL_EN_F2,Read DBI leveling enable only can be enabled when READ DBI supported for DDR4 and PI_WDQLVL_EN or PI_RDLVL_EN configured by 1 for frequency set 2. Bit[1] represents the support when non-initialization. Bit[0]represents the support.." "0,1,2,3" line.long 0x13C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_244," hexmask.long.byte 0x13C 16.--23. 1. "PI_TWR_F0,DRAM tWR value in cycles for frequency set 0." newline hexmask.long.byte 0x13C 8.--13. 1. "PI_TWTR_F0,DRAM tWTR value in cycles for frequency set 0." newline hexmask.long.byte 0x13C 0.--4. 1. "PI_TCCD_L_F0,DRAM CAS-to_CAS value within the same bank group in cycles for frequency set 0." line.long 0x140 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_245," hexmask.long.tbyte 0x140 0.--19. 1. "PI_TRAS_MAX_F0,DRAM tRAS_MAX value in cycles for frequency set 0." line.long 0x144 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_246," hexmask.long.byte 0x144 24.--29. 1. "PI_TCCDMW_F0,LPDDR4 DRAM tCCDMW in cycles for frequency set 0." newline hexmask.long.byte 0x144 16.--19. 1. "PI_TDQSCK_MAX_F0,Additional delay needed for tDQSCK for frequency set 0." newline hexmask.long.word 0x144 0.--8. 1. "PI_TRAS_MIN_F0,DRAM tRAS_MIN value in cycles for frequency set 0." line.long 0x148 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_247," hexmask.long.byte 0x148 24.--31. 1. "PI_TMOD_F0,DRAM tMOD value in cycles for frequency set 0." newline hexmask.long.byte 0x148 16.--23. 1. "PI_TMRW_F0,DRAM tMRW value in cycles for frequency set 0." newline hexmask.long.byte 0x148 8.--15. 1. "PI_TMRD_F0,DRAM tMRD value in cycles for frequency set 0." newline hexmask.long.byte 0x148 0.--7. 1. "PI_TSR_F0,Min cycles from sref entry to sref exit for frequency set 0." line.long 0x14C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_248," hexmask.long.byte 0x14C 24.--31. 1. "PI_TRP_F1,DRAM tRP value in cycles for frequency set 1." newline hexmask.long.byte 0x14C 16.--23. 1. "PI_TRTP_F1,DRAM tRTP value in cycles for frequency set 1." newline hexmask.long.byte 0x14C 8.--15. 1. "PI_TMRD_PAR_F0,DRAM tMRD value when CA parity is enabled in cycles for frequency set 0." newline hexmask.long.byte 0x14C 0.--7. 1. "PI_TMOD_PAR_F0,DRAM tMOD value when CA parity is enabled in cycles for frequency set 0." line.long 0x150 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_249," hexmask.long.byte 0x150 24.--31. 1. "PI_TWR_F1,DRAM tWR value in cycles for frequency set 1." newline hexmask.long.byte 0x150 16.--21. 1. "PI_TWTR_F1,DRAM tWTR value in cycles for frequency set 1." newline hexmask.long.byte 0x150 8.--12. 1. "PI_TCCD_L_F1,DRAM CAS-to_CAS value within the same bank group in cycles for frequency set 1." newline hexmask.long.byte 0x150 0.--7. 1. "PI_TRCD_F1,DRAM tRCD value in cycles for frequency set 1." line.long 0x154 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_250," hexmask.long.tbyte 0x154 0.--19. 1. "PI_TRAS_MAX_F1,DRAM tRAS_MAX value in cycles for frequency set 1." line.long 0x158 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_251," hexmask.long.byte 0x158 24.--29. 1. "PI_TCCDMW_F1,LPDDR4 DRAM tCCDMW in cycles for frequency set 1." newline hexmask.long.byte 0x158 16.--19. 1. "PI_TDQSCK_MAX_F1,Additional delay needed for tDQSCK for frequency set 1." newline hexmask.long.word 0x158 0.--8. 1. "PI_TRAS_MIN_F1,DRAM tRAS_MIN value in cycles for frequency set 1." line.long 0x15C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_252," hexmask.long.byte 0x15C 24.--31. 1. "PI_TMOD_F1,DRAM tMOD value in cycles for frequency set 1." newline hexmask.long.byte 0x15C 16.--23. 1. "PI_TMRW_F1,DRAM tMRW value in cycles for frequency set 1." newline hexmask.long.byte 0x15C 8.--15. 1. "PI_TMRD_F1,DRAM tMRD value in cycles for frequency set 1." newline hexmask.long.byte 0x15C 0.--7. 1. "PI_TSR_F1,Min cycles from sref entry to sref exit for frequency set 1." line.long 0x160 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_253," hexmask.long.byte 0x160 24.--31. 1. "PI_TRP_F2,DRAM tRP value in cycles for frequency set 2." newline hexmask.long.byte 0x160 16.--23. 1. "PI_TRTP_F2,DRAM tRTP value in cycles for frequency set 2." newline hexmask.long.byte 0x160 8.--15. 1. "PI_TMRD_PAR_F1,DRAM tMRD value when CA parity is enabled in cycles for frequency set 1." newline hexmask.long.byte 0x160 0.--7. 1. "PI_TMOD_PAR_F1,DRAM tMOD value when CA parity is enabled in cycles for frequency set 1." line.long 0x164 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_254," hexmask.long.byte 0x164 24.--31. 1. "PI_TWR_F2,DRAM tWR value in cycles for frequency set 2." newline hexmask.long.byte 0x164 16.--21. 1. "PI_TWTR_F2,DRAM tWTR value in cycles for frequency set 2." newline hexmask.long.byte 0x164 8.--12. 1. "PI_TCCD_L_F2,DRAM CAS-to_CAS value within the same bank group in cycles for frequency set 2." newline hexmask.long.byte 0x164 0.--7. 1. "PI_TRCD_F2,DRAM tRCD value in cycles for frequency set 2." line.long 0x168 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_255," hexmask.long.tbyte 0x168 0.--19. 1. "PI_TRAS_MAX_F2,DRAM tRAS_MAX value in cycles for frequency set 2." line.long 0x16C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_256," hexmask.long.byte 0x16C 24.--29. 1. "PI_TCCDMW_F2,LPDDR4 DRAM tCCDMW in cycles for frequency set 2." newline hexmask.long.byte 0x16C 16.--19. 1. "PI_TDQSCK_MAX_F2,Additional delay needed for tDQSCK for frequency set 2." newline hexmask.long.word 0x16C 0.--8. 1. "PI_TRAS_MIN_F2,DRAM tRAS_MIN value in cycles for frequency set 2." line.long 0x170 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_257," hexmask.long.byte 0x170 24.--31. 1. "PI_TMOD_F2,DRAM tMOD value in cycles for frequency set 2." newline hexmask.long.byte 0x170 16.--23. 1. "PI_TMRW_F2,DRAM tMRW value in cycles for frequency set 2." newline hexmask.long.byte 0x170 8.--15. 1. "PI_TMRD_F2,DRAM tMRD value in cycles for frequency set 2." newline hexmask.long.byte 0x170 0.--7. 1. "PI_TSR_F2,Min cycles from sref entry to sref exit for frequency set 2." line.long 0x174 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_258," hexmask.long.byte 0x174 8.--15. 1. "PI_TMRD_PAR_F2,DRAM tMRD value when CA parity is enabled in cycles for frequency set 2." newline hexmask.long.byte 0x174 0.--7. 1. "PI_TMOD_PAR_F2,DRAM tMOD value when CA parity is enabled in cycles for frequency set 2." line.long 0x178 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_259," hexmask.long.tbyte 0x178 0.--20. 1. "PI_TDFI_CTRLUPD_MAX_F0,Defines the DFI tCTRLUPD_MAX timing parameter [in DFI clocks] for frequency set 0 the maximum cycles that dfi_ctrlupd_req can be asserted. If programmed to a non-zero a timing violation will cause an interrupt and bit [1] set in.." line.long 0x17C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_260," hexmask.long 0x17C 0.--31. 1. "PI_TDFI_CTRLUPD_INTERVAL_F0,Defines the DFI tCTRLUPD_INTERVAL timing parameter [in DFI clocks] for frequency set 0 the maximum cycles between dfi_ctrlupd_req assertions. If programmed to a non-zero a timing violation will cause an interrupt and bit [0].." line.long 0x180 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_261," hexmask.long.tbyte 0x180 0.--20. 1. "PI_TDFI_CTRLUPD_MAX_F1,Defines the DFI tCTRLUPD_MAX timing parameter [in DFI clocks] for frequency set 1 the maximum cycles that dfi_ctrlupd_req can be asserted. If programmed to a non-zero a timing violation will cause an interrupt and bit [1] set in.." line.long 0x184 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_262," hexmask.long 0x184 0.--31. 1. "PI_TDFI_CTRLUPD_INTERVAL_F1,Defines the DFI tCTRLUPD_INTERVAL timing parameter [in DFI clocks] for frequency set 1 the maximum cycles between dfi_ctrlupd_req assertions. If programmed to a non-zero a timing violation will cause an interrupt and bit [0].." line.long 0x188 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_263," hexmask.long.tbyte 0x188 0.--20. 1. "PI_TDFI_CTRLUPD_MAX_F2,Defines the DFI tCTRLUPD_MAX timing parameter [in DFI clocks] for frequency set 2 the maximum cycles that dfi_ctrlupd_req can be asserted. If programmed to a non-zero a timing violation will cause an interrupt and bit [1] set in.." line.long 0x18C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_264," hexmask.long 0x18C 0.--31. 1. "PI_TDFI_CTRLUPD_INTERVAL_F2,Defines the DFI tCTRLUPD_INTERVAL timing parameter [in DFI clocks] for frequency set 2 the maximum cycles between dfi_ctrlupd_req assertions. If programmed to a non-zero a timing violation will cause an interrupt and bit [0].." line.long 0x190 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_265," hexmask.long.word 0x190 16.--31. 1. "PI_TXSR_F1,DRAM TXSR value for frequency set 1 in cycles." newline hexmask.long.word 0x190 0.--15. 1. "PI_TXSR_F0,DRAM TXSR value for frequency set 0 in cycles." line.long 0x194 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_266," hexmask.long.byte 0x194 24.--29. 1. "PI_TEXCKE_F1,DRAM CKE low after SREF command timing for frequency set 1." newline hexmask.long.byte 0x194 16.--21. 1. "PI_TEXCKE_F0,DRAM CKE low after SREF command timing for frequency set 0." newline hexmask.long.word 0x194 0.--15. 1. "PI_TXSR_F2,DRAM TXSR value for frequency set 2 in cycles." line.long 0x198 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_267," hexmask.long.word 0x198 8.--23. 1. "PI_TDLL_F0,DRAM tDLL value for frequency set 0 in cycles." newline hexmask.long.byte 0x198 0.--5. 1. "PI_TEXCKE_F2,DRAM CKE low after SREF command timing for frequency set 2." line.long 0x19C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_268," hexmask.long.word 0x19C 16.--31. 1. "PI_TDLL_F2,DRAM tDLL value for frequency set 2 in cycles." newline hexmask.long.word 0x19C 0.--15. 1. "PI_TDLL_F1,DRAM tDLL value for frequency set 1 in cycles." line.long 0x1A0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_269," hexmask.long.byte 0x1A0 24.--31. 1. "PI_TCKSRE_F1,DRAM tCKSRE value." newline hexmask.long.byte 0x1A0 16.--23. 1. "PI_TCKSRX_F1,DRAM tCKSRX value." newline hexmask.long.byte 0x1A0 8.--15. 1. "PI_TCKSRE_F0,DRAM tCKSRE value." newline hexmask.long.byte 0x1A0 0.--7. 1. "PI_TCKSRX_F0,DRAM tCKSRX value." line.long 0x1A4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_270," hexmask.long.byte 0x1A4 8.--15. 1. "PI_TCKSRE_F2,DRAM tCKSRE value." newline hexmask.long.byte 0x1A4 0.--7. 1. "PI_TCKSRX_F2,DRAM tCKSRX value." line.long 0x1A8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_271," hexmask.long.tbyte 0x1A8 0.--23. 1. "PI_TINIT_F0,DRAM tINIT value for frequency set 0 in cycles." line.long 0x1AC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_272," hexmask.long.tbyte 0x1AC 0.--23. 1. "PI_TINIT3_F0,DRAM tINIT3 value for frequency set 0 in cycles." line.long 0x1B0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_273," hexmask.long.tbyte 0x1B0 0.--23. 1. "PI_TINIT4_F0,DRAM tINIT4 value for frequency set 0 in cycles." line.long 0x1B4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_274," hexmask.long.tbyte 0x1B4 0.--23. 1. "PI_TINIT5_F0,DRAM tINIT5 value for frequency set 0 in cycles." line.long 0x1B8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_275," hexmask.long.word 0x1B8 0.--15. 1. "PI_TXSNR_F0,DRAM tXSNR value for frequency set 0 in cycles." line.long 0x1BC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_276," hexmask.long.tbyte 0x1BC 0.--23. 1. "PI_TINIT_F1,DRAM tINIT value for frequency set 1 in cycles." line.long 0x1C0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_277," hexmask.long.tbyte 0x1C0 0.--23. 1. "PI_TINIT3_F1,DRAM tINIT3 value for frequency set 1 in cycles." line.long 0x1C4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_278," hexmask.long.tbyte 0x1C4 0.--23. 1. "PI_TINIT4_F1,DRAM tINIT4 value for frequency set 1 in cycles." line.long 0x1C8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_279," hexmask.long.tbyte 0x1C8 0.--23. 1. "PI_TINIT5_F1,DRAM tINIT5 value for frequency set 1 in cycles." line.long 0x1CC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_280," hexmask.long.word 0x1CC 0.--15. 1. "PI_TXSNR_F1,DRAM tXSNR value for frequency set 1 in cycles." line.long 0x1D0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_281," hexmask.long.tbyte 0x1D0 0.--23. 1. "PI_TINIT_F2,DRAM tINIT value for frequency set 2 in cycles." line.long 0x1D4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_282," hexmask.long.tbyte 0x1D4 0.--23. 1. "PI_TINIT3_F2,DRAM tINIT3 value for frequency set 2 in cycles." line.long 0x1D8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_283," hexmask.long.tbyte 0x1D8 0.--23. 1. "PI_TINIT4_F2,DRAM tINIT4 value for frequency set 2 in cycles." line.long 0x1DC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_284," hexmask.long.tbyte 0x1DC 0.--23. 1. "PI_TINIT5_F2,DRAM tINIT5 value for frequency set 2 in cycles." line.long 0x1E0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_285," hexmask.long.word 0x1E0 0.--15. 1. "PI_TXSNR_F2,DRAM tXSNR value for frequency set 2 in cycles." line.long 0x1E4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_286," hexmask.long.word 0x1E4 16.--27. 1. "PI_TZQCAL_F0,Holds the DRAM ZQCAL value for frequency set 0 in cycles." line.long 0x1E8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_287," hexmask.long.byte 0x1E8 0.--6. 1. "PI_TZQLAT_F0,Holds the DRAM ZQLAT value for frequency set 0 in cycles." line.long 0x1EC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_288," hexmask.long.word 0x1EC 16.--27. 1. "PI_TZQCAL_F1,Holds the DRAM ZQCAL value for frequency set 1 in cycles." line.long 0x1F0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_289," hexmask.long.byte 0x1F0 0.--6. 1. "PI_TZQLAT_F1,Holds the DRAM ZQLAT value for frequency set 1 in cycles." line.long 0x1F4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_290," hexmask.long.word 0x1F4 16.--27. 1. "PI_TZQCAL_F2,Holds the DRAM ZQCAL value for frequency set 2 in cycles." line.long 0x1F8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_291," hexmask.long.byte 0x1F8 0.--6. 1. "PI_TZQLAT_F2,Holds the DRAM ZQLAT value for frequency set 2 in cycles." line.long 0x1FC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_292," line.long 0x200 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_293," bitfld.long 0x200 24.--25. "PI_PREAMBLE_SUPPORT_F0,bit0: Selection of one or two cycle preamble for read burst transfers. bit1: Selection of one or two cycles write burst transfers for NON-DDR5 one or multi[up to four] cycles write burst transfers for DDR5." "0,1,2,3" newline hexmask.long.byte 0x200 16.--19. 1. "PI_WDQ_OSC_DELTA_INDEX_F2,WDQ DQS delay delta index for OSC triggered periodic training for frequency set 2. If the value is n the delay is 2^n/512 cycle." newline hexmask.long.byte 0x200 8.--11. 1. "PI_WDQ_OSC_DELTA_INDEX_F1,WDQ DQS delay delta index for OSC triggered periodic training for frequency set 1. If the value is n the delay is 2^n/512 cycle." newline hexmask.long.byte 0x200 0.--3. 1. "PI_WDQ_OSC_DELTA_INDEX_F0,WDQ DQS delay delta index for OSC triggered periodic training for frequency set 0. If the value is n the delay is 2^n/512 cycle." line.long 0x204 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_294," bitfld.long 0x204 24.--26. "PI_MEMDATA_RATIO_1,Defines the ratio of the DRAM device size on chip select 1 to the memory data width. Program with the log2 ratio of the memory data width to the device data width." "0,1,2,3,4,5,6,7" newline bitfld.long 0x204 16.--18. "PI_MEMDATA_RATIO_0,Defines the ratio of the DRAM device size on chip select 0 to the memory data width. Program with the log2 ratio of the memory data width to the device data width." "0,1,2,3,4,5,6,7" newline bitfld.long 0x204 8.--9. "PI_PREAMBLE_SUPPORT_F2,bit0: Selection of one or two cycle preamble for read burst transfers. bit1: Selection of one or two cycles write burst transfers for NON-DDR5 one or multi[up to four] cycles write burst transfers for DDR5." "0,1,2,3" newline bitfld.long 0x204 0.--1. "PI_PREAMBLE_SUPPORT_F1,bit0: Selection of one or two cycle preamble for read burst transfers. bit1: Selection of one or two cycles write burst transfers for NON-DDR5 one or multi[up to four] cycles write burst transfers for DDR5." "0,1,2,3" line.long 0x208 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_295," hexmask.long.byte 0x208 24.--27. 1. "PI_ODT_WR_MAP_CS0,Determines which chip[s] will have termination when a write occurs on chip select 0. Set bit X to enable termination on csX when cs0 is performing a write." newline hexmask.long.byte 0x208 16.--19. 1. "PI_ODT_RD_MAP_CS0,Determines which chip[s] will have termination when a read occurs on chip select 0. Set bit X to enable termination on csX when cs0 is performing a read." newline bitfld.long 0x208 8.--10. "PI_MEMDATA_RATIO_3,Defines the ratio of the DRAM device size on chip select 3 to the memory data width. Program with the log2 ratio of the memory data width to the device data width." "0,1,2,3,4,5,6,7" newline bitfld.long 0x208 0.--2. "PI_MEMDATA_RATIO_2,Defines the ratio of the DRAM device size on chip select 2 to the memory data width. Program with the log2 ratio of the memory data width to the device data width." "0,1,2,3,4,5,6,7" line.long 0x20C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_296," hexmask.long.byte 0x20C 24.--27. 1. "PI_ODT_WR_MAP_CS2,Determines which chip[s] will have termination when a write occurs on chip select 2. Set bit X to enable termination on csX when cs2 is performing a write." newline hexmask.long.byte 0x20C 16.--19. 1. "PI_ODT_RD_MAP_CS2,Determines which chip[s] will have termination when a read occurs on chip select 2. Set bit X to enable termination on csX when cs2 is performing a read." newline hexmask.long.byte 0x20C 8.--11. 1. "PI_ODT_WR_MAP_CS1,Determines which chip[s] will have termination when a write occurs on chip select 1. Set bit X to enable termination on csX when cs1 is performing a write." newline hexmask.long.byte 0x20C 0.--3. 1. "PI_ODT_RD_MAP_CS1,Determines which chip[s] will have termination when a read occurs on chip select 1. Set bit X to enable termination on csX when cs1 is performing a read." line.long 0x210 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_297," hexmask.long.byte 0x210 24.--30. 1. "PI_VREF_VAL_DEV0_1,Defines the range and value for VREF training for DRAM 0 for CS 1. If the PI_VREF_PDA_EN parameter is not set device 0 values are used for all devices." newline hexmask.long.byte 0x210 16.--22. 1. "PI_VREF_VAL_DEV0_0,Defines the range and value for VREF training for DRAM 0 for CS 0. If the PI_VREF_PDA_EN parameter is not set device 0 values are used for all devices." newline hexmask.long.byte 0x210 8.--11. 1. "PI_ODT_WR_MAP_CS3,Determines which chip[s] will have termination when a write occurs on chip select 3. Set bit X to enable termination on csX when cs3 is performing a write." newline hexmask.long.byte 0x210 0.--3. 1. "PI_ODT_RD_MAP_CS3,Determines which chip[s] will have termination when a read occurs on chip select 3. Set bit X to enable termination on csX when cs3 is performing a read." line.long 0x214 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_298," hexmask.long.byte 0x214 24.--30. 1. "PI_VREF_VAL_DEV1_1,Defines the range and value for VREF training for DRAM 1 for CS 1. If the PI_VREF_PDA_EN parameter is not set device 0 values are used for all devices." newline hexmask.long.byte 0x214 16.--22. 1. "PI_VREF_VAL_DEV1_0,Defines the range and value for VREF training for DRAM 1 for CS 0. If the PI_VREF_PDA_EN parameter is not set device 0 values are used for all devices." newline hexmask.long.byte 0x214 8.--14. 1. "PI_VREF_VAL_DEV0_3,Defines the range and value for VREF training for DRAM 0 for CS 3. If the PI_VREF_PDA_EN parameter is not set device 0 values are used for all devices." newline hexmask.long.byte 0x214 0.--6. 1. "PI_VREF_VAL_DEV0_2,Defines the range and value for VREF training for DRAM 0 for CS 2. If the PI_VREF_PDA_EN parameter is not set device 0 values are used for all devices." line.long 0x218 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_299," hexmask.long.byte 0x218 24.--30. 1. "PI_VREF_VAL_DEV2_1,Defines the range and value for VREF training for DRAM 2 for CS 1. If the PI_VREF_PDA_EN parameter is not set device 0 values are used for all devices." newline hexmask.long.byte 0x218 16.--22. 1. "PI_VREF_VAL_DEV2_0,Defines the range and value for VREF training for DRAM 2 for CS 0. If the PI_VREF_PDA_EN parameter is not set device 0 values are used for all devices." newline hexmask.long.byte 0x218 8.--14. 1. "PI_VREF_VAL_DEV1_3,Defines the range and value for VREF training for DRAM 1 for CS 3. If the PI_VREF_PDA_EN parameter is not set device 0 values are used for all devices." newline hexmask.long.byte 0x218 0.--6. 1. "PI_VREF_VAL_DEV1_2,Defines the range and value for VREF training for DRAM 1 for CS 2. If the PI_VREF_PDA_EN parameter is not set device 0 values are used for all devices." line.long 0x21C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_300," hexmask.long.byte 0x21C 24.--30. 1. "PI_VREF_VAL_DEV3_1,Defines the range and value for VREF training for DRAM 3 for CS 1. If the PI_VREF_PDA_EN parameter is not set device 0 values are used for all devices." newline hexmask.long.byte 0x21C 16.--22. 1. "PI_VREF_VAL_DEV3_0,Defines the range and value for VREF training for DRAM 3 for CS 0. If the PI_VREF_PDA_EN parameter is not set device 0 values are used for all devices." newline hexmask.long.byte 0x21C 8.--14. 1. "PI_VREF_VAL_DEV2_3,Defines the range and value for VREF training for DRAM 2 for CS 3. If the PI_VREF_PDA_EN parameter is not set device 0 values are used for all devices." newline hexmask.long.byte 0x21C 0.--6. 1. "PI_VREF_VAL_DEV2_2,Defines the range and value for VREF training for DRAM 2 for CS 2. If the PI_VREF_PDA_EN parameter is not set device 0 values are used for all devices." line.long 0x220 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_301," bitfld.long 0x220 24.--25. "PI_SLICE_PER_DEV_1,Indicates the number of data slices per memory device. The device width divided by 8." "0,1,2,3" newline bitfld.long 0x220 16.--17. "PI_SLICE_PER_DEV_0,Indicates the number of data slices per memory device. The device width divided by 8." "0,1,2,3" newline hexmask.long.byte 0x220 8.--14. 1. "PI_VREF_VAL_DEV3_3,Defines the range and value for VREF training for DRAM 3 for CS 3. If the PI_VREF_PDA_EN parameter is not set device 0 values are used for all devices." newline hexmask.long.byte 0x220 0.--6. 1. "PI_VREF_VAL_DEV3_2,Defines the range and value for VREF training for DRAM 3 for CS 2. If the PI_VREF_PDA_EN parameter is not set device 0 values are used for all devices." line.long 0x224 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_302," hexmask.long.byte 0x224 24.--29. 1. "PI_MR6_VREF_0_1,The parameter stores the vref value of every devices of the same CS. It is updated after WDQLVL PDA mode completed. READ-ONLY." newline hexmask.long.byte 0x224 16.--21. 1. "PI_MR6_VREF_0_0,The parameter stores the vref value of every devices of the same CS. It is updated after WDQLVL PDA mode completed. READ-ONLY." newline bitfld.long 0x224 8.--9. "PI_SLICE_PER_DEV_3,Indicates the number of data slices per memory device. The device width divided by 8." "0,1,2,3" newline bitfld.long 0x224 0.--1. "PI_SLICE_PER_DEV_2,Indicates the number of data slices per memory device. The device width divided by 8." "0,1,2,3" rgroup.long 0x24BC++0xB line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_303," hexmask.long.byte 0x0 24.--29. 1. "PI_MR6_VREF_1_1,The parameter stores the vref value of every devices of the same CS. It is updated after WDQLVL PDA mode completed. READ-ONLY." newline hexmask.long.byte 0x0 16.--21. 1. "PI_MR6_VREF_1_0,The parameter stores the vref value of every devices of the same CS. It is updated after WDQLVL PDA mode completed. READ-ONLY." newline hexmask.long.byte 0x0 8.--13. 1. "PI_MR6_VREF_0_3,The parameter stores the vref value of every devices of the same CS. It is updated after WDQLVL PDA mode completed. READ-ONLY." newline hexmask.long.byte 0x0 0.--5. 1. "PI_MR6_VREF_0_2,The parameter stores the vref value of every devices of the same CS. It is updated after WDQLVL PDA mode completed. READ-ONLY." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_304," hexmask.long.byte 0x4 24.--29. 1. "PI_MR6_VREF_2_1,The parameter stores the vref value of every devices of the same CS. It is updated after WDQLVL PDA mode completed. READ-ONLY." newline hexmask.long.byte 0x4 16.--21. 1. "PI_MR6_VREF_2_0,The parameter stores the vref value of every devices of the same CS. It is updated after WDQLVL PDA mode completed. READ-ONLY." newline hexmask.long.byte 0x4 8.--13. 1. "PI_MR6_VREF_1_3,The parameter stores the vref value of every devices of the same CS. It is updated after WDQLVL PDA mode completed. READ-ONLY." newline hexmask.long.byte 0x4 0.--5. 1. "PI_MR6_VREF_1_2,The parameter stores the vref value of every devices of the same CS. It is updated after WDQLVL PDA mode completed. READ-ONLY." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_305," hexmask.long.byte 0x8 24.--29. 1. "PI_MR6_VREF_3_1,The parameter stores the vref value of every devices of the same CS. It is updated after WDQLVL PDA mode completed. READ-ONLY." newline hexmask.long.byte 0x8 16.--21. 1. "PI_MR6_VREF_3_0,The parameter stores the vref value of every devices of the same CS. It is updated after WDQLVL PDA mode completed. READ-ONLY." newline hexmask.long.byte 0x8 8.--13. 1. "PI_MR6_VREF_2_3,The parameter stores the vref value of every devices of the same CS. It is updated after WDQLVL PDA mode completed. READ-ONLY." newline hexmask.long.byte 0x8 0.--5. 1. "PI_MR6_VREF_2_2,The parameter stores the vref value of every devices of the same CS. It is updated after WDQLVL PDA mode completed. READ-ONLY." group.long 0x24C8++0x1D7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_306," hexmask.long.byte 0x0 24.--31. 1. "PI_MR15_DATA_0,Data to program into memory mode register 15 for chip select 0." newline hexmask.long.byte 0x0 16.--23. 1. "PI_MR13_DATA_0,Data to program into memory mode register 13 for chip select 0." newline hexmask.long.byte 0x0 8.--13. 1. "PI_MR6_VREF_3_3,The parameter stores the vref value of every devices of the same CS. It is updated after WDQLVL PDA mode completed. READ-ONLY." newline hexmask.long.byte 0x0 0.--5. 1. "PI_MR6_VREF_3_2,The parameter stores the vref value of every devices of the same CS. It is updated after WDQLVL PDA mode completed. READ-ONLY." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_307," hexmask.long.byte 0x4 16.--23. 1. "PI_MR20_DATA_0,Data to program into memory mode register 20 for chip select 0." newline hexmask.long.byte 0x4 8.--15. 1. "PI_MR17_DATA_0,Data to program into memory mode register 17 for chip select 0." newline hexmask.long.byte 0x4 0.--7. 1. "PI_MR16_DATA_0,Data to program into memory mode register 16 for chip select 0." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_308," hexmask.long.byte 0x8 24.--31. 1. "PI_MR40_DATA_0,Data to program into memory mode register 40 for chip select 0." newline hexmask.long.tbyte 0x8 0.--16. 1. "PI_MR32_DATA_0,Data to program into memory mode register 32 for chip select 0." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_309," hexmask.long.byte 0xC 24.--31. 1. "PI_MR17_DATA_1,Data to program into memory mode register 17 for chip select 1." newline hexmask.long.byte 0xC 16.--23. 1. "PI_MR16_DATA_1,Data to program into memory mode register 16 for chip select 1." newline hexmask.long.byte 0xC 8.--15. 1. "PI_MR15_DATA_1,Data to program into memory mode register 15 for chip select 1." newline hexmask.long.byte 0xC 0.--7. 1. "PI_MR13_DATA_1,Data to program into memory mode register 13 for chip select 1." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_310," hexmask.long.tbyte 0x10 8.--24. 1. "PI_MR32_DATA_1,Data to program into memory mode register 32 for chip select 1." newline hexmask.long.byte 0x10 0.--7. 1. "PI_MR20_DATA_1,Data to program into memory mode register 20 for chip select 1." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_311," hexmask.long.byte 0x14 24.--31. 1. "PI_MR16_DATA_2,Data to program into memory mode register 16 for chip select 2." newline hexmask.long.byte 0x14 16.--23. 1. "PI_MR15_DATA_2,Data to program into memory mode register 15 for chip select 2." newline hexmask.long.byte 0x14 8.--15. 1. "PI_MR13_DATA_2,Data to program into memory mode register 13 for chip select 2." newline hexmask.long.byte 0x14 0.--7. 1. "PI_MR40_DATA_1,Data to program into memory mode register 40 for chip select 1." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_312," hexmask.long.byte 0x18 8.--15. 1. "PI_MR20_DATA_2,Data to program into memory mode register 20 for chip select 2." newline hexmask.long.byte 0x18 0.--7. 1. "PI_MR17_DATA_2,Data to program into memory mode register 17 for chip select 2." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_313," hexmask.long.byte 0x1C 24.--31. 1. "PI_MR40_DATA_2,Data to program into memory mode register 40 for chip select 2." newline hexmask.long.tbyte 0x1C 0.--16. 1. "PI_MR32_DATA_2,Data to program into memory mode register 32 for chip select 2." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_314," hexmask.long.byte 0x20 24.--31. 1. "PI_MR17_DATA_3,Data to program into memory mode register 17 for chip select 3." newline hexmask.long.byte 0x20 16.--23. 1. "PI_MR16_DATA_3,Data to program into memory mode register 16 for chip select 3." newline hexmask.long.byte 0x20 8.--15. 1. "PI_MR15_DATA_3,Data to program into memory mode register 15 for chip select 3." newline hexmask.long.byte 0x20 0.--7. 1. "PI_MR13_DATA_3,Data to program into memory mode register 13 for chip select 3." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_315," hexmask.long.tbyte 0x24 8.--24. 1. "PI_MR32_DATA_3,Data to program into memory mode register 32 for chip select 3." newline hexmask.long.byte 0x24 0.--7. 1. "PI_MR20_DATA_3,Data to program into memory mode register 20 for chip select 3." line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_316," hexmask.long.byte 0x28 24.--28. 1. "PI_CKE_MUX_2,Command pin CKE_2 mux selector" newline hexmask.long.byte 0x28 16.--20. 1. "PI_CKE_MUX_1,Command pin CKE_1 mux selector" newline hexmask.long.byte 0x28 8.--12. 1. "PI_CKE_MUX_0,Command pin CKE_0 mux selector" newline hexmask.long.byte 0x28 0.--7. 1. "PI_MR40_DATA_3,Data to program into memory mode register 40 for chip select 3." line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_317," hexmask.long.byte 0x2C 24.--28. 1. "PI_CS_MUX_2,Command pin CS_2 mux selector" newline hexmask.long.byte 0x2C 16.--20. 1. "PI_CS_MUX_1,Command pin CS_1 mux selector" newline hexmask.long.byte 0x2C 8.--12. 1. "PI_CS_MUX_0,Command pin CS_0 mux selector" newline hexmask.long.byte 0x2C 0.--4. 1. "PI_CKE_MUX_3,Command pin CKE_3 mux selector" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_318," hexmask.long.byte 0x30 24.--28. 1. "PI_ODT_MUX_2,Command pin ODT_2 mux selector" newline hexmask.long.byte 0x30 16.--20. 1. "PI_ODT_MUX_1,Command pin ODT_1 mux selector" newline hexmask.long.byte 0x30 8.--12. 1. "PI_ODT_MUX_0,Command pin ODT_0 mux selector" newline hexmask.long.byte 0x30 0.--4. 1. "PI_CS_MUX_3,Command pin CS_3 mux selector" line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_319," hexmask.long.byte 0x34 24.--28. 1. "PI_RESET_N_MUX_2,Command pin RESET_N_2 mux selector" newline hexmask.long.byte 0x34 16.--20. 1. "PI_RESET_N_MUX_1,Command pin RESET_N_1 mux selector" newline hexmask.long.byte 0x34 8.--12. 1. "PI_RESET_N_MUX_0,Command pin RESET_N_0 mux selector" newline hexmask.long.byte 0x34 0.--4. 1. "PI_ODT_MUX_3,Command pin ODT_3 mux selector" line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_320," hexmask.long.tbyte 0x38 8.--24. 1. "PI_MRSINGLE_DATA_0,Data to program into memory mode register single write to chip select 0." newline hexmask.long.byte 0x38 0.--4. 1. "PI_RESET_N_MUX_3,Command pin RESET_N_3 mux selector" line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_321," hexmask.long.tbyte 0x3C 0.--16. 1. "PI_MRSINGLE_DATA_1,Data to program into memory mode register single write to chip select 1." line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_322," hexmask.long.tbyte 0x40 0.--16. 1. "PI_MRSINGLE_DATA_2,Data to program into memory mode register single write to chip select 2." line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_323," hexmask.long.byte 0x44 24.--27. 1. "PI_ZQ_CAL_START_MAP_0,Defines which chip select[s] will receive ZQ calibration start commands simultaneously on iteration 0 of the ZQ START initialization and periodic command sequences. Clear to all zeros for no ZQ START commands." newline hexmask.long.tbyte 0x44 0.--16. 1. "PI_MRSINGLE_DATA_3,Data to program into memory mode register single write to chip select 3." line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_324," hexmask.long.byte 0x48 24.--27. 1. "PI_ZQ_CAL_START_MAP_2,Defines which chip select[s] will receive ZQ calibration start commands simultaneously on iteration 2 of the ZQ START initialization and periodic command sequences. Clear to all zeros for no ZQ START commands." newline hexmask.long.byte 0x48 16.--19. 1. "PI_ZQ_CAL_LATCH_MAP_1,Defines which chip select[s] will receive ZQ calibration latch commands simultaneously on iteration 1 of the ZQ LATCH initialization and periodic command sequences. Clear to all zeros for no ZQ LATCH commands." newline hexmask.long.byte 0x48 8.--11. 1. "PI_ZQ_CAL_START_MAP_1,Defines which chip select[s] will receive ZQ calibration start commands simultaneously on iteration 1 of the ZQ START initialization and periodic command sequences. Clear to all zeros for no ZQ START commands." newline hexmask.long.byte 0x48 0.--3. 1. "PI_ZQ_CAL_LATCH_MAP_0,Defines which chip select[s] will receive ZQ calibration latch commands simultaneously on iteration 0 of the ZQ LATCH initialization and periodic command sequences. Clear to all zeros for no ZQ LATCH commands." line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_325," hexmask.long.byte 0x4C 16.--19. 1. "PI_ZQ_CAL_LATCH_MAP_3,Defines which chip select[s] will receive ZQ calibration latch commands simultaneously on iteration 3 of the ZQ LATCH initialization and periodic command sequences. Clear to all zeros for no ZQ LATCH commands." newline hexmask.long.byte 0x4C 8.--11. 1. "PI_ZQ_CAL_START_MAP_3,Defines which chip select[s] will receive ZQ calibration start commands simultaneously on iteration 3 of the ZQ START initialization and periodic command sequences. Clear to all zeros for no ZQ START commands." newline hexmask.long.byte 0x4C 0.--3. 1. "PI_ZQ_CAL_LATCH_MAP_2,Defines which chip select[s] will receive ZQ calibration latch commands simultaneously on iteration 2 of the ZQ LATCH initialization and periodic command sequences. Clear to all zeros for no ZQ LATCH commands." line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_326," hexmask.long.word 0x50 16.--31. 1. "PI_DQS_OSC_BASE_VALUE_1_0,Base value for comparison of oscillator measurement for device 1 of rank 0" newline hexmask.long.word 0x50 0.--15. 1. "PI_DQS_OSC_BASE_VALUE_0_0,Base value for comparison of oscillator measurement for device 0 of rank 0" line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_327," hexmask.long.word 0x54 16.--31. 1. "PI_DQS_OSC_BASE_VALUE_1_1,Base value for comparison of oscillator measurement for device 1 of rank 1" newline hexmask.long.word 0x54 0.--15. 1. "PI_DQS_OSC_BASE_VALUE_0_1,Base value for comparison of oscillator measurement for device 0 of rank 1" line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_328," hexmask.long.tbyte 0x58 0.--16. 1. "PI_MR0_DATA_F0_0,Data to program into memory mode register 0 for chip select 0 for frequency set 0." line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_329," hexmask.long.tbyte 0x5C 0.--16. 1. "PI_MR1_DATA_F0_0,Data to program into memory mode register 1 for chip select 0 for frequency set 0." line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_330," hexmask.long.tbyte 0x60 0.--16. 1. "PI_MR2_DATA_F0_0,Data to program into memory mode register 2 for chip select 0 for frequency set 0." line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_331," hexmask.long.tbyte 0x64 0.--16. 1. "PI_MR3_DATA_F0_0,Data to program into memory mode register 3 for chip select 0 for frequency set 0." line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_332," hexmask.long.tbyte 0x68 0.--16. 1. "PI_MR4_DATA_F0_0,Data to program into memory mode register 4 for chip select 0 for frequency set 0." line.long 0x6C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_333," hexmask.long.tbyte 0x6C 0.--16. 1. "PI_MR5_DATA_F0_0,Data to program into memory mode register 5 for chip select 0 for frequency set 0." line.long 0x70 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_334," hexmask.long.byte 0x70 24.--31. 1. "PI_MR11_DATA_F0_0,Data to program into memory mode register 11 for chip select 0 for frequency set 0." newline hexmask.long.tbyte 0x70 0.--16. 1. "PI_MR6_DATA_F0_0,Data to program into memory mode register 6 for chip select 0 for frequency set 0." line.long 0x74 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_335," hexmask.long.byte 0x74 24.--31. 1. "PI_MR23_DATA_F0_0,Data to program into memory mode register 23 for chip select 0 for frequency set 0." newline hexmask.long.byte 0x74 16.--23. 1. "PI_MR22_DATA_F0_0,Data to program into memory mode register 22 for chip select 0 for frequency set 0." newline hexmask.long.byte 0x74 8.--15. 1. "PI_MR14_DATA_F0_0,Data to program into memory mode register 14 for chip select 0 for frequency set 0." newline hexmask.long.byte 0x74 0.--7. 1. "PI_MR12_DATA_F0_0,Data to program into memory mode register 12 for chip select 0 for frequency set 0." line.long 0x78 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_336," hexmask.long.tbyte 0x78 0.--16. 1. "PI_MR0_DATA_F1_0,Data to program into memory mode register 0 for chip select 0 for frequency set 1." line.long 0x7C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_337," hexmask.long.tbyte 0x7C 0.--16. 1. "PI_MR1_DATA_F1_0,Data to program into memory mode register 1 for chip select 0 for frequency set 1." line.long 0x80 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_338," hexmask.long.tbyte 0x80 0.--16. 1. "PI_MR2_DATA_F1_0,Data to program into memory mode register 2 for chip select 0 for frequency set 1." line.long 0x84 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_339," hexmask.long.tbyte 0x84 0.--16. 1. "PI_MR3_DATA_F1_0,Data to program into memory mode register 3 for chip select 0 for frequency set 1." line.long 0x88 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_340," hexmask.long.tbyte 0x88 0.--16. 1. "PI_MR4_DATA_F1_0,Data to program into memory mode register 4 for chip select 0 for frequency set 1." line.long 0x8C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_341," hexmask.long.tbyte 0x8C 0.--16. 1. "PI_MR5_DATA_F1_0,Data to program into memory mode register 5 for chip select 0 for frequency set 1." line.long 0x90 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_342," hexmask.long.byte 0x90 24.--31. 1. "PI_MR11_DATA_F1_0,Data to program into memory mode register 11 for chip select 0 for frequency set 1." newline hexmask.long.tbyte 0x90 0.--16. 1. "PI_MR6_DATA_F1_0,Data to program into memory mode register 6 for chip select 0 for frequency set 1." line.long 0x94 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_343," hexmask.long.byte 0x94 24.--31. 1. "PI_MR23_DATA_F1_0,Data to program into memory mode register 23 for chip select 0 for frequency set 1." newline hexmask.long.byte 0x94 16.--23. 1. "PI_MR22_DATA_F1_0,Data to program into memory mode register 22 for chip select 0 for frequency set 1." newline hexmask.long.byte 0x94 8.--15. 1. "PI_MR14_DATA_F1_0,Data to program into memory mode register 14 for chip select 0 for frequency set 1." newline hexmask.long.byte 0x94 0.--7. 1. "PI_MR12_DATA_F1_0,Data to program into memory mode register 12 for chip select 0 for frequency set 1." line.long 0x98 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_344," hexmask.long.tbyte 0x98 0.--16. 1. "PI_MR0_DATA_F2_0,Data to program into memory mode register 0 for chip select 0 for frequency set 2." line.long 0x9C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_345," hexmask.long.tbyte 0x9C 0.--16. 1. "PI_MR1_DATA_F2_0,Data to program into memory mode register 1 for chip select 0 for frequency set 2." line.long 0xA0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_346," hexmask.long.tbyte 0xA0 0.--16. 1. "PI_MR2_DATA_F2_0,Data to program into memory mode register 2 for chip select 0 for frequency set 2." line.long 0xA4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_347," hexmask.long.tbyte 0xA4 0.--16. 1. "PI_MR3_DATA_F2_0,Data to program into memory mode register 3 for chip select 0 for frequency set 2." line.long 0xA8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_348," hexmask.long.tbyte 0xA8 0.--16. 1. "PI_MR4_DATA_F2_0,Data to program into memory mode register 4 for chip select 0 for frequency set 2." line.long 0xAC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_349," hexmask.long.tbyte 0xAC 0.--16. 1. "PI_MR5_DATA_F2_0,Data to program into memory mode register 5 for chip select 0 for frequency set 2." line.long 0xB0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_350," hexmask.long.byte 0xB0 24.--31. 1. "PI_MR11_DATA_F2_0,Data to program into memory mode register 11 for chip select 0 for frequency set 2." newline hexmask.long.tbyte 0xB0 0.--16. 1. "PI_MR6_DATA_F2_0,Data to program into memory mode register 6 for chip select 0 for frequency set 2." line.long 0xB4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_351," hexmask.long.byte 0xB4 24.--31. 1. "PI_MR23_DATA_F2_0,Data to program into memory mode register 23 for chip select 0 for frequency set 2." newline hexmask.long.byte 0xB4 16.--23. 1. "PI_MR22_DATA_F2_0,Data to program into memory mode register 22 for chip select 0 for frequency set 2." newline hexmask.long.byte 0xB4 8.--15. 1. "PI_MR14_DATA_F2_0,Data to program into memory mode register 14 for chip select 0 for frequency set 2." newline hexmask.long.byte 0xB4 0.--7. 1. "PI_MR12_DATA_F2_0,Data to program into memory mode register 12 for chip select 0 for frequency set 2." line.long 0xB8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_352," hexmask.long.tbyte 0xB8 0.--16. 1. "PI_MR0_DATA_F0_1,Data to program into memory mode register 0 for chip select 1 for frequency set 0." line.long 0xBC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_353," hexmask.long.tbyte 0xBC 0.--16. 1. "PI_MR1_DATA_F0_1,Data to program into memory mode register 1 for chip select 1 for frequency set 0." line.long 0xC0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_354," hexmask.long.tbyte 0xC0 0.--16. 1. "PI_MR2_DATA_F0_1,Data to program into memory mode register 2 for chip select 1 for frequency set 0." line.long 0xC4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_355," hexmask.long.tbyte 0xC4 0.--16. 1. "PI_MR3_DATA_F0_1,Data to program into memory mode register 3 for chip select 1 for frequency set 0." line.long 0xC8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_356," hexmask.long.tbyte 0xC8 0.--16. 1. "PI_MR4_DATA_F0_1,Data to program into memory mode register 4 for chip select 1 for frequency set 0." line.long 0xCC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_357," hexmask.long.tbyte 0xCC 0.--16. 1. "PI_MR5_DATA_F0_1,Data to program into memory mode register 5 for chip select 1 for frequency set 0." line.long 0xD0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_358," hexmask.long.byte 0xD0 24.--31. 1. "PI_MR11_DATA_F0_1,Data to program into memory mode register 11 for chip select 1 for frequency set 0." newline hexmask.long.tbyte 0xD0 0.--16. 1. "PI_MR6_DATA_F0_1,Data to program into memory mode register 6 for chip select 1 for frequency set 0." line.long 0xD4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_359," hexmask.long.byte 0xD4 24.--31. 1. "PI_MR23_DATA_F0_1,Data to program into memory mode register 23 for chip select 1 for frequency set 0." newline hexmask.long.byte 0xD4 16.--23. 1. "PI_MR22_DATA_F0_1,Data to program into memory mode register 22 for chip select 1 for frequency set 0." newline hexmask.long.byte 0xD4 8.--15. 1. "PI_MR14_DATA_F0_1,Data to program into memory mode register 14 for chip select 1 for frequency set 0." newline hexmask.long.byte 0xD4 0.--7. 1. "PI_MR12_DATA_F0_1,Data to program into memory mode register 12 for chip select 1 for frequency set 0." line.long 0xD8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_360," hexmask.long.tbyte 0xD8 0.--16. 1. "PI_MR0_DATA_F1_1,Data to program into memory mode register 0 for chip select 1 for frequency set 1." line.long 0xDC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_361," hexmask.long.tbyte 0xDC 0.--16. 1. "PI_MR1_DATA_F1_1,Data to program into memory mode register 1 for chip select 1 for frequency set 1." line.long 0xE0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_362," hexmask.long.tbyte 0xE0 0.--16. 1. "PI_MR2_DATA_F1_1,Data to program into memory mode register 2 for chip select 1 for frequency set 1." line.long 0xE4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_363," hexmask.long.tbyte 0xE4 0.--16. 1. "PI_MR3_DATA_F1_1,Data to program into memory mode register 3 for chip select 1 for frequency set 1." line.long 0xE8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_364," hexmask.long.tbyte 0xE8 0.--16. 1. "PI_MR4_DATA_F1_1,Data to program into memory mode register 4 for chip select 1 for frequency set 1." line.long 0xEC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_365," hexmask.long.tbyte 0xEC 0.--16. 1. "PI_MR5_DATA_F1_1,Data to program into memory mode register 5 for chip select 1 for frequency set 1." line.long 0xF0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_366," hexmask.long.byte 0xF0 24.--31. 1. "PI_MR11_DATA_F1_1,Data to program into memory mode register 11 for chip select 1 for frequency set 1." newline hexmask.long.tbyte 0xF0 0.--16. 1. "PI_MR6_DATA_F1_1,Data to program into memory mode register 6 for chip select 1 for frequency set 1." line.long 0xF4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_367," hexmask.long.byte 0xF4 24.--31. 1. "PI_MR23_DATA_F1_1,Data to program into memory mode register 23 for chip select 1 for frequency set 1." newline hexmask.long.byte 0xF4 16.--23. 1. "PI_MR22_DATA_F1_1,Data to program into memory mode register 22 for chip select 1 for frequency set 1." newline hexmask.long.byte 0xF4 8.--15. 1. "PI_MR14_DATA_F1_1,Data to program into memory mode register 14 for chip select 1 for frequency set 1." newline hexmask.long.byte 0xF4 0.--7. 1. "PI_MR12_DATA_F1_1,Data to program into memory mode register 12 for chip select 1 for frequency set 1." line.long 0xF8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_368," hexmask.long.tbyte 0xF8 0.--16. 1. "PI_MR0_DATA_F2_1,Data to program into memory mode register 0 for chip select 1 for frequency set 2." line.long 0xFC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_369," hexmask.long.tbyte 0xFC 0.--16. 1. "PI_MR1_DATA_F2_1,Data to program into memory mode register 1 for chip select 1 for frequency set 2." line.long 0x100 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_370," hexmask.long.tbyte 0x100 0.--16. 1. "PI_MR2_DATA_F2_1,Data to program into memory mode register 2 for chip select 1 for frequency set 2." line.long 0x104 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_371," hexmask.long.tbyte 0x104 0.--16. 1. "PI_MR3_DATA_F2_1,Data to program into memory mode register 3 for chip select 1 for frequency set 2." line.long 0x108 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_372," hexmask.long.tbyte 0x108 0.--16. 1. "PI_MR4_DATA_F2_1,Data to program into memory mode register 4 for chip select 1 for frequency set 2." line.long 0x10C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_373," hexmask.long.tbyte 0x10C 0.--16. 1. "PI_MR5_DATA_F2_1,Data to program into memory mode register 5 for chip select 1 for frequency set 2." line.long 0x110 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_374," hexmask.long.byte 0x110 24.--31. 1. "PI_MR11_DATA_F2_1,Data to program into memory mode register 11 for chip select 1 for frequency set 2." newline hexmask.long.tbyte 0x110 0.--16. 1. "PI_MR6_DATA_F2_1,Data to program into memory mode register 6 for chip select 1 for frequency set 2." line.long 0x114 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_375," hexmask.long.byte 0x114 24.--31. 1. "PI_MR23_DATA_F2_1,Data to program into memory mode register 23 for chip select 1 for frequency set 2." newline hexmask.long.byte 0x114 16.--23. 1. "PI_MR22_DATA_F2_1,Data to program into memory mode register 22 for chip select 1 for frequency set 2." newline hexmask.long.byte 0x114 8.--15. 1. "PI_MR14_DATA_F2_1,Data to program into memory mode register 14 for chip select 1 for frequency set 2." newline hexmask.long.byte 0x114 0.--7. 1. "PI_MR12_DATA_F2_1,Data to program into memory mode register 12 for chip select 1 for frequency set 2." line.long 0x118 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_376," hexmask.long.tbyte 0x118 0.--16. 1. "PI_MR0_DATA_F0_2,Data to program into memory mode register 0 for chip select 2 for frequency set 0." line.long 0x11C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_377," hexmask.long.tbyte 0x11C 0.--16. 1. "PI_MR1_DATA_F0_2,Data to program into memory mode register 1 for chip select 2 for frequency set 0." line.long 0x120 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_378," hexmask.long.tbyte 0x120 0.--16. 1. "PI_MR2_DATA_F0_2,Data to program into memory mode register 2 for chip select 2 for frequency set 0." line.long 0x124 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_379," hexmask.long.tbyte 0x124 0.--16. 1. "PI_MR3_DATA_F0_2,Data to program into memory mode register 3 for chip select 2 for frequency set 0." line.long 0x128 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_380," hexmask.long.tbyte 0x128 0.--16. 1. "PI_MR4_DATA_F0_2,Data to program into memory mode register 4 for chip select 2 for frequency set 0." line.long 0x12C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_381," hexmask.long.tbyte 0x12C 0.--16. 1. "PI_MR5_DATA_F0_2,Data to program into memory mode register 5 for chip select 2 for frequency set 0." line.long 0x130 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_382," hexmask.long.byte 0x130 24.--31. 1. "PI_MR11_DATA_F0_2,Data to program into memory mode register 11 for chip select 2 for frequency set 0." newline hexmask.long.tbyte 0x130 0.--16. 1. "PI_MR6_DATA_F0_2,Data to program into memory mode register 6 for chip select 2 for frequency set 0." line.long 0x134 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_383," hexmask.long.byte 0x134 24.--31. 1. "PI_MR23_DATA_F0_2,Data to program into memory mode register 23 for chip select 2 for frequency set 0." newline hexmask.long.byte 0x134 16.--23. 1. "PI_MR22_DATA_F0_2,Data to program into memory mode register 22 for chip select 2 for frequency set 0." newline hexmask.long.byte 0x134 8.--15. 1. "PI_MR14_DATA_F0_2,Data to program into memory mode register 14 for chip select 2 for frequency set 0." newline hexmask.long.byte 0x134 0.--7. 1. "PI_MR12_DATA_F0_2,Data to program into memory mode register 12 for chip select 2 for frequency set 0." line.long 0x138 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_384," hexmask.long.tbyte 0x138 0.--16. 1. "PI_MR0_DATA_F1_2,Data to program into memory mode register 0 for chip select 2 for frequency set 1." line.long 0x13C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_385," hexmask.long.tbyte 0x13C 0.--16. 1. "PI_MR1_DATA_F1_2,Data to program into memory mode register 1 for chip select 2 for frequency set 1." line.long 0x140 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_386," hexmask.long.tbyte 0x140 0.--16. 1. "PI_MR2_DATA_F1_2,Data to program into memory mode register 2 for chip select 2 for frequency set 1." line.long 0x144 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_387," hexmask.long.tbyte 0x144 0.--16. 1. "PI_MR3_DATA_F1_2,Data to program into memory mode register 3 for chip select 2 for frequency set 1." line.long 0x148 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_388," hexmask.long.tbyte 0x148 0.--16. 1. "PI_MR4_DATA_F1_2,Data to program into memory mode register 4 for chip select 2 for frequency set 1." line.long 0x14C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_389," hexmask.long.tbyte 0x14C 0.--16. 1. "PI_MR5_DATA_F1_2,Data to program into memory mode register 5 for chip select 2 for frequency set 1." line.long 0x150 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_390," hexmask.long.byte 0x150 24.--31. 1. "PI_MR11_DATA_F1_2,Data to program into memory mode register 11 for chip select 2 for frequency set 1." newline hexmask.long.tbyte 0x150 0.--16. 1. "PI_MR6_DATA_F1_2,Data to program into memory mode register 6 for chip select 2 for frequency set 1." line.long 0x154 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_391," hexmask.long.byte 0x154 24.--31. 1. "PI_MR23_DATA_F1_2,Data to program into memory mode register 23 for chip select 2 for frequency set 1." newline hexmask.long.byte 0x154 16.--23. 1. "PI_MR22_DATA_F1_2,Data to program into memory mode register 22 for chip select 2 for frequency set 1." newline hexmask.long.byte 0x154 8.--15. 1. "PI_MR14_DATA_F1_2,Data to program into memory mode register 14 for chip select 2 for frequency set 1." newline hexmask.long.byte 0x154 0.--7. 1. "PI_MR12_DATA_F1_2,Data to program into memory mode register 12 for chip select 2 for frequency set 1." line.long 0x158 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_392," hexmask.long.tbyte 0x158 0.--16. 1. "PI_MR0_DATA_F2_2,Data to program into memory mode register 0 for chip select 2 for frequency set 2." line.long 0x15C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_393," hexmask.long.tbyte 0x15C 0.--16. 1. "PI_MR1_DATA_F2_2,Data to program into memory mode register 1 for chip select 2 for frequency set 2." line.long 0x160 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_394," hexmask.long.tbyte 0x160 0.--16. 1. "PI_MR2_DATA_F2_2,Data to program into memory mode register 2 for chip select 2 for frequency set 2." line.long 0x164 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_395," hexmask.long.tbyte 0x164 0.--16. 1. "PI_MR3_DATA_F2_2,Data to program into memory mode register 3 for chip select 2 for frequency set 2." line.long 0x168 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_396," hexmask.long.tbyte 0x168 0.--16. 1. "PI_MR4_DATA_F2_2,Data to program into memory mode register 4 for chip select 2 for frequency set 2." line.long 0x16C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_397," hexmask.long.tbyte 0x16C 0.--16. 1. "PI_MR5_DATA_F2_2,Data to program into memory mode register 5 for chip select 2 for frequency set 2." line.long 0x170 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_398," hexmask.long.byte 0x170 24.--31. 1. "PI_MR11_DATA_F2_2,Data to program into memory mode register 11 for chip select 2 for frequency set 2." newline hexmask.long.tbyte 0x170 0.--16. 1. "PI_MR6_DATA_F2_2,Data to program into memory mode register 6 for chip select 2 for frequency set 2." line.long 0x174 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_399," hexmask.long.byte 0x174 24.--31. 1. "PI_MR23_DATA_F2_2,Data to program into memory mode register 23 for chip select 2 for frequency set 2." newline hexmask.long.byte 0x174 16.--23. 1. "PI_MR22_DATA_F2_2,Data to program into memory mode register 22 for chip select 2 for frequency set 2." newline hexmask.long.byte 0x174 8.--15. 1. "PI_MR14_DATA_F2_2,Data to program into memory mode register 14 for chip select 2 for frequency set 2." newline hexmask.long.byte 0x174 0.--7. 1. "PI_MR12_DATA_F2_2,Data to program into memory mode register 12 for chip select 2 for frequency set 2." line.long 0x178 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_400," hexmask.long.tbyte 0x178 0.--16. 1. "PI_MR0_DATA_F0_3,Data to program into memory mode register 0 for chip select 3 for frequency set 0." line.long 0x17C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_401," hexmask.long.tbyte 0x17C 0.--16. 1. "PI_MR1_DATA_F0_3,Data to program into memory mode register 1 for chip select 3 for frequency set 0." line.long 0x180 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_402," hexmask.long.tbyte 0x180 0.--16. 1. "PI_MR2_DATA_F0_3,Data to program into memory mode register 2 for chip select 3 for frequency set 0." line.long 0x184 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_403," hexmask.long.tbyte 0x184 0.--16. 1. "PI_MR3_DATA_F0_3,Data to program into memory mode register 3 for chip select 3 for frequency set 0." line.long 0x188 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_404," hexmask.long.tbyte 0x188 0.--16. 1. "PI_MR4_DATA_F0_3,Data to program into memory mode register 4 for chip select 3 for frequency set 0." line.long 0x18C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_405," hexmask.long.tbyte 0x18C 0.--16. 1. "PI_MR5_DATA_F0_3,Data to program into memory mode register 5 for chip select 3 for frequency set 0." line.long 0x190 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_406," hexmask.long.byte 0x190 24.--31. 1. "PI_MR11_DATA_F0_3,Data to program into memory mode register 11 for chip select 3 for frequency set 0." newline hexmask.long.tbyte 0x190 0.--16. 1. "PI_MR6_DATA_F0_3,Data to program into memory mode register 6 for chip select 3 for frequency set 0." line.long 0x194 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_407," hexmask.long.byte 0x194 24.--31. 1. "PI_MR23_DATA_F0_3,Data to program into memory mode register 23 for chip select 3 for frequency set 0." newline hexmask.long.byte 0x194 16.--23. 1. "PI_MR22_DATA_F0_3,Data to program into memory mode register 22 for chip select 3 for frequency set 0." newline hexmask.long.byte 0x194 8.--15. 1. "PI_MR14_DATA_F0_3,Data to program into memory mode register 14 for chip select 3 for frequency set 0." newline hexmask.long.byte 0x194 0.--7. 1. "PI_MR12_DATA_F0_3,Data to program into memory mode register 12 for chip select 3 for frequency set 0." line.long 0x198 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_408," hexmask.long.tbyte 0x198 0.--16. 1. "PI_MR0_DATA_F1_3,Data to program into memory mode register 0 for chip select 3 for frequency set 1." line.long 0x19C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_409," hexmask.long.tbyte 0x19C 0.--16. 1. "PI_MR1_DATA_F1_3,Data to program into memory mode register 1 for chip select 3 for frequency set 1." line.long 0x1A0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_410," hexmask.long.tbyte 0x1A0 0.--16. 1. "PI_MR2_DATA_F1_3,Data to program into memory mode register 2 for chip select 3 for frequency set 1." line.long 0x1A4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_411," hexmask.long.tbyte 0x1A4 0.--16. 1. "PI_MR3_DATA_F1_3,Data to program into memory mode register 3 for chip select 3 for frequency set 1." line.long 0x1A8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_412," hexmask.long.tbyte 0x1A8 0.--16. 1. "PI_MR4_DATA_F1_3,Data to program into memory mode register 4 for chip select 3 for frequency set 1." line.long 0x1AC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_413," hexmask.long.tbyte 0x1AC 0.--16. 1. "PI_MR5_DATA_F1_3,Data to program into memory mode register 5 for chip select 3 for frequency set 1." line.long 0x1B0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_414," hexmask.long.byte 0x1B0 24.--31. 1. "PI_MR11_DATA_F1_3,Data to program into memory mode register 11 for chip select 3 for frequency set 1." newline hexmask.long.tbyte 0x1B0 0.--16. 1. "PI_MR6_DATA_F1_3,Data to program into memory mode register 6 for chip select 3 for frequency set 1." line.long 0x1B4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_415," hexmask.long.byte 0x1B4 24.--31. 1. "PI_MR23_DATA_F1_3,Data to program into memory mode register 23 for chip select 3 for frequency set 1." newline hexmask.long.byte 0x1B4 16.--23. 1. "PI_MR22_DATA_F1_3,Data to program into memory mode register 22 for chip select 3 for frequency set 1." newline hexmask.long.byte 0x1B4 8.--15. 1. "PI_MR14_DATA_F1_3,Data to program into memory mode register 14 for chip select 3 for frequency set 1." newline hexmask.long.byte 0x1B4 0.--7. 1. "PI_MR12_DATA_F1_3,Data to program into memory mode register 12 for chip select 3 for frequency set 1." line.long 0x1B8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_416," hexmask.long.tbyte 0x1B8 0.--16. 1. "PI_MR0_DATA_F2_3,Data to program into memory mode register 0 for chip select 3 for frequency set 2." line.long 0x1BC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_417," hexmask.long.tbyte 0x1BC 0.--16. 1. "PI_MR1_DATA_F2_3,Data to program into memory mode register 1 for chip select 3 for frequency set 2." line.long 0x1C0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_418," hexmask.long.tbyte 0x1C0 0.--16. 1. "PI_MR2_DATA_F2_3,Data to program into memory mode register 2 for chip select 3 for frequency set 2." line.long 0x1C4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_419," hexmask.long.tbyte 0x1C4 0.--16. 1. "PI_MR3_DATA_F2_3,Data to program into memory mode register 3 for chip select 3 for frequency set 2." line.long 0x1C8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_420," hexmask.long.tbyte 0x1C8 0.--16. 1. "PI_MR4_DATA_F2_3,Data to program into memory mode register 4 for chip select 3 for frequency set 2." line.long 0x1CC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_421," hexmask.long.tbyte 0x1CC 0.--16. 1. "PI_MR5_DATA_F2_3,Data to program into memory mode register 5 for chip select 3 for frequency set 2." line.long 0x1D0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_422," hexmask.long.byte 0x1D0 24.--31. 1. "PI_MR11_DATA_F2_3,Data to program into memory mode register 11 for chip select 3 for frequency set 2." newline hexmask.long.tbyte 0x1D0 0.--16. 1. "PI_MR6_DATA_F2_3,Data to program into memory mode register 6 for chip select 3 for frequency set 2." line.long 0x1D4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PI_423," hexmask.long.byte 0x1D4 24.--31. 1. "PI_MR23_DATA_F2_3,Data to program into memory mode register 23 for chip select 3 for frequency set 2." newline hexmask.long.byte 0x1D4 16.--23. 1. "PI_MR22_DATA_F2_3,Data to program into memory mode register 22 for chip select 3 for frequency set 2." newline hexmask.long.byte 0x1D4 8.--15. 1. "PI_MR14_DATA_F2_3,Data to program into memory mode register 14 for chip select 3 for frequency set 2." newline hexmask.long.byte 0x1D4 0.--7. 1. "PI_MR12_DATA_F2_3,Data to program into memory mode register 12 for chip select 3 for frequency set 2." group.long 0x4000++0x2B line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_0," hexmask.long.word 0x0 16.--26. 1. "PHY_CLK_WR_BYPASS_SLAVE_DELAY_0,Write data clock bypass mode target delay setting for slice 0." newline hexmask.long.byte 0x0 8.--14. 1. "PHY_LP4_BOOT_PAD_DSLICE_IO_CFG_0,Controls PCLK/PARK pin for pad for slice 0 with boot frequency." newline bitfld.long 0x0 0.--2. "PHY_LP4_BOOT_RX_PCLK_CLK_SEL_0,RX_PCLK boot clock frequency selection for slice 0." "0,1,2,3,4,5,6,7" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1," bitfld.long 0x4 24.--26. "PHY_WRITE_PATH_LAT_ADD_BYPASS_0,Number of cycles on bypass mode to delay the incoming dfi_wrdata_en/dfi_wrdata signals for slice 0." "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x4 8.--17. 1. "PHY_CLK_WRDQS_SLAVE_DELAY_BYPASS_0,Write DQS bypass mode target delay setting for slice 0." newline hexmask.long.byte 0x4 0.--3. 1. "PHY_IO_PAD_DELAY_TIMING_BYPASS_0,Feedback pad's OPAD and IPAD delay timing on bypass mode for slice 0." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_2," bitfld.long 0x8 24. "PHY_CLK_BYPASS_OVERRIDE_0,Bypass mode override setting for slice 0." "0,1" newline bitfld.long 0x8 16.--17. "PHY_BYPASS_TWO_CYC_PREAMBLE_0,Two_cycle_preamble for bypass mode for slice 0." "0,1,2,3" newline hexmask.long.word 0x8 0.--9. 1. "PHY_RDDQS_GATE_BYPASS_SLAVE_DELAY_0,Read DQS bypass mode target delay setting for slice 0." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_3," hexmask.long.byte 0xC 24.--29. 1. "PHY_SW_WRDQ3_SHIFT_0,Manual override of automatic half_cycle_shift/cycle_shift for write DQ3 for slice 0. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0xC 16.--21. 1. "PHY_SW_WRDQ2_SHIFT_0,Manual override of automatic half_cycle_shift/cycle_shift for write DQ2 for slice 0. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0xC 8.--13. 1. "PHY_SW_WRDQ1_SHIFT_0,Manual override of automatic half_cycle_shift/cycle_shift for write DQ1 for slice 0. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0xC 0.--5. 1. "PHY_SW_WRDQ0_SHIFT_0,Manual override of automatic half_cycle_shift/cycle_shift for write DQ0 for slice 0. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_4," hexmask.long.byte 0x10 24.--29. 1. "PHY_SW_WRDQ7_SHIFT_0,Manual override of automatic half_cycle_shift/cycle_shift for write DQ7 for slice 0. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0x10 16.--21. 1. "PHY_SW_WRDQ6_SHIFT_0,Manual override of automatic half_cycle_shift/cycle_shift for write DQ6 for slice 0. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0x10 8.--13. 1. "PHY_SW_WRDQ5_SHIFT_0,Manual override of automatic half_cycle_shift/cycle_shift for write DQ5 for slice 0. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0x10 0.--5. 1. "PHY_SW_WRDQ4_SHIFT_0,Manual override of automatic half_cycle_shift/cycle_shift for write DQ4 for slice 0. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_5," bitfld.long 0x14 24. "PHY_PER_CS_TRAINING_MULTICAST_EN_0,When set a register write will update parameters for all ranks at the same time in slice 0. Set to 1 to enable." "0,1" newline bitfld.long 0x14 16.--17. "PHY_PER_RANK_CS_MAP_0,Per-rank CS map for slice 0. Setting a bit uses that CS for the rank bit [0] uses CS0 bit [1] uses CS1 etc." "0,1,2,3" newline hexmask.long.byte 0x14 8.--11. 1. "PHY_SW_WRDQS_SHIFT_0,Manual override of automatic half_cycle_shift/cycle_shift for write DQS for slice 0. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bit [3] is the.." newline hexmask.long.byte 0x14 0.--5. 1. "PHY_SW_WRDM_SHIFT_0,Manual override of automatic half_cycle_shift/cycle_shift for write DM for slice 0. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_6," hexmask.long.byte 0x18 24.--28. 1. "PHY_LP4_BOOT_RDDATA_EN_TSEL_DLY_0,For LPDDR4 boot frequency the number of cycles that the dfi_rddata_en signal is earlier than necessary for TSEL enable generation for slice 0." newline hexmask.long.byte 0x18 16.--20. 1. "PHY_LP4_BOOT_RDDATA_EN_DLY_0,For LPDDR4 boot frequency the number of cycles that the dfi_rddata_en signal is early for slice 0." newline bitfld.long 0x18 8.--9. "PHY_LP4_BOOT_RDDATA_EN_IE_DLY_0,For LPDDR4 boot frequency the number of cycles that the dfi_rddata_en signal is earlier than necessary for input enable generation for slice 0." "0,1,2,3" newline bitfld.long 0x18 0. "PHY_PER_CS_TRAINING_INDEX_0,For per-rank training indicates which rank's paramters are read/written for slice 0." "0,1" line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_7," hexmask.long.byte 0x1C 24.--28. 1. "PHY_LP4_BOOT_RDDATA_EN_OE_DLY_0,For LPDDR4 boot frequency the number of cycles that the dfi_rddata_en signal is earlier than necessary for extended OE generation for slice 0." newline bitfld.long 0x1C 16.--17. "PHY_LP4_BOOT_WRPATH_GATE_DISABLE_0,For LPDDR4 boot frequency write path clock gating disable for slice 0. Bit [0]: disable pull in wrdata_en; Bit [1]: disable write path clock gating clock always on" "0,1,2,3" newline hexmask.long.byte 0x1C 8.--11. 1. "PHY_LP4_BOOT_RDDQS_LATENCY_ADJUST_0,For LPDDR4 boot frequency the number of cycles to delay the incoming dfi_rddata_en for read DQS gate generation for slice 0." newline hexmask.long.byte 0x1C 0.--3. 1. "PHY_LP4_BOOT_RPTR_UPDATE_0,For LPDDR4 boot frequency the offset in cycles from the dfi_rddata_en signal to releasing data from the entry FIFO for slice 0." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_8," bitfld.long 0x20 24. "PHY_LPBK_DFX_TIMEOUT_EN_0,Loopback read only test timeout mechanism enable for slice 0." "0,1" newline hexmask.long.word 0x20 8.--16. 1. "PHY_LPBK_CONTROL_0,Loopback control bits for slice 0." newline bitfld.long 0x20 0.--1. "PHY_CTRL_LPBK_EN_0,Loopback control en for slice 0." "0,1,2,3" line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_9," bitfld.long 0x24 0. "PHY_GATE_DELAY_COMP_DISABLE_0,use the control whether to compensate half_cycle when gate_target_delay is larger than half_cycle for the gate close for slice 0." "0,1" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_10," hexmask.long 0x28 0.--31. 1. "PHY_AUTO_TIMING_MARGIN_CONTROL_0,Auto timing marging control bits for slice 0." rgroup.long 0x402C++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_11," hexmask.long 0x0 0.--27. 1. "PHY_AUTO_TIMING_MARGIN_OBS_0,Observation register for the auto_timing_margin for slice 0. READ-ONLY" group.long 0x4030++0x17 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_12," hexmask.long.byte 0x0 24.--30. 1. "PHY_PRBS_PATTERN_START_0,PRBS7 start pattern for slice 0." newline bitfld.long 0x0 16. "PHY_PDA_MODE_EN_0,When set to 1 the invalid DQs will be driven by the dfi_wrdata to make sure the tpda_s and tpda_h's timing is meet for slice 0." "0,1" newline hexmask.long.word 0x0 0.--8. 1. "PHY_DQ_IDLE_0,When set to 1 the inavlid DQ will be driven to high when set to 0 the invalid DQ will be driven to low for slice 0." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_13," bitfld.long 0x4 24. "PHY_RDLVL_MULTI_PATT_RST_DISABLE_0,Read Leveling read level windows disable reset for slice 0." "0,1" newline bitfld.long 0x4 16. "PHY_RDLVL_MULTI_PATT_ENABLE_0,Read Leveling Multi-pattern enable for slice 0." "0,1" newline hexmask.long.word 0x4 0.--8. 1. "PHY_PRBS_PATTERN_MASK_0,PRBS7 mask signal for slice 0." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_14," hexmask.long.word 0x8 16.--25. 1. "PHY_RDDQS_DQ_BYPASS_SLAVE_DELAY_0,Read DQS data clock bypass mode target delay setting for slice 0." newline hexmask.long.byte 0x8 8.--14. 1. "PHY_VREF_TRAIN_OBS_0,Observation register for best vref value for slice 0. READ-ONLY" newline hexmask.long.byte 0x8 0.--5. 1. "PHY_VREF_INITIAL_STEPSIZE_0,Data slice initial VREF training step size for slice 0." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_15," hexmask.long.word 0xC 16.--24. 1. "PHY_GATE_SMPL1_SLAVE_DELAY_0,Number of cycles to delay the read DQS gate signal to generate gate1 signal for on-the-fly read DQS training for slice 0." newline bitfld.long 0xC 8. "SC_PHY_SNAP_OBS_REGS_0,Initiates a snapshot of the internal observation registers for slice 0. Set to 1 to trigger. WRITE-ONLY" "0,1" newline hexmask.long.byte 0xC 0.--3. 1. "PHY_GATE_ERROR_DELAY_SELECT_0,Number of cycles to wait for the DQS gate to close before flagging an error for slice 0." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_16," hexmask.long.word 0x10 16.--24. 1. "PHY_GATE_SMPL2_SLAVE_DELAY_0,Number of cycles to delay the read DQS gate signal to generate gate2 signal for on-the-fly read DQS training for slice 0." newline bitfld.long 0x10 8.--10. "PHY_MEM_CLASS_0,Indicates the type of DRAM for slice 0. 0 for DDR3 1 for DDR4 2 for DDR5 4 for LPDDR2 5 for LPDDR3. 6 for LPDDR4" "0,1,2,3,4,5,6,7" newline bitfld.long 0x10 0. "PHY_LPDDR_0,Adds a cycle of delay for the slice 0 to match the address slice. Set to 1 to add a cycle" "0,1" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_17," bitfld.long 0x14 0.--1. "ON_FLY_GATE_ADJUST_EN_0,Control the on-the-fly gate adjustment for slice 0." "0,1,2,3" rgroup.long 0x4048++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_18," hexmask.long 0x0 0.--31. 1. "PHY_GATE_TRACKING_OBS_0,Report the on-the-fly gate measurement result for slice 0. READ-ONLY" group.long 0x404C++0x6B line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_19," bitfld.long 0x0 8.--9. "PHY_LP4_PST_AMBLE_0,Controls the read postamble extension for LPDDR4 for slice 0." "0,1,2,3" newline bitfld.long 0x0 0. "PHY_DFI40_POLARITY_0,Indicates the dfi_wrdata_cs_n and dfi_rddata_cs_n is low active or high active for slice 0." "0,1" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_20," hexmask.long 0x4 0.--31. 1. "PHY_RDLVL_PATT8_0,Read leveling pattern 8 data for slice 0." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_21," hexmask.long 0x8 0.--31. 1. "PHY_RDLVL_PATT9_0,Read leveling pattern 9 data for slice 0." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_22," hexmask.long 0xC 0.--31. 1. "PHY_RDLVL_PATT10_0,Read leveling pattern 10 data for slice 0." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_23," hexmask.long 0x10 0.--31. 1. "PHY_RDLVL_PATT11_0,Read leveling pattern 11 data for slice 0." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_24," hexmask.long 0x14 0.--31. 1. "PHY_RDLVL_PATT12_0,Read leveling pattern 12 data for slice 0." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_25," hexmask.long 0x18 0.--31. 1. "PHY_RDLVL_PATT13_0,Read leveling pattern 13 data for slice 0." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_26," hexmask.long 0x1C 0.--31. 1. "PHY_RDLVL_PATT14_0,Read leveling pattern 14 data for slice 0." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_27," hexmask.long 0x20 0.--31. 1. "PHY_RDLVL_PATT15_0,Read leveling pattern 15 data for slice 0." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_28," bitfld.long 0x24 24.--26. "PHY_RDDQ_ENC_OBS_SELECT_0,Select value to map the internal read DQ target delay encoded settings to the accessible read DQ encoded target delay observation register for slice 0." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x24 16.--19. 1. "PHY_MASTER_DLY_LOCK_OBS_SELECT_0,Select value to map the internal controller delay observation registers to the accessible controller delay observation register for slice 0." newline bitfld.long 0x24 8. "PHY_SW_FIFO_PTR_RST_DISABLE_0,Disables automatic reset of the read entry FIFO pointers for slice 0. Set to 1 to disable automatic resets." "0,1" newline bitfld.long 0x24 0.--2. "PHY_SLAVE_LOOP_CNT_UPDATE_0,Reserved for future use for slice 0." "0,1,2,3,4,5,6,7" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_29," hexmask.long.byte 0x28 24.--27. 1. "PHY_FIFO_PTR_OBS_SELECT_0,Select value to map the internal read entry FIFO read/write pointers to the accessible read entry FIFO pointer observation register for slice 0." newline hexmask.long.byte 0x28 16.--19. 1. "PHY_WR_SHIFT_OBS_SELECT_0,Select value to map the internal write DQ/DQS automatic cycle/half_cycle shift settings to the accessible write DQ/DQS shift observation register for slice 0." newline hexmask.long.byte 0x28 8.--11. 1. "PHY_WR_ENC_OBS_SELECT_0,Select value to map the internal write DQ target delay encoded settings to the accessible write DQ encoded target delay observation register for slice 0." newline hexmask.long.byte 0x28 0.--3. 1. "PHY_RDDQS_DQ_ENC_OBS_SELECT_0,Select value to map the internal read DQS DQ rise/fall target delay encoded settings to the accessible read DQS DQ rise/fall encoded target delay observation registers for slice 0." line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_30," hexmask.long.byte 0x2C 24.--29. 1. "PHY_WRLVL_CAPTURE_CNT_0,Number of samples to take at each DQS target delay setting during write leveling for slice 0." newline bitfld.long 0x2C 16.--17. "PHY_WRLVL_ALGO_0,Write leveling algorithm selection for slice 0." "0,1,2,3" newline bitfld.long 0x2C 8. "SC_PHY_LVL_DEBUG_CONT_0,Allows the leveling state machine to advance [when in debug mode] for slice 0. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0x2C 0. "PHY_LVL_DEBUG_MODE_0,Enables leveling debug mode for slice 0. Set to 1 to enable." "0,1" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_31," hexmask.long.byte 0x30 24.--27. 1. "PHY_GTLVL_UPDT_WAIT_CNT_0,Number of cycles + 4 to wait after changing DQS target delay setting during gate training for slice 0. The valid range is 0x0 to 0xB." newline hexmask.long.byte 0x30 16.--21. 1. "PHY_GTLVL_CAPTURE_CNT_0,Number of samples to take at each DQS target delay setting during gate training for slice 0." newline hexmask.long.byte 0x30 8.--15. 1. "PHY_DQ_MASK_0,For ECC slice should set this register to do DQ bit mask for slice 0." newline hexmask.long.byte 0x30 0.--3. 1. "PHY_WRLVL_UPDT_WAIT_CNT_0,Number of cycles to wait after changing DQS target delay setting during write leveling for slice 0." line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_32," hexmask.long.byte 0x34 24.--28. 1. "PHY_RDLVL_RDDQS_DQ_OBS_SELECT_0,Select value to map an individual DQ data window leading/trailing edge to the leading/trailing edge observation registers during read leveling for slice 0." newline bitfld.long 0x34 16.--17. "PHY_RDLVL_OP_MODE_0,Read leveling algorithm select for slice 0. Clear to 0 to move linearly from left to right. Set to 1 to start inside the window move left and then move right." "0,1,2,3" newline hexmask.long.byte 0x34 8.--11. 1. "PHY_RDLVL_UPDT_WAIT_CNT_0,Number of cycles to wait after changing DQS target delay setting during read leveling for slice 0." newline hexmask.long.byte 0x34 0.--5. 1. "PHY_RDLVL_CAPTURE_CNT_0,Number of samples to take at each DQS target delay setting during read leveling for slice 0." line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_33," hexmask.long.tbyte 0x38 8.--25. 1. "PHY_RDLVL_DATA_SWIZZLE_0,Read level bit swizzling for DDR4 operation for slice 0." newline hexmask.long.byte 0x38 0.--7. 1. "PHY_RDLVL_DATA_MASK_0,Per-bit mask for read leveling for slice 0. If all bits are not used only 1 bit should be cleared to 0." line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_34," bitfld.long 0x3C 16.--18. "PHY_WDQLVL_PATT_0,Defines the training patterns to be used during the write data leveling sequence for slice 0. Bit [0] corresponds to the LFSR data training pattern. Bit [1] corresponds to the CLK data training pattern. Bit [2] corresponds to.." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x3C 8.--13. 1. "PHY_WDQLVL_BURST_CNT_0,Defines the write/read burst length in bytes during the write data leveling sequence for slice 0." newline hexmask.long.byte 0x3C 0.--7. 1. "PHY_WDQLVL_CLK_JITTER_TOLERANCE_0,Defines the minimum gap requirment for the LE and TE window for slice 0." line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_35," hexmask.long.byte 0x40 24.--27. 1. "PHY_WDQLVL_DQDM_OBS_SELECT_0,Select value to map an individual DQ data window leading/trailing edge to the leading/trailing edge observation registers during write data leveling for slice 0." newline hexmask.long.byte 0x40 16.--19. 1. "PHY_WDQLVL_UPDT_WAIT_CNT_0,Number of cycles to wait after changing the DQ target delay setting during write data leveling for slice 0." newline hexmask.long.word 0x40 0.--10. 1. "PHY_WDQLVL_DQDM_SLV_DLY_JUMP_OFFSET_0,Defines the target delay jump value when the TE window is found and begin to serch TE window for slice 0." line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_36," bitfld.long 0x44 24. "SC_PHY_WDQLVL_CLR_PREV_RESULTS_0,Clears the previous result value to allow a clean slate comparison for future write DQ leveling results for slice 0. Set to 1 to trigger. WRITE-ONLY" "0,1" newline hexmask.long.byte 0x44 16.--19. 1. "PHY_WDQLVL_DM_DLY_STEP_0,The target delay line step for DM training for slice 0." newline hexmask.long.byte 0x44 8.--15. 1. "PHY_WDQLVL_DQ_SLV_DELTA_0,The margin for DQ0-7's LE and TE dealy to make sure the DQ bits can work during DM training for slice 0." newline hexmask.long.byte 0x44 0.--7. 1. "PHY_WDQLVL_PERIODIC_OBS_SELECT_0,Select value to map specific information during or post periodic write data leveling for slice 0." line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_37," hexmask.long.word 0x48 0.--8. 1. "PHY_WDQLVL_DATADM_MASK_0,Per-bit mask for write data leveling for slice 0. Set to 1 to mask any bit from the leveling process." line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_38," hexmask.long 0x4C 0.--31. 1. "PHY_USER_PATT0_0,User-defined pattern to be used during write data leveling for slice 0. This register holds the bytes 3 to 0 written/read from device." line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_39," hexmask.long 0x50 0.--31. 1. "PHY_USER_PATT1_0,User-defined pattern to be used during write data leveling for slice 0. This register holds the bytes 7 to 4 written/read from device." line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_40," hexmask.long 0x54 0.--31. 1. "PHY_USER_PATT2_0,User-defined pattern to be used during write data leveling for slice 0. This register holds the bytes 11 to 8 written/read from device." line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_41," hexmask.long 0x58 0.--31. 1. "PHY_USER_PATT3_0,User-defined pattern to be used during write data leveling for slice 0. This register holds the bytes 15 to 12 written/read from device." line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_42," bitfld.long 0x5C 16. "PHY_NTP_MULT_TRAIN_0,Control for single pass only No-Topology training for slice 0." "0,1" newline hexmask.long.word 0x5C 0.--15. 1. "PHY_USER_PATT4_0,User-defined pattern to be used during write data leveling for slice 0. This register holds the DM bit for the 15 to 0 DQ written/read from device." line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_43," hexmask.long.word 0x60 16.--25. 1. "PHY_NTP_PERIOD_THRESHOLD_0,Threshold Criteria of period threshold after No-Topology training is completed for slice 0." newline hexmask.long.word 0x60 0.--9. 1. "PHY_NTP_EARLY_THRESHOLD_0,Threshold Criteria of early threshold after No-Topology training is completed for slice 0." line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_44," hexmask.long.word 0x64 16.--25. 1. "PHY_NTP_PERIOD_THRESHOLD_MAX_0,Maximum Threshold that phy_clk_wrdqs_target_delay could cross boundary to set period threshold/early threshold after No-Topology training is completed for slice 0." newline hexmask.long.word 0x64 0.--9. 1. "PHY_NTP_PERIOD_THRESHOLD_MIN_0,Minimum Threshold that phy_clk_wrdqs_target_delay could cross boundary to set period threshold/early threshold after No-Topology training is completed for slice 0." line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_45," hexmask.long.byte 0x68 16.--23. 1. "PHY_FIFO_PTR_OBS_0,Observation register containing read entry FIFO pointers for slice 0. READ-ONLY" newline hexmask.long.byte 0x68 8.--13. 1. "SC_PHY_MANUAL_CLEAR_0,Manual reset/clear of internal logic for slice 0. Bit [0] initiates manual setup of the read DQS gate. Bit [1] is reset of read entry FIFO pointers. Bit [2] is reset of controller delay min/max lock values. Bit [3] is manual reset.." newline bitfld.long 0x68 0. "PHY_CALVL_VREF_DRIVING_SLICE_0,Indicates if slice 0 is used to drive the VREF value to the device during CA training." "0,1" rgroup.long 0x40B8++0x43 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_46," hexmask.long 0x0 0.--31. 1. "PHY_LPBK_RESULT_OBS_0,Observation register containing loopback status/results for slice 0. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_47," hexmask.long.word 0x4 16.--26. 1. "PHY_MASTER_DLY_LOCK_OBS_0,Observation register containing controller delay results for slice 0. READ-ONLY" newline hexmask.long.word 0x4 0.--15. 1. "PHY_LPBK_ERROR_COUNT_OBS_0,Observation register containing total number of loopback error data for slice 0. READ-ONLY" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_48," hexmask.long.byte 0x8 24.--31. 1. "PHY_RDDQS_DQ_RISE_ADDER_SLV_DLY_ENC_OBS_0,Observation register containing read DQS DQ rising edge adder target delay encoded value for slice 0. READ-ONLY" newline hexmask.long.byte 0x8 16.--23. 1. "PHY_MEAS_DLY_STEP_VALUE_0,Observation register containing fraction of the cycle in 1 delay element numerator with demominator of 512 for slice 0. READ-ONLY" newline hexmask.long.byte 0x8 8.--14. 1. "PHY_RDDQS_BASE_SLV_DLY_ENC_OBS_0,Observation register containing read DQS base target delay encoded value for slice 0. READ-ONLY" newline hexmask.long.byte 0x8 0.--6. 1. "PHY_RDDQ_SLV_DLY_ENC_OBS_0,Observation register containing read DQ target delay encoded values for slice 0. READ-ONLY" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_49," hexmask.long.byte 0xC 24.--30. 1. "PHY_WRDQS_BASE_SLV_DLY_ENC_OBS_0,Observation register containing write DQS base target delay encoded value for slice 0. READ-ONLY" newline hexmask.long.word 0xC 8.--18. 1. "PHY_RDDQS_GATE_SLV_DLY_ENC_OBS_0,Observation register containing read DQS gate target delay encoded value for slice 0. READ-ONLY" newline hexmask.long.byte 0xC 0.--7. 1. "PHY_RDDQS_DQ_FALL_ADDER_SLV_DLY_ENC_OBS_0,Observation register containing read DQS DQ falling edge adder target delay encoded value for slice 0. READ-ONLY" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_50," bitfld.long 0x10 16.--18. "PHY_WR_SHIFT_OBS_0,Observation register containing automatic half cycle and cycle shift values for slice 0. READ-ONLY" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x10 8.--15. 1. "PHY_WR_ADDER_SLV_DLY_ENC_OBS_0,Observation register containing write adder target delay encoded value for slice 0. READ-ONLY" newline hexmask.long.byte 0x10 0.--7. 1. "PHY_WRDQ_BASE_SLV_DLY_ENC_OBS_0,Observation register containing write DQ base target delay encoded value for slice 0. READ-ONLY" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_51," hexmask.long.word 0x14 16.--25. 1. "PHY_WRLVL_HARD1_DELAY_OBS_0,Observation register containing write leveling first hard 1 DQS target delay for slice 0. READ-ONLY" newline hexmask.long.word 0x14 0.--9. 1. "PHY_WRLVL_HARD0_DELAY_OBS_0,Observation register containing write leveling last hard 0 DQS target delay for slice 0. READ-ONLY" line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_52," hexmask.long.tbyte 0x18 0.--20. 1. "PHY_WRLVL_STATUS_OBS_0,Observation register containing write leveling status for slice 0. READ-ONLY" line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_53," hexmask.long.word 0x1C 16.--25. 1. "PHY_GATE_SMPL2_SLV_DLY_ENC_OBS_0,Observation register containing gate sample2 target delay encoded values for slice 0. READ-ONLY" newline hexmask.long.word 0x1C 0.--9. 1. "PHY_GATE_SMPL1_SLV_DLY_ENC_OBS_0,Observation register containing gate sample1 target delay encoded values for slice 0. READ-ONLY" line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_54," hexmask.long.word 0x20 16.--29. 1. "PHY_GTLVL_HARD0_DELAY_OBS_0,Observation register containing gate training first hard 0 DQS target delay for slice 0. READ-ONLY" newline hexmask.long.word 0x20 0.--15. 1. "PHY_WRLVL_ERROR_OBS_0,Observation register containing write leveling error status for slice 0. READ-ONLY" line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_55," hexmask.long.word 0x24 0.--13. 1. "PHY_GTLVL_HARD1_DELAY_OBS_0,Observation register containing gate training last hard 1 DQS target delay for slice 0. READ-ONLY" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_56," hexmask.long.tbyte 0x28 0.--17. 1. "PHY_GTLVL_STATUS_OBS_0,Observation register containing gate training status for slice 0. READ-ONLY" line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_57," hexmask.long.word 0x2C 16.--25. 1. "PHY_RDLVL_RDDQS_DQ_TE_DLY_OBS_0,Observation register containing read leveling data window trailing edge target delay setting for slice 0. READ-ONLY" newline hexmask.long.word 0x2C 0.--9. 1. "PHY_RDLVL_RDDQS_DQ_LE_DLY_OBS_0,Observation register containing read leveling data window leading edge target delay setting for slice 0. READ-ONLY" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_58," bitfld.long 0x30 0.--1. "PHY_RDLVL_RDDQS_DQ_NUM_WINDOWS_OBS_0,Observation register containing read leveling number of windows found for slice 0. READ-ONLY" "0,1,2,3" line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_59," hexmask.long 0x34 0.--31. 1. "PHY_RDLVL_STATUS_OBS_0,Observation register containing read leveling status for slice 0. READ-ONLY" line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_60," hexmask.long.word 0x38 16.--26. 1. "PHY_WDQLVL_DQDM_TE_DLY_OBS_0,Observation register containing write data leveling data window trailing edge target delay setting for slice 0. READ-ONLY" newline hexmask.long.word 0x38 0.--10. 1. "PHY_WDQLVL_DQDM_LE_DLY_OBS_0,Observation register containing write data leveling data window leading edge target delay setting for slice 0. READ-ONLY" line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_61," hexmask.long 0x3C 0.--31. 1. "PHY_WDQLVL_STATUS_OBS_0,Observation register containing write data leveling status for slice 0. READ-ONLY" line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_62," hexmask.long 0x40 0.--31. 1. "PHY_WDQLVL_PERIODIC_OBS_0,Observation register containing periodic write data leveling status for slice 0. READ-ONLY" group.long 0x40FC++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_63," hexmask.long 0x0 0.--30. 1. "PHY_DDL_MODE_0,DDL mode for slice 0." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_64," hexmask.long.byte 0x4 0.--5. 1. "PHY_DDL_MASK_0,DDL mask for slice 0." rgroup.long 0x4104++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_65," hexmask.long 0x0 0.--31. 1. "PHY_DDL_TEST_OBS_0,DDL test observation for slice 0. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_66," hexmask.long 0x4 0.--31. 1. "PHY_DDL_TEST_MSTR_DLY_OBS_0,DDL test observation delays for slice 0 controller DDL. READ-ONLY" group.long 0x410C++0x117 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_67," hexmask.long.word 0x0 16.--24. 1. "PHY_RX_CAL_DQ0_0,RX Calibration codes for DQ0 for slice 0. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline bitfld.long 0x0 8. "PHY_LP4_WDQS_OE_EXTEND_0,LPDDR4 write preamble extension enable for slice 0." "0,1" newline hexmask.long.byte 0x0 0.--7. 1. "PHY_DDL_TRACK_UPD_THRESHOLD_0,Specify threshold value for PHY init update tracking for slice 0." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_68," hexmask.long.word 0x4 16.--24. 1. "PHY_RX_CAL_DQ2_0,RX Calibration codes for DQ2 for slice 0. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline hexmask.long.word 0x4 0.--8. 1. "PHY_RX_CAL_DQ1_0,RX Calibration codes for DQ1 for slice 0. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_69," hexmask.long.word 0x8 16.--24. 1. "PHY_RX_CAL_DQ4_0,RX Calibration codes for DQ4 for slice 0. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline hexmask.long.word 0x8 0.--8. 1. "PHY_RX_CAL_DQ3_0,RX Calibration codes for DQ3 for slice 0. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_70," hexmask.long.word 0xC 16.--24. 1. "PHY_RX_CAL_DQ6_0,RX Calibration codes for DQ6 for slice 0. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline hexmask.long.word 0xC 0.--8. 1. "PHY_RX_CAL_DQ5_0,RX Calibration codes for DQ5 for slice 0. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_71," hexmask.long.word 0x10 0.--8. 1. "PHY_RX_CAL_DQ7_0,RX Calibration codes for DQ7 for slice 0. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_72," hexmask.long.tbyte 0x14 0.--17. 1. "PHY_RX_CAL_DM_0,RX Calibration codes for DM for slice 0. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_73," hexmask.long.word 0x18 16.--24. 1. "PHY_RX_CAL_FDBK_0,RX Calibration codes for FDBK for slice 0. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline hexmask.long.word 0x18 0.--8. 1. "PHY_RX_CAL_DQS_0,RX Calibration codes for DQS for slice 0. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_74," hexmask.long.byte 0x1C 24.--31. 1. "PHY_DATA_DC_CAL_SAMPLE_WAIT_0,Determines number of cycles to wait for each sample for slice 0." newline hexmask.long.byte 0x1C 16.--20. 1. "PHY_STATIC_TOG_DISABLE_0,Control to disable toggle during static activity for slice 0. bit0: Write path delay line disable; bit1: Read path delay line disable; bit2: Read data path disable; bit3: clk_phy disable; bit4: controller delay line disable." newline hexmask.long.word 0x1C 0.--10. 1. "PHY_PAD_RX_BIAS_EN_0,Controls RX_BIAS_EN pin for each pad for slice 0." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_75," hexmask.long.byte 0x20 24.--31. 1. "PHY_DATA_DC_ADJUST_SAMPLE_CNT_0,Duty cycle adjust sample count for slice 0." newline hexmask.long.byte 0x20 16.--21. 1. "PHY_DATA_DC_ADJUST_START_0,Duty cycle adjust starting value for slice 0." newline bitfld.long 0x20 8.--9. "PHY_DATA_DC_WEIGHT_0,Determines weight of average calculating for slice 0." "0,1,2,3" newline hexmask.long.byte 0x20 0.--7. 1. "PHY_DATA_DC_CAL_TIMEOUT_0,Determines timeout number of iteration for slice 0." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_76," bitfld.long 0x24 24. "PHY_DATA_DC_CAL_START_0,Manual trigger for DCC for slice 0." "0,1" newline bitfld.long 0x24 16. "PHY_DATA_DC_CAL_POLARITY_0,Calibration polarity for slice 0." "0,1" newline bitfld.long 0x24 8. "PHY_DATA_DC_ADJUST_DIRECT_0,Adjust direction for slice 0." "0,1" newline hexmask.long.byte 0x24 0.--7. 1. "PHY_DATA_DC_ADJUST_THRSHLD_0,Duty cycle adjust threshold around the mid-point for slice 0." line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_77," bitfld.long 0x28 24. "PHY_RDPATH_GATE_DISABLE_0,Data slice read path power reduction disable for slice 0." "0,1" newline bitfld.long 0x28 16. "PHY_SLV_DLY_CTRL_GATE_DISABLE_0,Data slice slv_dly_control block power reduction disable for slice 0." "0,1" newline bitfld.long 0x28 8.--10. "PHY_FDBK_PWR_CTRL_0,Shutoff gate feedback IO to reduce power for slice 0." "0,1,2,3,4,5,6,7" newline bitfld.long 0x28 0.--1. "PHY_DATA_DC_SW_RANK_0,Rank selection for software based duty cycle correction for slice 0." "0,1,2,3" line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_78," bitfld.long 0x2C 8. "PHY_SLICE_PWR_RDC_DISABLE_0,Data slice power reduction disable for slice 0." "0,1" newline bitfld.long 0x2C 0. "PHY_DCC_RXCAL_CTRL_GATE_DISABLE_0,Data slice DCC and RX_CAL block power reduction disable for slice 0." "0,1" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_79," bitfld.long 0x30 24.--26. "PHY_DQS_TSEL_ENABLE_0,Operation type tsel enables for DQS signals for slice 0. Bit [0] enables tsel_en during read cycles. Bit [1] enables tsel_en during write cycles. Bit [2] enables tsel_en during idle cycles. Set each bit to 1 to enable." "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x30 8.--23. 1. "PHY_DQ_TSEL_SELECT_0,Operation type tsel select values for DQ/DM signals for slice 0." newline bitfld.long 0x30 0.--2. "PHY_DQ_TSEL_ENABLE_0,Operation type tsel enables for DQ/DM signals for slice 0. Bit [0] enables tsel_en during read cycles. Bit [1] enables tsel_en during write cycles. Bit [2] enables tsel_en during idle cycles. Set each bit to 1 to enable." "0,1,2,3,4,5,6,7" line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_80," hexmask.long.byte 0x34 24.--30. 1. "PHY_VREF_INITIAL_START_POINT_0,Data slice initial VREF training start value for slice 0." newline bitfld.long 0x34 16.--17. "PHY_TWO_CYC_PREAMBLE_0,2 cycle preamble support for slice 0. Bit [0] controls the 2 cycle read preamble. Bit [1] controls the 2 cycle write preamble. Set each bit to 1 to enable." "0,1,2,3" newline hexmask.long.word 0x34 0.--15. 1. "PHY_DQS_TSEL_SELECT_0,Operation type tsel select values for DQS signals for slice 0." line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_81," hexmask.long.byte 0x38 24.--31. 1. "PHY_NTP_WDQ_STEP_SIZE_0,Step size of WR DQ target delay during No-Topology training for slice 0." newline bitfld.long 0x38 16. "PHY_NTP_TRAIN_EN_0,Enable for No-Topology training for slice 0." "0,1" newline bitfld.long 0x38 8.--9. "PHY_VREF_TRAINING_CTRL_0,Data slice vref training enable control for slice 0." "0,1,2,3" newline hexmask.long.byte 0x38 0.--6. 1. "PHY_VREF_INITIAL_STOP_POINT_0,Data slice initial VREF training stop value for slice 0." line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_82," hexmask.long.word 0x3C 16.--26. 1. "PHY_NTP_WDQ_STOP_0,End of WR DQ target delay in No-Topology training for slice 0." newline hexmask.long.word 0x3C 0.--10. 1. "PHY_NTP_WDQ_START_0,Starting WR DQ target delay in No-Topology training for slice 0." line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_83," bitfld.long 0x40 24. "PHY_SW_WDQLVL_DVW_MIN_EN_0,SW override to enable use of PHY_WDQLVL_DVW_MIN for slice 0." "0,1" newline hexmask.long.word 0x40 8.--17. 1. "PHY_WDQLVL_DVW_MIN_0,Minimum data valid window across DQs and ranks for slice 0." newline hexmask.long.byte 0x40 0.--7. 1. "PHY_NTP_WDQ_BIT_EN_0,Enable Bit for WR DQ during No-Topology training for slice 0." line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_84," hexmask.long.byte 0x44 24.--28. 1. "PHY_PAD_RX_DCD_0_0,Controls RX_DCD pin for each pad for slice 0." newline hexmask.long.byte 0x44 16.--20. 1. "PHY_PAD_TX_DCD_0,Controls TX_DCD pin for each pad for slice 0." newline hexmask.long.byte 0x44 8.--11. 1. "PHY_FAST_LVL_EN_0,Enable for fast multi-pattern window search for slice 0." newline hexmask.long.byte 0x44 0.--5. 1. "PHY_WDQLVL_PER_START_OFFSET_0,Peridic training start point offset for slice 0." line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_85," hexmask.long.byte 0x48 24.--28. 1. "PHY_PAD_RX_DCD_4_0,Controls RX_DCD pin for each pad for slice 0." newline hexmask.long.byte 0x48 16.--20. 1. "PHY_PAD_RX_DCD_3_0,Controls RX_DCD pin for each pad for slice 0." newline hexmask.long.byte 0x48 8.--12. 1. "PHY_PAD_RX_DCD_2_0,Controls RX_DCD pin for each pad for slice 0." newline hexmask.long.byte 0x48 0.--4. 1. "PHY_PAD_RX_DCD_1_0,Controls RX_DCD pin for each pad for slice 0." line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_86," hexmask.long.byte 0x4C 24.--28. 1. "PHY_PAD_DM_RX_DCD_0,Controls RX_DCD pin for dm pad for slice 0." newline hexmask.long.byte 0x4C 16.--20. 1. "PHY_PAD_RX_DCD_7_0,Controls RX_DCD pin for each pad for slice 0." newline hexmask.long.byte 0x4C 8.--12. 1. "PHY_PAD_RX_DCD_6_0,Controls RX_DCD pin for each pad for slice 0." newline hexmask.long.byte 0x4C 0.--4. 1. "PHY_PAD_RX_DCD_5_0,Controls RX_DCD pin for each pad for slice 0." line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_87," hexmask.long.byte 0x50 16.--22. 1. "PHY_PAD_DSLICE_IO_CFG_0,Controls PCLK/PARK pin for pad for slice 0." newline hexmask.long.byte 0x50 8.--12. 1. "PHY_PAD_FDBK_RX_DCD_0,Controls RX_DCD pin for fdbk pad for slice 0." newline hexmask.long.byte 0x50 0.--4. 1. "PHY_PAD_DQS_RX_DCD_0,Controls RX_DCD pin for dqs pad for slice 0." line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_88," hexmask.long.word 0x54 16.--25. 1. "PHY_RDDQ1_SLAVE_DELAY_0,Read DQ1 target delay setting for slice 0." newline hexmask.long.word 0x54 0.--9. 1. "PHY_RDDQ0_SLAVE_DELAY_0,Read DQ0 target delay setting for slice 0." line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_89," hexmask.long.word 0x58 16.--25. 1. "PHY_RDDQ3_SLAVE_DELAY_0,Read DQ3 target delay setting for slice 0." newline hexmask.long.word 0x58 0.--9. 1. "PHY_RDDQ2_SLAVE_DELAY_0,Read DQ2 target delay setting for slice 0." line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_90," hexmask.long.word 0x5C 16.--25. 1. "PHY_RDDQ5_SLAVE_DELAY_0,Read DQ5 target delay setting for slice 0." newline hexmask.long.word 0x5C 0.--9. 1. "PHY_RDDQ4_SLAVE_DELAY_0,Read DQ4 target delay setting for slice 0." line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_91," hexmask.long.word 0x60 16.--25. 1. "PHY_RDDQ7_SLAVE_DELAY_0,Read DQ7 target delay setting for slice 0." newline hexmask.long.word 0x60 0.--9. 1. "PHY_RDDQ6_SLAVE_DELAY_0,Read DQ6 target delay setting for slice 0." line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_92," hexmask.long.byte 0x64 24.--28. 1. "PHY_RX_CAL_ALL_DLY_0,Defines the number of cycles/half cycles that the rx_cal_all_opad signal should be asserted for. There is a phy_rx_cal_all_dly_X parameter for each of the slices of data sent on the DFI data bus for slice 0." newline bitfld.long 0x64 16.--18. "PHY_RX_PCLK_CLK_SEL_0,RX_PCLK clock frequency selection for slice 0." "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x64 0.--9. 1. "PHY_RDDM_SLAVE_DELAY_0,Read DM/DBI target delay setting for slice 0. May be used for data swap." line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_93," bitfld.long 0x68 0.--2. "PHY_DATA_DC_CAL_CLK_SEL_0,Determines DCC CAL clock for slice 0." "0,1,2,3,4,5,6,7" line.long 0x6C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_94," hexmask.long.byte 0x6C 24.--31. 1. "PHY_DQS_OE_TIMING_0,Start/end timing values for DQS output enable signals for slice 0." newline hexmask.long.byte 0x6C 16.--23. 1. "PHY_DQ_TSEL_WR_TIMING_0,Start/end timing values for DQ/DM write based termination enable and select signals for slice 0." newline hexmask.long.byte 0x6C 8.--15. 1. "PHY_DQ_TSEL_RD_TIMING_0,Start/end timing values for DQ/DM read based termination enable and select signals for slice 0." newline hexmask.long.byte 0x6C 0.--7. 1. "PHY_DQ_OE_TIMING_0,Start/end timing values for DQ/DM output enable signals for slice 0." line.long 0x70 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_95," hexmask.long.byte 0x70 24.--31. 1. "PHY_DQS_TSEL_WR_TIMING_0,Start/end timing values for DQS write based termination enable and select signals for slice 0." newline hexmask.long.byte 0x70 16.--23. 1. "PHY_DQS_OE_RD_TIMING_0,Start/end timing values for DQS read based OE extension for slice 0." newline hexmask.long.byte 0x70 8.--15. 1. "PHY_DQS_TSEL_RD_TIMING_0,Start/end timing values for DQS read based termination enable and select signals for slice 0." newline hexmask.long.byte 0x70 0.--3. 1. "PHY_IO_PAD_DELAY_TIMING_0,Feedback pad's OPAD and IPAD delay timing for slice 0." line.long 0x74 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_96," hexmask.long.word 0x74 16.--27. 1. "PHY_PAD_VREF_CTRL_DQ_0,Pad VREF control settings for DQ slice 0." newline hexmask.long.word 0x74 0.--15. 1. "PHY_VREF_SETTING_TIME_0,Number of cycles for vref settle after setting is changed for slice 0." line.long 0x78 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_97," bitfld.long 0x78 24.--25. "PHY_RDDATA_EN_IE_DLY_0,Number of cycles that the dfi_rddata_en signal is earlier than necessary for input enable generation for slice 0." "0,1,2,3" newline hexmask.long.byte 0x78 16.--23. 1. "PHY_DQS_IE_TIMING_0,Start/end timing values for DQS input enable signals for slice 0." newline hexmask.long.byte 0x78 8.--15. 1. "PHY_DQ_IE_TIMING_0,Start/end timing values for DQ/DM input enable signals for slice 0." newline bitfld.long 0x78 0. "PHY_PER_CS_TRAINING_EN_0,Enables the per-rank training and read/write timing capabilities for slice 0. Must have same value in all slices." "0,1" line.long 0x7C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_98," hexmask.long.byte 0x7C 24.--28. 1. "PHY_WDQLVL_RDDATA_EN_DLY_0,For WR DQ training the number of cycles that the dfi_rddata_en signal is early for slice 0." newline bitfld.long 0x7C 16. "PHY_WDQLVL_IE_ON_0,IE control 1 meams IE is always on during WR DQ training for slice 0." "0,1" newline bitfld.long 0x7C 8.--9. "PHY_DBI_MODE_0,DBI mode for slice 0. Bit [0] enables return of DBI read data." "0,1,2,3" newline bitfld.long 0x7C 0.--1. "PHY_IE_MODE_0,Input enable mode bits for slice 0. Bit [0] enables the mode where the input enables are always on; set to 1 to enable. Bit [1] disables the input enable on the DM signal; set to 1 to disable." "0,1,2,3" line.long 0x80 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_99," hexmask.long.byte 0x80 24.--27. 1. "PHY_SW_MASTER_MODE_0,Controller delay line override settings for slice 0. Bit [0] enables software half clock mode. Bit [1] is the software half clock mode value. Bit [2] enables software bypass mode. Bit [3] is the software bypass mode value." newline hexmask.long.byte 0x80 16.--20. 1. "PHY_RDDATA_EN_OE_DLY_0,Number of cycles that the dfi_rddata_en signal is earlier than necessary for LP4 OE extension generation for slice 0." newline hexmask.long.byte 0x80 8.--12. 1. "PHY_RDDATA_EN_TSEL_DLY_0,Number of cycles that the dfi_rddata_en signal is earlier than necessary for TSEL enable generation for slice 0." newline hexmask.long.byte 0x80 0.--4. 1. "PHY_WDQLVL_RDDATA_EN_TSEL_DLY_0,For WR DQ training the number of cycles that the dfi_rddata_en signal is earlier than necessary for TSEL enable generation for slice 0." line.long 0x84 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_100," hexmask.long.byte 0x84 24.--31. 1. "PHY_MASTER_DELAY_WAIT_0,Wait cycles for controller delay line locking algorithm for slice 0. Bits [3:0] are the cycle wait count after a calibration clock setting change. Bits [7:4] are the cycle wait count after a controller delay setting change." newline hexmask.long.byte 0x84 16.--21. 1. "PHY_MASTER_DELAY_STEP_0,Incremental step size for controller delay line locking algorithm for slice 0." newline hexmask.long.word 0x84 0.--10. 1. "PHY_MASTER_DELAY_START_0,Start value for controller delay line locking algorithm for slice 0." line.long 0x88 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_101," hexmask.long.byte 0x88 24.--27. 1. "PHY_WRLVL_DLY_FINE_STEP_0,DQS target delay fine step size during write leveling for slice 0." newline hexmask.long.byte 0x88 16.--23. 1. "PHY_WRLVL_DLY_STEP_0,DQS target delay step size during write leveling for slice 0." newline hexmask.long.byte 0x88 8.--11. 1. "PHY_RPTR_UPDATE_0,Offset in cycles from the dfi_rddata_en signal to release data from the entry FIFO for slice 0." newline hexmask.long.byte 0x88 0.--7. 1. "PHY_MASTER_DELAY_HALF_MEASURE_0,Defines the number of delay line elements to be considered in determing whether to lock to a half clock cycle in the data slice controller for slice 0." line.long 0x8C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_102," hexmask.long.byte 0x8C 16.--20. 1. "PHY_GTLVL_RESP_WAIT_CNT_0,Number of cycles + 4 to wait between dfi_rddata_en and the sampling of the DQS during gate training for slice 0. The valid range is 0x0 to 0xB." newline hexmask.long.byte 0x8C 8.--11. 1. "PHY_GTLVL_DLY_STEP_0,DQS target delay step size during gate training for slice 0." newline hexmask.long.byte 0x8C 0.--5. 1. "PHY_WRLVL_RESP_WAIT_CNT_0,Number of cycles to wait between dfi_wrlvl_strobe and the sampling of the DQs during write leveling for slice 0." line.long 0x90 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_103," hexmask.long.word 0x90 16.--25. 1. "PHY_GTLVL_FINAL_STEP_0,Final backup step delay used in gate training algorithm for slice 0." newline hexmask.long.word 0x90 0.--9. 1. "PHY_GTLVL_BACK_STEP_0,Interim backup step delay used in gate training algorithm for slice 0." line.long 0x94 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_104," hexmask.long.word 0x94 16.--24. 1. "PHY_WDQLVL_DM_SEARCH_RANGE_0,The dm target delay search range for non-lpddr4 DM training for slice 0." newline hexmask.long.byte 0x94 8.--11. 1. "PHY_WDQLVL_QTR_DLY_STEP_0,Defines the step granularity for the logic to use once an edge is found for slice 0. When this occurs the logic jumps back to the previous invalid value and uses this step size to determine a more accurate delay value." newline hexmask.long.byte 0x94 0.--7. 1. "PHY_WDQLVL_DLY_STEP_0,DQ target delay step size during write data leveling for slice 0." line.long 0x98 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_105," hexmask.long.byte 0x98 8.--11. 1. "PHY_RDLVL_DLY_STEP_0,DQS target delay step size during read leveling for slice 0." newline bitfld.long 0x98 0. "PHY_TOGGLE_PRE_SUPPORT_0,Support the toggle read preamble for LPDDR4 for slice 0." "0,1" line.long 0x9C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_106," hexmask.long.word 0x9C 0.--9. 1. "PHY_RDLVL_MAX_EDGE_0,The maximun rdlvl target delay search window for read eye training for slice 0." line.long 0xA0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_107," bitfld.long 0xA0 16.--17. "PHY_DATA_DC_INIT_DISABLE_0,Disable duty cycle adjust at initialization for slice 0." "0,1,2,3" newline bitfld.long 0xA0 8.--10. "PHY_WRPATH_GATE_TIMING_0,Write path clock gating timing for slice 0. it means additional clock number to write path clock gate" "0,1,2,3,4,5,6,7" newline bitfld.long 0xA0 0.--1. "PHY_WRPATH_GATE_DISABLE_0,Write path clock gating disable for slice 0. [0]: disable pull in wrdata_en; [1]: disable write path clock gating clock always on" "0,1,2,3" line.long 0xA4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_108," hexmask.long.word 0xA4 16.--26. 1. "PHY_DATA_DC_DQ_INIT_SLV_DELAY_0,Initial value of write DQ target delay for slice 0." newline hexmask.long.word 0xA4 0.--9. 1. "PHY_DATA_DC_DQS_INIT_SLV_DELAY_0,Initial value of write DQS target delay for slice 0." line.long 0xA8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_109," hexmask.long.byte 0xA8 24.--31. 1. "PHY_DATA_DC_DM_CLK_DIFF_THRSHLD_0,Clock measurement cell threshold offset for differential signals for slice 0." newline hexmask.long.byte 0xA8 16.--23. 1. "PHY_DATA_DC_DM_CLK_SE_THRSHLD_0,Clock measurement cell threshold offset for single ended signals for slice 0." newline bitfld.long 0xA8 8. "PHY_DATA_DC_WDQLVL_ENABLE_0,Enable duty cycle adjust during write DQ training for slice 0." "0,1" newline bitfld.long 0xA8 0. "PHY_DATA_DC_WRLVL_ENABLE_0,Enable duty cycle adjust during write leveling for slice 0." "0,1" line.long 0xAC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_110," hexmask.long.byte 0xAC 16.--20. 1. "PHY_RDDATA_EN_DLY_0,Number of cycles that the dfi_rddata_en signal is early for slice 0." newline hexmask.long.byte 0xAC 8.--14. 1. "PHY_MEAS_DLY_STEP_ENABLE_0,Data slice training step definition using phy_meas_dly_step_value for slice 0." newline hexmask.long.byte 0xAC 0.--6. 1. "PHY_WDQ_OSC_DELTA_0,Target delay offset that applies to a 1 bit change of dfi_wdq_osc_code for slice 0." line.long 0xB0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_111," hexmask.long 0xB0 0.--31. 1. "PHY_DQ_DM_SWIZZLE0_0,DQ/DM bit swizzling 0 for slice 0. Bits [3:0] inform the PHY which bit in {DM DQ]} map to DQ0 Bits [7:4] inform the PHY which bit in {DM DQ} map to DQ1 etc." line.long 0xB4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_112," hexmask.long.byte 0xB4 0.--3. 1. "PHY_DQ_DM_SWIZZLE1_0,DQ/DM bit swizzling 1 for slice 0. Bits [3:0] inform the PHY which bit in {DM DQ]} map to DM." line.long 0xB8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_113," hexmask.long.word 0xB8 16.--26. 1. "PHY_CLK_WRDQ1_SLAVE_DELAY_0,Write clock target delay setting for DQ1 for slice 0." newline hexmask.long.word 0xB8 0.--10. 1. "PHY_CLK_WRDQ0_SLAVE_DELAY_0,Write clock target delay setting for DQ0 for slice 0." line.long 0xBC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_114," hexmask.long.word 0xBC 16.--26. 1. "PHY_CLK_WRDQ3_SLAVE_DELAY_0,Write clock target delay setting for DQ3 for slice 0." newline hexmask.long.word 0xBC 0.--10. 1. "PHY_CLK_WRDQ2_SLAVE_DELAY_0,Write clock target delay setting for DQ2 for slice 0." line.long 0xC0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_115," hexmask.long.word 0xC0 16.--26. 1. "PHY_CLK_WRDQ5_SLAVE_DELAY_0,Write clock target delay setting for DQ5 for slice 0." newline hexmask.long.word 0xC0 0.--10. 1. "PHY_CLK_WRDQ4_SLAVE_DELAY_0,Write clock target delay setting for DQ4 for slice 0." line.long 0xC4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_116," hexmask.long.word 0xC4 16.--26. 1. "PHY_CLK_WRDQ7_SLAVE_DELAY_0,Write clock target delay setting for DQ7 for slice 0." newline hexmask.long.word 0xC4 0.--10. 1. "PHY_CLK_WRDQ6_SLAVE_DELAY_0,Write clock target delay setting for DQ6 for slice 0." line.long 0xC8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_117," hexmask.long.word 0xC8 16.--25. 1. "PHY_CLK_WRDQS_SLAVE_DELAY_0,Write clock target delay setting for DQS for slice 0." newline hexmask.long.word 0xC8 0.--10. 1. "PHY_CLK_WRDM_SLAVE_DELAY_0,Write clock target delay setting for DM for slice 0." line.long 0xCC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_118," hexmask.long.word 0xCC 8.--17. 1. "PHY_RDDQS_DQ0_RISE_SLAVE_DELAY_0,Rising edge read DQS target delay setting for DQ0 for slice 0." newline bitfld.long 0xCC 0.--1. "PHY_WRLVL_THRESHOLD_ADJUST_0,Write level threshold adjust value based on those thresholds for DQS for slice 0." "0,1,2,3" line.long 0xD0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_119," hexmask.long.word 0xD0 16.--25. 1. "PHY_RDDQS_DQ1_RISE_SLAVE_DELAY_0,Rising edge read DQS target delay setting for DQ1 for slice 0." newline hexmask.long.word 0xD0 0.--9. 1. "PHY_RDDQS_DQ0_FALL_SLAVE_DELAY_0,Falling edge read DQS target delay setting for DQ0 for slice 0." line.long 0xD4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_120," hexmask.long.word 0xD4 16.--25. 1. "PHY_RDDQS_DQ2_RISE_SLAVE_DELAY_0,Rising edge read DQS target delay setting for DQ2 for slice 0." newline hexmask.long.word 0xD4 0.--9. 1. "PHY_RDDQS_DQ1_FALL_SLAVE_DELAY_0,Falling edge read DQS target delay setting for DQ1 for slice 0." line.long 0xD8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_121," hexmask.long.word 0xD8 16.--25. 1. "PHY_RDDQS_DQ3_RISE_SLAVE_DELAY_0,Rising edge read DQS target delay setting for DQ3 for slice 0." newline hexmask.long.word 0xD8 0.--9. 1. "PHY_RDDQS_DQ2_FALL_SLAVE_DELAY_0,Falling edge read DQS target delay setting for DQ2 for slice 0." line.long 0xDC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_122," hexmask.long.word 0xDC 16.--25. 1. "PHY_RDDQS_DQ4_RISE_SLAVE_DELAY_0,Rising edge read DQS target delay setting for DQ4 for slice 0." newline hexmask.long.word 0xDC 0.--9. 1. "PHY_RDDQS_DQ3_FALL_SLAVE_DELAY_0,Falling edge read DQS target delay setting for DQ3 for slice 0." line.long 0xE0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_123," hexmask.long.word 0xE0 16.--25. 1. "PHY_RDDQS_DQ5_RISE_SLAVE_DELAY_0,Rising edge read DQS target delay setting for DQ5 for slice 0." newline hexmask.long.word 0xE0 0.--9. 1. "PHY_RDDQS_DQ4_FALL_SLAVE_DELAY_0,Falling edge read DQS target delay setting for DQ4 for slice 0." line.long 0xE4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_124," hexmask.long.word 0xE4 16.--25. 1. "PHY_RDDQS_DQ6_RISE_SLAVE_DELAY_0,Rising edge read DQS target delay setting for DQ6 for slice 0." newline hexmask.long.word 0xE4 0.--9. 1. "PHY_RDDQS_DQ5_FALL_SLAVE_DELAY_0,Falling edge read DQS target delay setting for DQ5 for slice 0." line.long 0xE8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_125," hexmask.long.word 0xE8 16.--25. 1. "PHY_RDDQS_DQ7_RISE_SLAVE_DELAY_0,Rising edge read DQS target delay setting for DQ7 for slice 0." newline hexmask.long.word 0xE8 0.--9. 1. "PHY_RDDQS_DQ6_FALL_SLAVE_DELAY_0,Falling edge read DQS target delay setting for DQ6 for slice 0." line.long 0xEC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_126," hexmask.long.word 0xEC 16.--25. 1. "PHY_RDDQS_DM_RISE_SLAVE_DELAY_0,Rising edge read DQS target delay setting for DM for slice 0." newline hexmask.long.word 0xEC 0.--9. 1. "PHY_RDDQS_DQ7_FALL_SLAVE_DELAY_0,Falling edge read DQS target delay setting for DQ7 for slice 0." line.long 0xF0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_127," hexmask.long.word 0xF0 16.--25. 1. "PHY_RDDQS_GATE_SLAVE_DELAY_0,Read DQS target delay setting for slice 0." newline hexmask.long.word 0xF0 0.--9. 1. "PHY_RDDQS_DM_FALL_SLAVE_DELAY_0,Falling edge read DQS target delay setting for DM for slice 0." line.long 0xF4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_128," hexmask.long.word 0xF4 16.--25. 1. "PHY_WRLVL_DELAY_EARLY_THRESHOLD_0,Write level delay threshold above which will be considered in previous cycle for slice 0." newline bitfld.long 0xF4 8.--10. "PHY_WRITE_PATH_LAT_ADD_0,Number of cycles to delay the incoming dfi_wrdata_en/dfi_wrdata signals for slice 0." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0xF4 0.--3. 1. "PHY_RDDQS_LATENCY_ADJUST_0,Number of cycles to delay the incoming dfi_rddata_en for read DQS gate generation for slice 0." line.long 0xF8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_129," bitfld.long 0xF8 16. "PHY_WRLVL_EARLY_FORCE_ZERO_0,Force the final write level delay value [that meets the early threshold] to 0 for slice 0." "0,1" newline hexmask.long.word 0xF8 0.--9. 1. "PHY_WRLVL_DELAY_PERIOD_THRESHOLD_0,Write level delay threshold below which will add a cycle of write path latency for slice 0." line.long 0xFC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_130," hexmask.long.byte 0xFC 16.--19. 1. "PHY_GTLVL_LAT_ADJ_START_0,Initial read DQS gate cycle delay from dfi_rddata_en during gate training for slice 0." newline hexmask.long.word 0xFC 0.--9. 1. "PHY_GTLVL_RDDQS_SLV_DLY_START_0,Initial read DQS gate target delay setting during gate training for slice 0." line.long 0x100 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_131," bitfld.long 0x100 24. "PHY_NTP_PASS_0,Indicates if No-topology training found a passing result for slice 0." "0,1" newline hexmask.long.byte 0x100 16.--19. 1. "PHY_NTP_WRLAT_START_0,Initial value for phy_write_path_lat_add for No-topology training and early threshold for slice 0." newline hexmask.long.word 0x100 0.--10. 1. "PHY_WDQLVL_DQDM_SLV_DLY_START_0,Initial DQ/DM target delay setting during write data leveling for slice 0." line.long 0x104 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_132," hexmask.long.word 0x104 0.--9. 1. "PHY_RDLVL_RDDQS_DQ_SLV_DLY_START_0,Read leveling starting value for the DQS/DQ target delay settings for slice 0." line.long 0x108 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_133," hexmask.long.byte 0x108 24.--31. 1. "PHY_DATA_DC_DQ2_CLK_ADJUST_0,Adjust value of Duty Cycle Adjuster for slice 0." newline hexmask.long.byte 0x108 16.--23. 1. "PHY_DATA_DC_DQ1_CLK_ADJUST_0,Adjust value of Duty Cycle Adjuster for slice 0." newline hexmask.long.byte 0x108 8.--15. 1. "PHY_DATA_DC_DQ0_CLK_ADJUST_0,Adjust value of Duty Cycle Adjuster for slice 0." newline hexmask.long.byte 0x108 0.--7. 1. "PHY_DATA_DC_DQS_CLK_ADJUST_0,Adjust value of Duty Cycle Adjuster for slice 0." line.long 0x10C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_134," hexmask.long.byte 0x10C 24.--31. 1. "PHY_DATA_DC_DQ6_CLK_ADJUST_0,Adjust value of Duty Cycle Adjuster for slice 0." newline hexmask.long.byte 0x10C 16.--23. 1. "PHY_DATA_DC_DQ5_CLK_ADJUST_0,Adjust value of Duty Cycle Adjuster for slice 0." newline hexmask.long.byte 0x10C 8.--15. 1. "PHY_DATA_DC_DQ4_CLK_ADJUST_0,Adjust value of Duty Cycle Adjuster for slice 0." newline hexmask.long.byte 0x10C 0.--7. 1. "PHY_DATA_DC_DQ3_CLK_ADJUST_0,Adjust value of Duty Cycle Adjuster for slice 0." line.long 0x110 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_135," hexmask.long.word 0x110 16.--31. 1. "PHY_DSLICE_PAD_BOOSTPN_SETTING_0,Setting for boost P/N of pad for slice 0." newline hexmask.long.byte 0x110 8.--15. 1. "PHY_DATA_DC_DM_CLK_ADJUST_0,Adjust value of Duty Cycle Adjuster for slice 0." newline hexmask.long.byte 0x110 0.--7. 1. "PHY_DATA_DC_DQ7_CLK_ADJUST_0,Adjust value of Duty Cycle Adjuster for slice 0." line.long 0x114 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_136," bitfld.long 0x114 16.--17. "PHY_DQS_FFE_0,TX_FFE setting for DQS pad for slice 0." "0,1,2,3" newline bitfld.long 0x114 8.--9. "PHY_DQ_FFE_0,TX_FFE setting for DQ/DM pad for slice 0." "0,1,2,3" newline hexmask.long.byte 0x114 0.--5. 1. "PHY_DSLICE_PAD_RX_CTLE_SETTING_0,Setting for RX ctle P/N of pad for slice 0." group.long 0x4400++0x2B line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_256," hexmask.long.word 0x0 16.--26. 1. "PHY_CLK_WR_BYPASS_SLAVE_DELAY_1,Write data clock bypass mode target delay setting for slice 1." newline hexmask.long.byte 0x0 8.--14. 1. "PHY_LP4_BOOT_PAD_DSLICE_IO_CFG_1,Controls PCLK/PARK pin for pad for slice 1 with boot frequency." newline bitfld.long 0x0 0.--2. "PHY_LP4_BOOT_RX_PCLK_CLK_SEL_1,RX_PCLK boot clock frequency selection for slice 1." "0,1,2,3,4,5,6,7" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_257," bitfld.long 0x4 24.--26. "PHY_WRITE_PATH_LAT_ADD_BYPASS_1,Number of cycles on bypass mode to delay the incoming dfi_wrdata_en/dfi_wrdata signals for slice 1." "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x4 8.--17. 1. "PHY_CLK_WRDQS_SLAVE_DELAY_BYPASS_1,Write DQS bypass mode target delay setting for slice 1." newline hexmask.long.byte 0x4 0.--3. 1. "PHY_IO_PAD_DELAY_TIMING_BYPASS_1,Feedback pad's OPAD and IPAD delay timing on bypass mode for slice 1." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_258," bitfld.long 0x8 24. "PHY_CLK_BYPASS_OVERRIDE_1,Bypass mode override setting for slice 1." "0,1" newline bitfld.long 0x8 16.--17. "PHY_BYPASS_TWO_CYC_PREAMBLE_1,Two_cycle_preamble for bypass mode for slice 1." "0,1,2,3" newline hexmask.long.word 0x8 0.--9. 1. "PHY_RDDQS_GATE_BYPASS_SLAVE_DELAY_1,Read DQS bypass mode target delay setting for slice 1." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_259," hexmask.long.byte 0xC 24.--29. 1. "PHY_SW_WRDQ3_SHIFT_1,Manual override of automatic half_cycle_shift/cycle_shift for write DQ3 for slice 1. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0xC 16.--21. 1. "PHY_SW_WRDQ2_SHIFT_1,Manual override of automatic half_cycle_shift/cycle_shift for write DQ2 for slice 1. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0xC 8.--13. 1. "PHY_SW_WRDQ1_SHIFT_1,Manual override of automatic half_cycle_shift/cycle_shift for write DQ1 for slice 1. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0xC 0.--5. 1. "PHY_SW_WRDQ0_SHIFT_1,Manual override of automatic half_cycle_shift/cycle_shift for write DQ0 for slice 1. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_260," hexmask.long.byte 0x10 24.--29. 1. "PHY_SW_WRDQ7_SHIFT_1,Manual override of automatic half_cycle_shift/cycle_shift for write DQ7 for slice 1. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0x10 16.--21. 1. "PHY_SW_WRDQ6_SHIFT_1,Manual override of automatic half_cycle_shift/cycle_shift for write DQ6 for slice 1. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0x10 8.--13. 1. "PHY_SW_WRDQ5_SHIFT_1,Manual override of automatic half_cycle_shift/cycle_shift for write DQ5 for slice 1. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0x10 0.--5. 1. "PHY_SW_WRDQ4_SHIFT_1,Manual override of automatic half_cycle_shift/cycle_shift for write DQ4 for slice 1. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_261," bitfld.long 0x14 24. "PHY_PER_CS_TRAINING_MULTICAST_EN_1,When set a register write will update parameters for all ranks at the same time in slice 1. Set to 1 to enable." "0,1" newline bitfld.long 0x14 16.--17. "PHY_PER_RANK_CS_MAP_1,Per-rank CS map for slice 1. Setting a bit uses that CS for the rank bit [0] uses CS0 bit [1] uses CS1 etc." "0,1,2,3" newline hexmask.long.byte 0x14 8.--11. 1. "PHY_SW_WRDQS_SHIFT_1,Manual override of automatic half_cycle_shift/cycle_shift for write DQS for slice 1. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bit [3] is the.." newline hexmask.long.byte 0x14 0.--5. 1. "PHY_SW_WRDM_SHIFT_1,Manual override of automatic half_cycle_shift/cycle_shift for write DM for slice 1. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_262," hexmask.long.byte 0x18 24.--28. 1. "PHY_LP4_BOOT_RDDATA_EN_TSEL_DLY_1,For LPDDR4 boot frequency the number of cycles that the dfi_rddata_en signal is earlier than necessary for TSEL enable generation for slice 1." newline hexmask.long.byte 0x18 16.--20. 1. "PHY_LP4_BOOT_RDDATA_EN_DLY_1,For LPDDR4 boot frequency the number of cycles that the dfi_rddata_en signal is early for slice 1." newline bitfld.long 0x18 8.--9. "PHY_LP4_BOOT_RDDATA_EN_IE_DLY_1,For LPDDR4 boot frequency the number of cycles that the dfi_rddata_en signal is earlier than necessary for input enable generation for slice 1." "0,1,2,3" newline bitfld.long 0x18 0. "PHY_PER_CS_TRAINING_INDEX_1,For per-rank training indicates which rank's paramters are read/written for slice 1." "0,1" line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_263," hexmask.long.byte 0x1C 24.--28. 1. "PHY_LP4_BOOT_RDDATA_EN_OE_DLY_1,For LPDDR4 boot frequency the number of cycles that the dfi_rddata_en signal is earlier than necessary for extended OE generation for slice 1." newline bitfld.long 0x1C 16.--17. "PHY_LP4_BOOT_WRPATH_GATE_DISABLE_1,For LPDDR4 boot frequency write path clock gating disable for slice 1. Bit [0]: disable pull in wrdata_en; Bit [1]: disable write path clock gating clock always on" "0,1,2,3" newline hexmask.long.byte 0x1C 8.--11. 1. "PHY_LP4_BOOT_RDDQS_LATENCY_ADJUST_1,For LPDDR4 boot frequency the number of cycles to delay the incoming dfi_rddata_en for read DQS gate generation for slice 1." newline hexmask.long.byte 0x1C 0.--3. 1. "PHY_LP4_BOOT_RPTR_UPDATE_1,For LPDDR4 boot frequency the offset in cycles from the dfi_rddata_en signal to releasing data from the entry FIFO for slice 1." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_264," bitfld.long 0x20 24. "PHY_LPBK_DFX_TIMEOUT_EN_1,Loopback read only test timeout mechanism enable for slice 1." "0,1" newline hexmask.long.word 0x20 8.--16. 1. "PHY_LPBK_CONTROL_1,Loopback control bits for slice 1." newline bitfld.long 0x20 0.--1. "PHY_CTRL_LPBK_EN_1,Loopback control en for slice 1." "0,1,2,3" line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_265," bitfld.long 0x24 0. "PHY_GATE_DELAY_COMP_DISABLE_1,use the control whether to compensate half_cycle when gate_target_delay is larger than half_cycle for the gate close for slice 1." "0,1" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_266," hexmask.long 0x28 0.--31. 1. "PHY_AUTO_TIMING_MARGIN_CONTROL_1,Auto timing marging control bits for slice 1." rgroup.long 0x442C++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_267," hexmask.long 0x0 0.--27. 1. "PHY_AUTO_TIMING_MARGIN_OBS_1,Observation register for the auto_timing_margin for slice 1. READ-ONLY" group.long 0x4430++0x17 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_268," hexmask.long.byte 0x0 24.--30. 1. "PHY_PRBS_PATTERN_START_1,PRBS7 start pattern for slice 1." newline bitfld.long 0x0 16. "PHY_PDA_MODE_EN_1,When set to 1 the invalid DQs will be driven by the dfi_wrdata to make sure the tpda_s and tpda_h's timing is meet for slice 1." "0,1" newline hexmask.long.word 0x0 0.--8. 1. "PHY_DQ_IDLE_1,When set to 1 the inavlid DQ will be driven to high when set to 0 the invalid DQ will be driven to low for slice 1." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_269," bitfld.long 0x4 24. "PHY_RDLVL_MULTI_PATT_RST_DISABLE_1,Read Leveling read level windows disable reset for slice 1." "0,1" newline bitfld.long 0x4 16. "PHY_RDLVL_MULTI_PATT_ENABLE_1,Read Leveling Multi-pattern enable for slice 1." "0,1" newline hexmask.long.word 0x4 0.--8. 1. "PHY_PRBS_PATTERN_MASK_1,PRBS7 mask signal for slice 1." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_270," hexmask.long.word 0x8 16.--25. 1. "PHY_RDDQS_DQ_BYPASS_SLAVE_DELAY_1,Read DQS data clock bypass mode target delay setting for slice 1." newline hexmask.long.byte 0x8 8.--14. 1. "PHY_VREF_TRAIN_OBS_1,Observation register for best vref value for slice 1. READ-ONLY" newline hexmask.long.byte 0x8 0.--5. 1. "PHY_VREF_INITIAL_STEPSIZE_1,Data slice initial VREF training step size for slice 1." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_271," hexmask.long.word 0xC 16.--24. 1. "PHY_GATE_SMPL1_SLAVE_DELAY_1,Number of cycles to delay the read DQS gate signal to generate gate1 signal for on-the-fly read DQS training for slice 1." newline bitfld.long 0xC 8. "SC_PHY_SNAP_OBS_REGS_1,Initiates a snapshot of the internal observation registers for slice 1. Set to 1 to trigger. WRITE-ONLY" "0,1" newline hexmask.long.byte 0xC 0.--3. 1. "PHY_GATE_ERROR_DELAY_SELECT_1,Number of cycles to wait for the DQS gate to close before flagging an error for slice 1." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_272," hexmask.long.word 0x10 16.--24. 1. "PHY_GATE_SMPL2_SLAVE_DELAY_1,Number of cycles to delay the read DQS gate signal to generate gate2 signal for on-the-fly read DQS training for slice 1." newline bitfld.long 0x10 8.--10. "PHY_MEM_CLASS_1,Indicates the type of DRAM for slice 1. 0 for DDR3 1 for DDR4 2 for DDR5 4 for LPDDR2 5 for LPDDR3. 6 for LPDDR4" "0,1,2,3,4,5,6,7" newline bitfld.long 0x10 0. "PHY_LPDDR_1,Adds a cycle of delay for the slice 1 to match the address slice. Set to 1 to add a cycle" "0,1" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_273," bitfld.long 0x14 0.--1. "ON_FLY_GATE_ADJUST_EN_1,Control the on-the-fly gate adjustment for slice 1." "0,1,2,3" rgroup.long 0x4448++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_274," hexmask.long 0x0 0.--31. 1. "PHY_GATE_TRACKING_OBS_1,Report the on-the-fly gate measurement result for slice 1. READ-ONLY" group.long 0x444C++0x6B line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_275," bitfld.long 0x0 8.--9. "PHY_LP4_PST_AMBLE_1,Controls the read postamble extension for LPDDR4 for slice 1." "0,1,2,3" newline bitfld.long 0x0 0. "PHY_DFI40_POLARITY_1,Indicates the dfi_wrdata_cs_n and dfi_rddata_cs_n is low active or high active for slice 1." "0,1" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_276," hexmask.long 0x4 0.--31. 1. "PHY_RDLVL_PATT8_1,Read leveling pattern 8 data for slice 1." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_277," hexmask.long 0x8 0.--31. 1. "PHY_RDLVL_PATT9_1,Read leveling pattern 9 data for slice 1." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_278," hexmask.long 0xC 0.--31. 1. "PHY_RDLVL_PATT10_1,Read leveling pattern 10 data for slice 1." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_279," hexmask.long 0x10 0.--31. 1. "PHY_RDLVL_PATT11_1,Read leveling pattern 11 data for slice 1." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_280," hexmask.long 0x14 0.--31. 1. "PHY_RDLVL_PATT12_1,Read leveling pattern 12 data for slice 1." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_281," hexmask.long 0x18 0.--31. 1. "PHY_RDLVL_PATT13_1,Read leveling pattern 13 data for slice 1." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_282," hexmask.long 0x1C 0.--31. 1. "PHY_RDLVL_PATT14_1,Read leveling pattern 14 data for slice 1." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_283," hexmask.long 0x20 0.--31. 1. "PHY_RDLVL_PATT15_1,Read leveling pattern 15 data for slice 1." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_284," bitfld.long 0x24 24.--26. "PHY_RDDQ_ENC_OBS_SELECT_1,Select value to map the internal read DQ target delay encoded settings to the accessible read DQ encoded target delay observation register for slice 1." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x24 16.--19. 1. "PHY_MASTER_DLY_LOCK_OBS_SELECT_1,Select value to map the internal controller delay observation registers to the accessible controller delay observation register for slice 1." newline bitfld.long 0x24 8. "PHY_SW_FIFO_PTR_RST_DISABLE_1,Disables automatic reset of the read entry FIFO pointers for slice 1. Set to 1 to disable automatic resets." "0,1" newline bitfld.long 0x24 0.--2. "PHY_SLAVE_LOOP_CNT_UPDATE_1,Reserved for future use for slice 1." "0,1,2,3,4,5,6,7" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_285," hexmask.long.byte 0x28 24.--27. 1. "PHY_FIFO_PTR_OBS_SELECT_1,Select value to map the internal read entry FIFO read/write pointers to the accessible read entry FIFO pointer observation register for slice 1." newline hexmask.long.byte 0x28 16.--19. 1. "PHY_WR_SHIFT_OBS_SELECT_1,Select value to map the internal write DQ/DQS automatic cycle/half_cycle shift settings to the accessible write DQ/DQS shift observation register for slice 1." newline hexmask.long.byte 0x28 8.--11. 1. "PHY_WR_ENC_OBS_SELECT_1,Select value to map the internal write DQ target delay encoded settings to the accessible write DQ encoded target delay observation register for slice 1." newline hexmask.long.byte 0x28 0.--3. 1. "PHY_RDDQS_DQ_ENC_OBS_SELECT_1,Select value to map the internal read DQS DQ rise/fall target delay encoded settings to the accessible read DQS DQ rise/fall encoded target delay observation registers for slice 1." line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_286," hexmask.long.byte 0x2C 24.--29. 1. "PHY_WRLVL_CAPTURE_CNT_1,Number of samples to take at each DQS target delay setting during write leveling for slice 1." newline bitfld.long 0x2C 16.--17. "PHY_WRLVL_ALGO_1,Write leveling algorithm selection for slice 1." "0,1,2,3" newline bitfld.long 0x2C 8. "SC_PHY_LVL_DEBUG_CONT_1,Allows the leveling state machine to advance [when in debug mode] for slice 1. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0x2C 0. "PHY_LVL_DEBUG_MODE_1,Enables leveling debug mode for slice 1. Set to 1 to enable." "0,1" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_287," hexmask.long.byte 0x30 24.--27. 1. "PHY_GTLVL_UPDT_WAIT_CNT_1,Number of cycles + 4 to wait after changing DQS target delay setting during gate training for slice 1. The valid range is 0x0 to 0xB." newline hexmask.long.byte 0x30 16.--21. 1. "PHY_GTLVL_CAPTURE_CNT_1,Number of samples to take at each DQS target delay setting during gate training for slice 1." newline hexmask.long.byte 0x30 8.--15. 1. "PHY_DQ_MASK_1,For ECC slice should set this register to do DQ bit mask for slice 1." newline hexmask.long.byte 0x30 0.--3. 1. "PHY_WRLVL_UPDT_WAIT_CNT_1,Number of cycles to wait after changing DQS target delay setting during write leveling for slice 1." line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_288," hexmask.long.byte 0x34 24.--28. 1. "PHY_RDLVL_RDDQS_DQ_OBS_SELECT_1,Select value to map an individual DQ data window leading/trailing edge to the leading/trailing edge observation registers during read leveling for slice 1." newline bitfld.long 0x34 16.--17. "PHY_RDLVL_OP_MODE_1,Read leveling algorithm select for slice 1. Clear to 0 to move linearly from left to right. Set to 1 to start inside the window move left and then move right." "0,1,2,3" newline hexmask.long.byte 0x34 8.--11. 1. "PHY_RDLVL_UPDT_WAIT_CNT_1,Number of cycles to wait after changing DQS target delay setting during read leveling for slice 1." newline hexmask.long.byte 0x34 0.--5. 1. "PHY_RDLVL_CAPTURE_CNT_1,Number of samples to take at each DQS target delay setting during read leveling for slice 1." line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_289," hexmask.long.tbyte 0x38 8.--25. 1. "PHY_RDLVL_DATA_SWIZZLE_1,Read level bit swizzling for DDR4 operation for slice 1." newline hexmask.long.byte 0x38 0.--7. 1. "PHY_RDLVL_DATA_MASK_1,Per-bit mask for read leveling for slice 1. If all bits are not used only 1 bit should be cleared to 0." line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_290," bitfld.long 0x3C 16.--18. "PHY_WDQLVL_PATT_1,Defines the training patterns to be used during the write data leveling sequence for slice 1. Bit [0] corresponds to the LFSR data training pattern. Bit [1] corresponds to the CLK data training pattern. Bit [2] corresponds to.." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x3C 8.--13. 1. "PHY_WDQLVL_BURST_CNT_1,Defines the write/read burst length in bytes during the write data leveling sequence for slice 1." newline hexmask.long.byte 0x3C 0.--7. 1. "PHY_WDQLVL_CLK_JITTER_TOLERANCE_1,Defines the minimum gap requirment for the LE and TE window for slice 1." line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_291," hexmask.long.byte 0x40 24.--27. 1. "PHY_WDQLVL_DQDM_OBS_SELECT_1,Select value to map an individual DQ data window leading/trailing edge to the leading/trailing edge observation registers during write data leveling for slice 1." newline hexmask.long.byte 0x40 16.--19. 1. "PHY_WDQLVL_UPDT_WAIT_CNT_1,Number of cycles to wait after changing the DQ target delay setting during write data leveling for slice 1." newline hexmask.long.word 0x40 0.--10. 1. "PHY_WDQLVL_DQDM_SLV_DLY_JUMP_OFFSET_1,Defines the target delay jump value when the TE window is found and begin to serch TE window for slice 1." line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_292," bitfld.long 0x44 24. "SC_PHY_WDQLVL_CLR_PREV_RESULTS_1,Clears the previous result value to allow a clean slate comparison for future write DQ leveling results for slice 1. Set to 1 to trigger. WRITE-ONLY" "0,1" newline hexmask.long.byte 0x44 16.--19. 1. "PHY_WDQLVL_DM_DLY_STEP_1,The target delay line step for DM training for slice 1." newline hexmask.long.byte 0x44 8.--15. 1. "PHY_WDQLVL_DQ_SLV_DELTA_1,The margin for DQ0-7's LE and TE dealy to make sure the DQ bits can work during DM training for slice 1." newline hexmask.long.byte 0x44 0.--7. 1. "PHY_WDQLVL_PERIODIC_OBS_SELECT_1,Select value to map specific information during or post periodic write data leveling for slice 1." line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_293," hexmask.long.word 0x48 0.--8. 1. "PHY_WDQLVL_DATADM_MASK_1,Per-bit mask for write data leveling for slice 1. Set to 1 to mask any bit from the leveling process." line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_294," hexmask.long 0x4C 0.--31. 1. "PHY_USER_PATT0_1,User-defined pattern to be used during write data leveling for slice 1. This register holds the bytes 3 to 0 written/read from device." line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_295," hexmask.long 0x50 0.--31. 1. "PHY_USER_PATT1_1,User-defined pattern to be used during write data leveling for slice 1. This register holds the bytes 7 to 4 written/read from device." line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_296," hexmask.long 0x54 0.--31. 1. "PHY_USER_PATT2_1,User-defined pattern to be used during write data leveling for slice 1. This register holds the bytes 11 to 8 written/read from device." line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_297," hexmask.long 0x58 0.--31. 1. "PHY_USER_PATT3_1,User-defined pattern to be used during write data leveling for slice 1. This register holds the bytes 15 to 12 written/read from device." line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_298," bitfld.long 0x5C 16. "PHY_NTP_MULT_TRAIN_1,Control for single pass only No-Topology training for slice 1." "0,1" newline hexmask.long.word 0x5C 0.--15. 1. "PHY_USER_PATT4_1,User-defined pattern to be used during write data leveling for slice 1. This register holds the DM bit for the 15 to 0 DQ written/read from device." line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_299," hexmask.long.word 0x60 16.--25. 1. "PHY_NTP_PERIOD_THRESHOLD_1,Threshold Criteria of period threshold after No-Topology training is completed for slice 1." newline hexmask.long.word 0x60 0.--9. 1. "PHY_NTP_EARLY_THRESHOLD_1,Threshold Criteria of early threshold after No-Topology training is completed for slice 1." line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_300," hexmask.long.word 0x64 16.--25. 1. "PHY_NTP_PERIOD_THRESHOLD_MAX_1,Maximum Threshold that phy_clk_wrdqs_target_delay could cross boundary to set period threshold/early threshold after No-Topology training is completed for slice 1." newline hexmask.long.word 0x64 0.--9. 1. "PHY_NTP_PERIOD_THRESHOLD_MIN_1,Minimum Threshold that phy_clk_wrdqs_target_delay could cross boundary to set period threshold/early threshold after No-Topology training is completed for slice 1." line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_301," hexmask.long.byte 0x68 16.--23. 1. "PHY_FIFO_PTR_OBS_1,Observation register containing read entry FIFO pointers for slice 1. READ-ONLY" newline hexmask.long.byte 0x68 8.--13. 1. "SC_PHY_MANUAL_CLEAR_1,Manual reset/clear of internal logic for slice 1. Bit [0] initiates manual setup of the read DQS gate. Bit [1] is reset of read entry FIFO pointers. Bit [2] is reset of controller delay min/max lock values. Bit [3] is manual reset.." newline bitfld.long 0x68 0. "PHY_CALVL_VREF_DRIVING_SLICE_1,Indicates if slice 1 is used to drive the VREF value to the device during CA training." "0,1" rgroup.long 0x44B8++0x43 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_302," hexmask.long 0x0 0.--31. 1. "PHY_LPBK_RESULT_OBS_1,Observation register containing loopback status/results for slice 1. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_303," hexmask.long.word 0x4 16.--26. 1. "PHY_MASTER_DLY_LOCK_OBS_1,Observation register containing controller delay results for slice 1. READ-ONLY" newline hexmask.long.word 0x4 0.--15. 1. "PHY_LPBK_ERROR_COUNT_OBS_1,Observation register containing total number of loopback error data for slice 1. READ-ONLY" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_304," hexmask.long.byte 0x8 24.--31. 1. "PHY_RDDQS_DQ_RISE_ADDER_SLV_DLY_ENC_OBS_1,Observation register containing read DQS DQ rising edge adder target delay encoded value for slice 1. READ-ONLY" newline hexmask.long.byte 0x8 16.--23. 1. "PHY_MEAS_DLY_STEP_VALUE_1,Observation register containing fraction of the cycle in 1 delay element numerator with demominator of 512 for slice 1. READ-ONLY" newline hexmask.long.byte 0x8 8.--14. 1. "PHY_RDDQS_BASE_SLV_DLY_ENC_OBS_1,Observation register containing read DQS base target delay encoded value for slice 1. READ-ONLY" newline hexmask.long.byte 0x8 0.--6. 1. "PHY_RDDQ_SLV_DLY_ENC_OBS_1,Observation register containing read DQ target delay encoded values for slice 1. READ-ONLY" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_305," hexmask.long.byte 0xC 24.--30. 1. "PHY_WRDQS_BASE_SLV_DLY_ENC_OBS_1,Observation register containing write DQS base target delay encoded value for slice 1. READ-ONLY" newline hexmask.long.word 0xC 8.--18. 1. "PHY_RDDQS_GATE_SLV_DLY_ENC_OBS_1,Observation register containing read DQS gate target delay encoded value for slice 1. READ-ONLY" newline hexmask.long.byte 0xC 0.--7. 1. "PHY_RDDQS_DQ_FALL_ADDER_SLV_DLY_ENC_OBS_1,Observation register containing read DQS DQ falling edge adder target delay encoded value for slice 1. READ-ONLY" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_306," bitfld.long 0x10 16.--18. "PHY_WR_SHIFT_OBS_1,Observation register containing automatic half cycle and cycle shift values for slice 1. READ-ONLY" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x10 8.--15. 1. "PHY_WR_ADDER_SLV_DLY_ENC_OBS_1,Observation register containing write adder target delay encoded value for slice 1. READ-ONLY" newline hexmask.long.byte 0x10 0.--7. 1. "PHY_WRDQ_BASE_SLV_DLY_ENC_OBS_1,Observation register containing write DQ base target delay encoded value for slice 1. READ-ONLY" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_307," hexmask.long.word 0x14 16.--25. 1. "PHY_WRLVL_HARD1_DELAY_OBS_1,Observation register containing write leveling first hard 1 DQS target delay for slice 1. READ-ONLY" newline hexmask.long.word 0x14 0.--9. 1. "PHY_WRLVL_HARD0_DELAY_OBS_1,Observation register containing write leveling last hard 0 DQS target delay for slice 1. READ-ONLY" line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_308," hexmask.long.tbyte 0x18 0.--20. 1. "PHY_WRLVL_STATUS_OBS_1,Observation register containing write leveling status for slice 1. READ-ONLY" line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_309," hexmask.long.word 0x1C 16.--25. 1. "PHY_GATE_SMPL2_SLV_DLY_ENC_OBS_1,Observation register containing gate sample2 target delay encoded values for slice 1. READ-ONLY" newline hexmask.long.word 0x1C 0.--9. 1. "PHY_GATE_SMPL1_SLV_DLY_ENC_OBS_1,Observation register containing gate sample1 target delay encoded values for slice 1. READ-ONLY" line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_310," hexmask.long.word 0x20 16.--29. 1. "PHY_GTLVL_HARD0_DELAY_OBS_1,Observation register containing gate training first hard 0 DQS target delay for slice 1. READ-ONLY" newline hexmask.long.word 0x20 0.--15. 1. "PHY_WRLVL_ERROR_OBS_1,Observation register containing write leveling error status for slice 1. READ-ONLY" line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_311," hexmask.long.word 0x24 0.--13. 1. "PHY_GTLVL_HARD1_DELAY_OBS_1,Observation register containing gate training last hard 1 DQS target delay for slice 1. READ-ONLY" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_312," hexmask.long.tbyte 0x28 0.--17. 1. "PHY_GTLVL_STATUS_OBS_1,Observation register containing gate training status for slice 1. READ-ONLY" line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_313," hexmask.long.word 0x2C 16.--25. 1. "PHY_RDLVL_RDDQS_DQ_TE_DLY_OBS_1,Observation register containing read leveling data window trailing edge target delay setting for slice 1. READ-ONLY" newline hexmask.long.word 0x2C 0.--9. 1. "PHY_RDLVL_RDDQS_DQ_LE_DLY_OBS_1,Observation register containing read leveling data window leading edge target delay setting for slice 1. READ-ONLY" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_314," bitfld.long 0x30 0.--1. "PHY_RDLVL_RDDQS_DQ_NUM_WINDOWS_OBS_1,Observation register containing read leveling number of windows found for slice 1. READ-ONLY" "0,1,2,3" line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_315," hexmask.long 0x34 0.--31. 1. "PHY_RDLVL_STATUS_OBS_1,Observation register containing read leveling status for slice 1. READ-ONLY" line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_316," hexmask.long.word 0x38 16.--26. 1. "PHY_WDQLVL_DQDM_TE_DLY_OBS_1,Observation register containing write data leveling data window trailing edge target delay setting for slice 1. READ-ONLY" newline hexmask.long.word 0x38 0.--10. 1. "PHY_WDQLVL_DQDM_LE_DLY_OBS_1,Observation register containing write data leveling data window leading edge target delay setting for slice 1. READ-ONLY" line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_317," hexmask.long 0x3C 0.--31. 1. "PHY_WDQLVL_STATUS_OBS_1,Observation register containing write data leveling status for slice 1. READ-ONLY" line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_318," hexmask.long 0x40 0.--31. 1. "PHY_WDQLVL_PERIODIC_OBS_1,Observation register containing periodic write data leveling status for slice 1. READ-ONLY" group.long 0x44FC++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_319," hexmask.long 0x0 0.--30. 1. "PHY_DDL_MODE_1,DDL mode for slice 1." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_320," hexmask.long.byte 0x4 0.--5. 1. "PHY_DDL_MASK_1,DDL mask for slice 1." rgroup.long 0x4504++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_321," hexmask.long 0x0 0.--31. 1. "PHY_DDL_TEST_OBS_1,DDL test observation for slice 1. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_322," hexmask.long 0x4 0.--31. 1. "PHY_DDL_TEST_MSTR_DLY_OBS_1,DDL test observation delays for slice 1 controller DDL. READ-ONLY" group.long 0x450C++0x117 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_323," hexmask.long.word 0x0 16.--24. 1. "PHY_RX_CAL_DQ0_1,RX Calibration codes for DQ0 for slice 1. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline bitfld.long 0x0 8. "PHY_LP4_WDQS_OE_EXTEND_1,LPDDR4 write preamble extension enable for slice 1." "0,1" newline hexmask.long.byte 0x0 0.--7. 1. "PHY_DDL_TRACK_UPD_THRESHOLD_1,Specify threshold value for PHY init update tracking for slice 1." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_324," hexmask.long.word 0x4 16.--24. 1. "PHY_RX_CAL_DQ2_1,RX Calibration codes for DQ2 for slice 1. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline hexmask.long.word 0x4 0.--8. 1. "PHY_RX_CAL_DQ1_1,RX Calibration codes for DQ1 for slice 1. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_325," hexmask.long.word 0x8 16.--24. 1. "PHY_RX_CAL_DQ4_1,RX Calibration codes for DQ4 for slice 1. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline hexmask.long.word 0x8 0.--8. 1. "PHY_RX_CAL_DQ3_1,RX Calibration codes for DQ3 for slice 1. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_326," hexmask.long.word 0xC 16.--24. 1. "PHY_RX_CAL_DQ6_1,RX Calibration codes for DQ6 for slice 1. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline hexmask.long.word 0xC 0.--8. 1. "PHY_RX_CAL_DQ5_1,RX Calibration codes for DQ5 for slice 1. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_327," hexmask.long.word 0x10 0.--8. 1. "PHY_RX_CAL_DQ7_1,RX Calibration codes for DQ7 for slice 1. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_328," hexmask.long.tbyte 0x14 0.--17. 1. "PHY_RX_CAL_DM_1,RX Calibration codes for DM for slice 1. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_329," hexmask.long.word 0x18 16.--24. 1. "PHY_RX_CAL_FDBK_1,RX Calibration codes for FDBK for slice 1. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline hexmask.long.word 0x18 0.--8. 1. "PHY_RX_CAL_DQS_1,RX Calibration codes for DQS for slice 1. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_330," hexmask.long.byte 0x1C 24.--31. 1. "PHY_DATA_DC_CAL_SAMPLE_WAIT_1,Determines number of cycles to wait for each sample for slice 1." newline hexmask.long.byte 0x1C 16.--20. 1. "PHY_STATIC_TOG_DISABLE_1,Control to disable toggle during static activity for slice 1. bit0: Write path delay line disable; bit1: Read path delay line disable; bit2: Read data path disable; bit3: clk_phy disable; bit4: controller delay line disable." newline hexmask.long.word 0x1C 0.--10. 1. "PHY_PAD_RX_BIAS_EN_1,Controls RX_BIAS_EN pin for each pad for slice 1." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_331," hexmask.long.byte 0x20 24.--31. 1. "PHY_DATA_DC_ADJUST_SAMPLE_CNT_1,Duty cycle adjust sample count for slice 1." newline hexmask.long.byte 0x20 16.--21. 1. "PHY_DATA_DC_ADJUST_START_1,Duty cycle adjust starting value for slice 1." newline bitfld.long 0x20 8.--9. "PHY_DATA_DC_WEIGHT_1,Determines weight of average calculating for slice 1." "0,1,2,3" newline hexmask.long.byte 0x20 0.--7. 1. "PHY_DATA_DC_CAL_TIMEOUT_1,Determines timeout number of iteration for slice 1." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_332," bitfld.long 0x24 24. "PHY_DATA_DC_CAL_START_1,Manual trigger for DCC for slice 1." "0,1" newline bitfld.long 0x24 16. "PHY_DATA_DC_CAL_POLARITY_1,Calibration polarity for slice 1." "0,1" newline bitfld.long 0x24 8. "PHY_DATA_DC_ADJUST_DIRECT_1,Adjust direction for slice 1." "0,1" newline hexmask.long.byte 0x24 0.--7. 1. "PHY_DATA_DC_ADJUST_THRSHLD_1,Duty cycle adjust threshold around the mid-point for slice 1." line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_333," bitfld.long 0x28 24. "PHY_RDPATH_GATE_DISABLE_1,Data slice read path power reduction disable for slice 1." "0,1" newline bitfld.long 0x28 16. "PHY_SLV_DLY_CTRL_GATE_DISABLE_1,Data slice slv_dly_control block power reduction disable for slice 1." "0,1" newline bitfld.long 0x28 8.--10. "PHY_FDBK_PWR_CTRL_1,Shutoff gate feedback IO to reduce power for slice 1." "0,1,2,3,4,5,6,7" newline bitfld.long 0x28 0.--1. "PHY_DATA_DC_SW_RANK_1,Rank selection for software based duty cycle correction for slice 1." "0,1,2,3" line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_334," bitfld.long 0x2C 8. "PHY_SLICE_PWR_RDC_DISABLE_1,Data slice power reduction disable for slice 1." "0,1" newline bitfld.long 0x2C 0. "PHY_DCC_RXCAL_CTRL_GATE_DISABLE_1,Data slice DCC and RX_CAL block power reduction disable for slice 1." "0,1" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_335," bitfld.long 0x30 24.--26. "PHY_DQS_TSEL_ENABLE_1,Operation type tsel enables for DQS signals for slice 1. Bit [0] enables tsel_en during read cycles. Bit [1] enables tsel_en during write cycles. Bit [2] enables tsel_en during idle cycles. Set each bit to 1 to enable." "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x30 8.--23. 1. "PHY_DQ_TSEL_SELECT_1,Operation type tsel select values for DQ/DM signals for slice 1." newline bitfld.long 0x30 0.--2. "PHY_DQ_TSEL_ENABLE_1,Operation type tsel enables for DQ/DM signals for slice 1. Bit [0] enables tsel_en during read cycles. Bit [1] enables tsel_en during write cycles. Bit [2] enables tsel_en during idle cycles. Set each bit to 1 to enable." "0,1,2,3,4,5,6,7" line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_336," hexmask.long.byte 0x34 24.--30. 1. "PHY_VREF_INITIAL_START_POINT_1,Data slice initial VREF training start value for slice 1." newline bitfld.long 0x34 16.--17. "PHY_TWO_CYC_PREAMBLE_1,2 cycle preamble support for slice 1. Bit [0] controls the 2 cycle read preamble. Bit [1] controls the 2 cycle write preamble. Set each bit to 1 to enable." "0,1,2,3" newline hexmask.long.word 0x34 0.--15. 1. "PHY_DQS_TSEL_SELECT_1,Operation type tsel select values for DQS signals for slice 1." line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_337," hexmask.long.byte 0x38 24.--31. 1. "PHY_NTP_WDQ_STEP_SIZE_1,Step size of WR DQ target delay during No-Topology training for slice 1." newline bitfld.long 0x38 16. "PHY_NTP_TRAIN_EN_1,Enable for No-Topology training for slice 1." "0,1" newline bitfld.long 0x38 8.--9. "PHY_VREF_TRAINING_CTRL_1,Data slice vref training enable control for slice 1." "0,1,2,3" newline hexmask.long.byte 0x38 0.--6. 1. "PHY_VREF_INITIAL_STOP_POINT_1,Data slice initial VREF training stop value for slice 1." line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_338," hexmask.long.word 0x3C 16.--26. 1. "PHY_NTP_WDQ_STOP_1,End of WR DQ target delay in No-Topology training for slice 1." newline hexmask.long.word 0x3C 0.--10. 1. "PHY_NTP_WDQ_START_1,Starting WR DQ target delay in No-Topology training for slice 1." line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_339," bitfld.long 0x40 24. "PHY_SW_WDQLVL_DVW_MIN_EN_1,SW override to enable use of PHY_WDQLVL_DVW_MIN for slice 1." "0,1" newline hexmask.long.word 0x40 8.--17. 1. "PHY_WDQLVL_DVW_MIN_1,Minimum data valid window across DQs and ranks for slice 1." newline hexmask.long.byte 0x40 0.--7. 1. "PHY_NTP_WDQ_BIT_EN_1,Enable Bit for WR DQ during No-Topology training for slice 1." line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_340," hexmask.long.byte 0x44 24.--28. 1. "PHY_PAD_RX_DCD_0_1,Controls RX_DCD pin for each pad for slice 1." newline hexmask.long.byte 0x44 16.--20. 1. "PHY_PAD_TX_DCD_1,Controls TX_DCD pin for each pad for slice 1." newline hexmask.long.byte 0x44 8.--11. 1. "PHY_FAST_LVL_EN_1,Enable for fast multi-pattern window search for slice 1." newline hexmask.long.byte 0x44 0.--5. 1. "PHY_WDQLVL_PER_START_OFFSET_1,Peridic training start point offset for slice 1." line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_341," hexmask.long.byte 0x48 24.--28. 1. "PHY_PAD_RX_DCD_4_1,Controls RX_DCD pin for each pad for slice 1." newline hexmask.long.byte 0x48 16.--20. 1. "PHY_PAD_RX_DCD_3_1,Controls RX_DCD pin for each pad for slice 1." newline hexmask.long.byte 0x48 8.--12. 1. "PHY_PAD_RX_DCD_2_1,Controls RX_DCD pin for each pad for slice 1." newline hexmask.long.byte 0x48 0.--4. 1. "PHY_PAD_RX_DCD_1_1,Controls RX_DCD pin for each pad for slice 1." line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_342," hexmask.long.byte 0x4C 24.--28. 1. "PHY_PAD_DM_RX_DCD_1,Controls RX_DCD pin for dm pad for slice 1." newline hexmask.long.byte 0x4C 16.--20. 1. "PHY_PAD_RX_DCD_7_1,Controls RX_DCD pin for each pad for slice 1." newline hexmask.long.byte 0x4C 8.--12. 1. "PHY_PAD_RX_DCD_6_1,Controls RX_DCD pin for each pad for slice 1." newline hexmask.long.byte 0x4C 0.--4. 1. "PHY_PAD_RX_DCD_5_1,Controls RX_DCD pin for each pad for slice 1." line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_343," hexmask.long.byte 0x50 16.--22. 1. "PHY_PAD_DSLICE_IO_CFG_1,Controls PCLK/PARK pin for pad for slice 1." newline hexmask.long.byte 0x50 8.--12. 1. "PHY_PAD_FDBK_RX_DCD_1,Controls RX_DCD pin for fdbk pad for slice 1." newline hexmask.long.byte 0x50 0.--4. 1. "PHY_PAD_DQS_RX_DCD_1,Controls RX_DCD pin for dqs pad for slice 1." line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_344," hexmask.long.word 0x54 16.--25. 1. "PHY_RDDQ1_SLAVE_DELAY_1,Read DQ1 target delay setting for slice 1." newline hexmask.long.word 0x54 0.--9. 1. "PHY_RDDQ0_SLAVE_DELAY_1,Read DQ0 target delay setting for slice 1." line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_345," hexmask.long.word 0x58 16.--25. 1. "PHY_RDDQ3_SLAVE_DELAY_1,Read DQ3 target delay setting for slice 1." newline hexmask.long.word 0x58 0.--9. 1. "PHY_RDDQ2_SLAVE_DELAY_1,Read DQ2 target delay setting for slice 1." line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_346," hexmask.long.word 0x5C 16.--25. 1. "PHY_RDDQ5_SLAVE_DELAY_1,Read DQ5 target delay setting for slice 1." newline hexmask.long.word 0x5C 0.--9. 1. "PHY_RDDQ4_SLAVE_DELAY_1,Read DQ4 target delay setting for slice 1." line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_347," hexmask.long.word 0x60 16.--25. 1. "PHY_RDDQ7_SLAVE_DELAY_1,Read DQ7 target delay setting for slice 1." newline hexmask.long.word 0x60 0.--9. 1. "PHY_RDDQ6_SLAVE_DELAY_1,Read DQ6 target delay setting for slice 1." line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_348," hexmask.long.byte 0x64 24.--28. 1. "PHY_RX_CAL_ALL_DLY_1,Defines the number of cycles/half cycles that the rx_cal_all_opad signal should be asserted for. There is a phy_rx_cal_all_dly_X parameter for each of the slices of data sent on the DFI data bus for slice 1." newline bitfld.long 0x64 16.--18. "PHY_RX_PCLK_CLK_SEL_1,RX_PCLK clock frequency selection for slice 1." "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x64 0.--9. 1. "PHY_RDDM_SLAVE_DELAY_1,Read DM/DBI target delay setting for slice 1. May be used for data swap." line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_349," bitfld.long 0x68 0.--2. "PHY_DATA_DC_CAL_CLK_SEL_1,Determines DCC CAL clock for slice 1." "0,1,2,3,4,5,6,7" line.long 0x6C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_350," hexmask.long.byte 0x6C 24.--31. 1. "PHY_DQS_OE_TIMING_1,Start/end timing values for DQS output enable signals for slice 1." newline hexmask.long.byte 0x6C 16.--23. 1. "PHY_DQ_TSEL_WR_TIMING_1,Start/end timing values for DQ/DM write based termination enable and select signals for slice 1." newline hexmask.long.byte 0x6C 8.--15. 1. "PHY_DQ_TSEL_RD_TIMING_1,Start/end timing values for DQ/DM read based termination enable and select signals for slice 1." newline hexmask.long.byte 0x6C 0.--7. 1. "PHY_DQ_OE_TIMING_1,Start/end timing values for DQ/DM output enable signals for slice 1." line.long 0x70 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_351," hexmask.long.byte 0x70 24.--31. 1. "PHY_DQS_TSEL_WR_TIMING_1,Start/end timing values for DQS write based termination enable and select signals for slice 1." newline hexmask.long.byte 0x70 16.--23. 1. "PHY_DQS_OE_RD_TIMING_1,Start/end timing values for DQS read based OE extension for slice 1." newline hexmask.long.byte 0x70 8.--15. 1. "PHY_DQS_TSEL_RD_TIMING_1,Start/end timing values for DQS read based termination enable and select signals for slice 1." newline hexmask.long.byte 0x70 0.--3. 1. "PHY_IO_PAD_DELAY_TIMING_1,Feedback pad's OPAD and IPAD delay timing for slice 1." line.long 0x74 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_352," hexmask.long.word 0x74 16.--27. 1. "PHY_PAD_VREF_CTRL_DQ_1,Pad VREF control settings for DQ slice 1." newline hexmask.long.word 0x74 0.--15. 1. "PHY_VREF_SETTING_TIME_1,Number of cycles for vref settle after setting is changed for slice 1." line.long 0x78 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_353," bitfld.long 0x78 24.--25. "PHY_RDDATA_EN_IE_DLY_1,Number of cycles that the dfi_rddata_en signal is earlier than necessary for input enable generation for slice 1." "0,1,2,3" newline hexmask.long.byte 0x78 16.--23. 1. "PHY_DQS_IE_TIMING_1,Start/end timing values for DQS input enable signals for slice 1." newline hexmask.long.byte 0x78 8.--15. 1. "PHY_DQ_IE_TIMING_1,Start/end timing values for DQ/DM input enable signals for slice 1." newline bitfld.long 0x78 0. "PHY_PER_CS_TRAINING_EN_1,Enables the per-rank training and read/write timing capabilities for slice 1. Must have same value in all slices." "0,1" line.long 0x7C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_354," hexmask.long.byte 0x7C 24.--28. 1. "PHY_WDQLVL_RDDATA_EN_DLY_1,For WR DQ training the number of cycles that the dfi_rddata_en signal is early for slice 1." newline bitfld.long 0x7C 16. "PHY_WDQLVL_IE_ON_1,IE control 1 meams IE is always on during WR DQ training for slice 1." "0,1" newline bitfld.long 0x7C 8.--9. "PHY_DBI_MODE_1,DBI mode for slice 1. Bit [0] enables return of DBI read data." "0,1,2,3" newline bitfld.long 0x7C 0.--1. "PHY_IE_MODE_1,Input enable mode bits for slice 1. Bit [0] enables the mode where the input enables are always on; set to 1 to enable. Bit [1] disables the input enable on the DM signal; set to 1 to disable." "0,1,2,3" line.long 0x80 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_355," hexmask.long.byte 0x80 24.--27. 1. "PHY_SW_MASTER_MODE_1,Controller delay line override settings for slice 1. Bit [0] enables software half clock mode. Bit [1] is the software half clock mode value. Bit [2] enables software bypass mode. Bit [3] is the software bypass mode value." newline hexmask.long.byte 0x80 16.--20. 1. "PHY_RDDATA_EN_OE_DLY_1,Number of cycles that the dfi_rddata_en signal is earlier than necessary for LP4 OE extension generation for slice 1." newline hexmask.long.byte 0x80 8.--12. 1. "PHY_RDDATA_EN_TSEL_DLY_1,Number of cycles that the dfi_rddata_en signal is earlier than necessary for TSEL enable generation for slice 1." newline hexmask.long.byte 0x80 0.--4. 1. "PHY_WDQLVL_RDDATA_EN_TSEL_DLY_1,For WR DQ training the number of cycles that the dfi_rddata_en signal is earlier than necessary for TSEL enable generation for slice 1." line.long 0x84 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_356," hexmask.long.byte 0x84 24.--31. 1. "PHY_MASTER_DELAY_WAIT_1,Wait cycles for controller delay line locking algorithm for slice 1. Bits [3:0] are the cycle wait count after a calibration clock setting change. Bits [7:4] are the cycle wait count after a controller delay setting change." newline hexmask.long.byte 0x84 16.--21. 1. "PHY_MASTER_DELAY_STEP_1,Incremental step size for controller delay line locking algorithm for slice 1." newline hexmask.long.word 0x84 0.--10. 1. "PHY_MASTER_DELAY_START_1,Start value for controller delay line locking algorithm for slice 1." line.long 0x88 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_357," hexmask.long.byte 0x88 24.--27. 1. "PHY_WRLVL_DLY_FINE_STEP_1,DQS target delay fine step size during write leveling for slice 1." newline hexmask.long.byte 0x88 16.--23. 1. "PHY_WRLVL_DLY_STEP_1,DQS target delay step size during write leveling for slice 1." newline hexmask.long.byte 0x88 8.--11. 1. "PHY_RPTR_UPDATE_1,Offset in cycles from the dfi_rddata_en signal to release data from the entry FIFO for slice 1." newline hexmask.long.byte 0x88 0.--7. 1. "PHY_MASTER_DELAY_HALF_MEASURE_1,Defines the number of delay line elements to be considered in determing whether to lock to a half clock cycle in the data slice controller for slice 1." line.long 0x8C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_358," hexmask.long.byte 0x8C 16.--20. 1. "PHY_GTLVL_RESP_WAIT_CNT_1,Number of cycles + 4 to wait between dfi_rddata_en and the sampling of the DQS during gate training for slice 1. The valid range is 0x0 to 0xB." newline hexmask.long.byte 0x8C 8.--11. 1. "PHY_GTLVL_DLY_STEP_1,DQS target delay step size during gate training for slice 1." newline hexmask.long.byte 0x8C 0.--5. 1. "PHY_WRLVL_RESP_WAIT_CNT_1,Number of cycles to wait between dfi_wrlvl_strobe and the sampling of the DQs during write leveling for slice 1." line.long 0x90 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_359," hexmask.long.word 0x90 16.--25. 1. "PHY_GTLVL_FINAL_STEP_1,Final backup step delay used in gate training algorithm for slice 1." newline hexmask.long.word 0x90 0.--9. 1. "PHY_GTLVL_BACK_STEP_1,Interim backup step delay used in gate training algorithm for slice 1." line.long 0x94 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_360," hexmask.long.word 0x94 16.--24. 1. "PHY_WDQLVL_DM_SEARCH_RANGE_1,The dm target delay search range for non-lpddr4 DM training for slice 1." newline hexmask.long.byte 0x94 8.--11. 1. "PHY_WDQLVL_QTR_DLY_STEP_1,Defines the step granularity for the logic to use once an edge is found for slice 1. When this occurs the logic jumps back to the previous invalid value and uses this step size to determine a more accurate delay value." newline hexmask.long.byte 0x94 0.--7. 1. "PHY_WDQLVL_DLY_STEP_1,DQ target delay step size during write data leveling for slice 1." line.long 0x98 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_361," hexmask.long.byte 0x98 8.--11. 1. "PHY_RDLVL_DLY_STEP_1,DQS target delay step size during read leveling for slice 1." newline bitfld.long 0x98 0. "PHY_TOGGLE_PRE_SUPPORT_1,Support the toggle read preamble for LPDDR4 for slice 1." "0,1" line.long 0x9C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_362," hexmask.long.word 0x9C 0.--9. 1. "PHY_RDLVL_MAX_EDGE_1,The maximun rdlvl target delay search window for read eye training for slice 1." line.long 0xA0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_363," bitfld.long 0xA0 16.--17. "PHY_DATA_DC_INIT_DISABLE_1,Disable duty cycle adjust at initialization for slice 1." "0,1,2,3" newline bitfld.long 0xA0 8.--10. "PHY_WRPATH_GATE_TIMING_1,Write path clock gating timing for slice 1. it means additional clock number to write path clock gate" "0,1,2,3,4,5,6,7" newline bitfld.long 0xA0 0.--1. "PHY_WRPATH_GATE_DISABLE_1,Write path clock gating disable for slice 1. [0]: disable pull in wrdata_en; [1]: disable write path clock gating clock always on" "0,1,2,3" line.long 0xA4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_364," hexmask.long.word 0xA4 16.--26. 1. "PHY_DATA_DC_DQ_INIT_SLV_DELAY_1,Initial value of write DQ target delay for slice 1." newline hexmask.long.word 0xA4 0.--9. 1. "PHY_DATA_DC_DQS_INIT_SLV_DELAY_1,Initial value of write DQS target delay for slice 1." line.long 0xA8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_365," hexmask.long.byte 0xA8 24.--31. 1. "PHY_DATA_DC_DM_CLK_DIFF_THRSHLD_1,Clock measurement cell threshold offset for differential signals for slice 1." newline hexmask.long.byte 0xA8 16.--23. 1. "PHY_DATA_DC_DM_CLK_SE_THRSHLD_1,Clock measurement cell threshold offset for single ended signals for slice 1." newline bitfld.long 0xA8 8. "PHY_DATA_DC_WDQLVL_ENABLE_1,Enable duty cycle adjust during write DQ training for slice 1." "0,1" newline bitfld.long 0xA8 0. "PHY_DATA_DC_WRLVL_ENABLE_1,Enable duty cycle adjust during write leveling for slice 1." "0,1" line.long 0xAC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_366," hexmask.long.byte 0xAC 16.--20. 1. "PHY_RDDATA_EN_DLY_1,Number of cycles that the dfi_rddata_en signal is early for slice 1." newline hexmask.long.byte 0xAC 8.--14. 1. "PHY_MEAS_DLY_STEP_ENABLE_1,Data slice training step definition using phy_meas_dly_step_value for slice 1." newline hexmask.long.byte 0xAC 0.--6. 1. "PHY_WDQ_OSC_DELTA_1,Target delay offset that applies to a 1 bit change of dfi_wdq_osc_code for slice 1." line.long 0xB0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_367," hexmask.long 0xB0 0.--31. 1. "PHY_DQ_DM_SWIZZLE0_1,DQ/DM bit swizzling 0 for slice 1. Bits [3:0] inform the PHY which bit in {DM DQ]} map to DQ0 Bits [7:4] inform the PHY which bit in {DM DQ} map to DQ1 etc." line.long 0xB4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_368," hexmask.long.byte 0xB4 0.--3. 1. "PHY_DQ_DM_SWIZZLE1_1,DQ/DM bit swizzling 1 for slice 1. Bits [3:0] inform the PHY which bit in {DM DQ]} map to DM." line.long 0xB8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_369," hexmask.long.word 0xB8 16.--26. 1. "PHY_CLK_WRDQ1_SLAVE_DELAY_1,Write clock target delay setting for DQ1 for slice 1." newline hexmask.long.word 0xB8 0.--10. 1. "PHY_CLK_WRDQ0_SLAVE_DELAY_1,Write clock target delay setting for DQ0 for slice 1." line.long 0xBC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_370," hexmask.long.word 0xBC 16.--26. 1. "PHY_CLK_WRDQ3_SLAVE_DELAY_1,Write clock target delay setting for DQ3 for slice 1." newline hexmask.long.word 0xBC 0.--10. 1. "PHY_CLK_WRDQ2_SLAVE_DELAY_1,Write clock target delay setting for DQ2 for slice 1." line.long 0xC0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_371," hexmask.long.word 0xC0 16.--26. 1. "PHY_CLK_WRDQ5_SLAVE_DELAY_1,Write clock target delay setting for DQ5 for slice 1." newline hexmask.long.word 0xC0 0.--10. 1. "PHY_CLK_WRDQ4_SLAVE_DELAY_1,Write clock target delay setting for DQ4 for slice 1." line.long 0xC4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_372," hexmask.long.word 0xC4 16.--26. 1. "PHY_CLK_WRDQ7_SLAVE_DELAY_1,Write clock target delay setting for DQ7 for slice 1." newline hexmask.long.word 0xC4 0.--10. 1. "PHY_CLK_WRDQ6_SLAVE_DELAY_1,Write clock target delay setting for DQ6 for slice 1." line.long 0xC8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_373," hexmask.long.word 0xC8 16.--25. 1. "PHY_CLK_WRDQS_SLAVE_DELAY_1,Write clock target delay setting for DQS for slice 1." newline hexmask.long.word 0xC8 0.--10. 1. "PHY_CLK_WRDM_SLAVE_DELAY_1,Write clock target delay setting for DM for slice 1." line.long 0xCC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_374," hexmask.long.word 0xCC 8.--17. 1. "PHY_RDDQS_DQ0_RISE_SLAVE_DELAY_1,Rising edge read DQS target delay setting for DQ0 for slice 1." newline bitfld.long 0xCC 0.--1. "PHY_WRLVL_THRESHOLD_ADJUST_1,Write level threshold adjust value based on those thresholds for DQS for slice 1." "0,1,2,3" line.long 0xD0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_375," hexmask.long.word 0xD0 16.--25. 1. "PHY_RDDQS_DQ1_RISE_SLAVE_DELAY_1,Rising edge read DQS target delay setting for DQ1 for slice 1." newline hexmask.long.word 0xD0 0.--9. 1. "PHY_RDDQS_DQ0_FALL_SLAVE_DELAY_1,Falling edge read DQS target delay setting for DQ0 for slice 1." line.long 0xD4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_376," hexmask.long.word 0xD4 16.--25. 1. "PHY_RDDQS_DQ2_RISE_SLAVE_DELAY_1,Rising edge read DQS target delay setting for DQ2 for slice 1." newline hexmask.long.word 0xD4 0.--9. 1. "PHY_RDDQS_DQ1_FALL_SLAVE_DELAY_1,Falling edge read DQS target delay setting for DQ1 for slice 1." line.long 0xD8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_377," hexmask.long.word 0xD8 16.--25. 1. "PHY_RDDQS_DQ3_RISE_SLAVE_DELAY_1,Rising edge read DQS target delay setting for DQ3 for slice 1." newline hexmask.long.word 0xD8 0.--9. 1. "PHY_RDDQS_DQ2_FALL_SLAVE_DELAY_1,Falling edge read DQS target delay setting for DQ2 for slice 1." line.long 0xDC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_378," hexmask.long.word 0xDC 16.--25. 1. "PHY_RDDQS_DQ4_RISE_SLAVE_DELAY_1,Rising edge read DQS target delay setting for DQ4 for slice 1." newline hexmask.long.word 0xDC 0.--9. 1. "PHY_RDDQS_DQ3_FALL_SLAVE_DELAY_1,Falling edge read DQS target delay setting for DQ3 for slice 1." line.long 0xE0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_379," hexmask.long.word 0xE0 16.--25. 1. "PHY_RDDQS_DQ5_RISE_SLAVE_DELAY_1,Rising edge read DQS target delay setting for DQ5 for slice 1." newline hexmask.long.word 0xE0 0.--9. 1. "PHY_RDDQS_DQ4_FALL_SLAVE_DELAY_1,Falling edge read DQS target delay setting for DQ4 for slice 1." line.long 0xE4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_380," hexmask.long.word 0xE4 16.--25. 1. "PHY_RDDQS_DQ6_RISE_SLAVE_DELAY_1,Rising edge read DQS target delay setting for DQ6 for slice 1." newline hexmask.long.word 0xE4 0.--9. 1. "PHY_RDDQS_DQ5_FALL_SLAVE_DELAY_1,Falling edge read DQS target delay setting for DQ5 for slice 1." line.long 0xE8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_381," hexmask.long.word 0xE8 16.--25. 1. "PHY_RDDQS_DQ7_RISE_SLAVE_DELAY_1,Rising edge read DQS target delay setting for DQ7 for slice 1." newline hexmask.long.word 0xE8 0.--9. 1. "PHY_RDDQS_DQ6_FALL_SLAVE_DELAY_1,Falling edge read DQS target delay setting for DQ6 for slice 1." line.long 0xEC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_382," hexmask.long.word 0xEC 16.--25. 1. "PHY_RDDQS_DM_RISE_SLAVE_DELAY_1,Rising edge read DQS target delay setting for DM for slice 1." newline hexmask.long.word 0xEC 0.--9. 1. "PHY_RDDQS_DQ7_FALL_SLAVE_DELAY_1,Falling edge read DQS target delay setting for DQ7 for slice 1." line.long 0xF0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_383," hexmask.long.word 0xF0 16.--25. 1. "PHY_RDDQS_GATE_SLAVE_DELAY_1,Read DQS target delay setting for slice 1." newline hexmask.long.word 0xF0 0.--9. 1. "PHY_RDDQS_DM_FALL_SLAVE_DELAY_1,Falling edge read DQS target delay setting for DM for slice 1." line.long 0xF4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_384," hexmask.long.word 0xF4 16.--25. 1. "PHY_WRLVL_DELAY_EARLY_THRESHOLD_1,Write level delay threshold above which will be considered in previous cycle for slice 1." newline bitfld.long 0xF4 8.--10. "PHY_WRITE_PATH_LAT_ADD_1,Number of cycles to delay the incoming dfi_wrdata_en/dfi_wrdata signals for slice 1." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0xF4 0.--3. 1. "PHY_RDDQS_LATENCY_ADJUST_1,Number of cycles to delay the incoming dfi_rddata_en for read DQS gate generation for slice 1." line.long 0xF8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_385," bitfld.long 0xF8 16. "PHY_WRLVL_EARLY_FORCE_ZERO_1,Force the final write level delay value [that meets the early threshold] to 0 for slice 1." "0,1" newline hexmask.long.word 0xF8 0.--9. 1. "PHY_WRLVL_DELAY_PERIOD_THRESHOLD_1,Write level delay threshold below which will add a cycle of write path latency for slice 1." line.long 0xFC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_386," hexmask.long.byte 0xFC 16.--19. 1. "PHY_GTLVL_LAT_ADJ_START_1,Initial read DQS gate cycle delay from dfi_rddata_en during gate training for slice 1." newline hexmask.long.word 0xFC 0.--9. 1. "PHY_GTLVL_RDDQS_SLV_DLY_START_1,Initial read DQS gate target delay setting during gate training for slice 1." line.long 0x100 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_387," bitfld.long 0x100 24. "PHY_NTP_PASS_1,Indicates if No-topology training found a passing result for slice 1." "0,1" newline hexmask.long.byte 0x100 16.--19. 1. "PHY_NTP_WRLAT_START_1,Initial value for phy_write_path_lat_add for No-topology training and early threshold for slice 1." newline hexmask.long.word 0x100 0.--10. 1. "PHY_WDQLVL_DQDM_SLV_DLY_START_1,Initial DQ/DM target delay setting during write data leveling for slice 1." line.long 0x104 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_388," hexmask.long.word 0x104 0.--9. 1. "PHY_RDLVL_RDDQS_DQ_SLV_DLY_START_1,Read leveling starting value for the DQS/DQ target delay settings for slice 1." line.long 0x108 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_389," hexmask.long.byte 0x108 24.--31. 1. "PHY_DATA_DC_DQ2_CLK_ADJUST_1,Adjust value of Duty Cycle Adjuster for slice 1." newline hexmask.long.byte 0x108 16.--23. 1. "PHY_DATA_DC_DQ1_CLK_ADJUST_1,Adjust value of Duty Cycle Adjuster for slice 1." newline hexmask.long.byte 0x108 8.--15. 1. "PHY_DATA_DC_DQ0_CLK_ADJUST_1,Adjust value of Duty Cycle Adjuster for slice 1." newline hexmask.long.byte 0x108 0.--7. 1. "PHY_DATA_DC_DQS_CLK_ADJUST_1,Adjust value of Duty Cycle Adjuster for slice 1." line.long 0x10C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_390," hexmask.long.byte 0x10C 24.--31. 1. "PHY_DATA_DC_DQ6_CLK_ADJUST_1,Adjust value of Duty Cycle Adjuster for slice 1." newline hexmask.long.byte 0x10C 16.--23. 1. "PHY_DATA_DC_DQ5_CLK_ADJUST_1,Adjust value of Duty Cycle Adjuster for slice 1." newline hexmask.long.byte 0x10C 8.--15. 1. "PHY_DATA_DC_DQ4_CLK_ADJUST_1,Adjust value of Duty Cycle Adjuster for slice 1." newline hexmask.long.byte 0x10C 0.--7. 1. "PHY_DATA_DC_DQ3_CLK_ADJUST_1,Adjust value of Duty Cycle Adjuster for slice 1." line.long 0x110 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_391," hexmask.long.word 0x110 16.--31. 1. "PHY_DSLICE_PAD_BOOSTPN_SETTING_1,Setting for boost P/N of pad for slice 1." newline hexmask.long.byte 0x110 8.--15. 1. "PHY_DATA_DC_DM_CLK_ADJUST_1,Adjust value of Duty Cycle Adjuster for slice 1." newline hexmask.long.byte 0x110 0.--7. 1. "PHY_DATA_DC_DQ7_CLK_ADJUST_1,Adjust value of Duty Cycle Adjuster for slice 1." line.long 0x114 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_392," bitfld.long 0x114 16.--17. "PHY_DQS_FFE_1,TX_FFE setting for DQS pad for slice 1." "0,1,2,3" newline bitfld.long 0x114 8.--9. "PHY_DQ_FFE_1,TX_FFE setting for DQ/DM pad for slice 1." "0,1,2,3" newline hexmask.long.byte 0x114 0.--5. 1. "PHY_DSLICE_PAD_RX_CTLE_SETTING_1,Setting for RX ctle P/N of pad for slice 1." group.long 0x4800++0x2B line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_512," hexmask.long.word 0x0 16.--26. 1. "PHY_CLK_WR_BYPASS_SLAVE_DELAY_2,Write data clock bypass mode target delay setting for slice 2." newline hexmask.long.byte 0x0 8.--14. 1. "PHY_LP4_BOOT_PAD_DSLICE_IO_CFG_2,Controls PCLK/PARK pin for pad for slice 2 with boot frequency." newline bitfld.long 0x0 0.--2. "PHY_LP4_BOOT_RX_PCLK_CLK_SEL_2,RX_PCLK boot clock frequency selection for slice 2." "0,1,2,3,4,5,6,7" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_513," bitfld.long 0x4 24.--26. "PHY_WRITE_PATH_LAT_ADD_BYPASS_2,Number of cycles on bypass mode to delay the incoming dfi_wrdata_en/dfi_wrdata signals for slice 2." "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x4 8.--17. 1. "PHY_CLK_WRDQS_SLAVE_DELAY_BYPASS_2,Write DQS bypass mode target delay setting for slice 2." newline hexmask.long.byte 0x4 0.--3. 1. "PHY_IO_PAD_DELAY_TIMING_BYPASS_2,Feedback pad's OPAD and IPAD delay timing on bypass mode for slice 2." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_514," bitfld.long 0x8 24. "PHY_CLK_BYPASS_OVERRIDE_2,Bypass mode override setting for slice 2." "0,1" newline bitfld.long 0x8 16.--17. "PHY_BYPASS_TWO_CYC_PREAMBLE_2,Two_cycle_preamble for bypass mode for slice 2." "0,1,2,3" newline hexmask.long.word 0x8 0.--9. 1. "PHY_RDDQS_GATE_BYPASS_SLAVE_DELAY_2,Read DQS bypass mode target delay setting for slice 2." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_515," hexmask.long.byte 0xC 24.--29. 1. "PHY_SW_WRDQ3_SHIFT_2,Manual override of automatic half_cycle_shift/cycle_shift for write DQ3 for slice 2. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0xC 16.--21. 1. "PHY_SW_WRDQ2_SHIFT_2,Manual override of automatic half_cycle_shift/cycle_shift for write DQ2 for slice 2. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0xC 8.--13. 1. "PHY_SW_WRDQ1_SHIFT_2,Manual override of automatic half_cycle_shift/cycle_shift for write DQ1 for slice 2. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0xC 0.--5. 1. "PHY_SW_WRDQ0_SHIFT_2,Manual override of automatic half_cycle_shift/cycle_shift for write DQ0 for slice 2. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_516," hexmask.long.byte 0x10 24.--29. 1. "PHY_SW_WRDQ7_SHIFT_2,Manual override of automatic half_cycle_shift/cycle_shift for write DQ7 for slice 2. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0x10 16.--21. 1. "PHY_SW_WRDQ6_SHIFT_2,Manual override of automatic half_cycle_shift/cycle_shift for write DQ6 for slice 2. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0x10 8.--13. 1. "PHY_SW_WRDQ5_SHIFT_2,Manual override of automatic half_cycle_shift/cycle_shift for write DQ5 for slice 2. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0x10 0.--5. 1. "PHY_SW_WRDQ4_SHIFT_2,Manual override of automatic half_cycle_shift/cycle_shift for write DQ4 for slice 2. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_517," bitfld.long 0x14 24. "PHY_PER_CS_TRAINING_MULTICAST_EN_2,When set a register write will update parameters for all ranks at the same time in slice 2. Set to 1 to enable." "0,1" newline bitfld.long 0x14 16.--17. "PHY_PER_RANK_CS_MAP_2,Per-rank CS map for slice 2. Setting a bit uses that CS for the rank bit [0] uses CS0 bit [1] uses CS1 etc." "0,1,2,3" newline hexmask.long.byte 0x14 8.--11. 1. "PHY_SW_WRDQS_SHIFT_2,Manual override of automatic half_cycle_shift/cycle_shift for write DQS for slice 2. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bit [3] is the.." newline hexmask.long.byte 0x14 0.--5. 1. "PHY_SW_WRDM_SHIFT_2,Manual override of automatic half_cycle_shift/cycle_shift for write DM for slice 2. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_518," hexmask.long.byte 0x18 24.--28. 1. "PHY_LP4_BOOT_RDDATA_EN_TSEL_DLY_2,For LPDDR4 boot frequency the number of cycles that the dfi_rddata_en signal is earlier than necessary for TSEL enable generation for slice 2." newline hexmask.long.byte 0x18 16.--20. 1. "PHY_LP4_BOOT_RDDATA_EN_DLY_2,For LPDDR4 boot frequency the number of cycles that the dfi_rddata_en signal is early for slice 2." newline bitfld.long 0x18 8.--9. "PHY_LP4_BOOT_RDDATA_EN_IE_DLY_2,For LPDDR4 boot frequency the number of cycles that the dfi_rddata_en signal is earlier than necessary for input enable generation for slice 2." "0,1,2,3" newline bitfld.long 0x18 0. "PHY_PER_CS_TRAINING_INDEX_2,For per-rank training indicates which rank's paramters are read/written for slice 2." "0,1" line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_519," hexmask.long.byte 0x1C 24.--28. 1. "PHY_LP4_BOOT_RDDATA_EN_OE_DLY_2,For LPDDR4 boot frequency the number of cycles that the dfi_rddata_en signal is earlier than necessary for extended OE generation for slice 2." newline bitfld.long 0x1C 16.--17. "PHY_LP4_BOOT_WRPATH_GATE_DISABLE_2,For LPDDR4 boot frequency write path clock gating disable for slice 2. Bit [0]: disable pull in wrdata_en; Bit [1]: disable write path clock gating clock always on" "0,1,2,3" newline hexmask.long.byte 0x1C 8.--11. 1. "PHY_LP4_BOOT_RDDQS_LATENCY_ADJUST_2,For LPDDR4 boot frequency the number of cycles to delay the incoming dfi_rddata_en for read DQS gate generation for slice 2." newline hexmask.long.byte 0x1C 0.--3. 1. "PHY_LP4_BOOT_RPTR_UPDATE_2,For LPDDR4 boot frequency the offset in cycles from the dfi_rddata_en signal to releasing data from the entry FIFO for slice 2." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_520," bitfld.long 0x20 24. "PHY_LPBK_DFX_TIMEOUT_EN_2,Loopback read only test timeout mechanism enable for slice 2." "0,1" newline hexmask.long.word 0x20 8.--16. 1. "PHY_LPBK_CONTROL_2,Loopback control bits for slice 2." newline bitfld.long 0x20 0.--1. "PHY_CTRL_LPBK_EN_2,Loopback control en for slice 2." "0,1,2,3" line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_521," bitfld.long 0x24 0. "PHY_GATE_DELAY_COMP_DISABLE_2,use the control whether to compensate half_cycle when gate_target_delay is larger than half_cycle for the gate close for slice 2." "0,1" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_522," hexmask.long 0x28 0.--31. 1. "PHY_AUTO_TIMING_MARGIN_CONTROL_2,Auto timing marging control bits for slice 2." rgroup.long 0x482C++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_523," hexmask.long 0x0 0.--27. 1. "PHY_AUTO_TIMING_MARGIN_OBS_2,Observation register for the auto_timing_margin for slice 2. READ-ONLY" group.long 0x4830++0x17 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_524," hexmask.long.byte 0x0 24.--30. 1. "PHY_PRBS_PATTERN_START_2,PRBS7 start pattern for slice 2." newline bitfld.long 0x0 16. "PHY_PDA_MODE_EN_2,When set to 1 the invalid DQs will be driven by the dfi_wrdata to make sure the tpda_s and tpda_h's timing is meet for slice 2." "0,1" newline hexmask.long.word 0x0 0.--8. 1. "PHY_DQ_IDLE_2,When set to 1 the inavlid DQ will be driven to high when set to 0 the invalid DQ will be driven to low for slice 2." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_525," bitfld.long 0x4 24. "PHY_RDLVL_MULTI_PATT_RST_DISABLE_2,Read Leveling read level windows disable reset for slice 2." "0,1" newline bitfld.long 0x4 16. "PHY_RDLVL_MULTI_PATT_ENABLE_2,Read Leveling Multi-pattern enable for slice 2." "0,1" newline hexmask.long.word 0x4 0.--8. 1. "PHY_PRBS_PATTERN_MASK_2,PRBS7 mask signal for slice 2." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_526," hexmask.long.word 0x8 16.--25. 1. "PHY_RDDQS_DQ_BYPASS_SLAVE_DELAY_2,Read DQS data clock bypass mode target delay setting for slice 2." newline hexmask.long.byte 0x8 8.--14. 1. "PHY_VREF_TRAIN_OBS_2,Observation register for best vref value for slice 2. READ-ONLY" newline hexmask.long.byte 0x8 0.--5. 1. "PHY_VREF_INITIAL_STEPSIZE_2,Data slice initial VREF training step size for slice 2." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_527," hexmask.long.word 0xC 16.--24. 1. "PHY_GATE_SMPL1_SLAVE_DELAY_2,Number of cycles to delay the read DQS gate signal to generate gate1 signal for on-the-fly read DQS training for slice 2." newline bitfld.long 0xC 8. "SC_PHY_SNAP_OBS_REGS_2,Initiates a snapshot of the internal observation registers for slice 2. Set to 1 to trigger. WRITE-ONLY" "0,1" newline hexmask.long.byte 0xC 0.--3. 1. "PHY_GATE_ERROR_DELAY_SELECT_2,Number of cycles to wait for the DQS gate to close before flagging an error for slice 2." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_528," hexmask.long.word 0x10 16.--24. 1. "PHY_GATE_SMPL2_SLAVE_DELAY_2,Number of cycles to delay the read DQS gate signal to generate gate2 signal for on-the-fly read DQS training for slice 2." newline bitfld.long 0x10 8.--10. "PHY_MEM_CLASS_2,Indicates the type of DRAM for slice 2. 0 for DDR3 1 for DDR4 2 for DDR5 4 for LPDDR2 5 for LPDDR3. 6 for LPDDR4" "0,1,2,3,4,5,6,7" newline bitfld.long 0x10 0. "PHY_LPDDR_2,Adds a cycle of delay for the slice 2 to match the address slice. Set to 1 to add a cycle" "0,1" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_529," bitfld.long 0x14 0.--1. "ON_FLY_GATE_ADJUST_EN_2,Control the on-the-fly gate adjustment for slice 2." "0,1,2,3" rgroup.long 0x4848++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_530," hexmask.long 0x0 0.--31. 1. "PHY_GATE_TRACKING_OBS_2,Report the on-the-fly gate measurement result for slice 2. READ-ONLY" group.long 0x484C++0x6B line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_531," bitfld.long 0x0 8.--9. "PHY_LP4_PST_AMBLE_2,Controls the read postamble extension for LPDDR4 for slice 2." "0,1,2,3" newline bitfld.long 0x0 0. "PHY_DFI40_POLARITY_2,Indicates the dfi_wrdata_cs_n and dfi_rddata_cs_n is low active or high active for slice 2." "0,1" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_532," hexmask.long 0x4 0.--31. 1. "PHY_RDLVL_PATT8_2,Read leveling pattern 8 data for slice 2." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_533," hexmask.long 0x8 0.--31. 1. "PHY_RDLVL_PATT9_2,Read leveling pattern 9 data for slice 2." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_534," hexmask.long 0xC 0.--31. 1. "PHY_RDLVL_PATT10_2,Read leveling pattern 10 data for slice 2." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_535," hexmask.long 0x10 0.--31. 1. "PHY_RDLVL_PATT11_2,Read leveling pattern 11 data for slice 2." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_536," hexmask.long 0x14 0.--31. 1. "PHY_RDLVL_PATT12_2,Read leveling pattern 12 data for slice 2." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_537," hexmask.long 0x18 0.--31. 1. "PHY_RDLVL_PATT13_2,Read leveling pattern 13 data for slice 2." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_538," hexmask.long 0x1C 0.--31. 1. "PHY_RDLVL_PATT14_2,Read leveling pattern 14 data for slice 2." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_539," hexmask.long 0x20 0.--31. 1. "PHY_RDLVL_PATT15_2,Read leveling pattern 15 data for slice 2." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_540," bitfld.long 0x24 24.--26. "PHY_RDDQ_ENC_OBS_SELECT_2,Select value to map the internal read DQ target delay encoded settings to the accessible read DQ encoded target delay observation register for slice 2." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x24 16.--19. 1. "PHY_MASTER_DLY_LOCK_OBS_SELECT_2,Select value to map the internal controller delay observation registers to the accessible controller delay observation register for slice 2." newline bitfld.long 0x24 8. "PHY_SW_FIFO_PTR_RST_DISABLE_2,Disables automatic reset of the read entry FIFO pointers for slice 2. Set to 1 to disable automatic resets." "0,1" newline bitfld.long 0x24 0.--2. "PHY_SLAVE_LOOP_CNT_UPDATE_2,Reserved for future use for slice 2." "0,1,2,3,4,5,6,7" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_541," hexmask.long.byte 0x28 24.--27. 1. "PHY_FIFO_PTR_OBS_SELECT_2,Select value to map the internal read entry FIFO read/write pointers to the accessible read entry FIFO pointer observation register for slice 2." newline hexmask.long.byte 0x28 16.--19. 1. "PHY_WR_SHIFT_OBS_SELECT_2,Select value to map the internal write DQ/DQS automatic cycle/half_cycle shift settings to the accessible write DQ/DQS shift observation register for slice 2." newline hexmask.long.byte 0x28 8.--11. 1. "PHY_WR_ENC_OBS_SELECT_2,Select value to map the internal write DQ target delay encoded settings to the accessible write DQ encoded target delay observation register for slice 2." newline hexmask.long.byte 0x28 0.--3. 1. "PHY_RDDQS_DQ_ENC_OBS_SELECT_2,Select value to map the internal read DQS DQ rise/fall target delay encoded settings to the accessible read DQS DQ rise/fall encoded target delay observation registers for slice 2." line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_542," hexmask.long.byte 0x2C 24.--29. 1. "PHY_WRLVL_CAPTURE_CNT_2,Number of samples to take at each DQS target delay setting during write leveling for slice 2." newline bitfld.long 0x2C 16.--17. "PHY_WRLVL_ALGO_2,Write leveling algorithm selection for slice 2." "0,1,2,3" newline bitfld.long 0x2C 8. "SC_PHY_LVL_DEBUG_CONT_2,Allows the leveling state machine to advance [when in debug mode] for slice 2. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0x2C 0. "PHY_LVL_DEBUG_MODE_2,Enables leveling debug mode for slice 2. Set to 1 to enable." "0,1" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_543," hexmask.long.byte 0x30 24.--27. 1. "PHY_GTLVL_UPDT_WAIT_CNT_2,Number of cycles + 4 to wait after changing DQS target delay setting during gate training for slice 2. The valid range is 0x0 to 0xB." newline hexmask.long.byte 0x30 16.--21. 1. "PHY_GTLVL_CAPTURE_CNT_2,Number of samples to take at each DQS target delay setting during gate training for slice 2." newline hexmask.long.byte 0x30 8.--15. 1. "PHY_DQ_MASK_2,For ECC slice should set this register to do DQ bit mask for slice 2." newline hexmask.long.byte 0x30 0.--3. 1. "PHY_WRLVL_UPDT_WAIT_CNT_2,Number of cycles to wait after changing DQS target delay setting during write leveling for slice 2." line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_544," hexmask.long.byte 0x34 24.--28. 1. "PHY_RDLVL_RDDQS_DQ_OBS_SELECT_2,Select value to map an individual DQ data window leading/trailing edge to the leading/trailing edge observation registers during read leveling for slice 2." newline bitfld.long 0x34 16.--17. "PHY_RDLVL_OP_MODE_2,Read leveling algorithm select for slice 2. Clear to 0 to move linearly from left to right. Set to 1 to start inside the window move left and then move right." "0,1,2,3" newline hexmask.long.byte 0x34 8.--11. 1. "PHY_RDLVL_UPDT_WAIT_CNT_2,Number of cycles to wait after changing DQS target delay setting during read leveling for slice 2." newline hexmask.long.byte 0x34 0.--5. 1. "PHY_RDLVL_CAPTURE_CNT_2,Number of samples to take at each DQS target delay setting during read leveling for slice 2." line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_545," hexmask.long.tbyte 0x38 8.--25. 1. "PHY_RDLVL_DATA_SWIZZLE_2,Read level bit swizzling for DDR4 operation for slice 2." newline hexmask.long.byte 0x38 0.--7. 1. "PHY_RDLVL_DATA_MASK_2,Per-bit mask for read leveling for slice 2. If all bits are not used only 1 bit should be cleared to 0." line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_546," bitfld.long 0x3C 16.--18. "PHY_WDQLVL_PATT_2,Defines the training patterns to be used during the write data leveling sequence for slice 2. Bit [0] corresponds to the LFSR data training pattern. Bit [1] corresponds to the CLK data training pattern. Bit [2] corresponds to.." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x3C 8.--13. 1. "PHY_WDQLVL_BURST_CNT_2,Defines the write/read burst length in bytes during the write data leveling sequence for slice 2." newline hexmask.long.byte 0x3C 0.--7. 1. "PHY_WDQLVL_CLK_JITTER_TOLERANCE_2,Defines the minimum gap requirment for the LE and TE window for slice 2." line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_547," hexmask.long.byte 0x40 24.--27. 1. "PHY_WDQLVL_DQDM_OBS_SELECT_2,Select value to map an individual DQ data window leading/trailing edge to the leading/trailing edge observation registers during write data leveling for slice 2." newline hexmask.long.byte 0x40 16.--19. 1. "PHY_WDQLVL_UPDT_WAIT_CNT_2,Number of cycles to wait after changing the DQ target delay setting during write data leveling for slice 2." newline hexmask.long.word 0x40 0.--10. 1. "PHY_WDQLVL_DQDM_SLV_DLY_JUMP_OFFSET_2,Defines the target delay jump value when the TE window is found and begin to serch TE window for slice 2." line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_548," bitfld.long 0x44 24. "SC_PHY_WDQLVL_CLR_PREV_RESULTS_2,Clears the previous result value to allow a clean slate comparison for future write DQ leveling results for slice 2. Set to 1 to trigger. WRITE-ONLY" "0,1" newline hexmask.long.byte 0x44 16.--19. 1. "PHY_WDQLVL_DM_DLY_STEP_2,The target delay line step for DM training for slice 2." newline hexmask.long.byte 0x44 8.--15. 1. "PHY_WDQLVL_DQ_SLV_DELTA_2,The margin for DQ0-7's LE and TE dealy to make sure the DQ bits can work during DM training for slice 2." newline hexmask.long.byte 0x44 0.--7. 1. "PHY_WDQLVL_PERIODIC_OBS_SELECT_2,Select value to map specific information during or post periodic write data leveling for slice 2." line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_549," hexmask.long.word 0x48 0.--8. 1. "PHY_WDQLVL_DATADM_MASK_2,Per-bit mask for write data leveling for slice 2. Set to 1 to mask any bit from the leveling process." line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_550," hexmask.long 0x4C 0.--31. 1. "PHY_USER_PATT0_2,User-defined pattern to be used during write data leveling for slice 2. This register holds the bytes 3 to 0 written/read from device." line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_551," hexmask.long 0x50 0.--31. 1. "PHY_USER_PATT1_2,User-defined pattern to be used during write data leveling for slice 2. This register holds the bytes 7 to 4 written/read from device." line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_552," hexmask.long 0x54 0.--31. 1. "PHY_USER_PATT2_2,User-defined pattern to be used during write data leveling for slice 2. This register holds the bytes 11 to 8 written/read from device." line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_553," hexmask.long 0x58 0.--31. 1. "PHY_USER_PATT3_2,User-defined pattern to be used during write data leveling for slice 2. This register holds the bytes 15 to 12 written/read from device." line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_554," bitfld.long 0x5C 16. "PHY_NTP_MULT_TRAIN_2,Control for single pass only No-Topology training for slice 2." "0,1" newline hexmask.long.word 0x5C 0.--15. 1. "PHY_USER_PATT4_2,User-defined pattern to be used during write data leveling for slice 2. This register holds the DM bit for the 15 to 0 DQ written/read from device." line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_555," hexmask.long.word 0x60 16.--25. 1. "PHY_NTP_PERIOD_THRESHOLD_2,Threshold Criteria of period threshold after No-Topology training is completed for slice 2." newline hexmask.long.word 0x60 0.--9. 1. "PHY_NTP_EARLY_THRESHOLD_2,Threshold Criteria of early threshold after No-Topology training is completed for slice 2." line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_556," hexmask.long.word 0x64 16.--25. 1. "PHY_NTP_PERIOD_THRESHOLD_MAX_2,Maximum Threshold that phy_clk_wrdqs_target_delay could cross boundary to set period threshold/early threshold after No-Topology training is completed for slice 2." newline hexmask.long.word 0x64 0.--9. 1. "PHY_NTP_PERIOD_THRESHOLD_MIN_2,Minimum Threshold that phy_clk_wrdqs_target_delay could cross boundary to set period threshold/early threshold after No-Topology training is completed for slice 2." line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_557," hexmask.long.byte 0x68 16.--23. 1. "PHY_FIFO_PTR_OBS_2,Observation register containing read entry FIFO pointers for slice 2. READ-ONLY" newline hexmask.long.byte 0x68 8.--13. 1. "SC_PHY_MANUAL_CLEAR_2,Manual reset/clear of internal logic for slice 2. Bit [0] initiates manual setup of the read DQS gate. Bit [1] is reset of read entry FIFO pointers. Bit [2] is reset of controller delay min/max lock values. Bit [3] is manual reset.." newline bitfld.long 0x68 0. "PHY_CALVL_VREF_DRIVING_SLICE_2,Indicates if slice 2 is used to drive the VREF value to the device during CA training." "0,1" rgroup.long 0x48B8++0x43 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_558," hexmask.long 0x0 0.--31. 1. "PHY_LPBK_RESULT_OBS_2,Observation register containing loopback status/results for slice 2. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_559," hexmask.long.word 0x4 16.--26. 1. "PHY_MASTER_DLY_LOCK_OBS_2,Observation register containing controller delay results for slice 2. READ-ONLY" newline hexmask.long.word 0x4 0.--15. 1. "PHY_LPBK_ERROR_COUNT_OBS_2,Observation register containing total number of loopback error data for slice 2. READ-ONLY" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_560," hexmask.long.byte 0x8 24.--31. 1. "PHY_RDDQS_DQ_RISE_ADDER_SLV_DLY_ENC_OBS_2,Observation register containing read DQS DQ rising edge adder target delay encoded value for slice 2. READ-ONLY" newline hexmask.long.byte 0x8 16.--23. 1. "PHY_MEAS_DLY_STEP_VALUE_2,Observation register containing fraction of the cycle in 1 delay element numerator with demominator of 512 for slice 2. READ-ONLY" newline hexmask.long.byte 0x8 8.--14. 1. "PHY_RDDQS_BASE_SLV_DLY_ENC_OBS_2,Observation register containing read DQS base target delay encoded value for slice 2. READ-ONLY" newline hexmask.long.byte 0x8 0.--6. 1. "PHY_RDDQ_SLV_DLY_ENC_OBS_2,Observation register containing read DQ target delay encoded values for slice 2. READ-ONLY" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_561," hexmask.long.byte 0xC 24.--30. 1. "PHY_WRDQS_BASE_SLV_DLY_ENC_OBS_2,Observation register containing write DQS base target delay encoded value for slice 2. READ-ONLY" newline hexmask.long.word 0xC 8.--18. 1. "PHY_RDDQS_GATE_SLV_DLY_ENC_OBS_2,Observation register containing read DQS gate target delay encoded value for slice 2. READ-ONLY" newline hexmask.long.byte 0xC 0.--7. 1. "PHY_RDDQS_DQ_FALL_ADDER_SLV_DLY_ENC_OBS_2,Observation register containing read DQS DQ falling edge adder target delay encoded value for slice 2. READ-ONLY" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_562," bitfld.long 0x10 16.--18. "PHY_WR_SHIFT_OBS_2,Observation register containing automatic half cycle and cycle shift values for slice 2. READ-ONLY" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x10 8.--15. 1. "PHY_WR_ADDER_SLV_DLY_ENC_OBS_2,Observation register containing write adder target delay encoded value for slice 2. READ-ONLY" newline hexmask.long.byte 0x10 0.--7. 1. "PHY_WRDQ_BASE_SLV_DLY_ENC_OBS_2,Observation register containing write DQ base target delay encoded value for slice 2. READ-ONLY" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_563," hexmask.long.word 0x14 16.--25. 1. "PHY_WRLVL_HARD1_DELAY_OBS_2,Observation register containing write leveling first hard 1 DQS target delay for slice 2. READ-ONLY" newline hexmask.long.word 0x14 0.--9. 1. "PHY_WRLVL_HARD0_DELAY_OBS_2,Observation register containing write leveling last hard 0 DQS target delay for slice 2. READ-ONLY" line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_564," hexmask.long.tbyte 0x18 0.--20. 1. "PHY_WRLVL_STATUS_OBS_2,Observation register containing write leveling status for slice 2. READ-ONLY" line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_565," hexmask.long.word 0x1C 16.--25. 1. "PHY_GATE_SMPL2_SLV_DLY_ENC_OBS_2,Observation register containing gate sample2 target delay encoded values for slice 2. READ-ONLY" newline hexmask.long.word 0x1C 0.--9. 1. "PHY_GATE_SMPL1_SLV_DLY_ENC_OBS_2,Observation register containing gate sample1 target delay encoded values for slice 2. READ-ONLY" line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_566," hexmask.long.word 0x20 16.--29. 1. "PHY_GTLVL_HARD0_DELAY_OBS_2,Observation register containing gate training first hard 0 DQS target delay for slice 2. READ-ONLY" newline hexmask.long.word 0x20 0.--15. 1. "PHY_WRLVL_ERROR_OBS_2,Observation register containing write leveling error status for slice 2. READ-ONLY" line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_567," hexmask.long.word 0x24 0.--13. 1. "PHY_GTLVL_HARD1_DELAY_OBS_2,Observation register containing gate training last hard 1 DQS target delay for slice 2. READ-ONLY" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_568," hexmask.long.tbyte 0x28 0.--17. 1. "PHY_GTLVL_STATUS_OBS_2,Observation register containing gate training status for slice 2. READ-ONLY" line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_569," hexmask.long.word 0x2C 16.--25. 1. "PHY_RDLVL_RDDQS_DQ_TE_DLY_OBS_2,Observation register containing read leveling data window trailing edge target delay setting for slice 2. READ-ONLY" newline hexmask.long.word 0x2C 0.--9. 1. "PHY_RDLVL_RDDQS_DQ_LE_DLY_OBS_2,Observation register containing read leveling data window leading edge target delay setting for slice 2. READ-ONLY" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_570," bitfld.long 0x30 0.--1. "PHY_RDLVL_RDDQS_DQ_NUM_WINDOWS_OBS_2,Observation register containing read leveling number of windows found for slice 2. READ-ONLY" "0,1,2,3" line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_571," hexmask.long 0x34 0.--31. 1. "PHY_RDLVL_STATUS_OBS_2,Observation register containing read leveling status for slice 2. READ-ONLY" line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_572," hexmask.long.word 0x38 16.--26. 1. "PHY_WDQLVL_DQDM_TE_DLY_OBS_2,Observation register containing write data leveling data window trailing edge target delay setting for slice 2. READ-ONLY" newline hexmask.long.word 0x38 0.--10. 1. "PHY_WDQLVL_DQDM_LE_DLY_OBS_2,Observation register containing write data leveling data window leading edge target delay setting for slice 2. READ-ONLY" line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_573," hexmask.long 0x3C 0.--31. 1. "PHY_WDQLVL_STATUS_OBS_2,Observation register containing write data leveling status for slice 2. READ-ONLY" line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_574," hexmask.long 0x40 0.--31. 1. "PHY_WDQLVL_PERIODIC_OBS_2,Observation register containing periodic write data leveling status for slice 2. READ-ONLY" group.long 0x48FC++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_575," hexmask.long 0x0 0.--30. 1. "PHY_DDL_MODE_2,DDL mode for slice 2." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_576," hexmask.long.byte 0x4 0.--5. 1. "PHY_DDL_MASK_2,DDL mask for slice 2." rgroup.long 0x4904++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_577," hexmask.long 0x0 0.--31. 1. "PHY_DDL_TEST_OBS_2,DDL test observation for slice 2. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_578," hexmask.long 0x4 0.--31. 1. "PHY_DDL_TEST_MSTR_DLY_OBS_2,DDL test observation delays for slice 2 controller DDL. READ-ONLY" group.long 0x490C++0x117 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_579," hexmask.long.word 0x0 16.--24. 1. "PHY_RX_CAL_DQ0_2,RX Calibration codes for DQ0 for slice 2. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline bitfld.long 0x0 8. "PHY_LP4_WDQS_OE_EXTEND_2,LPDDR4 write preamble extension enable for slice 2." "0,1" newline hexmask.long.byte 0x0 0.--7. 1. "PHY_DDL_TRACK_UPD_THRESHOLD_2,Specify threshold value for PHY init update tracking for slice 2." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_580," hexmask.long.word 0x4 16.--24. 1. "PHY_RX_CAL_DQ2_2,RX Calibration codes for DQ2 for slice 2. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline hexmask.long.word 0x4 0.--8. 1. "PHY_RX_CAL_DQ1_2,RX Calibration codes for DQ1 for slice 2. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_581," hexmask.long.word 0x8 16.--24. 1. "PHY_RX_CAL_DQ4_2,RX Calibration codes for DQ4 for slice 2. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline hexmask.long.word 0x8 0.--8. 1. "PHY_RX_CAL_DQ3_2,RX Calibration codes for DQ3 for slice 2. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_582," hexmask.long.word 0xC 16.--24. 1. "PHY_RX_CAL_DQ6_2,RX Calibration codes for DQ6 for slice 2. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline hexmask.long.word 0xC 0.--8. 1. "PHY_RX_CAL_DQ5_2,RX Calibration codes for DQ5 for slice 2. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_583," hexmask.long.word 0x10 0.--8. 1. "PHY_RX_CAL_DQ7_2,RX Calibration codes for DQ7 for slice 2. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_584," hexmask.long.tbyte 0x14 0.--17. 1. "PHY_RX_CAL_DM_2,RX Calibration codes for DM for slice 2. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_585," hexmask.long.word 0x18 16.--24. 1. "PHY_RX_CAL_FDBK_2,RX Calibration codes for FDBK for slice 2. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline hexmask.long.word 0x18 0.--8. 1. "PHY_RX_CAL_DQS_2,RX Calibration codes for DQS for slice 2. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_586," hexmask.long.byte 0x1C 24.--31. 1. "PHY_DATA_DC_CAL_SAMPLE_WAIT_2,Determines number of cycles to wait for each sample for slice 2." newline hexmask.long.byte 0x1C 16.--20. 1. "PHY_STATIC_TOG_DISABLE_2,Control to disable toggle during static activity for slice 2. bit0: Write path delay line disable; bit1: Read path delay line disable; bit2: Read data path disable; bit3: clk_phy disable; bit4: controller delay line disable." newline hexmask.long.word 0x1C 0.--10. 1. "PHY_PAD_RX_BIAS_EN_2,Controls RX_BIAS_EN pin for each pad for slice 2." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_587," hexmask.long.byte 0x20 24.--31. 1. "PHY_DATA_DC_ADJUST_SAMPLE_CNT_2,Duty cycle adjust sample count for slice 2." newline hexmask.long.byte 0x20 16.--21. 1. "PHY_DATA_DC_ADJUST_START_2,Duty cycle adjust starting value for slice 2." newline bitfld.long 0x20 8.--9. "PHY_DATA_DC_WEIGHT_2,Determines weight of average calculating for slice 2." "0,1,2,3" newline hexmask.long.byte 0x20 0.--7. 1. "PHY_DATA_DC_CAL_TIMEOUT_2,Determines timeout number of iteration for slice 2." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_588," bitfld.long 0x24 24. "PHY_DATA_DC_CAL_START_2,Manual trigger for DCC for slice 2." "0,1" newline bitfld.long 0x24 16. "PHY_DATA_DC_CAL_POLARITY_2,Calibration polarity for slice 2." "0,1" newline bitfld.long 0x24 8. "PHY_DATA_DC_ADJUST_DIRECT_2,Adjust direction for slice 2." "0,1" newline hexmask.long.byte 0x24 0.--7. 1. "PHY_DATA_DC_ADJUST_THRSHLD_2,Duty cycle adjust threshold around the mid-point for slice 2." line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_589," bitfld.long 0x28 24. "PHY_RDPATH_GATE_DISABLE_2,Data slice read path power reduction disable for slice 2." "0,1" newline bitfld.long 0x28 16. "PHY_SLV_DLY_CTRL_GATE_DISABLE_2,Data slice slv_dly_control block power reduction disable for slice 2." "0,1" newline bitfld.long 0x28 8.--10. "PHY_FDBK_PWR_CTRL_2,Shutoff gate feedback IO to reduce power for slice 2." "0,1,2,3,4,5,6,7" newline bitfld.long 0x28 0.--1. "PHY_DATA_DC_SW_RANK_2,Rank selection for software based duty cycle correction for slice 2." "0,1,2,3" line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_590," bitfld.long 0x2C 8. "PHY_SLICE_PWR_RDC_DISABLE_2,Data slice power reduction disable for slice 2." "0,1" newline bitfld.long 0x2C 0. "PHY_DCC_RXCAL_CTRL_GATE_DISABLE_2,Data slice DCC and RX_CAL block power reduction disable for slice 2." "0,1" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_591," bitfld.long 0x30 24.--26. "PHY_DQS_TSEL_ENABLE_2,Operation type tsel enables for DQS signals for slice 2. Bit [0] enables tsel_en during read cycles. Bit [1] enables tsel_en during write cycles. Bit [2] enables tsel_en during idle cycles. Set each bit to 1 to enable." "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x30 8.--23. 1. "PHY_DQ_TSEL_SELECT_2,Operation type tsel select values for DQ/DM signals for slice 2." newline bitfld.long 0x30 0.--2. "PHY_DQ_TSEL_ENABLE_2,Operation type tsel enables for DQ/DM signals for slice 2. Bit [0] enables tsel_en during read cycles. Bit [1] enables tsel_en during write cycles. Bit [2] enables tsel_en during idle cycles. Set each bit to 1 to enable." "0,1,2,3,4,5,6,7" line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_592," hexmask.long.byte 0x34 24.--30. 1. "PHY_VREF_INITIAL_START_POINT_2,Data slice initial VREF training start value for slice 2." newline bitfld.long 0x34 16.--17. "PHY_TWO_CYC_PREAMBLE_2,2 cycle preamble support for slice 2. Bit [0] controls the 2 cycle read preamble. Bit [1] controls the 2 cycle write preamble. Set each bit to 1 to enable." "0,1,2,3" newline hexmask.long.word 0x34 0.--15. 1. "PHY_DQS_TSEL_SELECT_2,Operation type tsel select values for DQS signals for slice 2." line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_593," hexmask.long.byte 0x38 24.--31. 1. "PHY_NTP_WDQ_STEP_SIZE_2,Step size of WR DQ target delay during No-Topology training for slice 2." newline bitfld.long 0x38 16. "PHY_NTP_TRAIN_EN_2,Enable for No-Topology training for slice 2." "0,1" newline bitfld.long 0x38 8.--9. "PHY_VREF_TRAINING_CTRL_2,Data slice vref training enable control for slice 2." "0,1,2,3" newline hexmask.long.byte 0x38 0.--6. 1. "PHY_VREF_INITIAL_STOP_POINT_2,Data slice initial VREF training stop value for slice 2." line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_594," hexmask.long.word 0x3C 16.--26. 1. "PHY_NTP_WDQ_STOP_2,End of WR DQ target delay in No-Topology training for slice 2." newline hexmask.long.word 0x3C 0.--10. 1. "PHY_NTP_WDQ_START_2,Starting WR DQ target delay in No-Topology training for slice 2." line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_595," bitfld.long 0x40 24. "PHY_SW_WDQLVL_DVW_MIN_EN_2,SW override to enable use of PHY_WDQLVL_DVW_MIN for slice 2." "0,1" newline hexmask.long.word 0x40 8.--17. 1. "PHY_WDQLVL_DVW_MIN_2,Minimum data valid window across DQs and ranks for slice 2." newline hexmask.long.byte 0x40 0.--7. 1. "PHY_NTP_WDQ_BIT_EN_2,Enable Bit for WR DQ during No-Topology training for slice 2." line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_596," hexmask.long.byte 0x44 24.--28. 1. "PHY_PAD_RX_DCD_0_2,Controls RX_DCD pin for each pad for slice 2." newline hexmask.long.byte 0x44 16.--20. 1. "PHY_PAD_TX_DCD_2,Controls TX_DCD pin for each pad for slice 2." newline hexmask.long.byte 0x44 8.--11. 1. "PHY_FAST_LVL_EN_2,Enable for fast multi-pattern window search for slice 2." newline hexmask.long.byte 0x44 0.--5. 1. "PHY_WDQLVL_PER_START_OFFSET_2,Peridic training start point offset for slice 2." line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_597," hexmask.long.byte 0x48 24.--28. 1. "PHY_PAD_RX_DCD_4_2,Controls RX_DCD pin for each pad for slice 2." newline hexmask.long.byte 0x48 16.--20. 1. "PHY_PAD_RX_DCD_3_2,Controls RX_DCD pin for each pad for slice 2." newline hexmask.long.byte 0x48 8.--12. 1. "PHY_PAD_RX_DCD_2_2,Controls RX_DCD pin for each pad for slice 2." newline hexmask.long.byte 0x48 0.--4. 1. "PHY_PAD_RX_DCD_1_2,Controls RX_DCD pin for each pad for slice 2." line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_598," hexmask.long.byte 0x4C 24.--28. 1. "PHY_PAD_DM_RX_DCD_2,Controls RX_DCD pin for dm pad for slice 2." newline hexmask.long.byte 0x4C 16.--20. 1. "PHY_PAD_RX_DCD_7_2,Controls RX_DCD pin for each pad for slice 2." newline hexmask.long.byte 0x4C 8.--12. 1. "PHY_PAD_RX_DCD_6_2,Controls RX_DCD pin for each pad for slice 2." newline hexmask.long.byte 0x4C 0.--4. 1. "PHY_PAD_RX_DCD_5_2,Controls RX_DCD pin for each pad for slice 2." line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_599," hexmask.long.byte 0x50 16.--22. 1. "PHY_PAD_DSLICE_IO_CFG_2,Controls PCLK/PARK pin for pad for slice 2." newline hexmask.long.byte 0x50 8.--12. 1. "PHY_PAD_FDBK_RX_DCD_2,Controls RX_DCD pin for fdbk pad for slice 2." newline hexmask.long.byte 0x50 0.--4. 1. "PHY_PAD_DQS_RX_DCD_2,Controls RX_DCD pin for dqs pad for slice 2." line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_600," hexmask.long.word 0x54 16.--25. 1. "PHY_RDDQ1_SLAVE_DELAY_2,Read DQ1 target delay setting for slice 2." newline hexmask.long.word 0x54 0.--9. 1. "PHY_RDDQ0_SLAVE_DELAY_2,Read DQ0 target delay setting for slice 2." line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_601," hexmask.long.word 0x58 16.--25. 1. "PHY_RDDQ3_SLAVE_DELAY_2,Read DQ3 target delay setting for slice 2." newline hexmask.long.word 0x58 0.--9. 1. "PHY_RDDQ2_SLAVE_DELAY_2,Read DQ2 target delay setting for slice 2." line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_602," hexmask.long.word 0x5C 16.--25. 1. "PHY_RDDQ5_SLAVE_DELAY_2,Read DQ5 target delay setting for slice 2." newline hexmask.long.word 0x5C 0.--9. 1. "PHY_RDDQ4_SLAVE_DELAY_2,Read DQ4 target delay setting for slice 2." line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_603," hexmask.long.word 0x60 16.--25. 1. "PHY_RDDQ7_SLAVE_DELAY_2,Read DQ7 target delay setting for slice 2." newline hexmask.long.word 0x60 0.--9. 1. "PHY_RDDQ6_SLAVE_DELAY_2,Read DQ6 target delay setting for slice 2." line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_604," hexmask.long.byte 0x64 24.--28. 1. "PHY_RX_CAL_ALL_DLY_2,Defines the number of cycles/half cycles that the rx_cal_all_opad signal should be asserted for. There is a phy_rx_cal_all_dly_X parameter for each of the slices of data sent on the DFI data bus for slice 2." newline bitfld.long 0x64 16.--18. "PHY_RX_PCLK_CLK_SEL_2,RX_PCLK clock frequency selection for slice 2." "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x64 0.--9. 1. "PHY_RDDM_SLAVE_DELAY_2,Read DM/DBI target delay setting for slice 2. May be used for data swap." line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_605," bitfld.long 0x68 0.--2. "PHY_DATA_DC_CAL_CLK_SEL_2,Determines DCC CAL clock for slice 2." "0,1,2,3,4,5,6,7" line.long 0x6C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_606," hexmask.long.byte 0x6C 24.--31. 1. "PHY_DQS_OE_TIMING_2,Start/end timing values for DQS output enable signals for slice 2." newline hexmask.long.byte 0x6C 16.--23. 1. "PHY_DQ_TSEL_WR_TIMING_2,Start/end timing values for DQ/DM write based termination enable and select signals for slice 2." newline hexmask.long.byte 0x6C 8.--15. 1. "PHY_DQ_TSEL_RD_TIMING_2,Start/end timing values for DQ/DM read based termination enable and select signals for slice 2." newline hexmask.long.byte 0x6C 0.--7. 1. "PHY_DQ_OE_TIMING_2,Start/end timing values for DQ/DM output enable signals for slice 2." line.long 0x70 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_607," hexmask.long.byte 0x70 24.--31. 1. "PHY_DQS_TSEL_WR_TIMING_2,Start/end timing values for DQS write based termination enable and select signals for slice 2." newline hexmask.long.byte 0x70 16.--23. 1. "PHY_DQS_OE_RD_TIMING_2,Start/end timing values for DQS read based OE extension for slice 2." newline hexmask.long.byte 0x70 8.--15. 1. "PHY_DQS_TSEL_RD_TIMING_2,Start/end timing values for DQS read based termination enable and select signals for slice 2." newline hexmask.long.byte 0x70 0.--3. 1. "PHY_IO_PAD_DELAY_TIMING_2,Feedback pad's OPAD and IPAD delay timing for slice 2." line.long 0x74 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_608," hexmask.long.word 0x74 16.--27. 1. "PHY_PAD_VREF_CTRL_DQ_2,Pad VREF control settings for DQ slice 2." newline hexmask.long.word 0x74 0.--15. 1. "PHY_VREF_SETTING_TIME_2,Number of cycles for vref settle after setting is changed for slice 2." line.long 0x78 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_609," bitfld.long 0x78 24.--25. "PHY_RDDATA_EN_IE_DLY_2,Number of cycles that the dfi_rddata_en signal is earlier than necessary for input enable generation for slice 2." "0,1,2,3" newline hexmask.long.byte 0x78 16.--23. 1. "PHY_DQS_IE_TIMING_2,Start/end timing values for DQS input enable signals for slice 2." newline hexmask.long.byte 0x78 8.--15. 1. "PHY_DQ_IE_TIMING_2,Start/end timing values for DQ/DM input enable signals for slice 2." newline bitfld.long 0x78 0. "PHY_PER_CS_TRAINING_EN_2,Enables the per-rank training and read/write timing capabilities for slice 2. Must have same value in all slices." "0,1" line.long 0x7C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_610," hexmask.long.byte 0x7C 24.--28. 1. "PHY_WDQLVL_RDDATA_EN_DLY_2,For WR DQ training the number of cycles that the dfi_rddata_en signal is early for slice 2." newline bitfld.long 0x7C 16. "PHY_WDQLVL_IE_ON_2,IE control 1 meams IE is always on during WR DQ training for slice 2." "0,1" newline bitfld.long 0x7C 8.--9. "PHY_DBI_MODE_2,DBI mode for slice 2. Bit [0] enables return of DBI read data." "0,1,2,3" newline bitfld.long 0x7C 0.--1. "PHY_IE_MODE_2,Input enable mode bits for slice 2. Bit [0] enables the mode where the input enables are always on; set to 1 to enable. Bit [1] disables the input enable on the DM signal; set to 1 to disable." "0,1,2,3" line.long 0x80 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_611," hexmask.long.byte 0x80 24.--27. 1. "PHY_SW_MASTER_MODE_2,Controller delay line override settings for slice 2. Bit [0] enables software half clock mode. Bit [1] is the software half clock mode value. Bit [2] enables software bypass mode. Bit [3] is the software bypass mode value." newline hexmask.long.byte 0x80 16.--20. 1. "PHY_RDDATA_EN_OE_DLY_2,Number of cycles that the dfi_rddata_en signal is earlier than necessary for LP4 OE extension generation for slice 2." newline hexmask.long.byte 0x80 8.--12. 1. "PHY_RDDATA_EN_TSEL_DLY_2,Number of cycles that the dfi_rddata_en signal is earlier than necessary for TSEL enable generation for slice 2." newline hexmask.long.byte 0x80 0.--4. 1. "PHY_WDQLVL_RDDATA_EN_TSEL_DLY_2,For WR DQ training the number of cycles that the dfi_rddata_en signal is earlier than necessary for TSEL enable generation for slice 2." line.long 0x84 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_612," hexmask.long.byte 0x84 24.--31. 1. "PHY_MASTER_DELAY_WAIT_2,Wait cycles for controller delay line locking algorithm for slice 2. Bits [3:0] are the cycle wait count after a calibration clock setting change. Bits [7:4] are the cycle wait count after a controller delay setting change." newline hexmask.long.byte 0x84 16.--21. 1. "PHY_MASTER_DELAY_STEP_2,Incremental step size for controller delay line locking algorithm for slice 2." newline hexmask.long.word 0x84 0.--10. 1. "PHY_MASTER_DELAY_START_2,Start value for controller delay line locking algorithm for slice 2." line.long 0x88 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_613," hexmask.long.byte 0x88 24.--27. 1. "PHY_WRLVL_DLY_FINE_STEP_2,DQS target delay fine step size during write leveling for slice 2." newline hexmask.long.byte 0x88 16.--23. 1. "PHY_WRLVL_DLY_STEP_2,DQS target delay step size during write leveling for slice 2." newline hexmask.long.byte 0x88 8.--11. 1. "PHY_RPTR_UPDATE_2,Offset in cycles from the dfi_rddata_en signal to release data from the entry FIFO for slice 2." newline hexmask.long.byte 0x88 0.--7. 1. "PHY_MASTER_DELAY_HALF_MEASURE_2,Defines the number of delay line elements to be considered in determing whether to lock to a half clock cycle in the data slice controller for slice 2." line.long 0x8C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_614," hexmask.long.byte 0x8C 16.--20. 1. "PHY_GTLVL_RESP_WAIT_CNT_2,Number of cycles + 4 to wait between dfi_rddata_en and the sampling of the DQS during gate training for slice 2. The valid range is 0x0 to 0xB." newline hexmask.long.byte 0x8C 8.--11. 1. "PHY_GTLVL_DLY_STEP_2,DQS target delay step size during gate training for slice 2." newline hexmask.long.byte 0x8C 0.--5. 1. "PHY_WRLVL_RESP_WAIT_CNT_2,Number of cycles to wait between dfi_wrlvl_strobe and the sampling of the DQs during write leveling for slice 2." line.long 0x90 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_615," hexmask.long.word 0x90 16.--25. 1. "PHY_GTLVL_FINAL_STEP_2,Final backup step delay used in gate training algorithm for slice 2." newline hexmask.long.word 0x90 0.--9. 1. "PHY_GTLVL_BACK_STEP_2,Interim backup step delay used in gate training algorithm for slice 2." line.long 0x94 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_616," hexmask.long.word 0x94 16.--24. 1. "PHY_WDQLVL_DM_SEARCH_RANGE_2,The dm target delay search range for non-lpddr4 DM training for slice 2." newline hexmask.long.byte 0x94 8.--11. 1. "PHY_WDQLVL_QTR_DLY_STEP_2,Defines the step granularity for the logic to use once an edge is found for slice 2. When this occurs the logic jumps back to the previous invalid value and uses this step size to determine a more accurate delay value." newline hexmask.long.byte 0x94 0.--7. 1. "PHY_WDQLVL_DLY_STEP_2,DQ target delay step size during write data leveling for slice 2." line.long 0x98 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_617," hexmask.long.byte 0x98 8.--11. 1. "PHY_RDLVL_DLY_STEP_2,DQS target delay step size during read leveling for slice 2." newline bitfld.long 0x98 0. "PHY_TOGGLE_PRE_SUPPORT_2,Support the toggle read preamble for LPDDR4 for slice 2." "0,1" line.long 0x9C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_618," hexmask.long.word 0x9C 0.--9. 1. "PHY_RDLVL_MAX_EDGE_2,The maximun rdlvl target delay search window for read eye training for slice 2." line.long 0xA0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_619," bitfld.long 0xA0 16.--17. "PHY_DATA_DC_INIT_DISABLE_2,Disable duty cycle adjust at initialization for slice 2." "0,1,2,3" newline bitfld.long 0xA0 8.--10. "PHY_WRPATH_GATE_TIMING_2,Write path clock gating timing for slice 2. it means additional clock number to write path clock gate" "0,1,2,3,4,5,6,7" newline bitfld.long 0xA0 0.--1. "PHY_WRPATH_GATE_DISABLE_2,Write path clock gating disable for slice 2. [0]: disable pull in wrdata_en; [1]: disable write path clock gating clock always on" "0,1,2,3" line.long 0xA4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_620," hexmask.long.word 0xA4 16.--26. 1. "PHY_DATA_DC_DQ_INIT_SLV_DELAY_2,Initial value of write DQ target delay for slice 2." newline hexmask.long.word 0xA4 0.--9. 1. "PHY_DATA_DC_DQS_INIT_SLV_DELAY_2,Initial value of write DQS target delay for slice 2." line.long 0xA8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_621," hexmask.long.byte 0xA8 24.--31. 1. "PHY_DATA_DC_DM_CLK_DIFF_THRSHLD_2,Clock measurement cell threshold offset for differential signals for slice 2." newline hexmask.long.byte 0xA8 16.--23. 1. "PHY_DATA_DC_DM_CLK_SE_THRSHLD_2,Clock measurement cell threshold offset for single ended signals for slice 2." newline bitfld.long 0xA8 8. "PHY_DATA_DC_WDQLVL_ENABLE_2,Enable duty cycle adjust during write DQ training for slice 2." "0,1" newline bitfld.long 0xA8 0. "PHY_DATA_DC_WRLVL_ENABLE_2,Enable duty cycle adjust during write leveling for slice 2." "0,1" line.long 0xAC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_622," hexmask.long.byte 0xAC 16.--20. 1. "PHY_RDDATA_EN_DLY_2,Number of cycles that the dfi_rddata_en signal is early for slice 2." newline hexmask.long.byte 0xAC 8.--14. 1. "PHY_MEAS_DLY_STEP_ENABLE_2,Data slice training step definition using phy_meas_dly_step_value for slice 2." newline hexmask.long.byte 0xAC 0.--6. 1. "PHY_WDQ_OSC_DELTA_2,Target delay offset that applies to a 1 bit change of dfi_wdq_osc_code for slice 2." line.long 0xB0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_623," hexmask.long 0xB0 0.--31. 1. "PHY_DQ_DM_SWIZZLE0_2,DQ/DM bit swizzling 0 for slice 2. Bits [3:0] inform the PHY which bit in {DM DQ]} map to DQ0 Bits [7:4] inform the PHY which bit in {DM DQ} map to DQ1 etc." line.long 0xB4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_624," hexmask.long.byte 0xB4 0.--3. 1. "PHY_DQ_DM_SWIZZLE1_2,DQ/DM bit swizzling 1 for slice 2. Bits [3:0] inform the PHY which bit in {DM DQ]} map to DM." line.long 0xB8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_625," hexmask.long.word 0xB8 16.--26. 1. "PHY_CLK_WRDQ1_SLAVE_DELAY_2,Write clock target delay setting for DQ1 for slice 2." newline hexmask.long.word 0xB8 0.--10. 1. "PHY_CLK_WRDQ0_SLAVE_DELAY_2,Write clock target delay setting for DQ0 for slice 2." line.long 0xBC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_626," hexmask.long.word 0xBC 16.--26. 1. "PHY_CLK_WRDQ3_SLAVE_DELAY_2,Write clock target delay setting for DQ3 for slice 2." newline hexmask.long.word 0xBC 0.--10. 1. "PHY_CLK_WRDQ2_SLAVE_DELAY_2,Write clock target delay setting for DQ2 for slice 2." line.long 0xC0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_627," hexmask.long.word 0xC0 16.--26. 1. "PHY_CLK_WRDQ5_SLAVE_DELAY_2,Write clock target delay setting for DQ5 for slice 2." newline hexmask.long.word 0xC0 0.--10. 1. "PHY_CLK_WRDQ4_SLAVE_DELAY_2,Write clock target delay setting for DQ4 for slice 2." line.long 0xC4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_628," hexmask.long.word 0xC4 16.--26. 1. "PHY_CLK_WRDQ7_SLAVE_DELAY_2,Write clock target delay setting for DQ7 for slice 2." newline hexmask.long.word 0xC4 0.--10. 1. "PHY_CLK_WRDQ6_SLAVE_DELAY_2,Write clock target delay setting for DQ6 for slice 2." line.long 0xC8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_629," hexmask.long.word 0xC8 16.--25. 1. "PHY_CLK_WRDQS_SLAVE_DELAY_2,Write clock target delay setting for DQS for slice 2." newline hexmask.long.word 0xC8 0.--10. 1. "PHY_CLK_WRDM_SLAVE_DELAY_2,Write clock target delay setting for DM for slice 2." line.long 0xCC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_630," hexmask.long.word 0xCC 8.--17. 1. "PHY_RDDQS_DQ0_RISE_SLAVE_DELAY_2,Rising edge read DQS target delay setting for DQ0 for slice 2." newline bitfld.long 0xCC 0.--1. "PHY_WRLVL_THRESHOLD_ADJUST_2,Write level threshold adjust value based on those thresholds for DQS for slice 2." "0,1,2,3" line.long 0xD0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_631," hexmask.long.word 0xD0 16.--25. 1. "PHY_RDDQS_DQ1_RISE_SLAVE_DELAY_2,Rising edge read DQS target delay setting for DQ1 for slice 2." newline hexmask.long.word 0xD0 0.--9. 1. "PHY_RDDQS_DQ0_FALL_SLAVE_DELAY_2,Falling edge read DQS target delay setting for DQ0 for slice 2." line.long 0xD4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_632," hexmask.long.word 0xD4 16.--25. 1. "PHY_RDDQS_DQ2_RISE_SLAVE_DELAY_2,Rising edge read DQS target delay setting for DQ2 for slice 2." newline hexmask.long.word 0xD4 0.--9. 1. "PHY_RDDQS_DQ1_FALL_SLAVE_DELAY_2,Falling edge read DQS target delay setting for DQ1 for slice 2." line.long 0xD8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_633," hexmask.long.word 0xD8 16.--25. 1. "PHY_RDDQS_DQ3_RISE_SLAVE_DELAY_2,Rising edge read DQS target delay setting for DQ3 for slice 2." newline hexmask.long.word 0xD8 0.--9. 1. "PHY_RDDQS_DQ2_FALL_SLAVE_DELAY_2,Falling edge read DQS target delay setting for DQ2 for slice 2." line.long 0xDC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_634," hexmask.long.word 0xDC 16.--25. 1. "PHY_RDDQS_DQ4_RISE_SLAVE_DELAY_2,Rising edge read DQS target delay setting for DQ4 for slice 2." newline hexmask.long.word 0xDC 0.--9. 1. "PHY_RDDQS_DQ3_FALL_SLAVE_DELAY_2,Falling edge read DQS target delay setting for DQ3 for slice 2." line.long 0xE0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_635," hexmask.long.word 0xE0 16.--25. 1. "PHY_RDDQS_DQ5_RISE_SLAVE_DELAY_2,Rising edge read DQS target delay setting for DQ5 for slice 2." newline hexmask.long.word 0xE0 0.--9. 1. "PHY_RDDQS_DQ4_FALL_SLAVE_DELAY_2,Falling edge read DQS target delay setting for DQ4 for slice 2." line.long 0xE4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_636," hexmask.long.word 0xE4 16.--25. 1. "PHY_RDDQS_DQ6_RISE_SLAVE_DELAY_2,Rising edge read DQS target delay setting for DQ6 for slice 2." newline hexmask.long.word 0xE4 0.--9. 1. "PHY_RDDQS_DQ5_FALL_SLAVE_DELAY_2,Falling edge read DQS target delay setting for DQ5 for slice 2." line.long 0xE8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_637," hexmask.long.word 0xE8 16.--25. 1. "PHY_RDDQS_DQ7_RISE_SLAVE_DELAY_2,Rising edge read DQS target delay setting for DQ7 for slice 2." newline hexmask.long.word 0xE8 0.--9. 1. "PHY_RDDQS_DQ6_FALL_SLAVE_DELAY_2,Falling edge read DQS target delay setting for DQ6 for slice 2." line.long 0xEC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_638," hexmask.long.word 0xEC 16.--25. 1. "PHY_RDDQS_DM_RISE_SLAVE_DELAY_2,Rising edge read DQS target delay setting for DM for slice 2." newline hexmask.long.word 0xEC 0.--9. 1. "PHY_RDDQS_DQ7_FALL_SLAVE_DELAY_2,Falling edge read DQS target delay setting for DQ7 for slice 2." line.long 0xF0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_639," hexmask.long.word 0xF0 16.--25. 1. "PHY_RDDQS_GATE_SLAVE_DELAY_2,Read DQS target delay setting for slice 2." newline hexmask.long.word 0xF0 0.--9. 1. "PHY_RDDQS_DM_FALL_SLAVE_DELAY_2,Falling edge read DQS target delay setting for DM for slice 2." line.long 0xF4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_640," hexmask.long.word 0xF4 16.--25. 1. "PHY_WRLVL_DELAY_EARLY_THRESHOLD_2,Write level delay threshold above which will be considered in previous cycle for slice 2." newline bitfld.long 0xF4 8.--10. "PHY_WRITE_PATH_LAT_ADD_2,Number of cycles to delay the incoming dfi_wrdata_en/dfi_wrdata signals for slice 2." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0xF4 0.--3. 1. "PHY_RDDQS_LATENCY_ADJUST_2,Number of cycles to delay the incoming dfi_rddata_en for read DQS gate generation for slice 2." line.long 0xF8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_641," bitfld.long 0xF8 16. "PHY_WRLVL_EARLY_FORCE_ZERO_2,Force the final write level delay value [that meets the early threshold] to 0 for slice 2." "0,1" newline hexmask.long.word 0xF8 0.--9. 1. "PHY_WRLVL_DELAY_PERIOD_THRESHOLD_2,Write level delay threshold below which will add a cycle of write path latency for slice 2." line.long 0xFC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_642," hexmask.long.byte 0xFC 16.--19. 1. "PHY_GTLVL_LAT_ADJ_START_2,Initial read DQS gate cycle delay from dfi_rddata_en during gate training for slice 2." newline hexmask.long.word 0xFC 0.--9. 1. "PHY_GTLVL_RDDQS_SLV_DLY_START_2,Initial read DQS gate target delay setting during gate training for slice 2." line.long 0x100 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_643," bitfld.long 0x100 24. "PHY_NTP_PASS_2,Indicates if No-topology training found a passing result for slice 2." "0,1" newline hexmask.long.byte 0x100 16.--19. 1. "PHY_NTP_WRLAT_START_2,Initial value for phy_write_path_lat_add for No-topology training and early threshold for slice 2." newline hexmask.long.word 0x100 0.--10. 1. "PHY_WDQLVL_DQDM_SLV_DLY_START_2,Initial DQ/DM target delay setting during write data leveling for slice 2." line.long 0x104 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_644," hexmask.long.word 0x104 0.--9. 1. "PHY_RDLVL_RDDQS_DQ_SLV_DLY_START_2,Read leveling starting value for the DQS/DQ target delay settings for slice 2." line.long 0x108 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_645," hexmask.long.byte 0x108 24.--31. 1. "PHY_DATA_DC_DQ2_CLK_ADJUST_2,Adjust value of Duty Cycle Adjuster for slice 2." newline hexmask.long.byte 0x108 16.--23. 1. "PHY_DATA_DC_DQ1_CLK_ADJUST_2,Adjust value of Duty Cycle Adjuster for slice 2." newline hexmask.long.byte 0x108 8.--15. 1. "PHY_DATA_DC_DQ0_CLK_ADJUST_2,Adjust value of Duty Cycle Adjuster for slice 2." newline hexmask.long.byte 0x108 0.--7. 1. "PHY_DATA_DC_DQS_CLK_ADJUST_2,Adjust value of Duty Cycle Adjuster for slice 2." line.long 0x10C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_646," hexmask.long.byte 0x10C 24.--31. 1. "PHY_DATA_DC_DQ6_CLK_ADJUST_2,Adjust value of Duty Cycle Adjuster for slice 2." newline hexmask.long.byte 0x10C 16.--23. 1. "PHY_DATA_DC_DQ5_CLK_ADJUST_2,Adjust value of Duty Cycle Adjuster for slice 2." newline hexmask.long.byte 0x10C 8.--15. 1. "PHY_DATA_DC_DQ4_CLK_ADJUST_2,Adjust value of Duty Cycle Adjuster for slice 2." newline hexmask.long.byte 0x10C 0.--7. 1. "PHY_DATA_DC_DQ3_CLK_ADJUST_2,Adjust value of Duty Cycle Adjuster for slice 2." line.long 0x110 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_647," hexmask.long.word 0x110 16.--31. 1. "PHY_DSLICE_PAD_BOOSTPN_SETTING_2,Setting for boost P/N of pad for slice 2." newline hexmask.long.byte 0x110 8.--15. 1. "PHY_DATA_DC_DM_CLK_ADJUST_2,Adjust value of Duty Cycle Adjuster for slice 2." newline hexmask.long.byte 0x110 0.--7. 1. "PHY_DATA_DC_DQ7_CLK_ADJUST_2,Adjust value of Duty Cycle Adjuster for slice 2." line.long 0x114 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_648," bitfld.long 0x114 16.--17. "PHY_DQS_FFE_2,TX_FFE setting for DQS pad for slice 2." "0,1,2,3" newline bitfld.long 0x114 8.--9. "PHY_DQ_FFE_2,TX_FFE setting for DQ/DM pad for slice 2." "0,1,2,3" newline hexmask.long.byte 0x114 0.--5. 1. "PHY_DSLICE_PAD_RX_CTLE_SETTING_2,Setting for RX ctle P/N of pad for slice 2." group.long 0x4C00++0x2B line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_768," hexmask.long.word 0x0 16.--26. 1. "PHY_CLK_WR_BYPASS_SLAVE_DELAY_3,Write data clock bypass mode target delay setting for slice 3." newline hexmask.long.byte 0x0 8.--14. 1. "PHY_LP4_BOOT_PAD_DSLICE_IO_CFG_3,Controls PCLK/PARK pin for pad for slice 3 with boot frequency." newline bitfld.long 0x0 0.--2. "PHY_LP4_BOOT_RX_PCLK_CLK_SEL_3,RX_PCLK boot clock frequency selection for slice 3." "0,1,2,3,4,5,6,7" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_769," bitfld.long 0x4 24.--26. "PHY_WRITE_PATH_LAT_ADD_BYPASS_3,Number of cycles on bypass mode to delay the incoming dfi_wrdata_en/dfi_wrdata signals for slice 3." "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x4 8.--17. 1. "PHY_CLK_WRDQS_SLAVE_DELAY_BYPASS_3,Write DQS bypass mode target delay setting for slice 3." newline hexmask.long.byte 0x4 0.--3. 1. "PHY_IO_PAD_DELAY_TIMING_BYPASS_3,Feedback pad's OPAD and IPAD delay timing on bypass mode for slice 3." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_770," bitfld.long 0x8 24. "PHY_CLK_BYPASS_OVERRIDE_3,Bypass mode override setting for slice 3." "0,1" newline bitfld.long 0x8 16.--17. "PHY_BYPASS_TWO_CYC_PREAMBLE_3,Two_cycle_preamble for bypass mode for slice 3." "0,1,2,3" newline hexmask.long.word 0x8 0.--9. 1. "PHY_RDDQS_GATE_BYPASS_SLAVE_DELAY_3,Read DQS bypass mode target delay setting for slice 3." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_771," hexmask.long.byte 0xC 24.--29. 1. "PHY_SW_WRDQ3_SHIFT_3,Manual override of automatic half_cycle_shift/cycle_shift for write DQ3 for slice 3. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0xC 16.--21. 1. "PHY_SW_WRDQ2_SHIFT_3,Manual override of automatic half_cycle_shift/cycle_shift for write DQ2 for slice 3. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0xC 8.--13. 1. "PHY_SW_WRDQ1_SHIFT_3,Manual override of automatic half_cycle_shift/cycle_shift for write DQ1 for slice 3. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0xC 0.--5. 1. "PHY_SW_WRDQ0_SHIFT_3,Manual override of automatic half_cycle_shift/cycle_shift for write DQ0 for slice 3. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_772," hexmask.long.byte 0x10 24.--29. 1. "PHY_SW_WRDQ7_SHIFT_3,Manual override of automatic half_cycle_shift/cycle_shift for write DQ7 for slice 3. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0x10 16.--21. 1. "PHY_SW_WRDQ6_SHIFT_3,Manual override of automatic half_cycle_shift/cycle_shift for write DQ6 for slice 3. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0x10 8.--13. 1. "PHY_SW_WRDQ5_SHIFT_3,Manual override of automatic half_cycle_shift/cycle_shift for write DQ5 for slice 3. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." newline hexmask.long.byte 0x10 0.--5. 1. "PHY_SW_WRDQ4_SHIFT_3,Manual override of automatic half_cycle_shift/cycle_shift for write DQ4 for slice 3. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_773," bitfld.long 0x14 24. "PHY_PER_CS_TRAINING_MULTICAST_EN_3,When set a register write will update parameters for all ranks at the same time in slice 3. Set to 1 to enable." "0,1" newline bitfld.long 0x14 16.--17. "PHY_PER_RANK_CS_MAP_3,Per-rank CS map for slice 3. Setting a bit uses that CS for the rank bit [0] uses CS0 bit [1] uses CS1 etc." "0,1,2,3" newline hexmask.long.byte 0x14 8.--11. 1. "PHY_SW_WRDQS_SHIFT_3,Manual override of automatic half_cycle_shift/cycle_shift for write DQS for slice 3. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bit [3] is the.." newline hexmask.long.byte 0x14 0.--5. 1. "PHY_SW_WRDM_SHIFT_3,Manual override of automatic half_cycle_shift/cycle_shift for write DM for slice 3. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3] are the.." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_774," hexmask.long.byte 0x18 24.--28. 1. "PHY_LP4_BOOT_RDDATA_EN_TSEL_DLY_3,For LPDDR4 boot frequency the number of cycles that the dfi_rddata_en signal is earlier than necessary for TSEL enable generation for slice 3." newline hexmask.long.byte 0x18 16.--20. 1. "PHY_LP4_BOOT_RDDATA_EN_DLY_3,For LPDDR4 boot frequency the number of cycles that the dfi_rddata_en signal is early for slice 3." newline bitfld.long 0x18 8.--9. "PHY_LP4_BOOT_RDDATA_EN_IE_DLY_3,For LPDDR4 boot frequency the number of cycles that the dfi_rddata_en signal is earlier than necessary for input enable generation for slice 3." "0,1,2,3" newline bitfld.long 0x18 0. "PHY_PER_CS_TRAINING_INDEX_3,For per-rank training indicates which rank's paramters are read/written for slice 3." "0,1" line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_775," hexmask.long.byte 0x1C 24.--28. 1. "PHY_LP4_BOOT_RDDATA_EN_OE_DLY_3,For LPDDR4 boot frequency the number of cycles that the dfi_rddata_en signal is earlier than necessary for extended OE generation for slice 3." newline bitfld.long 0x1C 16.--17. "PHY_LP4_BOOT_WRPATH_GATE_DISABLE_3,For LPDDR4 boot frequency write path clock gating disable for slice 3. Bit [0]: disable pull in wrdata_en; Bit [1]: disable write path clock gating clock always on" "0,1,2,3" newline hexmask.long.byte 0x1C 8.--11. 1. "PHY_LP4_BOOT_RDDQS_LATENCY_ADJUST_3,For LPDDR4 boot frequency the number of cycles to delay the incoming dfi_rddata_en for read DQS gate generation for slice 3." newline hexmask.long.byte 0x1C 0.--3. 1. "PHY_LP4_BOOT_RPTR_UPDATE_3,For LPDDR4 boot frequency the offset in cycles from the dfi_rddata_en signal to releasing data from the entry FIFO for slice 3." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_776," bitfld.long 0x20 24. "PHY_LPBK_DFX_TIMEOUT_EN_3,Loopback read only test timeout mechanism enable for slice 3." "0,1" newline hexmask.long.word 0x20 8.--16. 1. "PHY_LPBK_CONTROL_3,Loopback control bits for slice 3." newline bitfld.long 0x20 0.--1. "PHY_CTRL_LPBK_EN_3,Loopback control en for slice 3." "0,1,2,3" line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_777," bitfld.long 0x24 0. "PHY_GATE_DELAY_COMP_DISABLE_3,use the control whether to compensate half_cycle when gate_target_delay is larger than half_cycle for the gate close for slice 3." "0,1" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_778," hexmask.long 0x28 0.--31. 1. "PHY_AUTO_TIMING_MARGIN_CONTROL_3,Auto timing marging control bits for slice 3." rgroup.long 0x4C2C++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_779," hexmask.long 0x0 0.--27. 1. "PHY_AUTO_TIMING_MARGIN_OBS_3,Observation register for the auto_timing_margin for slice 3. READ-ONLY" group.long 0x4C30++0x17 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_780," hexmask.long.byte 0x0 24.--30. 1. "PHY_PRBS_PATTERN_START_3,PRBS7 start pattern for slice 3." newline bitfld.long 0x0 16. "PHY_PDA_MODE_EN_3,When set to 1 the invalid DQs will be driven by the dfi_wrdata to make sure the tpda_s and tpda_h's timing is meet for slice 3." "0,1" newline hexmask.long.word 0x0 0.--8. 1. "PHY_DQ_IDLE_3,When set to 1 the inavlid DQ will be driven to high when set to 0 the invalid DQ will be driven to low for slice 3." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_781," bitfld.long 0x4 24. "PHY_RDLVL_MULTI_PATT_RST_DISABLE_3,Read Leveling read level windows disable reset for slice 3." "0,1" newline bitfld.long 0x4 16. "PHY_RDLVL_MULTI_PATT_ENABLE_3,Read Leveling Multi-pattern enable for slice 3." "0,1" newline hexmask.long.word 0x4 0.--8. 1. "PHY_PRBS_PATTERN_MASK_3,PRBS7 mask signal for slice 3." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_782," hexmask.long.word 0x8 16.--25. 1. "PHY_RDDQS_DQ_BYPASS_SLAVE_DELAY_3,Read DQS data clock bypass mode target delay setting for slice 3." newline hexmask.long.byte 0x8 8.--14. 1. "PHY_VREF_TRAIN_OBS_3,Observation register for best vref value for slice 3. READ-ONLY" newline hexmask.long.byte 0x8 0.--5. 1. "PHY_VREF_INITIAL_STEPSIZE_3,Data slice initial VREF training step size for slice 3." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_783," hexmask.long.word 0xC 16.--24. 1. "PHY_GATE_SMPL1_SLAVE_DELAY_3,Number of cycles to delay the read DQS gate signal to generate gate1 signal for on-the-fly read DQS training for slice 3." newline bitfld.long 0xC 8. "SC_PHY_SNAP_OBS_REGS_3,Initiates a snapshot of the internal observation registers for slice 3. Set to 1 to trigger. WRITE-ONLY" "0,1" newline hexmask.long.byte 0xC 0.--3. 1. "PHY_GATE_ERROR_DELAY_SELECT_3,Number of cycles to wait for the DQS gate to close before flagging an error for slice 3." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_784," hexmask.long.word 0x10 16.--24. 1. "PHY_GATE_SMPL2_SLAVE_DELAY_3,Number of cycles to delay the read DQS gate signal to generate gate2 signal for on-the-fly read DQS training for slice 3." newline bitfld.long 0x10 8.--10. "PHY_MEM_CLASS_3,Indicates the type of DRAM for slice 3. 0 for DDR3 1 for DDR4 2 for DDR5 4 for LPDDR2 5 for LPDDR3. 6 for LPDDR4" "0,1,2,3,4,5,6,7" newline bitfld.long 0x10 0. "PHY_LPDDR_3,Adds a cycle of delay for the slice 3 to match the address slice. Set to 1 to add a cycle" "0,1" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_785," bitfld.long 0x14 0.--1. "ON_FLY_GATE_ADJUST_EN_3,Control the on-the-fly gate adjustment for slice 3." "0,1,2,3" rgroup.long 0x4C48++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_786," hexmask.long 0x0 0.--31. 1. "PHY_GATE_TRACKING_OBS_3,Report the on-the-fly gate measurement result for slice 3. READ-ONLY" group.long 0x4C4C++0x6B line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_787," bitfld.long 0x0 8.--9. "PHY_LP4_PST_AMBLE_3,Controls the read postamble extension for LPDDR4 for slice 3." "0,1,2,3" newline bitfld.long 0x0 0. "PHY_DFI40_POLARITY_3,Indicates the dfi_wrdata_cs_n and dfi_rddata_cs_n is low active or high active for slice 3." "0,1" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_788," hexmask.long 0x4 0.--31. 1. "PHY_RDLVL_PATT8_3,Read leveling pattern 8 data for slice 3." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_789," hexmask.long 0x8 0.--31. 1. "PHY_RDLVL_PATT9_3,Read leveling pattern 9 data for slice 3." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_790," hexmask.long 0xC 0.--31. 1. "PHY_RDLVL_PATT10_3,Read leveling pattern 10 data for slice 3." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_791," hexmask.long 0x10 0.--31. 1. "PHY_RDLVL_PATT11_3,Read leveling pattern 11 data for slice 3." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_792," hexmask.long 0x14 0.--31. 1. "PHY_RDLVL_PATT12_3,Read leveling pattern 12 data for slice 3." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_793," hexmask.long 0x18 0.--31. 1. "PHY_RDLVL_PATT13_3,Read leveling pattern 13 data for slice 3." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_794," hexmask.long 0x1C 0.--31. 1. "PHY_RDLVL_PATT14_3,Read leveling pattern 14 data for slice 3." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_795," hexmask.long 0x20 0.--31. 1. "PHY_RDLVL_PATT15_3,Read leveling pattern 15 data for slice 3." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_796," bitfld.long 0x24 24.--26. "PHY_RDDQ_ENC_OBS_SELECT_3,Select value to map the internal read DQ target delay encoded settings to the accessible read DQ encoded target delay observation register for slice 3." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x24 16.--19. 1. "PHY_MASTER_DLY_LOCK_OBS_SELECT_3,Select value to map the internal controller delay observation registers to the accessible controller delay observation register for slice 3." newline bitfld.long 0x24 8. "PHY_SW_FIFO_PTR_RST_DISABLE_3,Disables automatic reset of the read entry FIFO pointers for slice 3. Set to 1 to disable automatic resets." "0,1" newline bitfld.long 0x24 0.--2. "PHY_SLAVE_LOOP_CNT_UPDATE_3,Reserved for future use for slice 3." "0,1,2,3,4,5,6,7" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_797," hexmask.long.byte 0x28 24.--27. 1. "PHY_FIFO_PTR_OBS_SELECT_3,Select value to map the internal read entry FIFO read/write pointers to the accessible read entry FIFO pointer observation register for slice 3." newline hexmask.long.byte 0x28 16.--19. 1. "PHY_WR_SHIFT_OBS_SELECT_3,Select value to map the internal write DQ/DQS automatic cycle/half_cycle shift settings to the accessible write DQ/DQS shift observation register for slice 3." newline hexmask.long.byte 0x28 8.--11. 1. "PHY_WR_ENC_OBS_SELECT_3,Select value to map the internal write DQ target delay encoded settings to the accessible write DQ encoded target delay observation register for slice 3." newline hexmask.long.byte 0x28 0.--3. 1. "PHY_RDDQS_DQ_ENC_OBS_SELECT_3,Select value to map the internal read DQS DQ rise/fall target delay encoded settings to the accessible read DQS DQ rise/fall encoded target delay observation registers for slice 3." line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_798," hexmask.long.byte 0x2C 24.--29. 1. "PHY_WRLVL_CAPTURE_CNT_3,Number of samples to take at each DQS target delay setting during write leveling for slice 3." newline bitfld.long 0x2C 16.--17. "PHY_WRLVL_ALGO_3,Write leveling algorithm selection for slice 3." "0,1,2,3" newline bitfld.long 0x2C 8. "SC_PHY_LVL_DEBUG_CONT_3,Allows the leveling state machine to advance [when in debug mode] for slice 3. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0x2C 0. "PHY_LVL_DEBUG_MODE_3,Enables leveling debug mode for slice 3. Set to 1 to enable." "0,1" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_799," hexmask.long.byte 0x30 24.--27. 1. "PHY_GTLVL_UPDT_WAIT_CNT_3,Number of cycles + 4 to wait after changing DQS target delay setting during gate training for slice 3. The valid range is 0x0 to 0xB." newline hexmask.long.byte 0x30 16.--21. 1. "PHY_GTLVL_CAPTURE_CNT_3,Number of samples to take at each DQS target delay setting during gate training for slice 3." newline hexmask.long.byte 0x30 8.--15. 1. "PHY_DQ_MASK_3,For ECC slice should set this register to do DQ bit mask for slice 3." newline hexmask.long.byte 0x30 0.--3. 1. "PHY_WRLVL_UPDT_WAIT_CNT_3,Number of cycles to wait after changing DQS target delay setting during write leveling for slice 3." line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_800," hexmask.long.byte 0x34 24.--28. 1. "PHY_RDLVL_RDDQS_DQ_OBS_SELECT_3,Select value to map an individual DQ data window leading/trailing edge to the leading/trailing edge observation registers during read leveling for slice 3." newline bitfld.long 0x34 16.--17. "PHY_RDLVL_OP_MODE_3,Read leveling algorithm select for slice 3. Clear to 0 to move linearly from left to right. Set to 1 to start inside the window move left and then move right." "0,1,2,3" newline hexmask.long.byte 0x34 8.--11. 1. "PHY_RDLVL_UPDT_WAIT_CNT_3,Number of cycles to wait after changing DQS target delay setting during read leveling for slice 3." newline hexmask.long.byte 0x34 0.--5. 1. "PHY_RDLVL_CAPTURE_CNT_3,Number of samples to take at each DQS target delay setting during read leveling for slice 3." line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_801," hexmask.long.tbyte 0x38 8.--25. 1. "PHY_RDLVL_DATA_SWIZZLE_3,Read level bit swizzling for DDR4 operation for slice 3." newline hexmask.long.byte 0x38 0.--7. 1. "PHY_RDLVL_DATA_MASK_3,Per-bit mask for read leveling for slice 3. If all bits are not used only 1 bit should be cleared to 0." line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_802," bitfld.long 0x3C 16.--18. "PHY_WDQLVL_PATT_3,Defines the training patterns to be used during the write data leveling sequence for slice 3. Bit [0] corresponds to the LFSR data training pattern. Bit [1] corresponds to the CLK data training pattern. Bit [2] corresponds to.." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x3C 8.--13. 1. "PHY_WDQLVL_BURST_CNT_3,Defines the write/read burst length in bytes during the write data leveling sequence for slice 3." newline hexmask.long.byte 0x3C 0.--7. 1. "PHY_WDQLVL_CLK_JITTER_TOLERANCE_3,Defines the minimum gap requirment for the LE and TE window for slice 3." line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_803," hexmask.long.byte 0x40 24.--27. 1. "PHY_WDQLVL_DQDM_OBS_SELECT_3,Select value to map an individual DQ data window leading/trailing edge to the leading/trailing edge observation registers during write data leveling for slice 3." newline hexmask.long.byte 0x40 16.--19. 1. "PHY_WDQLVL_UPDT_WAIT_CNT_3,Number of cycles to wait after changing the DQ target delay setting during write data leveling for slice 3." newline hexmask.long.word 0x40 0.--10. 1. "PHY_WDQLVL_DQDM_SLV_DLY_JUMP_OFFSET_3,Defines the target delay jump value when the TE window is found and begin to serch TE window for slice 3." line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_804," bitfld.long 0x44 24. "SC_PHY_WDQLVL_CLR_PREV_RESULTS_3,Clears the previous result value to allow a clean slate comparison for future write DQ leveling results for slice 3. Set to 1 to trigger. WRITE-ONLY" "0,1" newline hexmask.long.byte 0x44 16.--19. 1. "PHY_WDQLVL_DM_DLY_STEP_3,The target delay line step for DM training for slice 3." newline hexmask.long.byte 0x44 8.--15. 1. "PHY_WDQLVL_DQ_SLV_DELTA_3,The margin for DQ0-7's LE and TE dealy to make sure the DQ bits can work during DM training for slice 3." newline hexmask.long.byte 0x44 0.--7. 1. "PHY_WDQLVL_PERIODIC_OBS_SELECT_3,Select value to map specific information during or post periodic write data leveling for slice 3." line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_805," hexmask.long.word 0x48 0.--8. 1. "PHY_WDQLVL_DATADM_MASK_3,Per-bit mask for write data leveling for slice 3. Set to 1 to mask any bit from the leveling process." line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_806," hexmask.long 0x4C 0.--31. 1. "PHY_USER_PATT0_3,User-defined pattern to be used during write data leveling for slice 3. This register holds the bytes 3 to 0 written/read from device." line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_807," hexmask.long 0x50 0.--31. 1. "PHY_USER_PATT1_3,User-defined pattern to be used during write data leveling for slice 3. This register holds the bytes 7 to 4 written/read from device." line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_808," hexmask.long 0x54 0.--31. 1. "PHY_USER_PATT2_3,User-defined pattern to be used during write data leveling for slice 3. This register holds the bytes 11 to 8 written/read from device." line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_809," hexmask.long 0x58 0.--31. 1. "PHY_USER_PATT3_3,User-defined pattern to be used during write data leveling for slice 3. This register holds the bytes 15 to 12 written/read from device." line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_810," bitfld.long 0x5C 16. "PHY_NTP_MULT_TRAIN_3,Control for single pass only No-Topology training for slice 3." "0,1" newline hexmask.long.word 0x5C 0.--15. 1. "PHY_USER_PATT4_3,User-defined pattern to be used during write data leveling for slice 3. This register holds the DM bit for the 15 to 0 DQ written/read from device." line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_811," hexmask.long.word 0x60 16.--25. 1. "PHY_NTP_PERIOD_THRESHOLD_3,Threshold Criteria of period threshold after No-Topology training is completed for slice 3." newline hexmask.long.word 0x60 0.--9. 1. "PHY_NTP_EARLY_THRESHOLD_3,Threshold Criteria of early threshold after No-Topology training is completed for slice 3." line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_812," hexmask.long.word 0x64 16.--25. 1. "PHY_NTP_PERIOD_THRESHOLD_MAX_3,Maximum Threshold that phy_clk_wrdqs_target_delay could cross boundary to set period threshold/early threshold after No-Topology training is completed for slice 3." newline hexmask.long.word 0x64 0.--9. 1. "PHY_NTP_PERIOD_THRESHOLD_MIN_3,Minimum Threshold that phy_clk_wrdqs_target_delay could cross boundary to set period threshold/early threshold after No-Topology training is completed for slice 3." line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_813," hexmask.long.byte 0x68 16.--23. 1. "PHY_FIFO_PTR_OBS_3,Observation register containing read entry FIFO pointers for slice 3. READ-ONLY" newline hexmask.long.byte 0x68 8.--13. 1. "SC_PHY_MANUAL_CLEAR_3,Manual reset/clear of internal logic for slice 3. Bit [0] initiates manual setup of the read DQS gate. Bit [1] is reset of read entry FIFO pointers. Bit [2] is reset of controller delay min/max lock values. Bit [3] is manual reset.." newline bitfld.long 0x68 0. "PHY_CALVL_VREF_DRIVING_SLICE_3,Indicates if slice 3 is used to drive the VREF value to the device during CA training." "0,1" rgroup.long 0x4CB8++0x43 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_814," hexmask.long 0x0 0.--31. 1. "PHY_LPBK_RESULT_OBS_3,Observation register containing loopback status/results for slice 3. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_815," hexmask.long.word 0x4 16.--26. 1. "PHY_MASTER_DLY_LOCK_OBS_3,Observation register containing controller delay results for slice 3. READ-ONLY" newline hexmask.long.word 0x4 0.--15. 1. "PHY_LPBK_ERROR_COUNT_OBS_3,Observation register containing total number of loopback error data for slice 3. READ-ONLY" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_816," hexmask.long.byte 0x8 24.--31. 1. "PHY_RDDQS_DQ_RISE_ADDER_SLV_DLY_ENC_OBS_3,Observation register containing read DQS DQ rising edge adder target delay encoded value for slice 3. READ-ONLY" newline hexmask.long.byte 0x8 16.--23. 1. "PHY_MEAS_DLY_STEP_VALUE_3,Observation register containing fraction of the cycle in 1 delay element numerator with demominator of 512 for slice 3. READ-ONLY" newline hexmask.long.byte 0x8 8.--14. 1. "PHY_RDDQS_BASE_SLV_DLY_ENC_OBS_3,Observation register containing read DQS base target delay encoded value for slice 3. READ-ONLY" newline hexmask.long.byte 0x8 0.--6. 1. "PHY_RDDQ_SLV_DLY_ENC_OBS_3,Observation register containing read DQ target delay encoded values for slice 3. READ-ONLY" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_817," hexmask.long.byte 0xC 24.--30. 1. "PHY_WRDQS_BASE_SLV_DLY_ENC_OBS_3,Observation register containing write DQS base target delay encoded value for slice 3. READ-ONLY" newline hexmask.long.word 0xC 8.--18. 1. "PHY_RDDQS_GATE_SLV_DLY_ENC_OBS_3,Observation register containing read DQS gate target delay encoded value for slice 3. READ-ONLY" newline hexmask.long.byte 0xC 0.--7. 1. "PHY_RDDQS_DQ_FALL_ADDER_SLV_DLY_ENC_OBS_3,Observation register containing read DQS DQ falling edge adder target delay encoded value for slice 3. READ-ONLY" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_818," bitfld.long 0x10 16.--18. "PHY_WR_SHIFT_OBS_3,Observation register containing automatic half cycle and cycle shift values for slice 3. READ-ONLY" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x10 8.--15. 1. "PHY_WR_ADDER_SLV_DLY_ENC_OBS_3,Observation register containing write adder target delay encoded value for slice 3. READ-ONLY" newline hexmask.long.byte 0x10 0.--7. 1. "PHY_WRDQ_BASE_SLV_DLY_ENC_OBS_3,Observation register containing write DQ base target delay encoded value for slice 3. READ-ONLY" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_819," hexmask.long.word 0x14 16.--25. 1. "PHY_WRLVL_HARD1_DELAY_OBS_3,Observation register containing write leveling first hard 1 DQS target delay for slice 3. READ-ONLY" newline hexmask.long.word 0x14 0.--9. 1. "PHY_WRLVL_HARD0_DELAY_OBS_3,Observation register containing write leveling last hard 0 DQS target delay for slice 3. READ-ONLY" line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_820," hexmask.long.tbyte 0x18 0.--20. 1. "PHY_WRLVL_STATUS_OBS_3,Observation register containing write leveling status for slice 3. READ-ONLY" line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_821," hexmask.long.word 0x1C 16.--25. 1. "PHY_GATE_SMPL2_SLV_DLY_ENC_OBS_3,Observation register containing gate sample2 target delay encoded values for slice 3. READ-ONLY" newline hexmask.long.word 0x1C 0.--9. 1. "PHY_GATE_SMPL1_SLV_DLY_ENC_OBS_3,Observation register containing gate sample1 target delay encoded values for slice 3. READ-ONLY" line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_822," hexmask.long.word 0x20 16.--29. 1. "PHY_GTLVL_HARD0_DELAY_OBS_3,Observation register containing gate training first hard 0 DQS target delay for slice 3. READ-ONLY" newline hexmask.long.word 0x20 0.--15. 1. "PHY_WRLVL_ERROR_OBS_3,Observation register containing write leveling error status for slice 3. READ-ONLY" line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_823," hexmask.long.word 0x24 0.--13. 1. "PHY_GTLVL_HARD1_DELAY_OBS_3,Observation register containing gate training last hard 1 DQS target delay for slice 3. READ-ONLY" line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_824," hexmask.long.tbyte 0x28 0.--17. 1. "PHY_GTLVL_STATUS_OBS_3,Observation register containing gate training status for slice 3. READ-ONLY" line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_825," hexmask.long.word 0x2C 16.--25. 1. "PHY_RDLVL_RDDQS_DQ_TE_DLY_OBS_3,Observation register containing read leveling data window trailing edge target delay setting for slice 3. READ-ONLY" newline hexmask.long.word 0x2C 0.--9. 1. "PHY_RDLVL_RDDQS_DQ_LE_DLY_OBS_3,Observation register containing read leveling data window leading edge target delay setting for slice 3. READ-ONLY" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_826," bitfld.long 0x30 0.--1. "PHY_RDLVL_RDDQS_DQ_NUM_WINDOWS_OBS_3,Observation register containing read leveling number of windows found for slice 3. READ-ONLY" "0,1,2,3" line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_827," hexmask.long 0x34 0.--31. 1. "PHY_RDLVL_STATUS_OBS_3,Observation register containing read leveling status for slice 3. READ-ONLY" line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_828," hexmask.long.word 0x38 16.--26. 1. "PHY_WDQLVL_DQDM_TE_DLY_OBS_3,Observation register containing write data leveling data window trailing edge target delay setting for slice 3. READ-ONLY" newline hexmask.long.word 0x38 0.--10. 1. "PHY_WDQLVL_DQDM_LE_DLY_OBS_3,Observation register containing write data leveling data window leading edge target delay setting for slice 3. READ-ONLY" line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_829," hexmask.long 0x3C 0.--31. 1. "PHY_WDQLVL_STATUS_OBS_3,Observation register containing write data leveling status for slice 3. READ-ONLY" line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_830," hexmask.long 0x40 0.--31. 1. "PHY_WDQLVL_PERIODIC_OBS_3,Observation register containing periodic write data leveling status for slice 3. READ-ONLY" group.long 0x4CFC++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_831," hexmask.long 0x0 0.--30. 1. "PHY_DDL_MODE_3,DDL mode for slice 3." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_832," hexmask.long.byte 0x4 0.--5. 1. "PHY_DDL_MASK_3,DDL mask for slice 3." rgroup.long 0x4D04++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_833," hexmask.long 0x0 0.--31. 1. "PHY_DDL_TEST_OBS_3,DDL test observation for slice 3. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_834," hexmask.long 0x4 0.--31. 1. "PHY_DDL_TEST_MSTR_DLY_OBS_3,DDL test observation delays for slice 3 controller DDL. READ-ONLY" group.long 0x4D0C++0x117 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_835," hexmask.long.word 0x0 16.--24. 1. "PHY_RX_CAL_DQ0_3,RX Calibration codes for DQ0 for slice 3. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline bitfld.long 0x0 8. "PHY_LP4_WDQS_OE_EXTEND_3,LPDDR4 write preamble extension enable for slice 3." "0,1" newline hexmask.long.byte 0x0 0.--7. 1. "PHY_DDL_TRACK_UPD_THRESHOLD_3,Specify threshold value for PHY init update tracking for slice 3." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_836," hexmask.long.word 0x4 16.--24. 1. "PHY_RX_CAL_DQ2_3,RX Calibration codes for DQ2 for slice 3. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline hexmask.long.word 0x4 0.--8. 1. "PHY_RX_CAL_DQ1_3,RX Calibration codes for DQ1 for slice 3. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_837," hexmask.long.word 0x8 16.--24. 1. "PHY_RX_CAL_DQ4_3,RX Calibration codes for DQ4 for slice 3. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline hexmask.long.word 0x8 0.--8. 1. "PHY_RX_CAL_DQ3_3,RX Calibration codes for DQ3 for slice 3. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_838," hexmask.long.word 0xC 16.--24. 1. "PHY_RX_CAL_DQ6_3,RX Calibration codes for DQ6 for slice 3. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline hexmask.long.word 0xC 0.--8. 1. "PHY_RX_CAL_DQ5_3,RX Calibration codes for DQ5 for slice 3. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_839," hexmask.long.word 0x10 0.--8. 1. "PHY_RX_CAL_DQ7_3,RX Calibration codes for DQ7 for slice 3. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_840," hexmask.long.tbyte 0x14 0.--17. 1. "PHY_RX_CAL_DM_3,RX Calibration codes for DM for slice 3. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_841," hexmask.long.word 0x18 16.--24. 1. "PHY_RX_CAL_FDBK_3,RX Calibration codes for FDBK for slice 3. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." newline hexmask.long.word 0x18 0.--8. 1. "PHY_RX_CAL_DQS_3,RX Calibration codes for DQS for slice 3. Bits [5:0] contain rx_cal_code_down. Bits [11:6] contain rx_cal_code_up. Bits [17:12] contain rx_cal_code2_down. Bits [23:18] contain rx_cal_code2_up." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_842," hexmask.long.byte 0x1C 24.--31. 1. "PHY_DATA_DC_CAL_SAMPLE_WAIT_3,Determines number of cycles to wait for each sample for slice 3." newline hexmask.long.byte 0x1C 16.--20. 1. "PHY_STATIC_TOG_DISABLE_3,Control to disable toggle during static activity for slice 3. bit0: Write path delay line disable; bit1: Read path delay line disable; bit2: Read data path disable; bit3: clk_phy disable; bit4: controller delay line disable." newline hexmask.long.word 0x1C 0.--10. 1. "PHY_PAD_RX_BIAS_EN_3,Controls RX_BIAS_EN pin for each pad for slice 3." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_843," hexmask.long.byte 0x20 24.--31. 1. "PHY_DATA_DC_ADJUST_SAMPLE_CNT_3,Duty cycle adjust sample count for slice 3." newline hexmask.long.byte 0x20 16.--21. 1. "PHY_DATA_DC_ADJUST_START_3,Duty cycle adjust starting value for slice 3." newline bitfld.long 0x20 8.--9. "PHY_DATA_DC_WEIGHT_3,Determines weight of average calculating for slice 3." "0,1,2,3" newline hexmask.long.byte 0x20 0.--7. 1. "PHY_DATA_DC_CAL_TIMEOUT_3,Determines timeout number of iteration for slice 3." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_844," bitfld.long 0x24 24. "PHY_DATA_DC_CAL_START_3,Manual trigger for DCC for slice 3." "0,1" newline bitfld.long 0x24 16. "PHY_DATA_DC_CAL_POLARITY_3,Calibration polarity for slice 3." "0,1" newline bitfld.long 0x24 8. "PHY_DATA_DC_ADJUST_DIRECT_3,Adjust direction for slice 3." "0,1" newline hexmask.long.byte 0x24 0.--7. 1. "PHY_DATA_DC_ADJUST_THRSHLD_3,Duty cycle adjust threshold around the mid-point for slice 3." line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_845," bitfld.long 0x28 24. "PHY_RDPATH_GATE_DISABLE_3,Data slice read path power reduction disable for slice 3." "0,1" newline bitfld.long 0x28 16. "PHY_SLV_DLY_CTRL_GATE_DISABLE_3,Data slice slv_dly_control block power reduction disable for slice 3." "0,1" newline bitfld.long 0x28 8.--10. "PHY_FDBK_PWR_CTRL_3,Shutoff gate feedback IO to reduce power for slice 3." "0,1,2,3,4,5,6,7" newline bitfld.long 0x28 0.--1. "PHY_DATA_DC_SW_RANK_3,Rank selection for software based duty cycle correction for slice 3." "0,1,2,3" line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_846," bitfld.long 0x2C 8. "PHY_SLICE_PWR_RDC_DISABLE_3,Data slice power reduction disable for slice 3." "0,1" newline bitfld.long 0x2C 0. "PHY_DCC_RXCAL_CTRL_GATE_DISABLE_3,Data slice DCC and RX_CAL block power reduction disable for slice 3." "0,1" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_847," bitfld.long 0x30 24.--26. "PHY_DQS_TSEL_ENABLE_3,Operation type tsel enables for DQS signals for slice 3. Bit [0] enables tsel_en during read cycles. Bit [1] enables tsel_en during write cycles. Bit [2] enables tsel_en during idle cycles. Set each bit to 1 to enable." "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x30 8.--23. 1. "PHY_DQ_TSEL_SELECT_3,Operation type tsel select values for DQ/DM signals for slice 3." newline bitfld.long 0x30 0.--2. "PHY_DQ_TSEL_ENABLE_3,Operation type tsel enables for DQ/DM signals for slice 3. Bit [0] enables tsel_en during read cycles. Bit [1] enables tsel_en during write cycles. Bit [2] enables tsel_en during idle cycles. Set each bit to 1 to enable." "0,1,2,3,4,5,6,7" line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_848," hexmask.long.byte 0x34 24.--30. 1. "PHY_VREF_INITIAL_START_POINT_3,Data slice initial VREF training start value for slice 3." newline bitfld.long 0x34 16.--17. "PHY_TWO_CYC_PREAMBLE_3,2 cycle preamble support for slice 3. Bit [0] controls the 2 cycle read preamble. Bit [1] controls the 2 cycle write preamble. Set each bit to 1 to enable." "0,1,2,3" newline hexmask.long.word 0x34 0.--15. 1. "PHY_DQS_TSEL_SELECT_3,Operation type tsel select values for DQS signals for slice 3." line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_849," hexmask.long.byte 0x38 24.--31. 1. "PHY_NTP_WDQ_STEP_SIZE_3,Step size of WR DQ target delay during No-Topology training for slice 3." newline bitfld.long 0x38 16. "PHY_NTP_TRAIN_EN_3,Enable for No-Topology training for slice 3." "0,1" newline bitfld.long 0x38 8.--9. "PHY_VREF_TRAINING_CTRL_3,Data slice vref training enable control for slice 3." "0,1,2,3" newline hexmask.long.byte 0x38 0.--6. 1. "PHY_VREF_INITIAL_STOP_POINT_3,Data slice initial VREF training stop value for slice 3." line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_850," hexmask.long.word 0x3C 16.--26. 1. "PHY_NTP_WDQ_STOP_3,End of WR DQ target delay in No-Topology training for slice 3." newline hexmask.long.word 0x3C 0.--10. 1. "PHY_NTP_WDQ_START_3,Starting WR DQ target delay in No-Topology training for slice 3." line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_851," bitfld.long 0x40 24. "PHY_SW_WDQLVL_DVW_MIN_EN_3,SW override to enable use of PHY_WDQLVL_DVW_MIN for slice 3." "0,1" newline hexmask.long.word 0x40 8.--17. 1. "PHY_WDQLVL_DVW_MIN_3,Minimum data valid window across DQs and ranks for slice 3." newline hexmask.long.byte 0x40 0.--7. 1. "PHY_NTP_WDQ_BIT_EN_3,Enable Bit for WR DQ during No-Topology training for slice 3." line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_852," hexmask.long.byte 0x44 24.--28. 1. "PHY_PAD_RX_DCD_0_3,Controls RX_DCD pin for each pad for slice 3." newline hexmask.long.byte 0x44 16.--20. 1. "PHY_PAD_TX_DCD_3,Controls TX_DCD pin for each pad for slice 3." newline hexmask.long.byte 0x44 8.--11. 1. "PHY_FAST_LVL_EN_3,Enable for fast multi-pattern window search for slice 3." newline hexmask.long.byte 0x44 0.--5. 1. "PHY_WDQLVL_PER_START_OFFSET_3,Peridic training start point offset for slice 3." line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_853," hexmask.long.byte 0x48 24.--28. 1. "PHY_PAD_RX_DCD_4_3,Controls RX_DCD pin for each pad for slice 3." newline hexmask.long.byte 0x48 16.--20. 1. "PHY_PAD_RX_DCD_3_3,Controls RX_DCD pin for each pad for slice 3." newline hexmask.long.byte 0x48 8.--12. 1. "PHY_PAD_RX_DCD_2_3,Controls RX_DCD pin for each pad for slice 3." newline hexmask.long.byte 0x48 0.--4. 1. "PHY_PAD_RX_DCD_1_3,Controls RX_DCD pin for each pad for slice 3." line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_854," hexmask.long.byte 0x4C 24.--28. 1. "PHY_PAD_DM_RX_DCD_3,Controls RX_DCD pin for dm pad for slice 3." newline hexmask.long.byte 0x4C 16.--20. 1. "PHY_PAD_RX_DCD_7_3,Controls RX_DCD pin for each pad for slice 3." newline hexmask.long.byte 0x4C 8.--12. 1. "PHY_PAD_RX_DCD_6_3,Controls RX_DCD pin for each pad for slice 3." newline hexmask.long.byte 0x4C 0.--4. 1. "PHY_PAD_RX_DCD_5_3,Controls RX_DCD pin for each pad for slice 3." line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_855," hexmask.long.byte 0x50 16.--22. 1. "PHY_PAD_DSLICE_IO_CFG_3,Controls PCLK/PARK pin for pad for slice 3." newline hexmask.long.byte 0x50 8.--12. 1. "PHY_PAD_FDBK_RX_DCD_3,Controls RX_DCD pin for fdbk pad for slice 3." newline hexmask.long.byte 0x50 0.--4. 1. "PHY_PAD_DQS_RX_DCD_3,Controls RX_DCD pin for dqs pad for slice 3." line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_856," hexmask.long.word 0x54 16.--25. 1. "PHY_RDDQ1_SLAVE_DELAY_3,Read DQ1 target delay setting for slice 3." newline hexmask.long.word 0x54 0.--9. 1. "PHY_RDDQ0_SLAVE_DELAY_3,Read DQ0 target delay setting for slice 3." line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_857," hexmask.long.word 0x58 16.--25. 1. "PHY_RDDQ3_SLAVE_DELAY_3,Read DQ3 target delay setting for slice 3." newline hexmask.long.word 0x58 0.--9. 1. "PHY_RDDQ2_SLAVE_DELAY_3,Read DQ2 target delay setting for slice 3." line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_858," hexmask.long.word 0x5C 16.--25. 1. "PHY_RDDQ5_SLAVE_DELAY_3,Read DQ5 target delay setting for slice 3." newline hexmask.long.word 0x5C 0.--9. 1. "PHY_RDDQ4_SLAVE_DELAY_3,Read DQ4 target delay setting for slice 3." line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_859," hexmask.long.word 0x60 16.--25. 1. "PHY_RDDQ7_SLAVE_DELAY_3,Read DQ7 target delay setting for slice 3." newline hexmask.long.word 0x60 0.--9. 1. "PHY_RDDQ6_SLAVE_DELAY_3,Read DQ6 target delay setting for slice 3." line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_860," hexmask.long.byte 0x64 24.--28. 1. "PHY_RX_CAL_ALL_DLY_3,Defines the number of cycles/half cycles that the rx_cal_all_opad signal should be asserted for. There is a phy_rx_cal_all_dly_X parameter for each of the slices of data sent on the DFI data bus for slice 3." newline bitfld.long 0x64 16.--18. "PHY_RX_PCLK_CLK_SEL_3,RX_PCLK clock frequency selection for slice 3." "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x64 0.--9. 1. "PHY_RDDM_SLAVE_DELAY_3,Read DM/DBI target delay setting for slice 3. May be used for data swap." line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_861," bitfld.long 0x68 0.--2. "PHY_DATA_DC_CAL_CLK_SEL_3,Determines DCC CAL clock for slice 3." "0,1,2,3,4,5,6,7" line.long 0x6C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_862," hexmask.long.byte 0x6C 24.--31. 1. "PHY_DQS_OE_TIMING_3,Start/end timing values for DQS output enable signals for slice 3." newline hexmask.long.byte 0x6C 16.--23. 1. "PHY_DQ_TSEL_WR_TIMING_3,Start/end timing values for DQ/DM write based termination enable and select signals for slice 3." newline hexmask.long.byte 0x6C 8.--15. 1. "PHY_DQ_TSEL_RD_TIMING_3,Start/end timing values for DQ/DM read based termination enable and select signals for slice 3." newline hexmask.long.byte 0x6C 0.--7. 1. "PHY_DQ_OE_TIMING_3,Start/end timing values for DQ/DM output enable signals for slice 3." line.long 0x70 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_863," hexmask.long.byte 0x70 24.--31. 1. "PHY_DQS_TSEL_WR_TIMING_3,Start/end timing values for DQS write based termination enable and select signals for slice 3." newline hexmask.long.byte 0x70 16.--23. 1. "PHY_DQS_OE_RD_TIMING_3,Start/end timing values for DQS read based OE extension for slice 3." newline hexmask.long.byte 0x70 8.--15. 1. "PHY_DQS_TSEL_RD_TIMING_3,Start/end timing values for DQS read based termination enable and select signals for slice 3." newline hexmask.long.byte 0x70 0.--3. 1. "PHY_IO_PAD_DELAY_TIMING_3,Feedback pad's OPAD and IPAD delay timing for slice 3." line.long 0x74 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_864," hexmask.long.word 0x74 16.--27. 1. "PHY_PAD_VREF_CTRL_DQ_3,Pad VREF control settings for DQ slice 3." newline hexmask.long.word 0x74 0.--15. 1. "PHY_VREF_SETTING_TIME_3,Number of cycles for vref settle after setting is changed for slice 3." line.long 0x78 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_865," bitfld.long 0x78 24.--25. "PHY_RDDATA_EN_IE_DLY_3,Number of cycles that the dfi_rddata_en signal is earlier than necessary for input enable generation for slice 3." "0,1,2,3" newline hexmask.long.byte 0x78 16.--23. 1. "PHY_DQS_IE_TIMING_3,Start/end timing values for DQS input enable signals for slice 3." newline hexmask.long.byte 0x78 8.--15. 1. "PHY_DQ_IE_TIMING_3,Start/end timing values for DQ/DM input enable signals for slice 3." newline bitfld.long 0x78 0. "PHY_PER_CS_TRAINING_EN_3,Enables the per-rank training and read/write timing capabilities for slice 3. Must have same value in all slices." "0,1" line.long 0x7C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_866," hexmask.long.byte 0x7C 24.--28. 1. "PHY_WDQLVL_RDDATA_EN_DLY_3,For WR DQ training the number of cycles that the dfi_rddata_en signal is early for slice 3." newline bitfld.long 0x7C 16. "PHY_WDQLVL_IE_ON_3,IE control 1 meams IE is always on during WR DQ training for slice 3." "0,1" newline bitfld.long 0x7C 8.--9. "PHY_DBI_MODE_3,DBI mode for slice 3. Bit [0] enables return of DBI read data." "0,1,2,3" newline bitfld.long 0x7C 0.--1. "PHY_IE_MODE_3,Input enable mode bits for slice 3. Bit [0] enables the mode where the input enables are always on; set to 1 to enable. Bit [1] disables the input enable on the DM signal; set to 1 to disable." "0,1,2,3" line.long 0x80 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_867," hexmask.long.byte 0x80 24.--27. 1. "PHY_SW_MASTER_MODE_3,Controller delay line override settings for slice 3. Bit [0] enables software half clock mode. Bit [1] is the software half clock mode value. Bit [2] enables software bypass mode. Bit [3] is the software bypass mode value." newline hexmask.long.byte 0x80 16.--20. 1. "PHY_RDDATA_EN_OE_DLY_3,Number of cycles that the dfi_rddata_en signal is earlier than necessary for LP4 OE extension generation for slice 3." newline hexmask.long.byte 0x80 8.--12. 1. "PHY_RDDATA_EN_TSEL_DLY_3,Number of cycles that the dfi_rddata_en signal is earlier than necessary for TSEL enable generation for slice 3." newline hexmask.long.byte 0x80 0.--4. 1. "PHY_WDQLVL_RDDATA_EN_TSEL_DLY_3,For WR DQ training the number of cycles that the dfi_rddata_en signal is earlier than necessary for TSEL enable generation for slice 3." line.long 0x84 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_868," hexmask.long.byte 0x84 24.--31. 1. "PHY_MASTER_DELAY_WAIT_3,Wait cycles for controller delay line locking algorithm for slice 3. Bits [3:0] are the cycle wait count after a calibration clock setting change. Bits [7:4] are the cycle wait count after a controller delay setting change." newline hexmask.long.byte 0x84 16.--21. 1. "PHY_MASTER_DELAY_STEP_3,Incremental step size for controller delay line locking algorithm for slice 3." newline hexmask.long.word 0x84 0.--10. 1. "PHY_MASTER_DELAY_START_3,Start value for controller delay line locking algorithm for slice 3." line.long 0x88 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_869," hexmask.long.byte 0x88 24.--27. 1. "PHY_WRLVL_DLY_FINE_STEP_3,DQS target delay fine step size during write leveling for slice 3." newline hexmask.long.byte 0x88 16.--23. 1. "PHY_WRLVL_DLY_STEP_3,DQS target delay step size during write leveling for slice 3." newline hexmask.long.byte 0x88 8.--11. 1. "PHY_RPTR_UPDATE_3,Offset in cycles from the dfi_rddata_en signal to release data from the entry FIFO for slice 3." newline hexmask.long.byte 0x88 0.--7. 1. "PHY_MASTER_DELAY_HALF_MEASURE_3,Defines the number of delay line elements to be considered in determing whether to lock to a half clock cycle in the data slice controller for slice 3." line.long 0x8C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_870," hexmask.long.byte 0x8C 16.--20. 1. "PHY_GTLVL_RESP_WAIT_CNT_3,Number of cycles + 4 to wait between dfi_rddata_en and the sampling of the DQS during gate training for slice 3. The valid range is 0x0 to 0xB." newline hexmask.long.byte 0x8C 8.--11. 1. "PHY_GTLVL_DLY_STEP_3,DQS target delay step size during gate training for slice 3." newline hexmask.long.byte 0x8C 0.--5. 1. "PHY_WRLVL_RESP_WAIT_CNT_3,Number of cycles to wait between dfi_wrlvl_strobe and the sampling of the DQs during write leveling for slice 3." line.long 0x90 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_871," hexmask.long.word 0x90 16.--25. 1. "PHY_GTLVL_FINAL_STEP_3,Final backup step delay used in gate training algorithm for slice 3." newline hexmask.long.word 0x90 0.--9. 1. "PHY_GTLVL_BACK_STEP_3,Interim backup step delay used in gate training algorithm for slice 3." line.long 0x94 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_872," hexmask.long.word 0x94 16.--24. 1. "PHY_WDQLVL_DM_SEARCH_RANGE_3,The dm target delay search range for non-lpddr4 DM training for slice 3." newline hexmask.long.byte 0x94 8.--11. 1. "PHY_WDQLVL_QTR_DLY_STEP_3,Defines the step granularity for the logic to use once an edge is found for slice 3. When this occurs the logic jumps back to the previous invalid value and uses this step size to determine a more accurate delay value." newline hexmask.long.byte 0x94 0.--7. 1. "PHY_WDQLVL_DLY_STEP_3,DQ target delay step size during write data leveling for slice 3." line.long 0x98 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_873," hexmask.long.byte 0x98 8.--11. 1. "PHY_RDLVL_DLY_STEP_3,DQS target delay step size during read leveling for slice 3." newline bitfld.long 0x98 0. "PHY_TOGGLE_PRE_SUPPORT_3,Support the toggle read preamble for LPDDR4 for slice 3." "0,1" line.long 0x9C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_874," hexmask.long.word 0x9C 0.--9. 1. "PHY_RDLVL_MAX_EDGE_3,The maximun rdlvl target delay search window for read eye training for slice 3." line.long 0xA0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_875," bitfld.long 0xA0 16.--17. "PHY_DATA_DC_INIT_DISABLE_3,Disable duty cycle adjust at initialization for slice 3." "0,1,2,3" newline bitfld.long 0xA0 8.--10. "PHY_WRPATH_GATE_TIMING_3,Write path clock gating timing for slice 3. it means additional clock number to write path clock gate" "0,1,2,3,4,5,6,7" newline bitfld.long 0xA0 0.--1. "PHY_WRPATH_GATE_DISABLE_3,Write path clock gating disable for slice 3. [0]: disable pull in wrdata_en; [1]: disable write path clock gating clock always on" "0,1,2,3" line.long 0xA4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_876," hexmask.long.word 0xA4 16.--26. 1. "PHY_DATA_DC_DQ_INIT_SLV_DELAY_3,Initial value of write DQ target delay for slice 3." newline hexmask.long.word 0xA4 0.--9. 1. "PHY_DATA_DC_DQS_INIT_SLV_DELAY_3,Initial value of write DQS target delay for slice 3." line.long 0xA8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_877," hexmask.long.byte 0xA8 24.--31. 1. "PHY_DATA_DC_DM_CLK_DIFF_THRSHLD_3,Clock measurement cell threshold offset for differential signals for slice 3." newline hexmask.long.byte 0xA8 16.--23. 1. "PHY_DATA_DC_DM_CLK_SE_THRSHLD_3,Clock measurement cell threshold offset for single ended signals for slice 3." newline bitfld.long 0xA8 8. "PHY_DATA_DC_WDQLVL_ENABLE_3,Enable duty cycle adjust during write DQ training for slice 3." "0,1" newline bitfld.long 0xA8 0. "PHY_DATA_DC_WRLVL_ENABLE_3,Enable duty cycle adjust during write leveling for slice 3." "0,1" line.long 0xAC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_878," hexmask.long.byte 0xAC 16.--20. 1. "PHY_RDDATA_EN_DLY_3,Number of cycles that the dfi_rddata_en signal is early for slice 3." newline hexmask.long.byte 0xAC 8.--14. 1. "PHY_MEAS_DLY_STEP_ENABLE_3,Data slice training step definition using phy_meas_dly_step_value for slice 3." newline hexmask.long.byte 0xAC 0.--6. 1. "PHY_WDQ_OSC_DELTA_3,Target delay offset that applies to a 1 bit change of dfi_wdq_osc_code for slice 3." line.long 0xB0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_879," hexmask.long 0xB0 0.--31. 1. "PHY_DQ_DM_SWIZZLE0_3,DQ/DM bit swizzling 0 for slice 3. Bits [3:0] inform the PHY which bit in {DM DQ]} map to DQ0 Bits [7:4] inform the PHY which bit in {DM DQ} map to DQ1 etc." line.long 0xB4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_880," hexmask.long.byte 0xB4 0.--3. 1. "PHY_DQ_DM_SWIZZLE1_3,DQ/DM bit swizzling 1 for slice 3. Bits [3:0] inform the PHY which bit in {DM DQ]} map to DM." line.long 0xB8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_881," hexmask.long.word 0xB8 16.--26. 1. "PHY_CLK_WRDQ1_SLAVE_DELAY_3,Write clock target delay setting for DQ1 for slice 3." newline hexmask.long.word 0xB8 0.--10. 1. "PHY_CLK_WRDQ0_SLAVE_DELAY_3,Write clock target delay setting for DQ0 for slice 3." line.long 0xBC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_882," hexmask.long.word 0xBC 16.--26. 1. "PHY_CLK_WRDQ3_SLAVE_DELAY_3,Write clock target delay setting for DQ3 for slice 3." newline hexmask.long.word 0xBC 0.--10. 1. "PHY_CLK_WRDQ2_SLAVE_DELAY_3,Write clock target delay setting for DQ2 for slice 3." line.long 0xC0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_883," hexmask.long.word 0xC0 16.--26. 1. "PHY_CLK_WRDQ5_SLAVE_DELAY_3,Write clock target delay setting for DQ5 for slice 3." newline hexmask.long.word 0xC0 0.--10. 1. "PHY_CLK_WRDQ4_SLAVE_DELAY_3,Write clock target delay setting for DQ4 for slice 3." line.long 0xC4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_884," hexmask.long.word 0xC4 16.--26. 1. "PHY_CLK_WRDQ7_SLAVE_DELAY_3,Write clock target delay setting for DQ7 for slice 3." newline hexmask.long.word 0xC4 0.--10. 1. "PHY_CLK_WRDQ6_SLAVE_DELAY_3,Write clock target delay setting for DQ6 for slice 3." line.long 0xC8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_885," hexmask.long.word 0xC8 16.--25. 1. "PHY_CLK_WRDQS_SLAVE_DELAY_3,Write clock target delay setting for DQS for slice 3." newline hexmask.long.word 0xC8 0.--10. 1. "PHY_CLK_WRDM_SLAVE_DELAY_3,Write clock target delay setting for DM for slice 3." line.long 0xCC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_886," hexmask.long.word 0xCC 8.--17. 1. "PHY_RDDQS_DQ0_RISE_SLAVE_DELAY_3,Rising edge read DQS target delay setting for DQ0 for slice 3." newline bitfld.long 0xCC 0.--1. "PHY_WRLVL_THRESHOLD_ADJUST_3,Write level threshold adjust value based on those thresholds for DQS for slice 3." "0,1,2,3" line.long 0xD0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_887," hexmask.long.word 0xD0 16.--25. 1. "PHY_RDDQS_DQ1_RISE_SLAVE_DELAY_3,Rising edge read DQS target delay setting for DQ1 for slice 3." newline hexmask.long.word 0xD0 0.--9. 1. "PHY_RDDQS_DQ0_FALL_SLAVE_DELAY_3,Falling edge read DQS target delay setting for DQ0 for slice 3." line.long 0xD4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_888," hexmask.long.word 0xD4 16.--25. 1. "PHY_RDDQS_DQ2_RISE_SLAVE_DELAY_3,Rising edge read DQS target delay setting for DQ2 for slice 3." newline hexmask.long.word 0xD4 0.--9. 1. "PHY_RDDQS_DQ1_FALL_SLAVE_DELAY_3,Falling edge read DQS target delay setting for DQ1 for slice 3." line.long 0xD8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_889," hexmask.long.word 0xD8 16.--25. 1. "PHY_RDDQS_DQ3_RISE_SLAVE_DELAY_3,Rising edge read DQS target delay setting for DQ3 for slice 3." newline hexmask.long.word 0xD8 0.--9. 1. "PHY_RDDQS_DQ2_FALL_SLAVE_DELAY_3,Falling edge read DQS target delay setting for DQ2 for slice 3." line.long 0xDC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_890," hexmask.long.word 0xDC 16.--25. 1. "PHY_RDDQS_DQ4_RISE_SLAVE_DELAY_3,Rising edge read DQS target delay setting for DQ4 for slice 3." newline hexmask.long.word 0xDC 0.--9. 1. "PHY_RDDQS_DQ3_FALL_SLAVE_DELAY_3,Falling edge read DQS target delay setting for DQ3 for slice 3." line.long 0xE0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_891," hexmask.long.word 0xE0 16.--25. 1. "PHY_RDDQS_DQ5_RISE_SLAVE_DELAY_3,Rising edge read DQS target delay setting for DQ5 for slice 3." newline hexmask.long.word 0xE0 0.--9. 1. "PHY_RDDQS_DQ4_FALL_SLAVE_DELAY_3,Falling edge read DQS target delay setting for DQ4 for slice 3." line.long 0xE4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_892," hexmask.long.word 0xE4 16.--25. 1. "PHY_RDDQS_DQ6_RISE_SLAVE_DELAY_3,Rising edge read DQS target delay setting for DQ6 for slice 3." newline hexmask.long.word 0xE4 0.--9. 1. "PHY_RDDQS_DQ5_FALL_SLAVE_DELAY_3,Falling edge read DQS target delay setting for DQ5 for slice 3." line.long 0xE8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_893," hexmask.long.word 0xE8 16.--25. 1. "PHY_RDDQS_DQ7_RISE_SLAVE_DELAY_3,Rising edge read DQS target delay setting for DQ7 for slice 3." newline hexmask.long.word 0xE8 0.--9. 1. "PHY_RDDQS_DQ6_FALL_SLAVE_DELAY_3,Falling edge read DQS target delay setting for DQ6 for slice 3." line.long 0xEC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_894," hexmask.long.word 0xEC 16.--25. 1. "PHY_RDDQS_DM_RISE_SLAVE_DELAY_3,Rising edge read DQS target delay setting for DM for slice 3." newline hexmask.long.word 0xEC 0.--9. 1. "PHY_RDDQS_DQ7_FALL_SLAVE_DELAY_3,Falling edge read DQS target delay setting for DQ7 for slice 3." line.long 0xF0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_895," hexmask.long.word 0xF0 16.--25. 1. "PHY_RDDQS_GATE_SLAVE_DELAY_3,Read DQS target delay setting for slice 3." newline hexmask.long.word 0xF0 0.--9. 1. "PHY_RDDQS_DM_FALL_SLAVE_DELAY_3,Falling edge read DQS target delay setting for DM for slice 3." line.long 0xF4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_896," hexmask.long.word 0xF4 16.--25. 1. "PHY_WRLVL_DELAY_EARLY_THRESHOLD_3,Write level delay threshold above which will be considered in previous cycle for slice 3." newline bitfld.long 0xF4 8.--10. "PHY_WRITE_PATH_LAT_ADD_3,Number of cycles to delay the incoming dfi_wrdata_en/dfi_wrdata signals for slice 3." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0xF4 0.--3. 1. "PHY_RDDQS_LATENCY_ADJUST_3,Number of cycles to delay the incoming dfi_rddata_en for read DQS gate generation for slice 3." line.long 0xF8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_897," bitfld.long 0xF8 16. "PHY_WRLVL_EARLY_FORCE_ZERO_3,Force the final write level delay value [that meets the early threshold] to 0 for slice 3." "0,1" newline hexmask.long.word 0xF8 0.--9. 1. "PHY_WRLVL_DELAY_PERIOD_THRESHOLD_3,Write level delay threshold below which will add a cycle of write path latency for slice 3." line.long 0xFC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_898," hexmask.long.byte 0xFC 16.--19. 1. "PHY_GTLVL_LAT_ADJ_START_3,Initial read DQS gate cycle delay from dfi_rddata_en during gate training for slice 3." newline hexmask.long.word 0xFC 0.--9. 1. "PHY_GTLVL_RDDQS_SLV_DLY_START_3,Initial read DQS gate target delay setting during gate training for slice 3." line.long 0x100 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_899," bitfld.long 0x100 24. "PHY_NTP_PASS_3,Indicates if No-topology training found a passing result for slice 3." "0,1" newline hexmask.long.byte 0x100 16.--19. 1. "PHY_NTP_WRLAT_START_3,Initial value for phy_write_path_lat_add for No-topology training and early threshold for slice 3." newline hexmask.long.word 0x100 0.--10. 1. "PHY_WDQLVL_DQDM_SLV_DLY_START_3,Initial DQ/DM target delay setting during write data leveling for slice 3." line.long 0x104 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_900," hexmask.long.word 0x104 0.--9. 1. "PHY_RDLVL_RDDQS_DQ_SLV_DLY_START_3,Read leveling starting value for the DQS/DQ target delay settings for slice 3." line.long 0x108 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_901," hexmask.long.byte 0x108 24.--31. 1. "PHY_DATA_DC_DQ2_CLK_ADJUST_3,Adjust value of Duty Cycle Adjuster for slice 3." newline hexmask.long.byte 0x108 16.--23. 1. "PHY_DATA_DC_DQ1_CLK_ADJUST_3,Adjust value of Duty Cycle Adjuster for slice 3." newline hexmask.long.byte 0x108 8.--15. 1. "PHY_DATA_DC_DQ0_CLK_ADJUST_3,Adjust value of Duty Cycle Adjuster for slice 3." newline hexmask.long.byte 0x108 0.--7. 1. "PHY_DATA_DC_DQS_CLK_ADJUST_3,Adjust value of Duty Cycle Adjuster for slice 3." line.long 0x10C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_902," hexmask.long.byte 0x10C 24.--31. 1. "PHY_DATA_DC_DQ6_CLK_ADJUST_3,Adjust value of Duty Cycle Adjuster for slice 3." newline hexmask.long.byte 0x10C 16.--23. 1. "PHY_DATA_DC_DQ5_CLK_ADJUST_3,Adjust value of Duty Cycle Adjuster for slice 3." newline hexmask.long.byte 0x10C 8.--15. 1. "PHY_DATA_DC_DQ4_CLK_ADJUST_3,Adjust value of Duty Cycle Adjuster for slice 3." newline hexmask.long.byte 0x10C 0.--7. 1. "PHY_DATA_DC_DQ3_CLK_ADJUST_3,Adjust value of Duty Cycle Adjuster for slice 3." line.long 0x110 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_903," hexmask.long.word 0x110 16.--31. 1. "PHY_DSLICE_PAD_BOOSTPN_SETTING_3,Setting for boost P/N of pad for slice 3." newline hexmask.long.byte 0x110 8.--15. 1. "PHY_DATA_DC_DM_CLK_ADJUST_3,Adjust value of Duty Cycle Adjuster for slice 3." newline hexmask.long.byte 0x110 0.--7. 1. "PHY_DATA_DC_DQ7_CLK_ADJUST_3,Adjust value of Duty Cycle Adjuster for slice 3." line.long 0x114 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_904," bitfld.long 0x114 16.--17. "PHY_DQS_FFE_3,TX_FFE setting for DQS pad for slice 3." "0,1,2,3" newline bitfld.long 0x114 8.--9. "PHY_DQ_FFE_3,TX_FFE setting for DQ/DM pad for slice 3." "0,1,2,3" newline hexmask.long.byte 0x114 0.--5. 1. "PHY_DSLICE_PAD_RX_CTLE_SETTING_3,Setting for RX ctle P/N of pad for slice 3." group.long 0x5000++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1024," bitfld.long 0x0 24.--26. "SC_PHY_ADR_MANUAL_CLEAR_0,Manual reset/clear of internal logic for address slice 0. Bit [0] is reset of controller delay min/max lock values. Bit [1] is manual reset of controller delay unlock counter. Bit [2] clears the loopback error/results registers." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 16. "PHY_ADR_CLK_BYPASS_OVERRIDE_0,Bypass mode override setting for address slice 0. Set to 1 to enable." "0,1" newline hexmask.long.word 0x0 0.--10. 1. "PHY_ADR_CLK_WR_BYPASS_SLAVE_DELAY_0,Command/Address clock bypass mode target delay setting for address slice 0." rgroup.long 0x5004++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1025," hexmask.long 0x0 0.--31. 1. "PHY_ADR_LPBK_RESULT_OBS_0,Observation register containing loopback status/results for address slice 0. READ-ONLY" group.long 0x5008++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1026," hexmask.long.byte 0x0 24.--27. 1. "PHY_ADR_MASTER_DLY_LOCK_OBS_SELECT_0,Select value to map the internal controller delay observation registers to the accessible controller delay observation register for address slice 0." newline hexmask.long.byte 0x0 16.--23. 1. "PHY_ADR_MEAS_DLY_STEP_VALUE_0,Contains the fraction of a cycle in 1 delay element numerator with demominator of 512 for address slice 0. READ-ONLY" newline hexmask.long.word 0x0 0.--15. 1. "PHY_ADR_LPBK_ERROR_COUNT_OBS_0,Observation register containing total number of loopback error data for address slice 0. READ-ONLY" rgroup.long 0x500C++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1027," hexmask.long.byte 0x0 24.--31. 1. "PHY_ADR_ADDER_SLV_DLY_ENC_OBS_0,Observation register containing addr target delay for address slice 0. READ-ONLY" newline hexmask.long.byte 0x0 16.--22. 1. "PHY_ADR_BASE_SLV_DLY_ENC_OBS_0,Observation register containing base target delay for address slice 0. READ-ONLY" newline hexmask.long.word 0x0 0.--10. 1. "PHY_ADR_MASTER_DLY_LOCK_OBS_0,Observation register containing controller delay results for address slice 0. READ-ONLY" group.long 0x5010++0x13 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1028," bitfld.long 0x0 24. "PHY_ADR_TSEL_ENABLE_0,Enables tsel_en for address slice 0." "0,1" newline bitfld.long 0x0 16. "SC_PHY_ADR_SNAP_OBS_REGS_0,Initiates a snapshot of the internal observation registers for address slice 0. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0x0 8.--10. "PHY_ADR_SLV_DLY_ENC_OBS_SELECT_0,Select value to map the addr bits delay observation registers to the accessible delay observation register for address slice 0." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 0.--2. "PHY_ADR_SLAVE_LOOP_CNT_UPDATE_0,Reserved for address slice 0." "0,1,2,3,4,5,6,7" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1029," bitfld.long 0x4 24. "PHY_ADR_PWR_RDC_DISABLE_0,Power reduction disable for address slice 0." "0,1" newline hexmask.long.byte 0x4 16.--20. 1. "PHY_ADR_PRBS_PATTERN_MASK_0,PRBS7 mask signal for address slice 0." newline hexmask.long.byte 0x4 8.--14. 1. "PHY_ADR_PRBS_PATTERN_START_0,PRBS7 start pattern for address slice 0." newline hexmask.long.byte 0x4 0.--6. 1. "PHY_ADR_LPBK_CONTROL_0,Loopback control bits for address slice 0." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1030," bitfld.long 0x8 24. "PHY_ADR_IE_MODE_0,Input enable control for address slice 0." "0,1" newline rbitfld.long 0x8 16.--18. "PHY_ADR_WRADDR_SHIFT_OBS_0,Observation register containing automatic half cycle and cycle shift values for address slice 0. READ-ONLY" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 8.--9. "PHY_ADR_TYPE_0,DRAM type for address slice 0." "0,1,2,3" newline bitfld.long 0x8 0. "PHY_ADR_SLV_DLY_CTRL_GATE_DISABLE_0,Power reduction slv_dly_control block gate disable for address slice 0." "0,1" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1031," hexmask.long 0xC 0.--26. 1. "PHY_ADR_DDL_MODE_0,DDL mode for address slice 0." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1032," hexmask.long.byte 0x10 0.--5. 1. "PHY_ADR_DDL_MASK_0,DDL mask for address slice 0." rgroup.long 0x5024++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1033," hexmask.long 0x0 0.--31. 1. "PHY_ADR_DDL_TEST_OBS_0,Observation register containing DDL test bits for address slice 0. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1034," hexmask.long 0x4 0.--31. 1. "PHY_ADR_DDL_TEST_MSTR_DLY_OBS_0,Observation register containing controller DDL bits for address slice 0. READ-ONLY" group.long 0x502C++0x17 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1035," hexmask.long.word 0x0 16.--26. 1. "PHY_ADR_CALVL_COARSE_DLY_0,Coarse CA training DDL increment value for address slice 0." newline hexmask.long.word 0x0 0.--10. 1. "PHY_ADR_CALVL_START_0,CA training DDL start value for address slice 0." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1036," hexmask.long.word 0x4 0.--10. 1. "PHY_ADR_CALVL_QTR_0,CA training DDL quarter cycle delay value for address slice 0." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1037," hexmask.long.tbyte 0x8 0.--23. 1. "PHY_ADR_CALVL_SWIZZLE0_0,CA training RD DQ bit swizzle map 0 for address slice 0." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1038," bitfld.long 0xC 24.--25. "PHY_ADR_CALVL_RANK_CTRL_0,CA training rank aggregation control bits for address slice 0." "0,1,2,3" newline hexmask.long.tbyte 0xC 0.--23. 1. "PHY_ADR_CALVL_SWIZZLE1_0,CA training RD DQ bit swizzle map 1 for address slice 0." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1039," hexmask.long.word 0x10 16.--24. 1. "PHY_ADR_CALVL_PERIODIC_START_OFFSET_0,Relative offset to start periodic CALVL from previous result" newline hexmask.long.byte 0x10 8.--11. 1. "PHY_ADR_CALVL_RESP_WAIT_CNT_0,Number of samples to wait before sampling response during CA training for address slice 0." newline bitfld.long 0x10 0.--1. "PHY_ADR_CALVL_NUM_PATTERNS_0,Number of patterns to use during CA training for address slice 0." "0,1,2,3" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1040," bitfld.long 0x14 24.--26. "PHY_ADR_CALVL_OBS_SELECT_0,CA bit lane to observe result from OBS0 during CA training for address slice 0." "0,1,2,3,4,5,6,7" newline bitfld.long 0x14 16. "SC_PHY_ADR_CALVL_ERROR_CLR_0,Clears the CA training state machine error status for address slice 0. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0x14 8. "SC_PHY_ADR_CALVL_DEBUG_CONT_0,Allows the CA training state machine to advance [when in debug mode] for address slice 0. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0x14 0. "PHY_ADR_CALVL_DEBUG_MODE_0,Enables CA training debug mode for address slice 0. Set to 1 to enable." "0,1" rgroup.long 0x5044++0xF line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1041," hexmask.long 0x0 0.--31. 1. "PHY_ADR_CALVL_CH0_OBS0_0,Observation register for CA training for channel 0 slice 0. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1042," hexmask.long 0x4 0.--31. 1. "PHY_ADR_CALVL_CH1_OBS0_0,Observation register for CA training for channel 1 slice 0. READ-ONLY" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1043," hexmask.long 0x8 0.--31. 1. "PHY_ADR_CALVL_OBS1_0,Observation register contains general CA training bits for slice 0. READ-ONLY" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1044," hexmask.long 0xC 0.--31. 1. "PHY_ADR_CALVL_OBS2_0,Observation register contains periodic CA training bits for slice 0. READ-ONLY" group.long 0x5054++0x6F line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1045," hexmask.long.tbyte 0x0 0.--19. 1. "PHY_ADR_CALVL_FG_0_0,CA training foreground pattern 0 for address slice 0." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1046," hexmask.long.tbyte 0x4 0.--19. 1. "PHY_ADR_CALVL_BG_0_0,CA training background pattern 0 for address slice 0." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1047," hexmask.long.tbyte 0x8 0.--19. 1. "PHY_ADR_CALVL_FG_1_0,CA training foreground pattern 1 for address slice 0." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1048," hexmask.long.tbyte 0xC 0.--19. 1. "PHY_ADR_CALVL_BG_1_0,CA training background pattern 1 for address slice 0." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1049," hexmask.long.tbyte 0x10 0.--19. 1. "PHY_ADR_CALVL_FG_2_0,CA training foreground pattern 2 for address slice 0." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1050," hexmask.long.tbyte 0x14 0.--19. 1. "PHY_ADR_CALVL_BG_2_0,CA training background pattern 2 for address slice 0." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1051," hexmask.long.tbyte 0x18 0.--19. 1. "PHY_ADR_CALVL_FG_3_0,CA training foreground pattern 3 for address slice 0." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1052," hexmask.long.tbyte 0x1C 0.--19. 1. "PHY_ADR_CALVL_BG_3_0,CA training background pattern 3 for address slice 0." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1053," hexmask.long 0x20 0.--29. 1. "PHY_ADR_ADDR_SEL_0,Selects which DFI address pins connect to which CA pins for LPDDR3/4 for address slice 0." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1054," hexmask.long.byte 0x24 24.--29. 1. "PHY_ADR_SEG_MASK_0,Segment mask bit for address slice 0. Set to 1 to indicate that the bit is either CA 4 or CA 9." newline hexmask.long.byte 0x24 16.--21. 1. "PHY_ADR_BIT_MASK_0,Mask bit for address slice 0. Set to 1 to indicate that the bit is used." newline hexmask.long.word 0x24 0.--9. 1. "PHY_ADR_LP4_BOOT_SLV_DELAY_0,Address target delay setting during the LPDDR4 boot frequency operation for address slice 0." line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1055," hexmask.long.byte 0x28 24.--29. 1. "PHY_ADR_SW_TXIO_CTRL_0,Controls address pad output enable for address slice 0. Set to 1 to disable output enable." newline hexmask.long.byte 0x28 16.--19. 1. "PHY_ADR_STATIC_TOG_DISABLE_0,Toggle control during static activity for address slice 0. Set bit to dsiable toggling bit0: Write path delay line bit1: Read path delay line bit2: Read data path bit3: clk_phy bit4: controller delay line." newline hexmask.long.byte 0x28 8.--13. 1. "PHY_ADR_CSLVL_TRAIN_MASK_0,Mask bit for CS training participation for address slice 0. Set to 1 to indicate that the bit is participating in CS training." newline hexmask.long.byte 0x28 0.--5. 1. "PHY_ADR_CALVL_TRAIN_MASK_0,Mask bit for CA training participation for address slice 0. Set to 1 to indicate that the bit is participating in CA training." line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1056," hexmask.long.byte 0x2C 24.--31. 1. "PHY_ADR_DC_ADR2_CLK_ADJUST_0,Adjust value of Clock Duty Cycle Adjuster lane 2 for address slice 0." newline hexmask.long.byte 0x2C 16.--23. 1. "PHY_ADR_DC_ADR1_CLK_ADJUST_0,Adjust value of Clock Duty Cycle Adjuster lane 1 for address slice 0." newline hexmask.long.byte 0x2C 8.--15. 1. "PHY_ADR_DC_ADR0_CLK_ADJUST_0,Adjust value of Clock Duty Cycle Adjuster lane 0 for address slice 0." newline bitfld.long 0x2C 0.--1. "PHY_ADR_DC_INIT_DISABLE_0,Duty Cycle Corrector disable at initialization for address slice 0. Set to 1 to disable bit [1] controls data path bit [0] controls clock path." "0,1,2,3" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1057," bitfld.long 0x30 24. "PHY_ADR_DCC_RXCAL_CTRL_GATE_DISABLE_0,DCC and RX_CAL clk gate disable for address slice 0. 1 = disable clk gate." "?,1: disable clk gate" newline hexmask.long.byte 0x30 16.--23. 1. "PHY_ADR_DC_ADR5_CLK_ADJUST_0,Adjust value of Clock Duty Cycle Adjuster lane 5 for address slice 0." newline hexmask.long.byte 0x30 8.--15. 1. "PHY_ADR_DC_ADR4_CLK_ADJUST_0,Adjust value of Clock Duty Cycle Adjuster lane 4 for address slice 0." newline hexmask.long.byte 0x30 0.--7. 1. "PHY_ADR_DC_ADR3_CLK_ADJUST_0,Adjust value of Clock Duty Cycle Adjuster lane 3 for address slice 0." line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1058," hexmask.long.byte 0x34 24.--29. 1. "PHY_ADR_DC_ADJUST_START_0,DCC calibration starting value for address slice 0." newline bitfld.long 0x34 16.--17. "PHY_ADR_DC_WEIGHT_0,DCC weighting factor base value for address slice 0." "0,1,2,3" newline hexmask.long.byte 0x34 8.--15. 1. "PHY_ADR_DC_CAL_TIMEOUT_0,DCC number of iterations to wait before timeout for address slice 0." newline hexmask.long.byte 0x34 0.--7. 1. "PHY_ADR_DC_CAL_SAMPLE_WAIT_0,DCC cycles to wait after calibration change before sampling results for address slice 0." line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1059," bitfld.long 0x38 24. "PHY_ADR_DC_CAL_POLARITY_0,DCC calibration polarity for address slice 0." "0,1" newline bitfld.long 0x38 16. "PHY_ADR_DC_ADJUST_DIRECT_0,DCC adjust direction for address slice 0." "0,1" newline hexmask.long.byte 0x38 8.--15. 1. "PHY_ADR_DC_ADJUST_THRSHLD_0,DCC adjust threshold around the mid-point for address slice 0." newline hexmask.long.byte 0x38 0.--7. 1. "PHY_ADR_DC_ADJUST_SAMPLE_CNT_0,DCC number of samples to take for address slice 0." line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1060," hexmask.long.byte 0x3C 8.--13. 1. "PHY_ADR_SW_TXPWR_CTRL_0,Disable address output enables in deep sleep mode for address slice 0." newline bitfld.long 0x3C 0. "PHY_ADR_DC_CAL_START_0,DCC Manual trigger for address slice 0." "0,1" line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1061," hexmask.long.word 0x40 16.--26. 1. "PHY_PAD_ADR_IO_CFG_0,Controls I/O pads for address pad for address slice 0. Bits [10:5] = Park value bits [4] park override bits [2:0] clk divider." newline bitfld.long 0x40 8.--10. "PHY_ADR_DC_CAL_CLK_SEL_0,DCC CAL clock for address slice 0." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x40 0.--7. 1. "PHY_ADR_TSEL_SELECT_0,Tsel select values for address slice 0." line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1062," hexmask.long.word 0x44 16.--26. 1. "PHY_ADR0_CLK_WR_SLAVE_DELAY_0,CA bit 0 target delay setting for address slice 0." newline hexmask.long.byte 0x44 8.--12. 1. "PHY_ADR0_SW_WRADDR_SHIFT_0,Manual override of CA bit 0 of automatic half_cycle_shift/cycle_shift for address slice 0. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3].." newline bitfld.long 0x44 0.--2. "PHY_PAD_ADR_RX_PCLK_CLK_SEL_0,Reserved for address slice 0." "0,1,2,3,4,5,6,7" line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1063," hexmask.long.byte 0x48 24.--28. 1. "PHY_ADR2_SW_WRADDR_SHIFT_0,Manual override of CA bit 2 of automatic half_cycle_shift/cycle_shift for address slice 0. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3].." newline hexmask.long.word 0x48 8.--18. 1. "PHY_ADR1_CLK_WR_SLAVE_DELAY_0,CA bit 1 target delay setting for address slice 0." newline hexmask.long.byte 0x48 0.--4. 1. "PHY_ADR1_SW_WRADDR_SHIFT_0,Manual override of CA bit 1 of automatic half_cycle_shift/cycle_shift for address slice 0. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3].." line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1064," hexmask.long.byte 0x4C 16.--20. 1. "PHY_ADR3_SW_WRADDR_SHIFT_0,Manual override of CA bit 3 of automatic half_cycle_shift/cycle_shift for address slice 0. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3].." newline hexmask.long.word 0x4C 0.--10. 1. "PHY_ADR2_CLK_WR_SLAVE_DELAY_0,CA bit 2 target delay setting for address slice 0." line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1065," hexmask.long.byte 0x50 16.--20. 1. "PHY_ADR4_SW_WRADDR_SHIFT_0,Manual override of CA bit 4 of automatic half_cycle_shift/cycle_shift for address slice 0. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3].." newline hexmask.long.word 0x50 0.--10. 1. "PHY_ADR3_CLK_WR_SLAVE_DELAY_0,CA bit 3 target delay setting for address slice 0." line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1066," hexmask.long.byte 0x54 16.--20. 1. "PHY_ADR5_SW_WRADDR_SHIFT_0,Manual override of CA bit 5 of automatic half_cycle_shift/cycle_shift for address slice 0. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3].." newline hexmask.long.word 0x54 0.--10. 1. "PHY_ADR4_CLK_WR_SLAVE_DELAY_0,CA bit 4 target delay setting for address slice 0." line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1067," hexmask.long.byte 0x58 16.--19. 1. "PHY_ADR_SW_MASTER_MODE_0,Controller delay line override settings for address slice 0. Bit [0] enables software half clock mode. Bit [1] is the software half clock mode value. Bit [2] enables software bypass mode. Bit [3] is the software bypass mode value." newline hexmask.long.word 0x58 0.--10. 1. "PHY_ADR5_CLK_WR_SLAVE_DELAY_0,CA bit 5 target delay setting for address slice 0." line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1068," hexmask.long.byte 0x5C 24.--31. 1. "PHY_ADR_MASTER_DELAY_WAIT_0,Wait cycles for controller delay line locking algorithm for address slice 0. Bits [3:0] is the cycle wait count after a calibration clock setting change. Bits [7:4] is the cycle wait count after a controller delay setting.." newline hexmask.long.byte 0x5C 16.--21. 1. "PHY_ADR_MASTER_DELAY_STEP_0,Incremental step size for controller delay line locking algorithm for address slice 0." newline hexmask.long.word 0x5C 0.--10. 1. "PHY_ADR_MASTER_DELAY_START_0,Start value for controller delay line locking algorithm for address slice 0." line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1069," bitfld.long 0x60 24. "PHY_ADR_SW_CALVL_DVW_MIN_EN_0,Enables the software override data valid window size during CA training for address slice 0." "0,1" newline hexmask.long.word 0x60 8.--17. 1. "PHY_ADR_SW_CALVL_DVW_MIN_0,Sets the software override data valid window size during CA training for address slice 0." newline hexmask.long.byte 0x60 0.--7. 1. "PHY_ADR_MASTER_DELAY_HALF_MEASURE_0,Defines the number of delay line elements to be considered in determing whether to lock to a half clock cycle for the controller in address slice 0" line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1070," hexmask.long.byte 0x64 0.--3. 1. "PHY_ADR_CALVL_DLY_STEP_0,Sets the delay step size plus 1 during CA training for address slice 0." line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1071," hexmask.long.word 0x68 16.--25. 1. "PHY_ADR_DC_INIT_SLV_DELAY_0,DCC initialization value of write ADDR target delay for address slice 0." newline bitfld.long 0x68 8. "PHY_ADR_MEAS_DLY_STEP_ENABLE_0,Enables delay parameter setting using phy_adr_meas_dly_step_value for address slice 0." "0,1" newline hexmask.long.byte 0x68 0.--3. 1. "PHY_ADR_CALVL_CAPTURE_CNT_0,Number of samples to take at each ADDR target delay setting during CA training for address slice 0." line.long 0x6C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1072," hexmask.long.byte 0x6C 8.--15. 1. "PHY_ADR_DC_DM_CLK_THRSHLD_0,DCC clock measurement cell threshold offset for address slice 0." newline bitfld.long 0x6C 0. "PHY_ADR_DC_CALVL_ENABLE_0,DCC enable duty cycle adjust during CA leveling for address slice 0." "0,1" group.long 0x5400++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1280," bitfld.long 0x0 24.--26. "SC_PHY_ADR_MANUAL_CLEAR_1,Manual reset/clear of internal logic for address slice 1. Bit [0] is reset of controller delay min/max lock values. Bit [1] is manual reset of controller delay unlock counter. Bit [2] clears the loopback error/results registers." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 16. "PHY_ADR_CLK_BYPASS_OVERRIDE_1,Bypass mode override setting for address slice 1. Set to 1 to enable." "0,1" newline hexmask.long.word 0x0 0.--10. 1. "PHY_ADR_CLK_WR_BYPASS_SLAVE_DELAY_1,Command/Address clock bypass mode target delay setting for address slice 1." rgroup.long 0x5404++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1281," hexmask.long 0x0 0.--31. 1. "PHY_ADR_LPBK_RESULT_OBS_1,Observation register containing loopback status/results for address slice 1. READ-ONLY" group.long 0x5408++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1282," hexmask.long.byte 0x0 24.--27. 1. "PHY_ADR_MASTER_DLY_LOCK_OBS_SELECT_1,Select value to map the internal controller delay observation registers to the accessible controller delay observation register for address slice 1." newline hexmask.long.byte 0x0 16.--23. 1. "PHY_ADR_MEAS_DLY_STEP_VALUE_1,Contains the fraction of a cycle in 1 delay element numerator with demominator of 512 for address slice 1. READ-ONLY" newline hexmask.long.word 0x0 0.--15. 1. "PHY_ADR_LPBK_ERROR_COUNT_OBS_1,Observation register containing total number of loopback error data for address slice 1. READ-ONLY" rgroup.long 0x540C++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1283," hexmask.long.byte 0x0 24.--31. 1. "PHY_ADR_ADDER_SLV_DLY_ENC_OBS_1,Observation register containing addr target delay for address slice 1. READ-ONLY" newline hexmask.long.byte 0x0 16.--22. 1. "PHY_ADR_BASE_SLV_DLY_ENC_OBS_1,Observation register containing base target delay for address slice 1. READ-ONLY" newline hexmask.long.word 0x0 0.--10. 1. "PHY_ADR_MASTER_DLY_LOCK_OBS_1,Observation register containing controller delay results for address slice 1. READ-ONLY" group.long 0x5410++0x13 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1284," bitfld.long 0x0 24. "PHY_ADR_TSEL_ENABLE_1,Enables tsel_en for address slice 1." "0,1" newline bitfld.long 0x0 16. "SC_PHY_ADR_SNAP_OBS_REGS_1,Initiates a snapshot of the internal observation registers for address slice 1. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0x0 8.--10. "PHY_ADR_SLV_DLY_ENC_OBS_SELECT_1,Select value to map the addr bits delay observation registers to the accessible delay observation register for address slice 1." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 0.--2. "PHY_ADR_SLAVE_LOOP_CNT_UPDATE_1,Reserved for address slice 1." "0,1,2,3,4,5,6,7" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1285," bitfld.long 0x4 24. "PHY_ADR_PWR_RDC_DISABLE_1,Power reduction disable for address slice 1." "0,1" newline hexmask.long.byte 0x4 16.--20. 1. "PHY_ADR_PRBS_PATTERN_MASK_1,PRBS7 mask signal for address slice 1." newline hexmask.long.byte 0x4 8.--14. 1. "PHY_ADR_PRBS_PATTERN_START_1,PRBS7 start pattern for address slice 1." newline hexmask.long.byte 0x4 0.--6. 1. "PHY_ADR_LPBK_CONTROL_1,Loopback control bits for address slice 1." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1286," bitfld.long 0x8 24. "PHY_ADR_IE_MODE_1,Input enable control for address slice 1." "0,1" newline rbitfld.long 0x8 16.--18. "PHY_ADR_WRADDR_SHIFT_OBS_1,Observation register containing automatic half cycle and cycle shift values for address slice 1. READ-ONLY" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 8.--9. "PHY_ADR_TYPE_1,DRAM type for address slice 1." "0,1,2,3" newline bitfld.long 0x8 0. "PHY_ADR_SLV_DLY_CTRL_GATE_DISABLE_1,Power reduction slv_dly_control block gate disable for address slice 1." "0,1" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1287," hexmask.long 0xC 0.--26. 1. "PHY_ADR_DDL_MODE_1,DDL mode for address slice 1." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1288," hexmask.long.byte 0x10 0.--5. 1. "PHY_ADR_DDL_MASK_1,DDL mask for address slice 1." rgroup.long 0x5424++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1289," hexmask.long 0x0 0.--31. 1. "PHY_ADR_DDL_TEST_OBS_1,Observation register containing DDL test bits for address slice 1. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1290," hexmask.long 0x4 0.--31. 1. "PHY_ADR_DDL_TEST_MSTR_DLY_OBS_1,Observation register containing controller DDL bits for address slice 1. READ-ONLY" group.long 0x542C++0x17 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1291," hexmask.long.word 0x0 16.--26. 1. "PHY_ADR_CALVL_COARSE_DLY_1,Coarse CA training DDL increment value for address slice 1." newline hexmask.long.word 0x0 0.--10. 1. "PHY_ADR_CALVL_START_1,CA training DDL start value for address slice 1." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1292," hexmask.long.word 0x4 0.--10. 1. "PHY_ADR_CALVL_QTR_1,CA training DDL quarter cycle delay value for address slice 1." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1293," hexmask.long.tbyte 0x8 0.--23. 1. "PHY_ADR_CALVL_SWIZZLE0_1,CA training RD DQ bit swizzle map 0 for address slice 1." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1294," bitfld.long 0xC 24.--25. "PHY_ADR_CALVL_RANK_CTRL_1,CA training rank aggregation control bits for address slice 1." "0,1,2,3" newline hexmask.long.tbyte 0xC 0.--23. 1. "PHY_ADR_CALVL_SWIZZLE1_1,CA training RD DQ bit swizzle map 1 for address slice 1." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1295," hexmask.long.word 0x10 16.--24. 1. "PHY_ADR_CALVL_PERIODIC_START_OFFSET_1,Relative offset to start periodic CALVL from previous result" newline hexmask.long.byte 0x10 8.--11. 1. "PHY_ADR_CALVL_RESP_WAIT_CNT_1,Number of samples to wait before sampling response during CA training for address slice 1." newline bitfld.long 0x10 0.--1. "PHY_ADR_CALVL_NUM_PATTERNS_1,Number of patterns to use during CA training for address slice 1." "0,1,2,3" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1296," bitfld.long 0x14 24.--26. "PHY_ADR_CALVL_OBS_SELECT_1,CA bit lane to observe result from OBS0 during CA training for address slice 1." "0,1,2,3,4,5,6,7" newline bitfld.long 0x14 16. "SC_PHY_ADR_CALVL_ERROR_CLR_1,Clears the CA training state machine error status for address slice 1. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0x14 8. "SC_PHY_ADR_CALVL_DEBUG_CONT_1,Allows the CA training state machine to advance [when in debug mode] for address slice 1. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0x14 0. "PHY_ADR_CALVL_DEBUG_MODE_1,Enables CA training debug mode for address slice 1. Set to 1 to enable." "0,1" rgroup.long 0x5444++0xF line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1297," hexmask.long 0x0 0.--31. 1. "PHY_ADR_CALVL_CH0_OBS0_1,Observation register for CA training for channel 0 slice 1. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1298," hexmask.long 0x4 0.--31. 1. "PHY_ADR_CALVL_CH1_OBS0_1,Observation register for CA training for channel 1 slice 1. READ-ONLY" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1299," hexmask.long 0x8 0.--31. 1. "PHY_ADR_CALVL_OBS1_1,Observation register contains general CA training bits for slice 1. READ-ONLY" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1300," hexmask.long 0xC 0.--31. 1. "PHY_ADR_CALVL_OBS2_1,Observation register contains periodic CA training bits for slice 1. READ-ONLY" group.long 0x5454++0x6F line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1301," hexmask.long.tbyte 0x0 0.--19. 1. "PHY_ADR_CALVL_FG_0_1,CA training foreground pattern 0 for address slice 1." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1302," hexmask.long.tbyte 0x4 0.--19. 1. "PHY_ADR_CALVL_BG_0_1,CA training background pattern 0 for address slice 1." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1303," hexmask.long.tbyte 0x8 0.--19. 1. "PHY_ADR_CALVL_FG_1_1,CA training foreground pattern 1 for address slice 1." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1304," hexmask.long.tbyte 0xC 0.--19. 1. "PHY_ADR_CALVL_BG_1_1,CA training background pattern 1 for address slice 1." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1305," hexmask.long.tbyte 0x10 0.--19. 1. "PHY_ADR_CALVL_FG_2_1,CA training foreground pattern 2 for address slice 1." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1306," hexmask.long.tbyte 0x14 0.--19. 1. "PHY_ADR_CALVL_BG_2_1,CA training background pattern 2 for address slice 1." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1307," hexmask.long.tbyte 0x18 0.--19. 1. "PHY_ADR_CALVL_FG_3_1,CA training foreground pattern 3 for address slice 1." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1308," hexmask.long.tbyte 0x1C 0.--19. 1. "PHY_ADR_CALVL_BG_3_1,CA training background pattern 3 for address slice 1." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1309," hexmask.long 0x20 0.--29. 1. "PHY_ADR_ADDR_SEL_1,Selects which DFI address pins connect to which CA pins for LPDDR3/4 for address slice 1." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1310," hexmask.long.byte 0x24 24.--29. 1. "PHY_ADR_SEG_MASK_1,Segment mask bit for address slice 1. Set to 1 to indicate that the bit is either CA 4 or CA 9." newline hexmask.long.byte 0x24 16.--21. 1. "PHY_ADR_BIT_MASK_1,Mask bit for address slice 1. Set to 1 to indicate that the bit is used." newline hexmask.long.word 0x24 0.--9. 1. "PHY_ADR_LP4_BOOT_SLV_DELAY_1,Address target delay setting during the LPDDR4 boot frequency operation for address slice 1." line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1311," hexmask.long.byte 0x28 24.--29. 1. "PHY_ADR_SW_TXIO_CTRL_1,Controls address pad output enable for address slice 1. Set to 1 to disable output enable." newline hexmask.long.byte 0x28 16.--19. 1. "PHY_ADR_STATIC_TOG_DISABLE_1,Toggle control during static activity for address slice 1. Set bit to dsiable toggling bit0: Write path delay line bit1: Read path delay line bit2: Read data path bit3: clk_phy bit4: controller delay line." newline hexmask.long.byte 0x28 8.--13. 1. "PHY_ADR_CSLVL_TRAIN_MASK_1,Mask bit for CS training participation for address slice 1. Set to 1 to indicate that the bit is participating in CS training." newline hexmask.long.byte 0x28 0.--5. 1. "PHY_ADR_CALVL_TRAIN_MASK_1,Mask bit for CA training participation for address slice 1. Set to 1 to indicate that the bit is participating in CA training." line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1312," hexmask.long.byte 0x2C 24.--31. 1. "PHY_ADR_DC_ADR2_CLK_ADJUST_1,Adjust value of Clock Duty Cycle Adjuster lane 2 for address slice 1." newline hexmask.long.byte 0x2C 16.--23. 1. "PHY_ADR_DC_ADR1_CLK_ADJUST_1,Adjust value of Clock Duty Cycle Adjuster lane 1 for address slice 1." newline hexmask.long.byte 0x2C 8.--15. 1. "PHY_ADR_DC_ADR0_CLK_ADJUST_1,Adjust value of Clock Duty Cycle Adjuster lane 0 for address slice 1." newline bitfld.long 0x2C 0.--1. "PHY_ADR_DC_INIT_DISABLE_1,Duty Cycle Corrector disable at initialization for address slice 1. Set to 1 to disable bit [1] controls data path bit [0] controls clock path." "0,1,2,3" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1313," bitfld.long 0x30 24. "PHY_ADR_DCC_RXCAL_CTRL_GATE_DISABLE_1,DCC and RX_CAL clk gate disable for address slice 1. 1 = disable clk gate." "?,1: disable clk gate" newline hexmask.long.byte 0x30 16.--23. 1. "PHY_ADR_DC_ADR5_CLK_ADJUST_1,Adjust value of Clock Duty Cycle Adjuster lane 5 for address slice 1." newline hexmask.long.byte 0x30 8.--15. 1. "PHY_ADR_DC_ADR4_CLK_ADJUST_1,Adjust value of Clock Duty Cycle Adjuster lane 4 for address slice 1." newline hexmask.long.byte 0x30 0.--7. 1. "PHY_ADR_DC_ADR3_CLK_ADJUST_1,Adjust value of Clock Duty Cycle Adjuster lane 3 for address slice 1." line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1314," hexmask.long.byte 0x34 24.--29. 1. "PHY_ADR_DC_ADJUST_START_1,DCC calibration starting value for address slice 1." newline bitfld.long 0x34 16.--17. "PHY_ADR_DC_WEIGHT_1,DCC weighting factor base value for address slice 1." "0,1,2,3" newline hexmask.long.byte 0x34 8.--15. 1. "PHY_ADR_DC_CAL_TIMEOUT_1,DCC number of iterations to wait before timeout for address slice 1." newline hexmask.long.byte 0x34 0.--7. 1. "PHY_ADR_DC_CAL_SAMPLE_WAIT_1,DCC cycles to wait after calibration change before sampling results for address slice 1." line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1315," bitfld.long 0x38 24. "PHY_ADR_DC_CAL_POLARITY_1,DCC calibration polarity for address slice 1." "0,1" newline bitfld.long 0x38 16. "PHY_ADR_DC_ADJUST_DIRECT_1,DCC adjust direction for address slice 1." "0,1" newline hexmask.long.byte 0x38 8.--15. 1. "PHY_ADR_DC_ADJUST_THRSHLD_1,DCC adjust threshold around the mid-point for address slice 1." newline hexmask.long.byte 0x38 0.--7. 1. "PHY_ADR_DC_ADJUST_SAMPLE_CNT_1,DCC number of samples to take for address slice 1." line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1316," hexmask.long.byte 0x3C 8.--13. 1. "PHY_ADR_SW_TXPWR_CTRL_1,Disable address output enables in deep sleep mode for address slice 1." newline bitfld.long 0x3C 0. "PHY_ADR_DC_CAL_START_1,DCC Manual trigger for address slice 1." "0,1" line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1317," hexmask.long.word 0x40 16.--26. 1. "PHY_PAD_ADR_IO_CFG_1,Controls I/O pads for address pad for address slice 1. Bits [10:5] = Park value bits [4] park override bits [2:0] clk divider." newline bitfld.long 0x40 8.--10. "PHY_ADR_DC_CAL_CLK_SEL_1,DCC CAL clock for address slice 1." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x40 0.--7. 1. "PHY_ADR_TSEL_SELECT_1,Tsel select values for address slice 1." line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1318," hexmask.long.word 0x44 16.--26. 1. "PHY_ADR0_CLK_WR_SLAVE_DELAY_1,CA bit 0 target delay setting for address slice 1." newline hexmask.long.byte 0x44 8.--12. 1. "PHY_ADR0_SW_WRADDR_SHIFT_1,Manual override of CA bit 0 of automatic half_cycle_shift/cycle_shift for address slice 1. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3].." newline bitfld.long 0x44 0.--2. "PHY_PAD_ADR_RX_PCLK_CLK_SEL_1,Reserved for address slice 1." "0,1,2,3,4,5,6,7" line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1319," hexmask.long.byte 0x48 24.--28. 1. "PHY_ADR2_SW_WRADDR_SHIFT_1,Manual override of CA bit 2 of automatic half_cycle_shift/cycle_shift for address slice 1. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3].." newline hexmask.long.word 0x48 8.--18. 1. "PHY_ADR1_CLK_WR_SLAVE_DELAY_1,CA bit 1 target delay setting for address slice 1." newline hexmask.long.byte 0x48 0.--4. 1. "PHY_ADR1_SW_WRADDR_SHIFT_1,Manual override of CA bit 1 of automatic half_cycle_shift/cycle_shift for address slice 1. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3].." line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1320," hexmask.long.byte 0x4C 16.--20. 1. "PHY_ADR3_SW_WRADDR_SHIFT_1,Manual override of CA bit 3 of automatic half_cycle_shift/cycle_shift for address slice 1. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3].." newline hexmask.long.word 0x4C 0.--10. 1. "PHY_ADR2_CLK_WR_SLAVE_DELAY_1,CA bit 2 target delay setting for address slice 1." line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1321," hexmask.long.byte 0x50 16.--20. 1. "PHY_ADR4_SW_WRADDR_SHIFT_1,Manual override of CA bit 4 of automatic half_cycle_shift/cycle_shift for address slice 1. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3].." newline hexmask.long.word 0x50 0.--10. 1. "PHY_ADR3_CLK_WR_SLAVE_DELAY_1,CA bit 3 target delay setting for address slice 1." line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1322," hexmask.long.byte 0x54 16.--20. 1. "PHY_ADR5_SW_WRADDR_SHIFT_1,Manual override of CA bit 5 of automatic half_cycle_shift/cycle_shift for address slice 1. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3].." newline hexmask.long.word 0x54 0.--10. 1. "PHY_ADR4_CLK_WR_SLAVE_DELAY_1,CA bit 4 target delay setting for address slice 1." line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1323," hexmask.long.byte 0x58 16.--19. 1. "PHY_ADR_SW_MASTER_MODE_1,Controller delay line override settings for address slice 1. Bit [0] enables software half clock mode. Bit [1] is the software half clock mode value. Bit [2] enables software bypass mode. Bit [3] is the software bypass mode value." newline hexmask.long.word 0x58 0.--10. 1. "PHY_ADR5_CLK_WR_SLAVE_DELAY_1,CA bit 5 target delay setting for address slice 1." line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1324," hexmask.long.byte 0x5C 24.--31. 1. "PHY_ADR_MASTER_DELAY_WAIT_1,Wait cycles for controller delay line locking algorithm for address slice 1. Bits [3:0] is the cycle wait count after a calibration clock setting change. Bits [7:4] is the cycle wait count after a controller delay setting.." newline hexmask.long.byte 0x5C 16.--21. 1. "PHY_ADR_MASTER_DELAY_STEP_1,Incremental step size for controller delay line locking algorithm for address slice 1." newline hexmask.long.word 0x5C 0.--10. 1. "PHY_ADR_MASTER_DELAY_START_1,Start value for controller delay line locking algorithm for address slice 1." line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1325," bitfld.long 0x60 24. "PHY_ADR_SW_CALVL_DVW_MIN_EN_1,Enables the software override data valid window size during CA training for address slice 1." "0,1" newline hexmask.long.word 0x60 8.--17. 1. "PHY_ADR_SW_CALVL_DVW_MIN_1,Sets the software override data valid window size during CA training for address slice 1." newline hexmask.long.byte 0x60 0.--7. 1. "PHY_ADR_MASTER_DELAY_HALF_MEASURE_1,Defines the number of delay line elements to be considered in determing whether to lock to a half clock cycle for the controller in address slice 1" line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1326," hexmask.long.byte 0x64 0.--3. 1. "PHY_ADR_CALVL_DLY_STEP_1,Sets the delay step size plus 1 during CA training for address slice 1." line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1327," hexmask.long.word 0x68 16.--25. 1. "PHY_ADR_DC_INIT_SLV_DELAY_1,DCC initialization value of write ADDR target delay for address slice 1." newline bitfld.long 0x68 8. "PHY_ADR_MEAS_DLY_STEP_ENABLE_1,Enables delay parameter setting using phy_adr_meas_dly_step_value for address slice 1." "0,1" newline hexmask.long.byte 0x68 0.--3. 1. "PHY_ADR_CALVL_CAPTURE_CNT_1,Number of samples to take at each ADDR target delay setting during CA training for address slice 1." line.long 0x6C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1328," hexmask.long.byte 0x6C 8.--15. 1. "PHY_ADR_DC_DM_CLK_THRSHLD_1,DCC clock measurement cell threshold offset for address slice 1." newline bitfld.long 0x6C 0. "PHY_ADR_DC_CALVL_ENABLE_1,DCC enable duty cycle adjust during CA leveling for address slice 1." "0,1" group.long 0x5800++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1536," bitfld.long 0x0 24.--26. "SC_PHY_ADR_MANUAL_CLEAR_2,Manual reset/clear of internal logic for address slice 2. Bit [0] is reset of controller delay min/max lock values. Bit [1] is manual reset of controller delay unlock counter. Bit [2] clears the loopback error/results registers." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 16. "PHY_ADR_CLK_BYPASS_OVERRIDE_2,Bypass mode override setting for address slice 2. Set to 1 to enable." "0,1" newline hexmask.long.word 0x0 0.--10. 1. "PHY_ADR_CLK_WR_BYPASS_SLAVE_DELAY_2,Command/Address clock bypass mode target delay setting for address slice 2." rgroup.long 0x5804++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1537," hexmask.long 0x0 0.--31. 1. "PHY_ADR_LPBK_RESULT_OBS_2,Observation register containing loopback status/results for address slice 2. READ-ONLY" group.long 0x5808++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1538," hexmask.long.byte 0x0 24.--27. 1. "PHY_ADR_MASTER_DLY_LOCK_OBS_SELECT_2,Select value to map the internal controller delay observation registers to the accessible controller delay observation register for address slice 2." newline hexmask.long.byte 0x0 16.--23. 1. "PHY_ADR_MEAS_DLY_STEP_VALUE_2,Contains the fraction of a cycle in 1 delay element numerator with demominator of 512 for address slice 2. READ-ONLY" newline hexmask.long.word 0x0 0.--15. 1. "PHY_ADR_LPBK_ERROR_COUNT_OBS_2,Observation register containing total number of loopback error data for address slice 2. READ-ONLY" rgroup.long 0x580C++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1539," hexmask.long.byte 0x0 24.--31. 1. "PHY_ADR_ADDER_SLV_DLY_ENC_OBS_2,Observation register containing addr target delay for address slice 2. READ-ONLY" newline hexmask.long.byte 0x0 16.--22. 1. "PHY_ADR_BASE_SLV_DLY_ENC_OBS_2,Observation register containing base target delay for address slice 2. READ-ONLY" newline hexmask.long.word 0x0 0.--10. 1. "PHY_ADR_MASTER_DLY_LOCK_OBS_2,Observation register containing controller delay results for address slice 2. READ-ONLY" group.long 0x5810++0x13 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1540," bitfld.long 0x0 24. "PHY_ADR_TSEL_ENABLE_2,Enables tsel_en for address slice 2." "0,1" newline bitfld.long 0x0 16. "SC_PHY_ADR_SNAP_OBS_REGS_2,Initiates a snapshot of the internal observation registers for address slice 2. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0x0 8.--10. "PHY_ADR_SLV_DLY_ENC_OBS_SELECT_2,Select value to map the addr bits delay observation registers to the accessible delay observation register for address slice 2." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 0.--2. "PHY_ADR_SLAVE_LOOP_CNT_UPDATE_2,Reserved for address slice 2." "0,1,2,3,4,5,6,7" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1541," bitfld.long 0x4 24. "PHY_ADR_PWR_RDC_DISABLE_2,Power reduction disable for address slice 2." "0,1" newline hexmask.long.byte 0x4 16.--20. 1. "PHY_ADR_PRBS_PATTERN_MASK_2,PRBS7 mask signal for address slice 2." newline hexmask.long.byte 0x4 8.--14. 1. "PHY_ADR_PRBS_PATTERN_START_2,PRBS7 start pattern for address slice 2." newline hexmask.long.byte 0x4 0.--6. 1. "PHY_ADR_LPBK_CONTROL_2,Loopback control bits for address slice 2." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1542," bitfld.long 0x8 24. "PHY_ADR_IE_MODE_2,Input enable control for address slice 2." "0,1" newline rbitfld.long 0x8 16.--18. "PHY_ADR_WRADDR_SHIFT_OBS_2,Observation register containing automatic half cycle and cycle shift values for address slice 2. READ-ONLY" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 8.--9. "PHY_ADR_TYPE_2,DRAM type for address slice 2." "0,1,2,3" newline bitfld.long 0x8 0. "PHY_ADR_SLV_DLY_CTRL_GATE_DISABLE_2,Power reduction slv_dly_control block gate disable for address slice 2." "0,1" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1543," hexmask.long 0xC 0.--26. 1. "PHY_ADR_DDL_MODE_2,DDL mode for address slice 2." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1544," hexmask.long.byte 0x10 0.--5. 1. "PHY_ADR_DDL_MASK_2,DDL mask for address slice 2." rgroup.long 0x5824++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1545," hexmask.long 0x0 0.--31. 1. "PHY_ADR_DDL_TEST_OBS_2,Observation register containing DDL test bits for address slice 2. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1546," hexmask.long 0x4 0.--31. 1. "PHY_ADR_DDL_TEST_MSTR_DLY_OBS_2,Observation register containing controller DDL bits for address slice 2. READ-ONLY" group.long 0x582C++0x17 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1547," hexmask.long.word 0x0 16.--26. 1. "PHY_ADR_CALVL_COARSE_DLY_2,Coarse CA training DDL increment value for address slice 2." newline hexmask.long.word 0x0 0.--10. 1. "PHY_ADR_CALVL_START_2,CA training DDL start value for address slice 2." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1548," hexmask.long.word 0x4 0.--10. 1. "PHY_ADR_CALVL_QTR_2,CA training DDL quarter cycle delay value for address slice 2." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1549," hexmask.long.tbyte 0x8 0.--23. 1. "PHY_ADR_CALVL_SWIZZLE0_2,CA training RD DQ bit swizzle map 0 for address slice 2." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1550," bitfld.long 0xC 24.--25. "PHY_ADR_CALVL_RANK_CTRL_2,CA training rank aggregation control bits for address slice 2." "0,1,2,3" newline hexmask.long.tbyte 0xC 0.--23. 1. "PHY_ADR_CALVL_SWIZZLE1_2,CA training RD DQ bit swizzle map 1 for address slice 2." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1551," hexmask.long.word 0x10 16.--24. 1. "PHY_ADR_CALVL_PERIODIC_START_OFFSET_2,Relative offset to start periodic CALVL from previous result" newline hexmask.long.byte 0x10 8.--11. 1. "PHY_ADR_CALVL_RESP_WAIT_CNT_2,Number of samples to wait before sampling response during CA training for address slice 2." newline bitfld.long 0x10 0.--1. "PHY_ADR_CALVL_NUM_PATTERNS_2,Number of patterns to use during CA training for address slice 2." "0,1,2,3" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1552," bitfld.long 0x14 24.--26. "PHY_ADR_CALVL_OBS_SELECT_2,CA bit lane to observe result from OBS0 during CA training for address slice 2." "0,1,2,3,4,5,6,7" newline bitfld.long 0x14 16. "SC_PHY_ADR_CALVL_ERROR_CLR_2,Clears the CA training state machine error status for address slice 2. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0x14 8. "SC_PHY_ADR_CALVL_DEBUG_CONT_2,Allows the CA training state machine to advance [when in debug mode] for address slice 2. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0x14 0. "PHY_ADR_CALVL_DEBUG_MODE_2,Enables CA training debug mode for address slice 2. Set to 1 to enable." "0,1" rgroup.long 0x5844++0xF line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1553," hexmask.long 0x0 0.--31. 1. "PHY_ADR_CALVL_CH0_OBS0_2,Observation register for CA training for channel 0 slice 2. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1554," hexmask.long 0x4 0.--31. 1. "PHY_ADR_CALVL_CH1_OBS0_2,Observation register for CA training for channel 1 slice 2. READ-ONLY" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1555," hexmask.long 0x8 0.--31. 1. "PHY_ADR_CALVL_OBS1_2,Observation register contains general CA training bits for slice 2. READ-ONLY" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1556," hexmask.long 0xC 0.--31. 1. "PHY_ADR_CALVL_OBS2_2,Observation register contains periodic CA training bits for slice 2. READ-ONLY" group.long 0x5854++0x6F line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1557," hexmask.long.tbyte 0x0 0.--19. 1. "PHY_ADR_CALVL_FG_0_2,CA training foreground pattern 0 for address slice 2." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1558," hexmask.long.tbyte 0x4 0.--19. 1. "PHY_ADR_CALVL_BG_0_2,CA training background pattern 0 for address slice 2." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1559," hexmask.long.tbyte 0x8 0.--19. 1. "PHY_ADR_CALVL_FG_1_2,CA training foreground pattern 1 for address slice 2." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1560," hexmask.long.tbyte 0xC 0.--19. 1. "PHY_ADR_CALVL_BG_1_2,CA training background pattern 1 for address slice 2." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1561," hexmask.long.tbyte 0x10 0.--19. 1. "PHY_ADR_CALVL_FG_2_2,CA training foreground pattern 2 for address slice 2." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1562," hexmask.long.tbyte 0x14 0.--19. 1. "PHY_ADR_CALVL_BG_2_2,CA training background pattern 2 for address slice 2." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1563," hexmask.long.tbyte 0x18 0.--19. 1. "PHY_ADR_CALVL_FG_3_2,CA training foreground pattern 3 for address slice 2." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1564," hexmask.long.tbyte 0x1C 0.--19. 1. "PHY_ADR_CALVL_BG_3_2,CA training background pattern 3 for address slice 2." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1565," hexmask.long 0x20 0.--29. 1. "PHY_ADR_ADDR_SEL_2,Selects which DFI address pins connect to which CA pins for LPDDR3/4 for address slice 2." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1566," hexmask.long.byte 0x24 24.--29. 1. "PHY_ADR_SEG_MASK_2,Segment mask bit for address slice 2. Set to 1 to indicate that the bit is either CA 4 or CA 9." newline hexmask.long.byte 0x24 16.--21. 1. "PHY_ADR_BIT_MASK_2,Mask bit for address slice 2. Set to 1 to indicate that the bit is used." newline hexmask.long.word 0x24 0.--9. 1. "PHY_ADR_LP4_BOOT_SLV_DELAY_2,Address target delay setting during the LPDDR4 boot frequency operation for address slice 2." line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1567," hexmask.long.byte 0x28 24.--29. 1. "PHY_ADR_SW_TXIO_CTRL_2,Controls address pad output enable for address slice 2. Set to 1 to disable output enable." newline hexmask.long.byte 0x28 16.--19. 1. "PHY_ADR_STATIC_TOG_DISABLE_2,Toggle control during static activity for address slice 2. Set bit to dsiable toggling bit0: Write path delay line bit1: Read path delay line bit2: Read data path bit3: clk_phy bit4: controller delay line." newline hexmask.long.byte 0x28 8.--13. 1. "PHY_ADR_CSLVL_TRAIN_MASK_2,Mask bit for CS training participation for address slice 2. Set to 1 to indicate that the bit is participating in CS training." newline hexmask.long.byte 0x28 0.--5. 1. "PHY_ADR_CALVL_TRAIN_MASK_2,Mask bit for CA training participation for address slice 2. Set to 1 to indicate that the bit is participating in CA training." line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1568," hexmask.long.byte 0x2C 24.--31. 1. "PHY_ADR_DC_ADR2_CLK_ADJUST_2,Adjust value of Clock Duty Cycle Adjuster lane 2 for address slice 2." newline hexmask.long.byte 0x2C 16.--23. 1. "PHY_ADR_DC_ADR1_CLK_ADJUST_2,Adjust value of Clock Duty Cycle Adjuster lane 1 for address slice 2." newline hexmask.long.byte 0x2C 8.--15. 1. "PHY_ADR_DC_ADR0_CLK_ADJUST_2,Adjust value of Clock Duty Cycle Adjuster lane 0 for address slice 2." newline bitfld.long 0x2C 0.--1. "PHY_ADR_DC_INIT_DISABLE_2,Duty Cycle Corrector disable at initialization for address slice 2. Set to 1 to disable bit [1] controls data path bit [0] controls clock path." "0,1,2,3" line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1569," bitfld.long 0x30 24. "PHY_ADR_DCC_RXCAL_CTRL_GATE_DISABLE_2,DCC and RX_CAL clk gate disable for address slice 2. 1 = disable clk gate." "?,1: disable clk gate" newline hexmask.long.byte 0x30 16.--23. 1. "PHY_ADR_DC_ADR5_CLK_ADJUST_2,Adjust value of Clock Duty Cycle Adjuster lane 5 for address slice 2." newline hexmask.long.byte 0x30 8.--15. 1. "PHY_ADR_DC_ADR4_CLK_ADJUST_2,Adjust value of Clock Duty Cycle Adjuster lane 4 for address slice 2." newline hexmask.long.byte 0x30 0.--7. 1. "PHY_ADR_DC_ADR3_CLK_ADJUST_2,Adjust value of Clock Duty Cycle Adjuster lane 3 for address slice 2." line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1570," hexmask.long.byte 0x34 24.--29. 1. "PHY_ADR_DC_ADJUST_START_2,DCC calibration starting value for address slice 2." newline bitfld.long 0x34 16.--17. "PHY_ADR_DC_WEIGHT_2,DCC weighting factor base value for address slice 2." "0,1,2,3" newline hexmask.long.byte 0x34 8.--15. 1. "PHY_ADR_DC_CAL_TIMEOUT_2,DCC number of iterations to wait before timeout for address slice 2." newline hexmask.long.byte 0x34 0.--7. 1. "PHY_ADR_DC_CAL_SAMPLE_WAIT_2,DCC cycles to wait after calibration change before sampling results for address slice 2." line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1571," bitfld.long 0x38 24. "PHY_ADR_DC_CAL_POLARITY_2,DCC calibration polarity for address slice 2." "0,1" newline bitfld.long 0x38 16. "PHY_ADR_DC_ADJUST_DIRECT_2,DCC adjust direction for address slice 2." "0,1" newline hexmask.long.byte 0x38 8.--15. 1. "PHY_ADR_DC_ADJUST_THRSHLD_2,DCC adjust threshold around the mid-point for address slice 2." newline hexmask.long.byte 0x38 0.--7. 1. "PHY_ADR_DC_ADJUST_SAMPLE_CNT_2,DCC number of samples to take for address slice 2." line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1572," hexmask.long.byte 0x3C 8.--13. 1. "PHY_ADR_SW_TXPWR_CTRL_2,Disable address output enables in deep sleep mode for address slice 2." newline bitfld.long 0x3C 0. "PHY_ADR_DC_CAL_START_2,DCC Manual trigger for address slice 2." "0,1" line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1573," hexmask.long.word 0x40 16.--26. 1. "PHY_PAD_ADR_IO_CFG_2,Controls I/O pads for address pad for address slice 2. Bits [10:5] = Park value bits [4] park override bits [2:0] clk divider." newline bitfld.long 0x40 8.--10. "PHY_ADR_DC_CAL_CLK_SEL_2,DCC CAL clock for address slice 2." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x40 0.--7. 1. "PHY_ADR_TSEL_SELECT_2,Tsel select values for address slice 2." line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1574," hexmask.long.word 0x44 16.--26. 1. "PHY_ADR0_CLK_WR_SLAVE_DELAY_2,CA bit 0 target delay setting for address slice 2." newline hexmask.long.byte 0x44 8.--12. 1. "PHY_ADR0_SW_WRADDR_SHIFT_2,Manual override of CA bit 0 of automatic half_cycle_shift/cycle_shift for address slice 2. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3].." newline bitfld.long 0x44 0.--2. "PHY_PAD_ADR_RX_PCLK_CLK_SEL_2,Reserved for address slice 2." "0,1,2,3,4,5,6,7" line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1575," hexmask.long.byte 0x48 24.--28. 1. "PHY_ADR2_SW_WRADDR_SHIFT_2,Manual override of CA bit 2 of automatic half_cycle_shift/cycle_shift for address slice 2. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3].." newline hexmask.long.word 0x48 8.--18. 1. "PHY_ADR1_CLK_WR_SLAVE_DELAY_2,CA bit 1 target delay setting for address slice 2." newline hexmask.long.byte 0x48 0.--4. 1. "PHY_ADR1_SW_WRADDR_SHIFT_2,Manual override of CA bit 1 of automatic half_cycle_shift/cycle_shift for address slice 2. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3].." line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1576," hexmask.long.byte 0x4C 16.--20. 1. "PHY_ADR3_SW_WRADDR_SHIFT_2,Manual override of CA bit 3 of automatic half_cycle_shift/cycle_shift for address slice 2. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3].." newline hexmask.long.word 0x4C 0.--10. 1. "PHY_ADR2_CLK_WR_SLAVE_DELAY_2,CA bit 2 target delay setting for address slice 2." line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1577," hexmask.long.byte 0x50 16.--20. 1. "PHY_ADR4_SW_WRADDR_SHIFT_2,Manual override of CA bit 4 of automatic half_cycle_shift/cycle_shift for address slice 2. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3].." newline hexmask.long.word 0x50 0.--10. 1. "PHY_ADR3_CLK_WR_SLAVE_DELAY_2,CA bit 3 target delay setting for address slice 2." line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1578," hexmask.long.byte 0x54 16.--20. 1. "PHY_ADR5_SW_WRADDR_SHIFT_2,Manual override of CA bit 5 of automatic half_cycle_shift/cycle_shift for address slice 2. Bit [0] enables override of half_cycle_shift. Bit [1] is the half_cycle_shift value. Bit [2] enables override of cycle shift. Bits [4:3].." newline hexmask.long.word 0x54 0.--10. 1. "PHY_ADR4_CLK_WR_SLAVE_DELAY_2,CA bit 4 target delay setting for address slice 2." line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1579," hexmask.long.byte 0x58 16.--19. 1. "PHY_ADR_SW_MASTER_MODE_2,Controller delay line override settings for address slice 2. Bit [0] enables software half clock mode. Bit [1] is the software half clock mode value. Bit [2] enables software bypass mode. Bit [3] is the software bypass mode value." newline hexmask.long.word 0x58 0.--10. 1. "PHY_ADR5_CLK_WR_SLAVE_DELAY_2,CA bit 5 target delay setting for address slice 2." line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1580," hexmask.long.byte 0x5C 24.--31. 1. "PHY_ADR_MASTER_DELAY_WAIT_2,Wait cycles for controller delay line locking algorithm for address slice 2. Bits [3:0] is the cycle wait count after a calibration clock setting change. Bits [7:4] is the cycle wait count after a controller delay setting.." newline hexmask.long.byte 0x5C 16.--21. 1. "PHY_ADR_MASTER_DELAY_STEP_2,Incremental step size for controller delay line locking algorithm for address slice 2." newline hexmask.long.word 0x5C 0.--10. 1. "PHY_ADR_MASTER_DELAY_START_2,Start value for controller delay line locking algorithm for address slice 2." line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1581," bitfld.long 0x60 24. "PHY_ADR_SW_CALVL_DVW_MIN_EN_2,Enables the software override data valid window size during CA training for address slice 2." "0,1" newline hexmask.long.word 0x60 8.--17. 1. "PHY_ADR_SW_CALVL_DVW_MIN_2,Sets the software override data valid window size during CA training for address slice 2." newline hexmask.long.byte 0x60 0.--7. 1. "PHY_ADR_MASTER_DELAY_HALF_MEASURE_2,Defines the number of delay line elements to be considered in determing whether to lock to a half clock cycle for the controller in address slice 2" line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1582," hexmask.long.byte 0x64 0.--3. 1. "PHY_ADR_CALVL_DLY_STEP_2,Sets the delay step size plus 1 during CA training for address slice 2." line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1583," hexmask.long.word 0x68 16.--25. 1. "PHY_ADR_DC_INIT_SLV_DELAY_2,DCC initialization value of write ADDR target delay for address slice 2." newline bitfld.long 0x68 8. "PHY_ADR_MEAS_DLY_STEP_ENABLE_2,Enables delay parameter setting using phy_adr_meas_dly_step_value for address slice 2." "0,1" newline hexmask.long.byte 0x68 0.--3. 1. "PHY_ADR_CALVL_CAPTURE_CNT_2,Number of samples to take at each ADDR target delay setting during CA training for address slice 2." line.long 0x6C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1584," hexmask.long.byte 0x6C 8.--15. 1. "PHY_ADR_DC_DM_CLK_THRSHLD_2,DCC clock measurement cell threshold offset for address slice 2." newline bitfld.long 0x6C 0. "PHY_ADR_DC_CALVL_ENABLE_2,DCC enable duty cycle adjust during CA leveling for address slice 2." "0,1" group.long 0x5C00++0x23 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1792," bitfld.long 0x0 0.--1. "PHY_FREQ_SEL,Specifies which copy of the frequency-dependent timing parameters will be used by the PHY." "0,1,2,3" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1793," hexmask.long.byte 0x4 24.--28. 1. "PHY_SW_GRP0_SHIFT_0,Address slice target delay setting for address slice 4." newline bitfld.long 0x4 16.--17. "PHY_FREQ_SEL_INDEX,Selects which frequency set to update when PHY_FREQ_SEL_MULTICAST_EN is not set." "0,1,2,3" newline bitfld.long 0x4 8. "PHY_FREQ_SEL_MULTICAST_EN,When set a register write will update parameters for all frequency sets simultaneously. Set to 1 to enable." "0,1" newline bitfld.long 0x4 0. "PHY_FREQ_SEL_FROM_REGIF,Indicates which source is used to select the frequency copy. When set to 1 the frequency select source is given by parameter PHY_FREQ_SEL from register I/F. When cleared to 0 the frequency select source is the PHY input signal.." "0,1" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1794," hexmask.long.byte 0x8 24.--28. 1. "PHY_SW_GRP0_SHIFT_1,Address slice target delay setting for address slice 4." newline hexmask.long.byte 0x8 16.--20. 1. "PHY_SW_GRP3_SHIFT_0,Address slice target delay setting for address slice 4." newline hexmask.long.byte 0x8 8.--12. 1. "PHY_SW_GRP2_SHIFT_0,Address slice target delay setting for address slice 4." newline hexmask.long.byte 0x8 0.--4. 1. "PHY_SW_GRP1_SHIFT_0,Address slice target delay setting for address slice 4." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1795," hexmask.long.byte 0xC 24.--28. 1. "PHY_SW_GRP0_SHIFT_2,Address slice target delay setting for address slice 4." newline hexmask.long.byte 0xC 16.--20. 1. "PHY_SW_GRP3_SHIFT_1,Address slice target delay setting for address slice 4." newline hexmask.long.byte 0xC 8.--12. 1. "PHY_SW_GRP2_SHIFT_1,Address slice target delay setting for address slice 4." newline hexmask.long.byte 0xC 0.--4. 1. "PHY_SW_GRP1_SHIFT_1,Address slice target delay setting for address slice 4." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1796," hexmask.long.byte 0x10 24.--28. 1. "PHY_SW_GRP0_SHIFT_3,Address slice target delay setting for address slice 4." newline hexmask.long.byte 0x10 16.--20. 1. "PHY_SW_GRP3_SHIFT_2,Address slice target delay setting for address slice 4." newline hexmask.long.byte 0x10 8.--12. 1. "PHY_SW_GRP2_SHIFT_2,Address slice target delay setting for address slice 4." newline hexmask.long.byte 0x10 0.--4. 1. "PHY_SW_GRP1_SHIFT_2,Address slice target delay setting for address slice 4." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1797," hexmask.long.byte 0x14 16.--20. 1. "PHY_SW_GRP3_SHIFT_3,Address slice target delay setting for address slice 4." newline hexmask.long.byte 0x14 8.--12. 1. "PHY_SW_GRP2_SHIFT_3,Address slice target delay setting for address slice 4." newline hexmask.long.byte 0x14 0.--4. 1. "PHY_SW_GRP1_SHIFT_3,Address slice target delay setting for address slice 4." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1798," bitfld.long 0x18 24. "PHY_GRP_BYPASS_OVERRIDE,Address/control group slice bypass mode override setting." "0,1" newline hexmask.long.byte 0x18 16.--20. 1. "PHY_SW_GRP_BYPASS_SHIFT,Address/control group slice bypass mode shift settings." newline hexmask.long.word 0x18 0.--10. 1. "PHY_GRP_BYPASS_SLAVE_DELAY,Address/control group slice bypass mode target delay setting." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1799," hexmask.long.word 0x1C 16.--26. 1. "PHY_CSLVL_START,Defines the CS training DDL start value." newline bitfld.long 0x1C 8. "PHY_MANUAL_UPDATE_PHYUPD_ENABLE,Manual update selection of all target delay line settings. Set 1 to assert phyupd_req and wait phyupd_ack to update delay line set 0 to update delay line directly." "0,1" newline bitfld.long 0x1C 0. "SC_PHY_MANUAL_UPDATE,Manual update of all target delay line settings. Set to 1 to trigger. WRITE-ONLY" "0,1" line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1800," bitfld.long 0x20 24. "SC_PHY_CSLVL_DEBUG_CONT,Allows the CS training state machine to advance [when in debug mode]. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0x20 16. "PHY_CSLVL_DEBUG_MODE,Enables CS training debug mode. Set to 1 to enable." "0,1" newline hexmask.long.word 0x20 0.--10. 1. "PHY_CSLVL_COARSE_DLY,Defines the CS training DDL coarse cycle delay value." wgroup.long 0x5C24++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1801," bitfld.long 0x0 0. "SC_PHY_CSLVL_ERROR_CLR,Clears the CS training state machine error status. Set to 1 to trigger. WRITE-ONLY" "0,1" rgroup.long 0x5C28++0xB line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1802," hexmask.long 0x0 0.--31. 1. "PHY_CSLVL_OBS0,Observation register for CS training delay values. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1803," hexmask.long 0x4 0.--31. 1. "PHY_CSLVL_OBS1,Observation register for CS training algorithm status. READ-ONLY" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1804," hexmask.long 0x8 0.--31. 1. "PHY_CSLVL_OBS2,Observation register for periodic CS training delay values. READ-ONLY" group.long 0x5C34++0x2F line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1805," bitfld.long 0x0 24. "PHY_LP4_BOOT_DISABLE,Controls the handling of the DFI frequency. When set to 1 DFI frequency 0 is considered the first operational frequency. When cleared to 0 DFI frequency 0 is the boot frequency and other DFI frequency values are operational.." "0,1" newline hexmask.long.word 0x0 8.--16. 1. "PHY_CSLVL_PERIODIC_START_OFFSET,Defines the relative offset from previous LE and TE to start periodic CSLVL with." newline bitfld.long 0x0 0. "PHY_CSLVL_ENABLE,CS training enable. Set to 1 to enable CS training during CA training." "0,1" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1806," hexmask.long.word 0x4 8.--18. 1. "PHY_CSLVL_QTR,Defines the CS training DDL 1/4 cycle delay value." newline hexmask.long.byte 0x4 0.--3. 1. "PHY_CSLVL_CS_MAP,CS training map. Set each CS bit to 1 to allow that CS to participate in CS training results. NOT CURRENTLY USED." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1807," hexmask.long.byte 0x8 24.--31. 1. "PHY_CALVL_CS_MAP,Defines the slice numbers associated with each CS during CA training." newline hexmask.long.byte 0x8 16.--19. 1. "PHY_CSLVL_COARSE_CAPTURE_CNT,Defines the number of samples to take at each GRP target delay setting during CS training coarse CA training." newline hexmask.long.word 0x8 0.--10. 1. "PHY_CSLVL_COARSE_CHK,Defines the CS training coarse CA training DDL 1/16th cycle delay value." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1808," bitfld.long 0xC 24. "PHY_ADRCTL_LPDDR,Adds a cycle of delay for the address/control slices to match the address slice." "0,1" newline bitfld.long 0xC 16.--17. "PHY_DFI_PHYUPD_TYPE,Defines the value of the dfi_phyupd_type output signal to MC." "0,1,2,3" newline bitfld.long 0xC 8. "PHY_ADRCTL_SNAP_OBS_REGS,Initiates a snapshot of the internal observation registers for the address/control block. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0xC 0.--2. "PHY_ADRCTL_SLAVE_LOOP_CNT_UPDATE,Reserved for the address/control controller." "0,1,2,3,4,5,6,7" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1809," hexmask.long.byte 0x10 24.--31. 1. "PHY_CLK_DC_CAL_TIMEOUT,Duty cycle correction maximum iteration count." newline hexmask.long.byte 0x10 16.--23. 1. "PHY_CLK_DC_CAL_SAMPLE_WAIT,Number of cal clock cycles to wait for a sample to be taken." newline bitfld.long 0x10 8. "PHY_LPDDR3_CS,Alters reset state polarity for LPDDR chip selects." "0,1" newline bitfld.long 0x10 0. "PHY_LP4_ACTIVE,Indicates an LPDDR4 device is connected to the PHY." "0,1" line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1810," hexmask.long.byte 0x14 24.--31. 1. "PHY_CLK_DC_ADJUST_SAMPLE_CNT,Duty cycle correction algorithm sample count per adjustment setting." newline hexmask.long.byte 0x14 16.--21. 1. "PHY_CLK_DC_ADJUST_START,Duty cycle correction algorithm adjustment starting value." newline bitfld.long 0x14 8. "PHY_CLK_DC_FREQ_CHG_ADJ,Duty cycle correction during frequency change control." "0,1" newline bitfld.long 0x14 0.--1. "PHY_CLK_DC_WEIGHT,Duty cycle correction weighting factor base value." "0,1,2,3" line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1811," bitfld.long 0x18 24. "PHY_CLK_DC_CAL_START,Duty cycle correction calibration manual start." "0,1" newline bitfld.long 0x18 16. "PHY_CLK_DC_CAL_POLARITY,Duty cycle correction algorithm measurement polarity." "0,1" newline bitfld.long 0x18 8. "PHY_CLK_DC_ADJUST_DIRECT,Duty cycle correction algorithm adjustment direction." "0,1" newline hexmask.long.byte 0x18 0.--7. 1. "PHY_CLK_DC_ADJUST_THRSHLD,Duty cycle correction algorithm threshold delta comparison." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1812," hexmask.long.byte 0x1C 24.--27. 1. "PHY_SW_TXIO_CTRL_1,This register is used to control if command pad [CS/RAS...] should be shutoff for TX mode." newline hexmask.long.byte 0x1C 16.--19. 1. "PHY_SW_TXIO_CTRL_0,This register is used to control if command pad [CS/RAS...] should be shutoff for TX mode." newline bitfld.long 0x1C 8. "PHY_CONTINUOUS_CLK_CAL_UPDATE,Continuous update of all latest PVTP PVTN and PVTR values to the CLK IO pads. Set to 1 to keep this enabled." "0,1" newline bitfld.long 0x1C 0. "SC_PHY_UPDATE_CLK_CAL_VALUES,Manual update of all latest PVTP PVTN and PVTR values to the CLK IO pads. Set to 1 to trigger. WRITE-ONLY" "0,1" line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1813," hexmask.long.byte 0x20 24.--27. 1. "PHY_ADRCTL_SW_TXPWR_CTRL_0,This register is used to control if address/command pad [address/CS/RAS...] should be shutoff for TX mode in deep sleep mode." newline bitfld.long 0x20 16. "PHY_MEMCLK_SW_TXIO_CTRL,This register is used to control if clk pads should be shutoff for TX mode." "0,1" newline hexmask.long.byte 0x20 8.--11. 1. "PHY_SW_TXIO_CTRL_3,This register is used to control if command pad [CS/RAS...] should be shutoff for TX mode." newline hexmask.long.byte 0x20 0.--3. 1. "PHY_SW_TXIO_CTRL_2,This register is used to control if command pad [CS/RAS...] should be shutoff for TX mode." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1814," bitfld.long 0x24 24. "PHY_MEMCLK_SW_TXPWR_CTRL,This register is used to control if clk pads should be shutoff for TX mode in deep sleep mode." "0,1" newline hexmask.long.byte 0x24 16.--19. 1. "PHY_ADRCTL_SW_TXPWR_CTRL_3,This register is used to control if address/command pad [address/CS/RAS...] should be shutoff for TX mode in deep sleep mode." newline hexmask.long.byte 0x24 8.--11. 1. "PHY_ADRCTL_SW_TXPWR_CTRL_2,This register is used to control if address/command pad [address/CS/RAS...] should be shutoff for TX mode in deep sleep mode." newline hexmask.long.byte 0x24 0.--3. 1. "PHY_ADRCTL_SW_TXPWR_CTRL_1,This register is used to control if address/command pad [address/CS/RAS...] should be shutoff for TX mode in deep sleep mode." line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1815," hexmask.long.word 0x28 16.--31. 1. "PHY_STATIC_TOG_CONTROL,Clock divider to create toggle signal. Use long counter as the base." newline bitfld.long 0x28 8. "PHY_BYTE_DISABLE_STATIC_TOG_DISABLE,Control to disable the toggle signal for data slice during static activity when dfi_data_byte_disable is asserted." "0,1" newline bitfld.long 0x28 0. "PHY_TOP_STATIC_TOG_DISABLE,Disables the generation of the toggle for static clock based paths in the PHY to prevent assymetric aging." "0,1" line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1816," bitfld.long 0x2C 16. "PHY_LP4_BOOT_PLL_BYPASS,PHY clock PLL bypass select." "0,1" newline bitfld.long 0x2C 8. "PHY_MEMCLK_STATIC_TOG_DISABLE,Control to disable toggle during static activity. bit0: clock disable." "0,1" newline hexmask.long.byte 0x2C 0.--3. 1. "PHY_ADRCTL_STATIC_TOG_DISABLE,Control to disable toggle during static activity. bit0: Write path delay line disable; bit1: clock disable; bit2: adrctl controller delay line disable [if exists]; bit3: adrctl misc core clk disable.[if exists]" rgroup.long 0x5C64++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1817," hexmask.long 0x0 0.--31. 1. "PHY_CLK_SWITCH_OBS,Observation register for Clock switch state machine READ-ONLY" group.long 0x5C68++0x27 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1818," hexmask.long.word 0x0 0.--15. 1. "PHY_PLL_WAIT,PHY clock PLL wait time after locking." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1819," bitfld.long 0x4 0. "PHY_SW_PLL_BYPASS,PHY clock PLL bypass select." "0,1" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1820," hexmask.long.byte 0x8 24.--27. 1. "PHY_SET_DFI_INPUT_3,Used to indicate the default value of the adrctl slice bits." newline hexmask.long.byte 0x8 16.--19. 1. "PHY_SET_DFI_INPUT_2,Used to indicate the default value of the adrctl slice bits." newline hexmask.long.byte 0x8 8.--11. 1. "PHY_SET_DFI_INPUT_1,Used to indicate the default value of the adrctl slice bits." newline hexmask.long.byte 0x8 0.--3. 1. "PHY_SET_DFI_INPUT_0,Used to indicate the default value of the adrctl slice bits." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1821," hexmask.long.byte 0xC 24.--27. 1. "PHY_CS_ACS_ALLOCATION_BIT3_0,The map for which chip select is associated with each bit in the adrctl slice 0. Bit [n] 1 means cs[n]'s signal[CS/CKE/ODT/RST] is allocated on ACS_0 bit3 0 means cs[n]'s signal[CS/CKE/ODT/RST] is not tranfser on ACS_0 if.." newline hexmask.long.byte 0xC 16.--19. 1. "PHY_CS_ACS_ALLOCATION_BIT2_0,The map for which chip select is associated with each bit in the adrctl slice 0. Bit [n] 1 means cs[n]'s signal[CS/CKE/ODT/RST] is allocated on ACS_0 bit2 0 means cs[n]'s signal[CS/CKE/ODT/RST] is not tranfser on ACS_0 .." newline hexmask.long.byte 0xC 8.--11. 1. "PHY_CS_ACS_ALLOCATION_BIT1_0,The map for which chip select is associated with each bit in the adrctl slice 0. Bit [n] 1 means cs[n]'s signal[CS/CKE/ODT/RST] is allocated on ACS_0 bit1 0 means cs[n]'s signal[CS/CKE/ODT/RST] is not tranfser on ACS_0 if.." newline hexmask.long.byte 0xC 0.--3. 1. "PHY_CS_ACS_ALLOCATION_BIT0_0,The map for which chip select is associated with each bit in the adrctl slice 0. Bit [n] 1 means cs[n]'s signal[CS/CKE/ODT/RST] is allocated on ACS_0 bit0 0 means cs[n]'s signal[CS/CKE/ODT/RST] is not tranfser on ACS_0 if.." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1822," hexmask.long.byte 0x10 24.--27. 1. "PHY_CS_ACS_ALLOCATION_BIT3_1,The map for which chip select is associated with each bit in the adrctl slice 1. Bit [n] 1 means cs[n]'s signal[CS/CKE/ODT/RST] is allocated on ACS_1 bit3 0 means cs[n]'s signal[CS/CKE/ODT/RST] is not tranfser on ACS_1 if.." newline hexmask.long.byte 0x10 16.--19. 1. "PHY_CS_ACS_ALLOCATION_BIT2_1,The map for which chip select is associated with each bit in the adrctl slice 1. Bit [n] 1 means cs[n]'s signal[CS/CKE/ODT/RST] is allocated on ACS_1 bit2 0 means cs[n]'s signal[CS/CKE/ODT/RST] is not tranfser on ACS_1 .." newline hexmask.long.byte 0x10 8.--11. 1. "PHY_CS_ACS_ALLOCATION_BIT1_1,The map for which chip select is associated with each bit in the adrctl slice 1. Bit [n] 1 means cs[n]'s signal[CS/CKE/ODT/RST] is allocated on ACS_1 bit1 0 means cs[n]'s signal[CS/CKE/ODT/RST] is not tranfser on ACS_1 if.." newline hexmask.long.byte 0x10 0.--3. 1. "PHY_CS_ACS_ALLOCATION_BIT0_1,The map for which chip select is associated with each bit in the adrctl slice 1. Bit [n] 1 means cs[n]'s signal[CS/CKE/ODT/RST] is allocated on ACS_1 bit0 0 means cs[n]'s signal[CS/CKE/ODT/RST] is not tranfser on ACS_1 if.." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1823," hexmask.long.byte 0x14 24.--27. 1. "PHY_CS_ACS_ALLOCATION_BIT3_2,The map for which chip select is associated with each bit in the adrctl slice 2. Bit [n] 1 means cs[n]'s signal[CS/CKE/ODT/RST] is allocated on ACS_2 bit3 0 means cs[n]'s signal[CS/CKE/ODT/RST] is not tranfser on ACS_2 if.." newline hexmask.long.byte 0x14 16.--19. 1. "PHY_CS_ACS_ALLOCATION_BIT2_2,The map for which chip select is associated with each bit in the adrctl slice 2. Bit [n] 1 means cs[n]'s signal[CS/CKE/ODT/RST] is allocated on ACS_2 bit2 0 means cs[n]'s signal[CS/CKE/ODT/RST] is not tranfser on ACS_2 .." newline hexmask.long.byte 0x14 8.--11. 1. "PHY_CS_ACS_ALLOCATION_BIT1_2,The map for which chip select is associated with each bit in the adrctl slice 2. Bit [n] 1 means cs[n]'s signal[CS/CKE/ODT/RST] is allocated on ACS_2 bit1 0 means cs[n]'s signal[CS/CKE/ODT/RST] is not tranfser on ACS_2 if.." newline hexmask.long.byte 0x14 0.--3. 1. "PHY_CS_ACS_ALLOCATION_BIT0_2,The map for which chip select is associated with each bit in the adrctl slice 2. Bit [n] 1 means cs[n]'s signal[CS/CKE/ODT/RST] is allocated on ACS_2 bit0 0 means cs[n]'s signal[CS/CKE/ODT/RST] is not tranfser on ACS_2 if.." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1824," hexmask.long.byte 0x18 24.--27. 1. "PHY_CS_ACS_ALLOCATION_BIT3_3,The map for which chip select is associated with each bit in the adrctl slice 3. Bit [n] 1 means cs[n]'s signal[CS/CKE/ODT/RST] is allocated on ACS_3 bit3 0 means cs[n]'s signal[CS/CKE/ODT/RST] is not tranfser on ACS_3 if.." newline hexmask.long.byte 0x18 16.--19. 1. "PHY_CS_ACS_ALLOCATION_BIT2_3,The map for which chip select is associated with each bit in the adrctl slice 3. Bit [n] 1 means cs[n]'s signal[CS/CKE/ODT/RST] is allocated on ACS_3 bit2 0 means cs[n]'s signal[CS/CKE/ODT/RST] is not tranfser on ACS_3 .." newline hexmask.long.byte 0x18 8.--11. 1. "PHY_CS_ACS_ALLOCATION_BIT1_3,The map for which chip select is associated with each bit in the adrctl slice 3. Bit [n] 1 means cs[n]'s signal[CS/CKE/ODT/RST] is allocated on ACS_3 bit1 0 means cs[n]'s signal[CS/CKE/ODT/RST] is not tranfser on ACS_3 if.." newline hexmask.long.byte 0x18 0.--3. 1. "PHY_CS_ACS_ALLOCATION_BIT0_3,The map for which chip select is associated with each bit in the adrctl slice 3. Bit [n] 1 means cs[n]'s signal[CS/CKE/ODT/RST] is allocated on ACS_3 bit0 0 means cs[n]'s signal[CS/CKE/ODT/RST] is not tranfser on ACS_3 if.." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1825," hexmask.long.byte 0x1C 16.--23. 1. "PHY_CLK_DC_DM_THRSHLD,Data measurement cell threshold offset." newline bitfld.long 0x1C 8. "PHY_CLK_DC_INIT_DISABLE,Disable duty cycle adjust at initialization." "0,1" newline hexmask.long.byte 0x1C 0.--7. 1. "PHY_CLK_DC_ADJUST_0,Adjust value of Duty Cycle Adjuster for clock slice 0." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1826," hexmask.long.word 0x20 16.--31. 1. "PHY_PLL_CTRL_OVERRIDE,Individual PHY clock PLL control overrides." newline hexmask.long.word 0x20 0.--12. 1. "PHY_LP4_BOOT_PLL_CTRL,PHY deskew PLL controls for LPDDR4 boot frequency." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1827," bitfld.long 0x24 16.--17. "SC_PHY_PLL_SPO_CAL_SNAP_OBS,Register command to take a snapshot of PLL output. WRITE-ONLY" "0,1,2,3" newline hexmask.long.byte 0x24 8.--15. 1. "PHY_PLL_SPO_CAL_CTRL,PLL SPO Cal controls." newline bitfld.long 0x24 0. "PHY_USE_PLL_DSKEWCALLOCK,Use DSKEWCALLOCK or not." "0,1" rgroup.long 0x5C90++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1828," hexmask.long.word 0x0 0.--15. 1. "PHY_PLL_OBS_0,PHY TOP level clock PLL_0 observe values. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1829," hexmask.long.tbyte 0x4 0.--16. 1. "PHY_PLL_SPO_CAL_OBS_0,PHY TOP level PLL_0 SPO Cal observe values. READ-ONLY" group.long 0x5C98++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1830," hexmask.long.word 0x0 16.--27. 1. "PHY_LP4_BOOT_PLL_DESKEWCALIN_0,PHY TOP level PLL_0 lpddr4 boot deskewcal in values." newline hexmask.long.word 0x0 0.--11. 1. "PHY_PLL_DESKEWCALIN_0,PHY TOP level PLL_0 deskewcal in values." rgroup.long 0x5C9C++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1831," hexmask.long.word 0x0 0.--15. 1. "PHY_PLL_OBS_1,PHY TOP level clock PLL_1 observe values. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1832," hexmask.long.tbyte 0x4 0.--16. 1. "PHY_PLL_SPO_CAL_OBS_1,PHY TOP level PLL_1 SPO Cal observe values. READ-ONLY" group.long 0x5CA4++0x47 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1833," hexmask.long.word 0x0 16.--27. 1. "PHY_LP4_BOOT_PLL_DESKEWCALIN_1,PHY TOP level PLL_1 lpddr4 boot deskewcal in values." newline hexmask.long.word 0x0 0.--11. 1. "PHY_PLL_DESKEWCALIN_1,PHY TOP level PLL_1 deskewcal in values." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1834," hexmask.long.byte 0x4 24.--27. 1. "PHY_TCKSRE_WAIT,Specifies the number of cycles the PHY should wait before turning off the PLL for a deep sleep or DFS event." newline bitfld.long 0x4 16. "PHY_LP4_BOOT_LOW_FREQ_SEL,Control the PLL domain enter/exit from the negative clock edge for LPDDR4 boot frequency." "0,1" newline bitfld.long 0x4 8. "PHY_PLL_REFOUT_SEL,PHY PLL refout select." "0,1" newline bitfld.long 0x4 0. "PHY_PLL_TESTOUT_SEL,PHY PLL testout select." "0,1" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1835," hexmask.long.word 0x8 16.--25. 1. "PHY_LP_CTRLUPD_CNTR_CFG,Specifies the number of cycles the PHY takes from light sleep req deassert to ack deassert in low power mode." newline bitfld.long 0x8 8. "PHY_LS_IDLE_EN,Indicates the Reduced Idle Power State is enabled in low power mode." "0,1" newline hexmask.long.byte 0x8 0.--7. 1. "PHY_LP_WAKEUP,Specifies the number of cycles the PHY takes to wakeup in low power mode." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1836," bitfld.long 0xC 24. "PHY_TDFI_PHY_WRDELAY,DFI timing parameter TDFI_PHY_WRDELAY." "0,1" newline hexmask.long.tbyte 0xC 0.--16. 1. "PHY_DS_EXIT_CTRL,Controls to reduce the deep sleep exit latency when bit 16 is 1 deep sleep exit ack won't wait controller delay line lock." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1837," hexmask.long.tbyte 0x10 0.--17. 1. "PHY_PAD_FDBK_TERM,Controls term settings for gate feedback pads." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1838," hexmask.long.tbyte 0x14 0.--16. 1. "PHY_PAD_DATA_TERM,Controls term settings for data pads." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1839," hexmask.long.tbyte 0x18 0.--16. 1. "PHY_PAD_DQS_TERM,Controls term settings for dqs pads." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1840," hexmask.long.tbyte 0x1C 0.--17. 1. "PHY_PAD_ADDR_TERM,Controls term settings for the address/control pads." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1841," hexmask.long.tbyte 0x20 0.--17. 1. "PHY_PAD_CLK_TERM,Controls term settings for clock pads." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1842," hexmask.long.tbyte 0x24 0.--17. 1. "PHY_PAD_ERR_TERM,Controls term settings for error pads." line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1843," hexmask.long.tbyte 0x28 0.--17. 1. "PHY_PAD_CKE_TERM,Controls term settings for cke pads." line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1844," hexmask.long.tbyte 0x2C 0.--17. 1. "PHY_PAD_RST_TERM,Controls term settings for reset_n pads." line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1845," hexmask.long.tbyte 0x30 0.--17. 1. "PHY_PAD_CS_TERM,Controls term settings for cs pads." line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1846," hexmask.long.tbyte 0x34 0.--17. 1. "PHY_PAD_ODT_TERM,Controls term settings for odt pads." line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1847," hexmask.long.word 0x38 16.--28. 1. "PHY_ADRCTL_LP3_RX_CAL,PHY CKE/RESET_N RX calibration controls." newline hexmask.long.word 0x38 0.--9. 1. "PHY_ADRCTL_RX_CAL,PHY address/control RX calibration controls." line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1848," bitfld.long 0x3C 24. "PHY_CAL_START_0,Manual start for the pad calibration state machine for block 0. Set to 1 to trigger. WRITE-ONLY" "0,1" newline bitfld.long 0x3C 16. "PHY_CAL_CLEAR_0,Clear the pad calibration state machine and results for block 0. Set to 1 to trigger. WRITE-ONLY" "0,1" newline hexmask.long.word 0x3C 0.--12. 1. "PHY_CAL_MODE_0,Pad calibration mode bits for block 0. Bit [0] disables pad calibration upon initialization. Bit [1] enables automatic interval based calibration. Bits [3:2] set the base interval for the interval counter. Bits [7:4] are direct connections.." line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1849," hexmask.long 0x40 0.--31. 1. "PHY_CAL_INTERVAL_COUNT_0,Pad calibration interval counter compare value for block 0." line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1850," bitfld.long 0x44 8.--10. "PHY_LP4_BOOT_CAL_CLK_SELECT_0,Pad calibration pad clock frequency select setting for LPDDR4 boot frequency for block 0." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x44 0.--7. 1. "PHY_CAL_SAMPLE_WAIT_0,Pad calibration state machine wait count in pad clock cycles for block 0." rgroup.long 0x5CEC++0x13 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1851," hexmask.long.tbyte 0x0 0.--23. 1. "PHY_CAL_RESULT_OBS_0,Pad calibration results observation values for block 0. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1852," hexmask.long.tbyte 0x4 0.--23. 1. "PHY_CAL_RESULT2_OBS_0,Pad calibration results [CKE/RESET_N] observation values for block 0. READ-ONLY" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1853," hexmask.long.tbyte 0x8 0.--23. 1. "PHY_CAL_RESULT4_OBS_0,Pad calibration pass1 shadow results observation values for block 0. READ-ONLY" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1854," hexmask.long.tbyte 0xC 0.--23. 1. "PHY_CAL_RESULT5_OBS_0,Pad calibration pass2 shadow results observation values for block 0. READ-ONLY" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1855," hexmask.long.tbyte 0x10 0.--23. 1. "PHY_CAL_RESULT6_OBS_0,Pad calibration internal results observation delta values for block 0. READ-ONLY" group.long 0x5D00++0x7 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1856," hexmask.long.byte 0x0 24.--30. 1. "PHY_CAL_CPTR_CNT_0,defines sample capture number in pad calibration process" newline hexmask.long.tbyte 0x0 0.--23. 1. "PHY_CAL_RESULT7_OBS_0,Pad calibration internal results observation delta values for block 0. READ-ONLY" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1857," bitfld.long 0x4 24. "PHY_CAL_DBG_CFG_0,defines debug configuration in pad calibration process" "0,1" newline hexmask.long.byte 0x4 16.--23. 1. "PHY_CAL_RCV_FINE_ADJ_0,defines adjustment for RCV code in pad calibration process" newline hexmask.long.byte 0x4 8.--15. 1. "PHY_CAL_PD_FINE_ADJ_0,defines adjustment for PD code in pad calibration process" newline hexmask.long.byte 0x4 0.--7. 1. "PHY_CAL_PU_FINE_ADJ_0,defines adjustment for PU code in pad calibration process" wgroup.long 0x5D08++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1858," bitfld.long 0x0 0. "SC_PHY_PAD_DBG_CONT_0,Allows the pad calibration state machine to advance [when in debug mode] for slice 0. Set to 1 to trigger. WRITE-ONLY" "0,1" rgroup.long 0x5D0C++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1859," hexmask.long 0x0 0.--31. 1. "PHY_CAL_RESULT3_OBS_0,Pad calibration results first/last0/1 observation values for block 0. READ-ONLY" group.long 0x5D10++0x27 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1860," hexmask.long.tbyte 0x0 8.--27. 1. "PHY_CAL_SLOPE_ADJ_0,defines slope configure in pad calibration process" newline hexmask.long.byte 0x0 0.--7. 1. "PHY_ADRCTL_PVT_MAP_0,defines slope configure in pad calibration process" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1861," hexmask.long.tbyte 0x4 0.--19. 1. "PHY_CAL_SLOPE_ADJ_PASS2_0,defines slope configure for pass2 in pad calibration process" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1862," hexmask.long 0x8 0.--24. 1. "PHY_CAL_TWO_PASS_CFG_0,defines cal_en configure in pad calibration process" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1863," hexmask.long.byte 0xC 24.--29. 1. "PHY_CAL_RANGE_PASS1_PU_MAX_DELTA_0,Pad calibration pass1 pu results won't update if out of max delta range ." newline hexmask.long.tbyte 0xC 0.--22. 1. "PHY_CAL_SW_CAL_CFG_0,defines firmware based pad calibration process" line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1864," hexmask.long.byte 0x10 24.--29. 1. "PHY_CAL_RANGE_PASS2_PD_MAX_DELTA_0,Pad calibration pass2 pd results won't update if out of max delta range ." newline hexmask.long.byte 0x10 16.--21. 1. "PHY_CAL_RANGE_PASS2_PU_MAX_DELTA_0,Pad calibration pass2 pu results won't update if out of max delta range ." newline hexmask.long.byte 0x10 8.--12. 1. "PHY_CAL_RANGE_PASS1_RX_MAX_DELTA_0,Pad calibration pass1 rx results won't update if out of max delta range ." newline hexmask.long.byte 0x10 0.--5. 1. "PHY_CAL_RANGE_PASS1_PD_MAX_DELTA_0,Pad calibration pass1 pd results won't update if out of max delta range ." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1865," hexmask.long.byte 0x14 24.--28. 1. "PHY_CAL_RANGE_PASS1_RX_MIN_DELTA_0,Pad calibration pass1 rx results won't update if out of min delta range ." newline hexmask.long.byte 0x14 16.--21. 1. "PHY_CAL_RANGE_PASS1_PD_MIN_DELTA_0,Pad calibration pass1 pd results won't update if out of min delta range ." newline hexmask.long.byte 0x14 8.--13. 1. "PHY_CAL_RANGE_PASS1_PU_MIN_DELTA_0,Pad calibration pass1 pu results won't update if out of min delta range ." newline hexmask.long.byte 0x14 0.--4. 1. "PHY_CAL_RANGE_PASS2_RX_MAX_DELTA_0,Pad calibration pass2 rx results won't update if out of max delta range ." line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1866," hexmask.long.byte 0x18 16.--20. 1. "PHY_CAL_RANGE_PASS2_RX_MIN_DELTA_0,Pad calibration pass2 rx results won't update if out of min delta range ." newline hexmask.long.byte 0x18 8.--13. 1. "PHY_CAL_RANGE_PASS2_PD_MIN_DELTA_0,Pad calibration pass2 pd results won't update if out of min delta range ." newline hexmask.long.byte 0x18 0.--5. 1. "PHY_CAL_RANGE_PASS2_PU_MIN_DELTA_0,Pad calibration pass2 pu results won't update if out of min delta range ." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1867," bitfld.long 0x1C 24. "PHY_AC_LPBK_ERR_CLEAR,Address/control loopback error clear. Set to 1 to clear error. WRITE-ONLY" "0,1" newline bitfld.long 0x1C 16. "PHY_ADRCTL_MANUAL_UPDATE,Address/control manual update of target delay lines. Set to 1 to update. WRITE-ONLY" "0,1" newline hexmask.long.word 0x1C 0.--15. 1. "PHY_PAD_ATB_CTRL,Pad ATB control settings. Bit [0] is the enable signal. Bits [5:1] are the ATB data signals. Bits [15:8] are the 1 hot select for which pad is selected." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1868," hexmask.long.word 0x20 16.--24. 1. "PHY_AC_LPBK_CONTROL,Address/control slice loopback control setting." newline hexmask.long.byte 0x20 8.--11. 1. "PHY_AC_LPBK_ENABLE,Loopback enable for the address/control slices." newline bitfld.long 0x20 0.--1. "PHY_AC_LPBK_OBS_SELECT,Select value to map an individual loopback address/control slice observation register to the global observation register." "0,1,2,3" line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1869," hexmask.long.byte 0x24 8.--11. 1. "PHY_AC_PRBS_PATTERN_MASK,PRBS7 mask signal for address/control slice." newline hexmask.long.byte 0x24 0.--6. 1. "PHY_AC_PRBS_PATTERN_START,PRBS7 start pattern for address/control slice." rgroup.long 0x5D38++0x3 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1870," hexmask.long 0x0 0.--31. 1. "PHY_AC_LPBK_RESULT_OBS,Observation register for the loopback address/control slices. READ-ONLY" group.long 0x5D3C++0x27 line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1871," hexmask.long.byte 0x0 16.--21. 1. "PHY_AC_CLK_LPBK_CONTROL,Mem clk block loopback control setting." newline bitfld.long 0x0 8. "PHY_AC_CLK_LPBK_ENABLE,Loopback enable for mem clk blocks." "0,1" newline bitfld.long 0x0 0. "PHY_AC_CLK_LPBK_OBS_SELECT,Select value to map an individual loopback mem clk block observation register to the global observation register." "0,1" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1872," bitfld.long 0x4 24. "PHY_TOP_PWR_RDC_DISABLE,top param power reduction disable." "0,1" newline bitfld.long 0x4 16. "PHY_AC_PWR_RDC_DISABLE,ac slice power reduction disable." "0,1" newline hexmask.long.word 0x4 0.--15. 1. "PHY_AC_CLK_LPBK_RESULT_OBS,Observation register for loopback mem clk blocks. READ-ONLY" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1873," bitfld.long 0x8 0. "PHY_AC_SLV_DLY_CTRL_GATE_DISABLE,ac slice slv_dly_control block power reduction disable." "0,1" line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1874," hexmask.long 0xC 0.--31. 1. "PHY_DATA_BYTE_ORDER_SEL,Used to define the data slice's byte swap for CA bits 7:0." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1875," bitfld.long 0x10 24.--26. "PHY_ADR_DISABLE,Disable the unused adr slice to save power." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x10 16.--20. 1. "PHY_CALVL_DEVICE_MAP,Define which device's DQ feedback data bits should be used during CA training" newline bitfld.long 0x10 8. "PHY_LPDDR4_CONNECT,PHY is connected to LPDDR4 devices" "0,1" newline hexmask.long.byte 0x10 0.--7. 1. "PHY_DATA_BYTE_ORDER_SEL_HIGH,Used to define the data slice's byte swap for CA bits 9:8." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1876," bitfld.long 0x14 24.--25. "PHY_ADRCTL_MSTR_DLY_ENC_SEL_3,Select adrctl_mstr_dly_enc for the address/control slice 3 ." "0,1,2,3" newline bitfld.long 0x14 16.--17. "PHY_ADRCTL_MSTR_DLY_ENC_SEL_2,Select adrctl_mstr_dly_enc for the address/control slice 2 ." "0,1,2,3" newline bitfld.long 0x14 8.--9. "PHY_ADRCTL_MSTR_DLY_ENC_SEL_1,Select adrctl_mstr_dly_enc for the address/control slice 1 ." "0,1,2,3" newline bitfld.long 0x14 0.--1. "PHY_ADRCTL_MSTR_DLY_ENC_SEL_0,Select adrctl_mstr_dly_enc for the address/control slice 0 ." "0,1,2,3" line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1877," hexmask.long 0x18 0.--31. 1. "PHY_DDL_AC_ENABLE,PHY Address/Control DDL BIST mode enable." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1878," hexmask.long 0x1C 0.--25. 1. "PHY_DDL_AC_MODE,PHY Address/Control DDL BIST mode." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1879," hexmask.long.byte 0x20 16.--23. 1. "PHY_DDL_TRACK_UPD_THRESHOLD_AC,Specify threshold value for PHY init update tracking for AC slice." newline bitfld.long 0x20 8.--10. "PHY_INIT_UPDATE_CONFIG,PHY init update function configuration." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x20 0.--5. 1. "PHY_DDL_AC_MASK,PHY Address/Control DDL BIST mask." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1880," bitfld.long 0x24 24.--26. "PHY_ERR_STATUS,PHY ERROR information." "0,1,2,3,4,5,6,7" newline bitfld.long 0x24 16.--18. "PHY_ERR_MASK_EN,PHY ERROR information report mask enable." "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x24 0.--15. 1. "PHY_CA_PARITY_ERR_PULSE_MIN,PHY alert_n pulse width minimux value for CA parity error." rgroup.long 0x5D64++0xF line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1881," hexmask.long 0x0 0.--31. 1. "PHY_DS0_DQS_ERR_COUNTER,PHY DATA SLICE 0 DQS ERROR counter." line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1882," hexmask.long 0x4 0.--31. 1. "PHY_DS1_DQS_ERR_COUNTER,PHY DATA SLICE 1 DQS ERROR counter." line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1883," hexmask.long 0x8 0.--31. 1. "PHY_DS2_DQS_ERR_COUNTER,PHY DATA SLICE 2 DQS ERROR counter." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1884," hexmask.long 0xC 0.--31. 1. "PHY_DS3_DQS_ERR_COUNTER,PHY DATA SLICE 3 DQS ERROR counter." group.long 0x5D74++0x9B line.long 0x0 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1885," hexmask.long.byte 0x0 24.--27. 1. "PHY_DS_INIT_COMPLETE_OBS,Observation register for dfi_init_complete for data slice. Bit0 is for data_slice0; bit1 is for data_slice 1 ... READ-ONLY." newline hexmask.long.word 0x0 8.--19. 1. "PHY_AC_INIT_COMPLETE_OBS,Observation register for dfi_init_complete for adr and ac slice. Bit 0 is for dfi_init_complete for all slices. Bit[7:4] is for adr slice bit4 is adr_slice0... if the adr slice number is 3 bit7 is 0. Bit8 is for ac_slice0;.." newline bitfld.long 0x0 0.--1. "PHY_DLL_RST_EN,PHY DDL reset software interface enable." "0,1,2,3" line.long 0x4 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1886," hexmask.long.byte 0x4 24.--28. 1. "PHY_GRP_SLV_DLY_ENC_OBS_SELECT,Select value to map an individual address/control group slice target delay to the encoded value observation register." newline bitfld.long 0x4 16. "PHY_AC_DCC_RXCAL_CTRL_GATE_DISABLE,Memory clock bit slice DCC block power reduction disable." "0,1" newline bitfld.long 0x4 8. "PHY_ERR_IE,Control the IE signal of IO error pad." "0,1" newline bitfld.long 0x4 0. "PHY_UPDATE_MASK,Control to disable the generation of dfi_phyupd_req and use of dfi_ctrlupd_req. If this is 0 the PHY is normal mode; if this is 1 the PHY will not respond to dfi_ctrlupd_req or not to send dfi_phyupd_req" "0,1" line.long 0x8 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1887," rbitfld.long 0x8 24.--26. "PHY_GRP_SHIFT_OBS,Observation register for the address/control group automatic half cycle and cycle shift values. READ-ONLY" "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x8 8.--18. 1. "PHY_GRP_SLV_DLY_ENC_OBS,Observation register for all address/control group slice target delay encoded values. READ-ONLY" newline hexmask.long.byte 0x8 0.--3. 1. "PHY_GRP_SHIFT_OBS_SELECT,Select value to map an individual address/control group slice automatic cycle/half_cycle shift settings to the observation register." line.long 0xC "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1888," hexmask.long.tbyte 0xC 0.--17. 1. "PHY_PAD_CAL_IO_CFG_0,Pad calibration Controls PCLK/PARK pin and vref switch." line.long 0x10 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1889," bitfld.long 0x10 24.--26. "PHY_PAD_ACS_RX_PCLK_CLK_SEL,Controls rx_pclk clk selection for acs pad." "0,1,2,3,4,5,6,7" newline hexmask.long.tbyte 0x10 0.--17. 1. "PHY_PAD_ACS_IO_CFG,Controls PCLK/PARK pin for acs pad." line.long 0x14 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1890," bitfld.long 0x14 0. "PHY_PLL_BYPASS,PHY clock PLL bypass select." "0,1" line.long 0x18 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1891," bitfld.long 0x18 16. "PHY_LOW_FREQ_SEL,Enables the PHY to enter/exit the PLL domain from the negative clock edge. Set to 1 at low frequencies to enable." "0,1" newline hexmask.long.word 0x18 0.--12. 1. "PHY_PLL_CTRL,PHY clock PLL controls." line.long 0x1C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1892," hexmask.long.byte 0x1C 24.--27. 1. "PHY_CSLVL_DLY_STEP,Sets the delay step size plus 1 during CS training." newline hexmask.long.byte 0x1C 16.--19. 1. "PHY_CSLVL_CAPTURE_CNT,Defines the number of samples to take at each GRP target delay setting during CS training." newline hexmask.long.word 0x1C 0.--11. 1. "PHY_PAD_VREF_CTRL_AC,Pad VREF control settings for the address/control." line.long 0x20 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1893," bitfld.long 0x20 24. "PHY_LVL_MEAS_DLY_STEP_ENABLE,Enables the phy_adr_meas_dly_step_value to be used instead of the phy_cslvl_dly_step parameter." "0,1" newline bitfld.long 0x20 16. "PHY_SW_CSLVL_DVW_MIN_EN,Enables the software override data valid window size during CS training." "0,1" newline hexmask.long.word 0x20 0.--9. 1. "PHY_SW_CSLVL_DVW_MIN,Sets the software override data valid window size during CS training." line.long 0x24 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1894," hexmask.long.word 0x24 16.--26. 1. "PHY_GRP1_SLAVE_DELAY_0,Address slice target delay setting for address slice 1." newline hexmask.long.word 0x24 0.--10. 1. "PHY_GRP0_SLAVE_DELAY_0,Address slice target delay setting for address slice 0." line.long 0x28 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1895," hexmask.long.word 0x28 16.--26. 1. "PHY_GRP3_SLAVE_DELAY_0,Address slice target delay setting for address slice 3." newline hexmask.long.word 0x28 0.--10. 1. "PHY_GRP2_SLAVE_DELAY_0,Address slice target delay setting for address slice 2." line.long 0x2C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1896," hexmask.long.word 0x2C 16.--26. 1. "PHY_GRP1_SLAVE_DELAY_1,Address slice target delay setting for address slice 1." newline hexmask.long.word 0x2C 0.--10. 1. "PHY_GRP0_SLAVE_DELAY_1,Address slice target delay setting for address slice 0." line.long 0x30 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1897," hexmask.long.word 0x30 16.--26. 1. "PHY_GRP3_SLAVE_DELAY_1,Address slice target delay setting for address slice 3." newline hexmask.long.word 0x30 0.--10. 1. "PHY_GRP2_SLAVE_DELAY_1,Address slice target delay setting for address slice 2." line.long 0x34 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1898," hexmask.long.word 0x34 16.--26. 1. "PHY_GRP1_SLAVE_DELAY_2,Address slice target delay setting for address slice 1." newline hexmask.long.word 0x34 0.--10. 1. "PHY_GRP0_SLAVE_DELAY_2,Address slice target delay setting for address slice 0." line.long 0x38 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1899," hexmask.long.word 0x38 16.--26. 1. "PHY_GRP3_SLAVE_DELAY_2,Address slice target delay setting for address slice 3." newline hexmask.long.word 0x38 0.--10. 1. "PHY_GRP2_SLAVE_DELAY_2,Address slice target delay setting for address slice 2." line.long 0x3C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1900," hexmask.long.word 0x3C 0.--10. 1. "PHY_GRP0_SLAVE_DELAY_3,Address slice target delay setting for address slice 0." line.long 0x40 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1901," hexmask.long.word 0x40 0.--10. 1. "PHY_GRP1_SLAVE_DELAY_3,Address slice target delay setting for address slice 1." line.long 0x44 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1902," hexmask.long.word 0x44 0.--10. 1. "PHY_GRP2_SLAVE_DELAY_3,Address slice target delay setting for address slice 2." line.long 0x48 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1903," hexmask.long.word 0x48 0.--10. 1. "PHY_GRP3_SLAVE_DELAY_3,Address slice target delay setting for address slice 3." line.long 0x4C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1904," bitfld.long 0x4C 0.--2. "PHY_CLK_DC_CAL_CLK_SEL,Determines DCC CAL clock." "0,1,2,3,4,5,6,7" line.long 0x50 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1905," hexmask.long 0x50 0.--29. 1. "PHY_PAD_FDBK_DRIVE,Controls drive settings for gate feedback pads." line.long 0x54 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1906," hexmask.long.tbyte 0x54 0.--17. 1. "PHY_PAD_FDBK_DRIVE2,Controls drive settings [enslice/boost] for gate feedback pads." line.long 0x58 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1907," hexmask.long 0x58 0.--30. 1. "PHY_PAD_DATA_DRIVE,Controls drive settings for data pads." line.long 0x5C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1908," hexmask.long 0x5C 0.--31. 1. "PHY_PAD_DQS_DRIVE,Controls drive settings for dqs pads." line.long 0x60 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1909," hexmask.long 0x60 0.--29. 1. "PHY_PAD_ADDR_DRIVE,Controls drive settings for the address/control pads." line.long 0x64 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1910," hexmask.long 0x64 0.--27. 1. "PHY_PAD_ADDR_DRIVE2,Controls drive settings for the address/control pads." line.long 0x68 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1911," hexmask.long 0x68 0.--31. 1. "PHY_PAD_CLK_DRIVE,Controls drive settings for clock pads." line.long 0x6C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1912," hexmask.long.tbyte 0x6C 0.--18. 1. "PHY_PAD_CLK_DRIVE2,Controls drive settings for clock pads." line.long 0x70 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1913," hexmask.long 0x70 0.--29. 1. "PHY_PAD_ERR_DRIVE,Controls drive settings for error pads." line.long 0x74 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1914," hexmask.long 0x74 0.--27. 1. "PHY_PAD_ERR_DRIVE2,Controls drive settings for error pads." line.long 0x78 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1915," hexmask.long 0x78 0.--29. 1. "PHY_PAD_CKE_DRIVE,Controls drive settings for cke pads." line.long 0x7C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1916," hexmask.long 0x7C 0.--27. 1. "PHY_PAD_CKE_DRIVE2,Controls drive settings for cke pads." line.long 0x80 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1917," hexmask.long 0x80 0.--29. 1. "PHY_PAD_RST_DRIVE,Controls drive settings for reset_n pads." line.long 0x84 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1918," hexmask.long 0x84 0.--27. 1. "PHY_PAD_RST_DRIVE2,Controls drive settings for reset_n pads." line.long 0x88 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1919," hexmask.long 0x88 0.--29. 1. "PHY_PAD_CS_DRIVE,Controls drive settings for cs pads." line.long 0x8C "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1920," hexmask.long 0x8C 0.--27. 1. "PHY_PAD_CS_DRIVE2,Controls drive settings for cs pads." line.long 0x90 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1921," hexmask.long 0x90 0.--29. 1. "PHY_PAD_ODT_DRIVE,Controls drive settings for odt pads." line.long 0x94 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1922," hexmask.long 0x94 0.--27. 1. "PHY_PAD_ODT_DRIVE2,Controls drive settings for odt pads." line.long 0x98 "CTLPHY_WRAP__CTL_CFG__CTLCFG_DENALI_PHY_1923," hexmask.long.byte 0x98 24.--30. 1. "PHY_CAL_SETTLING_PRD_0,Number of clock cycles to extend dfi_phyupd_req after the ack is received for settling of final values" newline hexmask.long.word 0x98 8.--23. 1. "PHY_CAL_VREF_SWITCH_TIMER_0,The settling time for a switch in VREF during IO pad calibration." newline bitfld.long 0x98 0.--2. "PHY_CAL_CLK_SELECT_0,Pad calibration pad clock frequency select setting for block 0." "0,1,2,3,4,5,6,7" tree.end tree "DDR32SS0_REGS_SS_CFG_SSCFG (DDR32SS0_REGS_SS_CFG_SSCFG)" base ad:0xF300000 rgroup.long 0x0++0x3 line.long 0x0 "REGS__SS_CFG__SSCFG_SS_ID_REV_REG,The Subsystem ID and Revision Register contains the module ID. major. and minor revisions for the subsystem." hexmask.long.word 0x0 16.--31. 1. "MOD_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,RTL version" newline bitfld.long 0x0 8.--10. "MAJ_REV,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MIN_REV,Minor revision" group.long 0x4++0x3 line.long 0x0 "REGS__SS_CFG__SSCFG_SS_CTL_REG,The Subsystem Control Register contains fields for control functions required for submodules in the subsystem." bitfld.long 0x0 0. "PHY_PLL_BYPASS,Cadence PHY De-Skew PLL bypass. Write 1 to bypass PLL." "0,1" group.long 0x20++0x1F line.long 0x0 "REGS__SS_CFG__SSCFG_V2A_CTL_REG,The VBUSM2AXI Control register contains control functions required for the VBUSM2AXI submodule." hexmask.long.byte 0x0 22.--27. 1. "TOTAL_CMD_THRESH,Total command threshold. The VBUSM2AXI bridge will block all commands to DDR when the total number of commands sent to the Cadence controller is greater than this value. The reset value of this field is optimal; however it can be.." newline hexmask.long.byte 0x0 17.--21. 1. "WR_LO_BLK_THR,Write data threshold in 32 byte quantas. The VBUSM2AXI bridge will block all Low Priority Thread writes to DDR when the total number of write data bytes sent to the Cadence controller is greater than this value. The reset value of this.." newline hexmask.long.byte 0x0 12.--16. 1. "CRIT_THRESH,Critical threshold. The VBUSM2AXI bridge will block all Low Priority Thread traffic to DDR when the total number of commands sent to the Cadence controller is greater than this value. The reset value of this field is optimal; however it can.." newline bitfld.long 0x0 10. "SDRAM_3QT,Setting this field to a 1 will modify SDRAM Index to be 3/4 its programmed value to support 3 6 12 and 24 GB sizes." "0,1" newline hexmask.long.byte 0x0 5.--9. 1. "SDRAM_IDX,SDRAM Index = log2(connected SDRAM size) - 16. The sdram_idx describes the number of address bits minus 16 that are used to determine the mask used to detect memory rollover and prevent aliasing and false coherency issues. Max size supported is.." newline hexmask.long.byte 0x0 0.--4. 1. "REGION_IDX,Region Index = log2(CBA region size) - 16. The region_idx describes the number of address bits minus 16 that are used to determine the mask used to detect memory rollover and prevent aliasing and false coherency issues. Max size supported is.." line.long 0x4 "REGS__SS_CFG__SSCFG_V2A_R1_MAT_REG,The Range 1 Match Register allows a single controller to a range of controllers to change their priority mapping. This allows selective controllers to be increased or decreased in effective priority. Range 1 Match.." bitfld.long 0x4 31. "RANGE1_RANGEEN_A,The range1_rangeen_a enables the RouteID AND'd with range1_mask_a to match the range1_routeid_a" "0,1" newline bitfld.long 0x4 28.--30. "RANGE1_MASK_A,The range1_mask_a allows a number of least significant bits to be ignored prior to the match of the routeid_a" "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x4 16.--27. 1. "RANGE1_ROUTEID_A,The range1_routeid_a is the value that is compared to the RouteID arriving on the command interface" newline bitfld.long 0x4 15. "RANGE1_RANGEEN_B,The range1_rangeen_b enables the RouteID AND'd with range1_mask_b to match the range1_routeid_b" "0,1" newline bitfld.long 0x4 12.--14. "RANGE1_MASK_B,The range1_mask_b allows a number of least significant bits to be ignored prior to the match of the routeid_b" "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x4 0.--11. 1. "RANGE1_ROUTEID_B,The range1_routeid_b is the value that is compared to the RouteID arriving on the command interface" line.long 0x8 "REGS__SS_CFG__SSCFG_V2A_R2_MAT_REG,The Range 2 Match Register allows a single controller to a range of controllers to change their priority mapping. This allows selective controllers to be increased or decreased in effective priority. Range 2 Match.." bitfld.long 0x8 31. "RANGE2_RANGEEN_A,The range2_rangeen_a enables the RouteID AND'd with range2_mask_a to match the range2_routeid_a" "0,1" newline bitfld.long 0x8 28.--30. "RANGE2_MASK_A,The range2_mask_a allows a number of least significant bits to be ignored prior to the match of the routeid_a" "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x8 16.--27. 1. "RANGE2_ROUTEID_A,The range2_routeid_a is the value that is compared to the RouteID arriving on the command interface" newline bitfld.long 0x8 15. "RANGE2_RANGEEN_B,The range2_rangeen_b enables the RouteID AND'd with range2_mask_b to match the range2_routeid_b" "0,1" newline bitfld.long 0x8 12.--14. "RANGE2_MASK_B,The range2_mask_b allows a number of least significant bits to be ignored prior to the match of the routeid_b" "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x8 0.--11. 1. "RANGE2_ROUTEID_B,The range2_routeid_b is the value that is compared to the RouteID arriving on the command interface" line.long 0xC "REGS__SS_CFG__SSCFG_V2A_R3_MAT_REG,The Range 3 Match Register allows a single controller to a range of controllers to change their priority mapping. This allows selective controllers to be increased or decreased in effective priority. Range 3 Match.." bitfld.long 0xC 31. "RANGE3_RANGEEN_A,The range3_rangeen_a enables the RouteID AND'd with range3_mask_a to match the range3_routeid_a" "0,1" newline bitfld.long 0xC 28.--30. "RANGE3_MASK_A,The range3_mask_a allows a number of least significant bits to be ignored prior to the match of the routeid_a" "0,1,2,3,4,5,6,7" newline hexmask.long.word 0xC 16.--27. 1. "RANGE3_ROUTEID_A,The range3_routeid_a is the value that is compared to the RouteID arriving on the command interface" newline bitfld.long 0xC 15. "RANGE3_RANGEEN_B,The range3_rangeen_b enables the RouteID AND'd with range3_mask_b to match the range3_routeid_b" "0,1" newline bitfld.long 0xC 12.--14. "RANGE3_MASK_B,The range3_mask_b allows a number of least significant bits to be ignored prior to the match of the routeid_b" "0,1,2,3,4,5,6,7" newline hexmask.long.word 0xC 0.--11. 1. "RANGE3_ROUTEID_B,The range3_routeid_b is the value that is compared to the RouteID arriving on the command interface" line.long 0x10 "REGS__SS_CFG__SSCFG_V2A_LPT_DEF_PRI_MAP_REG,The LPT Default Priority Mapping Register is the default map for the inbound VBUSM priority on the Low Priority Thread to the AXI priority." bitfld.long 0x10 28.--30. "LPT_PRIMAP0,The field contains AXI priority value for VBUSM priority 0. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x10 24.--26. "LPT_PRIMAP1,The field contains AXI priority value for VBUSM priority 1. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x10 20.--22. "LPT_PRIMAP2,The field contains AXI priority value for VBUSM priority 2. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x10 16.--18. "LPT_PRIMAP3,The field contains AXI priority value for VBUSM priority 3. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x10 12.--14. "LPT_PRIMAP4,The field contains AXI priority value for VBUSM priority 4. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x10 8.--10. "LPT_PRIMAP5,The field contains AXI priority value for VBUSM priority 5. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x10 4.--6. "LPT_PRIMAP6,The field contains AXI priority value for VBUSM priority 6. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x10 0.--2. "LPT_PRIMAP7,The field contains AXI priority value for VBUSM priority 7. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" line.long 0x14 "REGS__SS_CFG__SSCFG_V2A_LPT_R1_PRI_MAP_REG,The LPT Range 1 Priority Mapping Register is used to map the inbound VBUSM priority on the Low Priority Thread to AXI priority when a RouteID match 1 occurs. This allows the priority level to be changed from the.." bitfld.long 0x14 28.--30. "LPT_RANGE1_PRIMAP0,The field contains AXI priority value for VBUSM priority 0 for range match 1. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x14 24.--26. "LPT_RANGE1_PRIMAP1,The field contains AXI priority value for VBUSM priority 1 for range match 1. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x14 20.--22. "LPT_RANGE1_PRIMAP2,The field contains AXI priority value for VBUSM priority 2 for range match 1. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x14 16.--18. "LPT_RANGE1_PRIMAP3,The field contains AXI priority value for VBUSM priority 3 for range match 1. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x14 12.--14. "LPT_RANGE1_PRIMAP4,The field contains AXI priority value for VBUSM priority 4 for range match 1. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x14 8.--10. "LPT_RANGE1_PRIMAP5,The field contains AXI priority value for VBUSM priority 5 for range match 1. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x14 4.--6. "LPT_RANGE1_PRIMAP6,The field contains AXI priority value for VBUSM priority 6 for range match 1. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x14 0.--2. "LPT_RANGE1_PRIMAP7,The field contains AXI priority value for VBUSM priority 7 for range match 1. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" line.long 0x18 "REGS__SS_CFG__SSCFG_V2A_LPT_R2_PRI_MAP_REG,The LPT Range 2 Priority Mapping Register is used to map the inbound VBUSM priority on the Low Priority Thread to AXI priority when a RouteID match 2 occurs. This allows the priority level to be changed from the.." bitfld.long 0x18 28.--30. "LPT_RANGE2_PRIMAP0,The field contains AXI priority value for VBUSM priority 0 for range match 2. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x18 24.--26. "LPT_RANGE2_PRIMAP1,The field contains AXI priority value for VBUSM priority 1 for range match 2. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x18 20.--22. "LPT_RANGE2_PRIMAP2,The field contains AXI priority value for VBUSM priority 2 for range match 2. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x18 16.--18. "LPT_RANGE2_PRIMAP3,The field contains AXI priority value for VBUSM priority 3 for range match 2. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x18 12.--14. "LPT_RANGE2_PRIMAP4,The field contains AXI priority value for VBUSM priority 4 for range match 2. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x18 8.--10. "LPT_RANGE2_PRIMAP5,The field contains AXI priority value for VBUSM priority 5 for range match 2. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x18 4.--6. "LPT_RANGE2_PRIMAP6,The field contains AXI priority value for VBUSM priority 6 for range match 2. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x18 0.--2. "LPT_RANGE2_PRIMAP7,The field contains AXI priority value for VBUSM priority 7 for range match 2. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" line.long 0x1C "REGS__SS_CFG__SSCFG_V2A_LPT_R3_PRI_MAP_REG,The LPT Range 3 Priority Mapping Register is used to map the inbound VBUSM priority on the Low Priority Thread to AXI priority when a RouteID match 3 occurs. This allows the priority level to be changed from the.." bitfld.long 0x1C 28.--30. "LPT_RANGE3_PRIMAP0,The field contains AXI priority value for VBUSM priority 0 for range match 3. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x1C 24.--26. "LPT_RANGE3_PRIMAP1,The field contains AXI priority value for VBUSM priority 1 for range match 3. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x1C 20.--22. "LPT_RANGE3_PRIMAP2,The field contains AXI priority value for VBUSM priority 2 for range match 3. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x1C 16.--18. "LPT_RANGE3_PRIMAP3,The field contains AXI priority value for VBUSM priority 3 for range match 3. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x1C 12.--14. "LPT_RANGE3_PRIMAP4,The field contains AXI priority value for VBUSM priority 4 for range match 3. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x1C 8.--10. "LPT_RANGE3_PRIMAP5,The field contains AXI priority value for VBUSM priority 5 for range match 3. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x1C 4.--6. "LPT_RANGE3_PRIMAP6,The field contains AXI priority value for VBUSM priority 6 for range match 3. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x1C 0.--2. "LPT_RANGE3_PRIMAP7,The field contains AXI priority value for VBUSM priority 7 for range match 3. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" group.long 0x4C++0x13 line.long 0x0 "REGS__SS_CFG__SSCFG_V2A_HPT_DEF_PRI_MAP_REG,The HPT Default Priority Mapping Register is the default map for the inbound VBUSM priority on the High Priority Thread to the AXI priority." bitfld.long 0x0 28.--30. "HPT_PRIMAP0,The field contains AXI priority value for VBUSM priority 0. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x0 24.--26. "HPT_PRIMAP1,The field contains AXI priority value for VBUSM priority 1. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x0 20.--22. "HPT_PRIMAP2,The field contains AXI priority value for VBUSM priority 2. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x0 16.--18. "HPT_PRIMAP3,The field contains AXI priority value for VBUSM priority 3. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x0 12.--14. "HPT_PRIMAP4,The field contains AXI priority value for VBUSM priority 4. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x0 8.--10. "HPT_PRIMAP5,The field contains AXI priority value for VBUSM priority 5. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x0 4.--6. "HPT_PRIMAP6,The field contains AXI priority value for VBUSM priority 6. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x0 0.--2. "HPT_PRIMAP7,The field contains AXI priority value for VBUSM priority 7. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" line.long 0x4 "REGS__SS_CFG__SSCFG_V2A_HPT_R1_PRI_MAP_REG,The HPT Range 1 Priority Mapping Register is used to map the inbound VBUSM priority on the High Priority Thread to AXI priority when a RouteID match 1 occurs. This allows the priority level to be changed from.." bitfld.long 0x4 28.--30. "HPT_RANGE1_PRIMAP0,The field contains AXI priority value for VBUSM priority 0 for range match 1. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x4 24.--26. "HPT_RANGE1_PRIMAP1,The field contains AXI priority value for VBUSM priority 1 for range match 1. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x4 20.--22. "HPT_RANGE1_PRIMAP2,The field contains AXI priority value for VBUSM priority 2 for range match 1. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x4 16.--18. "HPT_RANGE1_PRIMAP3,The field contains AXI priority value for VBUSM priority 3 for range match 1. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x4 12.--14. "HPT_RANGE1_PRIMAP4,The field contains AXI priority value for VBUSM priority 4 for range match 1. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x4 8.--10. "HPT_RANGE1_PRIMAP5,The field contains AXI priority value for VBUSM priority 5 for range match 1. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x4 4.--6. "HPT_RANGE1_PRIMAP6,The field contains AXI priority value for VBUSM priority 6 for range match 1. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x4 0.--2. "HPT_RANGE1_PRIMAP7,The field contains AXI priority value for VBUSM priority 7 for range match 1. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" line.long 0x8 "REGS__SS_CFG__SSCFG_V2A_HPT_R2_PRI_MAP_REG,The HPT Range 2 Priority Mapping Register is used to map the inbound VBUSM priority on the High Priority Thread to AXI priority when a RouteID match 2 occurs. This allows the priority level to be changed from.." bitfld.long 0x8 28.--30. "HPT_RANGE2_PRIMAP0,The field contains AXI priority value for VBUSM priority 0 for range match 2. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x8 24.--26. "HPT_RANGE2_PRIMAP1,The field contains AXI priority value for VBUSM priority 1 for range match 2. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x8 20.--22. "HPT_RANGE2_PRIMAP2,The field contains AXI priority value for VBUSM priority 2 for range match 2. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x8 16.--18. "HPT_RANGE2_PRIMAP3,The field contains AXI priority value for VBUSM priority 3 for range match 2. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x8 12.--14. "HPT_RANGE2_PRIMAP4,The field contains AXI priority value for VBUSM priority 4 for range match 2. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x8 8.--10. "HPT_RANGE2_PRIMAP5,The field contains AXI priority value for VBUSM priority 5 for range match 2. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x8 4.--6. "HPT_RANGE2_PRIMAP6,The field contains AXI priority value for VBUSM priority 6 for range match 2. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0x8 0.--2. "HPT_RANGE2_PRIMAP7,The field contains AXI priority value for VBUSM priority 7 for range match 2. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" line.long 0xC "REGS__SS_CFG__SSCFG_V2A_HPT_R3_PRI_MAP_REG,The HPT Range 3 Priority Mapping Register is used to map the inbound VBUSM priority on the High Priority Thread to AXI priority when a RouteID match 3 occurs. This allows the priority level to be changed from.." bitfld.long 0xC 28.--30. "HPT_RANGE3_PRIMAP0,The field contains AXI priority value for VBUSM priority 0 for range match 3. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0xC 24.--26. "HPT_RANGE3_PRIMAP1,The field contains AXI priority value for VBUSM priority 1 for range match 3. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0xC 20.--22. "HPT_RANGE3_PRIMAP2,The field contains AXI priority value for VBUSM priority 2 for range match 3. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0xC 16.--18. "HPT_RANGE3_PRIMAP3,The field contains AXI priority value for VBUSM priority 3 for range match 3. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0xC 12.--14. "HPT_RANGE3_PRIMAP4,The field contains AXI priority value for VBUSM priority 4 for range match 3. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0xC 8.--10. "HPT_RANGE3_PRIMAP5,The field contains AXI priority value for VBUSM priority 5 for range match 3. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0xC 4.--6. "HPT_RANGE3_PRIMAP6,The field contains AXI priority value for VBUSM priority 6 for range match 3. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" newline bitfld.long 0xC 0.--2. "HPT_RANGE3_PRIMAP7,The field contains AXI priority value for VBUSM priority 7 for range match 3. 0=highest priority. 7=lowest priority" "0: highest priority,?,?,?,?,?,?,7: lowest priority" line.long 0x10 "REGS__SS_CFG__SSCFG_V2A_OLD_CMD_PR_REG," bitfld.long 0x10 31. "HPT_PRI_EQUAL,Setting to 1 will disable priority-based arbitration among the HPT commands." "0,1" newline bitfld.long 0x10 16. "OLD_CMD_PR_MODE,Oldest Command Priority Raise mode. Setting to 0 will count LPT commands sent while oldest command is waiting. Setting to 1 will count all commands sent while oldest command is waiting." "0,1" newline hexmask.long.word 0x10 0.--9. 1. "OLD_CMD_PR_THRESH,Oldest Command Priority Raise threshold. Number of commands sent in a row before the oldest command in the command FIFO is forwarded. This value must always be programmed greater than leaky thresholds." group.long 0x68++0xB line.long 0x0 "REGS__SS_CFG__SSCFG_V2A_LEAKY_THRESH_REG," hexmask.long.byte 0x0 0.--7. 1. "SYS_LEAKY_THRESH,System Leaky Bucket threshold. Number of HPT commands sent in a row before a single LPT command is forwarded. A programmed value less than 0x4 will result in this field being reset to 0xFF." line.long 0x4 "REGS__SS_CFG__SSCFG_V2A_DRAIN_THRESH_REG," hexmask.long.word 0x4 0.--9. 1. "SYS_DRAIN_THRESH,System Drain threshold. Number of commands sent to the Cadence controller after which controller drain will be enabled. A programmed value less than 0x020 will result in this field being reset to 0x3FF." line.long 0x8 "REGS__SS_CFG__SSCFG_V2A_AERR_LOG1_REG,The Address Error Log 1 register displays the RouteID and lsb of the address for the first VBUSM command that was outside the programmed addressing range. Writing a 0x1 will clear all fields. Writing any other value.." hexmask.long.word 0x8 16.--31. 1. "AERR_ADDR_LSB,Address[15:0] of the VBUSM command" newline hexmask.long.word 0x8 0.--11. 1. "AERR_ROUTE_ID,RouteID of the VBUSM write command" rgroup.long 0x74++0x3 line.long 0x0 "REGS__SS_CFG__SSCFG_V2A_AERR_LOG2_REG,The Address Error Log 2 registers displays the msb of the address for the first VBUSM command that was outside the programmed addressing range. This register will be cleared upon writing the Address Error Log 1.." hexmask.long 0x0 0.--31. 1. "AERR_ADDR_MSB,Address[34:16] of the VBUSM command" group.long 0x9C++0x13 line.long 0x0 "REGS__SS_CFG__SSCFG_V2A_BUS_TO," hexmask.long.tbyte 0x0 0.--23. 1. "BUS_TIMER,AXI bus timeout value. Number of DDR clock cycles after which the VBUSM2AXI bridge times out if a hang on the controller AXI interface is detected. A value of N will be equal to N x 16 clocks. Writing a 0 will disable the timeout feature." line.long 0x4 "REGS__SS_CFG__SSCFG_V2A_INT_RAW_REG," bitfld.long 0x4 5. "ECCM1BERR,Raw status of SDRAM ECC multi 1-bit errors in same SDRAM burst. Write 1 to set the (raw) status mostly for debug. Writing a 0 has no effect." "0,1" newline bitfld.long 0x4 4. "ECC2BERR,Raw status of SDRAM ECC 2-bit error. Write 1 to set the (raw) status mostly for debug. Writing a 0 has no effect." "0,1" newline bitfld.long 0x4 3. "ECC1BERR,Raw status of SDRAM ECC 1-bit error. Write 1 to set the (raw) status mostly for debug. Writing a 0 has no effect." "0,1" newline bitfld.long 0x4 2. "TOERR,Raw status of VBUSM2AXI interrupt for controller AXI interface timeout. Write 1 to set the (raw) status mostly for debug. Writing a 0 has no effect." "0,1" newline bitfld.long 0x4 1. "AERR,Raw status of VBUSM2AXI interrupt for VBUSM address outside the programmed range. Write 1 to set the (raw) status mostly for debug. Writing a 0 has no effect." "0,1" line.long 0x8 "REGS__SS_CFG__SSCFG_V2A_INT_STAT_REG," bitfld.long 0x8 5. "ECCM1BERR,Enabled status of SDRAM ECC multi 1-bit errors in same SDRAM burst. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared i.e. even if not enabled). Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 4. "ECC2BERR,Enabled status of SDRAM ECC 2-bit error. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared i.e. even if not enabled). Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 3. "ECC1BERR,Enabled status of SDRAM ECC 1-bit error. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared i.e. even if not enabled). Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 2. "TOERR,Enabled status of VBUSM2AXI interrupt for controller AXI interface timeout. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared i.e. even if not enabled). Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 1. "AERR,Enabled status of VBUSM2AXI interrupt for VBUSM address outside the programmed range. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared i.e. even if not enabled). Writing a 0 has no effect." "0,1" line.long 0xC "REGS__SS_CFG__SSCFG_V2A_INT_SET_REG," bitfld.long 0xC 5. "ECCM1BERR_EN,Enable set for SDRAM ECC multi 1-bit errors in same SDRAM burst. Writing a 1 will enable the interrupt and set this bit as well as the corresponding Interrupt Enable Clear Register. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 4. "ECC2BERR_EN,Enable set for SDRAM ECC 2-bit error. Writing a 1 will enable the interrupt and set this bit as well as the corresponding Interrupt Enable Clear Register. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 3. "ECC1BERR_EN,Enable set for SDRAM ECC 1-bit error. Writing a 1 will enable the interrupt and set this bit as well as the corresponding Interrupt Enable Clear Register. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 2. "TOERR_EN,Enable set for VBUSM2AXI interrupt for controller AXI interface timeout. Writing a 1 will enable the interrupt and set this bit as well as the corresponding Interrupt Enable Clear Register. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 1. "AERR_EN,Enable set for VBUSM2AXI interrupt for VBUSM address outside the programmed range. Writing a 1 will enable the interrupt and set this bit as well as the corresponding Interrupt Enable Clear Register. Writing a 0 has no effect." "0,1" line.long 0x10 "REGS__SS_CFG__SSCFG_V2A_INT_CLR_REG," bitfld.long 0x10 5. "ECCM1BERR_EN,Enable clear for SDRAM ECC multi 1-bit errors in same SDRAM burst. Writing a 1 will disable the interrupt and clear this bit as well as the corresponding Interrupt Enable Set Register. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 4. "ECC2BERR_EN,Enable clear for SDRAM ECC 2-bit error. Writing a 1 will disable the interrupt and clear this bit as well as the corresponding Interrupt Enable Set Register. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 3. "ECC1BERR_EN,Enable clear for SDRAM ECC 1-bit error. Writing a 1 will disable the interrupt and clear this bit as well as the corresponding Interrupt Enable Set Register. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 2. "TOERR_EN,Enable clear for VBUSM2AXI interrupt for controller AXI interface timeout. Writing a 1 will disable the interrupt and clear this bit as well as the corresponding Interrupt Enable Set Register. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 1. "AERR_EN,Enable clear for VBUSM2AXI interrupt for VBUSM address outside the programmed range. Writing a 1 will disable the interrupt and clear this bit as well as the corresponding Interrupt Enable Set Register. Writing a 0 has no effect." "0,1" wgroup.long 0xB0++0x3 line.long 0x0 "REGS__SS_CFG__SSCFG_V2A_EOI_REG," bitfld.long 0x0 0.--1. "EOI,Software End Of Interrupt (EOI) control. Write 0 for aerr/toerr interrupt. Write 1 for ecc1b interrupt. Write 2 for ecc2b interrupt. This field always reads 0 (no EOI memory)." "0,1,2,3" group.long 0x100++0x3 line.long 0x0 "REGS__SS_CFG__SSCFG_PERF_CNT_SEL_REG,The Performance Counter Select register is used to select the statistic type to be counted in the corresponding Performance Counter register." hexmask.long.byte 0x0 24.--29. 1. "CNT4_SEL,Statistic select for Performance Counter 4 register. 0x0 = Counts every Write command. 0x1 = Counts every Read command. 0x2 = Counts every read as a result of a RMW command. 0x3 = Counts every Activate command. 0x4 = Counts every.." newline hexmask.long.byte 0x0 16.--21. 1. "CNT3_SEL,Statistic select for Performance Counter 3 register. 0x0 = Counts every Write command. 0x1 = Counts every Read command. 0x2 = Counts every read as a result of a RMW command. 0x3 = Counts every Activate command. 0x4 = Counts every.." newline hexmask.long.byte 0x0 8.--13. 1. "CNT2_SEL,Statistic select for Performance Counter 2 register. 0x0 = Counts every Write command. 0x1 = Counts every Read command. 0x2 = Counts every read as a result of a RMW command. 0x3 = Counts every Activate command. 0x4 = Counts every.." newline hexmask.long.byte 0x0 0.--5. 1. "CNT1_SEL,Statistic select for Performance Counter 1 register. 0x0 = Counts every Write command. 0x1 = Counts every Read command. 0x2 = Counts every read as a result of a RMW command. 0x3 = Counts every Activate command. 0x4 = Counts every.." rgroup.long 0x104++0xF line.long 0x0 "REGS__SS_CFG__SSCFG_PERF_CNT1_REG," hexmask.long 0x0 0.--31. 1. "CNT1,Soft 32-bit counter that can be configured as specified in the Performance Counter Select Register." line.long 0x4 "REGS__SS_CFG__SSCFG_PERF_CNT2_REG," hexmask.long 0x4 0.--31. 1. "CNT2,Soft 32-bit counter that can be configured as specified in the Performance Counter Select Register." line.long 0x8 "REGS__SS_CFG__SSCFG_PERF_CNT3_REG," hexmask.long 0x8 0.--31. 1. "CNT3,Soft 32-bit counter that can be configured as specified in the Performance Counter Select Register." line.long 0xC "REGS__SS_CFG__SSCFG_PERF_CNT4_REG," hexmask.long 0xC 0.--31. 1. "CNT4,Soft 32-bit counter that can be configured as specified in the Performance Counter Select Register." group.long 0x120++0xB line.long 0x0 "REGS__SS_CFG__SSCFG_ECC_CTRL_REG," hexmask.long.byte 0x0 8.--11. 1. "COR_ECC_THRESH,Threshold for 1-bit ECC errors in multiple data words in an SDRAM burst that create an uncorrected error fault indication. Value of 0/1 means 2 or more 1-bit errors in multiple data words will result in an uncorrected error fault.." newline bitfld.long 0x0 4. "WR_ALLOC,When set to 1 an unassigned ECC cache-line will be allocated for a write with routeID that do not match any of the mapped routeID's." "0,1" newline bitfld.long 0x0 2. "ECC_CK,Set 1 to enable ECC verification for read accesses when ecc_en=1. The value of this field is ignored when ecc_en=0. This bit must be set and kept static before using DDR." "0,1" newline bitfld.long 0x0 1. "RMW_EN,Read modify write enable. Set 1 to enable RMW functionality for sub-quanta accesses when ecc_en=1. This bit must be set to 1 if ecc_en is set to a 1 to ensure subquanta accesses to DRAM do not result in ECC errors. This bit must be set and kept.." "0,1" newline bitfld.long 0x0 0. "ECC_EN,DRAM ECC enable. Setting a 1 causes ECC to be written to DRAM. This bit must be set and kept static before using DDR." "0,1" line.long 0x4 "REGS__SS_CFG__SSCFG_ECC_RID_INDX_REG," hexmask.long.byte 0x4 0.--5. 1. "ECCRID_ADR,This index specifies the ECC cache entry number that the eccrid_val is mapped to." line.long 0x8 "REGS__SS_CFG__SSCFG_ECC_RID_VAL_REG," bitfld.long 0x8 15. "ECCRID_VAL_VLD,A 1 in this field indicates that value in eccrid_val is valid." "0,1" newline hexmask.long.word 0x8 0.--11. 1. "ECCRID_VAL,RouteID value written or read." group.long 0x130++0x17 line.long 0x0 "REGS__SS_CFG__SSCFG_ECC_R0_STR_ADDR_REG," hexmask.long.tbyte 0x0 0.--18. 1. "ECC_STR_ADR_0,Start caddress[34:16] for ECC range 0. Setting the start address greater than the end address disables the range. The range is inclusive of the start and end addresses. This field must be set and kept static before using DDR." line.long 0x4 "REGS__SS_CFG__SSCFG_ECC_R0_END_ADDR_REG," hexmask.long.tbyte 0x4 0.--18. 1. "ECC_END_ADR_0,End caddress[34:16] for ECC range 0. Setting the start address greater than the end address disables the range. The range is inclusive of the start and end addresses. This field must be set and kept static before using DDR." line.long 0x8 "REGS__SS_CFG__SSCFG_ECC_R1_STR_ADDR_REG," hexmask.long.tbyte 0x8 0.--18. 1. "ECC_STR_ADR_1,Start caddress[34:16] for ECC range 1. Setting the start address greater than the end address disables the range. The range is inclusive of the start and end addresses. This field must be set and kept static before using DDR." line.long 0xC "REGS__SS_CFG__SSCFG_ECC_R1_END_ADDR_REG," hexmask.long.tbyte 0xC 0.--18. 1. "ECC_END_ADR_1,End caddress[34:16] for ECC range 1. Setting the start address greater than the end address disables the range. The range is inclusive of the start and end addresses. This field must be set and kept static before using DDR." line.long 0x10 "REGS__SS_CFG__SSCFG_ECC_R2_STR_ADDR_REG," hexmask.long.tbyte 0x10 0.--18. 1. "ECC_STR_ADR_2,Start caddress[34:16] for ECC range 2. Setting the start address greater than the end address disables the range. The range is inclusive of the start and end addresses. This field must be set and kept static before using DDR." line.long 0x14 "REGS__SS_CFG__SSCFG_ECC_R2_END_ADDR_REG," hexmask.long.tbyte 0x14 0.--18. 1. "ECC_END_ADR_2,End caddress[34:16] for ECC range 2. Setting the start address greater than the end address disables the range. The range is inclusive of the start and end addresses. This field must be set and kept static before using DDR." group.long 0x150++0xB line.long 0x0 "REGS__SS_CFG__SSCFG_ECC_1B_ERR_CNT_REG," hexmask.long.word 0x0 0.--15. 1. "ECC_1B_ERR_CNT,16-bit counter that displays number of 1-bit ECC errors on SDRAM data. Writing a 0x1 will clear this count. Writing any other value has no effect." line.long 0x4 "REGS__SS_CFG__SSCFG_ECC_1B_ERR_THRSH_REG," hexmask.long.word 0x4 0.--15. 1. "ECC_1B_ERR_THRSH,ECC 1-bit error threshold. The bridge will generate an interrupt when the ECC 1-bit error count is equal to or greater than this threshold. A value of 0 will disable the generation of interrupt." line.long 0x8 "REGS__SS_CFG__SSCFG_ECC_1B_ERR_ADR_LOG_REG," hexmask.long 0x8 0.--29. 1. "ECC_1B_ERR_ADR,ECC 1-bit error address. 32-byte aligned address that had the 1-bit ECC error. This field displays the first address logged in the 2 deep logging FIFO. Writing a 0x1 will pop the top element of the FIFO. Writing any other value has no.." rgroup.long 0x15C++0x3 line.long 0x0 "REGS__SS_CFG__SSCFG_ECC_1B_ERR_MSK_LOG_REG," hexmask.long.byte 0x0 0.--7. 1. "ECC_1B_ERR_MSK,ECC 1-bit error mask. Mask for the 64-byte data block that had the 1-bit ECC errors. Each bit represents an ECC quanta (8 bytes) in the 64-byte data block starting at address specified by ecc_1b_err_adr. Value of 1 on the bit represents an.." group.long 0x160++0x3 line.long 0x0 "REGS__SS_CFG__SSCFG_ECC_2B_ERR_ADR_LOG_REG," hexmask.long 0x0 0.--29. 1. "ECC_2B_ERR_ADR,ECC 2-bit error address. 32-byte aligned address that had the 2-bit ECC error. Writing a 0x1 will clear this field and the ecc_2b_err_msk field. Writing any other value has no effect." rgroup.long 0x164++0x3 line.long 0x0 "REGS__SS_CFG__SSCFG_ECC_2B_ERR_MSK_LOG_REG," hexmask.long.byte 0x0 0.--7. 1. "ECC_2B_ERR_MSK,ECC 2-bit error mask. Mask for the 64-byte data block that had the 2-bit ECC errors. Each bit represents an ECC quanta (8 bytes) in the 64-byte data block starting at address specified by ecc_2b_err_adr. Value of 1 on the bit represents an.." group.long 0x184++0x2F line.long 0x0 "REGS__SS_CFG__SSCFG_PHY_TEST_CTRL1_REG," hexmask.long.byte 0x0 24.--31. 1. "JTAG_DATAOUT_TSEL_RD_SEL,Controls jtag_dataout_tsel_rd_sel port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." newline hexmask.long.byte 0x0 16.--23. 1. "JTAG_DATAOUT_TSEL_WR_SEL,Controls jtag_dataout_tsel_wr_sel port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." newline hexmask.long.byte 0x0 8.--15. 1. "JTAG_DATAOUT_TSEL_ADDR_SEL,Controls jtag_dataout_tsel_addr_sel port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." newline bitfld.long 0x0 7. "JTAG_DATAOUT_TSEL_ADDR_EN,Controls jtag_dataout_tsel_addr_en port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x0 6. "JTAG_DATAOUT_TSEL_EN,Controls jtag_dataout_tsel_en port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x0 5. "JTAG_ENABLE_TERM,Controls jtag_enable_term port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x0 4. "JTAG_ENABLE_OE,Controls jtag_enable_oe port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x0 3. "JTAG_ENABLE_IE,Controls jtag_enable_ie port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x0 2. "JTAG_ENABLE_DRIVE,Controls jtag_enable_drive port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x0 1. "JTAG_ENABLE,Controls jtag_enable port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x0 0. "HVM_TEST_EN,1=Enable HVM test functionality. 0=Disable HVM test functionality. Setting a 1 will enable control of PHY ports using PHY Test Control registers and will enable 50 MHz clock to the jtag_dataout_pad_dslice_io_cfg[1] .." "0: Disable HVM test functionality,1: Enable HVM test functionality" line.long 0x4 "REGS__SS_CFG__SSCFG_PHY_TEST_CTRL2_REG," bitfld.long 0x4 31. "JTAG_DATAOUT_PAD_ADR_IO_CFG0,Controls jtag_dataout_pad_adr_io_cfg[0] port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x4 30. "JTAG_DATAOUT_PAD_ACS_IO_CFG0,Controls jtag_dataout_pad_acs_io_cfg[0] port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x4 29. "JTAG_DATAOUT_PAD_DSLICE_IO_CFG2,Controls jtag_dataout_pad_dslice_io_cfg[2] port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x4 28. "JTAG_DATAOUT_PAD_DSLICE_IO_CFG0,Controls jtag_dataout_pad_dslice_io_cfg[0] port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x4 27. "JTAG_DATAOUT_ATB_EN,Controls jtag_dataout_atb_en port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline hexmask.long.word 0x4 15.--26. 1. "JTAG_DATAOUT_VREF_CTRL_DQ,Controls jtag_dataout_vref_ctrl_dq port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." newline hexmask.long.word 0x4 6.--14. 1. "JTAG_DATAOUT_PHY_RX_CAL_CODE,Controls jtag_dataout_phy_rx_cal_code port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." newline hexmask.long.byte 0x4 0.--5. 1. "JTAG_DATAOUT_PHY_DSLICE_PAD_RX_CTLE_SETTING,Controls jtag_dataout_phy_dslice_pad_rx_ctle_setting port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." line.long 0x8 "REGS__SS_CFG__SSCFG_PHY_TEST_CTRL3_REG," hexmask.long.word 0x8 16.--31. 1. "JTAG_DATAOUT_ATB_CTRL,Controls jtag_dataout_atb_ctrl port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." newline hexmask.long.word 0x8 0.--15. 1. "JTAG_DATAOUT_PAD_ATB_CTRL,Controls jtag_dataout_pad_atb_ctrl port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." line.long 0xC "REGS__SS_CFG__SSCFG_PHY_TEST_CTRL4_REG," bitfld.long 0xC 31. "JTAG_DATAOUT_ERROR_N_OE,Controls jtag_dataout_error_n_oe port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0xC 30. "JTAG_DATAOUT_PARITY_IN_OE,Controls jtag_dataout_parity_in_oe port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0xC 28.--29. "JTAG_DATAOUT_ODT_OE,Controls jtag_dataout_odt_oe port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1,2,3" newline hexmask.long.word 0xC 14.--27. 1. "JTAG_DATAOUT_ADDRESS_OE,Controls jtag_dataout_address_oe port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." newline bitfld.long 0xC 12.--13. "JTAG_DATAOUT_BANK_OE,Controls jtag_dataout_bank_oe port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1,2,3" newline bitfld.long 0xC 10.--11. "JTAG_DATAOUT_BG_OE,Controls jtag_dataout_bg_oe port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1,2,3" newline bitfld.long 0xC 9. "JTAG_DATAOUT_WE_N_OE,Controls jtag_dataout_we_n_oe port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0xC 8. "JTAG_DATAOUT_CAS_N_OE,Controls jtag_dataout_cas_n_oe port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0xC 7. "JTAG_DATAOUT_RAS_N_OE,Controls jtag_dataout_ras_n_oe port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0xC 6. "JTAG_DATAOUT_ACT_N_OE,Controls jtag_dataout_act_n_oe port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0xC 4.--5. "JTAG_DATAOUT_CS_N_OE,Controls jtag_dataout_cs_n_oe port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1,2,3" newline bitfld.long 0xC 3. "JTAG_DATAOUT_MEM_CLK_0_OE,Controls jtag_dataout_mem_clk_0_oe port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0xC 1.--2. "JTAG_DATAOUT_CKE_OE,Controls jtag_dataout_cke_oe port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1,2,3" newline bitfld.long 0xC 0. "JTAG_DATAOUT_RESET_N_OE,Controls jtag_dataout_reset_n_oe port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" line.long 0x10 "REGS__SS_CFG__SSCFG_PHY_TEST_CTRL5_REG," hexmask.long 0x10 0.--31. 1. "JTAG_DATAOUT_DATA_OE,Controls jtag_dataout_data_oe port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." line.long 0x14 "REGS__SS_CFG__SSCFG_PHY_TEST_CTRL6_REG," bitfld.long 0x14 31. "JTAG_DATAOUT_ERROR_N,Controls jtag_dataout_error_n port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x14 30. "JTAG_DATAOUT_PARITY_IN,Controls jtag_dataout_parity_in port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x14 28.--29. "JTAG_DATAOUT_ODT,Controls jtag_dataout_odt port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1,2,3" newline hexmask.long.word 0x14 14.--27. 1. "JTAG_DATAOUT_ADDRESS,Controls jtag_dataout_address port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." newline bitfld.long 0x14 12.--13. "JTAG_DATAOUT_BANK,Controls jtag_dataout_bank port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1,2,3" newline bitfld.long 0x14 10.--11. "JTAG_DATAOUT_BG,Controls jtag_dataout_bg port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1,2,3" newline bitfld.long 0x14 9. "JTAG_DATAOUT_WE_N,Controls jtag_dataout_we_n port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x14 8. "JTAG_DATAOUT_CAS_N,Controls jtag_dataout_cas_n port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x14 7. "JTAG_DATAOUT_RAS_N,Controls jtag_dataout_ras_n port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x14 6. "JTAG_DATAOUT_ACT_N,Controls jtag_dataout_act_n port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x14 4.--5. "JTAG_DATAOUT_CS_N,Controls jtag_dataout_cs_n port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1,2,3" newline bitfld.long 0x14 3. "JTAG_DATAOUT_MEM_CLK_0,Controls jtag_dataout_mem_clk_0 port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x14 1.--2. "JTAG_DATAOUT_CKE,Controls jtag_dataout_cke port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1,2,3" newline bitfld.long 0x14 0. "JTAG_DATAOUT_RESET_N,Controls jtag_dataout_reset_n port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" line.long 0x18 "REGS__SS_CFG__SSCFG_PHY_TEST_CTRL7_REG," hexmask.long 0x18 0.--31. 1. "JTAG_DATAOUT_DATA,Controls jtag_dataout_data port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." line.long 0x1C "REGS__SS_CFG__SSCFG_PHY_TEST_CTRL8_REG," bitfld.long 0x1C 31. "JTAG_DATAOUT_ERROR_N_IE,Controls jtag_dataout_error_n_ie port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x1C 30. "JTAG_DATAOUT_PARITY_IN_IE,Controls jtag_dataout_parity_in_ie port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x1C 28.--29. "JTAG_DATAOUT_ODT_IE,Controls jtag_dataout_odt_ie port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1,2,3" newline hexmask.long.word 0x1C 14.--27. 1. "JTAG_DATAOUT_ADDRESS_IE,Controls jtag_dataout_address_ie port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." newline bitfld.long 0x1C 12.--13. "JTAG_DATAOUT_BANK_IE,Controls jtag_dataout_bank_ie port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1,2,3" newline bitfld.long 0x1C 10.--11. "JTAG_DATAOUT_BG_IE,Controls jtag_dataout_bg_ie port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1,2,3" newline bitfld.long 0x1C 9. "JTAG_DATAOUT_WE_N_IE,Controls jtag_dataout_we_n_ie port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x1C 8. "JTAG_DATAOUT_CAS_N_IE,Controls jtag_dataout_cas_n_ie port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x1C 7. "JTAG_DATAOUT_RAS_N_IE,Controls jtag_dataout_ras_n_ie port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x1C 6. "JTAG_DATAOUT_ACT_N_IE,Controls jtag_dataout_act_n_ie port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x1C 4.--5. "JTAG_DATAOUT_CS_N_IE,Controls jtag_dataout_cs_n_ie port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1,2,3" newline bitfld.long 0x1C 3. "JTAG_DATAOUT_MEM_CLK_0_IE,Controls jtag_dataout_mem_clk_0_ie port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" newline bitfld.long 0x1C 1.--2. "JTAG_DATAOUT_CKE_IE,Controls jtag_dataout_cke_ie port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1,2,3" newline bitfld.long 0x1C 0. "JTAG_DATAOUT_RESET_N_IE,Controls jtag_dataout_reset_n_ie port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." "0,1" line.long 0x20 "REGS__SS_CFG__SSCFG_PHY_TEST_CTRL9_REG," hexmask.long 0x20 0.--31. 1. "JTAG_DATAOUT_DATA_IE,Controls jtag_dataout_data_ie port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." line.long 0x24 "REGS__SS_CFG__SSCFG_PHY_TEST_CTRL10_REG," hexmask.long.byte 0x24 0.--7. 1. "HVM_CLK_DIV,Divfactor to divide ddrss_ddr_pll_clk to generate PCLK for HVM tests when ddrss_bs_mode=0 and hvm_test_en=1. 0=div by 1 1=div by 2 and so on." line.long 0x28 "REGS__SS_CFG__SSCFG_PHY_TEST_CTRL11_REG," hexmask.long.byte 0x28 24.--27. 1. "JTAG_DATAOUT_DQS_IE,Controls jtag_dataout_dqs_ie port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." newline hexmask.long.byte 0x28 20.--23. 1. "JTAG_DATAOUT_DQS,Controls jtag_dataout_dqs port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." newline hexmask.long.byte 0x28 16.--19. 1. "JTAG_DATAOUT_DQS_OE,Controls jtag_dataout_dqs_oe port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." newline hexmask.long.byte 0x28 8.--11. 1. "JTAG_DATAOUT_DM_IE,Controls jtag_dataout_dm_ie port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." newline hexmask.long.byte 0x28 4.--7. 1. "JTAG_DATAOUT_DM,Controls jtag_dataout_dm port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." newline hexmask.long.byte 0x28 0.--3. 1. "JTAG_DATAOUT_DM_OE,Controls jtag_dataout_dm_oe port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." line.long 0x2C "REGS__SS_CFG__SSCFG_PHY_TEST_CTRL12_REG," hexmask.long.word 0x2C 0.--15. 1. "JTAG_DATAOUT_PHY_DSLICE_PAD_BOOSTPN_SETTING,Controls jtag_dataout_phy_dslice_pad_boostpn_setting port on the PHY when ddrss_bs_mode=0 and hvm_test_en=1." rgroup.long 0x1C0++0xB line.long 0x0 "REGS__SS_CFG__SSCFG_PHY_TEST_STAT1_REG," bitfld.long 0x0 31. "JTAG_DATAIN_ERROR_N,Displays value of jtag_datain_error_n port on the PHY." "0,1" newline bitfld.long 0x0 30. "JTAG_DATAIN_PARITY_IN,Displays value of jtag_datain_parity_in port on the PHY." "0,1" newline bitfld.long 0x0 28.--29. "JTAG_DATAIN_ODT,Displays value of jtag_datain_odt port on the PHY." "0,1,2,3" newline hexmask.long.word 0x0 14.--27. 1. "JTAG_DATAIN_ADDRESS,Displays value of jtag_datain_address port on the PHY." newline bitfld.long 0x0 12.--13. "JTAG_DATAIN_BANK,Displays value of jtag_datain_bank port on the PHY." "0,1,2,3" newline bitfld.long 0x0 10.--11. "JTAG_DATAIN_BG,Displays value of jtag_datain_bg port on the PHY." "0,1,2,3" newline bitfld.long 0x0 9. "JTAG_DATAIN_WE_N,Displays value of jtag_datain_we_n port on the PHY." "0,1" newline bitfld.long 0x0 8. "JTAG_DATAIN_CAS_N,Displays value of jtag_datain_cas_n port on the PHY." "0,1" newline bitfld.long 0x0 7. "JTAG_DATAIN_RAS_N,Displays value of jtag_datain_ras_n port on the PHY." "0,1" newline bitfld.long 0x0 6. "JTAG_DATAIN_ACT_N,Displays value of jtag_datain_act_n port on the PHY." "0,1" newline bitfld.long 0x0 4.--5. "JTAG_DATAIN_CS_N,Displays value of jtag_datain_cs_n port on the PHY." "0,1,2,3" newline bitfld.long 0x0 3. "JTAG_DATAIN_MEM_CLK_0,Displays value of jtag_datain_mem_clk_0 port on the PHY." "0,1" newline bitfld.long 0x0 1.--2. "JTAG_DATAIN_CKE,Displays value of jtag_datain_cke port on the PHY." "0,1,2,3" newline bitfld.long 0x0 0. "JTAG_DATAIN_RESET_N,Displays value of jtag_datain_reset_n port on the PHY." "0,1" line.long 0x4 "REGS__SS_CFG__SSCFG_PHY_TEST_STAT2_REG," hexmask.long 0x4 0.--31. 1. "JTAG_DATAIN_DATA,Displays value of jtag_datain_data port on the PHY." line.long 0x8 "REGS__SS_CFG__SSCFG_PHY_TEST_STAT3_REG," hexmask.long.byte 0x8 8.--11. 1. "JTAG_DATAIN_DQS,Displays value of jtag_datain_dqs port on the PHY." newline hexmask.long.byte 0x8 0.--3. 1. "JTAG_DATAIN_DM,Displays value of jtag_datain_dm port on the PHY." tree.end tree.end tree "DEBUGSS0" base ad:0x0 tree "DEBUGSS0_SYS (DEBUGSS0_SYS)" base ad:0x41000000 rgroup.long 0x0++0x3 line.long 0x0 "SYS_REGS_TRACE,This register contains TBR trace read data" hexmask.long 0x0 0.--31. 1. "DATA,TBR TRACE data" tree.end sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "DEBUGSS0_DEBUG_CELL_ROM_SLV (DEBUGSS0_DEBUG_CELL_ROM_SLV)" base ad:0x73C020000 rgroup.long 0x4++0x33 line.long 0x0 "DEBUG_CELL_ROM__SLV__REGS_ENTRY1," hexmask.long 0x0 1.--31. 1. "ID,4kB - MSMCv3 CSCTI Instance 1" bitfld.long 0x0 0. "PRESENT,Component present 1 or not present 0 status bit" "0,1" line.long 0x4 "DEBUG_CELL_ROM__SLV__REGS_ENTRY2," hexmask.long 0x4 1.--31. 1. "ID,4kB - MSMCv3 CSCTI Instance 2" bitfld.long 0x4 0. "PRESENT,Component present 1 or not present 0 status bit" "0,1" line.long 0x8 "DEBUG_CELL_ROM__SLV__REGS_ENTRY3," hexmask.long 0x8 1.--31. 1. "ID,4kB - MSMCv3 CSCTI Instance 3" bitfld.long 0x8 0. "PRESENT,Component present 1 or not present 0 status bit" "0,1" line.long 0xC "DEBUG_CELL_ROM__SLV__REGS_ENTRY4," hexmask.long 0xC 1.--31. 1. "ID,4kB - MSMCv3 CSCTI Instance 4" bitfld.long 0xC 0. "PRESENT,Component present 1 or not present 0 status bit" "0,1" line.long 0x10 "DEBUG_CELL_ROM__SLV__REGS_ENTRY5," hexmask.long 0x10 1.--31. 1. "ID,4kB - MSMCv3 CSCTI Instance 5" bitfld.long 0x10 0. "PRESENT,Component present 1 or not present 0 status bit" "0,1" line.long 0x14 "DEBUG_CELL_ROM__SLV__REGS_ENTRY6," hexmask.long 0x14 1.--31. 1. "ID,4kB - MSMCv3 CSCTI Instance 6" bitfld.long 0x14 0. "PRESENT,Component present 1 or not present 0 status bit" "0,1" line.long 0x18 "DEBUG_CELL_ROM__SLV__REGS_ENTRY7," hexmask.long 0x18 1.--31. 1. "ID,4kB - MSMCv3 CSCTI Instance 7" bitfld.long 0x18 0. "PRESENT,Component present 1 or not present 0 status bit" "0,1" line.long 0x1C "DEBUG_CELL_ROM__SLV__REGS_ENTRY8," hexmask.long 0x1C 1.--31. 1. "ID,256kB - Processor Cluster Instance 0" bitfld.long 0x1C 0. "PRESENT,Component present 1 or not present 0 status bit" "0,1" line.long 0x20 "DEBUG_CELL_ROM__SLV__REGS_ENTRY9," hexmask.long 0x20 1.--31. 1. "ID,256kB - Processor Cluster Instance 1" bitfld.long 0x20 0. "PRESENT,Component present 1 or not present 0 status bit" "0,1" line.long 0x24 "DEBUG_CELL_ROM__SLV__REGS_ENTRY10," hexmask.long 0x24 1.--31. 1. "ID,256kB - Processor Cluster Instance 2" bitfld.long 0x24 0. "PRESENT,Component present 1 or not present 0 status bit" "0,1" line.long 0x28 "DEBUG_CELL_ROM__SLV__REGS_ENTRY11," hexmask.long 0x28 1.--31. 1. "ID,256kB - Processor Cluster Instance 3" bitfld.long 0x28 0. "PRESENT,Component present 1 or not present 0 status bit" "0,1" line.long 0x2C "DEBUG_CELL_ROM__SLV__REGS_ENTRY12," hexmask.long 0x2C 1.--31. 1. "ID,256kB - Processor Cluster Instance 4" bitfld.long 0x2C 0. "PRESENT,Component present 1 or not present 0 status bit" "0,1" line.long 0x30 "DEBUG_CELL_ROM__SLV__REGS_ENTRY13," hexmask.long 0x30 1.--31. 1. "ID,256kB - Processor Cluster Instance 5" bitfld.long 0x30 0. "PRESENT,Component present 1 or not present 0 status bit" "0,1" rgroup.long 0x50++0x3 line.long 0x0 "DEBUG_CELL_ROM__SLV__REGS_ENTRY14," hexmask.long 0x0 0.--31. 1. "ID,End of table" rgroup.long 0xFD0++0x2F line.long 0x0 "DEBUG_CELL_ROM__SLV__REGS_PERIPHID4," hexmask.long 0x0 0.--31. 1. "ID,Peripheral Identification Number" line.long 0x4 "DEBUG_CELL_ROM__SLV__REGS_PERIPHID5," hexmask.long 0x4 0.--31. 1. "ID,Peripheral Identification Number" line.long 0x8 "DEBUG_CELL_ROM__SLV__REGS_PERIPHID6," hexmask.long 0x8 0.--31. 1. "ID,Peripheral Identification Number" line.long 0xC "DEBUG_CELL_ROM__SLV__REGS_PERIPHID7," hexmask.long 0xC 0.--31. 1. "ID,Peripheral Identification Number" line.long 0x10 "DEBUG_CELL_ROM__SLV__REGS_PERIPHID0," hexmask.long 0x10 0.--31. 1. "ID,Peripheral Identification Number" line.long 0x14 "DEBUG_CELL_ROM__SLV__REGS_PERIPHID1," hexmask.long 0x14 0.--31. 1. "ID,Peripheral Identification Number" line.long 0x18 "DEBUG_CELL_ROM__SLV__REGS_PERIPHID2," hexmask.long 0x18 0.--31. 1. "ID,Peripheral Identification Number" line.long 0x1C "DEBUG_CELL_ROM__SLV__REGS_PERIPHID3," hexmask.long 0x1C 0.--31. 1. "ID,Peripheral Identification Number" line.long 0x20 "DEBUG_CELL_ROM__SLV__REGS_COMPONENTID0," hexmask.long 0x20 0.--31. 1. "ID,Component Identification Number" line.long 0x24 "DEBUG_CELL_ROM__SLV__REGS_COMPONENTID1," hexmask.long 0x24 0.--31. 1. "ID,Component Identification Number" line.long 0x28 "DEBUG_CELL_ROM__SLV__REGS_COMPONENTID2," hexmask.long 0x28 0.--31. 1. "ID,Component Identification Number" line.long 0x2C "DEBUG_CELL_ROM__SLV__REGS_COMPONENTID3," hexmask.long 0x2C 0.--31. 1. "ID,Component Identification Number" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "DEBUGSS0_CTSET2_WRAP_CFG_CTSET2_CFG (DEBUGSS0_CTSET2_WRAP_CFG_CTSET2_CFG)" base ad:0x73C022000 rgroup.long 0x0++0x3 line.long 0x0 "CTSET2_WRAP__CFG__CTSET2_CFG_CTSETID,CTSET identification register" bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish between old Scheme and current" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,The value 10b designates this as Processor Business Unit IP" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION,Function : Indicates a Debug IP (0x2nn) and 0x80 is the identifier for CT-SET" newline hexmask.long.byte 0x0 11.--15. 1. "RTL_VERSION,This field changes on bug fix and resets to '0' when either Minor Revision or Major Revision field changes" bitfld.long 0x0 8.--10. "MAJOR_REV,Major Revision. This field changes when there is a major feature change." "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version for a particular device. 0 if non-custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV,Minor Revision. This field changes when features are scaled up or down" group.long 0x10++0x3 line.long 0x0 "CTSET2_WRAP__CFG__CTSET2_CFG_CTSETSYSCFG,CTSET system configuration register" hexmask.long 0x0 4.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 2.--3. "IDLEMODE,Sets the Idle Mode for CTSET (0=Force Idle 1=No Idle 2=Smart Idle 3= Smart Idle wakeup)" "0: Force Idle,1: No Idle,2: Smart Idle,3: Smart Idle wakeup" rbitfld.long 0x0 1. "RESERVED,Reserved returns 0" "0,1" newline bitfld.long 0x0 0. "SOFTRESET,This will reset entire CTSET except the registers and the CFG interface. This bit is automatically cleared by hardware. Reads always return 0" "0,1" rgroup.long 0x14++0xB line.long 0x0 "CTSET2_WRAP__CFG__CTSET2_CFG_SETSTR,CTSET status register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 8. "HWFIFOEMPTY,System Event Trace FIFO status 1 is empty 0 means captured data not yet exported" "0,1" hexmask.long.byte 0x0 1.--7. 1. "RESERVED,Reserved returns 0" newline bitfld.long 0x0 0. "RESETDONE,Reset status 0 means reset ongoing 1 indicates completed" "0,1" line.long 0x4 "CTSET2_WRAP__CFG__CTSET2_CFG_DBGTIMELOW,The 32 low order bits of the debug time value supplied on the time input interface" hexmask.long 0x4 0.--31. 1. "DBGTIME,debug time" line.long 0x8 "CTSET2_WRAP__CFG__CTSET2_CFG_DBGTIMEHI,The 32 high order bits of the debug time value supplied on the time input interface" hexmask.long 0x8 0.--31. 1. "DBGTIME,debug time" group.long 0x24++0x7 line.long 0x0 "CTSET2_WRAP__CFG__CTSET2_CFG_CTSETCFG,The 32 low order bits of the debug time value supplied on the time input interface The 32 high order bits of the debug time value supplied on the time input interface. Reading DBGTIMEHI latches the lower 32 bits of.." hexmask.long.byte 0x0 28.--31. 1. "CLAIM,Claim control and status. To program any bits other than 31 : 28 CTSET ownership must be claimed using bits 31 : 28." hexmask.long.tbyte 0x0 8.--27. 1. "RESERVED2,Reserved returns 0" bitfld.long 0x0 7. "SYSEVENTCAPTEN,When 1 the System event capture is enabled" "0,1" newline rbitfld.long 0x0 5.--6. "RESERVED1,Reserved returns 0" "0,1,2,3" bitfld.long 0x0 4. "EVENTLEVEL,0 enables low level event detection 1 enables high level event detection" "0,1" bitfld.long 0x0 3. "MSGMODE,Message generated based on event detection 0 is sampling window 1 is event detection" "0,1" newline bitfld.long 0x0 2. "STOPCAPT,Stop capturing system events from external trigger detection" "0,1" bitfld.long 0x0 1. "STARTCAPT,Start capturing system events from external trigger detection" "0,1" rbitfld.long 0x0 0. "RESERVED,Reserved returns 0" "0,1" line.long 0x4 "CTSET2_WRAP__CFG__CTSET2_CFG_SETSPLREG,System Event Sampling Window register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--7. 1. "WINDOWSIZE,System events sampling window size expressed as CTSET cycles" group.long 0x30++0x23 line.long 0x0 "CTSET2_WRAP__CFG__CTSET2_CFG_SETEVTENBL1,System event detection enable register 1" bitfld.long 0x0 31. "EVENT32DETEN,Event(32) Detection Enable" "0,1" bitfld.long 0x0 30. "EVENT31DETEN,Event(31) Detection Enable" "0,1" bitfld.long 0x0 29. "EVENT30DETEN,Event(30) Detection Enable" "0,1" newline bitfld.long 0x0 28. "EVENT29DETEN,Event(29) Detection Enable" "0,1" bitfld.long 0x0 27. "EVENT28DETEN,Event(28) Detection Enable" "0,1" bitfld.long 0x0 26. "EVENT27DETEN,Event(27) Detection Enable" "0,1" newline bitfld.long 0x0 25. "EVENT26DETEN,Event(26) Detection Enable" "0,1" bitfld.long 0x0 24. "EVENT25DETEN,Event(25) Detection Enable" "0,1" bitfld.long 0x0 23. "EVENT24DETEN,Event(24) Detection Enable" "0,1" newline bitfld.long 0x0 22. "EVENT23DETEN,Event(23) Detection Enable" "0,1" bitfld.long 0x0 21. "EVENT22DETEN,Event(22) Detection Enable" "0,1" bitfld.long 0x0 20. "EVENT21DETEN,Event(21) Detection Enable" "0,1" newline bitfld.long 0x0 19. "EVENT20DETEN,Event(20) Detection Enable" "0,1" bitfld.long 0x0 18. "EVENT19DETEN,Event(19) Detection Enable" "0,1" bitfld.long 0x0 17. "EVENT18DETEN,Event(18) Detection Enable" "0,1" newline bitfld.long 0x0 16. "EVENT17DETEN,Event(17) Detection Enable" "0,1" bitfld.long 0x0 15. "EVENT16DETEN,Event(16) Detection Enable" "0,1" bitfld.long 0x0 14. "EVENT15DETEN,Event(15) Detection Enable" "0,1" newline bitfld.long 0x0 13. "EVENT14DETEN,Event(14) Detection Enable" "0,1" bitfld.long 0x0 12. "EVENT13DETEN,Event(13) Detection Enable" "0,1" bitfld.long 0x0 11. "EVENT12DETEN,Event(12) Detection Enable" "0,1" newline bitfld.long 0x0 10. "EVENT11DETEN,Event(11) Detection Enable" "0,1" bitfld.long 0x0 9. "EVENT10DETEN,Event(10) Detection Enable" "0,1" bitfld.long 0x0 8. "EVENT9DETEN,Event(9) Detection Enable" "0,1" newline bitfld.long 0x0 7. "EVENT8DETEN,Event(8) Detection Enable" "0,1" bitfld.long 0x0 6. "EVENT7DETEN,Event(7) Detection Enable" "0,1" bitfld.long 0x0 5. "EVENT6DETEN,Event(6) Detection Enable" "0,1" newline bitfld.long 0x0 4. "EVENT5DETEN,Event(5) Detection Enable" "0,1" bitfld.long 0x0 3. "EVENT4DETEN,Event(4) Detection Enable" "0,1" bitfld.long 0x0 2. "EVENT3DETEN,Event(3) Detection Enable" "0,1" newline bitfld.long 0x0 1. "EVENT2DETEN,Event(2) Detection Enable" "0,1" bitfld.long 0x0 0. "EVENT1DETEN,Event(1) Detection Enable" "0,1" line.long 0x4 "CTSET2_WRAP__CFG__CTSET2_CFG_SETEVTENBL2,System event detection enable register 2 (if number of events > 32)" bitfld.long 0x4 31. "EVENT64DETEN,Event(64) Detection Enable" "0,1" bitfld.long 0x4 30. "EVENT63DETEN,Event(63) Detection Enable" "0,1" bitfld.long 0x4 29. "EVENT62DETEN,Event(62) Detection Enable" "0,1" newline bitfld.long 0x4 28. "EVENT61DETEN,Event(61) Detection Enable" "0,1" bitfld.long 0x4 27. "EVENT60DETEN,Event(60) Detection Enable" "0,1" bitfld.long 0x4 26. "EVENT59DETEN,Event(59) Detection Enable" "0,1" newline bitfld.long 0x4 25. "EVENT58DETEN,Event(58) Detection Enable" "0,1" bitfld.long 0x4 24. "EVENT57DETEN,Event(57) Detection Enable" "0,1" bitfld.long 0x4 23. "EVENT56DETEN,Event(56) Detection Enable" "0,1" newline bitfld.long 0x4 22. "EVENT55DETEN,Event(55) Detection Enable" "0,1" bitfld.long 0x4 21. "EVENT54DETEN,Event(54) Detection Enable" "0,1" bitfld.long 0x4 20. "EVENT53DETEN,Event(53) Detection Enable" "0,1" newline bitfld.long 0x4 19. "EVENT52DETEN,Event(52) Detection Enable" "0,1" bitfld.long 0x4 18. "EVENT51DETEN,Event(51) Detection Enable" "0,1" bitfld.long 0x4 17. "EVENT50DETEN,Event(50) Detection Enable" "0,1" newline bitfld.long 0x4 16. "EVENT49DETEN,Event(49) Detection Enable" "0,1" bitfld.long 0x4 15. "EVENT48DETEN,Event(48) Detection Enable" "0,1" bitfld.long 0x4 14. "EVENT47DETEN,Event(47) Detection Enable" "0,1" newline bitfld.long 0x4 13. "EVENT46DETEN,Event(46) Detection Enable" "0,1" bitfld.long 0x4 12. "EVENT45DETEN,Event(45) Detection Enable" "0,1" bitfld.long 0x4 11. "EVENT44DETEN,Event(44) Detection Enable" "0,1" newline bitfld.long 0x4 10. "EVENT43DETEN,Event(43) Detection Enable" "0,1" bitfld.long 0x4 9. "EVENT42DETEN,Event(42) Detection Enable" "0,1" bitfld.long 0x4 8. "EVENT41DETEN,Event(41) Detection Enable" "0,1" newline bitfld.long 0x4 7. "EVENT40DETEN,Event(40) Detection Enable" "0,1" bitfld.long 0x4 6. "EVENT39DETEN,Event(39) Detection Enable" "0,1" bitfld.long 0x4 5. "EVENT38DETEN,Event(38) Detection Enable" "0,1" newline bitfld.long 0x4 4. "EVENT37DETEN,Event(37) Detection Enable" "0,1" bitfld.long 0x4 3. "EVENT36DETEN,Event(36) Detection Enable" "0,1" bitfld.long 0x4 2. "EVENT35DETEN,Event(35) Detection Enable" "0,1" newline bitfld.long 0x4 1. "EVENT34DETEN,Event(34) Detection Enable" "0,1" bitfld.long 0x4 0. "EVENT33DETEN,Event(33) Detection Enable" "0,1" line.long 0x8 "CTSET2_WRAP__CFG__CTSET2_CFG_SETEVTENBL3,System event detection enable register 3 (if number of events > 64)" bitfld.long 0x8 31. "EVENT96DETEN,Event(96) Detection Enable" "0,1" bitfld.long 0x8 30. "EVENT95DETEN,Event(95) Detection Enable" "0,1" bitfld.long 0x8 29. "EVENT94DETEN,Event(94) Detection Enable" "0,1" newline bitfld.long 0x8 28. "EVENT93DETEN,Event(93) Detection Enable" "0,1" bitfld.long 0x8 27. "EVENT92DETEN,Event(92) Detection Enable" "0,1" bitfld.long 0x8 26. "EVENT91DETEN,Event(91) Detection Enable" "0,1" newline bitfld.long 0x8 25. "EVENT90DETEN,Event(90) Detection Enable" "0,1" bitfld.long 0x8 24. "EVENT89DETEN,Event(89) Detection Enable" "0,1" bitfld.long 0x8 23. "EVENT88DETEN,Event(88) Detection Enable" "0,1" newline bitfld.long 0x8 22. "EVENT87DETEN,Event(87) Detection Enable" "0,1" bitfld.long 0x8 21. "EVENT86DETEN,Event(86) Detection Enable" "0,1" bitfld.long 0x8 20. "EVENT85DETEN,Event(85) Detection Enable" "0,1" newline bitfld.long 0x8 19. "EVENT84DETEN,Event(84) Detection Enable" "0,1" bitfld.long 0x8 18. "EVENT83DETEN,Event(83) Detection Enable" "0,1" bitfld.long 0x8 17. "EVENT82DETEN,Event(82) Detection Enable" "0,1" newline bitfld.long 0x8 16. "EVENT81DETEN,Event(81) Detection Enable" "0,1" bitfld.long 0x8 15. "EVENT80DETEN,Event(80) Detection Enable" "0,1" bitfld.long 0x8 14. "EVENT79DETEN,Event(79) Detection Enable" "0,1" newline bitfld.long 0x8 13. "EVENT78DETEN,Event(78) Detection Enable" "0,1" bitfld.long 0x8 12. "EVENT77DETEN,Event(77) Detection Enable" "0,1" bitfld.long 0x8 11. "EVENT76DETEN,Event(76) Detection Enable" "0,1" newline bitfld.long 0x8 10. "EVENT75DETEN,Event(75) Detection Enable" "0,1" bitfld.long 0x8 9. "EVENT74DETEN,Event(74) Detection Enable" "0,1" bitfld.long 0x8 8. "EVENT73DETEN,Event(73) Detection Enable" "0,1" newline bitfld.long 0x8 7. "EVENT72DETEN,Event(72) Detection Enable" "0,1" bitfld.long 0x8 6. "EVENT71DETEN,Event(71) Detection Enable" "0,1" bitfld.long 0x8 5. "EVENT70DETEN,Event(70) Detection Enable" "0,1" newline bitfld.long 0x8 4. "EVENT69DETEN,Event(69) Detection Enable" "0,1" bitfld.long 0x8 3. "EVENT68DETEN,Event(68) Detection Enable" "0,1" bitfld.long 0x8 2. "EVENT67DETEN,Event(67) Detection Enable" "0,1" newline bitfld.long 0x8 1. "EVENT66DETEN,Event(66) Detection Enable" "0,1" bitfld.long 0x8 0. "EVENT65DETEN,Event(65) Detection Enable" "0,1" line.long 0xC "CTSET2_WRAP__CFG__CTSET2_CFG_SETEVTENBL4,System event detection enable register 4 (if number of events > 96)" bitfld.long 0xC 31. "EVENT128DETEN,Event(128) Detection Enable" "0,1" bitfld.long 0xC 30. "EVENT127DETEN,Event(127) Detection Enable" "0,1" bitfld.long 0xC 29. "EVENT126DETEN,Event(126) Detection Enable" "0,1" newline bitfld.long 0xC 28. "EVENT125DETEN,Event(125) Detection Enable" "0,1" bitfld.long 0xC 27. "EVENT124DETEN,Event(124) Detection Enable" "0,1" bitfld.long 0xC 26. "EVENT123DETEN,Event(123) Detection Enable" "0,1" newline bitfld.long 0xC 25. "EVENT122DETEN,Event(122) Detection Enable" "0,1" bitfld.long 0xC 24. "EVENT121DETEN,Event(121) Detection Enable" "0,1" bitfld.long 0xC 23. "EVENT120DETEN,Event(120) Detection Enable" "0,1" newline bitfld.long 0xC 22. "EVENT119DETEN,Event(119) Detection Enable" "0,1" bitfld.long 0xC 21. "EVENT118DETEN,Event(118) Detection Enable" "0,1" bitfld.long 0xC 20. "EVENT117DETEN,Event(117) Detection Enable" "0,1" newline bitfld.long 0xC 19. "EVENT116DETEN,Event(116) Detection Enable" "0,1" bitfld.long 0xC 18. "EVENT115DETEN,Event(115) Detection Enable" "0,1" bitfld.long 0xC 17. "EVENT114DETEN,Event(114) Detection Enable" "0,1" newline bitfld.long 0xC 16. "EVENT113DETEN,Event(113) Detection Enable" "0,1" bitfld.long 0xC 15. "EVENT112DETEN,Event(112) Detection Enable" "0,1" bitfld.long 0xC 14. "EVENT111DETEN,Event(111) Detection Enable" "0,1" newline bitfld.long 0xC 13. "EVENT110DETEN,Event(110) Detection Enable" "0,1" bitfld.long 0xC 12. "EVENT109DETEN,Event(109) Detection Enable" "0,1" bitfld.long 0xC 11. "EVENT108DETEN,Event(108) Detection Enable" "0,1" newline bitfld.long 0xC 10. "EVENT107DETEN,Event(107) Detection Enable" "0,1" bitfld.long 0xC 9. "EVENT106DETEN,Event(106) Detection Enable" "0,1" bitfld.long 0xC 8. "EVENT105DETEN,Event(105) Detection Enable" "0,1" newline bitfld.long 0xC 7. "EVENT104DETEN,Event(104) Detection Enable" "0,1" bitfld.long 0xC 6. "EVENT103DETEN,Event(103) Detection Enable" "0,1" bitfld.long 0xC 5. "EVENT102DETEN,Event(102) Detection Enable" "0,1" newline bitfld.long 0xC 4. "EVENT101DETEN,Event(101) Detection Enable" "0,1" bitfld.long 0xC 3. "EVENT100DETEN,Event(100) Detection Enable" "0,1" bitfld.long 0xC 2. "EVENT99DETEN,Event(99) Detection Enable" "0,1" newline bitfld.long 0xC 1. "EVENT98DETEN,Event(98) Detection Enable" "0,1" bitfld.long 0xC 0. "EVENT97DETEN,Event(97) Detection Enable" "0,1" line.long 0x10 "CTSET2_WRAP__CFG__CTSET2_CFG_SETEVTENBL5,System event detection enable register 5 (if number of events > 128)" bitfld.long 0x10 31. "EVENT160DETEN,Event(160) Detection Enable" "0,1" bitfld.long 0x10 30. "EVENT159DETEN,Event(159) Detection Enable" "0,1" bitfld.long 0x10 29. "EVENT158DETEN,Event(158) Detection Enable" "0,1" newline bitfld.long 0x10 28. "EVENT157DETEN,Event(157) Detection Enable" "0,1" bitfld.long 0x10 27. "EVENT156DETEN,Event(156) Detection Enable" "0,1" bitfld.long 0x10 26. "EVENT155DETEN,Event(155) Detection Enable" "0,1" newline bitfld.long 0x10 25. "EVENT154DETEN,Event(154) Detection Enable" "0,1" bitfld.long 0x10 24. "EVENT153DETEN,Event(153) Detection Enable" "0,1" bitfld.long 0x10 23. "EVENT152DETEN,Event(152) Detection Enable" "0,1" newline bitfld.long 0x10 22. "EVENT151DETEN,Event(151) Detection Enable" "0,1" bitfld.long 0x10 21. "EVENT150DETEN,Event(150) Detection Enable" "0,1" bitfld.long 0x10 20. "EVENT149DETEN,Event(149) Detection Enable" "0,1" newline bitfld.long 0x10 19. "EVENT148DETEN,Event(148) Detection Enable" "0,1" bitfld.long 0x10 18. "EVENT147DETEN,Event(147) Detection Enable" "0,1" bitfld.long 0x10 17. "EVENT1468DETEN,Event(146) Detection Enable" "0,1" newline bitfld.long 0x10 16. "EVENT145DETEN,Event(145) Detection Enable" "0,1" bitfld.long 0x10 15. "EVENT144DETEN,Event(144) Detection Enable" "0,1" bitfld.long 0x10 14. "EVENT143DETEN,Event(143) Detection Enable" "0,1" newline bitfld.long 0x10 13. "EVENT142DETEN,Event(142) Detection Enable" "0,1" bitfld.long 0x10 12. "EVENT141DETEN,Event(141) Detection Enable" "0,1" bitfld.long 0x10 11. "EVENT140DETEN,Event(140) Detection Enable" "0,1" newline bitfld.long 0x10 10. "EVENT139DETEN,Event(139) Detection Enable" "0,1" bitfld.long 0x10 9. "EVENT138DETEN,Event(138) Detection Enable" "0,1" bitfld.long 0x10 8. "EVENT137DETEN,Event(137) Detection Enable" "0,1" newline bitfld.long 0x10 7. "EVENT136DETEN,Event(136) Detection Enable" "0,1" bitfld.long 0x10 6. "EVENT135DETEN,Event(135) Detection Enable" "0,1" bitfld.long 0x10 5. "EVENT134DETEN,Event(134) Detection Enable" "0,1" newline bitfld.long 0x10 4. "EVENT133DETEN,Event(133) Detection Enable" "0,1" bitfld.long 0x10 3. "EVENT132DETEN,Event(132) Detection Enable" "0,1" bitfld.long 0x10 2. "EVENT131DETEN,Event(131) Detection Enable" "0,1" newline bitfld.long 0x10 1. "EVENT130DETEN,Event(130) Detection Enable" "0,1" bitfld.long 0x10 0. "EVENT129DETEN,Event(129) Detection Enable" "0,1" line.long 0x14 "CTSET2_WRAP__CFG__CTSET2_CFG_SETEVTENBL6,System event detection enable register 6 (if number of events > 160)" bitfld.long 0x14 31. "EVENT192DETEN,Event(192) Detection Enable" "0,1" bitfld.long 0x14 30. "EVENT191DETEN,Event(191) Detection Enable" "0,1" bitfld.long 0x14 29. "EVENT190DETEN,Event(190) Detection Enable" "0,1" newline bitfld.long 0x14 28. "EVENT189DETEN,Event(189) Detection Enable" "0,1" bitfld.long 0x14 27. "EVENT188DETEN,Event(188) Detection Enable" "0,1" bitfld.long 0x14 26. "EVENT187DETEN,Event(187) Detection Enable" "0,1" newline bitfld.long 0x14 25. "EVENT186DETEN,Event(186) Detection Enable" "0,1" bitfld.long 0x14 24. "EVENT185DETEN,Event(185) Detection Enable" "0,1" bitfld.long 0x14 23. "EVENT184DETEN,Event(184) Detection Enable" "0,1" newline bitfld.long 0x14 22. "EVENT183DETEN,Event(183) Detection Enable" "0,1" bitfld.long 0x14 21. "EVENT182DETEN,Event(182) Detection Enable" "0,1" bitfld.long 0x14 20. "EVENT181DETEN,Event(181) Detection Enable" "0,1" newline bitfld.long 0x14 19. "EVENT180DETEN,Event(180) Detection Enable" "0,1" bitfld.long 0x14 18. "EVENT179DETEN,Event(179) Detection Enable" "0,1" bitfld.long 0x14 17. "EVENT178DETEN,Event(178) Detection Enable" "0,1" newline bitfld.long 0x14 16. "EVENT177DETEN,Event(177) Detection Enable" "0,1" bitfld.long 0x14 15. "EVENT176DETEN,Event(176) Detection Enable" "0,1" bitfld.long 0x14 14. "EVENT175DETEN,Event(175) Detection Enable" "0,1" newline bitfld.long 0x14 13. "EVENT174DETEN,Event(174) Detection Enable" "0,1" bitfld.long 0x14 12. "EVENT173DETEN,Event(173) Detection Enable" "0,1" bitfld.long 0x14 11. "EVENT172DETEN,Event(172) Detection Enable" "0,1" newline bitfld.long 0x14 10. "EVENT171DETEN,Event(171) Detection Enable" "0,1" bitfld.long 0x14 9. "EVENT170DETEN,Event(170) Detection Enable" "0,1" bitfld.long 0x14 8. "EVENT169DETEN,Event(169) Detection Enable" "0,1" newline bitfld.long 0x14 7. "EVENT168DETEN,Event(168) Detection Enable" "0,1" bitfld.long 0x14 6. "EVENT167DETEN,Event(167) Detection Enable" "0,1" bitfld.long 0x14 5. "EVENT166DETEN,Event(166) Detection Enable" "0,1" newline bitfld.long 0x14 4. "EVENT165DETEN,Event(165) Detection Enable" "0,1" bitfld.long 0x14 3. "EVENT164DETEN,Event(164) Detection Enable" "0,1" bitfld.long 0x14 2. "EVENT163DETEN,Event(163) Detection Enable" "0,1" newline bitfld.long 0x14 1. "EVENT162DETEN,Event(162) Detection Enable" "0,1" bitfld.long 0x14 0. "EVENT161DETEN,Event(161) Detection Enable" "0,1" line.long 0x18 "CTSET2_WRAP__CFG__CTSET2_CFG_SETEVTENBL7,System event detection enable register 7 (if number of events > 192)" bitfld.long 0x18 31. "EVENT224DETEN,Event(224) Detection Enable" "0,1" bitfld.long 0x18 30. "EVENT223DETEN,Event(223) Detection Enable" "0,1" bitfld.long 0x18 29. "EVENT222DETEN,Event(222) Detection Enable" "0,1" newline bitfld.long 0x18 28. "EVENT221DETEN,Event(221) Detection Enable" "0,1" bitfld.long 0x18 27. "EVENT220DETEN,Event(220) Detection Enable" "0,1" bitfld.long 0x18 26. "EVENT219DETEN,Event(219) Detection Enable" "0,1" newline bitfld.long 0x18 25. "EVENT218DETEN,Event(218) Detection Enable" "0,1" bitfld.long 0x18 24. "EVENT217DETEN,Event(217) Detection Enable" "0,1" bitfld.long 0x18 23. "EVENT216DETEN,Event(216) Detection Enable" "0,1" newline bitfld.long 0x18 22. "EVENT215DETEN,Event(215) Detection Enable" "0,1" bitfld.long 0x18 21. "EVENT214DETEN,Event(214) Detection Enable" "0,1" bitfld.long 0x18 20. "EVENT213DETEN,Event(213) Detection Enable" "0,1" newline bitfld.long 0x18 19. "EVENT212DETEN,Event(212) Detection Enable" "0,1" bitfld.long 0x18 18. "EVENT211DETEN,Event(211) Detection Enable" "0,1" bitfld.long 0x18 17. "EVENT210DETEN,Event(210) Detection Enable" "0,1" newline bitfld.long 0x18 16. "EVENT209DETEN,Event(209) Detection Enable" "0,1" bitfld.long 0x18 15. "EVENT208DETEN,Event(208) Detection Enable" "0,1" bitfld.long 0x18 14. "EVENT207DETEN,Event(207) Detection Enable" "0,1" newline bitfld.long 0x18 13. "EVENT206DETEN,Event(206) Detection Enable" "0,1" bitfld.long 0x18 12. "EVENT205DETEN,Event(205) Detection Enable" "0,1" bitfld.long 0x18 11. "EVENT204DETEN,Event(204) Detection Enable" "0,1" newline bitfld.long 0x18 10. "EVENT203DETEN,Event(203) Detection Enable" "0,1" bitfld.long 0x18 9. "EVENT202DETEN,Event(202) Detection Enable" "0,1" bitfld.long 0x18 8. "EVENT201DETEN,Event(201) Detection Enable" "0,1" newline bitfld.long 0x18 7. "EVENT200DETEN,Event(200) Detection Enable" "0,1" bitfld.long 0x18 6. "EVENT199DETEN,Event(199) Detection Enable" "0,1" bitfld.long 0x18 5. "EVENT198DETEN,Event(198) Detection Enable" "0,1" newline bitfld.long 0x18 4. "EVENT197DETEN,Event(197) Detection Enable" "0,1" bitfld.long 0x18 3. "EVENT196DETEN,Event(196) Detection Enable" "0,1" bitfld.long 0x18 2. "EVENT195DETEN,Event(195) Detection Enable" "0,1" newline bitfld.long 0x18 1. "EVENT194DETEN,Event(194) Detection Enable" "0,1" bitfld.long 0x18 0. "EVENT193DETEN,Event(193) Detection Enable" "0,1" line.long 0x1C "CTSET2_WRAP__CFG__CTSET2_CFG_SETEVTENBL8,System event detection enable register 8 (if number of events > 224)" bitfld.long 0x1C 31. "EVENT256DETEN,Event(256) Detection Enable" "0,1" bitfld.long 0x1C 30. "EVENT255DETEN,Event(255) Detection Enable" "0,1" bitfld.long 0x1C 29. "EVENT254DETEN,Event(254) Detection Enable" "0,1" newline bitfld.long 0x1C 28. "EVENT253DETEN,Event(253) Detection Enable" "0,1" bitfld.long 0x1C 27. "EVENT252DETEN,Event(252) Detection Enable" "0,1" bitfld.long 0x1C 26. "EVENT251DETEN,Event(251) Detection Enable" "0,1" newline bitfld.long 0x1C 25. "EVENT250DETEN,Event(250) Detection Enable" "0,1" bitfld.long 0x1C 24. "EVENT249DETEN,Event(249) Detection Enable" "0,1" bitfld.long 0x1C 23. "EVENT248DETEN,Event(248) Detection Enable" "0,1" newline bitfld.long 0x1C 22. "EVENT247DETEN,Event(247) Detection Enable" "0,1" bitfld.long 0x1C 21. "EVENT246DETEN,Event(246) Detection Enable" "0,1" bitfld.long 0x1C 20. "EVENT245DETEN,Event(245) Detection Enable" "0,1" newline bitfld.long 0x1C 19. "EVENT244DETEN,Event(244) Detection Enable" "0,1" bitfld.long 0x1C 18. "EVENT243DETEN,Event(243) Detection Enable" "0,1" bitfld.long 0x1C 17. "EVENT242DETEN,Event(242) Detection Enable" "0,1" newline bitfld.long 0x1C 16. "EVENT241DETEN,Event(241) Detection Enable" "0,1" bitfld.long 0x1C 15. "EVENT240DETEN,Event(240) Detection Enable" "0,1" bitfld.long 0x1C 14. "EVENT239DETEN,Event(239) Detection Enable" "0,1" newline bitfld.long 0x1C 13. "EVENT238DETEN,Event(238) Detection Enable" "0,1" bitfld.long 0x1C 12. "EVENT237DETEN,Event(237) Detection Enable" "0,1" bitfld.long 0x1C 11. "EVENT236DETEN,Event(236) Detection Enable" "0,1" newline bitfld.long 0x1C 10. "EVENT235DETEN,Event(235) Detection Enable" "0,1" bitfld.long 0x1C 9. "EVENT234DETEN,Event(234) Detection Enable" "0,1" bitfld.long 0x1C 8. "EVENT233DETEN,Event(233) Detection Enable" "0,1" newline bitfld.long 0x1C 7. "EVENT232DETEN,Event(232) Detection Enable" "0,1" bitfld.long 0x1C 6. "EVENT231DETEN,Event(231) Detection Enable" "0,1" bitfld.long 0x1C 5. "EVENT230DETEN,Event(230) Detection Enable" "0,1" newline bitfld.long 0x1C 4. "EVENT229DETEN,Event(229) Detection Enable" "0,1" bitfld.long 0x1C 3. "EVENT228DETEN,Event(228) Detection Enable" "0,1" bitfld.long 0x1C 2. "EVENT227DETEN,Event(227) Detection Enable" "0,1" newline bitfld.long 0x1C 1. "EVENT226DETEN,Event(226) Detection Enable" "0,1" bitfld.long 0x1C 0. "EVENT225DETEN,Event(225) Detection Enable" "0,1" line.long 0x20 "CTSET2_WRAP__CFG__CTSET2_CFG_SETMSTID,System Event Initiator ID" hexmask.long.tbyte 0x20 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x20 0.--7. 1. "MASTID,HW Initiator ID for System Event module. Software may overwrite the value at any time but this is only recommended for scenarios where top-level configuration errors result in a collision between HW initiator IDs" rgroup.long 0x800++0x7 line.long 0x0 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTL,Counter Timer Control" hexmask.long.byte 0x0 26.--31. 1. "NUMSTM,Number of counters that can export via STM" hexmask.long.byte 0x0 18.--25. 1. "NUMINPT,Number of event input signals" hexmask.long.byte 0x0 13.--17. 1. "NUMTIMR,Number of timers in the module" newline hexmask.long.byte 0x0 7.--12. 1. "NUMCNTR,Number of counters in the module" hexmask.long.byte 0x0 3.--6. 1. "REVID,Revision ID of CTSET" bitfld.long 0x0 1. "RESERVED,Reserved returns 0" "0,1" newline bitfld.long 0x0 0. "NUMCOREMD,Indicated the number of mode bus interfaces 0 is 2 CPU buses 1 is 4 buses" "0,1" line.long 0x4 "CTSET2_WRAP__CFG__CTSET2_CFG_CTNUMDBG,Counter Timer Number Debug Event Register" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x4 0.--2. "NUMEVT,Number of input selectors for debug events" "0,1,2,3,4,5,6,7" group.long 0x808++0x3 line.long 0x0 "CTSET2_WRAP__CFG__CTSET2_CFG_CTUSERACCCTL,Counter Timer User Access Control. can only be written in priviledged mode" hexmask.long 0x0 3.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 2. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" bitfld.long 0x0 1. "RUSER,Counter functions while system is in Root-User mode" "0,1" newline bitfld.long 0x0 0. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" group.long 0x820++0x13 line.long 0x0 "CTSET2_WRAP__CFG__CTSET2_CFG_CTSTMCNTL,Counter Timer STM Control register" hexmask.long.tbyte 0x0 12.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 6.--11. 1. "NUMXPORT,The total number of counters designated for export" rbitfld.long 0x0 5. "XPORTACT,Indicates if a frame is currently being written to the STM." "0,1" newline bitfld.long 0x0 4. "CCMPORT,SW control of CCM message export" "0,1" bitfld.long 0x0 3. "CCMAVAIL,CTSET supports CCM export" "0,1" bitfld.long 0x0 2. "CSMXPORT,SW control of CSM message export" "0,1" newline bitfld.long 0x0 1. "SENDOVR,Send overflow data in CSM frame" "0,1" bitfld.long 0x0 0. "ENBL,CTSET STM global enable for counter/timer messages" "0,1" line.long 0x4 "CTSET2_WRAP__CFG__CTSET2_CFG_CTSTMMSTID,Counter Timer STM Initiator ID register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--7. 1. "MASTID,HW Initiator ID for System Event module" line.long 0x8 "CTSET2_WRAP__CFG__CTSET2_CFG_CTSTMINTVL,Counter Timer STM Interval Register" hexmask.long.word 0x8 16.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.word 0x8 0.--14. 1. "INTERVAL,Counter Timer Periodic export interval" line.long 0xC "CTSET2_WRAP__CFG__CTSET2_CFG_CTSTMSEL0,Counter Timer STM Counter Select Register 0. This Selects Counter 0 to 31" hexmask.long 0xC 0.--31. 1. "COUNTSEL,The individual bit is this field indicate whether the corresponding counter value is included in the CSM message generated via the STM interface" line.long 0x10 "CTSET2_WRAP__CFG__CTSET2_CFG_CTSTMSEL1,Counter Timer STM Counter Select Register 1. This Selects Counter 32 to 63" hexmask.long 0x10 0.--31. 1. "COUNTSEL,The individual bit is this field indicate whether the corresponding counter value is included in the CSM message generated via the STM interface" group.long 0x840++0x3F line.long 0x0 "CTSET2_WRAP__CFG__CTSET2_CFG_CTINTVLR0,These registers contain the interval match value for the corresponding timers in the CTSET. TINTVLRn are available based on number of timers instantiated." hexmask.long 0x0 0.--31. 1. "INTERVAL,Interval match value for the timers in the CTSET" line.long 0x4 "CTSET2_WRAP__CFG__CTSET2_CFG_CTINTVLR1,These registers contain the interval match value for the corresponding timers in the CTSET. TINTVLRn are available based on number of timers instantiated." hexmask.long 0x4 0.--31. 1. "INTERVAL,Interval match value for the timers in the CTSET" line.long 0x8 "CTSET2_WRAP__CFG__CTSET2_CFG_CTINTVLR2,These registers contain the interval match value for the corresponding timers in the CTSET. TINTVLRn are available based on number of timers instantiated." hexmask.long 0x8 0.--31. 1. "INTERVAL,Interval match value for the timers in the CTSET" line.long 0xC "CTSET2_WRAP__CFG__CTSET2_CFG_CTINTVLR3,These registers contain the interval match value for the corresponding timers in the CTSET. TINTVLRn are available based on number of timers instantiated." hexmask.long 0xC 0.--31. 1. "INTERVAL,Interval match value for the timers in the CTSET" line.long 0x10 "CTSET2_WRAP__CFG__CTSET2_CFG_CTINTVLR4,These registers contain the interval match value for the corresponding timers in the CTSET. TINTVLRn are available based on number of timers instantiated." hexmask.long 0x10 0.--31. 1. "INTERVAL,Interval match value for the timers in the CTSET" line.long 0x14 "CTSET2_WRAP__CFG__CTSET2_CFG_CTINTVLR5,These registers contain the interval match value for the corresponding timers in the CTSET. TINTVLRn are available based on number of timers instantiated." hexmask.long 0x14 0.--31. 1. "INTERVAL,Interval match value for the timers in the CTSET" line.long 0x18 "CTSET2_WRAP__CFG__CTSET2_CFG_CTINTVLR6,These registers contain the interval match value for the corresponding timers in the CTSET. TINTVLRn are available based on number of timers instantiated." hexmask.long 0x18 0.--31. 1. "INTERVAL,Interval match value for the timers in the CTSET" line.long 0x1C "CTSET2_WRAP__CFG__CTSET2_CFG_CTINTVLR7,These registers contain the interval match value for the corresponding timers in the CTSET. TINTVLRn are available based on number of timers instantiated." hexmask.long 0x1C 0.--31. 1. "INTERVAL,Interval match value for the timers in the CTSET" line.long 0x20 "CTSET2_WRAP__CFG__CTSET2_CFG_CTINTVLR8,These registers contain the interval match value for the corresponding timers in the CTSET. TINTVLRn are available based on number of timers instantiated." hexmask.long 0x20 0.--31. 1. "INTERVAL,Interval match value for the timers in the CTSET" line.long 0x24 "CTSET2_WRAP__CFG__CTSET2_CFG_CTINTVLR9,These registers contain the interval match value for the corresponding timers in the CTSET. TINTVLRn are available based on number of timers instantiated." hexmask.long 0x24 0.--31. 1. "INTERVAL,Interval match value for the timers in the CTSET" line.long 0x28 "CTSET2_WRAP__CFG__CTSET2_CFG_CTINTVLR10,These registers contain the interval match value for the corresponding timers in the CTSET. TINTVLRn are available based on number of timers instantiated." hexmask.long 0x28 0.--31. 1. "INTERVAL,Interval match value for the timers in the CTSET" line.long 0x2C "CTSET2_WRAP__CFG__CTSET2_CFG_CTINTVLR11,These registers contain the interval match value for the corresponding timers in the CTSET. TINTVLRn are available based on number of timers instantiated." hexmask.long 0x2C 0.--31. 1. "INTERVAL,Interval match value for the timers in the CTSET" line.long 0x30 "CTSET2_WRAP__CFG__CTSET2_CFG_CTINTVLR12,These registers contain the interval match value for the corresponding timers in the CTSET. TINTVLRn are available based on number of timers instantiated." hexmask.long 0x30 0.--31. 1. "INTERVAL,Interval match value for the timers in the CTSET" line.long 0x34 "CTSET2_WRAP__CFG__CTSET2_CFG_CTINTVLR13,These registers contain the interval match value for the corresponding timers in the CTSET. TINTVLRn are available based on number of timers instantiated." hexmask.long 0x34 0.--31. 1. "INTERVAL,Interval match value for the timers in the CTSET" line.long 0x38 "CTSET2_WRAP__CFG__CTSET2_CFG_CTINTVLR14,These registers contain the interval match value for the corresponding timers in the CTSET. TINTVLRn are available based on number of timers instantiated." hexmask.long 0x38 0.--31. 1. "INTERVAL,Interval match value for the timers in the CTSET" line.long 0x3C "CTSET2_WRAP__CFG__CTSET2_CFG_CTINTVLR15,These registers contain the interval match value for the corresponding timers in the CTSET. TINTVLRn are available based on number of timers instantiated." hexmask.long 0x3C 0.--31. 1. "INTERVAL,Interval match value for the timers in the CTSET" group.long 0x8A0++0x1F line.long 0x0 "CTSET2_WRAP__CFG__CTSET2_CFG_CTDBGSGL0,Timer Interval Register 0. Interval match value for timer 0 in CTSET Timer Interval Register 1. Interval match value for timer 1 in CTSET Timer Interval Register 2. Interval match value for timer 2 in CTSET Timer.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--7. 1. "INPSEL,Counter Timer input selection" line.long 0x4 "CTSET2_WRAP__CFG__CTSET2_CFG_CTDBGSGL1,Counter Timer Debug Event Register 1" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--7. 1. "INPSEL,Counter Timer input selection" line.long 0x8 "CTSET2_WRAP__CFG__CTSET2_CFG_CTDBGSGL2,Counter Timer Debug Event Register 2" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--7. 1. "INPSEL,Counter Timer input selection" line.long 0xC "CTSET2_WRAP__CFG__CTSET2_CFG_CTDBGSGL3,Counter Timer Debug Event Register 3" hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0xC 0.--7. 1. "INPSEL,Counter Timer input selection" line.long 0x10 "CTSET2_WRAP__CFG__CTSET2_CFG_CTDBGSGL4,Counter Timer Debug Event Register 4" hexmask.long.tbyte 0x10 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x10 0.--7. 1. "INPSEL,Counter Timer input selection" line.long 0x14 "CTSET2_WRAP__CFG__CTSET2_CFG_CTDBGSGL5,Counter Timer Debug Event Register5" hexmask.long.tbyte 0x14 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x14 0.--7. 1. "INPSEL,Counter Timer input selection" line.long 0x18 "CTSET2_WRAP__CFG__CTSET2_CFG_CTDBGSGL6,Counter Timer Debug Event Register 6" hexmask.long.tbyte 0x18 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x18 0.--7. 1. "INPSEL,Counter Timer input selection" line.long 0x1C "CTSET2_WRAP__CFG__CTSET2_CFG_CTDBGSGL7,Counter Timer Debug Event Register 7" hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x1C 0.--7. 1. "INPSEL,Counter Timer input selection" group.long 0x9F0++0x18F line.long 0x0 "CTSET2_WRAP__CFG__CTSET2_CFG_CTGNBL0,Counter Timer Global Enable Register 0. This enables Counter 0 to 31" hexmask.long.byte 0x0 0.--7. 1. "ENABLE,The individual bit is this field enables the corresponding counter. Bits 30 and 31 will be high if global time stamp output interface is enabled" line.long 0x4 "CTSET2_WRAP__CFG__CTSET2_CFG_CTGNBL1,Counter Timer Global Enable Register 1. This enables Counter 32 to 63" hexmask.long.byte 0x4 0.--7. 1. "ENABLE,The individual bit is this field enables the corresponding counter" line.long 0x8 "CTSET2_WRAP__CFG__CTSET2_CFG_CTGRST0,Counter Timer Global Reset Register 0. This resets Counter 0 to 31" hexmask.long.byte 0x8 0.--7. 1. "RESET,The individual bit is this field resets the corresponding counter. These bits are self-clearing once a '1' is written after the counters are reset these bits are cleared. When Global Time Stamp output interface is enabled counter 31 and counter.." line.long 0xC "CTSET2_WRAP__CFG__CTSET2_CFG_CTGRST1,Counter Timer Global Reset Register 0. This resets Counter 32 to 63" hexmask.long.byte 0xC 0.--7. 1. "RESET,The individual bit is this field resets the corresponding counter. These bits are self-clearing once a '1' is written after the counters are reset these bits are cleared." line.long 0x10 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR0,Counter Timer Control Register 0" hexmask.long.byte 0x10 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x10 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x10 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x10 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x10 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x10 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x10 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x10 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x10 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x10 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x10 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x10 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x10 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x10 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x10 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x10 0. "ENBL,Counter enable control" "0,1" line.long 0x14 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR1,Counter Timer Control Register 1" hexmask.long.byte 0x14 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x14 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x14 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x14 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x14 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x14 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x14 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x14 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x14 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x14 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x14 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x14 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x14 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x14 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x14 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x14 0. "ENBL,Counter enable control" "0,1" line.long 0x18 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR2,Counter Timer Control Register 2" hexmask.long.byte 0x18 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x18 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x18 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x18 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x18 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x18 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x18 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x18 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x18 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x18 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x18 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x18 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x18 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x18 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x18 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x18 0. "ENBL,Counter enable control" "0,1" line.long 0x1C "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR3,Counter Timer Control Register 3" hexmask.long.byte 0x1C 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x1C 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x1C 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x1C 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x1C 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x1C 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x1C 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x1C 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x1C 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x1C 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x1C 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x1C 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x1C 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x1C 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x1C 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x1C 0. "ENBL,Counter enable control" "0,1" line.long 0x20 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR4,Counter Timer Control Register 4" hexmask.long.byte 0x20 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x20 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x20 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x20 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x20 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x20 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x20 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x20 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x20 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x20 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x20 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x20 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x20 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x20 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x20 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x20 0. "ENBL,Counter enable control" "0,1" line.long 0x24 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR5,Counter Timer Control Register 5" hexmask.long.byte 0x24 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x24 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x24 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x24 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x24 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x24 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x24 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x24 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x24 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x24 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x24 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x24 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x24 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x24 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x24 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x24 0. "ENBL,Counter enable control" "0,1" line.long 0x28 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR6,Counter Timer Control Register 6" hexmask.long.byte 0x28 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x28 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x28 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x28 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x28 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x28 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x28 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x28 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x28 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x28 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x28 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x28 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x28 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x28 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x28 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x28 0. "ENBL,Counter enable control" "0,1" line.long 0x2C "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR7,Counter Timer Control Register 7" hexmask.long.byte 0x2C 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x2C 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x2C 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x2C 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x2C 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x2C 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x2C 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x2C 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x2C 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x2C 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x2C 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x2C 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x2C 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x2C 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x2C 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x2C 0. "ENBL,Counter enable control" "0,1" line.long 0x30 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR8,Counter Timer Control Register 8" hexmask.long.byte 0x30 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x30 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x30 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x30 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x30 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x30 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x30 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x30 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x30 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x30 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x30 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x30 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x30 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x30 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x30 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x30 0. "ENBL,Counter enable control" "0,1" line.long 0x34 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR9,Counter Timer Control Register 9" hexmask.long.byte 0x34 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x34 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x34 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x34 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x34 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x34 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x34 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x34 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x34 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x34 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x34 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x34 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x34 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x34 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x34 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x34 0. "ENBL,Counter enable control" "0,1" line.long 0x38 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR10,Counter Timer Control Register 10" hexmask.long.byte 0x38 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x38 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x38 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x38 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x38 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x38 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x38 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x38 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x38 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x38 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x38 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x38 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x38 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x38 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x38 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x38 0. "ENBL,Counter enable control" "0,1" line.long 0x3C "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR11,Counter Timer Control Register 11" hexmask.long.byte 0x3C 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x3C 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x3C 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x3C 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x3C 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x3C 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x3C 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x3C 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x3C 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x3C 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x3C 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x3C 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x3C 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x3C 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x3C 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x3C 0. "ENBL,Counter enable control" "0,1" line.long 0x40 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR12,Counter Timer Control Register 12" hexmask.long.byte 0x40 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x40 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x40 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x40 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x40 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x40 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x40 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x40 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x40 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x40 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x40 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x40 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x40 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x40 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x40 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x40 0. "ENBL,Counter enable control" "0,1" line.long 0x44 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR13,Counter Timer Control Register 13" hexmask.long.byte 0x44 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x44 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x44 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x44 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x44 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x44 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x44 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x44 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x44 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x44 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x44 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x44 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x44 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x44 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x44 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x44 0. "ENBL,Counter enable control" "0,1" line.long 0x48 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR14,Counter Timer Control Register 14" hexmask.long.byte 0x48 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x48 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x48 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x48 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x48 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x48 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x48 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x48 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x48 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x48 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x48 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x48 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x48 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x48 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x48 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x48 0. "ENBL,Counter enable control" "0,1" line.long 0x4C "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR15,Counter Timer Control Register 15" hexmask.long.byte 0x4C 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x4C 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x4C 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x4C 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x4C 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x4C 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x4C 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x4C 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x4C 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x4C 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x4C 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x4C 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x4C 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x4C 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x4C 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x4C 0. "ENBL,Counter enable control" "0,1" line.long 0x50 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR16,Counter Timer Control Register 16" hexmask.long.byte 0x50 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x50 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x50 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x50 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x50 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x50 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x50 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x50 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x50 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x50 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x50 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x50 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x50 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x50 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x50 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x50 0. "ENBL,Counter enable control" "0,1" line.long 0x54 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR17,Counter Timer Control Register 17" hexmask.long.byte 0x54 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x54 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x54 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x54 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x54 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x54 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x54 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x54 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x54 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x54 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x54 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x54 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x54 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x54 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x54 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x54 0. "ENBL,Counter enable control" "0,1" line.long 0x58 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR18,Counter Timer Control Register 18" hexmask.long.byte 0x58 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x58 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x58 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x58 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x58 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x58 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x58 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x58 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x58 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x58 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x58 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x58 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x58 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x58 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x58 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x58 0. "ENBL,Counter enable control" "0,1" line.long 0x5C "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR19,Counter Timer Control Register 19" hexmask.long.byte 0x5C 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x5C 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x5C 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x5C 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x5C 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x5C 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x5C 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x5C 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x5C 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x5C 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x5C 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x5C 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x5C 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x5C 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x5C 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x5C 0. "ENBL,Counter enable control" "0,1" line.long 0x60 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR20,Counter Timer Control Register 20" hexmask.long.byte 0x60 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x60 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x60 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x60 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x60 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x60 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x60 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x60 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x60 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x60 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x60 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x60 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x60 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x60 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x60 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x60 0. "ENBL,Counter enable control" "0,1" line.long 0x64 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR21,Counter Timer Control Register 21" hexmask.long.byte 0x64 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x64 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x64 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x64 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x64 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x64 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x64 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x64 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x64 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x64 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x64 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x64 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x64 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x64 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x64 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x64 0. "ENBL,Counter enable control" "0,1" line.long 0x68 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR22,Counter Timer Control Register 22" hexmask.long.byte 0x68 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x68 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x68 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x68 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x68 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x68 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x68 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x68 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x68 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x68 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x68 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x68 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x68 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x68 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x68 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x68 0. "ENBL,Counter enable control" "0,1" line.long 0x6C "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR23,Counter Timer Control Register 23" hexmask.long.byte 0x6C 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x6C 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x6C 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x6C 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x6C 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x6C 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x6C 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x6C 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x6C 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x6C 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x6C 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x6C 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x6C 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x6C 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x6C 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x6C 0. "ENBL,Counter enable control" "0,1" line.long 0x70 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR24,Counter Timer Control Register 24" hexmask.long.byte 0x70 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x70 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x70 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x70 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x70 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x70 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x70 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x70 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x70 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x70 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x70 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x70 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x70 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x70 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x70 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x70 0. "ENBL,Counter enable control" "0,1" line.long 0x74 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR25,Counter Timer Control Register 25" hexmask.long.byte 0x74 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x74 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x74 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x74 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x74 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x74 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x74 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x74 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x74 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x74 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x74 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x74 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x74 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x74 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x74 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x74 0. "ENBL,Counter enable control" "0,1" line.long 0x78 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR26,Counter Timer Control Register 26" hexmask.long.byte 0x78 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x78 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x78 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x78 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x78 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x78 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x78 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x78 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x78 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x78 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x78 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x78 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x78 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x78 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x78 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x78 0. "ENBL,Counter enable control" "0,1" line.long 0x7C "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR27,Counter Timer Control Register 27" hexmask.long.byte 0x7C 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x7C 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x7C 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x7C 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x7C 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x7C 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x7C 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x7C 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x7C 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x7C 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x7C 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x7C 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x7C 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x7C 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x7C 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x7C 0. "ENBL,Counter enable control" "0,1" line.long 0x80 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR28,Counter Timer Control Register 28" hexmask.long.byte 0x80 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x80 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x80 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x80 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x80 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x80 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x80 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x80 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x80 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x80 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x80 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x80 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x80 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x80 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x80 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x80 0. "ENBL,Counter enable control" "0,1" line.long 0x84 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR29,Counter Timer Control Register 29" hexmask.long.byte 0x84 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x84 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x84 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x84 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x84 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x84 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x84 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x84 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x84 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x84 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x84 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x84 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x84 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x84 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x84 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x84 0. "ENBL,Counter enable control" "0,1" line.long 0x88 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR30,Counter Timer Control Register 30" hexmask.long.byte 0x88 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x88 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x88 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x88 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x88 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x88 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x88 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x88 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x88 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x88 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x88 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x88 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x88 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x88 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x88 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x88 0. "ENBL,Counter enable control" "0,1" line.long 0x8C "CTSET2_WRAP__CFG__CTSET2_CFG_CTCR31,Counter Timer Control Register 31" hexmask.long.byte 0x8C 24.--31. 1. "WDRESET,WD reset event input selector. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" hexmask.long.byte 0x8C 16.--23. 1. "INPSEL,Counter Timer input selection. For WD mode it is the start event selector" bitfld.long 0x8C 14.--15. "MODESEL,Counter is in duration or occurrence mode. Only writable by debug accesses" "0,1,2,3" newline bitfld.long 0x8C 13. "FILTER,Use associated operating mode filter in CTMODEFILTERn" "0,1" bitfld.long 0x8C 12. "DBG_TRIG_STAT,Debug event triggered. Write 1 will clear this bit. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x8C 11. "WDMODE,WD Timer mode selection. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x8C 10. "RESTART,Restart the timer after an interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x8C 9. "DBG,Signal debug logic on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" bitfld.long 0x8C 8. "INT,Generate interrupt on interval match. Only available for modules capable of timer and counter functions. This bit is reserved (read only) for counter registers which are only counter function" "0,1" newline bitfld.long 0x8C 7. "CHNSDW,Counter has a shadow register for chain reads. Only valid on counters with an even number index" "0,1" bitfld.long 0x8C 6. "OVRFLW,Counter is in duration or occurrence mode" "0,1" rbitfld.long 0x8C 4.--5. "RESERVED,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x8C 3. "DURMODE,Counter is in duration or occurrence mode" "0,1" bitfld.long 0x8C 2. "CHAIN,Counter is chained to an adjacent counter" "0,1" bitfld.long 0x8C 1. "RESET,Counter reset control" "0,1" newline bitfld.long 0x8C 0. "ENBL,Counter enable control" "0,1" line.long 0x90 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN0,Counter/Timer Ownership register 0" bitfld.long 0x90 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0x90 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0x90 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0x90 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0x94 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN1,Counter/Timer Ownership register 1" bitfld.long 0x94 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0x94 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0x94 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0x94 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0x98 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN2,Counter/Timer Ownership register 2" bitfld.long 0x98 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0x98 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0x98 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0x98 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0x9C "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN3,Counter/Timer Ownership register 3" bitfld.long 0x9C 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0x9C 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0x9C 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0x9C 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xA0 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN4,Counter/Timer Ownership register 4" bitfld.long 0xA0 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xA0 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xA0 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xA0 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xA4 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN5,Counter/Timer Ownership register 5" bitfld.long 0xA4 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xA4 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xA4 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xA4 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xA8 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN6,Counter/Timer Ownership register 6" bitfld.long 0xA8 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xA8 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xA8 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xA8 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xAC "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN7,Counter/Timer Ownership register 7" bitfld.long 0xAC 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xAC 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xAC 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xAC 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xB0 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN8,Counter/Timer Ownership register 8" bitfld.long 0xB0 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xB0 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xB0 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xB0 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xB4 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN9,Counter/Timer Ownership register 9" bitfld.long 0xB4 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xB4 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xB4 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xB4 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xB8 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN10,Counter/Timer Ownership register 10" bitfld.long 0xB8 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xB8 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xB8 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xB8 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xBC "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN11,Counter/Timer Ownership register 11" bitfld.long 0xBC 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xBC 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xBC 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xBC 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xC0 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN12,Counter/Timer Ownership register 12" bitfld.long 0xC0 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xC0 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xC0 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xC0 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xC4 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN13,Counter/Timer Ownership register 13" bitfld.long 0xC4 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xC4 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xC4 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xC4 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xC8 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN14,Counter/Timer Ownership register 14" bitfld.long 0xC8 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xC8 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xC8 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xC8 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xCC "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN15,Counter/Timer Ownership register 15" bitfld.long 0xCC 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xCC 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xCC 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xCC 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xD0 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN16,Counter/Timer Ownership register 16" bitfld.long 0xD0 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xD0 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xD0 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xD0 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xD4 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN17,Counter/Timer Ownership register 17" bitfld.long 0xD4 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xD4 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xD4 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xD4 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xD8 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN18,Counter/Timer Ownership register 18" bitfld.long 0xD8 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xD8 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xD8 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xD8 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xDC "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN19,Counter/Timer Ownership register 19" bitfld.long 0xDC 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xDC 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xDC 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xDC 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xE0 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN20,Counter/Timer Ownership register 20" bitfld.long 0xE0 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xE0 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xE0 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xE0 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xE4 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN21,Counter/Timer Ownership register 21" bitfld.long 0xE4 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xE4 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xE4 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xE4 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xE8 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN22,Counter/Timer Ownership register 22" bitfld.long 0xE8 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xE8 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xE8 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xE8 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xEC "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN23,Counter/Timer Ownership register2 3" bitfld.long 0xEC 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xEC 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xEC 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xEC 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xF0 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN24,Counter/Timer Ownership register 24" bitfld.long 0xF0 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xF0 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xF0 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xF0 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xF4 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN25,Counter/Timer Ownership register 25" bitfld.long 0xF4 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xF4 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xF4 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xF4 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xF8 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN26,Counter/Timer Ownership register 26" bitfld.long 0xF8 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xF8 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xF8 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xF8 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0xFC "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN27,Counter/Timer Ownership register 27" bitfld.long 0xFC 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0xFC 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0xFC 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0xFC 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0x100 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN28,Counter/Timer Ownership register 28" bitfld.long 0x100 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0x100 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0x100 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0x100 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0x104 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN29,Counter/Timer Ownership register 29" bitfld.long 0x104 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0x104 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0x104 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0x104 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0x108 "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN30,Counter/Timer Ownership register 30" bitfld.long 0x108 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0x108 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0x108 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0x108 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0x10C "CTSET2_WRAP__CFG__CTSET2_CFG_CTOWN31,Counter/Timer Ownership register 31" bitfld.long 0x10C 30.--31. "OWNERSHIP,Counter/Timer Ownership Status. The Read encoding is (0=Available 1=Claimed 2=Enabled 3=Reserved). The write commands are (0=release 1=claim 2=enable 3=nop)" "0: release,1: claim,2: enable,3: nop" bitfld.long 0x10C 29. "DBG_OVERIDE,This bit indicates the debugger is Claiming the resource always reads back as 1" "0,1" rbitfld.long 0x10C 28. "CURRENT_OWNER,This value reflects the Counter/Timer ownership when the register is in a non-Available state 1=Ap owned 0=Dbg owned" "0: Dbg owned,1: Ap owned" newline hexmask.long 0x10C 0.--27. 1. "RESERVED,Reserved returns 0" line.long 0x110 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT0,Counter Timer 0 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x110 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x110 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x110 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x110 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x110 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x110 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x110 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x110 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x110 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x114 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT1,Counter Timer 1 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x114 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x114 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x114 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x114 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x114 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x114 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x114 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x114 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x114 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x118 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT2,Counter Timer 2 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x118 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x118 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x118 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x118 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x118 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x118 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x118 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x118 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x118 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x11C "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT3,Counter Timer 3 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x11C 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x11C 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x11C 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x11C 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x11C 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x11C 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x11C 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x11C 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x11C 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x120 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT4,Counter Timer 4 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x120 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x120 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x120 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x120 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x120 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x120 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x120 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x120 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x120 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x124 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT5,Counter Timer 5 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x124 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x124 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x124 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x124 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x124 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x124 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x124 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x124 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x124 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x128 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT6,Counter Timer 6 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x128 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x128 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x128 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x128 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x128 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x128 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x128 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x128 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x128 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x12C "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT7,Counter Timer 7 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x12C 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x12C 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x12C 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x12C 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x12C 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x12C 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x12C 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x12C 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x12C 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x130 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT8,Counter Timer 8 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x130 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x130 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x130 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x130 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x130 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x130 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x130 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x130 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x130 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x134 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT9,Counter Timer 9 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x134 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x134 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x134 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x134 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x134 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x134 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x134 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x134 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x134 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x138 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT10,Counter Timer 10 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x138 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x138 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x138 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x138 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x138 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x138 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x138 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x138 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x138 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x13C "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT11,Counter Timer 11 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x13C 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x13C 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x13C 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x13C 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x13C 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x13C 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x13C 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x13C 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x13C 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x140 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT12,Counter Timer 12 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x140 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x140 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x140 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x140 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x140 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x140 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x140 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x140 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x140 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x144 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT13,Counter Timer 13 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x144 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x144 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x144 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x144 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x144 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x144 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x144 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x144 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x144 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x148 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT14,Counter Timer 14 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x148 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x148 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x148 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x148 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x148 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x148 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x148 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x148 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x148 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x14C "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT15,Counter Timer 15 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x14C 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x14C 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x14C 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x14C 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x14C 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x14C 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x14C 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x14C 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x14C 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x150 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT16,Counter Timer 16 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x150 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x150 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x150 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x150 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x150 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x150 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x150 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x150 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x150 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x154 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT17,Counter Timer 17 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x154 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x154 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x154 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x154 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x154 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x154 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x154 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x154 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x154 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x158 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT18,Counter Timer 18 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x158 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x158 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x158 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x158 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x158 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x158 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x158 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x158 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x158 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x15C "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT19,Counter Timer 19 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x15C 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x15C 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x15C 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x15C 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x15C 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x15C 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x15C 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x15C 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x15C 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x160 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT20,Counter Timer 20 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x160 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x160 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x160 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x160 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x160 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x160 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x160 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x160 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x160 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x164 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT21,Counter Timer 21 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x164 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x164 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x164 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x164 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x164 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x164 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x164 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x164 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x164 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x168 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT22,Counter Timer 22 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x168 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x168 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x168 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x168 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x168 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x168 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x168 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x168 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x168 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x16C "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT23,Counter Timer 23 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x16C 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x16C 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x16C 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x16C 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x16C 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x16C 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x16C 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x16C 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x16C 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x170 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT24,Counter Timer 24 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x170 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x170 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x170 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x170 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x170 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x170 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x170 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x170 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x170 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x174 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT25,Counter Timer 25 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x174 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x174 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x174 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x174 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x174 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x174 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x174 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x174 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x174 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x178 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT26,Counter Timer 26 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x178 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x178 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x178 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x178 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x178 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x178 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x178 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x178 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x178 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x17C "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT27,Counter Timer 27 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x17C 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x17C 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x17C 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x17C 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x17C 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x17C 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x17C 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x17C 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x17C 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x180 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT28,Counter Timer 28 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x180 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x180 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x180 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x180 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x180 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x180 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x180 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x180 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x180 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x184 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT29,Counter Timer 29 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x184 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x184 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x184 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x184 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x184 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x184 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x184 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x184 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x184 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x188 "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT30,Counter Timer 30 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x188 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x188 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x188 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x188 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x188 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x188 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x188 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x188 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x188 0. "FREE,Counter functions while system/core is halted" "0,1" line.long 0x18C "CTSET2_WRAP__CFG__CTSET2_CFG_CTFILT31,Counter Timer 31 Filter Register. These filters are only activated if the CTCRn : FILTER is set" hexmask.long.tbyte 0x18C 8.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x18C 7. "SECSUPER,Counter functions while system is in Secure-Supervisor mode" "0,1" bitfld.long 0x18C 6. "SECUSER,Counter functions while system is in Secure-User mode" "0,1" newline bitfld.long 0x18C 5. "RSUPER,Counter functions while system is in Root-Supervisor node" "0,1" bitfld.long 0x18C 4. "RUSER,Counter functions while system is in Root-User mode" "0,1" bitfld.long 0x18C 3. "NRSUPER,Counter functions while system is in Non-Root-Supervisor mode" "0,1" newline bitfld.long 0x18C 2. "NRUSER,Counter functions while system is in in Non-Root-User mode" "0,1" bitfld.long 0x18C 1. "IDLE,Counter functions while system/core is in idle" "0,1" bitfld.long 0x18C 0. "FREE,Counter functions while system/core is halted" "0,1" rgroup.long 0xB80++0x7F line.long 0x0 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR0,Counter Timer Counter Register 0" hexmask.long 0x0 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x4 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR1,Counter Timer Counter Register 1" hexmask.long 0x4 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x8 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR2,Counter Timer Counter Register 2" hexmask.long 0x8 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0xC "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR3,Counter Timer Counter Register 3" hexmask.long 0xC 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x10 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR4,Counter Timer Counter Register 4" hexmask.long 0x10 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x14 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR5,Counter Timer Counter Register 5" hexmask.long 0x14 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x18 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR6,Counter Timer Counter Register 6" hexmask.long 0x18 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x1C "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR7,Counter Timer Counter Register 7" hexmask.long 0x1C 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x20 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR8,Counter Timer Counter Register 8" hexmask.long 0x20 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x24 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR9,Counter Timer Counter Register 9" hexmask.long 0x24 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x28 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR10,Counter Timer Counter Register 10" hexmask.long 0x28 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x2C "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR11,Counter Timer Counter Register 11" hexmask.long 0x2C 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x30 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR12,Counter Timer Counter Register 12" hexmask.long 0x30 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x34 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR13,Counter Timer Counter Register 13" hexmask.long 0x34 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x38 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR14,Counter Timer Counter Register 14" hexmask.long 0x38 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x3C "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR15,Counter Timer Counter Register 15" hexmask.long 0x3C 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x40 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR16,Counter Timer Counter Register 16" hexmask.long 0x40 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x44 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR17,Counter Timer Counter Register 17" hexmask.long 0x44 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x48 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR18,Counter Timer Counter Register 18" hexmask.long 0x48 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x4C "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR19,Counter Timer Counter Register 19" hexmask.long 0x4C 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x50 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR20,Counter Timer Counter Register 20" hexmask.long 0x50 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x54 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR21,Counter Timer Counter Register 21" hexmask.long 0x54 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x58 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR22,Counter Timer Counter Register 22" hexmask.long 0x58 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x5C "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR23,Counter Timer Counter Register 23" hexmask.long 0x5C 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x60 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR24,Counter Timer Counter Register 24" hexmask.long 0x60 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x64 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR25,Counter Timer Counter Register 25" hexmask.long 0x64 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x68 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR26,Counter Timer Counter Register 26" hexmask.long 0x68 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x6C "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR27,Counter Timer Counter Register 27" hexmask.long 0x6C 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x70 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR28,Counter Timer Counter Register 28" hexmask.long 0x70 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x74 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR29,Counter Timer Counter Register 29" hexmask.long 0x74 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x78 "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR30,Counter Timer Counter Register 30" hexmask.long 0x78 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." line.long 0x7C "CTSET2_WRAP__CFG__CTSET2_CFG_CTCNTR31,Counter Timer Counter Register 31" hexmask.long 0x7C 0.--31. 1. "COUNT,This field reflects the current value of the counter. It is incremented when the system events configured in the corresponding Counter Control Register is asserted. If CTCRn.CHNSHD is set the Counter will increment when the low order counter rolls.." group.long 0xC00++0x13 line.long 0x0 "CTSET2_WRAP__CFG__CTSET2_CFG_CT_EOI,Counter Timer EOI Register. This register is the End of Interrupt used by SW to signal HW that an interrupt event service is complete and an interrupt can be rearmed. This register exists only if NUMTIMR > 0" hexmask.long 0x0 1.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 0. "EOI,EOI value" "0,1" line.long 0x4 "CTSET2_WRAP__CFG__CTSET2_CFG_CTIRQSTAT_RAW,Counter Timer IRQSTATUS RAW Register. This register indicates the raw status of the interrupt. It can be written by SW for testing. This register exists only if NUMTIMR > 0" hexmask.long 0x4 0.--31. 1. "TIM_INTN_IRQ,IRQSTATUS_RAW value. The individual bits is this field correspond to individual interrupts generated for each timer associated with Counter Timer Control Register (CTCRn : INT)." line.long 0x8 "CTSET2_WRAP__CFG__CTSET2_CFG_CTIRQSTAT,Counter Timer IRQSTATUS Register. This bit clears the interrupt event. SW can also read this bit to indicate that the interrupt is active and enabled. This register exists only if NUMTIMR > 0" hexmask.long 0x8 0.--31. 1. "TIM_INTN_IE,IRQSTATUS value. The individual bits is this field correspond to individual interrupts generated for each timer associated with Counter Timer Control Register (CTCRn : INT)." line.long 0xC "CTSET2_WRAP__CFG__CTSET2_CFG_CTIRQENABLE_SET,Counter Timer IRQENABLE_SET Register. This register is to enable generation of Interrupt Event used by SW. This register exists only if NUMTIMR > 0" hexmask.long 0xC 0.--31. 1. "TIM_INTN_IES,IRQSET value. This bit sets the enable of the interrupt event. SW can also read this bit to determine if the interrupt is enabled. The individual bits is this field correspond to individual interrupts generated for each timer associated with.." line.long 0x10 "CTSET2_WRAP__CFG__CTSET2_CFG_CTIRQENABLE_CLR,Counter Timer IRQENABLE_CLR Register. This register is to disable generation of Interrupt Event used by SW. This register exists only if NUMTIMR > 0" hexmask.long 0x10 0.--31. 1. "TIM_INTN_IEC,IRQCLR value. This bit clears the enable of the interrupt event. SW can also read this bit to determine if the interrupt is enabled. The individual bits is this field correspond to individual interrupts generated for each timer associated.." group.long 0x1800++0x7 line.long 0x0 "CTSET2_WRAP__CFG__CTSET2_CFG_STPTCR,STP Trace Control Register" hexmask.long.byte 0x0 25.--31. 1. "RESERVED3,Reserved returns 0" rbitfld.long 0x0 24. "MOD_FIFOFULL,STPMI2ATB internal MID packet fifo is full" "0,1" rbitfld.long 0x0 23. "DATA_FIFOFULL,STPMI2ATB internal Data packet fifo is full" "0,1" newline hexmask.long.tbyte 0x0 6.--22. 1. "RESERVED2,Reserved returns 0" bitfld.long 0x0 5. "COMPEN,Compression of Data enable" "0,1" rbitfld.long 0x0 3.--4. "RESERVED1,Reserved returns 0" "0,1,2,3" newline rbitfld.long 0x0 2. "SYNCEN,The value 1 indicates STPASYNC is supported" "0,1" bitfld.long 0x0 1. "TSEN,Timestamp Enable. This bit is static and should not be changed dynamically. This should be changed before client is enabled." "0,1" rbitfld.long 0x0 0. "RESERVED,Reserved returns 0" "0,1" line.long 0x4 "CTSET2_WRAP__CFG__CTSET2_CFG_STPTID,STP Trace ID Register" hexmask.long 0x4 7.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--6. 1. "TRACEID,Trace ID value. Software may overwrite the value at any time but this is only recommended for scenarios where top-level configuration errors result in a collision between HW initiator IDs" group.long 0x1810++0x7 line.long 0x0 "CTSET2_WRAP__CFG__CTSET2_CFG_STPASYNC,STP Synchronization Control Register" hexmask.long.tbyte 0x0 13.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 12. "EXPMODE,Exponent mode A value of 1 sets count to 2 to the Nth where Nth is ((bits 11 : 8)+12). A value of 0 sets Count to N (bits 11 : 0)" "0,1" hexmask.long.word 0x0 0.--11. 1. "COUNT,The number of bytes between Synchronization packets" line.long 0x4 "CTSET2_WRAP__CFG__CTSET2_CFG_STPFFCR,STP Flush Control Register" hexmask.long 0x4 6.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x4 5. "FORCEFLUSH,Write a 1 to force a flush automatically clears after the operation is complete" "0,1" rbitfld.long 0x4 2.--4. "RESERVED,Reserved returns 0" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 1. "ASYNCPE,Async Priority Enable. 0 indicates ASYNC packet priority is lower than trace. 1 indicates priority escalates on second synchronization request" "0,1" bitfld.long 0x4 0. "AUTOFLUSH,Auto flush enable. When set on every complete data (ATDATA : WIDTH) in the fifo written data is exported out when ATREADY is asserted. This should be written before client IP enabled" "0,1" rgroup.long 0x1818++0x3 line.long 0x0 "CTSET2_WRAP__CFG__CTSET2_CFG_STPFEAT1,STP Features 1 Register" hexmask.long.byte 0x0 27.--31. 1. "STP_RTLVER,RTL Version. Reset each time major or minor version is updated" bitfld.long 0x0 24.--26. "STP_MAJVER,Functional Major Version. This is the first version of STPMI2ATB" "0,1,2,3,4,5,6,7" bitfld.long 0x0 22.--23. "STP_CUSTVER,Custom Version (not used)" "0,1,2,3" newline hexmask.long.byte 0x0 17.--21. 1. "STP_MINVER,Functional Minor Version" hexmask.long.word 0x0 8.--16. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 4.--6. "VERSION,STP2.0 Time Stamp Value of 011 indicates Natural binary timestamp a value of 100 indicates gray binary timestamps" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--3. 1. "PROT,Protocol Revision. Value of 0001 indicates STP 2.0" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "DEBUGSS0_ATB_REPLICATOR_CFG_CXATBREPLICATOR_CFG (DEBUGSS0_ATB_REPLICATOR_CFG_CXATBREPLICATOR_CFG)" base ad:0x73C024000 group.long 0x0++0x7 line.long 0x0 "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_IDFILTER0,Allows the setting of ID filter for Initiator 0." bitfld.long 0x0 7. "ID0_70_7F,Enable or disable ID filitering for id's 0x70 to 0x7F" "0,1" bitfld.long 0x0 6. "ID0_60_6F,Enable or disable ID filitering for id's 0x60 to 0x6F" "0,1" bitfld.long 0x0 5. "ID0_50_5F,Enable or disable ID filitering for id's 0x50 to 0x5F" "0,1" newline bitfld.long 0x0 4. "ID0_40_4F,Enable or disable ID filitering for id's 0x40 to 0x4F" "0,1" bitfld.long 0x0 3. "ID0_30_3F,Enable or disable ID filitering for id's 0x30 to 0x3F" "0,1" bitfld.long 0x0 2. "ID0_20_2F,Enable or disable ID filitering for id's 0x20 to 0x2F" "0,1" newline bitfld.long 0x0 1. "ID0_10_1F,Enable or disable ID filitering for id's 0x10 to 0x1F" "0,1" bitfld.long 0x0 0. "ID0_0_F,Enable or disable ID filitering for id's 0x0 to 0xF" "0,1" line.long 0x4 "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_IDFILTER1,Allows the setting of ID filter for Initiator 1." bitfld.long 0x4 7. "ID1_70_7F,Enable or disable ID filitering for id's 0x70 to 0x7F" "0,1" bitfld.long 0x4 6. "ID1_60_6F,Enable or disable ID filitering for id's 0x60 to 0x6F" "0,1" bitfld.long 0x4 5. "ID1_50_5F,Enable or disable ID filitering for id's 0x50 to 0x5F" "0,1" newline bitfld.long 0x4 4. "ID1_40_4F,Enable or disable ID filitering for id's 0x40 to 0x4F" "0,1" bitfld.long 0x4 3. "ID1_30_3F,Enable or disable ID filitering for id's 0x30 to 0x3F" "0,1" bitfld.long 0x4 2. "ID1_20_2F,Enable or disable ID filitering for id's 0x20 to 0x2F" "0,1" newline bitfld.long 0x4 1. "ID1_10_1F,Enable or disable ID filitering for id's 0x10 to 0x1F" "0,1" bitfld.long 0x4 0. "ID1_0_F,Enable or disable ID filitering for id's 0x0 to 0xF" "0,1" rgroup.long 0xEF8++0x3 line.long 0x0 "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_ITATBCTR1,Returns the value of the ATREADYM0. ATREADYM1 and ATVALIDS inputs in integration mode." bitfld.long 0x0 3. "ATVALIDS_R,Reads the value of the ATVALIDS input :" "0,1" bitfld.long 0x0 1. "ATREADYM1_R,Reads the value of the ATREADYM1 input :" "0,1" bitfld.long 0x0 0. "ATREADYM0_R,Reads the value of the ATREADYM0 input :" "0,1" group.long 0xEFC++0x7 line.long 0x0 "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_ITATBCTR0,Controls the value of the ATVALIDM0. ATVALIDM1 and ATREADYS outputs in integration mode." bitfld.long 0x0 4. "ATREADYS_W,Sets the value of the ATREADYS output :" "0,1" bitfld.long 0x0 2. "ATVALIDM1_W,Sets the value of the ATVALIDM1 output :" "0,1" bitfld.long 0x0 0. "ATVALIDM0_W,Sets the value of the ATVALIDM0 output :" "0,1" line.long 0x4 "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_ITCTRL,Used to enable topology detection. See the CoreSight Architecture Specification for more information. This register enables the component to switch from a functional mode. the default behavior. to.." bitfld.long 0x4 0. "INTEGRATION_MODE,Enables the component to switch from functional mode to integration mode and back. If no integration functionality is implemented this register must read as zero." "0,1" group.long 0xFA0++0x7 line.long 0x0 "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_CLAIMSET,This is used in conjunction with Claim Tag Clear Register. CLAIMCLR. This register forms one half of the Claim Tag value. This location allows individual bits to be set. write. and returns the number of.." hexmask.long.byte 0x0 0.--3. 1. "CLAIMSET,This claim tag bit is implemented" line.long 0x4 "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_CLAIMCLR,This register is used in conjunction with Claim Tag Set Register. CLAIMSET. This register forms one half of the Claim Tag value. This location enables individual bits to be cleared. write. and returns the.." hexmask.long.byte 0x4 0.--3. 1. "CLAIMCLR,The value present reflects the current setting of the Claim Tag." group.long 0xFB0++0x3 line.long 0x0 "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_LAR,This is used to enable write access to device registers." hexmask.long 0x0 0.--31. 1. "ACCESS_W,A write of 0xC5ACCE55 enables further write access to this device. An invalid write has the affect of removing write access." rgroup.long 0xFB4++0x7 line.long 0x0 "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_LSR,This indicates the status of the lock control mechanism. This lock prevents accidental writes by code under debug. This register must always be present although there might not be any lock access control.." bitfld.long 0x0 2. "LOCKTYPE,Indicates if the Lock Access Register 0xFB0 is implemented as 8-bit or 32-bit." "0,1" bitfld.long 0x0 1. "LOCKGRANT,Returns the current status of the Lock." "0,1" bitfld.long 0x0 0. "LOCKEXIST,Indicates that a lock control mechanism exists for this device." "0,1" line.long 0x4 "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_AUTHSTATUS,Reports the required security level and current status of those enables. Where functionality changes on a given security level then this change in status must be reported in this register" bitfld.long 0x4 6.--7. "SNID,Indicates the security level for secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 4.--5. "SID,Indicates the security level for secure invasive debug" "0,1,2,3" bitfld.long 0x4 2.--3. "NSNID,Indicates the security level for non-secure non-invasive debug" "0,1,2,3" newline bitfld.long 0x4 0.--1. "NSID,Indicates the security level for non-secure invasive debug" "0,1,2,3" rgroup.long 0xFC8++0xB line.long 0x0 "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_DEVID,Indicates the capabilities of the CoreSight Replicator." hexmask.long.byte 0x0 0.--3. 1. "PORTNUM,This value indicates the number of initiator ports implemented." line.long 0x4 "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_DEVTYPE,Provides a debugger with information about the component when the Part Number field is not recognized. The debugger can then report this information." hexmask.long.byte 0x4 4.--7. 1. "SUB_TYPE,Sub-classification within the major category :" hexmask.long.byte 0x4 0.--3. 1. "MAJOR_TYPE,Major classification grouping for this debug or trace component :" line.long 0x8 "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_PIDR4,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the memory footprint indicator." hexmask.long.byte 0x8 4.--7. 1. "FOURKB_COUNT,This is a 4-bit value that indicates the total contiguous size of the memory window used by this component in powers of 2 from the standard 4KB. If a component only requires the standard 4KB this must read as 0x0 4KB only. For 8KB set to.." hexmask.long.byte 0x8 0.--3. 1. "JEP106_CONT,JEDEC continuation code indicating the designer of the component together with the identity code." rgroup.long 0xFE0++0x1F line.long 0x0 "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_PIDR0,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number." hexmask.long.byte 0x0 0.--7. 1. "PART_NUMBER_BITS7TO0,Bits [7 : 0] of the component part number. This is selected by the designer of the component." line.long 0x4 "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_PIDR1,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number and part of the designer identity." hexmask.long.byte 0x4 4.--7. 1. "JEP106_BITS3TO0,Bits [3 : 0] of the JEDEC identity code indicating the designer of the component together with the continuation code." hexmask.long.byte 0x4 0.--3. 1. "PART_NUMBER_BITS11TO8,Bits [11 : 8] of the component part number. This is selected by the designer of the component." line.long 0x8 "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_PIDR2,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the product revision." hexmask.long.byte 0x8 4.--7. 1. "REVISION,The Revision field is an incremental value starting at 0x0 for the first design of this component. This only increases by 1 for both major and minor revisions and is used as a look-up to establish the exact major and minor revision." bitfld.long 0x8 3. "JEDEC,Always set. Indicates that a JEDEC assigned value is used." "0,1" bitfld.long 0x8 0.--2. "JEP106_BITS6TO4,Bits [6 : 4] of the JEDEC identity code indicating the designer of the component together with the continuation code." "0,1,2,3,4,5,6,7" line.long 0xC "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_PIDR3,Part of the set of Peripheral Identification registers. Contains the RevAnd and Customer Modified fields." hexmask.long.byte 0xC 4.--7. 1. "REVAND,This field indicates minor errata fixes specific to this design for example metal fixes after implementation. In most cases this field is zero. It is recommended that component designers ensure this field can be changed by a metal fix if.." hexmask.long.byte 0xC 0.--3. 1. "CUSTOMER_MODIFIED,Where the component is reusable IP this value indicates if the customer has modified the behavior of the component. In most cases this field is zero." line.long 0x10 "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_CIDR0,Reserved Reserved Reserved A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x10 0.--7. 1. "PREAMBLE,Contains bits [24 : 31] of the component identification." line.long 0x14 "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_CIDR1,A component identification register. that indicates that the identification registers are present. This register also indicates the component class." hexmask.long.byte 0x14 4.--7. 1. "CLASS,Class of the component for example ROM table or CoreSight component." hexmask.long.byte 0x14 0.--3. 1. "PREAMBLE,Contains bits [19 : 16] of the component identification." line.long 0x18 "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_CIDR2,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x18 0.--7. 1. "PREAMBLE,Contains bits [15 : 8] of the component identification." line.long 0x1C "ATB_REPLICATOR__CFG__CXATBREPLICATOR_CFG_CIDR3,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x1C 0.--7. 1. "PREAMBLE,Contains bits [7 : 0] of the component identification." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "DEBUGSS0_TBR_VBUSP_WRAP_TBR_CFG_TBR_CFG (DEBUGSS0_TBR_VBUSP_WRAP_TBR_CFG_TBR_CFG)" base ad:0x73C025000 rgroup.long 0x4++0xF line.long 0x0 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_CT_TBR_RAMSZ,CT-TBR RAM Size Register This register indicates the size of the local memory buffer interfaced with the CT-TBR This register can be used to determine if the CT_TBR is synthesized for System Bridge Mode only." hexmask.long 0x0 3.--31. 1. "RESERVED," newline bitfld.long 0x0 0.--2. "RAM_SIZE,Indicates the size of the local memory1 Read 0x0 : No local buffer. TBR Bridge only configuration Read 0x1 : 4K bytes Read 0x2 : 8K bytes Read 0x3 : 16K bytes Read 0x4 : 32K bytes Read 0x5 : 64K bytes Read 0x6 : 128K bytes Read 0x7 : Reserved" "0: No local buffer,1: 4K bytes Read,2: 8K bytes Read,3: 16K bytes Read,4: 32K bytes Read,5: 64K bytes Read,6: 128K bytes Read,7: Reserved" line.long 0x4 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_FIFOSZ,CT-TBR Output FIFO Size Register This register indicates the size of output FIFO used to transfer data to the system target interface" hexmask.long 0x4 3.--31. 1. "RESERVED," newline bitfld.long 0x4 0.--2. "FIFO_SIZE,Indicates the size of the output FIFO Read 0x0 : 128 bytes Read 0x1 : 256 bytes Read 0x2 : 512 bytes Read 0x3 : 1024 bytes Read 0x4 : 2048 bytes Read 0x5-0x7 : Reserved" "0: 128 bytes Read,1: 256 bytes Read,2: 512 bytes Read,3: 1024 bytes Read,4: 2048 bytes Read 0x5-0x7 : Reserved,?,?,?" line.long 0x8 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_STAT,TBR Status Register This register indicates status of various functions performed by CT-TBR" hexmask.long 0x8 7.--31. 1. "RESERVED," newline bitfld.long 0x8 6. "RESET_OUT,Reset Active bit indicates that at least one of the domains in the CT-TBR is currently being held in reset. Read 0b : All domains and/or interfaces of the CT-TBR are out of reset Read 1b : At least one of the domains and/or interfaces of.." "0,1" newline bitfld.long 0x8 5. "PARTIAL_OUT,Indicates that a partial output block (0 < Level < Trigger Threshold) is in the TBR memory (output buffer and possibly local RAM) and that an OUTFLUSH sequence may be required since there is no valid data to available to increase the.." "0,1" newline bitfld.long 0x8 4. "DRAIN_DONE,Indicates the whether there is data in the output FIFO. This bit is only valid in System Bridge Mode. Read 0b : There is still valid data in the CT-TBR output FIFO Read 1b : All valid data in the CT-TBR output FIFO has been transferred via the.." "0,1" newline bitfld.long 0x8 3. "FMT_DONE,Indicates that all pending local memory transactions from the formatter are complete and no more data will be posted from the formatter. Read 0b : Data may still be pending Read 1b : Final data from the formatter has been posted. This bit is.." "0,1" newline bitfld.long 0x8 2. "CPT_DONE,Indicates that ATB interface is disabled and trace data capture is complete. Read 0b : Trace capture still active Read 1b : Trace capture complete This bit is reset to 0b when the CTRL : ENBL transitions from 0b to 1b." "0,1" newline bitfld.long 0x8 1. "TRIG,Indicates that the local memory buffer has been locked as the result of a trigger. This bit is only valid in Buffer Mode and will always read 0 in System Bridge mode Read 0b : No trigger seen. Read 1b : Trigger input detected and buffer locked This.." "0,1" newline bitfld.long 0x8 0. "WRAP,This bit is active in buffer mode only and is not present in CT-TBR configurations that only support System bridge mode Indicates that the local memory write pointer has incremented past the upper boundary of the memory reset to the lowest address.." "0,1" line.long 0xC "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_RAMRDAT,RAM Read Data Register This register is used to transfer data from the local memory to client This register is not present when CT-TBR is synthesized for System Bridge Mode only." hexmask.long 0xC 0.--31. 1. "DATA,The 32-bit data value pointed to by the RAMRPTR register Reading returns the value at the index specified by RAMRPTR. RAMRPTR is then incremented automatically." group.long 0x14++0x13 line.long 0x0 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_RAMRPTR,RAM Read Pointer Register Indexes into the local memory for reading 32-bit values via RAMRDAT This register is not present when CT-TBR is synthesized for System Bridge Mode only." hexmask.long.word 0x0 22.--31. 1. "RESERVED," newline hexmask.long.tbyte 0x0 0.--21. 1. "PTR,This field designates the index of the 32-bit RAM location to be read via RAMRDAT. Read returns the current value of the pointer Write sets the value and initiates a read from the designated address. This field increments automatically when a value.." line.long 0x4 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_RAMWPTR,This field designates the index of the 32-bit RAM location to be written via RAMWDAT. Read : Returns the current value of the pointer Write : Sets the value Writes will always force the bits 1 : 0 of write_value.." hexmask.long.word 0x4 22.--31. 1. "RESERVED," newline hexmask.long.tbyte 0x4 0.--21. 1. "PTR,This field designates the index of the 32-bit RAM location to be read via RAMRDAT. Read returns the current value of the pointer Write sets the value and initiates a read from the designated address. This field increments automatically when a value.." line.long 0x8 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_TRGCNT,Trigger Count Register This register controls the amount of data written to the local memory after a trigger input is detected" hexmask.long.tbyte 0x8 13.--31. 1. "RESERVED," newline hexmask.long.word 0x8 0.--12. 1. "COUNT,Controls the number of 128-bit words written to local memory after a trigger input is detected on the CTI interface. When the input trigger is active and a trigger is detected an internal register starts counting the number of 128-bit words.." line.long 0xC "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_TBR_CTRL,CT-TBR Control Register This register controls the global enable/disable functions of the CT-TBR" hexmask.long 0xC 5.--31. 1. "RESERVED," newline bitfld.long 0xC 4. "IDLE_EMPTY,Controls whether the CT_TBR can enter idle with data present Read 0x0 : All internal buffers must be empty before idle requests are acknowledged Read 0x1 : CT_TBR can idle with valid data Write 0x0 : Clear idle with valid data Write 0x1 : Set.." "0: Clear idle with valid data Write,1: Set idle with valid data" newline bitfld.long 0xC 3. "SYNCREQ_WRAP,Controls whether the CT-TBR will issue a pulse on SYNREQ each time the local buffer write pointer wraps back to address 0. Read 0x0 : SYNCREQ generation is suppressed Read 0x1 : SYNCREQ on buffer wrap is enabled Write 0x0 : Disable SYNCREQ.." "0: Disable SYNCREQ generation Write,1: Enable SYNCREQ generation" newline bitfld.long 0xC 2. "SRST,Software initiated reset control Read 0x0 : Always Write 0x0 : No action Write 0x1 : Initiates a software reset" "0: No action Write,1: Initiates a software reset" newline bitfld.long 0xC 1. "MODE,This field is the top-level control for determining the operating mode of the module Read 0x0 : Module is in Buffer Mode Read 0x1 : Module is in System Bridge Mode Write 0x0 : Set Buffer Mode Write 0x1 : Set System Bridge Mode This bit can only be.." "0: Set Buffer Mode Write,1: Set System Bridge Mode This bit can only be.." newline bitfld.long 0xC 0. "ENBL,This field is the top-level control for enabling trace acquisition and processing in the module. Read 0x0 : Module is disabled Read 0x1 : Module is enabled (trace data is being captured and stored to local memory) Write 0x0 : Disable module Write.." "0: Disable module Write,1: Enable module" line.long 0x10 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_RAMWDAT,RAM Write Data Register This register is used to transfer data from the client to local memory This register is not present when CT-TBR is synthesized for System Bridge Mode only." hexmask.long 0x10 0.--31. 1. "DATA,The 32-bit data value to be written to local memory Writing initiates the transfer of data to the location pointed at by RAMWPTR. RAMWPTR is then incremented automatically. This register should not be used when the data acquisition is enabled.." group.long 0x100++0xF line.long 0x0 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_OUTLVL,Output FIFO Trigger Level Register This register controls the size of the data blocks transferred through the output FIFO and across the system interface" hexmask.long.word 0x0 16.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 8.--15. 1. "NUMBLOCK,Determines blocks (value + 1) that must be sent over the system interface to complete a higher level data frame for transport. This field is used to calculate the total output trigger threshold when used in conjunction with BLOCKSZ field." newline hexmask.long.byte 0x0 0.--7. 1. "BLOCKSZ,Determines the block size (the number of 128-bit frames + 1) used by the DMA engine reading data over the system interface. This field is used to calculate the total output trigger threshold when used in conjunction with NUMBLOCK field. The block.." line.long 0x4 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_SICTRL,CT-TBR System Interface Control This register provides control and status for the system interface of the CT-TBR" hexmask.long 0x4 6.--31. 1. "RESERVED1," newline bitfld.long 0x4 4.--5. "IDLE_MODE,This bit-field controls the idle behavior of the CT-TRB Read : Indicates the Idle modes outlined below Write 00b : Set Force-Idle. For CT-TBR Force-Idle is identical to Smart-Idle Write 01b : Set No-Idle : The CT_TBR will acknowledge the idle.." "0,1,2,3" newline rbitfld.long 0x4 3. "RESERVED," "0,1" newline bitfld.long 0x4 2. "ERR,This bit indicates that an access on the System Target I/F resulted in a error Read 0x0 : No errors since last clear Read 0x1 : At least one error condition on the I/F since last clear Write 0x0 : No effect Write 0x1 : Clears bit to 0 This bit clears.." "0: No effect Write,1: Clears bit to 0 This bit clears to 0 when data.." newline rbitfld.long 0x4 1. "REQ_PEND,This bit indicates if a read request is pending or active on the system interface Read 0x0 : No read requests pending or active Read 0x1 : A system initiator has posted a read request on the system interface and this request is pending or being.." "0: No read requests pending or active Read,1: A system initiator has posted a read request on.." newline bitfld.long 0x4 0. "DATA_WIDTH,This bit controls the supported access size for the system interface Read 0x0 : System interface will only support 32-bit reads Read 0x1 : System interface will only support 64-bit reads Write 0x0 : Set 32-bit mode Write 0x1 : Set 64-bit mode.." "0: Set 32-bit mode Write,1: Set 64-bit mode This bit is RO and set to 0 when.." line.long 0x8 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_IDPERIOD,ID Repeat Period Register This register controls the number of frames (without and ID change marker) that will be sent before the formatter forces and ID marker" hexmask.long.tbyte 0x8 10.--31. 1. "RESERVED," newline hexmask.long.word 0x8 0.--9. 1. "PERIOD,Controls the number of 128-bit frames (with no ID change markers) that the formatter will forward before forcing an artificial ID change. Read : Returns the current configured value of the period Write : Sets the value Setting to 0 disables the.." line.long 0xC "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_CT_TBR_SEQCNTL," hexmask.long.word 0xC 23.--31. 1. "RESERVED2," newline hexmask.long.byte 0xC 16.--22. 1. "SEQID,PERIOD1This defined the ATID used when inserting the incrementing sequence byte. The reset value is the highest free ID supported in the TWP specification but this can be overwritten by SW if there are system collisions" newline hexmask.long.byte 0xC 10.--15. 1. "RESERVED," newline hexmask.long.word 0xC 0.--9. 1. "PERIOD,Controls the number of 128-bit frames that the formatter will forward before inserting an 8-bit incrementing sequence number into a frame using ATID defined in SEQID Read : Returns the current configured value of the period Write : Sets the.." group.long 0x120++0x13 line.long 0x0 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_EOI,CT-TBR EOI register This register is the End of Interrupt used by SW to signal HW that an interrupt service is complete and an interrupt can be rearmed." hexmask.long 0x0 1.--31. 1. "RESERVED," newline bitfld.long 0x0 0. "EOI_VECT,This bit is used by SW to signal that a particular interrupt generated by the IP can be rearmed. Read 0x0 : Always Write 0x0 : DAV_IRQ is rearmed (it is IRQ index 0 for this IP) Write 0x1 : AQCMP_IRQ is rearmed (it is IRQ index 1)" "0: DAV_IRQ is rearmed,1: AQCMP_IRQ is rearmed" line.long 0x4 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_IRQSTATUS_RAW,CT-TBR IRQ Status (Raw) register This register provides control and status for the interrupt/event interface The IRQSTATUS_RAW register may be modified while acquisition is enabled" hexmask.long 0x4 2.--31. 1. "RESERVED," newline bitfld.long 0x4 1. "AQCMP_IRQ,This bit controls the acquisition complete interrupt/event generation for testing Read 0x0 : Acquisition complete interrupt is not active Read 0x1 : Acquisition complete interrupt is active and awaiting completion. The enabled state is not.." "0: No effect Write,1: Sets the interrupt request for testing" newline bitfld.long 0x4 0. "DAV_IRQ,This bit controls the data available interrupt/event generation for testing Read 0x0 : Data available interrupt is not active Read 0x1 : Data available interrupt is active and awaiting completion. The enabled state is not considered. Write 0x0 :.." "0: No effect Write,1: Sets the interrupt request for testing" line.long 0x8 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_IRQSTATUS,CT-TBR IRQ Status register This register provides control and status for the interrupt/event interface The IRQSTATUS register may be modified while acquisition is enabled" hexmask.long 0x8 2.--31. 1. "RESERVED," newline bitfld.long 0x8 1. "AQCMP_IE,Acquisition complete interrupt enable Read 0x0 : Acquisition complete interrupt/event generation is either not pending or it is not enabled Read 0x1 : The acquisition complete interrupt is pending and enabled. Write 0x0 : No effect Write 0x1 :.." "0: No effect Write,1: Clears a pending Acquisition complete interrupt" newline bitfld.long 0x8 0. "DAV_IE,Data Available interrupt enable Read 0x0 : Data available interrupt/event generation is either not pending or it is disabled Read 0x1 : Data available interrupt is pending and enabled. Write 0x0 : No effect Write 0x1 : Clears a pending data.." "0: No effect Write,1: Clears a pending data available interrupt" line.long 0xC "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_IRQENABLE_SET,CT-TBR IRQ Enable set register This register provides control for the interrupt/event interface The IRQENABLE_SET register may be modified while acquisition is enabled" hexmask.long 0xC 2.--31. 1. "RESERVED," newline bitfld.long 0xC 1. "AQCMP_IES,Provides enable state and sets the enable of the acquisition complete interrupt/event Read 0x0 : The acquisition complete interrupt is disabled Read 0x1 : The acquisition complete interrupt is enabled Write 0x0 : No effect Write 0x1 : Enables.." "0: No effect Write,1: Enables the acquisition complete interrupt/event" newline bitfld.long 0xC 0. "DAV_IES,Provides enable state and sets the enable of the data available interrupt/event Read 0x0 : The data available interrupt is disabled Read 0x1 : The data available interrupt is enabled Write 0x0 : No effect Write 0x1 : Enables the data available.." "0: No effect Write,1: Enables the data available interrupt/event" line.long 0x10 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_IRQENABLE_CLR,CT-TBR IRQ Enable clear register This register provides control for the interrupt/event interface The IRQENABLE_CLR register may be modified while acquisition is enabled" hexmask.long 0x10 2.--31. 1. "RESERVED," newline bitfld.long 0x10 1. "AQCMP_IEC,Provides enable state and clears the enable of the data available interrupt/event Read 0x0 : The acquisition complete interrupt is disabled Read 0x1 : The acquisition complete interrupt is enabled Write 0x0 : No effect Write 0x1 : Disables the.." "0: No effect Write,1: Disables the acquisition complete interrupt/event" newline bitfld.long 0x10 0. "DAV_IEC,Provides enable state and clears the enable of the data available interrupt/event Read 0x0 : The data available interrupt is disabled Read 0x1 : The data available interrupt is enabled Write 0x0 : No effect Write 0x1 : Disables the data available.." "0: No effect Write,1: Disables the data available interrupt/event" rgroup.long 0x300++0x3 line.long 0x0 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_OPSTAT,Operation Status Register This register provides information on the status of various operations of the CT-TBR" hexmask.long 0x0 2.--31. 1. "RESERVED," newline bitfld.long 0x0 1. "FMT_HALTED,This bit indicates that the formatter is halted and the last available data has been written to the local memory. It is functionally equivalent to the FMT_DONE bit in the STAT register. Read 0x0 : Formatter block is active Read 0x1 : Formatter.." "0: Formatter block is active Read,1: Formatter block is disabled This bit is cleared.." newline bitfld.long 0x0 0. "FLSH_ACT,This bit indicates that a flush request is being processed by the CT-TBR Read 0x0 : No flush requests are active Read 0x1 : Flush request is pending completion" "0: No flush requests are active Read,1: Flush request is pending completion" group.long 0x304++0x3 line.long 0x0 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_OPCTRL," hexmask.long.word 0x0 18.--31. 1. "RESERVED4," newline bitfld.long 0x0 17. "SYNCREQ,This bit is allows the SW to stimulate a synchronization request to all the upstream trace components. Read 0x0 : This bit always reads as 0 Write 0x0 : Has no effect Write 0x1 : Results in the assertion of the SYNCREQ signal on the ATB target.." "0: Has no effect Write,1: Results in the assertion of the SYNCREQ signal.." newline bitfld.long 0x0 16. "OUTFLUSH,This bit is the flush control. For the output FIFO (System Bridge Mode) it triggers a flush of this buffer and the flush completes when the last OUTLEVEL + 1 sized burst is read on the system Interface. Read 0x0 : No output flush operation is.." "0: No meaning Write,1: Initiate an output buffer flush" newline bitfld.long 0x0 15. "STP_FULL,This bit controls whether the formatter stops operation when the local memory buffer is full. This one-shot mode prevents the write pointer from wrapping Read 0x0 : Formatter continues when write pointer wraps back to the lowest address Read.." "0: Disable formatter halt on full Write,1: Enable formatter halt on full This bit is only.." newline rbitfld.long 0x0 14. "RESERVED3," "0,1" newline bitfld.long 0x0 13. "STP_TRG,This bit controls whether the formatter stops operation when a trigger is detected Read 0x0 : Formatter continues when trigger is detected Read 0x1 : Formatter stops operation when trigger is detected Write 0x0 : Disable formatter halt on trigger.." "0: Disable formatter halt on trigger Write,1: Enable formatter halt on trigger" newline bitfld.long 0x0 12. "STP_FLSH,This bit controls whether the formatter stops operation when a flush completes Read 0x0 : Formatter continues after flush completion Read 0x1 : Formatter stops operation when flush completes Write 0x0 : Disable formatter halt on flush completion.." "0: Disable formatter halt on flush completion Write,1: Enable formatter halt on flush completion" newline rbitfld.long 0x0 11. "RESERVED2," "0,1" newline bitfld.long 0x0 10. "TRG_FLSH,This bit controls whether a trigger event is generated when a flush completes Read 0x0 : No trigger event generated when flush is completed. Read 0x1 : Trigger event generated Write 0x0 : Disable trigger event generation Write 0x1 : Enable.." "0: Disable trigger event generation Write,1: Enable trigger event generation" newline bitfld.long 0x0 9. "TRG_EVT,This bit controls whether the action associated with a trigger is delayed until the trigger counter matches the value in TRGCNT : COUNT + 1. Read 0x0 : No trigger counter delay Read 0x1 : Trigger action delayed until trigger count match Write 0x0.." "0: Disable trigger delay Write,1: Enable trigger delay" newline bitfld.long 0x0 8. "TRG_TRGIN,This bit controls whether a trigger event is generated when a rising edge is detected on the TRIGIN input on the CTI interface. Setting this bit also enables trigger event generation when a trigger ID (ATID = 0x7d) is seen on the ATB interface." "0: Disable trigger event generation Write,1: Enable trigger event generation" newline rbitfld.long 0x0 7. "RESERVED1," "0,1" newline bitfld.long 0x0 6. "FLUSH,This bit is the manual flush control. It triggers a flush from the trace data sources into the CT-TBR Read 0x0 : No manual flush operation is active Read 0x1 : Manual flush operation is active Write 0x0 : No meaning Write 0x1 : Initiate a manual.." "0: No meaning Write,1: Initiate a manual flush" newline bitfld.long 0x0 5. "FLSH_TRG,This bit controls whether a flush operation is initiated when a trigger condition is detected by the CT-TBR Read 0x0 : Flush on trigger event is disabled Read 0x1 : Flush on trigger event is enabled Write 0x0 : Disable flush on trigger event.." "0: Disable flush on trigger event Write,1: Enable flush on trigger event" newline bitfld.long 0x0 4. "FLSH_FLSHIN,This bit controls whether a flush operation is initiated when a rising edge is detected on the FLUSHIN input signal Read 0x0 : Flush on FLUSHIN is disabled Read 0x1 : Flush on FLUSHIN is enabled Write 0x0 : Disable flush on FLUSHIN Write 0x1.." "0: Disable flush on FLUSHIN Write,1: Enable flush on FLUSHIN" newline rbitfld.long 0x0 2.--3. "RESERVED," "0,1,2,3" newline bitfld.long 0x0 1. "INSRT_TRG,This bit controls whether the TWP trigger sequence is inserted into the TWP frame a trigger condition is encountered Read 0x0 : Trigger insertion is disabled Read 0x1 : Trigger insertion is enabled Write 0x0 : Disable trigger insertion Write.." "0: Disable trigger insertion Write,1: Enable trigger insertion" newline bitfld.long 0x0 0. "FMT_ENBL,This bit controls whether the ATB input data is formatted into 128-bit TWP frames Read 0x0 : Formatting is disabled Read 0x1 : Formatting is enabled Write 0x0 : Disable formatting Write 0x1 : Enable formatting" "0: Disable formatting Write,1: Enable formatting" group.long 0xFA0++0x3 line.long 0x0 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_CLAIMSET,The Claim Tag Set Register The register is used to manage handshakes between application and tools SW using the CT-TBR" hexmask.long 0x0 4.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "CTSET,This bit sets the Claim Tag Read 0xF : Always. Indicates that claim tag has 4 valid bits Write 0x0 : No effect Write 0x1-F : Bit value of 1 sets the corresponding Claim Tag bit" rgroup.long 0xFA4++0x3 line.long 0x0 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_CLAIMCLR,The Claim Tag Clear Register The register is used to manage handshakes between application and tools SW using the CT-TBR" hexmask.long 0x0 4.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "CTCLR,This bit clears the Claim Tag Read : The current claim tag value Write 0x0 : No effect Write 0x1-F : Bit value of 1 clears the corresponding bit in the Claim Tag" rgroup.long 0xFB0++0xB line.long 0x0 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_LOCKACC,The Lock Access Register The register is used to enabled application use of the CT-TBR" hexmask.long 0x0 0.--31. 1. "CODE,This bit-field is used to unlock the CT-TBR for use by the application Write 0xC5ACCE55 : Unlocks the CT-TBR Write any other value : Lock the CT-TBR" line.long 0x4 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_LOCKSTAT,The Lock Status Register The register is used to manage application use of the CT-TBR" hexmask.long 0x4 3.--31. 1. "RESERVED," newline bitfld.long 0x4 2. "LOCKSZ,This bit-field indicates the size of the lock access bit-field Read 0x0 : indicates the lock access field is 32-bits wide" "0: indicates the lock access field is 32-bits wide,?" newline bitfld.long 0x4 1. "STAT,This bit-field indicates the current state of the lock Read 0x0 : indicates the module is not locked from application accesses Read 0x1 : Indicates the module is locked" "0: indicates the module is not locked from..,1: Indicates the module is locked" newline bitfld.long 0x4 0. "LOCKIMP,This bit-field indicates if the module implements a lock access mechanism Read 0x1 : Indicates a lock is present" "?,1: Indicates a lock is present" line.long 0x8 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_AUTHSTAT,Authorization Status Register Indicates which security features (if any) are implemented in the module." hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline bitfld.long 0x8 6.--7. "S_NI_STAT,Secure non-invasive debug status Read 0x0 : Indicates CT-TBR does not implement this feature" "0: Indicates CT-TBR does not implement this feature,?,?,?" newline bitfld.long 0x8 4.--5. "S_I_STAT," "0,1,2,3" newline bitfld.long 0x8 2.--3. "NS_NI_STAT," "0,1,2,3" newline bitfld.long 0x8 0.--1. "NS_I_STAT,Non-secure invasive debug status Read 0x0 : Indicates CT-TBR does not implement this feature" "0: Indicates CT-TBR does not implement this feature,?,?,?" rgroup.long 0xFC8++0x37 line.long 0x0 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_DEVID,Device Identification Register Defines the major and minor versions of this implementation of the CT-TBR" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 4.--7. 1. "REV_MAJOR," newline hexmask.long.byte 0x0 0.--3. 1. "REV_MIN,Minor revision number Read 0x0 : The only minor revision currently supported" line.long 0x4 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_DEVTYPE,Device Type Register Indicates the top-level function of the module" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 4.--7. 1. "SUB_TYPE,Identifies the sub-type based upon class Read 0x2 : Indicates the CT-TBR is an embedded trace buffer" newline hexmask.long.byte 0x4 0.--3. 1. "MAIN_CLASS,Identifies the top level class to the module Read 0x1 : Indicates the CT-TBR is a trace sink" line.long 0x8 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_PERIPHID4,Peripheral Identification Register Number 4 The Peripheral ID registers indicate module specifics like manufacturer and part number" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x8 4.--7. 1. "KB_COUNT,Indicates the number of 4KB block of configuration memory (+ 1) used by this module. Read 0x0 : CT-TBR uses one block" newline hexmask.long.byte 0x8 0.--3. 1. "JEP_CONT,JEDEC manufacture code continuation code Read 0x0 : TI JEP number does not use continuation" line.long 0xC "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_PERIPHID5,Peripheral Identification Register Number 5 The Peripheral ID registers indicate module specifics like manufacturer and part number" hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED," newline hexmask.long.byte 0xC 0.--7. 1. "PID5,Read 0x0 : As per CoreSight Architecture Specification" line.long 0x10 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_PERIPHID6,Peripheral Identification Register Number 6 The Peripheral ID registers indicate module specifics like manufacturer and part number" hexmask.long.tbyte 0x10 8.--31. 1. "PID7," newline hexmask.long.byte 0x10 0.--7. 1. "PID6,Read 0x0 : As per CoreSight Architecture Specification" line.long 0x14 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_PERIPHID7,Peripheral Identification Register Number 7 The Peripheral ID registers indicate module specifics like manufacturer and part number" hexmask.long.tbyte 0x14 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x14 0.--7. 1. "PID7,Read 0x0 : As per CoreSight Architecture Specification" line.long 0x18 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_PERIPHID0,Peripheral Identification Register Number 0 The Peripheral ID registers indicate module specifics like manufacturer and part number" hexmask.long.tbyte 0x18 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x18 0.--7. 1. "PART_ML,The middle and lower BCD value of the part number. Read 0xDF : CT-TBR BCD part number is EDF" line.long 0x1C "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_PERIPHID1,Peripheral Identification Register Number 1 The Peripheral ID registers indicate module specifics like manufacturer and part number" hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x1C 4.--7. 1. "JEPID_L,JEP106 ID[3 : 0]. Read 0x7 : TI JEP106 ID is 0x17" newline hexmask.long.byte 0x1C 0.--3. 1. "PART_U,The upper BCD value of the part number. Read 0xE : CT-TBR BCD part number is EDF" line.long 0x20 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_PERIPHID2,Peripheral Identification Register Number 2 The Peripheral ID registers indicate module specifics like manufacturer and part number" hexmask.long.tbyte 0x20 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x20 4.--7. 1. "REVNUM,Revision number of the peripheral module Read 0x0 : Only revision of CT-TBR" newline bitfld.long 0x20 3. "JEDEC,Indicates JEDEC ID was used Read 0x1 : JEDEC ID is used" "?,1: JEDEC ID is used" newline bitfld.long 0x20 0.--2. "JEPID_H,JEP106 ID[6 : 4]. Read 0x1 : TI JEP106 ID is 0x17" "?,1: TI JEP106 ID is 0x17,?,?,?,?,?,?" line.long 0x24 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_PERIPHID3,Peripheral Identification Register Number 3 The Peripheral ID registers indicate module specifics like manufacturer and part number" hexmask.long.tbyte 0x24 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x24 4.--7. 1. "REVAND,Indicates the errata fix version of the IP Read 0x0 : CT-TBR uses one block" newline hexmask.long.byte 0x24 0.--3. 1. "CUSTMOD,Indicates that the module was reusable IP that was modified by the customer Read 0x0 : CT-TBR is native IP" line.long 0x28 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_COMPID0,Component Identification Register Number 0 The Component ID registers places a known bit pattern in memory that indicates that a 4K configuration block is valid and supports a peripheral" hexmask.long.tbyte 0x28 8.--31. 1. "CID1," newline hexmask.long.byte 0x28 0.--7. 1. "CID0,The fixed preamble for the component ID Read 0x0D : CID0 Preamble is fixed at 0x0D" line.long 0x2C "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_COMPID1,Component Identification Register Number 1 The Component ID registers places a known bit pattern in memory that indicates that a 4K configuration block is valid and supports a peripheral" hexmask.long.tbyte 0x2C 8.--31. 1. "CLASS1," newline hexmask.long.byte 0x2C 4.--7. 1. "CLASS,Indicates the class of the component Read 0x9 : CT-TBR is a CoreSight component" newline hexmask.long.byte 0x2C 0.--3. 1. "CID1,The fixed preamble for the component ID Read 0x0 : CID1 Preamble is fixed at 0x0" line.long 0x30 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_COMPID2,Component Identification Register Number 2 The Component ID registers places a known bit pattern in memory that indicates that a 4K configuration block is valid and supports a peripheral" hexmask.long.tbyte 0x30 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x30 0.--7. 1. "CID2,The fixed preamble for the component ID Read 0x05 : CID2 Preamble is fixed at 0x05" line.long 0x34 "TBR_VBUSP_WRAP__TBR_CFG__TBR_CFG_COMPID3,2Component Identification Register Number 3 The Component ID registers places a known bit pattern in memory that indicates that a 4K configuration block is valid and supports a peripheral" hexmask.long.tbyte 0x34 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x34 0.--7. 1. "CID3,The fixed preamble for the component ID Read 0x05 : CID2 Preamble is fixed at 0x05" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "DEBUGSS0_ARM_CTI" base ad:0x0 tree "DEBUGSS0_ARM_CTI_0_CFG_CSCTI_CFG (DEBUGSS0_ARM_CTI_0_CFG_CSCTI_CFG)" base ad:0x73C026000 group.long 0x0++0x3 line.long 0x0 "ARM_CTI_0__CFG__CSCTI_CFG_CTICONTROL,The CTI Control Register enables the CTI. >" bitfld.long 0x0 0. "GLBEN,Enables or disables the ECT." "0,1" group.long 0x10++0x2F line.long 0x0 "ARM_CTI_0__CFG__CSCTI_CFG_CTIINTACK,The CTI Interrupt Acknowledge Register is write-only. Any bits written as a 1 cause the ctitrigout output signal to be acknowledged. The acknowledgement is cleared when MAPTRIGOUT is deactivated. This register is used.." hexmask.long.byte 0x0 0.--7. 1. "INTACK,Acknowledges the corresponding ctitrigout output. There is one bit of the register for each ctitrigout output. When a 1 is written to a bit in this register the corresponding ctitrigout is acknowledged and is cleared when MAPTRIGOUT is LOW." line.long 0x4 "ARM_CTI_0__CFG__CSCTI_CFG_CTIAPPSET,The CTI Application Trigger Set Register is read/write. A write to this register causes a channel event to be raised. corresponding to the bit written to." hexmask.long.byte 0x4 0.--3. 1. "APPSET,Setting a bit HIGH generates a channel event for the selected channel. There is one bit of the register for each channel. Read : 0 = application trigger inactive (reset). 1 = application trigger active. Write : 0 = no effect. 1 = generate.." line.long 0x8 "ARM_CTI_0__CFG__CSCTI_CFG_CTIAPPCLEAR,The CTI Interrupt Acknowledge Register is write-only. A write to this register causes a channel event to be cleared. corresponding to the bit written to." hexmask.long.byte 0x8 0.--3. 1. "APPCLEAR,Clears corresponding bits in the CTIAPPSET register. There is one bit of the register for each channel. When a 1 is written to a bit in this register the corresponding application trigger is disabled in the CTIAPPSET register. Writing a 0 to.." line.long 0xC "ARM_CTI_0__CFG__CSCTI_CFG_CTIAPPPULSE,The CTI Application Pulse Register is write-only. A write to this register causes a channel event pulse. one cticlk period. to be generated. corresponding to the bit written to. The pulse external to the ECT can be.." hexmask.long.byte 0xC 0.--3. 1. "APPULSE,Setting a bit HIGH generates a channel event pulse for the selected channel. There is one bit of the register for each channel. When a 1 is written to a bit in this register a corresponding channel event pulse is generated for one cticlk.." line.long 0x10 "ARM_CTI_0__CFG__CSCTI_CFG_CTIINEN0,The CTI Trigger 0 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x10 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x14 "ARM_CTI_0__CFG__CSCTI_CFG_CTIINEN1,The CTI Trigger 1 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x14 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x18 "ARM_CTI_0__CFG__CSCTI_CFG_CTIINEN2,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x18 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x1C "ARM_CTI_0__CFG__CSCTI_CFG_CTIINEN3,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x20 "ARM_CTI_0__CFG__CSCTI_CFG_CTIINEN4,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x20 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x24 "ARM_CTI_0__CFG__CSCTI_CFG_CTIINEN5,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x24 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x28 "ARM_CTI_0__CFG__CSCTI_CFG_CTIINEN6,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x28 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x2C "ARM_CTI_0__CFG__CSCTI_CFG_CTIINEN7,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x2C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." group.long 0xA0++0x1F line.long 0x0 "ARM_CTI_0__CFG__CSCTI_CFG_CTIOUTEN0,The CTI Channel to Trigger 0 Enable Registers define which channels can generate a ctitrigout[0] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x0 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x4 "ARM_CTI_0__CFG__CSCTI_CFG_CTIOUTEN1,The CTI Channel to Trigger 1 Enable Registers define which channels can generate a ctitrigout[1] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x4 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x8 "ARM_CTI_0__CFG__CSCTI_CFG_CTIOUTEN2,The CTI Channel to Trigger 2 Enable Registers define which channels can generate a ctitrigout[2] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x8 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[2] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0xC "ARM_CTI_0__CFG__CSCTI_CFG_CTIOUTEN3,The CTI Channel to Trigger 3 Enable Registers define which channels can generate a ctitrigout[3] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0xC 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[3] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x10 "ARM_CTI_0__CFG__CSCTI_CFG_CTIOUTEN4,The CTI Channel to Trigger 4 Enable Registers define which channels can generate a ctitrigout[4] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x10 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[4] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x14 "ARM_CTI_0__CFG__CSCTI_CFG_CTIOUTEN5,The CTI Channel to Trigger 5 Enable Registers define which channels can generate a ctitrigout[5] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x14 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[5] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x18 "ARM_CTI_0__CFG__CSCTI_CFG_CTIOUTEN6,The CTI Channel to Trigger 6 Enable Registers define which channels can generate a ctitrigout[6] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x18 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[6] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x1C "ARM_CTI_0__CFG__CSCTI_CFG_CTIOUTEN7,The CTI Channel to Trigger 7 Enable Registers define which channels can generate a ctitrigout[7] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[7] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." rgroup.long 0x130++0xF line.long 0x0 "ARM_CTI_0__CFG__CSCTI_CFG_CTITRIGINSTATUS,The CTI Trigger In Status Register provides the status of the ctitrigin inputs." hexmask.long.byte 0x0 0.--7. 1. "TRIGINSTATUS,Shows the status of the ctitrigin inputs. 1 = ctitrigin is active. 0 = ctitrigin is inactive. Because the register provides a view of the raw ctitrigin inputs the reset value is unknown. There is one bit of the field for each trigger.." line.long 0x4 "ARM_CTI_0__CFG__CSCTI_CFG_CTITRIGOUTSTATUS,The CTI Trigger Out Status Register provides the status of the ctitrigout outputs." hexmask.long.byte 0x4 0.--7. 1. "TRIGOUTSTATUS,Shows the status of the ctitrigout outputs. 1 = ctitrigout is active. 0 = ctitrigout is inactive. There is one bit of the field for each trigger output." line.long 0x8 "ARM_CTI_0__CFG__CSCTI_CFG_CTICHINSTATUS,The CTI Channel In Status Register provides the status of the ctichin inputs." hexmask.long.byte 0x8 0.--3. 1. "CTICHINSTATUS,Shows the status of the ctichin inputs. 1 = ctichin is active. 0 = ctichin is inactive. Because the register provides a view of the raw ctichin inputs the reset value is unknown. There is one bit of the field for each channel input." line.long 0xC "ARM_CTI_0__CFG__CSCTI_CFG_CTICHOUTSTATUS,The CTI Channel Out Status Register provides the status of the CTI ctichout outputs." hexmask.long.byte 0xC 0.--3. 1. "CTICHOUTSTATUS,Shows the status of the ctichout outputs. 1 = ctichout is active. 0 = ctichout is inactive. There is one bit of the field for each channel output." group.long 0x140++0x7 line.long 0x0 "ARM_CTI_0__CFG__CSCTI_CFG_CTIGATE,The Gate Enable Register prevents the channels from propagating through the CTM to other CTIs. This enables local cross-triggering. for example for causing an interrupt when the ETM trigger occurs. It can be used.." bitfld.long 0x0 3. "CTIGATEEN3,Enable CTICHOUT3. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 2. "CTIGATEEN2,Enable CTICHOUT2. Set to 0 to disable channel propagation." "0,1" newline bitfld.long 0x0 1. "CTIGATEEN1,Enable CTICHOUT1. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 0. "CTIGATEEN0,Enable CTICHOUT0. Set to 0 to disable channel propagation." "0,1" line.long 0x4 "ARM_CTI_0__CFG__CSCTI_CFG_ASICCTL,Implementation-defined ASIC control. value written to the register is output on asicctl[7 : 0]." hexmask.long.byte 0x4 0.--7. 1. "ASICCTL,Implementation-defined ASIC control value written to the register is output on asicctl[7 : 0]. If external multiplexing of trigger signals is implemented then the number of multiplexed signals on each trigger must be reflected within the.." group.long 0xEDC++0xF line.long 0x0 "ARM_CTI_0__CFG__CSCTI_CFG_ITCHINACK,This register is a write-only register. It can be used to set the value of the CTCHINACK outputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHINACK,Set the value of the CTCHINACK outputs." line.long 0x4 "ARM_CTI_0__CFG__CSCTI_CFG_ITTRIGINACK,This register is a write-only register. It can be used to set the value of the CTTRIGINACK outputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGINACK,Set the value of the CTTRIGINACK outputs." line.long 0x8 "ARM_CTI_0__CFG__CSCTI_CFG_ITCHOUT,This register is a write-only register. It can be used to set the value of the CTCHOUT outputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHOUT,Set the value of the CTCHOUT outputs." line.long 0xC "ARM_CTI_0__CFG__CSCTI_CFG_ITTRIGOUT,This register is a write-only register. It can be used to set the value of the CTTRIGOUT outputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGOUT,Set the value of the CTTRIGOUT outputs." rgroup.long 0xEEC++0xF line.long 0x0 "ARM_CTI_0__CFG__CSCTI_CFG_ITCHOUTACK,This register is a read-only register. It can be used to read the values of the CTCHOUTACK inputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHOUTACK,Read the values of the CTCHOUTACK inputs." line.long 0x4 "ARM_CTI_0__CFG__CSCTI_CFG_ITTRIGOUTACK,This register is a read-only register. It can be used to read the values of the CTTRIGOUTACK inputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGOUTACK,Read the value of the CTTRIGOUTACK inputs." line.long 0x8 "ARM_CTI_0__CFG__CSCTI_CFG_ITCHIN,This register is a read-only register. It can be used to read the values of the CTCHIN inputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHIN,Read the value of the CTCHIN inputs." line.long 0xC "ARM_CTI_0__CFG__CSCTI_CFG_ITTRIGIN,This register is a read-only register. It can be used to read the values of the CTTRIGIN inputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGIN,Read the values of the CTTRIGIN inputs." group.long 0xF00++0x3 line.long 0x0 "ARM_CTI_0__CFG__CSCTI_CFG_ITCTRL,This register is used to enable topology detection. For more information see the CoreSight Architecture Specification. This register enables the component to switch from a functional mode. the default behavior. to.." bitfld.long 0x0 0. "INTEGRATION_MODE,Allows the component to switch from functional mode to integration mode or back." "0,1" group.long 0xFA0++0x7 line.long 0x0 "ARM_CTI_0__CFG__CSCTI_CFG_CLAIMSET,This is used in conjunction with Claim Tag Clear Register. CLAIMCLR. This register forms one half of the Claim Tag value. This location allows individual bits to be set. write. and returns the number of bits that can be.." hexmask.long.byte 0x0 0.--3. 1. "CLAIMSET,This claim tag bit is implemented" line.long 0x4 "ARM_CTI_0__CFG__CSCTI_CFG_CLAIMCLR,This register is used in conjunction with Claim Tag Set Register. CLAIMSET. This register forms one half of the Claim Tag value. This location enables individual bits to be cleared. write. and returns the current Claim.." hexmask.long.byte 0x4 0.--3. 1. "CLAIMCLR,The value present reflects the current setting of the Claim Tag." group.long 0xFB0++0x3 line.long 0x0 "ARM_CTI_0__CFG__CSCTI_CFG_LAR,This is used to enable write access to device registers. External accesses from a debugger (paddrdbg31 = 1) are not subject to the Lock Registers. A debugger does not have to unlock the component in order to write and.." hexmask.long 0x0 0.--31. 1. "ACCESS_W,A write of 0xC5ACCE55 enables further write access to this device. A write of any value other than 0xC5ACCE55 will have the affect of removing write access." rgroup.long 0xFB4++0x7 line.long 0x0 "ARM_CTI_0__CFG__CSCTI_CFG_LSR,This indicates the status of the Lock control mechanism. This lock prevents accidental writes by code under debug. When locked. write access is blocked to all registers. except the Lock Access Register. External accesses.." bitfld.long 0x0 2. "LOCKTYPE,Indicates if the Lock Access Register (0xFB0) is implemented as 8-bit or 32-bit" "0,1" bitfld.long 0x0 1. "LOCKGRANT,Returns the current status of the Lock. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" newline bitfld.long 0x0 0. "LOCKEXIST,Indicates that a lock control mechanism exists for this device. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" line.long 0x4 "ARM_CTI_0__CFG__CSCTI_CFG_AUTHSTATUS,Reports what functionality is currently permitted by the authentication interface." bitfld.long 0x4 6.--7. "SNID,Indicates the security level for secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 4.--5. "SID,Indicates the security level for secure invasive debug" "0,1,2,3" newline bitfld.long 0x4 2.--3. "NSNID,Indicates the security level for non-secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 0.--1. "NSID,Indicates the security level for non-secure invasive debug" "0,1,2,3" rgroup.long 0xFC8++0xB line.long 0x0 "ARM_CTI_0__CFG__CSCTI_CFG_DEVID,This register indicates the capabilities of the CTI." hexmask.long.byte 0x0 16.--19. 1. "NUMCH,Number of ECT channels available." hexmask.long.byte 0x0 8.--15. 1. "NUMTRIG,Number of ECT triggers available." newline hexmask.long.byte 0x0 0.--4. 1. "EXTMUXNUM,Indicates the number of multiplexing available on Trigger Inputs and Trigger Outputs using asicctl. Default value of 5'b00000 indicating no multiplexing present. Reflects the value of the Verilog define EXTMUXNUM that the user must alter.." line.long 0x4 "ARM_CTI_0__CFG__CSCTI_CFG_DEVTYPE,It provides a debugger with information about the component when the Part Number field is not recognized. The debugger can then report this information." hexmask.long.byte 0x4 4.--7. 1. "SUB_TYPE,Sub-classification within the major category" hexmask.long.byte 0x4 0.--3. 1. "MAJOR_TYPE,Major classification grouping for this debug/trace component" line.long 0x8 "ARM_CTI_0__CFG__CSCTI_CFG_PERIPHID4,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the memory footprint indicator." hexmask.long.byte 0x8 4.--7. 1. "SIZE,This is a 4-bit value that indicates the total contiguous size of the memory window used by this component in powers of 2 from the standard 4KB. If a component only requires the standard 4KB then this should read as 0x0 4KB only for 8KB set to.." hexmask.long.byte 0x8 0.--3. 1. "DES_2,JEDEC continuation code indicating the designer of the component (along with the identity code)" rgroup.long 0xFE0++0x1F line.long 0x0 "ARM_CTI_0__CFG__CSCTI_CFG_PERIPHID0,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number." hexmask.long.byte 0x0 0.--7. 1. "PART_0,Bits [7 : 0] of the component's part number. This is selected by the designer of the component." line.long 0x4 "ARM_CTI_0__CFG__CSCTI_CFG_PERIPHID1,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number and part of the designer identity." hexmask.long.byte 0x4 4.--7. 1. "DES_0,Bits 3 : 0 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" hexmask.long.byte 0x4 0.--3. 1. "PART_1,Bits [11 : 8] of the component's part number. This is selected by the designer of the component." line.long 0x8 "ARM_CTI_0__CFG__CSCTI_CFG_PERIPHID2,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the product revision." hexmask.long.byte 0x8 4.--7. 1. "REVISION,The Revision field is an incremental value starting at 0x0 for the first design of this component. This only increases by 1 for both major and minor revisions and is simply used as a look-up to establish the exact major/minor revision." bitfld.long 0x8 3. "JEDEC,Always set. Indicates that a JEDEC assigned value is used" "0,1" newline bitfld.long 0x8 0.--2. "DES_1,Bits 6 : 4 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" "?,?,?,?,?,?,6: 4 of the JEDEC identity code indicating the..,?" line.long 0xC "ARM_CTI_0__CFG__CSCTI_CFG_PERIPHID3,Part of the set of Peripheral Identification registers. Contains the RevAnd and Customer Modified fields." hexmask.long.byte 0xC 4.--7. 1. "REVAND,This field indicates minor errata fixes specific to this design for example metal fixes after implementation. In most cases this field is zero. It is recommended that component designers ensure this field can be changed by a metal fix if.." hexmask.long.byte 0xC 0.--3. 1. "CMOD,Where the component is reusable IP this value indicates if the customer has modified the behavior of the component. In most cases this field is zero." line.long 0x10 "ARM_CTI_0__CFG__CSCTI_CFG_COMPID0,Reserved Reserved Reserved A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x10 0.--7. 1. "PRMBL_0,Contains bits [7 : 0] of the component identification" line.long 0x14 "ARM_CTI_0__CFG__CSCTI_CFG_COMPID1,A component identification register. that indicates that the identification registers are present. This register also indicates the component class." hexmask.long.byte 0x14 4.--7. 1. "CLASS,Class of the component. E.g. ROM table CoreSight component etc. Constitutes bits [15 : 12] of the component identification." hexmask.long.byte 0x14 0.--3. 1. "PRMBL_1,Contains bits [11 : 8] of the component identification" line.long 0x18 "ARM_CTI_0__CFG__CSCTI_CFG_COMPID2,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x18 0.--7. 1. "PRMBL_2,Contains bits [23 : 16] of the component identification" line.long 0x1C "ARM_CTI_0__CFG__CSCTI_CFG_COMPID3,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x1C 0.--7. 1. "PRMBL_3,Contains bits [31 : 24] of the component identification" tree.end tree "DEBUGSS0_ARM_CTI_1_CFG_CSCTI_CFG (DEBUGSS0_ARM_CTI_1_CFG_CSCTI_CFG)" base ad:0x73C028000 group.long 0x0++0x3 line.long 0x0 "ARM_CTI_1__CFG__CSCTI_CFG_CTICONTROL,The CTI Control Register enables the CTI. >" bitfld.long 0x0 0. "GLBEN,Enables or disables the ECT." "0,1" group.long 0x10++0x2F line.long 0x0 "ARM_CTI_1__CFG__CSCTI_CFG_CTIINTACK,The CTI Interrupt Acknowledge Register is write-only. Any bits written as a 1 cause the ctitrigout output signal to be acknowledged. The acknowledgement is cleared when MAPTRIGOUT is deactivated. This register is used.." hexmask.long.byte 0x0 0.--7. 1. "INTACK,Acknowledges the corresponding ctitrigout output. There is one bit of the register for each ctitrigout output. When a 1 is written to a bit in this register the corresponding ctitrigout is acknowledged and is cleared when MAPTRIGOUT is LOW." line.long 0x4 "ARM_CTI_1__CFG__CSCTI_CFG_CTIAPPSET,The CTI Application Trigger Set Register is read/write. A write to this register causes a channel event to be raised. corresponding to the bit written to." hexmask.long.byte 0x4 0.--3. 1. "APPSET,Setting a bit HIGH generates a channel event for the selected channel. There is one bit of the register for each channel. Read : 0 = application trigger inactive (reset). 1 = application trigger active. Write : 0 = no effect. 1 = generate.." line.long 0x8 "ARM_CTI_1__CFG__CSCTI_CFG_CTIAPPCLEAR,The CTI Interrupt Acknowledge Register is write-only. A write to this register causes a channel event to be cleared. corresponding to the bit written to." hexmask.long.byte 0x8 0.--3. 1. "APPCLEAR,Clears corresponding bits in the CTIAPPSET register. There is one bit of the register for each channel. When a 1 is written to a bit in this register the corresponding application trigger is disabled in the CTIAPPSET register. Writing a 0 to.." line.long 0xC "ARM_CTI_1__CFG__CSCTI_CFG_CTIAPPPULSE,The CTI Application Pulse Register is write-only. A write to this register causes a channel event pulse. one cticlk period. to be generated. corresponding to the bit written to. The pulse external to the ECT can be.." hexmask.long.byte 0xC 0.--3. 1. "APPULSE,Setting a bit HIGH generates a channel event pulse for the selected channel. There is one bit of the register for each channel. When a 1 is written to a bit in this register a corresponding channel event pulse is generated for one cticlk.." line.long 0x10 "ARM_CTI_1__CFG__CSCTI_CFG_CTIINEN0,The CTI Trigger 0 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x10 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x14 "ARM_CTI_1__CFG__CSCTI_CFG_CTIINEN1,The CTI Trigger 1 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x14 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x18 "ARM_CTI_1__CFG__CSCTI_CFG_CTIINEN2,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x18 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x1C "ARM_CTI_1__CFG__CSCTI_CFG_CTIINEN3,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x20 "ARM_CTI_1__CFG__CSCTI_CFG_CTIINEN4,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x20 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x24 "ARM_CTI_1__CFG__CSCTI_CFG_CTIINEN5,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x24 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x28 "ARM_CTI_1__CFG__CSCTI_CFG_CTIINEN6,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x28 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x2C "ARM_CTI_1__CFG__CSCTI_CFG_CTIINEN7,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x2C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." group.long 0xA0++0x1F line.long 0x0 "ARM_CTI_1__CFG__CSCTI_CFG_CTIOUTEN0,The CTI Channel to Trigger 0 Enable Registers define which channels can generate a ctitrigout[0] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x0 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x4 "ARM_CTI_1__CFG__CSCTI_CFG_CTIOUTEN1,The CTI Channel to Trigger 1 Enable Registers define which channels can generate a ctitrigout[1] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x4 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x8 "ARM_CTI_1__CFG__CSCTI_CFG_CTIOUTEN2,The CTI Channel to Trigger 2 Enable Registers define which channels can generate a ctitrigout[2] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x8 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[2] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0xC "ARM_CTI_1__CFG__CSCTI_CFG_CTIOUTEN3,The CTI Channel to Trigger 3 Enable Registers define which channels can generate a ctitrigout[3] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0xC 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[3] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x10 "ARM_CTI_1__CFG__CSCTI_CFG_CTIOUTEN4,The CTI Channel to Trigger 4 Enable Registers define which channels can generate a ctitrigout[4] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x10 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[4] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x14 "ARM_CTI_1__CFG__CSCTI_CFG_CTIOUTEN5,The CTI Channel to Trigger 5 Enable Registers define which channels can generate a ctitrigout[5] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x14 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[5] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x18 "ARM_CTI_1__CFG__CSCTI_CFG_CTIOUTEN6,The CTI Channel to Trigger 6 Enable Registers define which channels can generate a ctitrigout[6] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x18 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[6] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x1C "ARM_CTI_1__CFG__CSCTI_CFG_CTIOUTEN7,The CTI Channel to Trigger 7 Enable Registers define which channels can generate a ctitrigout[7] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[7] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." rgroup.long 0x130++0xF line.long 0x0 "ARM_CTI_1__CFG__CSCTI_CFG_CTITRIGINSTATUS,The CTI Trigger In Status Register provides the status of the ctitrigin inputs." hexmask.long.byte 0x0 0.--7. 1. "TRIGINSTATUS,Shows the status of the ctitrigin inputs. 1 = ctitrigin is active. 0 = ctitrigin is inactive. Because the register provides a view of the raw ctitrigin inputs the reset value is unknown. There is one bit of the field for each trigger.." line.long 0x4 "ARM_CTI_1__CFG__CSCTI_CFG_CTITRIGOUTSTATUS,The CTI Trigger Out Status Register provides the status of the ctitrigout outputs." hexmask.long.byte 0x4 0.--7. 1. "TRIGOUTSTATUS,Shows the status of the ctitrigout outputs. 1 = ctitrigout is active. 0 = ctitrigout is inactive. There is one bit of the field for each trigger output." line.long 0x8 "ARM_CTI_1__CFG__CSCTI_CFG_CTICHINSTATUS,The CTI Channel In Status Register provides the status of the ctichin inputs." hexmask.long.byte 0x8 0.--3. 1. "CTICHINSTATUS,Shows the status of the ctichin inputs. 1 = ctichin is active. 0 = ctichin is inactive. Because the register provides a view of the raw ctichin inputs the reset value is unknown. There is one bit of the field for each channel input." line.long 0xC "ARM_CTI_1__CFG__CSCTI_CFG_CTICHOUTSTATUS,The CTI Channel Out Status Register provides the status of the CTI ctichout outputs." hexmask.long.byte 0xC 0.--3. 1. "CTICHOUTSTATUS,Shows the status of the ctichout outputs. 1 = ctichout is active. 0 = ctichout is inactive. There is one bit of the field for each channel output." group.long 0x140++0x7 line.long 0x0 "ARM_CTI_1__CFG__CSCTI_CFG_CTIGATE,The Gate Enable Register prevents the channels from propagating through the CTM to other CTIs. This enables local cross-triggering. for example for causing an interrupt when the ETM trigger occurs. It can be used.." bitfld.long 0x0 3. "CTIGATEEN3,Enable CTICHOUT3. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 2. "CTIGATEEN2,Enable CTICHOUT2. Set to 0 to disable channel propagation." "0,1" newline bitfld.long 0x0 1. "CTIGATEEN1,Enable CTICHOUT1. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 0. "CTIGATEEN0,Enable CTICHOUT0. Set to 0 to disable channel propagation." "0,1" line.long 0x4 "ARM_CTI_1__CFG__CSCTI_CFG_ASICCTL,Implementation-defined ASIC control. value written to the register is output on asicctl[7 : 0]." hexmask.long.byte 0x4 0.--7. 1. "ASICCTL,Implementation-defined ASIC control value written to the register is output on asicctl[7 : 0]. If external multiplexing of trigger signals is implemented then the number of multiplexed signals on each trigger must be reflected within the.." group.long 0xEDC++0xF line.long 0x0 "ARM_CTI_1__CFG__CSCTI_CFG_ITCHINACK,This register is a write-only register. It can be used to set the value of the CTCHINACK outputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHINACK,Set the value of the CTCHINACK outputs." line.long 0x4 "ARM_CTI_1__CFG__CSCTI_CFG_ITTRIGINACK,This register is a write-only register. It can be used to set the value of the CTTRIGINACK outputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGINACK,Set the value of the CTTRIGINACK outputs." line.long 0x8 "ARM_CTI_1__CFG__CSCTI_CFG_ITCHOUT,This register is a write-only register. It can be used to set the value of the CTCHOUT outputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHOUT,Set the value of the CTCHOUT outputs." line.long 0xC "ARM_CTI_1__CFG__CSCTI_CFG_ITTRIGOUT,This register is a write-only register. It can be used to set the value of the CTTRIGOUT outputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGOUT,Set the value of the CTTRIGOUT outputs." rgroup.long 0xEEC++0xF line.long 0x0 "ARM_CTI_1__CFG__CSCTI_CFG_ITCHOUTACK,This register is a read-only register. It can be used to read the values of the CTCHOUTACK inputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHOUTACK,Read the values of the CTCHOUTACK inputs." line.long 0x4 "ARM_CTI_1__CFG__CSCTI_CFG_ITTRIGOUTACK,This register is a read-only register. It can be used to read the values of the CTTRIGOUTACK inputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGOUTACK,Read the value of the CTTRIGOUTACK inputs." line.long 0x8 "ARM_CTI_1__CFG__CSCTI_CFG_ITCHIN,This register is a read-only register. It can be used to read the values of the CTCHIN inputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHIN,Read the value of the CTCHIN inputs." line.long 0xC "ARM_CTI_1__CFG__CSCTI_CFG_ITTRIGIN,This register is a read-only register. It can be used to read the values of the CTTRIGIN inputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGIN,Read the values of the CTTRIGIN inputs." group.long 0xF00++0x3 line.long 0x0 "ARM_CTI_1__CFG__CSCTI_CFG_ITCTRL,This register is used to enable topology detection. For more information see the CoreSight Architecture Specification. This register enables the component to switch from a functional mode. the default behavior. to.." bitfld.long 0x0 0. "INTEGRATION_MODE,Allows the component to switch from functional mode to integration mode or back." "0,1" group.long 0xFA0++0x7 line.long 0x0 "ARM_CTI_1__CFG__CSCTI_CFG_CLAIMSET,This is used in conjunction with Claim Tag Clear Register. CLAIMCLR. This register forms one half of the Claim Tag value. This location allows individual bits to be set. write. and returns the number of bits that can be.." hexmask.long.byte 0x0 0.--3. 1. "CLAIMSET,This claim tag bit is implemented" line.long 0x4 "ARM_CTI_1__CFG__CSCTI_CFG_CLAIMCLR,This register is used in conjunction with Claim Tag Set Register. CLAIMSET. This register forms one half of the Claim Tag value. This location enables individual bits to be cleared. write. and returns the current Claim.." hexmask.long.byte 0x4 0.--3. 1. "CLAIMCLR,The value present reflects the current setting of the Claim Tag." group.long 0xFB0++0x3 line.long 0x0 "ARM_CTI_1__CFG__CSCTI_CFG_LAR,This is used to enable write access to device registers. External accesses from a debugger (paddrdbg31 = 1) are not subject to the Lock Registers. A debugger does not have to unlock the component in order to write and.." hexmask.long 0x0 0.--31. 1. "ACCESS_W,A write of 0xC5ACCE55 enables further write access to this device. A write of any value other than 0xC5ACCE55 will have the affect of removing write access." rgroup.long 0xFB4++0x7 line.long 0x0 "ARM_CTI_1__CFG__CSCTI_CFG_LSR,This indicates the status of the Lock control mechanism. This lock prevents accidental writes by code under debug. When locked. write access is blocked to all registers. except the Lock Access Register. External accesses.." bitfld.long 0x0 2. "LOCKTYPE,Indicates if the Lock Access Register (0xFB0) is implemented as 8-bit or 32-bit" "0,1" bitfld.long 0x0 1. "LOCKGRANT,Returns the current status of the Lock. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" newline bitfld.long 0x0 0. "LOCKEXIST,Indicates that a lock control mechanism exists for this device. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" line.long 0x4 "ARM_CTI_1__CFG__CSCTI_CFG_AUTHSTATUS,Reports what functionality is currently permitted by the authentication interface." bitfld.long 0x4 6.--7. "SNID,Indicates the security level for secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 4.--5. "SID,Indicates the security level for secure invasive debug" "0,1,2,3" newline bitfld.long 0x4 2.--3. "NSNID,Indicates the security level for non-secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 0.--1. "NSID,Indicates the security level for non-secure invasive debug" "0,1,2,3" rgroup.long 0xFC8++0xB line.long 0x0 "ARM_CTI_1__CFG__CSCTI_CFG_DEVID,This register indicates the capabilities of the CTI." hexmask.long.byte 0x0 16.--19. 1. "NUMCH,Number of ECT channels available." hexmask.long.byte 0x0 8.--15. 1. "NUMTRIG,Number of ECT triggers available." newline hexmask.long.byte 0x0 0.--4. 1. "EXTMUXNUM,Indicates the number of multiplexing available on Trigger Inputs and Trigger Outputs using asicctl. Default value of 5'b00000 indicating no multiplexing present. Reflects the value of the Verilog define EXTMUXNUM that the user must alter.." line.long 0x4 "ARM_CTI_1__CFG__CSCTI_CFG_DEVTYPE,It provides a debugger with information about the component when the Part Number field is not recognized. The debugger can then report this information." hexmask.long.byte 0x4 4.--7. 1. "SUB_TYPE,Sub-classification within the major category" hexmask.long.byte 0x4 0.--3. 1. "MAJOR_TYPE,Major classification grouping for this debug/trace component" line.long 0x8 "ARM_CTI_1__CFG__CSCTI_CFG_PERIPHID4,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the memory footprint indicator." hexmask.long.byte 0x8 4.--7. 1. "SIZE,This is a 4-bit value that indicates the total contiguous size of the memory window used by this component in powers of 2 from the standard 4KB. If a component only requires the standard 4KB then this should read as 0x0 4KB only for 8KB set to.." hexmask.long.byte 0x8 0.--3. 1. "DES_2,JEDEC continuation code indicating the designer of the component (along with the identity code)" rgroup.long 0xFE0++0x1F line.long 0x0 "ARM_CTI_1__CFG__CSCTI_CFG_PERIPHID0,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number." hexmask.long.byte 0x0 0.--7. 1. "PART_0,Bits [7 : 0] of the component's part number. This is selected by the designer of the component." line.long 0x4 "ARM_CTI_1__CFG__CSCTI_CFG_PERIPHID1,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number and part of the designer identity." hexmask.long.byte 0x4 4.--7. 1. "DES_0,Bits 3 : 0 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" hexmask.long.byte 0x4 0.--3. 1. "PART_1,Bits [11 : 8] of the component's part number. This is selected by the designer of the component." line.long 0x8 "ARM_CTI_1__CFG__CSCTI_CFG_PERIPHID2,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the product revision." hexmask.long.byte 0x8 4.--7. 1. "REVISION,The Revision field is an incremental value starting at 0x0 for the first design of this component. This only increases by 1 for both major and minor revisions and is simply used as a look-up to establish the exact major/minor revision." bitfld.long 0x8 3. "JEDEC,Always set. Indicates that a JEDEC assigned value is used" "0,1" newline bitfld.long 0x8 0.--2. "DES_1,Bits 6 : 4 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" "?,?,?,?,?,?,6: 4 of the JEDEC identity code indicating the..,?" line.long 0xC "ARM_CTI_1__CFG__CSCTI_CFG_PERIPHID3,Part of the set of Peripheral Identification registers. Contains the RevAnd and Customer Modified fields." hexmask.long.byte 0xC 4.--7. 1. "REVAND,This field indicates minor errata fixes specific to this design for example metal fixes after implementation. In most cases this field is zero. It is recommended that component designers ensure this field can be changed by a metal fix if.." hexmask.long.byte 0xC 0.--3. 1. "CMOD,Where the component is reusable IP this value indicates if the customer has modified the behavior of the component. In most cases this field is zero." line.long 0x10 "ARM_CTI_1__CFG__CSCTI_CFG_COMPID0,Reserved Reserved Reserved A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x10 0.--7. 1. "PRMBL_0,Contains bits [7 : 0] of the component identification" line.long 0x14 "ARM_CTI_1__CFG__CSCTI_CFG_COMPID1,A component identification register. that indicates that the identification registers are present. This register also indicates the component class." hexmask.long.byte 0x14 4.--7. 1. "CLASS,Class of the component. E.g. ROM table CoreSight component etc. Constitutes bits [15 : 12] of the component identification." hexmask.long.byte 0x14 0.--3. 1. "PRMBL_1,Contains bits [11 : 8] of the component identification" line.long 0x18 "ARM_CTI_1__CFG__CSCTI_CFG_COMPID2,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x18 0.--7. 1. "PRMBL_2,Contains bits [23 : 16] of the component identification" line.long 0x1C "ARM_CTI_1__CFG__CSCTI_CFG_COMPID3,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x1C 0.--7. 1. "PRMBL_3,Contains bits [31 : 24] of the component identification" tree.end tree "DEBUGSS0_ARM_CTI_2_CFG_CSCTI_CFG (DEBUGSS0_ARM_CTI_2_CFG_CSCTI_CFG)" base ad:0x73C029000 group.long 0x0++0x3 line.long 0x0 "ARM_CTI_2__CFG__CSCTI_CFG_CTICONTROL,The CTI Control Register enables the CTI. >" bitfld.long 0x0 0. "GLBEN,Enables or disables the ECT." "0,1" group.long 0x10++0x2F line.long 0x0 "ARM_CTI_2__CFG__CSCTI_CFG_CTIINTACK,The CTI Interrupt Acknowledge Register is write-only. Any bits written as a 1 cause the ctitrigout output signal to be acknowledged. The acknowledgement is cleared when MAPTRIGOUT is deactivated. This register is used.." hexmask.long.byte 0x0 0.--7. 1. "INTACK,Acknowledges the corresponding ctitrigout output. There is one bit of the register for each ctitrigout output. When a 1 is written to a bit in this register the corresponding ctitrigout is acknowledged and is cleared when MAPTRIGOUT is LOW." line.long 0x4 "ARM_CTI_2__CFG__CSCTI_CFG_CTIAPPSET,The CTI Application Trigger Set Register is read/write. A write to this register causes a channel event to be raised. corresponding to the bit written to." hexmask.long.byte 0x4 0.--3. 1. "APPSET,Setting a bit HIGH generates a channel event for the selected channel. There is one bit of the register for each channel. Read : 0 = application trigger inactive (reset). 1 = application trigger active. Write : 0 = no effect. 1 = generate.." line.long 0x8 "ARM_CTI_2__CFG__CSCTI_CFG_CTIAPPCLEAR,The CTI Interrupt Acknowledge Register is write-only. A write to this register causes a channel event to be cleared. corresponding to the bit written to." hexmask.long.byte 0x8 0.--3. 1. "APPCLEAR,Clears corresponding bits in the CTIAPPSET register. There is one bit of the register for each channel. When a 1 is written to a bit in this register the corresponding application trigger is disabled in the CTIAPPSET register. Writing a 0 to.." line.long 0xC "ARM_CTI_2__CFG__CSCTI_CFG_CTIAPPPULSE,The CTI Application Pulse Register is write-only. A write to this register causes a channel event pulse. one cticlk period. to be generated. corresponding to the bit written to. The pulse external to the ECT can be.." hexmask.long.byte 0xC 0.--3. 1. "APPULSE,Setting a bit HIGH generates a channel event pulse for the selected channel. There is one bit of the register for each channel. When a 1 is written to a bit in this register a corresponding channel event pulse is generated for one cticlk.." line.long 0x10 "ARM_CTI_2__CFG__CSCTI_CFG_CTIINEN0,The CTI Trigger 0 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x10 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x14 "ARM_CTI_2__CFG__CSCTI_CFG_CTIINEN1,The CTI Trigger 1 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x14 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x18 "ARM_CTI_2__CFG__CSCTI_CFG_CTIINEN2,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x18 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x1C "ARM_CTI_2__CFG__CSCTI_CFG_CTIINEN3,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x20 "ARM_CTI_2__CFG__CSCTI_CFG_CTIINEN4,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x20 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x24 "ARM_CTI_2__CFG__CSCTI_CFG_CTIINEN5,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x24 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x28 "ARM_CTI_2__CFG__CSCTI_CFG_CTIINEN6,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x28 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x2C "ARM_CTI_2__CFG__CSCTI_CFG_CTIINEN7,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x2C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." group.long 0xA0++0x1F line.long 0x0 "ARM_CTI_2__CFG__CSCTI_CFG_CTIOUTEN0,The CTI Channel to Trigger 0 Enable Registers define which channels can generate a ctitrigout[0] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x0 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x4 "ARM_CTI_2__CFG__CSCTI_CFG_CTIOUTEN1,The CTI Channel to Trigger 1 Enable Registers define which channels can generate a ctitrigout[1] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x4 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x8 "ARM_CTI_2__CFG__CSCTI_CFG_CTIOUTEN2,The CTI Channel to Trigger 2 Enable Registers define which channels can generate a ctitrigout[2] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x8 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[2] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0xC "ARM_CTI_2__CFG__CSCTI_CFG_CTIOUTEN3,The CTI Channel to Trigger 3 Enable Registers define which channels can generate a ctitrigout[3] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0xC 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[3] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x10 "ARM_CTI_2__CFG__CSCTI_CFG_CTIOUTEN4,The CTI Channel to Trigger 4 Enable Registers define which channels can generate a ctitrigout[4] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x10 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[4] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x14 "ARM_CTI_2__CFG__CSCTI_CFG_CTIOUTEN5,The CTI Channel to Trigger 5 Enable Registers define which channels can generate a ctitrigout[5] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x14 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[5] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x18 "ARM_CTI_2__CFG__CSCTI_CFG_CTIOUTEN6,The CTI Channel to Trigger 6 Enable Registers define which channels can generate a ctitrigout[6] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x18 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[6] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x1C "ARM_CTI_2__CFG__CSCTI_CFG_CTIOUTEN7,The CTI Channel to Trigger 7 Enable Registers define which channels can generate a ctitrigout[7] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[7] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." rgroup.long 0x130++0xF line.long 0x0 "ARM_CTI_2__CFG__CSCTI_CFG_CTITRIGINSTATUS,The CTI Trigger In Status Register provides the status of the ctitrigin inputs." hexmask.long.byte 0x0 0.--7. 1. "TRIGINSTATUS,Shows the status of the ctitrigin inputs. 1 = ctitrigin is active. 0 = ctitrigin is inactive. Because the register provides a view of the raw ctitrigin inputs the reset value is unknown. There is one bit of the field for each trigger.." line.long 0x4 "ARM_CTI_2__CFG__CSCTI_CFG_CTITRIGOUTSTATUS,The CTI Trigger Out Status Register provides the status of the ctitrigout outputs." hexmask.long.byte 0x4 0.--7. 1. "TRIGOUTSTATUS,Shows the status of the ctitrigout outputs. 1 = ctitrigout is active. 0 = ctitrigout is inactive. There is one bit of the field for each trigger output." line.long 0x8 "ARM_CTI_2__CFG__CSCTI_CFG_CTICHINSTATUS,The CTI Channel In Status Register provides the status of the ctichin inputs." hexmask.long.byte 0x8 0.--3. 1. "CTICHINSTATUS,Shows the status of the ctichin inputs. 1 = ctichin is active. 0 = ctichin is inactive. Because the register provides a view of the raw ctichin inputs the reset value is unknown. There is one bit of the field for each channel input." line.long 0xC "ARM_CTI_2__CFG__CSCTI_CFG_CTICHOUTSTATUS,The CTI Channel Out Status Register provides the status of the CTI ctichout outputs." hexmask.long.byte 0xC 0.--3. 1. "CTICHOUTSTATUS,Shows the status of the ctichout outputs. 1 = ctichout is active. 0 = ctichout is inactive. There is one bit of the field for each channel output." group.long 0x140++0x7 line.long 0x0 "ARM_CTI_2__CFG__CSCTI_CFG_CTIGATE,The Gate Enable Register prevents the channels from propagating through the CTM to other CTIs. This enables local cross-triggering. for example for causing an interrupt when the ETM trigger occurs. It can be used.." bitfld.long 0x0 3. "CTIGATEEN3,Enable CTICHOUT3. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 2. "CTIGATEEN2,Enable CTICHOUT2. Set to 0 to disable channel propagation." "0,1" newline bitfld.long 0x0 1. "CTIGATEEN1,Enable CTICHOUT1. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 0. "CTIGATEEN0,Enable CTICHOUT0. Set to 0 to disable channel propagation." "0,1" line.long 0x4 "ARM_CTI_2__CFG__CSCTI_CFG_ASICCTL,Implementation-defined ASIC control. value written to the register is output on asicctl[7 : 0]." hexmask.long.byte 0x4 0.--7. 1. "ASICCTL,Implementation-defined ASIC control value written to the register is output on asicctl[7 : 0]. If external multiplexing of trigger signals is implemented then the number of multiplexed signals on each trigger must be reflected within the.." group.long 0xEDC++0xF line.long 0x0 "ARM_CTI_2__CFG__CSCTI_CFG_ITCHINACK,This register is a write-only register. It can be used to set the value of the CTCHINACK outputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHINACK,Set the value of the CTCHINACK outputs." line.long 0x4 "ARM_CTI_2__CFG__CSCTI_CFG_ITTRIGINACK,This register is a write-only register. It can be used to set the value of the CTTRIGINACK outputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGINACK,Set the value of the CTTRIGINACK outputs." line.long 0x8 "ARM_CTI_2__CFG__CSCTI_CFG_ITCHOUT,This register is a write-only register. It can be used to set the value of the CTCHOUT outputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHOUT,Set the value of the CTCHOUT outputs." line.long 0xC "ARM_CTI_2__CFG__CSCTI_CFG_ITTRIGOUT,This register is a write-only register. It can be used to set the value of the CTTRIGOUT outputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGOUT,Set the value of the CTTRIGOUT outputs." rgroup.long 0xEEC++0xF line.long 0x0 "ARM_CTI_2__CFG__CSCTI_CFG_ITCHOUTACK,This register is a read-only register. It can be used to read the values of the CTCHOUTACK inputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHOUTACK,Read the values of the CTCHOUTACK inputs." line.long 0x4 "ARM_CTI_2__CFG__CSCTI_CFG_ITTRIGOUTACK,This register is a read-only register. It can be used to read the values of the CTTRIGOUTACK inputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGOUTACK,Read the value of the CTTRIGOUTACK inputs." line.long 0x8 "ARM_CTI_2__CFG__CSCTI_CFG_ITCHIN,This register is a read-only register. It can be used to read the values of the CTCHIN inputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHIN,Read the value of the CTCHIN inputs." line.long 0xC "ARM_CTI_2__CFG__CSCTI_CFG_ITTRIGIN,This register is a read-only register. It can be used to read the values of the CTTRIGIN inputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGIN,Read the values of the CTTRIGIN inputs." group.long 0xF00++0x3 line.long 0x0 "ARM_CTI_2__CFG__CSCTI_CFG_ITCTRL,This register is used to enable topology detection. For more information see the CoreSight Architecture Specification. This register enables the component to switch from a functional mode. the default behavior. to.." bitfld.long 0x0 0. "INTEGRATION_MODE,Allows the component to switch from functional mode to integration mode or back." "0,1" group.long 0xFA0++0x7 line.long 0x0 "ARM_CTI_2__CFG__CSCTI_CFG_CLAIMSET,This is used in conjunction with Claim Tag Clear Register. CLAIMCLR. This register forms one half of the Claim Tag value. This location allows individual bits to be set. write. and returns the number of bits that can be.." hexmask.long.byte 0x0 0.--3. 1. "CLAIMSET,This claim tag bit is implemented" line.long 0x4 "ARM_CTI_2__CFG__CSCTI_CFG_CLAIMCLR,This register is used in conjunction with Claim Tag Set Register. CLAIMSET. This register forms one half of the Claim Tag value. This location enables individual bits to be cleared. write. and returns the current Claim.." hexmask.long.byte 0x4 0.--3. 1. "CLAIMCLR,The value present reflects the current setting of the Claim Tag." group.long 0xFB0++0x3 line.long 0x0 "ARM_CTI_2__CFG__CSCTI_CFG_LAR,This is used to enable write access to device registers. External accesses from a debugger (paddrdbg31 = 1) are not subject to the Lock Registers. A debugger does not have to unlock the component in order to write and.." hexmask.long 0x0 0.--31. 1. "ACCESS_W,A write of 0xC5ACCE55 enables further write access to this device. A write of any value other than 0xC5ACCE55 will have the affect of removing write access." rgroup.long 0xFB4++0x7 line.long 0x0 "ARM_CTI_2__CFG__CSCTI_CFG_LSR,This indicates the status of the Lock control mechanism. This lock prevents accidental writes by code under debug. When locked. write access is blocked to all registers. except the Lock Access Register. External accesses.." bitfld.long 0x0 2. "LOCKTYPE,Indicates if the Lock Access Register (0xFB0) is implemented as 8-bit or 32-bit" "0,1" bitfld.long 0x0 1. "LOCKGRANT,Returns the current status of the Lock. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" newline bitfld.long 0x0 0. "LOCKEXIST,Indicates that a lock control mechanism exists for this device. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" line.long 0x4 "ARM_CTI_2__CFG__CSCTI_CFG_AUTHSTATUS,Reports what functionality is currently permitted by the authentication interface." bitfld.long 0x4 6.--7. "SNID,Indicates the security level for secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 4.--5. "SID,Indicates the security level for secure invasive debug" "0,1,2,3" newline bitfld.long 0x4 2.--3. "NSNID,Indicates the security level for non-secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 0.--1. "NSID,Indicates the security level for non-secure invasive debug" "0,1,2,3" rgroup.long 0xFC8++0xB line.long 0x0 "ARM_CTI_2__CFG__CSCTI_CFG_DEVID,This register indicates the capabilities of the CTI." hexmask.long.byte 0x0 16.--19. 1. "NUMCH,Number of ECT channels available." hexmask.long.byte 0x0 8.--15. 1. "NUMTRIG,Number of ECT triggers available." newline hexmask.long.byte 0x0 0.--4. 1. "EXTMUXNUM,Indicates the number of multiplexing available on Trigger Inputs and Trigger Outputs using asicctl. Default value of 5'b00000 indicating no multiplexing present. Reflects the value of the Verilog define EXTMUXNUM that the user must alter.." line.long 0x4 "ARM_CTI_2__CFG__CSCTI_CFG_DEVTYPE,It provides a debugger with information about the component when the Part Number field is not recognized. The debugger can then report this information." hexmask.long.byte 0x4 4.--7. 1. "SUB_TYPE,Sub-classification within the major category" hexmask.long.byte 0x4 0.--3. 1. "MAJOR_TYPE,Major classification grouping for this debug/trace component" line.long 0x8 "ARM_CTI_2__CFG__CSCTI_CFG_PERIPHID4,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the memory footprint indicator." hexmask.long.byte 0x8 4.--7. 1. "SIZE,This is a 4-bit value that indicates the total contiguous size of the memory window used by this component in powers of 2 from the standard 4KB. If a component only requires the standard 4KB then this should read as 0x0 4KB only for 8KB set to.." hexmask.long.byte 0x8 0.--3. 1. "DES_2,JEDEC continuation code indicating the designer of the component (along with the identity code)" rgroup.long 0xFE0++0x1F line.long 0x0 "ARM_CTI_2__CFG__CSCTI_CFG_PERIPHID0,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number." hexmask.long.byte 0x0 0.--7. 1. "PART_0,Bits [7 : 0] of the component's part number. This is selected by the designer of the component." line.long 0x4 "ARM_CTI_2__CFG__CSCTI_CFG_PERIPHID1,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number and part of the designer identity." hexmask.long.byte 0x4 4.--7. 1. "DES_0,Bits 3 : 0 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" hexmask.long.byte 0x4 0.--3. 1. "PART_1,Bits [11 : 8] of the component's part number. This is selected by the designer of the component." line.long 0x8 "ARM_CTI_2__CFG__CSCTI_CFG_PERIPHID2,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the product revision." hexmask.long.byte 0x8 4.--7. 1. "REVISION,The Revision field is an incremental value starting at 0x0 for the first design of this component. This only increases by 1 for both major and minor revisions and is simply used as a look-up to establish the exact major/minor revision." bitfld.long 0x8 3. "JEDEC,Always set. Indicates that a JEDEC assigned value is used" "0,1" newline bitfld.long 0x8 0.--2. "DES_1,Bits 6 : 4 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" "?,?,?,?,?,?,6: 4 of the JEDEC identity code indicating the..,?" line.long 0xC "ARM_CTI_2__CFG__CSCTI_CFG_PERIPHID3,Part of the set of Peripheral Identification registers. Contains the RevAnd and Customer Modified fields." hexmask.long.byte 0xC 4.--7. 1. "REVAND,This field indicates minor errata fixes specific to this design for example metal fixes after implementation. In most cases this field is zero. It is recommended that component designers ensure this field can be changed by a metal fix if.." hexmask.long.byte 0xC 0.--3. 1. "CMOD,Where the component is reusable IP this value indicates if the customer has modified the behavior of the component. In most cases this field is zero." line.long 0x10 "ARM_CTI_2__CFG__CSCTI_CFG_COMPID0,Reserved Reserved Reserved A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x10 0.--7. 1. "PRMBL_0,Contains bits [7 : 0] of the component identification" line.long 0x14 "ARM_CTI_2__CFG__CSCTI_CFG_COMPID1,A component identification register. that indicates that the identification registers are present. This register also indicates the component class." hexmask.long.byte 0x14 4.--7. 1. "CLASS,Class of the component. E.g. ROM table CoreSight component etc. Constitutes bits [15 : 12] of the component identification." hexmask.long.byte 0x14 0.--3. 1. "PRMBL_1,Contains bits [11 : 8] of the component identification" line.long 0x18 "ARM_CTI_2__CFG__CSCTI_CFG_COMPID2,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x18 0.--7. 1. "PRMBL_2,Contains bits [23 : 16] of the component identification" line.long 0x1C "ARM_CTI_2__CFG__CSCTI_CFG_COMPID3,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x1C 0.--7. 1. "PRMBL_3,Contains bits [31 : 24] of the component identification" tree.end tree "DEBUGSS0_ARM_CTI_3_CFG_CSCTI_CFG (DEBUGSS0_ARM_CTI_3_CFG_CSCTI_CFG)" base ad:0x73C02A000 group.long 0x0++0x3 line.long 0x0 "ARM_CTI_3__CFG__CSCTI_CFG_CTICONTROL,The CTI Control Register enables the CTI. >" bitfld.long 0x0 0. "GLBEN,Enables or disables the ECT." "0,1" group.long 0x10++0x2F line.long 0x0 "ARM_CTI_3__CFG__CSCTI_CFG_CTIINTACK,The CTI Interrupt Acknowledge Register is write-only. Any bits written as a 1 cause the ctitrigout output signal to be acknowledged. The acknowledgement is cleared when MAPTRIGOUT is deactivated. This register is used.." hexmask.long.byte 0x0 0.--7. 1. "INTACK,Acknowledges the corresponding ctitrigout output. There is one bit of the register for each ctitrigout output. When a 1 is written to a bit in this register the corresponding ctitrigout is acknowledged and is cleared when MAPTRIGOUT is LOW." line.long 0x4 "ARM_CTI_3__CFG__CSCTI_CFG_CTIAPPSET,The CTI Application Trigger Set Register is read/write. A write to this register causes a channel event to be raised. corresponding to the bit written to." hexmask.long.byte 0x4 0.--3. 1. "APPSET,Setting a bit HIGH generates a channel event for the selected channel. There is one bit of the register for each channel. Read : 0 = application trigger inactive (reset). 1 = application trigger active. Write : 0 = no effect. 1 = generate.." line.long 0x8 "ARM_CTI_3__CFG__CSCTI_CFG_CTIAPPCLEAR,The CTI Interrupt Acknowledge Register is write-only. A write to this register causes a channel event to be cleared. corresponding to the bit written to." hexmask.long.byte 0x8 0.--3. 1. "APPCLEAR,Clears corresponding bits in the CTIAPPSET register. There is one bit of the register for each channel. When a 1 is written to a bit in this register the corresponding application trigger is disabled in the CTIAPPSET register. Writing a 0 to.." line.long 0xC "ARM_CTI_3__CFG__CSCTI_CFG_CTIAPPPULSE,The CTI Application Pulse Register is write-only. A write to this register causes a channel event pulse. one cticlk period. to be generated. corresponding to the bit written to. The pulse external to the ECT can be.." hexmask.long.byte 0xC 0.--3. 1. "APPULSE,Setting a bit HIGH generates a channel event pulse for the selected channel. There is one bit of the register for each channel. When a 1 is written to a bit in this register a corresponding channel event pulse is generated for one cticlk.." line.long 0x10 "ARM_CTI_3__CFG__CSCTI_CFG_CTIINEN0,The CTI Trigger 0 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x10 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x14 "ARM_CTI_3__CFG__CSCTI_CFG_CTIINEN1,The CTI Trigger 1 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x14 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x18 "ARM_CTI_3__CFG__CSCTI_CFG_CTIINEN2,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x18 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x1C "ARM_CTI_3__CFG__CSCTI_CFG_CTIINEN3,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x20 "ARM_CTI_3__CFG__CSCTI_CFG_CTIINEN4,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x20 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x24 "ARM_CTI_3__CFG__CSCTI_CFG_CTIINEN5,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x24 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x28 "ARM_CTI_3__CFG__CSCTI_CFG_CTIINEN6,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x28 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x2C "ARM_CTI_3__CFG__CSCTI_CFG_CTIINEN7,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x2C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." group.long 0xA0++0x1F line.long 0x0 "ARM_CTI_3__CFG__CSCTI_CFG_CTIOUTEN0,The CTI Channel to Trigger 0 Enable Registers define which channels can generate a ctitrigout[0] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x0 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x4 "ARM_CTI_3__CFG__CSCTI_CFG_CTIOUTEN1,The CTI Channel to Trigger 1 Enable Registers define which channels can generate a ctitrigout[1] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x4 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x8 "ARM_CTI_3__CFG__CSCTI_CFG_CTIOUTEN2,The CTI Channel to Trigger 2 Enable Registers define which channels can generate a ctitrigout[2] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x8 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[2] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0xC "ARM_CTI_3__CFG__CSCTI_CFG_CTIOUTEN3,The CTI Channel to Trigger 3 Enable Registers define which channels can generate a ctitrigout[3] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0xC 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[3] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x10 "ARM_CTI_3__CFG__CSCTI_CFG_CTIOUTEN4,The CTI Channel to Trigger 4 Enable Registers define which channels can generate a ctitrigout[4] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x10 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[4] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x14 "ARM_CTI_3__CFG__CSCTI_CFG_CTIOUTEN5,The CTI Channel to Trigger 5 Enable Registers define which channels can generate a ctitrigout[5] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x14 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[5] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x18 "ARM_CTI_3__CFG__CSCTI_CFG_CTIOUTEN6,The CTI Channel to Trigger 6 Enable Registers define which channels can generate a ctitrigout[6] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x18 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[6] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x1C "ARM_CTI_3__CFG__CSCTI_CFG_CTIOUTEN7,The CTI Channel to Trigger 7 Enable Registers define which channels can generate a ctitrigout[7] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[7] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." rgroup.long 0x130++0xF line.long 0x0 "ARM_CTI_3__CFG__CSCTI_CFG_CTITRIGINSTATUS,The CTI Trigger In Status Register provides the status of the ctitrigin inputs." hexmask.long.byte 0x0 0.--7. 1. "TRIGINSTATUS,Shows the status of the ctitrigin inputs. 1 = ctitrigin is active. 0 = ctitrigin is inactive. Because the register provides a view of the raw ctitrigin inputs the reset value is unknown. There is one bit of the field for each trigger.." line.long 0x4 "ARM_CTI_3__CFG__CSCTI_CFG_CTITRIGOUTSTATUS,The CTI Trigger Out Status Register provides the status of the ctitrigout outputs." hexmask.long.byte 0x4 0.--7. 1. "TRIGOUTSTATUS,Shows the status of the ctitrigout outputs. 1 = ctitrigout is active. 0 = ctitrigout is inactive. There is one bit of the field for each trigger output." line.long 0x8 "ARM_CTI_3__CFG__CSCTI_CFG_CTICHINSTATUS,The CTI Channel In Status Register provides the status of the ctichin inputs." hexmask.long.byte 0x8 0.--3. 1. "CTICHINSTATUS,Shows the status of the ctichin inputs. 1 = ctichin is active. 0 = ctichin is inactive. Because the register provides a view of the raw ctichin inputs the reset value is unknown. There is one bit of the field for each channel input." line.long 0xC "ARM_CTI_3__CFG__CSCTI_CFG_CTICHOUTSTATUS,The CTI Channel Out Status Register provides the status of the CTI ctichout outputs." hexmask.long.byte 0xC 0.--3. 1. "CTICHOUTSTATUS,Shows the status of the ctichout outputs. 1 = ctichout is active. 0 = ctichout is inactive. There is one bit of the field for each channel output." group.long 0x140++0x7 line.long 0x0 "ARM_CTI_3__CFG__CSCTI_CFG_CTIGATE,The Gate Enable Register prevents the channels from propagating through the CTM to other CTIs. This enables local cross-triggering. for example for causing an interrupt when the ETM trigger occurs. It can be used.." bitfld.long 0x0 3. "CTIGATEEN3,Enable CTICHOUT3. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 2. "CTIGATEEN2,Enable CTICHOUT2. Set to 0 to disable channel propagation." "0,1" newline bitfld.long 0x0 1. "CTIGATEEN1,Enable CTICHOUT1. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 0. "CTIGATEEN0,Enable CTICHOUT0. Set to 0 to disable channel propagation." "0,1" line.long 0x4 "ARM_CTI_3__CFG__CSCTI_CFG_ASICCTL,Implementation-defined ASIC control. value written to the register is output on asicctl[7 : 0]." hexmask.long.byte 0x4 0.--7. 1. "ASICCTL,Implementation-defined ASIC control value written to the register is output on asicctl[7 : 0]. If external multiplexing of trigger signals is implemented then the number of multiplexed signals on each trigger must be reflected within the.." group.long 0xEDC++0xF line.long 0x0 "ARM_CTI_3__CFG__CSCTI_CFG_ITCHINACK,This register is a write-only register. It can be used to set the value of the CTCHINACK outputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHINACK,Set the value of the CTCHINACK outputs." line.long 0x4 "ARM_CTI_3__CFG__CSCTI_CFG_ITTRIGINACK,This register is a write-only register. It can be used to set the value of the CTTRIGINACK outputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGINACK,Set the value of the CTTRIGINACK outputs." line.long 0x8 "ARM_CTI_3__CFG__CSCTI_CFG_ITCHOUT,This register is a write-only register. It can be used to set the value of the CTCHOUT outputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHOUT,Set the value of the CTCHOUT outputs." line.long 0xC "ARM_CTI_3__CFG__CSCTI_CFG_ITTRIGOUT,This register is a write-only register. It can be used to set the value of the CTTRIGOUT outputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGOUT,Set the value of the CTTRIGOUT outputs." rgroup.long 0xEEC++0xF line.long 0x0 "ARM_CTI_3__CFG__CSCTI_CFG_ITCHOUTACK,This register is a read-only register. It can be used to read the values of the CTCHOUTACK inputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHOUTACK,Read the values of the CTCHOUTACK inputs." line.long 0x4 "ARM_CTI_3__CFG__CSCTI_CFG_ITTRIGOUTACK,This register is a read-only register. It can be used to read the values of the CTTRIGOUTACK inputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGOUTACK,Read the value of the CTTRIGOUTACK inputs." line.long 0x8 "ARM_CTI_3__CFG__CSCTI_CFG_ITCHIN,This register is a read-only register. It can be used to read the values of the CTCHIN inputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHIN,Read the value of the CTCHIN inputs." line.long 0xC "ARM_CTI_3__CFG__CSCTI_CFG_ITTRIGIN,This register is a read-only register. It can be used to read the values of the CTTRIGIN inputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGIN,Read the values of the CTTRIGIN inputs." group.long 0xF00++0x3 line.long 0x0 "ARM_CTI_3__CFG__CSCTI_CFG_ITCTRL,This register is used to enable topology detection. For more information see the CoreSight Architecture Specification. This register enables the component to switch from a functional mode. the default behavior. to.." bitfld.long 0x0 0. "INTEGRATION_MODE,Allows the component to switch from functional mode to integration mode or back." "0,1" group.long 0xFA0++0x7 line.long 0x0 "ARM_CTI_3__CFG__CSCTI_CFG_CLAIMSET,This is used in conjunction with Claim Tag Clear Register. CLAIMCLR. This register forms one half of the Claim Tag value. This location allows individual bits to be set. write. and returns the number of bits that can be.." hexmask.long.byte 0x0 0.--3. 1. "CLAIMSET,This claim tag bit is implemented" line.long 0x4 "ARM_CTI_3__CFG__CSCTI_CFG_CLAIMCLR,This register is used in conjunction with Claim Tag Set Register. CLAIMSET. This register forms one half of the Claim Tag value. This location enables individual bits to be cleared. write. and returns the current Claim.." hexmask.long.byte 0x4 0.--3. 1. "CLAIMCLR,The value present reflects the current setting of the Claim Tag." group.long 0xFB0++0x3 line.long 0x0 "ARM_CTI_3__CFG__CSCTI_CFG_LAR,This is used to enable write access to device registers. External accesses from a debugger (paddrdbg31 = 1) are not subject to the Lock Registers. A debugger does not have to unlock the component in order to write and.." hexmask.long 0x0 0.--31. 1. "ACCESS_W,A write of 0xC5ACCE55 enables further write access to this device. A write of any value other than 0xC5ACCE55 will have the affect of removing write access." rgroup.long 0xFB4++0x7 line.long 0x0 "ARM_CTI_3__CFG__CSCTI_CFG_LSR,This indicates the status of the Lock control mechanism. This lock prevents accidental writes by code under debug. When locked. write access is blocked to all registers. except the Lock Access Register. External accesses.." bitfld.long 0x0 2. "LOCKTYPE,Indicates if the Lock Access Register (0xFB0) is implemented as 8-bit or 32-bit" "0,1" bitfld.long 0x0 1. "LOCKGRANT,Returns the current status of the Lock. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" newline bitfld.long 0x0 0. "LOCKEXIST,Indicates that a lock control mechanism exists for this device. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" line.long 0x4 "ARM_CTI_3__CFG__CSCTI_CFG_AUTHSTATUS,Reports what functionality is currently permitted by the authentication interface." bitfld.long 0x4 6.--7. "SNID,Indicates the security level for secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 4.--5. "SID,Indicates the security level for secure invasive debug" "0,1,2,3" newline bitfld.long 0x4 2.--3. "NSNID,Indicates the security level for non-secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 0.--1. "NSID,Indicates the security level for non-secure invasive debug" "0,1,2,3" rgroup.long 0xFC8++0xB line.long 0x0 "ARM_CTI_3__CFG__CSCTI_CFG_DEVID,This register indicates the capabilities of the CTI." hexmask.long.byte 0x0 16.--19. 1. "NUMCH,Number of ECT channels available." hexmask.long.byte 0x0 8.--15. 1. "NUMTRIG,Number of ECT triggers available." newline hexmask.long.byte 0x0 0.--4. 1. "EXTMUXNUM,Indicates the number of multiplexing available on Trigger Inputs and Trigger Outputs using asicctl. Default value of 5'b00000 indicating no multiplexing present. Reflects the value of the Verilog define EXTMUXNUM that the user must alter.." line.long 0x4 "ARM_CTI_3__CFG__CSCTI_CFG_DEVTYPE,It provides a debugger with information about the component when the Part Number field is not recognized. The debugger can then report this information." hexmask.long.byte 0x4 4.--7. 1. "SUB_TYPE,Sub-classification within the major category" hexmask.long.byte 0x4 0.--3. 1. "MAJOR_TYPE,Major classification grouping for this debug/trace component" line.long 0x8 "ARM_CTI_3__CFG__CSCTI_CFG_PERIPHID4,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the memory footprint indicator." hexmask.long.byte 0x8 4.--7. 1. "SIZE,This is a 4-bit value that indicates the total contiguous size of the memory window used by this component in powers of 2 from the standard 4KB. If a component only requires the standard 4KB then this should read as 0x0 4KB only for 8KB set to.." hexmask.long.byte 0x8 0.--3. 1. "DES_2,JEDEC continuation code indicating the designer of the component (along with the identity code)" rgroup.long 0xFE0++0x1F line.long 0x0 "ARM_CTI_3__CFG__CSCTI_CFG_PERIPHID0,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number." hexmask.long.byte 0x0 0.--7. 1. "PART_0,Bits [7 : 0] of the component's part number. This is selected by the designer of the component." line.long 0x4 "ARM_CTI_3__CFG__CSCTI_CFG_PERIPHID1,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number and part of the designer identity." hexmask.long.byte 0x4 4.--7. 1. "DES_0,Bits 3 : 0 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" hexmask.long.byte 0x4 0.--3. 1. "PART_1,Bits [11 : 8] of the component's part number. This is selected by the designer of the component." line.long 0x8 "ARM_CTI_3__CFG__CSCTI_CFG_PERIPHID2,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the product revision." hexmask.long.byte 0x8 4.--7. 1. "REVISION,The Revision field is an incremental value starting at 0x0 for the first design of this component. This only increases by 1 for both major and minor revisions and is simply used as a look-up to establish the exact major/minor revision." bitfld.long 0x8 3. "JEDEC,Always set. Indicates that a JEDEC assigned value is used" "0,1" newline bitfld.long 0x8 0.--2. "DES_1,Bits 6 : 4 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" "?,?,?,?,?,?,6: 4 of the JEDEC identity code indicating the..,?" line.long 0xC "ARM_CTI_3__CFG__CSCTI_CFG_PERIPHID3,Part of the set of Peripheral Identification registers. Contains the RevAnd and Customer Modified fields." hexmask.long.byte 0xC 4.--7. 1. "REVAND,This field indicates minor errata fixes specific to this design for example metal fixes after implementation. In most cases this field is zero. It is recommended that component designers ensure this field can be changed by a metal fix if.." hexmask.long.byte 0xC 0.--3. 1. "CMOD,Where the component is reusable IP this value indicates if the customer has modified the behavior of the component. In most cases this field is zero." line.long 0x10 "ARM_CTI_3__CFG__CSCTI_CFG_COMPID0,Reserved Reserved Reserved A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x10 0.--7. 1. "PRMBL_0,Contains bits [7 : 0] of the component identification" line.long 0x14 "ARM_CTI_3__CFG__CSCTI_CFG_COMPID1,A component identification register. that indicates that the identification registers are present. This register also indicates the component class." hexmask.long.byte 0x14 4.--7. 1. "CLASS,Class of the component. E.g. ROM table CoreSight component etc. Constitutes bits [15 : 12] of the component identification." hexmask.long.byte 0x14 0.--3. 1. "PRMBL_1,Contains bits [11 : 8] of the component identification" line.long 0x18 "ARM_CTI_3__CFG__CSCTI_CFG_COMPID2,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x18 0.--7. 1. "PRMBL_2,Contains bits [23 : 16] of the component identification" line.long 0x1C "ARM_CTI_3__CFG__CSCTI_CFG_COMPID3,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x1C 0.--7. 1. "PRMBL_3,Contains bits [31 : 24] of the component identification" tree.end tree "DEBUGSS0_ARM_CTI_4_CFG_CSCTI_CFG (DEBUGSS0_ARM_CTI_4_CFG_CSCTI_CFG)" base ad:0x73C02B000 group.long 0x0++0x3 line.long 0x0 "ARM_CTI_4__CFG__CSCTI_CFG_CTICONTROL,The CTI Control Register enables the CTI. >" bitfld.long 0x0 0. "GLBEN,Enables or disables the ECT." "0,1" group.long 0x10++0x2F line.long 0x0 "ARM_CTI_4__CFG__CSCTI_CFG_CTIINTACK,The CTI Interrupt Acknowledge Register is write-only. Any bits written as a 1 cause the ctitrigout output signal to be acknowledged. The acknowledgement is cleared when MAPTRIGOUT is deactivated. This register is used.." hexmask.long.byte 0x0 0.--7. 1. "INTACK,Acknowledges the corresponding ctitrigout output. There is one bit of the register for each ctitrigout output. When a 1 is written to a bit in this register the corresponding ctitrigout is acknowledged and is cleared when MAPTRIGOUT is LOW." line.long 0x4 "ARM_CTI_4__CFG__CSCTI_CFG_CTIAPPSET,The CTI Application Trigger Set Register is read/write. A write to this register causes a channel event to be raised. corresponding to the bit written to." hexmask.long.byte 0x4 0.--3. 1. "APPSET,Setting a bit HIGH generates a channel event for the selected channel. There is one bit of the register for each channel. Read : 0 = application trigger inactive (reset). 1 = application trigger active. Write : 0 = no effect. 1 = generate.." line.long 0x8 "ARM_CTI_4__CFG__CSCTI_CFG_CTIAPPCLEAR,The CTI Interrupt Acknowledge Register is write-only. A write to this register causes a channel event to be cleared. corresponding to the bit written to." hexmask.long.byte 0x8 0.--3. 1. "APPCLEAR,Clears corresponding bits in the CTIAPPSET register. There is one bit of the register for each channel. When a 1 is written to a bit in this register the corresponding application trigger is disabled in the CTIAPPSET register. Writing a 0 to.." line.long 0xC "ARM_CTI_4__CFG__CSCTI_CFG_CTIAPPPULSE,The CTI Application Pulse Register is write-only. A write to this register causes a channel event pulse. one cticlk period. to be generated. corresponding to the bit written to. The pulse external to the ECT can be.." hexmask.long.byte 0xC 0.--3. 1. "APPULSE,Setting a bit HIGH generates a channel event pulse for the selected channel. There is one bit of the register for each channel. When a 1 is written to a bit in this register a corresponding channel event pulse is generated for one cticlk.." line.long 0x10 "ARM_CTI_4__CFG__CSCTI_CFG_CTIINEN0,The CTI Trigger 0 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x10 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x14 "ARM_CTI_4__CFG__CSCTI_CFG_CTIINEN1,The CTI Trigger 1 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x14 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x18 "ARM_CTI_4__CFG__CSCTI_CFG_CTIINEN2,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x18 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x1C "ARM_CTI_4__CFG__CSCTI_CFG_CTIINEN3,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x20 "ARM_CTI_4__CFG__CSCTI_CFG_CTIINEN4,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x20 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x24 "ARM_CTI_4__CFG__CSCTI_CFG_CTIINEN5,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x24 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x28 "ARM_CTI_4__CFG__CSCTI_CFG_CTIINEN6,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x28 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x2C "ARM_CTI_4__CFG__CSCTI_CFG_CTIINEN7,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x2C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." group.long 0xA0++0x1F line.long 0x0 "ARM_CTI_4__CFG__CSCTI_CFG_CTIOUTEN0,The CTI Channel to Trigger 0 Enable Registers define which channels can generate a ctitrigout[0] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x0 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x4 "ARM_CTI_4__CFG__CSCTI_CFG_CTIOUTEN1,The CTI Channel to Trigger 1 Enable Registers define which channels can generate a ctitrigout[1] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x4 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x8 "ARM_CTI_4__CFG__CSCTI_CFG_CTIOUTEN2,The CTI Channel to Trigger 2 Enable Registers define which channels can generate a ctitrigout[2] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x8 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[2] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0xC "ARM_CTI_4__CFG__CSCTI_CFG_CTIOUTEN3,The CTI Channel to Trigger 3 Enable Registers define which channels can generate a ctitrigout[3] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0xC 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[3] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x10 "ARM_CTI_4__CFG__CSCTI_CFG_CTIOUTEN4,The CTI Channel to Trigger 4 Enable Registers define which channels can generate a ctitrigout[4] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x10 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[4] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x14 "ARM_CTI_4__CFG__CSCTI_CFG_CTIOUTEN5,The CTI Channel to Trigger 5 Enable Registers define which channels can generate a ctitrigout[5] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x14 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[5] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x18 "ARM_CTI_4__CFG__CSCTI_CFG_CTIOUTEN6,The CTI Channel to Trigger 6 Enable Registers define which channels can generate a ctitrigout[6] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x18 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[6] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x1C "ARM_CTI_4__CFG__CSCTI_CFG_CTIOUTEN7,The CTI Channel to Trigger 7 Enable Registers define which channels can generate a ctitrigout[7] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[7] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." rgroup.long 0x130++0xF line.long 0x0 "ARM_CTI_4__CFG__CSCTI_CFG_CTITRIGINSTATUS,The CTI Trigger In Status Register provides the status of the ctitrigin inputs." hexmask.long.byte 0x0 0.--7. 1. "TRIGINSTATUS,Shows the status of the ctitrigin inputs. 1 = ctitrigin is active. 0 = ctitrigin is inactive. Because the register provides a view of the raw ctitrigin inputs the reset value is unknown. There is one bit of the field for each trigger.." line.long 0x4 "ARM_CTI_4__CFG__CSCTI_CFG_CTITRIGOUTSTATUS,The CTI Trigger Out Status Register provides the status of the ctitrigout outputs." hexmask.long.byte 0x4 0.--7. 1. "TRIGOUTSTATUS,Shows the status of the ctitrigout outputs. 1 = ctitrigout is active. 0 = ctitrigout is inactive. There is one bit of the field for each trigger output." line.long 0x8 "ARM_CTI_4__CFG__CSCTI_CFG_CTICHINSTATUS,The CTI Channel In Status Register provides the status of the ctichin inputs." hexmask.long.byte 0x8 0.--3. 1. "CTICHINSTATUS,Shows the status of the ctichin inputs. 1 = ctichin is active. 0 = ctichin is inactive. Because the register provides a view of the raw ctichin inputs the reset value is unknown. There is one bit of the field for each channel input." line.long 0xC "ARM_CTI_4__CFG__CSCTI_CFG_CTICHOUTSTATUS,The CTI Channel Out Status Register provides the status of the CTI ctichout outputs." hexmask.long.byte 0xC 0.--3. 1. "CTICHOUTSTATUS,Shows the status of the ctichout outputs. 1 = ctichout is active. 0 = ctichout is inactive. There is one bit of the field for each channel output." group.long 0x140++0x7 line.long 0x0 "ARM_CTI_4__CFG__CSCTI_CFG_CTIGATE,The Gate Enable Register prevents the channels from propagating through the CTM to other CTIs. This enables local cross-triggering. for example for causing an interrupt when the ETM trigger occurs. It can be used.." bitfld.long 0x0 3. "CTIGATEEN3,Enable CTICHOUT3. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 2. "CTIGATEEN2,Enable CTICHOUT2. Set to 0 to disable channel propagation." "0,1" newline bitfld.long 0x0 1. "CTIGATEEN1,Enable CTICHOUT1. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 0. "CTIGATEEN0,Enable CTICHOUT0. Set to 0 to disable channel propagation." "0,1" line.long 0x4 "ARM_CTI_4__CFG__CSCTI_CFG_ASICCTL,Implementation-defined ASIC control. value written to the register is output on asicctl[7 : 0]." hexmask.long.byte 0x4 0.--7. 1. "ASICCTL,Implementation-defined ASIC control value written to the register is output on asicctl[7 : 0]. If external multiplexing of trigger signals is implemented then the number of multiplexed signals on each trigger must be reflected within the.." group.long 0xEDC++0xF line.long 0x0 "ARM_CTI_4__CFG__CSCTI_CFG_ITCHINACK,This register is a write-only register. It can be used to set the value of the CTCHINACK outputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHINACK,Set the value of the CTCHINACK outputs." line.long 0x4 "ARM_CTI_4__CFG__CSCTI_CFG_ITTRIGINACK,This register is a write-only register. It can be used to set the value of the CTTRIGINACK outputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGINACK,Set the value of the CTTRIGINACK outputs." line.long 0x8 "ARM_CTI_4__CFG__CSCTI_CFG_ITCHOUT,This register is a write-only register. It can be used to set the value of the CTCHOUT outputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHOUT,Set the value of the CTCHOUT outputs." line.long 0xC "ARM_CTI_4__CFG__CSCTI_CFG_ITTRIGOUT,This register is a write-only register. It can be used to set the value of the CTTRIGOUT outputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGOUT,Set the value of the CTTRIGOUT outputs." rgroup.long 0xEEC++0xF line.long 0x0 "ARM_CTI_4__CFG__CSCTI_CFG_ITCHOUTACK,This register is a read-only register. It can be used to read the values of the CTCHOUTACK inputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHOUTACK,Read the values of the CTCHOUTACK inputs." line.long 0x4 "ARM_CTI_4__CFG__CSCTI_CFG_ITTRIGOUTACK,This register is a read-only register. It can be used to read the values of the CTTRIGOUTACK inputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGOUTACK,Read the value of the CTTRIGOUTACK inputs." line.long 0x8 "ARM_CTI_4__CFG__CSCTI_CFG_ITCHIN,This register is a read-only register. It can be used to read the values of the CTCHIN inputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHIN,Read the value of the CTCHIN inputs." line.long 0xC "ARM_CTI_4__CFG__CSCTI_CFG_ITTRIGIN,This register is a read-only register. It can be used to read the values of the CTTRIGIN inputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGIN,Read the values of the CTTRIGIN inputs." group.long 0xF00++0x3 line.long 0x0 "ARM_CTI_4__CFG__CSCTI_CFG_ITCTRL,This register is used to enable topology detection. For more information see the CoreSight Architecture Specification. This register enables the component to switch from a functional mode. the default behavior. to.." bitfld.long 0x0 0. "INTEGRATION_MODE,Allows the component to switch from functional mode to integration mode or back." "0,1" group.long 0xFA0++0x7 line.long 0x0 "ARM_CTI_4__CFG__CSCTI_CFG_CLAIMSET,This is used in conjunction with Claim Tag Clear Register. CLAIMCLR. This register forms one half of the Claim Tag value. This location allows individual bits to be set. write. and returns the number of bits that can be.." hexmask.long.byte 0x0 0.--3. 1. "CLAIMSET,This claim tag bit is implemented" line.long 0x4 "ARM_CTI_4__CFG__CSCTI_CFG_CLAIMCLR,This register is used in conjunction with Claim Tag Set Register. CLAIMSET. This register forms one half of the Claim Tag value. This location enables individual bits to be cleared. write. and returns the current Claim.." hexmask.long.byte 0x4 0.--3. 1. "CLAIMCLR,The value present reflects the current setting of the Claim Tag." group.long 0xFB0++0x3 line.long 0x0 "ARM_CTI_4__CFG__CSCTI_CFG_LAR,This is used to enable write access to device registers. External accesses from a debugger (paddrdbg31 = 1) are not subject to the Lock Registers. A debugger does not have to unlock the component in order to write and.." hexmask.long 0x0 0.--31. 1. "ACCESS_W,A write of 0xC5ACCE55 enables further write access to this device. A write of any value other than 0xC5ACCE55 will have the affect of removing write access." rgroup.long 0xFB4++0x7 line.long 0x0 "ARM_CTI_4__CFG__CSCTI_CFG_LSR,This indicates the status of the Lock control mechanism. This lock prevents accidental writes by code under debug. When locked. write access is blocked to all registers. except the Lock Access Register. External accesses.." bitfld.long 0x0 2. "LOCKTYPE,Indicates if the Lock Access Register (0xFB0) is implemented as 8-bit or 32-bit" "0,1" bitfld.long 0x0 1. "LOCKGRANT,Returns the current status of the Lock. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" newline bitfld.long 0x0 0. "LOCKEXIST,Indicates that a lock control mechanism exists for this device. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" line.long 0x4 "ARM_CTI_4__CFG__CSCTI_CFG_AUTHSTATUS,Reports what functionality is currently permitted by the authentication interface." bitfld.long 0x4 6.--7. "SNID,Indicates the security level for secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 4.--5. "SID,Indicates the security level for secure invasive debug" "0,1,2,3" newline bitfld.long 0x4 2.--3. "NSNID,Indicates the security level for non-secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 0.--1. "NSID,Indicates the security level for non-secure invasive debug" "0,1,2,3" rgroup.long 0xFC8++0xB line.long 0x0 "ARM_CTI_4__CFG__CSCTI_CFG_DEVID,This register indicates the capabilities of the CTI." hexmask.long.byte 0x0 16.--19. 1. "NUMCH,Number of ECT channels available." hexmask.long.byte 0x0 8.--15. 1. "NUMTRIG,Number of ECT triggers available." newline hexmask.long.byte 0x0 0.--4. 1. "EXTMUXNUM,Indicates the number of multiplexing available on Trigger Inputs and Trigger Outputs using asicctl. Default value of 5'b00000 indicating no multiplexing present. Reflects the value of the Verilog define EXTMUXNUM that the user must alter.." line.long 0x4 "ARM_CTI_4__CFG__CSCTI_CFG_DEVTYPE,It provides a debugger with information about the component when the Part Number field is not recognized. The debugger can then report this information." hexmask.long.byte 0x4 4.--7. 1. "SUB_TYPE,Sub-classification within the major category" hexmask.long.byte 0x4 0.--3. 1. "MAJOR_TYPE,Major classification grouping for this debug/trace component" line.long 0x8 "ARM_CTI_4__CFG__CSCTI_CFG_PERIPHID4,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the memory footprint indicator." hexmask.long.byte 0x8 4.--7. 1. "SIZE,This is a 4-bit value that indicates the total contiguous size of the memory window used by this component in powers of 2 from the standard 4KB. If a component only requires the standard 4KB then this should read as 0x0 4KB only for 8KB set to.." hexmask.long.byte 0x8 0.--3. 1. "DES_2,JEDEC continuation code indicating the designer of the component (along with the identity code)" rgroup.long 0xFE0++0x1F line.long 0x0 "ARM_CTI_4__CFG__CSCTI_CFG_PERIPHID0,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number." hexmask.long.byte 0x0 0.--7. 1. "PART_0,Bits [7 : 0] of the component's part number. This is selected by the designer of the component." line.long 0x4 "ARM_CTI_4__CFG__CSCTI_CFG_PERIPHID1,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number and part of the designer identity." hexmask.long.byte 0x4 4.--7. 1. "DES_0,Bits 3 : 0 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" hexmask.long.byte 0x4 0.--3. 1. "PART_1,Bits [11 : 8] of the component's part number. This is selected by the designer of the component." line.long 0x8 "ARM_CTI_4__CFG__CSCTI_CFG_PERIPHID2,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the product revision." hexmask.long.byte 0x8 4.--7. 1. "REVISION,The Revision field is an incremental value starting at 0x0 for the first design of this component. This only increases by 1 for both major and minor revisions and is simply used as a look-up to establish the exact major/minor revision." bitfld.long 0x8 3. "JEDEC,Always set. Indicates that a JEDEC assigned value is used" "0,1" newline bitfld.long 0x8 0.--2. "DES_1,Bits 6 : 4 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" "?,?,?,?,?,?,6: 4 of the JEDEC identity code indicating the..,?" line.long 0xC "ARM_CTI_4__CFG__CSCTI_CFG_PERIPHID3,Part of the set of Peripheral Identification registers. Contains the RevAnd and Customer Modified fields." hexmask.long.byte 0xC 4.--7. 1. "REVAND,This field indicates minor errata fixes specific to this design for example metal fixes after implementation. In most cases this field is zero. It is recommended that component designers ensure this field can be changed by a metal fix if.." hexmask.long.byte 0xC 0.--3. 1. "CMOD,Where the component is reusable IP this value indicates if the customer has modified the behavior of the component. In most cases this field is zero." line.long 0x10 "ARM_CTI_4__CFG__CSCTI_CFG_COMPID0,Reserved Reserved Reserved A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x10 0.--7. 1. "PRMBL_0,Contains bits [7 : 0] of the component identification" line.long 0x14 "ARM_CTI_4__CFG__CSCTI_CFG_COMPID1,A component identification register. that indicates that the identification registers are present. This register also indicates the component class." hexmask.long.byte 0x14 4.--7. 1. "CLASS,Class of the component. E.g. ROM table CoreSight component etc. Constitutes bits [15 : 12] of the component identification." hexmask.long.byte 0x14 0.--3. 1. "PRMBL_1,Contains bits [11 : 8] of the component identification" line.long 0x18 "ARM_CTI_4__CFG__CSCTI_CFG_COMPID2,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x18 0.--7. 1. "PRMBL_2,Contains bits [23 : 16] of the component identification" line.long 0x1C "ARM_CTI_4__CFG__CSCTI_CFG_COMPID3,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x1C 0.--7. 1. "PRMBL_3,Contains bits [31 : 24] of the component identification" tree.end tree "DEBUGSS0_ARM_CTI_5_CFG_CSCTI_CFG (DEBUGSS0_ARM_CTI_5_CFG_CSCTI_CFG)" base ad:0x73C02C000 group.long 0x0++0x3 line.long 0x0 "ARM_CTI_5__CFG__CSCTI_CFG_CTICONTROL,The CTI Control Register enables the CTI. >" bitfld.long 0x0 0. "GLBEN,Enables or disables the ECT." "0,1" group.long 0x10++0x2F line.long 0x0 "ARM_CTI_5__CFG__CSCTI_CFG_CTIINTACK,The CTI Interrupt Acknowledge Register is write-only. Any bits written as a 1 cause the ctitrigout output signal to be acknowledged. The acknowledgement is cleared when MAPTRIGOUT is deactivated. This register is used.." hexmask.long.byte 0x0 0.--7. 1. "INTACK,Acknowledges the corresponding ctitrigout output. There is one bit of the register for each ctitrigout output. When a 1 is written to a bit in this register the corresponding ctitrigout is acknowledged and is cleared when MAPTRIGOUT is LOW." line.long 0x4 "ARM_CTI_5__CFG__CSCTI_CFG_CTIAPPSET,The CTI Application Trigger Set Register is read/write. A write to this register causes a channel event to be raised. corresponding to the bit written to." hexmask.long.byte 0x4 0.--3. 1. "APPSET,Setting a bit HIGH generates a channel event for the selected channel. There is one bit of the register for each channel. Read : 0 = application trigger inactive (reset). 1 = application trigger active. Write : 0 = no effect. 1 = generate.." line.long 0x8 "ARM_CTI_5__CFG__CSCTI_CFG_CTIAPPCLEAR,The CTI Interrupt Acknowledge Register is write-only. A write to this register causes a channel event to be cleared. corresponding to the bit written to." hexmask.long.byte 0x8 0.--3. 1. "APPCLEAR,Clears corresponding bits in the CTIAPPSET register. There is one bit of the register for each channel. When a 1 is written to a bit in this register the corresponding application trigger is disabled in the CTIAPPSET register. Writing a 0 to.." line.long 0xC "ARM_CTI_5__CFG__CSCTI_CFG_CTIAPPPULSE,The CTI Application Pulse Register is write-only. A write to this register causes a channel event pulse. one cticlk period. to be generated. corresponding to the bit written to. The pulse external to the ECT can be.." hexmask.long.byte 0xC 0.--3. 1. "APPULSE,Setting a bit HIGH generates a channel event pulse for the selected channel. There is one bit of the register for each channel. When a 1 is written to a bit in this register a corresponding channel event pulse is generated for one cticlk.." line.long 0x10 "ARM_CTI_5__CFG__CSCTI_CFG_CTIINEN0,The CTI Trigger 0 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x10 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x14 "ARM_CTI_5__CFG__CSCTI_CFG_CTIINEN1,The CTI Trigger 1 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x14 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x18 "ARM_CTI_5__CFG__CSCTI_CFG_CTIINEN2,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x18 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x1C "ARM_CTI_5__CFG__CSCTI_CFG_CTIINEN3,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x20 "ARM_CTI_5__CFG__CSCTI_CFG_CTIINEN4,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x20 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x24 "ARM_CTI_5__CFG__CSCTI_CFG_CTIINEN5,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x24 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x28 "ARM_CTI_5__CFG__CSCTI_CFG_CTIINEN6,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x28 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x2C "ARM_CTI_5__CFG__CSCTI_CFG_CTIINEN7,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x2C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." group.long 0xA0++0x1F line.long 0x0 "ARM_CTI_5__CFG__CSCTI_CFG_CTIOUTEN0,The CTI Channel to Trigger 0 Enable Registers define which channels can generate a ctitrigout[0] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x0 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x4 "ARM_CTI_5__CFG__CSCTI_CFG_CTIOUTEN1,The CTI Channel to Trigger 1 Enable Registers define which channels can generate a ctitrigout[1] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x4 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x8 "ARM_CTI_5__CFG__CSCTI_CFG_CTIOUTEN2,The CTI Channel to Trigger 2 Enable Registers define which channels can generate a ctitrigout[2] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x8 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[2] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0xC "ARM_CTI_5__CFG__CSCTI_CFG_CTIOUTEN3,The CTI Channel to Trigger 3 Enable Registers define which channels can generate a ctitrigout[3] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0xC 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[3] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x10 "ARM_CTI_5__CFG__CSCTI_CFG_CTIOUTEN4,The CTI Channel to Trigger 4 Enable Registers define which channels can generate a ctitrigout[4] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x10 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[4] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x14 "ARM_CTI_5__CFG__CSCTI_CFG_CTIOUTEN5,The CTI Channel to Trigger 5 Enable Registers define which channels can generate a ctitrigout[5] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x14 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[5] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x18 "ARM_CTI_5__CFG__CSCTI_CFG_CTIOUTEN6,The CTI Channel to Trigger 6 Enable Registers define which channels can generate a ctitrigout[6] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x18 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[6] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x1C "ARM_CTI_5__CFG__CSCTI_CFG_CTIOUTEN7,The CTI Channel to Trigger 7 Enable Registers define which channels can generate a ctitrigout[7] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[7] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." rgroup.long 0x130++0xF line.long 0x0 "ARM_CTI_5__CFG__CSCTI_CFG_CTITRIGINSTATUS,The CTI Trigger In Status Register provides the status of the ctitrigin inputs." hexmask.long.byte 0x0 0.--7. 1. "TRIGINSTATUS,Shows the status of the ctitrigin inputs. 1 = ctitrigin is active. 0 = ctitrigin is inactive. Because the register provides a view of the raw ctitrigin inputs the reset value is unknown. There is one bit of the field for each trigger.." line.long 0x4 "ARM_CTI_5__CFG__CSCTI_CFG_CTITRIGOUTSTATUS,The CTI Trigger Out Status Register provides the status of the ctitrigout outputs." hexmask.long.byte 0x4 0.--7. 1. "TRIGOUTSTATUS,Shows the status of the ctitrigout outputs. 1 = ctitrigout is active. 0 = ctitrigout is inactive. There is one bit of the field for each trigger output." line.long 0x8 "ARM_CTI_5__CFG__CSCTI_CFG_CTICHINSTATUS,The CTI Channel In Status Register provides the status of the ctichin inputs." hexmask.long.byte 0x8 0.--3. 1. "CTICHINSTATUS,Shows the status of the ctichin inputs. 1 = ctichin is active. 0 = ctichin is inactive. Because the register provides a view of the raw ctichin inputs the reset value is unknown. There is one bit of the field for each channel input." line.long 0xC "ARM_CTI_5__CFG__CSCTI_CFG_CTICHOUTSTATUS,The CTI Channel Out Status Register provides the status of the CTI ctichout outputs." hexmask.long.byte 0xC 0.--3. 1. "CTICHOUTSTATUS,Shows the status of the ctichout outputs. 1 = ctichout is active. 0 = ctichout is inactive. There is one bit of the field for each channel output." group.long 0x140++0x7 line.long 0x0 "ARM_CTI_5__CFG__CSCTI_CFG_CTIGATE,The Gate Enable Register prevents the channels from propagating through the CTM to other CTIs. This enables local cross-triggering. for example for causing an interrupt when the ETM trigger occurs. It can be used.." bitfld.long 0x0 3. "CTIGATEEN3,Enable CTICHOUT3. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 2. "CTIGATEEN2,Enable CTICHOUT2. Set to 0 to disable channel propagation." "0,1" newline bitfld.long 0x0 1. "CTIGATEEN1,Enable CTICHOUT1. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 0. "CTIGATEEN0,Enable CTICHOUT0. Set to 0 to disable channel propagation." "0,1" line.long 0x4 "ARM_CTI_5__CFG__CSCTI_CFG_ASICCTL,Implementation-defined ASIC control. value written to the register is output on asicctl[7 : 0]." hexmask.long.byte 0x4 0.--7. 1. "ASICCTL,Implementation-defined ASIC control value written to the register is output on asicctl[7 : 0]. If external multiplexing of trigger signals is implemented then the number of multiplexed signals on each trigger must be reflected within the.." group.long 0xEDC++0xF line.long 0x0 "ARM_CTI_5__CFG__CSCTI_CFG_ITCHINACK,This register is a write-only register. It can be used to set the value of the CTCHINACK outputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHINACK,Set the value of the CTCHINACK outputs." line.long 0x4 "ARM_CTI_5__CFG__CSCTI_CFG_ITTRIGINACK,This register is a write-only register. It can be used to set the value of the CTTRIGINACK outputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGINACK,Set the value of the CTTRIGINACK outputs." line.long 0x8 "ARM_CTI_5__CFG__CSCTI_CFG_ITCHOUT,This register is a write-only register. It can be used to set the value of the CTCHOUT outputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHOUT,Set the value of the CTCHOUT outputs." line.long 0xC "ARM_CTI_5__CFG__CSCTI_CFG_ITTRIGOUT,This register is a write-only register. It can be used to set the value of the CTTRIGOUT outputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGOUT,Set the value of the CTTRIGOUT outputs." rgroup.long 0xEEC++0xF line.long 0x0 "ARM_CTI_5__CFG__CSCTI_CFG_ITCHOUTACK,This register is a read-only register. It can be used to read the values of the CTCHOUTACK inputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHOUTACK,Read the values of the CTCHOUTACK inputs." line.long 0x4 "ARM_CTI_5__CFG__CSCTI_CFG_ITTRIGOUTACK,This register is a read-only register. It can be used to read the values of the CTTRIGOUTACK inputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGOUTACK,Read the value of the CTTRIGOUTACK inputs." line.long 0x8 "ARM_CTI_5__CFG__CSCTI_CFG_ITCHIN,This register is a read-only register. It can be used to read the values of the CTCHIN inputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHIN,Read the value of the CTCHIN inputs." line.long 0xC "ARM_CTI_5__CFG__CSCTI_CFG_ITTRIGIN,This register is a read-only register. It can be used to read the values of the CTTRIGIN inputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGIN,Read the values of the CTTRIGIN inputs." group.long 0xF00++0x3 line.long 0x0 "ARM_CTI_5__CFG__CSCTI_CFG_ITCTRL,This register is used to enable topology detection. For more information see the CoreSight Architecture Specification. This register enables the component to switch from a functional mode. the default behavior. to.." bitfld.long 0x0 0. "INTEGRATION_MODE,Allows the component to switch from functional mode to integration mode or back." "0,1" group.long 0xFA0++0x7 line.long 0x0 "ARM_CTI_5__CFG__CSCTI_CFG_CLAIMSET,This is used in conjunction with Claim Tag Clear Register. CLAIMCLR. This register forms one half of the Claim Tag value. This location allows individual bits to be set. write. and returns the number of bits that can be.." hexmask.long.byte 0x0 0.--3. 1. "CLAIMSET,This claim tag bit is implemented" line.long 0x4 "ARM_CTI_5__CFG__CSCTI_CFG_CLAIMCLR,This register is used in conjunction with Claim Tag Set Register. CLAIMSET. This register forms one half of the Claim Tag value. This location enables individual bits to be cleared. write. and returns the current Claim.." hexmask.long.byte 0x4 0.--3. 1. "CLAIMCLR,The value present reflects the current setting of the Claim Tag." group.long 0xFB0++0x3 line.long 0x0 "ARM_CTI_5__CFG__CSCTI_CFG_LAR,This is used to enable write access to device registers. External accesses from a debugger (paddrdbg31 = 1) are not subject to the Lock Registers. A debugger does not have to unlock the component in order to write and.." hexmask.long 0x0 0.--31. 1. "ACCESS_W,A write of 0xC5ACCE55 enables further write access to this device. A write of any value other than 0xC5ACCE55 will have the affect of removing write access." rgroup.long 0xFB4++0x7 line.long 0x0 "ARM_CTI_5__CFG__CSCTI_CFG_LSR,This indicates the status of the Lock control mechanism. This lock prevents accidental writes by code under debug. When locked. write access is blocked to all registers. except the Lock Access Register. External accesses.." bitfld.long 0x0 2. "LOCKTYPE,Indicates if the Lock Access Register (0xFB0) is implemented as 8-bit or 32-bit" "0,1" bitfld.long 0x0 1. "LOCKGRANT,Returns the current status of the Lock. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" newline bitfld.long 0x0 0. "LOCKEXIST,Indicates that a lock control mechanism exists for this device. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" line.long 0x4 "ARM_CTI_5__CFG__CSCTI_CFG_AUTHSTATUS,Reports what functionality is currently permitted by the authentication interface." bitfld.long 0x4 6.--7. "SNID,Indicates the security level for secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 4.--5. "SID,Indicates the security level for secure invasive debug" "0,1,2,3" newline bitfld.long 0x4 2.--3. "NSNID,Indicates the security level for non-secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 0.--1. "NSID,Indicates the security level for non-secure invasive debug" "0,1,2,3" rgroup.long 0xFC8++0xB line.long 0x0 "ARM_CTI_5__CFG__CSCTI_CFG_DEVID,This register indicates the capabilities of the CTI." hexmask.long.byte 0x0 16.--19. 1. "NUMCH,Number of ECT channels available." hexmask.long.byte 0x0 8.--15. 1. "NUMTRIG,Number of ECT triggers available." newline hexmask.long.byte 0x0 0.--4. 1. "EXTMUXNUM,Indicates the number of multiplexing available on Trigger Inputs and Trigger Outputs using asicctl. Default value of 5'b00000 indicating no multiplexing present. Reflects the value of the Verilog define EXTMUXNUM that the user must alter.." line.long 0x4 "ARM_CTI_5__CFG__CSCTI_CFG_DEVTYPE,It provides a debugger with information about the component when the Part Number field is not recognized. The debugger can then report this information." hexmask.long.byte 0x4 4.--7. 1. "SUB_TYPE,Sub-classification within the major category" hexmask.long.byte 0x4 0.--3. 1. "MAJOR_TYPE,Major classification grouping for this debug/trace component" line.long 0x8 "ARM_CTI_5__CFG__CSCTI_CFG_PERIPHID4,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the memory footprint indicator." hexmask.long.byte 0x8 4.--7. 1. "SIZE,This is a 4-bit value that indicates the total contiguous size of the memory window used by this component in powers of 2 from the standard 4KB. If a component only requires the standard 4KB then this should read as 0x0 4KB only for 8KB set to.." hexmask.long.byte 0x8 0.--3. 1. "DES_2,JEDEC continuation code indicating the designer of the component (along with the identity code)" rgroup.long 0xFE0++0x1F line.long 0x0 "ARM_CTI_5__CFG__CSCTI_CFG_PERIPHID0,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number." hexmask.long.byte 0x0 0.--7. 1. "PART_0,Bits [7 : 0] of the component's part number. This is selected by the designer of the component." line.long 0x4 "ARM_CTI_5__CFG__CSCTI_CFG_PERIPHID1,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number and part of the designer identity." hexmask.long.byte 0x4 4.--7. 1. "DES_0,Bits 3 : 0 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" hexmask.long.byte 0x4 0.--3. 1. "PART_1,Bits [11 : 8] of the component's part number. This is selected by the designer of the component." line.long 0x8 "ARM_CTI_5__CFG__CSCTI_CFG_PERIPHID2,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the product revision." hexmask.long.byte 0x8 4.--7. 1. "REVISION,The Revision field is an incremental value starting at 0x0 for the first design of this component. This only increases by 1 for both major and minor revisions and is simply used as a look-up to establish the exact major/minor revision." bitfld.long 0x8 3. "JEDEC,Always set. Indicates that a JEDEC assigned value is used" "0,1" newline bitfld.long 0x8 0.--2. "DES_1,Bits 6 : 4 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" "?,?,?,?,?,?,6: 4 of the JEDEC identity code indicating the..,?" line.long 0xC "ARM_CTI_5__CFG__CSCTI_CFG_PERIPHID3,Part of the set of Peripheral Identification registers. Contains the RevAnd and Customer Modified fields." hexmask.long.byte 0xC 4.--7. 1. "REVAND,This field indicates minor errata fixes specific to this design for example metal fixes after implementation. In most cases this field is zero. It is recommended that component designers ensure this field can be changed by a metal fix if.." hexmask.long.byte 0xC 0.--3. 1. "CMOD,Where the component is reusable IP this value indicates if the customer has modified the behavior of the component. In most cases this field is zero." line.long 0x10 "ARM_CTI_5__CFG__CSCTI_CFG_COMPID0,Reserved Reserved Reserved A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x10 0.--7. 1. "PRMBL_0,Contains bits [7 : 0] of the component identification" line.long 0x14 "ARM_CTI_5__CFG__CSCTI_CFG_COMPID1,A component identification register. that indicates that the identification registers are present. This register also indicates the component class." hexmask.long.byte 0x14 4.--7. 1. "CLASS,Class of the component. E.g. ROM table CoreSight component etc. Constitutes bits [15 : 12] of the component identification." hexmask.long.byte 0x14 0.--3. 1. "PRMBL_1,Contains bits [11 : 8] of the component identification" line.long 0x18 "ARM_CTI_5__CFG__CSCTI_CFG_COMPID2,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x18 0.--7. 1. "PRMBL_2,Contains bits [23 : 16] of the component identification" line.long 0x1C "ARM_CTI_5__CFG__CSCTI_CFG_COMPID3,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x1C 0.--7. 1. "PRMBL_3,Contains bits [31 : 24] of the component identification" tree.end tree "DEBUGSS0_ARM_CTI_6_CFG_CSCTI_CFG (DEBUGSS0_ARM_CTI_6_CFG_CSCTI_CFG)" base ad:0x73C02D000 group.long 0x0++0x3 line.long 0x0 "ARM_CTI_6__CFG__CSCTI_CFG_CTICONTROL,The CTI Control Register enables the CTI. >" bitfld.long 0x0 0. "GLBEN,Enables or disables the ECT." "0,1" group.long 0x10++0x2F line.long 0x0 "ARM_CTI_6__CFG__CSCTI_CFG_CTIINTACK,The CTI Interrupt Acknowledge Register is write-only. Any bits written as a 1 cause the ctitrigout output signal to be acknowledged. The acknowledgement is cleared when MAPTRIGOUT is deactivated. This register is used.." hexmask.long.byte 0x0 0.--7. 1. "INTACK,Acknowledges the corresponding ctitrigout output. There is one bit of the register for each ctitrigout output. When a 1 is written to a bit in this register the corresponding ctitrigout is acknowledged and is cleared when MAPTRIGOUT is LOW." line.long 0x4 "ARM_CTI_6__CFG__CSCTI_CFG_CTIAPPSET,The CTI Application Trigger Set Register is read/write. A write to this register causes a channel event to be raised. corresponding to the bit written to." hexmask.long.byte 0x4 0.--3. 1. "APPSET,Setting a bit HIGH generates a channel event for the selected channel. There is one bit of the register for each channel. Read : 0 = application trigger inactive (reset). 1 = application trigger active. Write : 0 = no effect. 1 = generate.." line.long 0x8 "ARM_CTI_6__CFG__CSCTI_CFG_CTIAPPCLEAR,The CTI Interrupt Acknowledge Register is write-only. A write to this register causes a channel event to be cleared. corresponding to the bit written to." hexmask.long.byte 0x8 0.--3. 1. "APPCLEAR,Clears corresponding bits in the CTIAPPSET register. There is one bit of the register for each channel. When a 1 is written to a bit in this register the corresponding application trigger is disabled in the CTIAPPSET register. Writing a 0 to.." line.long 0xC "ARM_CTI_6__CFG__CSCTI_CFG_CTIAPPPULSE,The CTI Application Pulse Register is write-only. A write to this register causes a channel event pulse. one cticlk period. to be generated. corresponding to the bit written to. The pulse external to the ECT can be.." hexmask.long.byte 0xC 0.--3. 1. "APPULSE,Setting a bit HIGH generates a channel event pulse for the selected channel. There is one bit of the register for each channel. When a 1 is written to a bit in this register a corresponding channel event pulse is generated for one cticlk.." line.long 0x10 "ARM_CTI_6__CFG__CSCTI_CFG_CTIINEN0,The CTI Trigger 0 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x10 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x14 "ARM_CTI_6__CFG__CSCTI_CFG_CTIINEN1,The CTI Trigger 1 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x14 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x18 "ARM_CTI_6__CFG__CSCTI_CFG_CTIINEN2,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x18 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x1C "ARM_CTI_6__CFG__CSCTI_CFG_CTIINEN3,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x20 "ARM_CTI_6__CFG__CSCTI_CFG_CTIINEN4,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x20 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x24 "ARM_CTI_6__CFG__CSCTI_CFG_CTIINEN5,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x24 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x28 "ARM_CTI_6__CFG__CSCTI_CFG_CTIINEN6,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x28 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x2C "ARM_CTI_6__CFG__CSCTI_CFG_CTIINEN7,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x2C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." group.long 0xA0++0x1F line.long 0x0 "ARM_CTI_6__CFG__CSCTI_CFG_CTIOUTEN0,The CTI Channel to Trigger 0 Enable Registers define which channels can generate a ctitrigout[0] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x0 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x4 "ARM_CTI_6__CFG__CSCTI_CFG_CTIOUTEN1,The CTI Channel to Trigger 1 Enable Registers define which channels can generate a ctitrigout[1] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x4 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x8 "ARM_CTI_6__CFG__CSCTI_CFG_CTIOUTEN2,The CTI Channel to Trigger 2 Enable Registers define which channels can generate a ctitrigout[2] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x8 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[2] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0xC "ARM_CTI_6__CFG__CSCTI_CFG_CTIOUTEN3,The CTI Channel to Trigger 3 Enable Registers define which channels can generate a ctitrigout[3] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0xC 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[3] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x10 "ARM_CTI_6__CFG__CSCTI_CFG_CTIOUTEN4,The CTI Channel to Trigger 4 Enable Registers define which channels can generate a ctitrigout[4] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x10 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[4] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x14 "ARM_CTI_6__CFG__CSCTI_CFG_CTIOUTEN5,The CTI Channel to Trigger 5 Enable Registers define which channels can generate a ctitrigout[5] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x14 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[5] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x18 "ARM_CTI_6__CFG__CSCTI_CFG_CTIOUTEN6,The CTI Channel to Trigger 6 Enable Registers define which channels can generate a ctitrigout[6] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x18 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[6] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x1C "ARM_CTI_6__CFG__CSCTI_CFG_CTIOUTEN7,The CTI Channel to Trigger 7 Enable Registers define which channels can generate a ctitrigout[7] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[7] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." rgroup.long 0x130++0xF line.long 0x0 "ARM_CTI_6__CFG__CSCTI_CFG_CTITRIGINSTATUS,The CTI Trigger In Status Register provides the status of the ctitrigin inputs." hexmask.long.byte 0x0 0.--7. 1. "TRIGINSTATUS,Shows the status of the ctitrigin inputs. 1 = ctitrigin is active. 0 = ctitrigin is inactive. Because the register provides a view of the raw ctitrigin inputs the reset value is unknown. There is one bit of the field for each trigger.." line.long 0x4 "ARM_CTI_6__CFG__CSCTI_CFG_CTITRIGOUTSTATUS,The CTI Trigger Out Status Register provides the status of the ctitrigout outputs." hexmask.long.byte 0x4 0.--7. 1. "TRIGOUTSTATUS,Shows the status of the ctitrigout outputs. 1 = ctitrigout is active. 0 = ctitrigout is inactive. There is one bit of the field for each trigger output." line.long 0x8 "ARM_CTI_6__CFG__CSCTI_CFG_CTICHINSTATUS,The CTI Channel In Status Register provides the status of the ctichin inputs." hexmask.long.byte 0x8 0.--3. 1. "CTICHINSTATUS,Shows the status of the ctichin inputs. 1 = ctichin is active. 0 = ctichin is inactive. Because the register provides a view of the raw ctichin inputs the reset value is unknown. There is one bit of the field for each channel input." line.long 0xC "ARM_CTI_6__CFG__CSCTI_CFG_CTICHOUTSTATUS,The CTI Channel Out Status Register provides the status of the CTI ctichout outputs." hexmask.long.byte 0xC 0.--3. 1. "CTICHOUTSTATUS,Shows the status of the ctichout outputs. 1 = ctichout is active. 0 = ctichout is inactive. There is one bit of the field for each channel output." group.long 0x140++0x7 line.long 0x0 "ARM_CTI_6__CFG__CSCTI_CFG_CTIGATE,The Gate Enable Register prevents the channels from propagating through the CTM to other CTIs. This enables local cross-triggering. for example for causing an interrupt when the ETM trigger occurs. It can be used.." bitfld.long 0x0 3. "CTIGATEEN3,Enable CTICHOUT3. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 2. "CTIGATEEN2,Enable CTICHOUT2. Set to 0 to disable channel propagation." "0,1" newline bitfld.long 0x0 1. "CTIGATEEN1,Enable CTICHOUT1. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 0. "CTIGATEEN0,Enable CTICHOUT0. Set to 0 to disable channel propagation." "0,1" line.long 0x4 "ARM_CTI_6__CFG__CSCTI_CFG_ASICCTL,Implementation-defined ASIC control. value written to the register is output on asicctl[7 : 0]." hexmask.long.byte 0x4 0.--7. 1. "ASICCTL,Implementation-defined ASIC control value written to the register is output on asicctl[7 : 0]. If external multiplexing of trigger signals is implemented then the number of multiplexed signals on each trigger must be reflected within the.." group.long 0xEDC++0xF line.long 0x0 "ARM_CTI_6__CFG__CSCTI_CFG_ITCHINACK,This register is a write-only register. It can be used to set the value of the CTCHINACK outputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHINACK,Set the value of the CTCHINACK outputs." line.long 0x4 "ARM_CTI_6__CFG__CSCTI_CFG_ITTRIGINACK,This register is a write-only register. It can be used to set the value of the CTTRIGINACK outputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGINACK,Set the value of the CTTRIGINACK outputs." line.long 0x8 "ARM_CTI_6__CFG__CSCTI_CFG_ITCHOUT,This register is a write-only register. It can be used to set the value of the CTCHOUT outputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHOUT,Set the value of the CTCHOUT outputs." line.long 0xC "ARM_CTI_6__CFG__CSCTI_CFG_ITTRIGOUT,This register is a write-only register. It can be used to set the value of the CTTRIGOUT outputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGOUT,Set the value of the CTTRIGOUT outputs." rgroup.long 0xEEC++0xF line.long 0x0 "ARM_CTI_6__CFG__CSCTI_CFG_ITCHOUTACK,This register is a read-only register. It can be used to read the values of the CTCHOUTACK inputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHOUTACK,Read the values of the CTCHOUTACK inputs." line.long 0x4 "ARM_CTI_6__CFG__CSCTI_CFG_ITTRIGOUTACK,This register is a read-only register. It can be used to read the values of the CTTRIGOUTACK inputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGOUTACK,Read the value of the CTTRIGOUTACK inputs." line.long 0x8 "ARM_CTI_6__CFG__CSCTI_CFG_ITCHIN,This register is a read-only register. It can be used to read the values of the CTCHIN inputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHIN,Read the value of the CTCHIN inputs." line.long 0xC "ARM_CTI_6__CFG__CSCTI_CFG_ITTRIGIN,This register is a read-only register. It can be used to read the values of the CTTRIGIN inputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGIN,Read the values of the CTTRIGIN inputs." group.long 0xF00++0x3 line.long 0x0 "ARM_CTI_6__CFG__CSCTI_CFG_ITCTRL,This register is used to enable topology detection. For more information see the CoreSight Architecture Specification. This register enables the component to switch from a functional mode. the default behavior. to.." bitfld.long 0x0 0. "INTEGRATION_MODE,Allows the component to switch from functional mode to integration mode or back." "0,1" group.long 0xFA0++0x7 line.long 0x0 "ARM_CTI_6__CFG__CSCTI_CFG_CLAIMSET,This is used in conjunction with Claim Tag Clear Register. CLAIMCLR. This register forms one half of the Claim Tag value. This location allows individual bits to be set. write. and returns the number of bits that can be.." hexmask.long.byte 0x0 0.--3. 1. "CLAIMSET,This claim tag bit is implemented" line.long 0x4 "ARM_CTI_6__CFG__CSCTI_CFG_CLAIMCLR,This register is used in conjunction with Claim Tag Set Register. CLAIMSET. This register forms one half of the Claim Tag value. This location enables individual bits to be cleared. write. and returns the current Claim.." hexmask.long.byte 0x4 0.--3. 1. "CLAIMCLR,The value present reflects the current setting of the Claim Tag." group.long 0xFB0++0x3 line.long 0x0 "ARM_CTI_6__CFG__CSCTI_CFG_LAR,This is used to enable write access to device registers. External accesses from a debugger (paddrdbg31 = 1) are not subject to the Lock Registers. A debugger does not have to unlock the component in order to write and.." hexmask.long 0x0 0.--31. 1. "ACCESS_W,A write of 0xC5ACCE55 enables further write access to this device. A write of any value other than 0xC5ACCE55 will have the affect of removing write access." rgroup.long 0xFB4++0x7 line.long 0x0 "ARM_CTI_6__CFG__CSCTI_CFG_LSR,This indicates the status of the Lock control mechanism. This lock prevents accidental writes by code under debug. When locked. write access is blocked to all registers. except the Lock Access Register. External accesses.." bitfld.long 0x0 2. "LOCKTYPE,Indicates if the Lock Access Register (0xFB0) is implemented as 8-bit or 32-bit" "0,1" bitfld.long 0x0 1. "LOCKGRANT,Returns the current status of the Lock. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" newline bitfld.long 0x0 0. "LOCKEXIST,Indicates that a lock control mechanism exists for this device. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" line.long 0x4 "ARM_CTI_6__CFG__CSCTI_CFG_AUTHSTATUS,Reports what functionality is currently permitted by the authentication interface." bitfld.long 0x4 6.--7. "SNID,Indicates the security level for secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 4.--5. "SID,Indicates the security level for secure invasive debug" "0,1,2,3" newline bitfld.long 0x4 2.--3. "NSNID,Indicates the security level for non-secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 0.--1. "NSID,Indicates the security level for non-secure invasive debug" "0,1,2,3" rgroup.long 0xFC8++0xB line.long 0x0 "ARM_CTI_6__CFG__CSCTI_CFG_DEVID,This register indicates the capabilities of the CTI." hexmask.long.byte 0x0 16.--19. 1. "NUMCH,Number of ECT channels available." hexmask.long.byte 0x0 8.--15. 1. "NUMTRIG,Number of ECT triggers available." newline hexmask.long.byte 0x0 0.--4. 1. "EXTMUXNUM,Indicates the number of multiplexing available on Trigger Inputs and Trigger Outputs using asicctl. Default value of 5'b00000 indicating no multiplexing present. Reflects the value of the Verilog define EXTMUXNUM that the user must alter.." line.long 0x4 "ARM_CTI_6__CFG__CSCTI_CFG_DEVTYPE,It provides a debugger with information about the component when the Part Number field is not recognized. The debugger can then report this information." hexmask.long.byte 0x4 4.--7. 1. "SUB_TYPE,Sub-classification within the major category" hexmask.long.byte 0x4 0.--3. 1. "MAJOR_TYPE,Major classification grouping for this debug/trace component" line.long 0x8 "ARM_CTI_6__CFG__CSCTI_CFG_PERIPHID4,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the memory footprint indicator." hexmask.long.byte 0x8 4.--7. 1. "SIZE,This is a 4-bit value that indicates the total contiguous size of the memory window used by this component in powers of 2 from the standard 4KB. If a component only requires the standard 4KB then this should read as 0x0 4KB only for 8KB set to.." hexmask.long.byte 0x8 0.--3. 1. "DES_2,JEDEC continuation code indicating the designer of the component (along with the identity code)" rgroup.long 0xFE0++0x1F line.long 0x0 "ARM_CTI_6__CFG__CSCTI_CFG_PERIPHID0,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number." hexmask.long.byte 0x0 0.--7. 1. "PART_0,Bits [7 : 0] of the component's part number. This is selected by the designer of the component." line.long 0x4 "ARM_CTI_6__CFG__CSCTI_CFG_PERIPHID1,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number and part of the designer identity." hexmask.long.byte 0x4 4.--7. 1. "DES_0,Bits 3 : 0 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" hexmask.long.byte 0x4 0.--3. 1. "PART_1,Bits [11 : 8] of the component's part number. This is selected by the designer of the component." line.long 0x8 "ARM_CTI_6__CFG__CSCTI_CFG_PERIPHID2,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the product revision." hexmask.long.byte 0x8 4.--7. 1. "REVISION,The Revision field is an incremental value starting at 0x0 for the first design of this component. This only increases by 1 for both major and minor revisions and is simply used as a look-up to establish the exact major/minor revision." bitfld.long 0x8 3. "JEDEC,Always set. Indicates that a JEDEC assigned value is used" "0,1" newline bitfld.long 0x8 0.--2. "DES_1,Bits 6 : 4 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" "?,?,?,?,?,?,6: 4 of the JEDEC identity code indicating the..,?" line.long 0xC "ARM_CTI_6__CFG__CSCTI_CFG_PERIPHID3,Part of the set of Peripheral Identification registers. Contains the RevAnd and Customer Modified fields." hexmask.long.byte 0xC 4.--7. 1. "REVAND,This field indicates minor errata fixes specific to this design for example metal fixes after implementation. In most cases this field is zero. It is recommended that component designers ensure this field can be changed by a metal fix if.." hexmask.long.byte 0xC 0.--3. 1. "CMOD,Where the component is reusable IP this value indicates if the customer has modified the behavior of the component. In most cases this field is zero." line.long 0x10 "ARM_CTI_6__CFG__CSCTI_CFG_COMPID0,Reserved Reserved Reserved A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x10 0.--7. 1. "PRMBL_0,Contains bits [7 : 0] of the component identification" line.long 0x14 "ARM_CTI_6__CFG__CSCTI_CFG_COMPID1,A component identification register. that indicates that the identification registers are present. This register also indicates the component class." hexmask.long.byte 0x14 4.--7. 1. "CLASS,Class of the component. E.g. ROM table CoreSight component etc. Constitutes bits [15 : 12] of the component identification." hexmask.long.byte 0x14 0.--3. 1. "PRMBL_1,Contains bits [11 : 8] of the component identification" line.long 0x18 "ARM_CTI_6__CFG__CSCTI_CFG_COMPID2,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x18 0.--7. 1. "PRMBL_2,Contains bits [23 : 16] of the component identification" line.long 0x1C "ARM_CTI_6__CFG__CSCTI_CFG_COMPID3,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x1C 0.--7. 1. "PRMBL_3,Contains bits [31 : 24] of the component identification" tree.end tree "DEBUGSS0_ARM_CTI_7_CFG_CSCTI_CFG (DEBUGSS0_ARM_CTI_7_CFG_CSCTI_CFG)" base ad:0x73C02E000 group.long 0x0++0x3 line.long 0x0 "ARM_CTI_7__CFG__CSCTI_CFG_CTICONTROL,The CTI Control Register enables the CTI. >" bitfld.long 0x0 0. "GLBEN,Enables or disables the ECT." "0,1" group.long 0x10++0x2F line.long 0x0 "ARM_CTI_7__CFG__CSCTI_CFG_CTIINTACK,The CTI Interrupt Acknowledge Register is write-only. Any bits written as a 1 cause the ctitrigout output signal to be acknowledged. The acknowledgement is cleared when MAPTRIGOUT is deactivated. This register is used.." hexmask.long.byte 0x0 0.--7. 1. "INTACK,Acknowledges the corresponding ctitrigout output. There is one bit of the register for each ctitrigout output. When a 1 is written to a bit in this register the corresponding ctitrigout is acknowledged and is cleared when MAPTRIGOUT is LOW." line.long 0x4 "ARM_CTI_7__CFG__CSCTI_CFG_CTIAPPSET,The CTI Application Trigger Set Register is read/write. A write to this register causes a channel event to be raised. corresponding to the bit written to." hexmask.long.byte 0x4 0.--3. 1. "APPSET,Setting a bit HIGH generates a channel event for the selected channel. There is one bit of the register for each channel. Read : 0 = application trigger inactive (reset). 1 = application trigger active. Write : 0 = no effect. 1 = generate.." line.long 0x8 "ARM_CTI_7__CFG__CSCTI_CFG_CTIAPPCLEAR,The CTI Interrupt Acknowledge Register is write-only. A write to this register causes a channel event to be cleared. corresponding to the bit written to." hexmask.long.byte 0x8 0.--3. 1. "APPCLEAR,Clears corresponding bits in the CTIAPPSET register. There is one bit of the register for each channel. When a 1 is written to a bit in this register the corresponding application trigger is disabled in the CTIAPPSET register. Writing a 0 to.." line.long 0xC "ARM_CTI_7__CFG__CSCTI_CFG_CTIAPPPULSE,The CTI Application Pulse Register is write-only. A write to this register causes a channel event pulse. one cticlk period. to be generated. corresponding to the bit written to. The pulse external to the ECT can be.." hexmask.long.byte 0xC 0.--3. 1. "APPULSE,Setting a bit HIGH generates a channel event pulse for the selected channel. There is one bit of the register for each channel. When a 1 is written to a bit in this register a corresponding channel event pulse is generated for one cticlk.." line.long 0x10 "ARM_CTI_7__CFG__CSCTI_CFG_CTIINEN0,The CTI Trigger 0 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x10 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x14 "ARM_CTI_7__CFG__CSCTI_CFG_CTIINEN1,The CTI Trigger 1 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x14 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x18 "ARM_CTI_7__CFG__CSCTI_CFG_CTIINEN2,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x18 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x1C "ARM_CTI_7__CFG__CSCTI_CFG_CTIINEN3,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x20 "ARM_CTI_7__CFG__CSCTI_CFG_CTIINEN4,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x20 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x24 "ARM_CTI_7__CFG__CSCTI_CFG_CTIINEN5,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x24 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x28 "ARM_CTI_7__CFG__CSCTI_CFG_CTIINEN6,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x28 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x2C "ARM_CTI_7__CFG__CSCTI_CFG_CTIINEN7,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x2C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." group.long 0xA0++0x1F line.long 0x0 "ARM_CTI_7__CFG__CSCTI_CFG_CTIOUTEN0,The CTI Channel to Trigger 0 Enable Registers define which channels can generate a ctitrigout[0] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x0 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x4 "ARM_CTI_7__CFG__CSCTI_CFG_CTIOUTEN1,The CTI Channel to Trigger 1 Enable Registers define which channels can generate a ctitrigout[1] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x4 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x8 "ARM_CTI_7__CFG__CSCTI_CFG_CTIOUTEN2,The CTI Channel to Trigger 2 Enable Registers define which channels can generate a ctitrigout[2] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x8 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[2] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0xC "ARM_CTI_7__CFG__CSCTI_CFG_CTIOUTEN3,The CTI Channel to Trigger 3 Enable Registers define which channels can generate a ctitrigout[3] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0xC 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[3] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x10 "ARM_CTI_7__CFG__CSCTI_CFG_CTIOUTEN4,The CTI Channel to Trigger 4 Enable Registers define which channels can generate a ctitrigout[4] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x10 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[4] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x14 "ARM_CTI_7__CFG__CSCTI_CFG_CTIOUTEN5,The CTI Channel to Trigger 5 Enable Registers define which channels can generate a ctitrigout[5] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x14 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[5] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x18 "ARM_CTI_7__CFG__CSCTI_CFG_CTIOUTEN6,The CTI Channel to Trigger 6 Enable Registers define which channels can generate a ctitrigout[6] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x18 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[6] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x1C "ARM_CTI_7__CFG__CSCTI_CFG_CTIOUTEN7,The CTI Channel to Trigger 7 Enable Registers define which channels can generate a ctitrigout[7] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[7] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." rgroup.long 0x130++0xF line.long 0x0 "ARM_CTI_7__CFG__CSCTI_CFG_CTITRIGINSTATUS,The CTI Trigger In Status Register provides the status of the ctitrigin inputs." hexmask.long.byte 0x0 0.--7. 1. "TRIGINSTATUS,Shows the status of the ctitrigin inputs. 1 = ctitrigin is active. 0 = ctitrigin is inactive. Because the register provides a view of the raw ctitrigin inputs the reset value is unknown. There is one bit of the field for each trigger.." line.long 0x4 "ARM_CTI_7__CFG__CSCTI_CFG_CTITRIGOUTSTATUS,The CTI Trigger Out Status Register provides the status of the ctitrigout outputs." hexmask.long.byte 0x4 0.--7. 1. "TRIGOUTSTATUS,Shows the status of the ctitrigout outputs. 1 = ctitrigout is active. 0 = ctitrigout is inactive. There is one bit of the field for each trigger output." line.long 0x8 "ARM_CTI_7__CFG__CSCTI_CFG_CTICHINSTATUS,The CTI Channel In Status Register provides the status of the ctichin inputs." hexmask.long.byte 0x8 0.--3. 1. "CTICHINSTATUS,Shows the status of the ctichin inputs. 1 = ctichin is active. 0 = ctichin is inactive. Because the register provides a view of the raw ctichin inputs the reset value is unknown. There is one bit of the field for each channel input." line.long 0xC "ARM_CTI_7__CFG__CSCTI_CFG_CTICHOUTSTATUS,The CTI Channel Out Status Register provides the status of the CTI ctichout outputs." hexmask.long.byte 0xC 0.--3. 1. "CTICHOUTSTATUS,Shows the status of the ctichout outputs. 1 = ctichout is active. 0 = ctichout is inactive. There is one bit of the field for each channel output." group.long 0x140++0x7 line.long 0x0 "ARM_CTI_7__CFG__CSCTI_CFG_CTIGATE,The Gate Enable Register prevents the channels from propagating through the CTM to other CTIs. This enables local cross-triggering. for example for causing an interrupt when the ETM trigger occurs. It can be used.." bitfld.long 0x0 3. "CTIGATEEN3,Enable CTICHOUT3. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 2. "CTIGATEEN2,Enable CTICHOUT2. Set to 0 to disable channel propagation." "0,1" newline bitfld.long 0x0 1. "CTIGATEEN1,Enable CTICHOUT1. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 0. "CTIGATEEN0,Enable CTICHOUT0. Set to 0 to disable channel propagation." "0,1" line.long 0x4 "ARM_CTI_7__CFG__CSCTI_CFG_ASICCTL,Implementation-defined ASIC control. value written to the register is output on asicctl[7 : 0]." hexmask.long.byte 0x4 0.--7. 1. "ASICCTL,Implementation-defined ASIC control value written to the register is output on asicctl[7 : 0]. If external multiplexing of trigger signals is implemented then the number of multiplexed signals on each trigger must be reflected within the.." group.long 0xEDC++0xF line.long 0x0 "ARM_CTI_7__CFG__CSCTI_CFG_ITCHINACK,This register is a write-only register. It can be used to set the value of the CTCHINACK outputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHINACK,Set the value of the CTCHINACK outputs." line.long 0x4 "ARM_CTI_7__CFG__CSCTI_CFG_ITTRIGINACK,This register is a write-only register. It can be used to set the value of the CTTRIGINACK outputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGINACK,Set the value of the CTTRIGINACK outputs." line.long 0x8 "ARM_CTI_7__CFG__CSCTI_CFG_ITCHOUT,This register is a write-only register. It can be used to set the value of the CTCHOUT outputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHOUT,Set the value of the CTCHOUT outputs." line.long 0xC "ARM_CTI_7__CFG__CSCTI_CFG_ITTRIGOUT,This register is a write-only register. It can be used to set the value of the CTTRIGOUT outputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGOUT,Set the value of the CTTRIGOUT outputs." rgroup.long 0xEEC++0xF line.long 0x0 "ARM_CTI_7__CFG__CSCTI_CFG_ITCHOUTACK,This register is a read-only register. It can be used to read the values of the CTCHOUTACK inputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHOUTACK,Read the values of the CTCHOUTACK inputs." line.long 0x4 "ARM_CTI_7__CFG__CSCTI_CFG_ITTRIGOUTACK,This register is a read-only register. It can be used to read the values of the CTTRIGOUTACK inputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGOUTACK,Read the value of the CTTRIGOUTACK inputs." line.long 0x8 "ARM_CTI_7__CFG__CSCTI_CFG_ITCHIN,This register is a read-only register. It can be used to read the values of the CTCHIN inputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHIN,Read the value of the CTCHIN inputs." line.long 0xC "ARM_CTI_7__CFG__CSCTI_CFG_ITTRIGIN,This register is a read-only register. It can be used to read the values of the CTTRIGIN inputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGIN,Read the values of the CTTRIGIN inputs." group.long 0xF00++0x3 line.long 0x0 "ARM_CTI_7__CFG__CSCTI_CFG_ITCTRL,This register is used to enable topology detection. For more information see the CoreSight Architecture Specification. This register enables the component to switch from a functional mode. the default behavior. to.." bitfld.long 0x0 0. "INTEGRATION_MODE,Allows the component to switch from functional mode to integration mode or back." "0,1" group.long 0xFA0++0x7 line.long 0x0 "ARM_CTI_7__CFG__CSCTI_CFG_CLAIMSET,This is used in conjunction with Claim Tag Clear Register. CLAIMCLR. This register forms one half of the Claim Tag value. This location allows individual bits to be set. write. and returns the number of bits that can be.." hexmask.long.byte 0x0 0.--3. 1. "CLAIMSET,This claim tag bit is implemented" line.long 0x4 "ARM_CTI_7__CFG__CSCTI_CFG_CLAIMCLR,This register is used in conjunction with Claim Tag Set Register. CLAIMSET. This register forms one half of the Claim Tag value. This location enables individual bits to be cleared. write. and returns the current Claim.." hexmask.long.byte 0x4 0.--3. 1. "CLAIMCLR,The value present reflects the current setting of the Claim Tag." group.long 0xFB0++0x3 line.long 0x0 "ARM_CTI_7__CFG__CSCTI_CFG_LAR,This is used to enable write access to device registers. External accesses from a debugger (paddrdbg31 = 1) are not subject to the Lock Registers. A debugger does not have to unlock the component in order to write and.." hexmask.long 0x0 0.--31. 1. "ACCESS_W,A write of 0xC5ACCE55 enables further write access to this device. A write of any value other than 0xC5ACCE55 will have the affect of removing write access." rgroup.long 0xFB4++0x7 line.long 0x0 "ARM_CTI_7__CFG__CSCTI_CFG_LSR,This indicates the status of the Lock control mechanism. This lock prevents accidental writes by code under debug. When locked. write access is blocked to all registers. except the Lock Access Register. External accesses.." bitfld.long 0x0 2. "LOCKTYPE,Indicates if the Lock Access Register (0xFB0) is implemented as 8-bit or 32-bit" "0,1" bitfld.long 0x0 1. "LOCKGRANT,Returns the current status of the Lock. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" newline bitfld.long 0x0 0. "LOCKEXIST,Indicates that a lock control mechanism exists for this device. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" line.long 0x4 "ARM_CTI_7__CFG__CSCTI_CFG_AUTHSTATUS,Reports what functionality is currently permitted by the authentication interface." bitfld.long 0x4 6.--7. "SNID,Indicates the security level for secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 4.--5. "SID,Indicates the security level for secure invasive debug" "0,1,2,3" newline bitfld.long 0x4 2.--3. "NSNID,Indicates the security level for non-secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 0.--1. "NSID,Indicates the security level for non-secure invasive debug" "0,1,2,3" rgroup.long 0xFC8++0xB line.long 0x0 "ARM_CTI_7__CFG__CSCTI_CFG_DEVID,This register indicates the capabilities of the CTI." hexmask.long.byte 0x0 16.--19. 1. "NUMCH,Number of ECT channels available." hexmask.long.byte 0x0 8.--15. 1. "NUMTRIG,Number of ECT triggers available." newline hexmask.long.byte 0x0 0.--4. 1. "EXTMUXNUM,Indicates the number of multiplexing available on Trigger Inputs and Trigger Outputs using asicctl. Default value of 5'b00000 indicating no multiplexing present. Reflects the value of the Verilog define EXTMUXNUM that the user must alter.." line.long 0x4 "ARM_CTI_7__CFG__CSCTI_CFG_DEVTYPE,It provides a debugger with information about the component when the Part Number field is not recognized. The debugger can then report this information." hexmask.long.byte 0x4 4.--7. 1. "SUB_TYPE,Sub-classification within the major category" hexmask.long.byte 0x4 0.--3. 1. "MAJOR_TYPE,Major classification grouping for this debug/trace component" line.long 0x8 "ARM_CTI_7__CFG__CSCTI_CFG_PERIPHID4,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the memory footprint indicator." hexmask.long.byte 0x8 4.--7. 1. "SIZE,This is a 4-bit value that indicates the total contiguous size of the memory window used by this component in powers of 2 from the standard 4KB. If a component only requires the standard 4KB then this should read as 0x0 4KB only for 8KB set to.." hexmask.long.byte 0x8 0.--3. 1. "DES_2,JEDEC continuation code indicating the designer of the component (along with the identity code)" rgroup.long 0xFE0++0x1F line.long 0x0 "ARM_CTI_7__CFG__CSCTI_CFG_PERIPHID0,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number." hexmask.long.byte 0x0 0.--7. 1. "PART_0,Bits [7 : 0] of the component's part number. This is selected by the designer of the component." line.long 0x4 "ARM_CTI_7__CFG__CSCTI_CFG_PERIPHID1,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number and part of the designer identity." hexmask.long.byte 0x4 4.--7. 1. "DES_0,Bits 3 : 0 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" hexmask.long.byte 0x4 0.--3. 1. "PART_1,Bits [11 : 8] of the component's part number. This is selected by the designer of the component." line.long 0x8 "ARM_CTI_7__CFG__CSCTI_CFG_PERIPHID2,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the product revision." hexmask.long.byte 0x8 4.--7. 1. "REVISION,The Revision field is an incremental value starting at 0x0 for the first design of this component. This only increases by 1 for both major and minor revisions and is simply used as a look-up to establish the exact major/minor revision." bitfld.long 0x8 3. "JEDEC,Always set. Indicates that a JEDEC assigned value is used" "0,1" newline bitfld.long 0x8 0.--2. "DES_1,Bits 6 : 4 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" "?,?,?,?,?,?,6: 4 of the JEDEC identity code indicating the..,?" line.long 0xC "ARM_CTI_7__CFG__CSCTI_CFG_PERIPHID3,Part of the set of Peripheral Identification registers. Contains the RevAnd and Customer Modified fields." hexmask.long.byte 0xC 4.--7. 1. "REVAND,This field indicates minor errata fixes specific to this design for example metal fixes after implementation. In most cases this field is zero. It is recommended that component designers ensure this field can be changed by a metal fix if.." hexmask.long.byte 0xC 0.--3. 1. "CMOD,Where the component is reusable IP this value indicates if the customer has modified the behavior of the component. In most cases this field is zero." line.long 0x10 "ARM_CTI_7__CFG__CSCTI_CFG_COMPID0,Reserved Reserved Reserved A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x10 0.--7. 1. "PRMBL_0,Contains bits [7 : 0] of the component identification" line.long 0x14 "ARM_CTI_7__CFG__CSCTI_CFG_COMPID1,A component identification register. that indicates that the identification registers are present. This register also indicates the component class." hexmask.long.byte 0x14 4.--7. 1. "CLASS,Class of the component. E.g. ROM table CoreSight component etc. Constitutes bits [15 : 12] of the component identification." hexmask.long.byte 0x14 0.--3. 1. "PRMBL_1,Contains bits [11 : 8] of the component identification" line.long 0x18 "ARM_CTI_7__CFG__CSCTI_CFG_COMPID2,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x18 0.--7. 1. "PRMBL_2,Contains bits [23 : 16] of the component identification" line.long 0x1C "ARM_CTI_7__CFG__CSCTI_CFG_COMPID3,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x1C 0.--7. 1. "PRMBL_3,Contains bits [31 : 24] of the component identification" tree.end tree "DEBUGSS0_ARM_CTI_8_CFG_CSCTI_CFG (DEBUGSS0_ARM_CTI_8_CFG_CSCTI_CFG)" base ad:0x73C02F000 group.long 0x0++0x3 line.long 0x0 "ARM_CTI_8__CFG__CSCTI_CFG_CTICONTROL,The CTI Control Register enables the CTI. >" bitfld.long 0x0 0. "GLBEN,Enables or disables the ECT." "0,1" group.long 0x10++0x2F line.long 0x0 "ARM_CTI_8__CFG__CSCTI_CFG_CTIINTACK,The CTI Interrupt Acknowledge Register is write-only. Any bits written as a 1 cause the ctitrigout output signal to be acknowledged. The acknowledgement is cleared when MAPTRIGOUT is deactivated. This register is used.." hexmask.long.byte 0x0 0.--7. 1. "INTACK,Acknowledges the corresponding ctitrigout output. There is one bit of the register for each ctitrigout output. When a 1 is written to a bit in this register the corresponding ctitrigout is acknowledged and is cleared when MAPTRIGOUT is LOW." line.long 0x4 "ARM_CTI_8__CFG__CSCTI_CFG_CTIAPPSET,The CTI Application Trigger Set Register is read/write. A write to this register causes a channel event to be raised. corresponding to the bit written to." hexmask.long.byte 0x4 0.--3. 1. "APPSET,Setting a bit HIGH generates a channel event for the selected channel. There is one bit of the register for each channel. Read : 0 = application trigger inactive (reset). 1 = application trigger active. Write : 0 = no effect. 1 = generate.." line.long 0x8 "ARM_CTI_8__CFG__CSCTI_CFG_CTIAPPCLEAR,The CTI Interrupt Acknowledge Register is write-only. A write to this register causes a channel event to be cleared. corresponding to the bit written to." hexmask.long.byte 0x8 0.--3. 1. "APPCLEAR,Clears corresponding bits in the CTIAPPSET register. There is one bit of the register for each channel. When a 1 is written to a bit in this register the corresponding application trigger is disabled in the CTIAPPSET register. Writing a 0 to.." line.long 0xC "ARM_CTI_8__CFG__CSCTI_CFG_CTIAPPPULSE,The CTI Application Pulse Register is write-only. A write to this register causes a channel event pulse. one cticlk period. to be generated. corresponding to the bit written to. The pulse external to the ECT can be.." hexmask.long.byte 0xC 0.--3. 1. "APPULSE,Setting a bit HIGH generates a channel event pulse for the selected channel. There is one bit of the register for each channel. When a 1 is written to a bit in this register a corresponding channel event pulse is generated for one cticlk.." line.long 0x10 "ARM_CTI_8__CFG__CSCTI_CFG_CTIINEN0,The CTI Trigger 0 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x10 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x14 "ARM_CTI_8__CFG__CSCTI_CFG_CTIINEN1,The CTI Trigger 1 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x14 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x18 "ARM_CTI_8__CFG__CSCTI_CFG_CTIINEN2,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x18 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x1C "ARM_CTI_8__CFG__CSCTI_CFG_CTIINEN3,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x20 "ARM_CTI_8__CFG__CSCTI_CFG_CTIINEN4,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x20 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x24 "ARM_CTI_8__CFG__CSCTI_CFG_CTIINEN5,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x24 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x28 "ARM_CTI_8__CFG__CSCTI_CFG_CTIINEN6,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x28 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x2C "ARM_CTI_8__CFG__CSCTI_CFG_CTIINEN7,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x2C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." group.long 0xA0++0x1F line.long 0x0 "ARM_CTI_8__CFG__CSCTI_CFG_CTIOUTEN0,The CTI Channel to Trigger 0 Enable Registers define which channels can generate a ctitrigout[0] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x0 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x4 "ARM_CTI_8__CFG__CSCTI_CFG_CTIOUTEN1,The CTI Channel to Trigger 1 Enable Registers define which channels can generate a ctitrigout[1] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x4 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x8 "ARM_CTI_8__CFG__CSCTI_CFG_CTIOUTEN2,The CTI Channel to Trigger 2 Enable Registers define which channels can generate a ctitrigout[2] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x8 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[2] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0xC "ARM_CTI_8__CFG__CSCTI_CFG_CTIOUTEN3,The CTI Channel to Trigger 3 Enable Registers define which channels can generate a ctitrigout[3] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0xC 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[3] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x10 "ARM_CTI_8__CFG__CSCTI_CFG_CTIOUTEN4,The CTI Channel to Trigger 4 Enable Registers define which channels can generate a ctitrigout[4] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x10 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[4] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x14 "ARM_CTI_8__CFG__CSCTI_CFG_CTIOUTEN5,The CTI Channel to Trigger 5 Enable Registers define which channels can generate a ctitrigout[5] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x14 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[5] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x18 "ARM_CTI_8__CFG__CSCTI_CFG_CTIOUTEN6,The CTI Channel to Trigger 6 Enable Registers define which channels can generate a ctitrigout[6] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x18 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[6] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x1C "ARM_CTI_8__CFG__CSCTI_CFG_CTIOUTEN7,The CTI Channel to Trigger 7 Enable Registers define which channels can generate a ctitrigout[7] output. Within this register there is one bit for each of the four channels implemented. This register affects the.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[7] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." rgroup.long 0x130++0xF line.long 0x0 "ARM_CTI_8__CFG__CSCTI_CFG_CTITRIGINSTATUS,The CTI Trigger In Status Register provides the status of the ctitrigin inputs." hexmask.long.byte 0x0 0.--7. 1. "TRIGINSTATUS,Shows the status of the ctitrigin inputs. 1 = ctitrigin is active. 0 = ctitrigin is inactive. Because the register provides a view of the raw ctitrigin inputs the reset value is unknown. There is one bit of the field for each trigger.." line.long 0x4 "ARM_CTI_8__CFG__CSCTI_CFG_CTITRIGOUTSTATUS,The CTI Trigger Out Status Register provides the status of the ctitrigout outputs." hexmask.long.byte 0x4 0.--7. 1. "TRIGOUTSTATUS,Shows the status of the ctitrigout outputs. 1 = ctitrigout is active. 0 = ctitrigout is inactive. There is one bit of the field for each trigger output." line.long 0x8 "ARM_CTI_8__CFG__CSCTI_CFG_CTICHINSTATUS,The CTI Channel In Status Register provides the status of the ctichin inputs." hexmask.long.byte 0x8 0.--3. 1. "CTICHINSTATUS,Shows the status of the ctichin inputs. 1 = ctichin is active. 0 = ctichin is inactive. Because the register provides a view of the raw ctichin inputs the reset value is unknown. There is one bit of the field for each channel input." line.long 0xC "ARM_CTI_8__CFG__CSCTI_CFG_CTICHOUTSTATUS,The CTI Channel Out Status Register provides the status of the CTI ctichout outputs." hexmask.long.byte 0xC 0.--3. 1. "CTICHOUTSTATUS,Shows the status of the ctichout outputs. 1 = ctichout is active. 0 = ctichout is inactive. There is one bit of the field for each channel output." group.long 0x140++0x7 line.long 0x0 "ARM_CTI_8__CFG__CSCTI_CFG_CTIGATE,The Gate Enable Register prevents the channels from propagating through the CTM to other CTIs. This enables local cross-triggering. for example for causing an interrupt when the ETM trigger occurs. It can be used.." bitfld.long 0x0 3. "CTIGATEEN3,Enable CTICHOUT3. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 2. "CTIGATEEN2,Enable CTICHOUT2. Set to 0 to disable channel propagation." "0,1" newline bitfld.long 0x0 1. "CTIGATEEN1,Enable CTICHOUT1. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 0. "CTIGATEEN0,Enable CTICHOUT0. Set to 0 to disable channel propagation." "0,1" line.long 0x4 "ARM_CTI_8__CFG__CSCTI_CFG_ASICCTL,Implementation-defined ASIC control. value written to the register is output on asicctl[7 : 0]." hexmask.long.byte 0x4 0.--7. 1. "ASICCTL,Implementation-defined ASIC control value written to the register is output on asicctl[7 : 0]. If external multiplexing of trigger signals is implemented then the number of multiplexed signals on each trigger must be reflected within the.." group.long 0xEDC++0xF line.long 0x0 "ARM_CTI_8__CFG__CSCTI_CFG_ITCHINACK,This register is a write-only register. It can be used to set the value of the CTCHINACK outputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHINACK,Set the value of the CTCHINACK outputs." line.long 0x4 "ARM_CTI_8__CFG__CSCTI_CFG_ITTRIGINACK,This register is a write-only register. It can be used to set the value of the CTTRIGINACK outputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGINACK,Set the value of the CTTRIGINACK outputs." line.long 0x8 "ARM_CTI_8__CFG__CSCTI_CFG_ITCHOUT,This register is a write-only register. It can be used to set the value of the CTCHOUT outputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHOUT,Set the value of the CTCHOUT outputs." line.long 0xC "ARM_CTI_8__CFG__CSCTI_CFG_ITTRIGOUT,This register is a write-only register. It can be used to set the value of the CTTRIGOUT outputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGOUT,Set the value of the CTTRIGOUT outputs." rgroup.long 0xEEC++0xF line.long 0x0 "ARM_CTI_8__CFG__CSCTI_CFG_ITCHOUTACK,This register is a read-only register. It can be used to read the values of the CTCHOUTACK inputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHOUTACK,Read the values of the CTCHOUTACK inputs." line.long 0x4 "ARM_CTI_8__CFG__CSCTI_CFG_ITTRIGOUTACK,This register is a read-only register. It can be used to read the values of the CTTRIGOUTACK inputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGOUTACK,Read the value of the CTTRIGOUTACK inputs." line.long 0x8 "ARM_CTI_8__CFG__CSCTI_CFG_ITCHIN,This register is a read-only register. It can be used to read the values of the CTCHIN inputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHIN,Read the value of the CTCHIN inputs." line.long 0xC "ARM_CTI_8__CFG__CSCTI_CFG_ITTRIGIN,This register is a read-only register. It can be used to read the values of the CTTRIGIN inputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGIN,Read the values of the CTTRIGIN inputs." group.long 0xF00++0x3 line.long 0x0 "ARM_CTI_8__CFG__CSCTI_CFG_ITCTRL,This register is used to enable topology detection. For more information see the CoreSight Architecture Specification. This register enables the component to switch from a functional mode. the default behavior. to.." bitfld.long 0x0 0. "INTEGRATION_MODE,Allows the component to switch from functional mode to integration mode or back." "0,1" group.long 0xFA0++0x7 line.long 0x0 "ARM_CTI_8__CFG__CSCTI_CFG_CLAIMSET,This is used in conjunction with Claim Tag Clear Register. CLAIMCLR. This register forms one half of the Claim Tag value. This location allows individual bits to be set. write. and returns the number of bits that can be.." hexmask.long.byte 0x0 0.--3. 1. "CLAIMSET,This claim tag bit is implemented" line.long 0x4 "ARM_CTI_8__CFG__CSCTI_CFG_CLAIMCLR,This register is used in conjunction with Claim Tag Set Register. CLAIMSET. This register forms one half of the Claim Tag value. This location enables individual bits to be cleared. write. and returns the current Claim.." hexmask.long.byte 0x4 0.--3. 1. "CLAIMCLR,The value present reflects the current setting of the Claim Tag." group.long 0xFB0++0x3 line.long 0x0 "ARM_CTI_8__CFG__CSCTI_CFG_LAR,This is used to enable write access to device registers. External accesses from a debugger (paddrdbg31 = 1) are not subject to the Lock Registers. A debugger does not have to unlock the component in order to write and.." hexmask.long 0x0 0.--31. 1. "ACCESS_W,A write of 0xC5ACCE55 enables further write access to this device. A write of any value other than 0xC5ACCE55 will have the affect of removing write access." rgroup.long 0xFB4++0x7 line.long 0x0 "ARM_CTI_8__CFG__CSCTI_CFG_LSR,This indicates the status of the Lock control mechanism. This lock prevents accidental writes by code under debug. When locked. write access is blocked to all registers. except the Lock Access Register. External accesses.." bitfld.long 0x0 2. "LOCKTYPE,Indicates if the Lock Access Register (0xFB0) is implemented as 8-bit or 32-bit" "0,1" bitfld.long 0x0 1. "LOCKGRANT,Returns the current status of the Lock. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" newline bitfld.long 0x0 0. "LOCKEXIST,Indicates that a lock control mechanism exists for this device. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" line.long 0x4 "ARM_CTI_8__CFG__CSCTI_CFG_AUTHSTATUS,Reports what functionality is currently permitted by the authentication interface." bitfld.long 0x4 6.--7. "SNID,Indicates the security level for secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 4.--5. "SID,Indicates the security level for secure invasive debug" "0,1,2,3" newline bitfld.long 0x4 2.--3. "NSNID,Indicates the security level for non-secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 0.--1. "NSID,Indicates the security level for non-secure invasive debug" "0,1,2,3" rgroup.long 0xFC8++0xB line.long 0x0 "ARM_CTI_8__CFG__CSCTI_CFG_DEVID,This register indicates the capabilities of the CTI." hexmask.long.byte 0x0 16.--19. 1. "NUMCH,Number of ECT channels available." hexmask.long.byte 0x0 8.--15. 1. "NUMTRIG,Number of ECT triggers available." newline hexmask.long.byte 0x0 0.--4. 1. "EXTMUXNUM,Indicates the number of multiplexing available on Trigger Inputs and Trigger Outputs using asicctl. Default value of 5'b00000 indicating no multiplexing present. Reflects the value of the Verilog define EXTMUXNUM that the user must alter.." line.long 0x4 "ARM_CTI_8__CFG__CSCTI_CFG_DEVTYPE,It provides a debugger with information about the component when the Part Number field is not recognized. The debugger can then report this information." hexmask.long.byte 0x4 4.--7. 1. "SUB_TYPE,Sub-classification within the major category" hexmask.long.byte 0x4 0.--3. 1. "MAJOR_TYPE,Major classification grouping for this debug/trace component" line.long 0x8 "ARM_CTI_8__CFG__CSCTI_CFG_PERIPHID4,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the memory footprint indicator." hexmask.long.byte 0x8 4.--7. 1. "SIZE,This is a 4-bit value that indicates the total contiguous size of the memory window used by this component in powers of 2 from the standard 4KB. If a component only requires the standard 4KB then this should read as 0x0 4KB only for 8KB set to.." hexmask.long.byte 0x8 0.--3. 1. "DES_2,JEDEC continuation code indicating the designer of the component (along with the identity code)" rgroup.long 0xFE0++0x1F line.long 0x0 "ARM_CTI_8__CFG__CSCTI_CFG_PERIPHID0,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number." hexmask.long.byte 0x0 0.--7. 1. "PART_0,Bits [7 : 0] of the component's part number. This is selected by the designer of the component." line.long 0x4 "ARM_CTI_8__CFG__CSCTI_CFG_PERIPHID1,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number and part of the designer identity." hexmask.long.byte 0x4 4.--7. 1. "DES_0,Bits 3 : 0 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" hexmask.long.byte 0x4 0.--3. 1. "PART_1,Bits [11 : 8] of the component's part number. This is selected by the designer of the component." line.long 0x8 "ARM_CTI_8__CFG__CSCTI_CFG_PERIPHID2,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the product revision." hexmask.long.byte 0x8 4.--7. 1. "REVISION,The Revision field is an incremental value starting at 0x0 for the first design of this component. This only increases by 1 for both major and minor revisions and is simply used as a look-up to establish the exact major/minor revision." bitfld.long 0x8 3. "JEDEC,Always set. Indicates that a JEDEC assigned value is used" "0,1" newline bitfld.long 0x8 0.--2. "DES_1,Bits 6 : 4 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" "?,?,?,?,?,?,6: 4 of the JEDEC identity code indicating the..,?" line.long 0xC "ARM_CTI_8__CFG__CSCTI_CFG_PERIPHID3,Part of the set of Peripheral Identification registers. Contains the RevAnd and Customer Modified fields." hexmask.long.byte 0xC 4.--7. 1. "REVAND,This field indicates minor errata fixes specific to this design for example metal fixes after implementation. In most cases this field is zero. It is recommended that component designers ensure this field can be changed by a metal fix if.." hexmask.long.byte 0xC 0.--3. 1. "CMOD,Where the component is reusable IP this value indicates if the customer has modified the behavior of the component. In most cases this field is zero." line.long 0x10 "ARM_CTI_8__CFG__CSCTI_CFG_COMPID0,Reserved Reserved Reserved A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x10 0.--7. 1. "PRMBL_0,Contains bits [7 : 0] of the component identification" line.long 0x14 "ARM_CTI_8__CFG__CSCTI_CFG_COMPID1,A component identification register. that indicates that the identification registers are present. This register also indicates the component class." hexmask.long.byte 0x14 4.--7. 1. "CLASS,Class of the component. E.g. ROM table CoreSight component etc. Constitutes bits [15 : 12] of the component identification." hexmask.long.byte 0x14 0.--3. 1. "PRMBL_1,Contains bits [11 : 8] of the component identification" line.long 0x18 "ARM_CTI_8__CFG__CSCTI_CFG_COMPID2,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x18 0.--7. 1. "PRMBL_2,Contains bits [23 : 16] of the component identification" line.long 0x1C "ARM_CTI_8__CFG__CSCTI_CFG_COMPID3,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x1C 0.--7. 1. "PRMBL_3,Contains bits [31 : 24] of the component identification" tree.end tree.end endif tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "DEBUGSS_WRAP0" base ad:0x0 tree "DEBUGSS_WRAP0_APBAP0 (DEBUGSS_WRAP0_APBAP0)" base ad:0x700002100 group.long 0x0++0x7 line.long 0x0 "APBAP_CFG_0_CSWREG,Control/Status Register" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "APBAP_CFG_0_TAREG,This register contains the address to write to or read from." hexmask.long 0x4 0.--31. 1. "TRANSFER_ADDRESS_REGISTER,This register contains the address to write to or read from" group.long 0xC++0x13 line.long 0x0 "APBAP_CFG_0_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "APBAP_CFG_0_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "APBAP_CFG_0_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "APBAP_CFG_0_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "APBAP_CFG_0_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "APBAP_CFG_0_ROM_Register,Reading this register returns the APB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER_ADDRESS,Reading this register returns the APB ROM Address" line.long 0x4 "APBAP_CFG_0_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [0]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [2]" tree.end tree "DEBUGSS_WRAP0_APBAP1 (DEBUGSS_WRAP0_APBAP1)" base ad:0x740002100 group.long 0x0++0x7 line.long 0x0 "APBAP_CFG_1_CSWREG,Control/Status Register" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "APBAP_CFG_1_TAREG,This register contains the address to write to or read from." hexmask.long 0x4 0.--31. 1. "TRANSFER_ADDRESS_REGISTER,This register contains the address to write to or read from" group.long 0xC++0x13 line.long 0x0 "APBAP_CFG_1_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "APBAP_CFG_1_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "APBAP_CFG_1_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "APBAP_CFG_1_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "APBAP_CFG_1_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "APBAP_CFG_1_ROM_Register,Reading this register returns the APB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER_ADDRESS,Reading this register returns the APB ROM Address" line.long 0x4 "APBAP_CFG_1_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [0]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [2]" tree.end tree "DEBUGSS_WRAP0_AXIAP0 (DEBUGSS_WRAP0_AXIAP0)" base ad:0x700002200 group.long 0x0++0x23 line.long 0x0 "AXIAP_CFG_0_CSWREG,This is the control/status register" bitfld.long 0x0 31. "DBGSWEN,Indicates whether accesses should treated as application or debug" "0,1" hexmask.long.byte 0x0 24.--30. 1. "TYPEEXT," newline rbitfld.long 0x0 23. "SPIDEN,When 1 secure accesses are enabled" "0,1" hexmask.long.byte 0x0 16.--22. 1. "RESERVED2,Reserved reads return 0" newline hexmask.long.byte 0x0 12.--15. 1. "TYPE,Sets Prot Type attributes for the access" hexmask.long.byte 0x0 8.--11. 1. "MODE,Sets mode of operation 0000=basic 0001=Barrier extensions all other values reserved" newline rbitfld.long 0x0 7. "TRINPROG,This bit is set to 1 while a transfer is in progress on the connection to the memory system and is set to 0 while the connection is idle" "0,1" rbitfld.long 0x0 6. "RESERVED1,This bit is reserved and reads return 0" "0,1" newline bitfld.long 0x0 4.--5. "ADDR_INC,Address Auto Increment and packing mode" "0,1,2,3" rbitfld.long 0x0 3. "RESERVED0,reserved returns 0" "0,1" newline rbitfld.long 0x0 0.--2. "SIZE,This specifies the size of the access For this implementation the access is always 32 bits [010]" "0,1,2,3,4,5,6,7" line.long 0x4 "AXIAP_CFG_0_TAREGL,This register contains the lower 32-bits of address to write to or read from." hexmask.long 0x4 0.--31. 1. "TAL,This register contains the lower 32-bits of address" line.long 0x8 "AXIAP_CFG_0_TAREGH,This register contains the upper 32-bits of address to write to or read from." hexmask.long 0x8 0.--31. 1. "TAH,This register contains the upper 32-bits of address" line.long 0xC "AXIAP_CFG_0_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0xC 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x10 "AXIAP_CFG_0_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x14 "AXIAP_CFG_0_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x14 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x18 "AXIAP_CFG_0_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x18 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x1C "AXIAP_CFG_0_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x1C 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x20 "AXIAP_CFG_0_MBT_Register,This register sets memory barrier attributes" hexmask.long 0x20 0.--31. 1. "MEMORY_BARRIER_TRANSFER_REGISTER,This register sets memory barrier attributes" rgroup.long 0xF0++0xF line.long 0x0 "AXIAP_CFG_0_ROM_Hi_Register,Reading this register returns the AXI ROM Address (63-32)." hexmask.long 0x0 0.--31. 1. "ROM_HI_REGISTER_ADDRESS,Reading this register returns the upper ROM Address" line.long 0x4 "AXIAP_CFG_0_CFG_Register,The CFG register provides information about how the MEM-AP implementation is configured." hexmask.long 0x4 3.--31. 1. "RESERVED,Reserved bit return 0" bitfld.long 0x4 2. "LD,This bit indicates whether the MEM-AP implementation includes the Large Data Extension that provides support for data items larger than 32-bits it is 0" "0,1" newline bitfld.long 0x4 1. "LA,This bit indicates whether the MEM-AP implementation includes the Large Physical Address Extension that supports physical addresses of more than 32-bits:" "0,1" bitfld.long 0x4 0. "BE,ADIv52 obsoletes support for big-endian MEM-AP and this bit must RAZ" "0,1" line.long 0x8 "AXIAP_CFG_0_ROM_Lo_Register,Reading this register returns the AXI ROM Address (31:12) ." hexmask.long.tbyte 0x8 12.--31. 1. "LOWBASE,Bits 31:12 of the base address" hexmask.long.word 0x8 2.--11. 1. "RESERVED,Reserved returns 0" newline bitfld.long 0x8 1. "FORMAT,Base address register format [0]" "0,1" bitfld.long 0x8 0. "PRESENT,This field indicates whether a debug entry is present for this MEM-AP: 0 No debug entry present 1 Debug entry present" "0,1" line.long 0xC "AXIAP_CFG_0_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0xC 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0xC 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" newline bitfld.long 0xC 16. "CLASS,Device Class[1] [a memory access port]" "0,1" hexmask.long.byte 0xC 8.--15. 1. "SPARE,Spare returns 0" newline hexmask.long.byte 0xC 4.--7. 1. "VARIANT,Device Variant [0]" hexmask.long.byte 0xC 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB 4=AXI [4]" tree.end tree "DEBUGSS_WRAP0_AXIAP1 (DEBUGSS_WRAP0_AXIAP1)" base ad:0x740002200 group.long 0x0++0x23 line.long 0x0 "AXIAP_CFG_1_CSWREG,This is the control/status register" bitfld.long 0x0 31. "DBGSWEN,Indicates whether accesses should treated as application or debug" "0,1" hexmask.long.byte 0x0 24.--30. 1. "TYPEEXT," newline rbitfld.long 0x0 23. "SPIDEN,When 1 secure accesses are enabled" "0,1" hexmask.long.byte 0x0 16.--22. 1. "RESERVED2,Reserved reads return 0" newline hexmask.long.byte 0x0 12.--15. 1. "TYPE,Sets Prot Type attributes for the access" hexmask.long.byte 0x0 8.--11. 1. "MODE,Sets mode of operation 0000=basic 0001=Barrier extensions all other values reserved" newline rbitfld.long 0x0 7. "TRINPROG,This bit is set to 1 while a transfer is in progress on the connection to the memory system and is set to 0 while the connection is idle" "0,1" rbitfld.long 0x0 6. "RESERVED1,This bit is reserved and reads return 0" "0,1" newline bitfld.long 0x0 4.--5. "ADDR_INC,Address Auto Increment and packing mode" "0,1,2,3" rbitfld.long 0x0 3. "RESERVED0,reserved returns 0" "0,1" newline rbitfld.long 0x0 0.--2. "SIZE,This specifies the size of the access For this implementation the access is always 32 bits [010]" "0,1,2,3,4,5,6,7" line.long 0x4 "AXIAP_CFG_1_TAREGL,This register contains the lower 32-bits of address to write to or read from." hexmask.long 0x4 0.--31. 1. "TAL,This register contains the lower 32-bits of address" line.long 0x8 "AXIAP_CFG_1_TAREGH,This register contains the upper 32-bits of address to write to or read from." hexmask.long 0x8 0.--31. 1. "TAH,This register contains the upper 32-bits of address" line.long 0xC "AXIAP_CFG_1_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0xC 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x10 "AXIAP_CFG_1_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x14 "AXIAP_CFG_1_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x14 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x18 "AXIAP_CFG_1_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x18 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x1C "AXIAP_CFG_1_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x1C 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x20 "AXIAP_CFG_1_MBT_Register,This register sets memory barrier attributes" hexmask.long 0x20 0.--31. 1. "MEMORY_BARRIER_TRANSFER_REGISTER,This register sets memory barrier attributes" rgroup.long 0xF0++0xF line.long 0x0 "AXIAP_CFG_1_ROM_Hi_Register,Reading this register returns the AXI ROM Address (63-32)." hexmask.long 0x0 0.--31. 1. "ROM_HI_REGISTER_ADDRESS,Reading this register returns the upper ROM Address" line.long 0x4 "AXIAP_CFG_1_CFG_Register,The CFG register provides information about how the MEM-AP implementation is configured." hexmask.long 0x4 3.--31. 1. "RESERVED,Reserved bit return 0" bitfld.long 0x4 2. "LD,This bit indicates whether the MEM-AP implementation includes the Large Data Extension that provides support for data items larger than 32-bits it is 0" "0,1" newline bitfld.long 0x4 1. "LA,This bit indicates whether the MEM-AP implementation includes the Large Physical Address Extension that supports physical addresses of more than 32-bits:" "0,1" bitfld.long 0x4 0. "BE,ADIv52 obsoletes support for big-endian MEM-AP and this bit must RAZ" "0,1" line.long 0x8 "AXIAP_CFG_1_ROM_Lo_Register,Reading this register returns the AXI ROM Address (31:12) ." hexmask.long.tbyte 0x8 12.--31. 1. "LOWBASE,Bits 31:12 of the base address" hexmask.long.word 0x8 2.--11. 1. "RESERVED,Reserved returns 0" newline bitfld.long 0x8 1. "FORMAT,Base address register format [0]" "0,1" bitfld.long 0x8 0. "PRESENT,This field indicates whether a debug entry is present for this MEM-AP: 0 No debug entry present 1 Debug entry present" "0,1" line.long 0xC "AXIAP_CFG_1_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0xC 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0xC 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" newline bitfld.long 0xC 16. "CLASS,Device Class[1] [a memory access port]" "0,1" hexmask.long.byte 0xC 8.--15. 1. "SPARE,Spare returns 0" newline hexmask.long.byte 0xC 4.--7. 1. "VARIANT,Device Variant [0]" hexmask.long.byte 0xC 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB 4=AXI [4]" tree.end tree "DEBUGSS_WRAP0_CFGAP0 (DEBUGSS_WRAP0_CFGAP0)" base ad:0x700002000 rgroup.long 0x0++0xF line.long 0x0 "CFGAP_CFG_0_JTAGID_REG,This register returns the JTAG ID tieoff of the device. The reset value depends on the tie off" hexmask.long 0x0 0.--31. 1. "JTAG_ID,The JTAG ID of the device" line.long 0x4 "CFGAP_CFG_0_USERID_REG,This register returns the Chip Spin ID tieoff value of the device. The reset value depends on the tieoff" hexmask.long 0x4 0.--31. 1. "USER_ID,The USER ID of the device" line.long 0x8 "CFGAP_CFG_0_VERSION_REG,This register is used to read the RTL version information and to determine which modules are included in the rtl build. The reset value depends on the build options" hexmask.long.byte 0x8 28.--31. 1. "MAJOR_REV,RTL Major revision [5]" hexmask.long.byte 0x8 24.--27. 1. "MINOR_REV,RTL Minor revision [0]" hexmask.long.word 0x8 9.--23. 1. "RESERVED,Reserved returns 0" bitfld.long 0x8 8. "JTAG_AP,a 1 indicates JTAG AP is supported" "0,1" bitfld.long 0x8 7. "POWERAP,A 1 indicates that the Power AP is supported" "0,1" bitfld.long 0x8 6. "AXIAP,A 1 indicates that the AXIAP exists and system memory accesses are supported" "0,1" newline bitfld.long 0x8 5. "APBAP,A 1 indicates that the APBAP exisits and accesses to external debug logic are supported" "0,1" bitfld.long 0x8 4. "SECURITYAP,A 1 indicates that the Security AP is supported" "0,1" bitfld.long 0x8 3. "SPARE,This is a spare bit returns 0" "0,1" bitfld.long 0x8 2. "ICEPICKM,A 1 indicates that ICEPick M is present inthe design" "0,1" bitfld.long 0x8 1. "TRIGGERSUPPORT,A 1 indicates that cross triggering is supported" "0,1" bitfld.long 0x8 0. "TRACESUPPORT,A 1 indicates that hardware trace export is supported" "0,1" line.long 0xC "CFGAP_CFG_0_SYSTEMSTATUS,Reading this register returns system status information." hexmask.long 0xC 0.--31. 1. "RESERVED,Reserved returns 0" rgroup.long 0xFC++0x3 line.long 0x0 "CFGAP_CFG_0_APID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x0 28.--31. 1. "REVISION,Device Revision [0]" hexmask.long.word 0x0 17.--27. 1. "JEP_CODE,Device JEP Code [0x017]" bitfld.long 0x0 16. "CLASS,Device Class[0] [not a memory access port]" "0,1" hexmask.long.byte 0x0 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x0 4.--7. 1. "VARIANT,Device Variant [0]" hexmask.long.byte 0x0 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end tree "DEBUGSS_WRAP0_CFGAP1 (DEBUGSS_WRAP0_CFGAP1)" base ad:0x740002000 rgroup.long 0x0++0xF line.long 0x0 "CFGAP_CFG_1_JTAGID_REG,This register returns the JTAG ID tieoff of the device. The reset value depends on the tie off" hexmask.long 0x0 0.--31. 1. "JTAG_ID,The JTAG ID of the device" line.long 0x4 "CFGAP_CFG_1_USERID_REG,This register returns the Chip Spin ID tieoff value of the device. The reset value depends on the tieoff" hexmask.long 0x4 0.--31. 1. "USER_ID,The USER ID of the device" line.long 0x8 "CFGAP_CFG_1_VERSION_REG,This register is used to read the RTL version information and to determine which modules are included in the rtl build. The reset value depends on the build options" hexmask.long.byte 0x8 28.--31. 1. "MAJOR_REV,RTL Major revision [5]" hexmask.long.byte 0x8 24.--27. 1. "MINOR_REV,RTL Minor revision [0]" hexmask.long.word 0x8 9.--23. 1. "RESERVED,Reserved returns 0" bitfld.long 0x8 8. "JTAG_AP,a 1 indicates JTAG AP is supported" "0,1" bitfld.long 0x8 7. "POWERAP,A 1 indicates that the Power AP is supported" "0,1" bitfld.long 0x8 6. "AXIAP,A 1 indicates that the AXIAP exists and system memory accesses are supported" "0,1" newline bitfld.long 0x8 5. "APBAP,A 1 indicates that the APBAP exisits and accesses to external debug logic are supported" "0,1" bitfld.long 0x8 4. "SECURITYAP,A 1 indicates that the Security AP is supported" "0,1" bitfld.long 0x8 3. "SPARE,This is a spare bit returns 0" "0,1" bitfld.long 0x8 2. "ICEPICKM,A 1 indicates that ICEPick M is present inthe design" "0,1" bitfld.long 0x8 1. "TRIGGERSUPPORT,A 1 indicates that cross triggering is supported" "0,1" bitfld.long 0x8 0. "TRACESUPPORT,A 1 indicates that hardware trace export is supported" "0,1" line.long 0xC "CFGAP_CFG_1_SYSTEMSTATUS,Reading this register returns system status information." hexmask.long 0xC 0.--31. 1. "RESERVED,Reserved returns 0" rgroup.long 0xFC++0x3 line.long 0x0 "CFGAP_CFG_1_APID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x0 28.--31. 1. "REVISION,Device Revision [0]" hexmask.long.word 0x0 17.--27. 1. "JEP_CODE,Device JEP Code [0x017]" bitfld.long 0x0 16. "CLASS,Device Class[0] [not a memory access port]" "0,1" hexmask.long.byte 0x0 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x0 4.--7. 1. "VARIANT,Device Variant [0]" hexmask.long.byte 0x0 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end base ad:0x0 tree "DEBUGSS_WRAP0_CORTEX0" tree "DEBUGSS_WRAP0_CORTEX0_CFG0 (DEBUGSS_WRAP0_CORTEX0_CFG0)" base ad:0x700002700 group.long 0x0++0x7 line.long 0x0 "CORTEX0_CFG_0_CSWREG,This register contains the Addressing control bit" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "CORTEX0_CFG_0_TAREG,This register contains the address to write to or read from." group.long 0xC++0x13 line.long 0x0 "CORTEX0_CFG_0_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "CORTEX0_CFG_0_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "CORTEX0_CFG_0_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "CORTEX0_CFG_0_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "CORTEX0_CFG_0_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "CORTEX0_CFG_0_ROM_Register,Reading this register returns the AHB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER,Reading this register returns the ROM Address" line.long 0x4 "CORTEX0_CFG_0_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end tree "DEBUGSS_WRAP0_CORTEX0_CFG1 (DEBUGSS_WRAP0_CORTEX0_CFG1)" base ad:0x740002700 group.long 0x0++0x7 line.long 0x0 "CORTEX0_CFG_1_CSWREG,This register contains the Addressing control bit" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "CORTEX0_CFG_1_TAREG,This register contains the address to write to or read from." group.long 0xC++0x13 line.long 0x0 "CORTEX0_CFG_1_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "CORTEX0_CFG_1_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "CORTEX0_CFG_1_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "CORTEX0_CFG_1_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "CORTEX0_CFG_1_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "CORTEX0_CFG_1_ROM_Register,Reading this register returns the AHB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER,Reading this register returns the ROM Address" line.long 0x4 "CORTEX0_CFG_1_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end tree.end tree "DEBUGSS_WRAP0_CORTEX1" tree "DEBUGSS_WRAP0_CORTEX1_CFG0 (DEBUGSS_WRAP0_CORTEX1_CFG0)" base ad:0x700002800 group.long 0x0++0x7 line.long 0x0 "CORTEX1_CFG_0_CSWREG,This register contains the Addressing control bit" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "CORTEX1_CFG_0_TAREG,This register contains the address to write to or read from." group.long 0xC++0x13 line.long 0x0 "CORTEX1_CFG_0_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "CORTEX1_CFG_0_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "CORTEX1_CFG_0_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "CORTEX1_CFG_0_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "CORTEX1_CFG_0_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "CORTEX1_CFG_0_ROM_Register,Reading this register returns the AHB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER,Reading this register returns the ROM Address" line.long 0x4 "CORTEX1_CFG_0_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end tree "DEBUGSS_WRAP0_CORTEX1_CFG1 (DEBUGSS_WRAP0_CORTEX1_CFG1)" base ad:0x740002800 group.long 0x0++0x7 line.long 0x0 "CORTEX1_CFG_1_CSWREG,This register contains the Addressing control bit" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "CORTEX1_CFG_1_TAREG,This register contains the address to write to or read from." group.long 0xC++0x13 line.long 0x0 "CORTEX1_CFG_1_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "CORTEX1_CFG_1_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "CORTEX1_CFG_1_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "CORTEX1_CFG_1_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "CORTEX1_CFG_1_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "CORTEX1_CFG_1_ROM_Register,Reading this register returns the AHB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER,Reading this register returns the ROM Address" line.long 0x4 "CORTEX1_CFG_1_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end tree.end tree "DEBUGSS_WRAP0_CORTEX2" tree "DEBUGSS_WRAP0_CORTEX2_CFG0 (DEBUGSS_WRAP0_CORTEX2_CFG0)" base ad:0x700002900 group.long 0x0++0x7 line.long 0x0 "CORTEX2_CFG_0_CSWREG,This register contains the Addressing control bit" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "CORTEX2_CFG_0_TAREG,This register contains the address to write to or read from." group.long 0xC++0x13 line.long 0x0 "CORTEX2_CFG_0_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "CORTEX2_CFG_0_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "CORTEX2_CFG_0_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "CORTEX2_CFG_0_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "CORTEX2_CFG_0_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "CORTEX2_CFG_0_ROM_Register,Reading this register returns the AHB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER,Reading this register returns the ROM Address" line.long 0x4 "CORTEX2_CFG_0_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end tree "DEBUGSS_WRAP0_CORTEX2_CFG1 (DEBUGSS_WRAP0_CORTEX2_CFG1)" base ad:0x740002900 group.long 0x0++0x7 line.long 0x0 "CORTEX2_CFG_1_CSWREG,This register contains the Addressing control bit" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "CORTEX2_CFG_1_TAREG,This register contains the address to write to or read from." group.long 0xC++0x13 line.long 0x0 "CORTEX2_CFG_1_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "CORTEX2_CFG_1_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "CORTEX2_CFG_1_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "CORTEX2_CFG_1_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "CORTEX2_CFG_1_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "CORTEX2_CFG_1_ROM_Register,Reading this register returns the AHB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER,Reading this register returns the ROM Address" line.long 0x4 "CORTEX2_CFG_1_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end tree.end tree "DEBUGSS_WRAP0_CORTEX3" tree "DEBUGSS_WRAP0_CORTEX3_CFG0 (DEBUGSS_WRAP0_CORTEX3_CFG0)" base ad:0x700002A00 group.long 0x0++0x7 line.long 0x0 "CORTEX3_CFG_0_CSWREG,This register contains the Addressing control bit" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "CORTEX3_CFG_0_TAREG,This register contains the address to write to or read from." group.long 0xC++0x13 line.long 0x0 "CORTEX3_CFG_0_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "CORTEX3_CFG_0_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "CORTEX3_CFG_0_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "CORTEX3_CFG_0_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "CORTEX3_CFG_0_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "CORTEX3_CFG_0_ROM_Register,Reading this register returns the AHB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER,Reading this register returns the ROM Address" line.long 0x4 "CORTEX3_CFG_0_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end tree "DEBUGSS_WRAP0_CORTEX3_CFG1 (DEBUGSS_WRAP0_CORTEX3_CFG1)" base ad:0x740002A00 group.long 0x0++0x7 line.long 0x0 "CORTEX3_CFG_1_CSWREG,This register contains the Addressing control bit" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "CORTEX3_CFG_1_TAREG,This register contains the address to write to or read from." group.long 0xC++0x13 line.long 0x0 "CORTEX3_CFG_1_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "CORTEX3_CFG_1_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "CORTEX3_CFG_1_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "CORTEX3_CFG_1_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "CORTEX3_CFG_1_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "CORTEX3_CFG_1_ROM_Register,Reading this register returns the AHB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER,Reading this register returns the ROM Address" line.long 0x4 "CORTEX3_CFG_1_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end tree.end tree "DEBUGSS_WRAP0_CORTEX4" tree "DEBUGSS_WRAP0_CORTEX4_CFG0 (DEBUGSS_WRAP0_CORTEX4_CFG0)" base ad:0x700002B00 group.long 0x0++0x7 line.long 0x0 "CORTEX4_CFG_0_CSWREG,This register contains the Addressing control bit" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "CORTEX4_CFG_0_TAREG,This register contains the address to write to or read from." group.long 0xC++0x13 line.long 0x0 "CORTEX4_CFG_0_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "CORTEX4_CFG_0_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "CORTEX4_CFG_0_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "CORTEX4_CFG_0_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "CORTEX4_CFG_0_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "CORTEX4_CFG_0_ROM_Register,Reading this register returns the AHB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER,Reading this register returns the ROM Address" line.long 0x4 "CORTEX4_CFG_0_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end tree "DEBUGSS_WRAP0_CORTEX4_CFG1 (DEBUGSS_WRAP0_CORTEX4_CFG1)" base ad:0x740002B00 group.long 0x0++0x7 line.long 0x0 "CORTEX4_CFG_1_CSWREG,This register contains the Addressing control bit" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "CORTEX4_CFG_1_TAREG,This register contains the address to write to or read from." group.long 0xC++0x13 line.long 0x0 "CORTEX4_CFG_1_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "CORTEX4_CFG_1_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "CORTEX4_CFG_1_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "CORTEX4_CFG_1_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "CORTEX4_CFG_1_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "CORTEX4_CFG_1_ROM_Register,Reading this register returns the AHB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER,Reading this register returns the ROM Address" line.long 0x4 "CORTEX4_CFG_1_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end tree.end tree "DEBUGSS_WRAP0_CORTEX5" tree "DEBUGSS_WRAP0_CORTEX5_CFG0 (DEBUGSS_WRAP0_CORTEX5_CFG0)" base ad:0x700002C00 group.long 0x0++0x7 line.long 0x0 "CORTEX5_CFG_0_CSWREG,This register contains the Addressing control bit" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "CORTEX5_CFG_0_TAREG,This register contains the address to write to or read from." group.long 0xC++0x13 line.long 0x0 "CORTEX5_CFG_0_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "CORTEX5_CFG_0_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "CORTEX5_CFG_0_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "CORTEX5_CFG_0_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "CORTEX5_CFG_0_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "CORTEX5_CFG_0_ROM_Register,Reading this register returns the AHB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER,Reading this register returns the ROM Address" line.long 0x4 "CORTEX5_CFG_0_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end tree "DEBUGSS_WRAP0_CORTEX5_CFG1 (DEBUGSS_WRAP0_CORTEX5_CFG1)" base ad:0x740002C00 group.long 0x0++0x7 line.long 0x0 "CORTEX5_CFG_1_CSWREG,This register contains the Addressing control bit" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "CORTEX5_CFG_1_TAREG,This register contains the address to write to or read from." group.long 0xC++0x13 line.long 0x0 "CORTEX5_CFG_1_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "CORTEX5_CFG_1_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "CORTEX5_CFG_1_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "CORTEX5_CFG_1_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "CORTEX5_CFG_1_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "CORTEX5_CFG_1_ROM_Register,Reading this register returns the AHB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER,Reading this register returns the ROM Address" line.long 0x4 "CORTEX5_CFG_1_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end tree.end tree "DEBUGSS_WRAP0_CORTEX6" tree "DEBUGSS_WRAP0_CORTEX6_CFG0 (DEBUGSS_WRAP0_CORTEX6_CFG0)" base ad:0x700002D00 group.long 0x0++0x7 line.long 0x0 "CORTEX6_CFG_0_CSWREG,This register contains the Addressing control bit" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "CORTEX6_CFG_0_TAREG,This register contains the address to write to or read from." group.long 0xC++0x13 line.long 0x0 "CORTEX6_CFG_0_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "CORTEX6_CFG_0_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "CORTEX6_CFG_0_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "CORTEX6_CFG_0_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "CORTEX6_CFG_0_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "CORTEX6_CFG_0_ROM_Register,Reading this register returns the AHB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER,Reading this register returns the ROM Address" line.long 0x4 "CORTEX6_CFG_0_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end tree "DEBUGSS_WRAP0_CORTEX6_CFG1 (DEBUGSS_WRAP0_CORTEX6_CFG1)" base ad:0x740002D00 group.long 0x0++0x7 line.long 0x0 "CORTEX6_CFG_1_CSWREG,This register contains the Addressing control bit" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "CORTEX6_CFG_1_TAREG,This register contains the address to write to or read from." group.long 0xC++0x13 line.long 0x0 "CORTEX6_CFG_1_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "CORTEX6_CFG_1_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "CORTEX6_CFG_1_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "CORTEX6_CFG_1_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "CORTEX6_CFG_1_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "CORTEX6_CFG_1_ROM_Register,Reading this register returns the AHB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER,Reading this register returns the ROM Address" line.long 0x4 "CORTEX6_CFG_1_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end tree.end tree "DEBUGSS_WRAP0_CORTEX7" tree "DEBUGSS_WRAP0_CORTEX7_CFG0 (DEBUGSS_WRAP0_CORTEX7_CFG0)" base ad:0x700002E00 group.long 0x0++0x7 line.long 0x0 "CORTEX7_CFG_0_CSWREG,This register contains the Addressing control bit" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "CORTEX7_CFG_0_TAREG,This register contains the address to write to or read from." group.long 0xC++0x13 line.long 0x0 "CORTEX7_CFG_0_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "CORTEX7_CFG_0_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "CORTEX7_CFG_0_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "CORTEX7_CFG_0_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "CORTEX7_CFG_0_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "CORTEX7_CFG_0_ROM_Register,Reading this register returns the AHB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER,Reading this register returns the ROM Address" line.long 0x4 "CORTEX7_CFG_0_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end tree "DEBUGSS_WRAP0_CORTEX7_CFG1 (DEBUGSS_WRAP0_CORTEX7_CFG1)" base ad:0x740002E00 group.long 0x0++0x7 line.long 0x0 "CORTEX7_CFG_1_CSWREG,This register contains the Addressing control bit" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "CORTEX7_CFG_1_TAREG,This register contains the address to write to or read from." group.long 0xC++0x13 line.long 0x0 "CORTEX7_CFG_1_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "CORTEX7_CFG_1_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "CORTEX7_CFG_1_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "CORTEX7_CFG_1_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "CORTEX7_CFG_1_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "CORTEX7_CFG_1_ROM_Register,Reading this register returns the AHB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER,Reading this register returns the ROM Address" line.long 0x4 "CORTEX7_CFG_1_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end tree.end tree "DEBUGSS_WRAP0_CORTEX8" tree "DEBUGSS_WRAP0_CORTEX8_CFG0 (DEBUGSS_WRAP0_CORTEX8_CFG0)" base ad:0x700002F00 group.long 0x0++0x7 line.long 0x0 "CORTEX8_CFG_0_CSWREG,This register contains the Addressing control bit" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "CORTEX8_CFG_0_TAREG,This register contains the address to write to or read from." group.long 0xC++0x13 line.long 0x0 "CORTEX8_CFG_0_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "CORTEX8_CFG_0_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "CORTEX8_CFG_0_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "CORTEX8_CFG_0_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "CORTEX8_CFG_0_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "CORTEX8_CFG_0_ROM_Register,Reading this register returns the AHB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER,Reading this register returns the ROM Address" line.long 0x4 "CORTEX8_CFG_0_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end tree "DEBUGSS_WRAP0_CORTEX8_CFG1 (DEBUGSS_WRAP0_CORTEX8_CFG1)" base ad:0x740002F00 group.long 0x0++0x7 line.long 0x0 "CORTEX8_CFG_1_CSWREG,This register contains the Addressing control bit" hexmask.long 0x0 5.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0x0 4. "ADDR_INC,Address Increment Enable" "0,1" hexmask.long.byte 0x0 0.--3. 1. "RESERVED0,reserved returns 0" line.long 0x4 "CORTEX8_CFG_1_TAREG,This register contains the address to write to or read from." group.long 0xC++0x13 line.long 0x0 "CORTEX8_CFG_1_DRWREG,This register is used to write data to the TA location or read it back from the TA location." hexmask.long 0x0 0.--31. 1. "DATA_READ_WRITE_REGISTER,This register is used to read or write data" line.long 0x4 "CORTEX8_CFG_1_BD0REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x4 0.--31. 1. "BANKED_DATA_0_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x8 "CORTEX8_CFG_1_BD1REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x8 0.--31. 1. "BANKED_DATA_1_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0xC "CORTEX8_CFG_1_BD2REG,This register is used to transfer data when doing banked data operations." hexmask.long 0xC 0.--31. 1. "BANKED_DATA_2_REGISTER,This register is used to transfer data when doing banked data operations" line.long 0x10 "CORTEX8_CFG_1_BD3REG,This register is used to transfer data when doing banked data operations." hexmask.long 0x10 0.--31. 1. "BANKED_DATA_3_REGISTER,This register is used to transfer data when doing banked data operations" rgroup.long 0xF8++0x7 line.long 0x0 "CORTEX8_CFG_1_ROM_Register,Reading this register returns the AHB ROM Address." hexmask.long 0x0 0.--31. 1. "ROM_REGISTER,Reading this register returns the ROM Address" line.long 0x4 "CORTEX8_CFG_1_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x4 28.--31. 1. "REVISION,Device Revision [4]" hexmask.long.word 0x4 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x4 16. "CLASS,Device Class[1] [a memory access port]" "0,1" newline hexmask.long.byte 0x4 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x4 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x4 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [1]" tree.end tree.end tree "DEBUGSS_WRAP0_CSCTI0 (DEBUGSS_WRAP0_CSCTI0)" base ad:0x720001000 group.long 0x0++0x3 line.long 0x0 "CSCTI_CFG_0_CTICONTROL,CTI Control Register." hexmask.long 0x0 1.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 0. "GLBEN,Enables or disables the Embedded Cross Trigger 1=enabled" "?,1: enabled" group.long 0x10++0x2F line.long 0x0 "CSCTI_CFG_0_CTIINTACK,CTI Interrupt Acknowledge Register." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--7. 1. "INTACK,Acknowledges the corresponding CTITRIGOUT output Write 1 = CTITRIGOUT is acknowledged and is cleared when MAPTRIGOUT is LOW There is one bit of the register for each CTITRIGOUT output" line.long 0x4 "CSCTI_CFG_0_CTIAPPSET,CTI Application Trigger Set Register." hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--3. 1. "APPSET,The CTI Application Trigger Set Register is read/write A write to this register causes a channel event to be raised corresponding to the bit written to" line.long 0x8 "CSCTI_CFG_0_CTIAPPCLEAR,CTI Application Trigger Clear Register." hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--3. 1. "APPCLR,The CTI Application Trigger Clear Register is write-only A write to this register causes a channel event to be cleared corresponding to the bit written to" line.long 0xC "CSCTI_CFG_0_CTIAPPPULSE,CTI Application Trigger Pulse Register." hexmask.long 0xC 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0xC 0.--3. 1. "APPPULSE,The CTI Application Pulse Register is write-only A write to this register causes a channel event pulse one CTICLK period to be generated corresponding to the bit written to This register clears itself immediately" line.long 0x10 "CSCTI_CFG_0_CTIINEN0,CTI Application Trigger to Channel Enable Register 0" hexmask.long 0x10 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x10 0.--3. 1. "TRIGINEN,The CTI Trigger to Channel Enable Registers enable the signalling of an event on CTM channels when the core issues a trigger CTITRIGIN to the CTI There is one register for each of the eight CTITRIGIN inputs Within each register there is one.." line.long 0x14 "CSCTI_CFG_0_CTIINEN1,CTI Application Trigger to Channel Enable Register 1" hexmask.long 0x14 4.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x14 0.--2. "TRIGINEN,The CTI Trigger to Channel Enable Registers enable the signalling of an event on CTM channels when the core issues a trigger CTITRIGIN to the CTI There is one register for each of the eight CTITRIGIN inputs Within each register there is one.." "0,1,2,3,4,5,6,7" line.long 0x18 "CSCTI_CFG_0_CTIINEN2,CTI Application Trigger to Channel Enable Register 2" hexmask.long 0x18 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x18 0.--3. 1. "TRIGINEN,The CTI Trigger to Channel Enable Registers enable the signalling of an event on CTM channels when the core issues a trigger CTITRIGIN to the CTI There is one register for each of the eight CTITRIGIN inputs Within each register there is one.." line.long 0x1C "CSCTI_CFG_0_CTIINEN3,CTI Application Trigger to Channel Enable Register 3" hexmask.long 0x1C 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x1C 0.--3. 1. "TRIGINEN,The CTI Trigger to Channel Enable Registers enable the signalling of an event on CTM channels when the core issues a trigger CTITRIGIN to the CTI There is one register for each of the eight CTITRIGIN inputs Within each register there is one.." line.long 0x20 "CSCTI_CFG_0_CTIINEN4,CTI Application Trigger to Channel Enable Register 4" hexmask.long 0x20 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x20 0.--3. 1. "TRIGINEN,The CTI Trigger to Channel Enable Registers enable the signalling of an event on CTM channels when the core issues a trigger CTITRIGIN to the CTI There is one register for each of the eight CTITRIGIN inputs Within each register there is one.." line.long 0x24 "CSCTI_CFG_0_CTIINEN5,CTI Application Trigger to Channel Enable Register 5" hexmask.long 0x24 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x24 0.--3. 1. "TRIGINEN,The CTI Trigger to Channel Enable Registers enable the signalling of an event on CTM channels when the core issues a trigger CTITRIGIN to the CTI There is one register for each of the eight CTITRIGIN inputs Within each register there is one.." line.long 0x28 "CSCTI_CFG_0_CTIINEN6,CTI Application Trigger to Channel Enable Register 6" hexmask.long 0x28 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x28 0.--3. 1. "TRIGINEN,The CTI Trigger to Channel Enable Registers enable the signalling of an event on CTM channels when the core issues a trigger CTITRIGIN to the CTI There is one register for each of the eight CTITRIGIN inputs Within each register there is one.." line.long 0x2C "CSCTI_CFG_0_CTIINEN7,CTI Application Trigger to Channel Enable Register 7" hexmask.long 0x2C 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x2C 0.--3. 1. "TRIGINEN,The CTI Trigger to Channel Enable Registers enable the signalling of an event on CTM channels when the core issues a trigger CTITRIGIN to the CTI There is one register for each of the eight CTITRIGIN inputs Within each register there is one.." group.long 0xA0++0x1F line.long 0x0 "CSCTI_CFG_0_CTIOUTEN0,CTI Channel to Trigger Enable Register 0" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--3. 1. "TRIGOUTEN,The CTI Channel to Trigger Enable Registers define which channels can generate a CTITRIGOUT output There is one register for each of the eight CTITRIGOUT outputs Within each register there is one bit for each of the four channels implemented.." line.long 0x4 "CSCTI_CFG_0_CTIOUTEN1,CTI Channel to Trigger Enable Register 1" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--3. 1. "TRIGOUTEN,The CTI Channel to Trigger Enable Registers define which channels can generate a CTITRIGOUT output There is one register for each of the eight CTITRIGOUT outputs Within each register there is one bit for each of the four channels implemented.." line.long 0x8 "CSCTI_CFG_0_CTIOUTEN2,CTI Channel to Trigger Enable Register 2" hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--3. 1. "TRIGOUTEN,The CTI Channel to Trigger Enable Registers define which channels can generate a CTITRIGOUT output There is one register for each of the eight CTITRIGOUT outputs Within each register there is one bit for each of the four channels implemented.." line.long 0xC "CSCTI_CFG_0_CTIOUTEN3,CTI Channel to Trigger Enable Register 3" hexmask.long 0xC 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0xC 0.--3. 1. "TRIGOUTEN,The CTI Channel to Trigger Enable Registers define which channels can generate a CTITRIGOUT output There is one register for each of the eight CTITRIGOUT outputs Within each register there is one bit for each of the four channels implemented.." line.long 0x10 "CSCTI_CFG_0_CTIOUTEN4,CTI Channel to Trigger Enable Register 4" hexmask.long 0x10 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x10 0.--3. 1. "TRIGOUTEN,The CTI Channel to Trigger Enable Registers define which channels can generate a CTITRIGOUT output There is one register for each of the eight CTITRIGOUT outputs Within each register there is one bit for each of the four channels implemented.." line.long 0x14 "CSCTI_CFG_0_CTIOUTEN5,CTI Channel to Trigger Enable Register 5" hexmask.long 0x14 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x14 0.--3. 1. "TRIGOUTEN,The CTI Channel to Trigger Enable Registers define which channels can generate a CTITRIGOUT output There is one register for each of the eight CTITRIGOUT outputs Within each register there is one bit for each of the four channels implemented.." line.long 0x18 "CSCTI_CFG_0_CTIOUTEN6,CTI Channel to Trigger Enable Register 6" hexmask.long 0x18 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x18 0.--3. 1. "TRIGOUTEN,The CTI Channel to Trigger Enable Registers define which channels can generate a CTITRIGOUT output There is one register for each of the eight CTITRIGOUT outputs Within each register there is one bit for each of the four channels implemented.." line.long 0x1C "CSCTI_CFG_0_CTIOUTEN7,CTI Channel to Trigger Enable Register 7" hexmask.long 0x1C 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x1C 0.--3. 1. "TRIGOUTEN,The CTI Channel to Trigger Enable Registers define which channels can generate a CTITRIGOUT output There is one register for each of the eight CTITRIGOUT outputs Within each register there is one bit for each of the four channels implemented.." rgroup.long 0x130++0x13 line.long 0x0 "CSCTI_CFG_0_CTITRIGINSTATUS,CTI Trigger In Status Register" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--7. 1. "TRIGINSTATUS,Shows the status of the CTITRIGIN inputs: 1=CTITRIGIN is active 0=CTITRIGIN is inactive" line.long 0x4 "CSCTI_CFG_0_CTITRIGOUTSTATUS,CTI Trigger Out Status Register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--7. 1. "TRIGOUTSTATUS,Shows the status of the CTITRIGOUT outputs: 1=CTITRIGOUT is active 0=CTITRIGOUT is inactive" line.long 0x8 "CSCTI_CFG_0_CTICHINSTATUS,CTI Channel In Status Register" hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--3. 1. "CHINSTATUS,Shows the status of the CTICHIN inputs: 1=CTICHIN is active 0=CTICHIN is inactive" line.long 0xC "CSCTI_CFG_0_CTICHOUTSTATUS,CTI Channel Out Status Register" hexmask.long 0xC 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0xC 0.--3. 1. "CHOUTSTATUS,Shows the status of the CTICHOUT outputs: 1=CTICHOUT is active 0=CTICHOUT is inactive" line.long 0x10 "CSCTI_CFG_0_CTIGATE,The Gate Enable Register prevents the channels from propagating through the CTM to other CTIs." hexmask.long 0x10 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x10 0.--3. 1. "CTIGATEEN,Gate enable for the four channels [1 per bit]" group.long 0x144++0x3 line.long 0x0 "CSCTI_CFG_0_ASICCTL,Allows external multiplexing of the trigger signals" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--7. 1. "ASICCTL,Implementation-defined ASIC control value written to the register is output on ASICCTL[7:0]" group.long 0xEDC++0x13 line.long 0x0 "CSCTI_CFG_0_ITCHINACK,Integration and Test register" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--3. 1. "CTCHINACK,Sets the value of the CTCHINACK outputs" line.long 0x4 "CSCTI_CFG_0_ITTRIGINACK,ITTRIGINACK Register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--7. 1. "CTTRIGINACK,Sets the value of the CTTRIGINACK outputs" line.long 0x8 "CSCTI_CFG_0_ITCHOUT,ITCHOUT Register" hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--3. 1. "CTCHOUT,Sets the value of the CTCHOUT outputs" line.long 0xC "CSCTI_CFG_0_ITTRIGOUT,ITTRIGOUT Register" hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0xC 0.--7. 1. "CTTRIGOUT,Sets the value of the CTTRIGOUT outputs" line.long 0x10 "CSCTI_CFG_0_ITCHOUTACK,ITCHOUTACK Register" hexmask.long.tbyte 0x10 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x10 0.--7. 1. "CTCHOUTACK,Sets the value of the CTCHOUTACK outputs" rgroup.long 0xEF0++0xB line.long 0x0 "CSCTI_CFG_0_ITTRIGOUTACK,ITTRIGOUTACK Register" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--7. 1. "CTTRIGOUTACK,Reads the value of the CTTRIGOUTACK inputs" line.long 0x4 "CSCTI_CFG_0_ITCHIN,ITCHIN Register" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--3. 1. "CTCHIN,Reads the value of the CTCHIN inputs" line.long 0x8 "CSCTI_CFG_0_ITTRIGIN,ITTRIGIN Register" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--7. 1. "CTTRIGIN,Reads the value of the CTTRIGIN inputs" group.long 0xF00++0x3 line.long 0x0 "CSCTI_CFG_0_ITCTRL,ITCTRL Register" hexmask.long 0x0 1.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 0. "ITEN,Integration Test control enable" "0,1" group.long 0xFA0++0x7 line.long 0x0 "CSCTI_CFG_0_CTSET,Claim Tag Set Register" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--3. 1. "CLAIM_TAG_SET,Claim Tag Set Register" line.long 0x4 "CSCTI_CFG_0_CTCLR,Claim Tag Clear Register" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--3. 1. "CLAIM_TAG_CLEAR,Claim Tag Clear Register" group.long 0xFB0++0x3 line.long 0x0 "CSCTI_CFG_0_LAREG,Software must write 0xC5ACCE55 to this register in order for application to gain access to the other registers. If paddrdbg31 is high. this is ignored." hexmask.long 0x0 0.--31. 1. "LOCKACCESSREG,Software must write 0xC5ACCE55 to this register in order for application to gain access to the other registers If paddrdbg31 is high this is ignored" rgroup.long 0xFB4++0x7 line.long 0x0 "CSCTI_CFG_0_LSREG,The CTI implements two memory maps controlled through PADDRDBG31. When PADDRDBG31 is HIGH. the Lock Status Register reads as 0x0 indicating that no lock exists. When PADDRDBG31 is LOW. the Lock Status Register reads as 0x3 from reset." hexmask.long 0x0 2.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 0.--1. "LOCK_STATUS,The CTI implements two memory maps controlled through PADDRDBG31 When PADDRDBG31 is HIGH the Lock Status Register reads as 0x0 indicating that no lock exists When PADDRDBG31 is LOW the Lock Status Register reads as 0x3 from reset This.." "0,1,2,3" line.long 0x4 "CSCTI_CFG_0_AUTHST,Reports the required security level." hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--3. 1. "AUTHENTICATION_STATUS,Reports the required security level bit 0 indicates Invasive Debug Controlled and bit 1 is the current value Bit 2 indicates non-invasive debug controlled and bit 3 is the current value Returns 0x5" rgroup.long 0xFC8++0xB line.long 0x0 "CSCTI_CFG_0_DEVID,Device ID Register" hexmask.long.word 0x0 20.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 16.--19. 1. "NUM_ECT_CHANNELS,Number of ECT Channels available" hexmask.long.byte 0x0 8.--15. 1. "NUM_ECT_TRIGGERS,Number of ECT trigger available" bitfld.long 0x0 5.--7. "RESERVED7_5,Reserved returns 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--4. 1. "IMPLEMENTATION_DEFINED,Indicates the number of multiplexing available on Trigger Inputs and Outputs using ASICCTL Defailt value of 0 indicates no multiplexing present" line.long 0x4 "CSCTI_CFG_0_DEVTYPEID,Device Type Identifier Register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserveed returns 0" hexmask.long.byte 0x4 0.--7. 1. "DEV_TYPE_ID,Device Type Identifier" line.long 0x8 "CSCTI_CFG_0_PERID4,Peripheral ID4 Register" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--7. 1. "PERIPH_ID4,Peripheral ID 4 returns 0x4" rgroup.long 0xFE0++0x1F line.long 0x0 "CSCTI_CFG_0_PERID0,Peripheral ID0 Register" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--7. 1. "PERIPH_ID0,Perpiheral ID 0 returns 0x06" line.long 0x4 "CSCTI_CFG_0_PERID1,Peripheral ID1 Register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--7. 1. "PERIPH_ID1,Peripheral ID 1 returns 0xB9" line.long 0x8 "CSCTI_CFG_0_PERID2,Peripheral ID2 Register" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--7. 1. "PERIPH_ID2,Peripheral ID 2 returns 9x2B" line.long 0xC "CSCTI_CFG_0_PERID3,Peripheral ID3 Register" hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0xC 0.--7. 1. "PERPIH_ID3,Peripheral ID3 register returns 0x00" line.long 0x10 "CSCTI_CFG_0_COMPID0,Component ID0 Register" hexmask.long.tbyte 0x10 8.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x10 0.--7. 1. "COMP_ID0,A component identification register that indicates that the identification registers are present This register also indicates the component class" line.long 0x14 "CSCTI_CFG_0_COMPID1,Component ID1 Register" hexmask.long.tbyte 0x14 8.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x14 0.--7. 1. "COMP_ID1,A component identification register that indicates that the identification registers are present This register also indicates the component class" line.long 0x18 "CSCTI_CFG_0_COMPID2,Component ID2 Register" hexmask.long.tbyte 0x18 8.--31. 1. "RESERVED,Returns 0" hexmask.long.byte 0x18 0.--7. 1. "COMP_ID2,A component identification register that indicates that the identification registers are present This register also indicates the component class" line.long 0x1C "CSCTI_CFG_0_COMPID3,Component ID3 Register" hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED,returns 0 when read" hexmask.long.byte 0x1C 0.--7. 1. "COMP_ID3,A component identification register that indicates that the identification registers are present This register also indicates the component class" tree.end tree "DEBUGSS_WRAP0_CSCTI1 (DEBUGSS_WRAP0_CSCTI1)" base ad:0x760001000 group.long 0x0++0x3 line.long 0x0 "CSCTI_CFG_1_CTICONTROL,CTI Control Register." hexmask.long 0x0 1.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 0. "GLBEN,Enables or disables the Embedded Cross Trigger 1=enabled" "?,1: enabled" group.long 0x10++0x2F line.long 0x0 "CSCTI_CFG_1_CTIINTACK,CTI Interrupt Acknowledge Register." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--7. 1. "INTACK,Acknowledges the corresponding CTITRIGOUT output Write 1 = CTITRIGOUT is acknowledged and is cleared when MAPTRIGOUT is LOW There is one bit of the register for each CTITRIGOUT output" line.long 0x4 "CSCTI_CFG_1_CTIAPPSET,CTI Application Trigger Set Register." hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--3. 1. "APPSET,The CTI Application Trigger Set Register is read/write A write to this register causes a channel event to be raised corresponding to the bit written to" line.long 0x8 "CSCTI_CFG_1_CTIAPPCLEAR,CTI Application Trigger Clear Register." hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--3. 1. "APPCLR,The CTI Application Trigger Clear Register is write-only A write to this register causes a channel event to be cleared corresponding to the bit written to" line.long 0xC "CSCTI_CFG_1_CTIAPPPULSE,CTI Application Trigger Pulse Register." hexmask.long 0xC 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0xC 0.--3. 1. "APPPULSE,The CTI Application Pulse Register is write-only A write to this register causes a channel event pulse one CTICLK period to be generated corresponding to the bit written to This register clears itself immediately" line.long 0x10 "CSCTI_CFG_1_CTIINEN0,CTI Application Trigger to Channel Enable Register 0" hexmask.long 0x10 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x10 0.--3. 1. "TRIGINEN,The CTI Trigger to Channel Enable Registers enable the signalling of an event on CTM channels when the core issues a trigger CTITRIGIN to the CTI There is one register for each of the eight CTITRIGIN inputs Within each register there is one.." line.long 0x14 "CSCTI_CFG_1_CTIINEN1,CTI Application Trigger to Channel Enable Register 1" hexmask.long 0x14 4.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x14 0.--2. "TRIGINEN,The CTI Trigger to Channel Enable Registers enable the signalling of an event on CTM channels when the core issues a trigger CTITRIGIN to the CTI There is one register for each of the eight CTITRIGIN inputs Within each register there is one.." "0,1,2,3,4,5,6,7" line.long 0x18 "CSCTI_CFG_1_CTIINEN2,CTI Application Trigger to Channel Enable Register 2" hexmask.long 0x18 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x18 0.--3. 1. "TRIGINEN,The CTI Trigger to Channel Enable Registers enable the signalling of an event on CTM channels when the core issues a trigger CTITRIGIN to the CTI There is one register for each of the eight CTITRIGIN inputs Within each register there is one.." line.long 0x1C "CSCTI_CFG_1_CTIINEN3,CTI Application Trigger to Channel Enable Register 3" hexmask.long 0x1C 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x1C 0.--3. 1. "TRIGINEN,The CTI Trigger to Channel Enable Registers enable the signalling of an event on CTM channels when the core issues a trigger CTITRIGIN to the CTI There is one register for each of the eight CTITRIGIN inputs Within each register there is one.." line.long 0x20 "CSCTI_CFG_1_CTIINEN4,CTI Application Trigger to Channel Enable Register 4" hexmask.long 0x20 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x20 0.--3. 1. "TRIGINEN,The CTI Trigger to Channel Enable Registers enable the signalling of an event on CTM channels when the core issues a trigger CTITRIGIN to the CTI There is one register for each of the eight CTITRIGIN inputs Within each register there is one.." line.long 0x24 "CSCTI_CFG_1_CTIINEN5,CTI Application Trigger to Channel Enable Register 5" hexmask.long 0x24 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x24 0.--3. 1. "TRIGINEN,The CTI Trigger to Channel Enable Registers enable the signalling of an event on CTM channels when the core issues a trigger CTITRIGIN to the CTI There is one register for each of the eight CTITRIGIN inputs Within each register there is one.." line.long 0x28 "CSCTI_CFG_1_CTIINEN6,CTI Application Trigger to Channel Enable Register 6" hexmask.long 0x28 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x28 0.--3. 1. "TRIGINEN,The CTI Trigger to Channel Enable Registers enable the signalling of an event on CTM channels when the core issues a trigger CTITRIGIN to the CTI There is one register for each of the eight CTITRIGIN inputs Within each register there is one.." line.long 0x2C "CSCTI_CFG_1_CTIINEN7,CTI Application Trigger to Channel Enable Register 7" hexmask.long 0x2C 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x2C 0.--3. 1. "TRIGINEN,The CTI Trigger to Channel Enable Registers enable the signalling of an event on CTM channels when the core issues a trigger CTITRIGIN to the CTI There is one register for each of the eight CTITRIGIN inputs Within each register there is one.." group.long 0xA0++0x1F line.long 0x0 "CSCTI_CFG_1_CTIOUTEN0,CTI Channel to Trigger Enable Register 0" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--3. 1. "TRIGOUTEN,The CTI Channel to Trigger Enable Registers define which channels can generate a CTITRIGOUT output There is one register for each of the eight CTITRIGOUT outputs Within each register there is one bit for each of the four channels implemented.." line.long 0x4 "CSCTI_CFG_1_CTIOUTEN1,CTI Channel to Trigger Enable Register 1" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--3. 1. "TRIGOUTEN,The CTI Channel to Trigger Enable Registers define which channels can generate a CTITRIGOUT output There is one register for each of the eight CTITRIGOUT outputs Within each register there is one bit for each of the four channels implemented.." line.long 0x8 "CSCTI_CFG_1_CTIOUTEN2,CTI Channel to Trigger Enable Register 2" hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--3. 1. "TRIGOUTEN,The CTI Channel to Trigger Enable Registers define which channels can generate a CTITRIGOUT output There is one register for each of the eight CTITRIGOUT outputs Within each register there is one bit for each of the four channels implemented.." line.long 0xC "CSCTI_CFG_1_CTIOUTEN3,CTI Channel to Trigger Enable Register 3" hexmask.long 0xC 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0xC 0.--3. 1. "TRIGOUTEN,The CTI Channel to Trigger Enable Registers define which channels can generate a CTITRIGOUT output There is one register for each of the eight CTITRIGOUT outputs Within each register there is one bit for each of the four channels implemented.." line.long 0x10 "CSCTI_CFG_1_CTIOUTEN4,CTI Channel to Trigger Enable Register 4" hexmask.long 0x10 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x10 0.--3. 1. "TRIGOUTEN,The CTI Channel to Trigger Enable Registers define which channels can generate a CTITRIGOUT output There is one register for each of the eight CTITRIGOUT outputs Within each register there is one bit for each of the four channels implemented.." line.long 0x14 "CSCTI_CFG_1_CTIOUTEN5,CTI Channel to Trigger Enable Register 5" hexmask.long 0x14 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x14 0.--3. 1. "TRIGOUTEN,The CTI Channel to Trigger Enable Registers define which channels can generate a CTITRIGOUT output There is one register for each of the eight CTITRIGOUT outputs Within each register there is one bit for each of the four channels implemented.." line.long 0x18 "CSCTI_CFG_1_CTIOUTEN6,CTI Channel to Trigger Enable Register 6" hexmask.long 0x18 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x18 0.--3. 1. "TRIGOUTEN,The CTI Channel to Trigger Enable Registers define which channels can generate a CTITRIGOUT output There is one register for each of the eight CTITRIGOUT outputs Within each register there is one bit for each of the four channels implemented.." line.long 0x1C "CSCTI_CFG_1_CTIOUTEN7,CTI Channel to Trigger Enable Register 7" hexmask.long 0x1C 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x1C 0.--3. 1. "TRIGOUTEN,The CTI Channel to Trigger Enable Registers define which channels can generate a CTITRIGOUT output There is one register for each of the eight CTITRIGOUT outputs Within each register there is one bit for each of the four channels implemented.." rgroup.long 0x130++0x13 line.long 0x0 "CSCTI_CFG_1_CTITRIGINSTATUS,CTI Trigger In Status Register" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--7. 1. "TRIGINSTATUS,Shows the status of the CTITRIGIN inputs: 1=CTITRIGIN is active 0=CTITRIGIN is inactive" line.long 0x4 "CSCTI_CFG_1_CTITRIGOUTSTATUS,CTI Trigger Out Status Register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--7. 1. "TRIGOUTSTATUS,Shows the status of the CTITRIGOUT outputs: 1=CTITRIGOUT is active 0=CTITRIGOUT is inactive" line.long 0x8 "CSCTI_CFG_1_CTICHINSTATUS,CTI Channel In Status Register" hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--3. 1. "CHINSTATUS,Shows the status of the CTICHIN inputs: 1=CTICHIN is active 0=CTICHIN is inactive" line.long 0xC "CSCTI_CFG_1_CTICHOUTSTATUS,CTI Channel Out Status Register" hexmask.long 0xC 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0xC 0.--3. 1. "CHOUTSTATUS,Shows the status of the CTICHOUT outputs: 1=CTICHOUT is active 0=CTICHOUT is inactive" line.long 0x10 "CSCTI_CFG_1_CTIGATE,The Gate Enable Register prevents the channels from propagating through the CTM to other CTIs." hexmask.long 0x10 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x10 0.--3. 1. "CTIGATEEN,Gate enable for the four channels [1 per bit]" group.long 0x144++0x3 line.long 0x0 "CSCTI_CFG_1_ASICCTL,Allows external multiplexing of the trigger signals" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--7. 1. "ASICCTL,Implementation-defined ASIC control value written to the register is output on ASICCTL[7:0]" group.long 0xEDC++0x13 line.long 0x0 "CSCTI_CFG_1_ITCHINACK,Integration and Test register" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--3. 1. "CTCHINACK,Sets the value of the CTCHINACK outputs" line.long 0x4 "CSCTI_CFG_1_ITTRIGINACK,ITTRIGINACK Register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--7. 1. "CTTRIGINACK,Sets the value of the CTTRIGINACK outputs" line.long 0x8 "CSCTI_CFG_1_ITCHOUT,ITCHOUT Register" hexmask.long 0x8 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--3. 1. "CTCHOUT,Sets the value of the CTCHOUT outputs" line.long 0xC "CSCTI_CFG_1_ITTRIGOUT,ITTRIGOUT Register" hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0xC 0.--7. 1. "CTTRIGOUT,Sets the value of the CTTRIGOUT outputs" line.long 0x10 "CSCTI_CFG_1_ITCHOUTACK,ITCHOUTACK Register" hexmask.long.tbyte 0x10 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x10 0.--7. 1. "CTCHOUTACK,Sets the value of the CTCHOUTACK outputs" rgroup.long 0xEF0++0xB line.long 0x0 "CSCTI_CFG_1_ITTRIGOUTACK,ITTRIGOUTACK Register" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--7. 1. "CTTRIGOUTACK,Reads the value of the CTTRIGOUTACK inputs" line.long 0x4 "CSCTI_CFG_1_ITCHIN,ITCHIN Register" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--3. 1. "CTCHIN,Reads the value of the CTCHIN inputs" line.long 0x8 "CSCTI_CFG_1_ITTRIGIN,ITTRIGIN Register" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--7. 1. "CTTRIGIN,Reads the value of the CTTRIGIN inputs" group.long 0xF00++0x3 line.long 0x0 "CSCTI_CFG_1_ITCTRL,ITCTRL Register" hexmask.long 0x0 1.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 0. "ITEN,Integration Test control enable" "0,1" group.long 0xFA0++0x7 line.long 0x0 "CSCTI_CFG_1_CTSET,Claim Tag Set Register" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--3. 1. "CLAIM_TAG_SET,Claim Tag Set Register" line.long 0x4 "CSCTI_CFG_1_CTCLR,Claim Tag Clear Register" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--3. 1. "CLAIM_TAG_CLEAR,Claim Tag Clear Register" group.long 0xFB0++0x3 line.long 0x0 "CSCTI_CFG_1_LAREG,Software must write 0xC5ACCE55 to this register in order for application to gain access to the other registers. If paddrdbg31 is high. this is ignored." hexmask.long 0x0 0.--31. 1. "LOCKACCESSREG,Software must write 0xC5ACCE55 to this register in order for application to gain access to the other registers If paddrdbg31 is high this is ignored" rgroup.long 0xFB4++0x7 line.long 0x0 "CSCTI_CFG_1_LSREG,The CTI implements two memory maps controlled through PADDRDBG31. When PADDRDBG31 is HIGH. the Lock Status Register reads as 0x0 indicating that no lock exists. When PADDRDBG31 is LOW. the Lock Status Register reads as 0x3 from reset." hexmask.long 0x0 2.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 0.--1. "LOCK_STATUS,The CTI implements two memory maps controlled through PADDRDBG31 When PADDRDBG31 is HIGH the Lock Status Register reads as 0x0 indicating that no lock exists When PADDRDBG31 is LOW the Lock Status Register reads as 0x3 from reset This.." "0,1,2,3" line.long 0x4 "CSCTI_CFG_1_AUTHST,Reports the required security level." hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--3. 1. "AUTHENTICATION_STATUS,Reports the required security level bit 0 indicates Invasive Debug Controlled and bit 1 is the current value Bit 2 indicates non-invasive debug controlled and bit 3 is the current value Returns 0x5" rgroup.long 0xFC8++0xB line.long 0x0 "CSCTI_CFG_1_DEVID,Device ID Register" hexmask.long.word 0x0 20.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 16.--19. 1. "NUM_ECT_CHANNELS,Number of ECT Channels available" hexmask.long.byte 0x0 8.--15. 1. "NUM_ECT_TRIGGERS,Number of ECT trigger available" bitfld.long 0x0 5.--7. "RESERVED7_5,Reserved returns 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--4. 1. "IMPLEMENTATION_DEFINED,Indicates the number of multiplexing available on Trigger Inputs and Outputs using ASICCTL Defailt value of 0 indicates no multiplexing present" line.long 0x4 "CSCTI_CFG_1_DEVTYPEID,Device Type Identifier Register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserveed returns 0" hexmask.long.byte 0x4 0.--7. 1. "DEV_TYPE_ID,Device Type Identifier" line.long 0x8 "CSCTI_CFG_1_PERID4,Peripheral ID4 Register" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--7. 1. "PERIPH_ID4,Peripheral ID 4 returns 0x4" rgroup.long 0xFE0++0x1F line.long 0x0 "CSCTI_CFG_1_PERID0,Peripheral ID0 Register" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--7. 1. "PERIPH_ID0,Perpiheral ID 0 returns 0x06" line.long 0x4 "CSCTI_CFG_1_PERID1,Peripheral ID1 Register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--7. 1. "PERIPH_ID1,Peripheral ID 1 returns 0xB9" line.long 0x8 "CSCTI_CFG_1_PERID2,Peripheral ID2 Register" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--7. 1. "PERIPH_ID2,Peripheral ID 2 returns 9x2B" line.long 0xC "CSCTI_CFG_1_PERID3,Peripheral ID3 Register" hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0xC 0.--7. 1. "PERPIH_ID3,Peripheral ID3 register returns 0x00" line.long 0x10 "CSCTI_CFG_1_COMPID0,Component ID0 Register" hexmask.long.tbyte 0x10 8.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x10 0.--7. 1. "COMP_ID0,A component identification register that indicates that the identification registers are present This register also indicates the component class" line.long 0x14 "CSCTI_CFG_1_COMPID1,Component ID1 Register" hexmask.long.tbyte 0x14 8.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x14 0.--7. 1. "COMP_ID1,A component identification register that indicates that the identification registers are present This register also indicates the component class" line.long 0x18 "CSCTI_CFG_1_COMPID2,Component ID2 Register" hexmask.long.tbyte 0x18 8.--31. 1. "RESERVED,Returns 0" hexmask.long.byte 0x18 0.--7. 1. "COMP_ID2,A component identification register that indicates that the identification registers are present This register also indicates the component class" line.long 0x1C "CSCTI_CFG_1_COMPID3,Component ID3 Register" hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED,returns 0 when read" hexmask.long.byte 0x1C 0.--7. 1. "COMP_ID3,A component identification register that indicates that the identification registers are present This register also indicates the component class" tree.end tree "DEBUGSS_WRAP0_CSTPIU0 (DEBUGSS_WRAP0_CSTPIU0)" base ad:0x720004000 rgroup.long 0x0++0x3 line.long 0x0 "CSTPIU_CFG_0_SUPPORTSIZE,This register indicates how many trace pins are available for export. One pin per bit. right justified" hexmask.long 0x0 0.--31. 1. "SUPPORTSIZEREG,This register indicates how many trace pins are available for export One pin per bit right justified" group.long 0x4++0x3 line.long 0x0 "CSTPIU_CFG_0_CURPORTSIZE,The Current Port Size Register has the same format as the Supported Port Sizes register but only one bit is set. and all others must be zero" hexmask.long 0x0 0.--31. 1. "CURRENTPORTSIZE,The Current Port Size Register has the same format as the Supported Port Sizes register but only one bit is set and all others must be zero" rgroup.long 0x100++0x3 line.long 0x0 "CSTPIU_CFG_0_TRIGMODEREG,This register indicates the implemented Trigger Counter multipliers and other supported features of the trigger system" hexmask.long.word 0x0 18.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 17. "TRGRUN,Trigger Counter running A trigger has occurred but the counter is not at zero" "0,1" bitfld.long 0x0 16. "TRIGGERED,A trigger has occurred and the counter has reached zero" "0,1" newline hexmask.long.byte 0x0 9.--15. 1. "RESERVED2,Reserved returns 0" bitfld.long 0x0 8. "TCOUNT8,An 8-bit wide counter register implemented" "0,1" bitfld.long 0x0 5.--7. "RESERVED1,Reserved returns 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--4. 1. "MUILTPLIERS,Multiply the Trigger Counter by 2 4 16 256 64K supported Each bit is a mpy value" group.long 0x104++0x7 line.long 0x0 "CSTPIU_CFG_0_TRIGCTRREG," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--7. 1. "TRIGCOUNT,8-bit counter value for the number of words to be output from the formatter before a trigger is inserted" line.long 0x4 "CSTPIU_CFG_0_TRIGMPYREG," hexmask.long 0x4 5.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--4. 1. "MULTIPLIER,Trigger multiply value bit0=x2 bit1=x4 bit2=x16 bit3=x256 bit4=x64K" rgroup.long 0x200++0x3 line.long 0x0 "CSTPIU_CFG_0_SUPTESTPAT,This register displays the supported patterns and modes for calibration" hexmask.long.word 0x0 18.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 16.--17. "MODE,bit 16 is Timed Mode bit 17 is continuous mode" "0,1,2,3" hexmask.long.word 0x0 4.--15. 1. "RESERVED1,Reserved returns 0" newline hexmask.long.byte 0x0 0.--3. 1. "PATTERN,bit0=Walking 1 pattern bit1=walking 0 bit2=AA/55 pattern bit3=FF/00 pattern" group.long 0x204++0x7 line.long 0x0 "CSTPIU_CFG_0_CURTESTPAT,This register displays the supported patterns and modes for calibration" hexmask.long.word 0x0 18.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 16.--17. "MODE,Select the Pattern Timer Mode see Supported Patterns reg" "0,1,2,3" hexmask.long.word 0x0 4.--15. 1. "RESERVED1,Reserved returns 0" newline bitfld.long 0x0 0.--2. "PATTERN,Select the pattern to run set Supported Patterns Reg" "0,1,2,3,4,5,6,7" line.long 0x4 "CSTPIU_CFG_0_TESTPATCNT,This register displays the supported patterns and modes for calibration" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--7. 1. "PATTERNCOUNT,Number of clocks a pattern should run before going to the next pattern" rgroup.long 0x300++0x3 line.long 0x0 "CSTPIU_CFG_0_FORMFLUSHSTAT,This register displays the supported patterns and modes for calibration" hexmask.long 0x0 3.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 2. "TCPRESENT,If this bit is set then TRACECTL is present If no TRACECTL pin is present then the data formatter must be used and only in continuous mode" "0,1" bitfld.long 0x0 1. "FTSTOPPED,Formatter stopped The formatter has received a stop request signal and all trace data and post-amble has been output" "0,1" newline bitfld.long 0x0 0. "FLINPROG,Flush In Progress This is an indication of the current state of AFVALIDS" "0,1" group.long 0x304++0x7 line.long 0x0 "CSTPIU_CFG_0_FORMFLUSHCTL,This register controls the generation of stop. trigger. and flush events." hexmask.long.tbyte 0x0 14.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 13. "STOPTRIG,Stop the formatter after a Trigger Event is observed" "0,1" bitfld.long 0x0 12. "STOPFL,Stop the formatter after a flush completes [return of AFREADYS]" "0,1" newline rbitfld.long 0x0 11. "RESERVED3,Reserved returns 0" "0,1" bitfld.long 0x0 10. "TRIGFL,Indicates a trigger on Flush completion on AFREADYS being returned" "0,1" bitfld.long 0x0 9. "TRIGEVT,Indicate a trigger on a Trigger Event" "0,1" newline bitfld.long 0x0 8. "TRIGIN,Indicate a trigger on TRIGIN being asserted" "0,1" rbitfld.long 0x0 7. "RESERVED2,Reserved returns 0" "0,1" bitfld.long 0x0 6. "FONMAN,Manually generate a flush of the system It is cleared when this flush has been serviced" "0,1" newline bitfld.long 0x0 5. "FONTRIG,Generate flush using Trigger event" "0,1" bitfld.long 0x0 4. "FONFIIN,Generate flush using the FLUSHIN interface" "0,1" rbitfld.long 0x0 2.--3. "RESERVED1,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x0 1. "ENFCONT,Continuous Formatting Embed in trigger packets and indicate null cycles using Sync packets" "0,1" bitfld.long 0x0 0. "ENFTC,Enable Formatting Do not embed Triggers into the formatted stream" "0,1" line.long 0x4 "CSTPIU_CFG_0_FORMSYNCCTR,This counter is the number of formatter frames since the last synchronization packet of 128 bits. and is a 12-bit counter with a maximum count value of 4096" hexmask.long.tbyte 0x4 12.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.word 0x4 0.--11. 1. "CYCCOUNT,12-bit counter value to indicate the number of complete frames between full sync packets" group.long 0x400++0x7 line.long 0x0 "CSTPIU_CFG_0_EXTCTLIN,This register inputs data from an external port (if used)" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,reserved returns 0" hexmask.long.byte 0x0 0.--7. 1. "EXCTL_PORT_INPUT_REGISTER," line.long 0x4 "CSTPIU_CFG_0_EXTCTLOUT,This register is output to an external port (if used)" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,returns 0" hexmask.long.byte 0x4 0.--7. 1. "EXCTL_PORT_OUTPUT_REGISTER," group.long 0xEE4++0x17 line.long 0x0 "CSTPIU_CFG_0_ITTRFLINACK,Integration Test Trigger In and Flush In Acknowledge." hexmask.long 0x0 2.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 0.--1. "ATID,Writing this register sets the value of ATIDM Reading it returns the value of ATIDS" "0,1,2,3" line.long 0x4 "CSTPIU_CFG_0_ITTRFLIN,Integration Test Trigger In and Flush In Register." hexmask.long 0x4 0.--31. 1. "INTEGRATIONTRFLIN," line.long 0x8 "CSTPIU_CFG_0_ITATBDATA0,Integration Test ATB Data Register 0" hexmask.long 0x8 0.--31. 1. "INTEGRATION_TEST_ATB_REG," line.long 0xC "CSTPIU_CFG_0_ITATBCTR2,Integration Test ATB Control Register 2." hexmask.long 0xC 0.--31. 1. "INTEGRATION_TEST_ATB_CTL_REG2," line.long 0x10 "CSTPIU_CFG_0_ITATBCTR1,Integration Test ATB Control Register 1." hexmask.long 0x10 0.--31. 1. "INTEGRATION_TEST_ATB_CTL_REG1," line.long 0x14 "CSTPIU_CFG_0_ITATBCTR0,Integration Test ATB Control Register 0" hexmask.long 0x14 0.--31. 1. "INTEGRATION_TEST_ATB_CTL_REG0," group.long 0xF00++0x3 line.long 0x0 "CSTPIU_CFG_0_INTCTRL,Integration Mode Register" hexmask.long 0x0 1.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 0. "INTEGMODEN,Integration Mode Enable" "0,1" group.long 0xFA0++0x7 line.long 0x0 "CSTPIU_CFG_0_CTSET,Claim Tag Set Register" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--3. 1. "CLAIM_TAG_SET,Claim Tag Set Register" line.long 0x4 "CSTPIU_CFG_0_CTCLR,Claim Tag Clear Register" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--3. 1. "CLAIM_TAG_CLEAR,Claim Tag Clear Register" group.long 0xFB0++0x3 line.long 0x0 "CSTPIU_CFG_0_LAREG,Software must write 0xCSACCE55 to this register in order for application to gain access to the other registers. If paddrdbg31 is high. this is ignored." hexmask.long 0x0 0.--31. 1. "LOCK_ACCESS_REGISTER," rgroup.long 0xFB4++0x7 line.long 0x0 "CSTPIU_CFG_0_LSREG,The CTI implements two memory maps controlled through PADDRDBG31. When PADDRDBG31 is HIGH. the Lock Status Register reads as 0x0 indicating that no lock exists. When PADDRDBG31 is LOW. the Lock Status Register reads as 0x3 from reset." hexmask.long 0x0 2.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 0.--1. "LOCK_STATUS,The CTI implements two memory maps controlled through PADDRDBG31 When PADDRDBG31 is HIGH the Lock Status Register reads as 0x0 indicating that no lock exists When PADDRDBG31 is LOW the Lock Status Register reads as 0x3 from reset This.." "0,1,2,3" line.long 0x4 "CSTPIU_CFG_0_AUTHST,Reports the required security level." hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--3. 1. "AUTHENTICATION_STATUS,Reports the required security level bit 0 indicates Invasive Debug Controlled and bit 1 is the current value Bit 2 indicates non-invasive debug controlled and bit 3 is the current value Returns 0x5" rgroup.long 0xFC8++0xB line.long 0x0 "CSTPIU_CFG_0_DEVID,This shows the characteristics of the TPIU" hexmask.long.tbyte 0x0 12.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 11. "SWO_UART,Indicates Serial Wire Output [UART/NRZ] is not supported Defaul = 0" "0,1" bitfld.long 0x0 10. "SWO_MANCHESTER,Indicates Serial Wire Output [Manchester] is not supported Default = 0" "0,1" newline bitfld.long 0x0 9. "TRACE_CLOCK_SUP,Indicates trace clock + data is supported" "0,1" bitfld.long 0x0 6.--8. "FIFO_SIZE,FIFO size in powers of 2 A value of 2 gives a FIFO size of 4 entries 16 bytes Default is3'b010" "0,1,2,3,4,5,6,7" bitfld.long 0x0 5. "CLOCK_RELATIONSHIP,Indicates the relationship between ATCLK and TRACECLKIN 0x1 indicates asynchronous" "0,1" newline hexmask.long.byte 0x0 0.--4. 1. "HIDDEN_MUXING,When nonzero this value indicates the type/number of ATB multiplexing present on the input to the ATB Currently only 0x00 is supported that is no multiplexing present" line.long 0x4 "CSTPIU_CFG_0_DEVTYPEID,Device Type Identifier Register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserveed returns 0" hexmask.long.byte 0x4 0.--7. 1. "DEV_TYPE_ID,Device Type Identifier" line.long 0x8 "CSTPIU_CFG_0_PERID4,Peripheral ID4 Register" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--7. 1. "PERIPH_ID4,Peripheral ID 4 returns 0x4" rgroup.long 0xFE0++0x1F line.long 0x0 "CSTPIU_CFG_0_PERID0,Peripheral ID0 Register" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--7. 1. "PERIPH_ID0,Perpiheral ID 0 returns 0x06" line.long 0x4 "CSTPIU_CFG_0_PERID1,Peripheral ID1 Register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--7. 1. "PERIPH_ID1,Peripheral ID 1 returns 0xB9" line.long 0x8 "CSTPIU_CFG_0_PERID2,Peripheral ID2 Register" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--7. 1. "PERIPH_ID2,Peripheral ID 2 returns 9x2B" line.long 0xC "CSTPIU_CFG_0_PERID3,Peripheral ID3 Register" hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0xC 0.--7. 1. "PERPIH_ID3,Peripheral ID3 register returns 0x00" line.long 0x10 "CSTPIU_CFG_0_COMPID0,Component ID0 Register" hexmask.long.tbyte 0x10 8.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x10 0.--7. 1. "COMP_ID0,A component identification register that indicates that the identification registers are present This register also indicates the component class" line.long 0x14 "CSTPIU_CFG_0_COMPID1,Component ID1 Register" hexmask.long.tbyte 0x14 8.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x14 0.--7. 1. "COMP_ID1,A component identification register that indicates that the identification registers are present This register also indicates the component class" line.long 0x18 "CSTPIU_CFG_0_COMPID2,Component ID2 Register" hexmask.long.tbyte 0x18 8.--31. 1. "RESERVED,Returns 0" hexmask.long.byte 0x18 0.--7. 1. "COMP_ID2,A component identification register that indicates that the identification registers are present This register also indicates the component class" line.long 0x1C "CSTPIU_CFG_0_COMPID3,Component ID3 Register" hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED,returns 0 when read" hexmask.long.byte 0x1C 0.--7. 1. "COMP_ID3,A component identification register that indicates that the identification registers are present This register also indicates the component class" tree.end tree "DEBUGSS_WRAP0_CSTPIU1 (DEBUGSS_WRAP0_CSTPIU1)" base ad:0x760004000 rgroup.long 0x0++0x3 line.long 0x0 "CSTPIU_CFG_1_SUPPORTSIZE,This register indicates how many trace pins are available for export. One pin per bit. right justified" hexmask.long 0x0 0.--31. 1. "SUPPORTSIZEREG,This register indicates how many trace pins are available for export One pin per bit right justified" group.long 0x4++0x3 line.long 0x0 "CSTPIU_CFG_1_CURPORTSIZE,The Current Port Size Register has the same format as the Supported Port Sizes register but only one bit is set. and all others must be zero" hexmask.long 0x0 0.--31. 1. "CURRENTPORTSIZE,The Current Port Size Register has the same format as the Supported Port Sizes register but only one bit is set and all others must be zero" rgroup.long 0x100++0x3 line.long 0x0 "CSTPIU_CFG_1_TRIGMODEREG,This register indicates the implemented Trigger Counter multipliers and other supported features of the trigger system" hexmask.long.word 0x0 18.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 17. "TRGRUN,Trigger Counter running A trigger has occurred but the counter is not at zero" "0,1" bitfld.long 0x0 16. "TRIGGERED,A trigger has occurred and the counter has reached zero" "0,1" newline hexmask.long.byte 0x0 9.--15. 1. "RESERVED2,Reserved returns 0" bitfld.long 0x0 8. "TCOUNT8,An 8-bit wide counter register implemented" "0,1" bitfld.long 0x0 5.--7. "RESERVED1,Reserved returns 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--4. 1. "MUILTPLIERS,Multiply the Trigger Counter by 2 4 16 256 64K supported Each bit is a mpy value" group.long 0x104++0x7 line.long 0x0 "CSTPIU_CFG_1_TRIGCTRREG," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--7. 1. "TRIGCOUNT,8-bit counter value for the number of words to be output from the formatter before a trigger is inserted" line.long 0x4 "CSTPIU_CFG_1_TRIGMPYREG," hexmask.long 0x4 5.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--4. 1. "MULTIPLIER,Trigger multiply value bit0=x2 bit1=x4 bit2=x16 bit3=x256 bit4=x64K" rgroup.long 0x200++0x3 line.long 0x0 "CSTPIU_CFG_1_SUPTESTPAT,This register displays the supported patterns and modes for calibration" hexmask.long.word 0x0 18.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 16.--17. "MODE,bit 16 is Timed Mode bit 17 is continuous mode" "0,1,2,3" hexmask.long.word 0x0 4.--15. 1. "RESERVED1,Reserved returns 0" newline hexmask.long.byte 0x0 0.--3. 1. "PATTERN,bit0=Walking 1 pattern bit1=walking 0 bit2=AA/55 pattern bit3=FF/00 pattern" group.long 0x204++0x7 line.long 0x0 "CSTPIU_CFG_1_CURTESTPAT,This register displays the supported patterns and modes for calibration" hexmask.long.word 0x0 18.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 16.--17. "MODE,Select the Pattern Timer Mode see Supported Patterns reg" "0,1,2,3" hexmask.long.word 0x0 4.--15. 1. "RESERVED1,Reserved returns 0" newline bitfld.long 0x0 0.--2. "PATTERN,Select the pattern to run set Supported Patterns Reg" "0,1,2,3,4,5,6,7" line.long 0x4 "CSTPIU_CFG_1_TESTPATCNT,This register displays the supported patterns and modes for calibration" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--7. 1. "PATTERNCOUNT,Number of clocks a pattern should run before going to the next pattern" rgroup.long 0x300++0x3 line.long 0x0 "CSTPIU_CFG_1_FORMFLUSHSTAT,This register displays the supported patterns and modes for calibration" hexmask.long 0x0 3.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 2. "TCPRESENT,If this bit is set then TRACECTL is present If no TRACECTL pin is present then the data formatter must be used and only in continuous mode" "0,1" bitfld.long 0x0 1. "FTSTOPPED,Formatter stopped The formatter has received a stop request signal and all trace data and post-amble has been output" "0,1" newline bitfld.long 0x0 0. "FLINPROG,Flush In Progress This is an indication of the current state of AFVALIDS" "0,1" group.long 0x304++0x7 line.long 0x0 "CSTPIU_CFG_1_FORMFLUSHCTL,This register controls the generation of stop. trigger. and flush events." hexmask.long.tbyte 0x0 14.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 13. "STOPTRIG,Stop the formatter after a Trigger Event is observed" "0,1" bitfld.long 0x0 12. "STOPFL,Stop the formatter after a flush completes [return of AFREADYS]" "0,1" newline rbitfld.long 0x0 11. "RESERVED3,Reserved returns 0" "0,1" bitfld.long 0x0 10. "TRIGFL,Indicates a trigger on Flush completion on AFREADYS being returned" "0,1" bitfld.long 0x0 9. "TRIGEVT,Indicate a trigger on a Trigger Event" "0,1" newline bitfld.long 0x0 8. "TRIGIN,Indicate a trigger on TRIGIN being asserted" "0,1" rbitfld.long 0x0 7. "RESERVED2,Reserved returns 0" "0,1" bitfld.long 0x0 6. "FONMAN,Manually generate a flush of the system It is cleared when this flush has been serviced" "0,1" newline bitfld.long 0x0 5. "FONTRIG,Generate flush using Trigger event" "0,1" bitfld.long 0x0 4. "FONFIIN,Generate flush using the FLUSHIN interface" "0,1" rbitfld.long 0x0 2.--3. "RESERVED1,Reserved returns 0" "0,1,2,3" newline bitfld.long 0x0 1. "ENFCONT,Continuous Formatting Embed in trigger packets and indicate null cycles using Sync packets" "0,1" bitfld.long 0x0 0. "ENFTC,Enable Formatting Do not embed Triggers into the formatted stream" "0,1" line.long 0x4 "CSTPIU_CFG_1_FORMSYNCCTR,This counter is the number of formatter frames since the last synchronization packet of 128 bits. and is a 12-bit counter with a maximum count value of 4096" hexmask.long.tbyte 0x4 12.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.word 0x4 0.--11. 1. "CYCCOUNT,12-bit counter value to indicate the number of complete frames between full sync packets" group.long 0x400++0x7 line.long 0x0 "CSTPIU_CFG_1_EXTCTLIN,This register inputs data from an external port (if used)" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,reserved returns 0" hexmask.long.byte 0x0 0.--7. 1. "EXCTL_PORT_INPUT_REGISTER," line.long 0x4 "CSTPIU_CFG_1_EXTCTLOUT,This register is output to an external port (if used)" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,returns 0" hexmask.long.byte 0x4 0.--7. 1. "EXCTL_PORT_OUTPUT_REGISTER," group.long 0xEE4++0x17 line.long 0x0 "CSTPIU_CFG_1_ITTRFLINACK,Integration Test Trigger In and Flush In Acknowledge." hexmask.long 0x0 2.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 0.--1. "ATID,Writing this register sets the value of ATIDM Reading it returns the value of ATIDS" "0,1,2,3" line.long 0x4 "CSTPIU_CFG_1_ITTRFLIN,Integration Test Trigger In and Flush In Register." hexmask.long 0x4 0.--31. 1. "INTEGRATIONTRFLIN," line.long 0x8 "CSTPIU_CFG_1_ITATBDATA0,Integration Test ATB Data Register 0" hexmask.long 0x8 0.--31. 1. "INTEGRATION_TEST_ATB_REG," line.long 0xC "CSTPIU_CFG_1_ITATBCTR2,Integration Test ATB Control Register 2." hexmask.long 0xC 0.--31. 1. "INTEGRATION_TEST_ATB_CTL_REG2," line.long 0x10 "CSTPIU_CFG_1_ITATBCTR1,Integration Test ATB Control Register 1." hexmask.long 0x10 0.--31. 1. "INTEGRATION_TEST_ATB_CTL_REG1," line.long 0x14 "CSTPIU_CFG_1_ITATBCTR0,Integration Test ATB Control Register 0" hexmask.long 0x14 0.--31. 1. "INTEGRATION_TEST_ATB_CTL_REG0," group.long 0xF00++0x3 line.long 0x0 "CSTPIU_CFG_1_INTCTRL,Integration Mode Register" hexmask.long 0x0 1.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 0. "INTEGMODEN,Integration Mode Enable" "0,1" group.long 0xFA0++0x7 line.long 0x0 "CSTPIU_CFG_1_CTSET,Claim Tag Set Register" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--3. 1. "CLAIM_TAG_SET,Claim Tag Set Register" line.long 0x4 "CSTPIU_CFG_1_CTCLR,Claim Tag Clear Register" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--3. 1. "CLAIM_TAG_CLEAR,Claim Tag Clear Register" group.long 0xFB0++0x3 line.long 0x0 "CSTPIU_CFG_1_LAREG,Software must write 0xCSACCE55 to this register in order for application to gain access to the other registers. If paddrdbg31 is high. this is ignored." hexmask.long 0x0 0.--31. 1. "LOCK_ACCESS_REGISTER," rgroup.long 0xFB4++0x7 line.long 0x0 "CSTPIU_CFG_1_LSREG,The CTI implements two memory maps controlled through PADDRDBG31. When PADDRDBG31 is HIGH. the Lock Status Register reads as 0x0 indicating that no lock exists. When PADDRDBG31 is LOW. the Lock Status Register reads as 0x3 from reset." hexmask.long 0x0 2.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 0.--1. "LOCK_STATUS,The CTI implements two memory maps controlled through PADDRDBG31 When PADDRDBG31 is HIGH the Lock Status Register reads as 0x0 indicating that no lock exists When PADDRDBG31 is LOW the Lock Status Register reads as 0x3 from reset This.." "0,1,2,3" line.long 0x4 "CSTPIU_CFG_1_AUTHST,Reports the required security level." hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--3. 1. "AUTHENTICATION_STATUS,Reports the required security level bit 0 indicates Invasive Debug Controlled and bit 1 is the current value Bit 2 indicates non-invasive debug controlled and bit 3 is the current value Returns 0x5" rgroup.long 0xFC8++0xB line.long 0x0 "CSTPIU_CFG_1_DEVID,This shows the characteristics of the TPIU" hexmask.long.tbyte 0x0 12.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 11. "SWO_UART,Indicates Serial Wire Output [UART/NRZ] is not supported Defaul = 0" "0,1" bitfld.long 0x0 10. "SWO_MANCHESTER,Indicates Serial Wire Output [Manchester] is not supported Default = 0" "0,1" newline bitfld.long 0x0 9. "TRACE_CLOCK_SUP,Indicates trace clock + data is supported" "0,1" bitfld.long 0x0 6.--8. "FIFO_SIZE,FIFO size in powers of 2 A value of 2 gives a FIFO size of 4 entries 16 bytes Default is3'b010" "0,1,2,3,4,5,6,7" bitfld.long 0x0 5. "CLOCK_RELATIONSHIP,Indicates the relationship between ATCLK and TRACECLKIN 0x1 indicates asynchronous" "0,1" newline hexmask.long.byte 0x0 0.--4. 1. "HIDDEN_MUXING,When nonzero this value indicates the type/number of ATB multiplexing present on the input to the ATB Currently only 0x00 is supported that is no multiplexing present" line.long 0x4 "CSTPIU_CFG_1_DEVTYPEID,Device Type Identifier Register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserveed returns 0" hexmask.long.byte 0x4 0.--7. 1. "DEV_TYPE_ID,Device Type Identifier" line.long 0x8 "CSTPIU_CFG_1_PERID4,Peripheral ID4 Register" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--7. 1. "PERIPH_ID4,Peripheral ID 4 returns 0x4" rgroup.long 0xFE0++0x1F line.long 0x0 "CSTPIU_CFG_1_PERID0,Peripheral ID0 Register" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--7. 1. "PERIPH_ID0,Perpiheral ID 0 returns 0x06" line.long 0x4 "CSTPIU_CFG_1_PERID1,Peripheral ID1 Register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--7. 1. "PERIPH_ID1,Peripheral ID 1 returns 0xB9" line.long 0x8 "CSTPIU_CFG_1_PERID2,Peripheral ID2 Register" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--7. 1. "PERIPH_ID2,Peripheral ID 2 returns 9x2B" line.long 0xC "CSTPIU_CFG_1_PERID3,Peripheral ID3 Register" hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0xC 0.--7. 1. "PERPIH_ID3,Peripheral ID3 register returns 0x00" line.long 0x10 "CSTPIU_CFG_1_COMPID0,Component ID0 Register" hexmask.long.tbyte 0x10 8.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x10 0.--7. 1. "COMP_ID0,A component identification register that indicates that the identification registers are present This register also indicates the component class" line.long 0x14 "CSTPIU_CFG_1_COMPID1,Component ID1 Register" hexmask.long.tbyte 0x14 8.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x14 0.--7. 1. "COMP_ID1,A component identification register that indicates that the identification registers are present This register also indicates the component class" line.long 0x18 "CSTPIU_CFG_1_COMPID2,Component ID2 Register" hexmask.long.tbyte 0x18 8.--31. 1. "RESERVED,Returns 0" hexmask.long.byte 0x18 0.--7. 1. "COMP_ID2,A component identification register that indicates that the identification registers are present This register also indicates the component class" line.long 0x1C "CSTPIU_CFG_1_COMPID3,Component ID3 Register" hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED,returns 0 when read" hexmask.long.byte 0x1C 0.--7. 1. "COMP_ID3,A component identification register that indicates that the identification registers are present This register also indicates the component class" tree.end tree "DEBUGSS_WRAP0_CTF0 (DEBUGSS_WRAP0_CTF0)" base ad:0x720005000 group.long 0x0++0x7 line.long 0x0 "CTF_CFG_0_CSTFCTLREG,It enables the target ports and defines the hold time of the target ports." hexmask.long.tbyte 0x0 12.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 8.--11. 1. "MINHOLDTIME,Minimum Hold time Hold time refers to the number of transactions that are output on the funnel initiator port from the same target while that target port ATVALIDSx is HIGH The CSTF holds for the minimum hold time and one additional cycle The.." hexmask.long.byte 0x0 0.--7. 1. "SLVPORTEN,Target Port Enables Setting these bits enables the corresponding input or target port If a bit is not set then this has the effect of excluding that port from the priority selection scheme" line.long 0x4 "CTF_CFG_0_PRIORCTLREG,Defines the order in which inputs are selected. This register must only be altered when the trace sources are off and the system is drained." hexmask.long.byte 0x4 24.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x4 21.--23. "PRIPORT7,Priority value of the eighth target port Highest priority goes to the lowest value" "0,1,2,3,4,5,6,7" bitfld.long 0x4 18.--20. "PRIPORT6,Priority value of the seventh target port Highest priority goes to the lowest value" "0,1,2,3,4,5,6,7" bitfld.long 0x4 15.--17. "PRIPORT5,Priority value of the sixth target port Highest priority goes to the lowest value" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 12.--14. "PRIPORT4,Priority value of the fifth target port Highest priority goes to the lowest value" "0,1,2,3,4,5,6,7" bitfld.long 0x4 9.--11. "PRIPORT3,Priority value of the fourth target port Highest priority goes to the lowest value" "0,1,2,3,4,5,6,7" bitfld.long 0x4 6.--8. "PRIPORT2,Priority value of the third target port Highest priority goes to the lowest value" "0,1,2,3,4,5,6,7" bitfld.long 0x4 3.--5. "PRIPORT1,Priority value of the second target port Highest priority goes to the lowest value" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 0.--2. "PRIPORT0,Priority value of the first target port Highest priority goes to the lowest value" "0,1,2,3,4,5,6,7" group.long 0xEEC++0xF line.long 0x0 "CTF_CFG_0_ITATBDATA0,Integration Test Register." hexmask.long 0x0 5.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 4. "ATDATA31,A write outputs data on ATDATAM[31] A read returns the value of ATDATAS[31]" "0,1" bitfld.long 0x0 3. "ATDATA23,A write outputs data on ATDATAM[23] A read returns the value of ATDATAS[23]" "0,1" bitfld.long 0x0 2. "ATDATA15,A write outputs data on ATDATAM[15] A read returns the value of ATDATAS[15]" "0,1" newline bitfld.long 0x0 1. "ATDATA7,A write outputs data on ATDATAM[7] A read returns the value of ATDATAS[7]" "0,1" bitfld.long 0x0 0. "ATDATA0,A write outputs data on ATDATAM[0] A read returns the value of ATDATAS[0]" "0,1" line.long 0x4 "CTF_CFG_0_ITATBCTR2,Integration Test Control Register 2." hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x4 1. "AFVALID,Reading this bit returns the value of AFVALIDM Writing this bit sets the AFVALIDS[n] bit where n is enabled by the CSTFCTLREG" "0,1" bitfld.long 0x4 0. "ATREADY,Reading this bit returns the value of ATREADYM Writing this bit sets the AFREADYS[n] bit where n is enabled by the CSTFCTLREG" "0,1" line.long 0x8 "CTF_CFG_0_ITATBCTR1,Integration Test Control Register 1." hexmask.long 0x8 7.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--5. 1. "ATID,Writing this register sets the value of ATIDM Reading it returns the value of ATIDS" line.long 0xC "CTF_CFG_0_ITATBCTR0,Integration Test Control Register 0." hexmask.long.tbyte 0xC 10.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0xC 8.--9. "ATBYTES,Writing this field sets the value of ATBYTESM Reading it returns the value of ATBYTSS[n]" "0,1,2,3" hexmask.long.byte 0xC 2.--7. 1. "RESERVED,Reserved returns 0" bitfld.long 0xC 1. "AFREADY,Writing this field sets the value of AFREADYM Reading it returns the value of AFREADYS[n]" "0,1" newline bitfld.long 0xC 0. "ATVALID,Writing this field sets the value of ATVALIDM Reading it returns the value of ATVALIDS[n]" "0,1" group.long 0xF00++0x3 line.long 0x0 "CTF_CFG_0_INTCTRL,Integration Mode Register" hexmask.long 0x0 1.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 0. "INTEGMODEN,Integration Mode Enable" "0,1" group.long 0xFA0++0x7 line.long 0x0 "CTF_CFG_0_CTSET,Claim Tag Set Register" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--3. 1. "CLAIM_TAG_SET,Claim Tag Set Register" line.long 0x4 "CTF_CFG_0_CTCLR,Claim Tag Clear Register" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--3. 1. "CLAIM_TAG_CLEAR,Claim Tag Clear Register" group.long 0xFB0++0x3 line.long 0x0 "CTF_CFG_0_LAREG,Software must write 0xCSACCE55 to this register in order for application to gain access to the other registers. If paddrdbg31 is high. this is ignored." hexmask.long 0x0 0.--31. 1. "LOCK_ACCESS_REGISTER," rgroup.long 0xFB4++0x7 line.long 0x0 "CTF_CFG_0_LSREG,The CTI implements two memory maps controlled through PADDRDBG31. When PADDRDBG31 is HIGH. the Lock Status Register reads as 0x0 indicating that no lock exists. When PADDRDBG31 is LOW. the Lock Status Register reads as 0x3 from reset." hexmask.long 0x0 2.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 0.--1. "LOCK_STATUS,The CTI implements two memory maps controlled through PADDRDBG31 When PADDRDBG31 is HIGH the Lock Status Register reads as 0x0 indicating that no lock exists When PADDRDBG31 is LOW the Lock Status Register reads as 0x3 from reset This.." "0,1,2,3" line.long 0x4 "CTF_CFG_0_AUTHST,Reports the required security level." hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--3. 1. "AUTHENTICATION_STATUS,Reports the required security level bit 0 indicates Invasive Debug Controlled and bit 1 is the current value Bit 2 indicates non-invasive debug controlled and bit 3 is the current value Returns 0x5" rgroup.long 0xFC8++0x37 line.long 0x0 "CTF_CFG_0_DEVID,Device ID Register" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved return 0s" hexmask.long.byte 0x0 4.--7. 1. "PRIOTITY_SCHEME,The CSTF implements a static priority scheme Value = 0x2" hexmask.long.byte 0x0 0.--3. 1. "PORTCOUNT,This is the value of the Verilog define PORTCOUNT and represents the number of input ports connected By default all 8 ports are connected 0x0 and 0x1 are illegal values" line.long 0x4 "CTF_CFG_0_DEVTYPEID,Device Type Identifier Register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserveed returns 0" hexmask.long.byte 0x4 0.--7. 1. "DEV_TYPE_ID,A value of 0x12 identifies this device as a trace link [0x2] and specifically as a funnel/router [0x1]" line.long 0x8 "CTF_CFG_0_PERID4,Peripheral ID4 Register" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--7. 1. "PERIPH_ID4,Peripheral ID 4 returns 0x4" line.long 0xC "CTF_CFG_0_PERID5,Peripheral ID5 Register" hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0xC 0.--7. 1. "PERIPH_ID5,Peripheral ID 5 returns 0x0" line.long 0x10 "CTF_CFG_0_PERID6,Peripheral ID6 Register" hexmask.long.tbyte 0x10 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x10 0.--7. 1. "PERIPH_ID6,Peripheral ID 6 returns 0x0" line.long 0x14 "CTF_CFG_0_PERID7,Peripheral ID7 Register" hexmask.long.tbyte 0x14 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x14 0.--7. 1. "PERIPH_ID7,Peripheral ID 7 returns 0x0" line.long 0x18 "CTF_CFG_0_PERID0,Peripheral ID0 Register" hexmask.long.tbyte 0x18 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x18 0.--7. 1. "PERIPH_ID0,Perpiheral ID 0 returns 0x06" line.long 0x1C "CTF_CFG_0_PERID1,Peripheral ID1 Register" hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x1C 0.--7. 1. "PERIPH_ID1,Peripheral ID 1 returns 0xB9" line.long 0x20 "CTF_CFG_0_PERID2,Peripheral ID2 Register" hexmask.long.tbyte 0x20 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x20 0.--7. 1. "PERIPH_ID2,Peripheral ID 2 returns 9x2B" line.long 0x24 "CTF_CFG_0_PERID3,Peripheral ID3 Register" hexmask.long.tbyte 0x24 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x24 0.--7. 1. "PERPIH_ID3,Peripheral ID3 register returns 0x00" line.long 0x28 "CTF_CFG_0_COMPID0,Component ID0 Register" hexmask.long.tbyte 0x28 8.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x28 0.--7. 1. "COMP_ID0,A component identification register that indicates that the identification registers are present This register also indicates the component class" line.long 0x2C "CTF_CFG_0_COMPID1,Component ID1 Register" hexmask.long.tbyte 0x2C 8.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x2C 0.--7. 1. "COMP_ID1,A component identification register that indicates that the identification registers are present This register also indicates the component class" line.long 0x30 "CTF_CFG_0_COMPID2,Component ID2 Register" hexmask.long.tbyte 0x30 8.--31. 1. "RESERVED,Returns 0" hexmask.long.byte 0x30 0.--7. 1. "COMP_ID2,A component identification register that indicates that the identification registers are present This register also indicates the component class" line.long 0x34 "CTF_CFG_0_COMPID3,Component ID3 Register" hexmask.long.tbyte 0x34 8.--31. 1. "RESERVED,returns 0 when read" hexmask.long.byte 0x34 0.--7. 1. "COMP_ID3,A component identification register that indicates that the identification registers are present This register also indicates the component class" tree.end tree "DEBUGSS_WRAP0_CTF1 (DEBUGSS_WRAP0_CTF1)" base ad:0x760005000 group.long 0x0++0x7 line.long 0x0 "CTF_CFG_1_CSTFCTLREG,It enables the target ports and defines the hold time of the target ports." hexmask.long.tbyte 0x0 12.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 8.--11. 1. "MINHOLDTIME,Minimum Hold time Hold time refers to the number of transactions that are output on the funnel initiator port from the same target while that target port ATVALIDSx is HIGH The CSTF holds for the minimum hold time and one additional cycle The.." hexmask.long.byte 0x0 0.--7. 1. "SLVPORTEN,Target Port Enables Setting these bits enables the corresponding input or target port If a bit is not set then this has the effect of excluding that port from the priority selection scheme" line.long 0x4 "CTF_CFG_1_PRIORCTLREG,Defines the order in which inputs are selected. This register must only be altered when the trace sources are off and the system is drained." hexmask.long.byte 0x4 24.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x4 21.--23. "PRIPORT7,Priority value of the eighth target port Highest priority goes to the lowest value" "0,1,2,3,4,5,6,7" bitfld.long 0x4 18.--20. "PRIPORT6,Priority value of the seventh target port Highest priority goes to the lowest value" "0,1,2,3,4,5,6,7" bitfld.long 0x4 15.--17. "PRIPORT5,Priority value of the sixth target port Highest priority goes to the lowest value" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 12.--14. "PRIPORT4,Priority value of the fifth target port Highest priority goes to the lowest value" "0,1,2,3,4,5,6,7" bitfld.long 0x4 9.--11. "PRIPORT3,Priority value of the fourth target port Highest priority goes to the lowest value" "0,1,2,3,4,5,6,7" bitfld.long 0x4 6.--8. "PRIPORT2,Priority value of the third target port Highest priority goes to the lowest value" "0,1,2,3,4,5,6,7" bitfld.long 0x4 3.--5. "PRIPORT1,Priority value of the second target port Highest priority goes to the lowest value" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 0.--2. "PRIPORT0,Priority value of the first target port Highest priority goes to the lowest value" "0,1,2,3,4,5,6,7" group.long 0xEEC++0xF line.long 0x0 "CTF_CFG_1_ITATBDATA0,Integration Test Register." hexmask.long 0x0 5.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 4. "ATDATA31,A write outputs data on ATDATAM[31] A read returns the value of ATDATAS[31]" "0,1" bitfld.long 0x0 3. "ATDATA23,A write outputs data on ATDATAM[23] A read returns the value of ATDATAS[23]" "0,1" bitfld.long 0x0 2. "ATDATA15,A write outputs data on ATDATAM[15] A read returns the value of ATDATAS[15]" "0,1" newline bitfld.long 0x0 1. "ATDATA7,A write outputs data on ATDATAM[7] A read returns the value of ATDATAS[7]" "0,1" bitfld.long 0x0 0. "ATDATA0,A write outputs data on ATDATAM[0] A read returns the value of ATDATAS[0]" "0,1" line.long 0x4 "CTF_CFG_1_ITATBCTR2,Integration Test Control Register 2." hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x4 1. "AFVALID,Reading this bit returns the value of AFVALIDM Writing this bit sets the AFVALIDS[n] bit where n is enabled by the CSTFCTLREG" "0,1" bitfld.long 0x4 0. "ATREADY,Reading this bit returns the value of ATREADYM Writing this bit sets the AFREADYS[n] bit where n is enabled by the CSTFCTLREG" "0,1" line.long 0x8 "CTF_CFG_1_ITATBCTR1,Integration Test Control Register 1." hexmask.long 0x8 7.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--5. 1. "ATID,Writing this register sets the value of ATIDM Reading it returns the value of ATIDS" line.long 0xC "CTF_CFG_1_ITATBCTR0,Integration Test Control Register 0." hexmask.long.tbyte 0xC 10.--31. 1. "RESERVED1,Reserved returns 0" bitfld.long 0xC 8.--9. "ATBYTES,Writing this field sets the value of ATBYTESM Reading it returns the value of ATBYTSS[n]" "0,1,2,3" hexmask.long.byte 0xC 2.--7. 1. "RESERVED,Reserved returns 0" bitfld.long 0xC 1. "AFREADY,Writing this field sets the value of AFREADYM Reading it returns the value of AFREADYS[n]" "0,1" newline bitfld.long 0xC 0. "ATVALID,Writing this field sets the value of ATVALIDM Reading it returns the value of ATVALIDS[n]" "0,1" group.long 0xF00++0x3 line.long 0x0 "CTF_CFG_1_INTCTRL,Integration Mode Register" hexmask.long 0x0 1.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 0. "INTEGMODEN,Integration Mode Enable" "0,1" group.long 0xFA0++0x7 line.long 0x0 "CTF_CFG_1_CTSET,Claim Tag Set Register" hexmask.long 0x0 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--3. 1. "CLAIM_TAG_SET,Claim Tag Set Register" line.long 0x4 "CTF_CFG_1_CTCLR,Claim Tag Clear Register" hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--3. 1. "CLAIM_TAG_CLEAR,Claim Tag Clear Register" group.long 0xFB0++0x3 line.long 0x0 "CTF_CFG_1_LAREG,Software must write 0xCSACCE55 to this register in order for application to gain access to the other registers. If paddrdbg31 is high. this is ignored." hexmask.long 0x0 0.--31. 1. "LOCK_ACCESS_REGISTER," rgroup.long 0xFB4++0x7 line.long 0x0 "CTF_CFG_1_LSREG,The CTI implements two memory maps controlled through PADDRDBG31. When PADDRDBG31 is HIGH. the Lock Status Register reads as 0x0 indicating that no lock exists. When PADDRDBG31 is LOW. the Lock Status Register reads as 0x3 from reset." hexmask.long 0x0 2.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 0.--1. "LOCK_STATUS,The CTI implements two memory maps controlled through PADDRDBG31 When PADDRDBG31 is HIGH the Lock Status Register reads as 0x0 indicating that no lock exists When PADDRDBG31 is LOW the Lock Status Register reads as 0x3 from reset This.." "0,1,2,3" line.long 0x4 "CTF_CFG_1_AUTHST,Reports the required security level." hexmask.long 0x4 4.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x4 0.--3. 1. "AUTHENTICATION_STATUS,Reports the required security level bit 0 indicates Invasive Debug Controlled and bit 1 is the current value Bit 2 indicates non-invasive debug controlled and bit 3 is the current value Returns 0x5" rgroup.long 0xFC8++0x37 line.long 0x0 "CTF_CFG_1_DEVID,Device ID Register" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reserved return 0s" hexmask.long.byte 0x0 4.--7. 1. "PRIOTITY_SCHEME,The CSTF implements a static priority scheme Value = 0x2" hexmask.long.byte 0x0 0.--3. 1. "PORTCOUNT,This is the value of the Verilog define PORTCOUNT and represents the number of input ports connected By default all 8 ports are connected 0x0 and 0x1 are illegal values" line.long 0x4 "CTF_CFG_1_DEVTYPEID,Device Type Identifier Register" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reserveed returns 0" hexmask.long.byte 0x4 0.--7. 1. "DEV_TYPE_ID,A value of 0x12 identifies this device as a trace link [0x2] and specifically as a funnel/router [0x1]" line.long 0x8 "CTF_CFG_1_PERID4,Peripheral ID4 Register" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 0.--7. 1. "PERIPH_ID4,Peripheral ID 4 returns 0x4" line.long 0xC "CTF_CFG_1_PERID5,Peripheral ID5 Register" hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0xC 0.--7. 1. "PERIPH_ID5,Peripheral ID 5 returns 0x0" line.long 0x10 "CTF_CFG_1_PERID6,Peripheral ID6 Register" hexmask.long.tbyte 0x10 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x10 0.--7. 1. "PERIPH_ID6,Peripheral ID 6 returns 0x0" line.long 0x14 "CTF_CFG_1_PERID7,Peripheral ID7 Register" hexmask.long.tbyte 0x14 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x14 0.--7. 1. "PERIPH_ID7,Peripheral ID 7 returns 0x0" line.long 0x18 "CTF_CFG_1_PERID0,Peripheral ID0 Register" hexmask.long.tbyte 0x18 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x18 0.--7. 1. "PERIPH_ID0,Perpiheral ID 0 returns 0x06" line.long 0x1C "CTF_CFG_1_PERID1,Peripheral ID1 Register" hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x1C 0.--7. 1. "PERIPH_ID1,Peripheral ID 1 returns 0xB9" line.long 0x20 "CTF_CFG_1_PERID2,Peripheral ID2 Register" hexmask.long.tbyte 0x20 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x20 0.--7. 1. "PERIPH_ID2,Peripheral ID 2 returns 9x2B" line.long 0x24 "CTF_CFG_1_PERID3,Peripheral ID3 Register" hexmask.long.tbyte 0x24 8.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x24 0.--7. 1. "PERPIH_ID3,Peripheral ID3 register returns 0x00" line.long 0x28 "CTF_CFG_1_COMPID0,Component ID0 Register" hexmask.long.tbyte 0x28 8.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x28 0.--7. 1. "COMP_ID0,A component identification register that indicates that the identification registers are present This register also indicates the component class" line.long 0x2C "CTF_CFG_1_COMPID1,Component ID1 Register" hexmask.long.tbyte 0x2C 8.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x2C 0.--7. 1. "COMP_ID1,A component identification register that indicates that the identification registers are present This register also indicates the component class" line.long 0x30 "CTF_CFG_1_COMPID2,Component ID2 Register" hexmask.long.tbyte 0x30 8.--31. 1. "RESERVED,Returns 0" hexmask.long.byte 0x30 0.--7. 1. "COMP_ID2,A component identification register that indicates that the identification registers are present This register also indicates the component class" line.long 0x34 "CTF_CFG_1_COMPID3,Component ID3 Register" hexmask.long.tbyte 0x34 8.--31. 1. "RESERVED,returns 0 when read" hexmask.long.byte 0x34 0.--7. 1. "COMP_ID3,A component identification register that indicates that the identification registers are present This register also indicates the component class" tree.end tree "DEBUGSS_WRAP0_DRM0 (DEBUGSS_WRAP0_DRM0)" base ad:0x720002000 rgroup.long 0x0++0xB line.long 0x0 "DRM_CFG_0_PERIPH_ID,This register is used to determine what the functionality of this peripheral is." bitfld.long 0x0 30.--31. "SCHEME,Peripheral ID Scheme [0]" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Reserved returns 0" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION,DRM Function ID [0x211]" hexmask.long.byte 0x0 11.--15. 1. "RTLREV,RTL Revision [0]" newline bitfld.long 0x0 8.--10. "MAJOR,Major Peripheral Revision [0]" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custon Peripheral ID version [0]" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor Peripheral Revision [0]" line.long 0x4 "DRM_CFG_0_VERSION,This register is used to enable the Time Generator. For application access. the DTG must be unlocked first." hexmask.long.word 0x4 16.--31. 1. "MAJOR_VERSION,Contains the major version value [1]" hexmask.long.word 0x4 0.--15. 1. "MINOR_VERSION,Contains the minor version value [0]" line.long 0x8 "DRM_CFG_0_CAPABILITY,This register can be read to determine the number of suspend signals and number of peripherals." hexmask.long.tbyte 0x8 14.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 8.--13. 1. "NUM_SUSPENDS,Contains the number of Suspend signals supported max of 32 There should be one signal per processor This value is set by a parameter at synthesis time" hexmask.long.byte 0x8 0.--7. 1. "NUM_PERIPHERALS,Contains the number of peripherals supported max of 128 This affects the number of SUSPEND_REG registers This is set by a parameter during synthesis" group.long 0xC++0x17 line.long 0x0 "DRM_CFG_0_TRACE_CTRL,This register is used to set the trace sampling mode to center(1) or edge(0)." hexmask.long 0x0 1.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 0. "CENTER_SAMPLING,Sets trace to center sampled" "0,1" line.long 0x4 "DRM_CFG_0_VBUSM_CTRL,This register is used to set attributes on the VBUSM memory accesses and to read the Debug Operating Mode" hexmask.long.word 0x4 21.--31. 1. "DOM_INPUT,This returns the DOM security input The upper 3 bits are the debug operating mode and the lower 8 bits are the priviledge ID for VBUSM transaction" hexmask.long.word 0x4 8.--20. 1. "RESERVED,Reserved bits return 0" rbitfld.long 0x4 6.--7. "VBUSM_PRIV,These two bits show the currently state of the priv bits" "0,1,2,3" rbitfld.long 0x4 5. "VBUSM_SECURE,This bit shows the currently active state of the VBUSM secure bit" "0,1" newline rbitfld.long 0x4 4. "VBUSM_DEBUG,This is the currently active state of the VBUSM emudbg bit" "0,1" bitfld.long 0x4 2.--3. "CTL_PRIV,These two bits determine the priviledge type for VBUSM accesses unless overridden by the DOM input [0 is user level privilege 1 is supervisor level privilege 2 is hypervisor level privilege and 3 is reserved]" "0,1,2,3" bitfld.long 0x4 1. "CTL_SECURE,When set [and DOM permits it] the VBUSM accesses will have the secure bit set" "0,1" bitfld.long 0x4 0. "EMUDBG,Sets the emudbg bit during access to make the debug or non-debug" "0,1" line.long 0x8 "DRM_CFG_0_DAP_TIMEOUT,This register is used to set the maximum wait time for the DAP to complete a memory access." hexmask.long 0x8 0.--31. 1. "DAP_TIMEOUT_REGISTER," line.long 0xC "DRM_CFG_0_CONFIG,This register adds softreset capability to the suspend module." hexmask.long 0xC 1.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0xC 0. "SOFTRESET,Software controlled reset of the DRM" "0,1" line.long 0x10 "DRM_CFG_0_EMUTRIGEN,This register is used to enable EMU triggers." hexmask.long 0x10 2.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x10 1. "EMU1TRIGEN,EMU 1 Trigger En" "0,1" bitfld.long 0x10 0. "EMU0TRIGEN,EMU 0 Trigger En" "0,1" line.long 0x14 "DRM_CFG_0_BINVALLO,Reading this register returns the lower 32 bits of the binary debug time." hexmask.long 0x14 0.--31. 1. "DTG_BINARY_TIME_LOW," rgroup.long 0x24++0x3 line.long 0x0 "DRM_CFG_0_BINVALHI,Reading this register returns the upper 16 bits of the binary debug time and causes the lower 32 bits to be latched." hexmask.long.word 0x0 16.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.word 0x0 0.--14. 1. "BINTIMEHI,Upper 16 bits of the timer" group.long 0x200++0x7F line.long 0x0 "DRM_CFG_0_SUSPEND_REG0,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. There can be upto 128 of these registers (See.." hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED1,Reserved returns 0" hexmask.long.byte 0x0 4.--8. 1. "SELECT,Selects which suspend control line [1-32] goes to the peripheral" rbitfld.long 0x0 1.--3. "RESERVED0,Reserved returns 0" "0,1,2,3,4,5,6,7" bitfld.long 0x0 0. "SUSPEND_CTL,When 1 the peripheral is sensitive to the suspend signal when 0 it ignore it" "0,1" line.long 0x4 "DRM_CFG_0_SUSPEND_REG1,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x4 0.--31. 1. "SUSPEND_REG_1,See Suspend Reg 0 for field information" line.long 0x8 "DRM_CFG_0_SUSPEND_REG2,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x8 0.--31. 1. "SUSPEND_REG_2,See Suspend Reg 0 for field information" line.long 0xC "DRM_CFG_0_SUSPEND_REG3,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0xC 0.--31. 1. "SUSPEND_REG_3,See Suspend Reg 0 for field information" line.long 0x10 "DRM_CFG_0_SUSPEND_REG4,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x10 0.--31. 1. "SUSPEND_REG_4,See Suspend Reg 0 for field information" line.long 0x14 "DRM_CFG_0_SUSPEND_REG5,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x14 0.--31. 1. "SUSPEND_REG_5,See Suspend Reg 0 for field information" line.long 0x18 "DRM_CFG_0_SUSPEND_REG6,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x18 0.--31. 1. "SUSPEND_REG_6,See Suspend Reg 0 for field information" line.long 0x1C "DRM_CFG_0_SUSPEND_REG7,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x1C 0.--31. 1. "SUSPEND_REG_7,See Suspend Reg 0 for field information" line.long 0x20 "DRM_CFG_0_SUSPEND_REG8,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x20 0.--31. 1. "SUSPEND_REG_8,See Suspend Reg 0 for field information" line.long 0x24 "DRM_CFG_0_SUSPEND_REG9,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x24 0.--31. 1. "SUSPEND_REG_9,See Suspend Reg 0 for field information" line.long 0x28 "DRM_CFG_0_SUSPEND_REG10,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x28 0.--31. 1. "SUSPEND_REG_10,See Suspend Reg 0 for field information" line.long 0x2C "DRM_CFG_0_SUSPEND_REG11,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x2C 0.--31. 1. "SUSPEND_REG_11,See Suspend Reg 0 for field information" line.long 0x30 "DRM_CFG_0_SUSPEND_REG12,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x30 0.--31. 1. "SUSPEND_REG_12,See Suspend Reg 0 for field information" line.long 0x34 "DRM_CFG_0_SUSPEND_REG13,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x34 0.--31. 1. "SUSPEND_REG_13,See Suspend Reg 0 for field information" line.long 0x38 "DRM_CFG_0_SUSPEND_REG14,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x38 0.--31. 1. "SUSPEND_REG_14,See Suspend Reg 0 for field information" line.long 0x3C "DRM_CFG_0_SUSPEND_REG15,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x3C 0.--31. 1. "SUSPEND_REG_15,See Suspend Reg 0 for field information" line.long 0x40 "DRM_CFG_0_SUSPEND_REG16,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x40 0.--31. 1. "SUSPEND_REG_16,See Suspend Reg 0 for field information" line.long 0x44 "DRM_CFG_0_SUSPEND_REG17,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x44 0.--31. 1. "SUSPEND_REG_17,See Suspend Reg 0 for field information" line.long 0x48 "DRM_CFG_0_SUSPEND_REG18,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x48 0.--31. 1. "SUSPEND_REG_18,See Suspend Reg 0 for field information" line.long 0x4C "DRM_CFG_0_SUSPEND_REG19,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x4C 0.--31. 1. "SUSPEND_REG_19,See Suspend Reg 0 for field information" line.long 0x50 "DRM_CFG_0_SUSPEND_REG20,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x50 0.--31. 1. "SUSPEND_REG_20,See Suspend Reg 0 for field information" line.long 0x54 "DRM_CFG_0_SUSPEND_REG21,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x54 0.--31. 1. "SUSPEND_REG_21,See Suspend Reg 0 for field information" line.long 0x58 "DRM_CFG_0_SUSPEND_REG22,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x58 0.--31. 1. "SUSPEND_REG_22,See Suspend Reg 0 for field information" line.long 0x5C "DRM_CFG_0_SUSPEND_REG23,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x5C 0.--31. 1. "SUSPEND_REG_23,See Suspend Reg 0 for field information" line.long 0x60 "DRM_CFG_0_SUSPEND_REG24,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x60 0.--31. 1. "SUSPEND_REG_24,See Suspend Reg 0 for field information" line.long 0x64 "DRM_CFG_0_SUSPEND_REG25,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x64 0.--31. 1. "SUSPEND_REG_25,See Suspend Reg 0 for field information" line.long 0x68 "DRM_CFG_0_SUSPEND_REG26,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x68 0.--31. 1. "SUSPEND_REG_26,See Suspend Reg 0 for field information" line.long 0x6C "DRM_CFG_0_SUSPEND_REG27,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x6C 0.--31. 1. "SUSPEND_REG_27,See Suspend Reg 0 for field information" line.long 0x70 "DRM_CFG_0_SUSPEND_REG28,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x70 0.--31. 1. "SUSPEND_REG_28,See Suspend Reg 0 for field information" line.long 0x74 "DRM_CFG_0_SUSPEND_REG29,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x74 0.--31. 1. "SUSPEND_REG_29,See Suspend Reg 0 for field information" line.long 0x78 "DRM_CFG_0_SUSPEND_REG30,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x78 0.--31. 1. "SUSPEND_REG_30,See Suspend Reg 0 for field information" line.long 0x7C "DRM_CFG_0_SUSPEND_REG31,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x7C 0.--31. 1. "SUSPEND_REG_31,See Suspend Reg 0 for field information" tree.end tree "DEBUGSS_WRAP0_DRM1 (DEBUGSS_WRAP0_DRM1)" base ad:0x760002000 rgroup.long 0x0++0xB line.long 0x0 "DRM_CFG_1_PERIPH_ID,This register is used to determine what the functionality of this peripheral is." bitfld.long 0x0 30.--31. "SCHEME,Peripheral ID Scheme [0]" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Reserved returns 0" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION,DRM Function ID [0x211]" hexmask.long.byte 0x0 11.--15. 1. "RTLREV,RTL Revision [0]" newline bitfld.long 0x0 8.--10. "MAJOR,Major Peripheral Revision [0]" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custon Peripheral ID version [0]" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor Peripheral Revision [0]" line.long 0x4 "DRM_CFG_1_VERSION,This register is used to enable the Time Generator. For application access. the DTG must be unlocked first." hexmask.long.word 0x4 16.--31. 1. "MAJOR_VERSION,Contains the major version value [1]" hexmask.long.word 0x4 0.--15. 1. "MINOR_VERSION,Contains the minor version value [0]" line.long 0x8 "DRM_CFG_1_CAPABILITY,This register can be read to determine the number of suspend signals and number of peripherals." hexmask.long.tbyte 0x8 14.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x8 8.--13. 1. "NUM_SUSPENDS,Contains the number of Suspend signals supported max of 32 There should be one signal per processor This value is set by a parameter at synthesis time" hexmask.long.byte 0x8 0.--7. 1. "NUM_PERIPHERALS,Contains the number of peripherals supported max of 128 This affects the number of SUSPEND_REG registers This is set by a parameter during synthesis" group.long 0xC++0x17 line.long 0x0 "DRM_CFG_1_TRACE_CTRL,This register is used to set the trace sampling mode to center(1) or edge(0)." hexmask.long 0x0 1.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 0. "CENTER_SAMPLING,Sets trace to center sampled" "0,1" line.long 0x4 "DRM_CFG_1_VBUSM_CTRL,This register is used to set attributes on the VBUSM memory accesses and to read the Debug Operating Mode" hexmask.long.word 0x4 21.--31. 1. "DOM_INPUT,This returns the DOM security input The upper 3 bits are the debug operating mode and the lower 8 bits are the priviledge ID for VBUSM transaction" hexmask.long.word 0x4 8.--20. 1. "RESERVED,Reserved bits return 0" rbitfld.long 0x4 6.--7. "VBUSM_PRIV,These two bits show the currently state of the priv bits" "0,1,2,3" rbitfld.long 0x4 5. "VBUSM_SECURE,This bit shows the currently active state of the VBUSM secure bit" "0,1" newline rbitfld.long 0x4 4. "VBUSM_DEBUG,This is the currently active state of the VBUSM emudbg bit" "0,1" bitfld.long 0x4 2.--3. "CTL_PRIV,These two bits determine the priviledge type for VBUSM accesses unless overridden by the DOM input [0 is user level privilege 1 is supervisor level privilege 2 is hypervisor level privilege and 3 is reserved]" "0,1,2,3" bitfld.long 0x4 1. "CTL_SECURE,When set [and DOM permits it] the VBUSM accesses will have the secure bit set" "0,1" bitfld.long 0x4 0. "EMUDBG,Sets the emudbg bit during access to make the debug or non-debug" "0,1" line.long 0x8 "DRM_CFG_1_DAP_TIMEOUT,This register is used to set the maximum wait time for the DAP to complete a memory access." hexmask.long 0x8 0.--31. 1. "DAP_TIMEOUT_REGISTER," line.long 0xC "DRM_CFG_1_CONFIG,This register adds softreset capability to the suspend module." hexmask.long 0xC 1.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0xC 0. "SOFTRESET,Software controlled reset of the DRM" "0,1" line.long 0x10 "DRM_CFG_1_EMUTRIGEN,This register is used to enable EMU triggers." hexmask.long 0x10 2.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x10 1. "EMU1TRIGEN,EMU 1 Trigger En" "0,1" bitfld.long 0x10 0. "EMU0TRIGEN,EMU 0 Trigger En" "0,1" line.long 0x14 "DRM_CFG_1_BINVALLO,Reading this register returns the lower 32 bits of the binary debug time." hexmask.long 0x14 0.--31. 1. "DTG_BINARY_TIME_LOW," rgroup.long 0x24++0x3 line.long 0x0 "DRM_CFG_1_BINVALHI,Reading this register returns the upper 16 bits of the binary debug time and causes the lower 32 bits to be latched." hexmask.long.word 0x0 16.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.word 0x0 0.--14. 1. "BINTIMEHI,Upper 16 bits of the timer" group.long 0x200++0x7F line.long 0x0 "DRM_CFG_1_SUSPEND_REG0,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. There can be upto 128 of these registers (See.." hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED1,Reserved returns 0" hexmask.long.byte 0x0 4.--8. 1. "SELECT,Selects which suspend control line [1-32] goes to the peripheral" rbitfld.long 0x0 1.--3. "RESERVED0,Reserved returns 0" "0,1,2,3,4,5,6,7" bitfld.long 0x0 0. "SUSPEND_CTL,When 1 the peripheral is sensitive to the suspend signal when 0 it ignore it" "0,1" line.long 0x4 "DRM_CFG_1_SUSPEND_REG1,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x4 0.--31. 1. "SUSPEND_REG_1,See Suspend Reg 0 for field information" line.long 0x8 "DRM_CFG_1_SUSPEND_REG2,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x8 0.--31. 1. "SUSPEND_REG_2,See Suspend Reg 0 for field information" line.long 0xC "DRM_CFG_1_SUSPEND_REG3,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0xC 0.--31. 1. "SUSPEND_REG_3,See Suspend Reg 0 for field information" line.long 0x10 "DRM_CFG_1_SUSPEND_REG4,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x10 0.--31. 1. "SUSPEND_REG_4,See Suspend Reg 0 for field information" line.long 0x14 "DRM_CFG_1_SUSPEND_REG5,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x14 0.--31. 1. "SUSPEND_REG_5,See Suspend Reg 0 for field information" line.long 0x18 "DRM_CFG_1_SUSPEND_REG6,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x18 0.--31. 1. "SUSPEND_REG_6,See Suspend Reg 0 for field information" line.long 0x1C "DRM_CFG_1_SUSPEND_REG7,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x1C 0.--31. 1. "SUSPEND_REG_7,See Suspend Reg 0 for field information" line.long 0x20 "DRM_CFG_1_SUSPEND_REG8,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x20 0.--31. 1. "SUSPEND_REG_8,See Suspend Reg 0 for field information" line.long 0x24 "DRM_CFG_1_SUSPEND_REG9,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x24 0.--31. 1. "SUSPEND_REG_9,See Suspend Reg 0 for field information" line.long 0x28 "DRM_CFG_1_SUSPEND_REG10,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x28 0.--31. 1. "SUSPEND_REG_10,See Suspend Reg 0 for field information" line.long 0x2C "DRM_CFG_1_SUSPEND_REG11,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x2C 0.--31. 1. "SUSPEND_REG_11,See Suspend Reg 0 for field information" line.long 0x30 "DRM_CFG_1_SUSPEND_REG12,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x30 0.--31. 1. "SUSPEND_REG_12,See Suspend Reg 0 for field information" line.long 0x34 "DRM_CFG_1_SUSPEND_REG13,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x34 0.--31. 1. "SUSPEND_REG_13,See Suspend Reg 0 for field information" line.long 0x38 "DRM_CFG_1_SUSPEND_REG14,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x38 0.--31. 1. "SUSPEND_REG_14,See Suspend Reg 0 for field information" line.long 0x3C "DRM_CFG_1_SUSPEND_REG15,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x3C 0.--31. 1. "SUSPEND_REG_15,See Suspend Reg 0 for field information" line.long 0x40 "DRM_CFG_1_SUSPEND_REG16,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x40 0.--31. 1. "SUSPEND_REG_16,See Suspend Reg 0 for field information" line.long 0x44 "DRM_CFG_1_SUSPEND_REG17,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x44 0.--31. 1. "SUSPEND_REG_17,See Suspend Reg 0 for field information" line.long 0x48 "DRM_CFG_1_SUSPEND_REG18,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x48 0.--31. 1. "SUSPEND_REG_18,See Suspend Reg 0 for field information" line.long 0x4C "DRM_CFG_1_SUSPEND_REG19,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x4C 0.--31. 1. "SUSPEND_REG_19,See Suspend Reg 0 for field information" line.long 0x50 "DRM_CFG_1_SUSPEND_REG20,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x50 0.--31. 1. "SUSPEND_REG_20,See Suspend Reg 0 for field information" line.long 0x54 "DRM_CFG_1_SUSPEND_REG21,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x54 0.--31. 1. "SUSPEND_REG_21,See Suspend Reg 0 for field information" line.long 0x58 "DRM_CFG_1_SUSPEND_REG22,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x58 0.--31. 1. "SUSPEND_REG_22,See Suspend Reg 0 for field information" line.long 0x5C "DRM_CFG_1_SUSPEND_REG23,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x5C 0.--31. 1. "SUSPEND_REG_23,See Suspend Reg 0 for field information" line.long 0x60 "DRM_CFG_1_SUSPEND_REG24,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x60 0.--31. 1. "SUSPEND_REG_24,See Suspend Reg 0 for field information" line.long 0x64 "DRM_CFG_1_SUSPEND_REG25,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x64 0.--31. 1. "SUSPEND_REG_25,See Suspend Reg 0 for field information" line.long 0x68 "DRM_CFG_1_SUSPEND_REG26,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x68 0.--31. 1. "SUSPEND_REG_26,See Suspend Reg 0 for field information" line.long 0x6C "DRM_CFG_1_SUSPEND_REG27,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x6C 0.--31. 1. "SUSPEND_REG_27,See Suspend Reg 0 for field information" line.long 0x70 "DRM_CFG_1_SUSPEND_REG28,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x70 0.--31. 1. "SUSPEND_REG_28,See Suspend Reg 0 for field information" line.long 0x74 "DRM_CFG_1_SUSPEND_REG29,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x74 0.--31. 1. "SUSPEND_REG_29,See Suspend Reg 0 for field information" line.long 0x78 "DRM_CFG_1_SUSPEND_REG30,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x78 0.--31. 1. "SUSPEND_REG_30,See Suspend Reg 0 for field information" line.long 0x7C "DRM_CFG_1_SUSPEND_REG31,The DRM Suspend Registers merge the emulation suspend signals sent by various processors. when it wishes to suspend the activity of connected peripherals during debugging. See Suspend Reg 0 for details" hexmask.long 0x7C 0.--31. 1. "SUSPEND_REG_31,See Suspend Reg 0 for field information" tree.end tree "DEBUGSS_WRAP0_JTAGAP0 (DEBUGSS_WRAP0_JTAGAP0)" base ad:0x700002500 group.long 0x0++0xB line.long 0x0 "JTAGAP_CFG_0_CSW,This register provides control and status information" rbitfld.long 0x0 31. "SERACTV,JTAG Serializer active" "0,1" rbitfld.long 0x0 28.--30. "WFIFOCNT,Outstanding Write FIFO Byte Count" "0,1,2,3,4,5,6,7" rbitfld.long 0x0 27. "RSV27,Reserved returns 0" "0,1" newline rbitfld.long 0x0 24.--26. "RFIFOCNT,Outstanding Read FIFO Byte Count" "0,1,2,3,4,5,6,7" hexmask.long.tbyte 0x0 4.--23. 1. "RESERVED,Reserved returns 0" rbitfld.long 0x0 3. "PORT_CONNECTED_STATUS,Reading this returns the Port connected status of the selected port" "0,1" newline rbitfld.long 0x0 2. "SRST_STATUS,Reading this returns the SRST status of the selected port If multiple ports are selected it is the AND of all the SRSTCONNECTED inputs from the selected ports" "0,1" bitfld.long 0x0 1. "TRST_ASSERT,Writing a 1 causes TRST to be asserted" "0,1" bitfld.long 0x0 0. "SRST_ASSERT,Writing a 1 causes SRST to be asserted" "0,1" line.long 0x4 "JTAGAP_CFG_0_PSEL_REG,This 8-bit register is used to select the JTAG port." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,read as 0" hexmask.long.byte 0x4 0.--7. 1. "PORT_SELECT_REGISTER," line.long 0x8 "JTAGAP_CFG_0_PSTA_REG,A bit value of 1 indicates that a selected and enabled port has gone inactive. These bits are sticky. Writing a 1 to them clears them." hexmask.long 0x8 0.--31. 1. "PORT_STATUS_REGISTER," group.long 0x10++0xF line.long 0x0 "JTAGAP_CFG_0_BYTEFIFO1,Reading this location reads a byte from the FIFO. Writing it loads a byte into the FIFO." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," hexmask.long.byte 0x0 0.--7. 1. "BYTE_FIFO_1," line.long 0x4 "JTAGAP_CFG_0_BYTEFIFO2,Reading this location reads a 16 bits from the FIFO. Writing it loads 16 bits into the FIFO." hexmask.long.word 0x4 16.--31. 1. "RESERVED," hexmask.long.word 0x4 0.--15. 1. "BYTE_FIFO_2," line.long 0x8 "JTAGAP_CFG_0_BYTEFIFO3,Reading this location reads a 24 bits from the FIFO. Writing it loads 24 bits into the FIFO." hexmask.long.byte 0x8 24.--31. 1. "RESERVED," hexmask.long.tbyte 0x8 0.--23. 1. "BYTE_FIFO_3," line.long 0xC "JTAGAP_CFG_0_BYTEFIFO4,Reading this location reads a 32 bits from the FIFO. Writing it loads 32 bits into the FIFO." hexmask.long 0xC 0.--31. 1. "BYTE_FIFO_4," rgroup.long 0xFC++0x3 line.long 0x0 "JTAGAP_CFG_0_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x0 28.--31. 1. "REVISION,Device Revision [1]" hexmask.long.word 0x0 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x0 16. "CLASS,Device Class[0] [not a memory access port]" "0,1" newline hexmask.long.byte 0x0 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x0 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x0 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [0]" tree.end tree "DEBUGSS_WRAP0_JTAGAP1 (DEBUGSS_WRAP0_JTAGAP1)" base ad:0x740002500 group.long 0x0++0xB line.long 0x0 "JTAGAP_CFG_1_CSW,This register provides control and status information" rbitfld.long 0x0 31. "SERACTV,JTAG Serializer active" "0,1" rbitfld.long 0x0 28.--30. "WFIFOCNT,Outstanding Write FIFO Byte Count" "0,1,2,3,4,5,6,7" rbitfld.long 0x0 27. "RSV27,Reserved returns 0" "0,1" newline rbitfld.long 0x0 24.--26. "RFIFOCNT,Outstanding Read FIFO Byte Count" "0,1,2,3,4,5,6,7" hexmask.long.tbyte 0x0 4.--23. 1. "RESERVED,Reserved returns 0" rbitfld.long 0x0 3. "PORT_CONNECTED_STATUS,Reading this returns the Port connected status of the selected port" "0,1" newline rbitfld.long 0x0 2. "SRST_STATUS,Reading this returns the SRST status of the selected port If multiple ports are selected it is the AND of all the SRSTCONNECTED inputs from the selected ports" "0,1" bitfld.long 0x0 1. "TRST_ASSERT,Writing a 1 causes TRST to be asserted" "0,1" bitfld.long 0x0 0. "SRST_ASSERT,Writing a 1 causes SRST to be asserted" "0,1" line.long 0x4 "JTAGAP_CFG_1_PSEL_REG,This 8-bit register is used to select the JTAG port." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,read as 0" hexmask.long.byte 0x4 0.--7. 1. "PORT_SELECT_REGISTER," line.long 0x8 "JTAGAP_CFG_1_PSTA_REG,A bit value of 1 indicates that a selected and enabled port has gone inactive. These bits are sticky. Writing a 1 to them clears them." hexmask.long 0x8 0.--31. 1. "PORT_STATUS_REGISTER," group.long 0x10++0xF line.long 0x0 "JTAGAP_CFG_1_BYTEFIFO1,Reading this location reads a byte from the FIFO. Writing it loads a byte into the FIFO." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," hexmask.long.byte 0x0 0.--7. 1. "BYTE_FIFO_1," line.long 0x4 "JTAGAP_CFG_1_BYTEFIFO2,Reading this location reads a 16 bits from the FIFO. Writing it loads 16 bits into the FIFO." hexmask.long.word 0x4 16.--31. 1. "RESERVED," hexmask.long.word 0x4 0.--15. 1. "BYTE_FIFO_2," line.long 0x8 "JTAGAP_CFG_1_BYTEFIFO3,Reading this location reads a 24 bits from the FIFO. Writing it loads 24 bits into the FIFO." hexmask.long.byte 0x8 24.--31. 1. "RESERVED," hexmask.long.tbyte 0x8 0.--23. 1. "BYTE_FIFO_3," line.long 0xC "JTAGAP_CFG_1_BYTEFIFO4,Reading this location reads a 32 bits from the FIFO. Writing it loads 32 bits into the FIFO." hexmask.long 0xC 0.--31. 1. "BYTE_FIFO_4," rgroup.long 0xFC++0x3 line.long 0x0 "JTAGAP_CFG_1_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x0 28.--31. 1. "REVISION,Device Revision [1]" hexmask.long.word 0x0 17.--27. 1. "JEP_CODE,Device JEP Code [0x23B]" bitfld.long 0x0 16. "CLASS,Device Class[0] [not a memory access port]" "0,1" newline hexmask.long.byte 0x0 8.--15. 1. "SPARE,Spare returns 0" hexmask.long.byte 0x0 4.--7. 1. "VARIANT,Device Variant [1]" hexmask.long.byte 0x0 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [0]" tree.end tree "DEBUGSS_WRAP0_PVIEW0 (DEBUGSS_WRAP0_PVIEW0)" base ad:0x700002400 rgroup.long 0x0++0x3 line.long 0x0 "PVIEW_CFG_0_PVIEW_STATE0,This register provides the device specific power status. A read of Power View State Register will lock the values for all other Power View State Registers. A read from the last Power View State register will unlock them so they.." hexmask.long 0x0 0.--31. 1. "POWER_VIEW_STATE_REG0," rgroup.long 0xF0++0x3 line.long 0x0 "PVIEW_CFG_0_PVIEW_CAPABILITY,The Capability Register provides information on the number of Power State registers implemented in the AP" hexmask.long 0x0 6.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--5. 1. "NUMSTATREG,The value read indicates the number of valid Power State Registers that are implemented in the system The maximum number is 60 and the minimum number is 1 The registers are always implemented at contiguous addresses so a value of 7 means that.." rgroup.long 0xFC++0x3 line.long 0x0 "PVIEW_CFG_0_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x0 28.--31. 1. "REVISION,Device Revision [0]" hexmask.long.word 0x0 17.--27. 1. "JEP_CODE,Device JEP Code [0x017]" bitfld.long 0x0 16. "CLASS,Device Class[0] [not a memory access port]" "0,1" hexmask.long.byte 0x0 8.--15. 1. "SPARE,Spare returns 0" newline hexmask.long.byte 0x0 4.--7. 1. "VARIANT,Device Variant [0]" hexmask.long.byte 0x0 0.--3. 1. "TYPE,Device Type = 3" tree.end tree "DEBUGSS_WRAP0_PVIEW1 (DEBUGSS_WRAP0_PVIEW1)" base ad:0x740002400 rgroup.long 0x0++0x3 line.long 0x0 "PVIEW_CFG_1_PVIEW_STATE0,This register provides the device specific power status. A read of Power View State Register will lock the values for all other Power View State Registers. A read from the last Power View State register will unlock them so they.." hexmask.long 0x0 0.--31. 1. "POWER_VIEW_STATE_REG0," rgroup.long 0xF0++0x3 line.long 0x0 "PVIEW_CFG_1_PVIEW_CAPABILITY,The Capability Register provides information on the number of Power State registers implemented in the AP" hexmask.long 0x0 6.--31. 1. "RESERVED,Reserved returns 0" hexmask.long.byte 0x0 0.--5. 1. "NUMSTATREG,The value read indicates the number of valid Power State Registers that are implemented in the system The maximum number is 60 and the minimum number is 1 The registers are always implemented at contiguous addresses so a value of 7 means that.." rgroup.long 0xFC++0x3 line.long 0x0 "PVIEW_CFG_1_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x0 28.--31. 1. "REVISION,Device Revision [0]" hexmask.long.word 0x0 17.--27. 1. "JEP_CODE,Device JEP Code [0x017]" bitfld.long 0x0 16. "CLASS,Device Class[0] [not a memory access port]" "0,1" hexmask.long.byte 0x0 8.--15. 1. "SPARE,Spare returns 0" newline hexmask.long.byte 0x0 4.--7. 1. "VARIANT,Device Variant [0]" hexmask.long.byte 0x0 0.--3. 1. "TYPE,Device Type = 3" tree.end tree "DEBUGSS_WRAP0_PWRAP0 (DEBUGSS_WRAP0_PWRAP0)" base ad:0x700002300 group.long 0x0++0x7F line.long 0x0 "PWRAP_CFG_0_CORE_PRECREG0,These registers are used to control functionality of CPUs without JTAG ports. There can be upto 32 of these registers" hexmask.long.byte 0x0 24.--31. 1. "RESERVED,Reserved returns 0" rbitfld.long 0x0 23. "RETENTION,Core is in retention mode" "0,1" bitfld.long 0x0 22. "RST_OCCURED,Sticky bit indicating a reset has occured Write 1 to clear this bit" "0,1" bitfld.long 0x0 21. "PWR_LOSS_DET,Power Loss Detected Sticky bit write a 1 to clear this bit" "0,1" newline bitfld.long 0x0 20. "INHIBIT_SLEEP,Inhinit Sleep Block core from entering sleep mode" "0,1" bitfld.long 0x0 19. "DEBUG_POWER,Core debug logic is powered" "0,1" rbitfld.long 0x0 18. "UNNAT_RESET,Unnatural Reset Device reset state is being affected by debug logic" "0,1" bitfld.long 0x0 17. "IN_RESET_RLS_WIR,Writing a 1 releases the WIR When read this returns the reset status 1 indicates core is in reset" "0,1" newline bitfld.long 0x0 14.--16. "RESET_MODE,Reset Mode 0=normal 1=WIR 2=Blk Rst 3=Blk Assert 4=Halt on Rst 5=Cancel 6=Halt and Block 7=Halt-Blk-assert" "0: normal,1: WIR,2: Blk Rst,3: Blk Assert,4: Halt on Rst,5: Cancel,6: Halt and Block,7: Halt-Blk-assert" bitfld.long 0x0 13. "DEBUG_ENABLE,Debug Enabled signal to the core" "0,1" rbitfld.long 0x0 11.--12. "RSV11_12,Reserved return 0" "0,1,2,3" bitfld.long 0x0 10. "EXEC_ACTION_DEBUG_ATTEN,Writing this bit causes Execution Read will return the Debug Attention input value" "0,1" newline rbitfld.long 0x0 8.--9. "RSV8_9,Reserved returns 0 when read" "0,1,2,3" rbitfld.long 0x0 7. "PWRDOWNDSRD,The core wants to turn off it's power when high" "0,1" rbitfld.long 0x0 6. "RSV6,Reserved returns 0 when read" "0,1" rbitfld.long 0x0 5. "POWERED,Core is powered up when high" "0,1" newline rbitfld.long 0x0 4. "CLKDOWNDSRD,The core wants to turn off it's clock when high" "0,1" bitfld.long 0x0 3. "FORCE_ACTIVE,Force core active Turn on power and clocks" "0,1" rbitfld.long 0x0 2. "CLOCKED,When high the core clock is active" "0,1" rbitfld.long 0x0 1. "SECURITY,Security bit When high security is allowing access" "0,1" newline rbitfld.long 0x0 0. "PRESENT,The core controlled by this register exists when 1" "0,1" line.long 0x4 "PWRAP_CFG_0_CORE_PRECREG1,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x8 "PWRAP_CFG_0_CORE_PRECREG2,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0xC "PWRAP_CFG_0_CORE_PRECREG3,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x10 "PWRAP_CFG_0_CORE_PRECREG4,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x14 "PWRAP_CFG_0_CORE_PRECREG5,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x18 "PWRAP_CFG_0_CORE_PRECREG6,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x1C "PWRAP_CFG_0_CORE_PRECREG7,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x20 "PWRAP_CFG_0_CORE_PRECREG8,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x24 "PWRAP_CFG_0_CORE_PRECREG9,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x28 "PWRAP_CFG_0_CORE_PRECREG10,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x2C "PWRAP_CFG_0_CORE_PRECREG11,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x30 "PWRAP_CFG_0_CORE_PRECREG12,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x34 "PWRAP_CFG_0_CORE_PRECREG13,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x38 "PWRAP_CFG_0_CORE_PRECREG14,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x3C "PWRAP_CFG_0_CORE_PRECREG15,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x40 "PWRAP_CFG_0_CORE_PRECREG16,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x44 "PWRAP_CFG_0_CORE_PRECREG17,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x48 "PWRAP_CFG_0_CORE_PRECREG18,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x4C "PWRAP_CFG_0_CORE_PRECREG19,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x50 "PWRAP_CFG_0_CORE_PRECREG20,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x54 "PWRAP_CFG_0_CORE_PRECREG21,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x58 "PWRAP_CFG_0_CORE_PRECREG22,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x5C "PWRAP_CFG_0_CORE_PRECREG23,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x60 "PWRAP_CFG_0_CORE_PRECREG24,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x64 "PWRAP_CFG_0_CORE_PRECREG25,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x68 "PWRAP_CFG_0_CORE_PRECREG26,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x6C "PWRAP_CFG_0_CORE_PRECREG27,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x70 "PWRAP_CFG_0_CORE_PRECREG28,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x74 "PWRAP_CFG_0_CORE_PRECREG29,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x78 "PWRAP_CFG_0_CORE_PRECREG30,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x7C "PWRAP_CFG_0_CORE_PRECREG31,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" group.long 0xF0++0x3 line.long 0x0 "PWRAP_CFG_0_SYS_PRECREG,This register is used to control system level functionality" hexmask.long.word 0x0 21.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 20. "DBGCON_WE,This bit must be high to write to the debug connect field" "0,1" hexmask.long.byte 0x0 16.--19. 1. "DBGCON,The system debugger must write a value of 0x9 to be connected and access the debug logic" rbitfld.long 0x0 15. "UNNAT_RESET,Unnatural Reset Device reset state is being affected by debug logic" "0,1" newline bitfld.long 0x0 14. "RST_OCCURED,Sticky bit indicating a reset has occured Write 1 to clear this bit" "0,1" rbitfld.long 0x0 13. "SYSTEM_STAT,System Status input application specificall" "0,1" rbitfld.long 0x0 12. "RSV12_BIT,Reserved read returns 0" "0,1" rbitfld.long 0x0 11. "GLOB_EXEC_TRIG," "0,1" newline bitfld.long 0x0 10. "CLR_EX_FLAGS,Clear all run flags" "0,1" bitfld.long 0x0 9. "GLOB_EXEC_MSK,Global Execute Mask" "0,1" bitfld.long 0x0 8. "IN_RESET_RLS_WIR,Writing a 1 releases the global WIR When read this returns the in reset status" "0,1" bitfld.long 0x0 7. "WIR_REQ,Wait In Reset Request" "0,1" newline bitfld.long 0x0 6. "BLK_SYS_RST,Block System Reset" "0,1" rbitfld.long 0x0 4.--5. "RESERVED0,Reserved0 returns 0" "0,1,2,3" rbitfld.long 0x0 1.--3. "DEV_TYPE,Device Type tieoff value Test emulator secure etc" "0,1,2,3,4,5,6,7" bitfld.long 0x0 0. "SYS_RST_REQ,System Reset Request This bit will be reset once reset occurs" "0,1" rgroup.long 0xFC++0x3 line.long 0x0 "PWRAP_CFG_0_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x0 28.--31. 1. "REVISION,Device Revision [0]" hexmask.long.word 0x0 17.--27. 1. "JEP_CODE,Device JEP Code [0x017]" bitfld.long 0x0 16. "CLASS,Device Class[1] [a memory access port]" "0,1" hexmask.long.byte 0x0 8.--15. 1. "SPARE,Spare returns 0" newline hexmask.long.byte 0x0 4.--7. 1. "VARIANT,Device Variant [0]" hexmask.long.byte 0x0 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [2]" tree.end tree "DEBUGSS_WRAP0_PWRAP1 (DEBUGSS_WRAP0_PWRAP1)" base ad:0x740002300 group.long 0x0++0x7F line.long 0x0 "PWRAP_CFG_1_CORE_PRECREG0,These registers are used to control functionality of CPUs without JTAG ports. There can be upto 32 of these registers" hexmask.long.byte 0x0 24.--31. 1. "RESERVED,Reserved returns 0" rbitfld.long 0x0 23. "RETENTION,Core is in retention mode" "0,1" bitfld.long 0x0 22. "RST_OCCURED,Sticky bit indicating a reset has occured Write 1 to clear this bit" "0,1" bitfld.long 0x0 21. "PWR_LOSS_DET,Power Loss Detected Sticky bit write a 1 to clear this bit" "0,1" newline bitfld.long 0x0 20. "INHIBIT_SLEEP,Inhinit Sleep Block core from entering sleep mode" "0,1" bitfld.long 0x0 19. "DEBUG_POWER,Core debug logic is powered" "0,1" rbitfld.long 0x0 18. "UNNAT_RESET,Unnatural Reset Device reset state is being affected by debug logic" "0,1" bitfld.long 0x0 17. "IN_RESET_RLS_WIR,Writing a 1 releases the WIR When read this returns the reset status 1 indicates core is in reset" "0,1" newline bitfld.long 0x0 14.--16. "RESET_MODE,Reset Mode 0=normal 1=WIR 2=Blk Rst 3=Blk Assert 4=Halt on Rst 5=Cancel 6=Halt and Block 7=Halt-Blk-assert" "0: normal,1: WIR,2: Blk Rst,3: Blk Assert,4: Halt on Rst,5: Cancel,6: Halt and Block,7: Halt-Blk-assert" bitfld.long 0x0 13. "DEBUG_ENABLE,Debug Enabled signal to the core" "0,1" rbitfld.long 0x0 11.--12. "RSV11_12,Reserved return 0" "0,1,2,3" bitfld.long 0x0 10. "EXEC_ACTION_DEBUG_ATTEN,Writing this bit causes Execution Read will return the Debug Attention input value" "0,1" newline rbitfld.long 0x0 8.--9. "RSV8_9,Reserved returns 0 when read" "0,1,2,3" rbitfld.long 0x0 7. "PWRDOWNDSRD,The core wants to turn off it's power when high" "0,1" rbitfld.long 0x0 6. "RSV6,Reserved returns 0 when read" "0,1" rbitfld.long 0x0 5. "POWERED,Core is powered up when high" "0,1" newline rbitfld.long 0x0 4. "CLKDOWNDSRD,The core wants to turn off it's clock when high" "0,1" bitfld.long 0x0 3. "FORCE_ACTIVE,Force core active Turn on power and clocks" "0,1" rbitfld.long 0x0 2. "CLOCKED,When high the core clock is active" "0,1" rbitfld.long 0x0 1. "SECURITY,Security bit When high security is allowing access" "0,1" newline rbitfld.long 0x0 0. "PRESENT,The core controlled by this register exists when 1" "0,1" line.long 0x4 "PWRAP_CFG_1_CORE_PRECREG1,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x8 "PWRAP_CFG_1_CORE_PRECREG2,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0xC "PWRAP_CFG_1_CORE_PRECREG3,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x10 "PWRAP_CFG_1_CORE_PRECREG4,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x14 "PWRAP_CFG_1_CORE_PRECREG5,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x18 "PWRAP_CFG_1_CORE_PRECREG6,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x1C "PWRAP_CFG_1_CORE_PRECREG7,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x20 "PWRAP_CFG_1_CORE_PRECREG8,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x24 "PWRAP_CFG_1_CORE_PRECREG9,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x28 "PWRAP_CFG_1_CORE_PRECREG10,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x2C "PWRAP_CFG_1_CORE_PRECREG11,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x30 "PWRAP_CFG_1_CORE_PRECREG12,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x34 "PWRAP_CFG_1_CORE_PRECREG13,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x38 "PWRAP_CFG_1_CORE_PRECREG14,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x3C "PWRAP_CFG_1_CORE_PRECREG15,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x40 "PWRAP_CFG_1_CORE_PRECREG16,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x44 "PWRAP_CFG_1_CORE_PRECREG17,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x48 "PWRAP_CFG_1_CORE_PRECREG18,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x4C "PWRAP_CFG_1_CORE_PRECREG19,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x50 "PWRAP_CFG_1_CORE_PRECREG20,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x54 "PWRAP_CFG_1_CORE_PRECREG21,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x58 "PWRAP_CFG_1_CORE_PRECREG22,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x5C "PWRAP_CFG_1_CORE_PRECREG23,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x60 "PWRAP_CFG_1_CORE_PRECREG24,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x64 "PWRAP_CFG_1_CORE_PRECREG25,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x68 "PWRAP_CFG_1_CORE_PRECREG26,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x6C "PWRAP_CFG_1_CORE_PRECREG27,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x70 "PWRAP_CFG_1_CORE_PRECREG28,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x74 "PWRAP_CFG_1_CORE_PRECREG29,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x78 "PWRAP_CFG_1_CORE_PRECREG30,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" line.long 0x7C "PWRAP_CFG_1_CORE_PRECREG31,These registers are used to control functionality of CPUs without JTAG ports. See CORE_PRECREG0 for details" group.long 0xF0++0x3 line.long 0x0 "PWRAP_CFG_1_SYS_PRECREG,This register is used to control system level functionality" hexmask.long.word 0x0 21.--31. 1. "RESERVED,Reserved returns 0" bitfld.long 0x0 20. "DBGCON_WE,This bit must be high to write to the debug connect field" "0,1" hexmask.long.byte 0x0 16.--19. 1. "DBGCON,The system debugger must write a value of 0x9 to be connected and access the debug logic" rbitfld.long 0x0 15. "UNNAT_RESET,Unnatural Reset Device reset state is being affected by debug logic" "0,1" newline bitfld.long 0x0 14. "RST_OCCURED,Sticky bit indicating a reset has occured Write 1 to clear this bit" "0,1" rbitfld.long 0x0 13. "SYSTEM_STAT,System Status input application specificall" "0,1" rbitfld.long 0x0 12. "RSV12_BIT,Reserved read returns 0" "0,1" rbitfld.long 0x0 11. "GLOB_EXEC_TRIG," "0,1" newline bitfld.long 0x0 10. "CLR_EX_FLAGS,Clear all run flags" "0,1" bitfld.long 0x0 9. "GLOB_EXEC_MSK,Global Execute Mask" "0,1" bitfld.long 0x0 8. "IN_RESET_RLS_WIR,Writing a 1 releases the global WIR When read this returns the in reset status" "0,1" bitfld.long 0x0 7. "WIR_REQ,Wait In Reset Request" "0,1" newline bitfld.long 0x0 6. "BLK_SYS_RST,Block System Reset" "0,1" rbitfld.long 0x0 4.--5. "RESERVED0,Reserved0 returns 0" "0,1,2,3" rbitfld.long 0x0 1.--3. "DEV_TYPE,Device Type tieoff value Test emulator secure etc" "0,1,2,3,4,5,6,7" bitfld.long 0x0 0. "SYS_RST_REQ,System Reset Request This bit will be reset once reset occurs" "0,1" rgroup.long 0xFC++0x3 line.long 0x0 "PWRAP_CFG_1_ID_Register,Reading this register returns the ID information for this AP." hexmask.long.byte 0x0 28.--31. 1. "REVISION,Device Revision [0]" hexmask.long.word 0x0 17.--27. 1. "JEP_CODE,Device JEP Code [0x017]" bitfld.long 0x0 16. "CLASS,Device Class[1] [a memory access port]" "0,1" hexmask.long.byte 0x0 8.--15. 1. "SPARE,Spare returns 0" newline hexmask.long.byte 0x0 4.--7. 1. "VARIANT,Device Variant [0]" hexmask.long.byte 0x0 0.--3. 1. "TYPE,Device Type: 0=JTAG 1=AHB 2=APB [2]" tree.end base ad:0x0 tree "DEBUGSS_WRAP0_ROM_TABLE" tree "DEBUGSS_WRAP0_ROM_TABLE_0_0 (DEBUGSS_WRAP0_ROM_TABLE_0_0)" base ad:0x700000000 rgroup.long 0x0++0xB line.long 0x0 "ROM_TABLE_0_0_ROM_ENTRY0," bitfld.long 0x0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x0 3. "RA0,always read as 0" "0,1" bitfld.long 0x0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x0 1. "RA1,always read as 1" "0,1" bitfld.long 0x0 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x4 "ROM_TABLE_0_0_ROM_ENTRY1," bitfld.long 0x4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x4 3. "RA0,always read as 0" "0,1" bitfld.long 0x4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x4 1. "RA1,always read as 1" "0,1" bitfld.long 0x4 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x8 "ROM_TABLE_0_0_ROM_ENTRY2," bitfld.long 0x8 31. "RA00,always read as 0" "0,1" bitfld.long 0x8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x8 3. "RA0,always read as 0" "0,1" bitfld.long 0x8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x8 1. "RA1,always read as 1" "0,1" bitfld.long 0x8 0. "VALID,Component present 1 or not present 0 status bit" "0,1" rgroup.long 0x8++0x113 line.long 0x0 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY0," bitfld.long 0x0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x0 3. "RA0,always read as 0" "0,1" bitfld.long 0x0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x0 1. "RA1,always read as 1" "0,1" line.long 0x4 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY1," bitfld.long 0x4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x4 3. "RA0,always read as 0" "0,1" bitfld.long 0x4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x4 1. "RA1,always read as 1" "0,1" line.long 0x8 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY2," bitfld.long 0x8 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x8 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x8 3. "RA0,always read as 0" "0,1" bitfld.long 0x8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x8 1. "RA1,always read as 1" "0,1" line.long 0xC "ROM_TABLE_0_0_ROM_MANUAL_ENTRY3," bitfld.long 0xC 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xC 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xC 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xC 3. "RA0,always read as 0" "0,1" bitfld.long 0xC 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xC 1. "RA1,always read as 1" "0,1" line.long 0x10 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY4," bitfld.long 0x10 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x10 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x10 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x10 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x10 3. "RA0,always read as 0" "0,1" bitfld.long 0x10 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x10 1. "RA1,always read as 1" "0,1" line.long 0x14 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY5," bitfld.long 0x14 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x14 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x14 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x14 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x14 3. "RA0,always read as 0" "0,1" bitfld.long 0x14 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x14 1. "RA1,always read as 1" "0,1" line.long 0x18 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY6," bitfld.long 0x18 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x18 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x18 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x18 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x18 3. "RA0,always read as 0" "0,1" bitfld.long 0x18 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x18 1. "RA1,always read as 1" "0,1" line.long 0x1C "ROM_TABLE_0_0_ROM_MANUAL_ENTRY7," bitfld.long 0x1C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x1C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x1C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x1C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x1C 3. "RA0,always read as 0" "0,1" bitfld.long 0x1C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x1C 1. "RA1,always read as 1" "0,1" line.long 0x20 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY8," bitfld.long 0x20 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x20 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x20 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x20 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x20 3. "RA0,always read as 0" "0,1" bitfld.long 0x20 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x20 1. "RA1,always read as 1" "0,1" line.long 0x24 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY9," bitfld.long 0x24 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x24 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x24 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x24 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x24 3. "RA0,always read as 0" "0,1" bitfld.long 0x24 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x24 1. "RA1,always read as 1" "0,1" line.long 0x28 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY10," bitfld.long 0x28 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x28 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x28 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x28 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x28 3. "RA0,always read as 0" "0,1" bitfld.long 0x28 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x28 1. "RA1,always read as 1" "0,1" line.long 0x2C "ROM_TABLE_0_0_ROM_MANUAL_ENTRY11," bitfld.long 0x2C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x2C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x2C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x2C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x2C 3. "RA0,always read as 0" "0,1" bitfld.long 0x2C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x2C 1. "RA1,always read as 1" "0,1" line.long 0x30 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY12," bitfld.long 0x30 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x30 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x30 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x30 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x30 3. "RA0,always read as 0" "0,1" bitfld.long 0x30 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x30 1. "RA1,always read as 1" "0,1" line.long 0x34 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY13," bitfld.long 0x34 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x34 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x34 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x34 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x34 3. "RA0,always read as 0" "0,1" bitfld.long 0x34 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x34 1. "RA1,always read as 1" "0,1" line.long 0x38 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY14," bitfld.long 0x38 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x38 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x38 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x38 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x38 3. "RA0,always read as 0" "0,1" bitfld.long 0x38 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x38 1. "RA1,always read as 1" "0,1" line.long 0x3C "ROM_TABLE_0_0_ROM_MANUAL_ENTRY15," bitfld.long 0x3C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x3C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x3C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x3C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x3C 3. "RA0,always read as 0" "0,1" bitfld.long 0x3C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x3C 1. "RA1,always read as 1" "0,1" line.long 0x40 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY16," bitfld.long 0x40 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x40 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x40 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x40 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x40 3. "RA0,always read as 0" "0,1" bitfld.long 0x40 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x40 1. "RA1,always read as 1" "0,1" line.long 0x44 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY17," bitfld.long 0x44 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x44 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x44 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x44 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x44 3. "RA0,always read as 0" "0,1" bitfld.long 0x44 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x44 1. "RA1,always read as 1" "0,1" line.long 0x48 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY18," bitfld.long 0x48 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x48 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x48 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x48 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x48 3. "RA0,always read as 0" "0,1" bitfld.long 0x48 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x48 1. "RA1,always read as 1" "0,1" line.long 0x4C "ROM_TABLE_0_0_ROM_MANUAL_ENTRY19," bitfld.long 0x4C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x4C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x4C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x4C 3. "RA0,always read as 0" "0,1" bitfld.long 0x4C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x4C 1. "RA1,always read as 1" "0,1" line.long 0x50 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY20," bitfld.long 0x50 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x50 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x50 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x50 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x50 3. "RA0,always read as 0" "0,1" bitfld.long 0x50 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x50 1. "RA1,always read as 1" "0,1" line.long 0x54 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY21," bitfld.long 0x54 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x54 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x54 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x54 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x54 3. "RA0,always read as 0" "0,1" bitfld.long 0x54 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x54 1. "RA1,always read as 1" "0,1" line.long 0x58 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY22," bitfld.long 0x58 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x58 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x58 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x58 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x58 3. "RA0,always read as 0" "0,1" bitfld.long 0x58 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x58 1. "RA1,always read as 1" "0,1" line.long 0x5C "ROM_TABLE_0_0_ROM_MANUAL_ENTRY23," bitfld.long 0x5C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x5C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x5C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x5C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x5C 3. "RA0,always read as 0" "0,1" bitfld.long 0x5C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x5C 1. "RA1,always read as 1" "0,1" line.long 0x60 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY24," bitfld.long 0x60 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x60 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x60 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x60 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x60 3. "RA0,always read as 0" "0,1" bitfld.long 0x60 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x60 1. "RA1,always read as 1" "0,1" line.long 0x64 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY25," bitfld.long 0x64 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x64 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x64 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x64 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x64 3. "RA0,always read as 0" "0,1" bitfld.long 0x64 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x64 1. "RA1,always read as 1" "0,1" line.long 0x68 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY26," bitfld.long 0x68 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x68 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x68 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x68 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x68 3. "RA0,always read as 0" "0,1" bitfld.long 0x68 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x68 1. "RA1,always read as 1" "0,1" line.long 0x6C "ROM_TABLE_0_0_ROM_MANUAL_ENTRY27," bitfld.long 0x6C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x6C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x6C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x6C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x6C 3. "RA0,always read as 0" "0,1" bitfld.long 0x6C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x6C 1. "RA1,always read as 1" "0,1" line.long 0x70 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY28," bitfld.long 0x70 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x70 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x70 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x70 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x70 3. "RA0,always read as 0" "0,1" bitfld.long 0x70 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x70 1. "RA1,always read as 1" "0,1" line.long 0x74 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY29," bitfld.long 0x74 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x74 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x74 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x74 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x74 3. "RA0,always read as 0" "0,1" bitfld.long 0x74 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x74 1. "RA1,always read as 1" "0,1" line.long 0x78 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY30," bitfld.long 0x78 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x78 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x78 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x78 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x78 3. "RA0,always read as 0" "0,1" bitfld.long 0x78 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x78 1. "RA1,always read as 1" "0,1" line.long 0x7C "ROM_TABLE_0_0_ROM_MANUAL_ENTRY31," bitfld.long 0x7C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x7C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x7C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x7C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x7C 3. "RA0,always read as 0" "0,1" bitfld.long 0x7C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x7C 1. "RA1,always read as 1" "0,1" line.long 0x80 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY32," bitfld.long 0x80 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x80 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x80 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x80 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x80 3. "RA0,always read as 0" "0,1" bitfld.long 0x80 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x80 1. "RA1,always read as 1" "0,1" line.long 0x84 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY33," bitfld.long 0x84 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x84 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x84 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x84 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x84 3. "RA0,always read as 0" "0,1" bitfld.long 0x84 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x84 1. "RA1,always read as 1" "0,1" line.long 0x88 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY34," bitfld.long 0x88 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x88 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x88 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x88 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x88 3. "RA0,always read as 0" "0,1" bitfld.long 0x88 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x88 1. "RA1,always read as 1" "0,1" line.long 0x8C "ROM_TABLE_0_0_ROM_MANUAL_ENTRY35," bitfld.long 0x8C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x8C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x8C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x8C 3. "RA0,always read as 0" "0,1" bitfld.long 0x8C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x8C 1. "RA1,always read as 1" "0,1" line.long 0x90 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY36," bitfld.long 0x90 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x90 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x90 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x90 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x90 3. "RA0,always read as 0" "0,1" bitfld.long 0x90 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x90 1. "RA1,always read as 1" "0,1" line.long 0x94 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY37," bitfld.long 0x94 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x94 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x94 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x94 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x94 3. "RA0,always read as 0" "0,1" bitfld.long 0x94 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x94 1. "RA1,always read as 1" "0,1" line.long 0x98 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY38," bitfld.long 0x98 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x98 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x98 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x98 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x98 3. "RA0,always read as 0" "0,1" bitfld.long 0x98 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x98 1. "RA1,always read as 1" "0,1" line.long 0x9C "ROM_TABLE_0_0_ROM_MANUAL_ENTRY39," bitfld.long 0x9C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x9C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x9C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x9C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x9C 3. "RA0,always read as 0" "0,1" bitfld.long 0x9C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x9C 1. "RA1,always read as 1" "0,1" line.long 0xA0 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY40," bitfld.long 0xA0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xA0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xA0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xA0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xA0 3. "RA0,always read as 0" "0,1" bitfld.long 0xA0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xA0 1. "RA1,always read as 1" "0,1" line.long 0xA4 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY41," bitfld.long 0xA4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xA4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xA4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xA4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xA4 3. "RA0,always read as 0" "0,1" bitfld.long 0xA4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xA4 1. "RA1,always read as 1" "0,1" line.long 0xA8 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY42," bitfld.long 0xA8 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xA8 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xA8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xA8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xA8 3. "RA0,always read as 0" "0,1" bitfld.long 0xA8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xA8 1. "RA1,always read as 1" "0,1" line.long 0xAC "ROM_TABLE_0_0_ROM_MANUAL_ENTRY43," bitfld.long 0xAC 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xAC 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xAC 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xAC 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xAC 3. "RA0,always read as 0" "0,1" bitfld.long 0xAC 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xAC 1. "RA1,always read as 1" "0,1" line.long 0xB0 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY44," bitfld.long 0xB0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xB0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xB0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xB0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xB0 3. "RA0,always read as 0" "0,1" bitfld.long 0xB0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xB0 1. "RA1,always read as 1" "0,1" line.long 0xB4 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY45," bitfld.long 0xB4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xB4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xB4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xB4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xB4 3. "RA0,always read as 0" "0,1" bitfld.long 0xB4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xB4 1. "RA1,always read as 1" "0,1" line.long 0xB8 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY46," bitfld.long 0xB8 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xB8 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xB8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xB8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xB8 3. "RA0,always read as 0" "0,1" bitfld.long 0xB8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xB8 1. "RA1,always read as 1" "0,1" line.long 0xBC "ROM_TABLE_0_0_ROM_MANUAL_ENTRY47," bitfld.long 0xBC 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xBC 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xBC 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xBC 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xBC 3. "RA0,always read as 0" "0,1" bitfld.long 0xBC 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xBC 1. "RA1,always read as 1" "0,1" line.long 0xC0 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY48," bitfld.long 0xC0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xC0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xC0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xC0 3. "RA0,always read as 0" "0,1" bitfld.long 0xC0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xC0 1. "RA1,always read as 1" "0,1" line.long 0xC4 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY49," bitfld.long 0xC4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xC4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xC4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xC4 3. "RA0,always read as 0" "0,1" bitfld.long 0xC4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xC4 1. "RA1,always read as 1" "0,1" line.long 0xC8 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY50," bitfld.long 0xC8 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xC8 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xC8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xC8 3. "RA0,always read as 0" "0,1" bitfld.long 0xC8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xC8 1. "RA1,always read as 1" "0,1" line.long 0xCC "ROM_TABLE_0_0_ROM_MANUAL_ENTRY51," bitfld.long 0xCC 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xCC 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xCC 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xCC 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xCC 3. "RA0,always read as 0" "0,1" bitfld.long 0xCC 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xCC 1. "RA1,always read as 1" "0,1" line.long 0xD0 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY52," bitfld.long 0xD0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xD0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xD0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xD0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xD0 3. "RA0,always read as 0" "0,1" bitfld.long 0xD0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xD0 1. "RA1,always read as 1" "0,1" line.long 0xD4 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY53," bitfld.long 0xD4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xD4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xD4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xD4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xD4 3. "RA0,always read as 0" "0,1" bitfld.long 0xD4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xD4 1. "RA1,always read as 1" "0,1" line.long 0xD8 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY54," bitfld.long 0xD8 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xD8 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xD8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xD8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xD8 3. "RA0,always read as 0" "0,1" bitfld.long 0xD8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xD8 1. "RA1,always read as 1" "0,1" line.long 0xDC "ROM_TABLE_0_0_ROM_MANUAL_ENTRY55," bitfld.long 0xDC 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xDC 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xDC 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xDC 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xDC 3. "RA0,always read as 0" "0,1" bitfld.long 0xDC 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xDC 1. "RA1,always read as 1" "0,1" line.long 0xE0 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY56," bitfld.long 0xE0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xE0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xE0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xE0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xE0 3. "RA0,always read as 0" "0,1" bitfld.long 0xE0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xE0 1. "RA1,always read as 1" "0,1" line.long 0xE4 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY57," bitfld.long 0xE4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xE4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xE4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xE4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xE4 3. "RA0,always read as 0" "0,1" bitfld.long 0xE4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xE4 1. "RA1,always read as 1" "0,1" line.long 0xE8 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY58," bitfld.long 0xE8 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xE8 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xE8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xE8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xE8 3. "RA0,always read as 0" "0,1" bitfld.long 0xE8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xE8 1. "RA1,always read as 1" "0,1" line.long 0xEC "ROM_TABLE_0_0_ROM_MANUAL_ENTRY59," bitfld.long 0xEC 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xEC 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xEC 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xEC 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xEC 3. "RA0,always read as 0" "0,1" bitfld.long 0xEC 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xEC 1. "RA1,always read as 1" "0,1" line.long 0xF0 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY60," bitfld.long 0xF0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xF0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xF0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xF0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xF0 3. "RA0,always read as 0" "0,1" bitfld.long 0xF0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xF0 1. "RA1,always read as 1" "0,1" line.long 0xF4 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY61," bitfld.long 0xF4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xF4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xF4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xF4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xF4 3. "RA0,always read as 0" "0,1" bitfld.long 0xF4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xF4 1. "RA1,always read as 1" "0,1" line.long 0xF8 "ROM_TABLE_0_0_ROM_MANUAL_ENTRY62," bitfld.long 0xF8 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xF8 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xF8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xF8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xF8 3. "RA0,always read as 0" "0,1" bitfld.long 0xF8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xF8 1. "RA1,always read as 1" "0,1" line.long 0xFC "ROM_TABLE_0_0_ROM_MANUAL_ENTRY63," bitfld.long 0xFC 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xFC 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xFC 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xFC 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xFC 3. "RA0,always read as 0" "0,1" bitfld.long 0xFC 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xFC 1. "RA1,always read as 1" "0,1" line.long 0x100 "ROM_TABLE_0_0_PERIPHID0," bitfld.long 0x100 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x100 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x100 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x100 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x100 3. "RA0,always read as 0" "0,1" bitfld.long 0x100 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x100 1. "RA1,always read as 1" "0,1" bitfld.long 0x100 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x104 "ROM_TABLE_0_0_PERIPHID1," bitfld.long 0x104 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x104 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x104 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x104 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x104 3. "RA0,always read as 0" "0,1" bitfld.long 0x104 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x104 1. "RA1,always read as 1" "0,1" bitfld.long 0x104 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x108 "ROM_TABLE_0_0_PERIPHID2," bitfld.long 0x108 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x108 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x108 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x108 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x108 3. "RA0,always read as 0" "0,1" bitfld.long 0x108 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x108 1. "RA1,always read as 1" "0,1" bitfld.long 0x108 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x10C "ROM_TABLE_0_0_PERIPHID3," bitfld.long 0x10C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x10C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x10C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x10C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x10C 3. "RA0,always read as 0" "0,1" bitfld.long 0x10C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x10C 1. "RA1,always read as 1" "0,1" bitfld.long 0x10C 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x110 "ROM_TABLE_0_0_PERIPHID4," bitfld.long 0x110 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x110 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x110 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x110 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x110 3. "RA0,always read as 0" "0,1" bitfld.long 0x110 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x110 1. "RA1,always read as 1" "0,1" bitfld.long 0x110 0. "VALID,Component present 1 or not present 0 status bit" "0,1" rgroup.long 0x3FC++0x3 line.long 0x0 "ROM_TABLE_0_0_COMPID0," hexmask.long 0x0 0.--31. 1. "VAR,Component id0" rgroup.long 0x3FC++0x3 line.long 0x0 "ROM_TABLE_0_0_COMPID1," hexmask.long 0x0 0.--31. 1. "VAR,Component id1" rgroup.long 0x3FC++0x3 line.long 0x0 "ROM_TABLE_0_0_COMPID2," hexmask.long 0x0 0.--31. 1. "VAR,Component id2" rgroup.long 0x3FC++0x3 line.long 0x0 "ROM_TABLE_0_0_COMPID3," hexmask.long 0x0 0.--31. 1. "VAR,Component id3" tree.end tree "DEBUGSS_WRAP0_ROM_TABLE_0_1 (DEBUGSS_WRAP0_ROM_TABLE_0_1)" base ad:0x740000000 rgroup.long 0x0++0xB line.long 0x0 "ROM_TABLE_0_1_ROM_ENTRY0," bitfld.long 0x0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x0 3. "RA0,always read as 0" "0,1" bitfld.long 0x0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x0 1. "RA1,always read as 1" "0,1" bitfld.long 0x0 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x4 "ROM_TABLE_0_1_ROM_ENTRY1," bitfld.long 0x4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x4 3. "RA0,always read as 0" "0,1" bitfld.long 0x4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x4 1. "RA1,always read as 1" "0,1" bitfld.long 0x4 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x8 "ROM_TABLE_0_1_ROM_ENTRY2," bitfld.long 0x8 31. "RA00,always read as 0" "0,1" bitfld.long 0x8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x8 3. "RA0,always read as 0" "0,1" bitfld.long 0x8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x8 1. "RA1,always read as 1" "0,1" bitfld.long 0x8 0. "VALID,Component present 1 or not present 0 status bit" "0,1" rgroup.long 0x8++0x113 line.long 0x0 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY0," bitfld.long 0x0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x0 3. "RA0,always read as 0" "0,1" bitfld.long 0x0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x0 1. "RA1,always read as 1" "0,1" line.long 0x4 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY1," bitfld.long 0x4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x4 3. "RA0,always read as 0" "0,1" bitfld.long 0x4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x4 1. "RA1,always read as 1" "0,1" line.long 0x8 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY2," bitfld.long 0x8 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x8 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x8 3. "RA0,always read as 0" "0,1" bitfld.long 0x8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x8 1. "RA1,always read as 1" "0,1" line.long 0xC "ROM_TABLE_0_1_ROM_MANUAL_ENTRY3," bitfld.long 0xC 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xC 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xC 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xC 3. "RA0,always read as 0" "0,1" bitfld.long 0xC 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xC 1. "RA1,always read as 1" "0,1" line.long 0x10 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY4," bitfld.long 0x10 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x10 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x10 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x10 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x10 3. "RA0,always read as 0" "0,1" bitfld.long 0x10 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x10 1. "RA1,always read as 1" "0,1" line.long 0x14 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY5," bitfld.long 0x14 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x14 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x14 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x14 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x14 3. "RA0,always read as 0" "0,1" bitfld.long 0x14 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x14 1. "RA1,always read as 1" "0,1" line.long 0x18 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY6," bitfld.long 0x18 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x18 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x18 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x18 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x18 3. "RA0,always read as 0" "0,1" bitfld.long 0x18 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x18 1. "RA1,always read as 1" "0,1" line.long 0x1C "ROM_TABLE_0_1_ROM_MANUAL_ENTRY7," bitfld.long 0x1C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x1C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x1C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x1C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x1C 3. "RA0,always read as 0" "0,1" bitfld.long 0x1C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x1C 1. "RA1,always read as 1" "0,1" line.long 0x20 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY8," bitfld.long 0x20 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x20 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x20 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x20 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x20 3. "RA0,always read as 0" "0,1" bitfld.long 0x20 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x20 1. "RA1,always read as 1" "0,1" line.long 0x24 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY9," bitfld.long 0x24 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x24 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x24 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x24 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x24 3. "RA0,always read as 0" "0,1" bitfld.long 0x24 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x24 1. "RA1,always read as 1" "0,1" line.long 0x28 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY10," bitfld.long 0x28 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x28 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x28 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x28 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x28 3. "RA0,always read as 0" "0,1" bitfld.long 0x28 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x28 1. "RA1,always read as 1" "0,1" line.long 0x2C "ROM_TABLE_0_1_ROM_MANUAL_ENTRY11," bitfld.long 0x2C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x2C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x2C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x2C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x2C 3. "RA0,always read as 0" "0,1" bitfld.long 0x2C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x2C 1. "RA1,always read as 1" "0,1" line.long 0x30 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY12," bitfld.long 0x30 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x30 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x30 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x30 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x30 3. "RA0,always read as 0" "0,1" bitfld.long 0x30 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x30 1. "RA1,always read as 1" "0,1" line.long 0x34 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY13," bitfld.long 0x34 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x34 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x34 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x34 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x34 3. "RA0,always read as 0" "0,1" bitfld.long 0x34 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x34 1. "RA1,always read as 1" "0,1" line.long 0x38 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY14," bitfld.long 0x38 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x38 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x38 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x38 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x38 3. "RA0,always read as 0" "0,1" bitfld.long 0x38 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x38 1. "RA1,always read as 1" "0,1" line.long 0x3C "ROM_TABLE_0_1_ROM_MANUAL_ENTRY15," bitfld.long 0x3C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x3C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x3C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x3C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x3C 3. "RA0,always read as 0" "0,1" bitfld.long 0x3C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x3C 1. "RA1,always read as 1" "0,1" line.long 0x40 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY16," bitfld.long 0x40 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x40 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x40 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x40 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x40 3. "RA0,always read as 0" "0,1" bitfld.long 0x40 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x40 1. "RA1,always read as 1" "0,1" line.long 0x44 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY17," bitfld.long 0x44 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x44 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x44 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x44 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x44 3. "RA0,always read as 0" "0,1" bitfld.long 0x44 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x44 1. "RA1,always read as 1" "0,1" line.long 0x48 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY18," bitfld.long 0x48 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x48 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x48 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x48 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x48 3. "RA0,always read as 0" "0,1" bitfld.long 0x48 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x48 1. "RA1,always read as 1" "0,1" line.long 0x4C "ROM_TABLE_0_1_ROM_MANUAL_ENTRY19," bitfld.long 0x4C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x4C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x4C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x4C 3. "RA0,always read as 0" "0,1" bitfld.long 0x4C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x4C 1. "RA1,always read as 1" "0,1" line.long 0x50 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY20," bitfld.long 0x50 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x50 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x50 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x50 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x50 3. "RA0,always read as 0" "0,1" bitfld.long 0x50 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x50 1. "RA1,always read as 1" "0,1" line.long 0x54 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY21," bitfld.long 0x54 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x54 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x54 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x54 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x54 3. "RA0,always read as 0" "0,1" bitfld.long 0x54 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x54 1. "RA1,always read as 1" "0,1" line.long 0x58 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY22," bitfld.long 0x58 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x58 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x58 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x58 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x58 3. "RA0,always read as 0" "0,1" bitfld.long 0x58 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x58 1. "RA1,always read as 1" "0,1" line.long 0x5C "ROM_TABLE_0_1_ROM_MANUAL_ENTRY23," bitfld.long 0x5C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x5C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x5C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x5C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x5C 3. "RA0,always read as 0" "0,1" bitfld.long 0x5C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x5C 1. "RA1,always read as 1" "0,1" line.long 0x60 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY24," bitfld.long 0x60 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x60 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x60 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x60 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x60 3. "RA0,always read as 0" "0,1" bitfld.long 0x60 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x60 1. "RA1,always read as 1" "0,1" line.long 0x64 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY25," bitfld.long 0x64 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x64 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x64 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x64 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x64 3. "RA0,always read as 0" "0,1" bitfld.long 0x64 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x64 1. "RA1,always read as 1" "0,1" line.long 0x68 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY26," bitfld.long 0x68 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x68 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x68 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x68 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x68 3. "RA0,always read as 0" "0,1" bitfld.long 0x68 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x68 1. "RA1,always read as 1" "0,1" line.long 0x6C "ROM_TABLE_0_1_ROM_MANUAL_ENTRY27," bitfld.long 0x6C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x6C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x6C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x6C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x6C 3. "RA0,always read as 0" "0,1" bitfld.long 0x6C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x6C 1. "RA1,always read as 1" "0,1" line.long 0x70 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY28," bitfld.long 0x70 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x70 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x70 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x70 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x70 3. "RA0,always read as 0" "0,1" bitfld.long 0x70 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x70 1. "RA1,always read as 1" "0,1" line.long 0x74 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY29," bitfld.long 0x74 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x74 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x74 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x74 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x74 3. "RA0,always read as 0" "0,1" bitfld.long 0x74 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x74 1. "RA1,always read as 1" "0,1" line.long 0x78 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY30," bitfld.long 0x78 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x78 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x78 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x78 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x78 3. "RA0,always read as 0" "0,1" bitfld.long 0x78 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x78 1. "RA1,always read as 1" "0,1" line.long 0x7C "ROM_TABLE_0_1_ROM_MANUAL_ENTRY31," bitfld.long 0x7C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x7C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x7C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x7C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x7C 3. "RA0,always read as 0" "0,1" bitfld.long 0x7C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x7C 1. "RA1,always read as 1" "0,1" line.long 0x80 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY32," bitfld.long 0x80 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x80 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x80 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x80 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x80 3. "RA0,always read as 0" "0,1" bitfld.long 0x80 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x80 1. "RA1,always read as 1" "0,1" line.long 0x84 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY33," bitfld.long 0x84 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x84 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x84 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x84 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x84 3. "RA0,always read as 0" "0,1" bitfld.long 0x84 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x84 1. "RA1,always read as 1" "0,1" line.long 0x88 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY34," bitfld.long 0x88 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x88 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x88 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x88 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x88 3. "RA0,always read as 0" "0,1" bitfld.long 0x88 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x88 1. "RA1,always read as 1" "0,1" line.long 0x8C "ROM_TABLE_0_1_ROM_MANUAL_ENTRY35," bitfld.long 0x8C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x8C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x8C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x8C 3. "RA0,always read as 0" "0,1" bitfld.long 0x8C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x8C 1. "RA1,always read as 1" "0,1" line.long 0x90 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY36," bitfld.long 0x90 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x90 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x90 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x90 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x90 3. "RA0,always read as 0" "0,1" bitfld.long 0x90 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x90 1. "RA1,always read as 1" "0,1" line.long 0x94 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY37," bitfld.long 0x94 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x94 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x94 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x94 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x94 3. "RA0,always read as 0" "0,1" bitfld.long 0x94 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x94 1. "RA1,always read as 1" "0,1" line.long 0x98 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY38," bitfld.long 0x98 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x98 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x98 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x98 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x98 3. "RA0,always read as 0" "0,1" bitfld.long 0x98 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x98 1. "RA1,always read as 1" "0,1" line.long 0x9C "ROM_TABLE_0_1_ROM_MANUAL_ENTRY39," bitfld.long 0x9C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x9C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x9C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x9C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x9C 3. "RA0,always read as 0" "0,1" bitfld.long 0x9C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x9C 1. "RA1,always read as 1" "0,1" line.long 0xA0 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY40," bitfld.long 0xA0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xA0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xA0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xA0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xA0 3. "RA0,always read as 0" "0,1" bitfld.long 0xA0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xA0 1. "RA1,always read as 1" "0,1" line.long 0xA4 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY41," bitfld.long 0xA4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xA4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xA4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xA4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xA4 3. "RA0,always read as 0" "0,1" bitfld.long 0xA4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xA4 1. "RA1,always read as 1" "0,1" line.long 0xA8 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY42," bitfld.long 0xA8 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xA8 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xA8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xA8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xA8 3. "RA0,always read as 0" "0,1" bitfld.long 0xA8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xA8 1. "RA1,always read as 1" "0,1" line.long 0xAC "ROM_TABLE_0_1_ROM_MANUAL_ENTRY43," bitfld.long 0xAC 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xAC 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xAC 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xAC 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xAC 3. "RA0,always read as 0" "0,1" bitfld.long 0xAC 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xAC 1. "RA1,always read as 1" "0,1" line.long 0xB0 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY44," bitfld.long 0xB0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xB0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xB0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xB0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xB0 3. "RA0,always read as 0" "0,1" bitfld.long 0xB0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xB0 1. "RA1,always read as 1" "0,1" line.long 0xB4 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY45," bitfld.long 0xB4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xB4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xB4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xB4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xB4 3. "RA0,always read as 0" "0,1" bitfld.long 0xB4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xB4 1. "RA1,always read as 1" "0,1" line.long 0xB8 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY46," bitfld.long 0xB8 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xB8 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xB8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xB8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xB8 3. "RA0,always read as 0" "0,1" bitfld.long 0xB8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xB8 1. "RA1,always read as 1" "0,1" line.long 0xBC "ROM_TABLE_0_1_ROM_MANUAL_ENTRY47," bitfld.long 0xBC 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xBC 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xBC 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xBC 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xBC 3. "RA0,always read as 0" "0,1" bitfld.long 0xBC 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xBC 1. "RA1,always read as 1" "0,1" line.long 0xC0 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY48," bitfld.long 0xC0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xC0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xC0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xC0 3. "RA0,always read as 0" "0,1" bitfld.long 0xC0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xC0 1. "RA1,always read as 1" "0,1" line.long 0xC4 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY49," bitfld.long 0xC4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xC4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xC4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xC4 3. "RA0,always read as 0" "0,1" bitfld.long 0xC4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xC4 1. "RA1,always read as 1" "0,1" line.long 0xC8 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY50," bitfld.long 0xC8 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xC8 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xC8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xC8 3. "RA0,always read as 0" "0,1" bitfld.long 0xC8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xC8 1. "RA1,always read as 1" "0,1" line.long 0xCC "ROM_TABLE_0_1_ROM_MANUAL_ENTRY51," bitfld.long 0xCC 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xCC 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xCC 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xCC 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xCC 3. "RA0,always read as 0" "0,1" bitfld.long 0xCC 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xCC 1. "RA1,always read as 1" "0,1" line.long 0xD0 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY52," bitfld.long 0xD0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xD0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xD0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xD0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xD0 3. "RA0,always read as 0" "0,1" bitfld.long 0xD0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xD0 1. "RA1,always read as 1" "0,1" line.long 0xD4 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY53," bitfld.long 0xD4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xD4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xD4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xD4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xD4 3. "RA0,always read as 0" "0,1" bitfld.long 0xD4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xD4 1. "RA1,always read as 1" "0,1" line.long 0xD8 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY54," bitfld.long 0xD8 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xD8 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xD8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xD8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xD8 3. "RA0,always read as 0" "0,1" bitfld.long 0xD8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xD8 1. "RA1,always read as 1" "0,1" line.long 0xDC "ROM_TABLE_0_1_ROM_MANUAL_ENTRY55," bitfld.long 0xDC 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xDC 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xDC 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xDC 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xDC 3. "RA0,always read as 0" "0,1" bitfld.long 0xDC 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xDC 1. "RA1,always read as 1" "0,1" line.long 0xE0 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY56," bitfld.long 0xE0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xE0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xE0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xE0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xE0 3. "RA0,always read as 0" "0,1" bitfld.long 0xE0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xE0 1. "RA1,always read as 1" "0,1" line.long 0xE4 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY57," bitfld.long 0xE4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xE4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xE4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xE4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xE4 3. "RA0,always read as 0" "0,1" bitfld.long 0xE4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xE4 1. "RA1,always read as 1" "0,1" line.long 0xE8 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY58," bitfld.long 0xE8 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xE8 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xE8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xE8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xE8 3. "RA0,always read as 0" "0,1" bitfld.long 0xE8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xE8 1. "RA1,always read as 1" "0,1" line.long 0xEC "ROM_TABLE_0_1_ROM_MANUAL_ENTRY59," bitfld.long 0xEC 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xEC 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xEC 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xEC 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xEC 3. "RA0,always read as 0" "0,1" bitfld.long 0xEC 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xEC 1. "RA1,always read as 1" "0,1" line.long 0xF0 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY60," bitfld.long 0xF0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xF0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xF0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xF0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xF0 3. "RA0,always read as 0" "0,1" bitfld.long 0xF0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xF0 1. "RA1,always read as 1" "0,1" line.long 0xF4 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY61," bitfld.long 0xF4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xF4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xF4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xF4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xF4 3. "RA0,always read as 0" "0,1" bitfld.long 0xF4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xF4 1. "RA1,always read as 1" "0,1" line.long 0xF8 "ROM_TABLE_0_1_ROM_MANUAL_ENTRY62," bitfld.long 0xF8 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xF8 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xF8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xF8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xF8 3. "RA0,always read as 0" "0,1" bitfld.long 0xF8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xF8 1. "RA1,always read as 1" "0,1" line.long 0xFC "ROM_TABLE_0_1_ROM_MANUAL_ENTRY63," bitfld.long 0xFC 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xFC 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xFC 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xFC 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xFC 3. "RA0,always read as 0" "0,1" bitfld.long 0xFC 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xFC 1. "RA1,always read as 1" "0,1" line.long 0x100 "ROM_TABLE_0_1_PERIPHID0," bitfld.long 0x100 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x100 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x100 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x100 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x100 3. "RA0,always read as 0" "0,1" bitfld.long 0x100 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x100 1. "RA1,always read as 1" "0,1" bitfld.long 0x100 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x104 "ROM_TABLE_0_1_PERIPHID1," bitfld.long 0x104 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x104 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x104 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x104 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x104 3. "RA0,always read as 0" "0,1" bitfld.long 0x104 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x104 1. "RA1,always read as 1" "0,1" bitfld.long 0x104 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x108 "ROM_TABLE_0_1_PERIPHID2," bitfld.long 0x108 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x108 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x108 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x108 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x108 3. "RA0,always read as 0" "0,1" bitfld.long 0x108 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x108 1. "RA1,always read as 1" "0,1" bitfld.long 0x108 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x10C "ROM_TABLE_0_1_PERIPHID3," bitfld.long 0x10C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x10C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x10C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x10C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x10C 3. "RA0,always read as 0" "0,1" bitfld.long 0x10C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x10C 1. "RA1,always read as 1" "0,1" bitfld.long 0x10C 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x110 "ROM_TABLE_0_1_PERIPHID4," bitfld.long 0x110 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x110 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x110 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x110 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x110 3. "RA0,always read as 0" "0,1" bitfld.long 0x110 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x110 1. "RA1,always read as 1" "0,1" bitfld.long 0x110 0. "VALID,Component present 1 or not present 0 status bit" "0,1" rgroup.long 0x3FC++0x3 line.long 0x0 "ROM_TABLE_0_1_COMPID0," hexmask.long 0x0 0.--31. 1. "VAR,Component id0" rgroup.long 0x3FC++0x3 line.long 0x0 "ROM_TABLE_0_1_COMPID1," hexmask.long 0x0 0.--31. 1. "VAR,Component id1" rgroup.long 0x3FC++0x3 line.long 0x0 "ROM_TABLE_0_1_COMPID2," hexmask.long 0x0 0.--31. 1. "VAR,Component id2" rgroup.long 0x3FC++0x3 line.long 0x0 "ROM_TABLE_0_1_COMPID3," hexmask.long 0x0 0.--31. 1. "VAR,Component id3" tree.end tree "DEBUGSS_WRAP0_ROM_TABLE_1_0 (DEBUGSS_WRAP0_ROM_TABLE_1_0)" base ad:0x720000000 rgroup.long 0x0++0x53 line.long 0x0 "ROM_TABLE_1_0_ROM_ENTRY0," bitfld.long 0x0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x0 3. "RA0,always read as 0" "0,1" bitfld.long 0x0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x0 1. "RA1,always read as 1" "0,1" bitfld.long 0x0 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x4 "ROM_TABLE_1_0_ROM_ENTRY1," bitfld.long 0x4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x4 3. "RA0,always read as 0" "0,1" bitfld.long 0x4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x4 1. "RA1,always read as 1" "0,1" bitfld.long 0x4 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x8 "ROM_TABLE_1_0_ROM_ENTRY2," bitfld.long 0x8 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x8 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x8 3. "RA0,always read as 0" "0,1" bitfld.long 0x8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x8 1. "RA1,always read as 1" "0,1" bitfld.long 0x8 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0xC "ROM_TABLE_1_0_ROM_ENTRY3," bitfld.long 0xC 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xC 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xC 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xC 3. "RA0,always read as 0" "0,1" bitfld.long 0xC 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xC 1. "RA1,always read as 1" "0,1" bitfld.long 0xC 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x10 "ROM_TABLE_1_0_ROM_ENTRY4," bitfld.long 0x10 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x10 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x10 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x10 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x10 3. "RA0,always read as 0" "0,1" bitfld.long 0x10 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x10 1. "RA1,always read as 1" "0,1" bitfld.long 0x10 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x14 "ROM_TABLE_1_0_ROM_ENTRY5," bitfld.long 0x14 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x14 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x14 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x14 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x14 3. "RA0,always read as 0" "0,1" bitfld.long 0x14 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x14 1. "RA1,always read as 1" "0,1" bitfld.long 0x14 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x18 "ROM_TABLE_1_0_COMPUTE_CLUSTER0," bitfld.long 0x18 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x18 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x18 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x18 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x18 3. "RA0,always read as 0" "0,1" bitfld.long 0x18 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x18 1. "RA1,always read as 1" "0,1" bitfld.long 0x18 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x1C "ROM_TABLE_1_0_COMPUTE_CLUSTER1," bitfld.long 0x1C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x1C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x1C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x1C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x1C 3. "RA0,always read as 0" "0,1" bitfld.long 0x1C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x1C 1. "RA1,always read as 1" "0,1" bitfld.long 0x1C 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x20 "ROM_TABLE_1_0_COMPUTE_CLUSTER2," bitfld.long 0x20 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x20 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x20 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x20 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x20 3. "RA0,always read as 0" "0,1" bitfld.long 0x20 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x20 1. "RA1,always read as 1" "0,1" bitfld.long 0x20 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x24 "ROM_TABLE_1_0_DEBUG_CELL0," bitfld.long 0x24 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x24 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x24 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x24 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x24 3. "RA0,always read as 0" "0,1" bitfld.long 0x24 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x24 1. "RA1,always read as 1" "0,1" bitfld.long 0x24 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x28 "ROM_TABLE_1_0_DEBUG_CELL1," bitfld.long 0x28 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x28 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x28 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x28 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x28 3. "RA0,always read as 0" "0,1" bitfld.long 0x28 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x28 1. "RA1,always read as 1" "0,1" bitfld.long 0x28 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x2C "ROM_TABLE_1_0_DEBUG_CELL2," bitfld.long 0x2C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x2C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x2C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x2C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x2C 3. "RA0,always read as 0" "0,1" bitfld.long 0x2C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x2C 1. "RA1,always read as 1" "0,1" bitfld.long 0x2C 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x30 "ROM_TABLE_1_0_DEBUG_CELL3," bitfld.long 0x30 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x30 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x30 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x30 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x30 3. "RA0,always read as 0" "0,1" bitfld.long 0x30 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x30 1. "RA1,always read as 1" "0,1" bitfld.long 0x30 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x34 "ROM_TABLE_1_0_DEBUG_CELL4," bitfld.long 0x34 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x34 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x34 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x34 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x34 3. "RA0,always read as 0" "0,1" bitfld.long 0x34 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x34 1. "RA1,always read as 1" "0,1" bitfld.long 0x34 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x38 "ROM_TABLE_1_0_DEBUG_CELL5," bitfld.long 0x38 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x38 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x38 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x38 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x38 3. "RA0,always read as 0" "0,1" bitfld.long 0x38 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x38 1. "RA1,always read as 1" "0,1" bitfld.long 0x38 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x3C "ROM_TABLE_1_0_DEBUG_CELL6," bitfld.long 0x3C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x3C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x3C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x3C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x3C 3. "RA0,always read as 0" "0,1" bitfld.long 0x3C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x3C 1. "RA1,always read as 1" "0,1" bitfld.long 0x3C 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x40 "ROM_TABLE_1_0_DEBUG_CELL7," bitfld.long 0x40 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x40 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x40 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x40 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x40 3. "RA0,always read as 0" "0,1" bitfld.long 0x40 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x40 1. "RA1,always read as 1" "0,1" bitfld.long 0x40 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x44 "ROM_TABLE_1_0_DEBUG_CELL8," bitfld.long 0x44 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x44 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x44 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x44 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x44 3. "RA0,always read as 0" "0,1" bitfld.long 0x44 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x44 1. "RA1,always read as 1" "0,1" bitfld.long 0x44 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x48 "ROM_TABLE_1_0_DEBUG_CELL9," bitfld.long 0x48 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x48 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x48 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x48 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x48 3. "RA0,always read as 0" "0,1" bitfld.long 0x48 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x48 1. "RA1,always read as 1" "0,1" bitfld.long 0x48 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x4C "ROM_TABLE_1_0_DEBUG_CELL10," bitfld.long 0x4C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x4C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x4C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x4C 3. "RA0,always read as 0" "0,1" bitfld.long 0x4C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x4C 1. "RA1,always read as 1" "0,1" bitfld.long 0x4C 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x50 "ROM_TABLE_1_0_DEBUG_CELL11," bitfld.long 0x50 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x50 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x50 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x50 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x50 3. "RA0,always read as 0" "0,1" bitfld.long 0x50 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x50 1. "RA1,always read as 1" "0,1" bitfld.long 0x50 0. "VALID,Component present 1 or not present 0 status bit" "0,1" rgroup.long 0x50++0x2F line.long 0x0 "ROM_TABLE_1_0_EXTCSCOMP0," bitfld.long 0x0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x0 3. "RA0,always read as 0" "0,1" bitfld.long 0x0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x0 1. "RA1,always read as 1" "0,1" bitfld.long 0x0 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x4 "ROM_TABLE_1_0_EXTCSCOMP1," bitfld.long 0x4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x4 3. "RA0,always read as 0" "0,1" bitfld.long 0x4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x4 1. "RA1,always read as 1" "0,1" bitfld.long 0x4 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x8 "ROM_TABLE_1_0_EXTCSCOMP2," bitfld.long 0x8 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x8 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x8 3. "RA0,always read as 0" "0,1" bitfld.long 0x8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x8 1. "RA1,always read as 1" "0,1" bitfld.long 0x8 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0xC "ROM_TABLE_1_0_EXTCSCOMP3," bitfld.long 0xC 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xC 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xC 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xC 3. "RA0,always read as 0" "0,1" bitfld.long 0xC 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xC 1. "RA1,always read as 1" "0,1" bitfld.long 0xC 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x10 "ROM_TABLE_1_0_EXTCSCOMP4," bitfld.long 0x10 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x10 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x10 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x10 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x10 3. "RA0,always read as 0" "0,1" bitfld.long 0x10 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x10 1. "RA1,always read as 1" "0,1" bitfld.long 0x10 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x14 "ROM_TABLE_1_0_EXTCSCOMP5," bitfld.long 0x14 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x14 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x14 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x14 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x14 3. "RA0,always read as 0" "0,1" bitfld.long 0x14 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x14 1. "RA1,always read as 1" "0,1" bitfld.long 0x14 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x18 "ROM_TABLE_1_0_EXTCSCOMP6," bitfld.long 0x18 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x18 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x18 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x18 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x18 3. "RA0,always read as 0" "0,1" bitfld.long 0x18 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x18 1. "RA1,always read as 1" "0,1" bitfld.long 0x18 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x1C "ROM_TABLE_1_0_EXTCSCOMP7," bitfld.long 0x1C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x1C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x1C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x1C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x1C 3. "RA0,always read as 0" "0,1" bitfld.long 0x1C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x1C 1. "RA1,always read as 1" "0,1" bitfld.long 0x1C 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x20 "ROM_TABLE_1_0_EXTCSCOMP8," bitfld.long 0x20 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x20 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x20 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x20 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x20 3. "RA0,always read as 0" "0,1" bitfld.long 0x20 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x20 1. "RA1,always read as 1" "0,1" bitfld.long 0x20 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x24 "ROM_TABLE_1_0_EXTCSCOMP9," bitfld.long 0x24 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x24 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x24 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x24 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x24 3. "RA0,always read as 0" "0,1" bitfld.long 0x24 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x24 1. "RA1,always read as 1" "0,1" bitfld.long 0x24 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x28 "ROM_TABLE_1_0_EXTCSCOMP10," bitfld.long 0x28 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x28 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x28 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x28 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x28 3. "RA0,always read as 0" "0,1" bitfld.long 0x28 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x28 1. "RA1,always read as 1" "0,1" bitfld.long 0x28 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x2C "ROM_TABLE_1_0_EXTCSCOMP11," bitfld.long 0x2C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x2C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x2C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x2C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x2C 3. "RA0,always read as 0" "0,1" bitfld.long 0x2C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x2C 1. "RA1,always read as 1" "0,1" bitfld.long 0x2C 0. "VALID,Component present 1 or not present 0 status bit" "0,1" tree.end tree "DEBUGSS_WRAP0_ROM_TABLE_1_1 (DEBUGSS_WRAP0_ROM_TABLE_1_1)" base ad:0x760000000 rgroup.long 0x0++0x53 line.long 0x0 "ROM_TABLE_1_1_ROM_ENTRY0," bitfld.long 0x0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x0 3. "RA0,always read as 0" "0,1" bitfld.long 0x0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x0 1. "RA1,always read as 1" "0,1" bitfld.long 0x0 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x4 "ROM_TABLE_1_1_ROM_ENTRY1," bitfld.long 0x4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x4 3. "RA0,always read as 0" "0,1" bitfld.long 0x4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x4 1. "RA1,always read as 1" "0,1" bitfld.long 0x4 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x8 "ROM_TABLE_1_1_ROM_ENTRY2," bitfld.long 0x8 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x8 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x8 3. "RA0,always read as 0" "0,1" bitfld.long 0x8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x8 1. "RA1,always read as 1" "0,1" bitfld.long 0x8 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0xC "ROM_TABLE_1_1_ROM_ENTRY3," bitfld.long 0xC 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xC 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xC 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xC 3. "RA0,always read as 0" "0,1" bitfld.long 0xC 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xC 1. "RA1,always read as 1" "0,1" bitfld.long 0xC 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x10 "ROM_TABLE_1_1_ROM_ENTRY4," bitfld.long 0x10 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x10 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x10 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x10 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x10 3. "RA0,always read as 0" "0,1" bitfld.long 0x10 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x10 1. "RA1,always read as 1" "0,1" bitfld.long 0x10 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x14 "ROM_TABLE_1_1_ROM_ENTRY5," bitfld.long 0x14 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x14 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x14 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x14 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x14 3. "RA0,always read as 0" "0,1" bitfld.long 0x14 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x14 1. "RA1,always read as 1" "0,1" bitfld.long 0x14 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x18 "ROM_TABLE_1_1_COMPUTE_CLUSTER0," bitfld.long 0x18 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x18 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x18 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x18 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x18 3. "RA0,always read as 0" "0,1" bitfld.long 0x18 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x18 1. "RA1,always read as 1" "0,1" bitfld.long 0x18 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x1C "ROM_TABLE_1_1_COMPUTE_CLUSTER1," bitfld.long 0x1C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x1C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x1C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x1C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x1C 3. "RA0,always read as 0" "0,1" bitfld.long 0x1C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x1C 1. "RA1,always read as 1" "0,1" bitfld.long 0x1C 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x20 "ROM_TABLE_1_1_COMPUTE_CLUSTER2," bitfld.long 0x20 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x20 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x20 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x20 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x20 3. "RA0,always read as 0" "0,1" bitfld.long 0x20 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x20 1. "RA1,always read as 1" "0,1" bitfld.long 0x20 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x24 "ROM_TABLE_1_1_DEBUG_CELL0," bitfld.long 0x24 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x24 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x24 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x24 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x24 3. "RA0,always read as 0" "0,1" bitfld.long 0x24 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x24 1. "RA1,always read as 1" "0,1" bitfld.long 0x24 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x28 "ROM_TABLE_1_1_DEBUG_CELL1," bitfld.long 0x28 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x28 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x28 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x28 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x28 3. "RA0,always read as 0" "0,1" bitfld.long 0x28 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x28 1. "RA1,always read as 1" "0,1" bitfld.long 0x28 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x2C "ROM_TABLE_1_1_DEBUG_CELL2," bitfld.long 0x2C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x2C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x2C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x2C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x2C 3. "RA0,always read as 0" "0,1" bitfld.long 0x2C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x2C 1. "RA1,always read as 1" "0,1" bitfld.long 0x2C 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x30 "ROM_TABLE_1_1_DEBUG_CELL3," bitfld.long 0x30 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x30 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x30 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x30 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x30 3. "RA0,always read as 0" "0,1" bitfld.long 0x30 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x30 1. "RA1,always read as 1" "0,1" bitfld.long 0x30 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x34 "ROM_TABLE_1_1_DEBUG_CELL4," bitfld.long 0x34 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x34 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x34 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x34 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x34 3. "RA0,always read as 0" "0,1" bitfld.long 0x34 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x34 1. "RA1,always read as 1" "0,1" bitfld.long 0x34 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x38 "ROM_TABLE_1_1_DEBUG_CELL5," bitfld.long 0x38 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x38 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x38 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x38 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x38 3. "RA0,always read as 0" "0,1" bitfld.long 0x38 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x38 1. "RA1,always read as 1" "0,1" bitfld.long 0x38 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x3C "ROM_TABLE_1_1_DEBUG_CELL6," bitfld.long 0x3C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x3C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x3C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x3C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x3C 3. "RA0,always read as 0" "0,1" bitfld.long 0x3C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x3C 1. "RA1,always read as 1" "0,1" bitfld.long 0x3C 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x40 "ROM_TABLE_1_1_DEBUG_CELL7," bitfld.long 0x40 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x40 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x40 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x40 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x40 3. "RA0,always read as 0" "0,1" bitfld.long 0x40 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x40 1. "RA1,always read as 1" "0,1" bitfld.long 0x40 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x44 "ROM_TABLE_1_1_DEBUG_CELL8," bitfld.long 0x44 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x44 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x44 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x44 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x44 3. "RA0,always read as 0" "0,1" bitfld.long 0x44 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x44 1. "RA1,always read as 1" "0,1" bitfld.long 0x44 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x48 "ROM_TABLE_1_1_DEBUG_CELL9," bitfld.long 0x48 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x48 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x48 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x48 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x48 3. "RA0,always read as 0" "0,1" bitfld.long 0x48 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x48 1. "RA1,always read as 1" "0,1" bitfld.long 0x48 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x4C "ROM_TABLE_1_1_DEBUG_CELL10," bitfld.long 0x4C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x4C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x4C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x4C 3. "RA0,always read as 0" "0,1" bitfld.long 0x4C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x4C 1. "RA1,always read as 1" "0,1" bitfld.long 0x4C 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x50 "ROM_TABLE_1_1_DEBUG_CELL11," bitfld.long 0x50 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x50 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x50 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x50 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x50 3. "RA0,always read as 0" "0,1" bitfld.long 0x50 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x50 1. "RA1,always read as 1" "0,1" bitfld.long 0x50 0. "VALID,Component present 1 or not present 0 status bit" "0,1" rgroup.long 0x50++0x2F line.long 0x0 "ROM_TABLE_1_1_EXTCSCOMP0," bitfld.long 0x0 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x0 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x0 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x0 3. "RA0,always read as 0" "0,1" bitfld.long 0x0 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x0 1. "RA1,always read as 1" "0,1" bitfld.long 0x0 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x4 "ROM_TABLE_1_1_EXTCSCOMP1," bitfld.long 0x4 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x4 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x4 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x4 3. "RA0,always read as 0" "0,1" bitfld.long 0x4 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x4 1. "RA1,always read as 1" "0,1" bitfld.long 0x4 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x8 "ROM_TABLE_1_1_EXTCSCOMP2," bitfld.long 0x8 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x8 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x8 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x8 3. "RA0,always read as 0" "0,1" bitfld.long 0x8 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x8 1. "RA1,always read as 1" "0,1" bitfld.long 0x8 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0xC "ROM_TABLE_1_1_EXTCSCOMP3," bitfld.long 0xC 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0xC 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0xC 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC 4.--8. 1. "PWRID,always read as 0" bitfld.long 0xC 3. "RA0,always read as 0" "0,1" bitfld.long 0xC 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0xC 1. "RA1,always read as 1" "0,1" bitfld.long 0xC 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x10 "ROM_TABLE_1_1_EXTCSCOMP4," bitfld.long 0x10 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x10 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x10 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x10 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x10 3. "RA0,always read as 0" "0,1" bitfld.long 0x10 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x10 1. "RA1,always read as 1" "0,1" bitfld.long 0x10 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x14 "ROM_TABLE_1_1_EXTCSCOMP5," bitfld.long 0x14 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x14 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x14 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x14 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x14 3. "RA0,always read as 0" "0,1" bitfld.long 0x14 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x14 1. "RA1,always read as 1" "0,1" bitfld.long 0x14 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x18 "ROM_TABLE_1_1_EXTCSCOMP6," bitfld.long 0x18 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x18 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x18 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x18 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x18 3. "RA0,always read as 0" "0,1" bitfld.long 0x18 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x18 1. "RA1,always read as 1" "0,1" bitfld.long 0x18 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x1C "ROM_TABLE_1_1_EXTCSCOMP7," bitfld.long 0x1C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x1C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x1C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x1C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x1C 3. "RA0,always read as 0" "0,1" bitfld.long 0x1C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x1C 1. "RA1,always read as 1" "0,1" bitfld.long 0x1C 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x20 "ROM_TABLE_1_1_EXTCSCOMP8," bitfld.long 0x20 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x20 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x20 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x20 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x20 3. "RA0,always read as 0" "0,1" bitfld.long 0x20 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x20 1. "RA1,always read as 1" "0,1" bitfld.long 0x20 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x24 "ROM_TABLE_1_1_EXTCSCOMP9," bitfld.long 0x24 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x24 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x24 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x24 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x24 3. "RA0,always read as 0" "0,1" bitfld.long 0x24 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x24 1. "RA1,always read as 1" "0,1" bitfld.long 0x24 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x28 "ROM_TABLE_1_1_EXTCSCOMP10," bitfld.long 0x28 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x28 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x28 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x28 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x28 3. "RA0,always read as 0" "0,1" bitfld.long 0x28 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x28 1. "RA1,always read as 1" "0,1" bitfld.long 0x28 0. "VALID,Component present 1 or not present 0 status bit" "0,1" line.long 0x2C "ROM_TABLE_1_1_EXTCSCOMP11," bitfld.long 0x2C 31. "RA00,always read as 0" "0,1" hexmask.long.tbyte 0x2C 12.--30. 1. "BASEADDR,Component base address" bitfld.long 0x2C 9.--11. "RA30,always read as 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x2C 4.--8. 1. "PWRID,always read as 0" bitfld.long 0x2C 3. "RA0,always read as 0" "0,1" bitfld.long 0x2C 2. "PWRIDVAL,power id valid" "0,1" bitfld.long 0x2C 1. "RA1,always read as 1" "0,1" bitfld.long 0x2C 0. "VALID,Component present 1 or not present 0 status bit" "0,1" tree.end tree.end tree "DEBUGSS_WRAP0_SECAP0 (DEBUGSS_WRAP0_SECAP0)" base ad:0x700002600 group.long 0x0++0xB line.long 0x0 "SECAP_CFG_0_TXDATA,Data value to send to security controller. Apllication specific" hexmask.long 0x0 0.--31. 1. "TX_DATA_REGISTER," line.long 0x4 "SECAP_CFG_0_TXCTRL,Register to send control information to the Security Controller. Application specific" hexmask.long 0x4 1.--31. 1. "TX_CONTROL,31 bits to send to security controller Application specific" rbitfld.long 0x4 0. "TXDAV,TX Data Available" "0,1" line.long 0x8 "SECAP_CFG_0_RXDATA,Data value from the security controller. Apllication specific" hexmask.long 0x8 0.--31. 1. "RX_DATA_REGISTER," rgroup.long 0xC++0x3 line.long 0x0 "SECAP_CFG_0_RXCTRL,Register to receive control information from the Security Controller" hexmask.long 0x0 1.--31. 1. "RX_CONTROL,31 bits from the security controller Application specific" bitfld.long 0x0 0. "RXDAV,TX Data Available" "0,1" tree.end tree "DEBUGSS_WRAP0_SECAP1 (DEBUGSS_WRAP0_SECAP1)" base ad:0x740002600 group.long 0x0++0xB line.long 0x0 "SECAP_CFG_1_TXDATA,Data value to send to security controller. Apllication specific" hexmask.long 0x0 0.--31. 1. "TX_DATA_REGISTER," line.long 0x4 "SECAP_CFG_1_TXCTRL,Register to send control information to the Security Controller. Application specific" hexmask.long 0x4 1.--31. 1. "TX_CONTROL,31 bits to send to security controller Application specific" rbitfld.long 0x4 0. "TXDAV,TX Data Available" "0,1" line.long 0x8 "SECAP_CFG_1_RXDATA,Data value from the security controller. Apllication specific" hexmask.long 0x8 0.--31. 1. "RX_DATA_REGISTER," rgroup.long 0xC++0x3 line.long 0x0 "SECAP_CFG_1_RXCTRL,Register to receive control information from the Security Controller" hexmask.long 0x0 1.--31. 1. "RX_CONTROL,31 bits from the security controller Application specific" bitfld.long 0x0 0. "RXDAV,TX Data Available" "0,1" tree.end tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "DFTSS0 (DFTSS0)" base ad:0x500000 group.long 0x1E0++0x13 line.long 0x0 "MEM_PACT,This register is equivalent to pbist active in the PBIST controller" bitfld.long 0x0 0. "PACK,Enable to start the fail-processing state machine. At reset diag_clk to all controllers is enabled but it is disabled when 1 is written to this register. If 0 is written to the register at any time processing of failures stops and the combiner.." "0,1" line.long 0x4 "MEM_FAIL_DELAY,This register is equivalent to FDLY in the PBIST controller" hexmask.long.byte 0x4 0.--7. 1. "FDLY,This register makes sure that there is delay between processing fails from different controllers." line.long 0x8 "MEM_PBIST_ID,This register is equivalent to PBIST_ID in the PBIST controller" hexmask.long.byte 0x8 0.--3. 1. "PBISTID,The combiner is treated as a pbist controller. The register is written to when any controllers PBIST_ID registers is written to or when a separate combiners ID is written to." line.long 0xC "MEM_STATUS,This register shows fail status at any time during testing" hexmask.long 0xC 0.--31. 1. "STATUS,Fail values are loaded into this register based on the MASK0 register. If any bit of MASK0 is set to 0 then the corresponding controllers fail signal is set to 1 in the STATUS register. The size of this register is NO_OF_CTL - 1. This register is.." line.long 0x10 "MEM_MASK0,This register is used to determine which controllers are enabled for datalogging" hexmask.long 0x10 0.--31. 1. "ENABLE,This register must be programmed before starting any tests. Each bit with a value of 1 in this 32-bit register enables the corresponding controller for datalogging. This register gates all incoming status signals from controllers. At reset all.." group.long 0x1F0++0x3 line.long 0x0 "MEM_MASK1,This register enables PBIST controllers for ROM testing" hexmask.long 0x0 0.--31. 1. "ENABLE,Must be programmed before kicking off ROM based testing. Each bit with a value of 1 in this 32-bit register enables the corresponding ROM interface. This register gates tmode_pbist_rom signal. At reset all controllers are enabled for ROM-based.." group.long 0x1F0++0x3 line.long 0x0 "MEM_MASK2,This register enables pbist controllers for VLCT reads" hexmask.long 0x0 0.--31. 1. "EANBLE,Must be programmed before asserting read for any of the controllers. Each bit with a value of 1 in this 32-bit register enables the read request for the corresponding controller. You can consider the register as one-hot as only one controller can.." tree.end tree "DMASS0" base ad:0x0 tree "DMASS0_BCDMA_0_BCDMA" tree "DMASS0_BCDMA_0_BCDMA_BCHAN (DMASS0_BCDMA_0_BCDMA_BCHAN)" base ad:0x48420000 group.long 0x0++0x3 line.long 0x0 "BCDMA_BCHAN_CFG,The Channel Configuration Register is used to initialize static mode settings for the Block Copy DMA channel. This register may only be written when the channel is disabled (tx_enable in realtime control reg is 0)." bitfld.long 0x0 31. "PAUSE_ON_ERR,Pause On Error: this field controls what the channel will do if an error or exception occurs during a data transfer. This field is encoded as follows: 0 = Channel will drop current work and move on 1 = Channel will pause and wait for SW to.." "0: Channel will drop current work and move on,1: Channel will pause and wait for SW to.." hexmask.long.byte 0x0 16.--19. 1. "CHAN_TYPE,Channel Type: this field controls and / or indicates the functional channel type for this channel and the work passing mechanism that the channel uses for communicating with the Host. Available channel types are as follows: 0-11 = RESERVED 12.." newline bitfld.long 0x0 10.--11. "BURST_SIZE,Specifies the nominal burst size and alignment for data transfers on this channel. 0 = 32 Bytes 1 = 64 Bytes All other values are reserved The optimal burst size setting is 64 Bytes to maximize utilization of the channel FIFOs." "0: 32 Bytes,1: 64 Bytes All other values are reserved The..,?,?" group.long 0x64++0x3 line.long 0x0 "BCDMA_BCHAN_PRI_CTRL,The priority control register is used to control the priority of the transactions which the DMA generates on it's initiator interface." bitfld.long 0x0 28.--30. "PRIORITY,Priority: This field contains the 3-bit value which will be output on the mem*_cpriority and mem_cepriority outputs during all transactions for this channel." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 0.--3. 1. "ORDERID,Order ID: This field contains the 4-bit value which will be output on the mem*_corderid output during all transactions for this channel." group.long 0x80++0x3 line.long 0x0 "BCDMA_BCHAN_ST_SCHED,The Channel N Static Scheduler Configuration Register contains static configuration information which affects the conditions under which each channel will be given an opportunity to use the Tx DMA unit(s). The fields in this.." bitfld.long 0x0 0.--1. "PRIORITY,Scheduling Priority: These bits select which scheduling bin the channel will be placed in for bandwidth allocation of the Tx/Rx DMA units. This field is encoded as follows: 0 = High priority 1 = Medium - high priority 2 = Medium - low priority.." "0: High priority,1: Medium,2: Medium,3: Low priority Arbitration between bins is.." tree.end tree "DMASS0_BCDMA_0_BCDMA_BCHANRT (DMASS0_BCDMA_0_BCDMA_BCHANRT)" base ad:0x4C000000 group.long 0x0++0x3 line.long 0x0 "BCDMA_BCHANRT_TRT_CTL,The Tx Channel Realtime Control Register contains real-time control and status information for the Tx DMA channel. The fields in this register can safely be changed while the channel is in operation." bitfld.long 0x0 31. "TX_ENABLE,This field enables or disables the channel. Disabling a channel halts operation on the channel after the current block transfer is completed. Disabling a channel in the middle of a packet transfer may result in underflow conditions in the.." "0: channel is disabled,1: channel is enabled This field will be cleared by.." bitfld.long 0x0 30. "TX_TEARDOWN,Channel teardown: Setting this bit will request the channel to be torn down. This field will remain set after a channel teardown is complete." "0,1" bitfld.long 0x0 29. "TX_PAUSE,Channel pause: Setting this bit will cause the channel to pause processing immediately." "0,1" newline bitfld.long 0x0 28. "TX_FORCED_TEARDOWN,Channel forced teardown: Setting this bit will cause the channel to stop waiting on trigger events. When this bit is set the implementation may choose to bypass data transfers and event generation. This bit is a modifier to the.." "0,1" rbitfld.long 0x0 0. "TX_ERROR,Channel error: This bit will be set anytime an error has occurred on the channel. This bit is cleared by writing back a 0." "0,1" group.long 0x8++0x3 line.long 0x0 "BCDMA_BCHANRT_TRT_SWTRIG,The Software Trigger Register provides a mechanism by which software can directly trigger the channel in a secure way. This register is only used when the tx_chan_type is configured as a Third Party DMA channel. This register.." bitfld.long 0x0 0. "TRIGGER,Trigger: writing this bit with a value of 1 will cause the trigger event to be sent to this channel" "0,1" rgroup.long 0x40++0xF line.long 0x0 "BCDMA_BCHANRT_TRT_STATUS0,The Status Register provides a read only view of channel status bits." bitfld.long 0x0 31. "TRING_PEND,The channel ring has a descriptor" "0,1" bitfld.long 0x0 30. "TXQ_PEND,The channel fifo is available" "0,1" bitfld.long 0x0 29. "PKTID_AVAIL,The channel has an available packet id" "0,1" newline bitfld.long 0x0 28. "PKTID_BUSY,There is an outstanding pktid for the channel" "0,1" bitfld.long 0x0 25. "BUSY,The channel is busy" "0,1" bitfld.long 0x0 24. "TRANSBUSY,The channel has an outstanding transaction" "0,1" newline bitfld.long 0x0 23. "IN_PACKET,The channel is currently in a packet" "0,1" bitfld.long 0x0 22. "OK,The channel is ready to be scheduled" "0,1" bitfld.long 0x0 21. "WAVAIL,The fifo for the channel has space to place a burst size entry" "0,1" newline bitfld.long 0x0 18. "TDOWN_MSG_PEND,A teardown message is pending" "0,1" bitfld.long 0x0 17. "TX_REQS,The channel is sending a schedule request" "0,1" bitfld.long 0x0 16. "ERR_EVENT_REQS,The channel is trying to schedule an error event" "0,1" line.long 0x4 "BCDMA_BCHANRT_TRT_STATUS1,The Status Register provides a read only view of channel status bits." bitfld.long 0x4 31. "TX_REQS,The channel is sending a schedule request" "0,1" bitfld.long 0x4 24. "WAVAIL,The fifo has space for a burst size" "0,1" bitfld.long 0x4 8. "TDNULL,Channel is trying to teardown and has met conditions" "0,1" newline bitfld.long 0x4 7. "CHANNEL_OK,Channel is trying to schedule a transaction" "0,1" bitfld.long 0x4 6. "CHANNEL_BUSY,The channel is active" "0,1" bitfld.long 0x4 3. "IN_PACKET_ARRAY,The channel is in a packet" "0,1" line.long 0x8 "BCDMA_BCHANRT_TRT_STATUS2,The Status Register provides a read only view of channel status bits." bitfld.long 0x8 31. "RRING_PEND,The channel ring has a descriptor" "0,1" bitfld.long 0x8 30. "RXQ_PEND,The channel fifo is available" "0,1" bitfld.long 0x8 29. "PKTID_AVAIL,The channel has an available packet id" "0,1" newline bitfld.long 0x8 28. "PKTID_BUSY,There is an outstanding pktid for the channel" "0,1" bitfld.long 0x8 25. "BUSY,The channel is busy" "0,1" bitfld.long 0x8 24. "TRANSBUSY,The channel has an outstanding transaction" "0,1" newline bitfld.long 0x8 23. "IN_PACKET,The channel is currently in a packet" "0,1" bitfld.long 0x8 22. "OK,The channel is ready to be scheduled" "0,1" bitfld.long 0x8 21. "WAVAIL,The fifo for the channel has space to place a burst size entry" "0,1" newline bitfld.long 0x8 18. "TDOWN_MSG_PEND,A teardown message is pending" "0,1" bitfld.long 0x8 17. "RX_REQS,The channel is sending a schedule request" "0,1" bitfld.long 0x8 16. "ERR_EVENT_REQS,The channel is trying to schedule an error event" "0,1" line.long 0xC "BCDMA_BCHANRT_TRT_STATUS3,The Status Register provides a read only view of channel status bits." bitfld.long 0xC 31. "RX_REQS,The channel is sending a schedule request" "0,1" bitfld.long 0xC 25. "FIFO_PEND,The FIFO has enough data for a burst" "0,1" bitfld.long 0xC 24. "FIFO_BUSY,The fifo has data" "0,1" group.long 0x80++0x3 line.long 0x0 "BCDMA_BCHANRT_TRT_STDATA,The State Data Registers contain the current working state of the Tx DMA channel. These registers are provided so that the Host can determine the potential cause of an error or exception condition which was reported by the.." hexmask.long 0x0 0.--31. 1. "STATE_INFO," group.long 0x100++0x3 line.long 0x0 "BCDMA_BCHANRT_RRT_STDATA,The State Data Registers contain the current working state of the Rx DMA channel. These registers are provided so that the Host can determine the potential cause of an error or exception condition which was reported by the.." hexmask.long 0x0 0.--31. 1. "STATE_INFO," group.long 0x400++0x3 line.long 0x0 "BCDMA_BCHANRT_TRT_PCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x0 0.--31. 1. "PCNT,Current completed packet count for the channel." group.long 0x408++0x3 line.long 0x0 "BCDMA_BCHANRT_TRT_BCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x0 0.--31. 1. "BCNT,Current completed payload byte count for the channel." group.long 0x410++0x3 line.long 0x0 "BCDMA_BCHANRT_TRT_SBCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x0 0.--31. 1. "SBCNT,Current started byte count for the channel." tree.end tree "DMASS0_BCDMA_0_BCDMA_CRED (DMASS0_BCDMA_0_BCDMA_CRED)" base ad:0x45812000 group.long 0x0++0x3 line.long 0x0 "BCDMA_CRED_CRED_CRED,The Credentials Register provides credentials to be used when performing memory accesses using this flow." bitfld.long 0x0 26. "SECURE,Secure attribute" "0,1" bitfld.long 0x0 24.--25. "PRIV,Privelege attribute" "0,1,2,3" hexmask.long.byte 0x0 16.--23. 1. "PRIVID,Privelege ID attribute" tree.end tree "DMASS0_BCDMA_0_BCDMA_GCFG (DMASS0_BCDMA_0_BCDMA_GCFG)" base ad:0x485C0100 rgroup.long 0x0++0x3 line.long 0x0 "BCDMA_GCFG_REVISION,The Revision Register contains the major and minor revisions for the module." hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID field" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "REVMAJ,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor revision" group.long 0x4++0x7 line.long 0x0 "BCDMA_GCFG_PERF_CTRL,The performance control register contains fields which can be used to adjust the performance of the BCDMA in the system." hexmask.long.word 0x0 0.--15. 1. "TIMEOUT_CNT,This feature is not currently supported." line.long 0x4 "BCDMA_GCFG_EMU_CTRL,The emulation control register is used to control the behavior of the DMA when the emususp input is asserted." bitfld.long 0x4 1. "SOFT,Soft" "0,1" bitfld.long 0x4 0. "FREE,Free" "0,1" group.long 0x10++0x3 line.long 0x0 "BCDMA_GCFG_PSIL_TO,The PSI-L proxy timeout register controls the timeout watchdog and reports timeout occurrances on PSI-L configuration transactions issued by the built in PSI-L proxy." bitfld.long 0x0 31. "TOUT,Timeout occurred. When set indicates that a timeout has occurred on a config access" "0,1" hexmask.long.word 0x0 0.--15. 1. "TOUT_CNT,Timeout period. Specifies how many cycles to wait before closing up a conifiguration read or write transaction and asserting the tout bit" rgroup.long 0x20++0x13 line.long 0x0 "BCDMA_GCFG_CAP0,The Capabilities Register 0 specifies which standard features this BCDMA instance supports." bitfld.long 0x0 19. "GLOBAL_TRIG,Global triggers 0 and 1 are supported" "0,1" bitfld.long 0x0 18. "LOCAL_TRIG,Dedicated local trigger is supported" "0,1" bitfld.long 0x0 17. "EOL,EOL field is supported" "0,1" bitfld.long 0x0 16. "STATIC,STATIC field is supported" "0,1" bitfld.long 0x0 15. "TYPE15,Type 15 TR is supported" "0,1" newline bitfld.long 0x0 14. "TYPE14,Type 14 TR is supported" "0,1" bitfld.long 0x0 13. "TYPE13,Type 13 TR is supported" "0,1" bitfld.long 0x0 12. "TYPE12,Type 12 TR is supported" "0,1" bitfld.long 0x0 11. "TYPE11,Type 11 TR is supported" "0,1" bitfld.long 0x0 10. "TYPE10,Type 10 TR is supported" "0,1" newline bitfld.long 0x0 9. "TYPE9,Type 9 TR is supported" "0,1" bitfld.long 0x0 8. "TYPE8,Type 8 TR is supported" "0,1" bitfld.long 0x0 7. "TYPE7,Type 7 TR is supported" "0,1" bitfld.long 0x0 6. "TYPE6,Type 6 TR is supported" "0,1" bitfld.long 0x0 5. "TYPE5,Type 5 TR is supported" "0,1" newline bitfld.long 0x0 4. "TYPE4,Type 4 TR is supported" "0,1" bitfld.long 0x0 3. "TYPE3,Type 3 TR is supported" "0,1" bitfld.long 0x0 2. "TYPE2,Type 2 TR is supported" "0,1" bitfld.long 0x0 1. "TYPE1,Type 1 TR is supported" "0,1" bitfld.long 0x0 0. "TYPE0,Type 0 TR is supported" "0,1" line.long 0x4 "BCDMA_GCFG_CAP1,The Capabilities Register 1 specifies which standard features this BCDMA instance supports." bitfld.long 0x4 3. "SECTR,Maximum second TR function that is supported" "0,1" bitfld.long 0x4 2. "DFMT,Maximum data reformatting function that is supported" "0,1" bitfld.long 0x4 1. "ELTYPE,Maximum element type value that is supported." "0,1" bitfld.long 0x4 0. "AMODE,The maximum AMODE that is supported. If AMODE is supported then DIR field must be supported for that AMODE." "0,1" line.long 0x8 "BCDMA_GCFG_CAP2,The Capabilities Register 2 specifies how many resources this BCDMA instance supports." hexmask.long.word 0x8 18.--26. 1. "RCHAN_CNT,Rx split channel count" hexmask.long.word 0x8 9.--17. 1. "TCHAN_CNT,Tx split channel count" hexmask.long.word 0x8 0.--8. 1. "CHAN_CNT,BC channel count" line.long 0xC "BCDMA_GCFG_CAP3,The Capabilities Register 3 specifies how many resources this BCDMA instance supports." hexmask.long.word 0xC 23.--31. 1. "UCHAN_CNT,BC ultra high capacity internal channel count" hexmask.long.word 0xC 14.--22. 1. "HCHAN_CNT,BC high capacity internal channel count" line.long 0x10 "BCDMA_GCFG_CAP4,The Capabilities Register 4 specifies how many resources this BCDMA instance supports." hexmask.long.byte 0x10 24.--31. 1. "TUCHAN_CNT,TX ultra high capacity internal channel count" hexmask.long.byte 0x10 16.--23. 1. "THCHAN_CNT,TX high capacity internal channel count" hexmask.long.byte 0x10 8.--15. 1. "RUCHAN_CNT,RX ultra high capacity internal channel count" hexmask.long.byte 0x10 0.--7. 1. "RHCHAN_CNT,RX high capacity internal channel count" group.long 0x60++0x7 line.long 0x0 "BCDMA_GCFG_PM0,This register enables or inhibits automatic clock gating to individual sub-blocks" hexmask.long.tbyte 0x0 15.--31. 1. "NOGATE_RSVD4,Reserved PM signals." bitfld.long 0x0 14. "NOGATE_RDEC2,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 12.--13. "NOGATE_RSVD3,Reserved PM signals." "0,1,2,3" bitfld.long 0x0 11. "NOGATE_SDEC3,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 8.--10. "NOGATE_RSVD2,Reserved PM signals." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 7. "NOGATE_WARB3,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 4.--6. "NOGATE_RSVD1,Reserved PM signals." "0,1,2,3,4,5,6,7" bitfld.long 0x0 3. "NOGATE_CARB3,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 2. "NOGATE_CARB2,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 0.--1. "NOGATE_RSVD0,Reserved PM signals." "0,1,2,3" line.long 0x4 "BCDMA_GCFG_PM1,This register enables or inhibits automatic clock gating to individual sub-blocks" bitfld.long 0x4 31. "NOGATE_EDC,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 30. "NOGATE_STATS,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 29. "NOGATE_PROXY,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 28. "NOGATE_PSILIF,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 27. "NOGATE_P2P,When set inhibits automatic gating of clock." "0,1" newline bitfld.long 0x4 26. "NOGATE_RSVD8,Reserved PM signals." "0,1" bitfld.long 0x4 25. "NOGATE_EHANDLER,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 24. "NOGATE_RINGOCC,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 23. "NOGATE_RPCF,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 22. "NOGATE_TPCF,When set inhibits automatic gating of clock." "0,1" newline bitfld.long 0x4 21. "NOGATE_PCF,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 19.--20. "NOGATE_RSVD7,Reserved PM signals." "0,1,2,3" bitfld.long 0x4 18. "NOGATE_CFG,When set inhibits automatic gating of clock." "0,1" hexmask.long.byte 0x4 11.--17. 1. "NOGATE_RSVD6,Reserved PM signals." bitfld.long 0x4 10. "NOGATE_TRCU,When set inhibits automatic gating of clock." "0,1" newline bitfld.long 0x4 9. "NOGATE_RSVD5,Reserved PM signals." "0,1" bitfld.long 0x4 8. "NOGATE_EVTCU,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 7. "NOGATE_RWU3,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 6. "NOGATE_RWU2,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 5. "NOGATE_RWU1,When set inhibits automatic gating of clock." "0,1" newline bitfld.long 0x4 4. "NOGATE_RWU0,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 3. "NOGATE_TRU3,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 2. "NOGATE_TRU2,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 1. "NOGATE_TRU1,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 0. "NOGATE_TRU0,When set inhibits automatic gating of clock." "0,1" group.long 0x78++0x7 line.long 0x0 "BCDMA_GCFG_DBGA,This register provides a writable address which allows debug information to be read from the Debug Data Register" bitfld.long 0x0 31. "DBG_EN,Debug enable" "0,1" hexmask.long.byte 0x0 8.--15. 1. "DBG_UNIT,Selects which unit to read debug information from" hexmask.long.byte 0x0 0.--7. 1. "DBG_ADDR,Selects offset within unit to access seperate debug registers" line.long 0x4 "BCDMA_GCFG_DBGD,This register provides read only debug data" hexmask.long 0x4 0.--31. 1. "DBG_DATA,Provides debug information from various internal units. The value which is read back depends on which unit and register are selected in the Debug Address Register" tree.end tree "DMASS0_BCDMA_0_BCDMA_RCHAN (DMASS0_BCDMA_0_BCDMA_RCHAN)" base ad:0x484C2000 group.long 0x0++0x3 line.long 0x0 "BCDMA_RCHAN_RCFG,The Rx Channel Configuration Register is used to initialize static mode settings for the Rx DMA channel. This register may only be written when the channel is disabled (rx_enable in realtime control reg is 0)." bitfld.long 0x0 31. "RX_PAUSE_ON_ERR,Pause On Error: this field controls what the channel will do if an error or exception occurs during a data transfer. This field is encoded as follows: 0 = Channel will drop current work and move on 1 = Channel will pause and wait for SW.." "0: Channel will drop current work and move on,1: Channel will pause and wait for SW to.." newline hexmask.long.byte 0x0 16.--19. 1. "RX_CHAN_TYPE,Rx Channel Type: this field controls and / or indicates the functional channel type for this channel and the work passing mechanism that the channel uses for communicating with the Host. Available channel types are as follows: 0-9 =.." newline bitfld.long 0x0 14. "RX_IGNORE_LONG,This field controls whether or not long packets will be treated as exceptions or ignored for the channel. This field is only used when the channel is in split UTC mode. The values are encoded as follows: 0 = Long packets are treated as.." "0: Long packets are treated as exceptions and..,1: Long packets are ignored and the next TR will be.." newline bitfld.long 0x0 10.--11. "RX_BURST_SIZE,Specifies the nominal burst size and alignment for data transfers on this channel. 0 = 32 Bytes 1 = 64 Bytes only if the channel buffer size is greater than 128 bytes All other values are reserved The optimal burst size setting is 64 Bytes.." "0: 32 Bytes,1: 64 Bytes only if the channel buffer size is..,?,?" group.long 0x64++0x7 line.long 0x0 "BCDMA_RCHAN_RPRI_CTRL,The priority control register is used to control the priority of the transactions which the DMA generates on it's initiator interface." bitfld.long 0x0 28.--30. "PRIORITY,Rx Priority: This field contains the 3-bit value which will be output on the mem*_cpriority and mem*_cepriority outputs during all transactions for this channel." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--3. 1. "ORDERID,Rx Order ID: This field contains the 4-bit value which will be output on the mem*_corderid output during all transactions for this channel." line.long 0x4 "BCDMA_RCHAN_RTHRD_ID,The thread ID mapping register is used to pair the Rx DMA channel to a specific destination thread. All traffic generated from this channel will be sent with a thread_id on the PSI-L interface with the value from this register." hexmask.long.word 0x4 0.--15. 1. "THREAD_ID,Thread ID: This field contains the (up-to) 16-bit value which will be output on the strm_o_thread_id output during all transactions for this channel." group.long 0x80++0x3 line.long 0x0 "BCDMA_RCHAN_RST_SCHED,The Rx Channel N Static Scheduler Configuration Register contains static configuration information which affects the conditions under which each channel will be given an opportunity to use the Tx DMA unit(s). The fields in this.." bitfld.long 0x0 0.--1. "PRIORITY,Rx Scheduling Priority: These bits select which scheduling bin the channel will be placed in for bandwidth allocation of the Rx DMA units. This field is encoded as follows: 0 = High priority 1 = Medium - high priority 2 = Medium - low priority.." "0: High priority,1: Medium,2: Medium,3: Low priority Arbitration between bins is.." tree.end tree "DMASS0_BCDMA_0_BCDMA_RCHANRT (DMASS0_BCDMA_0_BCDMA_RCHANRT)" base ad:0x4A820000 group.long 0x0++0x3 line.long 0x0 "BCDMA_RCHANRT_RRT_CTL,The Rx Channel Realtime Control Register contains real-time control and status information for the Rx DMA channel. The fields in this register can safely be changed while the channel is in operation." bitfld.long 0x0 31. "RX_ENABLE,This field enables or disables the channel. Disabling a channel halts operation on the channel after the current block transfer is completed. Disabling a channel in the middle of a packet transfer may result in overflow conditions in the.." "0: channel is disabled,1: channel is enabled This field will be cleared by.." bitfld.long 0x0 30. "RX_TEARDOWN,This field indicates whether or not an Rx teardown operation is complete. This field should be cleared when a channel is initialized. This field will be set after a channel teardown is complete." "0,1" bitfld.long 0x0 29. "RX_PAUSE,Channel pause: Setting this bit will cause the channel to pause processing immediately." "0,1" newline bitfld.long 0x0 28. "RX_FORCED_TEARDOWN,Channel forced teardown: Setting this bit will cause the channel to stop waiting on trigger events. When this bit is set the implementation may choose to bypass data transfers and event generation. This bit is a modifier to the.." "0,1" rbitfld.long 0x0 1. "RX_STARVATION,Rx starvation. This bit is set if the port receives a packet and the ring is empty. The bit clears when the doorbell is written with a positive value." "0,1" rbitfld.long 0x0 0. "RX_ERROR,Channel error: This bit will be set anytime an error has occurred on the channel. This bit is cleared when the channel is disabled and re-enabled." "0,1" group.long 0x8++0x3 line.long 0x0 "BCDMA_RCHANRT_RRT_SWTRIG,The Software Trigger Register provides a mechanism by which software can directly trigger the channel in a secure way. This register is only used when the tx_chan_type is configured as a Third Party DMA channel. This register.." bitfld.long 0x0 0. "TRIGGER,Trigger: writing this bit with a value of 1 will cause the trigger event to be sent to this channel" "0,1" rgroup.long 0x40++0x7 line.long 0x0 "BCDMA_RCHANRT_RRT_STATUS0,The Status Register provides a read only view of channel status bits." bitfld.long 0x0 31. "RRING_PEND,The channel ring has a descriptor" "0,1" bitfld.long 0x0 30. "RXQ_PEND,The channel fifo is available" "0,1" bitfld.long 0x0 29. "PKTID_AVAIL,The channel has an available packet id" "0,1" newline bitfld.long 0x0 28. "PKTID_BUSY,There is an outstanding pktid for the channel" "0,1" bitfld.long 0x0 25. "BUSY,The channel is busy" "0,1" bitfld.long 0x0 24. "TRANSBUSY,The channel has an outstanding transaction" "0,1" newline bitfld.long 0x0 23. "IN_PACKET,The channel is currently in a packet" "0,1" bitfld.long 0x0 22. "OK,The channel is ready to be scheduled" "0,1" bitfld.long 0x0 21. "WAVAIL,The fifo for the channel has space to place a burst size entry" "0,1" newline bitfld.long 0x0 18. "TDOWN_MSG_PEND,A teardown message is pending" "0,1" bitfld.long 0x0 17. "RX_REQS,The channel is sending a schedule request" "0,1" bitfld.long 0x0 16. "ERR_EVENT_REQS,The channel is trying to schedule an error event" "0,1" line.long 0x4 "BCDMA_RCHANRT_RRT_STATUS1,The Status Register provides a read only view of channel status bits." bitfld.long 0x4 31. "RX_REQS,The channel is sending a schedule request" "0,1" bitfld.long 0x4 25. "FIFO_PEND,The FIFO has enough data for a burst" "0,1" bitfld.long 0x4 24. "FIFO_BUSY,The fifo has data" "0,1" newline bitfld.long 0x4 7. "CHANNEL_OK,Channel is trying to send data" "0,1" bitfld.long 0x4 6. "CHANNEL_BUSY,Channel has active transactions" "0,1" bitfld.long 0x4 3. "IN_PACKET_ARRAY,The channel is in a packet" "0,1" group.long 0x80++0x3 line.long 0x0 "BCDMA_RCHANRT_RRT_STDATA,The State Data Registers contain the current working state of the Rx DMA channel. These registers are provided so that the Host can determine the potential cause of an error or exception condition which was reported by the.." hexmask.long 0x0 0.--31. 1. "STATE_INFO," group.long 0x200++0x3F line.long 0x0 "BCDMA_RCHANRT_RRT_PEER0,This register provides access to the remote peer's realtime register at 0x400." hexmask.long 0x0 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x4 "BCDMA_RCHANRT_RRT_PEER1,This register provides access to the remote peer's realtime register at 0x401." hexmask.long 0x4 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x8 "BCDMA_RCHANRT_RRT_PEER2,This register provides access to the remote peer's realtime register at 0x402." hexmask.long 0x8 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0xC "BCDMA_RCHANRT_RRT_PEER3,This register provides access to the remote peer's realtime register at 0x403." hexmask.long 0xC 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x10 "BCDMA_RCHANRT_RRT_PEER4,This register provides access to the remote peer's realtime register at 0x404." hexmask.long 0x10 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x14 "BCDMA_RCHANRT_RRT_PEER5,This register provides access to the remote peer's realtime register at 0x405." hexmask.long 0x14 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x18 "BCDMA_RCHANRT_RRT_PEER6,This register provides access to the remote peer's realtime register at 0x406." hexmask.long 0x18 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x1C "BCDMA_RCHANRT_RRT_PEER7,This register provides access to the remote peer's realtime register at 0x407." hexmask.long 0x1C 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x20 "BCDMA_RCHANRT_RRT_PEER8,This register provides access to the remote peer's realtime register at 0x408." hexmask.long 0x20 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x24 "BCDMA_RCHANRT_RRT_PEER9,This register provides access to the remote peer's realtime register at 0x409." hexmask.long 0x24 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x28 "BCDMA_RCHANRT_RRT_PEER10,This register provides access to the remote peer's realtime register at 0x40A." hexmask.long 0x28 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x2C "BCDMA_RCHANRT_RRT_PEER11,This register provides access to the remote peer's realtime register at 0x40B." hexmask.long 0x2C 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x30 "BCDMA_RCHANRT_RRT_PEER12,This register provides access to the remote peer's realtime register at 0x40C." hexmask.long 0x30 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x34 "BCDMA_RCHANRT_RRT_PEER13,This register provides access to the remote peer's realtime register at 0x40D." hexmask.long 0x34 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x38 "BCDMA_RCHANRT_RRT_PEER14,This register provides access to the remote peer's realtime register at 0x40E." hexmask.long 0x38 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x3C "BCDMA_RCHANRT_RRT_PEER15,This register provides access to the remote peer's realtime register at 0x40F." hexmask.long 0x3C 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." group.long 0x400++0x3 line.long 0x0 "BCDMA_RCHANRT_RRT_PCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x0 0.--31. 1. "PCNT,Current completed packet count for the channel." group.long 0x408++0x3 line.long 0x0 "BCDMA_RCHANRT_RRT_BCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x0 0.--31. 1. "BCNT,Current completed payload byte count for the channel." group.long 0x410++0x3 line.long 0x0 "BCDMA_RCHANRT_RRT_SBCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x0 0.--31. 1. "SBCNT,Current started byte count for the channel." tree.end tree "DMASS0_BCDMA_0_BCDMA_RING (DMASS0_BCDMA_0_BCDMA_RING)" base ad:0x48600000 group.long 0x40++0xB line.long 0x0 "BCDMA_RING_BA_LO,The Ring Base Address Lo Register contains the 32 LSBs of the base address for the ring which is used to hand off pending work for the channel from the Host. The base address must be aligned to 0x8. A write to this register will reset.." hexmask.long 0x0 0.--31. 1. "ADDR_LO,Ring base address (LSBs)" line.long 0x4 "BCDMA_RING_BA_HI,The Ring Base Address Hi Register contains the 16 MSBs of the base address for the ring which is used to hand off pending work for the channel from the Host. The base address must be aligned to 0x8. A write to this register will reset.." hexmask.long.byte 0x4 16.--19. 1. "ASEL,Ring base address select" hexmask.long.byte 0x4 0.--3. 1. "ADDR_HI,Ring base address (MSBs)" line.long 0x8 "BCDMA_RING_SIZE,The Ring Size Register contains the element count for the ring which is used to hand off pending work for the channel from the Host. A write to this register will reset the associated ring to clear the occupancies and reset the pointers." bitfld.long 0x8 29.--31. "QMODE,Defines the mode for this ring or queue." "0,1,2,3,4,5,6,7" bitfld.long 0x8 24.--26. "RING_ELSIZE," "0,1,2,3,4,5,6,7" hexmask.long.word 0x8 0.--15. 1. "SIZE,Tx Ring element count. This field configures the size of the ring in elements." tree.end tree "DMASS0_BCDMA_0_BCDMA_RINGRT (DMASS0_BCDMA_0_BCDMA_RINGRT)" base ad:0x4BC00000 group.long 0x10++0x3 line.long 0x0 "BCDMA_RINGRT_RT_FDB,The Ring N Doorbell Register is written by software to increment or decrement the number of entries on a Ring. One or more entries as specified by the entry_cnt field can be added to a ring with a single write operation." hexmask.long.byte 0x0 0.--7. 1. "ENTRY_CNT,Signed number of entries by which to increment the ring occupancy. For normal Tx Ring operation this value should be a positive number. This occ value for the ring is increased by this value each time the doorbell register is written (occ.." group.long 0x18++0x3 line.long 0x0 "BCDMA_RINGRT_RT_FOCC,The Ring N Occupancy Register can be read by software to determine the total number of valid entries on a ring. The contents of each of these registers are unary ORed in order to create a pending signal for the ring which can be.." hexmask.long.tbyte 0x0 0.--16. 1. "OCC,Total number of valid entries on the ring. This value is generally intended to be incremented by doorbell pokes from software and is decremented by the DMA engine as entries are completed." group.long 0x1010++0x3 line.long 0x0 "BCDMA_RINGRT_RT_RDB,The Ring N Doorbell Register is written by software to increment or decrement the number of entries on a Ring. One or more entries as specified by the entry_cnt field can be added to a ring with a single write operation." bitfld.long 0x0 31. "TDOWN_ACK,This bit is set to 1 to ackowledge (and clear) the tdown_complete bit in the corresponding Ring N Occupancy Register. this bit is only valid on the reverse rings (rings consumed by the Host SW)" "0,1" hexmask.long.byte 0x0 0.--7. 1. "ENTRY_CNT,Signed number of entries by which to increment the ring occupancy. For normal Tx Ring operation this value should be a positive number. This occ value for the ring is increased by this value each time the doorbell register is written (occ.." group.long 0x1018++0x3 line.long 0x0 "BCDMA_RINGRT_RT_ROCC,The Ring N Occupancy Register can be read by software to determine the total number of valid entries on a ring. The contents of each of these registers are unary ORed in order to create a pending signal for the ring which can be.." bitfld.long 0x0 31. "TDOWN_COMPLETE,This bit when set indicates that a teardown is complete on the channel. This bit is cleared anytime the tdown_ack bit is written as a 1 in the corresponding Ring N Doorbell Register. This bit is only valid on the reverse rings (rings.." "0,1" hexmask.long.tbyte 0x0 0.--16. 1. "OCC,Total number of valid entries on the ring. This value is generally intended to be incremented by doorbell pokes from software and is decremented by the DMA engine as entries are completed." tree.end tree "DMASS0_BCDMA_0_BCDMA_TCHAN (DMASS0_BCDMA_0_BCDMA_TCHAN)" base ad:0x484A4000 group.long 0x0++0x3 line.long 0x0 "BCDMA_TCHAN_TCFG,The Tx Channel Configuration Register is used to initialize static mode settings for the Tx DMA channel. This register may only be written when the channel is disabled (tx_enable in realtime control reg is 0)." bitfld.long 0x0 31. "TX_PAUSE_ON_ERR,Pause On Error: this field controls what the channel will do if an error or exception occurs during a data transfer. This field is encoded as follows: 0 = Channel will drop current work and move on 1 = Channel will pause and wait for SW.." "0: Channel will drop current work and move on,1: Channel will pause and wait for SW to.." newline hexmask.long.byte 0x0 16.--19. 1. "TX_CHAN_TYPE,Channel Type: this field controls and / or indicates the functional channel type for this channel and the work passing mechanism that the channel uses for communicating with the Host. Available channel types are as follows: 0-9 = RESERVED.." newline bitfld.long 0x0 10.--11. "TX_BURST_SIZE,Specifies the nominal burst size and alignment for data transfers on this channel. 0 = 32 Bytes 1 = 64 Bytes All other values are reserved The optimal burst size setting is 64 Bytes to maximize utilization of the channel FIFOs." "0: 32 Bytes,1: 64 Bytes All other values are reserved The..,?,?" newline bitfld.long 0x0 9. "TX_TDTYPE,Specifies whether or not the channel should immediately return a teardown completion response to the default completion queue or wait until a status message is returned from the remote PSI-L paired peripheral. 0 = return immediately once all.." "0: return immediately once all traffic is complete..,1: wait until remote peer sends back a completion.." newline bitfld.long 0x0 8. "TX_NOTDPKT,Specifies whether or not the channel should suppress sending the single data phase teardown packet when teardown is complete. 0 = TD packet is sent 1 = Suppress sending TD packet" "0: TD packet is sent,1: Suppress sending TD packet" group.long 0x64++0x7 line.long 0x0 "BCDMA_TCHAN_TPRI_CTRL,The priority control register is used to control the priority of the transactions which the DMA generates on it's initiator interface." bitfld.long 0x0 28.--30. "PRIORITY,Tx Priority: This field contains the 3-bit value which will be output on the mem*_cpriority and mem_cepriority outputs during all transactions for this channel." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--3. 1. "ORDERID,Tx Order ID: This field contains the 4-bit value which will be output on the mem*_corderid output during all transactions for this channel." line.long 0x4 "BCDMA_TCHAN_TTHRD_ID,The thread ID mapping register is used to pair the Tx DMA channel to a specific destination thread. All traffic generated from this channel will be sent with a thread_id on the PSI-L interface with the value from this register." hexmask.long.word 0x4 0.--15. 1. "THREAD_ID,Thread ID: This field contains the (up-to) 16-bit value which will be output on the strm_o_thread_id output during all transactions for this channel." group.long 0x70++0x3 line.long 0x0 "BCDMA_TCHAN_TFIFO_DEPTH,The fifo depth register is used to specify how many FIFO data phases deep the Tx per channel FIFO will be for the channel. While the maximum depth of the Tx FIFO is set at design time. the FIFO depth can be artificially reduced.." hexmask.long.byte 0x0 0.--7. 1. "FDEPTH,FIFO Depth: This field contains the number of Tx FIFO bytes which will be allowed to be stored for the channel. The minimum value is equal to the PSI-L interface data path width (tstrm_wdth) the maximum value varies by channel class (ultra-high.." group.long 0x80++0x3 line.long 0x0 "BCDMA_TCHAN_TST_SCHED,The Tx Channel N Static Scheduler Configuration Register contains static configuration information which affects the conditions under which each channel will be given an opportunity to use the Tx DMA unit(s). The fields in this.." bitfld.long 0x0 0.--1. "PRIORITY,Tx Scheduling Priority: These bits select which scheduling bin the channel will be placed in for bandwidth allocation of the Tx DMA units. This field is encoded as follows: 0 = High priority 1 = Medium - high priority 2 = Medium - low priority.." "0: High priority,1: Medium,2: Medium,3: Low priority Arbitration between bins is.." tree.end tree "DMASS0_BCDMA_0_BCDMA_TCHANRT (DMASS0_BCDMA_0_BCDMA_TCHANRT)" base ad:0x4AA40000 group.long 0x0++0x3 line.long 0x0 "BCDMA_TCHANRT_TRT_CTL,The Tx Channel Realtime Control Register contains real-time control and status information for the Tx DMA channel. The fields in this register can safely be changed while the channel is in operation." bitfld.long 0x0 31. "TX_ENABLE,This field enables or disables the channel. Disabling a channel halts operation on the channel after the current block transfer is completed. Disabling a channel in the middle of a packet transfer may result in underflow conditions in the.." "0: channel is disabled,1: channel is enabled This field will be cleared by.." bitfld.long 0x0 30. "TX_TEARDOWN,Channel teardown: Setting this bit will request the channel to be torn down. This field will remain set after a channel teardown is complete." "0,1" bitfld.long 0x0 29. "TX_PAUSE,Channel pause: Setting this bit will cause the channel to pause processing immediately." "0,1" newline bitfld.long 0x0 28. "TX_FORCED_TEARDOWN,Channel forced teardown: Setting this bit will cause the channel to stop waiting on trigger events. When this bit is set the implementation may choose to bypass data transfers and event generation. This bit is a modifier to the.." "0,1" rbitfld.long 0x0 0. "TX_ERROR,Channel error: This bit will be set anytime an error has occurred on the channel. This bit is cleared by writing back a 0." "0,1" group.long 0x8++0x3 line.long 0x0 "BCDMA_TCHANRT_TRT_SWTRIG,The Software Trigger Register provides a mechanism by which software can directly trigger the channel in a secure way. This register is only used when the tx_chan_type is configured as a Third Party DMA channel. This register.." bitfld.long 0x0 0. "TRIGGER,Trigger: writing this bit with a value of 1 will cause the trigger event to be sent to this channel" "0,1" rgroup.long 0x40++0x7 line.long 0x0 "BCDMA_TCHANRT_TRT_STATUS0,The Status Register provides a read only view of channel status bits." bitfld.long 0x0 31. "TRING_PEND,The channel ring has a descriptor" "0,1" bitfld.long 0x0 30. "TXQ_PEND,The channel fifo is available" "0,1" bitfld.long 0x0 29. "PKTID_AVAIL,The channel has an available packet id" "0,1" newline bitfld.long 0x0 28. "PKTID_BUSY,There is an outstanding pktid for the channel" "0,1" bitfld.long 0x0 25. "BUSY,The channel is busy" "0,1" bitfld.long 0x0 24. "TRANSBUSY,The channel has an outstanding transaction" "0,1" newline bitfld.long 0x0 23. "IN_PACKET,The channel is currently in a packet" "0,1" bitfld.long 0x0 22. "OK,The channel is ready to be scheduled" "0,1" bitfld.long 0x0 21. "WAVAIL,The fifo for the channel has space to place a burst size entry" "0,1" newline bitfld.long 0x0 18. "TDOWN_MSG_PEND,A teardown message is pending" "0,1" bitfld.long 0x0 17. "TX_REQS,The channel is sending a schedule request" "0,1" bitfld.long 0x0 16. "ERR_EVENT_REQS,The channel is trying to schedule an error event" "0,1" line.long 0x4 "BCDMA_TCHANRT_TRT_STATUS1,The Status Register provides a read only view of channel status bits." bitfld.long 0x4 31. "TX_REQS,The channel is sending a schedule request" "0,1" bitfld.long 0x4 24. "WAVAIL,The fifo has space for a burst size" "0,1" bitfld.long 0x4 8. "TDNULL,The channel has met the conditions to do teardown" "0,1" newline bitfld.long 0x4 7. "CHANNEL_OK,Channel is trying to schedule work" "0,1" bitfld.long 0x4 6. "CHANNEL_BUSY,Channel has outstanding work to do" "0,1" bitfld.long 0x4 3. "IN_PACKET_ARRAY,The channel is in a packet" "0,1" group.long 0x80++0x3 line.long 0x0 "BCDMA_TCHANRT_TRT_STDATA,The State Data Registers contain the current working state of the Tx DMA channel. These registers are provided so that the Host can determine the potential cause of an error or exception condition which was reported by the.." hexmask.long 0x0 0.--31. 1. "STATE_INFO," group.long 0x200++0x3F line.long 0x0 "BCDMA_TCHANRT_TRT_PEER0,This register provides access to the remote peer's realtime register at 0x400." hexmask.long 0x0 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x4 "BCDMA_TCHANRT_TRT_PEER1,This register provides access to the remote peer's realtime register at 0x401." hexmask.long 0x4 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x8 "BCDMA_TCHANRT_TRT_PEER2,This register provides access to the remote peer's realtime register at 0x402." hexmask.long 0x8 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0xC "BCDMA_TCHANRT_TRT_PEER3,This register provides access to the remote peer's realtime register at 0x403." hexmask.long 0xC 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x10 "BCDMA_TCHANRT_TRT_PEER4,This register provides access to the remote peer's realtime register at 0x404." hexmask.long 0x10 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x14 "BCDMA_TCHANRT_TRT_PEER5,This register provides access to the remote peer's realtime register at 0x405." hexmask.long 0x14 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x18 "BCDMA_TCHANRT_TRT_PEER6,This register provides access to the remote peer's realtime register at 0x406." hexmask.long 0x18 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x1C "BCDMA_TCHANRT_TRT_PEER7,This register provides access to the remote peer's realtime register at 0x407." hexmask.long 0x1C 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x20 "BCDMA_TCHANRT_TRT_PEER8,This register provides access to the remote peer's realtime register at 0x408." hexmask.long 0x20 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x24 "BCDMA_TCHANRT_TRT_PEER9,This register provides access to the remote peer's realtime register at 0x409." hexmask.long 0x24 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x28 "BCDMA_TCHANRT_TRT_PEER10,This register provides access to the remote peer's realtime register at 0x40A." hexmask.long 0x28 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x2C "BCDMA_TCHANRT_TRT_PEER11,This register provides access to the remote peer's realtime register at 0x40B." hexmask.long 0x2C 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x30 "BCDMA_TCHANRT_TRT_PEER12,This register provides access to the remote peer's realtime register at 0x40C." hexmask.long 0x30 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x34 "BCDMA_TCHANRT_TRT_PEER13,This register provides access to the remote peer's realtime register at 0x40D." hexmask.long 0x34 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x38 "BCDMA_TCHANRT_TRT_PEER14,This register provides access to the remote peer's realtime register at 0x40E." hexmask.long 0x38 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x3C "BCDMA_TCHANRT_TRT_PEER15,This register provides access to the remote peer's realtime register at 0x40F." hexmask.long 0x3C 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." group.long 0x400++0x3 line.long 0x0 "BCDMA_TCHANRT_TRT_PCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x0 0.--31. 1. "PCNT,Current completed packet count for the channel." group.long 0x408++0x3 line.long 0x0 "BCDMA_TCHANRT_TRT_BCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x0 0.--31. 1. "BCNT,Current completed payload byte count for the channel." group.long 0x410++0x3 line.long 0x0 "BCDMA_TCHANRT_TRT_SBCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x0 0.--31. 1. "SBCNT,Current started byte count for the channel." tree.end tree.end tree "DMASS0_ECC_AGGR_0_ECCAGGR (DMASS0_ECC_AGGR_0_ECCAGGR)" base ad:0x3F005000 rgroup.long 0x0++0x3 line.long 0x0 "ECCAGGR_REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECCAGGR_REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECCAGGR_REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECCAGGR_REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECCAGGR_REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECCAGGR_REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 27. "MSRAM_RAMECC0_PEND,Interrupt Pending Status for msram_ramecc0_pend" "0,1" bitfld.long 0x4 26. "SEC_PROXY_BUFRAM_RAMECC_PEND,Interrupt Pending Status for sec_proxy_bufram_ramecc_pend" "0,1" newline bitfld.long 0x4 25. "SEC_PROXY_STRAM_RAMECC_PEND,Interrupt Pending Status for sec_proxy_stram_ramecc_pend" "0,1" bitfld.long 0x4 24. "RINGACC_STRAM_RAMECC_PEND,Interrupt Pending Status for ringacc_stram_ramecc_pend" "0,1" newline bitfld.long 0x4 23. "MAP_RAMECC_PEND,Interrupt Pending Status for map_ramecc_pend" "0,1" bitfld.long 0x4 22. "SR_RAMECC_PEND,Interrupt Pending Status for sr_ramecc_pend" "0,1" newline bitfld.long 0x4 21. "BCDMA_RNGOCC_RAMECC_PEND,Interrupt Pending Status for bcdma_rngocc_ramecc_pend" "0,1" bitfld.long 0x4 20. "BCDMA_STS_RAMECC1_PEND,Interrupt Pending Status for bcdma_sts_ramecc1_pend" "0,1" newline bitfld.long 0x4 19. "BCDMA_STS_RAMECC0_PEND,Interrupt Pending Status for bcdma_sts_ramecc0_pend" "0,1" bitfld.long 0x4 18. "BCDMA_RPCF2_RAMECC_PEND,Interrupt Pending Status for bcdma_rpcf2_ramecc_pend" "0,1" newline bitfld.long 0x4 17. "BCDMA_RPCF1_RAMECC_PEND,Interrupt Pending Status for bcdma_rpcf1_ramecc_pend" "0,1" bitfld.long 0x4 16. "BCDMA_RPCF0_RAMECC_PEND,Interrupt Pending Status for bcdma_rpcf0_ramecc_pend" "0,1" newline bitfld.long 0x4 15. "BCDMA_TPCF1_RAMECC_PEND,Interrupt Pending Status for bcdma_tpcf1_ramecc_pend" "0,1" bitfld.long 0x4 14. "BCDMA_TPCF0_RAMECC_PEND,Interrupt Pending Status for bcdma_tpcf0_ramecc_pend" "0,1" newline bitfld.long 0x4 13. "PCFD1_RAMECC_PEND,Interrupt Pending Status for pcfd1_ramecc_pend" "0,1" bitfld.long 0x4 12. "PCFD0_RAMECC_PEND,Interrupt Pending Status for pcfd0_ramecc_pend" "0,1" newline bitfld.long 0x4 11. "BCDMA_STATE_RAMECC_PEND,Interrupt Pending Status for bcdma_state_ramecc_pend" "0,1" bitfld.long 0x4 10. "BCDMA_CFG_RAMECC_PEND,Interrupt Pending Status for bcdma_cfg_ramecc_pend" "0,1" newline bitfld.long 0x4 9. "PKTDMA_RNGOCC_RAMECC_PEND,Interrupt Pending Status for pktdma_rngocc_ramecc_pend" "0,1" bitfld.long 0x4 8. "PKTDMA_STS_RAMECC1_PEND,Interrupt Pending Status for pktdma_sts_ramecc1_pend" "0,1" newline bitfld.long 0x4 7. "PKTDMA_STS_RAMECC0_PEND,Interrupt Pending Status for pktdma_sts_ramecc0_pend" "0,1" bitfld.long 0x4 6. "PKTDMA_RPCF2_RAMECC_PEND,Interrupt Pending Status for pktdma_rpcf2_ramecc_pend" "0,1" newline bitfld.long 0x4 5. "PKTDMA_RPCF1_RAMECC_PEND,Interrupt Pending Status for pktdma_rpcf1_ramecc_pend" "0,1" bitfld.long 0x4 4. "PKTDMA_RPCF0_RAMECC_PEND,Interrupt Pending Status for pktdma_rpcf0_ramecc_pend" "0,1" newline bitfld.long 0x4 3. "PKTDMA_TPCF1_RAMECC_PEND,Interrupt Pending Status for pktdma_tpcf1_ramecc_pend" "0,1" bitfld.long 0x4 2. "PKTDMA_TPCF0_RAMECC_PEND,Interrupt Pending Status for pktdma_tpcf0_ramecc_pend" "0,1" newline bitfld.long 0x4 1. "PKTDMA_STATE_RAMECC_PEND,Interrupt Pending Status for pktdma_state_ramecc_pend" "0,1" bitfld.long 0x4 0. "PKTDMA_CFG_RAMECC_PEND,Interrupt Pending Status for pktdma_cfg_ramecc_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECCAGGR_REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 27. "MSRAM_RAMECC0_ENABLE_SET,Interrupt Enable Set Register for msram_ramecc0_pend" "0,1" bitfld.long 0x0 26. "SEC_PROXY_BUFRAM_RAMECC_ENABLE_SET,Interrupt Enable Set Register for sec_proxy_bufram_ramecc_pend" "0,1" newline bitfld.long 0x0 25. "SEC_PROXY_STRAM_RAMECC_ENABLE_SET,Interrupt Enable Set Register for sec_proxy_stram_ramecc_pend" "0,1" bitfld.long 0x0 24. "RINGACC_STRAM_RAMECC_ENABLE_SET,Interrupt Enable Set Register for ringacc_stram_ramecc_pend" "0,1" newline bitfld.long 0x0 23. "MAP_RAMECC_ENABLE_SET,Interrupt Enable Set Register for map_ramecc_pend" "0,1" bitfld.long 0x0 22. "SR_RAMECC_ENABLE_SET,Interrupt Enable Set Register for sr_ramecc_pend" "0,1" newline bitfld.long 0x0 21. "BCDMA_RNGOCC_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_rngocc_ramecc_pend" "0,1" bitfld.long 0x0 20. "BCDMA_STS_RAMECC1_ENABLE_SET,Interrupt Enable Set Register for bcdma_sts_ramecc1_pend" "0,1" newline bitfld.long 0x0 19. "BCDMA_STS_RAMECC0_ENABLE_SET,Interrupt Enable Set Register for bcdma_sts_ramecc0_pend" "0,1" bitfld.long 0x0 18. "BCDMA_RPCF2_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_rpcf2_ramecc_pend" "0,1" newline bitfld.long 0x0 17. "BCDMA_RPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_rpcf1_ramecc_pend" "0,1" bitfld.long 0x0 16. "BCDMA_RPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_rpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 15. "BCDMA_TPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_tpcf1_ramecc_pend" "0,1" bitfld.long 0x0 14. "BCDMA_TPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_tpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 13. "PCFD1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pcfd1_ramecc_pend" "0,1" bitfld.long 0x0 12. "PCFD0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pcfd0_ramecc_pend" "0,1" newline bitfld.long 0x0 11. "BCDMA_STATE_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_state_ramecc_pend" "0,1" bitfld.long 0x0 10. "BCDMA_CFG_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_cfg_ramecc_pend" "0,1" newline bitfld.long 0x0 9. "PKTDMA_RNGOCC_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_rngocc_ramecc_pend" "0,1" bitfld.long 0x0 8. "PKTDMA_STS_RAMECC1_ENABLE_SET,Interrupt Enable Set Register for pktdma_sts_ramecc1_pend" "0,1" newline bitfld.long 0x0 7. "PKTDMA_STS_RAMECC0_ENABLE_SET,Interrupt Enable Set Register for pktdma_sts_ramecc0_pend" "0,1" bitfld.long 0x0 6. "PKTDMA_RPCF2_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_rpcf2_ramecc_pend" "0,1" newline bitfld.long 0x0 5. "PKTDMA_RPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_rpcf1_ramecc_pend" "0,1" bitfld.long 0x0 4. "PKTDMA_RPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_rpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 3. "PKTDMA_TPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_tpcf1_ramecc_pend" "0,1" bitfld.long 0x0 2. "PKTDMA_TPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_tpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 1. "PKTDMA_STATE_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_state_ramecc_pend" "0,1" bitfld.long 0x0 0. "PKTDMA_CFG_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_cfg_ramecc_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECCAGGR_REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 27. "MSRAM_RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for msram_ramecc0_pend" "0,1" bitfld.long 0x0 26. "SEC_PROXY_BUFRAM_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for sec_proxy_bufram_ramecc_pend" "0,1" newline bitfld.long 0x0 25. "SEC_PROXY_STRAM_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for sec_proxy_stram_ramecc_pend" "0,1" bitfld.long 0x0 24. "RINGACC_STRAM_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for ringacc_stram_ramecc_pend" "0,1" newline bitfld.long 0x0 23. "MAP_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for map_ramecc_pend" "0,1" bitfld.long 0x0 22. "SR_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for sr_ramecc_pend" "0,1" newline bitfld.long 0x0 21. "BCDMA_RNGOCC_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_rngocc_ramecc_pend" "0,1" bitfld.long 0x0 20. "BCDMA_STS_RAMECC1_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_sts_ramecc1_pend" "0,1" newline bitfld.long 0x0 19. "BCDMA_STS_RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_sts_ramecc0_pend" "0,1" bitfld.long 0x0 18. "BCDMA_RPCF2_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_rpcf2_ramecc_pend" "0,1" newline bitfld.long 0x0 17. "BCDMA_RPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_rpcf1_ramecc_pend" "0,1" bitfld.long 0x0 16. "BCDMA_RPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_rpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 15. "BCDMA_TPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_tpcf1_ramecc_pend" "0,1" bitfld.long 0x0 14. "BCDMA_TPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_tpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 13. "PCFD1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pcfd1_ramecc_pend" "0,1" bitfld.long 0x0 12. "PCFD0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pcfd0_ramecc_pend" "0,1" newline bitfld.long 0x0 11. "BCDMA_STATE_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_state_ramecc_pend" "0,1" bitfld.long 0x0 10. "BCDMA_CFG_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_cfg_ramecc_pend" "0,1" newline bitfld.long 0x0 9. "PKTDMA_RNGOCC_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_rngocc_ramecc_pend" "0,1" bitfld.long 0x0 8. "PKTDMA_STS_RAMECC1_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_sts_ramecc1_pend" "0,1" newline bitfld.long 0x0 7. "PKTDMA_STS_RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_sts_ramecc0_pend" "0,1" bitfld.long 0x0 6. "PKTDMA_RPCF2_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_rpcf2_ramecc_pend" "0,1" newline bitfld.long 0x0 5. "PKTDMA_RPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_rpcf1_ramecc_pend" "0,1" bitfld.long 0x0 4. "PKTDMA_RPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_rpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 3. "PKTDMA_TPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_tpcf1_ramecc_pend" "0,1" bitfld.long 0x0 2. "PKTDMA_TPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_tpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 1. "PKTDMA_STATE_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_state_ramecc_pend" "0,1" bitfld.long 0x0 0. "PKTDMA_CFG_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_cfg_ramecc_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECCAGGR_REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECCAGGR_REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 27. "MSRAM_RAMECC0_PEND,Interrupt Pending Status for msram_ramecc0_pend" "0,1" bitfld.long 0x4 26. "SEC_PROXY_BUFRAM_RAMECC_PEND,Interrupt Pending Status for sec_proxy_bufram_ramecc_pend" "0,1" newline bitfld.long 0x4 25. "SEC_PROXY_STRAM_RAMECC_PEND,Interrupt Pending Status for sec_proxy_stram_ramecc_pend" "0,1" bitfld.long 0x4 24. "RINGACC_STRAM_RAMECC_PEND,Interrupt Pending Status for ringacc_stram_ramecc_pend" "0,1" newline bitfld.long 0x4 23. "MAP_RAMECC_PEND,Interrupt Pending Status for map_ramecc_pend" "0,1" bitfld.long 0x4 22. "SR_RAMECC_PEND,Interrupt Pending Status for sr_ramecc_pend" "0,1" newline bitfld.long 0x4 21. "BCDMA_RNGOCC_RAMECC_PEND,Interrupt Pending Status for bcdma_rngocc_ramecc_pend" "0,1" bitfld.long 0x4 20. "BCDMA_STS_RAMECC1_PEND,Interrupt Pending Status for bcdma_sts_ramecc1_pend" "0,1" newline bitfld.long 0x4 19. "BCDMA_STS_RAMECC0_PEND,Interrupt Pending Status for bcdma_sts_ramecc0_pend" "0,1" bitfld.long 0x4 18. "BCDMA_RPCF2_RAMECC_PEND,Interrupt Pending Status for bcdma_rpcf2_ramecc_pend" "0,1" newline bitfld.long 0x4 17. "BCDMA_RPCF1_RAMECC_PEND,Interrupt Pending Status for bcdma_rpcf1_ramecc_pend" "0,1" bitfld.long 0x4 16. "BCDMA_RPCF0_RAMECC_PEND,Interrupt Pending Status for bcdma_rpcf0_ramecc_pend" "0,1" newline bitfld.long 0x4 15. "BCDMA_TPCF1_RAMECC_PEND,Interrupt Pending Status for bcdma_tpcf1_ramecc_pend" "0,1" bitfld.long 0x4 14. "BCDMA_TPCF0_RAMECC_PEND,Interrupt Pending Status for bcdma_tpcf0_ramecc_pend" "0,1" newline bitfld.long 0x4 13. "PCFD1_RAMECC_PEND,Interrupt Pending Status for pcfd1_ramecc_pend" "0,1" bitfld.long 0x4 12. "PCFD0_RAMECC_PEND,Interrupt Pending Status for pcfd0_ramecc_pend" "0,1" newline bitfld.long 0x4 11. "BCDMA_STATE_RAMECC_PEND,Interrupt Pending Status for bcdma_state_ramecc_pend" "0,1" bitfld.long 0x4 10. "BCDMA_CFG_RAMECC_PEND,Interrupt Pending Status for bcdma_cfg_ramecc_pend" "0,1" newline bitfld.long 0x4 9. "PKTDMA_RNGOCC_RAMECC_PEND,Interrupt Pending Status for pktdma_rngocc_ramecc_pend" "0,1" bitfld.long 0x4 8. "PKTDMA_STS_RAMECC1_PEND,Interrupt Pending Status for pktdma_sts_ramecc1_pend" "0,1" newline bitfld.long 0x4 7. "PKTDMA_STS_RAMECC0_PEND,Interrupt Pending Status for pktdma_sts_ramecc0_pend" "0,1" bitfld.long 0x4 6. "PKTDMA_RPCF2_RAMECC_PEND,Interrupt Pending Status for pktdma_rpcf2_ramecc_pend" "0,1" newline bitfld.long 0x4 5. "PKTDMA_RPCF1_RAMECC_PEND,Interrupt Pending Status for pktdma_rpcf1_ramecc_pend" "0,1" bitfld.long 0x4 4. "PKTDMA_RPCF0_RAMECC_PEND,Interrupt Pending Status for pktdma_rpcf0_ramecc_pend" "0,1" newline bitfld.long 0x4 3. "PKTDMA_TPCF1_RAMECC_PEND,Interrupt Pending Status for pktdma_tpcf1_ramecc_pend" "0,1" bitfld.long 0x4 2. "PKTDMA_TPCF0_RAMECC_PEND,Interrupt Pending Status for pktdma_tpcf0_ramecc_pend" "0,1" newline bitfld.long 0x4 1. "PKTDMA_STATE_RAMECC_PEND,Interrupt Pending Status for pktdma_state_ramecc_pend" "0,1" bitfld.long 0x4 0. "PKTDMA_CFG_RAMECC_PEND,Interrupt Pending Status for pktdma_cfg_ramecc_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECCAGGR_REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 27. "MSRAM_RAMECC0_ENABLE_SET,Interrupt Enable Set Register for msram_ramecc0_pend" "0,1" bitfld.long 0x0 26. "SEC_PROXY_BUFRAM_RAMECC_ENABLE_SET,Interrupt Enable Set Register for sec_proxy_bufram_ramecc_pend" "0,1" newline bitfld.long 0x0 25. "SEC_PROXY_STRAM_RAMECC_ENABLE_SET,Interrupt Enable Set Register for sec_proxy_stram_ramecc_pend" "0,1" bitfld.long 0x0 24. "RINGACC_STRAM_RAMECC_ENABLE_SET,Interrupt Enable Set Register for ringacc_stram_ramecc_pend" "0,1" newline bitfld.long 0x0 23. "MAP_RAMECC_ENABLE_SET,Interrupt Enable Set Register for map_ramecc_pend" "0,1" bitfld.long 0x0 22. "SR_RAMECC_ENABLE_SET,Interrupt Enable Set Register for sr_ramecc_pend" "0,1" newline bitfld.long 0x0 21. "BCDMA_RNGOCC_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_rngocc_ramecc_pend" "0,1" bitfld.long 0x0 20. "BCDMA_STS_RAMECC1_ENABLE_SET,Interrupt Enable Set Register for bcdma_sts_ramecc1_pend" "0,1" newline bitfld.long 0x0 19. "BCDMA_STS_RAMECC0_ENABLE_SET,Interrupt Enable Set Register for bcdma_sts_ramecc0_pend" "0,1" bitfld.long 0x0 18. "BCDMA_RPCF2_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_rpcf2_ramecc_pend" "0,1" newline bitfld.long 0x0 17. "BCDMA_RPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_rpcf1_ramecc_pend" "0,1" bitfld.long 0x0 16. "BCDMA_RPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_rpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 15. "BCDMA_TPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_tpcf1_ramecc_pend" "0,1" bitfld.long 0x0 14. "BCDMA_TPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_tpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 13. "PCFD1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pcfd1_ramecc_pend" "0,1" bitfld.long 0x0 12. "PCFD0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pcfd0_ramecc_pend" "0,1" newline bitfld.long 0x0 11. "BCDMA_STATE_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_state_ramecc_pend" "0,1" bitfld.long 0x0 10. "BCDMA_CFG_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_cfg_ramecc_pend" "0,1" newline bitfld.long 0x0 9. "PKTDMA_RNGOCC_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_rngocc_ramecc_pend" "0,1" bitfld.long 0x0 8. "PKTDMA_STS_RAMECC1_ENABLE_SET,Interrupt Enable Set Register for pktdma_sts_ramecc1_pend" "0,1" newline bitfld.long 0x0 7. "PKTDMA_STS_RAMECC0_ENABLE_SET,Interrupt Enable Set Register for pktdma_sts_ramecc0_pend" "0,1" bitfld.long 0x0 6. "PKTDMA_RPCF2_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_rpcf2_ramecc_pend" "0,1" newline bitfld.long 0x0 5. "PKTDMA_RPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_rpcf1_ramecc_pend" "0,1" bitfld.long 0x0 4. "PKTDMA_RPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_rpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 3. "PKTDMA_TPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_tpcf1_ramecc_pend" "0,1" bitfld.long 0x0 2. "PKTDMA_TPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_tpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 1. "PKTDMA_STATE_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_state_ramecc_pend" "0,1" bitfld.long 0x0 0. "PKTDMA_CFG_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_cfg_ramecc_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECCAGGR_REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 27. "MSRAM_RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for msram_ramecc0_pend" "0,1" bitfld.long 0x0 26. "SEC_PROXY_BUFRAM_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for sec_proxy_bufram_ramecc_pend" "0,1" newline bitfld.long 0x0 25. "SEC_PROXY_STRAM_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for sec_proxy_stram_ramecc_pend" "0,1" bitfld.long 0x0 24. "RINGACC_STRAM_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for ringacc_stram_ramecc_pend" "0,1" newline bitfld.long 0x0 23. "MAP_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for map_ramecc_pend" "0,1" bitfld.long 0x0 22. "SR_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for sr_ramecc_pend" "0,1" newline bitfld.long 0x0 21. "BCDMA_RNGOCC_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_rngocc_ramecc_pend" "0,1" bitfld.long 0x0 20. "BCDMA_STS_RAMECC1_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_sts_ramecc1_pend" "0,1" newline bitfld.long 0x0 19. "BCDMA_STS_RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_sts_ramecc0_pend" "0,1" bitfld.long 0x0 18. "BCDMA_RPCF2_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_rpcf2_ramecc_pend" "0,1" newline bitfld.long 0x0 17. "BCDMA_RPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_rpcf1_ramecc_pend" "0,1" bitfld.long 0x0 16. "BCDMA_RPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_rpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 15. "BCDMA_TPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_tpcf1_ramecc_pend" "0,1" bitfld.long 0x0 14. "BCDMA_TPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_tpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 13. "PCFD1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pcfd1_ramecc_pend" "0,1" bitfld.long 0x0 12. "PCFD0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pcfd0_ramecc_pend" "0,1" newline bitfld.long 0x0 11. "BCDMA_STATE_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_state_ramecc_pend" "0,1" bitfld.long 0x0 10. "BCDMA_CFG_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_cfg_ramecc_pend" "0,1" newline bitfld.long 0x0 9. "PKTDMA_RNGOCC_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_rngocc_ramecc_pend" "0,1" bitfld.long 0x0 8. "PKTDMA_STS_RAMECC1_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_sts_ramecc1_pend" "0,1" newline bitfld.long 0x0 7. "PKTDMA_STS_RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_sts_ramecc0_pend" "0,1" bitfld.long 0x0 6. "PKTDMA_RPCF2_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_rpcf2_ramecc_pend" "0,1" newline bitfld.long 0x0 5. "PKTDMA_RPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_rpcf1_ramecc_pend" "0,1" bitfld.long 0x0 4. "PKTDMA_RPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_rpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 3. "PKTDMA_TPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_tpcf1_ramecc_pend" "0,1" bitfld.long 0x0 2. "PKTDMA_TPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_tpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 1. "PKTDMA_STATE_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_state_ramecc_pend" "0,1" bitfld.long 0x0 0. "PKTDMA_CFG_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_cfg_ramecc_pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECCAGGR_REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECCAGGR_REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECCAGGR_REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECCAGGR_REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end base ad:0x0 tree "DMASS0_INTAGGR_0_INTAGGR" tree "DMASS0_INTAGGR_0_INTAGGR_CFG (DMASS0_INTAGGR_0_INTAGGR_CFG)" base ad:0x48110000 rgroup.quad 0x0++0x17 line.quad 0x0 "INTAGGR_CFG_REVISION,The Revision Register contains the major and minor revisions for the module." hexmask.quad.word 0x0 16.--31. 1. "MODID,Module ID field" hexmask.quad.byte 0x0 11.--15. 1. "REVRTL,RTL revision. Will vary depending on release." bitfld.quad 0x0 8.--10. "REVMAJ,Major revision" "0,1,2,3,4,5,6,7" bitfld.quad 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.quad.byte 0x0 0.--5. 1. "REVMIN,Minor revision" line.quad 0x8 "INTAGGR_CFG_INTCAP,The IntCap Register contains information on virtual interrupts." hexmask.quad.word 0x8 16.--31. 1. "VINTR_CNT,Virtual interrupt register/pin count" hexmask.quad.word 0x8 0.--15. 1. "SEVT_CNT,Number of 'event to virt int' mapping registers" line.quad 0x10 "INTAGGR_CFG_AUXCAP,The AuxCap Register contains information on additional capabilities." hexmask.quad.word 0x10 48.--63. 1. "UNMAP_CNT,Number of multicast event registers. Not all registers in the range are necessarily valid." hexmask.quad.word 0x10 32.--47. 1. "MEVI_CNT,Number of multicast event registers" hexmask.quad.word 0x10 16.--31. 1. "LEVI_CNT,Local input events for local to global translation" hexmask.quad.word 0x10 0.--15. 1. "GEVI_CNT,Number of event counting registers" tree.end tree "DMASS0_INTAGGR_0_INTAGGR_GCNTCFG (DMASS0_INTAGGR_0_INTAGGR_GCNTCFG)" base ad:0x48220000 group.quad 0x0++0x7 line.quad 0x0 "INTAGGR_GCNTCFG_map,The Global Event Mapping register controls the egress global event index for this event count. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "GEVIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." tree.end tree "DMASS0_INTAGGR_0_INTAGGR_GCNTRTI (DMASS0_INTAGGR_0_INTAGGR_GCNTRTI)" base ad:0x4A000000 group.quad 0x0++0x7 line.quad 0x0 "INTAGGR_GCNTRTI_count,The ETL Count register is read by software to determine how many times the event message has been received. This register can be written to decrement the count by a specified amount to acknowledge that a count has been processed by.." hexmask.quad.long 0x0 0.--31. 1. "CCNT,Current count. This field is incremented by the event count for each message received with this event on the Counted ETL Interface. On write this field will be decremented by the value written. Writing a value greater than the current count is.." tree.end tree "DMASS0_INTAGGR_0_INTAGGR_IMAP (DMASS0_INTAGGR_0_INTAGGR_IMAP)" base ad:0x48100000 group.quad 0x0++0x7 line.quad 0x0 "INTAGGR_IMAP_INTMAP,The Interrupt Mapping Register controls which of N virtual interrupt source outputs this channels physical interrupt sources will map onto." hexmask.quad.word 0x0 8.--16. 1. "REGNUM,Virtual interrupt status register number: this field specifies which of the potential virtual interrupt cause registers the event pending bit will appear in." hexmask.quad.byte 0x0 0.--5. 1. "BITNUM,Virtual interrupt cause register bit number: this field specifies which of the 64 bits in the specified virtual interrupt cause register the event pending bit will appear in." tree.end tree "DMASS0_INTAGGR_0_INTAGGR_INTR (DMASS0_INTAGGR_0_INTAGGR_INTR)" base ad:0x48000000 group.quad 0x0++0x27 line.quad 0x0 "INTAGGR_INTR_ENABLE_SET,The Interrupt Enable Set register is written by software to enable (i.e. unmask) specified bits to allow their current status to be considered in the generation of the corresponding level sensitive virtual interrupt output." hexmask.quad 0x0 0.--63. 1. "INTR_ENABLE,Interrupt enable set value. On writes set bits will cause corresponding bits in the internal interrupt enable register to be set. Reads will reflect back the current status of the internal interrupt enable register." line.quad 0x8 "INTAGGR_INTR_ENABLE_CLR,The Interrupt Enable Clear register is written by software to disable (i.e. mask) specified bits to disallow their current status from be considered in the generation of the corresponding level sensitive virtual interrupt output." hexmask.quad 0x8 0.--63. 1. "INTR_ENABLE,Interrupt enable clear value. On writes set bits will cause corresponding bits in the internal interrupt enable register to be cleared. Reads will reflect back the current status of the internal interrupt enable register." line.quad 0x10 "INTAGGR_INTR_STATUS_SET,The Interrupt Status register is read by software to determine the cause of an interrupt." hexmask.quad 0x10 0.--63. 1. "INTR_STATUS,Raw state (not enabled/masked) of bits in internal interrupt status register. Writing a 1 to any bit of this register will cause the corresponding raw status bit to be set" line.quad 0x18 "INTAGGR_INTR_STATUS,The Interrupt Status register is read by software to determine the cause of an interrupt." hexmask.quad 0x18 0.--63. 1. "INTR_STATUS,Raw state (not enabled/masked) of bits in internal interrupt status register. Writing a 1 to any bit of this register will cause the corresponding raw status bit to be cleared" line.quad 0x20 "INTAGGR_INTR_STATUS_MSKD,The Interrupt Masked Status register can be read by software to determine the cause of an interrupt." hexmask.quad 0x20 0.--63. 1. "INTR_STATUSM,Masked state of bits in internal interrupt status register. This value is the result of bitwise ANDing the interrupt enable and status registers" tree.end tree "DMASS0_INTAGGR_0_INTAGGR_L2G (DMASS0_INTAGGR_0_INTAGGR_L2G)" base ad:0x48120000 group.quad 0x0++0x7 line.quad 0x0 "INTAGGR_L2G_map,This register determines how the ordinal local event is translated to a global event on the outgoing event transport lane. Both pulse and rising edge local event types are supported. With pulsed events. the event count is determined by.." bitfld.quad 0x0 31. "MODE,Local event detection mode. This field is set to 0 for pulsed events and to 1 for rising edge eventss" "0,1" hexmask.quad.word 0x0 0.--15. 1. "GEVIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." tree.end tree "DMASS0_INTAGGR_0_INTAGGR_MCAST (DMASS0_INTAGGR_0_INTAGGR_MCAST)" base ad:0x48210000 group.quad 0x0++0x7 line.quad 0x0 "INTAGGR_MCAST_mcmap,This register determines how ingress global events from the ingress global event ETL are written out to the two egress global event ETL intefaces. The index of each of the two egress events is stored in this register. which is.." bitfld.quad 0x0 63. "IRQMODE1,IRQ Mode Flag 1. When set this register act like a mapper with bitnum in 37:32 and regnum in 46:38." "0,1" hexmask.quad.word 0x0 32.--47. 1. "GEVIDX1,Global event index 1. This field specifies the index of the outgoing global event on ETL 1. Set to 0xFFFF to disable." bitfld.quad 0x0 31. "IRQMODE0,IRQ Mode Flag 0. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "GEVIDX0,Global event index 0. This field specifies the index of the outgoing global event on ETL 0. Set to 0xFFFF to disable." tree.end tree "DMASS0_INTAGGR_0_INTAGGR_UNMAP (DMASS0_INTAGGR_0_INTAGGR_UNMAP)" base ad:0x48180000 group.quad 0x8000++0x7 line.quad 0x0 "INTAGGR_UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." group.quad 0x9000++0x7 line.quad 0x0 "INTAGGR_UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." group.quad 0xA000++0x7 line.quad 0x0 "INTAGGR_UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." group.quad 0xB000++0x7 line.quad 0x0 "INTAGGR_UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." group.quad 0xC000++0x7 line.quad 0x0 "INTAGGR_UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." group.quad 0xD000++0x7 line.quad 0x0 "INTAGGR_UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." group.quad 0x10000++0x7 line.quad 0x0 "INTAGGR_UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." group.quad 0x11000++0x7 line.quad 0x0 "INTAGGR_UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." group.quad 0x12000++0x7 line.quad 0x0 "INTAGGR_UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." group.quad 0x13000++0x7 line.quad 0x0 "INTAGGR_UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." group.quad 0x14000++0x7 line.quad 0x0 "INTAGGR_UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." group.quad 0x15000++0x7 line.quad 0x0 "INTAGGR_UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." group.quad 0x16000++0x7 line.quad 0x0 "INTAGGR_UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." group.quad 0x17000++0x7 line.quad 0x0 "INTAGGR_UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." group.quad 0x18000++0x7 line.quad 0x0 "INTAGGR_UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." tree.end tree.end tree "DMASS0_PKTDMA_0_PKTDMA" tree "DMASS0_PKTDMA_0_PKTDMA_CRED (DMASS0_PKTDMA_0_PKTDMA_CRED)" base ad:0x45810000 group.long 0x0++0x3 line.long 0x0 "PKTDMA_CRED_CRED_CRED,The Credentials Register provides credentials to be used when performing memory accesses using this flow." bitfld.long 0x0 31. "CHK_SECURE,Check secure control bit" "0,1" bitfld.long 0x0 26. "SECURE,Secure attribute" "0,1" bitfld.long 0x0 24.--25. "PRIV,Privelege attribute" "0,1,2,3" hexmask.long.byte 0x0 16.--23. 1. "PRIVID,Privelege ID attribute" tree.end tree "DMASS0_PKTDMA_0_PKTDMA_GCFG (DMASS0_PKTDMA_0_PKTDMA_GCFG)" base ad:0x485C0000 rgroup.long 0x0++0x3 line.long 0x0 "PKTDMA_GCFG_REVISION,The Revision Register contains the major and minor revisions for the module." hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID field" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "REVMAJ,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor revision" group.long 0x4++0x7 line.long 0x0 "PKTDMA_GCFG_PERF_CTRL,The performance control register contains fields which can be used to adjust the performance of the PKTDMA in the system." hexmask.long.word 0x0 0.--15. 1. "TIMEOUT_CNT,This feature is not currently supported" line.long 0x4 "PKTDMA_GCFG_EMU_CTRL,The emulation control register is used to control the behavior of the DMA when the emususp input is asserted." bitfld.long 0x4 1. "SOFT,Soft" "0,1" bitfld.long 0x4 0. "FREE,Free" "0,1" group.long 0x10++0x3 line.long 0x0 "PKTDMA_GCFG_PSIL_TO,The PSI-L proxy timeout register controls the timeout watchdog and reports timeout occurrances on PSI-L configuration transactions issued by the built in PSI-L proxy." bitfld.long 0x0 31. "TOUT,Timeout occurred. When set indicates that a timeout has occurred on a config access" "0,1" hexmask.long.word 0x0 0.--15. 1. "TOUT_CNT,Timeout period. Specifies how many cycles to wait before closing up a conifiguration read or write transaction and asserting the tout bit" group.long 0x20++0x7 line.long 0x0 "PKTDMA_GCFG_CAP0,The Capabilities Register 0 specifies which standard features this PKTDMA instance supports." line.long 0x4 "PKTDMA_GCFG_CAP1,The Capabilities Register 1 specifies which standard features this PKTDMA instance supports." rgroup.long 0x28++0xB line.long 0x0 "PKTDMA_GCFG_CAP2,The Capabilities Register 2 specifies how many resources this PKTDMA instance supports." hexmask.long.word 0x0 18.--26. 1. "RCHAN_CNT,Rx internal channel count" hexmask.long.word 0x0 0.--8. 1. "TCHAN_CNT,Tx internal channel count" line.long 0x4 "PKTDMA_GCFG_CAP3,The Capabilities Register 3 specifies how many resources this PKTDMA instance supports." hexmask.long.word 0x4 23.--31. 1. "UCHAN_CNT,Tx ultra high capacity internal channel count" hexmask.long.word 0x4 14.--22. 1. "HCHAN_CNT,Tx high capacity internal channel count" hexmask.long.word 0x4 0.--13. 1. "RFLOW_CNT,Rx flow table entry count" line.long 0x8 "PKTDMA_GCFG_CAP4,The Capabilities Register 4 specifies how many resources this PKTDMA instance supports." hexmask.long.word 0x8 0.--13. 1. "TFLOW_CNT,Tx flow table entry count" group.long 0x60++0x7 line.long 0x0 "PKTDMA_GCFG_PM0,This register enables or inhibits automatic clock gating to individual sub-blocks" bitfld.long 0x0 31. "NOGATE_RDU3,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 30. "NOGATE_RDU2,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 29. "NOGATE_RDU1,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 28. "NOGATE_RDU0,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 27. "NOGATE_TDU3,When set inhibits automatic gating of clock." "0,1" newline bitfld.long 0x0 26. "NOGATE_TDU2,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 25. "NOGATE_TDU1,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 24. "NOGATE_TDU0,When set inhibits automatic gating of clock." "0,1" hexmask.long.word 0x0 13.--23. 1. "NOGATE_RSVD4,Reserved PM signals." bitfld.long 0x0 12. "NOGATE_RDEC,When set inhibits automatic gating of clock." "0,1" newline bitfld.long 0x0 9.--11. "NOGATE_RSVD3,Reserved PM signals." "0,1,2,3,4,5,6,7" bitfld.long 0x0 8. "NOGATE_SDEC,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 5.--7. "NOGATE_RSVD2,Reserved PM signals." "0,1,2,3,4,5,6,7" bitfld.long 0x0 4. "NOGATE_WARB,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 1.--3. "NOGATE_RSVD1,Reserved PM signals." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 0. "NOGATE_CARB,When set inhibits automatic gating of clock." "0,1" line.long 0x4 "PKTDMA_GCFG_PM1,This register enables or inhibits automatic clock gating to individual sub-blocks" bitfld.long 0x4 31. "NOGATE_RSVD12,Reserved PM signals." "0,1" bitfld.long 0x4 30. "NOGATE_STATS,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 29. "NOGATE_PROXY,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 28. "NOGATE_RSVD11,Reserved PM signals." "0,1" bitfld.long 0x4 27. "NOGATE_P2P,When set inhibits automatic gating of clock." "0,1" newline bitfld.long 0x4 26. "NOGATE_RSVD10,Reserved PM signals." "0,1" bitfld.long 0x4 25. "NOGATE_EHANDLER,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 24. "NOGATE_RINGOCC,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 23. "NOGATE_RSVD9,Reserved PM signals." "0,1" bitfld.long 0x4 22. "NOGATE_TPCF,When set inhibits automatic gating of clock." "0,1" newline bitfld.long 0x4 19.--21. "NOGATE_RSVD8,Reserved PM signals." "0,1,2,3,4,5,6,7" bitfld.long 0x4 18. "NOGATE_CFG,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 16.--17. "NOGATE_RSVD7,Reserved PM signals." "0,1,2,3" bitfld.long 0x4 15. "NOGATE_RFLOWFW,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 14. "NOGATE_RSVD6,Reserved PM signals." "0,1" newline bitfld.long 0x4 13. "NOGATE_RCU,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 12. "NOGATE_TCU,When set inhibits automatic gating of clock." "0,1" hexmask.long.word 0x4 0.--11. 1. "NOGATE_RSVD5,Reserved PM signals." group.long 0x78++0x3 line.long 0x0 "PKTDMA_GCFG_DBGA,This register provides a writable address which allows debug information to be read from the Debug Data Register" bitfld.long 0x0 31. "DBG_EN,Debug enable" "0,1" hexmask.long.byte 0x0 8.--15. 1. "DBG_UNIT,Selects which unit to read debug information from" hexmask.long.byte 0x0 0.--7. 1. "DBG_ADDR,Selects offset within unit to access seperate debug registers" rgroup.long 0x7C++0x3 line.long 0x0 "PKTDMA_GCFG_DBGD,This register provides read only debug data" hexmask.long 0x0 0.--31. 1. "DBG_DATA,Provides debug information from various internal units. The value which is read back depends on which unit and register are selected in the Debug Address Register" group.long 0x88++0x3 line.long 0x0 "PKTDMA_GCFG_RFLOWFWSTAT,The Rx Flow FW Status Register 0 captures information about the thread/channel and received flow ID which failed a range check. Values in this register will remain persistent once an exception has been detected until the pend bit.." bitfld.long 0x0 31. "PEND,This bit is set whenever the Flow ID firewall detects a Flow ID is out of range for an incoming packet. Once this bit is set the remaining fields in this register will not be modified. SW is required to write this bit to 0 to allow another.." "0,1" hexmask.long.word 0x0 16.--29. 1. "FLOWID,This is the flow ID that was received on the trapped packet" hexmask.long.word 0x0 0.--8. 1. "CHANNEL,This is the channel number on which the trapped packet was received" tree.end tree "DMASS0_PKTDMA_0_PKTDMA_RCHAN (DMASS0_PKTDMA_0_PKTDMA_RCHAN)" base ad:0x484C0000 group.long 0x0++0x3 line.long 0x0 "PKTDMA_RCHAN_RCFG,The Rx Channel Configuration Register is used to initialize static mode settings for the Rx DMA channel. This register may only be written when the channel is disabled (rx_enable in realtime control reg is 0)." bitfld.long 0x0 31. "RX_PAUSE_ON_ERR,Pause On Error: this field controls what the channel will do if an error or exception occurs during a data transfer. This field is encoded as follows: 0 = Channel will drop current work and move on 1 = Channel will pause and wait for SW.." "0: Channel will drop current work and move on,1: Channel will pause and wait for SW to.." hexmask.long.byte 0x0 16.--19. 1. "RX_CHAN_TYPE,Rx Channel Type: this field controls and / or indicates the functional channel type for this channel and the work passing mechanism that the channel uses for communicating with the Host. Available channel types are as follows: 2 = Channel.." newline bitfld.long 0x0 10.--11. "RX_BURST_SIZE,Specifies the nominal burst size and alignment for data transfers on this channel. 0 1 = 64 Bytes 2 = 128 Bytes All other values are reserved" "?,1: 64 Bytes,2: 128 Bytes All other values are reserved,?" group.long 0x64++0x7 line.long 0x0 "PKTDMA_RCHAN_RPRI_CTRL,The priority control register is used to control the priority of the transactions which the DMA generates on it's initiator interface." bitfld.long 0x0 28.--30. "PRIORITY,Rx Priority: This field contains the 3-bit value which will be output on the mem*_cpriority and mem*_cepriority outputs during all transactions for this channel." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 0.--3. 1. "ORDERID,Rx Order ID: This field contains the 4-bit value which will be output on the mem*_corderid output during all transactions for this channel." line.long 0x4 "PKTDMA_RCHAN_THRD_ID,The thread ID mapping register is used to pair the Rx DMA channel to a specific destination thread. All traffic generated from this channel will be sent with a thread_id on the PSI-L interface with the value from this register." hexmask.long.word 0x4 0.--15. 1. "THREAD_ID,Thread ID: This field contains the (up-to) 16-bit value which will be output on the strm_o_thread_id output during all transactions for this channel." group.long 0x80++0x3 line.long 0x0 "PKTDMA_RCHAN_RST_SCHED,The Rx Channel N Static Scheduler Configuration Register contains static configuration information which affects the conditions under which each channel will be given an opportunity to use the Tx DMA unit(s). The fields in this.." bitfld.long 0x0 0.--1. "PRIORITY,Rx Scheduling Priority: These bits select which scheduling bin the channel will be placed in for bandwidth allocation of the Rx DMA units. This field is encoded as follows: 0 = High priority 1 = Medium - high priority 2 = Medium - low priority.." "0: High priority,1: Medium,2: Medium,3: Low priority Arbitration between bins is.." tree.end tree "DMASS0_PKTDMA_0_PKTDMA_RCHANRT (DMASS0_PKTDMA_0_PKTDMA_RCHANRT)" base ad:0x4A800000 group.long 0x0++0x3 line.long 0x0 "PKTDMA_RCHANRT_RRT_CTL,The Rx Channel Realtime Control Register contains real-time control and status information for the Rx DMA channel. The fields in this register can safely be changed while the channel is in operation." bitfld.long 0x0 31. "RX_ENABLE,This field enables or disables the channel. Disabling a channel halts operation on the channel after the current block transfer is completed. Disabling a channel in the middle of a packet transfer may result in overflow conditions in the.." "0: channel is disabled,1: channel is enabled This field will be cleared by.." bitfld.long 0x0 30. "RX_TEARDOWN,This field indicates whether or not an Rx teardown operation is complete. This field should be cleared when a channel is initialized. This field will be set after a channel teardown is complete." "0,1" bitfld.long 0x0 29. "RX_PAUSE,Channel pause: Setting this bit will cause the channel to pause processing immediately." "0,1" bitfld.long 0x0 0. "RX_ERROR,Channel error: This bit will be set anytime an error has occurred on the channel. This bit is cleared when the channel is disabled and re-enabled." "0,1" rgroup.long 0x40++0x7 line.long 0x0 "PKTDMA_RCHANRT_RRT_STATUS0,The Status Register provides a read only view of channel status bits." bitfld.long 0x0 31. "RRING_PEND,The channel ring has a descriptor" "0,1" bitfld.long 0x0 30. "RXQ_PEND,The channel fifo is available" "0,1" bitfld.long 0x0 29. "PKTID_AVAIL,The channel has an available packet id" "0,1" bitfld.long 0x0 28. "PKTID_BUSY,There is an outstanding pktid for the channel" "0,1" newline bitfld.long 0x0 25. "BUSY,The channel is busy" "0,1" bitfld.long 0x0 24. "TRANSBUSY,The channel has an outstanding transaction" "0,1" bitfld.long 0x0 23. "IN_PACKET,The channel is currently in a packet" "0,1" bitfld.long 0x0 22. "OK,The channel is ready to be scheduled" "0,1" newline bitfld.long 0x0 21. "WAVAIL,The fifo for the channel has space to place a burst size entry" "0,1" bitfld.long 0x0 18. "TDOWN_MSG_PEND,A teardown message is pending" "0,1" bitfld.long 0x0 17. "RX_REQS,The channel is sending a schedule request" "0,1" bitfld.long 0x0 16. "ERR_EVENT_REQS,The channel is trying to schedule an error event" "0,1" line.long 0x4 "PKTDMA_RCHANRT_RRT_STATUS1,The Status Register provides a read only view of channel status bits." bitfld.long 0x4 31. "RX_REQS,The channel is sending a schedule request" "0,1" bitfld.long 0x4 25. "FIFO_PEND,The FIFO has enough data for a burst" "0,1" bitfld.long 0x4 24. "FIFO_BUSY,The fifo has data" "0,1" bitfld.long 0x4 7. "CHANNEL_OK,The channel is trying to schedule work" "0,1" newline bitfld.long 0x4 6. "CHANNEL_BUSY,The channel has active work" "0,1" bitfld.long 0x4 3. "IN_PACKET_ARRAY,The channel is in a packet" "0,1" group.long 0x80++0x3 line.long 0x0 "PKTDMA_RCHANRT_RRT_STDATA,The State Data Registers contain the current working state of the Rx DMA channel. These registers are provided so that the Host can determine the potential cause of an error or exception condition which was reported by the.." hexmask.long 0x0 0.--31. 1. "STATE_INFO," group.long 0x200++0x3F line.long 0x0 "PKTDMA_RCHANRT_RRT_PEER0,This register provides access to the remote peer's realtime register at 0x400." hexmask.long 0x0 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x4 "PKTDMA_RCHANRT_RRT_PEER1,This register provides access to the remote peer's realtime register at 0x401." hexmask.long 0x4 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x8 "PKTDMA_RCHANRT_RRT_PEER2,This register provides access to the remote peer's realtime register at 0x402." hexmask.long 0x8 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0xC "PKTDMA_RCHANRT_RRT_PEER3,This register provides access to the remote peer's realtime register at 0x403." hexmask.long 0xC 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x10 "PKTDMA_RCHANRT_RRT_PEER4,This register provides access to the remote peer's realtime register at 0x404." hexmask.long 0x10 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x14 "PKTDMA_RCHANRT_RRT_PEER5,This register provides access to the remote peer's realtime register at 0x405." hexmask.long 0x14 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x18 "PKTDMA_RCHANRT_RRT_PEER6,This register provides access to the remote peer's realtime register at 0x406." hexmask.long 0x18 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x1C "PKTDMA_RCHANRT_RRT_PEER7,This register provides access to the remote peer's realtime register at 0x407." hexmask.long 0x1C 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x20 "PKTDMA_RCHANRT_RRT_PEER8,This register provides access to the remote peer's realtime register at 0x408." hexmask.long 0x20 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x24 "PKTDMA_RCHANRT_RRT_PEER9,This register provides access to the remote peer's realtime register at 0x409." hexmask.long 0x24 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x28 "PKTDMA_RCHANRT_RRT_PEER10,This register provides access to the remote peer's realtime register at 0x40A." hexmask.long 0x28 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x2C "PKTDMA_RCHANRT_RRT_PEER11,This register provides access to the remote peer's realtime register at 0x40B." hexmask.long 0x2C 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x30 "PKTDMA_RCHANRT_RRT_PEER12,This register provides access to the remote peer's realtime register at 0x40C." hexmask.long 0x30 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x34 "PKTDMA_RCHANRT_RRT_PEER13,This register provides access to the remote peer's realtime register at 0x40D." hexmask.long 0x34 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x38 "PKTDMA_RCHANRT_RRT_PEER14,This register provides access to the remote peer's realtime register at 0x40E." hexmask.long 0x38 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x3C "PKTDMA_RCHANRT_RRT_PEER15,This register provides access to the remote peer's realtime register at 0x40F." hexmask.long 0x3C 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." group.long 0x400++0xB line.long 0x0 "PKTDMA_RCHANRT_RRT_PCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x0 0.--31. 1. "PCNT,Current completed packet count for the channel." line.long 0x4 "PKTDMA_RCHANRT_RRT_DCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x4 0.--31. 1. "DCNT,Current dropped packet count for the channel." line.long 0x8 "PKTDMA_RCHANRT_RRT_BCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x8 0.--31. 1. "BCNT,Current completed payload byte count for the channel." group.long 0x410++0x3 line.long 0x0 "PKTDMA_RCHANRT_RRT_SBCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x0 0.--31. 1. "SBCNT,Current started byte count for the channel." tree.end tree "DMASS0_PKTDMA_0_PKTDMA_RFLOW (DMASS0_PKTDMA_0_PKTDMA_RFLOW)" base ad:0x48430000 group.long 0x0++0x3 line.long 0x0 "PKTDMA_RFLOW_RFA,The Rx Flow N Configuration Register A contains static configuration information for the Rx DMA flow. The fields in this register can only be changed when all of the DMA channels that use this flow have been disabled. The fields in.." bitfld.long 0x0 30. "RX_EINFO_PRESENT,Rx Extended Packet Info Block Present: This bit controls whether or not the Extended Packet Info Block will be present in the Rx Packet Descriptor. If this bit is clear the port DMA will clear the Extended Packet Info Present bit in.." "0,1" bitfld.long 0x0 29. "RX_PSINFO_PRESENT,Rx PS Words Present: This bit controls whether or not the Protocol Specific words will be present in the Rx Packet Descriptor. If this bit is clear the port DMA will set the PS word count to 0 in the PD and will drop any PS words.." "0,1" bitfld.long 0x0 28. "RX_ERROR_HANDLING,Rx Error Handling Mode: This bit controls the error handling mode for the flow and is only used when channel errors (i.e. descriptor starvation) occurs. 0 = Starvation errors result in dropping packet and incrementing dropped packet.." "0: Starvation errors result in dropping packet and..,1: Starvation errors result in the channel waiting.." hexmask.long.word 0x0 16.--24. 1. "RX_SOP_OFFSET,Rx Start of Packet Offset: This field specifies the number of bytes that are to be skipped in the SOP buffer before beginning to write the payload or protocol specific bytes(if they are in the sop buffer). This value must be less than the.." tree.end tree "DMASS0_PKTDMA_0_PKTDMA_RING (DMASS0_PKTDMA_0_PKTDMA_RING)" base ad:0x485E0000 group.long 0x40++0xB line.long 0x0 "PKTDMA_RING_BA_LO,The Ring Base Address Lo Register contains the 32 LSBs of the base address for the ring which is used to hand off pending work for the channel from the Host. The base address must be aligned to 0x8. A write to this register will reset.." hexmask.long 0x0 0.--31. 1. "ADDR_LO,Ring base address (LSBs)" line.long 0x4 "PKTDMA_RING_BA_HI,The Ring Base Address Hi Register contains the 16 MSBs of the base address for the ring which is used to hand off pending work for the channel from the Host. The base address must be aligned to 0x8. A write to this register will reset.." hexmask.long.byte 0x4 16.--19. 1. "ASEL,Ring base address select" hexmask.long.byte 0x4 0.--3. 1. "ADDR_HI,Ring base address (MSBs)" line.long 0x8 "PKTDMA_RING_SIZE,The Ring Size Register contains the element count for the ring which is used to hand off pending work for the channel from the Host. A write to this register will reset the associated ring to clear the occupancies and reset the pointers." bitfld.long 0x8 29.--31. "QMODE,Defines the mode for this ring or queue." "0,1,2,3,4,5,6,7" bitfld.long 0x8 24.--26. "RING_ELSIZE," "0,1,2,3,4,5,6,7" hexmask.long.word 0x8 0.--15. 1. "SIZE,Tx Ring element count. This field configures the size of the ring in elements." tree.end tree "DMASS0_PKTDMA_0_PKTDMA_RINGRT (DMASS0_PKTDMA_0_PKTDMA_RINGRT)" base ad:0x4B800000 group.long 0x10++0x3 line.long 0x0 "PKTDMA_RINGRT_RT_FDB,The Ring N Doorbell Register is written by software to increment or decrement the number of entries on a Ring. One or more entries as specified by the entry_cnt field can be added to a ring with a single write operation." hexmask.long.byte 0x0 0.--7. 1. "ENTRY_CNT,Signed number of entries by which to increment the ring occupancy. For normal Tx Ring operation this value should be a positive number. This occ value for the ring is increased by this value each time the doorbell register is written (occ.." group.long 0x18++0x3 line.long 0x0 "PKTDMA_RINGRT_RT_FOCC,The Ring N Occupancy Register can be read by software to determine the total number of valid entries on a ring. The contents of each of these registers are unary ORed in order to create a pending signal for the ring which can be.." hexmask.long.tbyte 0x0 0.--16. 1. "OCC,Total number of valid entries on the ring. This value is generally intended to be incremented by doorbell pokes from software and is decremented by the DMA engine as entries are completed." group.long 0x1010++0x3 line.long 0x0 "PKTDMA_RINGRT_RT_RDB,The Ring N Doorbell Register is written by software to increment or decrement the number of entries on a Ring. One or more entries as specified by the entry_cnt field can be added to a ring with a single write operation." bitfld.long 0x0 31. "TDOWN_ACK,This bit is set to 1 to ackowledge (and clear) the tdown_complete bit in the corresponding Ring N Occupancy Register. this bit is only valid on the reverse rings (rings consumed by the Host SW)" "0,1" hexmask.long.byte 0x0 0.--7. 1. "ENTRY_CNT,Signed number of entries by which to increment the ring occupancy. For normal Tx Ring operation this value should be a positive number. This occ value for the ring is increased by this value each time the doorbell register is written (occ.." group.long 0x1018++0x3 line.long 0x0 "PKTDMA_RINGRT_RT_ROCC,The Ring N Occupancy Register can be read by software to determine the total number of valid entries on a ring. The contents of each of these registers are unary ORed in order to create a pending signal for the ring which can be.." bitfld.long 0x0 31. "TDOWN_COMPLETE,This bit when set indicates that a teardown is complete on the channel. This bit is cleared anytime the tdown_ack bit is written as a 1 in the corresponding Ring N Doorbell Register. This bit is only valid on the reverse rings (rings.." "0,1" hexmask.long.tbyte 0x0 0.--16. 1. "OCC,Total number of valid entries on the ring. This value is generally intended to be incremented by doorbell pokes from software and is decremented by the DMA engine as entries are completed." tree.end tree "DMASS0_PKTDMA_0_PKTDMA_TCHAN (DMASS0_PKTDMA_0_PKTDMA_TCHAN)" base ad:0x484A0000 group.long 0x0++0x3 line.long 0x0 "PKTDMA_TCHAN_TCFG,The Tx Channel Configuration Register is used to initialize static mode settings for the Tx DMA channel. This register may only be written when the channel is disabled (tx_enable in realtime control reg is 0)." bitfld.long 0x0 31. "TX_PAUSE_ON_ERR,Pause On Error: this field controls what the channel will do if an error or exception occurs during a data transfer. This field is encoded as follows: 0 = Channel will drop current work and move on 1 = Channel will pause and wait for SW.." "0: Channel will drop current work and move on,1: Channel will pause and wait for SW to.." newline bitfld.long 0x0 30. "TX_FILT_EINFO,This field controls whether or not the DMA controller will pass the extended packet information fields (if present) from the descriptor to the back end application. This field is encoded as follows: 0=DMA controller will pass extended.." "0: DMA controller will pass extended packet info..,1: DMA controller will filter extended packet info.." newline bitfld.long 0x0 29. "TX_FILT_PSWORDS,This field controls whether or not the DMA controller will pass the protocol specific words (if present) from the descriptor to the back end application. This field is encoded as follows: 0=DMA controller will pass PS words if present in.." "0: DMA controller will pass PS words if present in..,1: DMA controller will filter PS words" newline hexmask.long.byte 0x0 16.--19. 1. "TX_CHAN_TYPE,Tx Channel Type: this field controls and / or indicates the functional channel type for this channel and the work passing mechanism that the channel uses for communicating with the Host. Available channel types are as follows: 2 = Channel.." newline bitfld.long 0x0 10.--11. "TX_BURST_SIZE,Specifies the nominal burst size and alignment for data transfers on this channel. 0 1 = 64 Bytes 2 = 128 Bytes All other values are reserved" "?,1: 64 Bytes,2: 128 Bytes All other values are reserved,?" newline bitfld.long 0x0 9. "TX_TDTYPE,Specifies whether or not the channel should immediately return a teardown completion response to the default completion queue or wait until a status message is returned from the remote PSI-L paired peripheral. 0 = return immediately once all.." "0: return immediately once all traffic is complete..,1: wait until remote peer sends back a completion.." newline bitfld.long 0x0 8. "TX_NOTDPKT,Specifies whether or not the channel should suppress sending the single data phase teardown packet when teardown is complete. 0 = TD packet is sent 1 = Suppress sending TD packet" "0: TD packet is sent,1: Suppress sending TD packet" group.long 0x64++0x7 line.long 0x0 "PKTDMA_TCHAN_TPRI_CTRL,The priority control register is used to control the priority of the transactions which the DMA generates on it's initiator interface." bitfld.long 0x0 28.--30. "PRIORITY,Tx Priority: This field contains the 3-bit value which will be output on the mem*_cpriority and mem_cepriority outputs during all transactions for this channel." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--3. 1. "ORDERID,Tx Order ID: This field contains the 4-bit value which will be output on the mem*_corderid output during all transactions for this channel." line.long 0x4 "PKTDMA_TCHAN_THRD_ID,The thread ID mapping register is used to pair the Tx DMA channel to a specific destination thread. All traffic generated from this channel will be sent with a thread_id on the PSI-L interface with the value from this register." hexmask.long.word 0x4 0.--15. 1. "THREAD_ID,Thread ID: This field contains the (up-to) 16-bit value which will be output on the strm_o_thread_id output during all transactions for this channel." group.long 0x70++0x3 line.long 0x0 "PKTDMA_TCHAN_TFIFO_DEPTH,The fifo depth register is used to specify how many FIFO data phases deep the Tx per channel FIFO will be for the channel. While the maximum depth of the Tx FIFO is set at design time. the FIFO depth can be artificially reduced.." hexmask.long.byte 0x0 0.--7. 1. "FDEPTH,FIFO Depth: This field contains the number of Tx FIFO bytes which will be allowed to be stored for the channel. The minimum value is equal to the PSI-L interface data path width but must be greater than 32 bytes + the burst size the maximum.." group.long 0x80++0x3 line.long 0x0 "PKTDMA_TCHAN_TST_SCHED,The Tx Channel N Static Scheduler Configuration Register contains static configuration information which affects the conditions under which each channel will be given an opportunity to use the Tx DMA unit(s). The fields in this.." bitfld.long 0x0 0.--1. "PRIORITY,Tx Scheduling Priority: These bits select which scheduling bin the channel will be placed in for bandwidth allocation of the Tx DMA units. This field is encoded as follows: 0 = High priority 1 = Medium - high priority 2 = Medium - low priority.." "0: High priority,1: Medium,2: Medium,3: Low priority Arbitration between bins is.." tree.end tree "DMASS0_PKTDMA_0_PKTDMA_TCHANRT (DMASS0_PKTDMA_0_PKTDMA_TCHANRT)" base ad:0x4AA00000 group.long 0x0++0x3 line.long 0x0 "PKTDMA_TCHANRT_TRT_CTL,The Tx Channel Realtime Control Register contains real-time control and status information for the Tx DMA channel. The fields in this register can safely be changed while the channel is in operation." bitfld.long 0x0 31. "TX_ENABLE,This field enables or disables the channel. Disabling a channel halts operation on the channel after the current block transfer is completed. Disabling a channel in the middle of a packet transfer may result in underflow conditions in the.." "0: channel is disabled,1: channel is enabled This field will be cleared by.." bitfld.long 0x0 30. "TX_TEARDOWN,Channel teardown: Setting this bit will request the channel to be torn down. This field will remain set after a channel teardown is complete." "0,1" bitfld.long 0x0 29. "TX_PAUSE,Channel pause: Setting this bit will cause the channel to pause processing immediately." "0,1" bitfld.long 0x0 0. "TX_ERROR,Channel error: This bit will be set anytime an error has occurred on the channel. This bit is cleared by writing back a 0." "0,1" rgroup.long 0x40++0x7 line.long 0x0 "PKTDMA_TCHANRT_TRT_STATUS0,The Status Register provides a read only view of channel status bits." bitfld.long 0x0 31. "TRING_PEND,The channel ring has a descriptor" "0,1" bitfld.long 0x0 30. "TXQ_PEND,The channel fifo is available" "0,1" bitfld.long 0x0 29. "PKTID_AVAIL,The channel has an available packet id" "0,1" bitfld.long 0x0 28. "PKTID_BUSY,There is an outstanding pktid for the channel" "0,1" newline bitfld.long 0x0 25. "BUSY,The channel is busy" "0,1" bitfld.long 0x0 24. "TRANSBUSY,The channel has an outstanding transaction" "0,1" bitfld.long 0x0 23. "IN_PACKET,The channel is currently in a packet" "0,1" bitfld.long 0x0 22. "OK,The channel is ready to be scheduled" "0,1" newline bitfld.long 0x0 21. "WAVAIL,The fifo for the channel has space to place a burst size entry" "0,1" bitfld.long 0x0 18. "TDOWN_MSG_PEND,A teardown message is pending" "0,1" bitfld.long 0x0 17. "TX_REQS,The channel is sending a schedule request" "0,1" bitfld.long 0x0 16. "ERR_EVENT_REQS,The channel is trying to schedule an error event" "0,1" line.long 0x4 "PKTDMA_TCHANRT_TRT_STATUS1,The Status Register provides a read only view of channel status bits." bitfld.long 0x4 31. "TX_REQS,The channel is sending a schedule request" "0,1" bitfld.long 0x4 26. "SOP_WAVAIL,The FIFO has space for the start of a packet" "0,1" bitfld.long 0x4 25. "MOP_WAVAIL,The FIFO has space for the middle of a packet" "0,1" bitfld.long 0x4 24. "WAVAIL,The fifo has space for a burst size" "0,1" newline bitfld.long 0x4 8. "TDNULL,The channel has met the conditions to attempt to teardown" "0,1" bitfld.long 0x4 7. "CHANNEL_OK,The channel is trying to schedule work" "0,1" bitfld.long 0x4 6. "CHANNEL_BUSY,The channel has active work" "0,1" bitfld.long 0x4 3. "IN_PACKET_ARRAY,The channel is in a packet" "0,1" group.long 0x80++0x3 line.long 0x0 "PKTDMA_TCHANRT_TRT_STDATA,The State Data Registers contain the current working state of the Tx DMA channel. These registers are provided so that the Host can determine the potential cause of an error or exception condition which was reported by the.." hexmask.long 0x0 0.--31. 1. "STATE_INFO," group.long 0x200++0x3F line.long 0x0 "PKTDMA_TCHANRT_TRT_PEER0,This register provides access to the remote peer's realtime register at 0x400." hexmask.long 0x0 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x4 "PKTDMA_TCHANRT_TRT_PEER1,This register provides access to the remote peer's realtime register at 0x401." hexmask.long 0x4 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x8 "PKTDMA_TCHANRT_TRT_PEER2,This register provides access to the remote peer's realtime register at 0x402." hexmask.long 0x8 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0xC "PKTDMA_TCHANRT_TRT_PEER3,This register provides access to the remote peer's realtime register at 0x403." hexmask.long 0xC 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x10 "PKTDMA_TCHANRT_TRT_PEER4,This register provides access to the remote peer's realtime register at 0x404." hexmask.long 0x10 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x14 "PKTDMA_TCHANRT_TRT_PEER5,This register provides access to the remote peer's realtime register at 0x405." hexmask.long 0x14 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x18 "PKTDMA_TCHANRT_TRT_PEER6,This register provides access to the remote peer's realtime register at 0x406." hexmask.long 0x18 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x1C "PKTDMA_TCHANRT_TRT_PEER7,This register provides access to the remote peer's realtime register at 0x407." hexmask.long 0x1C 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x20 "PKTDMA_TCHANRT_TRT_PEER8,This register provides access to the remote peer's realtime register at 0x408." hexmask.long 0x20 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x24 "PKTDMA_TCHANRT_TRT_PEER9,This register provides access to the remote peer's realtime register at 0x409." hexmask.long 0x24 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x28 "PKTDMA_TCHANRT_TRT_PEER10,This register provides access to the remote peer's realtime register at 0x40A." hexmask.long 0x28 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x2C "PKTDMA_TCHANRT_TRT_PEER11,This register provides access to the remote peer's realtime register at 0x40B." hexmask.long 0x2C 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x30 "PKTDMA_TCHANRT_TRT_PEER12,This register provides access to the remote peer's realtime register at 0x40C." hexmask.long 0x30 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x34 "PKTDMA_TCHANRT_TRT_PEER13,This register provides access to the remote peer's realtime register at 0x40D." hexmask.long 0x34 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x38 "PKTDMA_TCHANRT_TRT_PEER14,This register provides access to the remote peer's realtime register at 0x40E." hexmask.long 0x38 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x3C "PKTDMA_TCHANRT_TRT_PEER15,This register provides access to the remote peer's realtime register at 0x40F." hexmask.long 0x3C 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." group.long 0x400++0x3 line.long 0x0 "PKTDMA_TCHANRT_TRT_PCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x0 0.--31. 1. "PCNT,Current completed packet count for the channel." group.long 0x408++0x3 line.long 0x0 "PKTDMA_TCHANRT_TRT_BCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x0 0.--31. 1. "BCNT,Current completed payload byte count for the channel." group.long 0x410++0x3 line.long 0x0 "PKTDMA_TCHANRT_TRT_SBCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x0 0.--31. 1. "SBCNT,Current started byte count for the channel." tree.end tree.end tree "DMASS0_PSILCFG_0_PSILCFG_PROXY (DMASS0_PSILCFG_0_PSILCFG_PROXY)" base ad:0x48130000 rgroup.long 0x0++0x3 line.long 0x0 "PSILCFG_PROXY_REVISION,The Revision Register contains the major and minor revisions for the module." hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID field" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "REVMAJ,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor revision" group.long 0x10++0x3 line.long 0x0 "PSILCFG_PROXY_PSIL_TO,The PSI-L proxy timeout register controls the timeout watchdog and reports timeout occurrances on PSI-L configuration transactions issued by the built in PSI-L proxy." bitfld.long 0x0 31. "TOUT,Timeout occurred. When set indicates that a timeout has occurred on a config access. Once set this bit is persistent until manually cleared" "0,1" hexmask.long.word 0x0 0.--15. 1. "TOUT_CNT,Timeout period. Specifies how many cycles to wait before closing up a conifiguration read or write transaction and asserting the tout bit" group.long 0x100++0xB line.long 0x0 "PSILCFG_PROXY_PSIL_CMDA,The Command Register A contains the busy indicator. direction. and thread number for the configuration transaction." bitfld.long 0x0 31. "PROXY_BUSY,Indication that a configuration read or write is in progress" "0,1" bitfld.long 0x0 30. "PROXY_DIR,Direction of configuration transaction" "0,1" bitfld.long 0x0 29. "PROXY_TOUT,Indication that a timeout occurred. This bit should be written to 0 on each new transaction." "0,1" hexmask.long.word 0x0 0.--15. 1. "PROXY_THREAD_ID,Thread ID to which configuration read or write is being sent" line.long 0x4 "PSILCFG_PROXY_PSIL_CMDB,The Command Register B contains the byte enables and word address for the configuration transaction." hexmask.long.byte 0x4 28.--31. 1. "PROXY_BYTEN,Byte enables to use for configuration read or write" hexmask.long.word 0x4 0.--15. 1. "PROXY_ADDRESS,Word (32-bit) address within thread configuration space for transaction" line.long 0x8 "PSILCFG_PROXY_PSIL_WDATA,The Write Data Register contains the data which is to be written during the configuration transaction." hexmask.long 0x8 0.--31. 1. "PROXY_WDATA,Configuration data word to be written" group.long 0x140++0x3 line.long 0x0 "PSILCFG_PROXY_PSIL_RDATA,The Read Data Register contains the data which which was read back during the configuration transaction." hexmask.long 0x0 0.--31. 1. "PROXY_RDATA,Configuration data word that was read" tree.end tree "DMASS0_PSILSS_0_PSILSS_MMRS (DMASS0_PSILSS_0_PSILSS_MMRS)" base ad:0x48140000 rgroup.long 0x0++0x7 line.long 0x0 "PSILSS_MMRS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" line.long 0x4 "PSILSS_MMRS_config,The Config Register shows configured params." hexmask.long.word 0x4 0.--15. 1. "ENDPOINTS,Number of endpoints supported." group.long 0x10++0x3 line.long 0x0 "PSILSS_MMRS_event,The Event Register defines the event to produce for a link down event." hexmask.long.word 0x0 0.--15. 1. "EVT,The event to produce." rgroup.long 0x20++0x3 line.long 0x0 "PSILSS_MMRS_link,The Link Register shows the current status of the endpoint links." hexmask.long 0x0 0.--31. 1. "STATUS,The status of the endpoint links." group.long 0x40++0x3 line.long 0x0 "PSILSS_MMRS_down,The Link Down Register shows which links are down for the endpoints." hexmask.long 0x0 0.--31. 1. "STATUS,The down status of the endpoint links." tree.end base ad:0x0 tree "DMASS0_RINGACC_0_RINGACC" tree "DMASS0_RINGACC_0_RINGACC_CFG (DMASS0_RINGACC_0_RINGACC_CFG)" base ad:0x49800000 group.long 0x40++0x13 line.long 0x0 "RINGACC_CFG_BA_LO,The Tx Ring Base Address Lo Register contains the 32 LSBs of the base address for the ring which is used to hand off pending work for the channel from the Host. The base address must be aligned to the element size of the ring. or to.." hexmask.long 0x0 0.--31. 1. "ADDR_LO,Tx Ring base address (LSBs)" line.long 0x4 "RINGACC_CFG_BA_HI,The Tx Ring Base Address Hi Register contains the 16 MSBs of the base address for the ring which is used to hand off pending work for the channel from the Host. The base address must be aligned to the element size of the ring. or to.." hexmask.long.word 0x4 0.--15. 1. "ADDR_HI,Tx Ring base address (MSBs)" line.long 0x8 "RINGACC_CFG_SIZE,The Tx Ring Size Register contains the element size and element counts for the ring which is used to hand off pending work for the channel from the Host. A write to this register will reset the associated ring to clear the occupancies.." bitfld.long 0x8 30.--31. "QMODE,Defines the mode for this ring or queue." "0,1,2,3" bitfld.long 0x8 24.--26. "ELSIZE,Ring element size. This field is encoded as follows: 0 = 4 bytes 1 = 8 bytes 2 = 16 bytes 3 = 32 bytes 4 = 64 bytes 5 = 128 bytes 6 = 256 bytes 7 = RESERVED" "0: 4 bytes,1: 8 bytes,2: 16 bytes,3: 32 bytes,4: 64 bytes,5: 128 bytes,6: 256 bytes,7: RESERVED" hexmask.long.tbyte 0x8 0.--19. 1. "SIZE,Tx Ring element count. This field configures the size of the ring in elements. For rings in CREDENTIALS or QM modes the size must be an even number." line.long 0xC "RINGACC_CFG_EVT,The Ring Event Register is an Output Event Steering 'OES' register that specifies the event number used to denote the occurrence of an up event [empty to not-empty] or a down event [non-empty to empty] for this ring." hexmask.long.word 0xC 0.--15. 1. "EVT,Defines the event for this ring or queue." line.long 0x10 "RINGACC_CFG_ORDERID,The Ring OrderID Register contains the bus orderid value for the ring memory access." bitfld.long 0x10 4. "REPLACE,Indicates to replace the bus orderid value for this ring or queue with the orderid MMR field. This allows control over the orderid value when it must be restricted due to the topology for QoS reasons. 0 = bypass and use the orderid from the.." "0: bypass and use the orderid from the source..,1: use the orderid MMR field value for the.." hexmask.long.byte 0x10 0.--3. 1. "ORDERID,Defines the bus orderid value for this ring or queue." tree.end tree "DMASS0_RINGACC_0_RINGACC_GCFG (DMASS0_RINGACC_0_RINGACC_GCFG)" base ad:0x48240000 rgroup.long 0x0++0x3 line.long 0x0 "RINGACC_GCFG_revision,The Revision Register contains the major and minor revisions for the module." hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID field" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "REVMAJ,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor revision" group.long 0x10++0x3 line.long 0x0 "RINGACC_GCFG_trace_ctl,Trace Control Register" bitfld.long 0x0 31. "EN,Trace enable 0 = disable 1 = enable." "0: disable,1: enable" bitfld.long 0x0 30. "ALL_QUEUES,Trace everything 0 = only the selected queue 1 = every queue." "0: only the selected queue,1: every queue" bitfld.long 0x0 29. "MSG,Trace message data 0 = include only the operation 1 = include message data." "0: include only the operation,1: include message data" hexmask.long.word 0x0 0.--15. 1. "QUEUE,Queue number when tracing a single queue." group.long 0x20++0x3 line.long 0x0 "RINGACC_GCFG_overflow,Overflow Queue Register" hexmask.long.word 0x0 0.--15. 1. "QUEUE,Queue to send overflow messages. A value of 0xffff will disable the overflow function." group.long 0x40++0x3 line.long 0x0 "RINGACC_GCFG_error_evt,The Error Event Register is an Output Event Steering 'OES' register that specifies the event number used to denote detection of a ring memory transaction bus error." hexmask.long.word 0x0 0.--15. 1. "EVT,Event to send when detecting a bus error." rgroup.long 0x44++0x3 line.long 0x0 "RINGACC_GCFG_error_log,Error Log Register. A read of this register will clear the pending error log event and allow a new error to be captured. It does not clear the contents of this register which are only valid while the error event is pending." bitfld.long 0x0 31. "PUSH,Bus error was caused by a push. 0 = pop. 1 = push." "0: pop,1: push" hexmask.long.word 0x0 0.--15. 1. "QUEUE,Queue that received the bus error." tree.end tree "DMASS0_RINGACC_0_RINGACC_RT (DMASS0_RINGACC_0_RINGACC_RT)" base ad:0x49000000 group.long 0x10++0x3 line.long 0x0 "RINGACC_RT_RT_DB,The Ring N Doorbell Register is written by software to increment or decrement the number of entries on a Ring. One or more entries as specified by the entry_cnt field can be added to a ring with a single write operation." hexmask.long.byte 0x0 0.--7. 1. "ENTRY_CNT,Signed number of entries by which to increment the ring occupancy. For normal Tx Ring operation this value should be a positive number. This occ value for the ring is increased by this value each time the doorbell register is written (occ.." group.long 0x18++0xF line.long 0x0 "RINGACC_RT_RT_OCC,The Ring N Occupancy Register can be read by software to determine the total number of valid entries on a ring. The contents of each of these registers are unary ORed in order to create a pending signal for the ring which can be used.." hexmask.long.tbyte 0x0 0.--20. 1. "OCC,Total number of valid entries on the ring. This value is generally intended to be incremented by doorbell pokes from software and is decremented by the DMA engine as entries are completed." line.long 0x4 "RINGACC_RT_RT_INDX,The Ring N Current Index Register can be read by software for debug purposes to determine the current SW read index for the Ring for the channel." hexmask.long.tbyte 0x4 0.--19. 1. "INDX,Current SW owned read index for the ring. This value is initialized to 0 when the ring is set up and will be incremented by SW each time SW processes a ring entry. When the index is incremented to a value equal to the size field in the Ring Size.." line.long 0x8 "RINGACC_RT_RT_HWOCC,The Ring N Hardware Occupancy Register contains the early increment/decrement version of the the total number of valid entries on a ring. The contents of each of these registers are unary ORed in order to create a pending signal for.." hexmask.long.tbyte 0x8 0.--20. 1. "OCC,Total number of valid entries on the ring. This value is generally intended to be incremented by doorbell pokes from software and is decremented by the DMA engine as entries are completed." line.long 0xC "RINGACC_RT_RT_HWINDX,The Ring N Current Index Register can be read by software for debug purposes to determine the current HW read index for the Ring for the channel." hexmask.long.tbyte 0xC 0.--19. 1. "INDX,Current HW owned read index for the ring. This value is initialized to 0 when the ring is set up and will be incremented by HW each time HW processes a ring entry. When the index is incremented to a value equal to the size field in the Ring Size.." tree.end tree.end tree "DMASS0_SEC_PROXY_0" tree "DMASS0_SEC_PROXY_0_SEC_PROXY_MMRS (DMASS0_SEC_PROXY_0_SEC_PROXY_MMRS)" base ad:0x48250000 rgroup.long 0x0++0x7 line.long 0x0 "SEC_PROXY_MMRS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" line.long 0x4 "SEC_PROXY_MMRS_config,The Config Register shows configured params." hexmask.long.word 0x4 16.--31. 1. "MSG_SIZE,Supported message size in bytes." hexmask.long.word 0x4 0.--15. 1. "THREADS,Number of proxy threads supported." group.long 0x14++0x3 line.long 0x0 "SEC_PROXY_MMRS_glb_evt,The Global Event Register defines the event to send for a global error." hexmask.long.word 0x0 0.--15. 1. "ERR_EVENT,Global error event destination. 0xFFFF disables the event" tree.end tree "DMASS0_SEC_PROXY_0_SEC_PROXY_RT (DMASS0_SEC_PROXY_0_SEC_PROXY_RT)" base ad:0x4A600000 group.long 0x0++0x7 line.long 0x0 "SEC_PROXY_RT_status,The Status Register gives status for proxy thread a." bitfld.long 0x0 31. "ERROR,Error detected on proxy thread. The error will also use the err_evt field to generate an error event which can generate an interrupt. While in error a proxy thread will not process any operations. Write a 0 to clear the error and reset the proxy.." "0,1" rbitfld.long 0x0 30. "DIR,Direction for the proxy thread. 0 = outbound write only. 1 = inbound read only." "0: outbound,1: inbound" hexmask.long.byte 0x0 16.--23. 1. "MAX_CNT,Max message count allowed for an outbound proxy thread." hexmask.long.byte 0x0 0.--7. 1. "CUR_CNT,Current message count for the proxy thread. For an inbound proxy this is the number of available messages. For an outbound proxy this is the number of free messages that can be written. This value will initialize itself to 0 if the THREAD[a]_CTL.." line.long 0x4 "SEC_PROXY_RT_thr,The Threshold Register controls the threshold for proxy thread a events." hexmask.long.byte 0x4 0.--7. 1. "THR_CNT,Threshold count that causes proxy thread events. For an outbound proxy this will be the number of free messages to cause an event. For an inbound proxy this will be the number of available messages to cause an event." tree.end tree "DMASS0_SEC_PROXY_0_SEC_PROXY_SCFG (DMASS0_SEC_PROXY_0_SEC_PROXY_SCFG)" base ad:0x4A400000 group.long 0x0++0x13 line.long 0x0 "SEC_PROXY_SCFG_buffer_l,The Buffer Register defines the pointer for the external buffer." hexmask.long 0x0 0.--31. 1. "BASE_L,The base address for the external buffer lower 32 bits." line.long 0x4 "SEC_PROXY_SCFG_buffer_h,The Buffer Register defines the pointer for the external buffer." hexmask.long.word 0x4 0.--15. 1. "BASE_H,The base address for the external buffer upper 16 bits." line.long 0x8 "SEC_PROXY_SCFG_target_l,The Target Register defines the pointer for the external target." hexmask.long 0x8 0.--31. 1. "BASE_L,The base address for the external target lower 32 bits." line.long 0xC "SEC_PROXY_SCFG_target_h,The Target Register defines the pointer for the external target." hexmask.long.word 0xC 0.--15. 1. "BASE_H,The base address for the external target upper 16 bits." line.long 0x10 "SEC_PROXY_SCFG_ORDERID,The Buffer OrderID Register contains the bus orderid value for the buffer memory access." bitfld.long 0x10 4. "REPLACE,Indicates to replace the bus orderid value for the buffer access with the orderid MMR field. This allows control over the orderid value when it must be restricted due to the topology for QoS reasons. 0 = bypass and use the orderid from the source.." "0: bypass and use the orderid from the source..,1: use the orderid MMR field value for the.." hexmask.long.byte 0x10 0.--3. 1. "ORDERID,Defines the bus orderid value for the buffer access." group.long 0x1000++0xB line.long 0x0 "SEC_PROXY_SCFG_ctl,The Control Register defines controls for proxy thread a." bitfld.long 0x0 31. "DIR,Direction for the proxy thread. 0 = outbound write only. 1 = inbound read only." "0: outbound,1: inbound" hexmask.long.byte 0x0 16.--23. 1. "MAX_CNT,Max message count allowed for an outbound proxy thread. Is not used otherwise." hexmask.long.word 0x0 0.--15. 1. "QUEUE,Queue number in the target to use for the proxy thread. If the target base does not start at queue 0 then this is the relative queue number from that base queue." line.long 0x4 "SEC_PROXY_SCFG_evt_map,The Event Map Register defines the event numbers for proxy thread a." hexmask.long.word 0x4 16.--31. 1. "ERR_EVT,Event number for an error from the proxy thread." hexmask.long.word 0x4 0.--15. 1. "THR_EVT,Event number for a threshold event from the proxy thread." line.long 0x8 "SEC_PROXY_SCFG_dst,The Destination Register defines the destination proxy thread for outbound proxy thread a." hexmask.long.word 0x8 0.--15. 1. "THREAD,The proxy thread that is the destination of messages from this outbound proxy thread based on the queue numbers. This is ignored for inbound proxy threads." tree.end tree "DMASS0_SEC_PROXY_0_SEC_PROXY_SRC_TARGET_DATA (DMASS0_SEC_PROXY_0_SEC_PROXY_SRC_TARGET_DATA)" base ad:0x4D000000 rgroup.long 0x0++0x3 line.long 0x0 "SEC_PROXY__SRC__TARGET_DATA_private,The Proxy Private register contains private information for the proxy thread a and should not be written. writes are ignored. Reads are allowed to know the source thread of the message." hexmask.long.word 0x0 0.--9. 1. "SRC_THR,Proxy source thread of message." group.long 0x4++0x3 line.long 0x0 "SEC_PROXY__SRC__TARGET_DATA_message,The Message Data for proxy thread a. The word with index b = 14 contains the completion final byte." hexmask.long 0x0 0.--31. 1. "DATA,Proxy Message Data" tree.end tree.end tree.end tree "DMASS1" base ad:0x0 tree "DMASS1_BCDMA_0_BCDMA_GCFG (DMASS1_BCDMA_0_BCDMA_GCFG)" base ad:0x4E230000 rgroup.long 0x0++0x3 line.long 0x0 "BCDMA_GCFG_REVISION,The Revision Register contains the major and minor revisions for the module." hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID field" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "REVMAJ,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor revision" group.long 0x4++0x7 line.long 0x0 "BCDMA_GCFG_PERF_CTRL,The performance control register contains fields which can be used to adjust the performance of the BCDMA in the system." hexmask.long.word 0x0 0.--15. 1. "TIMEOUT_CNT,This feature is not currently supported." line.long 0x4 "BCDMA_GCFG_EMU_CTRL,The emulation control register is used to control the behavior of the DMA when the emususp input is asserted." bitfld.long 0x4 1. "SOFT,Soft" "0,1" bitfld.long 0x4 0. "FREE,Free" "0,1" group.long 0x10++0x3 line.long 0x0 "BCDMA_GCFG_PSIL_TO,The PSI-L proxy timeout register controls the timeout watchdog and reports timeout occurrances on PSI-L configuration transactions issued by the built in PSI-L proxy." bitfld.long 0x0 31. "TOUT,Timeout occurred. When set indicates that a timeout has occurred on a config access" "0,1" hexmask.long.word 0x0 0.--15. 1. "TOUT_CNT,Timeout period. Specifies how many cycles to wait before closing up a conifiguration read or write transaction and asserting the tout bit" rgroup.long 0x20++0x13 line.long 0x0 "BCDMA_GCFG_CAP0,The Capabilities Register 0 specifies which standard features this BCDMA instance supports." bitfld.long 0x0 19. "GLOBAL_TRIG,Global triggers 0 and 1 are supported" "0,1" bitfld.long 0x0 18. "LOCAL_TRIG,Dedicated local trigger is supported" "0,1" bitfld.long 0x0 17. "EOL,EOL field is supported" "0,1" bitfld.long 0x0 16. "STATIC,STATIC field is supported" "0,1" bitfld.long 0x0 15. "TYPE15,Type 15 TR is supported" "0,1" newline bitfld.long 0x0 14. "TYPE14,Type 14 TR is supported" "0,1" bitfld.long 0x0 13. "TYPE13,Type 13 TR is supported" "0,1" bitfld.long 0x0 12. "TYPE12,Type 12 TR is supported" "0,1" bitfld.long 0x0 11. "TYPE11,Type 11 TR is supported" "0,1" bitfld.long 0x0 10. "TYPE10,Type 10 TR is supported" "0,1" newline bitfld.long 0x0 9. "TYPE9,Type 9 TR is supported" "0,1" bitfld.long 0x0 8. "TYPE8,Type 8 TR is supported" "0,1" bitfld.long 0x0 7. "TYPE7,Type 7 TR is supported" "0,1" bitfld.long 0x0 6. "TYPE6,Type 6 TR is supported" "0,1" bitfld.long 0x0 5. "TYPE5,Type 5 TR is supported" "0,1" newline bitfld.long 0x0 4. "TYPE4,Type 4 TR is supported" "0,1" bitfld.long 0x0 3. "TYPE3,Type 3 TR is supported" "0,1" bitfld.long 0x0 2. "TYPE2,Type 2 TR is supported" "0,1" bitfld.long 0x0 1. "TYPE1,Type 1 TR is supported" "0,1" bitfld.long 0x0 0. "TYPE0,Type 0 TR is supported" "0,1" line.long 0x4 "BCDMA_GCFG_CAP1,The Capabilities Register 1 specifies which standard features this BCDMA instance supports." bitfld.long 0x4 3. "SECTR,Maximum second TR function that is supported" "0,1" bitfld.long 0x4 2. "DFMT,Maximum data reformatting function that is supported" "0,1" bitfld.long 0x4 1. "ELTYPE,Maximum element type value that is supported." "0,1" bitfld.long 0x4 0. "AMODE,The maximum AMODE that is supported. If AMODE is supported then DIR field must be supported for that AMODE." "0,1" line.long 0x8 "BCDMA_GCFG_CAP2,The Capabilities Register 2 specifies how many resources this BCDMA instance supports." hexmask.long.word 0x8 18.--26. 1. "RCHAN_CNT,Rx split channel count" hexmask.long.word 0x8 9.--17. 1. "TCHAN_CNT,Tx split channel count" hexmask.long.word 0x8 0.--8. 1. "CHAN_CNT,BC channel count" line.long 0xC "BCDMA_GCFG_CAP3,The Capabilities Register 3 specifies how many resources this BCDMA instance supports." hexmask.long.word 0xC 23.--31. 1. "UCHAN_CNT,BC ultra high capacity internal channel count" hexmask.long.word 0xC 14.--22. 1. "HCHAN_CNT,BC high capacity internal channel count" line.long 0x10 "BCDMA_GCFG_CAP4,The Capabilities Register 4 specifies how many resources this BCDMA instance supports." hexmask.long.byte 0x10 24.--31. 1. "TUCHAN_CNT,TX ultra high capacity internal channel count" hexmask.long.byte 0x10 16.--23. 1. "THCHAN_CNT,TX high capacity internal channel count" hexmask.long.byte 0x10 8.--15. 1. "RUCHAN_CNT,RX ultra high capacity internal channel count" hexmask.long.byte 0x10 0.--7. 1. "RHCHAN_CNT,RX high capacity internal channel count" group.long 0x60++0x7 line.long 0x0 "BCDMA_GCFG_PM0,This register enables or inhibits automatic clock gating to individual sub-blocks" hexmask.long.tbyte 0x0 15.--31. 1. "NOGATE_RSVD4,Reserved PM signals." bitfld.long 0x0 14. "NOGATE_RDEC2,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 12.--13. "NOGATE_RSVD3,Reserved PM signals." "0,1,2,3" bitfld.long 0x0 11. "NOGATE_SDEC3,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 8.--10. "NOGATE_RSVD2,Reserved PM signals." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 7. "NOGATE_WARB3,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 4.--6. "NOGATE_RSVD1,Reserved PM signals." "0,1,2,3,4,5,6,7" bitfld.long 0x0 3. "NOGATE_CARB3,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 2. "NOGATE_CARB2,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 0.--1. "NOGATE_RSVD0,Reserved PM signals." "0,1,2,3" line.long 0x4 "BCDMA_GCFG_PM1,This register enables or inhibits automatic clock gating to individual sub-blocks" bitfld.long 0x4 31. "NOGATE_EDC,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 30. "NOGATE_STATS,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 29. "NOGATE_PROXY,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 28. "NOGATE_PSILIF,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 27. "NOGATE_P2P,When set inhibits automatic gating of clock." "0,1" newline bitfld.long 0x4 26. "NOGATE_RSVD8,Reserved PM signals." "0,1" bitfld.long 0x4 25. "NOGATE_EHANDLER,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 24. "NOGATE_RINGOCC,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 23. "NOGATE_RPCF,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 22. "NOGATE_TPCF,When set inhibits automatic gating of clock." "0,1" newline bitfld.long 0x4 21. "NOGATE_PCF,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 19.--20. "NOGATE_RSVD7,Reserved PM signals." "0,1,2,3" bitfld.long 0x4 18. "NOGATE_CFG,When set inhibits automatic gating of clock." "0,1" hexmask.long.byte 0x4 11.--17. 1. "NOGATE_RSVD6,Reserved PM signals." bitfld.long 0x4 10. "NOGATE_TRCU,When set inhibits automatic gating of clock." "0,1" newline bitfld.long 0x4 9. "NOGATE_RSVD5,Reserved PM signals." "0,1" bitfld.long 0x4 8. "NOGATE_EVTCU,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 7. "NOGATE_RWU3,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 6. "NOGATE_RWU2,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 5. "NOGATE_RWU1,When set inhibits automatic gating of clock." "0,1" newline bitfld.long 0x4 4. "NOGATE_RWU0,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 3. "NOGATE_TRU3,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 2. "NOGATE_TRU2,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 1. "NOGATE_TRU1,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 0. "NOGATE_TRU0,When set inhibits automatic gating of clock." "0,1" group.long 0x78++0x7 line.long 0x0 "BCDMA_GCFG_DBGA,This register provides a writable address which allows debug information to be read from the Debug Data Register" bitfld.long 0x0 31. "DBG_EN,Debug enable" "0,1" hexmask.long.byte 0x0 8.--15. 1. "DBG_UNIT,Selects which unit to read debug information from" hexmask.long.byte 0x0 0.--7. 1. "DBG_ADDR,Selects offset within unit to access seperate debug registers" line.long 0x4 "BCDMA_GCFG_DBGD,This register provides read only debug data" hexmask.long 0x4 0.--31. 1. "DBG_DATA,Provides debug information from various internal units. The value which is read back depends on which unit and register are selected in the Debug Address Register" tree.end tree "DMASS1_ECC_AGGR_0_ECCAGGR (DMASS1_ECC_AGGR_0_ECCAGGR)" base ad:0x3F006000 rgroup.long 0x0++0x3 line.long 0x0 "ECCAGGR_REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECCAGGR_REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECCAGGR_REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECCAGGR_REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECCAGGR_REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECCAGGR_REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 8. "MAP_RAMECC_PEND,Interrupt Pending Status for map_ramecc_pend" "0,1" bitfld.long 0x4 7. "SR_RAMECC_PEND,Interrupt Pending Status for sr_ramecc_pend" "0,1" bitfld.long 0x4 6. "BCDMA_RNGOCC_RAMECC_PEND,Interrupt Pending Status for bcdma_rngocc_ramecc_pend" "0,1" newline bitfld.long 0x4 5. "BCDMA_STS_RAMECC1_PEND,Interrupt Pending Status for bcdma_sts_ramecc1_pend" "0,1" bitfld.long 0x4 4. "BCDMA_RPCF2_RAMECC_PEND,Interrupt Pending Status for bcdma_rpcf2_ramecc_pend" "0,1" bitfld.long 0x4 3. "BCDMA_RPCF1_RAMECC_PEND,Interrupt Pending Status for bcdma_rpcf1_ramecc_pend" "0,1" newline bitfld.long 0x4 2. "BCDMA_RPCF0_RAMECC_PEND,Interrupt Pending Status for bcdma_rpcf0_ramecc_pend" "0,1" bitfld.long 0x4 1. "BCDMA_STATE_RAMECC_PEND,Interrupt Pending Status for bcdma_state_ramecc_pend" "0,1" bitfld.long 0x4 0. "BCDMA_CFG_RAMECC_PEND,Interrupt Pending Status for bcdma_cfg_ramecc_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECCAGGR_REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 8. "MAP_RAMECC_ENABLE_SET,Interrupt Enable Set Register for map_ramecc_pend" "0,1" bitfld.long 0x0 7. "SR_RAMECC_ENABLE_SET,Interrupt Enable Set Register for sr_ramecc_pend" "0,1" bitfld.long 0x0 6. "BCDMA_RNGOCC_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_rngocc_ramecc_pend" "0,1" newline bitfld.long 0x0 5. "BCDMA_STS_RAMECC1_ENABLE_SET,Interrupt Enable Set Register for bcdma_sts_ramecc1_pend" "0,1" bitfld.long 0x0 4. "BCDMA_RPCF2_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_rpcf2_ramecc_pend" "0,1" bitfld.long 0x0 3. "BCDMA_RPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_rpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 2. "BCDMA_RPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_rpcf0_ramecc_pend" "0,1" bitfld.long 0x0 1. "BCDMA_STATE_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_state_ramecc_pend" "0,1" bitfld.long 0x0 0. "BCDMA_CFG_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_cfg_ramecc_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECCAGGR_REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 8. "MAP_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for map_ramecc_pend" "0,1" bitfld.long 0x0 7. "SR_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for sr_ramecc_pend" "0,1" bitfld.long 0x0 6. "BCDMA_RNGOCC_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_rngocc_ramecc_pend" "0,1" newline bitfld.long 0x0 5. "BCDMA_STS_RAMECC1_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_sts_ramecc1_pend" "0,1" bitfld.long 0x0 4. "BCDMA_RPCF2_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_rpcf2_ramecc_pend" "0,1" bitfld.long 0x0 3. "BCDMA_RPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_rpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 2. "BCDMA_RPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_rpcf0_ramecc_pend" "0,1" bitfld.long 0x0 1. "BCDMA_STATE_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_state_ramecc_pend" "0,1" bitfld.long 0x0 0. "BCDMA_CFG_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_cfg_ramecc_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECCAGGR_REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECCAGGR_REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 8. "MAP_RAMECC_PEND,Interrupt Pending Status for map_ramecc_pend" "0,1" bitfld.long 0x4 7. "SR_RAMECC_PEND,Interrupt Pending Status for sr_ramecc_pend" "0,1" bitfld.long 0x4 6. "BCDMA_RNGOCC_RAMECC_PEND,Interrupt Pending Status for bcdma_rngocc_ramecc_pend" "0,1" newline bitfld.long 0x4 5. "BCDMA_STS_RAMECC1_PEND,Interrupt Pending Status for bcdma_sts_ramecc1_pend" "0,1" bitfld.long 0x4 4. "BCDMA_RPCF2_RAMECC_PEND,Interrupt Pending Status for bcdma_rpcf2_ramecc_pend" "0,1" bitfld.long 0x4 3. "BCDMA_RPCF1_RAMECC_PEND,Interrupt Pending Status for bcdma_rpcf1_ramecc_pend" "0,1" newline bitfld.long 0x4 2. "BCDMA_RPCF0_RAMECC_PEND,Interrupt Pending Status for bcdma_rpcf0_ramecc_pend" "0,1" bitfld.long 0x4 1. "BCDMA_STATE_RAMECC_PEND,Interrupt Pending Status for bcdma_state_ramecc_pend" "0,1" bitfld.long 0x4 0. "BCDMA_CFG_RAMECC_PEND,Interrupt Pending Status for bcdma_cfg_ramecc_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECCAGGR_REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 8. "MAP_RAMECC_ENABLE_SET,Interrupt Enable Set Register for map_ramecc_pend" "0,1" bitfld.long 0x0 7. "SR_RAMECC_ENABLE_SET,Interrupt Enable Set Register for sr_ramecc_pend" "0,1" bitfld.long 0x0 6. "BCDMA_RNGOCC_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_rngocc_ramecc_pend" "0,1" newline bitfld.long 0x0 5. "BCDMA_STS_RAMECC1_ENABLE_SET,Interrupt Enable Set Register for bcdma_sts_ramecc1_pend" "0,1" bitfld.long 0x0 4. "BCDMA_RPCF2_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_rpcf2_ramecc_pend" "0,1" bitfld.long 0x0 3. "BCDMA_RPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_rpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 2. "BCDMA_RPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_rpcf0_ramecc_pend" "0,1" bitfld.long 0x0 1. "BCDMA_STATE_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_state_ramecc_pend" "0,1" bitfld.long 0x0 0. "BCDMA_CFG_RAMECC_ENABLE_SET,Interrupt Enable Set Register for bcdma_cfg_ramecc_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECCAGGR_REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 8. "MAP_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for map_ramecc_pend" "0,1" bitfld.long 0x0 7. "SR_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for sr_ramecc_pend" "0,1" bitfld.long 0x0 6. "BCDMA_RNGOCC_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_rngocc_ramecc_pend" "0,1" newline bitfld.long 0x0 5. "BCDMA_STS_RAMECC1_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_sts_ramecc1_pend" "0,1" bitfld.long 0x0 4. "BCDMA_RPCF2_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_rpcf2_ramecc_pend" "0,1" bitfld.long 0x0 3. "BCDMA_RPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_rpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 2. "BCDMA_RPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_rpcf0_ramecc_pend" "0,1" bitfld.long 0x0 1. "BCDMA_STATE_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_state_ramecc_pend" "0,1" bitfld.long 0x0 0. "BCDMA_CFG_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for bcdma_cfg_ramecc_pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECCAGGR_REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECCAGGR_REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECCAGGR_REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECCAGGR_REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "DMASS1_INTAGGR_0_INTAGGR_CFG (DMASS1_INTAGGR_0_INTAGGR_CFG)" base ad:0x4E0C0000 rgroup.quad 0x0++0x17 line.quad 0x0 "INTAGGR_CFG_REVISION,The Revision Register contains the major and minor revisions for the module." hexmask.quad.word 0x0 16.--31. 1. "MODID,Module ID field" hexmask.quad.byte 0x0 11.--15. 1. "REVRTL,RTL revision. Will vary depending on release." bitfld.quad 0x0 8.--10. "REVMAJ,Major revision" "0,1,2,3,4,5,6,7" bitfld.quad 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.quad.byte 0x0 0.--5. 1. "REVMIN,Minor revision" line.quad 0x8 "INTAGGR_CFG_INTCAP,The IntCap Register contains information on virtual interrupts." hexmask.quad.word 0x8 16.--31. 1. "VINTR_CNT,Virtual interrupt register/pin count" hexmask.quad.word 0x8 0.--15. 1. "SEVT_CNT,Number of 'event to virt int' mapping registers" line.quad 0x10 "INTAGGR_CFG_AUXCAP,The AuxCap Register contains information on additional capabilities." hexmask.quad.word 0x10 48.--63. 1. "UNMAP_CNT,Number of multicast event registers. Not all registers in the range are necessarily valid." hexmask.quad.word 0x10 32.--47. 1. "MEVI_CNT,Number of multicast event registers" hexmask.quad.word 0x10 16.--31. 1. "LEVI_CNT,Local input events for local to global translation" hexmask.quad.word 0x10 0.--15. 1. "GEVI_CNT,Number of event counting registers" tree.end tree "DMASS1_PSILCFG_0_PSILCFG_PROXY (DMASS1_PSILCFG_0_PSILCFG_PROXY)" base ad:0x4E260000 rgroup.long 0x0++0x3 line.long 0x0 "PSILCFG_PROXY_REVISION,The Revision Register contains the major and minor revisions for the module." hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID field" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "REVMAJ,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor revision" group.long 0x10++0x3 line.long 0x0 "PSILCFG_PROXY_PSIL_TO,The PSI-L proxy timeout register controls the timeout watchdog and reports timeout occurrances on PSI-L configuration transactions issued by the built in PSI-L proxy." bitfld.long 0x0 31. "TOUT,Timeout occurred. When set indicates that a timeout has occurred on a config access. Once set this bit is persistent until manually cleared" "0,1" hexmask.long.word 0x0 0.--15. 1. "TOUT_CNT,Timeout period. Specifies how many cycles to wait before closing up a conifiguration read or write transaction and asserting the tout bit" group.long 0x100++0xB line.long 0x0 "PSILCFG_PROXY_PSIL_CMDA,The Command Register A contains the busy indicator. direction. and thread number for the configuration transaction." bitfld.long 0x0 31. "PROXY_BUSY,Indication that a configuration read or write is in progress" "0,1" bitfld.long 0x0 30. "PROXY_DIR,Direction of configuration transaction" "0,1" bitfld.long 0x0 29. "PROXY_TOUT,Indication that a timeout occurred. This bit should be written to 0 on each new transaction." "0,1" hexmask.long.word 0x0 0.--15. 1. "PROXY_THREAD_ID,Thread ID to which configuration read or write is being sent" line.long 0x4 "PSILCFG_PROXY_PSIL_CMDB,The Command Register B contains the byte enables and word address for the configuration transaction." hexmask.long.byte 0x4 28.--31. 1. "PROXY_BYTEN,Byte enables to use for configuration read or write" hexmask.long.word 0x4 0.--15. 1. "PROXY_ADDRESS,Word (32-bit) address within thread configuration space for transaction" line.long 0x8 "PSILCFG_PROXY_PSIL_WDATA,The Write Data Register contains the data which is to be written during the configuration transaction." hexmask.long 0x8 0.--31. 1. "PROXY_WDATA,Configuration data word to be written" group.long 0x140++0x3 line.long 0x0 "PSILCFG_PROXY_PSIL_RDATA,The Read Data Register contains the data which which was read back during the configuration transaction." hexmask.long 0x0 0.--31. 1. "PROXY_RDATA,Configuration data word that was read" tree.end tree "DMASS1_PSILSS_0_PSILSS_MMRS (DMASS1_PSILSS_0_PSILSS_MMRS)" base ad:0x4E220000 rgroup.long 0x0++0x7 line.long 0x0 "PSILSS_MMRS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" line.long 0x4 "PSILSS_MMRS_config,The Config Register shows configured params." hexmask.long.word 0x4 0.--15. 1. "ENDPOINTS,Number of endpoints supported." group.long 0x10++0x3 line.long 0x0 "PSILSS_MMRS_event,The Event Register defines the event to produce for a link down event." hexmask.long.word 0x0 0.--15. 1. "EVT,The event to produce." rgroup.long 0x20++0x3 line.long 0x0 "PSILSS_MMRS_link,The Link Register shows the current status of the endpoint links." hexmask.long 0x0 0.--31. 1. "STATUS,The status of the endpoint links." group.long 0x40++0x3 line.long 0x0 "PSILSS_MMRS_down,The Link Down Register shows which links are down for the endpoints." hexmask.long 0x0 0.--31. 1. "STATUS,The down status of the endpoint links." tree.end tree.end tree "DPHY" base ad:0x0 tree "DPHY_RX0" tree "DPHY_RX0_MMR_SLV_K3_DPHY_WRAP (DPHY_RX0_MMR_SLV_K3_DPHY_WRAP)" base ad:0x30111000 group.long 0x0++0x3 line.long 0x0 "MMR__SLV__K3_DPHY_WRAP_REGS_lane,lane control and status" rbitfld.long 0x0 31. "RXCLKACTIVEHSCLK,Receiver high speed clock active: Driven active when the receiver high speed clock is active. 1'b0: Receiver high speed clock not active 1'b1: Receiver high speed clock active" "0: Receiver high speed clock not active,1: Receiver high speed clock active" newline rbitfld.long 0x0 30. "CMN_READY,Common ready indication: Indicates the completion of the startup process of the common module. Once this signal is driven active the PMA lanes may be released from reset. 1'b0 : Indicates that the startup process for the common components is.." "0: Indicates that the startup process for the..,1: Indicates that the startup process for the.." newline bitfld.long 0x0 26. "PSO_DISABLE,Disable power shut off: Disables the ability to switch off the analog switched power islands in the lane when in the ultra low power state. 1'b0: Power islands are switched off and on under the normal control of the escape mode process." "0: Power islands are switched off and on under the..,1: Power island shutoff functions disabled" newline bitfld.long 0x0 24. "PSO_CMN,Disable power shut off: Power Shutoff signal for CMN 1 : CMN is power OFF 0 : CMN is power ON" "0: CMN is power ON,1: CMN is power OFF" newline bitfld.long 0x0 23. "LANE_RSTB_CMN,SW reset for CMN. 0:asserted 1:released" "0: asserted,1: released" newline hexmask.long.byte 0x0 16.--22. 1. "PSM_CLOCK_FREQ,PMA state machine clock frequency divider control: This signal specifies a divider value used to create an internal divided clock that is a function of the psm_clock clock. This signal must be driven with a value such that the frequency of.." newline bitfld.long 0x0 9.--11. "IPCONFIG_CMN,This signal decides which clock lane acts as initiator clock lane to all data lanes. Needed only for RX IP. Bit[2]: Reserved CASE {Bit[1] Bit[0]}: 00: Left RX clk lane provides clock to all left and right data lanes. 01: Left RX clk lane.." "0: Left RX clk lane provides clock to all left and..,1: Left RX clk lane provides clock to all right..,?,?,?,?,?,?" newline bitfld.long 0x0 8. "CLK_SWAPDPDN_DL_L_3,Swap DP and DN: When enabled the rx_p and rx_m differential pins will be swapped. 1'b0: Not swapped 1'b1: Swapped" "0: Not swapped,1: Swapped" newline bitfld.long 0x0 7. "CLK_SWAPDPDN_DL_L_2,Swap DP and DN: When enabled the rx_p and rx_m differential pins will be swapped. 1'b0: Not swapped 1'b1: Swapped" "0: Not swapped,1: Swapped" newline bitfld.long 0x0 6. "DATA_SWAPDPDN_DL_L_3,Swap DP and DN: When enabled the rx_p and rx_m differential pins will be swapped. 1'b0: Not swapped 1'b1: Swapped" "0: Not swapped,1: Swapped" newline bitfld.long 0x0 5. "DATA_SWAPDPDN_DL_L_2,Swap DP and DN: When enabled the rx_p and rx_m differential pins will be swapped. 1'b0: Not swapped 1'b1: Swapped" "0: Not swapped,1: Swapped" newline bitfld.long 0x0 4. "CLK_SWAPDPDN_DL_L_1,Swap DP and DN: When enabled the rx_p and rx_m differential pins will be swapped. 1'b0: Not swapped 1'b1: Swapped" "0: Not swapped,1: Swapped" newline bitfld.long 0x0 3. "CLK_SWAPDPDN_DL_L_0,Swap DP and DN: When enabled the rx_p and rx_m differential pins will be swapped. 1'b0: Not swapped 1'b1: Swapped" "0: Not swapped,1: Swapped" newline bitfld.long 0x0 2. "DATA_SWAPDPDN_DL_L_1,Swap DP and DN: When enabled the rx_p and rx_m differential pins will be swapped. 1'b0: Not swapped 1'b1: Swapped" "0: Not swapped,1: Swapped" newline bitfld.long 0x0 1. "DATA_SWAPDPDN_DL_L_0,Swap DP and DN: When enabled the rx_p and rx_m differential pins will be swapped. 1'b0: Not swapped 1'b1: Swapped" "0: Not swapped,1: Swapped" newline bitfld.long 0x0 0. "CLK_SWAPDPDN_CL_L,Swap DP and DN: When enabled the rx_p and rx_m differential pins will be swapped. 1'b0: Not swapped 1'b1: Swapped" "0: Not swapped,1: Swapped" tree.end tree "DPHY_RX0_VBUS2APB_WRAP_VBUSP_K3_DPHY_RX (DPHY_RX0_VBUS2APB_WRAP_VBUSP_K3_DPHY_RX)" base ad:0x30110000 group.long 0x20++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP__K3_DPHY_RX_REGS_CMN0_CMN_DIG_TBIT2,CMN_DIG_TBIT2" bitfld.long 0x0 10. "O_CMN_RX_MODE_EN,Enable CMN RX related StateMachines" "0,1" bitfld.long 0x0 9. "O_CMN_TX_MODE_EN,Enable CMN TX related StateMachines" "0,1" newline hexmask.long.byte 0x0 1.--8. 1. "O_SSM_WAIT_BGCAL_EN,Wait time for Calibrations enable after bandgap is enabled [in us]" bitfld.long 0x0 0. "O_CMN_SSM_EN,Enable CMN startup state machine" "0,1" group.long 0x40++0x3 line.long 0x0 "VBUS2APB_WRAP__VBUSP__K3_DPHY_RX_REGS_CMN0_CMN_DIG_TBIT10,CMN_DIG_TBIT10" hexmask.long.byte 0x0 20.--27. 1. "O_ANA_PLL_BYTECLK_DIV,Byteclk divider value" hexmask.long.word 0x0 10.--19. 1. "O_ANA_PLL_GM_PWM_DIV_LOW,Low division value setting for the gm PWM control divider" newline hexmask.long.word 0x0 0.--9. 1. "O_ANA_PLL_GM_PWM_DIV_HIGH,High division value setting for the gm PWM control divider" group.long 0x4C++0x7 line.long 0x0 "VBUS2APB_WRAP__VBUSP__K3_DPHY_RX_REGS_CMN0_CMN_DIG_TBIT13,CMN_DIG_TBIT13" hexmask.long.word 0x0 22.--31. 1. "O_ANA_PLL_FB_DIV_LOW_TM,forced value for pll_fb_div_clk_low" bitfld.long 0x0 21. "O_ANA_PLL_FB_DIV_LOW_TM_SEL,pll_fb_div_clk_low forced from test registers" "0,1" newline hexmask.long.word 0x0 11.--20. 1. "O_ANA_PLL_FB_DIV_HIGH_TM,forced value for pll_fb_div_clk_high" bitfld.long 0x0 10. "O_ANA_PLL_FB_DIV_HIGH_TM_SEL,pll_fb_div_clk_high forced from test registers" "0,1" line.long 0x4 "VBUS2APB_WRAP__VBUSP__K3_DPHY_RX_REGS_CMN0_CMN_DIG_TBIT14,CMN_DIG_TBIT14" hexmask.long.byte 0x4 7.--12. 1. "O_ANA_PLL_OP_DIV_TM,forced value for op_div" bitfld.long 0x4 6. "O_ANA_PLL_OP_DIV_TM_SEL,op_div forced from test registers" "0,1" newline hexmask.long.byte 0x4 1.--5. 1. "O_ANA_PLL_IP_DIV_TM,forced value for ip_div" bitfld.long 0x4 0. "O_ANA_PLL_IP_DIV_TM_SEL,ip_div forced from test registers" "0,1" group.long 0xB00++0xF line.long 0x0 "VBUS2APB_WRAP__VBUSP__K3_DPHY_RX_REGS_PCS_TX_DIG_TBIT0,PHY_BAND_CONTROL" hexmask.long.byte 0x0 5.--9. 1. "BAND_CTL_REG_R,Data Rate [80_100] MHz" hexmask.long.byte 0x0 0.--4. 1. "BAND_CTL_REG_L,Data Rate [80_100] MHz" line.long 0x4 "VBUS2APB_WRAP__VBUSP__K3_DPHY_RX_REGS_PCS_TX_DIG_TBIT1,PHY_PSM_CONFIG" hexmask.long.byte 0x4 1.--8. 1. "PSM_CLOCK_FREQ,psm_clock freq value" bitfld.long 0x4 0. "PSM_CLOCK_FREQ_EN,take psm_clock_freq from tbit" "0,1" line.long 0x8 "VBUS2APB_WRAP__VBUSP__K3_DPHY_RX_REGS_PCS_TX_DIG_TBIT2,PHY_PI_PH2_DL_CONFIG" hexmask.long.byte 0x8 28.--31. 1. "POWER_SW_2_TIME_DL_R_3,power_sw_2_time_dl_r_3" hexmask.long.byte 0x8 24.--27. 1. "POWER_SW_2_TIME_DL_R_2,power_sw_2_time_dl_r_2" newline hexmask.long.byte 0x8 20.--23. 1. "POWER_SW_2_TIME_DL_R_1,power_sw_2_time_dl_r_1" hexmask.long.byte 0x8 16.--19. 1. "POWER_SW_2_TIME_DL_R_0,power_sw_2_time_dl_r_0" newline hexmask.long.byte 0x8 12.--15. 1. "POWER_SW_2_TIME_DL_L_3,power_sw_2_time_dl_l_3" hexmask.long.byte 0x8 8.--11. 1. "POWER_SW_2_TIME_DL_L_2,power_sw_2_time_dl_l_2" newline hexmask.long.byte 0x8 4.--7. 1. "POWER_SW_2_TIME_DL_L_1,power_sw_2_time_dl_l_1" hexmask.long.byte 0x8 0.--3. 1. "POWER_SW_2_TIME_DL_L_0,power_sw_2_time_dl_l_0" line.long 0xC "VBUS2APB_WRAP__VBUSP__K3_DPHY_RX_REGS_PCS_TX_DIG_TBIT3,PHY_PI_PH2_CL_CMN_CONFIG" hexmask.long.byte 0xC 8.--11. 1. "POWER_SW_2_TIME_CMN,power_sw_2_time_cmn" hexmask.long.byte 0xC 4.--7. 1. "POWER_SW_2_TIME_CL_R,power_sw_2_time_cl_r" newline hexmask.long.byte 0xC 0.--3. 1. "POWER_SW_2_TIME_CL_L,power_sw_2_time_cl_l" tree.end tree.end tree "DPHY_TX0 (DPHY_TX0)" base ad:0x301C0000 group.long 0x20++0x3 line.long 0x0 "WIZ16B8M4CDT3_CMN0_CMN_DIG_TBIT2,CMN_DIG_TBIT2" bitfld.long 0x0 10. "CMN0_O_CMN_RX_MODE_EN,Enable CMN RX related StateMachines" "0,1" newline bitfld.long 0x0 9. "CMN0_O_CMN_TX_MODE_EN,Enable CMN TX related StateMachines" "0,1" newline hexmask.long.byte 0x0 1.--8. 1. "CMN0_O_SSM_WAIT_BGCAL_EN,Wait time for Calibrations enable after bandgap is enabled (in us)" newline bitfld.long 0x0 0. "CMN0_O_CMN_SSM_EN,Enable CMN startup state machine" "0,1" group.long 0x40++0x3 line.long 0x0 "WIZ16B8M4CDT3_CMN0_CMN_DIG_TBIT10,CMN_DIG_TBIT10" hexmask.long.byte 0x0 20.--27. 1. "CMN0_O_ANA_PLL_BYTECLK_DIV,Byteclk divider value" newline hexmask.long.word 0x0 10.--19. 1. "CMN0_O_ANA_PLL_GM_PWM_DIV_LOW,Low division value setting for the gm PWM control divider" newline hexmask.long.word 0x0 0.--9. 1. "CMN0_O_ANA_PLL_GM_PWM_DIV_HIGH,High division value setting for the gm PWM control divider" group.long 0x4C++0x7 line.long 0x0 "WIZ16B8M4CDT3_CMN0_CMN_DIG_TBIT13,CMN_DIG_TBIT13" hexmask.long.word 0x0 22.--31. 1. "CMN0_O_ANA_PLL_FB_DIV_LOW_TM,forced value for pll_fb_div_clk_low" newline bitfld.long 0x0 21. "CMN0_O_ANA_PLL_FB_DIV_LOW_TM_SEL,pll_fb_div_clk_low forced from test registers" "0,1" newline hexmask.long.word 0x0 11.--20. 1. "CMN0_O_ANA_PLL_FB_DIV_HIGH_TM,forced value for pll_fb_div_clk_high" newline bitfld.long 0x0 10. "CMN0_O_ANA_PLL_FB_DIV_HIGH_TM_SEL,pll_fb_div_clk_high forced from test registers" "0,1" line.long 0x4 "WIZ16B8M4CDT3_CMN0_CMN_DIG_TBIT14,CMN_DIG_TBIT14" hexmask.long.byte 0x4 7.--12. 1. "CMN0_O_ANA_PLL_OP_DIV_TM,forced value for op_div" newline bitfld.long 0x4 6. "CMN0_O_ANA_PLL_OP_DIV_TM_SEL,op_div forced from test registers" "0,1" newline hexmask.long.byte 0x4 1.--5. 1. "CMN0_O_ANA_PLL_IP_DIV_TM,forced value for ip_div" newline bitfld.long 0x4 0. "CMN0_O_ANA_PLL_IP_DIV_TM_SEL,ip_div forced from test registers" "0,1" group.long 0x154++0x3 line.long 0x0 "WIZ16B8M4CDT3_CLK0_TX_DIG_TBIT14,digital to analog signals test muxing" bitfld.long 0x0 31. "CLK0_TM_ISO_EN,Enable isolation in test mode" "0,1" newline bitfld.long 0x0 30. "CLK0_TM_LOAD_DPDN_SEL,Take ana_dpdn_load from dig logic" "0,1" newline bitfld.long 0x0 27.--29. "CLK0_TM_LOAD_DPDN,set ana_dpdn_load as per requirement in test mode" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 26. "CLK0_TM_HSTX_DATA_RATE_SEL,Take ana_hstx_datarate from dig logic" "0,1" newline bitfld.long 0x0 24.--25. "CLK0_TM_HSTX_DATE_RATE,set ana_hstx_datarate as per requirement in test mode" "0,1,2,3" newline bitfld.long 0x0 23. "CLK0_TM_BIST_ULP_RCV_EN_SEL,Take ana_bist_ulps_rcv_en from dig logic" "0,1" newline bitfld.long 0x0 22. "CLK0_TM_BIST_ULP_RCV_EN,set ana_bist_ulps_rcv_en to 0" "0,1" newline bitfld.long 0x0 21. "CLK0_TM_ULPS_PULDN_SEL,Take ana_ulps_puldn from dig logic" "0,1" newline bitfld.long 0x0 20. "CLK0_TM_ULPS_PULDN,set ana_ulps_puldn to 0" "0,1" newline bitfld.long 0x0 19. "CLK0_TM_BIST_SMPLR_CLK_EDGE_SEL,Take ana_bist_smplr_clkedge from dig logic" "0,1" newline bitfld.long 0x0 18. "CLK0_TM_BIST_SMPLR_CLK_EDGE,set ana_bist_smplr_clkedge to posedge" "0,1" newline bitfld.long 0x0 17. "CLK0_TM_BIST_EN_SEL,Take ana_bist_en from dig logic" "0,1" newline bitfld.long 0x0 16. "CLK0_TM_BIST_EN,set ana_bist_en to 0" "0,1" newline bitfld.long 0x0 15. "CLK0_TM_LPTX_TRST_SEL,Take ana_lptx_trst from dig logic" "0,1" newline bitfld.long 0x0 14. "CLK0_TM_LPTX_TRST,set ana_lptx_trst to 0" "0,1" newline bitfld.long 0x0 13. "CLK0_TM_LPTX_RST_SEL,Take ana_lptx_rst from dig logic" "0,1" newline bitfld.long 0x0 12. "CLK0_TM_LPTX_RST,set ana_lptx_rst to 0" "0,1" newline bitfld.long 0x0 11. "CLK0_TM_LPTX_DP_SEL,give output for LPTX DP from dig logic" "0,1" newline bitfld.long 0x0 10. "CLK0_TM_LPTX_DP,send 0 to LP TX Dp" "0,1" newline bitfld.long 0x0 9. "CLK0_TM_LPTX_DN_SEL,give output for LPTX DN from dig logic" "0,1" newline bitfld.long 0x0 8. "CLK0_TM_LPTX_DN,send 0 to LP TX Dn" "0,1" newline bitfld.long 0x0 7. "CLK0_TM_LDO_REF_EN_SEL,Take ana_ldo_ref_en from dig logic" "0,1" newline bitfld.long 0x0 6. "CLK0_TM_LDO_REF_EN,set ana_ldo_ref_en to 0" "0,1" newline bitfld.long 0x0 5. "CLK0_TM_HSTX_TRST_SEL,Take ana_hstx_trst from dig logic" "0,1" newline bitfld.long 0x0 4. "CLK0_TM_HSTX_TRST,set ana_hstx_trst to 0" "0,1" newline bitfld.long 0x0 3. "CLK0_TM_HSTX_RQST_SEL,Take ana_hstx_rqst from dig logic" "0,1" newline bitfld.long 0x0 2. "CLK0_TM_HSTX_RQST,set ana_hstx_rqst to 0" "0,1" newline bitfld.long 0x0 1. "CLK0_TM_GLOBAL_PD_SEL,Take ana_global_pd from dig logic" "0,1" newline bitfld.long 0x0 0. "CLK0_TM_GLOBAL_PD,set ana_global_pd to 0 (powered up)" "0,1" group.long 0x26C++0x3 line.long 0x0 "WIZ16B8M4CDT3_DL0_TX_DIG_TBIT20,digital to analog signal muxing" bitfld.long 0x0 31. "DL0_TM_ISO_EN,Enable isolation in test mode" "0,1" newline bitfld.long 0x0 30. "DL0_TM_LOAD_DPDN_SEL,Take ana_dpdn_load from dig logic" "0,1" newline bitfld.long 0x0 27.--29. "DL0_TM_LOAD_DPDN,set ana_dpdn_load as per requirement in test mode" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 26. "DL0_TM_HSTX_DATA_RATE_SEL,Take ana_hstx_datarate from dig logic" "0,1" newline bitfld.long 0x0 24.--25. "DL0_TM_HSTX_DATE_RATE,set ana_hstx_datarate as per requirement in test mode" "0,1,2,3" newline bitfld.long 0x0 23. "DL0_TM_BIST_ULP_RCV_EN_SEL,Take ana_bist_ulps_rcv_en from dig logic" "0,1" newline bitfld.long 0x0 22. "DL0_TM_BIST_ULP_RCV_EN,set ana_bist_ulps_rcv_en to 0" "0,1" newline bitfld.long 0x0 21. "DL0_TM_ULPS_PULDN_SEL,Take ana_ulps_puldn from dig logic" "0,1" newline bitfld.long 0x0 20. "DL0_TM_ULPS_PULDN,set ana_ulps_puldn to 0" "0,1" newline bitfld.long 0x0 19. "DL0_TM_BIST_SMPLR_CLK_EDGE_SEL,Take ana_bist_smplr_clkedge from dig logic" "0,1" newline bitfld.long 0x0 18. "DL0_TM_BIST_SMPLR_CLK_EDGE,set ana_bist_smplr_clkedge to posedge" "0,1" newline bitfld.long 0x0 17. "DL0_TM_BIST_EN_SEL,Take ana_bist_en from dig logic" "0,1" newline bitfld.long 0x0 16. "DL0_TM_BIST_EN,set ana_bist_en to 0" "0,1" newline bitfld.long 0x0 15. "DL0_TM_LPTX_TRST_SEL,Take ana_lptx_trst from dig logic" "0,1" newline bitfld.long 0x0 14. "DL0_TM_LPTX_TRST,set ana_lptx_trst to 0" "0,1" newline bitfld.long 0x0 13. "DL0_TM_LPTX_RST_SEL,Take ana_lptx_rst from dig logic" "0,1" newline bitfld.long 0x0 12. "DL0_TM_LPTX_RST,set ana_lptx_rst to 0" "0,1" newline bitfld.long 0x0 11. "DL0_TM_LPTX_DP_SEL,give output for LPTX DP from dig logic" "0,1" newline bitfld.long 0x0 10. "DL0_TM_LPTX_DP,send 0 to LP TX Dp" "0,1" newline bitfld.long 0x0 9. "DL0_TM_LPTX_DN_SEL,give output for LPTX DN from dig logic" "0,1" newline bitfld.long 0x0 8. "DL0_TM_LPTX_DN,send 0 to LP TX Dn" "0,1" newline bitfld.long 0x0 7. "DL0_TM_LDO_REF_EN_SEL,Take ana_ldo_ref_en from dig logic" "0,1" newline bitfld.long 0x0 6. "DL0_TM_LDO_REF_EN,set ana_ldo_ref_en to 0" "0,1" newline bitfld.long 0x0 5. "DL0_TM_HSTX_TRST_SEL,Take ana_hstx_trst from dig logic" "0,1" newline bitfld.long 0x0 4. "DL0_TM_HSTX_TRST,set ana_hstx_trst to 0" "0,1" newline bitfld.long 0x0 3. "DL0_TM_HSTX_RQST_SEL,Take ana_hstx_rqst from dig logic" "0,1" newline bitfld.long 0x0 2. "DL0_TM_HSTX_RQST,set ana_hstx_rqst to 0" "0,1" newline bitfld.long 0x0 1. "DL0_TM_GLOBAL_PD_SEL,Take ana_global_pd from dig logic" "0,1" newline bitfld.long 0x0 0. "DL0_TM_GLOBAL_PD,set ana_global_pd to 0 (powered up)" "0,1" group.long 0x36C++0x3 line.long 0x0 "WIZ16B8M4CDT3_DL1_TX_DIG_TBIT20,digital to analog signal muxing" bitfld.long 0x0 31. "DL1_TM_ISO_EN,Enable isolation in test mode" "0,1" newline bitfld.long 0x0 30. "DL1_TM_LOAD_DPDN_SEL,Take ana_dpdn_load from dig logic" "0,1" newline bitfld.long 0x0 27.--29. "DL1_TM_LOAD_DPDN,set ana_dpdn_load as per requirement in test mode" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 26. "DL1_TM_HSTX_DATA_RATE_SEL,Take ana_hstx_datarate from dig logic" "0,1" newline bitfld.long 0x0 24.--25. "DL1_TM_HSTX_DATE_RATE,set ana_hstx_datarate as per requirement in test mode" "0,1,2,3" newline bitfld.long 0x0 23. "DL1_TM_BIST_ULP_RCV_EN_SEL,Take ana_bist_ulps_rcv_en from dig logic" "0,1" newline bitfld.long 0x0 22. "DL1_TM_BIST_ULP_RCV_EN,set ana_bist_ulps_rcv_en to 0" "0,1" newline bitfld.long 0x0 21. "DL1_TM_ULPS_PULDN_SEL,Take ana_ulps_puldn from dig logic" "0,1" newline bitfld.long 0x0 20. "DL1_TM_ULPS_PULDN,set ana_ulps_puldn to 0" "0,1" newline bitfld.long 0x0 19. "DL1_TM_BIST_SMPLR_CLK_EDGE_SEL,Take ana_bist_smplr_clkedge from dig logic" "0,1" newline bitfld.long 0x0 18. "DL1_TM_BIST_SMPLR_CLK_EDGE,set ana_bist_smplr_clkedge to posedge" "0,1" newline bitfld.long 0x0 17. "DL1_TM_BIST_EN_SEL,Take ana_bist_en from dig logic" "0,1" newline bitfld.long 0x0 16. "DL1_TM_BIST_EN,set ana_bist_en to 0" "0,1" newline bitfld.long 0x0 15. "DL1_TM_LPTX_TRST_SEL,Take ana_lptx_trst from dig logic" "0,1" newline bitfld.long 0x0 14. "DL1_TM_LPTX_TRST,set ana_lptx_trst to 0" "0,1" newline bitfld.long 0x0 13. "DL1_TM_LPTX_RST_SEL,Take ana_lptx_rst from dig logic" "0,1" newline bitfld.long 0x0 12. "DL1_TM_LPTX_RST,set ana_lptx_rst to 0" "0,1" newline bitfld.long 0x0 11. "DL1_TM_LPTX_DP_SEL,give output for LPTX DP from dig logic" "0,1" newline bitfld.long 0x0 10. "DL1_TM_LPTX_DP,send 0 to LP TX Dp" "0,1" newline bitfld.long 0x0 9. "DL1_TM_LPTX_DN_SEL,give output for LPTX DN from dig logic" "0,1" newline bitfld.long 0x0 8. "DL1_TM_LPTX_DN,send 0 to LP TX Dn" "0,1" newline bitfld.long 0x0 7. "DL1_TM_LDO_REF_EN_SEL,Take ana_ldo_ref_en from dig logic" "0,1" newline bitfld.long 0x0 6. "DL1_TM_LDO_REF_EN,set ana_ldo_ref_en to 0" "0,1" newline bitfld.long 0x0 5. "DL1_TM_HSTX_TRST_SEL,Take ana_hstx_trst from dig logic" "0,1" newline bitfld.long 0x0 4. "DL1_TM_HSTX_TRST,set ana_hstx_trst to 0" "0,1" newline bitfld.long 0x0 3. "DL1_TM_HSTX_RQST_SEL,Take ana_hstx_rqst from dig logic" "0,1" newline bitfld.long 0x0 2. "DL1_TM_HSTX_RQST,set ana_hstx_rqst to 0" "0,1" newline bitfld.long 0x0 1. "DL1_TM_GLOBAL_PD_SEL,Take ana_global_pd from dig logic" "0,1" newline bitfld.long 0x0 0. "DL1_TM_GLOBAL_PD,set ana_global_pd to 0 (powered up)" "0,1" group.long 0x46C++0x3 line.long 0x0 "WIZ16B8M4CDT3_DL2_TX_DIG_TBIT20,digital to analog signal muxing" bitfld.long 0x0 31. "DL2_TM_ISO_EN,Enable isolation in test mode" "0,1" newline bitfld.long 0x0 30. "DL2_TM_LOAD_DPDN_SEL,Take ana_dpdn_load from dig logic" "0,1" newline bitfld.long 0x0 27.--29. "DL2_TM_LOAD_DPDN,set ana_dpdn_load as per requirement in test mode" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 26. "DL2_TM_HSTX_DATA_RATE_SEL,Take ana_hstx_datarate from dig logic" "0,1" newline bitfld.long 0x0 24.--25. "DL2_TM_HSTX_DATE_RATE,set ana_hstx_datarate as per requirement in test mode" "0,1,2,3" newline bitfld.long 0x0 23. "DL2_TM_BIST_ULP_RCV_EN_SEL,Take ana_bist_ulps_rcv_en from dig logic" "0,1" newline bitfld.long 0x0 22. "DL2_TM_BIST_ULP_RCV_EN,set ana_bist_ulps_rcv_en to 0" "0,1" newline bitfld.long 0x0 21. "DL2_TM_ULPS_PULDN_SEL,Take ana_ulps_puldn from dig logic" "0,1" newline bitfld.long 0x0 20. "DL2_TM_ULPS_PULDN,set ana_ulps_puldn to 0" "0,1" newline bitfld.long 0x0 19. "DL2_TM_BIST_SMPLR_CLK_EDGE_SEL,Take ana_bist_smplr_clkedge from dig logic" "0,1" newline bitfld.long 0x0 18. "DL2_TM_BIST_SMPLR_CLK_EDGE,set ana_bist_smplr_clkedge to posedge" "0,1" newline bitfld.long 0x0 17. "DL2_TM_BIST_EN_SEL,Take ana_bist_en from dig logic" "0,1" newline bitfld.long 0x0 16. "DL2_TM_BIST_EN,set ana_bist_en to 0" "0,1" newline bitfld.long 0x0 15. "DL2_TM_LPTX_TRST_SEL,Take ana_lptx_trst from dig logic" "0,1" newline bitfld.long 0x0 14. "DL2_TM_LPTX_TRST,set ana_lptx_trst to 0" "0,1" newline bitfld.long 0x0 13. "DL2_TM_LPTX_RST_SEL,Take ana_lptx_rst from dig logic" "0,1" newline bitfld.long 0x0 12. "DL2_TM_LPTX_RST,set ana_lptx_rst to 0" "0,1" newline bitfld.long 0x0 11. "DL2_TM_LPTX_DP_SEL,give output for LPTX DP from dig logic" "0,1" newline bitfld.long 0x0 10. "DL2_TM_LPTX_DP,send 0 to LP TX Dp" "0,1" newline bitfld.long 0x0 9. "DL2_TM_LPTX_DN_SEL,give output for LPTX DN from dig logic" "0,1" newline bitfld.long 0x0 8. "DL2_TM_LPTX_DN,send 0 to LP TX Dn" "0,1" newline bitfld.long 0x0 7. "DL2_TM_LDO_REF_EN_SEL,Take ana_ldo_ref_en from dig logic" "0,1" newline bitfld.long 0x0 6. "DL2_TM_LDO_REF_EN,set ana_ldo_ref_en to 0" "0,1" newline bitfld.long 0x0 5. "DL2_TM_HSTX_TRST_SEL,Take ana_hstx_trst from dig logic" "0,1" newline bitfld.long 0x0 4. "DL2_TM_HSTX_TRST,set ana_hstx_trst to 0" "0,1" newline bitfld.long 0x0 3. "DL2_TM_HSTX_RQST_SEL,Take ana_hstx_rqst from dig logic" "0,1" newline bitfld.long 0x0 2. "DL2_TM_HSTX_RQST,set ana_hstx_rqst to 0" "0,1" newline bitfld.long 0x0 1. "DL2_TM_GLOBAL_PD_SEL,Take ana_global_pd from dig logic" "0,1" newline bitfld.long 0x0 0. "DL2_TM_GLOBAL_PD,set ana_global_pd to 0 (powered up)" "0,1" group.long 0x56C++0x3 line.long 0x0 "WIZ16B8M4CDT3_DL3_TX_DIG_TBIT20,digital to analog signal muxing" bitfld.long 0x0 31. "DL3_TM_ISO_EN,Enable isolation in test mode" "0,1" newline bitfld.long 0x0 30. "DL3_TM_LOAD_DPDN_SEL,Take ana_dpdn_load from dig logic" "0,1" newline bitfld.long 0x0 27.--29. "DL3_TM_LOAD_DPDN,set ana_dpdn_load as per requirement in test mode" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 26. "DL3_TM_HSTX_DATA_RATE_SEL,Take ana_hstx_datarate from dig logic" "0,1" newline bitfld.long 0x0 24.--25. "DL3_TM_HSTX_DATE_RATE,set ana_hstx_datarate as per requirement in test mode" "0,1,2,3" newline bitfld.long 0x0 23. "DL3_TM_BIST_ULP_RCV_EN_SEL,Take ana_bist_ulps_rcv_en from dig logic" "0,1" newline bitfld.long 0x0 22. "DL3_TM_BIST_ULP_RCV_EN,set ana_bist_ulps_rcv_en to 0" "0,1" newline bitfld.long 0x0 21. "DL3_TM_ULPS_PULDN_SEL,Take ana_ulps_puldn from dig logic" "0,1" newline bitfld.long 0x0 20. "DL3_TM_ULPS_PULDN,set ana_ulps_puldn to 0" "0,1" newline bitfld.long 0x0 19. "DL3_TM_BIST_SMPLR_CLK_EDGE_SEL,Take ana_bist_smplr_clkedge from dig logic" "0,1" newline bitfld.long 0x0 18. "DL3_TM_BIST_SMPLR_CLK_EDGE,set ana_bist_smplr_clkedge to posedge" "0,1" newline bitfld.long 0x0 17. "DL3_TM_BIST_EN_SEL,Take ana_bist_en from dig logic" "0,1" newline bitfld.long 0x0 16. "DL3_TM_BIST_EN,set ana_bist_en to 0" "0,1" newline bitfld.long 0x0 15. "DL3_TM_LPTX_TRST_SEL,Take ana_lptx_trst from dig logic" "0,1" newline bitfld.long 0x0 14. "DL3_TM_LPTX_TRST,set ana_lptx_trst to 0" "0,1" newline bitfld.long 0x0 13. "DL3_TM_LPTX_RST_SEL,Take ana_lptx_rst from dig logic" "0,1" newline bitfld.long 0x0 12. "DL3_TM_LPTX_RST,set ana_lptx_rst to 0" "0,1" newline bitfld.long 0x0 11. "DL3_TM_LPTX_DP_SEL,give output for LPTX DP from dig logic" "0,1" newline bitfld.long 0x0 10. "DL3_TM_LPTX_DP,send 0 to LP TX Dp" "0,1" newline bitfld.long 0x0 9. "DL3_TM_LPTX_DN_SEL,give output for LPTX DN from dig logic" "0,1" newline bitfld.long 0x0 8. "DL3_TM_LPTX_DN,send 0 to LP TX Dn" "0,1" newline bitfld.long 0x0 7. "DL3_TM_LDO_REF_EN_SEL,Take ana_ldo_ref_en from dig logic" "0,1" newline bitfld.long 0x0 6. "DL3_TM_LDO_REF_EN,set ana_ldo_ref_en to 0" "0,1" newline bitfld.long 0x0 5. "DL3_TM_HSTX_TRST_SEL,Take ana_hstx_trst from dig logic" "0,1" newline bitfld.long 0x0 4. "DL3_TM_HSTX_TRST,set ana_hstx_trst to 0" "0,1" newline bitfld.long 0x0 3. "DL3_TM_HSTX_RQST_SEL,Take ana_hstx_rqst from dig logic" "0,1" newline bitfld.long 0x0 2. "DL3_TM_HSTX_RQST,set ana_hstx_rqst to 0" "0,1" newline bitfld.long 0x0 1. "DL3_TM_GLOBAL_PD_SEL,Take ana_global_pd from dig logic" "0,1" newline bitfld.long 0x0 0. "DL3_TM_GLOBAL_PD,set ana_global_pd to 0 (powered up)" "0,1" group.long 0xB00++0x7 line.long 0x0 "WIZ16B8M4CDT3_PCS_TX_DIG_TBIT0,PHY_BAND_CONTROL" hexmask.long.byte 0x0 5.--9. 1. "PCS_BAND_CTL_REG_R,Data Rate [80_100] MHz" newline hexmask.long.byte 0x0 0.--4. 1. "PCS_BAND_CTL_REG_L,Data Rate [80_100] MHz" line.long 0x4 "WIZ16B8M4CDT3_PCS_TX_DIG_TBIT1,PHY_PSM_CONFIG" hexmask.long.byte 0x4 1.--8. 1. "PCS_PSM_CLOCK_FREQ,psm_clock freq value" newline bitfld.long 0x4 0. "PCS_PSM_CLOCK_FREQ_EN,take psm_clock_freq from tbit" "0,1" rgroup.long 0xF00++0x3 line.long 0x0 "WIZ16B8M4CDT3_MOD_VER,The Module and Version Register identifies the module identifier and revision of the WIZ16B8M4CDT3 module." bitfld.long 0x0 30.--31. "SCHEME,Module Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,Module Business Unit" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,WIZ16B8M4CDT3 module ID." newline hexmask.long.byte 0x0 11.--15. 1. "RTL_VERSION,RTL Version." newline bitfld.long 0x0 8.--10. "MAJOR_REVISION,Major Revision." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM_REVISION,Custom Revision." "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR_REVISION,Minor Revision." group.long 0xF04++0x3 line.long 0x0 "WIZ16B8M4CDT3_PLL_CTRL,Sets the PLL info." rbitfld.long 0x0 31. "PLL_LOCK,Signal to indicate that PLL has got locked. 1: PLL locked to required frequency 0: PLL not yet locked" "0: PLL not yet locked,1: PLL locked to required frequency" newline bitfld.long 0x0 30. "PSO_DISABLE,Disables the ability to switch off the analog switched power islands in the lane when in the ultra-low power state" "0,1" newline bitfld.long 0x0 29. "PLL_PSO,Power Shut Off signal for PLL 1: PLL shutoff 0: PLL power ON" "0: PLL power ON,1: PLL shutoff" newline bitfld.long 0x0 28. "PLL_PD,Power down signal for PLL (Does not switch off the PLL supply) 1: PLL is powered down 0: PLL is active" "0: PLL is active,1: PLL is powered down" newline hexmask.long.word 0x0 16.--25. 1. "PLL_FBDIV,DPHY TX PLL VCO Feedback Divider ratio. Feedback divider value = ROUND ((Data Rate * 2 * pll_opdiv * pll_ipdiv) / PLL reference clock frequency)" newline hexmask.long.byte 0x0 8.--13. 1. "PLL_OPDIV,DPHY TX PLL OUTCLK Divider ratio.<BR> 6'h01: Div by 1 2.5 Gbps - 1.25 Gbps<BR> 6'h02: Div by 2 1.24 Gbps - 630 Mbps<BR> 6'h04: Div by 4 620 Mbps - 320 Mbps<BR> 6'h08: Div by 8 310 Mbps - 160 Mbps<BR> 6'h10: Div by 16 .." newline hexmask.long.byte 0x0 0.--4. 1. "PLL_IPDIV,DPHY TX PLL REFCLK Input Divider ratio.<BR> 5'h01: Div by 1 9.6 MHz - <19.2 MHz<BR> 5'h02: Div by 2 19.2 MHz - <38.4 MHz<BR> 5'h04: Div by 4 38.4 MHz - < 76.8 MHz<BR> 5'h08: Div by 8 76.8 MHz - < 150 MHz" rgroup.long 0xF08++0x3 line.long 0x0 "WIZ16B8M4CDT3_STATUS,The status register reports status of the DPHYTS sub module." bitfld.long 0x0 31. "O_CMN_READY,System Should check this during Power up Initialisation" "0,1" newline bitfld.long 0x0 2. "O_SUPPLY_CORE_PG,The indicates the core supply is good." "0,1" newline bitfld.long 0x0 1. "O_SUPPLY_IO_PG,The indicates the IO supply is good." "0,1" group.long 0xF0C++0xB line.long 0x0 "WIZ16B8M4CDT3_RST_CTRL,Sets the RST info." bitfld.long 0x0 31. "LANE_RSTB_CMN,DPHY System Reset for Common Module - required to be released after APB register programming; See DPHY PMA specification for details of DPHY power up sequence" "0,1" line.long 0x4 "WIZ16B8M4CDT3_PSM_FREQ,The PSM Frequency register configures the so that it knows hoe fast the PSM clock is." hexmask.long.byte 0x4 0.--7. 1. "PSM_CLOCK_FREQ,Static value based on System PSM clock frequency. The signal must be driven with a value such that the internal psm frequency of the divided psm clock is 1 MHz" line.long 0x8 "WIZ16B8M4CDT3_IPCONFIG," bitfld.long 0x8 31. "PSO_CMN,Power Shutoff signal for CMN 1: CMN is power OFF 0: CMN is power ON" "0: CMN is power ON,1: CMN is power OFF" newline bitfld.long 0x8 0.--2. "IPCONFIG_CMN,This signal decides which clock lane acts as master clock lane to all data lanes. Needed only for RXIP. Bit[2]: Reserved CASE {Bit[1] Bit[0]}: 00: Left RX clk lane provides clock to all left and right data lanes. 01: Left RX clk lane.." "0: Left RX clk lane provides clock to all left and..,1: Left RX clk lane provides clock to all right..,?,?,?,?,?,?" group.long 0xFF8++0x7 line.long 0x0 "WIZ16B8M4CDT3_PLLRES,The PLL Reserved register is not being used currently" hexmask.long.byte 0x0 0.--7. 1. "PLLREFSEL_CMN,PLL frequency range. This signal is not being used currently. Should be 8'd0" line.long 0x4 "WIZ16B8M4CDT3_DIAG_TEST,The Diagnostic Test Register allows the system to validate the read and write of all data bits." hexmask.long 0x4 0.--31. 1. "DIAG_REG,Diagnostic register." tree.end tree.end tree "DSS0" base ad:0x0 tree "DSS0_COMMON (DSS0_COMMON)" base ad:0x30200000 rgroup.long 0x4++0x3 line.long 0x0 "COMMON_DSS_REVISION,This register contains the K3_DSS revision number" hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID Field" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL Revision" bitfld.long 0x0 8.--10. "REVMAJOR,Major Revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor Revision" group.long 0x8++0x3 line.long 0x0 "COMMON_DSS_SYSCONFIG,This register controls various parameters related to software reset and IP idle" hexmask.long.tbyte 0x0 14.--31. 1. "RESERVED4,Write 0's for future compatibility. Read returns 0" hexmask.long.byte 0x0 8.--13. 1. "RESERVED3,Write 0's for future compatibility. Read returns 0" rbitfld.long 0x0 6.--7. "RESERVED2,Write 0's for future compatibility. Read returns 0" "0,1,2,3" newline bitfld.long 0x0 5. "WARMRESET,Warm reset. Setting this bit to 1 triggers a module warm reset. The bit is automatically reset by the hardware. During read it always returns 0. The warm reset keeps the configuration registers unchanged" "0,1" bitfld.long 0x0 3.--4. "IDLEMODE,Deprecated" "0,1,2,3" rbitfld.long 0x0 2. "RESERVED1,Write 0's for future compatibility. Read returns 0" "0,1" newline bitfld.long 0x0 1. "SOFTRESET,Software reset. Setting this bit to 1 triggers a module reset. The bit is automatically reset by the hardware. During read it always returns 0" "0,1" bitfld.long 0x0 0. "AUTOCLKGATING,Internal clock gating strategy" "0,1" rgroup.long 0x20++0x3 line.long 0x0 "COMMON_DSS_SYSSTATUS,This register provides status information about the module. excluding the interrupt status information" bitfld.long 0x0 9. "DISPC_IDLE_STATUS,Idle status of DISPC" "0,1" bitfld.long 0x0 5. "OLDI_RESETDONE,Reset status of OLDI" "0,1" bitfld.long 0x0 1.--2. "DISPC_VP_RESETDONE,Reset status of VP pixel clock domain" "0,1,2,3" newline bitfld.long 0x0 0. "DISPC_FUNC_RESETDONE,Reset status of DISPC Functional clock domain" "0,1" wgroup.long 0x24++0x3 line.long 0x0 "COMMON_DISPC_IRQ_EOI,End-Of-Interrupt register. to be used if pulse interrupts are used" bitfld.long 0x0 0. "EOI,Write 1 to acknowledge a pulse IRQ" "0,1" group.long 0x28++0xB line.long 0x0 "COMMON_DISPC_IRQSTATUS_RAW,RAW Interrupt status. Raw status is set even if interrupt is not enabled. Write 1 to set the RAW status" bitfld.long 0x0 4.--5. "VID_IRQ,VID IRQ STATUS. Register indicates the VIDEO pipeline[s] interrupt events" "0,1,2,3" bitfld.long 0x0 0.--1. "VP_IRQ,VP IRQ STATUS. Register indicates the Video Port[s] interrupt events" "0,1,2,3" line.long 0x4 "COMMON_DISPC_IRQSTATUS,Interrupt status. Enabled status. isn't set unless event is enabled. Write 1 to clear the status after interrupt has been serviced. RAW status also gets cleared. i.e. even if not enabled" bitfld.long 0x4 4.--5. "VID_IRQ,VID IRQ STATUS. Register indicates the VIDEO pipeline[s] interrupt events" "0,1,2,3" bitfld.long 0x4 0.--1. "VP_IRQ,VP IRQ STATUS. Register indicates the Video Port[s] interrupt events" "0,1,2,3" line.long 0x8 "COMMON_DISPC_IRQENABLE_SET,SET Interrupt enable. Write 1 to set interrupt enable. Readout equal to corresponding _CLR register" bitfld.long 0x8 4.--5. "SET_VID_IRQ,VID IRQ" "0,1,2,3" bitfld.long 0x8 0.--1. "SET_VP_IRQ,VP IRQ" "0,1,2,3" group.long 0x40++0xB line.long 0x0 "COMMON_DISPC_IRQENABLE_CLR,CLR Interrupt enable. Write 1 to clear interrupt enable" bitfld.long 0x0 4.--5. "CLR_VID_IRQ,VID IRQ" "0,1,2,3" bitfld.long 0x0 0.--1. "CLR_VP_IRQ,VP IRQ" "0,1,2,3" line.long 0x4 "COMMON_VID_IRQENABLE_0,This register allows to mask/unmask the VID_0 internal sources of interrupt. on an event-by-event basis" bitfld.long 0x4 2. "SAFETYREGION_EN,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" "0,1" bitfld.long 0x4 1. "VIDENDWINDOW_EN,Video End Window. This is raised by the DMA engine when the full video data has been sent to the pipeline" "0,1" bitfld.long 0x4 0. "VIDBUFFERUNDERFLOW_EN,Video DMA Buffer Underflow. This is raised when the DMA buffer does not have the data requested by the Video pipeline" "0,1" line.long 0x8 "COMMON_VID_IRQENABLE_1,This register allows to mask/unmask the VIDL_0 internal sources of interrupt. on an event-by-event basis" bitfld.long 0x8 2. "SAFETYREGION_EN,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" "0,1" bitfld.long 0x8 1. "VIDENDWINDOW_EN,Video End Window. This is raised by the DMA engine when the full video data has been sent to the pipeline" "0,1" bitfld.long 0x8 0. "VIDBUFFERUNDERFLOW_EN,Video DMA Buffer Underflow. This is raised when the DMA buffer does not have the data requested by the Video pipeline" "0,1" group.long 0x58++0x7 line.long 0x0 "COMMON_VID_IRQSTATUS_0,This register groups all the status of the VID_0 internal events that generate an interrupt. Write 1 to a clear a bit field" bitfld.long 0x0 2. "SAFETYREGION_IRQ,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" "0,1" bitfld.long 0x0 1. "VIDENDWINDOW_IRQ,Video End Window. This is raised by the DMA engine when the full video data has been sent to the pipeline" "0,1" bitfld.long 0x0 0. "VIDBUFFERUNDERFLOW_IRQ,Video DMA Buffer Underflow. This is raised when the DMA buffer does not have the data requested by the Video pipeline" "0,1" line.long 0x4 "COMMON_VID_IRQSTATUS_1,This register groups all the status of the VIDL_0 internal events that generate an interrupt. Write 1 to a clear a bit field" bitfld.long 0x4 2. "SAFETYREGION_IRQ,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" "0,1" bitfld.long 0x4 1. "VIDENDWINDOW_IRQ,Video End Window. This is raised by the DMA engine when the full video data has been sent to the pipeline" "0,1" bitfld.long 0x4 0. "VIDBUFFERUNDERFLOW_IRQ,Video DMA Buffer Underflow. This is raised when the DMA buffer does not have the data requested by the Video pipeline" "0,1" group.long 0x70++0x7 line.long 0x0 "COMMON_VP_IRQENABLE_0,This register allows to mask/unmask the VP_0 internal sources of interrupt. on an event-by-event basis" bitfld.long 0x0 12. "DUMMY_EN,Dummy IRQ for future use" "0,1" bitfld.long 0x0 11. "VPSYNC_EN,Go bit clear event" "0,1" bitfld.long 0x0 10. "SECURITYVIOLATION_EN,Security Violation interrupt for OVR/VP. Non-secure OVR/VP connected to secure VID" "0,1" newline hexmask.long.byte 0x0 6.--9. 1. "SAFETYREGION_EN,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" bitfld.long 0x0 5. "ACBIASCOUNTSTATUS_EN,AC BIAS transition counter has decremented to zero" "0,1" bitfld.long 0x0 4. "VPSYNCLOST_EN,Synchronization Lost for Video Port" "0,1" newline bitfld.long 0x0 3. "VPPROGRAMMEDLINENUMBER_EN,Programmed Line Number. It indicates that the scan of the display has reached the programmed user line number" "0,1" bitfld.long 0x0 2. "VPVSYNC_ODD_EN,VSYNC for odd field from interlace mode only" "0,1" bitfld.long 0x0 1. "VPVSYNC_EN,Vertical Synchronization for VP" "0,1" newline bitfld.long 0x0 0. "VPFRAMEDONE_EN,Frame Done for Video Port. VP output has been disabled by user. All the data have been sent" "0,1" line.long 0x4 "COMMON_VP_IRQENABLE_1,This register allows to mask/unmask the VP_1 internal sources of interrupt. on an event-by-event basis" bitfld.long 0x4 12. "DUMMY_EN,Dummy IRQ for future use" "0,1" bitfld.long 0x4 11. "VPSYNC_EN,Go bit clear event" "0,1" bitfld.long 0x4 10. "SECURITYVIOLATION_EN,Security Violation interrupt for OVR/VP. Non-secure OVR/VP connected to secure VID" "0,1" newline hexmask.long.byte 0x4 6.--9. 1. "SAFETYREGION_EN,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" bitfld.long 0x4 5. "ACBIASCOUNTSTATUS_EN,AC BIAS transition counter has decremented to zero" "0,1" bitfld.long 0x4 4. "VPSYNCLOST_EN,Synchronization Lost for Video Port" "0,1" newline bitfld.long 0x4 3. "VPPROGRAMMEDLINENUMBER_EN,Programmed Line Number. It indicates that the scan of the display has reached the programmed user line number" "0,1" bitfld.long 0x4 2. "VPVSYNC_ODD_EN,VSYNC for odd field from interlace mode only" "0,1" bitfld.long 0x4 1. "VPVSYNC_EN,Vertical Synchronization for VP" "0,1" newline bitfld.long 0x4 0. "VPFRAMEDONE_EN,Frame Done for Video Port. VP output has been disabled by user. All the data have been sent" "0,1" group.long 0x7C++0x7 line.long 0x0 "COMMON_VP_IRQSTATUS_0,This register groups all the status of the VP_0 internal events that generate an interrupt. Write 1 to a given bit resets this bit" bitfld.long 0x0 12. "DUMMY_IRQ,Dummy IRQ for future use" "0,1" bitfld.long 0x0 11. "VPSYNC_IRQ,Go bit clear event" "0,1" bitfld.long 0x0 10. "SECURITYVIOLATION_IRQ,Security Violation IRQ. Non-secure OVR/VP connected to secure VID" "0,1" newline hexmask.long.byte 0x0 6.--9. 1. "SAFETYREGION_IRQ,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" bitfld.long 0x0 5. "ACBIASCOUNTSTATUS_IRQ,AC BIAS transition counter has decremented to zero" "0,1" bitfld.long 0x0 4. "VPSYNCLOST_IRQ,Synchronization Lost on VP output. The required data are not output at the correct time due to too short blanking periods or stall of at least one pipelines associated with VP output" "0,1" newline bitfld.long 0x0 3. "VPPROGRAMMEDLINENUMBER_IRQ,Programmed Line Number. It indicates that the scan of the display has reached the programmed user line number" "0,1" bitfld.long 0x0 2. "VPVSYNC_ODD_IRQ,VSYNC for odd field. For interlace mode only" "0,1" bitfld.long 0x0 1. "VPVSYNC_IRQ,Vertical Synchronization for VP output. It is used as VSYNC_EVEN in case of interlace mode" "0,1" newline bitfld.long 0x0 0. "VPFRAMEDONE_IRQ,Frame Done for VP. VP output has been disabled by user All the data have been sent" "0,1" line.long 0x4 "COMMON_VP_IRQSTATUS_1,This register groups all the status of the VP_1 internal events that generate an interrupt. Write 1 to a given bit resets this bit" bitfld.long 0x4 12. "DUMMY_IRQ,Dummy IRQ for future use" "0,1" bitfld.long 0x4 11. "VPSYNC_IRQ,Go bit clear event" "0,1" bitfld.long 0x4 10. "SECURITYVIOLATION_IRQ,Security Violation IRQ. Non-secure OVR/VP connected to secure VID" "0,1" newline hexmask.long.byte 0x4 6.--9. 1. "SAFETYREGION_IRQ,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" bitfld.long 0x4 5. "ACBIASCOUNTSTATUS_IRQ,AC BIAS transition counter has decremented to zero" "0,1" bitfld.long 0x4 4. "VPSYNCLOST_IRQ,Synchronization Lost on VP output. The required data are not output at the correct time due to too short blanking periods or stall of at least one pipelines associated with VP output" "0,1" newline bitfld.long 0x4 3. "VPPROGRAMMEDLINENUMBER_IRQ,Programmed Line Number. It indicates that the scan of the display has reached the programmed user line number" "0,1" bitfld.long 0x4 2. "VPVSYNC_ODD_IRQ,VSYNC for odd field. For interlace mode only" "0,1" bitfld.long 0x4 1. "VPVSYNC_IRQ,Vertical Synchronization for VP output. It is used as VSYNC_EVEN in case of interlace mode" "0,1" newline bitfld.long 0x4 0. "VPFRAMEDONE_IRQ,Frame Done for VP. VP output has been disabled by user All the data have been sent" "0,1" group.long 0x90++0x13 line.long 0x0 "COMMON_DISPC_GLOBAL_MFLAG_ATTRIBUTE,MFLAG control register" bitfld.long 0x0 6. "MFLAG_START,MFLAG_START for DMA initiator port" "0,1" bitfld.long 0x0 0.--1. "MFLAG_CTRL,MFLAG_CTRL for DMA initiator port" "0,1,2,3" line.long 0x4 "COMMON_DISPC_GLOBAL_OUTPUT_ENABLE,DISPC global output enable register. The ENABLE or GO bit for a particular output port is set when either the corresponding bit in this register is set or the corresponding bit within the sub-module is set. This register.." bitfld.long 0x4 16.--18. "VP_GO,Global GO Command for the VP[2:0] output. It is used to synchronize the pipelines associated with the VP output. wr: immediate" "0,1,2,3,4,5,6,7" bitfld.long 0x4 0.--2. "VP_ENABLE,Global VP[2:0] Enable" "0,1,2,3,4,5,6,7" line.long 0x8 "COMMON_DISPC_GLOBAL_BUFFER,The register configures the DMA buffers allocations to the pipelines for DMA" bitfld.long 0x8 31. "BUFFERFILLING,Controls if the DMA buffers are re-filled only when the LOW threshold is reached or if all DMA buffers are re-filled when at least one of them reaches the LOW threshold" "0,1" bitfld.long 0x8 3.--5. "VIDL1_BUFFER,VIDL1 DMA buffer allocation to one of the pipelines" "0,1,2,3,4,5,6,7" bitfld.long 0x8 0.--2. "VID_BUFFER,VID DMA buffer allocation to one of the pipelines" "0,1,2,3,4,5,6,7" line.long 0xC "COMMON_DSS_CBA_CFG,This register contains CBA specific config bits in DSS" bitfld.long 0xC 6.--8. "RESERVED1,Reserved : TI internal" "0,1,2,3,4,5,6,7" bitfld.long 0xC 3.--5. "PRI_HI,The value sent out on the PRI_HI bus from DSS to CBA Indicates the priority level for high-priority [MFLAG] transactions. Value of 0x0 indicates highest priority Value of 0x7 indicates lowest priority" "0,1,2,3,4,5,6,7" bitfld.long 0xC 0.--2. "PRI_LO,The value sent out on the PRI_LO bus from DSS to CBA Indicates the priority level for normal [non-MFLAG] transactions. Value of 0x0 indicates highest priority Value of 0x7 indicates lowest priority" "0,1,2,3,4,5,6,7" line.long 0x10 "COMMON_DISPC_DBG_CONTROL,DISPC debug status control register" hexmask.long.byte 0x10 1.--8. 1. "DBGMUXSEL,Mux select for the debug status" bitfld.long 0x10 0. "DBGEN,Enable debug ports" "0,1" rgroup.long 0xA4++0x3 line.long 0x0 "COMMON_DISPC_DBG_STATUS,DISPC debug status register" hexmask.long 0x0 0.--31. 1. "DBGOUT,Debug status" group.long 0xA8++0x7 line.long 0x0 "COMMON_DISPC_CLKGATING_DISABLE,Register to control clock gating at DISPC sub-module level" bitfld.long 0x0 18.--19. "VP,Clock gating control for VP[2:0]" "0,1,2,3" bitfld.long 0x0 14.--15. "OVR,Clock gating control for OVR[2:0]" "0,1,2,3" bitfld.long 0x0 3.--4. "VID,Clock gating control for VID" "0,1,2,3" newline bitfld.long 0x0 0. "DMA,Clock gating control for DMA" "0,1" line.long 0x4 "COMMON_DISPC_SECURE_DISABLE,Disable security settings throughout DSS IP. COMMON_1.DISPC_SECURE bits are honoured only if COMMON.DISPC_SECURE_DISABLE =0" bitfld.long 0x4 0. "SECURE_DISABLE,Secure disable bit" "0,1" tree.end tree "DSS0_COMMON1 (DSS0_COMMON1)" base ad:0x30201000 group.long 0x24++0xF line.long 0x0 "COMMON1_DISPC_IRQ_EOI,End Of Interrupt number" hexmask.long 0x0 1.--31. 1. "RESERVED," bitfld.long 0x0 0. "EOI,Software End Of Interrupt [EOI] control if pulse interrupts are used. Write 1 to acknowledge interrupt" "0,1" line.long 0x4 "COMMON1_DISPC_IRQSTATUS_RAW,RAW Interrupt status. Raw status is set even if interrupt is not enabled. Write 1 to set the RAW status" bitfld.long 0x4 4.--5. "VID_IRQ,VID IRQ STATUS. Register indicates the VIDEO pipeline[s] interrupt events" "0,1,2,3" bitfld.long 0x4 0.--1. "VP_IRQ,VP IRQ STATUS. Register indicates the Video Port[s] interrupt events" "0,1,2,3" line.long 0x8 "COMMON1_DISPC_IRQSTATUS,Interrupt status. Enabled status. isn't set unless event is enabled. Write 1 to clear the status after interrupt has been serviced. RAW status also gets cleared. i.e. even if not enabled" bitfld.long 0x8 4.--5. "VID_IRQ,VID IRQ STATUS. Register indicates the VIDEO pipeline[s] interrupt events" "0,1,2,3" bitfld.long 0x8 0.--1. "VP_IRQ,VP IRQ STATUS. Register indicates the Video Port[s] interrupt events" "0,1,2,3" line.long 0xC "COMMON1_DISPC_IRQENABLE_SET,SET Interrupt enable. Write 1 to set interrupt enable. Readout equal to corresponding _CLR register" bitfld.long 0xC 4.--5. "SET_VID_IRQ,VID IRQ" "0,1,2,3" bitfld.long 0xC 0.--1. "SET_VP_IRQ,VP IRQ" "0,1,2,3" group.long 0x40++0xB line.long 0x0 "COMMON1_DISPC_IRQENABLE_CLR,CLR Interrupt enable. Write 1 to clear interrupt enable" bitfld.long 0x0 4.--5. "CLR_VID_IRQ,VID IRQ" "0,1,2,3" bitfld.long 0x0 0.--1. "CLR_VP_IRQ,VP IRQ" "0,1,2,3" line.long 0x4 "COMMON1_VID_IRQENABLE_0,This register allows to mask/unmask the VID_0 internal sources of interrupt. on an event-by-event basis" bitfld.long 0x4 2. "SAFETYREGION_EN,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" "0,1" bitfld.long 0x4 1. "VIDENDWINDOW_EN,Video End Window. This is raised by the DMA engine when the full video data has been sent to the pipeline" "0,1" bitfld.long 0x4 0. "VIDBUFFERUNDERFLOW_EN,Video DMA Buffer Underflow. This is raised when the DMA buffer does not have the data requested by the Video pipeline" "0,1" line.long 0x8 "COMMON1_VID_IRQENABLE_1,This register allows to mask/unmask the VIDL_0 internal sources of interrupt. on an event-by-event basis" bitfld.long 0x8 2. "SAFETYREGION_EN,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" "0,1" bitfld.long 0x8 1. "VIDENDWINDOW_EN,Video End Window. This is raised by the DMA engine when the full video data has been sent to the pipeline" "0,1" bitfld.long 0x8 0. "VIDBUFFERUNDERFLOW_EN,Video DMA Buffer Underflow. This is raised when the DMA buffer does not have the data requested by the Video pipeline" "0,1" group.long 0x54++0xB line.long 0x0 "COMMON1_DISPC_SECURE,Security bit settings for different DISPC sub-modules" bitfld.long 0x0 15.--16. "OVR_SECURE,Secure bit for OVR" "0,1,2,3" bitfld.long 0x0 4.--5. "VID_SECURE,Secure bit for VID" "0,1,2,3" bitfld.long 0x0 0.--1. "VP_SECURE,Secure bit for VP [Unused in K3_DSS]" "0,1,2,3" line.long 0x4 "COMMON1_VID_IRQSTATUS_0,This register groups all the status of the VID_0 internal events that generate an interrupt. Write 1 to a clear a bit field" bitfld.long 0x4 2. "SAFETYREGION_IRQ,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" "0,1" bitfld.long 0x4 1. "VIDENDWINDOW_IRQ,Video End Window. This is raised by the DMA engine when the full video data has been sent to the pipeline" "0,1" bitfld.long 0x4 0. "VIDBUFFERUNDERFLOW_IRQ,Video DMA Buffer Underflow. This is raised when the DMA buffer does not have the data requested by the Video pipeline" "0,1" line.long 0x8 "COMMON1_VID_IRQSTATUS_1,This register groups all the status of the VID_0 internal events that generate an interrupt. Write 1 to a clear a bit field" bitfld.long 0x8 2. "SAFETYREGION_IRQ,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" "0,1" bitfld.long 0x8 1. "VIDENDWINDOW_IRQ,Video End Window. This is raised by the DMA engine when the full video data has been sent to the pipeline" "0,1" bitfld.long 0x8 0. "VIDBUFFERUNDERFLOW_IRQ,Video DMA Buffer Underflow. This is raised when the DMA buffer does not have the data requested by the Video pipeline" "0,1" group.long 0x70++0x7 line.long 0x0 "COMMON1_VP_IRQENABLE_0,This register allows to mask/unmask the VP_0 internal sources of interrupt. on an event-by-event basis" bitfld.long 0x0 12. "DUMMY_EN,Dummy IRQ for future use" "0,1" bitfld.long 0x0 11. "VPSYNC_EN,Go bit clear event" "0,1" bitfld.long 0x0 10. "SECURITYVIOLATION_EN,Security Violation interrupt for OVR/VP. Non-secure OVR/VP connected to secure VID" "0,1" hexmask.long.byte 0x0 6.--9. 1. "SAFETYREGION_EN,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" newline bitfld.long 0x0 5. "ACBIASCOUNTSTATUS_EN,AC BIAS transition counter has decremented to zero" "0,1" bitfld.long 0x0 4. "VPSYNCLOST_EN,Synchronization Lost for Video Port" "0,1" bitfld.long 0x0 3. "VPPROGRAMMEDLINENUMBER_EN,Programmed Line Number. It indicates that the scan of the display has reached the programmed user line number" "0,1" bitfld.long 0x0 2. "VPVSYNC_ODD_EN,VSYNC for odd field from interlace mode only" "0,1" newline bitfld.long 0x0 1. "VPVSYNC_EN,Vertical Synchronization for VP" "0,1" bitfld.long 0x0 0. "VPFRAMEDONE_EN,Frame Done for Video Port. VP output has been disabled by user. All the data have been sent" "0,1" line.long 0x4 "COMMON1_VP_IRQENABLE_1,This register allows to mask/unmask the VP_1 internal sources of interrupt. on an event-by-event basis" bitfld.long 0x4 12. "DUMMY_EN,Dummy IRQ for future use" "0,1" bitfld.long 0x4 11. "VPSYNC_EN,Go bit clear event" "0,1" bitfld.long 0x4 10. "SECURITYVIOLATION_EN,Security Violation interrupt for OVR/VP. Non-secure OVR/VP connected to secure VID" "0,1" hexmask.long.byte 0x4 6.--9. 1. "SAFETYREGION_EN,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" newline bitfld.long 0x4 5. "ACBIASCOUNTSTATUS_EN,AC BIAS transition counter has decremented to zero" "0,1" bitfld.long 0x4 4. "VPSYNCLOST_EN,Synchronization Lost for Video Port" "0,1" bitfld.long 0x4 3. "VPPROGRAMMEDLINENUMBER_EN,Programmed Line Number. It indicates that the scan of the display has reached the programmed user line number" "0,1" bitfld.long 0x4 2. "VPVSYNC_ODD_EN,VSYNC for odd field from interlace mode only" "0,1" newline bitfld.long 0x4 1. "VPVSYNC_EN,Vertical Synchronization for VP" "0,1" bitfld.long 0x4 0. "VPFRAMEDONE_EN,Frame Done for Video Port. VP output has been disabled by user. All the data have been sent" "0,1" group.long 0x7C++0x7 line.long 0x0 "COMMON1_VP_IRQSTATUS_0,This register groups all the status of the VP_0 internal events that generate an interrupt. Write 1 to a given bit resets this bit" bitfld.long 0x0 12. "DUMMY_IRQ,Dummy IRQ for future use" "0,1" bitfld.long 0x0 11. "VPSYNC_IRQ,Go bit clear event" "0,1" bitfld.long 0x0 10. "SECURITYVIOLATION_IRQ,Security Violation IRQ. Non-secure OVR/VP connected to secure VID" "0,1" hexmask.long.byte 0x0 6.--9. 1. "SAFETYREGION_IRQ,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" newline bitfld.long 0x0 5. "ACBIASCOUNTSTATUS_IRQ,AC BIAS transition counter has decremented to zero" "0,1" bitfld.long 0x0 4. "VPSYNCLOST_IRQ,Synchronization Lost on VP output. The required data are not output at the correct time due to too short blanking periods or stall of at least one pipelines associated with VP output" "0,1" bitfld.long 0x0 3. "VPPROGRAMMEDLINENUMBER_IRQ,Programmed Line Number. It indicates that the scan of the display has reached the programmed user line number" "0,1" bitfld.long 0x0 2. "VPVSYNC_ODD_IRQ,VSYNC for odd field. For interlace mode only" "0,1" newline bitfld.long 0x0 1. "VPVSYNC_IRQ,Vertical Synchronization for VP output. It is used as VSYNC_EVEN in case of interlace mode" "0,1" bitfld.long 0x0 0. "VPFRAMEDONE_IRQ,Frame Done for VP. VP output has been disabled by user All the data have been sent" "0,1" line.long 0x4 "COMMON1_VP_IRQSTATUS_1,This register groups all the status of the VP_1 internal events that generate an interrupt. Write 1 to a given bit resets this bit" bitfld.long 0x4 12. "DUMMY_IRQ,Dummy IRQ for future use" "0,1" bitfld.long 0x4 11. "VPSYNC_IRQ,Go bit clear event" "0,1" bitfld.long 0x4 10. "SECURITYVIOLATION_IRQ,Security Violation IRQ. Non-secure OVR/VP connected to secure VID" "0,1" hexmask.long.byte 0x4 6.--9. 1. "SAFETYREGION_IRQ,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" newline bitfld.long 0x4 5. "ACBIASCOUNTSTATUS_IRQ,AC BIAS transition counter has decremented to zero" "0,1" bitfld.long 0x4 4. "VPSYNCLOST_IRQ,Synchronization Lost on VP output. The required data are not output at the correct time due to too short blanking periods or stall of at least one pipelines associated with VP output" "0,1" bitfld.long 0x4 3. "VPPROGRAMMEDLINENUMBER_IRQ,Programmed Line Number. It indicates that the scan of the display has reached the programmed user line number" "0,1" bitfld.long 0x4 2. "VPVSYNC_ODD_IRQ,VSYNC for odd field. For interlace mode only" "0,1" newline bitfld.long 0x4 1. "VPVSYNC_IRQ,Vertical Synchronization for VP output. It is used as VSYNC_EVEN in case of interlace mode" "0,1" bitfld.long 0x4 0. "VPFRAMEDONE_IRQ,Frame Done for VP. VP output has been disabled by user All the data have been sent" "0,1" tree.end tree "DSS0_OVR1 (DSS0_OVR1)" base ad:0x30207000 group.long 0x0++0x3 line.long 0x0 "OVR1_CONFIG,The control register configures the Display Controller module for the VP output. Shadow register" hexmask.long.tbyte 0x0 14.--31. 1. "RESERVED1," rbitfld.long 0x0 13. "RESERVED3," "0,1" rbitfld.long 0x0 12. "RESERVED2," "0,1" bitfld.long 0x0 11. "TCKLCDSELECTION,Transparency Color Key Selection" "0,1" bitfld.long 0x0 10. "TCKLCDENABLE,Transparency Color Key Enable" "0,1" newline hexmask.long.byte 0x0 2.--9. 1. "RESERVED," bitfld.long 0x0 1. "COLORBAREN,Enable the Color-Bar" "0,1" rbitfld.long 0x0 0. "RESERVED6," "0,1" group.long 0x8++0x27 line.long 0x0 "OVR1_DEFAULT_COLOR,The control register configures the default solid background color LSB[31:0]. Shadow register" hexmask.long 0x0 0.--31. 1. "DEFAULTCOLOR,32-bit LSB of ARGB background color" line.long 0x4 "OVR1_DEFAULT_COLOR2,The control register configures the default solid background color MSB[47:32]. Shadow register" hexmask.long.word 0x4 16.--31. 1. "RESERVED," hexmask.long.word 0x4 0.--15. 1. "DEFAULTCOLOR,16-bit MSB of ARGB background color" line.long 0x8 "OVR1_TRANS_COLOR_MAX,The register sets the max transparency color value for the overlays. Shadow register" hexmask.long 0x8 0.--31. 1. "TRANSCOLORKEY,LSB[31:0]. Transparency Color Key Value in 36-bit RGB format" line.long 0xC "OVR1_TRANS_COLOR_MAX2,The register sets the max transparency color value for the overlays. Shadow register" hexmask.long 0xC 4.--31. 1. "RESERVED," hexmask.long.byte 0xC 0.--3. 1. "TRANSCOLORKEY,MSB[35:32]. Transparency Color Key Value in 36-bit RGB format" line.long 0x10 "OVR1_TRANS_COLOR_MIN,The register sets the min transparency color value for the overlays. Shadow register" hexmask.long 0x10 0.--31. 1. "TRANSCOLORKEY,LSB[31:0]. Transparency Color Key Value in 36-bit RGB format" line.long 0x14 "OVR1_TRANS_COLOR_MIN2,The register sets the min transparency color value for the overlays. Shadow register" hexmask.long 0x14 4.--31. 1. "RESERVED," hexmask.long.byte 0x14 0.--3. 1. "TRANSCOLORKEY,MSB[35:32]. Transparency Color Key Value in 36-bit RGB format" line.long 0x18 "OVR1_ATTRIBUTES_0,The register configures the attributes of layer-0. ZORDER= 0. of the Overlay manager. Shadow register" rbitfld.long 0x18 31. "RESERVED1," "0,1" hexmask.long.word 0x18 19.--30. 1. "POSY,Y position of the layer. Encoded value [from 0 to 4095] to specify the Y position of the layer on the screen. The line at the top has the Y-position 0" rbitfld.long 0x18 18. "RESERVED," "0,1" hexmask.long.word 0x18 6.--17. 1. "POSX,X position of the layer. Encoded value [from 0 to 4095] to specify the X position of the layer on the screen. The first pixel on the left of the screen has the X-position 0" rbitfld.long 0x18 5. "RESERVED2," "0,1" newline hexmask.long.byte 0x18 1.--4. 1. "CHANNELIN,Input channel connected to Layer" bitfld.long 0x18 0. "ENABLE,Layer Enable" "0,1" line.long 0x1C "OVR1_ATTRIBUTES_1,The register configures the attributes of layer-1. ZORDER= 1. of the Overlay manager. Shadow register" rbitfld.long 0x1C 31. "RESERVED1," "0,1" hexmask.long.word 0x1C 19.--30. 1. "POSY,Y position of the layer. Encoded value [from 0 to 4095] to specify the Y position of the layer on the screen. The line at the top has the Y-position 0" rbitfld.long 0x1C 18. "RESERVED," "0,1" hexmask.long.word 0x1C 6.--17. 1. "POSX,X position of the layer. Encoded value [from 0 to 4095] to specify the X position of the layer on the screen. The first pixel on the left of the screen has the X-position 0" rbitfld.long 0x1C 5. "RESERVED2," "0,1" newline hexmask.long.byte 0x1C 1.--4. 1. "CHANNELIN,Input channel connected to Layer" bitfld.long 0x1C 0. "ENABLE,Layer Enable" "0,1" line.long 0x20 "OVR1_ATTRIBUTES_2,The register configures the attributes of layer-2. ZORDER= 2. of the Overlay manager. Shadow register" rbitfld.long 0x20 31. "RESERVED1," "0,1" hexmask.long.word 0x20 19.--30. 1. "POSY,Y position of the layer. Encoded value [from 0 to 4095] to specify the Y position of the layer on the screen. The line at the top has the Y-position 0" rbitfld.long 0x20 18. "RESERVED," "0,1" hexmask.long.word 0x20 6.--17. 1. "POSX,X position of the layer. Encoded value [from 0 to 4095] to specify the X position of the layer on the screen. The first pixel on the left of the screen has the X-position 0" rbitfld.long 0x20 5. "RESERVED2," "0,1" newline hexmask.long.byte 0x20 1.--4. 1. "CHANNELIN,Input channel connected to Layer" bitfld.long 0x20 0. "ENABLE,Layer Enable" "0,1" line.long 0x24 "OVR1_ATTRIBUTES_3,The register configures the attributes of layer-3. ZORDER= 3. of the Overlay manager. Shadow register" rbitfld.long 0x24 31. "RESERVED1," "0,1" hexmask.long.word 0x24 19.--30. 1. "POSY,Y position of the layer. Encoded value [from 0 to 4095] to specify the Y position of the layer on the screen. The line at the top has the Y-position 0" rbitfld.long 0x24 18. "RESERVED," "0,1" hexmask.long.word 0x24 6.--17. 1. "POSX,X position of the layer. Encoded value [from 0 to 4095] to specify the X position of the layer on the screen. The first pixel on the left of the screen has the X-position 0" rbitfld.long 0x24 5. "RESERVED2," "0,1" newline hexmask.long.byte 0x24 1.--4. 1. "CHANNELIN,Input channel connected to Layer" bitfld.long 0x24 0. "ENABLE,Layer Enable" "0,1" tree.end tree "DSS0_OVR2 (DSS0_OVR2)" base ad:0x30208000 group.long 0x0++0x3 line.long 0x0 "OVR2_CONFIG,The control register configures the Display Controller module for the VP output. Shadow register" hexmask.long.tbyte 0x0 14.--31. 1. "RESERVED1," rbitfld.long 0x0 13. "RESERVED3," "0,1" rbitfld.long 0x0 12. "RESERVED2," "0,1" bitfld.long 0x0 11. "TCKLCDSELECTION,Transparency Color Key Selection" "0,1" bitfld.long 0x0 10. "TCKLCDENABLE,Transparency Color Key Enable" "0,1" newline hexmask.long.byte 0x0 2.--9. 1. "RESERVED," bitfld.long 0x0 1. "COLORBAREN,Enable the Color-Bar" "0,1" rbitfld.long 0x0 0. "RESERVED6," "0,1" group.long 0x8++0x27 line.long 0x0 "OVR2_DEFAULT_COLOR,The control register configures the default solid background color LSB[31:0]. Shadow register" hexmask.long 0x0 0.--31. 1. "DEFAULTCOLOR,32-bit LSB of ARGB background color" line.long 0x4 "OVR2_DEFAULT_COLOR2,The control register configures the default solid background color MSB[47:32]. Shadow register" hexmask.long.word 0x4 16.--31. 1. "RESERVED," hexmask.long.word 0x4 0.--15. 1. "DEFAULTCOLOR,16-bit MSB of ARGB background color" line.long 0x8 "OVR2_TRANS_COLOR_MAX,The register sets the max transparency color value for the overlays. Shadow register" hexmask.long 0x8 0.--31. 1. "TRANSCOLORKEY,LSB[31:0]. Transparency Color Key Value in 36-bit RGB format" line.long 0xC "OVR2_TRANS_COLOR_MAX2,The register sets the max transparency color value for the overlays. Shadow register" hexmask.long 0xC 4.--31. 1. "RESERVED," hexmask.long.byte 0xC 0.--3. 1. "TRANSCOLORKEY,MSB[35:32]. Transparency Color Key Value in 36-bit RGB format" line.long 0x10 "OVR2_TRANS_COLOR_MIN,The register sets the min transparency color value for the overlays. Shadow register" hexmask.long 0x10 0.--31. 1. "TRANSCOLORKEY,LSB[31:0]. Transparency Color Key Value in 36-bit RGB format" line.long 0x14 "OVR2_TRANS_COLOR_MIN2,The register sets the min transparency color value for the overlays. Shadow register" hexmask.long 0x14 4.--31. 1. "RESERVED," hexmask.long.byte 0x14 0.--3. 1. "TRANSCOLORKEY,MSB[35:32]. Transparency Color Key Value in 36-bit RGB format" line.long 0x18 "OVR2_ATTRIBUTES_0,The register configures the attributes of layer-0. ZORDER= 0. of the Overlay manager. Shadow register" rbitfld.long 0x18 31. "RESERVED1," "0,1" hexmask.long.word 0x18 19.--30. 1. "POSY,Y position of the layer. Encoded value [from 0 to 4095] to specify the Y position of the layer on the screen. The line at the top has the Y-position 0" rbitfld.long 0x18 18. "RESERVED," "0,1" hexmask.long.word 0x18 6.--17. 1. "POSX,X position of the layer. Encoded value [from 0 to 4095] to specify the X position of the layer on the screen. The first pixel on the left of the screen has the X-position 0" rbitfld.long 0x18 5. "RESERVED2," "0,1" newline hexmask.long.byte 0x18 1.--4. 1. "CHANNELIN,Input channel connected to Layer" bitfld.long 0x18 0. "ENABLE,Layer Enable" "0,1" line.long 0x1C "OVR2_ATTRIBUTES_1,The register configures the attributes of layer-1. ZORDER= 1. of the Overlay manager. Shadow register" rbitfld.long 0x1C 31. "RESERVED1," "0,1" hexmask.long.word 0x1C 19.--30. 1. "POSY,Y position of the layer. Encoded value [from 0 to 4095] to specify the Y position of the layer on the screen. The line at the top has the Y-position 0" rbitfld.long 0x1C 18. "RESERVED," "0,1" hexmask.long.word 0x1C 6.--17. 1. "POSX,X position of the layer. Encoded value [from 0 to 4095] to specify the X position of the layer on the screen. The first pixel on the left of the screen has the X-position 0" rbitfld.long 0x1C 5. "RESERVED2," "0,1" newline hexmask.long.byte 0x1C 1.--4. 1. "CHANNELIN,Input channel connected to Layer" bitfld.long 0x1C 0. "ENABLE,Layer Enable" "0,1" line.long 0x20 "OVR2_ATTRIBUTES_2,The register configures the attributes of layer-2. ZORDER= 2. of the Overlay manager. Shadow register" rbitfld.long 0x20 31. "RESERVED1," "0,1" hexmask.long.word 0x20 19.--30. 1. "POSY,Y position of the layer. Encoded value [from 0 to 4095] to specify the Y position of the layer on the screen. The line at the top has the Y-position 0" rbitfld.long 0x20 18. "RESERVED," "0,1" hexmask.long.word 0x20 6.--17. 1. "POSX,X position of the layer. Encoded value [from 0 to 4095] to specify the X position of the layer on the screen. The first pixel on the left of the screen has the X-position 0" rbitfld.long 0x20 5. "RESERVED2," "0,1" newline hexmask.long.byte 0x20 1.--4. 1. "CHANNELIN,Input channel connected to Layer" bitfld.long 0x20 0. "ENABLE,Layer Enable" "0,1" line.long 0x24 "OVR2_ATTRIBUTES_3,The register configures the attributes of layer-3. ZORDER= 3. of the Overlay manager. Shadow register" rbitfld.long 0x24 31. "RESERVED1," "0,1" hexmask.long.word 0x24 19.--30. 1. "POSY,Y position of the layer. Encoded value [from 0 to 4095] to specify the Y position of the layer on the screen. The line at the top has the Y-position 0" rbitfld.long 0x24 18. "RESERVED," "0,1" hexmask.long.word 0x24 6.--17. 1. "POSX,X position of the layer. Encoded value [from 0 to 4095] to specify the X position of the layer on the screen. The first pixel on the left of the screen has the X-position 0" rbitfld.long 0x24 5. "RESERVED2," "0,1" newline hexmask.long.byte 0x24 1.--4. 1. "CHANNELIN,Input channel connected to Layer" bitfld.long 0x24 0. "ENABLE,Layer Enable" "0,1" tree.end tree "DSS0_VID (DSS0_VID)" base ad:0x30206000 group.long 0x0++0x37 line.long 0x0 "VID_ACCUH_0,The register configures the resize accumulator init values for horizontal up/down-sampling of the video window. DISPC_VIDx_ACCU__0 & DISPC_VIDx_ACCU__1 for ping-pong mechanism with external trigger. based on the field polarity. This register.." hexmask.long.tbyte 0x0 0.--23. 1. "HORIZONTALACCU,Horizontal initialization accu signed value" line.long 0x4 "VID_ACCUH_1,The register configures the resize accumulator init values for horizontal up/down-sampling of the video window. DISPC_VIDx_ACCU__0 & DISPC_VIDx_ACCU__1 for ping-pong mechanism with external trigger. based on the field polarity. This register.." hexmask.long.tbyte 0x4 0.--23. 1. "HORIZONTALACCU,Horizontal initialization accu signed value" line.long 0x8 "VID_ACCUH2_0,The register configures the resize accumulator init value for horizontal up/down-sampling of the video window. DISPC_VID n_ACCU2__0 & DISPC_VID n_ACCU2__1 for ping-pong mechanism with external trigger. based on the field polarity. This.." hexmask.long.tbyte 0x8 0.--23. 1. "HORIZONTALACCU,Horizontal initialization accu signed value" line.long 0xC "VID_ACCUH2_1,The register configures the resize accumulator init value for horizontal up/down-sampling of the video window. DISPC_VID n_ACCU2__0 & DISPC_VID n_ACCU2__1 for ping-pong mechanism with external trigger. based on the field polarity. This.." hexmask.long.tbyte 0xC 0.--23. 1. "HORIZONTALACCU,Horizontal initialization accu signed value" line.long 0x10 "VID_ACCUV_0,The register configures the resize accumulator init values for horizontal and vertical up/down-sampling of the video window. DISPC_VIDx_ACCU__0 & DISPC_VIDx_ACCU__1 for ping-pong mechanism with external trigger. based on the field polarity." hexmask.long.tbyte 0x10 0.--23. 1. "VERTICALACCU,Vertical initialization accu signed value" line.long 0x14 "VID_ACCUV_1,The register configures the resize accumulator init values for horizontal and vertical up/down-sampling of the video window. DISPC_VIDx_ACCU__0 & DISPC_VIDx_ACCU__1 for ping-pong mechanism with external trigger. based on the field polarity." hexmask.long.tbyte 0x14 0.--23. 1. "VERTICALACCU,Vertical initialization accu signed value" line.long 0x18 "VID_ACCUV2_0,The register configures the resize accumulator init value for vertical up/down-sampling of the video window. ACCU2__0 & ACCU2__1 for ping-pong mechanism with external trigger. based on the field polarity. It is used for U/V components for.." hexmask.long.tbyte 0x18 0.--23. 1. "VERTICALACCU,Vertical initialization accu signed value" line.long 0x1C "VID_ACCUV2_1,The register configures the resize accumulator init value for vertical up/down-sampling of the video window. ACCU2__0 & ACCU2__1 for ping-pong mechanism with external trigger. based on the field polarity. It is used for U/V components for.." hexmask.long.tbyte 0x1C 0.--23. 1. "VERTICALACCU,Vertical initialization accu signed value" line.long 0x20 "VID_ATTRIBUTES,The register configures the attributes of the video window. Shadow register" bitfld.long 0x20 31. "LUMAKEYENABLE,Enable Luma Key transparency matching" "0,1" bitfld.long 0x20 30. "GAMMAINVERSION,Inverse Gamma support [using the CLUT table]" "0,1" newline bitfld.long 0x20 28. "PREMULTIPLYALPHA,The field configures the DISPC VID to process incoming data as premultiplied alpha data or non premultiplied alpha data. Default setting is non premultiplied alpha data" "0,1" bitfld.long 0x20 24. "SELFREFRESH,Enables the self refresh of the video window from its own DMA buffer only" "0,1" newline bitfld.long 0x20 23. "ARBITRATION,Determines the priority of the video pipeline. The video pipeline is one of the high priority pipelines. The arbitration gives always the priority first to the high priority pipelines using round-robin between them. When there are only normal.." "0,1" bitfld.long 0x20 21. "VERTICALTAPS,Video Vertical Resize Tap Number. The vertical poly-phase filter can be configured in 3-tap or 5-tap configuration. According to the number of taps the maximum input picture width is double while using 3-tap compared to 5-tap" "0,1" newline bitfld.long 0x20 19. "BUFPRELOAD,Video Preload Value" "0,1" rbitfld.long 0x20 18. "RESERVED7,Write 0's for future compatibility. Reads return 0" "0,1" newline bitfld.long 0x20 17. "SELFREFRESHAUTO,Automatic self refresh mode" "0,1" bitfld.long 0x20 12. "FLIP,Describes the frame buffer flip operation" "0,1" newline bitfld.long 0x20 11. "FULLRANGE,Color Space Conversion full range setting" "0,1" bitfld.long 0x20 10. "NIBBLEMODE,Video Nibble mode [only for 1- 2- and 4-bpp]" "0,1" newline bitfld.long 0x20 9. "COLORCONVENABLE,Enable the color space conversion. The HW does not enable/disable the conversion based on the pixel format" "0,1" bitfld.long 0x20 7.--8. "RESIZEENABLE,Video Resize Enable" "0,1,2,3" newline hexmask.long.byte 0x20 1.--6. 1. "FORMAT,Video Format. It defines the pixel format when fetching the video frame buffer" bitfld.long 0x20 0. "ENABLE,Video pipeline Enable" "0,1" line.long 0x24 "VID_ATTRIBUTES2,The register configures the attributes of the video window. Shadow register" hexmask.long.byte 0x24 26.--30. 1. "TAGS,Number of OCP TAGS to be used for the pipeline [from 0x0 to 0xF]. A value of 0x0 means only a single tag will be used. A value of 0xF means all 16 tags can be used" bitfld.long 0x24 10. "YUV_ALIGN,Alignment [MSB or LSB align] for unpacked 10b/12b YUV data" "0,1" newline bitfld.long 0x24 9. "YUV_MODE,Mode of packing for YUV data [only for 10b/12b formats]" "0,1" bitfld.long 0x24 7.--8. "YUV_SIZE,Size of YUV data 8b/10b/12b" "0,1,2,3" newline bitfld.long 0x24 4.--6. "VC1_RANGE_CBCR,Defines the VC1 range value for the CbCr component from 0 to 7" "0,1,2,3,4,5,6,7" bitfld.long 0x24 1.--3. "VC1_RANGE_Y,Defines the VC1 range value for the Y component from 0 to 7" "0,1,2,3,4,5,6,7" newline bitfld.long 0x24 0. "VC1ENABLE,Enable/disable the VC1 range mapping processing. The bit-field is ignored if the format is not one of the supported YUV formats" "0,1" line.long 0x28 "VID_BA_0,The register configures the base address of the single video buffer. In case of single plane ARGB or YUV. this is the BA. In case of two plane YUV. this is the BA_Y. In case of two plane RGB565-A8. this is the BA_Alpha. BA__0 & BA__1 for.." hexmask.long 0x28 0.--31. 1. "BA,Video base address. Base address of the video buffer [Aligned on pixel size boundary except for the following. In case of RGB24 packed format 4-pixel alignment is required. In case of YUV422 2-pixel alignment is required. In case of YUV420 byte.." line.long 0x2C "VID_BA_1,The register configures the base address of the single video buffer. In case of single plane ARGB or YUV. this is the BA. In case of two plane YUV. this is the BA_Y. In case of two plane RGB565-A8. this is the BA_Alpha. BA__0 & BA__1 for.." hexmask.long 0x2C 0.--31. 1. "BA,Video base address. Base address of the video buffer [Aligned on pixel size boundary except for the following. In case of RGB24 packed format 4-pixel alignment is required. In case of YUV422 2-pixel alignment is required. In case of YUV420 byte.." line.long 0x30 "VID_BA_UV_0,The register configures the base address of the UV buffer for two plane YUV or RGB buffer for two plane RGB565-A8. for the video window. BA_UV__0 & BA_UV__1 for ping-pong mechanism with external trigger. based on the field polarity otherwise.." hexmask.long 0x30 0.--31. 1. "BA,Video base address aligned on 16-bit boundary Base address of the UV video buffer used only in case of YUV420-NV12" line.long 0x34 "VID_BA_UV_1,The register configures the base address of the UV buffer for two plane YUV or RGB buffer for two plane RGB565-A8. for the video window. BA_UV__0 & BA_UV__1 for ping-pong mechanism with external trigger. based on the field polarity otherwise.." hexmask.long 0x34 0.--31. 1. "BA,Video base address aligned on 16-bit boundary Base address of the UV video buffer used only in case of YUV420-NV12" rgroup.long 0x38++0x3 line.long 0x0 "VID_BUF_SIZE_STATUS,The register returns the Video buffer size for the video pipeline" hexmask.long.word 0x0 16.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x0 0.--15. 1. "BUFSIZE,Video DMA buffer Size in number of 128-bits" group.long 0x3C++0x1C3 line.long 0x0 "VID_BUF_THRESHOLD,The register configures the video buffer associated with the video pipeline. Shadow register" hexmask.long.word 0x0 16.--31. 1. "BUFHIGHTHRESHOLD,DMA buffer High Threshold. Number of 128-bits defining the threshold value" hexmask.long.word 0x0 0.--15. 1. "BUFLOWTHRESHOLD,DMA buffer Low Threshold. Number of 128-bits defining the threshold value" line.long 0x4 "VID_CSC_COEF0,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x4 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x4 16.--26. 1. "C01,C01 Coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0x4 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x4 0.--10. 1. "C00,C00 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x8 "VID_CSC_COEF1,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x8 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x8 16.--26. 1. "C10,C10 Coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0x8 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x8 0.--10. 1. "C02,C02 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0xC "VID_CSC_COEF2,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0xC 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0xC 16.--26. 1. "C12,C12 Coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0xC 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0xC 0.--10. 1. "C11,C11 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x10 "VID_CSC_COEF3,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x10 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x10 16.--26. 1. "C21,C21 coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0x10 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x10 0.--10. 1. "C20,C20 coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x14 "VID_CSC_COEF4,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.tbyte 0x14 11.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x14 0.--10. 1. "C22,C22 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x18 "VID_CSC_COEF5,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x18 19.--31. 1. "PREOFFSET2,Row-2 pre-offset. Encoded signed value [from -4096 to 4095]" hexmask.long.word 0x18 3.--15. 1. "PREOFFSET1,Row1 pre-offset. Encoded signed value [from -4096 to 4095]" line.long 0x1C "VID_CSC_COEF6,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x1C 19.--31. 1. "POSTOFFSET1,Row-1 post-offset. Encoded signed value [from -4096 to 4095]" hexmask.long.word 0x1C 3.--15. 1. "PREOFFSET3,Row-3 pre-offset. Encoded signed value [from -4096 to 4095]" line.long 0x20 "VID_FIRH,The register configures the resize factor for horizontal up/down-sampling of the video window. It is used for ARGB and Y setting. Shadow register" hexmask.long.tbyte 0x20 0.--23. 1. "FIRHINC,Horizontal increment of the up/down-sampling filter. The value 0 is invalid" line.long 0x24 "VID_FIRH2,The register configures the resize factor for horizontal up/down-sampling of the video window. It is used for U/V components for YUV 422 and 420 input formats. It is not used if input format is any RGB format. Shadow register" hexmask.long.tbyte 0x24 0.--23. 1. "FIRHINC,Horizontal increment of the up/down-sampling filter for Cb and Cr. The value 0 is invalid" line.long 0x28 "VID_FIRV,The register configures the resize factor for vertical up/down-sampling of the video window. It is used for ARGB and Y setting. Shadow register" hexmask.long.tbyte 0x28 0.--23. 1. "FIRVINC,Vertical increment of the up/down-sampling filter. The value 0 is invalid" line.long 0x2C "VID_FIRV2,The register configures the resize factor for vertical up/down-sampling of the video window. It is used for U/V components for YUV420 input format. It is not used when the input format is any RGB format or YUV422 format. Shadow register." hexmask.long.tbyte 0x2C 0.--23. 1. "FIRVINC,Vertical increment of the up/down-sampling filter for Cb and Cr. The value 0 is invalid" line.long 0x30 "VID_FIR_COEF_H0_0,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x30 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 0" line.long 0x34 "VID_FIR_COEF_H0_1,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x34 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 1" line.long 0x38 "VID_FIR_COEF_H0_2,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x38 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 2" line.long 0x3C "VID_FIR_COEF_H0_3,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x3C 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 3" line.long 0x40 "VID_FIR_COEF_H0_4,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x40 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 4" line.long 0x44 "VID_FIR_COEF_H0_5,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x44 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 5" line.long 0x48 "VID_FIR_COEF_H0_6,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x48 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 6" line.long 0x4C "VID_FIR_COEF_H0_7,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x4C 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 7" line.long 0x50 "VID_FIR_COEF_H0_8,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x50 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 8" line.long 0x54 "VID_FIR_COEF_H0_C_0,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x54 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 0" line.long 0x58 "VID_FIR_COEF_H0_C_1,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x58 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 1" line.long 0x5C "VID_FIR_COEF_H0_C_2,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x5C 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 2" line.long 0x60 "VID_FIR_COEF_H0_C_3,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x60 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 3" line.long 0x64 "VID_FIR_COEF_H0_C_4,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x64 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 4" line.long 0x68 "VID_FIR_COEF_H0_C_5,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x68 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 5" line.long 0x6C "VID_FIR_COEF_H0_C_6,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x6C 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 6" line.long 0x70 "VID_FIR_COEF_H0_C_7,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x70 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 7" line.long 0x74 "VID_FIR_COEF_H0_C_8,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x74 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 8" line.long 0x78 "VID_FIR_COEF_H12_0,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x78 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 0" hexmask.long.word 0x78 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 0" line.long 0x7C "VID_FIR_COEF_H12_1,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x7C 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 1" hexmask.long.word 0x7C 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 1" line.long 0x80 "VID_FIR_COEF_H12_2,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x80 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 2" hexmask.long.word 0x80 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 2" line.long 0x84 "VID_FIR_COEF_H12_3,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x84 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 3" hexmask.long.word 0x84 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 3" line.long 0x88 "VID_FIR_COEF_H12_4,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x88 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 4" hexmask.long.word 0x88 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 4" line.long 0x8C "VID_FIR_COEF_H12_5,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x8C 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 5" hexmask.long.word 0x8C 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 5" line.long 0x90 "VID_FIR_COEF_H12_6,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x90 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 6" hexmask.long.word 0x90 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 6" line.long 0x94 "VID_FIR_COEF_H12_7,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x94 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 7" hexmask.long.word 0x94 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 7" line.long 0x98 "VID_FIR_COEF_H12_8,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x98 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 8" hexmask.long.word 0x98 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 8" line.long 0x9C "VID_FIR_COEF_H12_9,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x9C 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 9" hexmask.long.word 0x9C 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 9" line.long 0xA0 "VID_FIR_COEF_H12_10,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0xA0 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 10" hexmask.long.word 0xA0 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 10" line.long 0xA4 "VID_FIR_COEF_H12_11,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0xA4 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 11" hexmask.long.word 0xA4 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 11" line.long 0xA8 "VID_FIR_COEF_H12_12,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0xA8 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 12" hexmask.long.word 0xA8 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 12" line.long 0xAC "VID_FIR_COEF_H12_13,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0xAC 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 13" hexmask.long.word 0xAC 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 13" line.long 0xB0 "VID_FIR_COEF_H12_14,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0xB0 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 14" hexmask.long.word 0xB0 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 14" line.long 0xB4 "VID_FIR_COEF_H12_15,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0xB4 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 15" hexmask.long.word 0xB4 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 15" line.long 0xB8 "VID_FIR_COEF_H12_C_0,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xB8 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 0" hexmask.long.word 0xB8 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 0" line.long 0xBC "VID_FIR_COEF_H12_C_1,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xBC 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 1" hexmask.long.word 0xBC 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 1" line.long 0xC0 "VID_FIR_COEF_H12_C_2,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xC0 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 2" hexmask.long.word 0xC0 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 2" line.long 0xC4 "VID_FIR_COEF_H12_C_3,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xC4 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 3" hexmask.long.word 0xC4 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 3" line.long 0xC8 "VID_FIR_COEF_H12_C_4,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xC8 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 4" hexmask.long.word 0xC8 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 4" line.long 0xCC "VID_FIR_COEF_H12_C_5,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xCC 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 5" hexmask.long.word 0xCC 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 5" line.long 0xD0 "VID_FIR_COEF_H12_C_6,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xD0 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 6" hexmask.long.word 0xD0 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 6" line.long 0xD4 "VID_FIR_COEF_H12_C_7,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xD4 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 7" hexmask.long.word 0xD4 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 7" line.long 0xD8 "VID_FIR_COEF_H12_C_8,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xD8 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 8" hexmask.long.word 0xD8 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 8" line.long 0xDC "VID_FIR_COEF_H12_C_9,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xDC 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 9" hexmask.long.word 0xDC 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 9" line.long 0xE0 "VID_FIR_COEF_H12_C_10,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xE0 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 10" hexmask.long.word 0xE0 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 10" line.long 0xE4 "VID_FIR_COEF_H12_C_11,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xE4 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 11" hexmask.long.word 0xE4 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 11" line.long 0xE8 "VID_FIR_COEF_H12_C_12,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xE8 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 12" hexmask.long.word 0xE8 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 12" line.long 0xEC "VID_FIR_COEF_H12_C_13,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xEC 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 13" hexmask.long.word 0xEC 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 13" line.long 0xF0 "VID_FIR_COEF_H12_C_14,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xF0 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 14" hexmask.long.word 0xF0 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 14" line.long 0xF4 "VID_FIR_COEF_H12_C_15,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xF4 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 15" hexmask.long.word 0xF4 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 15" line.long 0xF8 "VID_FIR_COEF_V0_0,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0xF8 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 0" line.long 0xFC "VID_FIR_COEF_V0_1,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0xFC 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 1" line.long 0x100 "VID_FIR_COEF_V0_2,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x100 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 2" line.long 0x104 "VID_FIR_COEF_V0_3,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x104 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 3" line.long 0x108 "VID_FIR_COEF_V0_4,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x108 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 4" line.long 0x10C "VID_FIR_COEF_V0_5,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x10C 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 5" line.long 0x110 "VID_FIR_COEF_V0_6,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x110 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 6" line.long 0x114 "VID_FIR_COEF_V0_7,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x114 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 7" line.long 0x118 "VID_FIR_COEF_V0_8,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x118 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 8" line.long 0x11C "VID_FIR_COEF_V0_C_0,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x11C 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 0" line.long 0x120 "VID_FIR_COEF_V0_C_1,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x120 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 1" line.long 0x124 "VID_FIR_COEF_V0_C_2,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x124 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 2" line.long 0x128 "VID_FIR_COEF_V0_C_3,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x128 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 3" line.long 0x12C "VID_FIR_COEF_V0_C_4,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x12C 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 4" line.long 0x130 "VID_FIR_COEF_V0_C_5,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x130 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 5" line.long 0x134 "VID_FIR_COEF_V0_C_6,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x134 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 6" line.long 0x138 "VID_FIR_COEF_V0_C_7,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x138 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 7" line.long 0x13C "VID_FIR_COEF_V0_C_8,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x13C 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 8" line.long 0x140 "VID_FIR_COEF_V12_0,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x140 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 0" hexmask.long.word 0x140 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 0" line.long 0x144 "VID_FIR_COEF_V12_1,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x144 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 1" hexmask.long.word 0x144 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 1" line.long 0x148 "VID_FIR_COEF_V12_2,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x148 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 2" hexmask.long.word 0x148 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 2" line.long 0x14C "VID_FIR_COEF_V12_3,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x14C 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 3" hexmask.long.word 0x14C 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 3" line.long 0x150 "VID_FIR_COEF_V12_4,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x150 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 4" hexmask.long.word 0x150 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 4" line.long 0x154 "VID_FIR_COEF_V12_5,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x154 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 5" hexmask.long.word 0x154 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 5" line.long 0x158 "VID_FIR_COEF_V12_6,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x158 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 6" hexmask.long.word 0x158 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 6" line.long 0x15C "VID_FIR_COEF_V12_7,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x15C 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 7" hexmask.long.word 0x15C 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 7" line.long 0x160 "VID_FIR_COEF_V12_8,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x160 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 8" hexmask.long.word 0x160 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 8" line.long 0x164 "VID_FIR_COEF_V12_9,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x164 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 9" hexmask.long.word 0x164 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 9" line.long 0x168 "VID_FIR_COEF_V12_10,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x168 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 10" hexmask.long.word 0x168 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 10" line.long 0x16C "VID_FIR_COEF_V12_11,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x16C 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 11" hexmask.long.word 0x16C 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 11" line.long 0x170 "VID_FIR_COEF_V12_12,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x170 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 12" hexmask.long.word 0x170 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 12" line.long 0x174 "VID_FIR_COEF_V12_13,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x174 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 13" hexmask.long.word 0x174 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 13" line.long 0x178 "VID_FIR_COEF_V12_14,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x178 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 14" hexmask.long.word 0x178 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 14" line.long 0x17C "VID_FIR_COEF_V12_15,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x17C 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 15" hexmask.long.word 0x17C 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 15" line.long 0x180 "VID_FIR_COEF_V12_C_0,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x180 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 0" hexmask.long.word 0x180 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 0" line.long 0x184 "VID_FIR_COEF_V12_C_1,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x184 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 1" hexmask.long.word 0x184 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 1" line.long 0x188 "VID_FIR_COEF_V12_C_2,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x188 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 2" hexmask.long.word 0x188 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 2" line.long 0x18C "VID_FIR_COEF_V12_C_3,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x18C 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 3" hexmask.long.word 0x18C 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 3" line.long 0x190 "VID_FIR_COEF_V12_C_4,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x190 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 4" hexmask.long.word 0x190 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 4" line.long 0x194 "VID_FIR_COEF_V12_C_5,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x194 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 5" hexmask.long.word 0x194 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 5" line.long 0x198 "VID_FIR_COEF_V12_C_6,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x198 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 6" hexmask.long.word 0x198 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 6" line.long 0x19C "VID_FIR_COEF_V12_C_7,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x19C 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 7" hexmask.long.word 0x19C 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 7" line.long 0x1A0 "VID_FIR_COEF_V12_C_8,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x1A0 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 8" hexmask.long.word 0x1A0 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 8" line.long 0x1A4 "VID_FIR_COEF_V12_C_9,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x1A4 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 9" hexmask.long.word 0x1A4 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 9" line.long 0x1A8 "VID_FIR_COEF_V12_C_10,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x1A8 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 10" hexmask.long.word 0x1A8 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 10" line.long 0x1AC "VID_FIR_COEF_V12_C_11,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x1AC 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 11" hexmask.long.word 0x1AC 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 11" line.long 0x1B0 "VID_FIR_COEF_V12_C_12,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x1B0 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 12" hexmask.long.word 0x1B0 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 12" line.long 0x1B4 "VID_FIR_COEF_V12_C_13,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x1B4 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 13" hexmask.long.word 0x1B4 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 13" line.long 0x1B8 "VID_FIR_COEF_V12_C_14,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x1B8 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 14" hexmask.long.word 0x1B8 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 14" line.long 0x1BC "VID_FIR_COEF_V12_C_15,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x1BC 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 15" hexmask.long.word 0x1BC 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 15" line.long 0x1C0 "VID_GLOBAL_ALPHA,The register defines the global alpha value for the video pipeline. Shadow register" hexmask.long.byte 0x1C0 0.--7. 1. "GLOBALALPHA,Global alpha value from 0 to 255. 0 corresponds to fully transparent and 255 corresponds to fully opaque" group.long 0x208++0xB line.long 0x0 "VID_MFLAG_THRESHOLD,MFLAG_THRESHOLD Register" hexmask.long.word 0x0 16.--31. 1. "HT_MFLAG,MFlag High Threshold" hexmask.long.word 0x0 0.--15. 1. "LT_MFLAG,MFlag Low Threshold" line.long 0x4 "VID_PICTURE_SIZE,The register configures the size of the video picture associated with the video layer before up/down-scaling. Shadow register" hexmask.long.word 0x4 16.--27. 1. "MEMSIZEY,Number of lines of the video picture Encoded value [from 1 to 4096] to specify the number of lines of the video picture in memory [program to value minus one] When predecimation is set the value represents the size of the image after.." hexmask.long.word 0x4 0.--11. 1. "MEMSIZEX,Number of pixels of the video picture Encoded value [from 1 to 4096] to specify the number of pixels of the video picture in memory [program to value minus one]. The size is limited to the size of the line buffer of the vertical sampling block.." line.long 0x8 "VID_PIXEL_INC,The register configures the number of bytes to increment between two pixels for the buffer associated with the video window. Shadow register" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.byte 0x8 0.--7. 1. "PIXELINC,Number of bytes to increment between two pixels Encoded unsigned value [from 1 to 255] to specify the number of bytes between two pixels in the video buffer. The value 0 is invalid The value 1 means next pixel The value 1+n*bpp means increment.." group.long 0x218++0xB line.long 0x0 "VID_PRELOAD,The register configures the DMA buffer of the video pipeline. Shadow register" hexmask.long.tbyte 0x0 12.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x0 0.--11. 1. "PRELOAD,DMA buffer preload value Number of 128-bit words defining the preload value" line.long 0x4 "VID_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. For YUV420 formats this corresponds to the Y Buffer. Shadow register" hexmask.long 0x4 0.--31. 1. "ROWINC,Number of bytes to increment at the end of the row Encoded signed value [from -2^31-1 to 2^31] to specify the number of bytes to increment at the end of the row in the video buffer. The value 0 is invalid. The value 1 means next pixel. The value.." line.long 0x8 "VID_SIZE,The register configures the size of the video window. Shadow register" hexmask.long.word 0x8 16.--27. 1. "SIZEY,Number of lines of the video window Encoded value [from 1 to 4096] to specify the number of lines of the video window [program size -1]" hexmask.long.word 0x8 0.--11. 1. "SIZEX,Number of pixels of the video window Encoded value [from 1 to 4096] to specify the number of pixels of the video window [program size -1]" group.long 0x22C++0x13 line.long 0x0 "VID_BA_EXT_0,The register configures the 16-bit base address extension. It is the base-address of the single video buffer for single plane ARGB or YUV. For the Y buffer for two plane YUV. For the Alpha buffer for two plane RGB565-A8. 0 & 1 : For.." hexmask.long.word 0x0 0.--15. 1. "BA_EXT,Video base address extension [16 bits]. Addr extension to make the address space 48b wide" line.long 0x4 "VID_BA_EXT_1,The register configures the 16-bit base address extension. It is the base-address of the single video buffer for single plane ARGB or YUV. For the Y buffer for two plane YUV. For the Alpha buffer for two plane RGB565-A8. 0 & 1 : For.." hexmask.long.word 0x4 0.--15. 1. "BA_EXT,Video base address extension [16 bits]. Addr extension to make the address space 48b wide" line.long 0x8 "VID_BA_UV_EXT_0,The register configures the 16-bit base address extension of the UV buffer for two plane YUV or the RGB buffer for two plane RGB565-A8. 0 & 1 : For ping-pong mechanism with external trigger. based on the field polarity. Shadow register" hexmask.long.word 0x8 0.--15. 1. "BA_UV_EXT,Video base address extension [16 bits]. Addr extension to make the address space 48b wide" line.long 0xC "VID_BA_UV_EXT_1,The register configures the 16-bit base address extension of the UV buffer for two plane YUV or the RGB buffer for two plane RGB565-A8. 0 & 1 : For ping-pong mechanism with external trigger. based on the field polarity. Shadow register" hexmask.long.word 0xC 0.--15. 1. "BA_UV_EXT,Video base address extension [16 bits]. Addr extension to make the address space 48b wide" line.long 0x10 "VID_CSC_COEF7,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x10 19.--31. 1. "POSTOFFSET3,Row-3 post-offset. Encoded signed value [from -4096 to 4095]" hexmask.long.word 0x10 3.--15. 1. "POSTOFFSET2,Row-2 post-offset. Encoded signed value [from -4096 to 4095]" group.long 0x248++0x3 line.long 0x0 "VID_ROW_INC_UV,The register configures the number of bytes to increment at the end of the row for the UV buffer associated with the video window for YUV420 formats. For non-YUV420 formats this register is unused. Shadow register" hexmask.long 0x0 0.--31. 1. "ROWINC,Number of bytes to increment at the end of the row Encoded signed value [from -2^31-1 to 2^31] to specify the number of bytes to increment at the end of the row in the video buffer. The value 0 is invalid The value 1 means next pixel. The value.." wgroup.long 0x260++0x3F line.long 0x0 "VID_CLUT_0,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x0 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x0 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x0 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x0 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x4 "VID_CLUT_1,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x4 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x4 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x4 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x4 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x8 "VID_CLUT_2,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x8 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x8 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x8 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x8 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0xC "VID_CLUT_3,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0xC 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0xC 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0xC 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0xC 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x10 "VID_CLUT_4,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x10 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x10 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x10 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x10 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x14 "VID_CLUT_5,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x14 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x14 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x14 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x14 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x18 "VID_CLUT_6,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x18 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x18 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x18 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x18 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x1C "VID_CLUT_7,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x1C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x1C 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x1C 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x1C 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x20 "VID_CLUT_8,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x20 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x20 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x20 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x20 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x24 "VID_CLUT_9,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x24 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x24 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x24 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x24 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x28 "VID_CLUT_10,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x28 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x28 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x28 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x28 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x2C "VID_CLUT_11,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x2C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x2C 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x2C 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x2C 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x30 "VID_CLUT_12,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x30 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x30 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x30 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x30 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x34 "VID_CLUT_13,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x34 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x34 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x34 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x34 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x38 "VID_CLUT_14,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x38 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x38 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x38 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x38 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x3C "VID_CLUT_15,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x3C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x3C 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x3C 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x3C 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" group.long 0x2A0++0x3 line.long 0x0 "VID_SAFETY_ATTRIBUTES,The register configures the safety sub-region. Shadow register" hexmask.long.tbyte 0x0 13.--31. 1. "RESERVED," bitfld.long 0x0 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" newline hexmask.long.byte 0x0 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature. When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur. Note: The freeze frame counter is cleared on reset -OR- MISR.." bitfld.long 0x0 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x0 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" bitfld.long 0x0 0. "ENABLE,Safety check Enable for the region. Note: Transition from 0 to 1 clears the signature register" "0,1" rgroup.long 0x2A4++0x3 line.long 0x0 "VID_SAFETY_CAPT_SIGNATURE,The register captures the signature from the MISR of the safety sub-region. Shadow register" hexmask.long 0x0 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region. Shadow register" group.long 0x2A8++0x13 line.long 0x0 "VID_SAFETY_POSITION,The register configures the position of the safety sub-region. Shadow register" hexmask.long.word 0x0 16.--27. 1. "POSY,Y position of the safety sub-region. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen. The first line on the top of the screen has the Y-position 0" hexmask.long.word 0x0 0.--11. 1. "POSX,X position of the safety sub-region. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen. The first pixel on the left of the screen has the X-position 0" line.long 0x4 "VID_SAFETY_REF_SIGNATURE,The register configures the reference signature of the safety sub-region. Shadow register" hexmask.long 0x4 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region. Shadow register" line.long 0x8 "VID_SAFETY_SIZE,The register configures the size of the safety sub-region. Shadow register" hexmask.long.word 0x8 16.--27. 1. "SIZEY,Height of the safety sub-region. Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen. One line height region has value of 0" hexmask.long.word 0x8 0.--11. 1. "SIZEX,Width of the safety sub-region. Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen. One pixel wide region has value of 0" line.long 0xC "VID_SAFETY_LFSR_SEED,The register configures the seed [initial value] of the MISR. Otherwise. the MISR is initialized with 0xFFFF_FFFF. Shadow register" hexmask.long 0xC 0.--31. 1. "SEED,The register configures the seed [initial value] of the MISR. Otherwise the MISR is initialized with 0xFFFF_FFFF. Shadow register" line.long 0x10 "VID_LUMAKEY,The register configures the LUMA KEY transparency min and max values. Shadow register" hexmask.long.byte 0x10 28.--31. 1. "RESERVED1,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x10 16.--27. 1. "LUMAKEYMAX,12b luma_key_max value" newline hexmask.long.byte 0x10 12.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x10 0.--11. 1. "LUMAKEYMIN,12b luma_key_min value" tree.end tree "DSS0_VIDL1 (DSS0_VIDL1)" base ad:0x30202000 group.long 0x20++0x17 line.long 0x0 "VIDL1_ATTRIBUTES,The register configures the attributes of the video window. Shadow register" bitfld.long 0x0 31. "LUMAKEYENABLE,Enable Luma Key transparency matching" "0,1" bitfld.long 0x0 30. "GAMMAINVERSION,Inverse Gamma support [using the CLUT table]" "0,1" bitfld.long 0x0 28. "PREMULTIPLYALPHA,The field configures the DISPC VID to process incoming data as premultiplied alpha data or non premultiplied alpha data. Default setting is non premultiplied alpha data" "0,1" newline bitfld.long 0x0 24. "SELFREFRESH,Enables the self refresh of the video window from its own DMA buffer only" "0,1" bitfld.long 0x0 23. "ARBITRATION,Determines the priority of the video pipeline. The video pipeline is one of the high priority pipelines. The arbitration gives always the priority first to the high priority pipelines using round-robin between them. When there are only normal.." "0,1" rbitfld.long 0x0 21. "RESERVED3,Write 0's for future compatibility. Reads return 0" "0,1" newline bitfld.long 0x0 19. "BUFPRELOAD,Video Preload Value" "0,1" rbitfld.long 0x0 18. "RESERVED7,Write 0's for future compatibility. Reads return 0" "0,1" bitfld.long 0x0 17. "SELFREFRESHAUTO,Automatic self refresh mode" "0,1" newline bitfld.long 0x0 12. "FLIP,Describes the frame buffer flip operation" "0,1" bitfld.long 0x0 11. "FULLRANGE,Color Space Conversion full range setting" "0,1" bitfld.long 0x0 10. "NIBBLEMODE,Video Nibble mode [only for 1- 2- and 4-bpp]" "0,1" newline bitfld.long 0x0 9. "COLORCONVENABLE,Enable the color space conversion. The HW does not enable/disable the conversion based on the pixel format" "0,1" rbitfld.long 0x0 7.--8. "RESERVED8,Write 0's for future compatibility. Reads return 0" "0,1,2,3" hexmask.long.byte 0x0 1.--6. 1. "FORMAT,Video Format. It defines the pixel format when fetching the video frame buffer" newline bitfld.long 0x0 0. "ENABLE,Video pipeline Enable" "0,1" line.long 0x4 "VIDL1_ATTRIBUTES2,The register configures the attributes of the video window. Shadow register" hexmask.long.byte 0x4 26.--30. 1. "TAGS,Number of OCP TAGS to be used for the pipeline [from 0x0 to 0xF]. A value of 0x0 means only a single tag will be used. A value of 0xF means all 16 tags can be used" bitfld.long 0x4 10. "YUV_ALIGN,Alignment [MSB or LSB align] for unpacked 10b/12b YUV data" "0,1" bitfld.long 0x4 9. "YUV_MODE,Mode of packing for YUV data [only for 10b/12b formats]" "0,1" newline bitfld.long 0x4 7.--8. "YUV_SIZE,Size of YUV data 8b/10b/12b" "0,1,2,3" bitfld.long 0x4 4.--6. "VC1_RANGE_CBCR,Defines the VC1 range value for the CbCr component from 0 to 7" "0,1,2,3,4,5,6,7" bitfld.long 0x4 1.--3. "VC1_RANGE_Y,Defines the VC1 range value for the Y component from 0 to 7" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 0. "VC1ENABLE,Enable/disable the VC1 range mapping processing. The bit-field is ignored if the format is not one of the supported YUV formats" "0,1" line.long 0x8 "VIDL1_BA_0,The register configures the base address of the single video buffer. In case of single plane ARGB or YUV. this is the BA. In case of two plane YUV. this is the BA_Y. In case of two plane RGB565-A8. this is the BA_Alpha. BA__0 & BA__1 for.." hexmask.long 0x8 0.--31. 1. "BA,Video base address. Base address of the video buffer [Aligned on pixel size boundary except for the following. In case of RGB24 packed format 4-pixel alignment is required. In case of YUV422 2-pixel alignment is required. In case of YUV420 byte.." line.long 0xC "VIDL1_BA_1,The register configures the base address of the single video buffer. In case of single plane ARGB or YUV. this is the BA. In case of two plane YUV. this is the BA_Y. In case of two plane RGB565-A8. this is the BA_Alpha. BA__0 & BA__1 for.." hexmask.long 0xC 0.--31. 1. "BA,Video base address. Base address of the video buffer [Aligned on pixel size boundary except for the following. In case of RGB24 packed format 4-pixel alignment is required. In case of YUV422 2-pixel alignment is required. In case of YUV420 byte.." line.long 0x10 "VIDL1_BA_UV_0,The register configures the base address of the UV buffer for two plane YUV or RGB buffer for two plane RGB565-A8. for the video window. BA_UV__0 & BA_UV__1 for ping-pong mechanism with external trigger. based on the field polarity.." hexmask.long 0x10 0.--31. 1. "BA,Video base address aligned on 16-bit boundary Base address of the UV video buffer used only in case of YUV420-NV12" line.long 0x14 "VIDL1_BA_UV_1,The register configures the base address of the UV buffer for two plane YUV or RGB buffer for two plane RGB565-A8. for the video window. BA_UV__0 & BA_UV__1 for ping-pong mechanism with external trigger. based on the field polarity.." hexmask.long 0x14 0.--31. 1. "BA,Video base address aligned on 16-bit boundary Base address of the UV video buffer used only in case of YUV420-NV12" rgroup.long 0x38++0x3 line.long 0x0 "VIDL1_BUF_SIZE_STATUS,The register returns the Video buffer size for the video pipeline" hexmask.long.word 0x0 16.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x0 0.--15. 1. "BUFSIZE,Video DMA buffer Size in number of 128-bits" group.long 0x3C++0x1F line.long 0x0 "VIDL1_BUF_THRESHOLD,The register configures the video buffer associated with the video pipeline. Shadow register" hexmask.long.word 0x0 16.--31. 1. "BUFHIGHTHRESHOLD,DMA buffer High Threshold. Number of 128-bits defining the threshold value" hexmask.long.word 0x0 0.--15. 1. "BUFLOWTHRESHOLD,DMA buffer Low Threshold. Number of 128-bits defining the threshold value" line.long 0x4 "VIDL1_CSC_COEF0,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x4 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x4 16.--26. 1. "C01,C01 Coefficient. Encoded signed value [from -1024 to 1023]" hexmask.long.byte 0x4 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.word 0x4 0.--10. 1. "C00,C00 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x8 "VIDL1_CSC_COEF1,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x8 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x8 16.--26. 1. "C10,C10 Coefficient. Encoded signed value [from -1024 to 1023]" hexmask.long.byte 0x8 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.word 0x8 0.--10. 1. "C02,C02 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0xC "VIDL1_CSC_COEF2,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0xC 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0xC 16.--26. 1. "C12,C12 Coefficient. Encoded signed value [from -1024 to 1023]" hexmask.long.byte 0xC 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.word 0xC 0.--10. 1. "C11,C11 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x10 "VIDL1_CSC_COEF3,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x10 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x10 16.--26. 1. "C21,C21 coefficient. Encoded signed value [from -1024 to 1023]" hexmask.long.byte 0x10 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.word 0x10 0.--10. 1. "C20,C20 coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x14 "VIDL1_CSC_COEF4,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.tbyte 0x14 11.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x14 0.--10. 1. "C22,C22 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x18 "VIDL1_CSC_COEF5,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x18 19.--31. 1. "PREOFFSET2,Row-2 pre-offset. Encoded signed value [from -4096 to 4095]" hexmask.long.word 0x18 3.--15. 1. "PREOFFSET1,Row1 pre-offset. Encoded signed value [from -4096 to 4095]" line.long 0x1C "VIDL1_CSC_COEF6,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x1C 19.--31. 1. "POSTOFFSET1,Row-1 post-offset. Encoded signed value [from -4096 to 4095]" hexmask.long.word 0x1C 3.--15. 1. "PREOFFSET3,Row-3 pre-offset. Encoded signed value [from -4096 to 4095]" group.long 0x1FC++0x3 line.long 0x0 "VIDL1_GLOBAL_ALPHA,The register defines the global alpha value for the video pipeline. Shadow register" hexmask.long.byte 0x0 0.--7. 1. "GLOBALALPHA,Global alpha value from 0 to 255. 0 corresponds to fully transparent and 255 corresponds to fully opaque" group.long 0x208++0xB line.long 0x0 "VIDL1_MFLAG_THRESHOLD,MFLAG_THRESHOLD Register" hexmask.long.word 0x0 16.--31. 1. "HT_MFLAG,MFLAG High Threshold" hexmask.long.word 0x0 0.--15. 1. "LT_MFLAG,MFLAG Low Threshold" line.long 0x4 "VIDL1_PICTURE_SIZE,The register configures the size of the video picture associated with the video layer before up/down-scaling. Shadow register" hexmask.long.word 0x4 16.--27. 1. "MEMSIZEY,Number of lines of the video picture Encoded value [from 1 to 4096] to specify the number of lines of the video picture in memory [program to value minus one]. When predecimation is set the value represents the size of the image after.." hexmask.long.word 0x4 0.--11. 1. "MEMSIZEX,Number of pixels of the video picture Encoded value [from 1 to 4096] to specify the number of pixels of the video picture in memory [program to value minus one]. The size is limited to the size of the line buffer of the vertical sampling block.." line.long 0x8 "VIDL1_PIXEL_INC,The register configures the number of bytes to increment between two pixels for the buffer associated with the video window. Shadow register" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.byte 0x8 0.--7. 1. "PIXELINC,Number of bytes to increment between two pixels Encoded unsigned value [from 1 to 255] to specify the number of bytes between two pixels in the video buffer. The value 0 is invalid The value 1 means next pixel The value 1+n*bpp means increment.." group.long 0x218++0x7 line.long 0x0 "VIDL1_PRELOAD,The register configures the DMA buffer of the video pipeline. Shadow register" hexmask.long.tbyte 0x0 12.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x0 0.--11. 1. "PRELOAD,DMA buffer preload value. Number of 128-bit words defining the preload value" line.long 0x4 "VIDL1_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. For YUV420 formats this corresponds to the Y Buffer. Shadow register" hexmask.long 0x4 0.--31. 1. "ROWINC,Number of bytes to increment at the end of the row Encoded signed value [from -2^31-1 to 2^31] to specify the number of bytes to increment at the end of the row in the video buffer. The value 0 is invalid. The value 1 means next pixel. The value.." group.long 0x22C++0x13 line.long 0x0 "VIDL1_BA_EXT_0,The register configures the 16-bit base address extension. It is the base-address of the single video buffer for single plane ARGB or YUV. For the Y buffer for two plane YUV. For the Alpha buffer for two plane RGB565-A8. 0 & 1 : For.." hexmask.long.word 0x0 0.--15. 1. "BA_EXT,Video base address extension [16 bits]. Addr extension to make the address space 48b wide" line.long 0x4 "VIDL1_BA_EXT_1,The register configures the 16-bit base address extension. It is the base-address of the single video buffer for single plane ARGB or YUV. For the Y buffer for two plane YUV. For the Alpha buffer for two plane RGB565-A8. 0 & 1 : For.." hexmask.long.word 0x4 0.--15. 1. "BA_EXT,Video base address extension [16 bits]. Addr extension to make the address space 48b wide" line.long 0x8 "VIDL1_BA_UV_EXT_0,The register configures the 16-bit base address extension of the UV buffer for two plane YUV or the RGB buffer for two plane RGB565-A8. 0 & 1 : For ping-pong mechanism with external trigger. based on the field polarity. Shadow register" hexmask.long.word 0x8 0.--15. 1. "BA_UV_EXT,Video base address extension [16 bits]. Addr extension to make the address space 48b wide" line.long 0xC "VIDL1_BA_UV_EXT_1,The register configures the 16-bit base address extension of the UV buffer for two plane YUV or the RGB buffer for two plane RGB565-A8. 0 & 1 : For ping-pong mechanism with external trigger. based on the field polarity. Shadow register" hexmask.long.word 0xC 0.--15. 1. "BA_UV_EXT,Video base address extension [16 bits]. Addr extension to make the address space 48b wide" line.long 0x10 "VIDL1_CSC_COEF7,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x10 19.--31. 1. "POSTOFFSET3,Row-3 post-offset. Encoded signed value [from -4096 to 4095]" hexmask.long.word 0x10 3.--15. 1. "POSTOFFSET2,Row-2 post-offset. Encoded signed value [from -4096 to 4095]" group.long 0x248++0x3 line.long 0x0 "VIDL1_ROW_INC_UV,The register configures the number of bytes to increment at the end of the row for the UV buffer associated with the video window for YUV420 formats. For non-YUV420 formats this register is unused. Shadow register" hexmask.long 0x0 0.--31. 1. "ROWINC,Number of bytes to increment at the end of the row Encoded signed value [from -2^31-1 to 2^31] to specify the number of bytes to increment at the end of the row in the video buffer. The value 0 is invalid The value 1 means next pixel. The value.." wgroup.long 0x260++0x3F line.long 0x0 "VIDL1_CLUT_0,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x0 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x0 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x0 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x0 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x4 "VIDL1_CLUT_1,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x4 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x4 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x4 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x4 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x8 "VIDL1_CLUT_2,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x8 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x8 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x8 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x8 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0xC "VIDL1_CLUT_3,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0xC 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0xC 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0xC 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0xC 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x10 "VIDL1_CLUT_4,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x10 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x10 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x10 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x10 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x14 "VIDL1_CLUT_5,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x14 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x14 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x14 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x14 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x18 "VIDL1_CLUT_6,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x18 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x18 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x18 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x18 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x1C "VIDL1_CLUT_7,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x1C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x1C 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x1C 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x1C 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x20 "VIDL1_CLUT_8,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x20 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x20 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x20 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x20 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x24 "VIDL1_CLUT_9,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x24 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x24 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x24 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x24 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x28 "VIDL1_CLUT_10,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x28 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x28 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x28 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x28 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x2C "VIDL1_CLUT_11,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x2C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x2C 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x2C 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x2C 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x30 "VIDL1_CLUT_12,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x30 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x30 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x30 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x30 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x34 "VIDL1_CLUT_13,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x34 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x34 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x34 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x34 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x38 "VIDL1_CLUT_14,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x38 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x38 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x38 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x38 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x3C "VIDL1_CLUT_15,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x3C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x3C 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x3C 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x3C 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" group.long 0x2A0++0x3 line.long 0x0 "VIDL1_SAFETY_ATTRIBUTES,The register configures the safety sub-region. Shadow register" bitfld.long 0x0 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" hexmask.long.byte 0x0 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature. When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur. Note: The freeze frame counter is cleared on reset -OR- MISR.." bitfld.long 0x0 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x0 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" bitfld.long 0x0 0. "ENABLE,Safety check Enable for the region. Note: Transition from 0 to 1 clears the signature register" "0,1" rgroup.long 0x2A4++0x3 line.long 0x0 "VIDL1_SAFETY_CAPT_SIGNATURE,The register captures the signature from the MISR of the safety sub-region. Shadow register" hexmask.long 0x0 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region. Shadow register" group.long 0x2A8++0x13 line.long 0x0 "VIDL1_SAFETY_POSITION,The register configures the position of the safety sub-region. Shadow register" hexmask.long.word 0x0 16.--27. 1. "POSY,Y position of the safety sub-region. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen. The first line on the top of the screen has the Y-position 0" hexmask.long.word 0x0 0.--11. 1. "POSX,X position of the safety sub-region. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen. The first pixel on the left of the screen has the X-position 0" line.long 0x4 "VIDL1_SAFETY_REF_SIGNATURE,The register configures the reference signature of the safety sub-region. Shadow register" hexmask.long 0x4 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region. Shadow register" line.long 0x8 "VIDL1_SAFETY_SIZE,The register configures the size of the safety sub-region. Shadow register" hexmask.long.word 0x8 16.--27. 1. "SIZEY,Height of the safety sub-region. Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen. One line height region has value of 0" hexmask.long.word 0x8 0.--11. 1. "SIZEX,Width of the safety sub-region. Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen. One pixel wide region has value of 0" line.long 0xC "VIDL1_SAFETY_LFSR_SEED,The register configures the seed [initial value] of the MISR. Otherwise. the MISR is initialized with 0xFFFF_FFFF. Shadow register" hexmask.long 0xC 0.--31. 1. "SEED,The register configures the seed [initial value] of the MISR. Otherwise the MISR is initialized with 0xFFFF_FFFF. Shadow register" line.long 0x10 "VIDL1_LUMAKEY,The register configures the LUMA KEY transparency min and max values. Shadow register" hexmask.long.byte 0x10 28.--31. 1. "RESERVED1,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x10 16.--27. 1. "LUMAKEYMAX,12b luma_key_max value" hexmask.long.byte 0x10 12.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.word 0x10 0.--11. 1. "LUMAKEYMIN,12b luma_key_min value" tree.end tree "DSS0_VP1 (DSS0_VP1)" base ad:0x3020A000 group.long 0x0++0x1F line.long 0x0 "VP1_CONFIG,The control register configures the Display Controller module for the VP output. Shadow register." hexmask.long.byte 0x0 27.--31. 1. "RESERVED3," newline bitfld.long 0x0 26. "COLORCONVPOS,Determines the position of the COLORCONV module" "0,1" newline bitfld.long 0x0 25. "FULLRANGE,Color Space Conversion full range setting" "0,1" newline bitfld.long 0x0 24. "COLORCONVENABLE,Enable the color space conversion. The coefficients and offsets used are all programmable and controlled by CPR_COEFF_* and CPR_OFFSET_* registers" "0,1" newline bitfld.long 0x0 23. "FIDFIRST,Selects the first field to output in case of interlace mode. In case of progressive mode the value is not used" "0,1" newline bitfld.long 0x0 22. "OUTPUTMODEENABLE,Selects between progressive and interlace mode for the VP output" "0,1" newline bitfld.long 0x0 21. "BT1120ENABLE,Selects BT-1120 format on the VP output. It is not possible to enable BT656 and BT1120 at the same time one the same LCD output" "0,1" newline bitfld.long 0x0 20. "BT656ENABLE,Selects BT-656 format on the VP output. It is not possible to enable BT656 and BT1120 at the same time one the same LCD output" "0,1" newline rbitfld.long 0x0 17.--19. "RESERVED2,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 16. "BUFFERHANDSHAKE,Deprecated. Always write 0" "0,1" newline bitfld.long 0x0 15. "CPR,Deprecated. Always write 0" "0,1" newline hexmask.long.byte 0x0 9.--14. 1. "RESERVED1,Write 0's for future compatibility Reads return 0" newline bitfld.long 0x0 8. "EXTERNALSYNCEN,Deprecated. Always write 0" "0,1" newline bitfld.long 0x0 7. "VSYNCGATED,VSYNC Gated Enabled [VP output]. Shadow bit-field" "0,1" newline bitfld.long 0x0 6. "HSYNCGATED,HSYNC Gated Enabled [VP output]. Shadow bit-field" "0,1" newline bitfld.long 0x0 5. "PIXELCLOCKGATED,Pixel Clock Gated Enabled [VP output]. Shadow bit-field" "0,1" newline bitfld.long 0x0 4. "PIXELDATAGATED,Pixel Data Gated Enabled [VP output]. Shadow bit-field" "0,1" newline bitfld.long 0x0 3. "HDMIMODE,Deprecated. Always write 0" "0,1" newline bitfld.long 0x0 2. "GAMMAENABLE,Enable the gamma Shadow bit-field" "0,1" newline bitfld.long 0x0 1. "DATAENABLEGATED,DE Gated Enable Shadow bit-field" "0,1" newline bitfld.long 0x0 0. "PIXELGATED,Pixel Gated Enable. Shadow bit-field" "0,1" line.long 0x4 "VP1_CONTROL,The control register configures the Display Controller module for the VP output" bitfld.long 0x4 30.--31. "SPATIALTEMPORALDITHERINGFRAMES,Spatial/Temporal dithering number of frames for the VP output Shadow bit-field" "0,1,2,3" newline rbitfld.long 0x4 27.--29. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 25.--26. "TDMUNUSEDBITS,State of unused bits [TDM mode only] for the VP output Shadow bit-field" "0,1,2,3" newline bitfld.long 0x4 23.--24. "TDMCYCLEFORMAT,Cycle format [TDM mode only] for the VP output Shadow bit-field" "0,1,2,3" newline bitfld.long 0x4 21.--22. "TDMPARALLELMODE,Output Interface width [TDM mode only] for the VP output Shadow bit-field" "0,1,2,3" newline bitfld.long 0x4 20. "TDMENABLE,Enable the multiple cycle format for the VP output Shadow bit-field" "0,1" newline rbitfld.long 0x4 17.--19. "RESERVED1," "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 14.--16. "HT,Hold Time for output. Shadow bit-field. Encoded value [from 1 to 8] to specify the number of external digital clock periods to hold the data [programmed value = value minus one]" "0,1,2,3,4,5,6,7" newline rbitfld.long 0x4 13. "RESERVED3," "0,1" newline rbitfld.long 0x4 12. "RESERVED6," "0,1" newline bitfld.long 0x4 11. "STALLMODE,Deprecated. Always write 0" "0,1" newline bitfld.long 0x4 8.--10. "DATALINES,Width of the data bus on VP output Shadow bit-field" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 7. "STDITHERENABLE,Spatial Temporal dithering enable for the VP output Shadow bit-field" "0,1" newline bitfld.long 0x4 6. "DPIENABLE,Enable the DPI output. wr:immediate" "0,1" newline bitfld.long 0x4 5. "GOBIT,GO Command for the VP output. It is used to synchronize the pipelines associated with the VP output wr:immediate" "0,1" newline bitfld.long 0x4 4. "M8B,Deprecated. Always write 0" "0,1" newline bitfld.long 0x4 3. "STN,Deprecated. Always write 0" "0,1" newline bitfld.long 0x4 2. "MONOCOLOR,Deprecated. Always write 0" "0,1" newline bitfld.long 0x4 1. "VPPROGLINENUMBERMODULO,Enable the modulo of the line number interrupt generation" "0,1" newline bitfld.long 0x4 0. "ENABLE,Enable the video port output. wr:immediate" "0,1" line.long 0x8 "VP1_CSC_COEF0,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x8 27.--31. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x8 16.--26. 1. "C01,C01 Coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0x8 11.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x8 0.--10. 1. "C00,C00 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0xC "VP1_CSC_COEF1,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0xC 27.--31. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0xC 16.--26. 1. "C10,C10 Coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0xC 11.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0xC 0.--10. 1. "C02,C02 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x10 "VP1_CSC_COEF2,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x10 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.word 0x10 16.--26. 1. "C12,C12 Coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0x10 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.word 0x10 0.--10. 1. "C11,C11 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x14 "VP1_DATA_CYCLE_0,The control register configures the output data format over up to 3 cycles. Shadow register" hexmask.long.byte 0x14 28.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.byte 0x14 24.--27. 1. "BITALIGNMENTPIXEL2,Bit alignment Alignment of the bits from pixel 2 on the output interface" newline rbitfld.long 0x14 21.--23. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x14 16.--20. 1. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" newline hexmask.long.byte 0x14 12.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.byte 0x14 8.--11. 1. "BITALIGNMENTPIXEL1,Bit alignment Alignment of the bits from pixel 1 on the output interface" newline rbitfld.long 0x14 5.--7. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x14 0.--4. 1. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" line.long 0x18 "VP1_DATA_CYCLE_1,The control register configures the output data format over up to 3 cycles. Shadow register" hexmask.long.byte 0x18 28.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.byte 0x18 24.--27. 1. "BITALIGNMENTPIXEL2,Bit alignment Alignment of the bits from pixel 2 on the output interface" newline rbitfld.long 0x18 21.--23. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x18 16.--20. 1. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" newline hexmask.long.byte 0x18 12.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.byte 0x18 8.--11. 1. "BITALIGNMENTPIXEL1,Bit alignment Alignment of the bits from pixel 1 on the output interface" newline rbitfld.long 0x18 5.--7. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x18 0.--4. 1. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" line.long 0x1C "VP1_DATA_CYCLE_2,The control register configures the output data format over up to 3 cycles. Shadow register" hexmask.long.byte 0x1C 28.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.byte 0x1C 24.--27. 1. "BITALIGNMENTPIXEL2,Bit alignment Alignment of the bits from pixel 2 on the output interface" newline rbitfld.long 0x1C 21.--23. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x1C 16.--20. 1. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" newline hexmask.long.byte 0x1C 12.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.byte 0x1C 8.--11. 1. "BITALIGNMENTPIXEL1,Bit alignment Alignment of the bits from pixel 1 on the output interface" newline rbitfld.long 0x1C 5.--7. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x1C 0.--4. 1. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" group.long 0x44++0x3 line.long 0x0 "VP1_LINE_NUMBER,The control register indicates the panel display line number for the interrupt and the DMA request. Shadow register" hexmask.long.tbyte 0x0 12.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--11. 1. "LINENUMBER,LCD panel line number programming LCD line number defines the line on which the programmable interrupt is generated and the DMA request occurs" group.long 0x4C++0x33 line.long 0x0 "VP1_POL_FREQ,The register configures the signal configuration. Shadow register" hexmask.long.word 0x0 19.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline bitfld.long 0x0 18. "ALIGN,Defines the alignment between HSYNC and VSYNC assertion" "0,1" newline bitfld.long 0x0 17. "ONOFF,HSYNC/VSYNC Pixel clock Control On/Off" "0,1" newline bitfld.long 0x0 16. "RF,Program HSYNC/VSYNC Rise or Fall To set HSYNC/VSYNC to pixel clock relationship CTRL_MMR_DPI0_CLK_CTRL[9] DPI0_CLK_CTRL_SYNC_CLK_INVDIS setting should be opposite the [16] RF setting." "0,1" newline bitfld.long 0x0 15. "IEO,Invert output enable" "0,1" newline bitfld.long 0x0 14. "IPC,Invert pixel clock To set data to pixel clock relationship CTRL_MMR_DPI0_CLK_CTRL[8] DPI0_CLK_CTRL_DATA_CLK_INVDIS setting should be opposite the [14] IPC setting." "0,1" newline bitfld.long 0x0 13. "IHS,Invert HSYNC" "0,1" newline bitfld.long 0x0 12. "IVS,Invert VSYNC" "0,1" newline hexmask.long.byte 0x0 8.--11. 1. "ACBI,AC Bias Pin transitions per interrupt Value [from 0 to 15] used to specify the number of AC Bias pin transitions" newline hexmask.long.byte 0x0 0.--7. 1. "ACB,AC Bias Pin Frequency Value [from 0 to 255] used to specify the number of line clocks to count before transitioning the AC Bias pin. This pin is used to periodically invert the polarity of the power supply to prevent DC charge build-up within the.." line.long 0x4 "VP1_SIZE_SCREEN,The register configures the panel size horizontal and vertical. Shadow register. A delta value is used to indicate if the odd field has same vertical size as the even field or +/- one line." hexmask.long.byte 0x4 28.--31. 1. "RESERVED1," newline hexmask.long.word 0x4 16.--27. 1. "LPP,Lines per panel Encoded value [from 1 to 4096] to specify the number of lines per panel [program to value minus one]" newline bitfld.long 0x4 14.--15. "DELTA_LPP,Indicates the delta size value of the odd field compared to the even field" "0,1,2,3" newline rbitfld.long 0x4 12.--13. "RESERVED," "0,1,2,3" newline hexmask.long.word 0x4 0.--11. 1. "PPL,Pixels per line Encoded value [from 1 to 4096] to specify the number of pixels contains within each line on the display [program to value minus one]. In STALL mode any value is valid In non-STALL mode only values multiple of 8 pixels are valid" line.long 0x8 "VP1_TIMING_H,The register configures the timing logic for the HSYNC signal. Shadow register" hexmask.long.word 0x8 20.--31. 1. "HBP,Horizontal Back Porch Encoded value [from 1 to 4096] to specify the number of pixel clock periods to add to the beginning of a line transmission before the first set of pixels is output to the display [program to value minus one] When in BT mode and.." newline hexmask.long.word 0x8 8.--19. 1. "HFP,Horizontal front porch Encoded value [from 1 to 4096] to specify the number of pixel clock periods to add to the end of a line transmission before line clock is asserted display [program to value minus one] When in BT mode and interlaced this field.." newline hexmask.long.byte 0x8 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 display [program to value minus one] When in BT mode this field corresponds to the LSB.." line.long 0xC "VP1_TIMING_V,The register configures the timing logic for the VSYNC signal. Shadow register" hexmask.long.word 0xC 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 When in BT mode and interlaced this field corresponds to the vertical field blanking No 2 for Odd Field When in BT and.." newline hexmask.long.word 0xC 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 When in BT mode and interlaced this field corresponds to the vertical field blanking No 1 for Odd Field When in BT and in.." newline hexmask.long.byte 0xC 0.--7. 1. "VSW,Vertical synchronization pulse width Encoded value [from 1 to 256] to specify the number of line clock periods to pulse the frame clock [VSYNC] pin at the end of each frame after the end of frame wait [VFP] period elapses Frame clock uses as VSYNC.." line.long 0x10 "VP1_CSC_COEF3,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x10 27.--31. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x10 16.--26. 1. "C21,C21 coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0x10 11.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x10 0.--10. 1. "C20,C20 coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x14 "VP1_CSC_COEF4,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.tbyte 0x14 11.--31. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x14 0.--10. 1. "C22,C22 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x18 "VP1_CSC_COEF5,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x18 19.--31. 1. "PREOFFSET2,Row-2 pre-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x18 16.--18. "RESERVED1," "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x18 3.--15. 1. "PREOFFSET1,Row1 pre-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x18 0.--2. "RESERVED," "0,1,2,3,4,5,6,7" line.long 0x1C "VP1_CSC_COEF6,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x1C 19.--31. 1. "POSTOFFSET1,Row-1 post-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x1C 16.--18. "RESERVED1," "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x1C 3.--15. 1. "PREOFFSET3,Row-3 pre-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x1C 0.--2. "RESERVED," "0,1,2,3,4,5,6,7" line.long 0x20 "VP1_CSC_COEF7,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x20 19.--31. 1. "POSTOFFSET3,Row-3 post-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x20 16.--18. "RESERVED1," "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x20 3.--15. 1. "POSTOFFSET2,Row-2 post-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x20 0.--2. "RESERVED," "0,1,2,3,4,5,6,7" line.long 0x24 "VP1_SAFETY_ATTRIBUTES_0,The register configures the safety sub-region n. Shadow register" hexmask.long.tbyte 0x24 13.--31. 1. "RESERVED," newline bitfld.long 0x24 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" newline hexmask.long.byte 0x24 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur Note: The freeze frame counter is cleared on reset -OR- MISR not.." newline bitfld.long 0x24 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x24 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" newline bitfld.long 0x24 0. "ENABLE,Safety check Enable for the region Note: Transition from 0 to 1 clears the signature register" "0,1" line.long 0x28 "VP1_SAFETY_ATTRIBUTES_1,The register configures the safety sub-region n. Shadow register" hexmask.long.tbyte 0x28 13.--31. 1. "RESERVED," newline bitfld.long 0x28 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" newline hexmask.long.byte 0x28 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur Note: The freeze frame counter is cleared on reset -OR- MISR not.." newline bitfld.long 0x28 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x28 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" newline bitfld.long 0x28 0. "ENABLE,Safety check Enable for the region Note: Transition from 0 to 1 clears the signature register" "0,1" line.long 0x2C "VP1_SAFETY_ATTRIBUTES_2,The register configures the safety sub-region n. Shadow register" hexmask.long.tbyte 0x2C 13.--31. 1. "RESERVED," newline bitfld.long 0x2C 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" newline hexmask.long.byte 0x2C 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur Note: The freeze frame counter is cleared on reset -OR- MISR not.." newline bitfld.long 0x2C 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x2C 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" newline bitfld.long 0x2C 0. "ENABLE,Safety check Enable for the region Note: Transition from 0 to 1 clears the signature register" "0,1" line.long 0x30 "VP1_SAFETY_ATTRIBUTES_3,The register configures the safety sub-region n. Shadow register" hexmask.long.tbyte 0x30 13.--31. 1. "RESERVED," newline bitfld.long 0x30 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" newline hexmask.long.byte 0x30 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur Note: The freeze frame counter is cleared on reset -OR- MISR not.." newline bitfld.long 0x30 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x30 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" newline bitfld.long 0x30 0. "ENABLE,Safety check Enable for the region Note: Transition from 0 to 1 clears the signature register" "0,1" rgroup.long 0x90++0xF line.long 0x0 "VP1_SAFETY_CAPT_SIGNATURE_0,The register captures the signature from the MISR of the safety sub-region n. Shadow register" hexmask.long 0x0 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n Shadow register" line.long 0x4 "VP1_SAFETY_CAPT_SIGNATURE_1,The register captures the signature from the MISR of the safety sub-region n. Shadow register" hexmask.long 0x4 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n Shadow register" line.long 0x8 "VP1_SAFETY_CAPT_SIGNATURE_2,The register captures the signature from the MISR of the safety sub-region n. Shadow register" hexmask.long 0x8 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n Shadow register" line.long 0xC "VP1_SAFETY_CAPT_SIGNATURE_3,The register captures the signature from the MISR of the safety sub-region n. Shadow register" hexmask.long 0xC 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n Shadow register" group.long 0xB0++0xF line.long 0x0 "VP1_SAFETY_POSITION_0,The register configures the position of the safety sub-region n. Shadow register" hexmask.long.byte 0x0 28.--31. 1. "RESERVED," newline hexmask.long.word 0x0 16.--27. 1. "POSY,Y position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen The first line on the top of the screen has the Y-position 0" newline hexmask.long.byte 0x0 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x0 0.--11. 1. "POSX,X position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen The first pixel on the left of the screen has the X-position 0" line.long 0x4 "VP1_SAFETY_POSITION_1,The register configures the position of the safety sub-region n. Shadow register" hexmask.long.byte 0x4 28.--31. 1. "RESERVED," newline hexmask.long.word 0x4 16.--27. 1. "POSY,Y position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen The first line on the top of the screen has the Y-position 0" newline hexmask.long.byte 0x4 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x4 0.--11. 1. "POSX,X position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen The first pixel on the left of the screen has the X-position 0" line.long 0x8 "VP1_SAFETY_POSITION_2,The register configures the position of the safety sub-region n. Shadow register" hexmask.long.byte 0x8 28.--31. 1. "RESERVED," newline hexmask.long.word 0x8 16.--27. 1. "POSY,Y position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen The first line on the top of the screen has the Y-position 0" newline hexmask.long.byte 0x8 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x8 0.--11. 1. "POSX,X position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen The first pixel on the left of the screen has the X-position 0" line.long 0xC "VP1_SAFETY_POSITION_3,The register configures the position of the safety sub-region n. Shadow register" hexmask.long.byte 0xC 28.--31. 1. "RESERVED," newline hexmask.long.word 0xC 16.--27. 1. "POSY,Y position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen The first line on the top of the screen has the Y-position 0" newline hexmask.long.byte 0xC 12.--15. 1. "RESERVED1," newline hexmask.long.word 0xC 0.--11. 1. "POSX,X position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen The first pixel on the left of the screen has the X-position 0" group.long 0xD0++0xF line.long 0x0 "VP1_SAFETY_REF_SIGNATURE_0,The register configures the reference signature of the safety sub-region n. Shadow register" hexmask.long 0x0 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n. Shadow register" line.long 0x4 "VP1_SAFETY_REF_SIGNATURE_1,The register configures the reference signature of the safety sub-region n. Shadow register" hexmask.long 0x4 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n. Shadow register" line.long 0x8 "VP1_SAFETY_REF_SIGNATURE_2,The register configures the reference signature of the safety sub-region n. Shadow register" hexmask.long 0x8 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n. Shadow register" line.long 0xC "VP1_SAFETY_REF_SIGNATURE_3,The register configures the reference signature of the safety sub-region n. Shadow register" hexmask.long 0xC 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n. Shadow register" group.long 0xF0++0xF line.long 0x0 "VP1_SAFETY_SIZE_0,The register configures the size of the safety sub-region n Shadow register." hexmask.long.byte 0x0 28.--31. 1. "RESERVED," newline hexmask.long.word 0x0 16.--27. 1. "SIZEY,Height of the safety sub-region n Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen One line height region has value of 0" newline hexmask.long.byte 0x0 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x0 0.--11. 1. "SIZEX,Width of the safety sub-region n Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen One pixel wide region has value of 0" line.long 0x4 "VP1_SAFETY_SIZE_1,The register configures the size of the safety sub-region n Shadow register." hexmask.long.byte 0x4 28.--31. 1. "RESERVED," newline hexmask.long.word 0x4 16.--27. 1. "SIZEY,Height of the safety sub-region n Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen One line height region has value of 0" newline hexmask.long.byte 0x4 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x4 0.--11. 1. "SIZEX,Width of the safety sub-region n Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen One pixel wide region has value of 0" line.long 0x8 "VP1_SAFETY_SIZE_2,The register configures the size of the safety sub-region n Shadow register." hexmask.long.byte 0x8 28.--31. 1. "RESERVED," newline hexmask.long.word 0x8 16.--27. 1. "SIZEY,Height of the safety sub-region n Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen One line height region has value of 0" newline hexmask.long.byte 0x8 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x8 0.--11. 1. "SIZEX,Width of the safety sub-region n Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen One pixel wide region has value of 0" line.long 0xC "VP1_SAFETY_SIZE_3,The register configures the size of the safety sub-region n Shadow register." hexmask.long.byte 0xC 28.--31. 1. "RESERVED," newline hexmask.long.word 0xC 16.--27. 1. "SIZEY,Height of the safety sub-region n Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen One line height region has value of 0" newline hexmask.long.byte 0xC 12.--15. 1. "RESERVED1," newline hexmask.long.word 0xC 0.--11. 1. "SIZEX,Width of the safety sub-region n Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen One pixel wide region has value of 0" group.long 0x110++0x3 line.long 0x0 "VP1_SAFETY_LFSR_SEED,The register configures the seed initial signature value of MISRs that are to be initialized with a user programmed initial value. Otherwise. the MISR is initialized with 0xFFFF_FFFF. Shadow register." hexmask.long 0x0 0.--31. 1. "SEED,The register configures the seed [initial signature value] of MISRs that are to be initialized with a user programmed initial value Otherwise the MISR is initialized with 0xFFFF_FFFF Shadow register" wgroup.long 0x120++0x3F line.long 0x0 "VP1_GAMMA_TABLE_0,The register configures the gamma table on VP output." hexmask.long.byte 0x0 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x0 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x0 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x0 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x4 "VP1_GAMMA_TABLE_1,The register configures the gamma table on VP output." hexmask.long.byte 0x4 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x4 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x4 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x4 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x8 "VP1_GAMMA_TABLE_2,The register configures the gamma table on VP output." hexmask.long.byte 0x8 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x8 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x8 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x8 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0xC "VP1_GAMMA_TABLE_3,The register configures the gamma table on VP output." hexmask.long.byte 0xC 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0xC 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0xC 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0xC 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x10 "VP1_GAMMA_TABLE_4,The register configures the gamma table on VP output." hexmask.long.byte 0x10 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x10 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x10 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x10 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x14 "VP1_GAMMA_TABLE_5,The register configures the gamma table on VP output." hexmask.long.byte 0x14 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x14 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x14 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x14 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x18 "VP1_GAMMA_TABLE_6,The register configures the gamma table on VP output." hexmask.long.byte 0x18 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x18 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x18 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x18 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x1C "VP1_GAMMA_TABLE_7,The register configures the gamma table on VP output." hexmask.long.byte 0x1C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x1C 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x1C 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x1C 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x20 "VP1_GAMMA_TABLE_8,The register configures the gamma table on VP output." hexmask.long.byte 0x20 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x20 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x20 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x20 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x24 "VP1_GAMMA_TABLE_9,The register configures the gamma table on VP output." hexmask.long.byte 0x24 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x24 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x24 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x24 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x28 "VP1_GAMMA_TABLE_10,The register configures the gamma table on VP output." hexmask.long.byte 0x28 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x28 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x28 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x28 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x2C "VP1_GAMMA_TABLE_11,The register configures the gamma table on VP output." hexmask.long.byte 0x2C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x2C 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x2C 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x2C 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x30 "VP1_GAMMA_TABLE_12,The register configures the gamma table on VP output." hexmask.long.byte 0x30 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x30 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x30 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x30 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x34 "VP1_GAMMA_TABLE_13,The register configures the gamma table on VP output." hexmask.long.byte 0x34 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x34 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x34 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x34 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x38 "VP1_GAMMA_TABLE_14,The register configures the gamma table on VP output." hexmask.long.byte 0x38 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x38 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x38 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x38 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x3C "VP1_GAMMA_TABLE_15,The register configures the gamma table on VP output." hexmask.long.byte 0x3C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x3C 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x3C 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x3C 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" group.long 0x160++0x3 line.long 0x0 "VP1_DSS_OLDI_CFG,This register configures the OLDI[N:0] modules connected to the DSS" bitfld.long 0x0 13. "TPATCFG,Test pattern Config" "0,1" newline bitfld.long 0x0 12. "SOFTRST,SoftWare Reset. By default OLDI is kept under reset" "0,1" newline bitfld.long 0x0 11. "DUALMODESYNC,DualMode Sync" "0,1" newline bitfld.long 0x0 10. "LBDATA,LoopBack Data" "0,1" newline bitfld.long 0x0 9. "LBEN,LoopBack Enable" "0,1" newline bitfld.long 0x0 8. "MSB,DSS bit-depth [for 18b LVDS only]" "0,1" newline bitfld.long 0x0 7. "DEPOL,Polarity of the DE signal" "0,1" newline bitfld.long 0x0 6. "MASTERSLAVE,Initiator selection in Dual mode only [typically tied off in the SoC]" "0,1" newline bitfld.long 0x0 5. "MODE,Single mode or duplicate mode" "0,1" newline bitfld.long 0x0 4. "SRC,Source Channel" "0,1" newline bitfld.long 0x0 1.--3. "MAP,Configuration of OLDI mapping Also indicates dual mode" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 0. "ENABLE,OLDI Enable" "0,1" rgroup.long 0x164++0x7 line.long 0x0 "VP1_DSS_OLDI_STATUS,This register captures the PID from the OLDI[N:0] modules connected to the DSS. Reads 0x0 if no OLDI is connected" hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID Field" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL Revision" newline bitfld.long 0x0 8.--10. "REVMAJOR,Major Revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor Revision" line.long 0x4 "VP1_DSS_OLDI_LB,This register captures the Loopback data from OLDI" hexmask.long.word 0x4 0.--9. 1. "LBRDATA,Returned Data from Loopback" tree.end tree "DSS0_VP2 (DSS0_VP2)" base ad:0x3020B000 group.long 0x0++0x1F line.long 0x0 "VP2_CONFIG,The control register configures the Display Controller module for the VP output. Shadow register." hexmask.long.byte 0x0 27.--31. 1. "RESERVED3," newline bitfld.long 0x0 26. "COLORCONVPOS,Determines the position of the COLORCONV module" "0,1" newline bitfld.long 0x0 25. "FULLRANGE,Color Space Conversion full range setting" "0,1" newline bitfld.long 0x0 24. "COLORCONVENABLE,Enable the color space conversion. The coefficients and offsets used are all programmable and controlled by CPR_COEFF_* and CPR_OFFSET_* registers" "0,1" newline bitfld.long 0x0 23. "FIDFIRST,Selects the first field to output in case of interlace mode. In case of progressive mode the value is not used" "0,1" newline bitfld.long 0x0 22. "OUTPUTMODEENABLE,Selects between progressive and interlace mode for the VP output" "0,1" newline bitfld.long 0x0 21. "BT1120ENABLE,Selects BT-1120 format on the VP output. It is not possible to enable BT656 and BT1120 at the same time one the same LCD output" "0,1" newline bitfld.long 0x0 20. "BT656ENABLE,Selects BT-656 format on the VP output. It is not possible to enable BT656 and BT1120 at the same time one the same LCD output" "0,1" newline rbitfld.long 0x0 17.--19. "RESERVED2,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 16. "BUFFERHANDSHAKE,Deprecated. Always write 0" "0,1" newline bitfld.long 0x0 15. "CPR,Deprecated. Always write 0" "0,1" newline hexmask.long.byte 0x0 9.--14. 1. "RESERVED1,Write 0's for future compatibility Reads return 0" newline bitfld.long 0x0 8. "EXTERNALSYNCEN,Deprecated. Always write 0" "0,1" newline bitfld.long 0x0 7. "VSYNCGATED,VSYNC Gated Enabled [VP output]. Shadow bit-field" "0,1" newline bitfld.long 0x0 6. "HSYNCGATED,HSYNC Gated Enabled [VP output]. Shadow bit-field" "0,1" newline bitfld.long 0x0 5. "PIXELCLOCKGATED,Pixel Clock Gated Enabled [VP output]. Shadow bit-field" "0,1" newline bitfld.long 0x0 4. "PIXELDATAGATED,Pixel Data Gated Enabled [VP output]. Shadow bit-field" "0,1" newline bitfld.long 0x0 3. "HDMIMODE,Deprecated. Always write 0" "0,1" newline bitfld.long 0x0 2. "GAMMAENABLE,Enable the gamma Shadow bit-field" "0,1" newline bitfld.long 0x0 1. "DATAENABLEGATED,DE Gated Enable Shadow bit-field" "0,1" newline bitfld.long 0x0 0. "PIXELGATED,Pixel Gated Enable. Shadow bit-field" "0,1" line.long 0x4 "VP2_CONTROL,The control register configures the Display Controller module for the VP output" bitfld.long 0x4 30.--31. "SPATIALTEMPORALDITHERINGFRAMES,Spatial/Temporal dithering number of frames for the VP output Shadow bit-field" "0,1,2,3" newline rbitfld.long 0x4 27.--29. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 25.--26. "TDMUNUSEDBITS,State of unused bits [TDM mode only] for the VP output Shadow bit-field" "0,1,2,3" newline bitfld.long 0x4 23.--24. "TDMCYCLEFORMAT,Cycle format [TDM mode only] for the VP output Shadow bit-field" "0,1,2,3" newline bitfld.long 0x4 21.--22. "TDMPARALLELMODE,Output Interface width [TDM mode only] for the VP output Shadow bit-field" "0,1,2,3" newline bitfld.long 0x4 20. "TDMENABLE,Enable the multiple cycle format for the VP output Shadow bit-field" "0,1" newline rbitfld.long 0x4 17.--19. "RESERVED1," "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 14.--16. "HT,Hold Time for output. Shadow bit-field. Encoded value [from 1 to 8] to specify the number of external digital clock periods to hold the data [programmed value = value minus one]" "0,1,2,3,4,5,6,7" newline rbitfld.long 0x4 13. "RESERVED3," "0,1" newline rbitfld.long 0x4 12. "RESERVED6," "0,1" newline bitfld.long 0x4 11. "STALLMODE,Deprecated. Always write 0" "0,1" newline bitfld.long 0x4 8.--10. "DATALINES,Width of the data bus on VP output Shadow bit-field" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 7. "STDITHERENABLE,Spatial Temporal dithering enable for the VP output Shadow bit-field" "0,1" newline bitfld.long 0x4 6. "DPIENABLE,Enable the DPI output. wr:immediate" "0,1" newline bitfld.long 0x4 5. "GOBIT,GO Command for the VP output. It is used to synchronize the pipelines associated with the VP output wr:immediate" "0,1" newline bitfld.long 0x4 4. "M8B,Deprecated. Always write 0" "0,1" newline bitfld.long 0x4 3. "STN,Deprecated. Always write 0" "0,1" newline bitfld.long 0x4 2. "MONOCOLOR,Deprecated. Always write 0" "0,1" newline bitfld.long 0x4 1. "VPPROGLINENUMBERMODULO,Enable the modulo of the line number interrupt generation" "0,1" newline bitfld.long 0x4 0. "ENABLE,Enable the video port output. wr:immediate" "0,1" line.long 0x8 "VP2_CSC_COEF0,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x8 27.--31. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x8 16.--26. 1. "C01,C01 Coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0x8 11.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x8 0.--10. 1. "C00,C00 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0xC "VP2_CSC_COEF1,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0xC 27.--31. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0xC 16.--26. 1. "C10,C10 Coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0xC 11.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0xC 0.--10. 1. "C02,C02 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x10 "VP2_CSC_COEF2,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x10 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.word 0x10 16.--26. 1. "C12,C12 Coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0x10 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.word 0x10 0.--10. 1. "C11,C11 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x14 "VP2_DATA_CYCLE_0,The control register configures the output data format over up to 3 cycles. Shadow register" hexmask.long.byte 0x14 28.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.byte 0x14 24.--27. 1. "BITALIGNMENTPIXEL2,Bit alignment Alignment of the bits from pixel 2 on the output interface" newline rbitfld.long 0x14 21.--23. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x14 16.--20. 1. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" newline hexmask.long.byte 0x14 12.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.byte 0x14 8.--11. 1. "BITALIGNMENTPIXEL1,Bit alignment Alignment of the bits from pixel 1 on the output interface" newline rbitfld.long 0x14 5.--7. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x14 0.--4. 1. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" line.long 0x18 "VP2_DATA_CYCLE_1,The control register configures the output data format over up to 3 cycles. Shadow register" hexmask.long.byte 0x18 28.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.byte 0x18 24.--27. 1. "BITALIGNMENTPIXEL2,Bit alignment Alignment of the bits from pixel 2 on the output interface" newline rbitfld.long 0x18 21.--23. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x18 16.--20. 1. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" newline hexmask.long.byte 0x18 12.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.byte 0x18 8.--11. 1. "BITALIGNMENTPIXEL1,Bit alignment Alignment of the bits from pixel 1 on the output interface" newline rbitfld.long 0x18 5.--7. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x18 0.--4. 1. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" line.long 0x1C "VP2_DATA_CYCLE_2,The control register configures the output data format over up to 3 cycles. Shadow register" hexmask.long.byte 0x1C 28.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.byte 0x1C 24.--27. 1. "BITALIGNMENTPIXEL2,Bit alignment Alignment of the bits from pixel 2 on the output interface" newline rbitfld.long 0x1C 21.--23. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x1C 16.--20. 1. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" newline hexmask.long.byte 0x1C 12.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.byte 0x1C 8.--11. 1. "BITALIGNMENTPIXEL1,Bit alignment Alignment of the bits from pixel 1 on the output interface" newline rbitfld.long 0x1C 5.--7. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x1C 0.--4. 1. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" group.long 0x44++0x3 line.long 0x0 "VP2_LINE_NUMBER,The control register indicates the panel display line number for the interrupt and the DMA request. Shadow register" hexmask.long.tbyte 0x0 12.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--11. 1. "LINENUMBER,LCD panel line number programming LCD line number defines the line on which the programmable interrupt is generated and the DMA request occurs" group.long 0x4C++0x33 line.long 0x0 "VP2_POL_FREQ,The register configures the signal configuration. Shadow register" hexmask.long.word 0x0 19.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline bitfld.long 0x0 18. "ALIGN,Defines the alignment between HSYNC and VSYNC assertion" "0,1" newline bitfld.long 0x0 17. "ONOFF,HSYNC/VSYNC Pixel clock Control On/Off" "0,1" newline bitfld.long 0x0 16. "RF,Program HSYNC/VSYNC Rise or Fall To set HSYNC/VSYNC to pixel clock relationship CTRL_MMR_DPI0_CLK_CTRL[9] DPI0_CLK_CTRL_SYNC_CLK_INVDIS setting should be opposite the [16] RF setting." "0,1" newline bitfld.long 0x0 15. "IEO,Invert output enable" "0,1" newline bitfld.long 0x0 14. "IPC,Invert pixel clock To set data to pixel clock relationship CTRL_MMR_DPI0_CLK_CTRL[8] DPI0_CLK_CTRL_DATA_CLK_INVDIS setting should be opposite the [14] IPC setting." "0,1" newline bitfld.long 0x0 13. "IHS,Invert HSYNC" "0,1" newline bitfld.long 0x0 12. "IVS,Invert VSYNC" "0,1" newline hexmask.long.byte 0x0 8.--11. 1. "ACBI,AC Bias Pin transitions per interrupt Value [from 0 to 15] used to specify the number of AC Bias pin transitions" newline hexmask.long.byte 0x0 0.--7. 1. "ACB,AC Bias Pin Frequency Value [from 0 to 255] used to specify the number of line clocks to count before transitioning the AC Bias pin. This pin is used to periodically invert the polarity of the power supply to prevent DC charge build-up within the.." line.long 0x4 "VP2_SIZE_SCREEN,The register configures the panel size horizontal and vertical. Shadow register. A delta value is used to indicate if the odd field has same vertical size as the even field or +/- one line." hexmask.long.byte 0x4 28.--31. 1. "RESERVED1," newline hexmask.long.word 0x4 16.--27. 1. "LPP,Lines per panel Encoded value [from 1 to 4096] to specify the number of lines per panel [program to value minus one]" newline bitfld.long 0x4 14.--15. "DELTA_LPP,Indicates the delta size value of the odd field compared to the even field" "0,1,2,3" newline rbitfld.long 0x4 12.--13. "RESERVED," "0,1,2,3" newline hexmask.long.word 0x4 0.--11. 1. "PPL,Pixels per line Encoded value [from 1 to 4096] to specify the number of pixels contains within each line on the display [program to value minus one]. In STALL mode any value is valid In non-STALL mode only values multiple of 8 pixels are valid" line.long 0x8 "VP2_TIMING_H,The register configures the timing logic for the HSYNC signal. Shadow register" hexmask.long.word 0x8 20.--31. 1. "HBP,Horizontal Back Porch Encoded value [from 1 to 4096] to specify the number of pixel clock periods to add to the beginning of a line transmission before the first set of pixels is output to the display [program to value minus one] When in BT mode and.." newline hexmask.long.word 0x8 8.--19. 1. "HFP,Horizontal front porch Encoded value [from 1 to 4096] to specify the number of pixel clock periods to add to the end of a line transmission before line clock is asserted display [program to value minus one] When in BT mode and interlaced this field.." newline hexmask.long.byte 0x8 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 display [program to value minus one] When in BT mode this field corresponds to the LSB.." line.long 0xC "VP2_TIMING_V,The register configures the timing logic for the VSYNC signal. Shadow register" hexmask.long.word 0xC 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 When in BT mode and interlaced this field corresponds to the vertical field blanking No 2 for Odd Field When in BT and.." newline hexmask.long.word 0xC 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 When in BT mode and interlaced this field corresponds to the vertical field blanking No 1 for Odd Field When in BT and in.." newline hexmask.long.byte 0xC 0.--7. 1. "VSW,Vertical synchronization pulse width Encoded value [from 1 to 256] to specify the number of line clock periods to pulse the frame clock [VSYNC] pin at the end of each frame after the end of frame wait [VFP] period elapses Frame clock uses as VSYNC.." line.long 0x10 "VP2_CSC_COEF3,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x10 27.--31. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x10 16.--26. 1. "C21,C21 coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0x10 11.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x10 0.--10. 1. "C20,C20 coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x14 "VP2_CSC_COEF4,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.tbyte 0x14 11.--31. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x14 0.--10. 1. "C22,C22 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x18 "VP2_CSC_COEF5,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x18 19.--31. 1. "PREOFFSET2,Row-2 pre-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x18 16.--18. "RESERVED1," "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x18 3.--15. 1. "PREOFFSET1,Row1 pre-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x18 0.--2. "RESERVED," "0,1,2,3,4,5,6,7" line.long 0x1C "VP2_CSC_COEF6,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x1C 19.--31. 1. "POSTOFFSET1,Row-1 post-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x1C 16.--18. "RESERVED1," "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x1C 3.--15. 1. "PREOFFSET3,Row-3 pre-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x1C 0.--2. "RESERVED," "0,1,2,3,4,5,6,7" line.long 0x20 "VP2_CSC_COEF7,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x20 19.--31. 1. "POSTOFFSET3,Row-3 post-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x20 16.--18. "RESERVED1," "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x20 3.--15. 1. "POSTOFFSET2,Row-2 post-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x20 0.--2. "RESERVED," "0,1,2,3,4,5,6,7" line.long 0x24 "VP2_SAFETY_ATTRIBUTES_0,The register configures the safety sub-region n. Shadow register" hexmask.long.tbyte 0x24 13.--31. 1. "RESERVED," newline bitfld.long 0x24 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" newline hexmask.long.byte 0x24 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur Note: The freeze frame counter is cleared on reset -OR- MISR not.." newline bitfld.long 0x24 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x24 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" newline bitfld.long 0x24 0. "ENABLE,Safety check Enable for the region Note: Transition from 0 to 1 clears the signature register" "0,1" line.long 0x28 "VP2_SAFETY_ATTRIBUTES_1,The register configures the safety sub-region n. Shadow register" hexmask.long.tbyte 0x28 13.--31. 1. "RESERVED," newline bitfld.long 0x28 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" newline hexmask.long.byte 0x28 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur Note: The freeze frame counter is cleared on reset -OR- MISR not.." newline bitfld.long 0x28 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x28 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" newline bitfld.long 0x28 0. "ENABLE,Safety check Enable for the region Note: Transition from 0 to 1 clears the signature register" "0,1" line.long 0x2C "VP2_SAFETY_ATTRIBUTES_2,The register configures the safety sub-region n. Shadow register" hexmask.long.tbyte 0x2C 13.--31. 1. "RESERVED," newline bitfld.long 0x2C 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" newline hexmask.long.byte 0x2C 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur Note: The freeze frame counter is cleared on reset -OR- MISR not.." newline bitfld.long 0x2C 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x2C 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" newline bitfld.long 0x2C 0. "ENABLE,Safety check Enable for the region Note: Transition from 0 to 1 clears the signature register" "0,1" line.long 0x30 "VP2_SAFETY_ATTRIBUTES_3,The register configures the safety sub-region n. Shadow register" hexmask.long.tbyte 0x30 13.--31. 1. "RESERVED," newline bitfld.long 0x30 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" newline hexmask.long.byte 0x30 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur Note: The freeze frame counter is cleared on reset -OR- MISR not.." newline bitfld.long 0x30 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x30 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" newline bitfld.long 0x30 0. "ENABLE,Safety check Enable for the region Note: Transition from 0 to 1 clears the signature register" "0,1" rgroup.long 0x90++0xF line.long 0x0 "VP2_SAFETY_CAPT_SIGNATURE_0,The register captures the signature from the MISR of the safety sub-region n. Shadow register" hexmask.long 0x0 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n Shadow register" line.long 0x4 "VP2_SAFETY_CAPT_SIGNATURE_1,The register captures the signature from the MISR of the safety sub-region n. Shadow register" hexmask.long 0x4 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n Shadow register" line.long 0x8 "VP2_SAFETY_CAPT_SIGNATURE_2,The register captures the signature from the MISR of the safety sub-region n. Shadow register" hexmask.long 0x8 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n Shadow register" line.long 0xC "VP2_SAFETY_CAPT_SIGNATURE_3,The register captures the signature from the MISR of the safety sub-region n. Shadow register" hexmask.long 0xC 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n Shadow register" group.long 0xB0++0xF line.long 0x0 "VP2_SAFETY_POSITION_0,The register configures the position of the safety sub-region n. Shadow register" hexmask.long.byte 0x0 28.--31. 1. "RESERVED," newline hexmask.long.word 0x0 16.--27. 1. "POSY,Y position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen The first line on the top of the screen has the Y-position 0" newline hexmask.long.byte 0x0 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x0 0.--11. 1. "POSX,X position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen The first pixel on the left of the screen has the X-position 0" line.long 0x4 "VP2_SAFETY_POSITION_1,The register configures the position of the safety sub-region n. Shadow register" hexmask.long.byte 0x4 28.--31. 1. "RESERVED," newline hexmask.long.word 0x4 16.--27. 1. "POSY,Y position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen The first line on the top of the screen has the Y-position 0" newline hexmask.long.byte 0x4 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x4 0.--11. 1. "POSX,X position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen The first pixel on the left of the screen has the X-position 0" line.long 0x8 "VP2_SAFETY_POSITION_2,The register configures the position of the safety sub-region n. Shadow register" hexmask.long.byte 0x8 28.--31. 1. "RESERVED," newline hexmask.long.word 0x8 16.--27. 1. "POSY,Y position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen The first line on the top of the screen has the Y-position 0" newline hexmask.long.byte 0x8 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x8 0.--11. 1. "POSX,X position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen The first pixel on the left of the screen has the X-position 0" line.long 0xC "VP2_SAFETY_POSITION_3,The register configures the position of the safety sub-region n. Shadow register" hexmask.long.byte 0xC 28.--31. 1. "RESERVED," newline hexmask.long.word 0xC 16.--27. 1. "POSY,Y position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen The first line on the top of the screen has the Y-position 0" newline hexmask.long.byte 0xC 12.--15. 1. "RESERVED1," newline hexmask.long.word 0xC 0.--11. 1. "POSX,X position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen The first pixel on the left of the screen has the X-position 0" group.long 0xD0++0xF line.long 0x0 "VP2_SAFETY_REF_SIGNATURE_0,The register configures the reference signature of the safety sub-region n. Shadow register" hexmask.long 0x0 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n. Shadow register" line.long 0x4 "VP2_SAFETY_REF_SIGNATURE_1,The register configures the reference signature of the safety sub-region n. Shadow register" hexmask.long 0x4 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n. Shadow register" line.long 0x8 "VP2_SAFETY_REF_SIGNATURE_2,The register configures the reference signature of the safety sub-region n. Shadow register" hexmask.long 0x8 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n. Shadow register" line.long 0xC "VP2_SAFETY_REF_SIGNATURE_3,The register configures the reference signature of the safety sub-region n. Shadow register" hexmask.long 0xC 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n. Shadow register" group.long 0xF0++0xF line.long 0x0 "VP2_SAFETY_SIZE_0,The register configures the size of the safety sub-region n Shadow register." hexmask.long.byte 0x0 28.--31. 1. "RESERVED," newline hexmask.long.word 0x0 16.--27. 1. "SIZEY,Height of the safety sub-region n Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen One line height region has value of 0" newline hexmask.long.byte 0x0 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x0 0.--11. 1. "SIZEX,Width of the safety sub-region n Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen One pixel wide region has value of 0" line.long 0x4 "VP2_SAFETY_SIZE_1,The register configures the size of the safety sub-region n Shadow register." hexmask.long.byte 0x4 28.--31. 1. "RESERVED," newline hexmask.long.word 0x4 16.--27. 1. "SIZEY,Height of the safety sub-region n Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen One line height region has value of 0" newline hexmask.long.byte 0x4 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x4 0.--11. 1. "SIZEX,Width of the safety sub-region n Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen One pixel wide region has value of 0" line.long 0x8 "VP2_SAFETY_SIZE_2,The register configures the size of the safety sub-region n Shadow register." hexmask.long.byte 0x8 28.--31. 1. "RESERVED," newline hexmask.long.word 0x8 16.--27. 1. "SIZEY,Height of the safety sub-region n Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen One line height region has value of 0" newline hexmask.long.byte 0x8 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x8 0.--11. 1. "SIZEX,Width of the safety sub-region n Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen One pixel wide region has value of 0" line.long 0xC "VP2_SAFETY_SIZE_3,The register configures the size of the safety sub-region n Shadow register." hexmask.long.byte 0xC 28.--31. 1. "RESERVED," newline hexmask.long.word 0xC 16.--27. 1. "SIZEY,Height of the safety sub-region n Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen One line height region has value of 0" newline hexmask.long.byte 0xC 12.--15. 1. "RESERVED1," newline hexmask.long.word 0xC 0.--11. 1. "SIZEX,Width of the safety sub-region n Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen One pixel wide region has value of 0" group.long 0x110++0x3 line.long 0x0 "VP2_SAFETY_LFSR_SEED,The register configures the seed initial signature value of MISRs that are to be initialized with a user programmed initial value. Otherwise. the MISR is initialized with 0xFFFF_FFFF. Shadow register." hexmask.long 0x0 0.--31. 1. "SEED,The register configures the seed [initial signature value] of MISRs that are to be initialized with a user programmed initial value Otherwise the MISR is initialized with 0xFFFF_FFFF Shadow register" wgroup.long 0x120++0x3F line.long 0x0 "VP2_GAMMA_TABLE_0,The register configures the gamma table on VP output." hexmask.long.byte 0x0 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x0 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x0 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x0 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x4 "VP2_GAMMA_TABLE_1,The register configures the gamma table on VP output." hexmask.long.byte 0x4 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x4 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x4 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x4 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x8 "VP2_GAMMA_TABLE_2,The register configures the gamma table on VP output." hexmask.long.byte 0x8 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x8 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x8 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x8 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0xC "VP2_GAMMA_TABLE_3,The register configures the gamma table on VP output." hexmask.long.byte 0xC 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0xC 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0xC 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0xC 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x10 "VP2_GAMMA_TABLE_4,The register configures the gamma table on VP output." hexmask.long.byte 0x10 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x10 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x10 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x10 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x14 "VP2_GAMMA_TABLE_5,The register configures the gamma table on VP output." hexmask.long.byte 0x14 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x14 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x14 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x14 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x18 "VP2_GAMMA_TABLE_6,The register configures the gamma table on VP output." hexmask.long.byte 0x18 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x18 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x18 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x18 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x1C "VP2_GAMMA_TABLE_7,The register configures the gamma table on VP output." hexmask.long.byte 0x1C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x1C 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x1C 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x1C 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x20 "VP2_GAMMA_TABLE_8,The register configures the gamma table on VP output." hexmask.long.byte 0x20 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x20 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x20 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x20 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x24 "VP2_GAMMA_TABLE_9,The register configures the gamma table on VP output." hexmask.long.byte 0x24 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x24 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x24 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x24 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x28 "VP2_GAMMA_TABLE_10,The register configures the gamma table on VP output." hexmask.long.byte 0x28 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x28 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x28 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x28 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x2C "VP2_GAMMA_TABLE_11,The register configures the gamma table on VP output." hexmask.long.byte 0x2C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x2C 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x2C 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x2C 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x30 "VP2_GAMMA_TABLE_12,The register configures the gamma table on VP output." hexmask.long.byte 0x30 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x30 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x30 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x30 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x34 "VP2_GAMMA_TABLE_13,The register configures the gamma table on VP output." hexmask.long.byte 0x34 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x34 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x34 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x34 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x38 "VP2_GAMMA_TABLE_14,The register configures the gamma table on VP output." hexmask.long.byte 0x38 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x38 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x38 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x38 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x3C "VP2_GAMMA_TABLE_15,The register configures the gamma table on VP output." hexmask.long.byte 0x3C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x3C 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x3C 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x3C 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" group.long 0x160++0x3 line.long 0x0 "VP2_DSS_OLDI_CFG,This register configures the OLDI[N:0] modules connected to the DSS" bitfld.long 0x0 13. "TPATCFG,Test pattern Config" "0,1" newline bitfld.long 0x0 12. "SOFTRST,SoftWare Reset. By default OLDI is kept under reset" "0,1" newline bitfld.long 0x0 11. "DUALMODESYNC,DualMode Sync" "0,1" newline bitfld.long 0x0 10. "LBDATA,LoopBack Data" "0,1" newline bitfld.long 0x0 9. "LBEN,LoopBack Enable" "0,1" newline bitfld.long 0x0 8. "MSB,DSS bit-depth [for 18b LVDS only]" "0,1" newline bitfld.long 0x0 7. "DEPOL,Polarity of the DE signal" "0,1" newline bitfld.long 0x0 6. "MASTERSLAVE,Initiator selection in Dual mode only [typically tied off in the SoC]" "0,1" newline bitfld.long 0x0 5. "MODE,Single mode or duplicate mode" "0,1" newline bitfld.long 0x0 4. "SRC,Source Channel" "0,1" newline bitfld.long 0x0 1.--3. "MAP,Configuration of OLDI mapping Also indicates dual mode" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 0. "ENABLE,OLDI Enable" "0,1" rgroup.long 0x164++0x7 line.long 0x0 "VP2_DSS_OLDI_STATUS,This register captures the PID from the OLDI[N:0] modules connected to the DSS. Reads 0x0 if no OLDI is connected" hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID Field" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL Revision" newline bitfld.long 0x0 8.--10. "REVMAJOR,Major Revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor Revision" line.long 0x4 "VP2_DSS_OLDI_LB,This register captures the Loopback data from OLDI" hexmask.long.word 0x4 0.--9. 1. "LBRDATA,Returned Data from Loopback" tree.end tree.end tree "DSS1" base ad:0x0 tree "DSS1_COMMON (DSS1_COMMON)" base ad:0x30220000 rgroup.long 0x4++0x3 line.long 0x0 "COMMON_DSS_REVISION,This register contains the K3_DSS revision number" hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID Field" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL Revision" bitfld.long 0x0 8.--10. "REVMAJOR,Major Revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor Revision" group.long 0x8++0x3 line.long 0x0 "COMMON_DSS_SYSCONFIG,This register controls various parameters related to software reset and IP idle" hexmask.long.tbyte 0x0 14.--31. 1. "RESERVED4,Write 0's for future compatibility. Read returns 0" hexmask.long.byte 0x0 8.--13. 1. "RESERVED3,Write 0's for future compatibility. Read returns 0" rbitfld.long 0x0 6.--7. "RESERVED2,Write 0's for future compatibility. Read returns 0" "0,1,2,3" newline bitfld.long 0x0 5. "WARMRESET,Warm reset. Setting this bit to 1 triggers a module warm reset. The bit is automatically reset by the hardware. During read it always returns 0. The warm reset keeps the configuration registers unchanged" "0,1" bitfld.long 0x0 3.--4. "IDLEMODE,Deprecated" "0,1,2,3" rbitfld.long 0x0 2. "RESERVED1,Write 0's for future compatibility. Read returns 0" "0,1" newline bitfld.long 0x0 1. "SOFTRESET,Software reset. Setting this bit to 1 triggers a module reset. The bit is automatically reset by the hardware. During read it always returns 0" "0,1" bitfld.long 0x0 0. "AUTOCLKGATING,Internal clock gating strategy" "0,1" rgroup.long 0x20++0x3 line.long 0x0 "COMMON_DSS_SYSSTATUS,This register provides status information about the module. excluding the interrupt status information" bitfld.long 0x0 9. "DISPC_IDLE_STATUS,Idle status of DISPC" "0,1" bitfld.long 0x0 5. "OLDI_RESETDONE,Reset status of OLDI" "0,1" bitfld.long 0x0 1.--2. "DISPC_VP_RESETDONE,Reset status of VP pixel clock domain" "0,1,2,3" newline bitfld.long 0x0 0. "DISPC_FUNC_RESETDONE,Reset status of DISPC Functional clock domain" "0,1" wgroup.long 0x24++0x3 line.long 0x0 "COMMON_DISPC_IRQ_EOI,End-Of-Interrupt register. to be used if pulse interrupts are used" bitfld.long 0x0 0. "EOI,Write 1 to acknowledge a pulse IRQ" "0,1" group.long 0x28++0xB line.long 0x0 "COMMON_DISPC_IRQSTATUS_RAW,RAW Interrupt status. Raw status is set even if interrupt is not enabled. Write 1 to set the RAW status" bitfld.long 0x0 4.--5. "VID_IRQ,VID IRQ STATUS. Register indicates the VIDEO pipeline[s] interrupt events" "0,1,2,3" bitfld.long 0x0 0.--1. "VP_IRQ,VP IRQ STATUS. Register indicates the Video Port[s] interrupt events" "0,1,2,3" line.long 0x4 "COMMON_DISPC_IRQSTATUS,Interrupt status. Enabled status. isn't set unless event is enabled. Write 1 to clear the status after interrupt has been serviced. RAW status also gets cleared. i.e. even if not enabled" bitfld.long 0x4 4.--5. "VID_IRQ,VID IRQ STATUS. Register indicates the VIDEO pipeline[s] interrupt events" "0,1,2,3" bitfld.long 0x4 0.--1. "VP_IRQ,VP IRQ STATUS. Register indicates the Video Port[s] interrupt events" "0,1,2,3" line.long 0x8 "COMMON_DISPC_IRQENABLE_SET,SET Interrupt enable. Write 1 to set interrupt enable. Readout equal to corresponding _CLR register" bitfld.long 0x8 4.--5. "SET_VID_IRQ,VID IRQ" "0,1,2,3" bitfld.long 0x8 0.--1. "SET_VP_IRQ,VP IRQ" "0,1,2,3" group.long 0x40++0xB line.long 0x0 "COMMON_DISPC_IRQENABLE_CLR,CLR Interrupt enable. Write 1 to clear interrupt enable" bitfld.long 0x0 4.--5. "CLR_VID_IRQ,VID IRQ" "0,1,2,3" bitfld.long 0x0 0.--1. "CLR_VP_IRQ,VP IRQ" "0,1,2,3" line.long 0x4 "COMMON_VID_IRQENABLE_0,This register allows to mask/unmask the VID_0 internal sources of interrupt. on an event-by-event basis" bitfld.long 0x4 2. "SAFETYREGION_EN,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" "0,1" bitfld.long 0x4 1. "VIDENDWINDOW_EN,Video End Window. This is raised by the DMA engine when the full video data has been sent to the pipeline" "0,1" bitfld.long 0x4 0. "VIDBUFFERUNDERFLOW_EN,Video DMA Buffer Underflow. This is raised when the DMA buffer does not have the data requested by the Video pipeline" "0,1" line.long 0x8 "COMMON_VID_IRQENABLE_1,This register allows to mask/unmask the VIDL_0 internal sources of interrupt. on an event-by-event basis" bitfld.long 0x8 2. "SAFETYREGION_EN,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" "0,1" bitfld.long 0x8 1. "VIDENDWINDOW_EN,Video End Window. This is raised by the DMA engine when the full video data has been sent to the pipeline" "0,1" bitfld.long 0x8 0. "VIDBUFFERUNDERFLOW_EN,Video DMA Buffer Underflow. This is raised when the DMA buffer does not have the data requested by the Video pipeline" "0,1" group.long 0x58++0x7 line.long 0x0 "COMMON_VID_IRQSTATUS_0,This register groups all the status of the VID_0 internal events that generate an interrupt. Write 1 to a clear a bit field" bitfld.long 0x0 2. "SAFETYREGION_IRQ,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" "0,1" bitfld.long 0x0 1. "VIDENDWINDOW_IRQ,Video End Window. This is raised by the DMA engine when the full video data has been sent to the pipeline" "0,1" bitfld.long 0x0 0. "VIDBUFFERUNDERFLOW_IRQ,Video DMA Buffer Underflow. This is raised when the DMA buffer does not have the data requested by the Video pipeline" "0,1" line.long 0x4 "COMMON_VID_IRQSTATUS_1,This register groups all the status of the VIDL_0 internal events that generate an interrupt. Write 1 to a clear a bit field" bitfld.long 0x4 2. "SAFETYREGION_IRQ,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" "0,1" bitfld.long 0x4 1. "VIDENDWINDOW_IRQ,Video End Window. This is raised by the DMA engine when the full video data has been sent to the pipeline" "0,1" bitfld.long 0x4 0. "VIDBUFFERUNDERFLOW_IRQ,Video DMA Buffer Underflow. This is raised when the DMA buffer does not have the data requested by the Video pipeline" "0,1" group.long 0x70++0x7 line.long 0x0 "COMMON_VP_IRQENABLE_0,This register allows to mask/unmask the VP_0 internal sources of interrupt. on an event-by-event basis" bitfld.long 0x0 12. "DUMMY_EN,Dummy IRQ for future use" "0,1" bitfld.long 0x0 11. "VPSYNC_EN,Go bit clear event" "0,1" bitfld.long 0x0 10. "SECURITYVIOLATION_EN,Security Violation interrupt for OVR/VP. Non-secure OVR/VP connected to secure VID" "0,1" newline hexmask.long.byte 0x0 6.--9. 1. "SAFETYREGION_EN,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" bitfld.long 0x0 5. "ACBIASCOUNTSTATUS_EN,AC BIAS transition counter has decremented to zero" "0,1" bitfld.long 0x0 4. "VPSYNCLOST_EN,Synchronization Lost for Video Port" "0,1" newline bitfld.long 0x0 3. "VPPROGRAMMEDLINENUMBER_EN,Programmed Line Number. It indicates that the scan of the display has reached the programmed user line number" "0,1" bitfld.long 0x0 2. "VPVSYNC_ODD_EN,VSYNC for odd field from interlace mode only" "0,1" bitfld.long 0x0 1. "VPVSYNC_EN,Vertical Synchronization for VP" "0,1" newline bitfld.long 0x0 0. "VPFRAMEDONE_EN,Frame Done for Video Port. VP output has been disabled by user. All the data have been sent" "0,1" line.long 0x4 "COMMON_VP_IRQENABLE_1,This register allows to mask/unmask the VP_1 internal sources of interrupt. on an event-by-event basis" bitfld.long 0x4 12. "DUMMY_EN,Dummy IRQ for future use" "0,1" bitfld.long 0x4 11. "VPSYNC_EN,Go bit clear event" "0,1" bitfld.long 0x4 10. "SECURITYVIOLATION_EN,Security Violation interrupt for OVR/VP. Non-secure OVR/VP connected to secure VID" "0,1" newline hexmask.long.byte 0x4 6.--9. 1. "SAFETYREGION_EN,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" bitfld.long 0x4 5. "ACBIASCOUNTSTATUS_EN,AC BIAS transition counter has decremented to zero" "0,1" bitfld.long 0x4 4. "VPSYNCLOST_EN,Synchronization Lost for Video Port" "0,1" newline bitfld.long 0x4 3. "VPPROGRAMMEDLINENUMBER_EN,Programmed Line Number. It indicates that the scan of the display has reached the programmed user line number" "0,1" bitfld.long 0x4 2. "VPVSYNC_ODD_EN,VSYNC for odd field from interlace mode only" "0,1" bitfld.long 0x4 1. "VPVSYNC_EN,Vertical Synchronization for VP" "0,1" newline bitfld.long 0x4 0. "VPFRAMEDONE_EN,Frame Done for Video Port. VP output has been disabled by user. All the data have been sent" "0,1" group.long 0x7C++0x7 line.long 0x0 "COMMON_VP_IRQSTATUS_0,This register groups all the status of the VP_0 internal events that generate an interrupt. Write 1 to a given bit resets this bit" bitfld.long 0x0 12. "DUMMY_IRQ,Dummy IRQ for future use" "0,1" bitfld.long 0x0 11. "VPSYNC_IRQ,Go bit clear event" "0,1" bitfld.long 0x0 10. "SECURITYVIOLATION_IRQ,Security Violation IRQ. Non-secure OVR/VP connected to secure VID" "0,1" newline hexmask.long.byte 0x0 6.--9. 1. "SAFETYREGION_IRQ,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" bitfld.long 0x0 5. "ACBIASCOUNTSTATUS_IRQ,AC BIAS transition counter has decremented to zero" "0,1" bitfld.long 0x0 4. "VPSYNCLOST_IRQ,Synchronization Lost on VP output. The required data are not output at the correct time due to too short blanking periods or stall of at least one pipelines associated with VP output" "0,1" newline bitfld.long 0x0 3. "VPPROGRAMMEDLINENUMBER_IRQ,Programmed Line Number. It indicates that the scan of the display has reached the programmed user line number" "0,1" bitfld.long 0x0 2. "VPVSYNC_ODD_IRQ,VSYNC for odd field. For interlace mode only" "0,1" bitfld.long 0x0 1. "VPVSYNC_IRQ,Vertical Synchronization for VP output. It is used as VSYNC_EVEN in case of interlace mode" "0,1" newline bitfld.long 0x0 0. "VPFRAMEDONE_IRQ,Frame Done for VP. VP output has been disabled by user All the data have been sent" "0,1" line.long 0x4 "COMMON_VP_IRQSTATUS_1,This register groups all the status of the VP_1 internal events that generate an interrupt. Write 1 to a given bit resets this bit" bitfld.long 0x4 12. "DUMMY_IRQ,Dummy IRQ for future use" "0,1" bitfld.long 0x4 11. "VPSYNC_IRQ,Go bit clear event" "0,1" bitfld.long 0x4 10. "SECURITYVIOLATION_IRQ,Security Violation IRQ. Non-secure OVR/VP connected to secure VID" "0,1" newline hexmask.long.byte 0x4 6.--9. 1. "SAFETYREGION_IRQ,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" bitfld.long 0x4 5. "ACBIASCOUNTSTATUS_IRQ,AC BIAS transition counter has decremented to zero" "0,1" bitfld.long 0x4 4. "VPSYNCLOST_IRQ,Synchronization Lost on VP output. The required data are not output at the correct time due to too short blanking periods or stall of at least one pipelines associated with VP output" "0,1" newline bitfld.long 0x4 3. "VPPROGRAMMEDLINENUMBER_IRQ,Programmed Line Number. It indicates that the scan of the display has reached the programmed user line number" "0,1" bitfld.long 0x4 2. "VPVSYNC_ODD_IRQ,VSYNC for odd field. For interlace mode only" "0,1" bitfld.long 0x4 1. "VPVSYNC_IRQ,Vertical Synchronization for VP output. It is used as VSYNC_EVEN in case of interlace mode" "0,1" newline bitfld.long 0x4 0. "VPFRAMEDONE_IRQ,Frame Done for VP. VP output has been disabled by user All the data have been sent" "0,1" group.long 0x90++0x13 line.long 0x0 "COMMON_DISPC_GLOBAL_MFLAG_ATTRIBUTE,MFLAG control register" bitfld.long 0x0 6. "MFLAG_START,MFLAG_START for DMA initiator port" "0,1" bitfld.long 0x0 0.--1. "MFLAG_CTRL,MFLAG_CTRL for DMA initiator port" "0,1,2,3" line.long 0x4 "COMMON_DISPC_GLOBAL_OUTPUT_ENABLE,DISPC global output enable register. The ENABLE or GO bit for a particular output port is set when either the corresponding bit in this register is set or the corresponding bit within the sub-module is set. This register.." bitfld.long 0x4 16.--18. "VP_GO,Global GO Command for the VP[2:0] output. It is used to synchronize the pipelines associated with the VP output. wr: immediate" "0,1,2,3,4,5,6,7" bitfld.long 0x4 0.--2. "VP_ENABLE,Global VP[2:0] Enable" "0,1,2,3,4,5,6,7" line.long 0x8 "COMMON_DISPC_GLOBAL_BUFFER,The register configures the DMA buffers allocations to the pipelines for DMA" bitfld.long 0x8 31. "BUFFERFILLING,Controls if the DMA buffers are re-filled only when the LOW threshold is reached or if all DMA buffers are re-filled when at least one of them reaches the LOW threshold" "0,1" bitfld.long 0x8 3.--5. "VIDL1_BUFFER,VIDL1 DMA buffer allocation to one of the pipelines" "0,1,2,3,4,5,6,7" bitfld.long 0x8 0.--2. "VID_BUFFER,VID DMA buffer allocation to one of the pipelines" "0,1,2,3,4,5,6,7" line.long 0xC "COMMON_DSS_CBA_CFG,This register contains CBA specific config bits in DSS" bitfld.long 0xC 6.--8. "RESERVED1,Reserved : TI internal" "0,1,2,3,4,5,6,7" bitfld.long 0xC 3.--5. "PRI_HI,The value sent out on the PRI_HI bus from DSS to CBA Indicates the priority level for high-priority [MFLAG] transactions. Value of 0x0 indicates highest priority Value of 0x7 indicates lowest priority" "0,1,2,3,4,5,6,7" bitfld.long 0xC 0.--2. "PRI_LO,The value sent out on the PRI_LO bus from DSS to CBA Indicates the priority level for normal [non-MFLAG] transactions. Value of 0x0 indicates highest priority Value of 0x7 indicates lowest priority" "0,1,2,3,4,5,6,7" line.long 0x10 "COMMON_DISPC_DBG_CONTROL,DISPC debug status control register" hexmask.long.byte 0x10 1.--8. 1. "DBGMUXSEL,Mux select for the debug status" bitfld.long 0x10 0. "DBGEN,Enable debug ports" "0,1" rgroup.long 0xA4++0x3 line.long 0x0 "COMMON_DISPC_DBG_STATUS,DISPC debug status register" hexmask.long 0x0 0.--31. 1. "DBGOUT,Debug status" group.long 0xA8++0x7 line.long 0x0 "COMMON_DISPC_CLKGATING_DISABLE,Register to control clock gating at DISPC sub-module level" bitfld.long 0x0 18.--19. "VP,Clock gating control for VP[2:0]" "0,1,2,3" bitfld.long 0x0 14.--15. "OVR,Clock gating control for OVR[2:0]" "0,1,2,3" bitfld.long 0x0 3.--4. "VID,Clock gating control for VID" "0,1,2,3" newline bitfld.long 0x0 0. "DMA,Clock gating control for DMA" "0,1" line.long 0x4 "COMMON_DISPC_SECURE_DISABLE,Disable security settings throughout DSS IP. COMMON_1.DISPC_SECURE bits are honoured only if COMMON.DISPC_SECURE_DISABLE =0" bitfld.long 0x4 0. "SECURE_DISABLE,Secure disable bit" "0,1" tree.end tree "DSS1_COMMON1 (DSS1_COMMON1)" base ad:0x30221000 group.long 0x24++0xF line.long 0x0 "COMMON1_DISPC_IRQ_EOI,End Of Interrupt number" hexmask.long 0x0 1.--31. 1. "RESERVED," bitfld.long 0x0 0. "EOI,Software End Of Interrupt [EOI] control if pulse interrupts are used. Write 1 to acknowledge interrupt" "0,1" line.long 0x4 "COMMON1_DISPC_IRQSTATUS_RAW,RAW Interrupt status. Raw status is set even if interrupt is not enabled. Write 1 to set the RAW status" bitfld.long 0x4 4.--5. "VID_IRQ,VID IRQ STATUS. Register indicates the VIDEO pipeline[s] interrupt events" "0,1,2,3" bitfld.long 0x4 0.--1. "VP_IRQ,VP IRQ STATUS. Register indicates the Video Port[s] interrupt events" "0,1,2,3" line.long 0x8 "COMMON1_DISPC_IRQSTATUS,Interrupt status. Enabled status. isn't set unless event is enabled. Write 1 to clear the status after interrupt has been serviced. RAW status also gets cleared. i.e. even if not enabled" bitfld.long 0x8 4.--5. "VID_IRQ,VID IRQ STATUS. Register indicates the VIDEO pipeline[s] interrupt events" "0,1,2,3" bitfld.long 0x8 0.--1. "VP_IRQ,VP IRQ STATUS. Register indicates the Video Port[s] interrupt events" "0,1,2,3" line.long 0xC "COMMON1_DISPC_IRQENABLE_SET,SET Interrupt enable. Write 1 to set interrupt enable. Readout equal to corresponding _CLR register" bitfld.long 0xC 4.--5. "SET_VID_IRQ,VID IRQ" "0,1,2,3" bitfld.long 0xC 0.--1. "SET_VP_IRQ,VP IRQ" "0,1,2,3" group.long 0x40++0xB line.long 0x0 "COMMON1_DISPC_IRQENABLE_CLR,CLR Interrupt enable. Write 1 to clear interrupt enable" bitfld.long 0x0 4.--5. "CLR_VID_IRQ,VID IRQ" "0,1,2,3" bitfld.long 0x0 0.--1. "CLR_VP_IRQ,VP IRQ" "0,1,2,3" line.long 0x4 "COMMON1_VID_IRQENABLE_0,This register allows to mask/unmask the VID_0 internal sources of interrupt. on an event-by-event basis" bitfld.long 0x4 2. "SAFETYREGION_EN,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" "0,1" bitfld.long 0x4 1. "VIDENDWINDOW_EN,Video End Window. This is raised by the DMA engine when the full video data has been sent to the pipeline" "0,1" bitfld.long 0x4 0. "VIDBUFFERUNDERFLOW_EN,Video DMA Buffer Underflow. This is raised when the DMA buffer does not have the data requested by the Video pipeline" "0,1" line.long 0x8 "COMMON1_VID_IRQENABLE_1,This register allows to mask/unmask the VIDL_0 internal sources of interrupt. on an event-by-event basis" bitfld.long 0x8 2. "SAFETYREGION_EN,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" "0,1" bitfld.long 0x8 1. "VIDENDWINDOW_EN,Video End Window. This is raised by the DMA engine when the full video data has been sent to the pipeline" "0,1" bitfld.long 0x8 0. "VIDBUFFERUNDERFLOW_EN,Video DMA Buffer Underflow. This is raised when the DMA buffer does not have the data requested by the Video pipeline" "0,1" group.long 0x54++0xB line.long 0x0 "COMMON1_DISPC_SECURE,Security bit settings for different DISPC sub-modules" bitfld.long 0x0 15.--16. "OVR_SECURE,Secure bit for OVR" "0,1,2,3" bitfld.long 0x0 4.--5. "VID_SECURE,Secure bit for VID" "0,1,2,3" bitfld.long 0x0 0.--1. "VP_SECURE,Secure bit for VP [Unused in K3_DSS]" "0,1,2,3" line.long 0x4 "COMMON1_VID_IRQSTATUS_0,This register groups all the status of the VID_0 internal events that generate an interrupt. Write 1 to a clear a bit field" bitfld.long 0x4 2. "SAFETYREGION_IRQ,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" "0,1" bitfld.long 0x4 1. "VIDENDWINDOW_IRQ,Video End Window. This is raised by the DMA engine when the full video data has been sent to the pipeline" "0,1" bitfld.long 0x4 0. "VIDBUFFERUNDERFLOW_IRQ,Video DMA Buffer Underflow. This is raised when the DMA buffer does not have the data requested by the Video pipeline" "0,1" line.long 0x8 "COMMON1_VID_IRQSTATUS_1,This register groups all the status of the VID_0 internal events that generate an interrupt. Write 1 to a clear a bit field" bitfld.long 0x8 2. "SAFETYREGION_IRQ,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" "0,1" bitfld.long 0x8 1. "VIDENDWINDOW_IRQ,Video End Window. This is raised by the DMA engine when the full video data has been sent to the pipeline" "0,1" bitfld.long 0x8 0. "VIDBUFFERUNDERFLOW_IRQ,Video DMA Buffer Underflow. This is raised when the DMA buffer does not have the data requested by the Video pipeline" "0,1" group.long 0x70++0x7 line.long 0x0 "COMMON1_VP_IRQENABLE_0,This register allows to mask/unmask the VP_0 internal sources of interrupt. on an event-by-event basis" bitfld.long 0x0 12. "DUMMY_EN,Dummy IRQ for future use" "0,1" bitfld.long 0x0 11. "VPSYNC_EN,Go bit clear event" "0,1" bitfld.long 0x0 10. "SECURITYVIOLATION_EN,Security Violation interrupt for OVR/VP. Non-secure OVR/VP connected to secure VID" "0,1" hexmask.long.byte 0x0 6.--9. 1. "SAFETYREGION_EN,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" newline bitfld.long 0x0 5. "ACBIASCOUNTSTATUS_EN,AC BIAS transition counter has decremented to zero" "0,1" bitfld.long 0x0 4. "VPSYNCLOST_EN,Synchronization Lost for Video Port" "0,1" bitfld.long 0x0 3. "VPPROGRAMMEDLINENUMBER_EN,Programmed Line Number. It indicates that the scan of the display has reached the programmed user line number" "0,1" bitfld.long 0x0 2. "VPVSYNC_ODD_EN,VSYNC for odd field from interlace mode only" "0,1" newline bitfld.long 0x0 1. "VPVSYNC_EN,Vertical Synchronization for VP" "0,1" bitfld.long 0x0 0. "VPFRAMEDONE_EN,Frame Done for Video Port. VP output has been disabled by user. All the data have been sent" "0,1" line.long 0x4 "COMMON1_VP_IRQENABLE_1,This register allows to mask/unmask the VP_1 internal sources of interrupt. on an event-by-event basis" bitfld.long 0x4 12. "DUMMY_EN,Dummy IRQ for future use" "0,1" bitfld.long 0x4 11. "VPSYNC_EN,Go bit clear event" "0,1" bitfld.long 0x4 10. "SECURITYVIOLATION_EN,Security Violation interrupt for OVR/VP. Non-secure OVR/VP connected to secure VID" "0,1" hexmask.long.byte 0x4 6.--9. 1. "SAFETYREGION_EN,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" newline bitfld.long 0x4 5. "ACBIASCOUNTSTATUS_EN,AC BIAS transition counter has decremented to zero" "0,1" bitfld.long 0x4 4. "VPSYNCLOST_EN,Synchronization Lost for Video Port" "0,1" bitfld.long 0x4 3. "VPPROGRAMMEDLINENUMBER_EN,Programmed Line Number. It indicates that the scan of the display has reached the programmed user line number" "0,1" bitfld.long 0x4 2. "VPVSYNC_ODD_EN,VSYNC for odd field from interlace mode only" "0,1" newline bitfld.long 0x4 1. "VPVSYNC_EN,Vertical Synchronization for VP" "0,1" bitfld.long 0x4 0. "VPFRAMEDONE_EN,Frame Done for Video Port. VP output has been disabled by user. All the data have been sent" "0,1" group.long 0x7C++0x7 line.long 0x0 "COMMON1_VP_IRQSTATUS_0,This register groups all the status of the VP_0 internal events that generate an interrupt. Write 1 to a given bit resets this bit" bitfld.long 0x0 12. "DUMMY_IRQ,Dummy IRQ for future use" "0,1" bitfld.long 0x0 11. "VPSYNC_IRQ,Go bit clear event" "0,1" bitfld.long 0x0 10. "SECURITYVIOLATION_IRQ,Security Violation IRQ. Non-secure OVR/VP connected to secure VID" "0,1" hexmask.long.byte 0x0 6.--9. 1. "SAFETYREGION_IRQ,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" newline bitfld.long 0x0 5. "ACBIASCOUNTSTATUS_IRQ,AC BIAS transition counter has decremented to zero" "0,1" bitfld.long 0x0 4. "VPSYNCLOST_IRQ,Synchronization Lost on VP output. The required data are not output at the correct time due to too short blanking periods or stall of at least one pipelines associated with VP output" "0,1" bitfld.long 0x0 3. "VPPROGRAMMEDLINENUMBER_IRQ,Programmed Line Number. It indicates that the scan of the display has reached the programmed user line number" "0,1" bitfld.long 0x0 2. "VPVSYNC_ODD_IRQ,VSYNC for odd field. For interlace mode only" "0,1" newline bitfld.long 0x0 1. "VPVSYNC_IRQ,Vertical Synchronization for VP output. It is used as VSYNC_EVEN in case of interlace mode" "0,1" bitfld.long 0x0 0. "VPFRAMEDONE_IRQ,Frame Done for VP. VP output has been disabled by user All the data have been sent" "0,1" line.long 0x4 "COMMON1_VP_IRQSTATUS_1,This register groups all the status of the VP_1 internal events that generate an interrupt. Write 1 to a given bit resets this bit" bitfld.long 0x4 12. "DUMMY_IRQ,Dummy IRQ for future use" "0,1" bitfld.long 0x4 11. "VPSYNC_IRQ,Go bit clear event" "0,1" bitfld.long 0x4 10. "SECURITYVIOLATION_IRQ,Security Violation IRQ. Non-secure OVR/VP connected to secure VID" "0,1" hexmask.long.byte 0x4 6.--9. 1. "SAFETYREGION_IRQ,Safety Feature IRQ. This is raised when FrameFreeze is detected or data mismatch occurs within the safety region" newline bitfld.long 0x4 5. "ACBIASCOUNTSTATUS_IRQ,AC BIAS transition counter has decremented to zero" "0,1" bitfld.long 0x4 4. "VPSYNCLOST_IRQ,Synchronization Lost on VP output. The required data are not output at the correct time due to too short blanking periods or stall of at least one pipelines associated with VP output" "0,1" bitfld.long 0x4 3. "VPPROGRAMMEDLINENUMBER_IRQ,Programmed Line Number. It indicates that the scan of the display has reached the programmed user line number" "0,1" bitfld.long 0x4 2. "VPVSYNC_ODD_IRQ,VSYNC for odd field. For interlace mode only" "0,1" newline bitfld.long 0x4 1. "VPVSYNC_IRQ,Vertical Synchronization for VP output. It is used as VSYNC_EVEN in case of interlace mode" "0,1" bitfld.long 0x4 0. "VPFRAMEDONE_IRQ,Frame Done for VP. VP output has been disabled by user All the data have been sent" "0,1" tree.end tree "DSS1_OVR1 (DSS1_OVR1)" base ad:0x30227000 group.long 0x0++0x3 line.long 0x0 "OVR1_CONFIG,The control register configures the Display Controller module for the VP output. Shadow register" hexmask.long.tbyte 0x0 14.--31. 1. "RESERVED1," rbitfld.long 0x0 13. "RESERVED3," "0,1" rbitfld.long 0x0 12. "RESERVED2," "0,1" bitfld.long 0x0 11. "TCKLCDSELECTION,Transparency Color Key Selection" "0,1" bitfld.long 0x0 10. "TCKLCDENABLE,Transparency Color Key Enable" "0,1" newline hexmask.long.byte 0x0 2.--9. 1. "RESERVED," bitfld.long 0x0 1. "COLORBAREN,Enable the Color-Bar" "0,1" rbitfld.long 0x0 0. "RESERVED6," "0,1" group.long 0x8++0x27 line.long 0x0 "OVR1_DEFAULT_COLOR,The control register configures the default solid background color LSB[31:0]. Shadow register" hexmask.long 0x0 0.--31. 1. "DEFAULTCOLOR,32-bit LSB of ARGB background color" line.long 0x4 "OVR1_DEFAULT_COLOR2,The control register configures the default solid background color MSB[47:32]. Shadow register" hexmask.long.word 0x4 16.--31. 1. "RESERVED," hexmask.long.word 0x4 0.--15. 1. "DEFAULTCOLOR,16-bit MSB of ARGB background color" line.long 0x8 "OVR1_TRANS_COLOR_MAX,The register sets the max transparency color value for the overlays. Shadow register" hexmask.long 0x8 0.--31. 1. "TRANSCOLORKEY,LSB[31:0]. Transparency Color Key Value in 36-bit RGB format" line.long 0xC "OVR1_TRANS_COLOR_MAX2,The register sets the max transparency color value for the overlays. Shadow register" hexmask.long 0xC 4.--31. 1. "RESERVED," hexmask.long.byte 0xC 0.--3. 1. "TRANSCOLORKEY,MSB[35:32]. Transparency Color Key Value in 36-bit RGB format" line.long 0x10 "OVR1_TRANS_COLOR_MIN,The register sets the min transparency color value for the overlays. Shadow register" hexmask.long 0x10 0.--31. 1. "TRANSCOLORKEY,LSB[31:0]. Transparency Color Key Value in 36-bit RGB format" line.long 0x14 "OVR1_TRANS_COLOR_MIN2,The register sets the min transparency color value for the overlays. Shadow register" hexmask.long 0x14 4.--31. 1. "RESERVED," hexmask.long.byte 0x14 0.--3. 1. "TRANSCOLORKEY,MSB[35:32]. Transparency Color Key Value in 36-bit RGB format" line.long 0x18 "OVR1_ATTRIBUTES_0,The register configures the attributes of layer-0. ZORDER= 0. of the Overlay manager. Shadow register" rbitfld.long 0x18 31. "RESERVED1," "0,1" hexmask.long.word 0x18 19.--30. 1. "POSY,Y position of the layer. Encoded value [from 0 to 4095] to specify the Y position of the layer on the screen. The line at the top has the Y-position 0" rbitfld.long 0x18 18. "RESERVED," "0,1" hexmask.long.word 0x18 6.--17. 1. "POSX,X position of the layer. Encoded value [from 0 to 4095] to specify the X position of the layer on the screen. The first pixel on the left of the screen has the X-position 0" rbitfld.long 0x18 5. "RESERVED2," "0,1" newline hexmask.long.byte 0x18 1.--4. 1. "CHANNELIN,Input channel connected to Layer" bitfld.long 0x18 0. "ENABLE,Layer Enable" "0,1" line.long 0x1C "OVR1_ATTRIBUTES_1,The register configures the attributes of layer-1. ZORDER= 1. of the Overlay manager. Shadow register" rbitfld.long 0x1C 31. "RESERVED1," "0,1" hexmask.long.word 0x1C 19.--30. 1. "POSY,Y position of the layer. Encoded value [from 0 to 4095] to specify the Y position of the layer on the screen. The line at the top has the Y-position 0" rbitfld.long 0x1C 18. "RESERVED," "0,1" hexmask.long.word 0x1C 6.--17. 1. "POSX,X position of the layer. Encoded value [from 0 to 4095] to specify the X position of the layer on the screen. The first pixel on the left of the screen has the X-position 0" rbitfld.long 0x1C 5. "RESERVED2," "0,1" newline hexmask.long.byte 0x1C 1.--4. 1. "CHANNELIN,Input channel connected to Layer" bitfld.long 0x1C 0. "ENABLE,Layer Enable" "0,1" line.long 0x20 "OVR1_ATTRIBUTES_2,The register configures the attributes of layer-2. ZORDER= 2. of the Overlay manager. Shadow register" rbitfld.long 0x20 31. "RESERVED1," "0,1" hexmask.long.word 0x20 19.--30. 1. "POSY,Y position of the layer. Encoded value [from 0 to 4095] to specify the Y position of the layer on the screen. The line at the top has the Y-position 0" rbitfld.long 0x20 18. "RESERVED," "0,1" hexmask.long.word 0x20 6.--17. 1. "POSX,X position of the layer. Encoded value [from 0 to 4095] to specify the X position of the layer on the screen. The first pixel on the left of the screen has the X-position 0" rbitfld.long 0x20 5. "RESERVED2," "0,1" newline hexmask.long.byte 0x20 1.--4. 1. "CHANNELIN,Input channel connected to Layer" bitfld.long 0x20 0. "ENABLE,Layer Enable" "0,1" line.long 0x24 "OVR1_ATTRIBUTES_3,The register configures the attributes of layer-3. ZORDER= 3. of the Overlay manager. Shadow register" rbitfld.long 0x24 31. "RESERVED1," "0,1" hexmask.long.word 0x24 19.--30. 1. "POSY,Y position of the layer. Encoded value [from 0 to 4095] to specify the Y position of the layer on the screen. The line at the top has the Y-position 0" rbitfld.long 0x24 18. "RESERVED," "0,1" hexmask.long.word 0x24 6.--17. 1. "POSX,X position of the layer. Encoded value [from 0 to 4095] to specify the X position of the layer on the screen. The first pixel on the left of the screen has the X-position 0" rbitfld.long 0x24 5. "RESERVED2," "0,1" newline hexmask.long.byte 0x24 1.--4. 1. "CHANNELIN,Input channel connected to Layer" bitfld.long 0x24 0. "ENABLE,Layer Enable" "0,1" tree.end tree "DSS1_OVR2 (DSS1_OVR2)" base ad:0x30228000 group.long 0x0++0x3 line.long 0x0 "OVR2_CONFIG,The control register configures the Display Controller module for the VP output. Shadow register" hexmask.long.tbyte 0x0 14.--31. 1. "RESERVED1," rbitfld.long 0x0 13. "RESERVED3," "0,1" rbitfld.long 0x0 12. "RESERVED2," "0,1" bitfld.long 0x0 11. "TCKLCDSELECTION,Transparency Color Key Selection" "0,1" bitfld.long 0x0 10. "TCKLCDENABLE,Transparency Color Key Enable" "0,1" newline hexmask.long.byte 0x0 2.--9. 1. "RESERVED," bitfld.long 0x0 1. "COLORBAREN,Enable the Color-Bar" "0,1" rbitfld.long 0x0 0. "RESERVED6," "0,1" group.long 0x8++0x27 line.long 0x0 "OVR2_DEFAULT_COLOR,The control register configures the default solid background color LSB[31:0]. Shadow register" hexmask.long 0x0 0.--31. 1. "DEFAULTCOLOR,32-bit LSB of ARGB background color" line.long 0x4 "OVR2_DEFAULT_COLOR2,The control register configures the default solid background color MSB[47:32]. Shadow register" hexmask.long.word 0x4 16.--31. 1. "RESERVED," hexmask.long.word 0x4 0.--15. 1. "DEFAULTCOLOR,16-bit MSB of ARGB background color" line.long 0x8 "OVR2_TRANS_COLOR_MAX,The register sets the max transparency color value for the overlays. Shadow register" hexmask.long 0x8 0.--31. 1. "TRANSCOLORKEY,LSB[31:0]. Transparency Color Key Value in 36-bit RGB format" line.long 0xC "OVR2_TRANS_COLOR_MAX2,The register sets the max transparency color value for the overlays. Shadow register" hexmask.long 0xC 4.--31. 1. "RESERVED," hexmask.long.byte 0xC 0.--3. 1. "TRANSCOLORKEY,MSB[35:32]. Transparency Color Key Value in 36-bit RGB format" line.long 0x10 "OVR2_TRANS_COLOR_MIN,The register sets the min transparency color value for the overlays. Shadow register" hexmask.long 0x10 0.--31. 1. "TRANSCOLORKEY,LSB[31:0]. Transparency Color Key Value in 36-bit RGB format" line.long 0x14 "OVR2_TRANS_COLOR_MIN2,The register sets the min transparency color value for the overlays. Shadow register" hexmask.long 0x14 4.--31. 1. "RESERVED," hexmask.long.byte 0x14 0.--3. 1. "TRANSCOLORKEY,MSB[35:32]. Transparency Color Key Value in 36-bit RGB format" line.long 0x18 "OVR2_ATTRIBUTES_0,The register configures the attributes of layer-0. ZORDER= 0. of the Overlay manager. Shadow register" rbitfld.long 0x18 31. "RESERVED1," "0,1" hexmask.long.word 0x18 19.--30. 1. "POSY,Y position of the layer. Encoded value [from 0 to 4095] to specify the Y position of the layer on the screen. The line at the top has the Y-position 0" rbitfld.long 0x18 18. "RESERVED," "0,1" hexmask.long.word 0x18 6.--17. 1. "POSX,X position of the layer. Encoded value [from 0 to 4095] to specify the X position of the layer on the screen. The first pixel on the left of the screen has the X-position 0" rbitfld.long 0x18 5. "RESERVED2," "0,1" newline hexmask.long.byte 0x18 1.--4. 1. "CHANNELIN,Input channel connected to Layer" bitfld.long 0x18 0. "ENABLE,Layer Enable" "0,1" line.long 0x1C "OVR2_ATTRIBUTES_1,The register configures the attributes of layer-1. ZORDER= 1. of the Overlay manager. Shadow register" rbitfld.long 0x1C 31. "RESERVED1," "0,1" hexmask.long.word 0x1C 19.--30. 1. "POSY,Y position of the layer. Encoded value [from 0 to 4095] to specify the Y position of the layer on the screen. The line at the top has the Y-position 0" rbitfld.long 0x1C 18. "RESERVED," "0,1" hexmask.long.word 0x1C 6.--17. 1. "POSX,X position of the layer. Encoded value [from 0 to 4095] to specify the X position of the layer on the screen. The first pixel on the left of the screen has the X-position 0" rbitfld.long 0x1C 5. "RESERVED2," "0,1" newline hexmask.long.byte 0x1C 1.--4. 1. "CHANNELIN,Input channel connected to Layer" bitfld.long 0x1C 0. "ENABLE,Layer Enable" "0,1" line.long 0x20 "OVR2_ATTRIBUTES_2,The register configures the attributes of layer-2. ZORDER= 2. of the Overlay manager. Shadow register" rbitfld.long 0x20 31. "RESERVED1," "0,1" hexmask.long.word 0x20 19.--30. 1. "POSY,Y position of the layer. Encoded value [from 0 to 4095] to specify the Y position of the layer on the screen. The line at the top has the Y-position 0" rbitfld.long 0x20 18. "RESERVED," "0,1" hexmask.long.word 0x20 6.--17. 1. "POSX,X position of the layer. Encoded value [from 0 to 4095] to specify the X position of the layer on the screen. The first pixel on the left of the screen has the X-position 0" rbitfld.long 0x20 5. "RESERVED2," "0,1" newline hexmask.long.byte 0x20 1.--4. 1. "CHANNELIN,Input channel connected to Layer" bitfld.long 0x20 0. "ENABLE,Layer Enable" "0,1" line.long 0x24 "OVR2_ATTRIBUTES_3,The register configures the attributes of layer-3. ZORDER= 3. of the Overlay manager. Shadow register" rbitfld.long 0x24 31. "RESERVED1," "0,1" hexmask.long.word 0x24 19.--30. 1. "POSY,Y position of the layer. Encoded value [from 0 to 4095] to specify the Y position of the layer on the screen. The line at the top has the Y-position 0" rbitfld.long 0x24 18. "RESERVED," "0,1" hexmask.long.word 0x24 6.--17. 1. "POSX,X position of the layer. Encoded value [from 0 to 4095] to specify the X position of the layer on the screen. The first pixel on the left of the screen has the X-position 0" rbitfld.long 0x24 5. "RESERVED2," "0,1" newline hexmask.long.byte 0x24 1.--4. 1. "CHANNELIN,Input channel connected to Layer" bitfld.long 0x24 0. "ENABLE,Layer Enable" "0,1" tree.end tree "DSS1_VID (DSS1_VID)" base ad:0x30226000 group.long 0x0++0x37 line.long 0x0 "VID_ACCUH_0,The register configures the resize accumulator init values for horizontal up/down-sampling of the video window. DISPC_VIDx_ACCU__0 & DISPC_VIDx_ACCU__1 for ping-pong mechanism with external trigger. based on the field polarity. This register.." hexmask.long.tbyte 0x0 0.--23. 1. "HORIZONTALACCU,Horizontal initialization accu signed value" line.long 0x4 "VID_ACCUH_1,The register configures the resize accumulator init values for horizontal up/down-sampling of the video window. DISPC_VIDx_ACCU__0 & DISPC_VIDx_ACCU__1 for ping-pong mechanism with external trigger. based on the field polarity. This register.." hexmask.long.tbyte 0x4 0.--23. 1. "HORIZONTALACCU,Horizontal initialization accu signed value" line.long 0x8 "VID_ACCUH2_0,The register configures the resize accumulator init value for horizontal up/down-sampling of the video window. DISPC_VID n_ACCU2__0 & DISPC_VID n_ACCU2__1 for ping-pong mechanism with external trigger. based on the field polarity. This.." hexmask.long.tbyte 0x8 0.--23. 1. "HORIZONTALACCU,Horizontal initialization accu signed value" line.long 0xC "VID_ACCUH2_1,The register configures the resize accumulator init value for horizontal up/down-sampling of the video window. DISPC_VID n_ACCU2__0 & DISPC_VID n_ACCU2__1 for ping-pong mechanism with external trigger. based on the field polarity. This.." hexmask.long.tbyte 0xC 0.--23. 1. "HORIZONTALACCU,Horizontal initialization accu signed value" line.long 0x10 "VID_ACCUV_0,The register configures the resize accumulator init values for horizontal and vertical up/down-sampling of the video window. DISPC_VIDx_ACCU__0 & DISPC_VIDx_ACCU__1 for ping-pong mechanism with external trigger. based on the field polarity." hexmask.long.tbyte 0x10 0.--23. 1. "VERTICALACCU,Vertical initialization accu signed value" line.long 0x14 "VID_ACCUV_1,The register configures the resize accumulator init values for horizontal and vertical up/down-sampling of the video window. DISPC_VIDx_ACCU__0 & DISPC_VIDx_ACCU__1 for ping-pong mechanism with external trigger. based on the field polarity." hexmask.long.tbyte 0x14 0.--23. 1. "VERTICALACCU,Vertical initialization accu signed value" line.long 0x18 "VID_ACCUV2_0,The register configures the resize accumulator init value for vertical up/down-sampling of the video window. ACCU2__0 & ACCU2__1 for ping-pong mechanism with external trigger. based on the field polarity. It is used for U/V components for.." hexmask.long.tbyte 0x18 0.--23. 1. "VERTICALACCU,Vertical initialization accu signed value" line.long 0x1C "VID_ACCUV2_1,The register configures the resize accumulator init value for vertical up/down-sampling of the video window. ACCU2__0 & ACCU2__1 for ping-pong mechanism with external trigger. based on the field polarity. It is used for U/V components for.." hexmask.long.tbyte 0x1C 0.--23. 1. "VERTICALACCU,Vertical initialization accu signed value" line.long 0x20 "VID_ATTRIBUTES,The register configures the attributes of the video window. Shadow register" bitfld.long 0x20 31. "LUMAKEYENABLE,Enable Luma Key transparency matching" "0,1" bitfld.long 0x20 30. "GAMMAINVERSION,Inverse Gamma support [using the CLUT table]" "0,1" newline bitfld.long 0x20 28. "PREMULTIPLYALPHA,The field configures the DISPC VID to process incoming data as premultiplied alpha data or non premultiplied alpha data. Default setting is non premultiplied alpha data" "0,1" bitfld.long 0x20 24. "SELFREFRESH,Enables the self refresh of the video window from its own DMA buffer only" "0,1" newline bitfld.long 0x20 23. "ARBITRATION,Determines the priority of the video pipeline. The video pipeline is one of the high priority pipelines. The arbitration gives always the priority first to the high priority pipelines using round-robin between them. When there are only normal.." "0,1" bitfld.long 0x20 21. "VERTICALTAPS,Video Vertical Resize Tap Number. The vertical poly-phase filter can be configured in 3-tap or 5-tap configuration. According to the number of taps the maximum input picture width is double while using 3-tap compared to 5-tap" "0,1" newline bitfld.long 0x20 19. "BUFPRELOAD,Video Preload Value" "0,1" rbitfld.long 0x20 18. "RESERVED7,Write 0's for future compatibility. Reads return 0" "0,1" newline bitfld.long 0x20 17. "SELFREFRESHAUTO,Automatic self refresh mode" "0,1" bitfld.long 0x20 12. "FLIP,Describes the frame buffer flip operation" "0,1" newline bitfld.long 0x20 11. "FULLRANGE,Color Space Conversion full range setting" "0,1" bitfld.long 0x20 10. "NIBBLEMODE,Video Nibble mode [only for 1- 2- and 4-bpp]" "0,1" newline bitfld.long 0x20 9. "COLORCONVENABLE,Enable the color space conversion. The HW does not enable/disable the conversion based on the pixel format" "0,1" bitfld.long 0x20 7.--8. "RESIZEENABLE,Video Resize Enable" "0,1,2,3" newline hexmask.long.byte 0x20 1.--6. 1. "FORMAT,Video Format. It defines the pixel format when fetching the video frame buffer" bitfld.long 0x20 0. "ENABLE,Video pipeline Enable" "0,1" line.long 0x24 "VID_ATTRIBUTES2,The register configures the attributes of the video window. Shadow register" hexmask.long.byte 0x24 26.--30. 1. "TAGS,Number of OCP TAGS to be used for the pipeline [from 0x0 to 0xF]. A value of 0x0 means only a single tag will be used. A value of 0xF means all 16 tags can be used" bitfld.long 0x24 10. "YUV_ALIGN,Alignment [MSB or LSB align] for unpacked 10b/12b YUV data" "0,1" newline bitfld.long 0x24 9. "YUV_MODE,Mode of packing for YUV data [only for 10b/12b formats]" "0,1" bitfld.long 0x24 7.--8. "YUV_SIZE,Size of YUV data 8b/10b/12b" "0,1,2,3" newline bitfld.long 0x24 4.--6. "VC1_RANGE_CBCR,Defines the VC1 range value for the CbCr component from 0 to 7" "0,1,2,3,4,5,6,7" bitfld.long 0x24 1.--3. "VC1_RANGE_Y,Defines the VC1 range value for the Y component from 0 to 7" "0,1,2,3,4,5,6,7" newline bitfld.long 0x24 0. "VC1ENABLE,Enable/disable the VC1 range mapping processing. The bit-field is ignored if the format is not one of the supported YUV formats" "0,1" line.long 0x28 "VID_BA_0,The register configures the base address of the single video buffer. In case of single plane ARGB or YUV. this is the BA. In case of two plane YUV. this is the BA_Y. In case of two plane RGB565-A8. this is the BA_Alpha. BA__0 & BA__1 for.." hexmask.long 0x28 0.--31. 1. "BA,Video base address. Base address of the video buffer [Aligned on pixel size boundary except for the following. In case of RGB24 packed format 4-pixel alignment is required. In case of YUV422 2-pixel alignment is required. In case of YUV420 byte.." line.long 0x2C "VID_BA_1,The register configures the base address of the single video buffer. In case of single plane ARGB or YUV. this is the BA. In case of two plane YUV. this is the BA_Y. In case of two plane RGB565-A8. this is the BA_Alpha. BA__0 & BA__1 for.." hexmask.long 0x2C 0.--31. 1. "BA,Video base address. Base address of the video buffer [Aligned on pixel size boundary except for the following. In case of RGB24 packed format 4-pixel alignment is required. In case of YUV422 2-pixel alignment is required. In case of YUV420 byte.." line.long 0x30 "VID_BA_UV_0,The register configures the base address of the UV buffer for two plane YUV or RGB buffer for two plane RGB565-A8. for the video window. BA_UV__0 & BA_UV__1 for ping-pong mechanism with external trigger. based on the field polarity otherwise.." hexmask.long 0x30 0.--31. 1. "BA,Video base address aligned on 16-bit boundary Base address of the UV video buffer used only in case of YUV420-NV12" line.long 0x34 "VID_BA_UV_1,The register configures the base address of the UV buffer for two plane YUV or RGB buffer for two plane RGB565-A8. for the video window. BA_UV__0 & BA_UV__1 for ping-pong mechanism with external trigger. based on the field polarity otherwise.." hexmask.long 0x34 0.--31. 1. "BA,Video base address aligned on 16-bit boundary Base address of the UV video buffer used only in case of YUV420-NV12" rgroup.long 0x38++0x3 line.long 0x0 "VID_BUF_SIZE_STATUS,The register returns the Video buffer size for the video pipeline" hexmask.long.word 0x0 16.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x0 0.--15. 1. "BUFSIZE,Video DMA buffer Size in number of 128-bits" group.long 0x3C++0x1C3 line.long 0x0 "VID_BUF_THRESHOLD,The register configures the video buffer associated with the video pipeline. Shadow register" hexmask.long.word 0x0 16.--31. 1. "BUFHIGHTHRESHOLD,DMA buffer High Threshold. Number of 128-bits defining the threshold value" hexmask.long.word 0x0 0.--15. 1. "BUFLOWTHRESHOLD,DMA buffer Low Threshold. Number of 128-bits defining the threshold value" line.long 0x4 "VID_CSC_COEF0,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x4 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x4 16.--26. 1. "C01,C01 Coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0x4 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x4 0.--10. 1. "C00,C00 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x8 "VID_CSC_COEF1,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x8 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x8 16.--26. 1. "C10,C10 Coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0x8 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x8 0.--10. 1. "C02,C02 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0xC "VID_CSC_COEF2,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0xC 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0xC 16.--26. 1. "C12,C12 Coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0xC 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0xC 0.--10. 1. "C11,C11 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x10 "VID_CSC_COEF3,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x10 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x10 16.--26. 1. "C21,C21 coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0x10 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x10 0.--10. 1. "C20,C20 coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x14 "VID_CSC_COEF4,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.tbyte 0x14 11.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x14 0.--10. 1. "C22,C22 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x18 "VID_CSC_COEF5,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x18 19.--31. 1. "PREOFFSET2,Row-2 pre-offset. Encoded signed value [from -4096 to 4095]" hexmask.long.word 0x18 3.--15. 1. "PREOFFSET1,Row1 pre-offset. Encoded signed value [from -4096 to 4095]" line.long 0x1C "VID_CSC_COEF6,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x1C 19.--31. 1. "POSTOFFSET1,Row-1 post-offset. Encoded signed value [from -4096 to 4095]" hexmask.long.word 0x1C 3.--15. 1. "PREOFFSET3,Row-3 pre-offset. Encoded signed value [from -4096 to 4095]" line.long 0x20 "VID_FIRH,The register configures the resize factor for horizontal up/down-sampling of the video window. It is used for ARGB and Y setting. Shadow register" hexmask.long.tbyte 0x20 0.--23. 1. "FIRHINC,Horizontal increment of the up/down-sampling filter. The value 0 is invalid" line.long 0x24 "VID_FIRH2,The register configures the resize factor for horizontal up/down-sampling of the video window. It is used for U/V components for YUV 422 and 420 input formats. It is not used if input format is any RGB format. Shadow register" hexmask.long.tbyte 0x24 0.--23. 1. "FIRHINC,Horizontal increment of the up/down-sampling filter for Cb and Cr. The value 0 is invalid" line.long 0x28 "VID_FIRV,The register configures the resize factor for vertical up/down-sampling of the video window. It is used for ARGB and Y setting. Shadow register" hexmask.long.tbyte 0x28 0.--23. 1. "FIRVINC,Vertical increment of the up/down-sampling filter. The value 0 is invalid" line.long 0x2C "VID_FIRV2,The register configures the resize factor for vertical up/down-sampling of the video window. It is used for U/V components for YUV420 input format. It is not used when the input format is any RGB format or YUV422 format. Shadow register." hexmask.long.tbyte 0x2C 0.--23. 1. "FIRVINC,Vertical increment of the up/down-sampling filter for Cb and Cr. The value 0 is invalid" line.long 0x30 "VID_FIR_COEF_H0_0,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x30 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 0" line.long 0x34 "VID_FIR_COEF_H0_1,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x34 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 1" line.long 0x38 "VID_FIR_COEF_H0_2,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x38 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 2" line.long 0x3C "VID_FIR_COEF_H0_3,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x3C 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 3" line.long 0x40 "VID_FIR_COEF_H0_4,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x40 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 4" line.long 0x44 "VID_FIR_COEF_H0_5,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x44 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 5" line.long 0x48 "VID_FIR_COEF_H0_6,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x48 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 6" line.long 0x4C "VID_FIR_COEF_H0_7,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x4C 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 7" line.long 0x50 "VID_FIR_COEF_H0_8,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x50 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 8" line.long 0x54 "VID_FIR_COEF_H0_C_0,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x54 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 0" line.long 0x58 "VID_FIR_COEF_H0_C_1,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x58 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 1" line.long 0x5C "VID_FIR_COEF_H0_C_2,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x5C 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 2" line.long 0x60 "VID_FIR_COEF_H0_C_3,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x60 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 3" line.long 0x64 "VID_FIR_COEF_H0_C_4,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x64 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 4" line.long 0x68 "VID_FIR_COEF_H0_C_5,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x68 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 5" line.long 0x6C "VID_FIR_COEF_H0_C_6,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x6C 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 6" line.long 0x70 "VID_FIR_COEF_H0_C_7,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x70 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 7" line.long 0x74 "VID_FIR_COEF_H0_C_8,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x74 0.--9. 1. "FIRHC0,Unsigned coefficient C0 for the horizontal up/down-scaling with the phase 8" line.long 0x78 "VID_FIR_COEF_H12_0,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x78 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 0" hexmask.long.word 0x78 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 0" line.long 0x7C "VID_FIR_COEF_H12_1,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x7C 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 1" hexmask.long.word 0x7C 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 1" line.long 0x80 "VID_FIR_COEF_H12_2,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x80 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 2" hexmask.long.word 0x80 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 2" line.long 0x84 "VID_FIR_COEF_H12_3,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x84 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 3" hexmask.long.word 0x84 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 3" line.long 0x88 "VID_FIR_COEF_H12_4,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x88 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 4" hexmask.long.word 0x88 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 4" line.long 0x8C "VID_FIR_COEF_H12_5,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x8C 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 5" hexmask.long.word 0x8C 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 5" line.long 0x90 "VID_FIR_COEF_H12_6,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x90 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 6" hexmask.long.word 0x90 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 6" line.long 0x94 "VID_FIR_COEF_H12_7,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x94 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 7" hexmask.long.word 0x94 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 7" line.long 0x98 "VID_FIR_COEF_H12_8,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x98 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 8" hexmask.long.word 0x98 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 8" line.long 0x9C "VID_FIR_COEF_H12_9,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x9C 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 9" hexmask.long.word 0x9C 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 9" line.long 0xA0 "VID_FIR_COEF_H12_10,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0xA0 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 10" hexmask.long.word 0xA0 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 10" line.long 0xA4 "VID_FIR_COEF_H12_11,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0xA4 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 11" hexmask.long.word 0xA4 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 11" line.long 0xA8 "VID_FIR_COEF_H12_12,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0xA8 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 12" hexmask.long.word 0xA8 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 12" line.long 0xAC "VID_FIR_COEF_H12_13,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0xAC 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 13" hexmask.long.word 0xAC 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 13" line.long 0xB0 "VID_FIR_COEF_H12_14,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0xB0 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 14" hexmask.long.word 0xB0 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 14" line.long 0xB4 "VID_FIR_COEF_H12_15,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0xB4 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 15" hexmask.long.word 0xB4 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 15" line.long 0xB8 "VID_FIR_COEF_H12_C_0,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xB8 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 0" hexmask.long.word 0xB8 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 0" line.long 0xBC "VID_FIR_COEF_H12_C_1,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xBC 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 1" hexmask.long.word 0xBC 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 1" line.long 0xC0 "VID_FIR_COEF_H12_C_2,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xC0 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 2" hexmask.long.word 0xC0 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 2" line.long 0xC4 "VID_FIR_COEF_H12_C_3,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xC4 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 3" hexmask.long.word 0xC4 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 3" line.long 0xC8 "VID_FIR_COEF_H12_C_4,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xC8 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 4" hexmask.long.word 0xC8 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 4" line.long 0xCC "VID_FIR_COEF_H12_C_5,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xCC 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 5" hexmask.long.word 0xCC 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 5" line.long 0xD0 "VID_FIR_COEF_H12_C_6,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xD0 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 6" hexmask.long.word 0xD0 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 6" line.long 0xD4 "VID_FIR_COEF_H12_C_7,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xD4 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 7" hexmask.long.word 0xD4 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 7" line.long 0xD8 "VID_FIR_COEF_H12_C_8,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xD8 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 8" hexmask.long.word 0xD8 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 8" line.long 0xDC "VID_FIR_COEF_H12_C_9,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xDC 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 9" hexmask.long.word 0xDC 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 9" line.long 0xE0 "VID_FIR_COEF_H12_C_10,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xE0 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 10" hexmask.long.word 0xE0 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 10" line.long 0xE4 "VID_FIR_COEF_H12_C_11,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xE4 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 11" hexmask.long.word 0xE4 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 11" line.long 0xE8 "VID_FIR_COEF_H12_C_12,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xE8 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 12" hexmask.long.word 0xE8 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 12" line.long 0xEC "VID_FIR_COEF_H12_C_13,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xEC 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 13" hexmask.long.word 0xEC 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 13" line.long 0xF0 "VID_FIR_COEF_H12_C_14,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xF0 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 14" hexmask.long.word 0xF0 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 14" line.long 0xF4 "VID_FIR_COEF_H12_C_15,The bank of registers configures the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when.." hexmask.long.word 0xF4 20.--29. 1. "FIRHC2,Signed coefficient C2 for the horizontal up/down-scaling with the phase 15" hexmask.long.word 0xF4 10.--19. 1. "FIRHC1,Signed coefficient C1 for the horizontal up/down-scaling with the phase 15" line.long 0xF8 "VID_FIR_COEF_V0_0,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0xF8 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 0" line.long 0xFC "VID_FIR_COEF_V0_1,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0xFC 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 1" line.long 0x100 "VID_FIR_COEF_V0_2,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x100 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 2" line.long 0x104 "VID_FIR_COEF_V0_3,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x104 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 3" line.long 0x108 "VID_FIR_COEF_V0_4,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x108 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 4" line.long 0x10C "VID_FIR_COEF_V0_5,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x10C 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 5" line.long 0x110 "VID_FIR_COEF_V0_6,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x110 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 6" line.long 0x114 "VID_FIR_COEF_V0_7,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x114 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 7" line.long 0x118 "VID_FIR_COEF_V0_8,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x118 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 8" line.long 0x11C "VID_FIR_COEF_V0_C_0,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x11C 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 0" line.long 0x120 "VID_FIR_COEF_V0_C_1,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x120 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 1" line.long 0x124 "VID_FIR_COEF_V0_C_2,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x124 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 2" line.long 0x128 "VID_FIR_COEF_V0_C_3,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x128 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 3" line.long 0x12C "VID_FIR_COEF_V0_C_4,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x12C 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 4" line.long 0x130 "VID_FIR_COEF_V0_C_5,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x130 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 5" line.long 0x134 "VID_FIR_COEF_V0_C_6,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x134 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 6" line.long 0x138 "VID_FIR_COEF_V0_C_7,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x138 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 7" line.long 0x13C "VID_FIR_COEF_V0_C_8,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x13C 0.--9. 1. "FIRVC0,Unsigned coefficient C0 for the vertical up/down-scaling with the phase 8" line.long 0x140 "VID_FIR_COEF_V12_0,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x140 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 0" hexmask.long.word 0x140 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 0" line.long 0x144 "VID_FIR_COEF_V12_1,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x144 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 1" hexmask.long.word 0x144 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 1" line.long 0x148 "VID_FIR_COEF_V12_2,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x148 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 2" hexmask.long.word 0x148 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 2" line.long 0x14C "VID_FIR_COEF_V12_3,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x14C 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 3" hexmask.long.word 0x14C 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 3" line.long 0x150 "VID_FIR_COEF_V12_4,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x150 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 4" hexmask.long.word 0x150 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 4" line.long 0x154 "VID_FIR_COEF_V12_5,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x154 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 5" hexmask.long.word 0x154 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 5" line.long 0x158 "VID_FIR_COEF_V12_6,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x158 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 6" hexmask.long.word 0x158 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 6" line.long 0x15C "VID_FIR_COEF_V12_7,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x15C 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 7" hexmask.long.word 0x15C 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 7" line.long 0x160 "VID_FIR_COEF_V12_8,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x160 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 8" hexmask.long.word 0x160 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 8" line.long 0x164 "VID_FIR_COEF_V12_9,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x164 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 9" hexmask.long.word 0x164 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 9" line.long 0x168 "VID_FIR_COEF_V12_10,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x168 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 10" hexmask.long.word 0x168 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 10" line.long 0x16C "VID_FIR_COEF_V12_11,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x16C 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 11" hexmask.long.word 0x16C 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 11" line.long 0x170 "VID_FIR_COEF_V12_12,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x170 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 12" hexmask.long.word 0x170 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 12" line.long 0x174 "VID_FIR_COEF_V12_13,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x174 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 13" hexmask.long.word 0x174 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 13" line.long 0x178 "VID_FIR_COEF_V12_14,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x178 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 14" hexmask.long.word 0x178 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 14" line.long 0x17C "VID_FIR_COEF_V12_15,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the 16 phases. It is used for ARGB and Y setting. Shadow register" hexmask.long.word 0x17C 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 15" hexmask.long.word 0x17C 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 15" line.long 0x180 "VID_FIR_COEF_V12_C_0,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x180 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 0" hexmask.long.word 0x180 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 0" line.long 0x184 "VID_FIR_COEF_V12_C_1,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x184 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 1" hexmask.long.word 0x184 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 1" line.long 0x188 "VID_FIR_COEF_V12_C_2,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x188 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 2" hexmask.long.word 0x188 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 2" line.long 0x18C "VID_FIR_COEF_V12_C_3,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x18C 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 3" hexmask.long.word 0x18C 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 3" line.long 0x190 "VID_FIR_COEF_V12_C_4,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x190 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 4" hexmask.long.word 0x190 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 4" line.long 0x194 "VID_FIR_COEF_V12_C_5,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x194 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 5" hexmask.long.word 0x194 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 5" line.long 0x198 "VID_FIR_COEF_V12_C_6,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x198 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 6" hexmask.long.word 0x198 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 6" line.long 0x19C "VID_FIR_COEF_V12_C_7,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x19C 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 7" hexmask.long.word 0x19C 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 7" line.long 0x1A0 "VID_FIR_COEF_V12_C_8,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x1A0 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 8" hexmask.long.word 0x1A0 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 8" line.long 0x1A4 "VID_FIR_COEF_V12_C_9,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x1A4 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 9" hexmask.long.word 0x1A4 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 9" line.long 0x1A8 "VID_FIR_COEF_V12_C_10,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x1A8 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 10" hexmask.long.word 0x1A8 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 10" line.long 0x1AC "VID_FIR_COEF_V12_C_11,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x1AC 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 11" hexmask.long.word 0x1AC 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 11" line.long 0x1B0 "VID_FIR_COEF_V12_C_12,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x1B0 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 12" hexmask.long.word 0x1B0 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 12" line.long 0x1B4 "VID_FIR_COEF_V12_C_13,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x1B4 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 13" hexmask.long.word 0x1B4 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 13" line.long 0x1B8 "VID_FIR_COEF_V12_C_14,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x1B8 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 14" hexmask.long.word 0x1B8 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 14" line.long 0x1BC "VID_FIR_COEF_V12_C_15,The bank of registers configures the up/down-scaling coefficients for the vertical resize of the video picture associated with the video window for the phases from 0 to 15. It is used for Crb and Cr setting. It is used only when the.." hexmask.long.word 0x1BC 20.--29. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase 15" hexmask.long.word 0x1BC 10.--19. 1. "FIRVC1,Signed coefficient C1 for the vertical up/down-scaling with the phase 15" line.long 0x1C0 "VID_GLOBAL_ALPHA,The register defines the global alpha value for the video pipeline. Shadow register" hexmask.long.byte 0x1C0 0.--7. 1. "GLOBALALPHA,Global alpha value from 0 to 255. 0 corresponds to fully transparent and 255 corresponds to fully opaque" group.long 0x208++0xB line.long 0x0 "VID_MFLAG_THRESHOLD,MFLAG_THRESHOLD Register" hexmask.long.word 0x0 16.--31. 1. "HT_MFLAG,MFlag High Threshold" hexmask.long.word 0x0 0.--15. 1. "LT_MFLAG,MFlag Low Threshold" line.long 0x4 "VID_PICTURE_SIZE,The register configures the size of the video picture associated with the video layer before up/down-scaling. Shadow register" hexmask.long.word 0x4 16.--27. 1. "MEMSIZEY,Number of lines of the video picture Encoded value [from 1 to 4096] to specify the number of lines of the video picture in memory [program to value minus one] When predecimation is set the value represents the size of the image after.." hexmask.long.word 0x4 0.--11. 1. "MEMSIZEX,Number of pixels of the video picture Encoded value [from 1 to 4096] to specify the number of pixels of the video picture in memory [program to value minus one]. The size is limited to the size of the line buffer of the vertical sampling block.." line.long 0x8 "VID_PIXEL_INC,The register configures the number of bytes to increment between two pixels for the buffer associated with the video window. Shadow register" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.byte 0x8 0.--7. 1. "PIXELINC,Number of bytes to increment between two pixels Encoded unsigned value [from 1 to 255] to specify the number of bytes between two pixels in the video buffer. The value 0 is invalid The value 1 means next pixel The value 1+n*bpp means increment.." group.long 0x218++0xB line.long 0x0 "VID_PRELOAD,The register configures the DMA buffer of the video pipeline. Shadow register" hexmask.long.tbyte 0x0 12.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x0 0.--11. 1. "PRELOAD,DMA buffer preload value Number of 128-bit words defining the preload value" line.long 0x4 "VID_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. For YUV420 formats this corresponds to the Y Buffer. Shadow register" hexmask.long 0x4 0.--31. 1. "ROWINC,Number of bytes to increment at the end of the row Encoded signed value [from -2^31-1 to 2^31] to specify the number of bytes to increment at the end of the row in the video buffer. The value 0 is invalid. The value 1 means next pixel. The value.." line.long 0x8 "VID_SIZE,The register configures the size of the video window. Shadow register" hexmask.long.word 0x8 16.--27. 1. "SIZEY,Number of lines of the video window Encoded value [from 1 to 4096] to specify the number of lines of the video window [program size -1]" hexmask.long.word 0x8 0.--11. 1. "SIZEX,Number of pixels of the video window Encoded value [from 1 to 4096] to specify the number of pixels of the video window [program size -1]" group.long 0x22C++0x13 line.long 0x0 "VID_BA_EXT_0,The register configures the 16-bit base address extension. It is the base-address of the single video buffer for single plane ARGB or YUV. For the Y buffer for two plane YUV. For the Alpha buffer for two plane RGB565-A8. 0 & 1 : For.." hexmask.long.word 0x0 0.--15. 1. "BA_EXT,Video base address extension [16 bits]. Addr extension to make the address space 48b wide" line.long 0x4 "VID_BA_EXT_1,The register configures the 16-bit base address extension. It is the base-address of the single video buffer for single plane ARGB or YUV. For the Y buffer for two plane YUV. For the Alpha buffer for two plane RGB565-A8. 0 & 1 : For.." hexmask.long.word 0x4 0.--15. 1. "BA_EXT,Video base address extension [16 bits]. Addr extension to make the address space 48b wide" line.long 0x8 "VID_BA_UV_EXT_0,The register configures the 16-bit base address extension of the UV buffer for two plane YUV or the RGB buffer for two plane RGB565-A8. 0 & 1 : For ping-pong mechanism with external trigger. based on the field polarity. Shadow register" hexmask.long.word 0x8 0.--15. 1. "BA_UV_EXT,Video base address extension [16 bits]. Addr extension to make the address space 48b wide" line.long 0xC "VID_BA_UV_EXT_1,The register configures the 16-bit base address extension of the UV buffer for two plane YUV or the RGB buffer for two plane RGB565-A8. 0 & 1 : For ping-pong mechanism with external trigger. based on the field polarity. Shadow register" hexmask.long.word 0xC 0.--15. 1. "BA_UV_EXT,Video base address extension [16 bits]. Addr extension to make the address space 48b wide" line.long 0x10 "VID_CSC_COEF7,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x10 19.--31. 1. "POSTOFFSET3,Row-3 post-offset. Encoded signed value [from -4096 to 4095]" hexmask.long.word 0x10 3.--15. 1. "POSTOFFSET2,Row-2 post-offset. Encoded signed value [from -4096 to 4095]" group.long 0x248++0x3 line.long 0x0 "VID_ROW_INC_UV,The register configures the number of bytes to increment at the end of the row for the UV buffer associated with the video window for YUV420 formats. For non-YUV420 formats this register is unused. Shadow register" hexmask.long 0x0 0.--31. 1. "ROWINC,Number of bytes to increment at the end of the row Encoded signed value [from -2^31-1 to 2^31] to specify the number of bytes to increment at the end of the row in the video buffer. The value 0 is invalid The value 1 means next pixel. The value.." wgroup.long 0x260++0x3F line.long 0x0 "VID_CLUT_0,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x0 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x0 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x0 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x0 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x4 "VID_CLUT_1,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x4 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x4 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x4 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x4 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x8 "VID_CLUT_2,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x8 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x8 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x8 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x8 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0xC "VID_CLUT_3,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0xC 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0xC 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0xC 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0xC 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x10 "VID_CLUT_4,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x10 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x10 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x10 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x10 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x14 "VID_CLUT_5,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x14 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x14 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x14 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x14 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x18 "VID_CLUT_6,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x18 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x18 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x18 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x18 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x1C "VID_CLUT_7,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x1C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x1C 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x1C 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x1C 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x20 "VID_CLUT_8,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x20 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x20 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x20 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x20 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x24 "VID_CLUT_9,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x24 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x24 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x24 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x24 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x28 "VID_CLUT_10,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x28 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x28 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x28 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x28 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x2C "VID_CLUT_11,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x2C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x2C 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x2C 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x2C 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x30 "VID_CLUT_12,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x30 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x30 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x30 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x30 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x34 "VID_CLUT_13,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x34 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x34 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x34 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x34 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x38 "VID_CLUT_14,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x38 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x38 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x38 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x38 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x3C "VID_CLUT_15,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x3C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x3C 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x3C 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x3C 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" group.long 0x2A0++0x3 line.long 0x0 "VID_SAFETY_ATTRIBUTES,The register configures the safety sub-region. Shadow register" hexmask.long.tbyte 0x0 13.--31. 1. "RESERVED," bitfld.long 0x0 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" newline hexmask.long.byte 0x0 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature. When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur. Note: The freeze frame counter is cleared on reset -OR- MISR.." bitfld.long 0x0 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x0 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" bitfld.long 0x0 0. "ENABLE,Safety check Enable for the region. Note: Transition from 0 to 1 clears the signature register" "0,1" rgroup.long 0x2A4++0x3 line.long 0x0 "VID_SAFETY_CAPT_SIGNATURE,The register captures the signature from the MISR of the safety sub-region. Shadow register" hexmask.long 0x0 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region. Shadow register" group.long 0x2A8++0x13 line.long 0x0 "VID_SAFETY_POSITION,The register configures the position of the safety sub-region. Shadow register" hexmask.long.word 0x0 16.--27. 1. "POSY,Y position of the safety sub-region. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen. The first line on the top of the screen has the Y-position 0" hexmask.long.word 0x0 0.--11. 1. "POSX,X position of the safety sub-region. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen. The first pixel on the left of the screen has the X-position 0" line.long 0x4 "VID_SAFETY_REF_SIGNATURE,The register configures the reference signature of the safety sub-region. Shadow register" hexmask.long 0x4 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region. Shadow register" line.long 0x8 "VID_SAFETY_SIZE,The register configures the size of the safety sub-region. Shadow register" hexmask.long.word 0x8 16.--27. 1. "SIZEY,Height of the safety sub-region. Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen. One line height region has value of 0" hexmask.long.word 0x8 0.--11. 1. "SIZEX,Width of the safety sub-region. Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen. One pixel wide region has value of 0" line.long 0xC "VID_SAFETY_LFSR_SEED,The register configures the seed [initial value] of the MISR. Otherwise. the MISR is initialized with 0xFFFF_FFFF. Shadow register" hexmask.long 0xC 0.--31. 1. "SEED,The register configures the seed [initial value] of the MISR. Otherwise the MISR is initialized with 0xFFFF_FFFF. Shadow register" line.long 0x10 "VID_LUMAKEY,The register configures the LUMA KEY transparency min and max values. Shadow register" hexmask.long.byte 0x10 28.--31. 1. "RESERVED1,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x10 16.--27. 1. "LUMAKEYMAX,12b luma_key_max value" newline hexmask.long.byte 0x10 12.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x10 0.--11. 1. "LUMAKEYMIN,12b luma_key_min value" tree.end tree "DSS1_VIDL1 (DSS1_VIDL1)" base ad:0x30222000 group.long 0x20++0x17 line.long 0x0 "VIDL1_ATTRIBUTES,The register configures the attributes of the video window. Shadow register" bitfld.long 0x0 31. "LUMAKEYENABLE,Enable Luma Key transparency matching" "0,1" bitfld.long 0x0 30. "GAMMAINVERSION,Inverse Gamma support [using the CLUT table]" "0,1" bitfld.long 0x0 28. "PREMULTIPLYALPHA,The field configures the DISPC VID to process incoming data as premultiplied alpha data or non premultiplied alpha data. Default setting is non premultiplied alpha data" "0,1" newline bitfld.long 0x0 24. "SELFREFRESH,Enables the self refresh of the video window from its own DMA buffer only" "0,1" bitfld.long 0x0 23. "ARBITRATION,Determines the priority of the video pipeline. The video pipeline is one of the high priority pipelines. The arbitration gives always the priority first to the high priority pipelines using round-robin between them. When there are only normal.." "0,1" rbitfld.long 0x0 21. "RESERVED3,Write 0's for future compatibility. Reads return 0" "0,1" newline bitfld.long 0x0 19. "BUFPRELOAD,Video Preload Value" "0,1" rbitfld.long 0x0 18. "RESERVED7,Write 0's for future compatibility. Reads return 0" "0,1" bitfld.long 0x0 17. "SELFREFRESHAUTO,Automatic self refresh mode" "0,1" newline bitfld.long 0x0 12. "FLIP,Describes the frame buffer flip operation" "0,1" bitfld.long 0x0 11. "FULLRANGE,Color Space Conversion full range setting" "0,1" bitfld.long 0x0 10. "NIBBLEMODE,Video Nibble mode [only for 1- 2- and 4-bpp]" "0,1" newline bitfld.long 0x0 9. "COLORCONVENABLE,Enable the color space conversion. The HW does not enable/disable the conversion based on the pixel format" "0,1" rbitfld.long 0x0 7.--8. "RESERVED8,Write 0's for future compatibility. Reads return 0" "0,1,2,3" hexmask.long.byte 0x0 1.--6. 1. "FORMAT,Video Format. It defines the pixel format when fetching the video frame buffer" newline bitfld.long 0x0 0. "ENABLE,Video pipeline Enable" "0,1" line.long 0x4 "VIDL1_ATTRIBUTES2,The register configures the attributes of the video window. Shadow register" hexmask.long.byte 0x4 26.--30. 1. "TAGS,Number of OCP TAGS to be used for the pipeline [from 0x0 to 0xF]. A value of 0x0 means only a single tag will be used. A value of 0xF means all 16 tags can be used" bitfld.long 0x4 10. "YUV_ALIGN,Alignment [MSB or LSB align] for unpacked 10b/12b YUV data" "0,1" bitfld.long 0x4 9. "YUV_MODE,Mode of packing for YUV data [only for 10b/12b formats]" "0,1" newline bitfld.long 0x4 7.--8. "YUV_SIZE,Size of YUV data 8b/10b/12b" "0,1,2,3" bitfld.long 0x4 4.--6. "VC1_RANGE_CBCR,Defines the VC1 range value for the CbCr component from 0 to 7" "0,1,2,3,4,5,6,7" bitfld.long 0x4 1.--3. "VC1_RANGE_Y,Defines the VC1 range value for the Y component from 0 to 7" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 0. "VC1ENABLE,Enable/disable the VC1 range mapping processing. The bit-field is ignored if the format is not one of the supported YUV formats" "0,1" line.long 0x8 "VIDL1_BA_0,The register configures the base address of the single video buffer. In case of single plane ARGB or YUV. this is the BA. In case of two plane YUV. this is the BA_Y. In case of two plane RGB565-A8. this is the BA_Alpha. BA__0 & BA__1 for.." hexmask.long 0x8 0.--31. 1. "BA,Video base address. Base address of the video buffer [Aligned on pixel size boundary except for the following. In case of RGB24 packed format 4-pixel alignment is required. In case of YUV422 2-pixel alignment is required. In case of YUV420 byte.." line.long 0xC "VIDL1_BA_1,The register configures the base address of the single video buffer. In case of single plane ARGB or YUV. this is the BA. In case of two plane YUV. this is the BA_Y. In case of two plane RGB565-A8. this is the BA_Alpha. BA__0 & BA__1 for.." hexmask.long 0xC 0.--31. 1. "BA,Video base address. Base address of the video buffer [Aligned on pixel size boundary except for the following. In case of RGB24 packed format 4-pixel alignment is required. In case of YUV422 2-pixel alignment is required. In case of YUV420 byte.." line.long 0x10 "VIDL1_BA_UV_0,The register configures the base address of the UV buffer for two plane YUV or RGB buffer for two plane RGB565-A8. for the video window. BA_UV__0 & BA_UV__1 for ping-pong mechanism with external trigger. based on the field polarity.." hexmask.long 0x10 0.--31. 1. "BA,Video base address aligned on 16-bit boundary Base address of the UV video buffer used only in case of YUV420-NV12" line.long 0x14 "VIDL1_BA_UV_1,The register configures the base address of the UV buffer for two plane YUV or RGB buffer for two plane RGB565-A8. for the video window. BA_UV__0 & BA_UV__1 for ping-pong mechanism with external trigger. based on the field polarity.." hexmask.long 0x14 0.--31. 1. "BA,Video base address aligned on 16-bit boundary Base address of the UV video buffer used only in case of YUV420-NV12" rgroup.long 0x38++0x3 line.long 0x0 "VIDL1_BUF_SIZE_STATUS,The register returns the Video buffer size for the video pipeline" hexmask.long.word 0x0 16.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x0 0.--15. 1. "BUFSIZE,Video DMA buffer Size in number of 128-bits" group.long 0x3C++0x1F line.long 0x0 "VIDL1_BUF_THRESHOLD,The register configures the video buffer associated with the video pipeline. Shadow register" hexmask.long.word 0x0 16.--31. 1. "BUFHIGHTHRESHOLD,DMA buffer High Threshold. Number of 128-bits defining the threshold value" hexmask.long.word 0x0 0.--15. 1. "BUFLOWTHRESHOLD,DMA buffer Low Threshold. Number of 128-bits defining the threshold value" line.long 0x4 "VIDL1_CSC_COEF0,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x4 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x4 16.--26. 1. "C01,C01 Coefficient. Encoded signed value [from -1024 to 1023]" hexmask.long.byte 0x4 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.word 0x4 0.--10. 1. "C00,C00 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x8 "VIDL1_CSC_COEF1,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x8 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x8 16.--26. 1. "C10,C10 Coefficient. Encoded signed value [from -1024 to 1023]" hexmask.long.byte 0x8 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.word 0x8 0.--10. 1. "C02,C02 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0xC "VIDL1_CSC_COEF2,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0xC 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0xC 16.--26. 1. "C12,C12 Coefficient. Encoded signed value [from -1024 to 1023]" hexmask.long.byte 0xC 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.word 0xC 0.--10. 1. "C11,C11 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x10 "VIDL1_CSC_COEF3,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x10 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x10 16.--26. 1. "C21,C21 coefficient. Encoded signed value [from -1024 to 1023]" hexmask.long.byte 0x10 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.word 0x10 0.--10. 1. "C20,C20 coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x14 "VIDL1_CSC_COEF4,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.tbyte 0x14 11.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x14 0.--10. 1. "C22,C22 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x18 "VIDL1_CSC_COEF5,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x18 19.--31. 1. "PREOFFSET2,Row-2 pre-offset. Encoded signed value [from -4096 to 4095]" hexmask.long.word 0x18 3.--15. 1. "PREOFFSET1,Row1 pre-offset. Encoded signed value [from -4096 to 4095]" line.long 0x1C "VIDL1_CSC_COEF6,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x1C 19.--31. 1. "POSTOFFSET1,Row-1 post-offset. Encoded signed value [from -4096 to 4095]" hexmask.long.word 0x1C 3.--15. 1. "PREOFFSET3,Row-3 pre-offset. Encoded signed value [from -4096 to 4095]" group.long 0x1FC++0x3 line.long 0x0 "VIDL1_GLOBAL_ALPHA,The register defines the global alpha value for the video pipeline. Shadow register" hexmask.long.byte 0x0 0.--7. 1. "GLOBALALPHA,Global alpha value from 0 to 255. 0 corresponds to fully transparent and 255 corresponds to fully opaque" group.long 0x208++0xB line.long 0x0 "VIDL1_MFLAG_THRESHOLD,MFLAG_THRESHOLD Register" hexmask.long.word 0x0 16.--31. 1. "HT_MFLAG,MFLAG High Threshold" hexmask.long.word 0x0 0.--15. 1. "LT_MFLAG,MFLAG Low Threshold" line.long 0x4 "VIDL1_PICTURE_SIZE,The register configures the size of the video picture associated with the video layer before up/down-scaling. Shadow register" hexmask.long.word 0x4 16.--27. 1. "MEMSIZEY,Number of lines of the video picture Encoded value [from 1 to 4096] to specify the number of lines of the video picture in memory [program to value minus one]. When predecimation is set the value represents the size of the image after.." hexmask.long.word 0x4 0.--11. 1. "MEMSIZEX,Number of pixels of the video picture Encoded value [from 1 to 4096] to specify the number of pixels of the video picture in memory [program to value minus one]. The size is limited to the size of the line buffer of the vertical sampling block.." line.long 0x8 "VIDL1_PIXEL_INC,The register configures the number of bytes to increment between two pixels for the buffer associated with the video window. Shadow register" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.byte 0x8 0.--7. 1. "PIXELINC,Number of bytes to increment between two pixels Encoded unsigned value [from 1 to 255] to specify the number of bytes between two pixels in the video buffer. The value 0 is invalid The value 1 means next pixel The value 1+n*bpp means increment.." group.long 0x218++0x7 line.long 0x0 "VIDL1_PRELOAD,The register configures the DMA buffer of the video pipeline. Shadow register" hexmask.long.tbyte 0x0 12.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x0 0.--11. 1. "PRELOAD,DMA buffer preload value. Number of 128-bit words defining the preload value" line.long 0x4 "VIDL1_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. For YUV420 formats this corresponds to the Y Buffer. Shadow register" hexmask.long 0x4 0.--31. 1. "ROWINC,Number of bytes to increment at the end of the row Encoded signed value [from -2^31-1 to 2^31] to specify the number of bytes to increment at the end of the row in the video buffer. The value 0 is invalid. The value 1 means next pixel. The value.." group.long 0x22C++0x13 line.long 0x0 "VIDL1_BA_EXT_0,The register configures the 16-bit base address extension. It is the base-address of the single video buffer for single plane ARGB or YUV. For the Y buffer for two plane YUV. For the Alpha buffer for two plane RGB565-A8. 0 & 1 : For.." hexmask.long.word 0x0 0.--15. 1. "BA_EXT,Video base address extension [16 bits]. Addr extension to make the address space 48b wide" line.long 0x4 "VIDL1_BA_EXT_1,The register configures the 16-bit base address extension. It is the base-address of the single video buffer for single plane ARGB or YUV. For the Y buffer for two plane YUV. For the Alpha buffer for two plane RGB565-A8. 0 & 1 : For.." hexmask.long.word 0x4 0.--15. 1. "BA_EXT,Video base address extension [16 bits]. Addr extension to make the address space 48b wide" line.long 0x8 "VIDL1_BA_UV_EXT_0,The register configures the 16-bit base address extension of the UV buffer for two plane YUV or the RGB buffer for two plane RGB565-A8. 0 & 1 : For ping-pong mechanism with external trigger. based on the field polarity. Shadow register" hexmask.long.word 0x8 0.--15. 1. "BA_UV_EXT,Video base address extension [16 bits]. Addr extension to make the address space 48b wide" line.long 0xC "VIDL1_BA_UV_EXT_1,The register configures the 16-bit base address extension of the UV buffer for two plane YUV or the RGB buffer for two plane RGB565-A8. 0 & 1 : For ping-pong mechanism with external trigger. based on the field polarity. Shadow register" hexmask.long.word 0xC 0.--15. 1. "BA_UV_EXT,Video base address extension [16 bits]. Addr extension to make the address space 48b wide" line.long 0x10 "VIDL1_CSC_COEF7,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x10 19.--31. 1. "POSTOFFSET3,Row-3 post-offset. Encoded signed value [from -4096 to 4095]" hexmask.long.word 0x10 3.--15. 1. "POSTOFFSET2,Row-2 post-offset. Encoded signed value [from -4096 to 4095]" group.long 0x248++0x3 line.long 0x0 "VIDL1_ROW_INC_UV,The register configures the number of bytes to increment at the end of the row for the UV buffer associated with the video window for YUV420 formats. For non-YUV420 formats this register is unused. Shadow register" hexmask.long 0x0 0.--31. 1. "ROWINC,Number of bytes to increment at the end of the row Encoded signed value [from -2^31-1 to 2^31] to specify the number of bytes to increment at the end of the row in the video buffer. The value 0 is invalid The value 1 means next pixel. The value.." wgroup.long 0x260++0x3F line.long 0x0 "VIDL1_CLUT_0,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x0 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x0 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x0 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x0 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x4 "VIDL1_CLUT_1,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x4 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x4 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x4 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x4 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x8 "VIDL1_CLUT_2,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x8 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x8 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x8 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x8 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0xC "VIDL1_CLUT_3,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0xC 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0xC 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0xC 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0xC 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x10 "VIDL1_CLUT_4,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x10 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x10 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x10 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x10 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x14 "VIDL1_CLUT_5,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x14 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x14 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x14 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x14 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x18 "VIDL1_CLUT_6,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x18 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x18 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x18 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x18 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x1C "VIDL1_CLUT_7,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x1C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x1C 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x1C 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x1C 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x20 "VIDL1_CLUT_8,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x20 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x20 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x20 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x20 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x24 "VIDL1_CLUT_9,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x24 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x24 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x24 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x24 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x28 "VIDL1_CLUT_10,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x28 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x28 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x28 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x28 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x2C "VIDL1_CLUT_11,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x2C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x2C 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x2C 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x2C 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x30 "VIDL1_CLUT_12,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x30 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x30 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x30 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x30 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x34 "VIDL1_CLUT_13,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x34 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x34 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x34 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x34 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x38 "VIDL1_CLUT_14,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x38 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x38 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x38 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x38 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" line.long 0x3C "VIDL1_CLUT_15,The register configures the Color Look Up Table CLUT for VID pipeline. CLUT is used in conjunction with bitmap formats" hexmask.long.byte 0x3C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" hexmask.long.byte 0x3C 16.--23. 1. "VALUE_R,8-bit R-value to store at the location in the table defined by the bit-field INDEX" hexmask.long.byte 0x3C 8.--15. 1. "VALUE_G,8-bit G-value to store at the location in the table defined by the bit-field INDEX" newline hexmask.long.byte 0x3C 0.--7. 1. "VALUE_B,8-bit B-value to store at the location in the table defined by the bit-field INDEX" group.long 0x2A0++0x3 line.long 0x0 "VIDL1_SAFETY_ATTRIBUTES,The register configures the safety sub-region. Shadow register" bitfld.long 0x0 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" hexmask.long.byte 0x0 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature. When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur. Note: The freeze frame counter is cleared on reset -OR- MISR.." bitfld.long 0x0 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x0 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" bitfld.long 0x0 0. "ENABLE,Safety check Enable for the region. Note: Transition from 0 to 1 clears the signature register" "0,1" rgroup.long 0x2A4++0x3 line.long 0x0 "VIDL1_SAFETY_CAPT_SIGNATURE,The register captures the signature from the MISR of the safety sub-region. Shadow register" hexmask.long 0x0 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region. Shadow register" group.long 0x2A8++0x13 line.long 0x0 "VIDL1_SAFETY_POSITION,The register configures the position of the safety sub-region. Shadow register" hexmask.long.word 0x0 16.--27. 1. "POSY,Y position of the safety sub-region. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen. The first line on the top of the screen has the Y-position 0" hexmask.long.word 0x0 0.--11. 1. "POSX,X position of the safety sub-region. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen. The first pixel on the left of the screen has the X-position 0" line.long 0x4 "VIDL1_SAFETY_REF_SIGNATURE,The register configures the reference signature of the safety sub-region. Shadow register" hexmask.long 0x4 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region. Shadow register" line.long 0x8 "VIDL1_SAFETY_SIZE,The register configures the size of the safety sub-region. Shadow register" hexmask.long.word 0x8 16.--27. 1. "SIZEY,Height of the safety sub-region. Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen. One line height region has value of 0" hexmask.long.word 0x8 0.--11. 1. "SIZEX,Width of the safety sub-region. Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen. One pixel wide region has value of 0" line.long 0xC "VIDL1_SAFETY_LFSR_SEED,The register configures the seed [initial value] of the MISR. Otherwise. the MISR is initialized with 0xFFFF_FFFF. Shadow register" hexmask.long 0xC 0.--31. 1. "SEED,The register configures the seed [initial value] of the MISR. Otherwise the MISR is initialized with 0xFFFF_FFFF. Shadow register" line.long 0x10 "VIDL1_LUMAKEY,The register configures the LUMA KEY transparency min and max values. Shadow register" hexmask.long.byte 0x10 28.--31. 1. "RESERVED1,Write 0's for future compatibility Reads return 0" hexmask.long.word 0x10 16.--27. 1. "LUMAKEYMAX,12b luma_key_max value" hexmask.long.byte 0x10 12.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.word 0x10 0.--11. 1. "LUMAKEYMIN,12b luma_key_min value" tree.end tree "DSS1_VP1 (DSS1_VP1)" base ad:0x3022A000 group.long 0x0++0x1F line.long 0x0 "VP1_CONFIG,The control register configures the Display Controller module for the VP output. Shadow register." hexmask.long.byte 0x0 27.--31. 1. "RESERVED3," newline bitfld.long 0x0 26. "COLORCONVPOS,Determines the position of the COLORCONV module" "0,1" newline bitfld.long 0x0 25. "FULLRANGE,Color Space Conversion full range setting" "0,1" newline bitfld.long 0x0 24. "COLORCONVENABLE,Enable the color space conversion. The coefficients and offsets used are all programmable and controlled by CPR_COEFF_* and CPR_OFFSET_* registers" "0,1" newline bitfld.long 0x0 23. "FIDFIRST,Selects the first field to output in case of interlace mode. In case of progressive mode the value is not used" "0,1" newline bitfld.long 0x0 22. "OUTPUTMODEENABLE,Selects between progressive and interlace mode for the VP output" "0,1" newline bitfld.long 0x0 21. "BT1120ENABLE,Selects BT-1120 format on the VP output. It is not possible to enable BT656 and BT1120 at the same time one the same LCD output" "0,1" newline bitfld.long 0x0 20. "BT656ENABLE,Selects BT-656 format on the VP output. It is not possible to enable BT656 and BT1120 at the same time one the same LCD output" "0,1" newline rbitfld.long 0x0 17.--19. "RESERVED2,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 16. "BUFFERHANDSHAKE,Deprecated. Always write 0" "0,1" newline bitfld.long 0x0 15. "CPR,Deprecated. Always write 0" "0,1" newline hexmask.long.byte 0x0 9.--14. 1. "RESERVED1,Write 0's for future compatibility Reads return 0" newline bitfld.long 0x0 8. "EXTERNALSYNCEN,Deprecated. Always write 0" "0,1" newline bitfld.long 0x0 7. "VSYNCGATED,VSYNC Gated Enabled [VP output]. Shadow bit-field" "0,1" newline bitfld.long 0x0 6. "HSYNCGATED,HSYNC Gated Enabled [VP output]. Shadow bit-field" "0,1" newline bitfld.long 0x0 5. "PIXELCLOCKGATED,Pixel Clock Gated Enabled [VP output]. Shadow bit-field" "0,1" newline bitfld.long 0x0 4. "PIXELDATAGATED,Pixel Data Gated Enabled [VP output]. Shadow bit-field" "0,1" newline bitfld.long 0x0 3. "HDMIMODE,Deprecated. Always write 0" "0,1" newline bitfld.long 0x0 2. "GAMMAENABLE,Enable the gamma Shadow bit-field" "0,1" newline bitfld.long 0x0 1. "DATAENABLEGATED,DE Gated Enable Shadow bit-field" "0,1" newline bitfld.long 0x0 0. "PIXELGATED,Pixel Gated Enable. Shadow bit-field" "0,1" line.long 0x4 "VP1_CONTROL,The control register configures the Display Controller module for the VP output" bitfld.long 0x4 30.--31. "SPATIALTEMPORALDITHERINGFRAMES,Spatial/Temporal dithering number of frames for the VP output Shadow bit-field" "0,1,2,3" newline rbitfld.long 0x4 27.--29. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 25.--26. "TDMUNUSEDBITS,State of unused bits [TDM mode only] for the VP output Shadow bit-field" "0,1,2,3" newline bitfld.long 0x4 23.--24. "TDMCYCLEFORMAT,Cycle format [TDM mode only] for the VP output Shadow bit-field" "0,1,2,3" newline bitfld.long 0x4 21.--22. "TDMPARALLELMODE,Output Interface width [TDM mode only] for the VP output Shadow bit-field" "0,1,2,3" newline bitfld.long 0x4 20. "TDMENABLE,Enable the multiple cycle format for the VP output Shadow bit-field" "0,1" newline rbitfld.long 0x4 17.--19. "RESERVED1," "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 14.--16. "HT,Hold Time for output. Shadow bit-field. Encoded value [from 1 to 8] to specify the number of external digital clock periods to hold the data [programmed value = value minus one]" "0,1,2,3,4,5,6,7" newline rbitfld.long 0x4 13. "RESERVED3," "0,1" newline rbitfld.long 0x4 12. "RESERVED6," "0,1" newline bitfld.long 0x4 11. "STALLMODE,Deprecated. Always write 0" "0,1" newline bitfld.long 0x4 8.--10. "DATALINES,Width of the data bus on VP output Shadow bit-field" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 7. "STDITHERENABLE,Spatial Temporal dithering enable for the VP output Shadow bit-field" "0,1" newline bitfld.long 0x4 6. "DPIENABLE,Enable the DPI output. wr:immediate" "0,1" newline bitfld.long 0x4 5. "GOBIT,GO Command for the VP output. It is used to synchronize the pipelines associated with the VP output wr:immediate" "0,1" newline bitfld.long 0x4 4. "M8B,Deprecated. Always write 0" "0,1" newline bitfld.long 0x4 3. "STN,Deprecated. Always write 0" "0,1" newline bitfld.long 0x4 2. "MONOCOLOR,Deprecated. Always write 0" "0,1" newline bitfld.long 0x4 1. "VPPROGLINENUMBERMODULO,Enable the modulo of the line number interrupt generation" "0,1" newline bitfld.long 0x4 0. "ENABLE,Enable the video port output. wr:immediate" "0,1" line.long 0x8 "VP1_CSC_COEF0,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x8 27.--31. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x8 16.--26. 1. "C01,C01 Coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0x8 11.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x8 0.--10. 1. "C00,C00 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0xC "VP1_CSC_COEF1,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0xC 27.--31. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0xC 16.--26. 1. "C10,C10 Coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0xC 11.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0xC 0.--10. 1. "C02,C02 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x10 "VP1_CSC_COEF2,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x10 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.word 0x10 16.--26. 1. "C12,C12 Coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0x10 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.word 0x10 0.--10. 1. "C11,C11 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x14 "VP1_DATA_CYCLE_0,The control register configures the output data format over up to 3 cycles. Shadow register" hexmask.long.byte 0x14 28.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.byte 0x14 24.--27. 1. "BITALIGNMENTPIXEL2,Bit alignment Alignment of the bits from pixel 2 on the output interface" newline rbitfld.long 0x14 21.--23. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x14 16.--20. 1. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" newline hexmask.long.byte 0x14 12.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.byte 0x14 8.--11. 1. "BITALIGNMENTPIXEL1,Bit alignment Alignment of the bits from pixel 1 on the output interface" newline rbitfld.long 0x14 5.--7. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x14 0.--4. 1. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" line.long 0x18 "VP1_DATA_CYCLE_1,The control register configures the output data format over up to 3 cycles. Shadow register" hexmask.long.byte 0x18 28.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.byte 0x18 24.--27. 1. "BITALIGNMENTPIXEL2,Bit alignment Alignment of the bits from pixel 2 on the output interface" newline rbitfld.long 0x18 21.--23. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x18 16.--20. 1. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" newline hexmask.long.byte 0x18 12.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.byte 0x18 8.--11. 1. "BITALIGNMENTPIXEL1,Bit alignment Alignment of the bits from pixel 1 on the output interface" newline rbitfld.long 0x18 5.--7. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x18 0.--4. 1. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" line.long 0x1C "VP1_DATA_CYCLE_2,The control register configures the output data format over up to 3 cycles. Shadow register" hexmask.long.byte 0x1C 28.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.byte 0x1C 24.--27. 1. "BITALIGNMENTPIXEL2,Bit alignment Alignment of the bits from pixel 2 on the output interface" newline rbitfld.long 0x1C 21.--23. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x1C 16.--20. 1. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" newline hexmask.long.byte 0x1C 12.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.byte 0x1C 8.--11. 1. "BITALIGNMENTPIXEL1,Bit alignment Alignment of the bits from pixel 1 on the output interface" newline rbitfld.long 0x1C 5.--7. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x1C 0.--4. 1. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" group.long 0x44++0x3 line.long 0x0 "VP1_LINE_NUMBER,The control register indicates the panel display line number for the interrupt and the DMA request. Shadow register" hexmask.long.tbyte 0x0 12.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--11. 1. "LINENUMBER,LCD panel line number programming LCD line number defines the line on which the programmable interrupt is generated and the DMA request occurs" group.long 0x4C++0x33 line.long 0x0 "VP1_POL_FREQ,The register configures the signal configuration. Shadow register" hexmask.long.word 0x0 19.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline bitfld.long 0x0 18. "ALIGN,Defines the alignment between HSYNC and VSYNC assertion" "0,1" newline bitfld.long 0x0 17. "ONOFF,HSYNC/VSYNC Pixel clock Control On/Off" "0,1" newline bitfld.long 0x0 16. "RF,Program HSYNC/VSYNC Rise or Fall To set HSYNC/VSYNC to pixel clock relationship CTRL_MMR_DPI0_CLK_CTRL[9] DPI0_CLK_CTRL_SYNC_CLK_INVDIS setting should be opposite the [16] RF setting." "0,1" newline bitfld.long 0x0 15. "IEO,Invert output enable" "0,1" newline bitfld.long 0x0 14. "IPC,Invert pixel clock To set data to pixel clock relationship CTRL_MMR_DPI0_CLK_CTRL[8] DPI0_CLK_CTRL_DATA_CLK_INVDIS setting should be opposite the [14] IPC setting." "0,1" newline bitfld.long 0x0 13. "IHS,Invert HSYNC" "0,1" newline bitfld.long 0x0 12. "IVS,Invert VSYNC" "0,1" newline hexmask.long.byte 0x0 8.--11. 1. "ACBI,AC Bias Pin transitions per interrupt Value [from 0 to 15] used to specify the number of AC Bias pin transitions" newline hexmask.long.byte 0x0 0.--7. 1. "ACB,AC Bias Pin Frequency Value [from 0 to 255] used to specify the number of line clocks to count before transitioning the AC Bias pin. This pin is used to periodically invert the polarity of the power supply to prevent DC charge build-up within the.." line.long 0x4 "VP1_SIZE_SCREEN,The register configures the panel size horizontal and vertical. Shadow register. A delta value is used to indicate if the odd field has same vertical size as the even field or +/- one line." hexmask.long.byte 0x4 28.--31. 1. "RESERVED1," newline hexmask.long.word 0x4 16.--27. 1. "LPP,Lines per panel Encoded value [from 1 to 4096] to specify the number of lines per panel [program to value minus one]" newline bitfld.long 0x4 14.--15. "DELTA_LPP,Indicates the delta size value of the odd field compared to the even field" "0,1,2,3" newline rbitfld.long 0x4 12.--13. "RESERVED," "0,1,2,3" newline hexmask.long.word 0x4 0.--11. 1. "PPL,Pixels per line Encoded value [from 1 to 4096] to specify the number of pixels contains within each line on the display [program to value minus one]. In STALL mode any value is valid In non-STALL mode only values multiple of 8 pixels are valid" line.long 0x8 "VP1_TIMING_H,The register configures the timing logic for the HSYNC signal. Shadow register" hexmask.long.word 0x8 20.--31. 1. "HBP,Horizontal Back Porch Encoded value [from 1 to 4096] to specify the number of pixel clock periods to add to the beginning of a line transmission before the first set of pixels is output to the display [program to value minus one] When in BT mode and.." newline hexmask.long.word 0x8 8.--19. 1. "HFP,Horizontal front porch Encoded value [from 1 to 4096] to specify the number of pixel clock periods to add to the end of a line transmission before line clock is asserted display [program to value minus one] When in BT mode and interlaced this field.." newline hexmask.long.byte 0x8 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 display [program to value minus one] When in BT mode this field corresponds to the LSB.." line.long 0xC "VP1_TIMING_V,The register configures the timing logic for the VSYNC signal. Shadow register" hexmask.long.word 0xC 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 When in BT mode and interlaced this field corresponds to the vertical field blanking No 2 for Odd Field When in BT and.." newline hexmask.long.word 0xC 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 When in BT mode and interlaced this field corresponds to the vertical field blanking No 1 for Odd Field When in BT and in.." newline hexmask.long.byte 0xC 0.--7. 1. "VSW,Vertical synchronization pulse width Encoded value [from 1 to 256] to specify the number of line clock periods to pulse the frame clock [VSYNC] pin at the end of each frame after the end of frame wait [VFP] period elapses Frame clock uses as VSYNC.." line.long 0x10 "VP1_CSC_COEF3,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x10 27.--31. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x10 16.--26. 1. "C21,C21 coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0x10 11.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x10 0.--10. 1. "C20,C20 coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x14 "VP1_CSC_COEF4,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.tbyte 0x14 11.--31. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x14 0.--10. 1. "C22,C22 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x18 "VP1_CSC_COEF5,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x18 19.--31. 1. "PREOFFSET2,Row-2 pre-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x18 16.--18. "RESERVED1," "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x18 3.--15. 1. "PREOFFSET1,Row1 pre-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x18 0.--2. "RESERVED," "0,1,2,3,4,5,6,7" line.long 0x1C "VP1_CSC_COEF6,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x1C 19.--31. 1. "POSTOFFSET1,Row-1 post-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x1C 16.--18. "RESERVED1," "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x1C 3.--15. 1. "PREOFFSET3,Row-3 pre-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x1C 0.--2. "RESERVED," "0,1,2,3,4,5,6,7" line.long 0x20 "VP1_CSC_COEF7,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x20 19.--31. 1. "POSTOFFSET3,Row-3 post-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x20 16.--18. "RESERVED1," "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x20 3.--15. 1. "POSTOFFSET2,Row-2 post-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x20 0.--2. "RESERVED," "0,1,2,3,4,5,6,7" line.long 0x24 "VP1_SAFETY_ATTRIBUTES_0,The register configures the safety sub-region n. Shadow register" hexmask.long.tbyte 0x24 13.--31. 1. "RESERVED," newline bitfld.long 0x24 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" newline hexmask.long.byte 0x24 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur Note: The freeze frame counter is cleared on reset -OR- MISR not.." newline bitfld.long 0x24 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x24 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" newline bitfld.long 0x24 0. "ENABLE,Safety check Enable for the region Note: Transition from 0 to 1 clears the signature register" "0,1" line.long 0x28 "VP1_SAFETY_ATTRIBUTES_1,The register configures the safety sub-region n. Shadow register" hexmask.long.tbyte 0x28 13.--31. 1. "RESERVED," newline bitfld.long 0x28 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" newline hexmask.long.byte 0x28 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur Note: The freeze frame counter is cleared on reset -OR- MISR not.." newline bitfld.long 0x28 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x28 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" newline bitfld.long 0x28 0. "ENABLE,Safety check Enable for the region Note: Transition from 0 to 1 clears the signature register" "0,1" line.long 0x2C "VP1_SAFETY_ATTRIBUTES_2,The register configures the safety sub-region n. Shadow register" hexmask.long.tbyte 0x2C 13.--31. 1. "RESERVED," newline bitfld.long 0x2C 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" newline hexmask.long.byte 0x2C 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur Note: The freeze frame counter is cleared on reset -OR- MISR not.." newline bitfld.long 0x2C 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x2C 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" newline bitfld.long 0x2C 0. "ENABLE,Safety check Enable for the region Note: Transition from 0 to 1 clears the signature register" "0,1" line.long 0x30 "VP1_SAFETY_ATTRIBUTES_3,The register configures the safety sub-region n. Shadow register" hexmask.long.tbyte 0x30 13.--31. 1. "RESERVED," newline bitfld.long 0x30 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" newline hexmask.long.byte 0x30 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur Note: The freeze frame counter is cleared on reset -OR- MISR not.." newline bitfld.long 0x30 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x30 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" newline bitfld.long 0x30 0. "ENABLE,Safety check Enable for the region Note: Transition from 0 to 1 clears the signature register" "0,1" rgroup.long 0x90++0xF line.long 0x0 "VP1_SAFETY_CAPT_SIGNATURE_0,The register captures the signature from the MISR of the safety sub-region n. Shadow register" hexmask.long 0x0 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n Shadow register" line.long 0x4 "VP1_SAFETY_CAPT_SIGNATURE_1,The register captures the signature from the MISR of the safety sub-region n. Shadow register" hexmask.long 0x4 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n Shadow register" line.long 0x8 "VP1_SAFETY_CAPT_SIGNATURE_2,The register captures the signature from the MISR of the safety sub-region n. Shadow register" hexmask.long 0x8 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n Shadow register" line.long 0xC "VP1_SAFETY_CAPT_SIGNATURE_3,The register captures the signature from the MISR of the safety sub-region n. Shadow register" hexmask.long 0xC 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n Shadow register" group.long 0xB0++0xF line.long 0x0 "VP1_SAFETY_POSITION_0,The register configures the position of the safety sub-region n. Shadow register" hexmask.long.byte 0x0 28.--31. 1. "RESERVED," newline hexmask.long.word 0x0 16.--27. 1. "POSY,Y position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen The first line on the top of the screen has the Y-position 0" newline hexmask.long.byte 0x0 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x0 0.--11. 1. "POSX,X position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen The first pixel on the left of the screen has the X-position 0" line.long 0x4 "VP1_SAFETY_POSITION_1,The register configures the position of the safety sub-region n. Shadow register" hexmask.long.byte 0x4 28.--31. 1. "RESERVED," newline hexmask.long.word 0x4 16.--27. 1. "POSY,Y position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen The first line on the top of the screen has the Y-position 0" newline hexmask.long.byte 0x4 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x4 0.--11. 1. "POSX,X position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen The first pixel on the left of the screen has the X-position 0" line.long 0x8 "VP1_SAFETY_POSITION_2,The register configures the position of the safety sub-region n. Shadow register" hexmask.long.byte 0x8 28.--31. 1. "RESERVED," newline hexmask.long.word 0x8 16.--27. 1. "POSY,Y position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen The first line on the top of the screen has the Y-position 0" newline hexmask.long.byte 0x8 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x8 0.--11. 1. "POSX,X position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen The first pixel on the left of the screen has the X-position 0" line.long 0xC "VP1_SAFETY_POSITION_3,The register configures the position of the safety sub-region n. Shadow register" hexmask.long.byte 0xC 28.--31. 1. "RESERVED," newline hexmask.long.word 0xC 16.--27. 1. "POSY,Y position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen The first line on the top of the screen has the Y-position 0" newline hexmask.long.byte 0xC 12.--15. 1. "RESERVED1," newline hexmask.long.word 0xC 0.--11. 1. "POSX,X position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen The first pixel on the left of the screen has the X-position 0" group.long 0xD0++0xF line.long 0x0 "VP1_SAFETY_REF_SIGNATURE_0,The register configures the reference signature of the safety sub-region n. Shadow register" hexmask.long 0x0 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n. Shadow register" line.long 0x4 "VP1_SAFETY_REF_SIGNATURE_1,The register configures the reference signature of the safety sub-region n. Shadow register" hexmask.long 0x4 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n. Shadow register" line.long 0x8 "VP1_SAFETY_REF_SIGNATURE_2,The register configures the reference signature of the safety sub-region n. Shadow register" hexmask.long 0x8 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n. Shadow register" line.long 0xC "VP1_SAFETY_REF_SIGNATURE_3,The register configures the reference signature of the safety sub-region n. Shadow register" hexmask.long 0xC 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n. Shadow register" group.long 0xF0++0xF line.long 0x0 "VP1_SAFETY_SIZE_0,The register configures the size of the safety sub-region n Shadow register." hexmask.long.byte 0x0 28.--31. 1. "RESERVED," newline hexmask.long.word 0x0 16.--27. 1. "SIZEY,Height of the safety sub-region n Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen One line height region has value of 0" newline hexmask.long.byte 0x0 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x0 0.--11. 1. "SIZEX,Width of the safety sub-region n Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen One pixel wide region has value of 0" line.long 0x4 "VP1_SAFETY_SIZE_1,The register configures the size of the safety sub-region n Shadow register." hexmask.long.byte 0x4 28.--31. 1. "RESERVED," newline hexmask.long.word 0x4 16.--27. 1. "SIZEY,Height of the safety sub-region n Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen One line height region has value of 0" newline hexmask.long.byte 0x4 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x4 0.--11. 1. "SIZEX,Width of the safety sub-region n Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen One pixel wide region has value of 0" line.long 0x8 "VP1_SAFETY_SIZE_2,The register configures the size of the safety sub-region n Shadow register." hexmask.long.byte 0x8 28.--31. 1. "RESERVED," newline hexmask.long.word 0x8 16.--27. 1. "SIZEY,Height of the safety sub-region n Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen One line height region has value of 0" newline hexmask.long.byte 0x8 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x8 0.--11. 1. "SIZEX,Width of the safety sub-region n Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen One pixel wide region has value of 0" line.long 0xC "VP1_SAFETY_SIZE_3,The register configures the size of the safety sub-region n Shadow register." hexmask.long.byte 0xC 28.--31. 1. "RESERVED," newline hexmask.long.word 0xC 16.--27. 1. "SIZEY,Height of the safety sub-region n Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen One line height region has value of 0" newline hexmask.long.byte 0xC 12.--15. 1. "RESERVED1," newline hexmask.long.word 0xC 0.--11. 1. "SIZEX,Width of the safety sub-region n Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen One pixel wide region has value of 0" group.long 0x110++0x3 line.long 0x0 "VP1_SAFETY_LFSR_SEED,The register configures the seed initial signature value of MISRs that are to be initialized with a user programmed initial value. Otherwise. the MISR is initialized with 0xFFFF_FFFF. Shadow register." hexmask.long 0x0 0.--31. 1. "SEED,The register configures the seed [initial signature value] of MISRs that are to be initialized with a user programmed initial value Otherwise the MISR is initialized with 0xFFFF_FFFF Shadow register" wgroup.long 0x120++0x3F line.long 0x0 "VP1_GAMMA_TABLE_0,The register configures the gamma table on VP output." hexmask.long.byte 0x0 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x0 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x0 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x0 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x4 "VP1_GAMMA_TABLE_1,The register configures the gamma table on VP output." hexmask.long.byte 0x4 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x4 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x4 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x4 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x8 "VP1_GAMMA_TABLE_2,The register configures the gamma table on VP output." hexmask.long.byte 0x8 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x8 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x8 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x8 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0xC "VP1_GAMMA_TABLE_3,The register configures the gamma table on VP output." hexmask.long.byte 0xC 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0xC 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0xC 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0xC 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x10 "VP1_GAMMA_TABLE_4,The register configures the gamma table on VP output." hexmask.long.byte 0x10 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x10 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x10 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x10 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x14 "VP1_GAMMA_TABLE_5,The register configures the gamma table on VP output." hexmask.long.byte 0x14 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x14 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x14 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x14 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x18 "VP1_GAMMA_TABLE_6,The register configures the gamma table on VP output." hexmask.long.byte 0x18 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x18 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x18 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x18 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x1C "VP1_GAMMA_TABLE_7,The register configures the gamma table on VP output." hexmask.long.byte 0x1C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x1C 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x1C 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x1C 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x20 "VP1_GAMMA_TABLE_8,The register configures the gamma table on VP output." hexmask.long.byte 0x20 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x20 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x20 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x20 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x24 "VP1_GAMMA_TABLE_9,The register configures the gamma table on VP output." hexmask.long.byte 0x24 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x24 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x24 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x24 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x28 "VP1_GAMMA_TABLE_10,The register configures the gamma table on VP output." hexmask.long.byte 0x28 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x28 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x28 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x28 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x2C "VP1_GAMMA_TABLE_11,The register configures the gamma table on VP output." hexmask.long.byte 0x2C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x2C 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x2C 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x2C 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x30 "VP1_GAMMA_TABLE_12,The register configures the gamma table on VP output." hexmask.long.byte 0x30 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x30 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x30 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x30 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x34 "VP1_GAMMA_TABLE_13,The register configures the gamma table on VP output." hexmask.long.byte 0x34 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x34 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x34 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x34 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x38 "VP1_GAMMA_TABLE_14,The register configures the gamma table on VP output." hexmask.long.byte 0x38 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x38 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x38 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x38 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x3C "VP1_GAMMA_TABLE_15,The register configures the gamma table on VP output." hexmask.long.byte 0x3C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x3C 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x3C 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x3C 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" group.long 0x160++0x3 line.long 0x0 "VP1_DSS_OLDI_CFG,This register configures the OLDI[N:0] modules connected to the DSS" bitfld.long 0x0 13. "TPATCFG,Test pattern Config" "0,1" newline bitfld.long 0x0 12. "SOFTRST,SoftWare Reset. By default OLDI is kept under reset" "0,1" newline bitfld.long 0x0 11. "DUALMODESYNC,DualMode Sync" "0,1" newline bitfld.long 0x0 10. "LBDATA,LoopBack Data" "0,1" newline bitfld.long 0x0 9. "LBEN,LoopBack Enable" "0,1" newline bitfld.long 0x0 8. "MSB,DSS bit-depth [for 18b LVDS only]" "0,1" newline bitfld.long 0x0 7. "DEPOL,Polarity of the DE signal" "0,1" newline bitfld.long 0x0 6. "MASTERSLAVE,Initiator selection in Dual mode only [typically tied off in the SoC]" "0,1" newline bitfld.long 0x0 5. "MODE,Single mode or duplicate mode" "0,1" newline bitfld.long 0x0 4. "SRC,Source Channel" "0,1" newline bitfld.long 0x0 1.--3. "MAP,Configuration of OLDI mapping Also indicates dual mode" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 0. "ENABLE,OLDI Enable" "0,1" rgroup.long 0x164++0x7 line.long 0x0 "VP1_DSS_OLDI_STATUS,This register captures the PID from the OLDI[N:0] modules connected to the DSS. Reads 0x0 if no OLDI is connected" hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID Field" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL Revision" newline bitfld.long 0x0 8.--10. "REVMAJOR,Major Revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor Revision" line.long 0x4 "VP1_DSS_OLDI_LB,This register captures the Loopback data from OLDI" hexmask.long.word 0x4 0.--9. 1. "LBRDATA,Returned Data from Loopback" tree.end tree "DSS1_VP2 (DSS1_VP2)" base ad:0x3022B000 group.long 0x0++0x1F line.long 0x0 "VP2_CONFIG,The control register configures the Display Controller module for the VP output. Shadow register." hexmask.long.byte 0x0 27.--31. 1. "RESERVED3," newline bitfld.long 0x0 26. "COLORCONVPOS,Determines the position of the COLORCONV module" "0,1" newline bitfld.long 0x0 25. "FULLRANGE,Color Space Conversion full range setting" "0,1" newline bitfld.long 0x0 24. "COLORCONVENABLE,Enable the color space conversion. The coefficients and offsets used are all programmable and controlled by CPR_COEFF_* and CPR_OFFSET_* registers" "0,1" newline bitfld.long 0x0 23. "FIDFIRST,Selects the first field to output in case of interlace mode. In case of progressive mode the value is not used" "0,1" newline bitfld.long 0x0 22. "OUTPUTMODEENABLE,Selects between progressive and interlace mode for the VP output" "0,1" newline bitfld.long 0x0 21. "BT1120ENABLE,Selects BT-1120 format on the VP output. It is not possible to enable BT656 and BT1120 at the same time one the same LCD output" "0,1" newline bitfld.long 0x0 20. "BT656ENABLE,Selects BT-656 format on the VP output. It is not possible to enable BT656 and BT1120 at the same time one the same LCD output" "0,1" newline rbitfld.long 0x0 17.--19. "RESERVED2,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 16. "BUFFERHANDSHAKE,Deprecated. Always write 0" "0,1" newline bitfld.long 0x0 15. "CPR,Deprecated. Always write 0" "0,1" newline hexmask.long.byte 0x0 9.--14. 1. "RESERVED1,Write 0's for future compatibility Reads return 0" newline bitfld.long 0x0 8. "EXTERNALSYNCEN,Deprecated. Always write 0" "0,1" newline bitfld.long 0x0 7. "VSYNCGATED,VSYNC Gated Enabled [VP output]. Shadow bit-field" "0,1" newline bitfld.long 0x0 6. "HSYNCGATED,HSYNC Gated Enabled [VP output]. Shadow bit-field" "0,1" newline bitfld.long 0x0 5. "PIXELCLOCKGATED,Pixel Clock Gated Enabled [VP output]. Shadow bit-field" "0,1" newline bitfld.long 0x0 4. "PIXELDATAGATED,Pixel Data Gated Enabled [VP output]. Shadow bit-field" "0,1" newline bitfld.long 0x0 3. "HDMIMODE,Deprecated. Always write 0" "0,1" newline bitfld.long 0x0 2. "GAMMAENABLE,Enable the gamma Shadow bit-field" "0,1" newline bitfld.long 0x0 1. "DATAENABLEGATED,DE Gated Enable Shadow bit-field" "0,1" newline bitfld.long 0x0 0. "PIXELGATED,Pixel Gated Enable. Shadow bit-field" "0,1" line.long 0x4 "VP2_CONTROL,The control register configures the Display Controller module for the VP output" bitfld.long 0x4 30.--31. "SPATIALTEMPORALDITHERINGFRAMES,Spatial/Temporal dithering number of frames for the VP output Shadow bit-field" "0,1,2,3" newline rbitfld.long 0x4 27.--29. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 25.--26. "TDMUNUSEDBITS,State of unused bits [TDM mode only] for the VP output Shadow bit-field" "0,1,2,3" newline bitfld.long 0x4 23.--24. "TDMCYCLEFORMAT,Cycle format [TDM mode only] for the VP output Shadow bit-field" "0,1,2,3" newline bitfld.long 0x4 21.--22. "TDMPARALLELMODE,Output Interface width [TDM mode only] for the VP output Shadow bit-field" "0,1,2,3" newline bitfld.long 0x4 20. "TDMENABLE,Enable the multiple cycle format for the VP output Shadow bit-field" "0,1" newline rbitfld.long 0x4 17.--19. "RESERVED1," "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 14.--16. "HT,Hold Time for output. Shadow bit-field. Encoded value [from 1 to 8] to specify the number of external digital clock periods to hold the data [programmed value = value minus one]" "0,1,2,3,4,5,6,7" newline rbitfld.long 0x4 13. "RESERVED3," "0,1" newline rbitfld.long 0x4 12. "RESERVED6," "0,1" newline bitfld.long 0x4 11. "STALLMODE,Deprecated. Always write 0" "0,1" newline bitfld.long 0x4 8.--10. "DATALINES,Width of the data bus on VP output Shadow bit-field" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 7. "STDITHERENABLE,Spatial Temporal dithering enable for the VP output Shadow bit-field" "0,1" newline bitfld.long 0x4 6. "DPIENABLE,Enable the DPI output. wr:immediate" "0,1" newline bitfld.long 0x4 5. "GOBIT,GO Command for the VP output. It is used to synchronize the pipelines associated with the VP output wr:immediate" "0,1" newline bitfld.long 0x4 4. "M8B,Deprecated. Always write 0" "0,1" newline bitfld.long 0x4 3. "STN,Deprecated. Always write 0" "0,1" newline bitfld.long 0x4 2. "MONOCOLOR,Deprecated. Always write 0" "0,1" newline bitfld.long 0x4 1. "VPPROGLINENUMBERMODULO,Enable the modulo of the line number interrupt generation" "0,1" newline bitfld.long 0x4 0. "ENABLE,Enable the video port output. wr:immediate" "0,1" line.long 0x8 "VP2_CSC_COEF0,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x8 27.--31. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x8 16.--26. 1. "C01,C01 Coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0x8 11.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x8 0.--10. 1. "C00,C00 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0xC "VP2_CSC_COEF1,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0xC 27.--31. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0xC 16.--26. 1. "C10,C10 Coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0xC 11.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0xC 0.--10. 1. "C02,C02 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x10 "VP2_CSC_COEF2,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x10 27.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.word 0x10 16.--26. 1. "C12,C12 Coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0x10 11.--15. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.word 0x10 0.--10. 1. "C11,C11 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x14 "VP2_DATA_CYCLE_0,The control register configures the output data format over up to 3 cycles. Shadow register" hexmask.long.byte 0x14 28.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.byte 0x14 24.--27. 1. "BITALIGNMENTPIXEL2,Bit alignment Alignment of the bits from pixel 2 on the output interface" newline rbitfld.long 0x14 21.--23. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x14 16.--20. 1. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" newline hexmask.long.byte 0x14 12.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.byte 0x14 8.--11. 1. "BITALIGNMENTPIXEL1,Bit alignment Alignment of the bits from pixel 1 on the output interface" newline rbitfld.long 0x14 5.--7. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x14 0.--4. 1. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" line.long 0x18 "VP2_DATA_CYCLE_1,The control register configures the output data format over up to 3 cycles. Shadow register" hexmask.long.byte 0x18 28.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.byte 0x18 24.--27. 1. "BITALIGNMENTPIXEL2,Bit alignment Alignment of the bits from pixel 2 on the output interface" newline rbitfld.long 0x18 21.--23. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x18 16.--20. 1. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" newline hexmask.long.byte 0x18 12.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.byte 0x18 8.--11. 1. "BITALIGNMENTPIXEL1,Bit alignment Alignment of the bits from pixel 1 on the output interface" newline rbitfld.long 0x18 5.--7. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x18 0.--4. 1. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" line.long 0x1C "VP2_DATA_CYCLE_2,The control register configures the output data format over up to 3 cycles. Shadow register" hexmask.long.byte 0x1C 28.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline hexmask.long.byte 0x1C 24.--27. 1. "BITALIGNMENTPIXEL2,Bit alignment Alignment of the bits from pixel 2 on the output interface" newline rbitfld.long 0x1C 21.--23. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x1C 16.--20. 1. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" newline hexmask.long.byte 0x1C 12.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.byte 0x1C 8.--11. 1. "BITALIGNMENTPIXEL1,Bit alignment Alignment of the bits from pixel 1 on the output interface" newline rbitfld.long 0x1C 5.--7. "RESERVED,Write 0's for future compatibility Reads return 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x1C 0.--4. 1. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 [value from 0 to 16 bits]. The values from 17 to 31 are invalid" group.long 0x44++0x3 line.long 0x0 "VP2_LINE_NUMBER,The control register indicates the panel display line number for the interrupt and the DMA request. Shadow register" hexmask.long.tbyte 0x0 12.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--11. 1. "LINENUMBER,LCD panel line number programming LCD line number defines the line on which the programmable interrupt is generated and the DMA request occurs" group.long 0x4C++0x33 line.long 0x0 "VP2_POL_FREQ,The register configures the signal configuration. Shadow register" hexmask.long.word 0x0 19.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" newline bitfld.long 0x0 18. "ALIGN,Defines the alignment between HSYNC and VSYNC assertion" "0,1" newline bitfld.long 0x0 17. "ONOFF,HSYNC/VSYNC Pixel clock Control On/Off" "0,1" newline bitfld.long 0x0 16. "RF,Program HSYNC/VSYNC Rise or Fall To set HSYNC/VSYNC to pixel clock relationship CTRL_MMR_DPI0_CLK_CTRL[9] DPI0_CLK_CTRL_SYNC_CLK_INVDIS setting should be opposite the [16] RF setting." "0,1" newline bitfld.long 0x0 15. "IEO,Invert output enable" "0,1" newline bitfld.long 0x0 14. "IPC,Invert pixel clock To set data to pixel clock relationship CTRL_MMR_DPI0_CLK_CTRL[8] DPI0_CLK_CTRL_DATA_CLK_INVDIS setting should be opposite the [14] IPC setting." "0,1" newline bitfld.long 0x0 13. "IHS,Invert HSYNC" "0,1" newline bitfld.long 0x0 12. "IVS,Invert VSYNC" "0,1" newline hexmask.long.byte 0x0 8.--11. 1. "ACBI,AC Bias Pin transitions per interrupt Value [from 0 to 15] used to specify the number of AC Bias pin transitions" newline hexmask.long.byte 0x0 0.--7. 1. "ACB,AC Bias Pin Frequency Value [from 0 to 255] used to specify the number of line clocks to count before transitioning the AC Bias pin. This pin is used to periodically invert the polarity of the power supply to prevent DC charge build-up within the.." line.long 0x4 "VP2_SIZE_SCREEN,The register configures the panel size horizontal and vertical. Shadow register. A delta value is used to indicate if the odd field has same vertical size as the even field or +/- one line." hexmask.long.byte 0x4 28.--31. 1. "RESERVED1," newline hexmask.long.word 0x4 16.--27. 1. "LPP,Lines per panel Encoded value [from 1 to 4096] to specify the number of lines per panel [program to value minus one]" newline bitfld.long 0x4 14.--15. "DELTA_LPP,Indicates the delta size value of the odd field compared to the even field" "0,1,2,3" newline rbitfld.long 0x4 12.--13. "RESERVED," "0,1,2,3" newline hexmask.long.word 0x4 0.--11. 1. "PPL,Pixels per line Encoded value [from 1 to 4096] to specify the number of pixels contains within each line on the display [program to value minus one]. In STALL mode any value is valid In non-STALL mode only values multiple of 8 pixels are valid" line.long 0x8 "VP2_TIMING_H,The register configures the timing logic for the HSYNC signal. Shadow register" hexmask.long.word 0x8 20.--31. 1. "HBP,Horizontal Back Porch Encoded value [from 1 to 4096] to specify the number of pixel clock periods to add to the beginning of a line transmission before the first set of pixels is output to the display [program to value minus one] When in BT mode and.." newline hexmask.long.word 0x8 8.--19. 1. "HFP,Horizontal front porch Encoded value [from 1 to 4096] to specify the number of pixel clock periods to add to the end of a line transmission before line clock is asserted display [program to value minus one] When in BT mode and interlaced this field.." newline hexmask.long.byte 0x8 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 display [program to value minus one] When in BT mode this field corresponds to the LSB.." line.long 0xC "VP2_TIMING_V,The register configures the timing logic for the VSYNC signal. Shadow register" hexmask.long.word 0xC 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 When in BT mode and interlaced this field corresponds to the vertical field blanking No 2 for Odd Field When in BT and.." newline hexmask.long.word 0xC 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 When in BT mode and interlaced this field corresponds to the vertical field blanking No 1 for Odd Field When in BT and in.." newline hexmask.long.byte 0xC 0.--7. 1. "VSW,Vertical synchronization pulse width Encoded value [from 1 to 256] to specify the number of line clock periods to pulse the frame clock [VSYNC] pin at the end of each frame after the end of frame wait [VFP] period elapses Frame clock uses as VSYNC.." line.long 0x10 "VP2_CSC_COEF3,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.byte 0x10 27.--31. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x10 16.--26. 1. "C21,C21 coefficient. Encoded signed value [from -1024 to 1023]" newline hexmask.long.byte 0x10 11.--15. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x10 0.--10. 1. "C20,C20 coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x14 "VP2_CSC_COEF4,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.tbyte 0x14 11.--31. 1. "RESERVED,Write 0's for future compatibility. Reads return 0" newline hexmask.long.word 0x14 0.--10. 1. "C22,C22 Coefficient. Encoded signed value [from -1024 to 1023]" line.long 0x18 "VP2_CSC_COEF5,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x18 19.--31. 1. "PREOFFSET2,Row-2 pre-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x18 16.--18. "RESERVED1," "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x18 3.--15. 1. "PREOFFSET1,Row1 pre-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x18 0.--2. "RESERVED," "0,1,2,3,4,5,6,7" line.long 0x1C "VP2_CSC_COEF6,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x1C 19.--31. 1. "POSTOFFSET1,Row-1 post-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x1C 16.--18. "RESERVED1," "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x1C 3.--15. 1. "PREOFFSET3,Row-3 pre-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x1C 0.--2. "RESERVED," "0,1,2,3,4,5,6,7" line.long 0x20 "VP2_CSC_COEF7,The register configures the color space conversion matrix coefficients. Shadow register" hexmask.long.word 0x20 19.--31. 1. "POSTOFFSET3,Row-3 post-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x20 16.--18. "RESERVED1," "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x20 3.--15. 1. "POSTOFFSET2,Row-2 post-offset. Encoded signed value [from -4096 to 4095]" newline rbitfld.long 0x20 0.--2. "RESERVED," "0,1,2,3,4,5,6,7" line.long 0x24 "VP2_SAFETY_ATTRIBUTES_0,The register configures the safety sub-region n. Shadow register" hexmask.long.tbyte 0x24 13.--31. 1. "RESERVED," newline bitfld.long 0x24 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" newline hexmask.long.byte 0x24 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur Note: The freeze frame counter is cleared on reset -OR- MISR not.." newline bitfld.long 0x24 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x24 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" newline bitfld.long 0x24 0. "ENABLE,Safety check Enable for the region Note: Transition from 0 to 1 clears the signature register" "0,1" line.long 0x28 "VP2_SAFETY_ATTRIBUTES_1,The register configures the safety sub-region n. Shadow register" hexmask.long.tbyte 0x28 13.--31. 1. "RESERVED," newline bitfld.long 0x28 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" newline hexmask.long.byte 0x28 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur Note: The freeze frame counter is cleared on reset -OR- MISR not.." newline bitfld.long 0x28 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x28 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" newline bitfld.long 0x28 0. "ENABLE,Safety check Enable for the region Note: Transition from 0 to 1 clears the signature register" "0,1" line.long 0x2C "VP2_SAFETY_ATTRIBUTES_2,The register configures the safety sub-region n. Shadow register" hexmask.long.tbyte 0x2C 13.--31. 1. "RESERVED," newline bitfld.long 0x2C 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" newline hexmask.long.byte 0x2C 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur Note: The freeze frame counter is cleared on reset -OR- MISR not.." newline bitfld.long 0x2C 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x2C 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" newline bitfld.long 0x2C 0. "ENABLE,Safety check Enable for the region Note: Transition from 0 to 1 clears the signature register" "0,1" line.long 0x30 "VP2_SAFETY_ATTRIBUTES_3,The register configures the safety sub-region n. Shadow register" hexmask.long.tbyte 0x30 13.--31. 1. "RESERVED," newline bitfld.long 0x30 11.--12. "FRAMESKIP,Indicates which frames to be skipped while doing FRAMEFREEZE or DATACHECK [Useful for interlaced displays]. 0x0: No frames are skipped 0x1: Even Frames are skipped starting from second frame after ENABLE 0x2: Odd Frames are skipped starting.." "0: No frames are skipped,1: Even Frames are skipped starting from second..,2: Odd Frames are skipped starting from first frame..,3: Reserved" newline hexmask.long.byte 0x30 3.--10. 1. "THRESHOLD,Allowed maximum number of frames with the same frame signature When the freeze frame counter reaches 1 over this value [freeze_frame_thold+1] a freeze frame detection will occur Note: The freeze frame counter is cleared on reset -OR- MISR not.." newline bitfld.long 0x30 2. "SEEDSELECT,Initial seed selection control" "0,1" newline bitfld.long 0x30 1. "CAPTUREMODE,Mode of operation of the safety check module" "0,1" newline bitfld.long 0x30 0. "ENABLE,Safety check Enable for the region Note: Transition from 0 to 1 clears the signature register" "0,1" rgroup.long 0x90++0xF line.long 0x0 "VP2_SAFETY_CAPT_SIGNATURE_0,The register captures the signature from the MISR of the safety sub-region n. Shadow register" hexmask.long 0x0 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n Shadow register" line.long 0x4 "VP2_SAFETY_CAPT_SIGNATURE_1,The register captures the signature from the MISR of the safety sub-region n. Shadow register" hexmask.long 0x4 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n Shadow register" line.long 0x8 "VP2_SAFETY_CAPT_SIGNATURE_2,The register captures the signature from the MISR of the safety sub-region n. Shadow register" hexmask.long 0x8 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n Shadow register" line.long 0xC "VP2_SAFETY_CAPT_SIGNATURE_3,The register captures the signature from the MISR of the safety sub-region n. Shadow register" hexmask.long 0xC 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n Shadow register" group.long 0xB0++0xF line.long 0x0 "VP2_SAFETY_POSITION_0,The register configures the position of the safety sub-region n. Shadow register" hexmask.long.byte 0x0 28.--31. 1. "RESERVED," newline hexmask.long.word 0x0 16.--27. 1. "POSY,Y position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen The first line on the top of the screen has the Y-position 0" newline hexmask.long.byte 0x0 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x0 0.--11. 1. "POSX,X position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen The first pixel on the left of the screen has the X-position 0" line.long 0x4 "VP2_SAFETY_POSITION_1,The register configures the position of the safety sub-region n. Shadow register" hexmask.long.byte 0x4 28.--31. 1. "RESERVED," newline hexmask.long.word 0x4 16.--27. 1. "POSY,Y position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen The first line on the top of the screen has the Y-position 0" newline hexmask.long.byte 0x4 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x4 0.--11. 1. "POSX,X position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen The first pixel on the left of the screen has the X-position 0" line.long 0x8 "VP2_SAFETY_POSITION_2,The register configures the position of the safety sub-region n. Shadow register" hexmask.long.byte 0x8 28.--31. 1. "RESERVED," newline hexmask.long.word 0x8 16.--27. 1. "POSY,Y position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen The first line on the top of the screen has the Y-position 0" newline hexmask.long.byte 0x8 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x8 0.--11. 1. "POSX,X position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen The first pixel on the left of the screen has the X-position 0" line.long 0xC "VP2_SAFETY_POSITION_3,The register configures the position of the safety sub-region n. Shadow register" hexmask.long.byte 0xC 28.--31. 1. "RESERVED," newline hexmask.long.word 0xC 16.--27. 1. "POSY,Y position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the Y position of the sub-region on the screen The first line on the top of the screen has the Y-position 0" newline hexmask.long.byte 0xC 12.--15. 1. "RESERVED1," newline hexmask.long.word 0xC 0.--11. 1. "POSX,X position of the safety sub-region n. Encoded value [from 0 to 4095] to specify the X position of the sub-region on the screen The first pixel on the left of the screen has the X-position 0" group.long 0xD0++0xF line.long 0x0 "VP2_SAFETY_REF_SIGNATURE_0,The register configures the reference signature of the safety sub-region n. Shadow register" hexmask.long 0x0 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n. Shadow register" line.long 0x4 "VP2_SAFETY_REF_SIGNATURE_1,The register configures the reference signature of the safety sub-region n. Shadow register" hexmask.long 0x4 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n. Shadow register" line.long 0x8 "VP2_SAFETY_REF_SIGNATURE_2,The register configures the reference signature of the safety sub-region n. Shadow register" hexmask.long 0x8 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n. Shadow register" line.long 0xC "VP2_SAFETY_REF_SIGNATURE_3,The register configures the reference signature of the safety sub-region n. Shadow register" hexmask.long 0xC 0.--31. 1. "SIGNATURE,The register configures the reference signature of the safety sub-region n. Shadow register" group.long 0xF0++0xF line.long 0x0 "VP2_SAFETY_SIZE_0,The register configures the size of the safety sub-region n Shadow register." hexmask.long.byte 0x0 28.--31. 1. "RESERVED," newline hexmask.long.word 0x0 16.--27. 1. "SIZEY,Height of the safety sub-region n Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen One line height region has value of 0" newline hexmask.long.byte 0x0 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x0 0.--11. 1. "SIZEX,Width of the safety sub-region n Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen One pixel wide region has value of 0" line.long 0x4 "VP2_SAFETY_SIZE_1,The register configures the size of the safety sub-region n Shadow register." hexmask.long.byte 0x4 28.--31. 1. "RESERVED," newline hexmask.long.word 0x4 16.--27. 1. "SIZEY,Height of the safety sub-region n Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen One line height region has value of 0" newline hexmask.long.byte 0x4 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x4 0.--11. 1. "SIZEX,Width of the safety sub-region n Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen One pixel wide region has value of 0" line.long 0x8 "VP2_SAFETY_SIZE_2,The register configures the size of the safety sub-region n Shadow register." hexmask.long.byte 0x8 28.--31. 1. "RESERVED," newline hexmask.long.word 0x8 16.--27. 1. "SIZEY,Height of the safety sub-region n Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen One line height region has value of 0" newline hexmask.long.byte 0x8 12.--15. 1. "RESERVED1," newline hexmask.long.word 0x8 0.--11. 1. "SIZEX,Width of the safety sub-region n Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen One pixel wide region has value of 0" line.long 0xC "VP2_SAFETY_SIZE_3,The register configures the size of the safety sub-region n Shadow register." hexmask.long.byte 0xC 28.--31. 1. "RESERVED," newline hexmask.long.word 0xC 16.--27. 1. "SIZEY,Height of the safety sub-region n Encoded value [from 0 to 4095] to specify the height of the sub-region on the screen One line height region has value of 0" newline hexmask.long.byte 0xC 12.--15. 1. "RESERVED1," newline hexmask.long.word 0xC 0.--11. 1. "SIZEX,Width of the safety sub-region n Encoded value [from 0 to 4095] to specify the width of the sub-region on the screen One pixel wide region has value of 0" group.long 0x110++0x3 line.long 0x0 "VP2_SAFETY_LFSR_SEED,The register configures the seed initial signature value of MISRs that are to be initialized with a user programmed initial value. Otherwise. the MISR is initialized with 0xFFFF_FFFF. Shadow register." hexmask.long 0x0 0.--31. 1. "SEED,The register configures the seed [initial signature value] of MISRs that are to be initialized with a user programmed initial value Otherwise the MISR is initialized with 0xFFFF_FFFF Shadow register" wgroup.long 0x120++0x3F line.long 0x0 "VP2_GAMMA_TABLE_0,The register configures the gamma table on VP output." hexmask.long.byte 0x0 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x0 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x0 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x0 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x4 "VP2_GAMMA_TABLE_1,The register configures the gamma table on VP output." hexmask.long.byte 0x4 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x4 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x4 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x4 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x8 "VP2_GAMMA_TABLE_2,The register configures the gamma table on VP output." hexmask.long.byte 0x8 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x8 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x8 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x8 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0xC "VP2_GAMMA_TABLE_3,The register configures the gamma table on VP output." hexmask.long.byte 0xC 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0xC 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0xC 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0xC 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x10 "VP2_GAMMA_TABLE_4,The register configures the gamma table on VP output." hexmask.long.byte 0x10 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x10 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x10 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x10 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x14 "VP2_GAMMA_TABLE_5,The register configures the gamma table on VP output." hexmask.long.byte 0x14 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x14 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x14 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x14 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x18 "VP2_GAMMA_TABLE_6,The register configures the gamma table on VP output." hexmask.long.byte 0x18 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x18 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x18 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x18 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x1C "VP2_GAMMA_TABLE_7,The register configures the gamma table on VP output." hexmask.long.byte 0x1C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x1C 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x1C 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x1C 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x20 "VP2_GAMMA_TABLE_8,The register configures the gamma table on VP output." hexmask.long.byte 0x20 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x20 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x20 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x20 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x24 "VP2_GAMMA_TABLE_9,The register configures the gamma table on VP output." hexmask.long.byte 0x24 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x24 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x24 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x24 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x28 "VP2_GAMMA_TABLE_10,The register configures the gamma table on VP output." hexmask.long.byte 0x28 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x28 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x28 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x28 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x2C "VP2_GAMMA_TABLE_11,The register configures the gamma table on VP output." hexmask.long.byte 0x2C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x2C 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x2C 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x2C 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x30 "VP2_GAMMA_TABLE_12,The register configures the gamma table on VP output." hexmask.long.byte 0x30 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x30 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x30 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x30 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x34 "VP2_GAMMA_TABLE_13,The register configures the gamma table on VP output." hexmask.long.byte 0x34 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x34 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x34 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x34 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x38 "VP2_GAMMA_TABLE_14,The register configures the gamma table on VP output." hexmask.long.byte 0x38 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x38 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x38 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x38 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" line.long 0x3C "VP2_GAMMA_TABLE_15,The register configures the gamma table on VP output." hexmask.long.byte 0x3C 24.--31. 1. "INDEX,Defines the location in the table where the bit-fields VALUE_{R G B} is stored" newline hexmask.long.byte 0x3C 16.--23. 1. "VALUE_R,8-bit R value to be stored in the gamma table" newline hexmask.long.byte 0x3C 8.--15. 1. "VALUE_G,8-bit G value to be stored in the gamma table" newline hexmask.long.byte 0x3C 0.--7. 1. "VALUE_B,8-bit B value to be stored in the gamma table" group.long 0x160++0x3 line.long 0x0 "VP2_DSS_OLDI_CFG,This register configures the OLDI[N:0] modules connected to the DSS" bitfld.long 0x0 13. "TPATCFG,Test pattern Config" "0,1" newline bitfld.long 0x0 12. "SOFTRST,SoftWare Reset. By default OLDI is kept under reset" "0,1" newline bitfld.long 0x0 11. "DUALMODESYNC,DualMode Sync" "0,1" newline bitfld.long 0x0 10. "LBDATA,LoopBack Data" "0,1" newline bitfld.long 0x0 9. "LBEN,LoopBack Enable" "0,1" newline bitfld.long 0x0 8. "MSB,DSS bit-depth [for 18b LVDS only]" "0,1" newline bitfld.long 0x0 7. "DEPOL,Polarity of the DE signal" "0,1" newline bitfld.long 0x0 6. "MASTERSLAVE,Initiator selection in Dual mode only [typically tied off in the SoC]" "0,1" newline bitfld.long 0x0 5. "MODE,Single mode or duplicate mode" "0,1" newline bitfld.long 0x0 4. "SRC,Source Channel" "0,1" newline bitfld.long 0x0 1.--3. "MAP,Configuration of OLDI mapping Also indicates dual mode" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 0. "ENABLE,OLDI Enable" "0,1" rgroup.long 0x164++0x7 line.long 0x0 "VP2_DSS_OLDI_STATUS,This register captures the PID from the OLDI[N:0] modules connected to the DSS. Reads 0x0 if no OLDI is connected" hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID Field" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL Revision" newline bitfld.long 0x0 8.--10. "REVMAJOR,Major Revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor Revision" line.long 0x4 "VP2_DSS_OLDI_LB,This register captures the Loopback data from OLDI" hexmask.long.word 0x4 0.--9. 1. "LBRDATA,Returned Data from Loopback" tree.end tree.end tree "DSS_DSI0_DSI" base ad:0x0 tree "DSS_DSI0_DSI_TOP" tree "DSS_DSI0_DSI_TOP_ECC_AGGR_SYS_CFG (DSS_DSI0_DSI_TOP_ECC_AGGR_SYS_CFG)" base ad:0x30271000 rgroup.long 0x0++0x3 line.long 0x0 "DSI_TOP_ECC_AGGR_SYS__CFG__REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "DSI_TOP_ECC_AGGR_SYS__CFG__REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "DSI_TOP_ECC_AGGR_SYS__CFG__REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "DSI_TOP_ECC_AGGR_SYS__CFG__REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "DSI_TOP_ECC_AGGR_SYS__CFG__REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "DSI_TOP_ECC_AGGR_SYS__CFG__REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "EDC_CTRL_SYS_PEND,Interrupt Pending Status for edc_ctrl_sys_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "DSI_TOP_ECC_AGGR_SYS__CFG__REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "EDC_CTRL_SYS_ENABLE_SET,Interrupt Enable Set Register for edc_ctrl_sys_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "DSI_TOP_ECC_AGGR_SYS__CFG__REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "EDC_CTRL_SYS_ENABLE_CLR,Interrupt Enable Clear Register for edc_ctrl_sys_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "DSI_TOP_ECC_AGGR_SYS__CFG__REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "DSI_TOP_ECC_AGGR_SYS__CFG__REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "EDC_CTRL_SYS_PEND,Interrupt Pending Status for edc_ctrl_sys_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "DSI_TOP_ECC_AGGR_SYS__CFG__REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "EDC_CTRL_SYS_ENABLE_SET,Interrupt Enable Set Register for edc_ctrl_sys_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "DSI_TOP_ECC_AGGR_SYS__CFG__REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "EDC_CTRL_SYS_ENABLE_CLR,Interrupt Enable Clear Register for edc_ctrl_sys_pend" "0,1" group.long 0x200++0xF line.long 0x0 "DSI_TOP_ECC_AGGR_SYS__CFG__REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "DSI_TOP_ECC_AGGR_SYS__CFG__REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "DSI_TOP_ECC_AGGR_SYS__CFG__REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "DSI_TOP_ECC_AGGR_SYS__CFG__REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "DSS_DSI0_DSI_TOP_VBUSP_CFG_DSI_0_DSI (DSS_DSI0_DSI_TOP_VBUSP_CFG_DSI_0_DSI)" base ad:0x30500000 rgroup.long 0x0++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_ip_conf,IP Configuration for Controller" bitfld.long 0x0 31. "ASF_CONFIG,Active Safety Features [ASF] Configuration: 0 = None; 1 = Full ASF." "0: None,1: Full ASF" newline hexmask.long.byte 0x0 26.--30. 1. "SP_HS_FIFO_DEPTH,SP_HS_FIFO_DEPTH : HS FIFO depth in sending path." newline hexmask.long.byte 0x0 21.--25. 1. "SP_LP_FIFO_DEPTH,SP_LP_FIFO_DEPTH : LP FIFO depth in sending path." newline hexmask.long.byte 0x0 16.--20. 1. "VRS_FIFO_DEPTH,VRS_FIFO_DEPTH : FIFO depth in the VRS block." newline bitfld.long 0x0 13.--15. "DIRCMD_FIFO_DEPTH,Direct Command FIFO Depth [2:0]. Depth in bytes = 2^[value+2]" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 12. "INTERFACE_DATASIZE,SDI interface data width: 0 = 16 bit 1 = 32bit" "0: 16 bit,1: 32bit" newline bitfld.long 0x0 10.--11. "DATAPATH_SIZE,Internal Datapath.width 00 - 32 bit 01 - 16bit 11 - 8 Bits." "0,1,2,3" newline bitfld.long 0x0 8.--9. "NUM_INTERFACE,Max Number of SDI interfaces [1-4] = [value+1]" "0,1,2,3" newline bitfld.long 0x0 6.--7. "MAX_LANE_NB,Max Number of Lanes [1-4] = [value+1]" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "RX_FIFO_DEPTH,RX FIFO Depth [5:0]" group.long 0x4++0x1F line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_mctl_main_data_ctl,Main Control - main control setting for datapath" bitfld.long 0x0 25. "TE_MIPI_POLLING_EN,TE_MIPI_POLLING_EN: enables TE Polling feature following MIPI recommendations [polling by software]" "0,1" newline bitfld.long 0x0 24. "TE_HW_POLLING_EN,TE_HW_POLLING_EN: enables TE Polling feature following internal solution" "0,1" newline bitfld.long 0x0 18. "DISP_EOT_GEN,DISP_EOT_GEN: display adds an EOT packet to its LPDT transfers" "0,1" newline bitfld.long 0x0 17. "HOST_EOT_GEN,HOST_EOT_GEN: generates or not the EOT packet after a transfer in HS." "0,1" newline bitfld.long 0x0 16. "DISP_GEN_CHECKSUM,DISP_GEN_CHECKSUM: display generates checksum on its response packets." "0,1" newline bitfld.long 0x0 15. "DISP_GEN_ECC,DISP_GEN_ECC: display generates ECC on its response packets" "0,1" newline bitfld.long 0x0 14. "BTA_EN,BTA_EN: enables BTA" "0,1" newline bitfld.long 0x0 13. "READ_EN,READ_EN: enables read operation" "0,1" newline bitfld.long 0x0 12. "REG_TE_EN,REG_TE_EN: enables Tearing Effect from register" "0,1" newline bitfld.long 0x0 10. "SPLIT_PANEL_MODE,SPLIT_PANEL_MODE: when enabled DSC stage controls data for split panel signle DPHY link" "0,1" newline bitfld.long 0x0 9. "IF3_TE_EN,IF3_TE_EN: enables Tearing Effect on interface 3. Note TE on all SDI interfaces is not supported and should be avoided" "0,1" newline bitfld.long 0x0 8. "IF1_TE_EN,IF1_TE_EN: enables Tearing Effect on interface 1. Note TE on all SDI interfaces is not supported and should be avoided" "0,1" newline bitfld.long 0x0 6. "TVG_SEL,TVG_SEL: Test Video Generator is enabled [it is not the start signal!] - should not be set if if1_en = 1 and if1_mode = 1 [see MCTL_MAIN_EN register ]" "0,1" newline bitfld.long 0x0 5. "VID_EN,VID_EN: enables the video stream generator" "0,1" newline bitfld.long 0x0 2.--3. "VID_IF_SELECT,VID_IF_SELECT: Determines which video interface is active [00 : SDI 01 : DPI 10 : DSC]" "?,1: DPI,?,?" newline bitfld.long 0x0 1. "SDI_IF_VID_MODE,SDI_IF_VID_MODE:1: selected interface is in video mode 0: selected interface is in command mode]" "0: selected interface is in command mode],1: selected interface is in video mode" newline bitfld.long 0x0 0. "LINK_EN,LINK_EN: enables [or not] the link]" "0,1" line.long 0x4 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_mctl_main_phy_ctl,Main control setting for the physical lanes and drive the static signals for D-PHY clock lane" bitfld.long 0x4 30. "HS_SKEWCAL_TIMEOUT_EN,HS_SKEWCAL_TIMEOUT_EN: Activate the HS SkewCal Control to occur after a timeout." "0,1" newline bitfld.long 0x4 29. "HS_SKEWCAL_FORCE_EN,HS_SKEWCAL_FORCE_EN: Force the HS SkewCal Control to occur immediately" "0,1" newline bitfld.long 0x4 28. "HS_SKEWCAL_EN,HS_SKEWCAL_EN: activate the HS SkewCal Control at start of HS Transmission" "0,1" newline bitfld.long 0x4 25. "HS_INVERT_DAT4,HS_INVERT_DAT4: invert HS signal on data lane 4" "0,1" newline bitfld.long 0x4 24. "SWAP_PINS_DAT4,SWAP_PINS_DAT4: swap pins on clock lane 4" "0,1" newline bitfld.long 0x4 23. "HS_INVERT_DAT3,HS_INVERT_DAT3: invert HS signal on data lane 3" "0,1" newline bitfld.long 0x4 22. "SWAP_PINS_DAT3,SWAP_PINS_DAT3: swap pins on clock lane 3" "0,1" newline bitfld.long 0x4 21. "HS_INVERT_DAT2,HS_INVERT_DAT2: invert HS signal on data lane 2" "0,1" newline bitfld.long 0x4 20. "SWAP_PINS_DAT2,SWAP_PINS_DAT2: swap pins on clock lane 2" "0,1" newline bitfld.long 0x4 19. "HS_INVERT_DAT1,HS_INVERT_DAT1: invert HS signal on data lane 1" "0,1" newline bitfld.long 0x4 18. "SWAP_PINS_DAT1,SWAP_PINS_DAT1: swap pins on data lane 1" "0,1" newline bitfld.long 0x4 17. "HS_INVERT_CLK,HS_INVERT_CLK: invert HS signal on clock lane" "0,1" newline bitfld.long 0x4 16. "SWAP_PINS_CLK,SWAP_PINS_CLK: swap pins on clock lane" "0,1" newline hexmask.long.byte 0x4 10.--13. 1. "WAIT_BURST_TIME,WAIT_BURST_TIME: delay to respect between two HS bursts. Value 0 is forbidden" newline bitfld.long 0x4 9. "DAT4_ULPM_EN,DAT4_ULPM_EN: data lane 4 can be switched in ULP mode" "0,1" newline bitfld.long 0x4 8. "DAT3_ULPM_EN,DAT3_ULPM_EN: data lane 3 can be switched in ULP mode" "0,1" newline bitfld.long 0x4 7. "DAT2_ULPM_EN,DAT2_ULPM_EN: data lane 2 can be switched in ULP mode" "0,1" newline bitfld.long 0x4 6. "DAT1_ULPM_EN,DAT1_ULPM_EN: data lane 1 can be switched in ULP mode" "0,1" newline bitfld.long 0x4 5. "CLK_ULPM_EN,CLK_ULPM_EN: specifies that clock lane can be switched in ULP mode [on demand]" "0,1" newline bitfld.long 0x4 4. "CLK_CONTINUOUS,CLK_CONTINUOUS: clock lane should remain in HS sending mode [no return in STOP state]" "0,1" newline bitfld.long 0x4 2. "LANE4_EN,LANE4_EN: enables the fourth lane [ controls DCB FSM]" "0,1" newline bitfld.long 0x4 1. "LANE3_EN,LANE3_EN: enables the third lane [ controls DCB FSM]" "0,1" newline bitfld.long 0x4 0. "LANE2_EN,LANE2_EN: enables the second lane [ controls DCB FSM]" "0,1" line.long 0x8 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_mctl_main_en,Control start/stop of the DSI link" bitfld.long 0x8 17. "FORCE_STOP_MODE,FORCE_STOP_MODE: when enabled data lanes are forced back in STOP mode - this value should remain asserted for 10 us minimum" "0,1" newline bitfld.long 0x8 16. "CLK_FORCE_STOP,CLK_FORCE_STOP : force clock lanes back in STOP mode - this value should remain asserted for 10 us minimum" "0,1" newline bitfld.long 0x8 15. "IF3_EN,IF3_EN: enables DSC interface [i.e. removes stall signal]" "0,1" newline bitfld.long 0x8 14. "IF2_EN,IF2_EN: enables DPI interface [i.e. removes stall signal]" "0,1" newline bitfld.long 0x8 13. "IF1_EN,IF1_EN: enables SDI interface [i.e. removes stall signal]" "0,1" newline bitfld.long 0x8 12. "DAT4_ULPM_REQ,DAT4_ULPM_REQ: switches data lane 4 in ULP mode" "0,1" newline bitfld.long 0x8 11. "DAT3_ULPM_REQ,DAT3_ULPM_REQ: switches data lane 3 in ULP mode" "0,1" newline bitfld.long 0x8 10. "DAT2_ULPM_REQ,DAT2_ULPM_REQ: switches data lane 2 in ULP mode" "0,1" newline bitfld.long 0x8 9. "DAT1_ULPM_REQ,DAT1_ULPM_REQ: switches data lane 1 in ULP mode" "0,1" newline bitfld.long 0x8 8. "CLKLANE_ULPM_REQ,CLKLANE_ULPM_REQ: switches clock lane in ULP mode" "0,1" newline bitfld.long 0x8 7. "DAT4_EN,DAT4_EN: 1: starts data lane 4 [FSM data lane 4 is stuck in start mode if 0]" "?,1: starts data lane 4 [FSM data lane 4 is stuck in.." newline bitfld.long 0x8 6. "DAT3_EN,DAT3_EN: 1: starts data lane 3 [FSM data lane 3 is stuck in start mode if 0]" "?,1: starts data lane 3 [FSM data lane 3 is stuck in.." newline bitfld.long 0x8 5. "DAT2_EN,DAT2_EN: 1: starts data lane 2 [FSM data lane 2 is stuck in start mode if 0]" "?,1: starts data lane 2 [FSM data lane 2 is stuck in.." newline bitfld.long 0x8 4. "DAT1_EN,DAT1_EN: 1: starts data lane 1 [FSM data lane 1 is stuck in start mode if 0]" "?,1: starts data lane 1 [FSM data lane 1 is stuck in.." newline bitfld.long 0x8 3. "CKLANE_EN,CKLANE_EN: 1: starts the clock lane" "?,1: starts the clock lane" newline bitfld.long 0x8 0. "PLL_START,PLL_START: enables the PLL [when set the PLL is started]" "0,1" line.long 0xC "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_mctl_dphy_cfg0,DPHY Power and Reset Control" bitfld.long 0xC 20. "DPHY_C_RSTB,Drives dphy_c_rstb output" "0,1" newline hexmask.long.byte 0xC 16.--19. 1. "DPHY_D_RSTB,Drives dphy_d_rstb output" newline bitfld.long 0xC 10. "DPHY_PLL_PDN,Drives dphy_pll_pdn output" "0,1" newline bitfld.long 0xC 9. "DPHY_CMN_PDN,Drives dphy_cmn_pdn output" "0,1" newline bitfld.long 0xC 8. "DPHY_C_PDN,Drives dphy_c_pdn output" "0,1" newline hexmask.long.byte 0xC 4.--7. 1. "DPHY_D_PDN,Drives dphy_d_pdn output" newline bitfld.long 0xC 1. "DPHY_PLL_PSO,Drives dphy_pll_pso output" "0,1" newline bitfld.long 0xC 0. "DPHY_CMN_PSO,Drives dphy_cmn_pso output" "0,1" line.long 0x10 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_mctl_dphy_timeout1,Main DPHY time-out settings. To better understand the way this register is used. please refer to Section :" hexmask.long.tbyte 0x10 4.--21. 1. "HSTX_TO_VAL,HSTX_TO_VAL: HS TX time-out detection value" newline hexmask.long.byte 0x10 0.--3. 1. "CLK_DIV,CLK_DIV: clock division ratio" line.long 0x14 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_mctl_dphy_timeout2,To better understand the way this register is used. please refer to Section : DSI checks (DC) - the counters are on tx_byte_hs_clk and not on sys_clk" hexmask.long.tbyte 0x14 0.--17. 1. "LPRX_TO_VAL,LPRX_TO_VAL: LP RX time-out detection value" line.long 0x18 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_mctl_ulpout_time,Specify time to leave ULP mode. The time-out is reached when the ulpout counter reaches 1000x xxx_ulpout_time and is based upon the system clock" hexmask.long.word 0x18 9.--17. 1. "DATA_ULPOUT_TIME,DATA_ULPOUT_TIME: specify what the duration is to leave ULP mode is [for data lane[s] in system clock cycles" newline hexmask.long.word 0x18 0.--8. 1. "CKLANE_ULPOUT_TIME,CKLANE_ULPOUT_TIME: specify what the duration is to leave ULP mode is [for clock lane] in system clock cycles" line.long 0x1C "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_mctl_3dvideo_ctl,3D Video mode stream control" bitfld.long 0x1C 7. "VID_VSYNC_3D_EN,VID_VSYNC_3D_EN: Enable 3D Control this selects the 3D operation for VSYNC and video data control" "0,1" newline bitfld.long 0x1C 5. "VID_VSYNC_3D_LR,VID_VSYNC_3D_LR: When 3D mode is enabled this allows to choose which field to start the video stream '0' - Data is sent Left first then right '1' - Data is sent Right first then left" "0,1" newline bitfld.long 0x1C 4. "VID_VSYNC_3D_SECOND_EN,VID_VSYNC_3D_SECOND_EN: When 3D mode is enabled this allows to choose if a second VSYNC is enabled between L and R images '0' - No sync pulses between left and right data '1' - Sync pulse [HSYNC .." "0,1" newline bitfld.long 0x1C 2.--3. "VID_VSYNC_3DFORMAT,VID_VSYNC_3DFORMAT: video 3D Format for VSYNC Control Parameter1 '00' - Line Format alternating line of left and right data '01' - Frame Format alternating frames of left and right data '10'.." "0,1,2,3" newline bitfld.long 0x1C 0.--1. "VID_VSYNC_3DMODE,VID_VSYNC_3DMODE: video 3D mode for VSYNC Control Parameter1 '00' - 3D mode Off - 2D Mode only '01' - 3D On - Portrait Orientation '10' - 3D On - Landscape Orientation '11' - Reserved" "0,1,2,3" rgroup.long 0x24++0xB line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_mctl_main_sts,Status of the DSI link" bitfld.long 0x0 11. "HS_SKEWCAL_DONE,HS_SKEWCAL_DONE: HS SkewCal Control Done at start of HS Transmission" "0,1" newline bitfld.long 0x0 10. "IF3_UNTERM_PCK,IF3_UNTERM_PCK: Indicates an unterminated packet on DSC interface" "0,1" newline bitfld.long 0x0 9. "IF2_UNTERM_PCK,IF2_UNTERM_PCK: Indicates an unterminated packet on DPI interface" "0,1" newline bitfld.long 0x0 8. "IF1_UNTERM_PCK,IF1_UNTERM_PCK: Indicates an unterminated packet on SDI Interface" "0,1" newline bitfld.long 0x0 7. "LPRX_TO_ERR,LPRX_TO_ERR: Indicates an LP_RX time-out error" "0,1" newline bitfld.long 0x0 6. "HSTX_TO_ERR,HSTX_TO_ERR: Indicates an HS_TX time-out error" "0,1" newline bitfld.long 0x0 5. "DAT4_READY,DAT4_READY: Indicates data lane 4 is ready" "0,1" newline bitfld.long 0x0 4. "DAT3_READY,DAT3_READY: Indicates data lane 3 is ready" "0,1" newline bitfld.long 0x0 3. "DAT2_READY,DAT2_READY: Indicates data lane 2 is ready" "0,1" newline bitfld.long 0x0 2. "DAT1_READY,DAT1_READY: Indicates data lane 1 is ready" "0,1" newline bitfld.long 0x0 1. "CLKLANE_READY,CLKLANE_READY: Indicates the clock lane is ready [normal DSI operation can start]" "0,1" newline bitfld.long 0x0 0. "PLL_LCK,PLL_LCK: Indicates PLL is locked - data coming from DCB [if DSI link is PLL initiator] or copy of pll_en [if DSI link is target]" "0,1" line.long 0x4 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_mctl_dphy_err,Errors reported from DPHY lanes - See description in DPHY inputs and outputs" bitfld.long 0x4 25. "ERR_CONT_LP1_4,ERR_CONT_LP1_4" "0,1" newline bitfld.long 0x4 24. "ERR_CONT_LP1_3,ERR_CONT_LP1_3" "0,1" newline bitfld.long 0x4 23. "ERR_CONT_LP1_2,ERR_CONT_LP1_2" "0,1" newline bitfld.long 0x4 22. "ERR_CONT_LP1_1,ERR_CONT_LP1_1" "0,1" newline bitfld.long 0x4 21. "ERR_CONT_LP0_4,ERR_CONT_LP0_4" "0,1" newline bitfld.long 0x4 20. "ERR_CONT_LP0_3,ERR_CONT_LP0_3" "0,1" newline bitfld.long 0x4 19. "ERR_CONT_LP0_2,ERR_CONT_LP0_2" "0,1" newline bitfld.long 0x4 18. "ERR_CONT_LP0_1,ERR_CONT_LP0_1" "0,1" newline bitfld.long 0x4 17. "ERR_CONTROL_4,ERR_CONTROL_4" "0,1" newline bitfld.long 0x4 16. "ERR_CONTROL_3,ERR_CONTROL_3" "0,1" newline bitfld.long 0x4 15. "ERR_CONTROL_2,ERR_CONTROL_2" "0,1" newline bitfld.long 0x4 14. "ERR_CONTROL_1,ERR_CONTROL_1" "0,1" newline bitfld.long 0x4 13. "ERR_SYNCESC_4,ERR_SYNCESC_4" "0,1" newline bitfld.long 0x4 12. "ERR_SYNCESC_3,ERR_SYNCESC_3" "0,1" newline bitfld.long 0x4 11. "ERR_SYNCESC_2,ERR_SYNCESC_2" "0,1" newline bitfld.long 0x4 10. "ERR_SYNCESC_1,ERR_SYNCESC_1" "0,1" newline bitfld.long 0x4 9. "ERR_ESC_4,ERR_ESC_4" "0,1" newline bitfld.long 0x4 8. "ERR_ESC_3,ERR_ESC_3" "0,1" newline bitfld.long 0x4 7. "ERR_ESC_2,ERR_ESC_2" "0,1" newline bitfld.long 0x4 6. "ERR_ESC_1,ERR_ESC_1" "0,1" line.long 0x8 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_mctl_lane_sts,DPHY Lane and PLL status information" bitfld.long 0x8 18. "PPI_C_TX_READY_HS,Value of ppi_c_tx_ready_hs input" "0,1" newline bitfld.long 0x8 17. "DPHY_PLL_LOCK,Value of dphy_pll_lock input" "0,1" newline hexmask.long.byte 0x8 12.--15. 1. "PPI_D_RX_ULPS_ESC,Value of ppi_d_rx_ulps_esc input" newline bitfld.long 0x8 9.--10. "DATLANE4_STATE,DATLANE4_STATE: state of the data lane 4 [00: start / 01: idle / 10: write / 11: ULPM]" "?,1: idle /,?,?" newline bitfld.long 0x8 7.--8. "DATLANE3_STATE,DATLANE3_STATE: state of the data lane 3 [00: start / 01: idle / 10: write / 11: ULPM]" "?,1: idle /,?,?" newline bitfld.long 0x8 5.--6. "DATLANE2_STATE,DATLANE2_STATE: state of the data lane 2 [00: start / 01: idle / 10: write / 11: ULPM]" "?,1: idle /,?,?" newline bitfld.long 0x8 2.--4. "DATLANE1_STATE,DATLANE1_STATE: state of the data lane 1 [000: start / 001: idle / 010: write / 011: ULPM / 100: read]" "?,1: idle /,?,?,?,?,?,?" newline bitfld.long 0x8 0.--1. "CLKLANE_STATE,CLKLANE_STATE: state of the clock lane [00: start / 01: idle / 10: HS / 11: ULPM]" "?,1: idle /,?,?" group.long 0x30++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_dsc_mode_ctl,DSC Mode Control register" bitfld.long 0x0 0. "DSC_MODE_EN,Enable DSC Mode Controls" "0,1" wgroup.long 0x34++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_dsc_cmd_send,DSC Command Control register. Write one to perform PPS set transfer or Execute Queue commands" bitfld.long 0x0 1. "DSC_SEND_PPS,Send PPS Command and Payload to the display" "0,1" newline bitfld.long 0x0 0. "DSC_EXECUTE_QUEUE,Send Execute Queue Command to Synchonise the display drivers" "0,1" group.long 0x38++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_dsc_pps_wrdat,DSC PPS Write data to outgoing FIFO Buffer. byte 0 to 3; applicable to either Write or Read commands." hexmask.long.byte 0x0 24.--31. 1. "PPS_WRDAT3,WRDAT3: 4th byte to be sent as part of PPS payload [stored in a FIFO]" newline hexmask.long.byte 0x0 16.--23. 1. "PPS_WRDAT2,WRDAT2: 3rd byte to be sent as part of PPS payload [stored in a FIFO]" newline hexmask.long.byte 0x0 8.--15. 1. "PPS_WRDAT1,WRDAT1: 2nd byte to be sent as part of PPS payload [stored in a FIFO]" newline hexmask.long.byte 0x0 0.--7. 1. "PPS_WRDAT0,WRDAT0: 1st byte to be sent as part of PPS payload [stored in a FIFO]" rgroup.long 0x3C++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_dsc_mode_sts,DSC Event Status Register" bitfld.long 0x0 1. "DSC_PPS_DONE,DSC PPS Command Sent" "0,1" newline bitfld.long 0x0 0. "DSC_EXEC_DONE,DSC Execute Command Sent" "0,1" group.long 0x40++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_mctl_dphy_skewcal_timeout,Used in conjunction with HS_SKEWCAL_TIMEOUT_EN from MCTL_MAIN_PHY_CTL to control periodic skew calibration" hexmask.long 0x0 0.--31. 1. "SKEWCAL_TO_VAL,SKEWCAL_TO_VAL: Timeout value" group.long 0x70++0x7 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_cmd_mode_ctl,Command mode control" bitfld.long 0x0 10. "IF3_LP_EN,IF3_LP_EN: enable to send command from DSC interface in LP if possible" "0,1" newline bitfld.long 0x0 9. "IF1_LP_EN,IF1_LP_EN: enable to send command from SDI interface in LP if possible" "0,1" newline bitfld.long 0x0 2.--3. "IF3_ID,IF3_ID: Virtual Channel ID of request from DSC interface command" "0,1,2,3" newline bitfld.long 0x0 0.--1. "IF1_ID,IF1_ID: Virtual Channel ID of request from SDI interface command" "0,1,2,3" line.long 0x4 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_cmd_mode_ctl2,Command mode control" hexmask.long.word 0x4 11.--22. 1. "TE_TIMEOUT,TE_TIMEOUT : on TE request - length of TE response window before timeout." newline hexmask.long.byte 0x4 3.--10. 1. "FIL_VALUE,FIL_VALUE: value to use to fill packet during data underrun or to complete unterminated packet [referred as padding value]" newline bitfld.long 0x4 1.--2. "ARB_PRI,ARB_PRI: in fixed mode specify interface with higher priority SDI 01 DSC 10" "0,1,2,3" newline bitfld.long 0x4 0. "ARB_MODE,ARB_MODE: arbitration mode [1: round robin 0: fixed]" "0: fixed],?" rgroup.long 0x78++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_cmd_mode_sts,Command Mode status" bitfld.long 0x0 4. "ERR_IF1_UNDERRUN,ERR_IF1_UNDERRUN: Indicates a data shortage occurs on IF1" "0,1" newline bitfld.long 0x0 3. "ERR_UNWANTED_RD,ERR_UNWANTED_RD: Indicates a read request was received while read capability was not enabled" "0,1" newline bitfld.long 0x0 2. "ERR_TE_MISS,ERR_TE_MISS: error: TE window time-out" "0,1" newline bitfld.long 0x0 1. "ERR_NO_TE,ERR_NO_TE: error: no TE generated by display" "0,1" newline bitfld.long 0x0 0. "CSM_RUNNING,CSM_RUNNING: Indicates CSM is running - command[s] are being proceeded" "0,1" wgroup.long 0x80++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_direct_cmd_send,Direct_cmd_send is not a real register. When this address is written (whatever its value is). it signals to the link that a direct command has to be sent." hexmask.long 0x0 0.--31. 1. "DIRECT_CMD_SEND,Initiate the direct command send operation" group.long 0x84++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_direct_cmd_main_settings,Main control of the Direct Command function." hexmask.long.byte 0x0 25.--28. 1. "TRIGGER_VAL,TRIGGER_VAL: trigger value if trigger request [see Note about trigger mapping] - signal is one hot encoding [only one bit out of the 4 should be set to 1]." newline bitfld.long 0x0 24. "CMD_LP_EN,CMD_LP_EN: enables LP sending for the command request" "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "CMD_SIZE,CMD_SIZE: size in bytes of the command payload. Note that the value written here by software should comply with certain limits. For write operations any value written which is larger than the FIFO depth [direct_cmd_fifodepth.." newline bitfld.long 0x0 14.--15. "CMD_ID,CMD_ID: For a read/write command Virtual Channel of the command" "0,1,2,3" newline hexmask.long.byte 0x0 8.--13. 1. "CMD_HEAD,CMD_HEAD: For a read/write command datatype of the command" newline bitfld.long 0x0 3. "CMD_LONGNOTSHORT,CMD_LONGNOTSHORT: Tie this to '1' if a long packet has to be generated." "0,1" newline bitfld.long 0x0 0.--2. "CMD_NAT,CMD_NAT: Type of the direct command: 000: write command 001: read command 100: TE request 101: trigger request 110: BTA request" "0: write command,1: read command,?,?,?,?,?,?" rgroup.long 0x88++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_direct_cmd_sts,Direct Command Status: To ensure that the observed status bits are coherent and applicable to the last command message sent." hexmask.long.word 0x0 16.--31. 1. "ACK_VAL,ACK_VAL: if an acknowledge with error has been received this field reports its value" newline hexmask.long.byte 0x0 11.--14. 1. "TRIGGER_VAL,TRIGGER_VAL: if a trigger has been received this field reports its value - refer to Note regarding trigger mapping" newline bitfld.long 0x0 10. "READ_COMPLETED_WITH_ERR,READ_COMPLETED_WITH_ERR: read command terminated with error" "0,1" newline bitfld.long 0x0 9. "BTA_FINISHED,BTA_FINISHED: DSI link recovered link initiator role after a BTA request" "0,1" newline bitfld.long 0x0 8. "BTA_COMPLETED,BTA_COMPLETED: indicates that BTA request completed" "0,1" newline bitfld.long 0x0 7. "TE_RECEIVED,TE_RECEIVED: TE received" "0,1" newline bitfld.long 0x0 6. "TRIGGER_RECEIVED,TRIGGER_RECEIVED: If command with BTA this bit is set if an trigger was received" "0,1" newline bitfld.long 0x0 5. "ACK_WITH_ERR_RECEIVED,ACKNOWLEDGE_WITH_ERR_RECEIVED: If command with BTA this bit is set if an acknowledge with error was received" "0,1" newline bitfld.long 0x0 4. "ACK_RECEIVED,ACKNOWLEDGE_RECEIVED: If command with BTA this bit is set if an acknowledge with no error was received" "0,1" newline bitfld.long 0x0 3. "READ_COMPLETED,READ_COMPLETED: read command request completed" "0,1" newline bitfld.long 0x0 2. "TRIGGER_COMPLETED,TRIGGER_COMPLETED: trigger command request completed" "0,1" newline bitfld.long 0x0 1. "WRITE_COMPLETED,WRITE_COMPLETED: write command request completed" "0,1" newline bitfld.long 0x0 0. "CMD_TRANSMISSION,CMD_TRANSMISSION: a command is being sent" "0,1" wgroup.long 0x8C++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_direct_cmd_rd_init,This register is not a real register - when written it stops the read command process by emptying" hexmask.long 0x0 0.--31. 1. "STOP_READ_OPERATION,Stop Read Operation" group.long 0x90++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_direct_cmd_wrdat,Write data to outgoing Direct Command FIFO. byte 0 to 3; applicable to either Write or Read commands." hexmask.long.byte 0x0 24.--31. 1. "WRDAT3,WRDAT3: 4th byte to be sent as part of Direct Command [stored in a FIFO]" newline hexmask.long.byte 0x0 16.--23. 1. "WRDAT2,WRDAT2: 3rd byte to be sent as part of Direct Command [stored in a FIFO]" newline hexmask.long.byte 0x0 8.--15. 1. "WRDAT1,WRDAT1: 2nd byte to be sent as part of Direct Command [stored in a FIFO]" newline hexmask.long.byte 0x0 0.--7. 1. "WRDAT0,WRDAT0: 1st byte to be sent as part of Direct Command [stored in a FIFO]" wgroup.long 0x94++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_direct_cmd_fifo_rst,Reset the write FIFO. This register is not a real register - when written it reset the FIFO pointer" hexmask.long 0x0 0.--31. 1. "CMD_FIFO_RST,Direct Command FIFO Reset" rgroup.long 0xA0++0xB line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_direct_cmd_rddat,Data from incoming Direct Command receive path. byte 0 to 3." hexmask.long.byte 0x0 24.--31. 1. "RDDAT3,RDDAT3: 4th byte from incoming Direct Command receive path" newline hexmask.long.byte 0x0 16.--23. 1. "RDDAT2,RDDAT2: 3rd byte from incoming Direct Command receive path" newline hexmask.long.byte 0x0 8.--15. 1. "RDDAT1,RDDAT1: 2nd byte from incoming Direct Command receive path" newline hexmask.long.byte 0x0 0.--7. 1. "RDDAT0,RDDAT0: 1st byte from incoming Direct Command receive path" line.long 0x4 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_direct_cmd_rd_property,read command characteristics" bitfld.long 0x4 18. "RD_DCSNOTGENERIC,RD_DCSNOTGENERIC: Type of read command [DCS or generic]" "0,1" newline bitfld.long 0x4 16.--17. "RD_ID,RD_ID: Virtual channel of the read received" "0,1,2,3" newline hexmask.long.word 0x4 0.--15. 1. "RD_SIZE,RD_SIZE: Size of the read data received" line.long 0x8 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_direct_cmd_rd_sts,Status of the read command received. It is recommended to clear direct_cmd_sts" bitfld.long 0x8 8. "ERR_EOT_WITH_ERR,ERR_EOT_WITH_ERR: EOT received with error" "0,1" newline bitfld.long 0x8 7. "ERR_MISSING_EOT,ERR_MISSING_EOT: EOT requested but not received" "0,1" newline bitfld.long 0x8 6. "ERR_WRONG_LENGTH,ERR_WRONG_LENGTH : length error has been detected. This error indicates that a packet has been received which was shorter than the expected length [longer packets than expected will result in ERR_RECEIVE field being set as it is.." "0,1" newline bitfld.long 0x8 5. "ERR_OVERSIZE,ERR_OVERSIZE : packet size exceeds maximum" "0,1" newline bitfld.long 0x8 4. "ERR_RECEIVE,ERR_RECEIVE : received packet not complete. This is a general error flag indicated that packet reception did not complete for some reason. Example conditions: signalling errors [e.g. unexpected change in PPI.." "0,1" newline bitfld.long 0x8 3. "ERR_UNDECODABLE,ERR_UNDECODABLE : command opcode not understood" "0,1" newline bitfld.long 0x8 2. "ERR_CHECKSUM,ERR_CHECKSUM: error[s] detected by checksum" "0,1" newline bitfld.long 0x8 1. "ERR_UNCORRECTABLE,ERR_UNCORRECTABLE : more than 1 error detected by ECC" "0,1" newline bitfld.long 0x8 0. "ERR_FIXED,ERR_FIXED : one error detected and fixed by ECC" "0,1" group.long 0xB0++0xB line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_vid_main_ctl,Video mode main control" bitfld.long 0x0 31. "VID_IGNORE_MISS_VSYNC,VID_IGNORE_MISSING_SYNC: When mode is enabled this allows the video stream to go to IDLE during VFP and wait for new VSYNC without link failing to recovery" "0,1" newline bitfld.long 0x0 25.--26. "RECOVERY_MODE,RECOVERY_MODE: specify recovery mode" "0,1,2,3" newline bitfld.long 0x0 23.--24. "REG_BLKEOL_MODE,REG_BLKEOL_MODE: behavior during end of line in burst mode - same coding as reg_blkline_mode" "0,1,2,3" newline bitfld.long 0x0 21.--22. "REG_BLKLINE_MODE,REG_BLKLINE_MODE : behavior during blanking time [1x: LP 01: blanking packet - 00: NULL packet]" "0: NULL packet],1: blanking packet,?,?" newline bitfld.long 0x0 20. "SYNC_PULSE_HORIZONTAL,SYNC_PULSE_HORIZONTAL: syncs are pulse [1] or event [0] all the time [DSI protocol v1.00..._r6 and later] - to be set only when sync_pulse_active = 1" "0,1" newline bitfld.long 0x0 19. "SYNC_PULSE_ACTIVE,SYNC_PULSE_ACTIVE: syncs are pulse [1] or event [0] during active area [DSI protocol v1.00..._r3 and before]" "0,1" newline bitfld.long 0x0 18. "BURST_MODE,BURST_MODE: signals if system works in burst mode or not" "0,1" newline hexmask.long.byte 0x0 14.--17. 1. "VID_PIXEL_MODE,VID_PIXEL_MODE: 0000: 16 bits RGB - 0001: 18 bits RGB.." newline hexmask.long.byte 0x0 8.--13. 1. "HEADER,HEADER : specify the datatype of RGB packets" newline bitfld.long 0x0 4.--5. "VID_ID,VID_ID : specify the Virtual Channel Identifier of the video packets" "0,1,2,3" newline bitfld.long 0x0 2.--3. "STOP_MODE,STOP_MODE : video stop point [see description in Video Stream Generator [VSG] section] .[The configurations where the frame stops at the end of any line and at the end of the last active line - start_mode in [1;2] - are.." "0,1,2,3" newline bitfld.long 0x0 0.--1. "START_MODE,START_MODE: video entry point [see description in Video Stream Generator [VSG] section][The configuration where the frame starts with a VFP - start_mode=1 - is being deprecated thus not verified anymore]" "0,1,2,3" line.long 0x4 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_vid_vsize1,Image vertical Sync and Blanking settings" hexmask.long.byte 0x4 12.--19. 1. "VFP_LENGTH,VFP_LENGTH: length of the VFP [in lines]" newline hexmask.long.byte 0x4 6.--11. 1. "VBP_LENGTH,VBP_LENGTH: length of the VBP [in lines]" newline hexmask.long.byte 0x4 0.--5. 1. "VSA_LENGTH,VSA_LENGTH: duration of the VSYNC pulse [in lines]" line.long 0x8 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_vid_vsize2,Image vertical active line setting" hexmask.long.word 0x8 0.--12. 1. "VACT_LENGTH,VACT_LENGTH: vertical length of active area [in line]" group.long 0xC0++0x7 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_vid_hsize1,Image horizontal sync and Blanking setting" hexmask.long.word 0x0 16.--31. 1. "HBP_LENGTH,HBP_LENGTH: length of HBP [in bytes] - if 0 HBP packet is sent with 0 payload" newline hexmask.long.word 0x0 0.--9. 1. "HSA_LENGTH,HSA_LENGTH: duration of HSYNC pulse [in bytes]" line.long 0x4 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_vid_hsize2,Image horizontal byte size setting" hexmask.long.word 0x4 16.--26. 1. "HFP_LENGTH,HFP_LENGTH: length of HFP [in bytes] - if 0 no HFP packet is sent" newline hexmask.long.word 0x4 0.--14. 1. "RGB_SIZE,RGB_SIZE: size [in byte] of the RGB packet" group.long 0xCC++0x7 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_vid_blksize1,blanking packet size" hexmask.long.word 0x0 15.--29. 1. "BLKEOL_PCK,BLKEOL_PCK: packet length [in byte] on end of line if burst mode [reg_blkeol_mode = 0b0x]" newline hexmask.long.word 0x0 0.--14. 1. "BLKLINE_EVENT_PCK,BLKLINE_EVENT_PCK: packet length [in byte] in blanking line if line has to be filled with a packet [reg_blkline_mode = 0b0x] and sync is an event Event mode Blank line.." line.long 0x4 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_vid_blksize2,Pulse Mode blanking packet size" hexmask.long.word 0x4 0.--14. 1. "BLKLINE_PULSE_PCK,BLKLINE_PULSE_PCK: packet length in blanking line if line has to be filled with a packet [reg_blkline_mode = 0b0x] and sync is a pulse Pulse mode Blank.." group.long 0xD8++0xF line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_vid_pck_time,Packet duration" hexmask.long.word 0x0 0.--14. 1. "BLKEOL_DURATION,BLKEOL_DURATION: specify the duration in clock cycles of the BLLP period [used for burst mode]" line.long 0x4 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_vid_dphy_time,Time of D-PHY behavior for wakeup time and Line duration for LP during horozontal blanking lines" hexmask.long.word 0x4 17.--27. 1. "REG_WAKEUP_TIME,REG_WAKEUP_TIME: estimated time [in clock cycles] to perform LP->HS on D-PHY |___________reg_wakeup_time________________| | Clk Request.." newline hexmask.long.tbyte 0x4 0.--16. 1. "REG_LINE_DURATION,REG_LINE_DURATION: duration -in clock cycles - of the blanking area for VSA/VBP and VFP lines - considered when reg_blkline_mode = 1b1x Pulse mode Blank LP line EOT disabled.." line.long 0x8 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_vid_err_color1,error color (green and red)" hexmask.long.word 0x8 12.--23. 1. "COL_GREEN,COL_GREEN: green component of the fill color" newline hexmask.long.word 0x8 0.--11. 1. "COL_RED,COL_RED: red component of the fill color" line.long 0xC "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_vid_err_color2,error color (blue and padding)" hexmask.long.word 0xC 12.--23. 1. "PAD_VALUE,PAD_VALUE: byte used to pad data [when system does not know exactly where it is]" newline hexmask.long.word 0xC 0.--11. 1. "COL_BLUE,COL_BLUE: blue component of the fill color" rgroup.long 0xE8++0xB line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_vid_vpos,vertical position" hexmask.long.word 0x0 2.--14. 1. "LINE_VAL,LINE_VAL: line number of the current area" newline bitfld.long 0x0 0.--1. "LINE_POS,LINE_POS: position in the frame [see description in Video Stream Generator]" "0,1,2,3" line.long 0x4 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_vid_hpos,Horizontal Position" hexmask.long.word 0x4 3.--17. 1. "HORIZONTAL_VAL,HORIZONTAL_VAL: position in the current horizontal area [in clock cycles]" newline bitfld.long 0x4 0.--2. "HORIZONTAL_POS,HORIZONTAL_POS: position in the line [see description in Video Stream Generator]" "0,1,2,3,4,5,6,7" line.long 0x8 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_vid_mode_sts,Video mode status and error reporting" bitfld.long 0x8 10. "VSG_RECOVERY,VSG_RECOVERY: specifies whether the VSG is in recovery mode or not" "0,1" newline bitfld.long 0x8 9. "ERR_VRS_WRONG_LENGTH,ERR_VRS_WRONG_LENGTH: signals that packets in SDI interface differ from the expected size [as specified by rgb_size]" "0,1" newline bitfld.long 0x8 8. "ERR_LONGREAD,ERR_LONGREAD: signals the read was too long" "0,1" newline bitfld.long 0x8 7. "ERR_LINEWRITE,ERR_LINEWRITE: signals the long packet is too long to pass during a long slot" "0,1" newline bitfld.long 0x8 6. "ERR_BURSTWRITE,ERR_BURSTWRITE: signals a long packet has been sent during active area" "0,1" newline bitfld.long 0x8 5. "REG_ERR_SMALL_HEIGHT,REG_ERR_SMALL_HEIGHT: fewer lines than expected between 2 VSYNC" "0,1" newline bitfld.long 0x8 4. "REG_ERR_SMALL_LENGTH,REG_ERR_SMALL_LENGTH: fewer bytes received than expected between 2 HSYNC. Note that MISSING_DATA error may occur instead of SMALL_LENGTH dependent upon timing." "0,1" newline bitfld.long 0x8 3. "ERR_MISSING_VSYNC,ERR_MISSING_VSYNC: missing VSYNC" "0,1" newline bitfld.long 0x8 2. "ERR_MISSING_HSYNC,ERR_MISSING_HSYNC: missing HSYNC" "0,1" newline bitfld.long 0x8 1. "ERR_MISSING_DATA,ERR_MISSING_DATA: data starvation at input of the VSG. Note that this error report may also be triggered instead of the SMALL_LENGTH error dependent upon timing." "0,1" newline bitfld.long 0x8 0. "VSG_RUNNING,VSG_RUNNING: VSG is running [1] or stopped [0]" "0,1" group.long 0xF4++0x1F line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_vid_vca_setting1,VCA control register 1" bitfld.long 0x0 16. "BURST_LP,BURST_LP: after an active line the system can switch in LP [1] or should complete the line with NULL packet [0]" "0,1" newline hexmask.long.word 0x0 0.--15. 1. "MAX_BURST_LIMIT,MAX_BURST_LIMIT: size of the 'biggest' burst packet [packet that fits after RGB in burst mode]" line.long 0x4 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_vid_vca_setting2,VCA control register 2" hexmask.long.word 0x4 16.--31. 1. "MAX_LINE_LIMIT,MAX_LINE_LIMIT: maximum size of the line packet [packet that fits in blanking line]" newline hexmask.long.word 0x4 0.--15. 1. "EXACT_BURST_LIMIT,EXACT_BURST_LIMIT: exact maximum size of the burst packet [packet that fits after RGB in burst mode]" line.long 0x8 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_tvg_ctl,Main control of the TVG" bitfld.long 0x8 5.--7. "TVG_STRIPE_SIZE,TVG_STRIPE_SIZE: size of the stripe [in pixels] - defined by 2^reg_tvg_stripe_size" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 3.--4. "TVG_MODE,TVG_MODE: TVG display mode : 00 : single color ; 01 : reserved ; 10 : vertical stripes ; 11 horizontal stripes" "0: single color,1: reserved,?,?" newline bitfld.long 0x8 1.--2. "TVG_STOPMODE,TVG_STOPMODE: stop mode: 00: at end of frame 01: at end of line 1x: immediate" "0: at end of frame,1: at end of line,?,?" newline bitfld.long 0x8 0. "TVG_RUN,TVG_RUN: start/stop of the TVG" "0,1" line.long 0xC "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_tvg_img_size,TVG Generated image size" hexmask.long.word 0xC 16.--28. 1. "TVG_NBLINE,TVG_NBLINE: Number of lines per frame" newline hexmask.long.word 0xC 0.--14. 1. "TVG_LINE_SIZE,TVG_LINE_SIZE: Number of bytes per line" line.long 0x10 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_tvg_color1,Color 1 of the dummy frame G. R" hexmask.long.word 0x10 12.--23. 1. "COL1_GREEN,COL1_GREEN: green component of the color 1" newline hexmask.long.word 0x10 0.--11. 1. "COL1_RED,COL1_RED: red component of the color 1" line.long 0x14 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_tvg_color1_bis,Color 1 of the dummy frame . B" hexmask.long.word 0x14 0.--11. 1. "COL1_BLUE,COL1_BLUE: blue component of the color 1" line.long 0x18 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_tvg_color2,Color 2 of the dummy frame. G. R" hexmask.long.word 0x18 12.--23. 1. "COL2_GREEN,COL2_GREEN: green component of the color 2" newline hexmask.long.word 0x18 0.--11. 1. "COL2_RED,COL2_RED: red component of the color 2" line.long 0x1C "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_tvg_color2_bis,Color 2 of the dummy frame. B" hexmask.long.word 0x1C 0.--11. 1. "COL2_BLUE,COL2_BLUE: blue component of the color 2" rgroup.long 0x114++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_tvg_sts,TVG status register" bitfld.long 0x0 0. "TVG_RUNNING,TVG_RUNNING: status of the TVG" "0,1" group.long 0x130++0x1F line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_mctl_main_sts_ctl,Controls the enabling and edge detection of main ctrl status bits" bitfld.long 0x0 25. "IF3_UNTERM_PCK_ERR_EDGE,IF3_UNTERM_PCK_ERR_EDGE: edge detection of if3_unterm_pck_err" "0,1" newline bitfld.long 0x0 24. "IF1_UNTERM_PCK_ERR_EDGE,IF1_UNTERM_PCK_ERR_EDGE: edge detection of if1_unterm_pck_err" "0,1" newline bitfld.long 0x0 23. "LPRX_TO_ERR_EDGE,LPRX_TO_ERR_EDGE: edge detection of LP_RX time-out error" "0,1" newline bitfld.long 0x0 22. "HSTX_TO_ERR_EDGE,HSTX_TO_ERR_EDGE: edge detection of HS_TX time-out error" "0,1" newline bitfld.long 0x0 21. "DAT4_READY_EDGE,DAT4_READY_EDGE: edge detection of dat4_ready" "0,1" newline bitfld.long 0x0 20. "DAT3_READY_EDGE,DAT3_READY_EDGE: edge detection of dat3_ready" "0,1" newline bitfld.long 0x0 19. "DAT2_READY_EDGE,DAT2_READY_EDGE: edge detection of dat2_ready" "0,1" newline bitfld.long 0x0 18. "DAT1_READY_EDGE,DAT1_READY_EDGE: edge detection of dat1_ready" "0,1" newline bitfld.long 0x0 17. "CLKLANE_READY_EDGE,CLKLANE_READY_EDGE: edge detection of clklane_ready" "0,1" newline bitfld.long 0x0 16. "PLL_LOCK_EDGE,PLL_LOCK_EDGE: edge detection of PLL lock" "0,1" newline bitfld.long 0x0 9. "IF3_UNTERM_PCK_ERR_EN,IF3_UNTERM_PCK_ERR_EN: enables if3_unterm_pck_err" "0,1" newline bitfld.long 0x0 8. "IF1_UNTERM_PCK_ERR_EN,IF1_UNTERM_PCK_ERR_EN: enables if1_unterm_pck_err" "0,1" newline bitfld.long 0x0 7. "LPRX_TO_ERR_EN,LPRX_TO_ERR_EN: enables lprx_to_err" "0,1" newline bitfld.long 0x0 6. "HSTX_TO_ERR_EN,HSTX_TO_ERR_EN: enables hstx_to_err" "0,1" newline bitfld.long 0x0 5. "DAT4_READY_EN,DAT4_READY_EN: enables dat4_ready" "0,1" newline bitfld.long 0x0 4. "DAT3_READY_EN,DAT3_READY_EN: enables dat3_ready" "0,1" newline bitfld.long 0x0 3. "DAT2_READY_EN,DAT2_READY_EN: enables dat2_ready" "0,1" newline bitfld.long 0x0 2. "DAT1_READY_EN,DAT1_READY_EN: enables dat1_ready" "0,1" newline bitfld.long 0x0 1. "CLKLANE_READY_EN,CLKLANE_READY_EN: enables clklane_ready" "0,1" newline bitfld.long 0x0 0. "PLL_LOCK_EN,PLL_LOCK_EN: enables PLL lock" "0,1" line.long 0x4 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_cmd_mode_sts_ctl,Controls the enabling and edge detection of command status bits" bitfld.long 0x4 21. "ERR_IF3_UNDERRUN_EDGE,ERR_IF3_UNDERRUN_EDGE: edge detection of err_IF3_underrun" "0,1" newline bitfld.long 0x4 20. "ERR_IF1_UNDERRUN_EDGE,ERR_IF1_UNDERRUN_EDGE: edge detection of err_IF1_underrun" "0,1" newline bitfld.long 0x4 19. "ERR_UNWANTED_RD_EDGE,ERR_UNWANTED_RD_EDGE: edge detection of err_unwanted_rd" "0,1" newline bitfld.long 0x4 18. "ERR_TE_MISS_EDGE,ERR_TE_MISS_EDGE: edge detection of err_te_miss" "0,1" newline bitfld.long 0x4 17. "ERR_NO_TE_EDGE,ERR_NO_TE_EDGE: edge detection of err_no_te" "0,1" newline bitfld.long 0x4 16. "CSM_RUNNING_EDGE,CSM_RUNNING_EDGE: edge detection of CSM running" "0,1" newline bitfld.long 0x4 5. "ERR_IF3_UNDERRUN_EN,ERR_IF3_UNDERRUN_EN: enables err_IF3_underrun" "0,1" newline bitfld.long 0x4 4. "ERR_IF1_UNDERRUN_EN,ERR_IF1_UNDERRUN_EN: enables err_IF1_underrun" "0,1" newline bitfld.long 0x4 3. "ERR_UNWANTED_RD_EN,ERR_UNWANTED_RD_EN: enables err_unwanted_rd" "0,1" newline bitfld.long 0x4 2. "ERR_TE_MISS_EN,ERR_TE_MISS_EN: enables err_te_miss" "0,1" newline bitfld.long 0x4 1. "ERR_NO_TE_EN,ERR_NO_TE_EN: enables err_no_te" "0,1" newline bitfld.long 0x4 0. "CSM_RUNNING_EN,CSM_RUNNING_EN: enables signaling of CSM running" "0,1" line.long 0x8 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_direct_cmd_sts_ctl,Controls the enabling and edge detection of Direct Command status bits" bitfld.long 0x8 26. "READ_COMPLETED_WITH_ERR_EDGE,READ_COMPLETED_WITH_ERR_EDGE: edge detection of read detection completed with errors" "0,1" newline bitfld.long 0x8 25. "BTA_FINISHED_EDGE,BTA_FINISHED_EDGE: edge detection of BTA completion detection" "0,1" newline bitfld.long 0x8 24. "BTA_COMPLETED_EDGE,BTA_COMPLETED_EDGE: edge detection of BTA request completed" "0,1" newline bitfld.long 0x8 23. "TE_RECEIVED_EDGE,TE_RECEIVED_EDGE: edge detection of TE received" "0,1" newline bitfld.long 0x8 22. "TRIGGER_RECEIVED_EDGE,TRIGGER_RECEIVED_EDGE: edge detection of trigger" "0,1" newline bitfld.long 0x8 21. "ACKNOWLEDGE_WITH_ERR_EDGE,ACKNOWLEDGE_WITH_ERR_EDGE: edge detection of acknowledge with error" "0,1" newline bitfld.long 0x8 20. "ACKNOWLEDGE_RECEIVED_EDGE,ACKNOWLEDGE_RECEIVED_EDGE: edge detection of acknowledge" "0,1" newline bitfld.long 0x8 19. "READ_COMPLETED_EDGE,READ_COMPLETED_EDGE: edge detection of read request completed" "0,1" newline bitfld.long 0x8 18. "TRIGGER_COMPLETED_EDGE,TRIGGER_COMPLETED_EDGE: edge detection of trigger request completed" "0,1" newline bitfld.long 0x8 17. "WRITE_COMPLETED_EDGE,WRITE_COMPLETED_EDGE: edge detection of detection of write request completed" "0,1" newline bitfld.long 0x8 16. "CMD_TRANSMISSION_EDGE,CMD_TRANSMISSION_EDGE: edge detection of cmd_transmission" "0,1" newline bitfld.long 0x8 10. "READ_COMPLETED_WITH_ERR_EN,READ_COMPLETED_WITH_ERR_EN: enables detection of read completed with errors" "0,1" newline bitfld.long 0x8 9. "BTA_FINISHED_EN,BTA_FINISHED_EN: enables BTA completion detection" "0,1" newline bitfld.long 0x8 8. "BTA_COMPLETED_EN,BTA_COMPLETED_EN: enables BTA request completed" "0,1" newline bitfld.long 0x8 7. "TE_RECEIVED_EN,TE_RECEIVED_EN: enables TE received" "0,1" newline bitfld.long 0x8 6. "TRIGGER_RECEIVED_EN,TRIGGER_RECEIVED_EN: enables trigger" "0,1" newline bitfld.long 0x8 5. "ACKNOWLEDGE_WITH_ERR_EN,ACKNOWLEDGE_WITH_ERR_EN: enables acknowledge with error" "0,1" newline bitfld.long 0x8 4. "ACKNOWLEDGE_RECEIVED_EN,ACKNOWLEDGE_RECEIVED_EN: enables acknowledge" "0,1" newline bitfld.long 0x8 3. "READ_COMPLETED_EN,READ_COMPLETED_EN: enables read request completed" "0,1" newline bitfld.long 0x8 2. "TRIGGER_COMPLETED_EN,TRIGGER_COMPLETED_EN: enables trigger_completed" "0,1" newline bitfld.long 0x8 1. "WRITE_COMPLETED_EN,WRITE_COMPLETED_EN: enables write_completed" "0,1" newline bitfld.long 0x8 0. "CMD_TRANSMISSION_EN,CMD_TRANSMISSION_EN: enables detection of cmd_transmission" "0,1" line.long 0xC "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_direct_cmd_rd_sts_ctl,Controls the enabling and edge detection of read commands error" bitfld.long 0xC 24. "ERR_EOT_WITH_ERR_EDGE,ERR_EOT_WITH_ERR_EDGE: edge detection of err_eot_with_err" "0,1" newline bitfld.long 0xC 23. "ERR_MISSING_EOT_EDGE,ERR_MISSING_EOT_EDGE: edge detection of err_missing_eot" "0,1" newline bitfld.long 0xC 22. "ERR_WRONG_LENGTH_EDGE,ERR_WRONG_LENGTH_EDGE: edge detection of err_wrong_length" "0,1" newline bitfld.long 0xC 21. "ERR_OVERSIZE_EDGE,ERR_OVERSIZE_EDGE: edge detection of err_oversize" "0,1" newline bitfld.long 0xC 20. "ERR_RECEIVE_EDGE,ERR_RECEIVE_EDGE: edge detection of err_receive" "0,1" newline bitfld.long 0xC 19. "ERR_UNDECODABLE_EDGE,ERR_UNDECODABLE_EDGE: edge detection of err_undecodable" "0,1" newline bitfld.long 0xC 18. "ERR_CHECKSUM_EDGE,ERR_CHECKSUM_EDGE: edge detection of err_checksum" "0,1" newline bitfld.long 0xC 17. "ERR_UNCORRECTABLE_EDGE,ERR_UNCORRECTABLE_EDGE: edge detection of err_uncorrectable" "0,1" newline bitfld.long 0xC 16. "ERR_FIXED_EDGE,ERR_FIXED_EDGE: edge detection of err_fixed" "0,1" newline bitfld.long 0xC 8. "ERR_EOT_WITH_ERR_EN,ERR_EOT_WITH_ERR_EN: enables err_eot_with_err" "0,1" newline bitfld.long 0xC 7. "ERR_MISSING_EOT_EN,ERR_MISSING_EOT_EN: enables err_missing_eot" "0,1" newline bitfld.long 0xC 6. "ERR_WRONG_LENGTH_EN,ERR_WRONG_LENGTH_EN: enables err_wrong_length" "0,1" newline bitfld.long 0xC 5. "ERR_OVERSIZE_EN,ERR_OVERSIZE_EN: enables err_oversize" "0,1" newline bitfld.long 0xC 4. "ERR_RECEIVE_EN,ERR_RECEIVE_EN: enables err_receive" "0,1" newline bitfld.long 0xC 3. "ERR_UNDECODABLE_EN,ERR_UNDECODABLE_EN: enables err_undecodable" "0,1" newline bitfld.long 0xC 2. "ERR_CHECKSUM_EN,ERR_CHECKSUM_EN: enables err_checksum" "0,1" newline bitfld.long 0xC 1. "ERR_UNCORRECTABLE_EN,ERR_UNCORRECTABLE_EN: enables err_uncorrectable" "0,1" newline bitfld.long 0xC 0. "ERR_FIXED_EN,ERR_FIXED_EN: enables err_fixed" "0,1" line.long 0x10 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_vid_mode_sts_ctl,Control the enabling and edge detection of VSG status bits" bitfld.long 0x10 26. "VSG_RECOVERY_EDGE,VSG_RECOVERY_EDGE: edge detection of vsg_recovery" "0,1" newline bitfld.long 0x10 25. "ERR_VRS_WRONG_LENGTH_EDGE,ERR_VRS_WRONG_LENGTH_EDGE: edge detection of err_vrs_wrong_length" "0,1" newline bitfld.long 0x10 24. "ERR_LONGREAD_EDGE,ERR_LONGREAD_EDGE: edge detection of err_longread" "0,1" newline bitfld.long 0x10 23. "ERR_LINEWRITE_EDGE,ERR_LINEWRITE_EDGE: edge detection of err_line_write" "0,1" newline bitfld.long 0x10 22. "ERR_BURSTWRITE_EDGE,ERR_BURSTWRITE_EDGE: edge detection of err_burst_write" "0,1" newline bitfld.long 0x10 21. "ERR_SMALL_HEIGHT_EDGE,ERR_SMALL_HEIGHT_EDGE: edge detection of unaligned line number" "0,1" newline bitfld.long 0x10 20. "ERR_SMALL_LENGTH_EDGE,ERR_SMALL_LENGTH_EDGE: edge detection of unaligned size" "0,1" newline bitfld.long 0x10 19. "ERR_MISSING_VSYNC_EDGE,ERR_MISSING_VSYNC_EDGE: edge detection of detection of missing VSYNC" "0,1" newline bitfld.long 0x10 18. "ERR_MISSING_HSYNC_EDGE,ERR_MISSING_HSYNC_EDGE: edge detection of detection of missing HSYNC" "0,1" newline bitfld.long 0x10 17. "ERR_MISSING_DATA_EDGE,ERR_MISSING_DATA_EDGE: edge detection of data miss detection" "0,1" newline bitfld.long 0x10 16. "VSG_RUNNING_EDGE,VSG_RUNNING_EDGE: edge detection of VSG status observation" "0,1" newline bitfld.long 0x10 10. "VSG_RECOVERY_EN,VSG_RECOVERY_EN: enables vsg_recovery" "0,1" newline bitfld.long 0x10 9. "ERR_VRS_WRONG_LENGTH_EN,ERR_VRS_WRONG_LENGTH_EN: enables err_vrs_wrong_length" "0,1" newline bitfld.long 0x10 8. "ERR_LONGREAD_EN,ERR_LONGREAD_EN: enables err_longread" "0,1" newline bitfld.long 0x10 7. "ERR_LINEWRITE_EN,ERR_LINEWRITE_EN: enables err_line_write" "0,1" newline bitfld.long 0x10 6. "ERR_BURSTWRITE_EN,ERR_BURSTWRITE_EN: enables err_burst_write" "0,1" newline bitfld.long 0x10 5. "ERR_SMALL_HEIGHT_EN,ERR_SMALL_HEIGHT_EN: enables detection of unaligned line number" "0,1" newline bitfld.long 0x10 4. "ERR_SMALL_LENGTH_EN,ERR_SMALL_LENGTH_EN: enables detection of unaligned size" "0,1" newline bitfld.long 0x10 3. "ERR_MISSING_VSYNC_EN,ERR_MISSING_VSYNC_EN: enables detection of missing VSYNC" "0,1" newline bitfld.long 0x10 2. "ERR_MISSING_HSYNC_EN,ERR_MISSING_HSYNC_EN: enables detection of missing HSYNC" "0,1" newline bitfld.long 0x10 1. "ERR_MISSING_DATA_EN,ERR_MISSING_DATA_EN: enables data miss detection" "0,1" newline bitfld.long 0x10 0. "VSG_RUNNING_EN,VSG_RUNNING_EN: enables VSG status observation" "0,1" line.long 0x14 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_tvg_sts_ctl,Control the enabling and edge detection of TVG status bits" bitfld.long 0x14 16. "TVG_STS_EDGE,TVG_STS_EDGE: edge detection of TVG status observation" "0,1" newline bitfld.long 0x14 0. "TVG_STS_EN,TVG_STS_EN: enables TVG status observation" "0,1" line.long 0x18 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_mctl_dphy_err_ctl1,Controls the enabling and edge detection of the DPHY errors" bitfld.long 0x18 25. "ERR_CONT_LP1_4_EN,ERR_CONT_LP1_4_EN" "0,1" newline bitfld.long 0x18 24. "ERR_CONT_LP1_3_EN,ERR_CONT_LP1_3_EN" "0,1" newline bitfld.long 0x18 23. "ERR_CONT_LP1_2_EN,ERR_CONT_LP1_2_EN" "0,1" newline bitfld.long 0x18 22. "ERR_CONT_LP1_1_EN,ERR_CONT_LP1_1_EN" "0,1" newline bitfld.long 0x18 21. "ERR_CONT_LP0_4_EN,ERR_CONT_LP0_4_EN" "0,1" newline bitfld.long 0x18 20. "ERR_CONT_LP0_3_EN,ERR_CONT_LP0_3_EN" "0,1" newline bitfld.long 0x18 19. "ERR_CONT_LP0_2_EN,ERR_CONT_LP0_2_EN" "0,1" newline bitfld.long 0x18 18. "ERR_CONT_LP0_1_EN,ERR_CONT_LP0_1_EN" "0,1" newline bitfld.long 0x18 17. "ERR_CONTROL_4_EN,ERR_CONTROL_4_EN" "0,1" newline bitfld.long 0x18 16. "ERR_CONTROL_3_EN,ERR_CONTROL_3_EN" "0,1" newline bitfld.long 0x18 15. "ERR_CONTROL_2_EN,ERR_CONTROL_2_EN" "0,1" newline bitfld.long 0x18 14. "ERR_CONTROL_1_EN,ERR_CONTROL_1_EN" "0,1" newline bitfld.long 0x18 13. "ERR_SYNCESC_4_EN,ERR_SYNCESC_4_EN" "0,1" newline bitfld.long 0x18 12. "ERR_SYNCESC_3_EN,ERR_SYNCESC_3_EN" "0,1" newline bitfld.long 0x18 11. "ERR_SYNCESC_2_EN,ERR_SYNCESC_2_EN" "0,1" newline bitfld.long 0x18 10. "ERR_SYNCESC_1_EN,ERR_SYNCESC_1_EN" "0,1" newline bitfld.long 0x18 9. "ERR_ESC_4_EN,ERR_ESC_4_EN" "0,1" newline bitfld.long 0x18 8. "ERR_ESC_3_EN,ERR_ESC_3_EN" "0,1" newline bitfld.long 0x18 7. "ERR_ESC_2_EN,ERR_ESC_2_EN" "0,1" newline bitfld.long 0x18 6. "ERR_ESC_1_EN,ERR_ESC_1_EN" "0,1" line.long 0x1C "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_mctl_dphy_err_ctl2,Controls he enabling and edge detection of the DPHY errors" bitfld.long 0x1C 19. "ERR_CONT_LP1_4_EDGE,ERR_CONT_LP1_4_EDGE" "0,1" newline bitfld.long 0x1C 18. "ERR_CONT_LP1_3_EDGE,ERR_CONT_LP1_3_EDGE" "0,1" newline bitfld.long 0x1C 17. "ERR_CONT_LP1_2_EDGE,ERR_CONT_LP1_2_EDGE" "0,1" newline bitfld.long 0x1C 16. "ERR_CONT_LP1_1_EDGE,ERR_CONT_LP1_1_EDGE" "0,1" newline bitfld.long 0x1C 15. "ERR_CONT_LP0_4_EDGE,ERR_CONT_LP0_4_EDGE" "0,1" newline bitfld.long 0x1C 14. "ERR_CONT_LP0_3_EDGE,ERR_CONT_LP0_3_EDGE" "0,1" newline bitfld.long 0x1C 13. "ERR_CONT_LP0_2_EDGE,ERR_CONT_LP0_2_EDGE" "0,1" newline bitfld.long 0x1C 12. "ERR_CONT_LP0_1_EDGE,ERR_CONT_LP0_1_EDGE" "0,1" newline bitfld.long 0x1C 11. "ERR_CONTROL_4_EDGE,ERR_CONTROL_4_EDGE" "0,1" newline bitfld.long 0x1C 10. "ERR_CONTROL_3_EDGE,ERR_CONTROL_3_EDGE" "0,1" newline bitfld.long 0x1C 9. "ERR_CONTROL_2_EDGE,ERR_CONTROL_2_EDGE" "0,1" newline bitfld.long 0x1C 8. "ERR_CONTROL_1_EDGE,ERR_CONTROL_1_EDGE" "0,1" newline bitfld.long 0x1C 7. "ERR_SYNCESC_4_EDGE,ERR_SYNCESC_4_EDGE" "0,1" newline bitfld.long 0x1C 6. "ERR_SYNCESC_3_EDGE,ERR_SYNCESC_3_EDGE" "0,1" newline bitfld.long 0x1C 5. "ERR_SYNCESC_2_EDGE,ERR_SYNCESC_2_EDGE" "0,1" newline bitfld.long 0x1C 4. "ERR_SYNCESC_1_EDGE,ERR_SYNCESC_1_EDGE" "0,1" newline bitfld.long 0x1C 3. "ERR_ESC_4_EDGE,ERR_ESC_4_EDGE" "0,1" newline bitfld.long 0x1C 2. "ERR_ESC_3_EDGE,ERR_ESC_3_EDGE" "0,1" newline bitfld.long 0x1C 1. "ERR_ESC_2_EDGE,ERR_ESC_2_EDGE" "0,1" newline bitfld.long 0x1C 0. "ERR_ESC_1_EDGE,ERR_ESC_1_EDGE" "0,1" wgroup.long 0x150++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_mctl_main_sts_clr,Main control status register clear function. These bits are spread across different register banks." bitfld.long 0x0 9. "IF3_UNTERM_PCK_ERR_CLR,IF3_UNTERM_PCK_ERR_CLR: clears if3_unterm_pck_err" "0,1" newline bitfld.long 0x0 8. "IF1_UNTERM_PCK_ERR_CLR,IF1_UNTERM_PCK_ERR_CLR: clears if1_unterm_pck_err" "0,1" newline bitfld.long 0x0 7. "LPRX_TO_ERR_CLR,LPRX_TO_ERR_CLR: clears lprx_to_err" "0,1" newline bitfld.long 0x0 6. "HSTX_TO_ERR_CLR,HSTX_TO_ERR_CLR: clears hstx_to_err" "0,1" newline bitfld.long 0x0 5. "DAT4_READY_CLR,DAT4_READY_CLR: clears dat4_ready" "0,1" newline bitfld.long 0x0 4. "DAT3_READY_CLR,DAT3_READY_CLR: clears dat3_ready" "0,1" newline bitfld.long 0x0 3. "DAT2_READY_CLR,DAT2_READY_CLR: clears dat2_ready" "0,1" newline bitfld.long 0x0 2. "DAT1_READY_CLR,DAT1_READY_CLR: clears dat1_ready" "0,1" newline bitfld.long 0x0 1. "CLKLANE_READY_CLR,CLKLANE_READY_CLR: clears clklane_ready" "0,1" newline bitfld.long 0x0 0. "PLL_LOCK_CLR,PLL_LOCK_CLR: clears PLL lock" "0,1" group.long 0x154++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_cmd_mode_sts_clr,Command status register clear function. Write '1' to clear" rbitfld.long 0x0 5. "ERR_IF3_UNDERRUN_CLR,ERR_IF3_UNDERRUN_CLR: clears err_IF3_underrun" "0,1" newline bitfld.long 0x0 4. "ERR_IF1_UNDERRUN_CLR,ERR_IF1_UNDERRUN_CLR: clears err_IF1_underrun" "0,1" newline bitfld.long 0x0 3. "ERR_UNWANTED_RD_CLR,ERR_UNWANTED_RD_CLR: clears err_unwanted_rd" "0,1" newline bitfld.long 0x0 2. "ERR_TE_MISS_CLR,ERR_TE_MISS_CLR: clears err_te_miss" "0,1" newline bitfld.long 0x0 1. "ERR_NO_TE_CLR,ERR_NO_TE_CLR: clears err_no_te" "0,1" newline bitfld.long 0x0 0. "CSM_RUNNING_CLR,CSM_RUNNING_CLR: clears CSM running bit" "0,1" wgroup.long 0x158++0x13 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_direct_cmd_sts_clr,Direct command status register clear function. Write '1' to clear" bitfld.long 0x0 10. "READ_COMPLETED_WITH_ERR_CLR,READ_COMPLETED_WITH_ERR_CLR: clears detection of read completed with errors" "0,1" newline bitfld.long 0x0 9. "BTA_FINISHED_CLR,BTA_FINISHED_CLR: clears BTA completion detection" "0,1" newline bitfld.long 0x0 8. "BTA_COMPLETED_CLR,BTA_COMPLETED_CLR: clears BTA request completed" "0,1" newline bitfld.long 0x0 7. "TE_RECEIVED_CLR,TE_RECEIVED_CLR: clears TE received" "0,1" newline bitfld.long 0x0 6. "TRIGGER_RECEIVED_CLR,TRIGGER_RECEIVED_CLR: clears trigger" "0,1" newline bitfld.long 0x0 5. "ACK_WITH_ERR_CLR,ACKNOWLEDGE_WITH_ERR_CLR: clears acknowledge with errors" "0,1" newline bitfld.long 0x0 4. "ACK_RECEIVED_CLR,ACKNOWLEDGE_RECEIVED_CLR: clears acknowledge" "0,1" newline bitfld.long 0x0 3. "READ_COMPLETED_CLR,READ_COMPLETED_CLR: clears read request completed" "0,1" newline bitfld.long 0x0 2. "TRIGGER_COMPLETED_CLR,TRIGGER_COMPLETED_CLR: clears trigger request completed" "0,1" newline bitfld.long 0x0 1. "WRITE_COMPLETED_CLR,WRITE_COMPLETED_CLR: clears detection of write request completed" "0,1" newline bitfld.long 0x0 0. "CMD_TRANSMISSION_CLR,CMD_TRANSMISSION_CLR: clears cmd_transmission" "0,1" line.long 0x4 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_direct_cmd_rd_sts_clr,Direct command read status register clear function. Write '1' to clear" bitfld.long 0x4 8. "ERR_EOT_WITH_ERR_CLR,ERR_EOT_WITH_ERR_CLR: clears err_eot_with_err" "0,1" newline bitfld.long 0x4 7. "ERR_MISSING_EOT_CLR,ERR_MISSING_EOT_CLR: clears err_missing_eot" "0,1" newline bitfld.long 0x4 6. "ERR_WRONG_LENGTH_CLR,ERR_WRONG_LENGTH_CLR: clears err_wrong_length" "0,1" newline bitfld.long 0x4 5. "ERR_OVERSIZE_CLR,ERR_OVERSIZE_CLR: clears err_oversize" "0,1" newline bitfld.long 0x4 4. "ERR_RECEIVE_CLR,ERR_RECEIVE_CLR: clears err_receive" "0,1" newline bitfld.long 0x4 3. "ERR_UNDECODABLE_CLR,ERR_UNDECODABLE_CLR: clears err_undecodable" "0,1" newline bitfld.long 0x4 2. "ERR_CHECKSUM_CLR,ERR_CHECKSUM_CLR: clears err_checksum" "0,1" newline bitfld.long 0x4 1. "ERR_UNCORRECTABLE_CLR,ERR_UNCORRECTABLE_CLR: clears err_uncorrectable" "0,1" newline bitfld.long 0x4 0. "ERR_FIXED_CLR,ERR_FIXED_CLR: clears err_fixed" "0,1" line.long 0x8 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_vid_mode_sts_clr,VSG status register clear function" bitfld.long 0x8 10. "VSG_RECOVERY_CLR,VSG_RECOVERY_CLR: clears the bit vsg_recovery" "0,1" newline bitfld.long 0x8 9. "ERR_VRS_WRONG_LENGTH_CLR,ERR_VRS_WRONG_LENGTH_CLR: clears the bit err_vid_wrong_length" "0,1" newline bitfld.long 0x8 8. "ERR_LONGREAD_CLR,ERR_LONGREAD_CLR: clears err_longread" "0,1" newline bitfld.long 0x8 7. "ERR_LINEWRITE_CLR,ERR_LINEWRITE_CLR: clears err_linewrite" "0,1" newline bitfld.long 0x8 6. "ERR_BURSTWRITE_CLR,ERR_BURSTWRITE_CLR: clears err_burstwrite" "0,1" newline bitfld.long 0x8 5. "ERR_SMALL_HEIGHT_CLR,ERR_SMALL_HEIGHT_CLR: clears unaligned line number" "0,1" newline bitfld.long 0x8 4. "ERR_SMALL_LENGTH_CLR,ERR_SMALL_LENGTH_CLR: clears analigned size" "0,1" newline bitfld.long 0x8 3. "ERR_MISSING_VSYNC_CLR,ERR_MISSING_VSYNC_CLR: clears missing VSYNC" "0,1" newline bitfld.long 0x8 2. "ERR_MISSING_HSYNC_CLR,ERR_MISSING_HSYNC_CLR: clears missing HSYNC" "0,1" newline bitfld.long 0x8 1. "ERR_MISSING_DATA_CLR,ERR_MISSING_DATA_CLR: clears data miss" "0,1" newline bitfld.long 0x8 0. "VSG_STS_CLR,VSG_STS_CLR: clears VSG status" "0,1" line.long 0xC "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_tg_sts_clr,TVG status register clear function. Write '1' to clear" bitfld.long 0xC 0. "TVG_STS_CLR,TVG_STS_CLR: clears TVG status observation" "0,1" line.long 0x10 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_mctl_dphy_err_clr,D_PHY lanes output register clear function. Write '1' to clear" bitfld.long 0x10 25. "ERR_CONT_LP1_4_CLR,ERR_CONT_LP1_4_CLR" "0,1" newline bitfld.long 0x10 24. "ERR_CONT_LP1_3_CLR,ERR_CONT_LP1_3_CLR" "0,1" newline bitfld.long 0x10 23. "ERR_CONT_LP1_2_CLR,ERR_CONT_LP1_2_CLR" "0,1" newline bitfld.long 0x10 22. "ERR_CONT_LP1_1_CLR,ERR_CONT_LP1_1_CLR" "0,1" newline bitfld.long 0x10 21. "ERR_CONT_LP0_4_CLR,ERR_CONT_LP0_4_CLR" "0,1" newline bitfld.long 0x10 20. "ERR_CONT_LP0_3_CLR,ERR_CONT_LP0_3_CLR" "0,1" newline bitfld.long 0x10 19. "ERR_CONT_LP0_2_CLR,ERR_CONT_LP0_2_CLR" "0,1" newline bitfld.long 0x10 18. "ERR_CONT_LP0_1_CLR,ERR_CONT_LP0_1_CLR" "0,1" newline bitfld.long 0x10 17. "ERR_CONTROL_4_CLR,ERR_CONTROL_4_CLR" "0,1" newline bitfld.long 0x10 16. "ERR_CONTROL_3_CLR,ERR_CONTROL_3_CLR" "0,1" newline bitfld.long 0x10 15. "ERR_CONTROL_2_CLR,ERR_CONTROL_2_CLR" "0,1" newline bitfld.long 0x10 14. "ERR_CONTROL_1_CLR,ERR_CONTROL_1_CLR" "0,1" newline bitfld.long 0x10 13. "ERR_SYNCESC_4_CLR,ERR_SYNCESC_4_CLR" "0,1" newline bitfld.long 0x10 12. "ERR_SYNCESC_3_CLR,ERR_SYNCESC_3_CLR" "0,1" newline bitfld.long 0x10 11. "ERR_SYNCESC_2_CLR,ERR_SYNCESC_2_CLR" "0,1" newline bitfld.long 0x10 10. "ERR_SYNCESC_1_CLR,ERR_SYNCESC_1_CLR" "0,1" newline bitfld.long 0x10 9. "ERR_ESC_4_CLR,ERR_ESC_4_CLR" "0,1" newline bitfld.long 0x10 8. "ERR_ESC_3_CLR,ERR_ESC_3_CLR" "0,1" newline bitfld.long 0x10 7. "ERR_ESC_2_CLR,ERR_ESC_2_CLR" "0,1" newline bitfld.long 0x10 6. "ERR_ESC_1_CLR,ERR_ESC_1_CLR" "0,1" rgroup.long 0x170++0x1B line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_mctl_main_sts_flag,Main control status Flag registers. The use of these registers is related to status and error bits management (and interrupt too)." bitfld.long 0x0 9. "IF3_UNTERM_PCK_ERR_FLAG,IF3_UNTERM_PCK_ERR_FLAG: flags if3_unterm_pck_err" "0,1" newline bitfld.long 0x0 8. "IF1_UNTERM_PCK_ERR_FLAG,IF1_UNTERM_PCK_ERR_FLAG: flags if1_unterm_pck_err" "0,1" newline bitfld.long 0x0 7. "LPRX_TO_ERR_FLAG,LPRX_TO_ERR_FLAG: flags lprx_to_err" "0,1" newline bitfld.long 0x0 6. "HSTX_TO_ERR_FLAG,HSTX_TO_ERR_FLAG: flags hstx_to_err" "0,1" newline bitfld.long 0x0 5. "DAT4_READY_FLAG,DAT4_READY_FLAG: flags dat4_ready" "0,1" newline bitfld.long 0x0 4. "DAT3_READY_FLAG,DAT3_READY_FLAG: flags dat3_ready" "0,1" newline bitfld.long 0x0 3. "DAT2_READY_FLAG,DAT2_READY_FLAG: flags dat2_ready" "0,1" newline bitfld.long 0x0 2. "DAT1_READY_FLAG,DAT1_READY_FLAG: flags dat1_ready" "0,1" newline bitfld.long 0x0 1. "CLKLANE_READY_FLAG,CLKLANE_READY_FLAG: flags clklane_ready" "0,1" newline bitfld.long 0x0 0. "PLL_LOCK_FLAG,PLL_LOCK_FLAG: flags PLL lock" "0,1" line.long 0x4 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_cmd_mode_sts_flag,Command Mode status" bitfld.long 0x4 5. "ERR_IF3_UNDERRUN_FLAG,ERR_IF3_UNDERRUN_FLAG: flags err_IF3_underrun" "0,1" newline bitfld.long 0x4 4. "ERR_IF1_UNDERRUN_FLAG,ERR_IF1_UNDERRUN_FLAG: flags err_IF1_underrun" "0,1" newline bitfld.long 0x4 3. "ERR_UNWANTED_RD_FLAG,ERR_UNWANTED_RD_FLAG: flags fixed_err" "0,1" newline bitfld.long 0x4 2. "ERR_TE_MISS_FLAG,ERR_TE_MISS_FLAG: flags err_te_miss" "0,1" newline bitfld.long 0x4 1. "ERR_NO_TE_FLAG,ERR_NO_TE_FLAG: flags err_no_te" "0,1" newline bitfld.long 0x4 0. "CSM_RUNNING_FLAG,CSM_RUNNING_FLAG: flags remaining_err" "0,1" line.long 0x8 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_direct_cmd_sts_flag,Direct command mode status" bitfld.long 0x8 10. "READ_COMPLETED_WITH_ERR_FLAG,READ_COMPLETED_WITH_ERR_FLAG: flags detection of read completed with errors" "0,1" newline bitfld.long 0x8 9. "BTA_FINISHED_FLAG,BTA_FINISHED_FLAG: flags BTA completion detection" "0,1" newline bitfld.long 0x8 8. "BTA_COMPLETED_FLAG,BTA_COMPLETED_FLAG: flags BTA request completed" "0,1" newline bitfld.long 0x8 7. "TE_RECEIVED_FLAG,TE_RECEIVED_FLAG: flags TE received" "0,1" newline bitfld.long 0x8 6. "TRIGGER_RECEIVED_FLAG,TRIGGER_RECEIVED_FLAG: flags trigger" "0,1" newline bitfld.long 0x8 5. "ACK_WITH_ERR_RECEIVED_FLAG,ACK_WITH_ERR_RECEIVED_FLAG: flag acknowledge with error detection" "0,1" newline bitfld.long 0x8 4. "ACKNOWLEDGE_RECEIVED_FLAG,ACKNOWLEDGE_RECEIVED_FLAG: flags acknowledge" "0,1" newline bitfld.long 0x8 3. "READ_COMPLETED_FLAG,READ_COMPLETED_FLAG: flags read request completed" "0,1" newline bitfld.long 0x8 2. "TRIGGER_COMPLETED_FLAG,TRIGGER_COMPLETED_FLAG: flags trigger request completed" "0,1" newline bitfld.long 0x8 1. "WRITE_COMPLETED_FLAG,WRITE_COMPLETED_FLAG: flags detection of write request completed" "0,1" newline bitfld.long 0x8 0. "CMD_TRANSMISSION_FLAG,CMD_TRANSMISSION_FLAG: flags cmd_transmission" "0,1" line.long 0xC "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_direct_cmd_rd_sts_flag,Direct command read status bits" bitfld.long 0xC 8. "ERR_EOT_WITH_ERR_FLAG,ERR_EOT_WITH_ERR_FLAG: flags err_eot_with_err" "0,1" newline bitfld.long 0xC 7. "ERR_MISSING_EOT_FLAG,ERR_MISSING_EOT_FLAG: flags err_missing_eot" "0,1" newline bitfld.long 0xC 6. "ERR_WRONG_LENGTH_FLAG,ERR_WRONG_LENGTH_FLAG: flags err_wrong_length" "0,1" newline bitfld.long 0xC 5. "ERR_OVERSIZE_FLAG,ERR_OVERSIZE_FLAG: flags err_oversize" "0,1" newline bitfld.long 0xC 4. "ERR_RECEIVE_FLAG,ERR_RECEIVE_FLAG: flags err_receive" "0,1" newline bitfld.long 0xC 3. "ERR_UNDECODABLE_FLAG,ERR_UNDECODABLE_FLAG: flags err_undecodable" "0,1" newline bitfld.long 0xC 2. "ERR_CHECKSUM_FLAG,ERR_CHECKSUM_FLAG: flags err_checksum" "0,1" newline bitfld.long 0xC 1. "ERR_UNCORRECTABLE_FLAG,ERR_UNCORRECTABLE_FLAG: flags err_uncorrectable" "0,1" newline bitfld.long 0xC 0. "ERR_FIXED_FLAG,ERR_FIXED_FLAG: flags err_fixed" "0,1" line.long 0x10 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_vid_mode_sts_flag,Video Mode status flag" bitfld.long 0x10 10. "FLAG_VSG_RECOVERY,FLAG_VSG_RECOVERY: lags vsg_recovery" "0,1" newline bitfld.long 0x10 9. "ERR_VRS_WRONG_LENGTH_FLAG,ERR_VRS_WRONG_LENGTH_FLAG: flags err_vrs_wrong_length" "0,1" newline bitfld.long 0x10 8. "ERR_LONGREAD_FLAG,ERR_LONGREAD_FLAG: flags err_longread" "0,1" newline bitfld.long 0x10 7. "ERR_LONGWRITE_FLAG,ERR_LONGWRITE_FLAG: flags err_longwrite" "0,1" newline bitfld.long 0x10 6. "ERR_SHORTWRITE_FLAG,ERR_SHORTWRITE_FLAG: flags err_shortwrite" "0,1" newline bitfld.long 0x10 5. "ERR_SMALL_HEIGHT_FLAG,ERR_SMALL_HEIGHT_FLAG: flags the detection of unaligned line number" "0,1" newline bitfld.long 0x10 4. "ERR_SMALL_LENGTH_FLAG,ERR_SMALL_LENGTH_FLAG: flags the detection of unaligned size" "0,1" newline bitfld.long 0x10 3. "ERR_MISS_VSYNC_FLAG,ERR_MISS_VSYNC_FLAG: flags missing VSYNC" "0,1" newline bitfld.long 0x10 2. "ERR_MISSING_HSYNC_FLAG,ERR_MISSING_HSYNC_FLAG: flags missing HSYNC" "0,1" newline bitfld.long 0x10 1. "ERR_MISSING_DATA_FLAG,ERR_MISSING_DATA_FLAG: flags data miss" "0,1" newline bitfld.long 0x10 0. "VSG_STS_FLAG,VSG_STS_FLAG: flags VSG status" "0,1" line.long 0x14 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_tg_sts_flag,TVG status Flags" bitfld.long 0x14 0. "TVG_STS_FLAG,TVG_STS_FLAG: Indicates TVG status observation" "0,1" line.long 0x18 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_mctl_dphy_err_flag,Errors output from D_PHY lanes - flags error bit" bitfld.long 0x18 25. "ERR_CONT_LP1_4_FLAG,ERR_CONT_LP1_4_FLAG" "0,1" newline bitfld.long 0x18 24. "ERR_CONT_LP1_3_FLAG,ERR_CONT_LP1_3_FLAG" "0,1" newline bitfld.long 0x18 23. "ERR_CONT_LP1_2_FLAG,ERR_CONT_LP1_2_FLAG" "0,1" newline bitfld.long 0x18 22. "ERR_CONT_LP1_1_FLAG,ERR_CONT_LP1_1_FLAG" "0,1" newline bitfld.long 0x18 21. "ERR_CONT_LP0_4_FLAG,ERR_CONT_LP0_4_FLAG" "0,1" newline bitfld.long 0x18 20. "ERR_CONT_LP0_3_FLAG,ERR_CONT_LP0_3_FLAG" "0,1" newline bitfld.long 0x18 19. "ERR_CONT_LP0_2_FLAG,ERR_CONT_LP0_2_FLAG" "0,1" newline bitfld.long 0x18 18. "ERR_CONT_LP0_1_FLAG,ERR_CONT_LP0_1_FLAG" "0,1" newline bitfld.long 0x18 17. "ERR_CONTROL_4_FLAG,ERR_CONTROL_4_FLAG" "0,1" newline bitfld.long 0x18 16. "ERR_CONTROL_3_FLAG,ERR_CONTROL_3_FLAG" "0,1" newline bitfld.long 0x18 15. "ERR_CONTROL_2_FLAG,ERR_CONTROL_2_FLAG" "0,1" newline bitfld.long 0x18 14. "ERR_CONTROL_1_FLAG,ERR_CONTROL_1_FLAG" "0,1" newline bitfld.long 0x18 13. "ERR_SYNCESC_4_FLAG,ERR_SYNCESC_4_FLAG" "0,1" newline bitfld.long 0x18 12. "ERR_SYNCESC_3_FLAG,ERR_SYNCESC_3_FLAG" "0,1" newline bitfld.long 0x18 11. "ERR_SYNCESC_2_FLAG,ERR_SYNCESC_2_FLAG" "0,1" newline bitfld.long 0x18 10. "ERR_SYNCESC_1_FLAG,ERR_SYNCESC_1_FLAG" "0,1" newline bitfld.long 0x18 9. "ERR_ESC_4_FLAG,ERR_ESC_4_FLAG" "0,1" newline bitfld.long 0x18 8. "ERR_ESC_3_FLAG,ERR_ESC_3_FLAG" "0,1" newline bitfld.long 0x18 7. "ERR_ESC_2_FLAG,ERR_ESC_2_FLAG" "0,1" newline bitfld.long 0x18 6. "ERR_ESC_1_FLAG,ERR_ESC_1_FLAG" "0,1" group.long 0x1A0++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_dpi_irq_en,DPI interrupt enable" bitfld.long 0x0 0. "PIXEL_BUF_OVERFLOW_IRQ_EN,Enable DPI FIFO Overflow interrupt" "0,1" wgroup.long 0x1A4++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_dpi_irq_clr,DPI interrupt clear register" bitfld.long 0x0 0. "PIXEL_BUF_OVERFLOW_IRQ_CLR,Clear DPI FIFO Overflow interrupt" "0,1" rgroup.long 0x1A8++0x7 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_dpi_irq_sts,DPI interrupt status" bitfld.long 0x0 0. "PIXEL_BUF_OVERFLOW_STS,Status of DPI FIFO Overflow interrupt" "0,1" line.long 0x4 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_dpi_cfg,DPI interface configuration information" hexmask.long.word 0x4 16.--31. 1. "DPI_CFG_FIFODEPTH,DPI FIFO depth - configuration paramter" newline hexmask.long.word 0x4 0.--15. 1. "DPI_CFG_FIFO_LEVEL,DPI FIFO fill level - can be read mid-line for debug purposes to allow adjustment of settings" group.long 0x1F0++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_test_generic,Generic test control and status register" hexmask.long.word 0x0 16.--31. 1. "STATUS,Test status - Value of test_generic_status input" newline hexmask.long.word 0x0 0.--15. 1. "CTRL,Test control - Drives test_generic_ctrl output" rgroup.long 0x1FC++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_id_reg,ID register for Controller" hexmask.long.word 0x0 20.--31. 1. "REV_VENDOR_ID,VENDOR_ID: IP vendor ID affected to CadenceIP [reset = 0xCAD]." newline hexmask.long.byte 0x0 12.--19. 1. "REV_PRODUCT_ID,PRODUCT_ID: unique IP identifier within IP portfolio [reset = 0xD5]." newline hexmask.long.byte 0x0 8.--11. 1. "REV_HARDWARE,H: Hardware revision number [reset = 0x1]." newline hexmask.long.byte 0x0 4.--7. 1. "REV_X,X: Major revision value [reset = 0x3]." newline hexmask.long.byte 0x0 0.--3. 1. "REV_Y,Y: Minor revision value [reset = 0x1]." group.long 0x200++0x13 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_asf_int_status,ASF Interrupt Status Register. This register indicates the source of ASF interrupts. The corresponding bit in the mask register must be clear for a bit to be set. If any bit is set in this register the.." hexmask.long 0x0 7.--31. 1. "RESERVED,Reserved read as 0 ignored on write." newline bitfld.long 0x0 6. "ASF_INTEGRITY_ERR,Integrity error interrupt" "0,1" newline bitfld.long 0x0 5. "ASF_PROTOCOL_ERR,Protocol error interrupt" "0,1" newline bitfld.long 0x0 4. "ASF_TRANS_TO_ERR,Transaction timeouts error interrupt" "0,1" newline bitfld.long 0x0 3. "ASF_CSR_ERR,Configuration and status registers error interrupt" "0,1" newline bitfld.long 0x0 2. "ASF_DAP_ERR,Data and address paths parity error interrupt" "0,1" newline bitfld.long 0x0 1. "ASF_SRAM_UNCORR_ERR,SRAM uncorrectable error interrupt" "0,1" newline bitfld.long 0x0 0. "ASF_SRAM_CORR_ERR,SRAM correctable error interrupt" "0,1" line.long 0x4 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_asf_int_raw_status,ASF Interrupt Raw Status Register. A bit set in this raw register indicates a source of ASF fault in the corresponding feature. Writing to either raw or masked status registers. clear both registers." hexmask.long 0x4 7.--31. 1. "RESERVED,Reserved read as 0 ignored on write." newline bitfld.long 0x4 6. "ASF_INTEGRITY_ERR,Integrity error interrupt" "0,1" newline bitfld.long 0x4 5. "ASF_PROTOCOL_ERR,Protocol error interrupt" "0,1" newline bitfld.long 0x4 4. "ASF_TRANS_TO_ERR,Transaction timeouts error interrupt" "0,1" newline bitfld.long 0x4 3. "ASF_CSR_ERR,Configuration and status registers error interrupt" "0,1" newline bitfld.long 0x4 2. "ASF_DAP_ERR,Data and address paths parity error interrupt" "0,1" newline bitfld.long 0x4 1. "ASF_SRAM_UNCORR_ERR,SRAM uncorrectable error interrupt" "0,1" newline bitfld.long 0x4 0. "ASF_SRAM_CORR_ERR,SRAM correctable error interrupt" "0,1" line.long 0x8 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_asf_int_mask,The ASF interrupt mask register indicating which interrupt bits in the ASF interrupt status register are masked. All bits are set at reset. Clear the individual bit to enable the corresponding interrupt." hexmask.long 0x8 7.--31. 1. "RESERVED,Reserved read as 0 ignored on write." newline bitfld.long 0x8 6. "ASF_INTEGRITY_ERR_MASK,Mask bit for integrity error interrupt" "0,1" newline bitfld.long 0x8 5. "ASF_PROTOCOL_ERR_MASK,Mask bit for protocol error interrupt." "0,1" newline bitfld.long 0x8 4. "ASF_TRANS_TO_ERR_MASK,Mask bit for transaction timeouts error interrupt." "0,1" newline bitfld.long 0x8 3. "ASF_CSR_ERR_MASK,Mask bit for configuration and status registers error interrupt." "0,1" newline bitfld.long 0x8 2. "ASF_DAP_ERR_MASK,Mask bit for data and address paths parity error interrupt." "0,1" newline bitfld.long 0x8 1. "ASF_SRAM_UNCORR_ERR_MASK,Mask bit for SRAM uncorrectable error interrupt." "0,1" newline bitfld.long 0x8 0. "ASF_SRAM_CORR_ERR_MASK,Mask bit for SRAM correctable error interrupt." "0,1" line.long 0xC "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_asf_int_test,The ASF interrupt test register emulate hardware even. Write one to individual bit to trigger single event in (masked and raw) status registers according to mask and will generate interrupt accordingly." hexmask.long 0xC 7.--31. 1. "RESERVED,Reserved read as 0 ignored on write." newline bitfld.long 0xC 6. "ASF_INTEGRITY_ERR_TEST,Test bit for integrity error interrupt" "0,1" newline bitfld.long 0xC 5. "ASF_PROTOCOL_ERR_TEST,Test bit for protocol error interrupt." "0,1" newline bitfld.long 0xC 4. "ASF_TRANS_TO_ERR_TEST,Test bit for transaction timeouts error interrupt." "0,1" newline bitfld.long 0xC 3. "ASF_CSR_ERR_TEST,Test bit for configuration and status registers error interrupt." "0,1" newline bitfld.long 0xC 2. "ASF_DAP_ERR_TEST,Test bit for data and address paths parity error interrupt." "0,1" newline bitfld.long 0xC 1. "ASF_SRAM_UNCORR_ERR_TEST,Test bit for SRAM uncorrectable error interrupt." "0,1" newline bitfld.long 0xC 0. "ASF_SRAM_CORR_ERR_TEST,Test bit for SRAM correctable error interrupt." "0,1" line.long 0x10 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_asf_fatal_nonfatal_select,The fatal or non-fatal interrupt register selects whether a fatal (asf_int_fatal) or non-fatal (asf_int_nonfatal) interrupt is triggered. If the bit of the event will be set to one then fatal.." hexmask.long 0x10 7.--31. 1. "RESERVED,Reserved read as 0 ignored on write." newline bitfld.long 0x10 6. "ASF_INTEGRITY_ERR,Enable integrity error interrupt as fatal" "0,1" newline bitfld.long 0x10 5. "ASF_PROTOCOL_ERR,Enable protocol error interrupt as fatal." "0,1" newline bitfld.long 0x10 4. "ASF_TRANS_TO_ERR,Enable transaction timeouts error interrupt as fatal." "0,1" newline bitfld.long 0x10 3. "ASF_CSR_ERR,Enable configuration and status registers error interrupt as fatal." "0,1" newline bitfld.long 0x10 2. "ASF_DAP_ERR,Enable data and address paths parity error interrupt as fatal." "0,1" newline bitfld.long 0x10 1. "ASF_SRAM_UNCORR_ERR,Enable SRAM uncorrectable error interrupt as fatal." "0,1" newline bitfld.long 0x10 0. "ASF_SRAM_CORR_ERR,Enable SRAM correctable error interrupt as fatal." "0,1" rgroup.long 0x220++0x7 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_asf_sram_corr_fault_status,Status register for SRAM correctable fault. These fields are updated whenever asf_sram_corr_fault input is active." hexmask.long.byte 0x0 24.--31. 1. "ASF_SRAM_CORR_FAULT_INST,Last SRAM instance that generated fault." newline hexmask.long.tbyte 0x0 0.--23. 1. "ASF_SRAM_CORR_FAULT_ADDR,Last SRAM address that generated fault." line.long 0x4 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_asf_sram_uncorr_fault_status,Status register for SRAM uncorrectable fault. These fields are updated whenever asf_sram_uncorr_fault input is active." hexmask.long.byte 0x4 24.--31. 1. "ASF_SRAM_UNCORR_FAULT_INST,Last SRAM instance that generated fault." newline hexmask.long.tbyte 0x4 0.--23. 1. "ASF_SRAM_UNCORR_FAULT_ADDR,Last SRAM address that generated fault." group.long 0x228++0x3 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_asf_sram_fault_stats,Statistics register for SRAM faults. Note that this register clears when software writes to any field." hexmask.long.word 0x0 16.--31. 1. "RESERVED,Reserved read as 0 ignored on write." newline hexmask.long.word 0x0 0.--15. 1. "ASF_SRAM_FAULT_CORR_STATS,Count of number of correctable errors if implemented. Count value will saturate at 0xffff." group.long 0x230++0xB line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_asf_trans_to_ctrl,Control register to configure the ASF transaction timeout monitors." bitfld.long 0x0 31. "ASF_TRANS_TO_EN,Enable transaction timeout monitoring." "0,1" newline hexmask.long.word 0x0 0.--15. 1. "ASF_TRANS_TO_CTRL,Timer value to use for transaction timeout monitor." line.long 0x4 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_asf_trans_to_fault_mask,Control register to mask out ASF transaction timeout faults from triggering interrupts. On reset. all bits are set to mask out all sources. Clear the corresponding bit to enable the interrupt.." bitfld.long 0x4 3. "ASF_TRANS_TO_FAULT_3_MASK,Mask register for each ASF transaction timeout fault source." "0,1" newline bitfld.long 0x4 2. "ASF_TRANS_TO_FAULT_2_MASK,Mask register for each ASF transaction timeout fault source." "0,1" newline bitfld.long 0x4 1. "ASF_TRANS_TO_FAULT_1_MASK,Mask register for each ASF transaction timeout fault source." "0,1" newline bitfld.long 0x4 0. "ASF_TRANS_TO_FAULT_0_MASK,Mask register for each ASF transaction timeout fault source." "0,1" line.long 0x8 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_asf_trans_to_fault_status,Status register for transaction timeouts fault. If a fault occurs the revelant status bit will be set to 1. Each bit can be cleared by software writing 1 to each bit." bitfld.long 0x8 3. "ASF_TRANS_TO_FAULT_3_STATUS,Status bits for transaction timeouts faults." "0,1" newline bitfld.long 0x8 2. "ASF_TRANS_TO_FAULT_2_STATUS,Status bits for transaction timeouts faults." "0,1" newline bitfld.long 0x8 1. "ASF_TRANS_TO_FAULT_1_STATUS,Status bits for transaction timeouts faults." "0,1" newline bitfld.long 0x8 0. "ASF_TRANS_TO_FAULT_0_STATUS,Status bits for transaction timeouts faults." "0,1" group.long 0x240++0x7 line.long 0x0 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_asf_protocol_fault_mask,Control register to mask out ASF Protocol faults from triggering interrupts. On reset. all bits are set to mask out all sources. Clear the corresponding bit to enable the interrupt source. The.." bitfld.long 0x0 3. "ASF_PROTOCOL_FAULT_3_MASK,Mask register for each ASF protocol fault source." "0,1" newline bitfld.long 0x0 2. "ASF_PROTOCOL_FAULT_2_MASK,Mask register for each ASF protocol fault source." "0,1" newline bitfld.long 0x0 1. "ASF_PROTOCOL_FAULT_1_MASK,Mask register for each ASF protocol fault source." "0,1" newline bitfld.long 0x0 0. "ASF_PROTOCOL_FAULT_0_MASK,Mask register for each ASF protocol fault source." "0,1" line.long 0x4 "DSI_TOP__VBUSP_CFG_DSI_0__DSI_REGS_asf_protocol_fault_status,Status register for protocol faults. If a fault occurs the revelant status bit will be set to 1. Each bit can be cleared by software writing 1 to each bit" bitfld.long 0x4 3. "ASF_PROTOCOL_FAULT_3_STATUS,Status bits for protocol faults." "0,1" newline bitfld.long 0x4 2. "ASF_PROTOCOL_FAULT_2_STATUS,Status bits for protocol faults." "0,1" newline bitfld.long 0x4 1. "ASF_PROTOCOL_FAULT_1_STATUS,Status bits for protocol faults." "0,1" newline bitfld.long 0x4 0. "ASF_PROTOCOL_FAULT_0_STATUS,Status bits for protocol faults." "0,1" tree.end tree.end tree "DSS_DSI0_DSI_WRAP_MMR_VBUSP_CFG_DSI_WRAP (DSS_DSI0_DSI_WRAP_MMR_VBUSP_CFG_DSI_WRAP)" base ad:0x30270000 rgroup.long 0x0++0x3 line.long 0x0 "DSI_WRAP_MMR__VBUSP_CFG__DSI_WRAP_revision,The REVISION register contains the DSI revision number and PID" hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID Field" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL Revision" bitfld.long 0x0 8.--10. "REVMAJOR,Major Revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor Revision" group.long 0x4++0xB line.long 0x0 "DSI_WRAP_MMR__VBUSP_CFG__DSI_WRAP_DPI_CONTROL,Controls the DPI Video Input ports of the DSI Wrapper" bitfld.long 0x0 4. "DSI2_MUX_SEL,Select between DPI-1 and DPI-2 to drive the DPI input of DSITX2" "0,1" bitfld.long 0x0 0. "DPI_0_EN,Enable for DPI-0 input" "0,1" line.long 0x4 "DSI_WRAP_MMR__VBUSP_CFG__DSI_WRAP_DSC_CONTROL,Controls the DSC Encoder for DSI" line.long 0x8 "DSI_WRAP_MMR__VBUSP_CFG__DSI_WRAP_DPI_SECURE,Controls the DPI Video Input ports SECURE settings" bitfld.long 0x8 1. "DPI_0_SECURE_VIOLATION,SECURE VIOLATION status for DPI-0 input. Write-1 to clear the status" "0,1" bitfld.long 0x8 0. "DPI_0_SECURE,SECURE bit for DPI-0 input" "0,1" rgroup.long 0x10++0x3 line.long 0x0 "DSI_WRAP_MMR__VBUSP_CFG__DSI_WRAP_DSI_0_ASF_STATUS,ASF Status" bitfld.long 0x0 6. "INTEGRITY_ERR,INTEGRITY_ERR" "0,1" bitfld.long 0x0 5. "PROTOCOL_ERR,PROTOCOL_ERR" "0,1" bitfld.long 0x0 4. "TRANS_TO_ERR,TRANS_TO_ERR" "0,1" newline bitfld.long 0x0 3. "CSR_ERR,CSR_ERR" "0,1" bitfld.long 0x0 2. "DAP_ERR,DAP_ERR" "0,1" bitfld.long 0x0 1. "SRAM_UNCORR_ERR,SRAM_UNCORR_ERR" "0,1" newline bitfld.long 0x0 0. "SRAM_CORR_ERR,SRAM_CORR_ERR" "0,1" tree.end tree.end tree "ECAP" base ad:0x0 tree "ECAP0_CTL_STS (ECAP0_CTL_STS)" base ad:0x23100000 group.long 0x0++0x17 line.long 0x0 "CTL_STS_TSCNT," hexmask.long 0x0 0.--31. 1. "TSCNT,Active 32 bit Counter register which is used as the Capture time-base" line.long 0x4 "CTL_STS_CNTPHS," hexmask.long 0x4 0.--31. 1. "CNTPHS,Counter Phase value register that can be programmed for phase Lag/Lead. This register shadows TSCNT and is loaded into TSCNT upon either a SYNCI event or S/W force via a control bit. Used to achieve Phase control sync with respect to other ECAP.." line.long 0x8 "CTL_STS_CAP1," hexmask.long 0x8 0.--31. 1. "CAP1,This register can be loaded (written) by : 1. Time-Stamp (i.e. counter value) during a Capture event 2. S/W - may be useful for test purposes / initialisation 3. APRD shadow register (i.e. CAP3) when used in APWM mode" line.long 0xC "CTL_STS_CAP2," hexmask.long 0xC 0.--31. 1. "CAP2,This register can be loaded (written) by : 1. Time-Stamp (i.e. counter value) during a Capture event 2. S/W - may be useful for test purposes 3. ACMP shadow register (i.e. CAP4) when used in APWM mode" line.long 0x10 "CTL_STS_CAP3," hexmask.long 0x10 0.--31. 1. "CAP3,In CMP mode this is a time-stamp capture register In APMW mode this is the Period Shadow (APER) register. User updates the PWM Period value via this register. In this mode CAP3 (APRD) shadows CAP1" line.long 0x14 "CTL_STS_CAP4," hexmask.long 0x14 0.--31. 1. "CAP4,In CMP mode this is a time-stamp capture register In APMW mode this is the Compare Shadow (ACMP) register. User updates the PWM Compare value via this register. In this mode CAP4 (ACMP) shadows CAP2" group.long 0x28++0xB line.long 0x0 "CTL_STS_ECCTL," hexmask.long.byte 0x0 27.--31. 1. "FILTER," bitfld.long 0x0 26. "APWMPOL,APWM output polarity select: 1'b0 Output is Active High (i.e. Compare value defines High time); 1'b1 Output is Active Low (i.e. Compare value defines Low time); Note: This is applicable only in APWM operating mode" "0,1" newline bitfld.long 0x0 25. "CAP_APWM,CAP/APWM operating mode select: 1'b0 ECAP module operates in Capture mode This mode forces the following configuration: 1- Inhibits TSCNT resets via PRD_eq event 2- Inhibits Shadow loads on CAP1 & 2 registers 3- Permits User to enable CAP1-4.." "0,1" bitfld.long 0x0 24. "SWSYNC,Software forced Counter (TSCNT) sync'ing: 1'b0 Writing a Zero has no effect Reading will always return a zero; 1'b1 Writing a One will force a TSCNT shadow load of current ECAP module and any ECAP modules down-stream providing the SYNCO_SEL bits.." "0,1" newline bitfld.long 0x0 22.--23. "SYNCO_SEL,Sync-Out select: 2'b00 Select Sync-In event to be the Sync-Out signal (pass through); 2'b01 Select PRD_eq event to be the Sync-Out signal; 2'b10 DISABLE Sync Out Signal; 2'b11 DISABLE Sync Out Signal; Note: Selection PRD_eq is meaningful only.." "0,1,2,3" bitfld.long 0x0 21. "SYNCI_EN,Counter (TSCNT) Sync-In select mode: 1'b0 Disable Sync-In option 1'b1 Enable Counter (TSCNT) to be loaded from CNTPHS register upon either a SYNCI signal or a S/W force event." "0,1" newline bitfld.long 0x0 20. "TSCNTSTP,Counter Stop (freeze) Control: 1'b0 Counter Stopped; 1'b1 Counter Free Running" "0,1" bitfld.long 0x0 19. "REARM_RESET,One-Shot Re-arming i.e. Wait for stop Trigger: Writing a One Arms the One-Shot sequence i.e.: 1. Resets the Mod4 counter to zero 2. Un-freezes the Mod4 counter 3. Enables Capture Register Loads; Writing a zero has no effect. Reading always.." "0,1" newline bitfld.long 0x0 17.--18. "STOPVALUE,Stop value for One-Shot mode: This is the number (between 1-4) of Captures allowed to occur before the CAP(1-4) registers are frozen i.e.Capture sequence is stopped. 2'b00 Stop after Capture Event 1; 2'b01 Stop after Capture Event 2; 2'b10.." "0,1,2,3" bitfld.long 0x0 16. "CONT_ONESHT,Continuous or Oneshot mode control: (applicable only in Capture mode) 1'b0 Operate in Continuous mode 1'b1 Operate in One-Shot mode" "0,1" newline bitfld.long 0x0 14.--15. "FREE_SOFT,Emulation Control 2'b00 TSCNT Counter stops immediately on emulation suspend; 2'b01 TSCNT Counter runs until = 0; 2'b1X TSCNT Counter is unaffected by emulation suspend (Run Free)" "0,1,2,3" hexmask.long.byte 0x0 9.--13. 1. "EVTFLTPS,Event Filter prescale select: 5'b00000 divide by 1 (i.e. no prescale by-pass the prescaler); 5'b00001 divide by 2; 5'b00010 divide by 4; 5'b00011 divide by 6; 5'b00100 divide by 8; 5'b00101 divide by 10; . . . . .; 5'b11110 divide by 60;.." newline bitfld.long 0x0 8. "CAPLDEN,Enable Loading of CAP1-4 registers on a Capture Event: 1'b0 Disable CAP1-4 register loads at capture Event time; 1'b1 Enable CAP1-4 register loads at capture Event time" "0,1" bitfld.long 0x0 7. "CTRRST4,Counter Reset on Capture Event 4: 1'b0 Do Not reset Counter on Capture Event 4 (absolute time stamp); 1'b1 Reset Counter after Event 4 time-stamp has been captured (used in Difference mode operation)" "0,1" newline bitfld.long 0x0 6. "CAP4POL,Capture Event 4 Polarity select: 1'b0 Capture event 4 triggered on a Rising Edge (FE); 1'b1 Capture event 4 triggered on a Falling Edge (FE)" "0,1" bitfld.long 0x0 5. "CTRRST3,Counter Reset on Capture Event 3: 1'b0 Do Not reset Counter on Capture Event 3 (absolute time stamp); 1'b1 Reset Counter after Event 3 time-stamp has been captured (used in Difference mode operation)" "0,1" newline bitfld.long 0x0 4. "CAP3POL,Capture Event 3 Polarity select: 1'b0 Capture event 3 triggered on a Rising Edge (FE); 1'b1 Capture event 3 triggered on a Falling Edge (FE)" "0,1" bitfld.long 0x0 3. "CTRRST2,Counter Reset on Capture Event 2: 1'b0 Do Not reset Counter on Capture Event 2 (absolute time stamp); 1'b1 Reset Counter after Event 2 time-stamp has been captured (used in Difference mode operation)" "?,?" newline bitfld.long 0x0 2. "CAP2POL,Capture Event 2 Polarity select: 1'b0 Capture event 2 triggered on a Rising Edge (FE); 1'b1 Capture event 2 triggered on a Falling Edge (FE)" "0,1" bitfld.long 0x0 1. "CTRRST1,Counter Reset on Capture Event 1: 1'b0 Do Not reset Counter on Capture Event 1 (absolute time stamp); 1'b1 Reset Counter after Event 1 time-stamp has been captured (used in Difference mode operation)" "?,1: 1'b0 Do Not reset Counter on Capture Event 1" newline bitfld.long 0x0 0. "CAP1POL,Capture Event 1 Polarity select: 1'b0 Capture event 1 triggered on a Rising Edge (FE); 1'b1 Capture event 1 triggered on a Falling Edge (FE)" "0,1" line.long 0x4 "CTL_STS_ECINT_EN_FLG," rbitfld.long 0x4 23. "CMPEQ_FLG,Compare Equal Status Flag: Reading a 1 on this bit indicates the Counter (TSCNT) reached the Compare register value (ACMP) Reading a 0 indicates no event occurred Note: This flag is only active in APWM mode." "0,1" rbitfld.long 0x4 22. "PRDEQ_FLG,Period Equal Status Flag: Reading a 1 on this bit indicates the Counter (TSCNT) reached the Period register value (APER) and was reset. Reading a 0 indicates no event occurred Notes: This flag is only active in APWM mode." "0,1" newline rbitfld.long 0x4 21. "CNTOVF_FLG,Counter Overflow Status Flag: Reading a 1 on this bit indicates the Counter (TSCNT) has made the transition from 0xFFFFFFFF 0x00000000 Reading a 0 indicates no event occurred. Note: This flag is active in CAP & APWM mode." "0,1" rbitfld.long 0x4 20. "CEVT4_FLG,Capture Event 4 Status Flag: Reading a 1 on this bit indicates the fourth event occurred at ECAPx pin. Reading a 0 indicates no event occurred. Note: This flag is only active in CAP mode." "0,1" newline rbitfld.long 0x4 19. "CEVT3_FLG,Capture Event 3 Status Flag: Reading a 1 on this bit indicates the third event occurred at ECAPx pin. Reading a 0 indicates no event occurred. Note: This flag is only active in CAP mode." "0,1" rbitfld.long 0x4 18. "CEVT2_FLG,Capture Event 2 Status Flag: Reading a 1 on this bit indicates the second event occurred at ECAPx pin. Reading a 0 indicates no event occurred. Note: This flag is only active in CAP mode." "0,1" newline rbitfld.long 0x4 17. "CEVT1_FLG,Capture Event 1 Status Flag: Reading a 1 on this bit indicates the first event occurred at ECAPx pin. Reading a 0 indicates no event occurred. Note: This flag is only active in CAP mode." "0,1" rbitfld.long 0x4 16. "INT_FLG,Global Interrupt Status Flag: Reading a 1 on this bit indicates that an interrupt was generated from one of the following events. Reading a 0 indicates no interrupt generated." "0,1" newline bitfld.long 0x4 7. "CMPEQ_EN,Compare Equal Interrupt Enable: 1'b0 Disabled Compare Equal as an Interrupt source; 1'b1 Enable Compare Equal as an Interrupt source" "0,1" bitfld.long 0x4 6. "PRDEQ_EN,Period Equal Interrupt Enable: 1'b0 Disabled Period Equal as an Interrupt source; 1'b1 Enable Period Equal as an Interrupt source" "0,1" newline bitfld.long 0x4 5. "CNTOVF_EN,Counter Overflow Interrupt Enable: 1'b0 Disabled Counter Overflow as an Interrupt source; 1'b1 Enable Counter Overflow as an Interrupt source" "0,1" bitfld.long 0x4 4. "CEVT4_EN,Capture Event 4 Interrupt Enable: 1'b0 Disabled Capture Event 4 as an Interrupt source: 1'b1 Enable Capture Event 4 as an Interrupt source" "0,1" newline bitfld.long 0x4 3. "CEVT3_EN,Capture Event 3 Interrupt Enable: 1'b0 Disabled Capture Event 3 as an Interrupt source: 1'b1 Enable Capture Event 3 as an Interrupt source" "0,1" bitfld.long 0x4 2. "CEVT2_EN,Capture Event 2 Interrupt Enable: 1'b0 Disabled Capture Event 2 as an Interrupt source: 1'b1 Enable Capture Event 2 as an Interrupt source" "0,1" newline bitfld.long 0x4 1. "CEVT1_EN,Capture Event 1 Interrupt Enable: 1'b0 Disabled Capture Event 1 as an Interrupt source: 1'b1 Enable Capture Event 1 as an Interrupt source" "0,1" line.long 0x8 "CTL_STS_ECINT_CLR_FRC," bitfld.long 0x8 23. "CMPEQ_FRC,Force Compare Equal: Writing a 1 to this bit will set the CMPEQ flag bit. Writing of 0 will be ignored. Always reads back a 0." "0,1" bitfld.long 0x8 22. "PRDEQ_FRC,Force Period Equal: Writing a 1 to this bit will set the PRDEQ flag bit. Writing of 0 will be ignored. Always reads back a 0." "0,1" newline bitfld.long 0x8 21. "CNTOVF_FRC,Force Counter Overflow: Writing a 1 to this bit will set the CNTOVF flag bit. Writing of 0 will be ignored. Always reads back a 0." "0,1" bitfld.long 0x8 20. "CEVT4_FRC,Force Capture Event 4: Writing a 1 to this bit will set the CEVT4 flag bit. Writing of 0 will be ignored. Always reads back a 0." "0,1" newline bitfld.long 0x8 19. "CEVT3_FRC,Force Capture Event 3: Writing a 1 to this bit will set the CEVT3 flag bit. Writing of 0 will be ignored. Always reads back a 0." "0,1" bitfld.long 0x8 18. "CEVT2_FRC,Force Capture Event 2: Writing a 1 to this bit will set the CEVT2 flag bit. Writing of 0 will be ignored. Always reads back a 0." "?,?" newline bitfld.long 0x8 17. "CEVT1_FRC,Force Capture Event 1: Writing a 1 to this bit will set the CEVT1 flag bit. Writing of 0 will be ignored. Always reads back a 0." "?,1: Writing a 1 to this bit will set the CEVT1 flag.." bitfld.long 0x8 7. "CMPEQ_CLR,Compare Equal Status Flag: Writing a 1 will clear the CMPEQ flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" newline bitfld.long 0x8 6. "PRDEQ_CLR,Period Equal Status Flag: Writing a 1 will clear the PRDEQ flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" bitfld.long 0x8 5. "CNTOVF_CLR,Counter Overflow Status Flag: Writing a 1 will clear the CNTOVF flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" newline bitfld.long 0x8 4. "CEVT4_CLR,Capture Event 4 Status Flag: Writing a 1 will clear the CEVT4 flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" bitfld.long 0x8 3. "CEVT3_CLR,Capture Event 3 Status Flag: Writing a 1 will clear the CEVT3 flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" newline bitfld.long 0x8 2. "CEVT2_CLR,Capture Event 2 Status Flag: Writing a 1 will clear the CEVT2 flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" bitfld.long 0x8 1. "CEVT1_CLR,Capture Event 1 Status Flag: Writing a 1 will clear the CEVT1 flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" newline bitfld.long 0x8 0. "INT_CLR,Global Interrupt Clear Flag: Writing a 1 will clear the INT flag and enable further interrupts to be generated if any of the event flags are set to 1. Writing a 0 will have no effect. Always reads back a 0." "0,1" rgroup.long 0x5C++0x3 line.long 0x0 "CTL_STS_PID," bitfld.long 0x0 30.--31. "SCHEME," "0,1,2,3" bitfld.long 0x0 28.--29. "RESERVED," "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "FUNCTION," hexmask.long.byte 0x0 11.--15. 1. "RTL," newline bitfld.long 0x0 8.--10. "MAJOR," "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM," "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR," tree.end tree "ECAP1_CTL_STS (ECAP1_CTL_STS)" base ad:0x23110000 group.long 0x0++0x17 line.long 0x0 "CTL_STS_TSCNT," hexmask.long 0x0 0.--31. 1. "TSCNT,Active 32 bit Counter register which is used as the Capture time-base" line.long 0x4 "CTL_STS_CNTPHS," hexmask.long 0x4 0.--31. 1. "CNTPHS,Counter Phase value register that can be programmed for phase Lag/Lead. This register shadows TSCNT and is loaded into TSCNT upon either a SYNCI event or S/W force via a control bit. Used to achieve Phase control sync with respect to other ECAP.." line.long 0x8 "CTL_STS_CAP1," hexmask.long 0x8 0.--31. 1. "CAP1,This register can be loaded (written) by : 1. Time-Stamp (i.e. counter value) during a Capture event 2. S/W - may be useful for test purposes / initialisation 3. APRD shadow register (i.e. CAP3) when used in APWM mode" line.long 0xC "CTL_STS_CAP2," hexmask.long 0xC 0.--31. 1. "CAP2,This register can be loaded (written) by : 1. Time-Stamp (i.e. counter value) during a Capture event 2. S/W - may be useful for test purposes 3. ACMP shadow register (i.e. CAP4) when used in APWM mode" line.long 0x10 "CTL_STS_CAP3," hexmask.long 0x10 0.--31. 1. "CAP3,In CMP mode this is a time-stamp capture register In APMW mode this is the Period Shadow (APER) register. User updates the PWM Period value via this register. In this mode CAP3 (APRD) shadows CAP1" line.long 0x14 "CTL_STS_CAP4," hexmask.long 0x14 0.--31. 1. "CAP4,In CMP mode this is a time-stamp capture register In APMW mode this is the Compare Shadow (ACMP) register. User updates the PWM Compare value via this register. In this mode CAP4 (ACMP) shadows CAP2" group.long 0x28++0xB line.long 0x0 "CTL_STS_ECCTL," hexmask.long.byte 0x0 27.--31. 1. "FILTER," bitfld.long 0x0 26. "APWMPOL,APWM output polarity select: 1'b0 Output is Active High (i.e. Compare value defines High time); 1'b1 Output is Active Low (i.e. Compare value defines Low time); Note: This is applicable only in APWM operating mode" "0,1" newline bitfld.long 0x0 25. "CAP_APWM,CAP/APWM operating mode select: 1'b0 ECAP module operates in Capture mode This mode forces the following configuration: 1- Inhibits TSCNT resets via PRD_eq event 2- Inhibits Shadow loads on CAP1 & 2 registers 3- Permits User to enable CAP1-4.." "0,1" bitfld.long 0x0 24. "SWSYNC,Software forced Counter (TSCNT) sync'ing: 1'b0 Writing a Zero has no effect Reading will always return a zero; 1'b1 Writing a One will force a TSCNT shadow load of current ECAP module and any ECAP modules down-stream providing the SYNCO_SEL bits.." "0,1" newline bitfld.long 0x0 22.--23. "SYNCO_SEL,Sync-Out select: 2'b00 Select Sync-In event to be the Sync-Out signal (pass through); 2'b01 Select PRD_eq event to be the Sync-Out signal; 2'b10 DISABLE Sync Out Signal; 2'b11 DISABLE Sync Out Signal; Note: Selection PRD_eq is meaningful only.." "0,1,2,3" bitfld.long 0x0 21. "SYNCI_EN,Counter (TSCNT) Sync-In select mode: 1'b0 Disable Sync-In option 1'b1 Enable Counter (TSCNT) to be loaded from CNTPHS register upon either a SYNCI signal or a S/W force event." "0,1" newline bitfld.long 0x0 20. "TSCNTSTP,Counter Stop (freeze) Control: 1'b0 Counter Stopped; 1'b1 Counter Free Running" "0,1" bitfld.long 0x0 19. "REARM_RESET,One-Shot Re-arming i.e. Wait for stop Trigger: Writing a One Arms the One-Shot sequence i.e.: 1. Resets the Mod4 counter to zero 2. Un-freezes the Mod4 counter 3. Enables Capture Register Loads; Writing a zero has no effect. Reading always.." "0,1" newline bitfld.long 0x0 17.--18. "STOPVALUE,Stop value for One-Shot mode: This is the number (between 1-4) of Captures allowed to occur before the CAP(1-4) registers are frozen i.e.Capture sequence is stopped. 2'b00 Stop after Capture Event 1; 2'b01 Stop after Capture Event 2; 2'b10.." "0,1,2,3" bitfld.long 0x0 16. "CONT_ONESHT,Continuous or Oneshot mode control: (applicable only in Capture mode) 1'b0 Operate in Continuous mode 1'b1 Operate in One-Shot mode" "0,1" newline bitfld.long 0x0 14.--15. "FREE_SOFT,Emulation Control 2'b00 TSCNT Counter stops immediately on emulation suspend; 2'b01 TSCNT Counter runs until = 0; 2'b1X TSCNT Counter is unaffected by emulation suspend (Run Free)" "0,1,2,3" hexmask.long.byte 0x0 9.--13. 1. "EVTFLTPS,Event Filter prescale select: 5'b00000 divide by 1 (i.e. no prescale by-pass the prescaler); 5'b00001 divide by 2; 5'b00010 divide by 4; 5'b00011 divide by 6; 5'b00100 divide by 8; 5'b00101 divide by 10; . . . . .; 5'b11110 divide by 60;.." newline bitfld.long 0x0 8. "CAPLDEN,Enable Loading of CAP1-4 registers on a Capture Event: 1'b0 Disable CAP1-4 register loads at capture Event time; 1'b1 Enable CAP1-4 register loads at capture Event time" "0,1" bitfld.long 0x0 7. "CTRRST4,Counter Reset on Capture Event 4: 1'b0 Do Not reset Counter on Capture Event 4 (absolute time stamp); 1'b1 Reset Counter after Event 4 time-stamp has been captured (used in Difference mode operation)" "0,1" newline bitfld.long 0x0 6. "CAP4POL,Capture Event 4 Polarity select: 1'b0 Capture event 4 triggered on a Rising Edge (FE); 1'b1 Capture event 4 triggered on a Falling Edge (FE)" "0,1" bitfld.long 0x0 5. "CTRRST3,Counter Reset on Capture Event 3: 1'b0 Do Not reset Counter on Capture Event 3 (absolute time stamp); 1'b1 Reset Counter after Event 3 time-stamp has been captured (used in Difference mode operation)" "0,1" newline bitfld.long 0x0 4. "CAP3POL,Capture Event 3 Polarity select: 1'b0 Capture event 3 triggered on a Rising Edge (FE); 1'b1 Capture event 3 triggered on a Falling Edge (FE)" "0,1" bitfld.long 0x0 3. "CTRRST2,Counter Reset on Capture Event 2: 1'b0 Do Not reset Counter on Capture Event 2 (absolute time stamp); 1'b1 Reset Counter after Event 2 time-stamp has been captured (used in Difference mode operation)" "?,?" newline bitfld.long 0x0 2. "CAP2POL,Capture Event 2 Polarity select: 1'b0 Capture event 2 triggered on a Rising Edge (FE); 1'b1 Capture event 2 triggered on a Falling Edge (FE)" "0,1" bitfld.long 0x0 1. "CTRRST1,Counter Reset on Capture Event 1: 1'b0 Do Not reset Counter on Capture Event 1 (absolute time stamp); 1'b1 Reset Counter after Event 1 time-stamp has been captured (used in Difference mode operation)" "?,1: 1'b0 Do Not reset Counter on Capture Event 1" newline bitfld.long 0x0 0. "CAP1POL,Capture Event 1 Polarity select: 1'b0 Capture event 1 triggered on a Rising Edge (FE); 1'b1 Capture event 1 triggered on a Falling Edge (FE)" "0,1" line.long 0x4 "CTL_STS_ECINT_EN_FLG," rbitfld.long 0x4 23. "CMPEQ_FLG,Compare Equal Status Flag: Reading a 1 on this bit indicates the Counter (TSCNT) reached the Compare register value (ACMP) Reading a 0 indicates no event occurred Note: This flag is only active in APWM mode." "0,1" rbitfld.long 0x4 22. "PRDEQ_FLG,Period Equal Status Flag: Reading a 1 on this bit indicates the Counter (TSCNT) reached the Period register value (APER) and was reset. Reading a 0 indicates no event occurred Notes: This flag is only active in APWM mode." "0,1" newline rbitfld.long 0x4 21. "CNTOVF_FLG,Counter Overflow Status Flag: Reading a 1 on this bit indicates the Counter (TSCNT) has made the transition from 0xFFFFFFFF 0x00000000 Reading a 0 indicates no event occurred. Note: This flag is active in CAP & APWM mode." "0,1" rbitfld.long 0x4 20. "CEVT4_FLG,Capture Event 4 Status Flag: Reading a 1 on this bit indicates the fourth event occurred at ECAPx pin. Reading a 0 indicates no event occurred. Note: This flag is only active in CAP mode." "0,1" newline rbitfld.long 0x4 19. "CEVT3_FLG,Capture Event 3 Status Flag: Reading a 1 on this bit indicates the third event occurred at ECAPx pin. Reading a 0 indicates no event occurred. Note: This flag is only active in CAP mode." "0,1" rbitfld.long 0x4 18. "CEVT2_FLG,Capture Event 2 Status Flag: Reading a 1 on this bit indicates the second event occurred at ECAPx pin. Reading a 0 indicates no event occurred. Note: This flag is only active in CAP mode." "0,1" newline rbitfld.long 0x4 17. "CEVT1_FLG,Capture Event 1 Status Flag: Reading a 1 on this bit indicates the first event occurred at ECAPx pin. Reading a 0 indicates no event occurred. Note: This flag is only active in CAP mode." "0,1" rbitfld.long 0x4 16. "INT_FLG,Global Interrupt Status Flag: Reading a 1 on this bit indicates that an interrupt was generated from one of the following events. Reading a 0 indicates no interrupt generated." "0,1" newline bitfld.long 0x4 7. "CMPEQ_EN,Compare Equal Interrupt Enable: 1'b0 Disabled Compare Equal as an Interrupt source; 1'b1 Enable Compare Equal as an Interrupt source" "0,1" bitfld.long 0x4 6. "PRDEQ_EN,Period Equal Interrupt Enable: 1'b0 Disabled Period Equal as an Interrupt source; 1'b1 Enable Period Equal as an Interrupt source" "0,1" newline bitfld.long 0x4 5. "CNTOVF_EN,Counter Overflow Interrupt Enable: 1'b0 Disabled Counter Overflow as an Interrupt source; 1'b1 Enable Counter Overflow as an Interrupt source" "0,1" bitfld.long 0x4 4. "CEVT4_EN,Capture Event 4 Interrupt Enable: 1'b0 Disabled Capture Event 4 as an Interrupt source: 1'b1 Enable Capture Event 4 as an Interrupt source" "0,1" newline bitfld.long 0x4 3. "CEVT3_EN,Capture Event 3 Interrupt Enable: 1'b0 Disabled Capture Event 3 as an Interrupt source: 1'b1 Enable Capture Event 3 as an Interrupt source" "0,1" bitfld.long 0x4 2. "CEVT2_EN,Capture Event 2 Interrupt Enable: 1'b0 Disabled Capture Event 2 as an Interrupt source: 1'b1 Enable Capture Event 2 as an Interrupt source" "0,1" newline bitfld.long 0x4 1. "CEVT1_EN,Capture Event 1 Interrupt Enable: 1'b0 Disabled Capture Event 1 as an Interrupt source: 1'b1 Enable Capture Event 1 as an Interrupt source" "0,1" line.long 0x8 "CTL_STS_ECINT_CLR_FRC," bitfld.long 0x8 23. "CMPEQ_FRC,Force Compare Equal: Writing a 1 to this bit will set the CMPEQ flag bit. Writing of 0 will be ignored. Always reads back a 0." "0,1" bitfld.long 0x8 22. "PRDEQ_FRC,Force Period Equal: Writing a 1 to this bit will set the PRDEQ flag bit. Writing of 0 will be ignored. Always reads back a 0." "0,1" newline bitfld.long 0x8 21. "CNTOVF_FRC,Force Counter Overflow: Writing a 1 to this bit will set the CNTOVF flag bit. Writing of 0 will be ignored. Always reads back a 0." "0,1" bitfld.long 0x8 20. "CEVT4_FRC,Force Capture Event 4: Writing a 1 to this bit will set the CEVT4 flag bit. Writing of 0 will be ignored. Always reads back a 0." "0,1" newline bitfld.long 0x8 19. "CEVT3_FRC,Force Capture Event 3: Writing a 1 to this bit will set the CEVT3 flag bit. Writing of 0 will be ignored. Always reads back a 0." "0,1" bitfld.long 0x8 18. "CEVT2_FRC,Force Capture Event 2: Writing a 1 to this bit will set the CEVT2 flag bit. Writing of 0 will be ignored. Always reads back a 0." "?,?" newline bitfld.long 0x8 17. "CEVT1_FRC,Force Capture Event 1: Writing a 1 to this bit will set the CEVT1 flag bit. Writing of 0 will be ignored. Always reads back a 0." "?,1: Writing a 1 to this bit will set the CEVT1 flag.." bitfld.long 0x8 7. "CMPEQ_CLR,Compare Equal Status Flag: Writing a 1 will clear the CMPEQ flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" newline bitfld.long 0x8 6. "PRDEQ_CLR,Period Equal Status Flag: Writing a 1 will clear the PRDEQ flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" bitfld.long 0x8 5. "CNTOVF_CLR,Counter Overflow Status Flag: Writing a 1 will clear the CNTOVF flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" newline bitfld.long 0x8 4. "CEVT4_CLR,Capture Event 4 Status Flag: Writing a 1 will clear the CEVT4 flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" bitfld.long 0x8 3. "CEVT3_CLR,Capture Event 3 Status Flag: Writing a 1 will clear the CEVT3 flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" newline bitfld.long 0x8 2. "CEVT2_CLR,Capture Event 2 Status Flag: Writing a 1 will clear the CEVT2 flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" bitfld.long 0x8 1. "CEVT1_CLR,Capture Event 1 Status Flag: Writing a 1 will clear the CEVT1 flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" newline bitfld.long 0x8 0. "INT_CLR,Global Interrupt Clear Flag: Writing a 1 will clear the INT flag and enable further interrupts to be generated if any of the event flags are set to 1. Writing a 0 will have no effect. Always reads back a 0." "0,1" rgroup.long 0x5C++0x3 line.long 0x0 "CTL_STS_PID," bitfld.long 0x0 30.--31. "SCHEME," "0,1,2,3" bitfld.long 0x0 28.--29. "RESERVED," "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "FUNCTION," hexmask.long.byte 0x0 11.--15. 1. "RTL," newline bitfld.long 0x0 8.--10. "MAJOR," "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM," "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR," tree.end tree "ECAP2_CTL_STS (ECAP2_CTL_STS)" base ad:0x23120000 group.long 0x0++0x17 line.long 0x0 "CTL_STS_TSCNT," hexmask.long 0x0 0.--31. 1. "TSCNT,Active 32 bit Counter register which is used as the Capture time-base" line.long 0x4 "CTL_STS_CNTPHS," hexmask.long 0x4 0.--31. 1. "CNTPHS,Counter Phase value register that can be programmed for phase Lag/Lead. This register shadows TSCNT and is loaded into TSCNT upon either a SYNCI event or S/W force via a control bit. Used to achieve Phase control sync with respect to other ECAP.." line.long 0x8 "CTL_STS_CAP1," hexmask.long 0x8 0.--31. 1. "CAP1,This register can be loaded (written) by : 1. Time-Stamp (i.e. counter value) during a Capture event 2. S/W - may be useful for test purposes / initialisation 3. APRD shadow register (i.e. CAP3) when used in APWM mode" line.long 0xC "CTL_STS_CAP2," hexmask.long 0xC 0.--31. 1. "CAP2,This register can be loaded (written) by : 1. Time-Stamp (i.e. counter value) during a Capture event 2. S/W - may be useful for test purposes 3. ACMP shadow register (i.e. CAP4) when used in APWM mode" line.long 0x10 "CTL_STS_CAP3," hexmask.long 0x10 0.--31. 1. "CAP3,In CMP mode this is a time-stamp capture register In APMW mode this is the Period Shadow (APER) register. User updates the PWM Period value via this register. In this mode CAP3 (APRD) shadows CAP1" line.long 0x14 "CTL_STS_CAP4," hexmask.long 0x14 0.--31. 1. "CAP4,In CMP mode this is a time-stamp capture register In APMW mode this is the Compare Shadow (ACMP) register. User updates the PWM Compare value via this register. In this mode CAP4 (ACMP) shadows CAP2" group.long 0x28++0xB line.long 0x0 "CTL_STS_ECCTL," hexmask.long.byte 0x0 27.--31. 1. "FILTER," bitfld.long 0x0 26. "APWMPOL,APWM output polarity select: 1'b0 Output is Active High (i.e. Compare value defines High time); 1'b1 Output is Active Low (i.e. Compare value defines Low time); Note: This is applicable only in APWM operating mode" "0,1" newline bitfld.long 0x0 25. "CAP_APWM,CAP/APWM operating mode select: 1'b0 ECAP module operates in Capture mode This mode forces the following configuration: 1- Inhibits TSCNT resets via PRD_eq event 2- Inhibits Shadow loads on CAP1 & 2 registers 3- Permits User to enable CAP1-4.." "0,1" bitfld.long 0x0 24. "SWSYNC,Software forced Counter (TSCNT) sync'ing: 1'b0 Writing a Zero has no effect Reading will always return a zero; 1'b1 Writing a One will force a TSCNT shadow load of current ECAP module and any ECAP modules down-stream providing the SYNCO_SEL bits.." "0,1" newline bitfld.long 0x0 22.--23. "SYNCO_SEL,Sync-Out select: 2'b00 Select Sync-In event to be the Sync-Out signal (pass through); 2'b01 Select PRD_eq event to be the Sync-Out signal; 2'b10 DISABLE Sync Out Signal; 2'b11 DISABLE Sync Out Signal; Note: Selection PRD_eq is meaningful only.." "0,1,2,3" bitfld.long 0x0 21. "SYNCI_EN,Counter (TSCNT) Sync-In select mode: 1'b0 Disable Sync-In option 1'b1 Enable Counter (TSCNT) to be loaded from CNTPHS register upon either a SYNCI signal or a S/W force event." "0,1" newline bitfld.long 0x0 20. "TSCNTSTP,Counter Stop (freeze) Control: 1'b0 Counter Stopped; 1'b1 Counter Free Running" "0,1" bitfld.long 0x0 19. "REARM_RESET,One-Shot Re-arming i.e. Wait for stop Trigger: Writing a One Arms the One-Shot sequence i.e.: 1. Resets the Mod4 counter to zero 2. Un-freezes the Mod4 counter 3. Enables Capture Register Loads; Writing a zero has no effect. Reading always.." "0,1" newline bitfld.long 0x0 17.--18. "STOPVALUE,Stop value for One-Shot mode: This is the number (between 1-4) of Captures allowed to occur before the CAP(1-4) registers are frozen i.e.Capture sequence is stopped. 2'b00 Stop after Capture Event 1; 2'b01 Stop after Capture Event 2; 2'b10.." "0,1,2,3" bitfld.long 0x0 16. "CONT_ONESHT,Continuous or Oneshot mode control: (applicable only in Capture mode) 1'b0 Operate in Continuous mode 1'b1 Operate in One-Shot mode" "0,1" newline bitfld.long 0x0 14.--15. "FREE_SOFT,Emulation Control 2'b00 TSCNT Counter stops immediately on emulation suspend; 2'b01 TSCNT Counter runs until = 0; 2'b1X TSCNT Counter is unaffected by emulation suspend (Run Free)" "0,1,2,3" hexmask.long.byte 0x0 9.--13. 1. "EVTFLTPS,Event Filter prescale select: 5'b00000 divide by 1 (i.e. no prescale by-pass the prescaler); 5'b00001 divide by 2; 5'b00010 divide by 4; 5'b00011 divide by 6; 5'b00100 divide by 8; 5'b00101 divide by 10; . . . . .; 5'b11110 divide by 60;.." newline bitfld.long 0x0 8. "CAPLDEN,Enable Loading of CAP1-4 registers on a Capture Event: 1'b0 Disable CAP1-4 register loads at capture Event time; 1'b1 Enable CAP1-4 register loads at capture Event time" "0,1" bitfld.long 0x0 7. "CTRRST4,Counter Reset on Capture Event 4: 1'b0 Do Not reset Counter on Capture Event 4 (absolute time stamp); 1'b1 Reset Counter after Event 4 time-stamp has been captured (used in Difference mode operation)" "0,1" newline bitfld.long 0x0 6. "CAP4POL,Capture Event 4 Polarity select: 1'b0 Capture event 4 triggered on a Rising Edge (FE); 1'b1 Capture event 4 triggered on a Falling Edge (FE)" "0,1" bitfld.long 0x0 5. "CTRRST3,Counter Reset on Capture Event 3: 1'b0 Do Not reset Counter on Capture Event 3 (absolute time stamp); 1'b1 Reset Counter after Event 3 time-stamp has been captured (used in Difference mode operation)" "0,1" newline bitfld.long 0x0 4. "CAP3POL,Capture Event 3 Polarity select: 1'b0 Capture event 3 triggered on a Rising Edge (FE); 1'b1 Capture event 3 triggered on a Falling Edge (FE)" "0,1" bitfld.long 0x0 3. "CTRRST2,Counter Reset on Capture Event 2: 1'b0 Do Not reset Counter on Capture Event 2 (absolute time stamp); 1'b1 Reset Counter after Event 2 time-stamp has been captured (used in Difference mode operation)" "?,?" newline bitfld.long 0x0 2. "CAP2POL,Capture Event 2 Polarity select: 1'b0 Capture event 2 triggered on a Rising Edge (FE); 1'b1 Capture event 2 triggered on a Falling Edge (FE)" "0,1" bitfld.long 0x0 1. "CTRRST1,Counter Reset on Capture Event 1: 1'b0 Do Not reset Counter on Capture Event 1 (absolute time stamp); 1'b1 Reset Counter after Event 1 time-stamp has been captured (used in Difference mode operation)" "?,1: 1'b0 Do Not reset Counter on Capture Event 1" newline bitfld.long 0x0 0. "CAP1POL,Capture Event 1 Polarity select: 1'b0 Capture event 1 triggered on a Rising Edge (FE); 1'b1 Capture event 1 triggered on a Falling Edge (FE)" "0,1" line.long 0x4 "CTL_STS_ECINT_EN_FLG," rbitfld.long 0x4 23. "CMPEQ_FLG,Compare Equal Status Flag: Reading a 1 on this bit indicates the Counter (TSCNT) reached the Compare register value (ACMP) Reading a 0 indicates no event occurred Note: This flag is only active in APWM mode." "0,1" rbitfld.long 0x4 22. "PRDEQ_FLG,Period Equal Status Flag: Reading a 1 on this bit indicates the Counter (TSCNT) reached the Period register value (APER) and was reset. Reading a 0 indicates no event occurred Notes: This flag is only active in APWM mode." "0,1" newline rbitfld.long 0x4 21. "CNTOVF_FLG,Counter Overflow Status Flag: Reading a 1 on this bit indicates the Counter (TSCNT) has made the transition from 0xFFFFFFFF 0x00000000 Reading a 0 indicates no event occurred. Note: This flag is active in CAP & APWM mode." "0,1" rbitfld.long 0x4 20. "CEVT4_FLG,Capture Event 4 Status Flag: Reading a 1 on this bit indicates the fourth event occurred at ECAPx pin. Reading a 0 indicates no event occurred. Note: This flag is only active in CAP mode." "0,1" newline rbitfld.long 0x4 19. "CEVT3_FLG,Capture Event 3 Status Flag: Reading a 1 on this bit indicates the third event occurred at ECAPx pin. Reading a 0 indicates no event occurred. Note: This flag is only active in CAP mode." "0,1" rbitfld.long 0x4 18. "CEVT2_FLG,Capture Event 2 Status Flag: Reading a 1 on this bit indicates the second event occurred at ECAPx pin. Reading a 0 indicates no event occurred. Note: This flag is only active in CAP mode." "0,1" newline rbitfld.long 0x4 17. "CEVT1_FLG,Capture Event 1 Status Flag: Reading a 1 on this bit indicates the first event occurred at ECAPx pin. Reading a 0 indicates no event occurred. Note: This flag is only active in CAP mode." "0,1" rbitfld.long 0x4 16. "INT_FLG,Global Interrupt Status Flag: Reading a 1 on this bit indicates that an interrupt was generated from one of the following events. Reading a 0 indicates no interrupt generated." "0,1" newline bitfld.long 0x4 7. "CMPEQ_EN,Compare Equal Interrupt Enable: 1'b0 Disabled Compare Equal as an Interrupt source; 1'b1 Enable Compare Equal as an Interrupt source" "0,1" bitfld.long 0x4 6. "PRDEQ_EN,Period Equal Interrupt Enable: 1'b0 Disabled Period Equal as an Interrupt source; 1'b1 Enable Period Equal as an Interrupt source" "0,1" newline bitfld.long 0x4 5. "CNTOVF_EN,Counter Overflow Interrupt Enable: 1'b0 Disabled Counter Overflow as an Interrupt source; 1'b1 Enable Counter Overflow as an Interrupt source" "0,1" bitfld.long 0x4 4. "CEVT4_EN,Capture Event 4 Interrupt Enable: 1'b0 Disabled Capture Event 4 as an Interrupt source: 1'b1 Enable Capture Event 4 as an Interrupt source" "0,1" newline bitfld.long 0x4 3. "CEVT3_EN,Capture Event 3 Interrupt Enable: 1'b0 Disabled Capture Event 3 as an Interrupt source: 1'b1 Enable Capture Event 3 as an Interrupt source" "0,1" bitfld.long 0x4 2. "CEVT2_EN,Capture Event 2 Interrupt Enable: 1'b0 Disabled Capture Event 2 as an Interrupt source: 1'b1 Enable Capture Event 2 as an Interrupt source" "0,1" newline bitfld.long 0x4 1. "CEVT1_EN,Capture Event 1 Interrupt Enable: 1'b0 Disabled Capture Event 1 as an Interrupt source: 1'b1 Enable Capture Event 1 as an Interrupt source" "0,1" line.long 0x8 "CTL_STS_ECINT_CLR_FRC," bitfld.long 0x8 23. "CMPEQ_FRC,Force Compare Equal: Writing a 1 to this bit will set the CMPEQ flag bit. Writing of 0 will be ignored. Always reads back a 0." "0,1" bitfld.long 0x8 22. "PRDEQ_FRC,Force Period Equal: Writing a 1 to this bit will set the PRDEQ flag bit. Writing of 0 will be ignored. Always reads back a 0." "0,1" newline bitfld.long 0x8 21. "CNTOVF_FRC,Force Counter Overflow: Writing a 1 to this bit will set the CNTOVF flag bit. Writing of 0 will be ignored. Always reads back a 0." "0,1" bitfld.long 0x8 20. "CEVT4_FRC,Force Capture Event 4: Writing a 1 to this bit will set the CEVT4 flag bit. Writing of 0 will be ignored. Always reads back a 0." "0,1" newline bitfld.long 0x8 19. "CEVT3_FRC,Force Capture Event 3: Writing a 1 to this bit will set the CEVT3 flag bit. Writing of 0 will be ignored. Always reads back a 0." "0,1" bitfld.long 0x8 18. "CEVT2_FRC,Force Capture Event 2: Writing a 1 to this bit will set the CEVT2 flag bit. Writing of 0 will be ignored. Always reads back a 0." "?,?" newline bitfld.long 0x8 17. "CEVT1_FRC,Force Capture Event 1: Writing a 1 to this bit will set the CEVT1 flag bit. Writing of 0 will be ignored. Always reads back a 0." "?,1: Writing a 1 to this bit will set the CEVT1 flag.." bitfld.long 0x8 7. "CMPEQ_CLR,Compare Equal Status Flag: Writing a 1 will clear the CMPEQ flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" newline bitfld.long 0x8 6. "PRDEQ_CLR,Period Equal Status Flag: Writing a 1 will clear the PRDEQ flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" bitfld.long 0x8 5. "CNTOVF_CLR,Counter Overflow Status Flag: Writing a 1 will clear the CNTOVF flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" newline bitfld.long 0x8 4. "CEVT4_CLR,Capture Event 4 Status Flag: Writing a 1 will clear the CEVT4 flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" bitfld.long 0x8 3. "CEVT3_CLR,Capture Event 3 Status Flag: Writing a 1 will clear the CEVT3 flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" newline bitfld.long 0x8 2. "CEVT2_CLR,Capture Event 2 Status Flag: Writing a 1 will clear the CEVT2 flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" bitfld.long 0x8 1. "CEVT1_CLR,Capture Event 1 Status Flag: Writing a 1 will clear the CEVT1 flag condition. Writing a 0 will have no effect. Always reads back a 0." "0,1" newline bitfld.long 0x8 0. "INT_CLR,Global Interrupt Clear Flag: Writing a 1 will clear the INT flag and enable further interrupts to be generated if any of the event flags are set to 1. Writing a 0 will have no effect. Always reads back a 0." "0,1" rgroup.long 0x5C++0x3 line.long 0x0 "CTL_STS_PID," bitfld.long 0x0 30.--31. "SCHEME," "0,1,2,3" bitfld.long 0x0 28.--29. "RESERVED," "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "FUNCTION," hexmask.long.byte 0x0 11.--15. 1. "RTL," newline bitfld.long 0x0 8.--10. "MAJOR," "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM," "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR," tree.end tree.end tree "ECC_AGGR0_ECC_AGGR (ECC_AGGR0_ECC_AGGR)" base ad:0x3F00F000 rgroup.long 0x0++0x3 line.long 0x0 "REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 11. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_PKTDMA_CRED_DST_BUSECC_PEND,Interrupt Pending Status for Isam62a_sec_br_main_0_Ip2p_sa3_pktdma_cred_dst_busecc_pend" "0,1" newline bitfld.long 0x4 10. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_PKTDMA_CRED_SRC_BUSECC_PEND,Interrupt Pending Status for Isam62a_sec_br_main_0_Ip2p_sa3_pktdma_cred_src_busecc_pend" "0,1" newline bitfld.long 0x4 9. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_DMSS_CFG_DST_BUSECC_PEND,Interrupt Pending Status for Isam62a_sec_br_main_0_Ip2p_sa3_dmss_cfg_dst_busecc_pend" "0,1" newline bitfld.long 0x4 8. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_DMSS_CFG_SRC_BUSECC_PEND,Interrupt Pending Status for Isam62a_sec_br_main_0_Ip2p_sa3_dmss_cfg_src_busecc_pend" "0,1" newline bitfld.long 0x4 7. "AM67_MAIN_FW_CBASS_HSM_CLK_2_CLK_EDC_CTRL_CBASS_INT_HSM_CLK_2_BUSECC_PEND,Interrupt Pending Status for am67_main_fw_cbass_HSM_CLK_2_clk_edc_ctrl_cbass_int_HSM_CLK_2_busecc_pend" "0,1" newline bitfld.long 0x4 6. "AM67_MAIN_FW_CBASS_ISMS_MAIN_0_FWMGR_CFG_P2P_BRIDGE_ISMS_MAIN_0_FWMGR_CFG_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for am67_main_fw_cbass_Isms_main_0_fwmgr_cfg_p2p_bridge_Isms_main_0_fwmgr_cfg_bridge_dst_busecc_pend" "0,1" newline bitfld.long 0x4 5. "AM67_MAIN_FW_CBASS_ISMS_MAIN_0_FWMGR_CFG_P2P_BRIDGE_ISMS_MAIN_0_FWMGR_CFG_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for am67_main_fw_cbass_Isms_main_0_fwmgr_cfg_p2p_bridge_Isms_main_0_fwmgr_cfg_bridge_src_busecc_pend" "0,1" newline bitfld.long 0x4 4. "AM67_MAIN_IPCSS_CBASS_HSM_CLK_2_CLK_EDC_CTRL_CBASS_INT_HSM_CLK_2_BUSECC_PEND,Interrupt Pending Status for am67_main_IPCSS_cbass_HSM_CLK_2_clk_edc_ctrl_cbass_int_HSM_CLK_2_busecc_pend" "0,1" newline bitfld.long 0x4 3. "AM67_MAIN_CENTRAL_CBASS_HSM_CLK_1_CLK_EDC_CTRL_CBASS_INT_HSM_CLK_1_BUSECC_PEND,Interrupt Pending Status for am67_main_central_cbass_HSM_CLK_1_clk_edc_ctrl_cbass_int_HSM_CLK_1_busecc_pend" "0,1" newline bitfld.long 0x4 2. "AM67_MAIN_CENTRAL_CBASS_ISMS_MAIN_0_TIFS_VBUSP_S_P2P_BRIDGE_ISMS_MAIN_0_TIFS_VBUSP_S_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_main_central_cbass_Isms_main_0_tifs_vbusp_s_p2p_bridge_Isms_main_0_tifs_vbusp_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 1. "AM67_MAIN_CENTRAL_CBASS_ISMS_MAIN_0_HSM_VBUSP_S_P2P_BRIDGE_ISMS_MAIN_0_HSM_VBUSP_S_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_main_central_cbass_Isms_main_0_hsm_vbusp_s_p2p_bridge_Isms_main_0_hsm_vbusp_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 0. "IMAILBOX8_MAIN_0_RAMECC_PEND,Interrupt Pending Status for Imailbox8_main_0_ramecc_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 11. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_PKTDMA_CRED_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_sec_br_main_0_Ip2p_sa3_pktdma_cred_dst_busecc_pend" "0,1" newline bitfld.long 0x0 10. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_PKTDMA_CRED_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_sec_br_main_0_Ip2p_sa3_pktdma_cred_src_busecc_pend" "0,1" newline bitfld.long 0x0 9. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_DMSS_CFG_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_sec_br_main_0_Ip2p_sa3_dmss_cfg_dst_busecc_pend" "0,1" newline bitfld.long 0x0 8. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_DMSS_CFG_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_sec_br_main_0_Ip2p_sa3_dmss_cfg_src_busecc_pend" "0,1" newline bitfld.long 0x0 7. "AM67_MAIN_FW_CBASS_HSM_CLK_2_CLK_EDC_CTRL_CBASS_INT_HSM_CLK_2_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_main_fw_cbass_HSM_CLK_2_clk_edc_ctrl_cbass_int_HSM_CLK_2_busecc_pend" "0,1" newline bitfld.long 0x0 6. "AM67_MAIN_FW_CBASS_ISMS_MAIN_0_FWMGR_CFG_P2P_BRIDGE_ISMS_MAIN_0_FWMGR_CFG_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_main_fw_cbass_Isms_main_0_fwmgr_cfg_p2p_bridge_Isms_main_0_fwmgr_cfg_bridge_dst_busecc_pend" "0,1" newline bitfld.long 0x0 5. "AM67_MAIN_FW_CBASS_ISMS_MAIN_0_FWMGR_CFG_P2P_BRIDGE_ISMS_MAIN_0_FWMGR_CFG_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_main_fw_cbass_Isms_main_0_fwmgr_cfg_p2p_bridge_Isms_main_0_fwmgr_cfg_bridge_src_busecc_pend" "0,1" newline bitfld.long 0x0 4. "AM67_MAIN_IPCSS_CBASS_HSM_CLK_2_CLK_EDC_CTRL_CBASS_INT_HSM_CLK_2_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_main_IPCSS_cbass_HSM_CLK_2_clk_edc_ctrl_cbass_int_HSM_CLK_2_busecc_pend" "0,1" newline bitfld.long 0x0 3. "AM67_MAIN_CENTRAL_CBASS_HSM_CLK_1_CLK_EDC_CTRL_CBASS_INT_HSM_CLK_1_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_main_central_cbass_HSM_CLK_1_clk_edc_ctrl_cbass_int_HSM_CLK_1_busecc_pend" "0,1" newline bitfld.long 0x0 2. "AM67_MAIN_CENTRAL_CBASS_ISMS_MAIN_0_TIFS_VBUSP_S_P2P_BRIDGE_ISMS_MAIN_0_TIFS_VBUSP_S_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_main_central_cbass_Isms_main_0_tifs_vbusp_s_p2p_bridge_Isms_main_0_tifs_vbusp_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 1. "AM67_MAIN_CENTRAL_CBASS_ISMS_MAIN_0_HSM_VBUSP_S_P2P_BRIDGE_ISMS_MAIN_0_HSM_VBUSP_S_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_main_central_cbass_Isms_main_0_hsm_vbusp_s_p2p_bridge_Isms_main_0_hsm_vbusp_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 0. "IMAILBOX8_MAIN_0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for Imailbox8_main_0_ramecc_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 11. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_PKTDMA_CRED_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_sec_br_main_0_Ip2p_sa3_pktdma_cred_dst_busecc_pend" "0,1" newline bitfld.long 0x0 10. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_PKTDMA_CRED_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_sec_br_main_0_Ip2p_sa3_pktdma_cred_src_busecc_pend" "0,1" newline bitfld.long 0x0 9. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_DMSS_CFG_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_sec_br_main_0_Ip2p_sa3_dmss_cfg_dst_busecc_pend" "0,1" newline bitfld.long 0x0 8. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_DMSS_CFG_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_sec_br_main_0_Ip2p_sa3_dmss_cfg_src_busecc_pend" "0,1" newline bitfld.long 0x0 7. "AM67_MAIN_FW_CBASS_HSM_CLK_2_CLK_EDC_CTRL_CBASS_INT_HSM_CLK_2_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_main_fw_cbass_HSM_CLK_2_clk_edc_ctrl_cbass_int_HSM_CLK_2_busecc_pend" "0,1" newline bitfld.long 0x0 6. "AM67_MAIN_FW_CBASS_ISMS_MAIN_0_FWMGR_CFG_P2P_BRIDGE_ISMS_MAIN_0_FWMGR_CFG_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_main_fw_cbass_Isms_main_0_fwmgr_cfg_p2p_bridge_Isms_main_0_fwmgr_cfg_bridge_dst_busecc_pend" "0,1" newline bitfld.long 0x0 5. "AM67_MAIN_FW_CBASS_ISMS_MAIN_0_FWMGR_CFG_P2P_BRIDGE_ISMS_MAIN_0_FWMGR_CFG_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_main_fw_cbass_Isms_main_0_fwmgr_cfg_p2p_bridge_Isms_main_0_fwmgr_cfg_bridge_src_busecc_pend" "0,1" newline bitfld.long 0x0 4. "AM67_MAIN_IPCSS_CBASS_HSM_CLK_2_CLK_EDC_CTRL_CBASS_INT_HSM_CLK_2_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_main_IPCSS_cbass_HSM_CLK_2_clk_edc_ctrl_cbass_int_HSM_CLK_2_busecc_pend" "0,1" newline bitfld.long 0x0 3. "AM67_MAIN_CENTRAL_CBASS_HSM_CLK_1_CLK_EDC_CTRL_CBASS_INT_HSM_CLK_1_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_main_central_cbass_HSM_CLK_1_clk_edc_ctrl_cbass_int_HSM_CLK_1_busecc_pend" "0,1" newline bitfld.long 0x0 2. "AM67_MAIN_CENTRAL_CBASS_ISMS_MAIN_0_TIFS_VBUSP_S_P2P_BRIDGE_ISMS_MAIN_0_TIFS_VBUSP_S_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_main_central_cbass_Isms_main_0_tifs_vbusp_s_p2p_bridge_Isms_main_0_tifs_vbusp_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 1. "AM67_MAIN_CENTRAL_CBASS_ISMS_MAIN_0_HSM_VBUSP_S_P2P_BRIDGE_ISMS_MAIN_0_HSM_VBUSP_S_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_main_central_cbass_Isms_main_0_hsm_vbusp_s_p2p_bridge_Isms_main_0_hsm_vbusp_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 0. "IMAILBOX8_MAIN_0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for Imailbox8_main_0_ramecc_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 11. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_PKTDMA_CRED_DST_BUSECC_PEND,Interrupt Pending Status for Isam62a_sec_br_main_0_Ip2p_sa3_pktdma_cred_dst_busecc_pend" "0,1" newline bitfld.long 0x4 10. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_PKTDMA_CRED_SRC_BUSECC_PEND,Interrupt Pending Status for Isam62a_sec_br_main_0_Ip2p_sa3_pktdma_cred_src_busecc_pend" "0,1" newline bitfld.long 0x4 9. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_DMSS_CFG_DST_BUSECC_PEND,Interrupt Pending Status for Isam62a_sec_br_main_0_Ip2p_sa3_dmss_cfg_dst_busecc_pend" "0,1" newline bitfld.long 0x4 8. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_DMSS_CFG_SRC_BUSECC_PEND,Interrupt Pending Status for Isam62a_sec_br_main_0_Ip2p_sa3_dmss_cfg_src_busecc_pend" "0,1" newline bitfld.long 0x4 7. "AM67_MAIN_FW_CBASS_HSM_CLK_2_CLK_EDC_CTRL_CBASS_INT_HSM_CLK_2_BUSECC_PEND,Interrupt Pending Status for am67_main_fw_cbass_HSM_CLK_2_clk_edc_ctrl_cbass_int_HSM_CLK_2_busecc_pend" "0,1" newline bitfld.long 0x4 6. "AM67_MAIN_FW_CBASS_ISMS_MAIN_0_FWMGR_CFG_P2P_BRIDGE_ISMS_MAIN_0_FWMGR_CFG_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for am67_main_fw_cbass_Isms_main_0_fwmgr_cfg_p2p_bridge_Isms_main_0_fwmgr_cfg_bridge_dst_busecc_pend" "0,1" newline bitfld.long 0x4 5. "AM67_MAIN_FW_CBASS_ISMS_MAIN_0_FWMGR_CFG_P2P_BRIDGE_ISMS_MAIN_0_FWMGR_CFG_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for am67_main_fw_cbass_Isms_main_0_fwmgr_cfg_p2p_bridge_Isms_main_0_fwmgr_cfg_bridge_src_busecc_pend" "0,1" newline bitfld.long 0x4 4. "AM67_MAIN_IPCSS_CBASS_HSM_CLK_2_CLK_EDC_CTRL_CBASS_INT_HSM_CLK_2_BUSECC_PEND,Interrupt Pending Status for am67_main_IPCSS_cbass_HSM_CLK_2_clk_edc_ctrl_cbass_int_HSM_CLK_2_busecc_pend" "0,1" newline bitfld.long 0x4 3. "AM67_MAIN_CENTRAL_CBASS_HSM_CLK_1_CLK_EDC_CTRL_CBASS_INT_HSM_CLK_1_BUSECC_PEND,Interrupt Pending Status for am67_main_central_cbass_HSM_CLK_1_clk_edc_ctrl_cbass_int_HSM_CLK_1_busecc_pend" "0,1" newline bitfld.long 0x4 2. "AM67_MAIN_CENTRAL_CBASS_ISMS_MAIN_0_TIFS_VBUSP_S_P2P_BRIDGE_ISMS_MAIN_0_TIFS_VBUSP_S_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_main_central_cbass_Isms_main_0_tifs_vbusp_s_p2p_bridge_Isms_main_0_tifs_vbusp_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 1. "AM67_MAIN_CENTRAL_CBASS_ISMS_MAIN_0_HSM_VBUSP_S_P2P_BRIDGE_ISMS_MAIN_0_HSM_VBUSP_S_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_main_central_cbass_Isms_main_0_hsm_vbusp_s_p2p_bridge_Isms_main_0_hsm_vbusp_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 0. "IMAILBOX8_MAIN_0_RAMECC_PEND,Interrupt Pending Status for Imailbox8_main_0_ramecc_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 11. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_PKTDMA_CRED_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_sec_br_main_0_Ip2p_sa3_pktdma_cred_dst_busecc_pend" "0,1" newline bitfld.long 0x0 10. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_PKTDMA_CRED_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_sec_br_main_0_Ip2p_sa3_pktdma_cred_src_busecc_pend" "0,1" newline bitfld.long 0x0 9. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_DMSS_CFG_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_sec_br_main_0_Ip2p_sa3_dmss_cfg_dst_busecc_pend" "0,1" newline bitfld.long 0x0 8. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_DMSS_CFG_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_sec_br_main_0_Ip2p_sa3_dmss_cfg_src_busecc_pend" "0,1" newline bitfld.long 0x0 7. "AM67_MAIN_FW_CBASS_HSM_CLK_2_CLK_EDC_CTRL_CBASS_INT_HSM_CLK_2_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_main_fw_cbass_HSM_CLK_2_clk_edc_ctrl_cbass_int_HSM_CLK_2_busecc_pend" "0,1" newline bitfld.long 0x0 6. "AM67_MAIN_FW_CBASS_ISMS_MAIN_0_FWMGR_CFG_P2P_BRIDGE_ISMS_MAIN_0_FWMGR_CFG_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_main_fw_cbass_Isms_main_0_fwmgr_cfg_p2p_bridge_Isms_main_0_fwmgr_cfg_bridge_dst_busecc_pend" "0,1" newline bitfld.long 0x0 5. "AM67_MAIN_FW_CBASS_ISMS_MAIN_0_FWMGR_CFG_P2P_BRIDGE_ISMS_MAIN_0_FWMGR_CFG_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_main_fw_cbass_Isms_main_0_fwmgr_cfg_p2p_bridge_Isms_main_0_fwmgr_cfg_bridge_src_busecc_pend" "0,1" newline bitfld.long 0x0 4. "AM67_MAIN_IPCSS_CBASS_HSM_CLK_2_CLK_EDC_CTRL_CBASS_INT_HSM_CLK_2_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_main_IPCSS_cbass_HSM_CLK_2_clk_edc_ctrl_cbass_int_HSM_CLK_2_busecc_pend" "0,1" newline bitfld.long 0x0 3. "AM67_MAIN_CENTRAL_CBASS_HSM_CLK_1_CLK_EDC_CTRL_CBASS_INT_HSM_CLK_1_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_main_central_cbass_HSM_CLK_1_clk_edc_ctrl_cbass_int_HSM_CLK_1_busecc_pend" "0,1" newline bitfld.long 0x0 2. "AM67_MAIN_CENTRAL_CBASS_ISMS_MAIN_0_TIFS_VBUSP_S_P2P_BRIDGE_ISMS_MAIN_0_TIFS_VBUSP_S_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_main_central_cbass_Isms_main_0_tifs_vbusp_s_p2p_bridge_Isms_main_0_tifs_vbusp_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 1. "AM67_MAIN_CENTRAL_CBASS_ISMS_MAIN_0_HSM_VBUSP_S_P2P_BRIDGE_ISMS_MAIN_0_HSM_VBUSP_S_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_main_central_cbass_Isms_main_0_hsm_vbusp_s_p2p_bridge_Isms_main_0_hsm_vbusp_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 0. "IMAILBOX8_MAIN_0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for Imailbox8_main_0_ramecc_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 11. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_PKTDMA_CRED_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_sec_br_main_0_Ip2p_sa3_pktdma_cred_dst_busecc_pend" "0,1" newline bitfld.long 0x0 10. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_PKTDMA_CRED_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_sec_br_main_0_Ip2p_sa3_pktdma_cred_src_busecc_pend" "0,1" newline bitfld.long 0x0 9. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_DMSS_CFG_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_sec_br_main_0_Ip2p_sa3_dmss_cfg_dst_busecc_pend" "0,1" newline bitfld.long 0x0 8. "ISAM62A_SEC_BR_MAIN_0_IP2P_SA3_DMSS_CFG_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_sec_br_main_0_Ip2p_sa3_dmss_cfg_src_busecc_pend" "0,1" newline bitfld.long 0x0 7. "AM67_MAIN_FW_CBASS_HSM_CLK_2_CLK_EDC_CTRL_CBASS_INT_HSM_CLK_2_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_main_fw_cbass_HSM_CLK_2_clk_edc_ctrl_cbass_int_HSM_CLK_2_busecc_pend" "0,1" newline bitfld.long 0x0 6. "AM67_MAIN_FW_CBASS_ISMS_MAIN_0_FWMGR_CFG_P2P_BRIDGE_ISMS_MAIN_0_FWMGR_CFG_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_main_fw_cbass_Isms_main_0_fwmgr_cfg_p2p_bridge_Isms_main_0_fwmgr_cfg_bridge_dst_busecc_pend" "0,1" newline bitfld.long 0x0 5. "AM67_MAIN_FW_CBASS_ISMS_MAIN_0_FWMGR_CFG_P2P_BRIDGE_ISMS_MAIN_0_FWMGR_CFG_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_main_fw_cbass_Isms_main_0_fwmgr_cfg_p2p_bridge_Isms_main_0_fwmgr_cfg_bridge_src_busecc_pend" "0,1" newline bitfld.long 0x0 4. "AM67_MAIN_IPCSS_CBASS_HSM_CLK_2_CLK_EDC_CTRL_CBASS_INT_HSM_CLK_2_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_main_IPCSS_cbass_HSM_CLK_2_clk_edc_ctrl_cbass_int_HSM_CLK_2_busecc_pend" "0,1" newline bitfld.long 0x0 3. "AM67_MAIN_CENTRAL_CBASS_HSM_CLK_1_CLK_EDC_CTRL_CBASS_INT_HSM_CLK_1_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_main_central_cbass_HSM_CLK_1_clk_edc_ctrl_cbass_int_HSM_CLK_1_busecc_pend" "0,1" newline bitfld.long 0x0 2. "AM67_MAIN_CENTRAL_CBASS_ISMS_MAIN_0_TIFS_VBUSP_S_P2P_BRIDGE_ISMS_MAIN_0_TIFS_VBUSP_S_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_main_central_cbass_Isms_main_0_tifs_vbusp_s_p2p_bridge_Isms_main_0_tifs_vbusp_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 1. "AM67_MAIN_CENTRAL_CBASS_ISMS_MAIN_0_HSM_VBUSP_S_P2P_BRIDGE_ISMS_MAIN_0_HSM_VBUSP_S_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_main_central_cbass_Isms_main_0_hsm_vbusp_s_p2p_bridge_Isms_main_0_hsm_vbusp_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 0. "IMAILBOX8_MAIN_0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for Imailbox8_main_0_ramecc_pend" "0,1" group.long 0x200++0xF line.long 0x0 "REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" newline bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" newline bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" newline bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" newline bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "EFUSE0 (EFUSE0)" base ad:0x300000 group.long 0x0++0xB line.long 0x0 "MEM_SYS_STATUS,efuse system_status" hexmask.long 0x0 0.--31. 1. "STATUS,efuse system status" line.long 0x4 "MEM_OCP_CTRL_LOWER,OCP control" hexmask.long 0x4 0.--31. 1. "OCP_CONTROL_LOWER,ocp_control_lower" line.long 0x8 "MEM_OCP_CTRL_UPPER,OCP control" hexmask.long 0x8 0.--31. 1. "OCP_CONTROL_UPPER,ocp_control_upper" group.long 0x10++0x3 line.long 0x0 "MEM_SYS_CONFIG,System config" hexmask.long 0x0 0.--31. 1. "SYS_CONFIG,efuse system config" tree.end tree "ELM0 (ELM0)" base ad:0x25010000 rgroup.long 0x0++0x3 line.long 0x0 "MEM_ELM_REVISION,This register contains the IP revision code." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED_0,Read returns 0" hexmask.long.byte 0x0 0.--7. 1. "REV_NUMBER,IP revision number [RTL] [7:4] Major revision [3:0] Minor revision" group.long 0x10++0x3 line.long 0x0 "MEM_ELM_SYSCONFIG,This register allows controlling various parameters of the OCP interface" bitfld.long 0x0 8. "CLOCKACTIVITYOCP,OCP Clock activity when module is in IDLE mode [during wake up mode period]" "0,1" bitfld.long 0x0 3.--4. "SIDLEMODE,Target interface power management [IDLE req/ack control]" "0,1,2,3" newline bitfld.long 0x0 1. "SOFTRESET,Module Software Reset The bit is automatically reset by the hardware [During reads it always returns 0] It has same effect as the OCP Hardware reset" "0,1" bitfld.long 0x0 0. "AUTOGATING,Internal OCP clock gating strategy [no module visible impact other than saving power]" "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MEM_ELM_SYSSTATUS,Internal Reset monitoring (OCP domain)" bitfld.long 0x0 0. "RESETDONE,Internal Reset monitoring [OCP domain] Undefined since: on HW perspective reset state is 0 on SW user perspective when module is accessible is 1" "0,1" group.long 0x18++0xB line.long 0x0 "MEM_ELM_IRQSTATUS,Interrupt status. This register doubles as a status register for the error location processes." bitfld.long 0x0 8. "PAGE_VALID,Error location status for a full page based on the mask definition Read 0x0: error locations invalid for all polynomials enabled in the ECC_INTERRUPT_MASK register Read 0x1: all error locations valid Write 0x0: no effect Write 0x1: clear.." "0: no effect Write,1: clear interrupt" bitfld.long 0x0 7. "LOC_VALID_7,Error location status for syndrome polynomial 7 Read 0x0: no syndrome processed or process in progress Read 0x1: error location process completed Write 0x0: no effect Write 0x1: clear interrupt" "0: no effect Write,1: clear interrupt" newline bitfld.long 0x0 6. "LOC_VALID_6,Error location status for syndrome polynomial 6" "0,1" bitfld.long 0x0 5. "LOC_VALID_5,Error location status for syndrome polynomial 5" "0,1" newline bitfld.long 0x0 4. "LOC_VALID_4,Error location status for syndrome polynomial 4" "0,1" bitfld.long 0x0 3. "LOC_VALID_3,Error location status for syndrome polynomial 3" "0,1" newline bitfld.long 0x0 2. "LOC_VALID_2,Error location status for syndrome polynomial 2" "0,1" bitfld.long 0x0 1. "LOC_VALID_1,Error location status for syndrome polynomial 1" "0,1" newline bitfld.long 0x0 0. "LOC_VALID_0,Error location status for syndrome polynomial 0" "0,1" line.long 0x4 "MEM_ELM_IRQENABLE,Interrupt enable" bitfld.long 0x4 8. "PAGE_MASK,Page interrupt mask bit 0: disable interrupt 1: enable interrupt" "0: disable interrupt,1: enable interrupt" bitfld.long 0x4 7. "LOCATION_MASK_7,Error location interrupt mask bit for syndrome polynomial 7" "0,1" newline bitfld.long 0x4 6. "LOCATION_MASK_6,Error location interrupt mask bit for syndrome polynomial 6" "0,1" bitfld.long 0x4 5. "LOCATION_MASK_5,Error location interrupt mask bit for syndrome polynomial 5" "0,1" newline bitfld.long 0x4 4. "LOCATION_MASK_4,Error location interrupt mask bit for syndrome polynomial 4" "0,1" bitfld.long 0x4 3. "LOCATION_MASK_3,Error location interrupt mask bit for syndrome polynomial 3" "0,1" newline bitfld.long 0x4 2. "LOCATION_MASK_2,Error location interrupt mask bit for syndrome polynomial 2" "0,1" bitfld.long 0x4 1. "LOCATION_MASK_1,Error location interrupt mask bit for syndrome polynomial 1" "0,1" newline bitfld.long 0x4 0. "LOCATION_MASK_0,Error location interrupt mask bit for syndrome polynomial 0 0: disable interrupt 1: enable interrupt" "0: disable interrupt,1: enable interrupt" line.long 0x8 "MEM_ELM_LOCATION_CONFIG,ECC algorithm parameters" hexmask.long.word 0x8 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 0x8 0.--1. "ECC_BCH_LEVEL,Error correction level 0x0: 4 bits 0x1: 8 bits 0x2: 16 bits 0x3: reserved" "0: 4 bits,1: 8 bits,2: 16 bits,3: reserved" group.long 0x80++0x3 line.long 0x0 "MEM_ELM_PAGE_CTRL,Page definition" bitfld.long 0x0 7. "SECTOR_7,Set to 1 if syndrome polynomial 7 is part of the page in page mode Must be 0 in continuous mode" "0,1" bitfld.long 0x0 6. "SECTOR_6,Set to 1 if syndrome polynomial 6 is part of the page in page mode Must be 0 in continuous mode" "0,1" newline bitfld.long 0x0 5. "SECTOR_5,Set to 1 if syndrome polynomial 5 is part of the page in page mode Must be 0 in continuous mode" "0,1" bitfld.long 0x0 4. "SECTOR_4,Set to 1 if syndrome polynomial 4 is part of the page in page mode Must be 0 in continuous mode" "0,1" newline bitfld.long 0x0 3. "SECTOR_3,Set to 1 if syndrome polynomial 3 is part of the page in page mode Must be 0 in continuous mode" "0,1" bitfld.long 0x0 2. "SECTOR_2,Set to 1 if syndrome polynomial 2 is part of the page in page mode Must be 0 in continuous mode" "0,1" newline bitfld.long 0x0 1. "SECTOR_1,Set to 1 if syndrome polynomial 1 is part of the page in page mode Must be 0 in continuous mode" "0,1" bitfld.long 0x0 0. "SECTOR_0,Set to 1 if syndrome polynomial 0 is part of the page in page mode Must be 0 in continuous mode" "0,1" group.long 0x400++0x1B line.long 0x0 "MEM_ELM_SYNDROME_FRAGMENT_0,Input syndrome polynomial bits 0 to 31." hexmask.long 0x0 0.--31. 1. "SYNDROME_0,Syndrome bits 0 to 31" line.long 0x4 "MEM_ELM_SYNDROME_FRAGMENT_1,Input syndrome polynomial bits 32 to 63." hexmask.long 0x4 0.--31. 1. "SYNDROME_1,Syndrome bits 32 to 63" line.long 0x8 "MEM_ELM_SYNDROME_FRAGMENT_2,Input syndrome polynomial bits 64 to 95." hexmask.long 0x8 0.--31. 1. "SYNDROME_2,Syndrome bits 64 to 95" line.long 0xC "MEM_ELM_SYNDROME_FRAGMENT_3,Input syndrome polynomial bits 96 to 127" hexmask.long 0xC 0.--31. 1. "SYNDROME_3,Syndrome bits 96 to 127" line.long 0x10 "MEM_ELM_SYNDROME_FRAGMENT_4,Input syndrome polynomial bits 128 to 159." hexmask.long 0x10 0.--31. 1. "SYNDROME_4,Syndrome bits 128 to 159" line.long 0x14 "MEM_ELM_SYNDROME_FRAGMENT_5,Input syndrome polynomial bits 160 to 191." hexmask.long 0x14 0.--31. 1. "SYNDROME_5,Syndrome bits 160 to 191" line.long 0x18 "MEM_ELM_SYNDROME_FRAGMENT_6,Input syndrome polynomial bits 192 to 207." bitfld.long 0x18 16. "SYNDROME_VALID,Syndrome valid bit 0x0: this syndrome polynomial should not be processed 0x1: this syndrome polynomial must be processed" "0: this syndrome polynomial should not be processed,1: this syndrome polynomial must be processed" hexmask.long.word 0x18 0.--15. 1. "SYNDROME_6,Syndrome bits 192 to 207" rgroup.long 0x800++0x3 line.long 0x0 "MEM_ELM_LOCATION_STATUS,Exit status for the syndrome polynomial processing" bitfld.long 0x0 8. "ECC_CORRECTABLE,Error location process exit status 0x0: ECC error location process failed Number of errors and error locations are invalid 0x1: all errors were successfully located Number of errors and error locations are valid" "0: ECC error location process failed Number of..,1: all errors were successfully located Number of.." hexmask.long.byte 0x0 0.--4. 1. "ECC_NB_ERRORS,Number of errors detected and located" rgroup.long 0x880++0x3F line.long 0x0 "MEM_ELM_ERROR_LOCATION_0,Error location register" hexmask.long.word 0x0 0.--12. 1. "ECC_ERROR_LOCATION,Error location bit address" line.long 0x4 "MEM_ELM_ERROR_LOCATION_1,Error location register" hexmask.long.word 0x4 0.--12. 1. "ECC_ERROR_LOCATION,Error location bit address" line.long 0x8 "MEM_ELM_ERROR_LOCATION_2,Error location register" hexmask.long.word 0x8 0.--12. 1. "ECC_ERROR_LOCATION,Error location bit address" line.long 0xC "MEM_ELM_ERROR_LOCATION_3,Error location register" hexmask.long.word 0xC 0.--12. 1. "ECC_ERROR_LOCATION,Error location bit address" line.long 0x10 "MEM_ELM_ERROR_LOCATION_4,Error location register" hexmask.long.word 0x10 0.--12. 1. "ECC_ERROR_LOCATION,Error location bit address" line.long 0x14 "MEM_ELM_ERROR_LOCATION_5,Error location register" hexmask.long.word 0x14 0.--12. 1. "ECC_ERROR_LOCATION,Error location bit address" line.long 0x18 "MEM_ELM_ERROR_LOCATION_6,Error location register" hexmask.long.word 0x18 0.--12. 1. "ECC_ERROR_LOCATION,Error location bit address" line.long 0x1C "MEM_ELM_ERROR_LOCATION_7,Error location register" hexmask.long.word 0x1C 0.--12. 1. "ECC_ERROR_LOCATION,Error location bit address" line.long 0x20 "MEM_ELM_ERROR_LOCATION_8,Error location register" hexmask.long.word 0x20 0.--12. 1. "ECC_ERROR_LOCATION,Error location bit address" line.long 0x24 "MEM_ELM_ERROR_LOCATION_9,Error location register" hexmask.long.word 0x24 0.--12. 1. "ECC_ERROR_LOCATION,Error location bit address" line.long 0x28 "MEM_ELM_ERROR_LOCATION_10,Error location register" hexmask.long.word 0x28 0.--12. 1. "ECC_ERROR_LOCATION,Error location bit address" line.long 0x2C "MEM_ELM_ERROR_LOCATION_11,Error location register" hexmask.long.word 0x2C 0.--12. 1. "ECC_ERROR_LOCATION,Error location bit address" line.long 0x30 "MEM_ELM_ERROR_LOCATION_12,Error location register" hexmask.long.word 0x30 0.--12. 1. "ECC_ERROR_LOCATION,Error location bit address" line.long 0x34 "MEM_ELM_ERROR_LOCATION_13,Error location register" hexmask.long.word 0x34 0.--12. 1. "ECC_ERROR_LOCATION,Error location bit address" line.long 0x38 "MEM_ELM_ERROR_LOCATION_14,Error location register" hexmask.long.word 0x38 0.--12. 1. "ECC_ERROR_LOCATION,Error location bit address" line.long 0x3C "MEM_ELM_ERROR_LOCATION_15,Error location register" hexmask.long.word 0x3C 0.--12. 1. "ECC_ERROR_LOCATION,Error location bit address" tree.end tree "EPWM" base ad:0x0 tree "EPWM0_EPWM (EPWM0_EPWM)" base ad:0x23000000 group.word 0x0++0xB line.word 0x0 "EPWM_REGS_TBCTL,Time-Base Control Register" bitfld.word 0x0 14.--15. "FREE_SOFT,Emulation Mode Bits These bits select the behavior of the ePWM time-base counter during emulation events:" "0,1,2,3" bitfld.word 0x0 13. "PHSDIR,Phase Direction Bit This bit is only used when the time-base counter is configured in the up-down-count mode The PHSDIR bit indicates the direction the time-base counter [TBCNT] will count after a synchronization event occurs and a new phase value.." "0,1" bitfld.word 0x0 10.--12. "CLKDIV,Time-base Clock Prescale Bits These bits determine part of the time-base clock prescale value TBCLK = SYSCLKOUT/[HSPCLKDIV - CLKDIV]" "0,1,2,3,4,5,6,7" bitfld.word 0x0 7.--9. "HSPCLKDIV,High-Speed Time-base Clock Prescale Bits These bits determine part of the time-base clock prescale value TBCLK = SYSCLKOUT/[HSPCLKDIV - CLKDIV] This divisor emulates the HSPCLK in the TMS320x281x system as used on the Event Manager [EV].." "0,1,2,3,4,5,6,7" bitfld.word 0x0 6. "SWFSYNC,Software Forced Synchronization Pulse" "0,1" bitfld.word 0x0 4.--5. "SYNCOSEL,Synchronization Output Select These bits select the source of the EPWMxSYNCO signal" "0,1,2,3" bitfld.word 0x0 3. "PRDLD,Active Period Register Load From Shadow Register Select" "0,1" bitfld.word 0x0 2. "PHSEN,Counter Register Load From Phase Register Enable" "0,1" bitfld.word 0x0 0.--1. "CTRMODE,Counter Mode The time-base counter mode is normally configured once and not changed during normal operation If you change the mode of the counter the change will take effect at the next TBCLK edge and the current counter value shall increment or.." "0,1,2,3" line.word 0x2 "EPWM_REGS_TBSTS,Time-Base Status Register" bitfld.word 0x2 2. "CTRMAX,Time-Base Counter Max Latched Status Bit" "0,1" bitfld.word 0x2 1. "SYNCI,Input Synchronization Latched Status Bit" "0,1" rbitfld.word 0x2 0. "CTRDIR,Time-Base Counter Direction Status Bit At reset the counter is frozen therefore this bit has no meaning To make this bit meaningful you must first set the appropriate mode via TBCTL[CTRMODE]" "0,1" line.word 0x4 "EPWM_REGS_TBPHSHR,Time Base Phase High Resolution Register" hexmask.word.byte 0x4 8.--15. 1. "TBPHSH,Time-base phase high-resolution bits" line.word 0x6 "EPWM_REGS_TBPHS,Time Base Phase Register. This register is only available on ePWM instances that include the high-resolution PWM (HRPWM) extension. otherwise. this location is reserved." hexmask.word 0x6 0.--15. 1. "TBPHS,These bits set time-base counter phase of the selected ePWM relative to the time-base that is supplying the synchronization input signal [a] If TBCTL[PHSEN] = 0 then the synchronization event is ignored and the time-base counter is not loaded with.." line.word 0x8 "EPWM_REGS_TBCNT,Time Base Counter Register" hexmask.word 0x8 0.--15. 1. "TBCNT,Reading these bits gives the current time-base counter value Writing to these bits sets the current time-base counter value The update happens as soon as the write occurs The write is NOT synchronized to the time-base clock [TBCLK] and the register.." line.word 0xA "EPWM_REGS_TBPRD,Time Base Period Register" hexmask.word 0xA 0.--15. 1. "TBPRD,These bits determine the period of the time-base counter This sets the PWM frequency Shadowing of this register is enabled and disabled by the TBCTL[PRDLD] bit By default this register is shadowed [a] If TBCTL[PRDLD] = 0 then the shadow is enabled.." group.word 0xE++0x17 line.word 0x0 "EPWM_REGS_CMPCTL,Counter Compare Control Register" rbitfld.word 0x0 9. "SHDWBFULL,Counter-compare B [CMPB] Shadow Register Full Status Flag This bit self clears once a load-strobe occurs" "0,1" rbitfld.word 0x0 8. "SHDWAFULL,Counter-compare A [CMPA] Shadow Register Full Status Flag The flag bit is set when a 32 bit write to CMPA:CMPAHR register or a 16 bit write to CMPA register is made A 16 bit write to CMPAHR register will not affect the flag This bit self clears.." "0,1" bitfld.word 0x0 6. "SHDWBMODE,Counter-compare B [CMPB] Register Operating Mode" "0,1" bitfld.word 0x0 4. "SHDWAMODE,Counter-compare A [CMPA] Register Operating Mode" "0,1" bitfld.word 0x0 2.--3. "LOADBMODE,Active Counter-Compare B [CMPB] Load From Shadow Select Mode This bit has no effect in immediate mode [CMPCTL[SHDWBMODE] = 1]" "0,1,2,3" bitfld.word 0x0 0.--1. "LOADAMODE,Active Counter-Compare A [CMPA] Load From Shadow Select Mode This bit has no effect in immediate mode [CMPCTL[SHDWAMODE] = 1]" "0,1,2,3" line.word 0x2 "EPWM_REGS_CMPAHR,Counter Compare A High Resolution Register. This register is only available on ePWM instances that include the high-resolution PWM (HRPWM) extension; otherwise. this location is reserved." hexmask.word.byte 0x2 8.--15. 1. "CMPAHR,Compare A High-Resolution register bits for MEP step control A minimum value of 1h is needed to enable HRPWM capabilities Valid MEP range of operation 1-255h" line.word 0x4 "EPWM_REGS_CMPA,Counter Compare A Register" hexmask.word 0x4 0.--15. 1. "CMPA,The value in the active CMPA register is continuously compared to the time-base counter [TBCNT] When the values are equal the counter-compare module generates a time-base counter equal to counter compare A event This event is sent to the.." line.word 0x6 "EPWM_REGS_CMPB,Counter Compare B Register" hexmask.word 0x6 0.--15. 1. "CMPB,The value in the active CMPB register is continuously compared to the time-base counter [TBCNT] When the values are equal the counter-compare module generates a time-base counter equal to counter compare B event This event is sent to the.." line.word 0x8 "EPWM_REGS_AQCTLA,Action Qualifier Control Register For Output A" bitfld.word 0x8 10.--11. "CBD,Action when the time-base counter equals the active CMPB register and the counter is decrementing" "0,1,2,3" bitfld.word 0x8 8.--9. "CBU,Action when the counter equals the active CMPB register and the counter is incrementing" "0,1,2,3" bitfld.word 0x8 6.--7. "CAD,Action when the counter equals the active CMPA register and the counter is decrementing" "0,1,2,3" bitfld.word 0x8 4.--5. "CAU,Action when the counter equals the active CMPA register and the counter is incrementing" "0,1,2,3" bitfld.word 0x8 2.--3. "PRD,Action when the counter equals the period Note: By definition in count up-down mode when the counter equals period the direction is defined as 0 or counting down" "0,1,2,3" bitfld.word 0x8 0.--1. "ZRO,Action when counter equals zero Note: By definition in count up-down mode when the counter equals 0 the direction is defined as 1 or counting up" "0,1,2,3" line.word 0xA "EPWM_REGS_AQCTLB,Action Qualifier Control Register For Output B" bitfld.word 0xA 10.--11. "CBD,Action when the counter equals the active CMPB register and the counter is decrementing" "0,1,2,3" bitfld.word 0xA 8.--9. "CBU,Action when the counter equals the active CMPB register and the counter is incrementing" "0,1,2,3" bitfld.word 0xA 6.--7. "CAD,Action when the counter equals the active CMPA register and the counter is decrementing" "0,1,2,3" bitfld.word 0xA 4.--5. "CAU,Action when the counter equals the active CMPA register and the counter is incrementing" "0,1,2,3" bitfld.word 0xA 2.--3. "PRD,Action when the counter equals the period Note: By definition in count up-down mode when the counter equals period the direction is defined as 0 or counting down" "0,1,2,3" bitfld.word 0xA 0.--1. "ZRO,Action when counter equals zero Note: By definition in count up-down mode when the counter equals 0 the direction is defined as 1 or counting up" "0,1,2,3" line.word 0xC "EPWM_REGS_AQSFRC,Action Qualifier Software Force Register" bitfld.word 0xC 6.--7. "RLDCSF,AQCSFRC Active Register Reload From Shadow Options" "0,1,2,3" bitfld.word 0xC 5. "OTSFB,One-Time Software Forced Event on Output B" "0,1" bitfld.word 0xC 3.--4. "ACTSFB,Action when One-Time Software Force B Is invoked" "0,1,2,3" bitfld.word 0xC 2. "OTSFA,One-Time Software Forced Event on Output A" "0,1" bitfld.word 0xC 0.--1. "ACTSFA,Action When One-Time Software Force A Is Invoked" "0,1,2,3" line.word 0xE "EPWM_REGS_AQCSFRC,Action Qualifier Continuous S/W Force Register" bitfld.word 0xE 2.--3. "CSFB,Continuous Software Force on Output B In immediate mode a continuous force takes effect on the next TBCLK edge In shadow mode a continuous force takes effect on the next TBCLK edge after a shadow load into the active register To configure shadow.." "0,1,2,3" bitfld.word 0xE 0.--1. "CSFA,Continuous Software Force on Output A In immediate mode a continuous force takes effect on the next TBCLK edge In shadow mode a continuous force takes effect on the next TBCLK edge after a shadow load into the active register" "0,1,2,3" line.word 0x10 "EPWM_REGS_DBCTL,Dead-Band Generator Control Register" bitfld.word 0x10 4.--5. "IN_MODE,Dead Band Input Mode Control Bit 5 controls the S5 switch and bit 4 controls the S4 switch This allows you to select the input source to the falling-edge and rising-edge delay To produce classical dead-band waveforms the default is EPWMxA In is.." "0,1,2,3" bitfld.word 0x10 2.--3. "POLSEL,Polarity Select Control Bit 3 controls the S3 switch and bit 2 controls the S2 switch This allows you to selectively invert one of the delayed signals before it is sent out of the dead-band submodule The following descriptions correspond to.." "0,1,2,3" bitfld.word 0x10 0.--1. "OUT_MODE,Dead-band Output Mode Control Bit 1 controls the S1 switch and bit 0 controls the S0 switch This allows you to selectively enable or bypass the dead-band generation for the falling-edge and rising-edge delay" "0,1,2,3" line.word 0x12 "EPWM_REGS_DBRED,Dead-Band Generator Rising Edge Delay Count Register" hexmask.word 0x12 0.--9. 1. "DEL,Rising Edge Delay Count 10 bit counter" line.word 0x14 "EPWM_REGS_DBFED,Dead-Band Generator Falling Edge Delay Count Register" hexmask.word 0x14 0.--9. 1. "DEL,Falling Edge Delay Count 10 bit counter" line.word 0x16 "EPWM_REGS_TZSEL,Trip Zone Select Register" hexmask.word.byte 0x16 8.--15. 1. "OSHTN,Trip-zone n [TZn] select One-Shot [OSHT] trip-zone enable/disable When any of the enabled pins go low a one-shot trip event occurs for this ePWM module When the event occurs the action defined in the TZCTL register is taken on the EPWMxA and.." hexmask.word.byte 0x16 0.--7. 1. "CBCN,Trip-zone n [TZn] select Cycle-by-Cycle [CBC] trip-zone enable/disable When any of the enabled pins go low a cycle-by-cycle trip event occurs for this ePWM module When the event occurs the action defined in the TZCTL register is taken on the.." group.word 0x28++0x3 line.word 0x0 "EPWM_REGS_TZCTL,Trip Zone Control Register" bitfld.word 0x0 2.--3. "TZB,When a trip event occurs the following action is taken on output EPWMxB Which trip-zone pins can cause an event is defined in the TZSEL register" "0,1,2,3" bitfld.word 0x0 0.--1. "TZA,When a trip event occurs the following action is taken on output EPWMxA Which trip-zone pins can cause an event is defined in the TZSEL register" "0,1,2,3" line.word 0x2 "EPWM_REGS_TZEINT,Trip Zone Enable Interrupt Register" bitfld.word 0x2 2. "OST,Trip-zone One-Shot Interrupt Enable" "0,1" bitfld.word 0x2 1. "CBC,Trip-zone Cycle-by-Cycle Interrupt Enable" "0,1" rgroup.word 0x2C++0x1 line.word 0x0 "EPWM_REGS_TZFLG,Trip Zone Flag Register" bitfld.word 0x0 2. "OST,Latched Status Flag for A One-Shot Trip Event" "0,1" bitfld.word 0x0 1. "CBC,Latched Status Flag for Cycle-By-Cycle Trip Event" "0,1" bitfld.word 0x0 0. "INT,Latched Trip Interrupt Status Flag" "0,1" group.word 0x2E++0x7 line.word 0x0 "EPWM_REGS_TZCLR,Trip Zone Clear Register" bitfld.word 0x0 2. "OST,Clear Flag for One-Shot Trip [OST] Latch" "0,1" bitfld.word 0x0 1. "CBC,Clear Flag for Cycle-By-Cycle [CBC] Trip Latch" "0,1" bitfld.word 0x0 0. "INT,Global Interrupt Clear Flag" "0,1" line.word 0x2 "EPWM_REGS_TZFRC,Trip Zone Force Register" bitfld.word 0x2 2. "OST,Force a One-Shot Trip Event via Software" "0,1" bitfld.word 0x2 1. "CBC,Force a Cycle-by-Cycle Trip Event via Software" "0,1" line.word 0x4 "EPWM_REGS_ETSEL,Event Trigger Selection Register" bitfld.word 0x4 3. "INTEN,Enable ePWM Interrupt [EPWMx_INT] Generation" "0,1" bitfld.word 0x4 0.--2. "INTSEL,ePWM Interrupt [EPWMx_INT] Selection Options" "0,1,2,3,4,5,6,7" line.word 0x6 "EPWM_REGS_ETPS,Event Trigger Pre-Scale Register" rbitfld.word 0x6 2.--3. "INTCNT,ePWM Interrupt Event [EPWMx_INT] Counter Register These bits indicate how many selected ETSEL[INTSEL] events have occurred These bits are automatically cleared when an interrupt pulse is generated If interrupts are disabled ETSEL[INT] = 0 or the.." "0,1,2,3" bitfld.word 0x6 0.--1. "INTPRD,ePWM Interrupt [EPWMx_INT] Period Select These bits determine how many selected ETSEL[INTSEL] events need to occur before an interrupt is generated To be generated the interrupt must be enabled [ETSEL[INT] = 1] If the interrupt status flag is set.." "0,1,2,3" rgroup.word 0x36++0x5 line.word 0x0 "EPWM_REGS_ETFLG,Event Trigger Flag Register" bitfld.word 0x0 0. "INT,Latched ePWM Interrupt [EPWMx_INT] Status Flag" "0,1" line.word 0x2 "EPWM_REGS_ETCLR,Event Trigger Clear Register" bitfld.word 0x2 0. "INT,ePWM Interrupt [EPWMx_INT] Flag Clear Bit" "0,1" line.word 0x4 "EPWM_REGS_ETFRC,Event Trigger Force Register" bitfld.word 0x4 0. "INT,INT Force Bit The interrupt will only be generated if the event is enabled in the ETSEL register The INT flag bit will be set regardless" "0,1" group.word 0x3C++0x1 line.word 0x0 "EPWM_REGS_PCCTL,PWM Chopper Control Register" bitfld.word 0x0 8.--10. "CHPDUTY,Chopping Clock Duty Cycle" "0,1,2,3,4,5,6,7" bitfld.word 0x0 5.--7. "CHPFREQ,Chopping Clock Frequency" "0,1,2,3,4,5,6,7" hexmask.word.byte 0x0 1.--4. 1. "OSHTWTH,One-Shot Pulse Width" bitfld.word 0x0 0. "CHPEN,PWM-chopping Enable" "0,1" rgroup.long 0x5C++0x3 line.long 0x0 "EPWM_REGS_PID,EHRPWM Peripheral ID Register. The IP revision register is used by software to track features. bugs. and compatibility." bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish between the old scheme and current" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,FUNC" hexmask.long.byte 0x0 11.--15. 1. "R_RTL,RTL version [R] maintained by IP design owner" bitfld.long 0x0 8.--10. "X_MAJOR,Major revision [X]" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,CUSTOM" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "Y_MINOR,Minor revision [Y]" tree.end tree "EPWM1_EPWM (EPWM1_EPWM)" base ad:0x23010000 group.word 0x0++0xB line.word 0x0 "EPWM_REGS_TBCTL,Time-Base Control Register" bitfld.word 0x0 14.--15. "FREE_SOFT,Emulation Mode Bits These bits select the behavior of the ePWM time-base counter during emulation events:" "0,1,2,3" bitfld.word 0x0 13. "PHSDIR,Phase Direction Bit This bit is only used when the time-base counter is configured in the up-down-count mode The PHSDIR bit indicates the direction the time-base counter [TBCNT] will count after a synchronization event occurs and a new phase value.." "0,1" bitfld.word 0x0 10.--12. "CLKDIV,Time-base Clock Prescale Bits These bits determine part of the time-base clock prescale value TBCLK = SYSCLKOUT/[HSPCLKDIV - CLKDIV]" "0,1,2,3,4,5,6,7" bitfld.word 0x0 7.--9. "HSPCLKDIV,High-Speed Time-base Clock Prescale Bits These bits determine part of the time-base clock prescale value TBCLK = SYSCLKOUT/[HSPCLKDIV - CLKDIV] This divisor emulates the HSPCLK in the TMS320x281x system as used on the Event Manager [EV].." "0,1,2,3,4,5,6,7" bitfld.word 0x0 6. "SWFSYNC,Software Forced Synchronization Pulse" "0,1" bitfld.word 0x0 4.--5. "SYNCOSEL,Synchronization Output Select These bits select the source of the EPWMxSYNCO signal" "0,1,2,3" bitfld.word 0x0 3. "PRDLD,Active Period Register Load From Shadow Register Select" "0,1" bitfld.word 0x0 2. "PHSEN,Counter Register Load From Phase Register Enable" "0,1" bitfld.word 0x0 0.--1. "CTRMODE,Counter Mode The time-base counter mode is normally configured once and not changed during normal operation If you change the mode of the counter the change will take effect at the next TBCLK edge and the current counter value shall increment or.." "0,1,2,3" line.word 0x2 "EPWM_REGS_TBSTS,Time-Base Status Register" bitfld.word 0x2 2. "CTRMAX,Time-Base Counter Max Latched Status Bit" "0,1" bitfld.word 0x2 1. "SYNCI,Input Synchronization Latched Status Bit" "0,1" rbitfld.word 0x2 0. "CTRDIR,Time-Base Counter Direction Status Bit At reset the counter is frozen therefore this bit has no meaning To make this bit meaningful you must first set the appropriate mode via TBCTL[CTRMODE]" "0,1" line.word 0x4 "EPWM_REGS_TBPHSHR,Time Base Phase High Resolution Register" hexmask.word.byte 0x4 8.--15. 1. "TBPHSH,Time-base phase high-resolution bits" line.word 0x6 "EPWM_REGS_TBPHS,Time Base Phase Register. This register is only available on ePWM instances that include the high-resolution PWM (HRPWM) extension. otherwise. this location is reserved." hexmask.word 0x6 0.--15. 1. "TBPHS,These bits set time-base counter phase of the selected ePWM relative to the time-base that is supplying the synchronization input signal [a] If TBCTL[PHSEN] = 0 then the synchronization event is ignored and the time-base counter is not loaded with.." line.word 0x8 "EPWM_REGS_TBCNT,Time Base Counter Register" hexmask.word 0x8 0.--15. 1. "TBCNT,Reading these bits gives the current time-base counter value Writing to these bits sets the current time-base counter value The update happens as soon as the write occurs The write is NOT synchronized to the time-base clock [TBCLK] and the register.." line.word 0xA "EPWM_REGS_TBPRD,Time Base Period Register" hexmask.word 0xA 0.--15. 1. "TBPRD,These bits determine the period of the time-base counter This sets the PWM frequency Shadowing of this register is enabled and disabled by the TBCTL[PRDLD] bit By default this register is shadowed [a] If TBCTL[PRDLD] = 0 then the shadow is enabled.." group.word 0xE++0x17 line.word 0x0 "EPWM_REGS_CMPCTL,Counter Compare Control Register" rbitfld.word 0x0 9. "SHDWBFULL,Counter-compare B [CMPB] Shadow Register Full Status Flag This bit self clears once a load-strobe occurs" "0,1" rbitfld.word 0x0 8. "SHDWAFULL,Counter-compare A [CMPA] Shadow Register Full Status Flag The flag bit is set when a 32 bit write to CMPA:CMPAHR register or a 16 bit write to CMPA register is made A 16 bit write to CMPAHR register will not affect the flag This bit self clears.." "0,1" bitfld.word 0x0 6. "SHDWBMODE,Counter-compare B [CMPB] Register Operating Mode" "0,1" bitfld.word 0x0 4. "SHDWAMODE,Counter-compare A [CMPA] Register Operating Mode" "0,1" bitfld.word 0x0 2.--3. "LOADBMODE,Active Counter-Compare B [CMPB] Load From Shadow Select Mode This bit has no effect in immediate mode [CMPCTL[SHDWBMODE] = 1]" "0,1,2,3" bitfld.word 0x0 0.--1. "LOADAMODE,Active Counter-Compare A [CMPA] Load From Shadow Select Mode This bit has no effect in immediate mode [CMPCTL[SHDWAMODE] = 1]" "0,1,2,3" line.word 0x2 "EPWM_REGS_CMPAHR,Counter Compare A High Resolution Register. This register is only available on ePWM instances that include the high-resolution PWM (HRPWM) extension; otherwise. this location is reserved." hexmask.word.byte 0x2 8.--15. 1. "CMPAHR,Compare A High-Resolution register bits for MEP step control A minimum value of 1h is needed to enable HRPWM capabilities Valid MEP range of operation 1-255h" line.word 0x4 "EPWM_REGS_CMPA,Counter Compare A Register" hexmask.word 0x4 0.--15. 1. "CMPA,The value in the active CMPA register is continuously compared to the time-base counter [TBCNT] When the values are equal the counter-compare module generates a time-base counter equal to counter compare A event This event is sent to the.." line.word 0x6 "EPWM_REGS_CMPB,Counter Compare B Register" hexmask.word 0x6 0.--15. 1. "CMPB,The value in the active CMPB register is continuously compared to the time-base counter [TBCNT] When the values are equal the counter-compare module generates a time-base counter equal to counter compare B event This event is sent to the.." line.word 0x8 "EPWM_REGS_AQCTLA,Action Qualifier Control Register For Output A" bitfld.word 0x8 10.--11. "CBD,Action when the time-base counter equals the active CMPB register and the counter is decrementing" "0,1,2,3" bitfld.word 0x8 8.--9. "CBU,Action when the counter equals the active CMPB register and the counter is incrementing" "0,1,2,3" bitfld.word 0x8 6.--7. "CAD,Action when the counter equals the active CMPA register and the counter is decrementing" "0,1,2,3" bitfld.word 0x8 4.--5. "CAU,Action when the counter equals the active CMPA register and the counter is incrementing" "0,1,2,3" bitfld.word 0x8 2.--3. "PRD,Action when the counter equals the period Note: By definition in count up-down mode when the counter equals period the direction is defined as 0 or counting down" "0,1,2,3" bitfld.word 0x8 0.--1. "ZRO,Action when counter equals zero Note: By definition in count up-down mode when the counter equals 0 the direction is defined as 1 or counting up" "0,1,2,3" line.word 0xA "EPWM_REGS_AQCTLB,Action Qualifier Control Register For Output B" bitfld.word 0xA 10.--11. "CBD,Action when the counter equals the active CMPB register and the counter is decrementing" "0,1,2,3" bitfld.word 0xA 8.--9. "CBU,Action when the counter equals the active CMPB register and the counter is incrementing" "0,1,2,3" bitfld.word 0xA 6.--7. "CAD,Action when the counter equals the active CMPA register and the counter is decrementing" "0,1,2,3" bitfld.word 0xA 4.--5. "CAU,Action when the counter equals the active CMPA register and the counter is incrementing" "0,1,2,3" bitfld.word 0xA 2.--3. "PRD,Action when the counter equals the period Note: By definition in count up-down mode when the counter equals period the direction is defined as 0 or counting down" "0,1,2,3" bitfld.word 0xA 0.--1. "ZRO,Action when counter equals zero Note: By definition in count up-down mode when the counter equals 0 the direction is defined as 1 or counting up" "0,1,2,3" line.word 0xC "EPWM_REGS_AQSFRC,Action Qualifier Software Force Register" bitfld.word 0xC 6.--7. "RLDCSF,AQCSFRC Active Register Reload From Shadow Options" "0,1,2,3" bitfld.word 0xC 5. "OTSFB,One-Time Software Forced Event on Output B" "0,1" bitfld.word 0xC 3.--4. "ACTSFB,Action when One-Time Software Force B Is invoked" "0,1,2,3" bitfld.word 0xC 2. "OTSFA,One-Time Software Forced Event on Output A" "0,1" bitfld.word 0xC 0.--1. "ACTSFA,Action When One-Time Software Force A Is Invoked" "0,1,2,3" line.word 0xE "EPWM_REGS_AQCSFRC,Action Qualifier Continuous S/W Force Register" bitfld.word 0xE 2.--3. "CSFB,Continuous Software Force on Output B In immediate mode a continuous force takes effect on the next TBCLK edge In shadow mode a continuous force takes effect on the next TBCLK edge after a shadow load into the active register To configure shadow.." "0,1,2,3" bitfld.word 0xE 0.--1. "CSFA,Continuous Software Force on Output A In immediate mode a continuous force takes effect on the next TBCLK edge In shadow mode a continuous force takes effect on the next TBCLK edge after a shadow load into the active register" "0,1,2,3" line.word 0x10 "EPWM_REGS_DBCTL,Dead-Band Generator Control Register" bitfld.word 0x10 4.--5. "IN_MODE,Dead Band Input Mode Control Bit 5 controls the S5 switch and bit 4 controls the S4 switch This allows you to select the input source to the falling-edge and rising-edge delay To produce classical dead-band waveforms the default is EPWMxA In is.." "0,1,2,3" bitfld.word 0x10 2.--3. "POLSEL,Polarity Select Control Bit 3 controls the S3 switch and bit 2 controls the S2 switch This allows you to selectively invert one of the delayed signals before it is sent out of the dead-band submodule The following descriptions correspond to.." "0,1,2,3" bitfld.word 0x10 0.--1. "OUT_MODE,Dead-band Output Mode Control Bit 1 controls the S1 switch and bit 0 controls the S0 switch This allows you to selectively enable or bypass the dead-band generation for the falling-edge and rising-edge delay" "0,1,2,3" line.word 0x12 "EPWM_REGS_DBRED,Dead-Band Generator Rising Edge Delay Count Register" hexmask.word 0x12 0.--9. 1. "DEL,Rising Edge Delay Count 10 bit counter" line.word 0x14 "EPWM_REGS_DBFED,Dead-Band Generator Falling Edge Delay Count Register" hexmask.word 0x14 0.--9. 1. "DEL,Falling Edge Delay Count 10 bit counter" line.word 0x16 "EPWM_REGS_TZSEL,Trip Zone Select Register" hexmask.word.byte 0x16 8.--15. 1. "OSHTN,Trip-zone n [TZn] select One-Shot [OSHT] trip-zone enable/disable When any of the enabled pins go low a one-shot trip event occurs for this ePWM module When the event occurs the action defined in the TZCTL register is taken on the EPWMxA and.." hexmask.word.byte 0x16 0.--7. 1. "CBCN,Trip-zone n [TZn] select Cycle-by-Cycle [CBC] trip-zone enable/disable When any of the enabled pins go low a cycle-by-cycle trip event occurs for this ePWM module When the event occurs the action defined in the TZCTL register is taken on the.." group.word 0x28++0x3 line.word 0x0 "EPWM_REGS_TZCTL,Trip Zone Control Register" bitfld.word 0x0 2.--3. "TZB,When a trip event occurs the following action is taken on output EPWMxB Which trip-zone pins can cause an event is defined in the TZSEL register" "0,1,2,3" bitfld.word 0x0 0.--1. "TZA,When a trip event occurs the following action is taken on output EPWMxA Which trip-zone pins can cause an event is defined in the TZSEL register" "0,1,2,3" line.word 0x2 "EPWM_REGS_TZEINT,Trip Zone Enable Interrupt Register" bitfld.word 0x2 2. "OST,Trip-zone One-Shot Interrupt Enable" "0,1" bitfld.word 0x2 1. "CBC,Trip-zone Cycle-by-Cycle Interrupt Enable" "0,1" rgroup.word 0x2C++0x1 line.word 0x0 "EPWM_REGS_TZFLG,Trip Zone Flag Register" bitfld.word 0x0 2. "OST,Latched Status Flag for A One-Shot Trip Event" "0,1" bitfld.word 0x0 1. "CBC,Latched Status Flag for Cycle-By-Cycle Trip Event" "0,1" bitfld.word 0x0 0. "INT,Latched Trip Interrupt Status Flag" "0,1" group.word 0x2E++0x7 line.word 0x0 "EPWM_REGS_TZCLR,Trip Zone Clear Register" bitfld.word 0x0 2. "OST,Clear Flag for One-Shot Trip [OST] Latch" "0,1" bitfld.word 0x0 1. "CBC,Clear Flag for Cycle-By-Cycle [CBC] Trip Latch" "0,1" bitfld.word 0x0 0. "INT,Global Interrupt Clear Flag" "0,1" line.word 0x2 "EPWM_REGS_TZFRC,Trip Zone Force Register" bitfld.word 0x2 2. "OST,Force a One-Shot Trip Event via Software" "0,1" bitfld.word 0x2 1. "CBC,Force a Cycle-by-Cycle Trip Event via Software" "0,1" line.word 0x4 "EPWM_REGS_ETSEL,Event Trigger Selection Register" bitfld.word 0x4 3. "INTEN,Enable ePWM Interrupt [EPWMx_INT] Generation" "0,1" bitfld.word 0x4 0.--2. "INTSEL,ePWM Interrupt [EPWMx_INT] Selection Options" "0,1,2,3,4,5,6,7" line.word 0x6 "EPWM_REGS_ETPS,Event Trigger Pre-Scale Register" rbitfld.word 0x6 2.--3. "INTCNT,ePWM Interrupt Event [EPWMx_INT] Counter Register These bits indicate how many selected ETSEL[INTSEL] events have occurred These bits are automatically cleared when an interrupt pulse is generated If interrupts are disabled ETSEL[INT] = 0 or the.." "0,1,2,3" bitfld.word 0x6 0.--1. "INTPRD,ePWM Interrupt [EPWMx_INT] Period Select These bits determine how many selected ETSEL[INTSEL] events need to occur before an interrupt is generated To be generated the interrupt must be enabled [ETSEL[INT] = 1] If the interrupt status flag is set.." "0,1,2,3" rgroup.word 0x36++0x5 line.word 0x0 "EPWM_REGS_ETFLG,Event Trigger Flag Register" bitfld.word 0x0 0. "INT,Latched ePWM Interrupt [EPWMx_INT] Status Flag" "0,1" line.word 0x2 "EPWM_REGS_ETCLR,Event Trigger Clear Register" bitfld.word 0x2 0. "INT,ePWM Interrupt [EPWMx_INT] Flag Clear Bit" "0,1" line.word 0x4 "EPWM_REGS_ETFRC,Event Trigger Force Register" bitfld.word 0x4 0. "INT,INT Force Bit The interrupt will only be generated if the event is enabled in the ETSEL register The INT flag bit will be set regardless" "0,1" group.word 0x3C++0x1 line.word 0x0 "EPWM_REGS_PCCTL,PWM Chopper Control Register" bitfld.word 0x0 8.--10. "CHPDUTY,Chopping Clock Duty Cycle" "0,1,2,3,4,5,6,7" bitfld.word 0x0 5.--7. "CHPFREQ,Chopping Clock Frequency" "0,1,2,3,4,5,6,7" hexmask.word.byte 0x0 1.--4. 1. "OSHTWTH,One-Shot Pulse Width" bitfld.word 0x0 0. "CHPEN,PWM-chopping Enable" "0,1" rgroup.long 0x5C++0x3 line.long 0x0 "EPWM_REGS_PID,EHRPWM Peripheral ID Register. The IP revision register is used by software to track features. bugs. and compatibility." bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish between the old scheme and current" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,FUNC" hexmask.long.byte 0x0 11.--15. 1. "R_RTL,RTL version [R] maintained by IP design owner" bitfld.long 0x0 8.--10. "X_MAJOR,Major revision [X]" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,CUSTOM" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "Y_MINOR,Minor revision [Y]" tree.end tree "EPWM2_EPWM (EPWM2_EPWM)" base ad:0x23020000 group.word 0x0++0xB line.word 0x0 "EPWM_REGS_TBCTL,Time-Base Control Register" bitfld.word 0x0 14.--15. "FREE_SOFT,Emulation Mode Bits These bits select the behavior of the ePWM time-base counter during emulation events:" "0,1,2,3" bitfld.word 0x0 13. "PHSDIR,Phase Direction Bit This bit is only used when the time-base counter is configured in the up-down-count mode The PHSDIR bit indicates the direction the time-base counter [TBCNT] will count after a synchronization event occurs and a new phase value.." "0,1" bitfld.word 0x0 10.--12. "CLKDIV,Time-base Clock Prescale Bits These bits determine part of the time-base clock prescale value TBCLK = SYSCLKOUT/[HSPCLKDIV - CLKDIV]" "0,1,2,3,4,5,6,7" bitfld.word 0x0 7.--9. "HSPCLKDIV,High-Speed Time-base Clock Prescale Bits These bits determine part of the time-base clock prescale value TBCLK = SYSCLKOUT/[HSPCLKDIV - CLKDIV] This divisor emulates the HSPCLK in the TMS320x281x system as used on the Event Manager [EV].." "0,1,2,3,4,5,6,7" bitfld.word 0x0 6. "SWFSYNC,Software Forced Synchronization Pulse" "0,1" bitfld.word 0x0 4.--5. "SYNCOSEL,Synchronization Output Select These bits select the source of the EPWMxSYNCO signal" "0,1,2,3" bitfld.word 0x0 3. "PRDLD,Active Period Register Load From Shadow Register Select" "0,1" bitfld.word 0x0 2. "PHSEN,Counter Register Load From Phase Register Enable" "0,1" bitfld.word 0x0 0.--1. "CTRMODE,Counter Mode The time-base counter mode is normally configured once and not changed during normal operation If you change the mode of the counter the change will take effect at the next TBCLK edge and the current counter value shall increment or.." "0,1,2,3" line.word 0x2 "EPWM_REGS_TBSTS,Time-Base Status Register" bitfld.word 0x2 2. "CTRMAX,Time-Base Counter Max Latched Status Bit" "0,1" bitfld.word 0x2 1. "SYNCI,Input Synchronization Latched Status Bit" "0,1" rbitfld.word 0x2 0. "CTRDIR,Time-Base Counter Direction Status Bit At reset the counter is frozen therefore this bit has no meaning To make this bit meaningful you must first set the appropriate mode via TBCTL[CTRMODE]" "0,1" line.word 0x4 "EPWM_REGS_TBPHSHR,Time Base Phase High Resolution Register" hexmask.word.byte 0x4 8.--15. 1. "TBPHSH,Time-base phase high-resolution bits" line.word 0x6 "EPWM_REGS_TBPHS,Time Base Phase Register. This register is only available on ePWM instances that include the high-resolution PWM (HRPWM) extension. otherwise. this location is reserved." hexmask.word 0x6 0.--15. 1. "TBPHS,These bits set time-base counter phase of the selected ePWM relative to the time-base that is supplying the synchronization input signal [a] If TBCTL[PHSEN] = 0 then the synchronization event is ignored and the time-base counter is not loaded with.." line.word 0x8 "EPWM_REGS_TBCNT,Time Base Counter Register" hexmask.word 0x8 0.--15. 1. "TBCNT,Reading these bits gives the current time-base counter value Writing to these bits sets the current time-base counter value The update happens as soon as the write occurs The write is NOT synchronized to the time-base clock [TBCLK] and the register.." line.word 0xA "EPWM_REGS_TBPRD,Time Base Period Register" hexmask.word 0xA 0.--15. 1. "TBPRD,These bits determine the period of the time-base counter This sets the PWM frequency Shadowing of this register is enabled and disabled by the TBCTL[PRDLD] bit By default this register is shadowed [a] If TBCTL[PRDLD] = 0 then the shadow is enabled.." group.word 0xE++0x17 line.word 0x0 "EPWM_REGS_CMPCTL,Counter Compare Control Register" rbitfld.word 0x0 9. "SHDWBFULL,Counter-compare B [CMPB] Shadow Register Full Status Flag This bit self clears once a load-strobe occurs" "0,1" rbitfld.word 0x0 8. "SHDWAFULL,Counter-compare A [CMPA] Shadow Register Full Status Flag The flag bit is set when a 32 bit write to CMPA:CMPAHR register or a 16 bit write to CMPA register is made A 16 bit write to CMPAHR register will not affect the flag This bit self clears.." "0,1" bitfld.word 0x0 6. "SHDWBMODE,Counter-compare B [CMPB] Register Operating Mode" "0,1" bitfld.word 0x0 4. "SHDWAMODE,Counter-compare A [CMPA] Register Operating Mode" "0,1" bitfld.word 0x0 2.--3. "LOADBMODE,Active Counter-Compare B [CMPB] Load From Shadow Select Mode This bit has no effect in immediate mode [CMPCTL[SHDWBMODE] = 1]" "0,1,2,3" bitfld.word 0x0 0.--1. "LOADAMODE,Active Counter-Compare A [CMPA] Load From Shadow Select Mode This bit has no effect in immediate mode [CMPCTL[SHDWAMODE] = 1]" "0,1,2,3" line.word 0x2 "EPWM_REGS_CMPAHR,Counter Compare A High Resolution Register. This register is only available on ePWM instances that include the high-resolution PWM (HRPWM) extension; otherwise. this location is reserved." hexmask.word.byte 0x2 8.--15. 1. "CMPAHR,Compare A High-Resolution register bits for MEP step control A minimum value of 1h is needed to enable HRPWM capabilities Valid MEP range of operation 1-255h" line.word 0x4 "EPWM_REGS_CMPA,Counter Compare A Register" hexmask.word 0x4 0.--15. 1. "CMPA,The value in the active CMPA register is continuously compared to the time-base counter [TBCNT] When the values are equal the counter-compare module generates a time-base counter equal to counter compare A event This event is sent to the.." line.word 0x6 "EPWM_REGS_CMPB,Counter Compare B Register" hexmask.word 0x6 0.--15. 1. "CMPB,The value in the active CMPB register is continuously compared to the time-base counter [TBCNT] When the values are equal the counter-compare module generates a time-base counter equal to counter compare B event This event is sent to the.." line.word 0x8 "EPWM_REGS_AQCTLA,Action Qualifier Control Register For Output A" bitfld.word 0x8 10.--11. "CBD,Action when the time-base counter equals the active CMPB register and the counter is decrementing" "0,1,2,3" bitfld.word 0x8 8.--9. "CBU,Action when the counter equals the active CMPB register and the counter is incrementing" "0,1,2,3" bitfld.word 0x8 6.--7. "CAD,Action when the counter equals the active CMPA register and the counter is decrementing" "0,1,2,3" bitfld.word 0x8 4.--5. "CAU,Action when the counter equals the active CMPA register and the counter is incrementing" "0,1,2,3" bitfld.word 0x8 2.--3. "PRD,Action when the counter equals the period Note: By definition in count up-down mode when the counter equals period the direction is defined as 0 or counting down" "0,1,2,3" bitfld.word 0x8 0.--1. "ZRO,Action when counter equals zero Note: By definition in count up-down mode when the counter equals 0 the direction is defined as 1 or counting up" "0,1,2,3" line.word 0xA "EPWM_REGS_AQCTLB,Action Qualifier Control Register For Output B" bitfld.word 0xA 10.--11. "CBD,Action when the counter equals the active CMPB register and the counter is decrementing" "0,1,2,3" bitfld.word 0xA 8.--9. "CBU,Action when the counter equals the active CMPB register and the counter is incrementing" "0,1,2,3" bitfld.word 0xA 6.--7. "CAD,Action when the counter equals the active CMPA register and the counter is decrementing" "0,1,2,3" bitfld.word 0xA 4.--5. "CAU,Action when the counter equals the active CMPA register and the counter is incrementing" "0,1,2,3" bitfld.word 0xA 2.--3. "PRD,Action when the counter equals the period Note: By definition in count up-down mode when the counter equals period the direction is defined as 0 or counting down" "0,1,2,3" bitfld.word 0xA 0.--1. "ZRO,Action when counter equals zero Note: By definition in count up-down mode when the counter equals 0 the direction is defined as 1 or counting up" "0,1,2,3" line.word 0xC "EPWM_REGS_AQSFRC,Action Qualifier Software Force Register" bitfld.word 0xC 6.--7. "RLDCSF,AQCSFRC Active Register Reload From Shadow Options" "0,1,2,3" bitfld.word 0xC 5. "OTSFB,One-Time Software Forced Event on Output B" "0,1" bitfld.word 0xC 3.--4. "ACTSFB,Action when One-Time Software Force B Is invoked" "0,1,2,3" bitfld.word 0xC 2. "OTSFA,One-Time Software Forced Event on Output A" "0,1" bitfld.word 0xC 0.--1. "ACTSFA,Action When One-Time Software Force A Is Invoked" "0,1,2,3" line.word 0xE "EPWM_REGS_AQCSFRC,Action Qualifier Continuous S/W Force Register" bitfld.word 0xE 2.--3. "CSFB,Continuous Software Force on Output B In immediate mode a continuous force takes effect on the next TBCLK edge In shadow mode a continuous force takes effect on the next TBCLK edge after a shadow load into the active register To configure shadow.." "0,1,2,3" bitfld.word 0xE 0.--1. "CSFA,Continuous Software Force on Output A In immediate mode a continuous force takes effect on the next TBCLK edge In shadow mode a continuous force takes effect on the next TBCLK edge after a shadow load into the active register" "0,1,2,3" line.word 0x10 "EPWM_REGS_DBCTL,Dead-Band Generator Control Register" bitfld.word 0x10 4.--5. "IN_MODE,Dead Band Input Mode Control Bit 5 controls the S5 switch and bit 4 controls the S4 switch This allows you to select the input source to the falling-edge and rising-edge delay To produce classical dead-band waveforms the default is EPWMxA In is.." "0,1,2,3" bitfld.word 0x10 2.--3. "POLSEL,Polarity Select Control Bit 3 controls the S3 switch and bit 2 controls the S2 switch This allows you to selectively invert one of the delayed signals before it is sent out of the dead-band submodule The following descriptions correspond to.." "0,1,2,3" bitfld.word 0x10 0.--1. "OUT_MODE,Dead-band Output Mode Control Bit 1 controls the S1 switch and bit 0 controls the S0 switch This allows you to selectively enable or bypass the dead-band generation for the falling-edge and rising-edge delay" "0,1,2,3" line.word 0x12 "EPWM_REGS_DBRED,Dead-Band Generator Rising Edge Delay Count Register" hexmask.word 0x12 0.--9. 1. "DEL,Rising Edge Delay Count 10 bit counter" line.word 0x14 "EPWM_REGS_DBFED,Dead-Band Generator Falling Edge Delay Count Register" hexmask.word 0x14 0.--9. 1. "DEL,Falling Edge Delay Count 10 bit counter" line.word 0x16 "EPWM_REGS_TZSEL,Trip Zone Select Register" hexmask.word.byte 0x16 8.--15. 1. "OSHTN,Trip-zone n [TZn] select One-Shot [OSHT] trip-zone enable/disable When any of the enabled pins go low a one-shot trip event occurs for this ePWM module When the event occurs the action defined in the TZCTL register is taken on the EPWMxA and.." hexmask.word.byte 0x16 0.--7. 1. "CBCN,Trip-zone n [TZn] select Cycle-by-Cycle [CBC] trip-zone enable/disable When any of the enabled pins go low a cycle-by-cycle trip event occurs for this ePWM module When the event occurs the action defined in the TZCTL register is taken on the.." group.word 0x28++0x3 line.word 0x0 "EPWM_REGS_TZCTL,Trip Zone Control Register" bitfld.word 0x0 2.--3. "TZB,When a trip event occurs the following action is taken on output EPWMxB Which trip-zone pins can cause an event is defined in the TZSEL register" "0,1,2,3" bitfld.word 0x0 0.--1. "TZA,When a trip event occurs the following action is taken on output EPWMxA Which trip-zone pins can cause an event is defined in the TZSEL register" "0,1,2,3" line.word 0x2 "EPWM_REGS_TZEINT,Trip Zone Enable Interrupt Register" bitfld.word 0x2 2. "OST,Trip-zone One-Shot Interrupt Enable" "0,1" bitfld.word 0x2 1. "CBC,Trip-zone Cycle-by-Cycle Interrupt Enable" "0,1" rgroup.word 0x2C++0x1 line.word 0x0 "EPWM_REGS_TZFLG,Trip Zone Flag Register" bitfld.word 0x0 2. "OST,Latched Status Flag for A One-Shot Trip Event" "0,1" bitfld.word 0x0 1. "CBC,Latched Status Flag for Cycle-By-Cycle Trip Event" "0,1" bitfld.word 0x0 0. "INT,Latched Trip Interrupt Status Flag" "0,1" group.word 0x2E++0x7 line.word 0x0 "EPWM_REGS_TZCLR,Trip Zone Clear Register" bitfld.word 0x0 2. "OST,Clear Flag for One-Shot Trip [OST] Latch" "0,1" bitfld.word 0x0 1. "CBC,Clear Flag for Cycle-By-Cycle [CBC] Trip Latch" "0,1" bitfld.word 0x0 0. "INT,Global Interrupt Clear Flag" "0,1" line.word 0x2 "EPWM_REGS_TZFRC,Trip Zone Force Register" bitfld.word 0x2 2. "OST,Force a One-Shot Trip Event via Software" "0,1" bitfld.word 0x2 1. "CBC,Force a Cycle-by-Cycle Trip Event via Software" "0,1" line.word 0x4 "EPWM_REGS_ETSEL,Event Trigger Selection Register" bitfld.word 0x4 3. "INTEN,Enable ePWM Interrupt [EPWMx_INT] Generation" "0,1" bitfld.word 0x4 0.--2. "INTSEL,ePWM Interrupt [EPWMx_INT] Selection Options" "0,1,2,3,4,5,6,7" line.word 0x6 "EPWM_REGS_ETPS,Event Trigger Pre-Scale Register" rbitfld.word 0x6 2.--3. "INTCNT,ePWM Interrupt Event [EPWMx_INT] Counter Register These bits indicate how many selected ETSEL[INTSEL] events have occurred These bits are automatically cleared when an interrupt pulse is generated If interrupts are disabled ETSEL[INT] = 0 or the.." "0,1,2,3" bitfld.word 0x6 0.--1. "INTPRD,ePWM Interrupt [EPWMx_INT] Period Select These bits determine how many selected ETSEL[INTSEL] events need to occur before an interrupt is generated To be generated the interrupt must be enabled [ETSEL[INT] = 1] If the interrupt status flag is set.." "0,1,2,3" rgroup.word 0x36++0x5 line.word 0x0 "EPWM_REGS_ETFLG,Event Trigger Flag Register" bitfld.word 0x0 0. "INT,Latched ePWM Interrupt [EPWMx_INT] Status Flag" "0,1" line.word 0x2 "EPWM_REGS_ETCLR,Event Trigger Clear Register" bitfld.word 0x2 0. "INT,ePWM Interrupt [EPWMx_INT] Flag Clear Bit" "0,1" line.word 0x4 "EPWM_REGS_ETFRC,Event Trigger Force Register" bitfld.word 0x4 0. "INT,INT Force Bit The interrupt will only be generated if the event is enabled in the ETSEL register The INT flag bit will be set regardless" "0,1" group.word 0x3C++0x1 line.word 0x0 "EPWM_REGS_PCCTL,PWM Chopper Control Register" bitfld.word 0x0 8.--10. "CHPDUTY,Chopping Clock Duty Cycle" "0,1,2,3,4,5,6,7" bitfld.word 0x0 5.--7. "CHPFREQ,Chopping Clock Frequency" "0,1,2,3,4,5,6,7" hexmask.word.byte 0x0 1.--4. 1. "OSHTWTH,One-Shot Pulse Width" bitfld.word 0x0 0. "CHPEN,PWM-chopping Enable" "0,1" rgroup.long 0x5C++0x3 line.long 0x0 "EPWM_REGS_PID,EHRPWM Peripheral ID Register. The IP revision register is used by software to track features. bugs. and compatibility." bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish between the old scheme and current" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,FUNC" hexmask.long.byte 0x0 11.--15. 1. "R_RTL,RTL version [R] maintained by IP design owner" bitfld.long 0x0 8.--10. "X_MAJOR,Major revision [X]" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,CUSTOM" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "Y_MINOR,Minor revision [Y]" tree.end tree.end tree "EQEP" base ad:0x0 tree "EQEP0_REG (EQEP0_REG)" base ad:0x23200000 group.long 0x0++0xF line.long 0x0 "REG_QPOSCNT,Position Counter" hexmask.long 0x0 0.--31. 1. "QPOSCNT,Position Counter This 32-bit position counter register counts up/down on every eQEP pulse based on direction input. This counter acts as a position integrator whose count value is proportional to position from a give reference point. This.." line.long 0x4 "REG_QPOSINIT,Position Counter Init" hexmask.long 0x4 0.--31. 1. "QPOSINIT,Position Counter InitThis register contains the position value that is used to initialize the position counter based on external strobe or index event. The position counter can be initialized through software. Writes to this register should.." line.long 0x8 "REG_QPOSMAX,Maximum Position Count" hexmask.long 0x8 0.--31. 1. "QPOSMAX,Maximum Position CountThis register contains the maximum position counter value. Writes to this register should always be full 32-bit writes." line.long 0xC "REG_QPOSCMP,Position Compare" hexmask.long 0xC 0.--31. 1. "QPOSCMP,Position Compare The position-compare value in this register is compared with the position counter [QPOSCNT] to generate sync output and/or interrupt on compare match." rgroup.long 0x10++0xB line.long 0x0 "REG_QPOSILAT,Index Position Latch" hexmask.long 0x0 0.--31. 1. "QPOSILAT,Index Position Latch The position-counter value is latched into this register on an index event as defined by the QEPCTL[IEL] bits." line.long 0x4 "REG_QPOSSLAT,Strobe Position Latch" hexmask.long 0x4 0.--31. 1. "QPOSSLAT,Strobe Position Latch The position-counter value is latched into this register on a strobe event as defined by the QEPCTL[SEL] bits." line.long 0x8 "REG_QPOSLAT,Position Latch" hexmask.long 0x8 0.--31. 1. "QPOSLAT,Position Latch The position-counter value is latched into this register on a unit time out event." group.long 0x1C++0x7 line.long 0x0 "REG_QUTMR,QEP Unit Timer" hexmask.long 0x0 0.--31. 1. "QUTMR,QEP Unit TimerThis register acts as time base for unit time event generation. When this timer value matches the unit time period value a unit time event is generated." line.long 0x4 "REG_QUPRD,QEP Unit Period" hexmask.long 0x4 0.--31. 1. "QUPRD,QEP Unit PeriodThis register contains the period count for the unit timer to generate periodic unit time events. These events latch the eQEP position information at periodic intervals and optionally generate an interrupt. Writes to this register.." group.word 0x24++0xD line.word 0x0 "REG_QWDTMR,QEP Watchdog Timer" hexmask.word 0x0 0.--15. 1. "QWDTMR,QEP Watchdog Timer This register acts as time base for the watchdog to detect motor stalls. When this timer value matches with the watchdog's period value a watchdog timeout interrupt is generated. This register is reset upon edge transition in.." line.word 0x2 "REG_QWDPRD,QEP Watchdog Period" hexmask.word 0x2 0.--15. 1. "QWDPRD,QEP Watchdog Period This register contains the time-out count for the eQEP peripheral watch dog timer.When the watchdog timer value matches the watchdog period value a watchdog timeout interrupt is generated." line.word 0x4 "REG_QDECCTL_TYPE2,Quadrature Decoder Control" bitfld.word 0x4 14.--15. "QSRC,Position-counter source selection" "0,1,2,3" bitfld.word 0x4 13. "SOEN,Sync output-enable" "0,1" bitfld.word 0x4 12. "SPSEL,Sync output pin selection" "0,1" bitfld.word 0x4 11. "XCR,External Clock Rate" "0,1" bitfld.word 0x4 10. "SWAP,CLK/DIR Signal Source for Position Counter" "0,1" newline bitfld.word 0x4 9. "IGATE,Index pulse gating option" "0,1" bitfld.word 0x4 8. "QAP,QEPA input polarity" "0,1" bitfld.word 0x4 7. "QBP,QEPB input polarity" "0,1" bitfld.word 0x4 6. "QIP,QEPI input polarity" "0,1" bitfld.word 0x4 5. "QSP,QEPS input polarity" "0,1" newline bitfld.word 0x4 0. "QIDIRE,0 - Compatible mode Behavior same as existing devices1 - Enhancement for Direction change during Index will be enabled" "0,1" line.word 0x6 "REG_QEPCTL,QEP Control" bitfld.word 0x6 14.--15. "FREE_SOFT,Emulation mode" "0,1,2,3" bitfld.word 0x6 12.--13. "PCRM,Postion counter reset" "0,1,2,3" bitfld.word 0x6 10.--11. "SEI,Strobe event initialization of position counter" "0,1,2,3" bitfld.word 0x6 8.--9. "IEI,Index event init of position count" "0,1,2,3" bitfld.word 0x6 7. "SWI,Software init position counter" "0,1" newline bitfld.word 0x6 6. "SEL,Strobe event latch of position counter" "0,1" bitfld.word 0x6 4.--5. "IEL,Index event latch of position counter [software index marker]" "0,1,2,3" bitfld.word 0x6 3. "QPEN,Quadrature position counter enable/software reset" "0,1" bitfld.word 0x6 2. "QCLM,QEP capture latch mode" "0,1" bitfld.word 0x6 1. "UTE,QEP unit timer enable" "0,1" newline bitfld.word 0x6 0. "WDE,QEP watchdog enable" "0,1" line.word 0x8 "REG_QCAPCTL,Qaudrature Capture Control" bitfld.word 0x8 15. "CEN,Enable eQEP capture" "0,1" bitfld.word 0x8 4.--6. "CCPS,eQEP capture timer clock prescaler" "0,1,2,3,4,5,6,7" hexmask.word.byte 0x8 0.--3. 1. "UPPS,Unit position event prescaler" line.word 0xA "REG_QPOSCTL,Position Compare Control" bitfld.word 0xA 15. "PCSHDW,Position compare of shadow enable" "0,1" bitfld.word 0xA 14. "PCLOAD,Position compare of shadow load" "0,1" bitfld.word 0xA 13. "PCPOL,Polarity of sync output" "0,1" bitfld.word 0xA 12. "PCE,Position compare enable/disable" "0,1" hexmask.word 0xA 0.--11. 1. "PCSPW,Select-position-compare sync output pulse width" line.word 0xC "REG_QEINT_TYPE1,QEP Interrupt Control" bitfld.word 0xC 12. "QMAE,QMA Error Interrupt enable" "0,1" bitfld.word 0xC 11. "UTO,Unit time out interrupt enable" "0,1" bitfld.word 0xC 10. "IEL,Index event latch interrupt enable" "0,1" bitfld.word 0xC 9. "SEL,Strobe event latch interrupt enable" "0,1" bitfld.word 0xC 8. "PCM,Position-compare match interrupt enable" "0,1" newline bitfld.word 0xC 7. "PCR,Position-compare ready interrupt enable" "0,1" bitfld.word 0xC 6. "PCO,Position counter overflow interrupt enable" "0,1" bitfld.word 0xC 5. "PCU,Position counter underflow interrupt enable" "0,1" bitfld.word 0xC 4. "WTO,Watchdog time out interrupt enable" "0,1" bitfld.word 0xC 3. "QDC,Quadrature direction change interrupt enable" "0,1" newline bitfld.word 0xC 2. "QPE,Quadrature phase error interrupt enable" "0,1" bitfld.word 0xC 1. "PCE,Position counter error interrupt enable" "0,1" rgroup.word 0x32++0x1 line.word 0x0 "REG_QFLG_TYPE1,QEP Interrupt Flag" bitfld.word 0x0 12. "QMAE,QMA Error interrupt flag" "0,1" bitfld.word 0x0 11. "UTO,Unit time out interrupt flag" "0,1" bitfld.word 0x0 10. "IEL,Index event latch interrupt flag" "0,1" bitfld.word 0x0 9. "SEL,Strobe event latch interrupt flag" "0,1" bitfld.word 0x0 8. "PCM,eQEP compare match event interrupt flag" "0,1" newline bitfld.word 0x0 7. "PCR,Position-compare ready interrupt flag" "0,1" bitfld.word 0x0 6. "PCO,Position counter overflow interrupt flag" "0,1" bitfld.word 0x0 5. "PCU,Position counter underflow interrupt flag" "0,1" bitfld.word 0x0 4. "WTO,Watchdog timeout interrupt flag" "0,1" bitfld.word 0x0 3. "QDC,Quadrature direction change interrupt flag" "0,1" newline bitfld.word 0x0 2. "PHE,Quadrature phase error interrupt flag" "0,1" bitfld.word 0x0 1. "PCE,Position counter error interrupt flag" "0,1" bitfld.word 0x0 0. "INT,Global interrupt status flag" "0,1" group.word 0x34++0x9 line.word 0x0 "REG_QCLR_TYPE1,QEP Interrupt Clear" bitfld.word 0x0 12. "QMAE,Clear QMA Error interrupt flag" "0,1" bitfld.word 0x0 11. "UTO,Clear unit time out interrupt flag" "0,1" bitfld.word 0x0 10. "IEL,Clear index event latch interrupt flag" "0,1" bitfld.word 0x0 9. "SEL,Clear strobe event latch interrupt flag" "0,1" bitfld.word 0x0 8. "PCM,Clear eQEP compare match event interrupt flag" "0,1" newline bitfld.word 0x0 7. "PCR,Clear position-compare ready interrupt flag" "0,1" bitfld.word 0x0 6. "PCO,Clear position counter overflow interrupt flag" "0,1" bitfld.word 0x0 5. "PCU,Clear position counter underflow interrupt flag" "0,1" bitfld.word 0x0 4. "WTO,Clear watchdog timeout interrupt flag" "0,1" bitfld.word 0x0 3. "QDC,Clear quadrature direction change interrupt flag" "0,1" newline bitfld.word 0x0 2. "PHE,Clear quadrature phase error interrupt flag" "0,1" bitfld.word 0x0 1. "PCE,Clear position counter error interrupt flag" "0,1" bitfld.word 0x0 0. "INT,Global interrupt clear flag" "0,1" line.word 0x2 "REG_QFRC_TYPE1,QEP Interrupt Force" bitfld.word 0x2 12. "QMAE,Force QMA error interrupt" "0,1" bitfld.word 0x2 11. "UTO,Force unit time out interrupt" "0,1" bitfld.word 0x2 10. "IEL,Force index event latch interrupt" "0,1" bitfld.word 0x2 9. "SEL,Force strobe event latch interrupt" "0,1" bitfld.word 0x2 8. "PCM,Force position-compare match interrupt" "0,1" newline bitfld.word 0x2 7. "PCR,Force position-compare ready interrupt" "0,1" bitfld.word 0x2 6. "PCO,Force position counter overflow interrupt" "0,1" bitfld.word 0x2 5. "PCU,Force position counter underflow interrupt" "0,1" bitfld.word 0x2 4. "WTO,Force watchdog time out interrupt" "0,1" bitfld.word 0x2 3. "QDC,Force quadrature direction change interrupt" "0,1" newline bitfld.word 0x2 2. "PHE,Force quadrature phase error interrupt" "0,1" bitfld.word 0x2 1. "PCE,Force position counter error interrupt" "0,1" line.word 0x4 "REG_QEPSTS_TYPE1,QEP Status" bitfld.word 0x4 7. "UPEVNT,Unit position event flag" "0,1" rbitfld.word 0x4 6. "FIDF,Direction on the first index markerStatus of the direction is latched on the first index event marker." "0,1" rbitfld.word 0x4 5. "QDF,Quadrature direction flag" "0,1" rbitfld.word 0x4 4. "QDLF,eQEP direction latch flag" "0,1" bitfld.word 0x4 3. "COEF,Capture overflow error flag" "0,1" newline bitfld.word 0x4 2. "CDEF,Capture direction error flag" "0,1" bitfld.word 0x4 1. "FIMF,First index marker flag" "0,1" rbitfld.word 0x4 0. "PCEF,Position counter error flag. This bit is not sticky and it is updated for every index event." "0,1" line.word 0x6 "REG_QCTMR,QEP Capture Timer" hexmask.word 0x6 0.--15. 1. "QCTMR,This register provides time base for edge capture unit." line.word 0x8 "REG_QCPRD,QEP Capture Period" hexmask.word 0x8 0.--15. 1. "QCPRD,This register holds the period count value between the last successive eQEP position events" rgroup.word 0x3E++0x3 line.word 0x0 "REG_QCTMRLAT,QEP Capture Latch" hexmask.word 0x0 0.--15. 1. "QCTMRLAT,The eQEP capture timer value can be latched into this register on two events viz. unit timeout event reading the eQEP position counter." line.word 0x2 "REG_QCPRDLAT,QEP Capture Period Latch" hexmask.word 0x2 0.--15. 1. "QCPRDLAT,eQEP capture period value can be latched into this register on two events viz. unit timeout event reading the eQEP position counter." group.word 0x42++0x1 line.word 0x0 "REG_Reserved_1," rgroup.long 0x5C++0x7 line.long 0x0 "REG_PID," bitfld.long 0x0 30.--31. "SCHEME," "0,1,2,3" bitfld.long 0x0 28.--29. "RESERVED," "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION," hexmask.long.byte 0x0 11.--15. 1. "RTL," bitfld.long 0x0 8.--10. "MAJOR," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM," "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR," line.long 0x4 "REG_REV_TYPE2,QEP Revision Number" bitfld.long 0x4 3.--5. "MINOR,This field specifies the Minor Revision number for the eQEP IP." "0,1,2,3,4,5,6,7" bitfld.long 0x4 0.--2. "MAJOR,This field specifies the Major Revision number for the eQEP IP." "0,1,2,3,4,5,6,7" group.long 0x64++0xB line.long 0x0 "REG_QEPSTROBESEL,QEP Strobe select register" bitfld.long 0x0 0.--1. "STROBESEL,Strobe source select:" "0,1,2,3" line.long 0x4 "REG_QMACTRL,QMA Control register" bitfld.long 0x4 0.--2. "MODE,Select Mode for QMA mode:000 : QMA Module is bypassed. 001 : QMA Mode-1 operation selected010 : QMA Mode-2 operation selected011 : QMA Module is bypassed [reserved]1xx : QMA Module is bypassed [reserved]" "0: QMA Module is bypassed,1: QMA Mode-1 operation selected010 : QMA Mode-2..,?,?,?,?,?,?" line.long 0x8 "REG_QEPSRCSEL,QEP Source Select Register" hexmask.long.byte 0x8 12.--15. 1. "QEPSSEL,QEP Strobe source select:0000: From device Pins [Default].0001-1111: Device dependent." hexmask.long.byte 0x8 8.--11. 1. "QEPISEL,QEP Index source select:0000: From device Pins [Default].0001-1111: Device dependent." hexmask.long.byte 0x8 4.--7. 1. "QEPBSEL,QEPB source select:0000: From device Pins [Default].0001-1111: Device dependent." hexmask.long.byte 0x8 0.--3. 1. "QEPASEL,QEPA source select:0000: From device Pins [Default].0001-1111: Device dependent." group.word 0x70++0x1 line.word 0x0 "REG_Reserved_2," tree.end tree "EQEP1_REG (EQEP1_REG)" base ad:0x23210000 group.long 0x0++0xF line.long 0x0 "REG_QPOSCNT,Position Counter" hexmask.long 0x0 0.--31. 1. "QPOSCNT,Position Counter This 32-bit position counter register counts up/down on every eQEP pulse based on direction input. This counter acts as a position integrator whose count value is proportional to position from a give reference point. This.." line.long 0x4 "REG_QPOSINIT,Position Counter Init" hexmask.long 0x4 0.--31. 1. "QPOSINIT,Position Counter InitThis register contains the position value that is used to initialize the position counter based on external strobe or index event. The position counter can be initialized through software. Writes to this register should.." line.long 0x8 "REG_QPOSMAX,Maximum Position Count" hexmask.long 0x8 0.--31. 1. "QPOSMAX,Maximum Position CountThis register contains the maximum position counter value. Writes to this register should always be full 32-bit writes." line.long 0xC "REG_QPOSCMP,Position Compare" hexmask.long 0xC 0.--31. 1. "QPOSCMP,Position Compare The position-compare value in this register is compared with the position counter [QPOSCNT] to generate sync output and/or interrupt on compare match." rgroup.long 0x10++0xB line.long 0x0 "REG_QPOSILAT,Index Position Latch" hexmask.long 0x0 0.--31. 1. "QPOSILAT,Index Position Latch The position-counter value is latched into this register on an index event as defined by the QEPCTL[IEL] bits." line.long 0x4 "REG_QPOSSLAT,Strobe Position Latch" hexmask.long 0x4 0.--31. 1. "QPOSSLAT,Strobe Position Latch The position-counter value is latched into this register on a strobe event as defined by the QEPCTL[SEL] bits." line.long 0x8 "REG_QPOSLAT,Position Latch" hexmask.long 0x8 0.--31. 1. "QPOSLAT,Position Latch The position-counter value is latched into this register on a unit time out event." group.long 0x1C++0x7 line.long 0x0 "REG_QUTMR,QEP Unit Timer" hexmask.long 0x0 0.--31. 1. "QUTMR,QEP Unit TimerThis register acts as time base for unit time event generation. When this timer value matches the unit time period value a unit time event is generated." line.long 0x4 "REG_QUPRD,QEP Unit Period" hexmask.long 0x4 0.--31. 1. "QUPRD,QEP Unit PeriodThis register contains the period count for the unit timer to generate periodic unit time events. These events latch the eQEP position information at periodic intervals and optionally generate an interrupt. Writes to this register.." group.word 0x24++0xD line.word 0x0 "REG_QWDTMR,QEP Watchdog Timer" hexmask.word 0x0 0.--15. 1. "QWDTMR,QEP Watchdog Timer This register acts as time base for the watchdog to detect motor stalls. When this timer value matches with the watchdog's period value a watchdog timeout interrupt is generated. This register is reset upon edge transition in.." line.word 0x2 "REG_QWDPRD,QEP Watchdog Period" hexmask.word 0x2 0.--15. 1. "QWDPRD,QEP Watchdog Period This register contains the time-out count for the eQEP peripheral watch dog timer.When the watchdog timer value matches the watchdog period value a watchdog timeout interrupt is generated." line.word 0x4 "REG_QDECCTL_TYPE2,Quadrature Decoder Control" bitfld.word 0x4 14.--15. "QSRC,Position-counter source selection" "0,1,2,3" bitfld.word 0x4 13. "SOEN,Sync output-enable" "0,1" bitfld.word 0x4 12. "SPSEL,Sync output pin selection" "0,1" bitfld.word 0x4 11. "XCR,External Clock Rate" "0,1" bitfld.word 0x4 10. "SWAP,CLK/DIR Signal Source for Position Counter" "0,1" newline bitfld.word 0x4 9. "IGATE,Index pulse gating option" "0,1" bitfld.word 0x4 8. "QAP,QEPA input polarity" "0,1" bitfld.word 0x4 7. "QBP,QEPB input polarity" "0,1" bitfld.word 0x4 6. "QIP,QEPI input polarity" "0,1" bitfld.word 0x4 5. "QSP,QEPS input polarity" "0,1" newline bitfld.word 0x4 0. "QIDIRE,0 - Compatible mode Behavior same as existing devices1 - Enhancement for Direction change during Index will be enabled" "0,1" line.word 0x6 "REG_QEPCTL,QEP Control" bitfld.word 0x6 14.--15. "FREE_SOFT,Emulation mode" "0,1,2,3" bitfld.word 0x6 12.--13. "PCRM,Postion counter reset" "0,1,2,3" bitfld.word 0x6 10.--11. "SEI,Strobe event initialization of position counter" "0,1,2,3" bitfld.word 0x6 8.--9. "IEI,Index event init of position count" "0,1,2,3" bitfld.word 0x6 7. "SWI,Software init position counter" "0,1" newline bitfld.word 0x6 6. "SEL,Strobe event latch of position counter" "0,1" bitfld.word 0x6 4.--5. "IEL,Index event latch of position counter [software index marker]" "0,1,2,3" bitfld.word 0x6 3. "QPEN,Quadrature position counter enable/software reset" "0,1" bitfld.word 0x6 2. "QCLM,QEP capture latch mode" "0,1" bitfld.word 0x6 1. "UTE,QEP unit timer enable" "0,1" newline bitfld.word 0x6 0. "WDE,QEP watchdog enable" "0,1" line.word 0x8 "REG_QCAPCTL,Qaudrature Capture Control" bitfld.word 0x8 15. "CEN,Enable eQEP capture" "0,1" bitfld.word 0x8 4.--6. "CCPS,eQEP capture timer clock prescaler" "0,1,2,3,4,5,6,7" hexmask.word.byte 0x8 0.--3. 1. "UPPS,Unit position event prescaler" line.word 0xA "REG_QPOSCTL,Position Compare Control" bitfld.word 0xA 15. "PCSHDW,Position compare of shadow enable" "0,1" bitfld.word 0xA 14. "PCLOAD,Position compare of shadow load" "0,1" bitfld.word 0xA 13. "PCPOL,Polarity of sync output" "0,1" bitfld.word 0xA 12. "PCE,Position compare enable/disable" "0,1" hexmask.word 0xA 0.--11. 1. "PCSPW,Select-position-compare sync output pulse width" line.word 0xC "REG_QEINT_TYPE1,QEP Interrupt Control" bitfld.word 0xC 12. "QMAE,QMA Error Interrupt enable" "0,1" bitfld.word 0xC 11. "UTO,Unit time out interrupt enable" "0,1" bitfld.word 0xC 10. "IEL,Index event latch interrupt enable" "0,1" bitfld.word 0xC 9. "SEL,Strobe event latch interrupt enable" "0,1" bitfld.word 0xC 8. "PCM,Position-compare match interrupt enable" "0,1" newline bitfld.word 0xC 7. "PCR,Position-compare ready interrupt enable" "0,1" bitfld.word 0xC 6. "PCO,Position counter overflow interrupt enable" "0,1" bitfld.word 0xC 5. "PCU,Position counter underflow interrupt enable" "0,1" bitfld.word 0xC 4. "WTO,Watchdog time out interrupt enable" "0,1" bitfld.word 0xC 3. "QDC,Quadrature direction change interrupt enable" "0,1" newline bitfld.word 0xC 2. "QPE,Quadrature phase error interrupt enable" "0,1" bitfld.word 0xC 1. "PCE,Position counter error interrupt enable" "0,1" rgroup.word 0x32++0x1 line.word 0x0 "REG_QFLG_TYPE1,QEP Interrupt Flag" bitfld.word 0x0 12. "QMAE,QMA Error interrupt flag" "0,1" bitfld.word 0x0 11. "UTO,Unit time out interrupt flag" "0,1" bitfld.word 0x0 10. "IEL,Index event latch interrupt flag" "0,1" bitfld.word 0x0 9. "SEL,Strobe event latch interrupt flag" "0,1" bitfld.word 0x0 8. "PCM,eQEP compare match event interrupt flag" "0,1" newline bitfld.word 0x0 7. "PCR,Position-compare ready interrupt flag" "0,1" bitfld.word 0x0 6. "PCO,Position counter overflow interrupt flag" "0,1" bitfld.word 0x0 5. "PCU,Position counter underflow interrupt flag" "0,1" bitfld.word 0x0 4. "WTO,Watchdog timeout interrupt flag" "0,1" bitfld.word 0x0 3. "QDC,Quadrature direction change interrupt flag" "0,1" newline bitfld.word 0x0 2. "PHE,Quadrature phase error interrupt flag" "0,1" bitfld.word 0x0 1. "PCE,Position counter error interrupt flag" "0,1" bitfld.word 0x0 0. "INT,Global interrupt status flag" "0,1" group.word 0x34++0x9 line.word 0x0 "REG_QCLR_TYPE1,QEP Interrupt Clear" bitfld.word 0x0 12. "QMAE,Clear QMA Error interrupt flag" "0,1" bitfld.word 0x0 11. "UTO,Clear unit time out interrupt flag" "0,1" bitfld.word 0x0 10. "IEL,Clear index event latch interrupt flag" "0,1" bitfld.word 0x0 9. "SEL,Clear strobe event latch interrupt flag" "0,1" bitfld.word 0x0 8. "PCM,Clear eQEP compare match event interrupt flag" "0,1" newline bitfld.word 0x0 7. "PCR,Clear position-compare ready interrupt flag" "0,1" bitfld.word 0x0 6. "PCO,Clear position counter overflow interrupt flag" "0,1" bitfld.word 0x0 5. "PCU,Clear position counter underflow interrupt flag" "0,1" bitfld.word 0x0 4. "WTO,Clear watchdog timeout interrupt flag" "0,1" bitfld.word 0x0 3. "QDC,Clear quadrature direction change interrupt flag" "0,1" newline bitfld.word 0x0 2. "PHE,Clear quadrature phase error interrupt flag" "0,1" bitfld.word 0x0 1. "PCE,Clear position counter error interrupt flag" "0,1" bitfld.word 0x0 0. "INT,Global interrupt clear flag" "0,1" line.word 0x2 "REG_QFRC_TYPE1,QEP Interrupt Force" bitfld.word 0x2 12. "QMAE,Force QMA error interrupt" "0,1" bitfld.word 0x2 11. "UTO,Force unit time out interrupt" "0,1" bitfld.word 0x2 10. "IEL,Force index event latch interrupt" "0,1" bitfld.word 0x2 9. "SEL,Force strobe event latch interrupt" "0,1" bitfld.word 0x2 8. "PCM,Force position-compare match interrupt" "0,1" newline bitfld.word 0x2 7. "PCR,Force position-compare ready interrupt" "0,1" bitfld.word 0x2 6. "PCO,Force position counter overflow interrupt" "0,1" bitfld.word 0x2 5. "PCU,Force position counter underflow interrupt" "0,1" bitfld.word 0x2 4. "WTO,Force watchdog time out interrupt" "0,1" bitfld.word 0x2 3. "QDC,Force quadrature direction change interrupt" "0,1" newline bitfld.word 0x2 2. "PHE,Force quadrature phase error interrupt" "0,1" bitfld.word 0x2 1. "PCE,Force position counter error interrupt" "0,1" line.word 0x4 "REG_QEPSTS_TYPE1,QEP Status" bitfld.word 0x4 7. "UPEVNT,Unit position event flag" "0,1" rbitfld.word 0x4 6. "FIDF,Direction on the first index markerStatus of the direction is latched on the first index event marker." "0,1" rbitfld.word 0x4 5. "QDF,Quadrature direction flag" "0,1" rbitfld.word 0x4 4. "QDLF,eQEP direction latch flag" "0,1" bitfld.word 0x4 3. "COEF,Capture overflow error flag" "0,1" newline bitfld.word 0x4 2. "CDEF,Capture direction error flag" "0,1" bitfld.word 0x4 1. "FIMF,First index marker flag" "0,1" rbitfld.word 0x4 0. "PCEF,Position counter error flag. This bit is not sticky and it is updated for every index event." "0,1" line.word 0x6 "REG_QCTMR,QEP Capture Timer" hexmask.word 0x6 0.--15. 1. "QCTMR,This register provides time base for edge capture unit." line.word 0x8 "REG_QCPRD,QEP Capture Period" hexmask.word 0x8 0.--15. 1. "QCPRD,This register holds the period count value between the last successive eQEP position events" rgroup.word 0x3E++0x3 line.word 0x0 "REG_QCTMRLAT,QEP Capture Latch" hexmask.word 0x0 0.--15. 1. "QCTMRLAT,The eQEP capture timer value can be latched into this register on two events viz. unit timeout event reading the eQEP position counter." line.word 0x2 "REG_QCPRDLAT,QEP Capture Period Latch" hexmask.word 0x2 0.--15. 1. "QCPRDLAT,eQEP capture period value can be latched into this register on two events viz. unit timeout event reading the eQEP position counter." group.word 0x42++0x1 line.word 0x0 "REG_Reserved_1," rgroup.long 0x5C++0x7 line.long 0x0 "REG_PID," bitfld.long 0x0 30.--31. "SCHEME," "0,1,2,3" bitfld.long 0x0 28.--29. "RESERVED," "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION," hexmask.long.byte 0x0 11.--15. 1. "RTL," bitfld.long 0x0 8.--10. "MAJOR," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM," "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR," line.long 0x4 "REG_REV_TYPE2,QEP Revision Number" bitfld.long 0x4 3.--5. "MINOR,This field specifies the Minor Revision number for the eQEP IP." "0,1,2,3,4,5,6,7" bitfld.long 0x4 0.--2. "MAJOR,This field specifies the Major Revision number for the eQEP IP." "0,1,2,3,4,5,6,7" group.long 0x64++0xB line.long 0x0 "REG_QEPSTROBESEL,QEP Strobe select register" bitfld.long 0x0 0.--1. "STROBESEL,Strobe source select:" "0,1,2,3" line.long 0x4 "REG_QMACTRL,QMA Control register" bitfld.long 0x4 0.--2. "MODE,Select Mode for QMA mode:000 : QMA Module is bypassed. 001 : QMA Mode-1 operation selected010 : QMA Mode-2 operation selected011 : QMA Module is bypassed [reserved]1xx : QMA Module is bypassed [reserved]" "0: QMA Module is bypassed,1: QMA Mode-1 operation selected010 : QMA Mode-2..,?,?,?,?,?,?" line.long 0x8 "REG_QEPSRCSEL,QEP Source Select Register" hexmask.long.byte 0x8 12.--15. 1. "QEPSSEL,QEP Strobe source select:0000: From device Pins [Default].0001-1111: Device dependent." hexmask.long.byte 0x8 8.--11. 1. "QEPISEL,QEP Index source select:0000: From device Pins [Default].0001-1111: Device dependent." hexmask.long.byte 0x8 4.--7. 1. "QEPBSEL,QEPB source select:0000: From device Pins [Default].0001-1111: Device dependent." hexmask.long.byte 0x8 0.--3. 1. "QEPASEL,QEPA source select:0000: From device Pins [Default].0001-1111: Device dependent." group.word 0x70++0x1 line.word 0x0 "REG_Reserved_2," tree.end tree "EQEP2_REG (EQEP2_REG)" base ad:0x23220000 group.long 0x0++0xF line.long 0x0 "REG_QPOSCNT,Position Counter" hexmask.long 0x0 0.--31. 1. "QPOSCNT,Position Counter This 32-bit position counter register counts up/down on every eQEP pulse based on direction input. This counter acts as a position integrator whose count value is proportional to position from a give reference point. This.." line.long 0x4 "REG_QPOSINIT,Position Counter Init" hexmask.long 0x4 0.--31. 1. "QPOSINIT,Position Counter InitThis register contains the position value that is used to initialize the position counter based on external strobe or index event. The position counter can be initialized through software. Writes to this register should.." line.long 0x8 "REG_QPOSMAX,Maximum Position Count" hexmask.long 0x8 0.--31. 1. "QPOSMAX,Maximum Position CountThis register contains the maximum position counter value. Writes to this register should always be full 32-bit writes." line.long 0xC "REG_QPOSCMP,Position Compare" hexmask.long 0xC 0.--31. 1. "QPOSCMP,Position Compare The position-compare value in this register is compared with the position counter [QPOSCNT] to generate sync output and/or interrupt on compare match." rgroup.long 0x10++0xB line.long 0x0 "REG_QPOSILAT,Index Position Latch" hexmask.long 0x0 0.--31. 1. "QPOSILAT,Index Position Latch The position-counter value is latched into this register on an index event as defined by the QEPCTL[IEL] bits." line.long 0x4 "REG_QPOSSLAT,Strobe Position Latch" hexmask.long 0x4 0.--31. 1. "QPOSSLAT,Strobe Position Latch The position-counter value is latched into this register on a strobe event as defined by the QEPCTL[SEL] bits." line.long 0x8 "REG_QPOSLAT,Position Latch" hexmask.long 0x8 0.--31. 1. "QPOSLAT,Position Latch The position-counter value is latched into this register on a unit time out event." group.long 0x1C++0x7 line.long 0x0 "REG_QUTMR,QEP Unit Timer" hexmask.long 0x0 0.--31. 1. "QUTMR,QEP Unit TimerThis register acts as time base for unit time event generation. When this timer value matches the unit time period value a unit time event is generated." line.long 0x4 "REG_QUPRD,QEP Unit Period" hexmask.long 0x4 0.--31. 1. "QUPRD,QEP Unit PeriodThis register contains the period count for the unit timer to generate periodic unit time events. These events latch the eQEP position information at periodic intervals and optionally generate an interrupt. Writes to this register.." group.word 0x24++0xD line.word 0x0 "REG_QWDTMR,QEP Watchdog Timer" hexmask.word 0x0 0.--15. 1. "QWDTMR,QEP Watchdog Timer This register acts as time base for the watchdog to detect motor stalls. When this timer value matches with the watchdog's period value a watchdog timeout interrupt is generated. This register is reset upon edge transition in.." line.word 0x2 "REG_QWDPRD,QEP Watchdog Period" hexmask.word 0x2 0.--15. 1. "QWDPRD,QEP Watchdog Period This register contains the time-out count for the eQEP peripheral watch dog timer.When the watchdog timer value matches the watchdog period value a watchdog timeout interrupt is generated." line.word 0x4 "REG_QDECCTL_TYPE2,Quadrature Decoder Control" bitfld.word 0x4 14.--15. "QSRC,Position-counter source selection" "0,1,2,3" bitfld.word 0x4 13. "SOEN,Sync output-enable" "0,1" bitfld.word 0x4 12. "SPSEL,Sync output pin selection" "0,1" bitfld.word 0x4 11. "XCR,External Clock Rate" "0,1" bitfld.word 0x4 10. "SWAP,CLK/DIR Signal Source for Position Counter" "0,1" newline bitfld.word 0x4 9. "IGATE,Index pulse gating option" "0,1" bitfld.word 0x4 8. "QAP,QEPA input polarity" "0,1" bitfld.word 0x4 7. "QBP,QEPB input polarity" "0,1" bitfld.word 0x4 6. "QIP,QEPI input polarity" "0,1" bitfld.word 0x4 5. "QSP,QEPS input polarity" "0,1" newline bitfld.word 0x4 0. "QIDIRE,0 - Compatible mode Behavior same as existing devices1 - Enhancement for Direction change during Index will be enabled" "0,1" line.word 0x6 "REG_QEPCTL,QEP Control" bitfld.word 0x6 14.--15. "FREE_SOFT,Emulation mode" "0,1,2,3" bitfld.word 0x6 12.--13. "PCRM,Postion counter reset" "0,1,2,3" bitfld.word 0x6 10.--11. "SEI,Strobe event initialization of position counter" "0,1,2,3" bitfld.word 0x6 8.--9. "IEI,Index event init of position count" "0,1,2,3" bitfld.word 0x6 7. "SWI,Software init position counter" "0,1" newline bitfld.word 0x6 6. "SEL,Strobe event latch of position counter" "0,1" bitfld.word 0x6 4.--5. "IEL,Index event latch of position counter [software index marker]" "0,1,2,3" bitfld.word 0x6 3. "QPEN,Quadrature position counter enable/software reset" "0,1" bitfld.word 0x6 2. "QCLM,QEP capture latch mode" "0,1" bitfld.word 0x6 1. "UTE,QEP unit timer enable" "0,1" newline bitfld.word 0x6 0. "WDE,QEP watchdog enable" "0,1" line.word 0x8 "REG_QCAPCTL,Qaudrature Capture Control" bitfld.word 0x8 15. "CEN,Enable eQEP capture" "0,1" bitfld.word 0x8 4.--6. "CCPS,eQEP capture timer clock prescaler" "0,1,2,3,4,5,6,7" hexmask.word.byte 0x8 0.--3. 1. "UPPS,Unit position event prescaler" line.word 0xA "REG_QPOSCTL,Position Compare Control" bitfld.word 0xA 15. "PCSHDW,Position compare of shadow enable" "0,1" bitfld.word 0xA 14. "PCLOAD,Position compare of shadow load" "0,1" bitfld.word 0xA 13. "PCPOL,Polarity of sync output" "0,1" bitfld.word 0xA 12. "PCE,Position compare enable/disable" "0,1" hexmask.word 0xA 0.--11. 1. "PCSPW,Select-position-compare sync output pulse width" line.word 0xC "REG_QEINT_TYPE1,QEP Interrupt Control" bitfld.word 0xC 12. "QMAE,QMA Error Interrupt enable" "0,1" bitfld.word 0xC 11. "UTO,Unit time out interrupt enable" "0,1" bitfld.word 0xC 10. "IEL,Index event latch interrupt enable" "0,1" bitfld.word 0xC 9. "SEL,Strobe event latch interrupt enable" "0,1" bitfld.word 0xC 8. "PCM,Position-compare match interrupt enable" "0,1" newline bitfld.word 0xC 7. "PCR,Position-compare ready interrupt enable" "0,1" bitfld.word 0xC 6. "PCO,Position counter overflow interrupt enable" "0,1" bitfld.word 0xC 5. "PCU,Position counter underflow interrupt enable" "0,1" bitfld.word 0xC 4. "WTO,Watchdog time out interrupt enable" "0,1" bitfld.word 0xC 3. "QDC,Quadrature direction change interrupt enable" "0,1" newline bitfld.word 0xC 2. "QPE,Quadrature phase error interrupt enable" "0,1" bitfld.word 0xC 1. "PCE,Position counter error interrupt enable" "0,1" rgroup.word 0x32++0x1 line.word 0x0 "REG_QFLG_TYPE1,QEP Interrupt Flag" bitfld.word 0x0 12. "QMAE,QMA Error interrupt flag" "0,1" bitfld.word 0x0 11. "UTO,Unit time out interrupt flag" "0,1" bitfld.word 0x0 10. "IEL,Index event latch interrupt flag" "0,1" bitfld.word 0x0 9. "SEL,Strobe event latch interrupt flag" "0,1" bitfld.word 0x0 8. "PCM,eQEP compare match event interrupt flag" "0,1" newline bitfld.word 0x0 7. "PCR,Position-compare ready interrupt flag" "0,1" bitfld.word 0x0 6. "PCO,Position counter overflow interrupt flag" "0,1" bitfld.word 0x0 5. "PCU,Position counter underflow interrupt flag" "0,1" bitfld.word 0x0 4. "WTO,Watchdog timeout interrupt flag" "0,1" bitfld.word 0x0 3. "QDC,Quadrature direction change interrupt flag" "0,1" newline bitfld.word 0x0 2. "PHE,Quadrature phase error interrupt flag" "0,1" bitfld.word 0x0 1. "PCE,Position counter error interrupt flag" "0,1" bitfld.word 0x0 0. "INT,Global interrupt status flag" "0,1" group.word 0x34++0x9 line.word 0x0 "REG_QCLR_TYPE1,QEP Interrupt Clear" bitfld.word 0x0 12. "QMAE,Clear QMA Error interrupt flag" "0,1" bitfld.word 0x0 11. "UTO,Clear unit time out interrupt flag" "0,1" bitfld.word 0x0 10. "IEL,Clear index event latch interrupt flag" "0,1" bitfld.word 0x0 9. "SEL,Clear strobe event latch interrupt flag" "0,1" bitfld.word 0x0 8. "PCM,Clear eQEP compare match event interrupt flag" "0,1" newline bitfld.word 0x0 7. "PCR,Clear position-compare ready interrupt flag" "0,1" bitfld.word 0x0 6. "PCO,Clear position counter overflow interrupt flag" "0,1" bitfld.word 0x0 5. "PCU,Clear position counter underflow interrupt flag" "0,1" bitfld.word 0x0 4. "WTO,Clear watchdog timeout interrupt flag" "0,1" bitfld.word 0x0 3. "QDC,Clear quadrature direction change interrupt flag" "0,1" newline bitfld.word 0x0 2. "PHE,Clear quadrature phase error interrupt flag" "0,1" bitfld.word 0x0 1. "PCE,Clear position counter error interrupt flag" "0,1" bitfld.word 0x0 0. "INT,Global interrupt clear flag" "0,1" line.word 0x2 "REG_QFRC_TYPE1,QEP Interrupt Force" bitfld.word 0x2 12. "QMAE,Force QMA error interrupt" "0,1" bitfld.word 0x2 11. "UTO,Force unit time out interrupt" "0,1" bitfld.word 0x2 10. "IEL,Force index event latch interrupt" "0,1" bitfld.word 0x2 9. "SEL,Force strobe event latch interrupt" "0,1" bitfld.word 0x2 8. "PCM,Force position-compare match interrupt" "0,1" newline bitfld.word 0x2 7. "PCR,Force position-compare ready interrupt" "0,1" bitfld.word 0x2 6. "PCO,Force position counter overflow interrupt" "0,1" bitfld.word 0x2 5. "PCU,Force position counter underflow interrupt" "0,1" bitfld.word 0x2 4. "WTO,Force watchdog time out interrupt" "0,1" bitfld.word 0x2 3. "QDC,Force quadrature direction change interrupt" "0,1" newline bitfld.word 0x2 2. "PHE,Force quadrature phase error interrupt" "0,1" bitfld.word 0x2 1. "PCE,Force position counter error interrupt" "0,1" line.word 0x4 "REG_QEPSTS_TYPE1,QEP Status" bitfld.word 0x4 7. "UPEVNT,Unit position event flag" "0,1" rbitfld.word 0x4 6. "FIDF,Direction on the first index markerStatus of the direction is latched on the first index event marker." "0,1" rbitfld.word 0x4 5. "QDF,Quadrature direction flag" "0,1" rbitfld.word 0x4 4. "QDLF,eQEP direction latch flag" "0,1" bitfld.word 0x4 3. "COEF,Capture overflow error flag" "0,1" newline bitfld.word 0x4 2. "CDEF,Capture direction error flag" "0,1" bitfld.word 0x4 1. "FIMF,First index marker flag" "0,1" rbitfld.word 0x4 0. "PCEF,Position counter error flag. This bit is not sticky and it is updated for every index event." "0,1" line.word 0x6 "REG_QCTMR,QEP Capture Timer" hexmask.word 0x6 0.--15. 1. "QCTMR,This register provides time base for edge capture unit." line.word 0x8 "REG_QCPRD,QEP Capture Period" hexmask.word 0x8 0.--15. 1. "QCPRD,This register holds the period count value between the last successive eQEP position events" rgroup.word 0x3E++0x3 line.word 0x0 "REG_QCTMRLAT,QEP Capture Latch" hexmask.word 0x0 0.--15. 1. "QCTMRLAT,The eQEP capture timer value can be latched into this register on two events viz. unit timeout event reading the eQEP position counter." line.word 0x2 "REG_QCPRDLAT,QEP Capture Period Latch" hexmask.word 0x2 0.--15. 1. "QCPRDLAT,eQEP capture period value can be latched into this register on two events viz. unit timeout event reading the eQEP position counter." group.word 0x42++0x1 line.word 0x0 "REG_Reserved_1," rgroup.long 0x5C++0x7 line.long 0x0 "REG_PID," bitfld.long 0x0 30.--31. "SCHEME," "0,1,2,3" bitfld.long 0x0 28.--29. "RESERVED," "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION," hexmask.long.byte 0x0 11.--15. 1. "RTL," bitfld.long 0x0 8.--10. "MAJOR," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM," "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR," line.long 0x4 "REG_REV_TYPE2,QEP Revision Number" bitfld.long 0x4 3.--5. "MINOR,This field specifies the Minor Revision number for the eQEP IP." "0,1,2,3,4,5,6,7" bitfld.long 0x4 0.--2. "MAJOR,This field specifies the Major Revision number for the eQEP IP." "0,1,2,3,4,5,6,7" group.long 0x64++0xB line.long 0x0 "REG_QEPSTROBESEL,QEP Strobe select register" bitfld.long 0x0 0.--1. "STROBESEL,Strobe source select:" "0,1,2,3" line.long 0x4 "REG_QMACTRL,QMA Control register" bitfld.long 0x4 0.--2. "MODE,Select Mode for QMA mode:000 : QMA Module is bypassed. 001 : QMA Mode-1 operation selected010 : QMA Mode-2 operation selected011 : QMA Module is bypassed [reserved]1xx : QMA Module is bypassed [reserved]" "0: QMA Module is bypassed,1: QMA Mode-1 operation selected010 : QMA Mode-2..,?,?,?,?,?,?" line.long 0x8 "REG_QEPSRCSEL,QEP Source Select Register" hexmask.long.byte 0x8 12.--15. 1. "QEPSSEL,QEP Strobe source select:0000: From device Pins [Default].0001-1111: Device dependent." hexmask.long.byte 0x8 8.--11. 1. "QEPISEL,QEP Index source select:0000: From device Pins [Default].0001-1111: Device dependent." hexmask.long.byte 0x8 4.--7. 1. "QEPBSEL,QEPB source select:0000: From device Pins [Default].0001-1111: Device dependent." hexmask.long.byte 0x8 0.--3. 1. "QEPASEL,QEPA source select:0000: From device Pins [Default].0001-1111: Device dependent." group.word 0x70++0x1 line.word 0x0 "REG_Reserved_2," tree.end tree.end tree "ESM0_CFG (ESM0_CFG)" base ad:0x420000 rgroup.long 0x0++0x7 line.long 0x0 "CFG_PID,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" line.long 0x4 "CFG_INFO,The Info Register gives the configuration Inforrmation of this ESM." bitfld.long 0x4 31. "LAST_RESET,Indicates the Source of the last Reset" "0,1" hexmask.long.byte 0x4 8.--15. 1. "PULSE_GROUPS,Number of Pulse Error Groups" hexmask.long.byte 0x4 0.--7. 1. "GROUPS,Total number of Error Groups" group.long 0x8++0x3 line.long 0x0 "CFG_EN,The Global Enable Register has the initiator interrupt mask" hexmask.long.byte 0x0 0.--3. 1. "KEY,Global Enable" wgroup.long 0xC++0x3 line.long 0x0 "CFG_SFT_RST,The Global Soft Reset Register controls the global clear for raw status and enables" hexmask.long.byte 0x0 0.--3. 1. "KEY,Global Soft Reset" group.long 0x10++0xF line.long 0x0 "CFG_ERR_RAW,Raw Status/Set Register for Configuration Errors" hexmask.long.byte 0x0 0.--7. 1. "STS,This is the raw status for config errors" line.long 0x4 "CFG_ERR_STS,Config Error Enable and Clear Register" hexmask.long.byte 0x4 0.--7. 1. "MSK,This is the masked status/clear for config errors" line.long 0x8 "CFG_ERR_EN_SET,Config Error Enable Set Register" hexmask.long.byte 0x8 0.--7. 1. "MSK,This is the mask enable set for config errors" line.long 0xC "CFG_ERR_EN_CLR,Config Error Interrupt Enabled Clear register" hexmask.long.byte 0xC 0.--7. 1. "MSK,This is the mask enable clear for config errors" rgroup.long 0x20++0xF line.long 0x0 "CFG_LOW_PRI,Shows which is the highest priority outstanding low priority interrupt" hexmask.long.word 0x0 16.--31. 1. "PLS,This is the highest priority outstanding low priority pulse interrupt" hexmask.long.word 0x0 0.--15. 1. "LVL,This is the highest priority outstanding low priority level interrupt" line.long 0x4 "CFG_HI_PRI,Shows which is the highest priority outstanding high priority interrupt" hexmask.long.word 0x4 16.--31. 1. "PLS,This is the highest priority outstanding high priority pulse interrupt" hexmask.long.word 0x4 0.--15. 1. "LVL,This is the highest priority outstanding high priority level interrupt" line.long 0x8 "CFG_LOW,Shows which groups have oustanding low priority interrupts" hexmask.long 0x8 0.--31. 1. "STS,This is the raw status for config errors" line.long 0xC "CFG_HI,Shows which groups have oustanding high priority interrupts" hexmask.long 0xC 0.--31. 1. "STS,This is the raw status for config errors" wgroup.long 0x30++0x3 line.long 0x0 "CFG_EOI,End of Interrupt Register" hexmask.long.word 0x0 0.--10. 1. "KEY,This is the interrupt being serviced" group.long 0x40++0x3 line.long 0x0 "CFG_PIN_CTRL,This register controls the error_pin_n output" hexmask.long.byte 0x0 4.--7. 1. "PWM_EN,PWM enable" hexmask.long.byte 0x0 0.--3. 1. "KEY,Pin Control Key" rgroup.long 0x44++0x7 line.long 0x0 "CFG_PIN_STS,This register reflects the status of the error_pin_n output" bitfld.long 0x0 0. "VAL,Value of the error_pin_n" "0,1" line.long 0x4 "CFG_PIN_CNTR,This register shows the current value of the error pin counter" hexmask.long.tbyte 0x4 0.--23. 1. "COUNT,Current Counter Value" group.long 0x4C++0x3 line.long 0x0 "CFG_PIN_CNTR_PRE,This register contains the value that is loaded in to the Error Counter" hexmask.long.tbyte 0x0 0.--23. 1. "COUNT,Counter Pre-Load Value" rgroup.long 0x50++0x3 line.long 0x0 "CFG_PWMH_PIN_CNTR,This register shows the current value of the error pin PWM high counter" hexmask.long.tbyte 0x0 0.--23. 1. "COUNT,Current Counter Value" group.long 0x54++0x3 line.long 0x0 "CFG_PWMH_PIN_CNTR_PRE,This register contains the value that is loaded in to the Error PWM High Counter" hexmask.long.tbyte 0x0 0.--23. 1. "COUNT,Counter Pre-Load Value" rgroup.long 0x58++0x3 line.long 0x0 "CFG_PWML_PIN_CNTR,This register shows the current value of the error pin PWM low counter" hexmask.long.tbyte 0x0 0.--23. 1. "COUNT,Current Counter Value" group.long 0x5C++0x3 line.long 0x0 "CFG_PWML_PIN_CNTR_PRE,This register contains the value that is loaded in to the Error PWM Low Counter" hexmask.long.tbyte 0x0 0.--23. 1. "COUNT,Counter Pre-Load Value" tree.end tree "FSS0" base ad:0x0 tree "FSS0_CFG (FSS0_CFG)" base ad:0xFC00000 rgroup.long 0x0++0x3 line.long 0x0 "FSS_MMR__FSS_MMR_CFG__FSS_GENREGS_REVISION,IP Revision Identifier (X.Y.R) Used by software to track features. bugs. and compatibility" hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID field" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "REVMAJ,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor revision" tree.end base ad:0x0 tree "FSS0_FSAS_0" tree "FSS0_FSAS_0_DAT" tree "FSS0_FSAS_0_DAT_REG1 (FSS0_FSAS_0_DAT_REG1)" base ad:0x60000000 group.long 0x0++0x3 line.long 0x0 "DAT_REG1_hpb_data_mem,FSAS boot data region1" hexmask.long 0x0 0.--31. 1. "HPB_DATA,FSAS data region1" tree.end sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "FSS0_FSAS_0_DAT_REG0 (FSS0_FSAS_0_DAT_REG0)" base ad:0x400000000 group.long 0x0++0x3 line.long 0x0 "DAT_REG0_hpb_data_mem,FSAS data region0" hexmask.long 0x0 0.--31. 1. "HPB_DATA,FSAS data region0" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "FSS0_FSAS_0_DAT_REG3 (FSS0_FSAS_0_DAT_REG3)" base ad:0x500000000 group.long 0x0++0x3 line.long 0x0 "DAT_REG3_hpb_data_mem,FSAS bypass data region3" hexmask.long 0x0 0.--31. 1. "HPB_DATA,FSAS data region1" tree.end endif tree.end tree "FSS0_FSAS_0_FSAS_CFG (FSS0_FSAS_0_FSAS_CFG)" base ad:0xFC10000 rgroup.long 0x0++0x3 line.long 0x0 "FSAS__FSAS_MMR_CFG__FSAS_GENREGS_REVISION,IP Revision Identifier (X.Y.R) Used by software to track features. bugs. and compatibility" hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID field" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "REVMAJ,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor revision" group.long 0x4++0x1F line.long 0x0 "FSAS__FSAS_MMR_CFG__FSAS_GENREGS_SYSCONFIG,Controls various parameters of the cotroller state." bitfld.long 0x0 8. "OSPI_32B_DISABLE_MODE,0 OSPI 32bit mode enabled. 1 OSPI 32bit mode disabled" "0,1" bitfld.long 0x0 7. "DISXIP,0 XIP Prefetch Enabled. 1 XIP prefetch disabled" "0,1" bitfld.long 0x0 6. "OSPI_DDR_DISABLE_MODE,0 OSPI DDR mode enabled. 1 OSPI DDR mode disabled" "0,1" newline bitfld.long 0x0 3. "ECC_DISABLE_ADR,0 Block address within ECC calculation 1 Block address not within ECC calculation" "0,1" rbitfld.long 0x0 2. "FSS_AES_EN_IPCFG,1 select security 0 disable security" "0,1" bitfld.long 0x0 0. "ECC_EN,0 ECC disabled. 1 ECC enabled" "0,1" line.long 0x4 "FSAS__FSAS_MMR_CFG__FSAS_GENREGS_FRAG_ADR,This FRAG_ADR is the address of a request that frag_hi or frag_lo boundary occurs" hexmask.long 0x4 0.--31. 1. "FRAG_ADDR,This address is used to determine the boundary of frag_hi and flag_lo" line.long 0x8 "FSAS__FSAS_MMR_CFG__FSAS_GENREGS_FRAG_CTL,The FRAG_CTL determins which frag region is fragmented" bitfld.long 0x8 1. "FRAG_HI,When set any address greater than or equal to frag_addr will be fragmented to 16 bits" "0,1" bitfld.long 0x8 0. "FRAG_LO,When set any address less than frag_addr will be fragmented to 16 bits" "0,1" line.long 0xC "FSAS__FSAS_MMR_CFG__FSAS_GENREGS_EOI,The End of Interrupt (EOI) MISC Register allows the CPU to acknowledge completion of an interrupt by writing to the EOI for MISC interrupt sources. An eoi_write signal will be generated and another interrupt will be.." bitfld.long 0xC 0. "EOI_VECTOR,Write with bit position of targeted interrupt. (E.g. Ext FSS ECC is bit 0). Upon write level interrupt will clear and if un-serviced will issue another pulse interrupt" "0,1" line.long 0x10 "FSAS__FSAS_MMR_CFG__FSAS_GENREGS_STATUS_RAW,The IRQ_STATUS_RAW register allows the interrupt sources to be manually set when writing a 1 to a specific bit. Write 0: No action Write 1: Set event Read 0: No event pending Read 1: Event pending" bitfld.long 0x10 2. "ECC_WRITE_NONALIGN,Write is not aligned to 32B boundary or not a multiple of 32B" "0,1" bitfld.long 0x10 1. "ECC_ERROR_2BIT,ECC error on 2 bits. Not correctable" "0,1" bitfld.long 0x10 0. "ECC_ERROR_1BIT,ECC error on 1 bits. correctable" "0,1" line.long 0x14 "FSAS__FSAS_MMR_CFG__FSAS_GENREGS_STATUS,The IRQ_STATUS register allows the interrupt sources to be manually cleared when writing a 1 to a specific bit. Write 0: No action Write 1: Clear event Read 0: No event pending Read 1: Event pending" bitfld.long 0x14 2. "ECC_WRITE_NONALIGN,Write is not aligned to 32B boundary or not a multiple of 32B" "0,1" bitfld.long 0x14 1. "ECC_ERROR_2BIT,ECC error on 2 bits. Not correctable" "0,1" bitfld.long 0x14 0. "ECC_ERROR_1BIT,ECC error on 1 bits. correctable" "0,1" line.long 0x18 "FSAS__FSAS_MMR_CFG__FSAS_GENREGS_ENABLE_SET,The IRQ_ENABLE_SET register allows the interrupt sources to be manually enabled when writing a 1 to a specific bit. Write 0: No action Write 1: Enable event Read 0: Event is disabled Read 1: Event is enabled" bitfld.long 0x18 2. "ECC_WRITE_NONALIGN,Write is not aligned to 32B boundary or not a multiple of 32B" "0,1" bitfld.long 0x18 1. "ECC_ERROR_2BIT,ECC error on 2 bits. Not correctable" "0,1" bitfld.long 0x18 0. "ECC_ERROR_1BIT,ECC error on 1 bits. correctable" "0,1" line.long 0x1C "FSAS__FSAS_MMR_CFG__FSAS_GENREGS_ENABLE_CLR,The IRQ_ENABLE_CLR register allows the interrupt sources to be manually disabled when writing a 1 to a specific bit. Write 0: No action Write 1: Disable event Read 0: Event is disabled Read 1: Event is enabled" bitfld.long 0x1C 2. "ECC_WRITE_NONALIGN,Write is not aligned to 32B boundary or not a multiple of 32B" "0,1" bitfld.long 0x1C 1. "ECC_ERROR_2BIT,ECC error on 2 bits. Not correctable" "0,1" bitfld.long 0x1C 0. "ECC_ERROR_1BIT,ECC error on 1 bits. correctable" "0,1" group.long 0x30++0x7 line.long 0x0 "FSAS__FSAS_MMR_CFG__FSAS_GENREGS_ECC_RGSTRT,This defines the start of the ECC region in 4KBytes steps." hexmask.long.tbyte 0x0 0.--19. 1. "R_START,This defines the start of the ECC region in 4KBytes steps. Address start = {start[19:0] 0x000} 0x0 means the start is 0x0000_0000 0x1 means the start is 0x0000_1000 0xA means the start is 0x0000_A000 Note the offset + size should be <=.." line.long 0x4 "FSAS__FSAS_MMR_CFG__FSAS_GENREGS_ECC_RGSIZ,This defines the size of the ECC region in 4KBytes steps." hexmask.long.tbyte 0x4 0.--19. 1. "R_SIZE,This defines the size of the ECC region in 4KBytes steps 0x0 means the size is zero and disabled 0x1 means the size is 4KBytes 0xA means the size is 40KBytes 0xF_FFFF means the size is 4GBytes Note the offset + size should be <= 4GBytes wrap.." rgroup.long 0x70++0x3 line.long 0x0 "FSAS__FSAS_MMR_CFG__FSAS_GENREGS_ECC_BLOCK_ADR,The ERR_ECC_BLOCK_ADR register holds the current top of stack ECC error block address. this is only valid when the ecc_err_valid is set" hexmask.long 0x0 5.--31. 1. "ECC_ERROR_BLOCK_ADDR,ECC 32 byte aligned block address" group.long 0x74++0x7 line.long 0x0 "FSAS__FSAS_MMR_CFG__FSAS_GENREGS_ECC_TYPE,The ERR_ECC_TYPE register holds the current top of stack ECC error info. this is only valid when the ecc_err_valid is set" bitfld.long 0x0 31. "ECC_ERR_VALID,When set indicates that there is valid ECC error information available Writing a one to this register will pop the top of the stack" "0,1" rbitfld.long 0x0 5. "ECC_ERR_ADR,When set indicates that there was a single error detected within the address field" "0,1" rbitfld.long 0x0 4. "ECC_ERR_MAC,When set indicates that there was a single error detected within the MAC field" "0,1" newline rbitfld.long 0x0 3. "ECC_ERR_DA1,When set indicates that there was a single error detected within the High Data word" "0,1" rbitfld.long 0x0 2. "ECC_ERR_DA0,When set indicates that there was a single error detected within the Low Data word" "0,1" rbitfld.long 0x0 1. "ECC_ERR_DED,When set indicates that there was a double error detected for the block" "0,1" newline rbitfld.long 0x0 0. "ECC_ERR_SEC,hen set indicates that there was a single error detected for the block" "0,1" line.long 0x4 "FSAS__FSAS_MMR_CFG__FSAS_GENREGS_WRT_TYPE,The ERR_WRT_TYPE register holds the current top of stack write error info. this is only valid when the wrt_err_valid is set" bitfld.long 0x4 31. "WRT_ERR_VALID,When set indicates that there is valid write error information available Writing a one to this register will pop the top of the stack" "0,1" rbitfld.long 0x4 13. "WRT_ERR_BEN,When set indicates that there was a write error due to a non-contiguous byte enables" "0,1" rbitfld.long 0x4 12. "WRT_ERR_ADR,When set indicates that there was a write error due to a non-aligned address" "0,1" newline hexmask.long.word 0x4 0.--11. 1. "WRT_ERR_ROUTEID,Indicates the Route ID for the Initiator that caused the write error" tree.end tree "FSS0_FSAS_0_OTFA_CFG (FSS0_FSAS_0_OTFA_CFG)" base ad:0xFC20000 rgroup.long 0x0++0x3 line.long 0x0 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_revid," hexmask.long 0x0 0.--31. 1. "REVID,REVID" group.long 0x4++0x21B line.long 0x0 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_scfg," bitfld.long 0x0 0.--1. "IDLE_MODE,IDLE MODE" "0,1,2,3" line.long 0x4 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_isr," hexmask.long.byte 0x4 12.--15. 1. "MAC_ERR,MAC error" hexmask.long.byte 0x4 8.--11. 1. "WRT_ERR,Write error" hexmask.long.byte 0x4 4.--7. 1. "REGION_BV,Region overflow boundary event caused by a burst transaction crossed a start or end of a region" newline hexmask.long.byte 0x4 0.--3. 1. "CTR_WKV,AES mode 0 enabled region violated Wrt Once Per Wrt Key rule" line.long 0x8 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_is," hexmask.long.byte 0x8 12.--15. 1. "MAC_ERR,MAC error" hexmask.long.byte 0x8 8.--11. 1. "WRT_ERR,Write error" hexmask.long.byte 0x8 4.--7. 1. "REGION_BV,Region overflow boundary event caused by a burst transaction crossed a start or end of a region" newline hexmask.long.byte 0x8 0.--3. 1. "CTR_WKV,AES mode 0 enabled region violated Wrt Once Per Wrt Key rule" line.long 0xC "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_ies," hexmask.long.byte 0xC 12.--15. 1. "MAC_ERR,MAC error" hexmask.long.byte 0xC 8.--11. 1. "WRT_ERR,Write error" hexmask.long.byte 0xC 4.--7. 1. "REGION_BV,Region overflow boundary event caused by a burst transaction crossed a start or end of a region" newline hexmask.long.byte 0xC 0.--3. 1. "CTR_WKV,AES mode 0 enabled region violated Wrt Once Per Wrt Key rule" line.long 0x10 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_iec," hexmask.long.byte 0x10 12.--15. 1. "MAC_ERR,MAC error" hexmask.long.byte 0x10 8.--11. 1. "WRT_ERR,Write error" hexmask.long.byte 0x10 4.--7. 1. "REGION_BV,Region overflow boundary event caused by a burst transaction crossed a start or end of a region" newline hexmask.long.byte 0x10 0.--3. 1. "CTR_WKV,AES mode 0 enabled region violated Wrt Once Per Wrt Key rule" line.long 0x14 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_ccfg," bitfld.long 0x14 31. "MASTER_EN_RD,This register controls the enabling the functionality of this IP Disabled and Bypass mode active" "0,1" bitfld.long 0x14 9. "ERROR_RESP_EN,This register controls the enabling the the ocp error response for mac errors" "0,1" bitfld.long 0x14 8. "OTFA_WAIT,This register allows the ability to stop accepting any new transactions from getting accepted and allow the current transactions to complete" "0,1" newline bitfld.long 0x14 6. "CACHE_ENABLE,MAC cache enable" "0,1" bitfld.long 0x14 5. "CACHE_EVICT_MODE,cache evict mode" "0,1" bitfld.long 0x14 4. "KEY_SIZE,Key Size 0 128 Bit 1 256 Bit" "0,1" newline hexmask.long.byte 0x14 0.--3. 1. "RD_WRT_OPT,This register defines the static allocation of the AES cores to read transactions. The remainder will be allocated to write transactions" line.long 0x18 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_cstatus," rbitfld.long 0x18 31. "BUSY,0 No transactions are active crypto or none crypto 1 One or more transactions are active crypto or none crypto" "0,1" rbitfld.long 0x18 30. "CRYPTO_BUSY,0 No transactions are active crypto or none crypto 1 One or more transactions are active crypto or none crypto" "0,1" hexmask.long.word 0x18 16.--29. 1. "RD_STALL_EVENT_CNT,rd stall event do to lack of eng" newline hexmask.long.word 0x18 0.--13. 1. "WRT_STALL_EVENT_CNT,wrt stall event do to lack of eng" line.long 0x1C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rgcfg0," bitfld.long 0x1C 4. "WRT_PROTECT0,WRT protect" "0,1" bitfld.long 0x1C 2.--3. "MAC_MODE0,MAC mode" "0,1,2,3" bitfld.long 0x1C 0.--1. "AES_MODE0,AES mode" "0,1,2,3" line.long 0x20 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rgmacst0," hexmask.long.tbyte 0x20 0.--19. 1. "M_START0,This defines the start of the mac buffer in 4KBytes steps" line.long 0x24 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rgst0," hexmask.long.tbyte 0x24 0.--19. 1. "R_START0,This defines the start of the crypto region in 4KBytes steps" line.long 0x28 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rgsi0," hexmask.long.tbyte 0x28 0.--19. 1. "R_SIZE0,This defines the size of the crypto region in 4KBytes steps" line.long 0x2C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye00," hexmask.long 0x2C 0.--31. 1. "R_KEY_E00,Key E" line.long 0x30 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye01," hexmask.long 0x30 0.--31. 1. "R_KEY_E01,Key E" line.long 0x34 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye02," hexmask.long 0x34 0.--31. 1. "R_KEY_E02,Key E" line.long 0x38 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye03," hexmask.long 0x38 0.--31. 1. "R_KEY_E03,Key E" line.long 0x3C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye04," hexmask.long 0x3C 0.--31. 1. "R_KEY_E04,Key E" line.long 0x40 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye05," hexmask.long 0x40 0.--31. 1. "R_KEY_E05,Key E" line.long 0x44 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye06," hexmask.long 0x44 0.--31. 1. "R_KEY_E06,Key E" line.long 0x48 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye07," hexmask.long 0x48 0.--31. 1. "R_KEY_E07,Key E" line.long 0x4C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep00," hexmask.long 0x4C 0.--31. 1. "R_KEY_EP00,Key EP" line.long 0x50 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep01," hexmask.long 0x50 0.--31. 1. "R_KEY_EP01,Key EP" line.long 0x54 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep02," hexmask.long 0x54 0.--31. 1. "R_KEY_EP02,Key EP" line.long 0x58 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep03," hexmask.long 0x58 0.--31. 1. "R_KEY_EP03,Key EP" line.long 0x5C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep04," hexmask.long 0x5C 0.--31. 1. "R_KEY_EP04,Key EP" line.long 0x60 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep05," hexmask.long 0x60 0.--31. 1. "R_KEY_EP05,Key EP" line.long 0x64 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep06," hexmask.long 0x64 0.--31. 1. "R_KEY_EP06,Key EP" line.long 0x68 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep07," hexmask.long 0x68 0.--31. 1. "R_KEY_EP07,Key EP" line.long 0x6C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeya00," hexmask.long 0x6C 0.--31. 1. "R_KEY_A00,Key A" line.long 0x70 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeya01," hexmask.long 0x70 0.--31. 1. "R_KEY_A01,Key A" line.long 0x74 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeya02," hexmask.long 0x74 0.--31. 1. "R_KEY_A02,Key A" line.long 0x78 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeya03," hexmask.long 0x78 0.--31. 1. "R_KEY_A03,Key A" line.long 0x7C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyap00," hexmask.long 0x7C 0.--31. 1. "R_KEY_AP00,Key AP" line.long 0x80 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyap01," hexmask.long 0x80 0.--31. 1. "R_KEY_AP01,Key AP" line.long 0x84 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyap02," hexmask.long 0x84 0.--31. 1. "R_KEY_AP02,Key AP" line.long 0x88 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyap03," hexmask.long 0x88 0.--31. 1. "R_KEY_AP03,Key AP" line.long 0x8C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_riv00," hexmask.long 0x8C 0.--31. 1. "R_IV00,IV" line.long 0x90 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_riv01," hexmask.long 0x90 0.--31. 1. "R_IV01,IV" line.long 0x94 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_riv02," hexmask.long 0x94 0.--31. 1. "R_IV02,IV" line.long 0x98 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_riv03," hexmask.long 0x98 0.--31. 1. "R_IV03,IV" line.long 0x9C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rgcfg1," bitfld.long 0x9C 4. "WRT_PROTECT1,WRT protect" "0,1" bitfld.long 0x9C 2.--3. "MAC_MODE1,MAC mode" "0,1,2,3" bitfld.long 0x9C 0.--1. "AES_MODE1,AES mode" "0,1,2,3" line.long 0xA0 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rgmacst1," hexmask.long.tbyte 0xA0 0.--19. 1. "M_START1,This defines the start of the mac buffer in 4KBytes steps" line.long 0xA4 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rgst1," hexmask.long.tbyte 0xA4 0.--19. 1. "R_START1,This defines the start of the crypto region in 4KBytes steps" line.long 0xA8 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rgsi1," hexmask.long.tbyte 0xA8 0.--19. 1. "R_SIZE1,This defines the size of the crypto region in 4KBytes steps" line.long 0xAC "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye10," hexmask.long 0xAC 0.--31. 1. "R_KEY_E10,Key E" line.long 0xB0 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye11," hexmask.long 0xB0 0.--31. 1. "R_KEY_E11,Key E" line.long 0xB4 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye12," hexmask.long 0xB4 0.--31. 1. "R_KEY_E12,Key E" line.long 0xB8 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye13," hexmask.long 0xB8 0.--31. 1. "R_KEY_E13,Key E" line.long 0xBC "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye14," hexmask.long 0xBC 0.--31. 1. "R_KEY_E14,Key E" line.long 0xC0 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye15," hexmask.long 0xC0 0.--31. 1. "R_KEY_E15,Key E" line.long 0xC4 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye16," hexmask.long 0xC4 0.--31. 1. "R_KEY_E16,Key E" line.long 0xC8 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye17," hexmask.long 0xC8 0.--31. 1. "R_KEY_E17,Key E" line.long 0xCC "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep10," hexmask.long 0xCC 0.--31. 1. "R_KEY_EP10,Key EP" line.long 0xD0 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep11," hexmask.long 0xD0 0.--31. 1. "R_KEY_EP11,Key EP" line.long 0xD4 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep12," hexmask.long 0xD4 0.--31. 1. "R_KEY_EP12,Key EP" line.long 0xD8 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep13," hexmask.long 0xD8 0.--31. 1. "R_KEY_EP13,Key EP" line.long 0xDC "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep14," hexmask.long 0xDC 0.--31. 1. "R_KEY_EP14,Key EP" line.long 0xE0 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep15," hexmask.long 0xE0 0.--31. 1. "R_KEY_EP15,Key EP" line.long 0xE4 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep16," hexmask.long 0xE4 0.--31. 1. "R_KEY_EP16,Key EP" line.long 0xE8 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep17," hexmask.long 0xE8 0.--31. 1. "R_KEY_EP17,Key EP" line.long 0xEC "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeya10," hexmask.long 0xEC 0.--31. 1. "R_KEY_A10,Key A" line.long 0xF0 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeya11," hexmask.long 0xF0 0.--31. 1. "R_KEY_A11,Key A" line.long 0xF4 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeya12," hexmask.long 0xF4 0.--31. 1. "R_KEY_A12,Key A" line.long 0xF8 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeya13," hexmask.long 0xF8 0.--31. 1. "R_KEY_A13,Key A" line.long 0xFC "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyap10," hexmask.long 0xFC 0.--31. 1. "R_KEY_AP10,Key AP" line.long 0x100 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyap11," hexmask.long 0x100 0.--31. 1. "R_KEY_AP11,Key AP" line.long 0x104 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyap12," hexmask.long 0x104 0.--31. 1. "R_KEY_AP12,Key AP" line.long 0x108 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyap13," hexmask.long 0x108 0.--31. 1. "R_KEY_AP13,Key AP" line.long 0x10C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_riv10," hexmask.long 0x10C 0.--31. 1. "R_IV10,IV" line.long 0x110 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_riv11," hexmask.long 0x110 0.--31. 1. "R_IV11,IV" line.long 0x114 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_riv12," hexmask.long 0x114 0.--31. 1. "R_IV12,IV" line.long 0x118 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_riv13," hexmask.long 0x118 0.--31. 1. "R_IV13,IV" line.long 0x11C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rgcfg2," bitfld.long 0x11C 4. "WRT_PROTECT2,WRT protect" "0,1" bitfld.long 0x11C 2.--3. "MAC_MODE2,MAC mode" "0,1,2,3" bitfld.long 0x11C 0.--1. "AES_MODE2,AES mode" "0,1,2,3" line.long 0x120 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rgmacst2," hexmask.long.tbyte 0x120 0.--19. 1. "M_START2,This defines the start of the mac buffer in 4KBytes steps" line.long 0x124 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rgst2," hexmask.long.tbyte 0x124 0.--19. 1. "R_START2,This defines the start of the crypto region in 4KBytes steps" line.long 0x128 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rgsi2," hexmask.long.tbyte 0x128 0.--19. 1. "R_SIZE2,This defines the size of the crypto region in 4KBytes steps" line.long 0x12C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye20," hexmask.long 0x12C 0.--31. 1. "R_KEY_E20,Key E" line.long 0x130 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye21," hexmask.long 0x130 0.--31. 1. "R_KEY_E21,Key E" line.long 0x134 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye22," hexmask.long 0x134 0.--31. 1. "R_KEY_E22,Key E" line.long 0x138 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye23," hexmask.long 0x138 0.--31. 1. "R_KEY_E23,Key E" line.long 0x13C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye24," hexmask.long 0x13C 0.--31. 1. "R_KEY_E24,Key E" line.long 0x140 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye25," hexmask.long 0x140 0.--31. 1. "R_KEY_E25,Key E" line.long 0x144 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye26," hexmask.long 0x144 0.--31. 1. "R_KEY_E26,Key E" line.long 0x148 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye27," hexmask.long 0x148 0.--31. 1. "R_KEY_E27,Key E" line.long 0x14C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep20," hexmask.long 0x14C 0.--31. 1. "R_KEY_EP20,Key EP" line.long 0x150 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep21," hexmask.long 0x150 0.--31. 1. "R_KEY_EP21,Key EP" line.long 0x154 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep22," hexmask.long 0x154 0.--31. 1. "R_KEY_EP22,Key EP" line.long 0x158 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep23," hexmask.long 0x158 0.--31. 1. "R_KEY_EP23,Key EP" line.long 0x15C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep24," hexmask.long 0x15C 0.--31. 1. "R_KEY_EP24,Key EP" line.long 0x160 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep25," hexmask.long 0x160 0.--31. 1. "R_KEY_EP25,Key EP" line.long 0x164 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep26," hexmask.long 0x164 0.--31. 1. "R_KEY_EP26,Key EP" line.long 0x168 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep27," hexmask.long 0x168 0.--31. 1. "R_KEY_EP27,Key EP" line.long 0x16C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeya20," hexmask.long 0x16C 0.--31. 1. "R_KEY_A20,Key A" line.long 0x170 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeya21," hexmask.long 0x170 0.--31. 1. "R_KEY_A21,Key A" line.long 0x174 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeya22," hexmask.long 0x174 0.--31. 1. "R_KEY_A22,Key A" line.long 0x178 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeya23," hexmask.long 0x178 0.--31. 1. "R_KEY_A23,Key A" line.long 0x17C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyap20," hexmask.long 0x17C 0.--31. 1. "R_KEY_AP20,Key AP" line.long 0x180 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyap21," hexmask.long 0x180 0.--31. 1. "R_KEY_AP21,Key AP" line.long 0x184 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyap22," hexmask.long 0x184 0.--31. 1. "R_KEY_AP22,Key AP" line.long 0x188 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyap23," hexmask.long 0x188 0.--31. 1. "R_KEY_AP23,Key AP" line.long 0x18C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_riv20," hexmask.long 0x18C 0.--31. 1. "R_IV20,IV" line.long 0x190 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_riv21," hexmask.long 0x190 0.--31. 1. "R_IV21,IV" line.long 0x194 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_riv22," hexmask.long 0x194 0.--31. 1. "R_IV22,IV" line.long 0x198 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_riv23," hexmask.long 0x198 0.--31. 1. "R_IV23,IV" line.long 0x19C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rgcfg3," bitfld.long 0x19C 4. "WRT_PROTECT3,WRT protect" "0,1" bitfld.long 0x19C 2.--3. "MAC_MODE3,MAC mode" "0,1,2,3" bitfld.long 0x19C 0.--1. "AES_MODE3,AES mode" "0,1,2,3" line.long 0x1A0 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rgmacst3," hexmask.long.tbyte 0x1A0 0.--19. 1. "M_START3,This defines the start of the mac buffer in 4KBytes steps" line.long 0x1A4 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rgst3," hexmask.long.tbyte 0x1A4 0.--19. 1. "R_START3,This defines the start of the crypto region in 4KBytes steps" line.long 0x1A8 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rgsi3," hexmask.long.tbyte 0x1A8 0.--19. 1. "R_SIZE3,This defines the size of the crypto region in 4KBytes steps" line.long 0x1AC "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye30," hexmask.long 0x1AC 0.--31. 1. "R_KEY_E30,Key E" line.long 0x1B0 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye31," hexmask.long 0x1B0 0.--31. 1. "R_KEY_E31,Key E" line.long 0x1B4 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye32," hexmask.long 0x1B4 0.--31. 1. "R_KEY_E32,Key E" line.long 0x1B8 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye33," hexmask.long 0x1B8 0.--31. 1. "R_KEY_E33,Key E" line.long 0x1BC "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye34," hexmask.long 0x1BC 0.--31. 1. "R_KEY_E34,Key E" line.long 0x1C0 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye35," hexmask.long 0x1C0 0.--31. 1. "R_KEY_E35,Key E" line.long 0x1C4 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye36," hexmask.long 0x1C4 0.--31. 1. "R_KEY_E36,Key E" line.long 0x1C8 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeye37," hexmask.long 0x1C8 0.--31. 1. "R_KEY_E37,Key E" line.long 0x1CC "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep30," hexmask.long 0x1CC 0.--31. 1. "R_KEY_EP30,Key EP" line.long 0x1D0 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep31," hexmask.long 0x1D0 0.--31. 1. "R_KEY_EP31,Key EP" line.long 0x1D4 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep32," hexmask.long 0x1D4 0.--31. 1. "R_KEY_EP32,Key EP" line.long 0x1D8 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep33," hexmask.long 0x1D8 0.--31. 1. "R_KEY_EP33,Key EP" line.long 0x1DC "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep34," hexmask.long 0x1DC 0.--31. 1. "R_KEY_EP34,Key EP" line.long 0x1E0 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep35," hexmask.long 0x1E0 0.--31. 1. "R_KEY_EP35,Key EP" line.long 0x1E4 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep36," hexmask.long 0x1E4 0.--31. 1. "R_KEY_EP36,Key EP" line.long 0x1E8 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyep37," hexmask.long 0x1E8 0.--31. 1. "R_KEY_EP37,Key EP" line.long 0x1EC "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeya30," hexmask.long 0x1EC 0.--31. 1. "R_KEY_A30,Key A" line.long 0x1F0 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeya31," hexmask.long 0x1F0 0.--31. 1. "R_KEY_A31,Key A" line.long 0x1F4 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeya32," hexmask.long 0x1F4 0.--31. 1. "R_KEY_A32,Key A" line.long 0x1F8 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeya33," hexmask.long 0x1F8 0.--31. 1. "R_KEY_A33,Key A" line.long 0x1FC "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyap30," hexmask.long 0x1FC 0.--31. 1. "R_KEY_AP30,Key AP" line.long 0x200 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyap31," hexmask.long 0x200 0.--31. 1. "R_KEY_AP31,Key AP" line.long 0x204 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyap32," hexmask.long 0x204 0.--31. 1. "R_KEY_AP32,Key AP" line.long 0x208 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rkeyap33," hexmask.long 0x208 0.--31. 1. "R_KEY_AP33,Key AP" line.long 0x20C "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_riv30," hexmask.long 0x20C 0.--31. 1. "R_IV30,IV" line.long 0x210 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_riv31," hexmask.long 0x210 0.--31. 1. "R_IV31,IV" line.long 0x214 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_riv32," hexmask.long 0x214 0.--31. 1. "R_IV32,IV" line.long 0x218 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_riv33," hexmask.long 0x218 0.--31. 1. "R_IV33,IV" rgroup.long 0x220++0xF line.long 0x0 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_irqaddinfo0," hexmask.long 0x0 0.--31. 1. "IRQ_MADDR,Initiator Address which caused the event" line.long 0x4 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_irqaddinfo1," hexmask.long.byte 0x4 14.--17. 1. "IRQ_MLEN,Initiator LENGTH which caused the event" bitfld.long 0x4 11.--13. "IRQ_MSEQ,Initiator SEQ which caused the event" "0,1,2,3,4,5,6,7" bitfld.long 0x4 8.--10. "IRQ_MCMD,Initiator CMD which caused the event" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x4 0.--7. 1. "IRQ_MID,Initiator TAG ID which caused the event" line.long 0x8 "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_maccacheinfo," hexmask.long.word 0x8 0.--15. 1. "CACHE_MISS_EVENT_CNT,MAC Cache Miss event cnt" line.long 0xC "FSAS__FSAS_OTFA_CFG__FSAS_OTFA_REGS_rmwrmcnt," hexmask.long.word 0xC 16.--31. 1. "RM_EVENT_CNT,RM event cnt" hexmask.long.word 0xC 0.--15. 1. "RMW_EVENT_CNT,RMW event cnt" tree.end tree.end tree "FSS0_OSPI_0_OSPI0" tree "FSS0_OSPI_0_OSPI0_CTRL (FSS0_OSPI_0_OSPI0_CTRL)" base ad:0xFC40000 group.long 0x0++0x2B line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_config_reg,Octal-SPI Configuration Register" rbitfld.long 0x0 31. "IDLE_FLD,Serial interface and low level SPI pipeline is IDLE: This is a STATUS read-only bit. Note this is a retimed signal so there will be some inherent delay on the generation of this status signal." "0,1" newline bitfld.long 0x0 30. "DUAL_BYTE_OPCODE_EN_FLD,Dual-byte Opcode Mode enable bit This bit is to be set in case the target Flash Device supports dual byte opcode [i.e. Macronix MX25]. It is applicable for Octal I/O Mode or Protocol only so should be set back to low if the device.." "0,1" newline bitfld.long 0x0 29. "CRC_ENABLE_FLD,CRC enable bit This bit is to be set in case the target Flash Device supports CRC [Macronix MX25]. It is applicable for Octal DDR Protocol only so should be set back to low if the device is configured to work in another SPI Mode." "0,1" newline bitfld.long 0x0 25. "PIPELINE_PHY_FLD,Pipeline PHY Mode enable: This bit is relevant only for configuration with PHY Module. It should be asserted to 1 between consecutive PHY pipeline reads transfers and de-asserted to 0 otherwise." "0,1" newline bitfld.long 0x0 24. "ENABLE_DTR_PROTOCOL_FLD,Enable DTR Protocol: This bit should be set if device is configured to work in DTR protocol." "0,1" newline bitfld.long 0x0 23. "ENABLE_AHB_DECODER_FLD,Enable AHB Decoder: Value=0 : Active target is selected based on Peripheral Chip Select Lines [bits [13:10]]. Value=1 Active target is selected based on actual AHB address [the partition for each device is calculated with respect.." "0: Active target is selected based on Peripheral..,?" newline hexmask.long.byte 0x0 19.--22. 1. "MSTR_BAUD_DIV_FLD,Initiator Mode Baud Rate Divisor: SPI baud rate = [initiator reference clock] baud_rate_divisor" newline bitfld.long 0x0 18. "ENTER_XIP_MODE_IMM_FLD,Enter XIP Mode immediately: Value=0 : If XIP is enabled then setting to 0 will cause the controller to exit XIP mode on the next READ instruction. Value=1 : Operate the device in XIP mode immediately Use this register when the.." "0: If XIP is enabled,1: Operate the device in XIP mode immediately Use.." newline bitfld.long 0x0 17. "ENTER_XIP_MODE_FLD,Enter XIP Mode on next READ: Value=0 : If XIP is enabled then setting to 0 will cause the controller to exit XIP mode on the next READ instruction. Value=1 : If XIP is disabled then setting to ?1? will inform the controller that the.." "0: If XIP is enabled,1: If XIP is disabled" newline bitfld.long 0x0 16. "ENB_AHB_ADDR_REMAP_FLD,Enable AHB Address Re-mapping: [Direct Access Mode Only] When set to 1 the incoming AHB address will be adapted and sent to the FLASH device as [address + N] where N is the value stored in the remap address register." "0,1" newline bitfld.long 0x0 15. "ENB_DMA_IF_FLD,Enable DMA Peripheral Interface: Set to 1 to enable the DMA handshaking logic. When enabled the controller will trigger DMA transfer requests via the DMA peripheral interface. Set to 0 to disable" "0,1" newline bitfld.long 0x0 14. "WR_PROT_FLASH_FLD,Write Protect Flash Pin: Set to drive the Write Protect pin of the FLASH device. This is resynchronized to the generated memory clock as necessary." "0,1" newline hexmask.long.byte 0x0 10.--13. 1. "PERIPH_CS_LINES_FLD,Peripheral Chip Select Lines: Peripheral chip select lines If pdec = 0 ss[3:0] are output thus: ss[3:0] n_ss_out[3:0] xxx0 1110 xx01 1101 x011 1011 0111 0111 1111 1111 [no peripheral selected] else ss[3:0] directly drives n_ss_out[3:0]" newline bitfld.long 0x0 9. "PERIPH_SEL_DEC_FLD,Peripheral select decode: 0 : only 1 of 4 selects n_ss_out[3:0] is active 1 : allow external 4-to-16 decode [n_ss_out = ss]" "0: only 1 of 4 selects n_ss_out[3:0] is active,1: allow external 4-to-16 decode [n_ss_out = ss]" newline bitfld.long 0x0 8. "ENB_LEGACY_IP_MODE_FLD,Legacy IP Mode Enable: 0 : Use Direct Access Controller/Indirect Access Controller 1 : legacy Mode is enabled. In this mode any write to the controller via the AHB interface is serialized and sent to the FLASH device. Any valid.." "0: Use Direct Access Controller/Indirect Access..,1: legacy Mode is enabled" newline bitfld.long 0x0 7. "ENB_DIR_ACC_CTLR_FLD,Enable Direct Access Controller: 0 : disable the Direct Access Controller once current transfer of the data word [FF_W] is complete. 1 : enable the Direct Access Controller When the Direct Access Controller and Indirect Access.." "0: disable the Direct Access Controller once..,1: enable the Direct Access Controller When the.." newline bitfld.long 0x0 6. "RESET_CFG_FLD,RESET pin configuration: 0 = RESET feature on DQ3 pin of the device 1 = RESET feature on dedicated pin of the device [controlling of 5th bit influences on reset_out output]" "0: RESET feature on DQ3 pin of the device,1: RESET feature on dedicated pin of the device.." newline bitfld.long 0x0 5. "RESET_PIN_FLD,Set to drive the RESET pin of the FLASH device and reset for de-activation of the RESET pin feature" "0,1" newline bitfld.long 0x0 4. "HOLD_PIN_FLD,Set to drive the HOLD pin of the FLASH device and reset for de-activation of the HOLD pin feature" "0,1" newline bitfld.long 0x0 3. "PHY_MODE_ENABLE_FLD,PHY mode enable: When enabled the controller is informed that PHY Module is to be used for handling SPI transfers. This bit is relevant only for configuration with PHY Module." "0,1" newline bitfld.long 0x0 2. "SEL_CLK_PHASE_FLD,Select Clock Phase: Selects whether the clock is in an active or inactive phase outside the SPI word. 0 : the SPI clock is active outside the word 1 : the SPI clock is inactive outside the word" "0: the SPI clock is active outside the word,1: the SPI clock is inactive outside the word" newline bitfld.long 0x0 1. "SEL_CLK_POL_FLD,Clock polarity outside SPI word: 0 : the SPI clock is quiescent low 1 : the SPI clock is quiescent high" "0: the SPI clock is quiescent low,1: the SPI clock is quiescent high" newline bitfld.long 0x0 0. "ENB_SPI_FLD,Octal-SPI Enable: 0 : disable the Octal-SPI once current transfer of the data word [FF_W] is complete. 1 : enable the Octal-SPI when spi_enable = 0 all output enables are inactive and all pins are set to input mode." "0: disable the Octal-SPI,1: enable the Octal-SPI" line.long 0x4 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_dev_instr_rd_config_reg,Device Read Instruction Configuration Register" hexmask.long.byte 0x4 24.--28. 1. "DUMMY_RD_CLK_CYCLES_FLD,Dummy Read Clock Cycles: Number of dummy clock cycles required by device for read instruction." newline bitfld.long 0x4 20. "MODE_BIT_ENABLE_FLD,Mode Bit Enable: Set this field to 1 to ensure that the mode bits as defined in the Mode Bit Configuration register are sent following the address bytes." "0,1" newline bitfld.long 0x4 16.--17. "DATA_XFER_TYPE_EXT_MODE_FLD,Data Transfer Type for Standard SPI modes: 0 : SIO mode data is shifted to the device on DQ0 only and from the device on DQ1 only 1 : Used for Dual Input/Output instructions. For data transfers DQ0 and DQ1 are used as both.." "0: SIO mode data is shifted to the device on DQ0..,1: Used for Dual Input/Output instructions,2: Used for Quad Input/Output instructions,3: Used for Quad Input/Output instructions" newline bitfld.long 0x4 12.--13. "ADDR_XFER_TYPE_STD_MODE_FLD,Address Transfer Type for Standard SPI modes: 0 : Addresses can be shifted to the device on DQ0 only 1 : Addresses can be shifted to the device on DQ0 and DQ1 only 2 : Addresses can be shifted to the device on DQ0 DQ1 DQ2.." "0: Addresses can be shifted to the device on DQ0 only,1: Addresses can be shifted to the device on DQ0..,2: Addresses can be shifted to the device on DQ0,3: Addresses can be shifted to the device on DQ[7:0]" newline bitfld.long 0x4 10. "DDR_EN_FLD,DDR Enable: This is to inform that opcode from rd_opcode_non_xip_fld is compliant with one of the DDR READ Commands" "0,1" newline bitfld.long 0x4 8.--9. "INSTR_TYPE_FLD,Instruction Type: 0 : Use Standard SPI mode [instruction always shifted into the device on DQ0 only] 1 : Use DIO-SPI mode [Instructions Address and Data always sent on DQ0 and DQ1] 2 : Use QIO-SPI mode [Instructions Address and Data.." "0: Use Standard SPI mode [instruction always..,1: Use DIO-SPI mode [Instructions,2: Use QIO-SPI mode [Instructions,3: Use Octal-IO-SPI mode [Instructions" newline hexmask.long.byte 0x4 0.--7. 1. "RD_OPCODE_NON_XIP_FLD,Read Opcode in non-XIP mode: Read Opcode to use when not in XIP mode" line.long 0x8 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_dev_instr_wr_config_reg,Device Write Instruction Configuration Register" hexmask.long.byte 0x8 24.--28. 1. "DUMMY_WR_CLK_CYCLES_FLD,Dummy Write Clock Cycles: Number of dummy clock cycles required by device for write instruction." newline bitfld.long 0x8 16.--17. "DATA_XFER_TYPE_EXT_MODE_FLD,Data Transfer Type for Standard SPI modes: 0 : SIO mode data is shifted to the device on DQ0 only and from the device on DQ1 only 1 : Used for Dual Input/Output instructions. For data transfers DQ0 and DQ1 are used as both.." "0: SIO mode data is shifted to the device on DQ0..,1: Used for Dual Input/Output instructions,2: Used for Quad Input/Output instructions,3: Used for Quad Input/Output instructions" newline bitfld.long 0x8 12.--13. "ADDR_XFER_TYPE_STD_MODE_FLD,Address Transfer Type for Standard SPI modes: 0 : Addresses can be shifted to the device on DQ0 only 1 : Addresses can be shifted to the device on DQ0 and DQ1 only 2 : Addresses can be shifted to the device on DQ0 DQ1 DQ2.." "0: Addresses can be shifted to the device on DQ0 only,1: Addresses can be shifted to the device on DQ0..,2: Addresses can be shifted to the device on DQ0,3: Addresses can be shifted to the device on DQ[7:0]" newline bitfld.long 0x8 8. "WEL_DIS_FLD,WEL Disable: This is to turn off automatic issuing of WEL Command before write operation for DAC or INDAC" "0,1" newline hexmask.long.byte 0x8 0.--7. 1. "WR_OPCODE_FLD,Write Opcode" line.long 0xC "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_dev_delay_reg,Octal-SPI Device Delay Register: This register is used to introduce relative delays into the generation of the initiator output signals. All timings are defined in.." hexmask.long.byte 0xC 24.--31. 1. "D_NSS_FLD,Clock Delay for Chip Select Deassert: Delay in initiator reference clocks for the length that the initiator mode chip select outputs are de-asserted between transactions. The minimum delay is always SCLK period to ensure the chip select is.." newline hexmask.long.byte 0xC 16.--23. 1. "D_BTWN_FLD,Clock Delay for Chip Select Deactivation: Delay in initiator reference clocks between one chip select being de-activated and the activation of another. This is used to ensure a quiet period between the selection of two different targets and.." newline hexmask.long.byte 0xC 8.--15. 1. "D_AFTER_FLD,Clock Delay for Last Transaction Bit: Delay in initiator reference clocks between last bit of current transaction and deasserting the device chip select [n_ss_out]. By default the chip select will be deasserted on the cycle following the.." newline hexmask.long.byte 0xC 0.--7. 1. "D_INIT_FLD,Clock Delay with n_ss_out: Delay in initiator reference clocks between setting n_ss_out low and first bit transfer." line.long 0x10 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_rd_data_capture_reg,Read Data Capture Register" hexmask.long.byte 0x10 16.--19. 1. "DDR_READ_DELAY_FLD,DDR read delay: Delay the transmitted data by the programmed number of ref_clk cycles.This field is only relevant when DDR Read Command is executed. Otherwise can be ignored." newline bitfld.long 0x10 8. "DQS_ENABLE_FLD,DQS enable bit: If enabled signal from DQS input is driven into RX DLL and is used for data capturing in PHY Mode rather than internally generated gated ref_clk.." "0,1" newline bitfld.long 0x10 5. "SAMPLE_EDGE_SEL_FLD,Sample edge selection: Choose edge on which data outputs from flash memory will be sampled" "0,1" newline hexmask.long.byte 0x10 1.--4. 1. "DELAY_FLD,Read Delay: Delay the read data capturing logic by the programmed number of ref_clk cycles" newline bitfld.long 0x10 0. "BYPASS_FLD,Bypass the adapted loopback clock circuit" "0,1" line.long 0x14 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_dev_size_config_reg,Device Size Configuration Register" bitfld.long 0x14 27.--28. "MEM_SIZE_ON_CS3_FLD,Size of Flash Device connected to CS[3] pin: Value=00 : size of 512Mb. Value=01 : size of 1Gb. Value=10 : size of 2Gb. Value=11 : size of 4Gb." "0: size of 512Mb,1: size of 1Gb,?,?" newline bitfld.long 0x14 25.--26. "MEM_SIZE_ON_CS2_FLD,Size of Flash Device connected to CS[2] pin: Value=00 : size of 512Mb. Value=01 : size of 1Gb. Value=10 : size of 2Gb. Value=11 : size of 4Gb." "0: size of 512Mb,1: size of 1Gb,?,?" newline bitfld.long 0x14 23.--24. "MEM_SIZE_ON_CS1_FLD,Size of Flash Device connected to CS[1] pin: Value=00 : size of 512Mb. Value=01 : size of 1Gb. Value=10 : size of 2Gb. Value=11 : size of 4Gb." "0: size of 512Mb,1: size of 1Gb,?,?" newline bitfld.long 0x14 21.--22. "MEM_SIZE_ON_CS0_FLD,Size of Flash Device connected to CS[0] pin: Value=00 : size of 512Mb. Value=01 : size of 1Gb. Value=10 : size of 2Gb. Value=11 : size of 4Gb." "0: size of 512Mb,1: size of 1Gb,?,?" newline hexmask.long.byte 0x14 16.--20. 1. "BYTES_PER_SUBSECTOR_FLD,Number of bytes per Block. This is required by the controller for performing the write protection logic. The number of bytes per block must be a power of 2 number." newline hexmask.long.word 0x14 4.--15. 1. "BYTES_PER_DEVICE_PAGE_FLD,Number of bytes per device page. This is required by the controller for performing FLASH writes up to and across page boundaries." newline hexmask.long.byte 0x14 0.--3. 1. "NUM_ADDR_BYTES_FLD,Number of address bytes. A value of 0 indicates 1 byte." line.long 0x18 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_sram_partition_cfg_reg,SRAM Partition Configuration Register" hexmask.long.byte 0x18 0.--7. 1. "ADDR_FLD,Indirect Read Partition Size: Defines the size of the indirect read partition in the SRAM in units of SRAM locations. By default half of the SRAM is reserved for indirect read operation and half for indirect write. The size of this register.." line.long 0x1C "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_ind_AHB_addr_trigger_reg,Indirect AHB Address Trigger Register" hexmask.long 0x1C 0.--31. 1. "ADDR_FLD,This is the base address that will be used by the AHB controller. When the incoming AHB read access address matches a range of addresses from this trigger address to the trigger address + 15 then the AHB request will be completed by fetching.." line.long 0x20 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_dma_periph_config_reg,DMA Peripheral Configuration Register" hexmask.long.byte 0x20 8.--11. 1. "NUM_BURST_REQ_BYTES_FLD,Number of Burst Bytes: Number of bytes in a burst type request on the DMA peripheral request. A programmed value of 0 represents a single byte. This should be setup before starting the indirect read or write operation. The actual.." newline hexmask.long.byte 0x20 0.--3. 1. "NUM_SINGLE_REQ_BYTES_FLD,Number of Single Bytes: Number of bytes in a single type request on the DMA peripheral request. A programmed value of 0 represents a single byte. This should be setup before starting the indirect read or write operation. The.." line.long 0x24 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_remap_addr_reg,Remap Address Register" hexmask.long 0x24 0.--31. 1. "VALUE_FLD,This register is used to remap an incoming AHB address to a different address used by the FLASH device." line.long 0x28 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_mode_bit_config_reg,Mode Bit Configuration Register" hexmask.long.byte 0x28 24.--31. 1. "RX_CRC_DATA_LOW_FLD,RX CRC data [lower] The first CRC byte returned after RX data chunk." newline hexmask.long.byte 0x28 16.--23. 1. "RX_CRC_DATA_UP_FLD,RX CRC data [upper] The second CRC byte returned after RX data chunk." newline bitfld.long 0x28 15. "CRC_OUT_ENABLE_FLD,CRC# output enable bit When enabled the controller expects the Flash Device to toggle CRC data on both SPI clock edges in CRC->CRC# sequence and calculates CRC compliance accordingly." "0,1" newline bitfld.long 0x28 8.--10. "CHUNK_SIZE_FLD,It defines size of chunk after which CRC data is expected to show up on the SPI interface for write and read data transfers." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x28 0.--7. 1. "MODE_FLD,These are the 8 mode bits that are sent to the device following the address bytes if mode bit transmission has been enabled." rgroup.long 0x2C++0x3 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_sram_fill_reg,SRAM Fill Register" hexmask.long.word 0x0 16.--31. 1. "SRAM_FILL_INDAC_WRITE_FLD,SRAM Fill Level [Indirect Write Partition]: Identifies the current fill level of the SRAM Indirect Write partition" newline hexmask.long.word 0x0 0.--15. 1. "SRAM_FILL_INDAC_READ_FLD,SRAM Fill Level [Indirect Read Partition]: Identifies the current fill level of the SRAM Indirect Read partition" group.long 0x30++0x17 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_tx_thresh_reg,TX Threshold Register" hexmask.long.byte 0x0 0.--4. 1. "LEVEL_FLD,Defines the level at which the small TX FIFO not full interrupt is generated" line.long 0x4 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_rx_thresh_reg,RX Threshold Register" hexmask.long.byte 0x4 0.--4. 1. "LEVEL_FLD,Defines the level at which the small RX FIFO not empty interrupt is generated" line.long 0x8 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_write_completion_ctrl_reg,Write Completion Control Register: This register defines how the controller will poll the device following a write transfer" hexmask.long.byte 0x8 24.--31. 1. "POLL_REP_DELAY_FLD,Defines additional delay for maintain Chip Select de-asserted during auto-polling phase" newline hexmask.long.byte 0x8 16.--23. 1. "POLL_COUNT_FLD,Defines the number of times the controller should expect to see a true result from the polling in successive reads of the device register." newline bitfld.long 0x8 15. "ENABLE_POLLING_EXP_FLD,Set to '1' for enabling auto-polling expiration." "0,1" newline bitfld.long 0x8 14. "DISABLE_POLLING_FLD,This switches off the automatic polling function" "0,1" newline bitfld.long 0x8 13. "POLLING_POLARITY_FLD,Defines the polling polarity. If '1' then the write transfer to the device will be complete if the polled bit is equal to '1'. If '0' then the write transfer to the device will be complete if the polled bit is equal to '0'." "0,1" newline bitfld.long 0x8 8.--10. "POLLING_BIT_INDEX_FLD,Defines the bit index that should be polled. A value of 010 means that bit 2 of the returned data will be polled for.A value of 111 means that bit 7 of the returned data will be polled for." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x8 0.--7. 1. "OPCODE_FLD,Defines the opcode that should be issued by the controller when it is automatically polling for device program completion. This command is issued followed all device write operations. By default this will poll the standard device STATUS.." line.long 0xC "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_no_of_polls_bef_exp_reg,Polling Expiration Register" hexmask.long 0xC 0.--31. 1. "NO_OF_POLLS_BEF_EXP_FLD,Number of polls cycles before expiration" line.long 0x10 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_irq_status_reg,Interrupt Status Register: The status fields in this register are set when the described event occurs and the interrupt is enabled in the mask register. When any of.." bitfld.long 0x10 19. "ECC_FAIL_FLD,ECC failure This interrupt informs the system that Flash Device reported ECC error." "0,1" newline bitfld.long 0x10 18. "TX_CRC_CHUNK_BRK_FLD,TX CRC chunk was broken This interrupt informs the system that program page SPI transfer was discontinued somewhere inside the chunk." "0,1" newline bitfld.long 0x10 17. "RX_CRC_DATA_VAL_FLD,RX CRC data valid New RX CRC data was captured from Flash Device" "0,1" newline bitfld.long 0x10 16. "RX_CRC_DATA_ERR_FLD,RX CRC data error CRC data from Flash Device does not correspond to the one dynamically calculated by the controller." "0,1" newline bitfld.long 0x10 14. "STIG_REQ_INT_FLD,The controller is ready for getting another STIG request." "0,1" newline bitfld.long 0x10 13. "POLL_EXP_INT_FLD,The maximum number of programmed polls cycles is expired" "0,1" newline bitfld.long 0x10 12. "INDRD_SRAM_FULL_FLD,Indirect Read Partition overflow: Indirect Read Partition of SRAM is full and unable to immediately complete indirect operation" "0,1" newline bitfld.long 0x10 11. "RX_FIFO_FULL_FLD,Small RX FIFO full: Current FIFO status can be ignored in non-SPI legacy mode 0 : FIFO is not full 1 : FIFO is full" "0: FIFO is not full,1: FIFO is full" newline bitfld.long 0x10 10. "RX_FIFO_NOT_EMPTY_FLD,Small RX FIFO not empty: Current FIFO status can be ignored in non-SPI legacy mode 0 : FIFO has less than RX THRESHOLD entries 1 : FIFO has >= THRESHOLD entries" "0: FIFO has less than RX THRESHOLD entries,1: FIFO has >= THRESHOLD entries" newline bitfld.long 0x10 9. "TX_FIFO_FULL_FLD,Small TX FIFO full: Current FIFO status can be ignored in non-SPI legacy mode 0 : FIFO is not full 1 : FIFO is full" "0: FIFO is not full,1: FIFO is full" newline bitfld.long 0x10 8. "TX_FIFO_NOT_FULL_FLD,Small TX FIFO not full: Current FIFO status can be ignored in non-SPI legacy mode 0 : FIFO has >= THRESHOLD entries 1 : FIFO has less than THRESHOLD entries" "0: FIFO has >= THRESHOLD entries,1: FIFO has less than THRESHOLD entries" newline bitfld.long 0x10 7. "RECV_OVERFLOW_FLD,Receive Overflow: This should only occur in Legacy SPI mode. Set if an attempt is made to push the RX FIFO when it is full. This bit is reset only by a system reset and cleared only when this register is read. If a new push to the RX.." "0: no overflow has been detected,1: an overflow has occurred" newline bitfld.long 0x10 6. "INDIRECT_XFER_LEVEL_BREACH_FLD,Indirect Transfer Watermark Level Breached" "0,1" newline bitfld.long 0x10 5. "ILLEGAL_ACCESS_DET_FLD,Illegal AHB access has been detected. AHB wrapping bursts and the use of SPLIT/RETRY accesses will cause this error interrupt to trigger." "0,1" newline bitfld.long 0x10 4. "PROT_WR_ATTEMPT_FLD,Write to protected area was attempted and rejected." "0,1" newline bitfld.long 0x10 3. "INDIRECT_READ_REJECT_FLD,Indirect operation was requested but could not be accepted. Two indirect operations already in storage." "0,1" newline bitfld.long 0x10 2. "INDIRECT_OP_DONE_FLD,Indirect Operation Complete: Controller has completed last triggered indirect operation" "0,1" newline bitfld.long 0x10 1. "UNDERFLOW_DET_FLD,Underflow Detected: 0 : no underflow has been detected 1 : underflow is detected and an attempt to transfer data is made when the small TX FIFO is empty. This may occur when AHB write data is being supplied too slowly to keep up with.." "0: no underflow has been detected,1: underflow is detected and an attempt to transfer.." newline bitfld.long 0x10 0. "MODE_M_FAIL_FLD,Mode M Failure: Mode M failure indicates the voltage on pin n_ss_in is inconsistent with the SPI mode. Set =1 if n_ss_in is low in initiator mode [multi-initiator contention]. These conditions will clear the spi_enable bit and disable the.." "0: no mode fault has been detected,1: a mode fault has occurred" line.long 0x14 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_irq_mask_reg,Interrupt Mask: 0 : the interrupt for the corresponding interrupt status register bit is disabled." bitfld.long 0x14 19. "ECC_FAIL_MASK_FLD,ECC failure Mask" "0,1" newline bitfld.long 0x14 18. "TX_CRC_CHUNK_BRK_MASK_FLD,TX CRC chunk was broken Mask" "0,1" newline bitfld.long 0x14 17. "RX_CRC_DATA_VAL_MASK_FLD,RX CRC data valid Mask" "0,1" newline bitfld.long 0x14 16. "RX_CRC_DATA_ERR_MASK_FLD,RX CRC data error Mask" "0,1" newline bitfld.long 0x14 14. "STIG_REQ_MASK_FLD,STIG request completion Mask" "0,1" newline bitfld.long 0x14 13. "POLL_EXP_INT_MASK_FLD,Polling expiration detected Mask" "0,1" newline bitfld.long 0x14 12. "INDRD_SRAM_FULL_MASK_FLD,Indirect Read Partition overflow mask" "0,1" newline bitfld.long 0x14 11. "RX_FIFO_FULL_MASK_FLD,Small RX FIFO full Mask" "0,1" newline bitfld.long 0x14 10. "RX_FIFO_NOT_EMPTY_MASK_FLD,Small RX FIFO not empty Mask" "0,1" newline bitfld.long 0x14 9. "TX_FIFO_FULL_MASK_FLD,Small TX FIFO full Mask" "0,1" newline bitfld.long 0x14 8. "TX_FIFO_NOT_FULL_MASK_FLD,Small TX FIFO not full Mask" "0,1" newline bitfld.long 0x14 7. "RECV_OVERFLOW_MASK_FLD,Receive Overflow Mask" "0,1" newline bitfld.long 0x14 6. "INDIRECT_XFER_LEVEL_BREACH_MASK_FLD,Transfer Watermark Breach Mask" "0,1" newline bitfld.long 0x14 5. "ILLEGAL_ACCESS_DET_MASK_FLD,Illegal Access Detected Mask" "0,1" newline bitfld.long 0x14 4. "PROT_WR_ATTEMPT_MASK_FLD,Protected Area Write Attempt Mask" "0,1" newline bitfld.long 0x14 3. "INDIRECT_READ_REJECT_MASK_FLD,Indirect Read Reject Mask" "0,1" newline bitfld.long 0x14 2. "INDIRECT_OP_DONE_MASK_FLD,Indirect Complete Mask" "0,1" newline bitfld.long 0x14 1. "UNDERFLOW_DET_MASK_FLD,Underflow Detected Mask" "0,1" newline bitfld.long 0x14 0. "MODE_M_FAIL_MASK_FLD,Mode M Failure Mask" "0,1" group.long 0x50++0xB line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_lower_wr_prot_reg,Lower Write Protection Register" hexmask.long 0x0 0.--31. 1. "SUBSECTOR_FLD,The block number that defines the lower block in the range of blocks that is to be locked from writing. The definition of a block in terms of number of bytes is programmable via the Device Size Configuration register." line.long 0x4 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_upper_wr_prot_reg,Upper Write Protection Register" hexmask.long 0x4 0.--31. 1. "SUBSECTOR_FLD,The block number that defines the upper block in the range of blocks that is to be locked from writing. The definition of a block in terms of number of bytes is programmable via the Device Size Configuration register." line.long 0x8 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_wr_prot_ctrl_reg,Write Protection Control Register" bitfld.long 0x8 1. "ENB_FLD,Write Protection Enable Bit: When set to 1 any AHB write access with an address within the protection region defined in the lower and upper write protection registers is rejected. An AHB error response is generated and an interrupt source.." "0,1" newline bitfld.long 0x8 0. "INV_FLD,Write Protection Inversion Bit: When set to 1 the protection region defined in the lower and upper write protection registers is inverted meaning it is the region that the system is permitted to write to. When set to 0 the protection region.." "0,1" group.long 0x60++0x23 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_indirect_read_xfer_ctrl_reg,Indirect Read Transfer Control Register" rbitfld.long 0x0 6.--7. "NUM_IND_OPS_DONE_FLD,This field contains the number of indirect operations which have been completed. This is used in conjunction with the indirect completion status field [bit 5]. It is incremented by hardware when an indirect operation has completed." "0,1,2,3" newline bitfld.long 0x0 5. "IND_OPS_DONE_STATUS_FLD,Indirect Completion Status: This field is set to 1 when an indirect operation has completed. Write a 1 to this field to clear it." "0,1" newline rbitfld.long 0x0 4. "RD_QUEUED_FLD,Two indirect read operations have been queued" "0,1" newline bitfld.long 0x0 3. "SRAM_FULL_FLD,SRAM Full: SRAM full and unable to immediately complete an indirect operation. Write a 1 to this field to clear it.; indirect operation [status]" "0,1" newline rbitfld.long 0x0 2. "RD_STATUS_FLD,Indirect Read Status: Indirect read operation in progress [status]" "0,1" newline bitfld.long 0x0 1. "CANCEL_FLD,Cancel Indirect Read: Writing a 1 to this bit will cancel all ongoing indirect read operations." "0,1" newline bitfld.long 0x0 0. "START_FLD,Start Indirect Read: Writing a 1 to this bit will trigger an indirect read operation. The assumption is that the indirect start address and the indirect number of bytes register is setup before triggering the indirect read operation." "0,1" line.long 0x4 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_indirect_read_xfer_watermark_reg,Indirect Read Transfer Watermark Register" hexmask.long 0x4 0.--31. 1. "LEVEL_FLD,Watermark Value: This represents the minimum fill level of the SRAM before a DMA peripheral access is permitted. When the SRAM fill level passes the watermark an interrupt is also generated. This field can be disabled by writing a value of all.." line.long 0x8 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_indirect_read_xfer_start_reg,Indirect Read Transfer Start Address Register" hexmask.long 0x8 0.--31. 1. "ADDR_FLD,This is the start address from which the indirect access will commence its READ operation." line.long 0xC "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_indirect_read_xfer_num_bytes_reg,Indirect Read Transfer Number Bytes Register" hexmask.long 0xC 0.--31. 1. "VALUE_FLD,This is the number of bytes that the indirect access will consume. This can be bigger than the configured size of SRAM." line.long 0x10 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_indirect_write_xfer_ctrl_reg,Indirect Write Transfer Control Register" rbitfld.long 0x10 6.--7. "NUM_IND_OPS_DONE_FLD,This field contains the number of indirect operations which have been completed. This is used in conjunction with the indirect completion status field [bit 5]. It is incremented by hardware when an indirect operation has completed." "0,1,2,3" newline bitfld.long 0x10 5. "IND_OPS_DONE_STATUS_FLD,Indirect Completion Status: This field is set to 1 when an indirect operation has completed. Write a 1 to this field to clear it." "0,1" newline rbitfld.long 0x10 4. "WR_QUEUED_FLD,Two indirect write operations have been queued" "0,1" newline rbitfld.long 0x10 2. "WR_STATUS_FLD,Indirect Write Status: Indirect write operation in progress [status]" "0,1" newline bitfld.long 0x10 1. "CANCEL_FLD,Cancel Indirect Write: Writing a 1 to this bit will cancel all ongoing indirect write operations." "0,1" newline bitfld.long 0x10 0. "START_FLD,Start Indirect Write: Writing a 1 to this bit will trigger an indirect write operation. The assumption is that the indirect start address and the indirect number of bytes register is setup before triggering the indirect write operation." "0,1" line.long 0x14 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_indirect_write_xfer_watermark_reg,Indirect Write Transfer Watermark Register" hexmask.long 0x14 0.--31. 1. "LEVEL_FLD,Watermark Value: This represents the maximum fill level of the SRAM before a DMA peripheral access is permitted. When the SRAM fill level falls below the watermark an interrupt is also generated. This field can be disabled by writing a value.." line.long 0x18 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_indirect_write_xfer_start_reg,Indirect Write Transfer Start Address Register" hexmask.long 0x18 0.--31. 1. "ADDR_FLD,Start of Indirect Access: This is the start address from which the indirect access will commence its READ operation." line.long 0x1C "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_indirect_write_xfer_num_bytes_reg,Indirect Write Transfer Number Bytes Register" hexmask.long 0x1C 0.--31. 1. "VALUE_FLD,Indirect Number of Bytes: This is the number of bytes that the indirect access will consume. This can be bigger than the configured size of SRAM." line.long 0x20 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_indirect_trigger_addr_range_reg,Indirect Trigger Address Range Register" hexmask.long.byte 0x20 0.--3. 1. "IND_RANGE_WIDTH_FLD,This is the address offset of Indirect Trigger Address Register." group.long 0x8C++0xB line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_flash_command_ctrl_mem_reg,Flash Command Control Memory Register" hexmask.long.word 0x0 20.--28. 1. "MEM_BANK_ADDR_FLD,The address of the Memory Bank which data will be read from." newline bitfld.long 0x0 16.--18. "NB_OF_STIG_READ_BYTES_FLD,It defines the number of read bytes for the extended STIG." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 8.--15. 1. "MEM_BANK_READ_DATA_FLD,Last requested data from the STIG Memory Bank." newline rbitfld.long 0x0 1. "MEM_BANK_REQ_IN_PROGRESS_FLD,Memory Bank data request in progress." "0,1" newline bitfld.long 0x0 0. "TRIGGER_MEM_BANK_REQ_FLD,Trigger the Memory Bank data request." "0,1" line.long 0x4 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_flash_cmd_ctrl_reg,Flash Command Control Register" hexmask.long.byte 0x4 24.--31. 1. "CMD_OPCODE_FLD,Command Opcode: The command opcode field should be setup before triggering the command. For example 0x20 maps to SubSector Erase. Writing to the execute field [bit 0] of this register launches the command. NOTE : Using this approach to.." newline bitfld.long 0x4 23. "ENB_READ_DATA_FLD,Read Data Enable: Set to 1 if the command specified in the command opcode field [bits 31:24] requires read data bytes to be received from the device." "0,1" newline bitfld.long 0x4 20.--22. "NUM_RD_DATA_BYTES_FLD,Number of Read Data Bytes: Up to 8 data bytes may be read using this command. Set to 0 for 1 byte and 7 for 8 bytes." "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 19. "ENB_COMD_ADDR_FLD,Command Address Enable: Set to 1 if the command specified in bits 31:24 requires an address. This should be setup before triggering the command via writing a 1 to the execute field." "0,1" newline bitfld.long 0x4 18. "ENB_MODE_BIT_FLD,Mode Bit Enable: Set to 1 to ensure the mode bits as defined in the Mode Bit Configuration register are sent following the address bytes." "0,1" newline bitfld.long 0x4 16.--17. "NUM_ADDR_BYTES_FLD,Number of Address Bytes: Set to the number of address bytes required [the address itself is programmed in the FLASH COMMAND ADDRESS REGISTERS]. This should be setup before triggering the command via bit 0 of this register. 2'b00 : 1.." "0: 1 address byte,1: 2 address bytes,2: 3 address bytes,3: 4 address bytes" newline bitfld.long 0x4 15. "ENB_WRITE_DATA_FLD,Write Data Enable: Set to 1 if the command specified in the command opcode field requires write data bytes to be sent to the device." "0,1" newline bitfld.long 0x4 12.--14. "NUM_WR_DATA_BYTES_FLD,Number of Write Data Bytes: Up to 8 Data bytes may be written using this command Set to 0 for 1 byte 7 for 8 bytes." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x4 7.--11. 1. "NUM_DUMMY_CYCLES_FLD,Number of Dummy cycles: Set to the number of dummy cycles required. This should be setup before triggering the command via the execute field of this register." newline bitfld.long 0x4 2. "STIG_MEM_BANK_EN_FLD,STIG Memory Bank enable bit." "0,1" newline rbitfld.long 0x4 1. "CMD_EXEC_STATUS_FLD,Command execution in progress." "0,1" newline bitfld.long 0x4 0. "CMD_EXEC_FLD,Execute the command." "0,1" line.long 0x8 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_flash_cmd_addr_reg,Flash Command Address Register" hexmask.long 0x8 0.--31. 1. "ADDR_FLD,Command Address: This should be setup before triggering the command with execute field [bit 0] of the Flash Command Control register. It is the address used by the command specified in the opcode field [bits 31:24] of the Flash Command Control.." rgroup.long 0xA0++0x7 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_flash_rd_data_lower_reg,Flash Command Read Data Register (Lower)" hexmask.long 0x0 0.--31. 1. "DATA_FLD,This is the data that is returned by the flash device for any status or configuration read operation carried out by triggering the event in the control register. The register will be valid when the polling bit in the control register is low." line.long 0x4 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_flash_rd_data_upper_reg,Flash Command Read Data Register (Upper)" hexmask.long 0x4 0.--31. 1. "DATA_FLD,This is the data that is returned by the FLASH device for any status or configuration read operation carried out by triggering the event in the control register. The register will be valid when the polling bit in the control register is low." group.long 0xA8++0x13 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_flash_wr_data_lower_reg,Flash Command Write Data Register (Lower)" hexmask.long 0x0 0.--31. 1. "DATA_FLD,Command Write Data Lower Byte: This is the command write data lower byte. This should be setup before triggering the command with execute field [bit 0] of the Flash Command Control register. It is the data that is to be written to the flash for.." line.long 0x4 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_flash_wr_data_upper_reg,Flash Command Write Data Register (Upper)" hexmask.long 0x4 0.--31. 1. "DATA_FLD,Command Write Data Upper Byte: This is the command write data upper byte. This should be setup before triggering the command with execute field [bit 0] of the Flash Command Control register. It is the data that is to be written to the flash for.." line.long 0x8 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_polling_flash_status_reg,Polling Flash Status Register" hexmask.long.byte 0x8 16.--19. 1. "DEVICE_STATUS_NB_DUMMY,Number of dummy cycles for auto-polling" newline rbitfld.long 0x8 8. "DEVICE_STATUS_VALID_FLD,Device Status Valid: This should be set when value in bits from 7 to 0 is valid." "0,1" newline hexmask.long.byte 0x8 0.--7. 1. "DEVICE_STATUS_FLD,Defines actual Status Register of Device" line.long 0xC "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_phy_configuration_reg,PHY Configuration Register" bitfld.long 0xC 31. "PHY_CONFIG_RESYNC_FLD,This bit is used for re-synchronisation delay lines to update them with values from TX DLL Delay and RX DLL Delay fields." "0,1" newline bitfld.long 0xC 30. "PHY_CONFIG_RESET_FLD,DLL Reset bit: This bit is used for reset of Delay Lines by software." "0,1" newline bitfld.long 0xC 29. "PHY_CONFIG_RX_DLL_BYPASS_FLD,RX DLL Bypass: This field determines id RX DLL is bypassed." "0,1" newline hexmask.long.byte 0xC 16.--22. 1. "PHY_CONFIG_TX_DLL_DELAY_FLD,TX DLL Delay: This field determines the number of delay elements to insert on data path between ref_clk and spi_clk." newline hexmask.long.byte 0xC 0.--6. 1. "PHY_CONFIG_RX_DLL_DELAY_FLD,RX DLL Delay: This field determines the number of delay elements to insert on data path between ref_clk and rx_dll_clk." line.long 0x10 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_phy_master_control_reg,PHY DLL Initiator Control Register" bitfld.long 0x10 24. "PHY_MASTER_LOCK_MODE_FLD,Determines if the initiator delay line locks on a full cycle or half cycle of delay." "0,1" newline bitfld.long 0x10 23. "PHY_MASTER_BYPASS_MODE_FLD,Controls the bypass mode of the initiator and target DLLs." "0,1" newline bitfld.long 0x10 20.--22. "PHY_MASTER_PHASE_DETECT_SELECTOR_FLD,Selects the number of delay elements to be inserted between the phase detect flip-flops." "0,1,2,3,4,5,6,7" newline bitfld.long 0x10 16.--18. "PHY_MASTER_NB_INDICATIONS_FLD,Holds the number of consecutive increment or decrement indications." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x10 0.--6. 1. "PHY_MASTER_INITIAL_DELAY_FLD,This value is the initial delay value for the DLL." rgroup.long 0xBC++0x7 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_dll_observable_lower_reg,DLL Observable Register Lower" hexmask.long.byte 0x0 24.--31. 1. "DLL_OBSERVABLE_LOWER_DLL_LOCK_INC_FLD,Holds the state of the cumulative dll_lock_inc register." newline hexmask.long.byte 0x0 16.--23. 1. "DLL_OBSERVABLE_LOWER_DLL_LOCK_DEC_FLD,Holds the state of the cumulative dll_lock_dec register." newline bitfld.long 0x0 15. "DLL_OBSERVABLE_LOWER_LOOPBACK_LOCK_FLD,This bit indicates that lock of loopback is done." "0,1" newline hexmask.long.byte 0x0 8.--14. 1. "DLL_OBSERVABLE_LOWER_LOCK_VALUE_FLD,Reports the DLL encoder value from the initiator DLL to the target DLLs." newline hexmask.long.byte 0x0 3.--7. 1. "DLL_OBSERVABLE_LOWER_UNLOCK_COUNTER_FLD,Reports the number of increments or decrements required for the initiator DLL to complete the locking process." newline bitfld.long 0x0 1.--2. "DLL_OBSERVABLE_LOWER_LOCK_MODE_FLD,Defines the mode in which the DLL has achieved the lock." "0,1,2,3" newline bitfld.long 0x0 0. "DLL_OBSERVABLE_LOWER_DLL_LOCK_FLD,Indicates status of DLL." "0,1" line.long 0x4 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_dll_observable_upper_reg,DLL Observable Register Upper" hexmask.long.byte 0x4 16.--22. 1. "DLL_OBSERVABLE_UPPER_TX_DECODER_OUTPUT_FLD,Holds the encoded value for the TX delay line for this slice." newline hexmask.long.byte 0x4 0.--6. 1. "DLL_OBSERVABLE__UPPER_RX_DECODER_OUTPUT_FLD,Holds the encoded value for the RX delay line for this slice." group.long 0xE0++0x7 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_opcode_ext_lower_reg,Opcode Extension Register (Lower)" hexmask.long.byte 0x0 24.--31. 1. "EXT_READ_OPCODE_FLD,Supplement byte of any Read Opcode" newline hexmask.long.byte 0x0 16.--23. 1. "EXT_WRITE_OPCODE_FLD,Supplement byte of any Write Opcode" newline hexmask.long.byte 0x0 8.--15. 1. "EXT_POLL_OPCODE_FLD,Supplement byte of any Polling Opcode" newline hexmask.long.byte 0x0 0.--7. 1. "EXT_STIG_OPCODE_FLD,Supplement byte of any STIG Opcode" line.long 0x4 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_opcode_ext_upper_reg,Opcode Extension Register (Upper)" hexmask.long.byte 0x4 24.--31. 1. "WEL_OPCODE_FLD,First byte of any WEL Opcode" newline hexmask.long.byte 0x4 16.--23. 1. "EXT_WEL_OPCODE_FLD,Supplement byte of any WEL Opcode" rgroup.long 0xFC++0x3 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__VBP2APB_WRAP__OSPI_CFG_VBP__OSPI_FLASH_APB_REGS_module_id_reg,Module ID Register" hexmask.long.byte 0x0 24.--31. 1. "FIX_PATCH_FLD,Fix/path number related to revision described by 3 LSBs of this register" newline hexmask.long.word 0x0 8.--23. 1. "MODULE_ID_FLD,Module/Revision ID number" newline bitfld.long 0x0 0.--1. "CONF_FLD,Configuration ID number: 0 : OCTAL + PHY Configuration 1 : OCTAL Configuration 2 : QUAD + PHY Configuration 3 : QUAD Configuration" "0: OCTAL + PHY Configuration,1: OCTAL Configuration,2: QUAD + PHY Configuration,3: QUAD Configuration" tree.end tree "FSS0_OSPI_0_OSPI0_ECC_AGGR (FSS0_OSPI_0_OSPI0_ECC_AGGR)" base ad:0x716000 rgroup.long 0x0++0x3 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__OSPI_WRAP__ECC_AGGR_VBP__REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__OSPI_WRAP__ECC_AGGR_VBP__REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__OSPI_WRAP__ECC_AGGR_VBP__REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__OSPI_WRAP__ECC_AGGR_VBP__REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__OSPI_WRAP__ECC_AGGR_VBP__REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "OSPI0__OSPI_CFG_VBUSP__OSPI_WRAP__ECC_AGGR_VBP__REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "SRAM_PEND,Interrupt Pending Status for sram_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__OSPI_WRAP__ECC_AGGR_VBP__REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "SRAM_ENABLE_SET,Interrupt Enable Set Register for sram_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__OSPI_WRAP__ECC_AGGR_VBP__REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "SRAM_ENABLE_CLR,Interrupt Enable Clear Register for sram_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__OSPI_WRAP__ECC_AGGR_VBP__REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "OSPI0__OSPI_CFG_VBUSP__OSPI_WRAP__ECC_AGGR_VBP__REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "SRAM_PEND,Interrupt Pending Status for sram_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__OSPI_WRAP__ECC_AGGR_VBP__REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "SRAM_ENABLE_SET,Interrupt Enable Set Register for sram_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__OSPI_WRAP__ECC_AGGR_VBP__REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "SRAM_ENABLE_CLR,Interrupt Enable Clear Register for sram_pend" "0,1" group.long 0x200++0xF line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__OSPI_WRAP__ECC_AGGR_VBP__REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "OSPI0__OSPI_CFG_VBUSP__OSPI_WRAP__ECC_AGGR_VBP__REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "OSPI0__OSPI_CFG_VBUSP__OSPI_WRAP__ECC_AGGR_VBP__REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "OSPI0__OSPI_CFG_VBUSP__OSPI_WRAP__ECC_AGGR_VBP__REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "FSS0_OSPI_0_OSPI0_SS_CFG (FSS0_OSPI_0_OSPI0_SS_CFG)" base ad:0xFC44000 rgroup.long 0x0++0x3 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__MMR__MMRVBP__REGS_PID,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__MMR__MMRVBP__REGS_CTRL,The Control Register contains general control bits for the ospi" bitfld.long 0x0 3. "PIPELINE_MODE_FLUSH,1 - Flush Cadence Flash Controller FIFO by forcin gAHB SEL low. 0 - AHB Sel to Cadence Controller is 1" "0,1" rgroup.long 0x8++0x3 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__MMR__MMRVBP__REGS_STAT,The Status register provide general status bits for the ospi" bitfld.long 0x0 1. "MEM_INIT_DONE,0:Memory Initialization is in progress 1:Memory Intialization Done" "0: Memory Initialization is in progress,1: Memory Intialization Done" wgroup.long 0x20++0x3 line.long 0x0 "OSPI0__OSPI_CFG_VBUSP__MMR__MMRVBP__REGS_EOI,End of Interrupt Register" hexmask.long.byte 0x0 0.--7. 1. "EOI,Write with bit position of targetted interrupt. (E.g. Ext TS is bit 0). Upon write level interrupt will clear and if unserviced interrupt counter > 1 will issue another pulse interrupt" tree.end tree.end tree.end tree "GICSS0" base ad:0x0 tree "GICSS0_GIC (GICSS0_GIC)" base ad:0x1800000 group.long 0x0++0xB line.long 0x0 "GIC_REGS_Distributor__1_GICD_CTLR,GICD_CTLR" bitfld.long 0x0 31. "DISTRIBUTOR__1_GICD_CTLR__31_1,Register Write Pending" "0,1" newline bitfld.long 0x0 6. "DISTRIBUTOR__1_GICD_CTLR__6_1,S: DS" "0,1" newline bitfld.long 0x0 5. "DISTRIBUTOR__1_GICD_CTLR__5_1,S: ARE_NS" "0,1" newline bitfld.long 0x0 4. "DISTRIBUTOR__1_GICD_CTLR__4_1,NS: ARE_NS S: ARE_S" "0,1" newline bitfld.long 0x0 2. "DISTRIBUTOR__1_GICD_CTLR__2_1,S: EnableGrp1_S" "0,1" newline bitfld.long 0x0 1. "DISTRIBUTOR__1_GICD_CTLR__1_1,NS: EnableGrp1A S: EnableGrp1_NS" "0,1" newline bitfld.long 0x0 0. "DISTRIBUTOR__1_GICD_CTLR__0_1,NS: EnableGrp1 S: EnableGrp0" "0,1" line.long 0x4 "GIC_REGS_Distributor__3_GICD_TYPER,GICD_TYPER" bitfld.long 0x4 24. "DISTRIBUTOR__3_GICD_TYPER__24_1,A3V" "0,1" newline hexmask.long.byte 0x4 19.--23. 1. "DISTRIBUTOR__3_GICD_TYPER__19_5,IDbits" newline bitfld.long 0x4 18. "DISTRIBUTOR__3_GICD_TYPER__18_1,DVIS" "0,1" newline bitfld.long 0x4 17. "DISTRIBUTOR__3_GICD_TYPER__17_1,LPIS" "0,1" newline bitfld.long 0x4 16. "DISTRIBUTOR__3_GICD_TYPER__16_1,MBIS" "0,1" newline hexmask.long.byte 0x4 11.--15. 1. "DISTRIBUTOR__3_GICD_TYPER__11_5,LSPI" newline bitfld.long 0x4 10. "DISTRIBUTOR__3_GICD_TYPER__10_1,SecurityExtn" "0,1" newline bitfld.long 0x4 5.--7. "DISTRIBUTOR__3_GICD_TYPER__5_3,CPUNumber" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x4 0.--4. 1. "DISTRIBUTOR__3_GICD_TYPER__0_5,ITLinesNumber" line.long 0x8 "GIC_REGS_Distributor__4_GICD_IIDR,GICD_IIDR" hexmask.long.byte 0x8 24.--31. 1. "DISTRIBUTOR__4_GICD_IIDR__24_8,ProductID" newline hexmask.long.byte 0x8 16.--19. 1. "DISTRIBUTOR__4_GICD_IIDR__16_4,Variant" newline hexmask.long.byte 0x8 12.--15. 1. "DISTRIBUTOR__4_GICD_IIDR__12_4,Revision" newline hexmask.long.word 0x8 0.--11. 1. "DISTRIBUTOR__4_GICD_IIDR__0_12,Implementer" group.long 0x40++0x3 line.long 0x0 "GIC_REGS_Distributor__5_GICD_SETSPI_NSR,GICD_SETSPI_NSR" hexmask.long.word 0x0 0.--9. 1. "DISTRIBUTOR__5_GICD_SETSPI_NSR__0_10,SPI ID" group.long 0x48++0x3 line.long 0x0 "GIC_REGS_Distributor__6_GICD_CLRSPI_NSR,GICD_CLRSPI_NSR" hexmask.long.word 0x0 0.--9. 1. "DISTRIBUTOR__6_GICD_CLRSPI_NSR__0_10,SPI ID" group.long 0x50++0x3 line.long 0x0 "GIC_REGS_Distributor__7_GICD_SETSPI_SR,GICD_SETSPI_SR" hexmask.long.word 0x0 0.--9. 1. "DISTRIBUTOR__7_GICD_SETSPI_SR__0_10,SPI ID" group.long 0x58++0x3 line.long 0x0 "GIC_REGS_Distributor__8_GICD_CLRSPI_SR,GICD_CLRSPI_SR" hexmask.long.word 0x0 0.--9. 1. "DISTRIBUTOR__8_GICD_CLRSPI_SR__0_10,SPI ID" group.long 0x80++0x23 line.long 0x0 "GIC_REGS_Distributor__9_GICD_IGROUPR0,GICD_IGROUPR0" line.long 0x4 "GIC_REGS_Distributor__10_GICD_IGROUPR1,GICD_IGROUPR1" line.long 0x8 "GIC_REGS_Distributor__10_GICD_IGROUPR2,GICD_IGROUPR2" line.long 0xC "GIC_REGS_Distributor__10_GICD_IGROUPR3,GICD_IGROUPR3" line.long 0x10 "GIC_REGS_Distributor__10_GICD_IGROUPR4,GICD_IGROUPR4" line.long 0x14 "GIC_REGS_Distributor__10_GICD_IGROUPR5,GICD_IGROUPR5" line.long 0x18 "GIC_REGS_Distributor__10_GICD_IGROUPR6,GICD_IGROUPR6" line.long 0x1C "GIC_REGS_Distributor__10_GICD_IGROUPR7,GICD_IGROUPR7" line.long 0x20 "GIC_REGS_Distributor__10_GICD_IGROUPR8,GICD_IGROUPR8" group.long 0x104++0x1F line.long 0x0 "GIC_REGS_Distributor__12_GICD_ISENABLER1,GICD_ISENABLER1" line.long 0x4 "GIC_REGS_Distributor__12_GICD_ISENABLER2,GICD_ISENABLER2" line.long 0x8 "GIC_REGS_Distributor__12_GICD_ISENABLER3,GICD_ISENABLER3" line.long 0xC "GIC_REGS_Distributor__12_GICD_ISENABLER4,GICD_ISENABLER4" line.long 0x10 "GIC_REGS_Distributor__12_GICD_ISENABLER5,GICD_ISENABLER5" line.long 0x14 "GIC_REGS_Distributor__12_GICD_ISENABLER6,GICD_ISENABLER6" line.long 0x18 "GIC_REGS_Distributor__12_GICD_ISENABLER7,GICD_ISENABLER7" line.long 0x1C "GIC_REGS_Distributor__12_GICD_ISENABLER8,GICD_ISENABLER8" group.long 0x184++0x1F line.long 0x0 "GIC_REGS_Distributor__14_GICD_ICENABLER1,GICD_ICENABLER1" line.long 0x4 "GIC_REGS_Distributor__14_GICD_ICENABLER2,GICD_ICENABLER2" line.long 0x8 "GIC_REGS_Distributor__14_GICD_ICENABLER3,GICD_ICENABLER3" line.long 0xC "GIC_REGS_Distributor__14_GICD_ICENABLER4,GICD_ICENABLER4" line.long 0x10 "GIC_REGS_Distributor__14_GICD_ICENABLER5,GICD_ICENABLER5" line.long 0x14 "GIC_REGS_Distributor__14_GICD_ICENABLER6,GICD_ICENABLER6" line.long 0x18 "GIC_REGS_Distributor__14_GICD_ICENABLER7,GICD_ICENABLER7" line.long 0x1C "GIC_REGS_Distributor__14_GICD_ICENABLER8,GICD_ICENABLER8" group.long 0x204++0x1F line.long 0x0 "GIC_REGS_Distributor__16_GICD_ISPENDR1,GICD_ISPENDR1" line.long 0x4 "GIC_REGS_Distributor__16_GICD_ISPENDR2,GICD_ISPENDR2" line.long 0x8 "GIC_REGS_Distributor__16_GICD_ISPENDR3,GICD_ISPENDR3" line.long 0xC "GIC_REGS_Distributor__16_GICD_ISPENDR4,GICD_ISPENDR4" line.long 0x10 "GIC_REGS_Distributor__16_GICD_ISPENDR5,GICD_ISPENDR5" line.long 0x14 "GIC_REGS_Distributor__16_GICD_ISPENDR6,GICD_ISPENDR6" line.long 0x18 "GIC_REGS_Distributor__16_GICD_ISPENDR7,GICD_ISPENDR7" line.long 0x1C "GIC_REGS_Distributor__16_GICD_ISPENDR8,GICD_ISPENDR8" group.long 0x284++0x1F line.long 0x0 "GIC_REGS_Distributor__18_GICD_ICPENDR1,GICD_ICPENDR1" line.long 0x4 "GIC_REGS_Distributor__18_GICD_ICPENDR2,GICD_ICPENDR2" line.long 0x8 "GIC_REGS_Distributor__18_GICD_ICPENDR3,GICD_ICPENDR3" line.long 0xC "GIC_REGS_Distributor__18_GICD_ICPENDR4,GICD_ICPENDR4" line.long 0x10 "GIC_REGS_Distributor__18_GICD_ICPENDR5,GICD_ICPENDR5" line.long 0x14 "GIC_REGS_Distributor__18_GICD_ICPENDR6,GICD_ICPENDR6" line.long 0x18 "GIC_REGS_Distributor__18_GICD_ICPENDR7,GICD_ICPENDR7" line.long 0x1C "GIC_REGS_Distributor__18_GICD_ICPENDR8,GICD_ICPENDR8" group.long 0x304++0x1F line.long 0x0 "GIC_REGS_Distributor__20_GICD_ISACTIVER1,GICD_ISACTIVER1" line.long 0x4 "GIC_REGS_Distributor__20_GICD_ISACTIVER2,GICD_ISACTIVER2" line.long 0x8 "GIC_REGS_Distributor__20_GICD_ISACTIVER3,GICD_ISACTIVER3" line.long 0xC "GIC_REGS_Distributor__20_GICD_ISACTIVER4,GICD_ISACTIVER4" line.long 0x10 "GIC_REGS_Distributor__20_GICD_ISACTIVER5,GICD_ISACTIVER5" line.long 0x14 "GIC_REGS_Distributor__20_GICD_ISACTIVER6,GICD_ISACTIVER6" line.long 0x18 "GIC_REGS_Distributor__20_GICD_ISACTIVER7,GICD_ISACTIVER7" line.long 0x1C "GIC_REGS_Distributor__20_GICD_ISACTIVER8,GICD_ISACTIVER8" group.long 0x384++0x1F line.long 0x0 "GIC_REGS_Distributor__22_GICD_ICACTIVER1,GICD_ICACTIVER1" line.long 0x4 "GIC_REGS_Distributor__22_GICD_ICACTIVER2,GICD_ICACTIVER2" line.long 0x8 "GIC_REGS_Distributor__22_GICD_ICACTIVER3,GICD_ICACTIVER3" line.long 0xC "GIC_REGS_Distributor__22_GICD_ICACTIVER4,GICD_ICACTIVER4" line.long 0x10 "GIC_REGS_Distributor__22_GICD_ICACTIVER5,GICD_ICACTIVER5" line.long 0x14 "GIC_REGS_Distributor__22_GICD_ICACTIVER6,GICD_ICACTIVER6" line.long 0x18 "GIC_REGS_Distributor__22_GICD_ICACTIVER7,GICD_ICACTIVER7" line.long 0x1C "GIC_REGS_Distributor__22_GICD_ICACTIVER8,GICD_ICACTIVER8" group.long 0x420++0xFF line.long 0x0 "GIC_REGS_Distributor__24_GICD_IPRIORITYR8,GICD_IPRIORITYR8" line.long 0x4 "GIC_REGS_Distributor__24_GICD_IPRIORITYR9,GICD_IPRIORITYR9" line.long 0x8 "GIC_REGS_Distributor__24_GICD_IPRIORITYR10,GICD_IPRIORITYR10" line.long 0xC "GIC_REGS_Distributor__24_GICD_IPRIORITYR11,GICD_IPRIORITYR11" line.long 0x10 "GIC_REGS_Distributor__24_GICD_IPRIORITYR12,GICD_IPRIORITYR12" line.long 0x14 "GIC_REGS_Distributor__24_GICD_IPRIORITYR13,GICD_IPRIORITYR13" line.long 0x18 "GIC_REGS_Distributor__24_GICD_IPRIORITYR14,GICD_IPRIORITYR14" line.long 0x1C "GIC_REGS_Distributor__24_GICD_IPRIORITYR15,GICD_IPRIORITYR15" line.long 0x20 "GIC_REGS_Distributor__24_GICD_IPRIORITYR16,GICD_IPRIORITYR16" line.long 0x24 "GIC_REGS_Distributor__24_GICD_IPRIORITYR17,GICD_IPRIORITYR17" line.long 0x28 "GIC_REGS_Distributor__24_GICD_IPRIORITYR18,GICD_IPRIORITYR18" line.long 0x2C "GIC_REGS_Distributor__24_GICD_IPRIORITYR19,GICD_IPRIORITYR19" line.long 0x30 "GIC_REGS_Distributor__24_GICD_IPRIORITYR20,GICD_IPRIORITYR20" line.long 0x34 "GIC_REGS_Distributor__24_GICD_IPRIORITYR21,GICD_IPRIORITYR21" line.long 0x38 "GIC_REGS_Distributor__24_GICD_IPRIORITYR22,GICD_IPRIORITYR22" line.long 0x3C "GIC_REGS_Distributor__24_GICD_IPRIORITYR23,GICD_IPRIORITYR23" line.long 0x40 "GIC_REGS_Distributor__24_GICD_IPRIORITYR24,GICD_IPRIORITYR24" line.long 0x44 "GIC_REGS_Distributor__24_GICD_IPRIORITYR25,GICD_IPRIORITYR25" line.long 0x48 "GIC_REGS_Distributor__24_GICD_IPRIORITYR26,GICD_IPRIORITYR26" line.long 0x4C "GIC_REGS_Distributor__24_GICD_IPRIORITYR27,GICD_IPRIORITYR27" line.long 0x50 "GIC_REGS_Distributor__24_GICD_IPRIORITYR28,GICD_IPRIORITYR28" line.long 0x54 "GIC_REGS_Distributor__24_GICD_IPRIORITYR29,GICD_IPRIORITYR29" line.long 0x58 "GIC_REGS_Distributor__24_GICD_IPRIORITYR30,GICD_IPRIORITYR30" line.long 0x5C "GIC_REGS_Distributor__24_GICD_IPRIORITYR31,GICD_IPRIORITYR31" line.long 0x60 "GIC_REGS_Distributor__24_GICD_IPRIORITYR32,GICD_IPRIORITYR32" line.long 0x64 "GIC_REGS_Distributor__24_GICD_IPRIORITYR33,GICD_IPRIORITYR33" line.long 0x68 "GIC_REGS_Distributor__24_GICD_IPRIORITYR34,GICD_IPRIORITYR34" line.long 0x6C "GIC_REGS_Distributor__24_GICD_IPRIORITYR35,GICD_IPRIORITYR35" line.long 0x70 "GIC_REGS_Distributor__24_GICD_IPRIORITYR36,GICD_IPRIORITYR36" line.long 0x74 "GIC_REGS_Distributor__24_GICD_IPRIORITYR37,GICD_IPRIORITYR37" line.long 0x78 "GIC_REGS_Distributor__24_GICD_IPRIORITYR38,GICD_IPRIORITYR38" line.long 0x7C "GIC_REGS_Distributor__24_GICD_IPRIORITYR39,GICD_IPRIORITYR39" line.long 0x80 "GIC_REGS_Distributor__24_GICD_IPRIORITYR40,GICD_IPRIORITYR40" line.long 0x84 "GIC_REGS_Distributor__24_GICD_IPRIORITYR41,GICD_IPRIORITYR41" line.long 0x88 "GIC_REGS_Distributor__24_GICD_IPRIORITYR42,GICD_IPRIORITYR42" line.long 0x8C "GIC_REGS_Distributor__24_GICD_IPRIORITYR43,GICD_IPRIORITYR43" line.long 0x90 "GIC_REGS_Distributor__24_GICD_IPRIORITYR44,GICD_IPRIORITYR44" line.long 0x94 "GIC_REGS_Distributor__24_GICD_IPRIORITYR45,GICD_IPRIORITYR45" line.long 0x98 "GIC_REGS_Distributor__24_GICD_IPRIORITYR46,GICD_IPRIORITYR46" line.long 0x9C "GIC_REGS_Distributor__24_GICD_IPRIORITYR47,GICD_IPRIORITYR47" line.long 0xA0 "GIC_REGS_Distributor__24_GICD_IPRIORITYR48,GICD_IPRIORITYR48" line.long 0xA4 "GIC_REGS_Distributor__24_GICD_IPRIORITYR49,GICD_IPRIORITYR49" line.long 0xA8 "GIC_REGS_Distributor__24_GICD_IPRIORITYR50,GICD_IPRIORITYR50" line.long 0xAC "GIC_REGS_Distributor__24_GICD_IPRIORITYR51,GICD_IPRIORITYR51" line.long 0xB0 "GIC_REGS_Distributor__24_GICD_IPRIORITYR52,GICD_IPRIORITYR52" line.long 0xB4 "GIC_REGS_Distributor__24_GICD_IPRIORITYR53,GICD_IPRIORITYR53" line.long 0xB8 "GIC_REGS_Distributor__24_GICD_IPRIORITYR54,GICD_IPRIORITYR54" line.long 0xBC "GIC_REGS_Distributor__24_GICD_IPRIORITYR55,GICD_IPRIORITYR55" line.long 0xC0 "GIC_REGS_Distributor__24_GICD_IPRIORITYR56,GICD_IPRIORITYR56" line.long 0xC4 "GIC_REGS_Distributor__24_GICD_IPRIORITYR57,GICD_IPRIORITYR57" line.long 0xC8 "GIC_REGS_Distributor__24_GICD_IPRIORITYR58,GICD_IPRIORITYR58" line.long 0xCC "GIC_REGS_Distributor__24_GICD_IPRIORITYR59,GICD_IPRIORITYR59" line.long 0xD0 "GIC_REGS_Distributor__24_GICD_IPRIORITYR60,GICD_IPRIORITYR60" line.long 0xD4 "GIC_REGS_Distributor__24_GICD_IPRIORITYR61,GICD_IPRIORITYR61" line.long 0xD8 "GIC_REGS_Distributor__24_GICD_IPRIORITYR62,GICD_IPRIORITYR62" line.long 0xDC "GIC_REGS_Distributor__24_GICD_IPRIORITYR63,GICD_IPRIORITYR63" line.long 0xE0 "GIC_REGS_Distributor__24_GICD_IPRIORITYR64,GICD_IPRIORITYR64" line.long 0xE4 "GIC_REGS_Distributor__24_GICD_IPRIORITYR65,GICD_IPRIORITYR65" line.long 0xE8 "GIC_REGS_Distributor__24_GICD_IPRIORITYR66,GICD_IPRIORITYR66" line.long 0xEC "GIC_REGS_Distributor__24_GICD_IPRIORITYR67,GICD_IPRIORITYR67" line.long 0xF0 "GIC_REGS_Distributor__24_GICD_IPRIORITYR68,GICD_IPRIORITYR68" line.long 0xF4 "GIC_REGS_Distributor__24_GICD_IPRIORITYR69,GICD_IPRIORITYR69" line.long 0xF8 "GIC_REGS_Distributor__24_GICD_IPRIORITYR70,GICD_IPRIORITYR70" line.long 0xFC "GIC_REGS_Distributor__24_GICD_IPRIORITYR71,GICD_IPRIORITYR71" group.long 0x820++0xFF line.long 0x0 "GIC_REGS_Distributor__26_GICD_ITARGETSR8,GICD_ITARGETSR8" line.long 0x4 "GIC_REGS_Distributor__26_GICD_ITARGETSR9,GICD_ITARGETSR9" line.long 0x8 "GIC_REGS_Distributor__26_GICD_ITARGETSR10,GICD_ITARGETSR10" line.long 0xC "GIC_REGS_Distributor__26_GICD_ITARGETSR11,GICD_ITARGETSR11" line.long 0x10 "GIC_REGS_Distributor__26_GICD_ITARGETSR12,GICD_ITARGETSR12" line.long 0x14 "GIC_REGS_Distributor__26_GICD_ITARGETSR13,GICD_ITARGETSR13" line.long 0x18 "GIC_REGS_Distributor__26_GICD_ITARGETSR14,GICD_ITARGETSR14" line.long 0x1C "GIC_REGS_Distributor__26_GICD_ITARGETSR15,GICD_ITARGETSR15" line.long 0x20 "GIC_REGS_Distributor__26_GICD_ITARGETSR16,GICD_ITARGETSR16" line.long 0x24 "GIC_REGS_Distributor__26_GICD_ITARGETSR17,GICD_ITARGETSR17" line.long 0x28 "GIC_REGS_Distributor__26_GICD_ITARGETSR18,GICD_ITARGETSR18" line.long 0x2C "GIC_REGS_Distributor__26_GICD_ITARGETSR19,GICD_ITARGETSR19" line.long 0x30 "GIC_REGS_Distributor__26_GICD_ITARGETSR20,GICD_ITARGETSR20" line.long 0x34 "GIC_REGS_Distributor__26_GICD_ITARGETSR21,GICD_ITARGETSR21" line.long 0x38 "GIC_REGS_Distributor__26_GICD_ITARGETSR22,GICD_ITARGETSR22" line.long 0x3C "GIC_REGS_Distributor__26_GICD_ITARGETSR23,GICD_ITARGETSR23" line.long 0x40 "GIC_REGS_Distributor__26_GICD_ITARGETSR24,GICD_ITARGETSR24" line.long 0x44 "GIC_REGS_Distributor__26_GICD_ITARGETSR25,GICD_ITARGETSR25" line.long 0x48 "GIC_REGS_Distributor__26_GICD_ITARGETSR26,GICD_ITARGETSR26" line.long 0x4C "GIC_REGS_Distributor__26_GICD_ITARGETSR27,GICD_ITARGETSR27" line.long 0x50 "GIC_REGS_Distributor__26_GICD_ITARGETSR28,GICD_ITARGETSR28" line.long 0x54 "GIC_REGS_Distributor__26_GICD_ITARGETSR29,GICD_ITARGETSR29" line.long 0x58 "GIC_REGS_Distributor__26_GICD_ITARGETSR30,GICD_ITARGETSR30" line.long 0x5C "GIC_REGS_Distributor__26_GICD_ITARGETSR31,GICD_ITARGETSR31" line.long 0x60 "GIC_REGS_Distributor__26_GICD_ITARGETSR32,GICD_ITARGETSR32" line.long 0x64 "GIC_REGS_Distributor__26_GICD_ITARGETSR33,GICD_ITARGETSR33" line.long 0x68 "GIC_REGS_Distributor__26_GICD_ITARGETSR34,GICD_ITARGETSR34" line.long 0x6C "GIC_REGS_Distributor__26_GICD_ITARGETSR35,GICD_ITARGETSR35" line.long 0x70 "GIC_REGS_Distributor__26_GICD_ITARGETSR36,GICD_ITARGETSR36" line.long 0x74 "GIC_REGS_Distributor__26_GICD_ITARGETSR37,GICD_ITARGETSR37" line.long 0x78 "GIC_REGS_Distributor__26_GICD_ITARGETSR38,GICD_ITARGETSR38" line.long 0x7C "GIC_REGS_Distributor__26_GICD_ITARGETSR39,GICD_ITARGETSR39" line.long 0x80 "GIC_REGS_Distributor__26_GICD_ITARGETSR40,GICD_ITARGETSR40" line.long 0x84 "GIC_REGS_Distributor__26_GICD_ITARGETSR41,GICD_ITARGETSR41" line.long 0x88 "GIC_REGS_Distributor__26_GICD_ITARGETSR42,GICD_ITARGETSR42" line.long 0x8C "GIC_REGS_Distributor__26_GICD_ITARGETSR43,GICD_ITARGETSR43" line.long 0x90 "GIC_REGS_Distributor__26_GICD_ITARGETSR44,GICD_ITARGETSR44" line.long 0x94 "GIC_REGS_Distributor__26_GICD_ITARGETSR45,GICD_ITARGETSR45" line.long 0x98 "GIC_REGS_Distributor__26_GICD_ITARGETSR46,GICD_ITARGETSR46" line.long 0x9C "GIC_REGS_Distributor__26_GICD_ITARGETSR47,GICD_ITARGETSR47" line.long 0xA0 "GIC_REGS_Distributor__26_GICD_ITARGETSR48,GICD_ITARGETSR48" line.long 0xA4 "GIC_REGS_Distributor__26_GICD_ITARGETSR49,GICD_ITARGETSR49" line.long 0xA8 "GIC_REGS_Distributor__26_GICD_ITARGETSR50,GICD_ITARGETSR50" line.long 0xAC "GIC_REGS_Distributor__26_GICD_ITARGETSR51,GICD_ITARGETSR51" line.long 0xB0 "GIC_REGS_Distributor__26_GICD_ITARGETSR52,GICD_ITARGETSR52" line.long 0xB4 "GIC_REGS_Distributor__26_GICD_ITARGETSR53,GICD_ITARGETSR53" line.long 0xB8 "GIC_REGS_Distributor__26_GICD_ITARGETSR54,GICD_ITARGETSR54" line.long 0xBC "GIC_REGS_Distributor__26_GICD_ITARGETSR55,GICD_ITARGETSR55" line.long 0xC0 "GIC_REGS_Distributor__26_GICD_ITARGETSR56,GICD_ITARGETSR56" line.long 0xC4 "GIC_REGS_Distributor__26_GICD_ITARGETSR57,GICD_ITARGETSR57" line.long 0xC8 "GIC_REGS_Distributor__26_GICD_ITARGETSR58,GICD_ITARGETSR58" line.long 0xCC "GIC_REGS_Distributor__26_GICD_ITARGETSR59,GICD_ITARGETSR59" line.long 0xD0 "GIC_REGS_Distributor__26_GICD_ITARGETSR60,GICD_ITARGETSR60" line.long 0xD4 "GIC_REGS_Distributor__26_GICD_ITARGETSR61,GICD_ITARGETSR61" line.long 0xD8 "GIC_REGS_Distributor__26_GICD_ITARGETSR62,GICD_ITARGETSR62" line.long 0xDC "GIC_REGS_Distributor__26_GICD_ITARGETSR63,GICD_ITARGETSR63" line.long 0xE0 "GIC_REGS_Distributor__26_GICD_ITARGETSR64,GICD_ITARGETSR64" line.long 0xE4 "GIC_REGS_Distributor__26_GICD_ITARGETSR65,GICD_ITARGETSR65" line.long 0xE8 "GIC_REGS_Distributor__26_GICD_ITARGETSR66,GICD_ITARGETSR66" line.long 0xEC "GIC_REGS_Distributor__26_GICD_ITARGETSR67,GICD_ITARGETSR67" line.long 0xF0 "GIC_REGS_Distributor__26_GICD_ITARGETSR68,GICD_ITARGETSR68" line.long 0xF4 "GIC_REGS_Distributor__26_GICD_ITARGETSR69,GICD_ITARGETSR69" line.long 0xF8 "GIC_REGS_Distributor__26_GICD_ITARGETSR70,GICD_ITARGETSR70" line.long 0xFC "GIC_REGS_Distributor__26_GICD_ITARGETSR71,GICD_ITARGETSR71" group.long 0xC08++0x3F line.long 0x0 "GIC_REGS_Distributor__29_GICD_ICFGR2,GICD_ICFGR2" line.long 0x4 "GIC_REGS_Distributor__29_GICD_ICFGR3,GICD_ICFGR3" line.long 0x8 "GIC_REGS_Distributor__29_GICD_ICFGR4,GICD_ICFGR4" line.long 0xC "GIC_REGS_Distributor__29_GICD_ICFGR5,GICD_ICFGR5" line.long 0x10 "GIC_REGS_Distributor__29_GICD_ICFGR6,GICD_ICFGR6" line.long 0x14 "GIC_REGS_Distributor__29_GICD_ICFGR7,GICD_ICFGR7" line.long 0x18 "GIC_REGS_Distributor__29_GICD_ICFGR8,GICD_ICFGR8" line.long 0x1C "GIC_REGS_Distributor__29_GICD_ICFGR9,GICD_ICFGR9" line.long 0x20 "GIC_REGS_Distributor__29_GICD_ICFGR10,GICD_ICFGR10" line.long 0x24 "GIC_REGS_Distributor__29_GICD_ICFGR11,GICD_ICFGR11" line.long 0x28 "GIC_REGS_Distributor__29_GICD_ICFGR12,GICD_ICFGR12" line.long 0x2C "GIC_REGS_Distributor__29_GICD_ICFGR13,GICD_ICFGR13" line.long 0x30 "GIC_REGS_Distributor__29_GICD_ICFGR14,GICD_ICFGR14" line.long 0x34 "GIC_REGS_Distributor__29_GICD_ICFGR15,GICD_ICFGR15" line.long 0x38 "GIC_REGS_Distributor__29_GICD_ICFGR16,GICD_ICFGR16" line.long 0x3C "GIC_REGS_Distributor__29_GICD_ICFGR17,GICD_ICFGR17" group.long 0xD00++0x23 line.long 0x0 "GIC_REGS_Distributor__30_GICD_IGRPMODR0,GICD_IGRPMODR0" line.long 0x4 "GIC_REGS_Distributor__31_GICD_IGRPMODR1,GICD_IGRPMODR1" line.long 0x8 "GIC_REGS_Distributor__31_GICD_IGRPMODR2,GICD_IGRPMODR2" line.long 0xC "GIC_REGS_Distributor__31_GICD_IGRPMODR3,GICD_IGRPMODR3" line.long 0x10 "GIC_REGS_Distributor__31_GICD_IGRPMODR4,GICD_IGRPMODR4" line.long 0x14 "GIC_REGS_Distributor__31_GICD_IGRPMODR5,GICD_IGRPMODR5" line.long 0x18 "GIC_REGS_Distributor__31_GICD_IGRPMODR6,GICD_IGRPMODR6" line.long 0x1C "GIC_REGS_Distributor__31_GICD_IGRPMODR7,GICD_IGRPMODR7" line.long 0x20 "GIC_REGS_Distributor__31_GICD_IGRPMODR8,GICD_IGRPMODR8" group.long 0xE00++0x47 line.long 0x0 "GIC_REGS_Distributor__32_GICD_NSACR0,GICD_NSACR0" line.long 0x4 "GIC_REGS_Distributor__32_GICD_NSACR1,GICD_NSACR1" line.long 0x8 "GIC_REGS_Distributor__33_GICD_NSACR2,GICD_NSACR2" line.long 0xC "GIC_REGS_Distributor__33_GICD_NSACR3,GICD_NSACR3" line.long 0x10 "GIC_REGS_Distributor__33_GICD_NSACR4,GICD_NSACR4" line.long 0x14 "GIC_REGS_Distributor__33_GICD_NSACR5,GICD_NSACR5" line.long 0x18 "GIC_REGS_Distributor__33_GICD_NSACR6,GICD_NSACR6" line.long 0x1C "GIC_REGS_Distributor__33_GICD_NSACR7,GICD_NSACR7" line.long 0x20 "GIC_REGS_Distributor__33_GICD_NSACR8,GICD_NSACR8" line.long 0x24 "GIC_REGS_Distributor__33_GICD_NSACR9,GICD_NSACR9" line.long 0x28 "GIC_REGS_Distributor__33_GICD_NSACR10,GICD_NSACR10" line.long 0x2C "GIC_REGS_Distributor__33_GICD_NSACR11,GICD_NSACR11" line.long 0x30 "GIC_REGS_Distributor__33_GICD_NSACR12,GICD_NSACR12" line.long 0x34 "GIC_REGS_Distributor__33_GICD_NSACR13,GICD_NSACR13" line.long 0x38 "GIC_REGS_Distributor__33_GICD_NSACR14,GICD_NSACR14" line.long 0x3C "GIC_REGS_Distributor__33_GICD_NSACR15,GICD_NSACR15" line.long 0x40 "GIC_REGS_Distributor__33_GICD_NSACR16,GICD_NSACR16" line.long 0x44 "GIC_REGS_Distributor__33_GICD_NSACR17,GICD_NSACR17" group.long 0x6100++0x7FF line.long 0x0 "GIC_REGS_Distributor__37_GICD_IROUTER32_lower,GICD_IROUTER32_lower" bitfld.long 0x0 31. "DISTRIBUTOR__37_GICD_IROUTER32_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER32_LOWER__8_8,A1" newline hexmask.long.byte 0x0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER32_LOWER__0_8,A0" line.long 0x4 "GIC_REGS_Distributor__37_GICD_IROUTER32_upper,GICD_IROUTER32_upper" line.long 0x8 "GIC_REGS_Distributor__37_GICD_IROUTER33_lower,GICD_IROUTER33_lower" bitfld.long 0x8 31. "DISTRIBUTOR__37_GICD_IROUTER33_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER33_LOWER__8_8,A1" newline hexmask.long.byte 0x8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER33_LOWER__0_8,A0" line.long 0xC "GIC_REGS_Distributor__37_GICD_IROUTER33_upper,GICD_IROUTER33_upper" line.long 0x10 "GIC_REGS_Distributor__37_GICD_IROUTER34_lower,GICD_IROUTER34_lower" bitfld.long 0x10 31. "DISTRIBUTOR__37_GICD_IROUTER34_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x10 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER34_LOWER__8_8,A1" newline hexmask.long.byte 0x10 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER34_LOWER__0_8,A0" line.long 0x14 "GIC_REGS_Distributor__37_GICD_IROUTER34_upper,GICD_IROUTER34_upper" line.long 0x18 "GIC_REGS_Distributor__37_GICD_IROUTER35_lower,GICD_IROUTER35_lower" bitfld.long 0x18 31. "DISTRIBUTOR__37_GICD_IROUTER35_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x18 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER35_LOWER__8_8,A1" newline hexmask.long.byte 0x18 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER35_LOWER__0_8,A0" line.long 0x1C "GIC_REGS_Distributor__37_GICD_IROUTER35_upper,GICD_IROUTER35_upper" line.long 0x20 "GIC_REGS_Distributor__37_GICD_IROUTER36_lower,GICD_IROUTER36_lower" bitfld.long 0x20 31. "DISTRIBUTOR__37_GICD_IROUTER36_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x20 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER36_LOWER__8_8,A1" newline hexmask.long.byte 0x20 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER36_LOWER__0_8,A0" line.long 0x24 "GIC_REGS_Distributor__37_GICD_IROUTER36_upper,GICD_IROUTER36_upper" line.long 0x28 "GIC_REGS_Distributor__37_GICD_IROUTER37_lower,GICD_IROUTER37_lower" bitfld.long 0x28 31. "DISTRIBUTOR__37_GICD_IROUTER37_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x28 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER37_LOWER__8_8,A1" newline hexmask.long.byte 0x28 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER37_LOWER__0_8,A0" line.long 0x2C "GIC_REGS_Distributor__37_GICD_IROUTER37_upper,GICD_IROUTER37_upper" line.long 0x30 "GIC_REGS_Distributor__37_GICD_IROUTER38_lower,GICD_IROUTER38_lower" bitfld.long 0x30 31. "DISTRIBUTOR__37_GICD_IROUTER38_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x30 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER38_LOWER__8_8,A1" newline hexmask.long.byte 0x30 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER38_LOWER__0_8,A0" line.long 0x34 "GIC_REGS_Distributor__37_GICD_IROUTER38_upper,GICD_IROUTER38_upper" line.long 0x38 "GIC_REGS_Distributor__37_GICD_IROUTER39_lower,GICD_IROUTER39_lower" bitfld.long 0x38 31. "DISTRIBUTOR__37_GICD_IROUTER39_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x38 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER39_LOWER__8_8,A1" newline hexmask.long.byte 0x38 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER39_LOWER__0_8,A0" line.long 0x3C "GIC_REGS_Distributor__37_GICD_IROUTER39_upper,GICD_IROUTER39_upper" line.long 0x40 "GIC_REGS_Distributor__37_GICD_IROUTER40_lower,GICD_IROUTER40_lower" bitfld.long 0x40 31. "DISTRIBUTOR__37_GICD_IROUTER40_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x40 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER40_LOWER__8_8,A1" newline hexmask.long.byte 0x40 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER40_LOWER__0_8,A0" line.long 0x44 "GIC_REGS_Distributor__37_GICD_IROUTER40_upper,GICD_IROUTER40_upper" line.long 0x48 "GIC_REGS_Distributor__37_GICD_IROUTER41_lower,GICD_IROUTER41_lower" bitfld.long 0x48 31. "DISTRIBUTOR__37_GICD_IROUTER41_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x48 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER41_LOWER__8_8,A1" newline hexmask.long.byte 0x48 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER41_LOWER__0_8,A0" line.long 0x4C "GIC_REGS_Distributor__37_GICD_IROUTER41_upper,GICD_IROUTER41_upper" line.long 0x50 "GIC_REGS_Distributor__37_GICD_IROUTER42_lower,GICD_IROUTER42_lower" bitfld.long 0x50 31. "DISTRIBUTOR__37_GICD_IROUTER42_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x50 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER42_LOWER__8_8,A1" newline hexmask.long.byte 0x50 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER42_LOWER__0_8,A0" line.long 0x54 "GIC_REGS_Distributor__37_GICD_IROUTER42_upper,GICD_IROUTER42_upper" line.long 0x58 "GIC_REGS_Distributor__37_GICD_IROUTER43_lower,GICD_IROUTER43_lower" bitfld.long 0x58 31. "DISTRIBUTOR__37_GICD_IROUTER43_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x58 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER43_LOWER__8_8,A1" newline hexmask.long.byte 0x58 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER43_LOWER__0_8,A0" line.long 0x5C "GIC_REGS_Distributor__37_GICD_IROUTER43_upper,GICD_IROUTER43_upper" line.long 0x60 "GIC_REGS_Distributor__37_GICD_IROUTER44_lower,GICD_IROUTER44_lower" bitfld.long 0x60 31. "DISTRIBUTOR__37_GICD_IROUTER44_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x60 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER44_LOWER__8_8,A1" newline hexmask.long.byte 0x60 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER44_LOWER__0_8,A0" line.long 0x64 "GIC_REGS_Distributor__37_GICD_IROUTER44_upper,GICD_IROUTER44_upper" line.long 0x68 "GIC_REGS_Distributor__37_GICD_IROUTER45_lower,GICD_IROUTER45_lower" bitfld.long 0x68 31. "DISTRIBUTOR__37_GICD_IROUTER45_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x68 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER45_LOWER__8_8,A1" newline hexmask.long.byte 0x68 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER45_LOWER__0_8,A0" line.long 0x6C "GIC_REGS_Distributor__37_GICD_IROUTER45_upper,GICD_IROUTER45_upper" line.long 0x70 "GIC_REGS_Distributor__37_GICD_IROUTER46_lower,GICD_IROUTER46_lower" bitfld.long 0x70 31. "DISTRIBUTOR__37_GICD_IROUTER46_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x70 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER46_LOWER__8_8,A1" newline hexmask.long.byte 0x70 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER46_LOWER__0_8,A0" line.long 0x74 "GIC_REGS_Distributor__37_GICD_IROUTER46_upper,GICD_IROUTER46_upper" line.long 0x78 "GIC_REGS_Distributor__37_GICD_IROUTER47_lower,GICD_IROUTER47_lower" bitfld.long 0x78 31. "DISTRIBUTOR__37_GICD_IROUTER47_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x78 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER47_LOWER__8_8,A1" newline hexmask.long.byte 0x78 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER47_LOWER__0_8,A0" line.long 0x7C "GIC_REGS_Distributor__37_GICD_IROUTER47_upper,GICD_IROUTER47_upper" line.long 0x80 "GIC_REGS_Distributor__37_GICD_IROUTER48_lower,GICD_IROUTER48_lower" bitfld.long 0x80 31. "DISTRIBUTOR__37_GICD_IROUTER48_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x80 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER48_LOWER__8_8,A1" newline hexmask.long.byte 0x80 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER48_LOWER__0_8,A0" line.long 0x84 "GIC_REGS_Distributor__37_GICD_IROUTER48_upper,GICD_IROUTER48_upper" line.long 0x88 "GIC_REGS_Distributor__37_GICD_IROUTER49_lower,GICD_IROUTER49_lower" bitfld.long 0x88 31. "DISTRIBUTOR__37_GICD_IROUTER49_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x88 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER49_LOWER__8_8,A1" newline hexmask.long.byte 0x88 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER49_LOWER__0_8,A0" line.long 0x8C "GIC_REGS_Distributor__37_GICD_IROUTER49_upper,GICD_IROUTER49_upper" line.long 0x90 "GIC_REGS_Distributor__37_GICD_IROUTER50_lower,GICD_IROUTER50_lower" bitfld.long 0x90 31. "DISTRIBUTOR__37_GICD_IROUTER50_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x90 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER50_LOWER__8_8,A1" newline hexmask.long.byte 0x90 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER50_LOWER__0_8,A0" line.long 0x94 "GIC_REGS_Distributor__37_GICD_IROUTER50_upper,GICD_IROUTER50_upper" line.long 0x98 "GIC_REGS_Distributor__37_GICD_IROUTER51_lower,GICD_IROUTER51_lower" bitfld.long 0x98 31. "DISTRIBUTOR__37_GICD_IROUTER51_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x98 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER51_LOWER__8_8,A1" newline hexmask.long.byte 0x98 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER51_LOWER__0_8,A0" line.long 0x9C "GIC_REGS_Distributor__37_GICD_IROUTER51_upper,GICD_IROUTER51_upper" line.long 0xA0 "GIC_REGS_Distributor__37_GICD_IROUTER52_lower,GICD_IROUTER52_lower" bitfld.long 0xA0 31. "DISTRIBUTOR__37_GICD_IROUTER52_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0xA0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER52_LOWER__8_8,A1" newline hexmask.long.byte 0xA0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER52_LOWER__0_8,A0" line.long 0xA4 "GIC_REGS_Distributor__37_GICD_IROUTER52_upper,GICD_IROUTER52_upper" line.long 0xA8 "GIC_REGS_Distributor__37_GICD_IROUTER53_lower,GICD_IROUTER53_lower" bitfld.long 0xA8 31. "DISTRIBUTOR__37_GICD_IROUTER53_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0xA8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER53_LOWER__8_8,A1" newline hexmask.long.byte 0xA8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER53_LOWER__0_8,A0" line.long 0xAC "GIC_REGS_Distributor__37_GICD_IROUTER53_upper,GICD_IROUTER53_upper" line.long 0xB0 "GIC_REGS_Distributor__37_GICD_IROUTER54_lower,GICD_IROUTER54_lower" bitfld.long 0xB0 31. "DISTRIBUTOR__37_GICD_IROUTER54_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0xB0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER54_LOWER__8_8,A1" newline hexmask.long.byte 0xB0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER54_LOWER__0_8,A0" line.long 0xB4 "GIC_REGS_Distributor__37_GICD_IROUTER54_upper,GICD_IROUTER54_upper" line.long 0xB8 "GIC_REGS_Distributor__37_GICD_IROUTER55_lower,GICD_IROUTER55_lower" bitfld.long 0xB8 31. "DISTRIBUTOR__37_GICD_IROUTER55_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0xB8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER55_LOWER__8_8,A1" newline hexmask.long.byte 0xB8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER55_LOWER__0_8,A0" line.long 0xBC "GIC_REGS_Distributor__37_GICD_IROUTER55_upper,GICD_IROUTER55_upper" line.long 0xC0 "GIC_REGS_Distributor__37_GICD_IROUTER56_lower,GICD_IROUTER56_lower" bitfld.long 0xC0 31. "DISTRIBUTOR__37_GICD_IROUTER56_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0xC0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER56_LOWER__8_8,A1" newline hexmask.long.byte 0xC0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER56_LOWER__0_8,A0" line.long 0xC4 "GIC_REGS_Distributor__37_GICD_IROUTER56_upper,GICD_IROUTER56_upper" line.long 0xC8 "GIC_REGS_Distributor__37_GICD_IROUTER57_lower,GICD_IROUTER57_lower" bitfld.long 0xC8 31. "DISTRIBUTOR__37_GICD_IROUTER57_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0xC8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER57_LOWER__8_8,A1" newline hexmask.long.byte 0xC8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER57_LOWER__0_8,A0" line.long 0xCC "GIC_REGS_Distributor__37_GICD_IROUTER57_upper,GICD_IROUTER57_upper" line.long 0xD0 "GIC_REGS_Distributor__37_GICD_IROUTER58_lower,GICD_IROUTER58_lower" bitfld.long 0xD0 31. "DISTRIBUTOR__37_GICD_IROUTER58_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0xD0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER58_LOWER__8_8,A1" newline hexmask.long.byte 0xD0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER58_LOWER__0_8,A0" line.long 0xD4 "GIC_REGS_Distributor__37_GICD_IROUTER58_upper,GICD_IROUTER58_upper" line.long 0xD8 "GIC_REGS_Distributor__37_GICD_IROUTER59_lower,GICD_IROUTER59_lower" bitfld.long 0xD8 31. "DISTRIBUTOR__37_GICD_IROUTER59_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0xD8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER59_LOWER__8_8,A1" newline hexmask.long.byte 0xD8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER59_LOWER__0_8,A0" line.long 0xDC "GIC_REGS_Distributor__37_GICD_IROUTER59_upper,GICD_IROUTER59_upper" line.long 0xE0 "GIC_REGS_Distributor__37_GICD_IROUTER60_lower,GICD_IROUTER60_lower" bitfld.long 0xE0 31. "DISTRIBUTOR__37_GICD_IROUTER60_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0xE0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER60_LOWER__8_8,A1" newline hexmask.long.byte 0xE0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER60_LOWER__0_8,A0" line.long 0xE4 "GIC_REGS_Distributor__37_GICD_IROUTER60_upper,GICD_IROUTER60_upper" line.long 0xE8 "GIC_REGS_Distributor__37_GICD_IROUTER61_lower,GICD_IROUTER61_lower" bitfld.long 0xE8 31. "DISTRIBUTOR__37_GICD_IROUTER61_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0xE8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER61_LOWER__8_8,A1" newline hexmask.long.byte 0xE8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER61_LOWER__0_8,A0" line.long 0xEC "GIC_REGS_Distributor__37_GICD_IROUTER61_upper,GICD_IROUTER61_upper" line.long 0xF0 "GIC_REGS_Distributor__37_GICD_IROUTER62_lower,GICD_IROUTER62_lower" bitfld.long 0xF0 31. "DISTRIBUTOR__37_GICD_IROUTER62_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0xF0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER62_LOWER__8_8,A1" newline hexmask.long.byte 0xF0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER62_LOWER__0_8,A0" line.long 0xF4 "GIC_REGS_Distributor__37_GICD_IROUTER62_upper,GICD_IROUTER62_upper" line.long 0xF8 "GIC_REGS_Distributor__37_GICD_IROUTER63_lower,GICD_IROUTER63_lower" bitfld.long 0xF8 31. "DISTRIBUTOR__37_GICD_IROUTER63_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0xF8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER63_LOWER__8_8,A1" newline hexmask.long.byte 0xF8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER63_LOWER__0_8,A0" line.long 0xFC "GIC_REGS_Distributor__37_GICD_IROUTER63_upper,GICD_IROUTER63_upper" line.long 0x100 "GIC_REGS_Distributor__37_GICD_IROUTER64_lower,GICD_IROUTER64_lower" bitfld.long 0x100 31. "DISTRIBUTOR__37_GICD_IROUTER64_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x100 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER64_LOWER__8_8,A1" newline hexmask.long.byte 0x100 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER64_LOWER__0_8,A0" line.long 0x104 "GIC_REGS_Distributor__37_GICD_IROUTER64_upper,GICD_IROUTER64_upper" line.long 0x108 "GIC_REGS_Distributor__37_GICD_IROUTER65_lower,GICD_IROUTER65_lower" bitfld.long 0x108 31. "DISTRIBUTOR__37_GICD_IROUTER65_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x108 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER65_LOWER__8_8,A1" newline hexmask.long.byte 0x108 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER65_LOWER__0_8,A0" line.long 0x10C "GIC_REGS_Distributor__37_GICD_IROUTER65_upper,GICD_IROUTER65_upper" line.long 0x110 "GIC_REGS_Distributor__37_GICD_IROUTER66_lower,GICD_IROUTER66_lower" bitfld.long 0x110 31. "DISTRIBUTOR__37_GICD_IROUTER66_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x110 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER66_LOWER__8_8,A1" newline hexmask.long.byte 0x110 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER66_LOWER__0_8,A0" line.long 0x114 "GIC_REGS_Distributor__37_GICD_IROUTER66_upper,GICD_IROUTER66_upper" line.long 0x118 "GIC_REGS_Distributor__37_GICD_IROUTER67_lower,GICD_IROUTER67_lower" bitfld.long 0x118 31. "DISTRIBUTOR__37_GICD_IROUTER67_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x118 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER67_LOWER__8_8,A1" newline hexmask.long.byte 0x118 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER67_LOWER__0_8,A0" line.long 0x11C "GIC_REGS_Distributor__37_GICD_IROUTER67_upper,GICD_IROUTER67_upper" line.long 0x120 "GIC_REGS_Distributor__37_GICD_IROUTER68_lower,GICD_IROUTER68_lower" bitfld.long 0x120 31. "DISTRIBUTOR__37_GICD_IROUTER68_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x120 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER68_LOWER__8_8,A1" newline hexmask.long.byte 0x120 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER68_LOWER__0_8,A0" line.long 0x124 "GIC_REGS_Distributor__37_GICD_IROUTER68_upper,GICD_IROUTER68_upper" line.long 0x128 "GIC_REGS_Distributor__37_GICD_IROUTER69_lower,GICD_IROUTER69_lower" bitfld.long 0x128 31. "DISTRIBUTOR__37_GICD_IROUTER69_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x128 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER69_LOWER__8_8,A1" newline hexmask.long.byte 0x128 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER69_LOWER__0_8,A0" line.long 0x12C "GIC_REGS_Distributor__37_GICD_IROUTER69_upper,GICD_IROUTER69_upper" line.long 0x130 "GIC_REGS_Distributor__37_GICD_IROUTER70_lower,GICD_IROUTER70_lower" bitfld.long 0x130 31. "DISTRIBUTOR__37_GICD_IROUTER70_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x130 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER70_LOWER__8_8,A1" newline hexmask.long.byte 0x130 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER70_LOWER__0_8,A0" line.long 0x134 "GIC_REGS_Distributor__37_GICD_IROUTER70_upper,GICD_IROUTER70_upper" line.long 0x138 "GIC_REGS_Distributor__37_GICD_IROUTER71_lower,GICD_IROUTER71_lower" bitfld.long 0x138 31. "DISTRIBUTOR__37_GICD_IROUTER71_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x138 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER71_LOWER__8_8,A1" newline hexmask.long.byte 0x138 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER71_LOWER__0_8,A0" line.long 0x13C "GIC_REGS_Distributor__37_GICD_IROUTER71_upper,GICD_IROUTER71_upper" line.long 0x140 "GIC_REGS_Distributor__37_GICD_IROUTER72_lower,GICD_IROUTER72_lower" bitfld.long 0x140 31. "DISTRIBUTOR__37_GICD_IROUTER72_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x140 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER72_LOWER__8_8,A1" newline hexmask.long.byte 0x140 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER72_LOWER__0_8,A0" line.long 0x144 "GIC_REGS_Distributor__37_GICD_IROUTER72_upper,GICD_IROUTER72_upper" line.long 0x148 "GIC_REGS_Distributor__37_GICD_IROUTER73_lower,GICD_IROUTER73_lower" bitfld.long 0x148 31. "DISTRIBUTOR__37_GICD_IROUTER73_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x148 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER73_LOWER__8_8,A1" newline hexmask.long.byte 0x148 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER73_LOWER__0_8,A0" line.long 0x14C "GIC_REGS_Distributor__37_GICD_IROUTER73_upper,GICD_IROUTER73_upper" line.long 0x150 "GIC_REGS_Distributor__37_GICD_IROUTER74_lower,GICD_IROUTER74_lower" bitfld.long 0x150 31. "DISTRIBUTOR__37_GICD_IROUTER74_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x150 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER74_LOWER__8_8,A1" newline hexmask.long.byte 0x150 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER74_LOWER__0_8,A0" line.long 0x154 "GIC_REGS_Distributor__37_GICD_IROUTER74_upper,GICD_IROUTER74_upper" line.long 0x158 "GIC_REGS_Distributor__37_GICD_IROUTER75_lower,GICD_IROUTER75_lower" bitfld.long 0x158 31. "DISTRIBUTOR__37_GICD_IROUTER75_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x158 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER75_LOWER__8_8,A1" newline hexmask.long.byte 0x158 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER75_LOWER__0_8,A0" line.long 0x15C "GIC_REGS_Distributor__37_GICD_IROUTER75_upper,GICD_IROUTER75_upper" line.long 0x160 "GIC_REGS_Distributor__37_GICD_IROUTER76_lower,GICD_IROUTER76_lower" bitfld.long 0x160 31. "DISTRIBUTOR__37_GICD_IROUTER76_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x160 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER76_LOWER__8_8,A1" newline hexmask.long.byte 0x160 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER76_LOWER__0_8,A0" line.long 0x164 "GIC_REGS_Distributor__37_GICD_IROUTER76_upper,GICD_IROUTER76_upper" line.long 0x168 "GIC_REGS_Distributor__37_GICD_IROUTER77_lower,GICD_IROUTER77_lower" bitfld.long 0x168 31. "DISTRIBUTOR__37_GICD_IROUTER77_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x168 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER77_LOWER__8_8,A1" newline hexmask.long.byte 0x168 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER77_LOWER__0_8,A0" line.long 0x16C "GIC_REGS_Distributor__37_GICD_IROUTER77_upper,GICD_IROUTER77_upper" line.long 0x170 "GIC_REGS_Distributor__37_GICD_IROUTER78_lower,GICD_IROUTER78_lower" bitfld.long 0x170 31. "DISTRIBUTOR__37_GICD_IROUTER78_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x170 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER78_LOWER__8_8,A1" newline hexmask.long.byte 0x170 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER78_LOWER__0_8,A0" line.long 0x174 "GIC_REGS_Distributor__37_GICD_IROUTER78_upper,GICD_IROUTER78_upper" line.long 0x178 "GIC_REGS_Distributor__37_GICD_IROUTER79_lower,GICD_IROUTER79_lower" bitfld.long 0x178 31. "DISTRIBUTOR__37_GICD_IROUTER79_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x178 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER79_LOWER__8_8,A1" newline hexmask.long.byte 0x178 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER79_LOWER__0_8,A0" line.long 0x17C "GIC_REGS_Distributor__37_GICD_IROUTER79_upper,GICD_IROUTER79_upper" line.long 0x180 "GIC_REGS_Distributor__37_GICD_IROUTER80_lower,GICD_IROUTER80_lower" bitfld.long 0x180 31. "DISTRIBUTOR__37_GICD_IROUTER80_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x180 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER80_LOWER__8_8,A1" newline hexmask.long.byte 0x180 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER80_LOWER__0_8,A0" line.long 0x184 "GIC_REGS_Distributor__37_GICD_IROUTER80_upper,GICD_IROUTER80_upper" line.long 0x188 "GIC_REGS_Distributor__37_GICD_IROUTER81_lower,GICD_IROUTER81_lower" bitfld.long 0x188 31. "DISTRIBUTOR__37_GICD_IROUTER81_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x188 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER81_LOWER__8_8,A1" newline hexmask.long.byte 0x188 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER81_LOWER__0_8,A0" line.long 0x18C "GIC_REGS_Distributor__37_GICD_IROUTER81_upper,GICD_IROUTER81_upper" line.long 0x190 "GIC_REGS_Distributor__37_GICD_IROUTER82_lower,GICD_IROUTER82_lower" bitfld.long 0x190 31. "DISTRIBUTOR__37_GICD_IROUTER82_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x190 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER82_LOWER__8_8,A1" newline hexmask.long.byte 0x190 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER82_LOWER__0_8,A0" line.long 0x194 "GIC_REGS_Distributor__37_GICD_IROUTER82_upper,GICD_IROUTER82_upper" line.long 0x198 "GIC_REGS_Distributor__37_GICD_IROUTER83_lower,GICD_IROUTER83_lower" bitfld.long 0x198 31. "DISTRIBUTOR__37_GICD_IROUTER83_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x198 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER83_LOWER__8_8,A1" newline hexmask.long.byte 0x198 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER83_LOWER__0_8,A0" line.long 0x19C "GIC_REGS_Distributor__37_GICD_IROUTER83_upper,GICD_IROUTER83_upper" line.long 0x1A0 "GIC_REGS_Distributor__37_GICD_IROUTER84_lower,GICD_IROUTER84_lower" bitfld.long 0x1A0 31. "DISTRIBUTOR__37_GICD_IROUTER84_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x1A0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER84_LOWER__8_8,A1" newline hexmask.long.byte 0x1A0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER84_LOWER__0_8,A0" line.long 0x1A4 "GIC_REGS_Distributor__37_GICD_IROUTER84_upper,GICD_IROUTER84_upper" line.long 0x1A8 "GIC_REGS_Distributor__37_GICD_IROUTER85_lower,GICD_IROUTER85_lower" bitfld.long 0x1A8 31. "DISTRIBUTOR__37_GICD_IROUTER85_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x1A8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER85_LOWER__8_8,A1" newline hexmask.long.byte 0x1A8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER85_LOWER__0_8,A0" line.long 0x1AC "GIC_REGS_Distributor__37_GICD_IROUTER85_upper,GICD_IROUTER85_upper" line.long 0x1B0 "GIC_REGS_Distributor__37_GICD_IROUTER86_lower,GICD_IROUTER86_lower" bitfld.long 0x1B0 31. "DISTRIBUTOR__37_GICD_IROUTER86_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x1B0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER86_LOWER__8_8,A1" newline hexmask.long.byte 0x1B0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER86_LOWER__0_8,A0" line.long 0x1B4 "GIC_REGS_Distributor__37_GICD_IROUTER86_upper,GICD_IROUTER86_upper" line.long 0x1B8 "GIC_REGS_Distributor__37_GICD_IROUTER87_lower,GICD_IROUTER87_lower" bitfld.long 0x1B8 31. "DISTRIBUTOR__37_GICD_IROUTER87_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x1B8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER87_LOWER__8_8,A1" newline hexmask.long.byte 0x1B8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER87_LOWER__0_8,A0" line.long 0x1BC "GIC_REGS_Distributor__37_GICD_IROUTER87_upper,GICD_IROUTER87_upper" line.long 0x1C0 "GIC_REGS_Distributor__37_GICD_IROUTER88_lower,GICD_IROUTER88_lower" bitfld.long 0x1C0 31. "DISTRIBUTOR__37_GICD_IROUTER88_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x1C0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER88_LOWER__8_8,A1" newline hexmask.long.byte 0x1C0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER88_LOWER__0_8,A0" line.long 0x1C4 "GIC_REGS_Distributor__37_GICD_IROUTER88_upper,GICD_IROUTER88_upper" line.long 0x1C8 "GIC_REGS_Distributor__37_GICD_IROUTER89_lower,GICD_IROUTER89_lower" bitfld.long 0x1C8 31. "DISTRIBUTOR__37_GICD_IROUTER89_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x1C8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER89_LOWER__8_8,A1" newline hexmask.long.byte 0x1C8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER89_LOWER__0_8,A0" line.long 0x1CC "GIC_REGS_Distributor__37_GICD_IROUTER89_upper,GICD_IROUTER89_upper" line.long 0x1D0 "GIC_REGS_Distributor__37_GICD_IROUTER90_lower,GICD_IROUTER90_lower" bitfld.long 0x1D0 31. "DISTRIBUTOR__37_GICD_IROUTER90_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x1D0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER90_LOWER__8_8,A1" newline hexmask.long.byte 0x1D0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER90_LOWER__0_8,A0" line.long 0x1D4 "GIC_REGS_Distributor__37_GICD_IROUTER90_upper,GICD_IROUTER90_upper" line.long 0x1D8 "GIC_REGS_Distributor__37_GICD_IROUTER91_lower,GICD_IROUTER91_lower" bitfld.long 0x1D8 31. "DISTRIBUTOR__37_GICD_IROUTER91_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x1D8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER91_LOWER__8_8,A1" newline hexmask.long.byte 0x1D8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER91_LOWER__0_8,A0" line.long 0x1DC "GIC_REGS_Distributor__37_GICD_IROUTER91_upper,GICD_IROUTER91_upper" line.long 0x1E0 "GIC_REGS_Distributor__37_GICD_IROUTER92_lower,GICD_IROUTER92_lower" bitfld.long 0x1E0 31. "DISTRIBUTOR__37_GICD_IROUTER92_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x1E0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER92_LOWER__8_8,A1" newline hexmask.long.byte 0x1E0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER92_LOWER__0_8,A0" line.long 0x1E4 "GIC_REGS_Distributor__37_GICD_IROUTER92_upper,GICD_IROUTER92_upper" line.long 0x1E8 "GIC_REGS_Distributor__37_GICD_IROUTER93_lower,GICD_IROUTER93_lower" bitfld.long 0x1E8 31. "DISTRIBUTOR__37_GICD_IROUTER93_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x1E8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER93_LOWER__8_8,A1" newline hexmask.long.byte 0x1E8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER93_LOWER__0_8,A0" line.long 0x1EC "GIC_REGS_Distributor__37_GICD_IROUTER93_upper,GICD_IROUTER93_upper" line.long 0x1F0 "GIC_REGS_Distributor__37_GICD_IROUTER94_lower,GICD_IROUTER94_lower" bitfld.long 0x1F0 31. "DISTRIBUTOR__37_GICD_IROUTER94_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x1F0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER94_LOWER__8_8,A1" newline hexmask.long.byte 0x1F0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER94_LOWER__0_8,A0" line.long 0x1F4 "GIC_REGS_Distributor__37_GICD_IROUTER94_upper,GICD_IROUTER94_upper" line.long 0x1F8 "GIC_REGS_Distributor__37_GICD_IROUTER95_lower,GICD_IROUTER95_lower" bitfld.long 0x1F8 31. "DISTRIBUTOR__37_GICD_IROUTER95_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x1F8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER95_LOWER__8_8,A1" newline hexmask.long.byte 0x1F8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER95_LOWER__0_8,A0" line.long 0x1FC "GIC_REGS_Distributor__37_GICD_IROUTER95_upper,GICD_IROUTER95_upper" line.long 0x200 "GIC_REGS_Distributor__37_GICD_IROUTER96_lower,GICD_IROUTER96_lower" bitfld.long 0x200 31. "DISTRIBUTOR__37_GICD_IROUTER96_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x200 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER96_LOWER__8_8,A1" newline hexmask.long.byte 0x200 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER96_LOWER__0_8,A0" line.long 0x204 "GIC_REGS_Distributor__37_GICD_IROUTER96_upper,GICD_IROUTER96_upper" line.long 0x208 "GIC_REGS_Distributor__37_GICD_IROUTER97_lower,GICD_IROUTER97_lower" bitfld.long 0x208 31. "DISTRIBUTOR__37_GICD_IROUTER97_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x208 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER97_LOWER__8_8,A1" newline hexmask.long.byte 0x208 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER97_LOWER__0_8,A0" line.long 0x20C "GIC_REGS_Distributor__37_GICD_IROUTER97_upper,GICD_IROUTER97_upper" line.long 0x210 "GIC_REGS_Distributor__37_GICD_IROUTER98_lower,GICD_IROUTER98_lower" bitfld.long 0x210 31. "DISTRIBUTOR__37_GICD_IROUTER98_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x210 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER98_LOWER__8_8,A1" newline hexmask.long.byte 0x210 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER98_LOWER__0_8,A0" line.long 0x214 "GIC_REGS_Distributor__37_GICD_IROUTER98_upper,GICD_IROUTER98_upper" line.long 0x218 "GIC_REGS_Distributor__37_GICD_IROUTER99_lower,GICD_IROUTER99_lower" bitfld.long 0x218 31. "DISTRIBUTOR__37_GICD_IROUTER99_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x218 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER99_LOWER__8_8,A1" newline hexmask.long.byte 0x218 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER99_LOWER__0_8,A0" line.long 0x21C "GIC_REGS_Distributor__37_GICD_IROUTER99_upper,GICD_IROUTER99_upper" line.long 0x220 "GIC_REGS_Distributor__37_GICD_IROUTER100_lower,GICD_IROUTER100_lower" bitfld.long 0x220 31. "DISTRIBUTOR__37_GICD_IROUTER100_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x220 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER100_LOWER__8_8,A1" newline hexmask.long.byte 0x220 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER100_LOWER__0_8,A0" line.long 0x224 "GIC_REGS_Distributor__37_GICD_IROUTER100_upper,GICD_IROUTER100_upper" line.long 0x228 "GIC_REGS_Distributor__37_GICD_IROUTER101_lower,GICD_IROUTER101_lower" bitfld.long 0x228 31. "DISTRIBUTOR__37_GICD_IROUTER101_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x228 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER101_LOWER__8_8,A1" newline hexmask.long.byte 0x228 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER101_LOWER__0_8,A0" line.long 0x22C "GIC_REGS_Distributor__37_GICD_IROUTER101_upper,GICD_IROUTER101_upper" line.long 0x230 "GIC_REGS_Distributor__37_GICD_IROUTER102_lower,GICD_IROUTER102_lower" bitfld.long 0x230 31. "DISTRIBUTOR__37_GICD_IROUTER102_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x230 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER102_LOWER__8_8,A1" newline hexmask.long.byte 0x230 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER102_LOWER__0_8,A0" line.long 0x234 "GIC_REGS_Distributor__37_GICD_IROUTER102_upper,GICD_IROUTER102_upper" line.long 0x238 "GIC_REGS_Distributor__37_GICD_IROUTER103_lower,GICD_IROUTER103_lower" bitfld.long 0x238 31. "DISTRIBUTOR__37_GICD_IROUTER103_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x238 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER103_LOWER__8_8,A1" newline hexmask.long.byte 0x238 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER103_LOWER__0_8,A0" line.long 0x23C "GIC_REGS_Distributor__37_GICD_IROUTER103_upper,GICD_IROUTER103_upper" line.long 0x240 "GIC_REGS_Distributor__37_GICD_IROUTER104_lower,GICD_IROUTER104_lower" bitfld.long 0x240 31. "DISTRIBUTOR__37_GICD_IROUTER104_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x240 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER104_LOWER__8_8,A1" newline hexmask.long.byte 0x240 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER104_LOWER__0_8,A0" line.long 0x244 "GIC_REGS_Distributor__37_GICD_IROUTER104_upper,GICD_IROUTER104_upper" line.long 0x248 "GIC_REGS_Distributor__37_GICD_IROUTER105_lower,GICD_IROUTER105_lower" bitfld.long 0x248 31. "DISTRIBUTOR__37_GICD_IROUTER105_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x248 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER105_LOWER__8_8,A1" newline hexmask.long.byte 0x248 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER105_LOWER__0_8,A0" line.long 0x24C "GIC_REGS_Distributor__37_GICD_IROUTER105_upper,GICD_IROUTER105_upper" line.long 0x250 "GIC_REGS_Distributor__37_GICD_IROUTER106_lower,GICD_IROUTER106_lower" bitfld.long 0x250 31. "DISTRIBUTOR__37_GICD_IROUTER106_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x250 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER106_LOWER__8_8,A1" newline hexmask.long.byte 0x250 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER106_LOWER__0_8,A0" line.long 0x254 "GIC_REGS_Distributor__37_GICD_IROUTER106_upper,GICD_IROUTER106_upper" line.long 0x258 "GIC_REGS_Distributor__37_GICD_IROUTER107_lower,GICD_IROUTER107_lower" bitfld.long 0x258 31. "DISTRIBUTOR__37_GICD_IROUTER107_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x258 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER107_LOWER__8_8,A1" newline hexmask.long.byte 0x258 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER107_LOWER__0_8,A0" line.long 0x25C "GIC_REGS_Distributor__37_GICD_IROUTER107_upper,GICD_IROUTER107_upper" line.long 0x260 "GIC_REGS_Distributor__37_GICD_IROUTER108_lower,GICD_IROUTER108_lower" bitfld.long 0x260 31. "DISTRIBUTOR__37_GICD_IROUTER108_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x260 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER108_LOWER__8_8,A1" newline hexmask.long.byte 0x260 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER108_LOWER__0_8,A0" line.long 0x264 "GIC_REGS_Distributor__37_GICD_IROUTER108_upper,GICD_IROUTER108_upper" line.long 0x268 "GIC_REGS_Distributor__37_GICD_IROUTER109_lower,GICD_IROUTER109_lower" bitfld.long 0x268 31. "DISTRIBUTOR__37_GICD_IROUTER109_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x268 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER109_LOWER__8_8,A1" newline hexmask.long.byte 0x268 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER109_LOWER__0_8,A0" line.long 0x26C "GIC_REGS_Distributor__37_GICD_IROUTER109_upper,GICD_IROUTER109_upper" line.long 0x270 "GIC_REGS_Distributor__37_GICD_IROUTER110_lower,GICD_IROUTER110_lower" bitfld.long 0x270 31. "DISTRIBUTOR__37_GICD_IROUTER110_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x270 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER110_LOWER__8_8,A1" newline hexmask.long.byte 0x270 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER110_LOWER__0_8,A0" line.long 0x274 "GIC_REGS_Distributor__37_GICD_IROUTER110_upper,GICD_IROUTER110_upper" line.long 0x278 "GIC_REGS_Distributor__37_GICD_IROUTER111_lower,GICD_IROUTER111_lower" bitfld.long 0x278 31. "DISTRIBUTOR__37_GICD_IROUTER111_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x278 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER111_LOWER__8_8,A1" newline hexmask.long.byte 0x278 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER111_LOWER__0_8,A0" line.long 0x27C "GIC_REGS_Distributor__37_GICD_IROUTER111_upper,GICD_IROUTER111_upper" line.long 0x280 "GIC_REGS_Distributor__37_GICD_IROUTER112_lower,GICD_IROUTER112_lower" bitfld.long 0x280 31. "DISTRIBUTOR__37_GICD_IROUTER112_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x280 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER112_LOWER__8_8,A1" newline hexmask.long.byte 0x280 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER112_LOWER__0_8,A0" line.long 0x284 "GIC_REGS_Distributor__37_GICD_IROUTER112_upper,GICD_IROUTER112_upper" line.long 0x288 "GIC_REGS_Distributor__37_GICD_IROUTER113_lower,GICD_IROUTER113_lower" bitfld.long 0x288 31. "DISTRIBUTOR__37_GICD_IROUTER113_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x288 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER113_LOWER__8_8,A1" newline hexmask.long.byte 0x288 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER113_LOWER__0_8,A0" line.long 0x28C "GIC_REGS_Distributor__37_GICD_IROUTER113_upper,GICD_IROUTER113_upper" line.long 0x290 "GIC_REGS_Distributor__37_GICD_IROUTER114_lower,GICD_IROUTER114_lower" bitfld.long 0x290 31. "DISTRIBUTOR__37_GICD_IROUTER114_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x290 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER114_LOWER__8_8,A1" newline hexmask.long.byte 0x290 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER114_LOWER__0_8,A0" line.long 0x294 "GIC_REGS_Distributor__37_GICD_IROUTER114_upper,GICD_IROUTER114_upper" line.long 0x298 "GIC_REGS_Distributor__37_GICD_IROUTER115_lower,GICD_IROUTER115_lower" bitfld.long 0x298 31. "DISTRIBUTOR__37_GICD_IROUTER115_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x298 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER115_LOWER__8_8,A1" newline hexmask.long.byte 0x298 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER115_LOWER__0_8,A0" line.long 0x29C "GIC_REGS_Distributor__37_GICD_IROUTER115_upper,GICD_IROUTER115_upper" line.long 0x2A0 "GIC_REGS_Distributor__37_GICD_IROUTER116_lower,GICD_IROUTER116_lower" bitfld.long 0x2A0 31. "DISTRIBUTOR__37_GICD_IROUTER116_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x2A0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER116_LOWER__8_8,A1" newline hexmask.long.byte 0x2A0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER116_LOWER__0_8,A0" line.long 0x2A4 "GIC_REGS_Distributor__37_GICD_IROUTER116_upper,GICD_IROUTER116_upper" line.long 0x2A8 "GIC_REGS_Distributor__37_GICD_IROUTER117_lower,GICD_IROUTER117_lower" bitfld.long 0x2A8 31. "DISTRIBUTOR__37_GICD_IROUTER117_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x2A8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER117_LOWER__8_8,A1" newline hexmask.long.byte 0x2A8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER117_LOWER__0_8,A0" line.long 0x2AC "GIC_REGS_Distributor__37_GICD_IROUTER117_upper,GICD_IROUTER117_upper" line.long 0x2B0 "GIC_REGS_Distributor__37_GICD_IROUTER118_lower,GICD_IROUTER118_lower" bitfld.long 0x2B0 31. "DISTRIBUTOR__37_GICD_IROUTER118_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x2B0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER118_LOWER__8_8,A1" newline hexmask.long.byte 0x2B0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER118_LOWER__0_8,A0" line.long 0x2B4 "GIC_REGS_Distributor__37_GICD_IROUTER118_upper,GICD_IROUTER118_upper" line.long 0x2B8 "GIC_REGS_Distributor__37_GICD_IROUTER119_lower,GICD_IROUTER119_lower" bitfld.long 0x2B8 31. "DISTRIBUTOR__37_GICD_IROUTER119_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x2B8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER119_LOWER__8_8,A1" newline hexmask.long.byte 0x2B8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER119_LOWER__0_8,A0" line.long 0x2BC "GIC_REGS_Distributor__37_GICD_IROUTER119_upper,GICD_IROUTER119_upper" line.long 0x2C0 "GIC_REGS_Distributor__37_GICD_IROUTER120_lower,GICD_IROUTER120_lower" bitfld.long 0x2C0 31. "DISTRIBUTOR__37_GICD_IROUTER120_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x2C0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER120_LOWER__8_8,A1" newline hexmask.long.byte 0x2C0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER120_LOWER__0_8,A0" line.long 0x2C4 "GIC_REGS_Distributor__37_GICD_IROUTER120_upper,GICD_IROUTER120_upper" line.long 0x2C8 "GIC_REGS_Distributor__37_GICD_IROUTER121_lower,GICD_IROUTER121_lower" bitfld.long 0x2C8 31. "DISTRIBUTOR__37_GICD_IROUTER121_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x2C8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER121_LOWER__8_8,A1" newline hexmask.long.byte 0x2C8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER121_LOWER__0_8,A0" line.long 0x2CC "GIC_REGS_Distributor__37_GICD_IROUTER121_upper,GICD_IROUTER121_upper" line.long 0x2D0 "GIC_REGS_Distributor__37_GICD_IROUTER122_lower,GICD_IROUTER122_lower" bitfld.long 0x2D0 31. "DISTRIBUTOR__37_GICD_IROUTER122_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x2D0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER122_LOWER__8_8,A1" newline hexmask.long.byte 0x2D0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER122_LOWER__0_8,A0" line.long 0x2D4 "GIC_REGS_Distributor__37_GICD_IROUTER122_upper,GICD_IROUTER122_upper" line.long 0x2D8 "GIC_REGS_Distributor__37_GICD_IROUTER123_lower,GICD_IROUTER123_lower" bitfld.long 0x2D8 31. "DISTRIBUTOR__37_GICD_IROUTER123_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x2D8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER123_LOWER__8_8,A1" newline hexmask.long.byte 0x2D8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER123_LOWER__0_8,A0" line.long 0x2DC "GIC_REGS_Distributor__37_GICD_IROUTER123_upper,GICD_IROUTER123_upper" line.long 0x2E0 "GIC_REGS_Distributor__37_GICD_IROUTER124_lower,GICD_IROUTER124_lower" bitfld.long 0x2E0 31. "DISTRIBUTOR__37_GICD_IROUTER124_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x2E0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER124_LOWER__8_8,A1" newline hexmask.long.byte 0x2E0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER124_LOWER__0_8,A0" line.long 0x2E4 "GIC_REGS_Distributor__37_GICD_IROUTER124_upper,GICD_IROUTER124_upper" line.long 0x2E8 "GIC_REGS_Distributor__37_GICD_IROUTER125_lower,GICD_IROUTER125_lower" bitfld.long 0x2E8 31. "DISTRIBUTOR__37_GICD_IROUTER125_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x2E8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER125_LOWER__8_8,A1" newline hexmask.long.byte 0x2E8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER125_LOWER__0_8,A0" line.long 0x2EC "GIC_REGS_Distributor__37_GICD_IROUTER125_upper,GICD_IROUTER125_upper" line.long 0x2F0 "GIC_REGS_Distributor__37_GICD_IROUTER126_lower,GICD_IROUTER126_lower" bitfld.long 0x2F0 31. "DISTRIBUTOR__37_GICD_IROUTER126_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x2F0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER126_LOWER__8_8,A1" newline hexmask.long.byte 0x2F0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER126_LOWER__0_8,A0" line.long 0x2F4 "GIC_REGS_Distributor__37_GICD_IROUTER126_upper,GICD_IROUTER126_upper" line.long 0x2F8 "GIC_REGS_Distributor__37_GICD_IROUTER127_lower,GICD_IROUTER127_lower" bitfld.long 0x2F8 31. "DISTRIBUTOR__37_GICD_IROUTER127_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x2F8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER127_LOWER__8_8,A1" newline hexmask.long.byte 0x2F8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER127_LOWER__0_8,A0" line.long 0x2FC "GIC_REGS_Distributor__37_GICD_IROUTER127_upper,GICD_IROUTER127_upper" line.long 0x300 "GIC_REGS_Distributor__37_GICD_IROUTER128_lower,GICD_IROUTER128_lower" bitfld.long 0x300 31. "DISTRIBUTOR__37_GICD_IROUTER128_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x300 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER128_LOWER__8_8,A1" newline hexmask.long.byte 0x300 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER128_LOWER__0_8,A0" line.long 0x304 "GIC_REGS_Distributor__37_GICD_IROUTER128_upper,GICD_IROUTER128_upper" line.long 0x308 "GIC_REGS_Distributor__37_GICD_IROUTER129_lower,GICD_IROUTER129_lower" bitfld.long 0x308 31. "DISTRIBUTOR__37_GICD_IROUTER129_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x308 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER129_LOWER__8_8,A1" newline hexmask.long.byte 0x308 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER129_LOWER__0_8,A0" line.long 0x30C "GIC_REGS_Distributor__37_GICD_IROUTER129_upper,GICD_IROUTER129_upper" line.long 0x310 "GIC_REGS_Distributor__37_GICD_IROUTER130_lower,GICD_IROUTER130_lower" bitfld.long 0x310 31. "DISTRIBUTOR__37_GICD_IROUTER130_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x310 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER130_LOWER__8_8,A1" newline hexmask.long.byte 0x310 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER130_LOWER__0_8,A0" line.long 0x314 "GIC_REGS_Distributor__37_GICD_IROUTER130_upper,GICD_IROUTER130_upper" line.long 0x318 "GIC_REGS_Distributor__37_GICD_IROUTER131_lower,GICD_IROUTER131_lower" bitfld.long 0x318 31. "DISTRIBUTOR__37_GICD_IROUTER131_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x318 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER131_LOWER__8_8,A1" newline hexmask.long.byte 0x318 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER131_LOWER__0_8,A0" line.long 0x31C "GIC_REGS_Distributor__37_GICD_IROUTER131_upper,GICD_IROUTER131_upper" line.long 0x320 "GIC_REGS_Distributor__37_GICD_IROUTER132_lower,GICD_IROUTER132_lower" bitfld.long 0x320 31. "DISTRIBUTOR__37_GICD_IROUTER132_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x320 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER132_LOWER__8_8,A1" newline hexmask.long.byte 0x320 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER132_LOWER__0_8,A0" line.long 0x324 "GIC_REGS_Distributor__37_GICD_IROUTER132_upper,GICD_IROUTER132_upper" line.long 0x328 "GIC_REGS_Distributor__37_GICD_IROUTER133_lower,GICD_IROUTER133_lower" bitfld.long 0x328 31. "DISTRIBUTOR__37_GICD_IROUTER133_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x328 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER133_LOWER__8_8,A1" newline hexmask.long.byte 0x328 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER133_LOWER__0_8,A0" line.long 0x32C "GIC_REGS_Distributor__37_GICD_IROUTER133_upper,GICD_IROUTER133_upper" line.long 0x330 "GIC_REGS_Distributor__37_GICD_IROUTER134_lower,GICD_IROUTER134_lower" bitfld.long 0x330 31. "DISTRIBUTOR__37_GICD_IROUTER134_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x330 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER134_LOWER__8_8,A1" newline hexmask.long.byte 0x330 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER134_LOWER__0_8,A0" line.long 0x334 "GIC_REGS_Distributor__37_GICD_IROUTER134_upper,GICD_IROUTER134_upper" line.long 0x338 "GIC_REGS_Distributor__37_GICD_IROUTER135_lower,GICD_IROUTER135_lower" bitfld.long 0x338 31. "DISTRIBUTOR__37_GICD_IROUTER135_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x338 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER135_LOWER__8_8,A1" newline hexmask.long.byte 0x338 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER135_LOWER__0_8,A0" line.long 0x33C "GIC_REGS_Distributor__37_GICD_IROUTER135_upper,GICD_IROUTER135_upper" line.long 0x340 "GIC_REGS_Distributor__37_GICD_IROUTER136_lower,GICD_IROUTER136_lower" bitfld.long 0x340 31. "DISTRIBUTOR__37_GICD_IROUTER136_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x340 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER136_LOWER__8_8,A1" newline hexmask.long.byte 0x340 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER136_LOWER__0_8,A0" line.long 0x344 "GIC_REGS_Distributor__37_GICD_IROUTER136_upper,GICD_IROUTER136_upper" line.long 0x348 "GIC_REGS_Distributor__37_GICD_IROUTER137_lower,GICD_IROUTER137_lower" bitfld.long 0x348 31. "DISTRIBUTOR__37_GICD_IROUTER137_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x348 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER137_LOWER__8_8,A1" newline hexmask.long.byte 0x348 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER137_LOWER__0_8,A0" line.long 0x34C "GIC_REGS_Distributor__37_GICD_IROUTER137_upper,GICD_IROUTER137_upper" line.long 0x350 "GIC_REGS_Distributor__37_GICD_IROUTER138_lower,GICD_IROUTER138_lower" bitfld.long 0x350 31. "DISTRIBUTOR__37_GICD_IROUTER138_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x350 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER138_LOWER__8_8,A1" newline hexmask.long.byte 0x350 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER138_LOWER__0_8,A0" line.long 0x354 "GIC_REGS_Distributor__37_GICD_IROUTER138_upper,GICD_IROUTER138_upper" line.long 0x358 "GIC_REGS_Distributor__37_GICD_IROUTER139_lower,GICD_IROUTER139_lower" bitfld.long 0x358 31. "DISTRIBUTOR__37_GICD_IROUTER139_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x358 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER139_LOWER__8_8,A1" newline hexmask.long.byte 0x358 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER139_LOWER__0_8,A0" line.long 0x35C "GIC_REGS_Distributor__37_GICD_IROUTER139_upper,GICD_IROUTER139_upper" line.long 0x360 "GIC_REGS_Distributor__37_GICD_IROUTER140_lower,GICD_IROUTER140_lower" bitfld.long 0x360 31. "DISTRIBUTOR__37_GICD_IROUTER140_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x360 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER140_LOWER__8_8,A1" newline hexmask.long.byte 0x360 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER140_LOWER__0_8,A0" line.long 0x364 "GIC_REGS_Distributor__37_GICD_IROUTER140_upper,GICD_IROUTER140_upper" line.long 0x368 "GIC_REGS_Distributor__37_GICD_IROUTER141_lower,GICD_IROUTER141_lower" bitfld.long 0x368 31. "DISTRIBUTOR__37_GICD_IROUTER141_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x368 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER141_LOWER__8_8,A1" newline hexmask.long.byte 0x368 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER141_LOWER__0_8,A0" line.long 0x36C "GIC_REGS_Distributor__37_GICD_IROUTER141_upper,GICD_IROUTER141_upper" line.long 0x370 "GIC_REGS_Distributor__37_GICD_IROUTER142_lower,GICD_IROUTER142_lower" bitfld.long 0x370 31. "DISTRIBUTOR__37_GICD_IROUTER142_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x370 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER142_LOWER__8_8,A1" newline hexmask.long.byte 0x370 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER142_LOWER__0_8,A0" line.long 0x374 "GIC_REGS_Distributor__37_GICD_IROUTER142_upper,GICD_IROUTER142_upper" line.long 0x378 "GIC_REGS_Distributor__37_GICD_IROUTER143_lower,GICD_IROUTER143_lower" bitfld.long 0x378 31. "DISTRIBUTOR__37_GICD_IROUTER143_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x378 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER143_LOWER__8_8,A1" newline hexmask.long.byte 0x378 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER143_LOWER__0_8,A0" line.long 0x37C "GIC_REGS_Distributor__37_GICD_IROUTER143_upper,GICD_IROUTER143_upper" line.long 0x380 "GIC_REGS_Distributor__37_GICD_IROUTER144_lower,GICD_IROUTER144_lower" bitfld.long 0x380 31. "DISTRIBUTOR__37_GICD_IROUTER144_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x380 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER144_LOWER__8_8,A1" newline hexmask.long.byte 0x380 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER144_LOWER__0_8,A0" line.long 0x384 "GIC_REGS_Distributor__37_GICD_IROUTER144_upper,GICD_IROUTER144_upper" line.long 0x388 "GIC_REGS_Distributor__37_GICD_IROUTER145_lower,GICD_IROUTER145_lower" bitfld.long 0x388 31. "DISTRIBUTOR__37_GICD_IROUTER145_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x388 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER145_LOWER__8_8,A1" newline hexmask.long.byte 0x388 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER145_LOWER__0_8,A0" line.long 0x38C "GIC_REGS_Distributor__37_GICD_IROUTER145_upper,GICD_IROUTER145_upper" line.long 0x390 "GIC_REGS_Distributor__37_GICD_IROUTER146_lower,GICD_IROUTER146_lower" bitfld.long 0x390 31. "DISTRIBUTOR__37_GICD_IROUTER146_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x390 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER146_LOWER__8_8,A1" newline hexmask.long.byte 0x390 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER146_LOWER__0_8,A0" line.long 0x394 "GIC_REGS_Distributor__37_GICD_IROUTER146_upper,GICD_IROUTER146_upper" line.long 0x398 "GIC_REGS_Distributor__37_GICD_IROUTER147_lower,GICD_IROUTER147_lower" bitfld.long 0x398 31. "DISTRIBUTOR__37_GICD_IROUTER147_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x398 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER147_LOWER__8_8,A1" newline hexmask.long.byte 0x398 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER147_LOWER__0_8,A0" line.long 0x39C "GIC_REGS_Distributor__37_GICD_IROUTER147_upper,GICD_IROUTER147_upper" line.long 0x3A0 "GIC_REGS_Distributor__37_GICD_IROUTER148_lower,GICD_IROUTER148_lower" bitfld.long 0x3A0 31. "DISTRIBUTOR__37_GICD_IROUTER148_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x3A0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER148_LOWER__8_8,A1" newline hexmask.long.byte 0x3A0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER148_LOWER__0_8,A0" line.long 0x3A4 "GIC_REGS_Distributor__37_GICD_IROUTER148_upper,GICD_IROUTER148_upper" line.long 0x3A8 "GIC_REGS_Distributor__37_GICD_IROUTER149_lower,GICD_IROUTER149_lower" bitfld.long 0x3A8 31. "DISTRIBUTOR__37_GICD_IROUTER149_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x3A8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER149_LOWER__8_8,A1" newline hexmask.long.byte 0x3A8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER149_LOWER__0_8,A0" line.long 0x3AC "GIC_REGS_Distributor__37_GICD_IROUTER149_upper,GICD_IROUTER149_upper" line.long 0x3B0 "GIC_REGS_Distributor__37_GICD_IROUTER150_lower,GICD_IROUTER150_lower" bitfld.long 0x3B0 31. "DISTRIBUTOR__37_GICD_IROUTER150_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x3B0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER150_LOWER__8_8,A1" newline hexmask.long.byte 0x3B0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER150_LOWER__0_8,A0" line.long 0x3B4 "GIC_REGS_Distributor__37_GICD_IROUTER150_upper,GICD_IROUTER150_upper" line.long 0x3B8 "GIC_REGS_Distributor__37_GICD_IROUTER151_lower,GICD_IROUTER151_lower" bitfld.long 0x3B8 31. "DISTRIBUTOR__37_GICD_IROUTER151_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x3B8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER151_LOWER__8_8,A1" newline hexmask.long.byte 0x3B8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER151_LOWER__0_8,A0" line.long 0x3BC "GIC_REGS_Distributor__37_GICD_IROUTER151_upper,GICD_IROUTER151_upper" line.long 0x3C0 "GIC_REGS_Distributor__37_GICD_IROUTER152_lower,GICD_IROUTER152_lower" bitfld.long 0x3C0 31. "DISTRIBUTOR__37_GICD_IROUTER152_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x3C0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER152_LOWER__8_8,A1" newline hexmask.long.byte 0x3C0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER152_LOWER__0_8,A0" line.long 0x3C4 "GIC_REGS_Distributor__37_GICD_IROUTER152_upper,GICD_IROUTER152_upper" line.long 0x3C8 "GIC_REGS_Distributor__37_GICD_IROUTER153_lower,GICD_IROUTER153_lower" bitfld.long 0x3C8 31. "DISTRIBUTOR__37_GICD_IROUTER153_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x3C8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER153_LOWER__8_8,A1" newline hexmask.long.byte 0x3C8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER153_LOWER__0_8,A0" line.long 0x3CC "GIC_REGS_Distributor__37_GICD_IROUTER153_upper,GICD_IROUTER153_upper" line.long 0x3D0 "GIC_REGS_Distributor__37_GICD_IROUTER154_lower,GICD_IROUTER154_lower" bitfld.long 0x3D0 31. "DISTRIBUTOR__37_GICD_IROUTER154_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x3D0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER154_LOWER__8_8,A1" newline hexmask.long.byte 0x3D0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER154_LOWER__0_8,A0" line.long 0x3D4 "GIC_REGS_Distributor__37_GICD_IROUTER154_upper,GICD_IROUTER154_upper" line.long 0x3D8 "GIC_REGS_Distributor__37_GICD_IROUTER155_lower,GICD_IROUTER155_lower" bitfld.long 0x3D8 31. "DISTRIBUTOR__37_GICD_IROUTER155_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x3D8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER155_LOWER__8_8,A1" newline hexmask.long.byte 0x3D8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER155_LOWER__0_8,A0" line.long 0x3DC "GIC_REGS_Distributor__37_GICD_IROUTER155_upper,GICD_IROUTER155_upper" line.long 0x3E0 "GIC_REGS_Distributor__37_GICD_IROUTER156_lower,GICD_IROUTER156_lower" bitfld.long 0x3E0 31. "DISTRIBUTOR__37_GICD_IROUTER156_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x3E0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER156_LOWER__8_8,A1" newline hexmask.long.byte 0x3E0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER156_LOWER__0_8,A0" line.long 0x3E4 "GIC_REGS_Distributor__37_GICD_IROUTER156_upper,GICD_IROUTER156_upper" line.long 0x3E8 "GIC_REGS_Distributor__37_GICD_IROUTER157_lower,GICD_IROUTER157_lower" bitfld.long 0x3E8 31. "DISTRIBUTOR__37_GICD_IROUTER157_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x3E8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER157_LOWER__8_8,A1" newline hexmask.long.byte 0x3E8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER157_LOWER__0_8,A0" line.long 0x3EC "GIC_REGS_Distributor__37_GICD_IROUTER157_upper,GICD_IROUTER157_upper" line.long 0x3F0 "GIC_REGS_Distributor__37_GICD_IROUTER158_lower,GICD_IROUTER158_lower" bitfld.long 0x3F0 31. "DISTRIBUTOR__37_GICD_IROUTER158_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x3F0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER158_LOWER__8_8,A1" newline hexmask.long.byte 0x3F0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER158_LOWER__0_8,A0" line.long 0x3F4 "GIC_REGS_Distributor__37_GICD_IROUTER158_upper,GICD_IROUTER158_upper" line.long 0x3F8 "GIC_REGS_Distributor__37_GICD_IROUTER159_lower,GICD_IROUTER159_lower" bitfld.long 0x3F8 31. "DISTRIBUTOR__37_GICD_IROUTER159_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x3F8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER159_LOWER__8_8,A1" newline hexmask.long.byte 0x3F8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER159_LOWER__0_8,A0" line.long 0x3FC "GIC_REGS_Distributor__37_GICD_IROUTER159_upper,GICD_IROUTER159_upper" line.long 0x400 "GIC_REGS_Distributor__37_GICD_IROUTER160_lower,GICD_IROUTER160_lower" bitfld.long 0x400 31. "DISTRIBUTOR__37_GICD_IROUTER160_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x400 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER160_LOWER__8_8,A1" newline hexmask.long.byte 0x400 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER160_LOWER__0_8,A0" line.long 0x404 "GIC_REGS_Distributor__37_GICD_IROUTER160_upper,GICD_IROUTER160_upper" line.long 0x408 "GIC_REGS_Distributor__37_GICD_IROUTER161_lower,GICD_IROUTER161_lower" bitfld.long 0x408 31. "DISTRIBUTOR__37_GICD_IROUTER161_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x408 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER161_LOWER__8_8,A1" newline hexmask.long.byte 0x408 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER161_LOWER__0_8,A0" line.long 0x40C "GIC_REGS_Distributor__37_GICD_IROUTER161_upper,GICD_IROUTER161_upper" line.long 0x410 "GIC_REGS_Distributor__37_GICD_IROUTER162_lower,GICD_IROUTER162_lower" bitfld.long 0x410 31. "DISTRIBUTOR__37_GICD_IROUTER162_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x410 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER162_LOWER__8_8,A1" newline hexmask.long.byte 0x410 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER162_LOWER__0_8,A0" line.long 0x414 "GIC_REGS_Distributor__37_GICD_IROUTER162_upper,GICD_IROUTER162_upper" line.long 0x418 "GIC_REGS_Distributor__37_GICD_IROUTER163_lower,GICD_IROUTER163_lower" bitfld.long 0x418 31. "DISTRIBUTOR__37_GICD_IROUTER163_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x418 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER163_LOWER__8_8,A1" newline hexmask.long.byte 0x418 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER163_LOWER__0_8,A0" line.long 0x41C "GIC_REGS_Distributor__37_GICD_IROUTER163_upper,GICD_IROUTER163_upper" line.long 0x420 "GIC_REGS_Distributor__37_GICD_IROUTER164_lower,GICD_IROUTER164_lower" bitfld.long 0x420 31. "DISTRIBUTOR__37_GICD_IROUTER164_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x420 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER164_LOWER__8_8,A1" newline hexmask.long.byte 0x420 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER164_LOWER__0_8,A0" line.long 0x424 "GIC_REGS_Distributor__37_GICD_IROUTER164_upper,GICD_IROUTER164_upper" line.long 0x428 "GIC_REGS_Distributor__37_GICD_IROUTER165_lower,GICD_IROUTER165_lower" bitfld.long 0x428 31. "DISTRIBUTOR__37_GICD_IROUTER165_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x428 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER165_LOWER__8_8,A1" newline hexmask.long.byte 0x428 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER165_LOWER__0_8,A0" line.long 0x42C "GIC_REGS_Distributor__37_GICD_IROUTER165_upper,GICD_IROUTER165_upper" line.long 0x430 "GIC_REGS_Distributor__37_GICD_IROUTER166_lower,GICD_IROUTER166_lower" bitfld.long 0x430 31. "DISTRIBUTOR__37_GICD_IROUTER166_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x430 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER166_LOWER__8_8,A1" newline hexmask.long.byte 0x430 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER166_LOWER__0_8,A0" line.long 0x434 "GIC_REGS_Distributor__37_GICD_IROUTER166_upper,GICD_IROUTER166_upper" line.long 0x438 "GIC_REGS_Distributor__37_GICD_IROUTER167_lower,GICD_IROUTER167_lower" bitfld.long 0x438 31. "DISTRIBUTOR__37_GICD_IROUTER167_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x438 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER167_LOWER__8_8,A1" newline hexmask.long.byte 0x438 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER167_LOWER__0_8,A0" line.long 0x43C "GIC_REGS_Distributor__37_GICD_IROUTER167_upper,GICD_IROUTER167_upper" line.long 0x440 "GIC_REGS_Distributor__37_GICD_IROUTER168_lower,GICD_IROUTER168_lower" bitfld.long 0x440 31. "DISTRIBUTOR__37_GICD_IROUTER168_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x440 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER168_LOWER__8_8,A1" newline hexmask.long.byte 0x440 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER168_LOWER__0_8,A0" line.long 0x444 "GIC_REGS_Distributor__37_GICD_IROUTER168_upper,GICD_IROUTER168_upper" line.long 0x448 "GIC_REGS_Distributor__37_GICD_IROUTER169_lower,GICD_IROUTER169_lower" bitfld.long 0x448 31. "DISTRIBUTOR__37_GICD_IROUTER169_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x448 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER169_LOWER__8_8,A1" newline hexmask.long.byte 0x448 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER169_LOWER__0_8,A0" line.long 0x44C "GIC_REGS_Distributor__37_GICD_IROUTER169_upper,GICD_IROUTER169_upper" line.long 0x450 "GIC_REGS_Distributor__37_GICD_IROUTER170_lower,GICD_IROUTER170_lower" bitfld.long 0x450 31. "DISTRIBUTOR__37_GICD_IROUTER170_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x450 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER170_LOWER__8_8,A1" newline hexmask.long.byte 0x450 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER170_LOWER__0_8,A0" line.long 0x454 "GIC_REGS_Distributor__37_GICD_IROUTER170_upper,GICD_IROUTER170_upper" line.long 0x458 "GIC_REGS_Distributor__37_GICD_IROUTER171_lower,GICD_IROUTER171_lower" bitfld.long 0x458 31. "DISTRIBUTOR__37_GICD_IROUTER171_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x458 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER171_LOWER__8_8,A1" newline hexmask.long.byte 0x458 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER171_LOWER__0_8,A0" line.long 0x45C "GIC_REGS_Distributor__37_GICD_IROUTER171_upper,GICD_IROUTER171_upper" line.long 0x460 "GIC_REGS_Distributor__37_GICD_IROUTER172_lower,GICD_IROUTER172_lower" bitfld.long 0x460 31. "DISTRIBUTOR__37_GICD_IROUTER172_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x460 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER172_LOWER__8_8,A1" newline hexmask.long.byte 0x460 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER172_LOWER__0_8,A0" line.long 0x464 "GIC_REGS_Distributor__37_GICD_IROUTER172_upper,GICD_IROUTER172_upper" line.long 0x468 "GIC_REGS_Distributor__37_GICD_IROUTER173_lower,GICD_IROUTER173_lower" bitfld.long 0x468 31. "DISTRIBUTOR__37_GICD_IROUTER173_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x468 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER173_LOWER__8_8,A1" newline hexmask.long.byte 0x468 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER173_LOWER__0_8,A0" line.long 0x46C "GIC_REGS_Distributor__37_GICD_IROUTER173_upper,GICD_IROUTER173_upper" line.long 0x470 "GIC_REGS_Distributor__37_GICD_IROUTER174_lower,GICD_IROUTER174_lower" bitfld.long 0x470 31. "DISTRIBUTOR__37_GICD_IROUTER174_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x470 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER174_LOWER__8_8,A1" newline hexmask.long.byte 0x470 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER174_LOWER__0_8,A0" line.long 0x474 "GIC_REGS_Distributor__37_GICD_IROUTER174_upper,GICD_IROUTER174_upper" line.long 0x478 "GIC_REGS_Distributor__37_GICD_IROUTER175_lower,GICD_IROUTER175_lower" bitfld.long 0x478 31. "DISTRIBUTOR__37_GICD_IROUTER175_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x478 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER175_LOWER__8_8,A1" newline hexmask.long.byte 0x478 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER175_LOWER__0_8,A0" line.long 0x47C "GIC_REGS_Distributor__37_GICD_IROUTER175_upper,GICD_IROUTER175_upper" line.long 0x480 "GIC_REGS_Distributor__37_GICD_IROUTER176_lower,GICD_IROUTER176_lower" bitfld.long 0x480 31. "DISTRIBUTOR__37_GICD_IROUTER176_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x480 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER176_LOWER__8_8,A1" newline hexmask.long.byte 0x480 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER176_LOWER__0_8,A0" line.long 0x484 "GIC_REGS_Distributor__37_GICD_IROUTER176_upper,GICD_IROUTER176_upper" line.long 0x488 "GIC_REGS_Distributor__37_GICD_IROUTER177_lower,GICD_IROUTER177_lower" bitfld.long 0x488 31. "DISTRIBUTOR__37_GICD_IROUTER177_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x488 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER177_LOWER__8_8,A1" newline hexmask.long.byte 0x488 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER177_LOWER__0_8,A0" line.long 0x48C "GIC_REGS_Distributor__37_GICD_IROUTER177_upper,GICD_IROUTER177_upper" line.long 0x490 "GIC_REGS_Distributor__37_GICD_IROUTER178_lower,GICD_IROUTER178_lower" bitfld.long 0x490 31. "DISTRIBUTOR__37_GICD_IROUTER178_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x490 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER178_LOWER__8_8,A1" newline hexmask.long.byte 0x490 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER178_LOWER__0_8,A0" line.long 0x494 "GIC_REGS_Distributor__37_GICD_IROUTER178_upper,GICD_IROUTER178_upper" line.long 0x498 "GIC_REGS_Distributor__37_GICD_IROUTER179_lower,GICD_IROUTER179_lower" bitfld.long 0x498 31. "DISTRIBUTOR__37_GICD_IROUTER179_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x498 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER179_LOWER__8_8,A1" newline hexmask.long.byte 0x498 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER179_LOWER__0_8,A0" line.long 0x49C "GIC_REGS_Distributor__37_GICD_IROUTER179_upper,GICD_IROUTER179_upper" line.long 0x4A0 "GIC_REGS_Distributor__37_GICD_IROUTER180_lower,GICD_IROUTER180_lower" bitfld.long 0x4A0 31. "DISTRIBUTOR__37_GICD_IROUTER180_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x4A0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER180_LOWER__8_8,A1" newline hexmask.long.byte 0x4A0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER180_LOWER__0_8,A0" line.long 0x4A4 "GIC_REGS_Distributor__37_GICD_IROUTER180_upper,GICD_IROUTER180_upper" line.long 0x4A8 "GIC_REGS_Distributor__37_GICD_IROUTER181_lower,GICD_IROUTER181_lower" bitfld.long 0x4A8 31. "DISTRIBUTOR__37_GICD_IROUTER181_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x4A8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER181_LOWER__8_8,A1" newline hexmask.long.byte 0x4A8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER181_LOWER__0_8,A0" line.long 0x4AC "GIC_REGS_Distributor__37_GICD_IROUTER181_upper,GICD_IROUTER181_upper" line.long 0x4B0 "GIC_REGS_Distributor__37_GICD_IROUTER182_lower,GICD_IROUTER182_lower" bitfld.long 0x4B0 31. "DISTRIBUTOR__37_GICD_IROUTER182_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x4B0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER182_LOWER__8_8,A1" newline hexmask.long.byte 0x4B0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER182_LOWER__0_8,A0" line.long 0x4B4 "GIC_REGS_Distributor__37_GICD_IROUTER182_upper,GICD_IROUTER182_upper" line.long 0x4B8 "GIC_REGS_Distributor__37_GICD_IROUTER183_lower,GICD_IROUTER183_lower" bitfld.long 0x4B8 31. "DISTRIBUTOR__37_GICD_IROUTER183_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x4B8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER183_LOWER__8_8,A1" newline hexmask.long.byte 0x4B8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER183_LOWER__0_8,A0" line.long 0x4BC "GIC_REGS_Distributor__37_GICD_IROUTER183_upper,GICD_IROUTER183_upper" line.long 0x4C0 "GIC_REGS_Distributor__37_GICD_IROUTER184_lower,GICD_IROUTER184_lower" bitfld.long 0x4C0 31. "DISTRIBUTOR__37_GICD_IROUTER184_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x4C0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER184_LOWER__8_8,A1" newline hexmask.long.byte 0x4C0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER184_LOWER__0_8,A0" line.long 0x4C4 "GIC_REGS_Distributor__37_GICD_IROUTER184_upper,GICD_IROUTER184_upper" line.long 0x4C8 "GIC_REGS_Distributor__37_GICD_IROUTER185_lower,GICD_IROUTER185_lower" bitfld.long 0x4C8 31. "DISTRIBUTOR__37_GICD_IROUTER185_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x4C8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER185_LOWER__8_8,A1" newline hexmask.long.byte 0x4C8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER185_LOWER__0_8,A0" line.long 0x4CC "GIC_REGS_Distributor__37_GICD_IROUTER185_upper,GICD_IROUTER185_upper" line.long 0x4D0 "GIC_REGS_Distributor__37_GICD_IROUTER186_lower,GICD_IROUTER186_lower" bitfld.long 0x4D0 31. "DISTRIBUTOR__37_GICD_IROUTER186_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x4D0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER186_LOWER__8_8,A1" newline hexmask.long.byte 0x4D0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER186_LOWER__0_8,A0" line.long 0x4D4 "GIC_REGS_Distributor__37_GICD_IROUTER186_upper,GICD_IROUTER186_upper" line.long 0x4D8 "GIC_REGS_Distributor__37_GICD_IROUTER187_lower,GICD_IROUTER187_lower" bitfld.long 0x4D8 31. "DISTRIBUTOR__37_GICD_IROUTER187_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x4D8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER187_LOWER__8_8,A1" newline hexmask.long.byte 0x4D8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER187_LOWER__0_8,A0" line.long 0x4DC "GIC_REGS_Distributor__37_GICD_IROUTER187_upper,GICD_IROUTER187_upper" line.long 0x4E0 "GIC_REGS_Distributor__37_GICD_IROUTER188_lower,GICD_IROUTER188_lower" bitfld.long 0x4E0 31. "DISTRIBUTOR__37_GICD_IROUTER188_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x4E0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER188_LOWER__8_8,A1" newline hexmask.long.byte 0x4E0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER188_LOWER__0_8,A0" line.long 0x4E4 "GIC_REGS_Distributor__37_GICD_IROUTER188_upper,GICD_IROUTER188_upper" line.long 0x4E8 "GIC_REGS_Distributor__37_GICD_IROUTER189_lower,GICD_IROUTER189_lower" bitfld.long 0x4E8 31. "DISTRIBUTOR__37_GICD_IROUTER189_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x4E8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER189_LOWER__8_8,A1" newline hexmask.long.byte 0x4E8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER189_LOWER__0_8,A0" line.long 0x4EC "GIC_REGS_Distributor__37_GICD_IROUTER189_upper,GICD_IROUTER189_upper" line.long 0x4F0 "GIC_REGS_Distributor__37_GICD_IROUTER190_lower,GICD_IROUTER190_lower" bitfld.long 0x4F0 31. "DISTRIBUTOR__37_GICD_IROUTER190_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x4F0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER190_LOWER__8_8,A1" newline hexmask.long.byte 0x4F0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER190_LOWER__0_8,A0" line.long 0x4F4 "GIC_REGS_Distributor__37_GICD_IROUTER190_upper,GICD_IROUTER190_upper" line.long 0x4F8 "GIC_REGS_Distributor__37_GICD_IROUTER191_lower,GICD_IROUTER191_lower" bitfld.long 0x4F8 31. "DISTRIBUTOR__37_GICD_IROUTER191_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x4F8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER191_LOWER__8_8,A1" newline hexmask.long.byte 0x4F8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER191_LOWER__0_8,A0" line.long 0x4FC "GIC_REGS_Distributor__37_GICD_IROUTER191_upper,GICD_IROUTER191_upper" line.long 0x500 "GIC_REGS_Distributor__37_GICD_IROUTER192_lower,GICD_IROUTER192_lower" bitfld.long 0x500 31. "DISTRIBUTOR__37_GICD_IROUTER192_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x500 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER192_LOWER__8_8,A1" newline hexmask.long.byte 0x500 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER192_LOWER__0_8,A0" line.long 0x504 "GIC_REGS_Distributor__37_GICD_IROUTER192_upper,GICD_IROUTER192_upper" line.long 0x508 "GIC_REGS_Distributor__37_GICD_IROUTER193_lower,GICD_IROUTER193_lower" bitfld.long 0x508 31. "DISTRIBUTOR__37_GICD_IROUTER193_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x508 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER193_LOWER__8_8,A1" newline hexmask.long.byte 0x508 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER193_LOWER__0_8,A0" line.long 0x50C "GIC_REGS_Distributor__37_GICD_IROUTER193_upper,GICD_IROUTER193_upper" line.long 0x510 "GIC_REGS_Distributor__37_GICD_IROUTER194_lower,GICD_IROUTER194_lower" bitfld.long 0x510 31. "DISTRIBUTOR__37_GICD_IROUTER194_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x510 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER194_LOWER__8_8,A1" newline hexmask.long.byte 0x510 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER194_LOWER__0_8,A0" line.long 0x514 "GIC_REGS_Distributor__37_GICD_IROUTER194_upper,GICD_IROUTER194_upper" line.long 0x518 "GIC_REGS_Distributor__37_GICD_IROUTER195_lower,GICD_IROUTER195_lower" bitfld.long 0x518 31. "DISTRIBUTOR__37_GICD_IROUTER195_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x518 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER195_LOWER__8_8,A1" newline hexmask.long.byte 0x518 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER195_LOWER__0_8,A0" line.long 0x51C "GIC_REGS_Distributor__37_GICD_IROUTER195_upper,GICD_IROUTER195_upper" line.long 0x520 "GIC_REGS_Distributor__37_GICD_IROUTER196_lower,GICD_IROUTER196_lower" bitfld.long 0x520 31. "DISTRIBUTOR__37_GICD_IROUTER196_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x520 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER196_LOWER__8_8,A1" newline hexmask.long.byte 0x520 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER196_LOWER__0_8,A0" line.long 0x524 "GIC_REGS_Distributor__37_GICD_IROUTER196_upper,GICD_IROUTER196_upper" line.long 0x528 "GIC_REGS_Distributor__37_GICD_IROUTER197_lower,GICD_IROUTER197_lower" bitfld.long 0x528 31. "DISTRIBUTOR__37_GICD_IROUTER197_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x528 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER197_LOWER__8_8,A1" newline hexmask.long.byte 0x528 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER197_LOWER__0_8,A0" line.long 0x52C "GIC_REGS_Distributor__37_GICD_IROUTER197_upper,GICD_IROUTER197_upper" line.long 0x530 "GIC_REGS_Distributor__37_GICD_IROUTER198_lower,GICD_IROUTER198_lower" bitfld.long 0x530 31. "DISTRIBUTOR__37_GICD_IROUTER198_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x530 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER198_LOWER__8_8,A1" newline hexmask.long.byte 0x530 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER198_LOWER__0_8,A0" line.long 0x534 "GIC_REGS_Distributor__37_GICD_IROUTER198_upper,GICD_IROUTER198_upper" line.long 0x538 "GIC_REGS_Distributor__37_GICD_IROUTER199_lower,GICD_IROUTER199_lower" bitfld.long 0x538 31. "DISTRIBUTOR__37_GICD_IROUTER199_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x538 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER199_LOWER__8_8,A1" newline hexmask.long.byte 0x538 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER199_LOWER__0_8,A0" line.long 0x53C "GIC_REGS_Distributor__37_GICD_IROUTER199_upper,GICD_IROUTER199_upper" line.long 0x540 "GIC_REGS_Distributor__37_GICD_IROUTER200_lower,GICD_IROUTER200_lower" bitfld.long 0x540 31. "DISTRIBUTOR__37_GICD_IROUTER200_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x540 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER200_LOWER__8_8,A1" newline hexmask.long.byte 0x540 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER200_LOWER__0_8,A0" line.long 0x544 "GIC_REGS_Distributor__37_GICD_IROUTER200_upper,GICD_IROUTER200_upper" line.long 0x548 "GIC_REGS_Distributor__37_GICD_IROUTER201_lower,GICD_IROUTER201_lower" bitfld.long 0x548 31. "DISTRIBUTOR__37_GICD_IROUTER201_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x548 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER201_LOWER__8_8,A1" newline hexmask.long.byte 0x548 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER201_LOWER__0_8,A0" line.long 0x54C "GIC_REGS_Distributor__37_GICD_IROUTER201_upper,GICD_IROUTER201_upper" line.long 0x550 "GIC_REGS_Distributor__37_GICD_IROUTER202_lower,GICD_IROUTER202_lower" bitfld.long 0x550 31. "DISTRIBUTOR__37_GICD_IROUTER202_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x550 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER202_LOWER__8_8,A1" newline hexmask.long.byte 0x550 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER202_LOWER__0_8,A0" line.long 0x554 "GIC_REGS_Distributor__37_GICD_IROUTER202_upper,GICD_IROUTER202_upper" line.long 0x558 "GIC_REGS_Distributor__37_GICD_IROUTER203_lower,GICD_IROUTER203_lower" bitfld.long 0x558 31. "DISTRIBUTOR__37_GICD_IROUTER203_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x558 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER203_LOWER__8_8,A1" newline hexmask.long.byte 0x558 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER203_LOWER__0_8,A0" line.long 0x55C "GIC_REGS_Distributor__37_GICD_IROUTER203_upper,GICD_IROUTER203_upper" line.long 0x560 "GIC_REGS_Distributor__37_GICD_IROUTER204_lower,GICD_IROUTER204_lower" bitfld.long 0x560 31. "DISTRIBUTOR__37_GICD_IROUTER204_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x560 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER204_LOWER__8_8,A1" newline hexmask.long.byte 0x560 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER204_LOWER__0_8,A0" line.long 0x564 "GIC_REGS_Distributor__37_GICD_IROUTER204_upper,GICD_IROUTER204_upper" line.long 0x568 "GIC_REGS_Distributor__37_GICD_IROUTER205_lower,GICD_IROUTER205_lower" bitfld.long 0x568 31. "DISTRIBUTOR__37_GICD_IROUTER205_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x568 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER205_LOWER__8_8,A1" newline hexmask.long.byte 0x568 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER205_LOWER__0_8,A0" line.long 0x56C "GIC_REGS_Distributor__37_GICD_IROUTER205_upper,GICD_IROUTER205_upper" line.long 0x570 "GIC_REGS_Distributor__37_GICD_IROUTER206_lower,GICD_IROUTER206_lower" bitfld.long 0x570 31. "DISTRIBUTOR__37_GICD_IROUTER206_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x570 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER206_LOWER__8_8,A1" newline hexmask.long.byte 0x570 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER206_LOWER__0_8,A0" line.long 0x574 "GIC_REGS_Distributor__37_GICD_IROUTER206_upper,GICD_IROUTER206_upper" line.long 0x578 "GIC_REGS_Distributor__37_GICD_IROUTER207_lower,GICD_IROUTER207_lower" bitfld.long 0x578 31. "DISTRIBUTOR__37_GICD_IROUTER207_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x578 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER207_LOWER__8_8,A1" newline hexmask.long.byte 0x578 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER207_LOWER__0_8,A0" line.long 0x57C "GIC_REGS_Distributor__37_GICD_IROUTER207_upper,GICD_IROUTER207_upper" line.long 0x580 "GIC_REGS_Distributor__37_GICD_IROUTER208_lower,GICD_IROUTER208_lower" bitfld.long 0x580 31. "DISTRIBUTOR__37_GICD_IROUTER208_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x580 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER208_LOWER__8_8,A1" newline hexmask.long.byte 0x580 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER208_LOWER__0_8,A0" line.long 0x584 "GIC_REGS_Distributor__37_GICD_IROUTER208_upper,GICD_IROUTER208_upper" line.long 0x588 "GIC_REGS_Distributor__37_GICD_IROUTER209_lower,GICD_IROUTER209_lower" bitfld.long 0x588 31. "DISTRIBUTOR__37_GICD_IROUTER209_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x588 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER209_LOWER__8_8,A1" newline hexmask.long.byte 0x588 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER209_LOWER__0_8,A0" line.long 0x58C "GIC_REGS_Distributor__37_GICD_IROUTER209_upper,GICD_IROUTER209_upper" line.long 0x590 "GIC_REGS_Distributor__37_GICD_IROUTER210_lower,GICD_IROUTER210_lower" bitfld.long 0x590 31. "DISTRIBUTOR__37_GICD_IROUTER210_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x590 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER210_LOWER__8_8,A1" newline hexmask.long.byte 0x590 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER210_LOWER__0_8,A0" line.long 0x594 "GIC_REGS_Distributor__37_GICD_IROUTER210_upper,GICD_IROUTER210_upper" line.long 0x598 "GIC_REGS_Distributor__37_GICD_IROUTER211_lower,GICD_IROUTER211_lower" bitfld.long 0x598 31. "DISTRIBUTOR__37_GICD_IROUTER211_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x598 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER211_LOWER__8_8,A1" newline hexmask.long.byte 0x598 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER211_LOWER__0_8,A0" line.long 0x59C "GIC_REGS_Distributor__37_GICD_IROUTER211_upper,GICD_IROUTER211_upper" line.long 0x5A0 "GIC_REGS_Distributor__37_GICD_IROUTER212_lower,GICD_IROUTER212_lower" bitfld.long 0x5A0 31. "DISTRIBUTOR__37_GICD_IROUTER212_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x5A0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER212_LOWER__8_8,A1" newline hexmask.long.byte 0x5A0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER212_LOWER__0_8,A0" line.long 0x5A4 "GIC_REGS_Distributor__37_GICD_IROUTER212_upper,GICD_IROUTER212_upper" line.long 0x5A8 "GIC_REGS_Distributor__37_GICD_IROUTER213_lower,GICD_IROUTER213_lower" bitfld.long 0x5A8 31. "DISTRIBUTOR__37_GICD_IROUTER213_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x5A8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER213_LOWER__8_8,A1" newline hexmask.long.byte 0x5A8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER213_LOWER__0_8,A0" line.long 0x5AC "GIC_REGS_Distributor__37_GICD_IROUTER213_upper,GICD_IROUTER213_upper" line.long 0x5B0 "GIC_REGS_Distributor__37_GICD_IROUTER214_lower,GICD_IROUTER214_lower" bitfld.long 0x5B0 31. "DISTRIBUTOR__37_GICD_IROUTER214_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x5B0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER214_LOWER__8_8,A1" newline hexmask.long.byte 0x5B0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER214_LOWER__0_8,A0" line.long 0x5B4 "GIC_REGS_Distributor__37_GICD_IROUTER214_upper,GICD_IROUTER214_upper" line.long 0x5B8 "GIC_REGS_Distributor__37_GICD_IROUTER215_lower,GICD_IROUTER215_lower" bitfld.long 0x5B8 31. "DISTRIBUTOR__37_GICD_IROUTER215_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x5B8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER215_LOWER__8_8,A1" newline hexmask.long.byte 0x5B8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER215_LOWER__0_8,A0" line.long 0x5BC "GIC_REGS_Distributor__37_GICD_IROUTER215_upper,GICD_IROUTER215_upper" line.long 0x5C0 "GIC_REGS_Distributor__37_GICD_IROUTER216_lower,GICD_IROUTER216_lower" bitfld.long 0x5C0 31. "DISTRIBUTOR__37_GICD_IROUTER216_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x5C0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER216_LOWER__8_8,A1" newline hexmask.long.byte 0x5C0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER216_LOWER__0_8,A0" line.long 0x5C4 "GIC_REGS_Distributor__37_GICD_IROUTER216_upper,GICD_IROUTER216_upper" line.long 0x5C8 "GIC_REGS_Distributor__37_GICD_IROUTER217_lower,GICD_IROUTER217_lower" bitfld.long 0x5C8 31. "DISTRIBUTOR__37_GICD_IROUTER217_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x5C8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER217_LOWER__8_8,A1" newline hexmask.long.byte 0x5C8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER217_LOWER__0_8,A0" line.long 0x5CC "GIC_REGS_Distributor__37_GICD_IROUTER217_upper,GICD_IROUTER217_upper" line.long 0x5D0 "GIC_REGS_Distributor__37_GICD_IROUTER218_lower,GICD_IROUTER218_lower" bitfld.long 0x5D0 31. "DISTRIBUTOR__37_GICD_IROUTER218_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x5D0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER218_LOWER__8_8,A1" newline hexmask.long.byte 0x5D0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER218_LOWER__0_8,A0" line.long 0x5D4 "GIC_REGS_Distributor__37_GICD_IROUTER218_upper,GICD_IROUTER218_upper" line.long 0x5D8 "GIC_REGS_Distributor__37_GICD_IROUTER219_lower,GICD_IROUTER219_lower" bitfld.long 0x5D8 31. "DISTRIBUTOR__37_GICD_IROUTER219_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x5D8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER219_LOWER__8_8,A1" newline hexmask.long.byte 0x5D8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER219_LOWER__0_8,A0" line.long 0x5DC "GIC_REGS_Distributor__37_GICD_IROUTER219_upper,GICD_IROUTER219_upper" line.long 0x5E0 "GIC_REGS_Distributor__37_GICD_IROUTER220_lower,GICD_IROUTER220_lower" bitfld.long 0x5E0 31. "DISTRIBUTOR__37_GICD_IROUTER220_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x5E0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER220_LOWER__8_8,A1" newline hexmask.long.byte 0x5E0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER220_LOWER__0_8,A0" line.long 0x5E4 "GIC_REGS_Distributor__37_GICD_IROUTER220_upper,GICD_IROUTER220_upper" line.long 0x5E8 "GIC_REGS_Distributor__37_GICD_IROUTER221_lower,GICD_IROUTER221_lower" bitfld.long 0x5E8 31. "DISTRIBUTOR__37_GICD_IROUTER221_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x5E8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER221_LOWER__8_8,A1" newline hexmask.long.byte 0x5E8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER221_LOWER__0_8,A0" line.long 0x5EC "GIC_REGS_Distributor__37_GICD_IROUTER221_upper,GICD_IROUTER221_upper" line.long 0x5F0 "GIC_REGS_Distributor__37_GICD_IROUTER222_lower,GICD_IROUTER222_lower" bitfld.long 0x5F0 31. "DISTRIBUTOR__37_GICD_IROUTER222_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x5F0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER222_LOWER__8_8,A1" newline hexmask.long.byte 0x5F0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER222_LOWER__0_8,A0" line.long 0x5F4 "GIC_REGS_Distributor__37_GICD_IROUTER222_upper,GICD_IROUTER222_upper" line.long 0x5F8 "GIC_REGS_Distributor__37_GICD_IROUTER223_lower,GICD_IROUTER223_lower" bitfld.long 0x5F8 31. "DISTRIBUTOR__37_GICD_IROUTER223_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x5F8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER223_LOWER__8_8,A1" newline hexmask.long.byte 0x5F8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER223_LOWER__0_8,A0" line.long 0x5FC "GIC_REGS_Distributor__37_GICD_IROUTER223_upper,GICD_IROUTER223_upper" line.long 0x600 "GIC_REGS_Distributor__37_GICD_IROUTER224_lower,GICD_IROUTER224_lower" bitfld.long 0x600 31. "DISTRIBUTOR__37_GICD_IROUTER224_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x600 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER224_LOWER__8_8,A1" newline hexmask.long.byte 0x600 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER224_LOWER__0_8,A0" line.long 0x604 "GIC_REGS_Distributor__37_GICD_IROUTER224_upper,GICD_IROUTER224_upper" line.long 0x608 "GIC_REGS_Distributor__37_GICD_IROUTER225_lower,GICD_IROUTER225_lower" bitfld.long 0x608 31. "DISTRIBUTOR__37_GICD_IROUTER225_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x608 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER225_LOWER__8_8,A1" newline hexmask.long.byte 0x608 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER225_LOWER__0_8,A0" line.long 0x60C "GIC_REGS_Distributor__37_GICD_IROUTER225_upper,GICD_IROUTER225_upper" line.long 0x610 "GIC_REGS_Distributor__37_GICD_IROUTER226_lower,GICD_IROUTER226_lower" bitfld.long 0x610 31. "DISTRIBUTOR__37_GICD_IROUTER226_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x610 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER226_LOWER__8_8,A1" newline hexmask.long.byte 0x610 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER226_LOWER__0_8,A0" line.long 0x614 "GIC_REGS_Distributor__37_GICD_IROUTER226_upper,GICD_IROUTER226_upper" line.long 0x618 "GIC_REGS_Distributor__37_GICD_IROUTER227_lower,GICD_IROUTER227_lower" bitfld.long 0x618 31. "DISTRIBUTOR__37_GICD_IROUTER227_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x618 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER227_LOWER__8_8,A1" newline hexmask.long.byte 0x618 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER227_LOWER__0_8,A0" line.long 0x61C "GIC_REGS_Distributor__37_GICD_IROUTER227_upper,GICD_IROUTER227_upper" line.long 0x620 "GIC_REGS_Distributor__37_GICD_IROUTER228_lower,GICD_IROUTER228_lower" bitfld.long 0x620 31. "DISTRIBUTOR__37_GICD_IROUTER228_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x620 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER228_LOWER__8_8,A1" newline hexmask.long.byte 0x620 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER228_LOWER__0_8,A0" line.long 0x624 "GIC_REGS_Distributor__37_GICD_IROUTER228_upper,GICD_IROUTER228_upper" line.long 0x628 "GIC_REGS_Distributor__37_GICD_IROUTER229_lower,GICD_IROUTER229_lower" bitfld.long 0x628 31. "DISTRIBUTOR__37_GICD_IROUTER229_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x628 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER229_LOWER__8_8,A1" newline hexmask.long.byte 0x628 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER229_LOWER__0_8,A0" line.long 0x62C "GIC_REGS_Distributor__37_GICD_IROUTER229_upper,GICD_IROUTER229_upper" line.long 0x630 "GIC_REGS_Distributor__37_GICD_IROUTER230_lower,GICD_IROUTER230_lower" bitfld.long 0x630 31. "DISTRIBUTOR__37_GICD_IROUTER230_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x630 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER230_LOWER__8_8,A1" newline hexmask.long.byte 0x630 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER230_LOWER__0_8,A0" line.long 0x634 "GIC_REGS_Distributor__37_GICD_IROUTER230_upper,GICD_IROUTER230_upper" line.long 0x638 "GIC_REGS_Distributor__37_GICD_IROUTER231_lower,GICD_IROUTER231_lower" bitfld.long 0x638 31. "DISTRIBUTOR__37_GICD_IROUTER231_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x638 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER231_LOWER__8_8,A1" newline hexmask.long.byte 0x638 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER231_LOWER__0_8,A0" line.long 0x63C "GIC_REGS_Distributor__37_GICD_IROUTER231_upper,GICD_IROUTER231_upper" line.long 0x640 "GIC_REGS_Distributor__37_GICD_IROUTER232_lower,GICD_IROUTER232_lower" bitfld.long 0x640 31. "DISTRIBUTOR__37_GICD_IROUTER232_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x640 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER232_LOWER__8_8,A1" newline hexmask.long.byte 0x640 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER232_LOWER__0_8,A0" line.long 0x644 "GIC_REGS_Distributor__37_GICD_IROUTER232_upper,GICD_IROUTER232_upper" line.long 0x648 "GIC_REGS_Distributor__37_GICD_IROUTER233_lower,GICD_IROUTER233_lower" bitfld.long 0x648 31. "DISTRIBUTOR__37_GICD_IROUTER233_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x648 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER233_LOWER__8_8,A1" newline hexmask.long.byte 0x648 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER233_LOWER__0_8,A0" line.long 0x64C "GIC_REGS_Distributor__37_GICD_IROUTER233_upper,GICD_IROUTER233_upper" line.long 0x650 "GIC_REGS_Distributor__37_GICD_IROUTER234_lower,GICD_IROUTER234_lower" bitfld.long 0x650 31. "DISTRIBUTOR__37_GICD_IROUTER234_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x650 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER234_LOWER__8_8,A1" newline hexmask.long.byte 0x650 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER234_LOWER__0_8,A0" line.long 0x654 "GIC_REGS_Distributor__37_GICD_IROUTER234_upper,GICD_IROUTER234_upper" line.long 0x658 "GIC_REGS_Distributor__37_GICD_IROUTER235_lower,GICD_IROUTER235_lower" bitfld.long 0x658 31. "DISTRIBUTOR__37_GICD_IROUTER235_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x658 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER235_LOWER__8_8,A1" newline hexmask.long.byte 0x658 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER235_LOWER__0_8,A0" line.long 0x65C "GIC_REGS_Distributor__37_GICD_IROUTER235_upper,GICD_IROUTER235_upper" line.long 0x660 "GIC_REGS_Distributor__37_GICD_IROUTER236_lower,GICD_IROUTER236_lower" bitfld.long 0x660 31. "DISTRIBUTOR__37_GICD_IROUTER236_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x660 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER236_LOWER__8_8,A1" newline hexmask.long.byte 0x660 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER236_LOWER__0_8,A0" line.long 0x664 "GIC_REGS_Distributor__37_GICD_IROUTER236_upper,GICD_IROUTER236_upper" line.long 0x668 "GIC_REGS_Distributor__37_GICD_IROUTER237_lower,GICD_IROUTER237_lower" bitfld.long 0x668 31. "DISTRIBUTOR__37_GICD_IROUTER237_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x668 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER237_LOWER__8_8,A1" newline hexmask.long.byte 0x668 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER237_LOWER__0_8,A0" line.long 0x66C "GIC_REGS_Distributor__37_GICD_IROUTER237_upper,GICD_IROUTER237_upper" line.long 0x670 "GIC_REGS_Distributor__37_GICD_IROUTER238_lower,GICD_IROUTER238_lower" bitfld.long 0x670 31. "DISTRIBUTOR__37_GICD_IROUTER238_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x670 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER238_LOWER__8_8,A1" newline hexmask.long.byte 0x670 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER238_LOWER__0_8,A0" line.long 0x674 "GIC_REGS_Distributor__37_GICD_IROUTER238_upper,GICD_IROUTER238_upper" line.long 0x678 "GIC_REGS_Distributor__37_GICD_IROUTER239_lower,GICD_IROUTER239_lower" bitfld.long 0x678 31. "DISTRIBUTOR__37_GICD_IROUTER239_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x678 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER239_LOWER__8_8,A1" newline hexmask.long.byte 0x678 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER239_LOWER__0_8,A0" line.long 0x67C "GIC_REGS_Distributor__37_GICD_IROUTER239_upper,GICD_IROUTER239_upper" line.long 0x680 "GIC_REGS_Distributor__37_GICD_IROUTER240_lower,GICD_IROUTER240_lower" bitfld.long 0x680 31. "DISTRIBUTOR__37_GICD_IROUTER240_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x680 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER240_LOWER__8_8,A1" newline hexmask.long.byte 0x680 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER240_LOWER__0_8,A0" line.long 0x684 "GIC_REGS_Distributor__37_GICD_IROUTER240_upper,GICD_IROUTER240_upper" line.long 0x688 "GIC_REGS_Distributor__37_GICD_IROUTER241_lower,GICD_IROUTER241_lower" bitfld.long 0x688 31. "DISTRIBUTOR__37_GICD_IROUTER241_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x688 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER241_LOWER__8_8,A1" newline hexmask.long.byte 0x688 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER241_LOWER__0_8,A0" line.long 0x68C "GIC_REGS_Distributor__37_GICD_IROUTER241_upper,GICD_IROUTER241_upper" line.long 0x690 "GIC_REGS_Distributor__37_GICD_IROUTER242_lower,GICD_IROUTER242_lower" bitfld.long 0x690 31. "DISTRIBUTOR__37_GICD_IROUTER242_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x690 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER242_LOWER__8_8,A1" newline hexmask.long.byte 0x690 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER242_LOWER__0_8,A0" line.long 0x694 "GIC_REGS_Distributor__37_GICD_IROUTER242_upper,GICD_IROUTER242_upper" line.long 0x698 "GIC_REGS_Distributor__37_GICD_IROUTER243_lower,GICD_IROUTER243_lower" bitfld.long 0x698 31. "DISTRIBUTOR__37_GICD_IROUTER243_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x698 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER243_LOWER__8_8,A1" newline hexmask.long.byte 0x698 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER243_LOWER__0_8,A0" line.long 0x69C "GIC_REGS_Distributor__37_GICD_IROUTER243_upper,GICD_IROUTER243_upper" line.long 0x6A0 "GIC_REGS_Distributor__37_GICD_IROUTER244_lower,GICD_IROUTER244_lower" bitfld.long 0x6A0 31. "DISTRIBUTOR__37_GICD_IROUTER244_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x6A0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER244_LOWER__8_8,A1" newline hexmask.long.byte 0x6A0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER244_LOWER__0_8,A0" line.long 0x6A4 "GIC_REGS_Distributor__37_GICD_IROUTER244_upper,GICD_IROUTER244_upper" line.long 0x6A8 "GIC_REGS_Distributor__37_GICD_IROUTER245_lower,GICD_IROUTER245_lower" bitfld.long 0x6A8 31. "DISTRIBUTOR__37_GICD_IROUTER245_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x6A8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER245_LOWER__8_8,A1" newline hexmask.long.byte 0x6A8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER245_LOWER__0_8,A0" line.long 0x6AC "GIC_REGS_Distributor__37_GICD_IROUTER245_upper,GICD_IROUTER245_upper" line.long 0x6B0 "GIC_REGS_Distributor__37_GICD_IROUTER246_lower,GICD_IROUTER246_lower" bitfld.long 0x6B0 31. "DISTRIBUTOR__37_GICD_IROUTER246_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x6B0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER246_LOWER__8_8,A1" newline hexmask.long.byte 0x6B0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER246_LOWER__0_8,A0" line.long 0x6B4 "GIC_REGS_Distributor__37_GICD_IROUTER246_upper,GICD_IROUTER246_upper" line.long 0x6B8 "GIC_REGS_Distributor__37_GICD_IROUTER247_lower,GICD_IROUTER247_lower" bitfld.long 0x6B8 31. "DISTRIBUTOR__37_GICD_IROUTER247_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x6B8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER247_LOWER__8_8,A1" newline hexmask.long.byte 0x6B8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER247_LOWER__0_8,A0" line.long 0x6BC "GIC_REGS_Distributor__37_GICD_IROUTER247_upper,GICD_IROUTER247_upper" line.long 0x6C0 "GIC_REGS_Distributor__37_GICD_IROUTER248_lower,GICD_IROUTER248_lower" bitfld.long 0x6C0 31. "DISTRIBUTOR__37_GICD_IROUTER248_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x6C0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER248_LOWER__8_8,A1" newline hexmask.long.byte 0x6C0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER248_LOWER__0_8,A0" line.long 0x6C4 "GIC_REGS_Distributor__37_GICD_IROUTER248_upper,GICD_IROUTER248_upper" line.long 0x6C8 "GIC_REGS_Distributor__37_GICD_IROUTER249_lower,GICD_IROUTER249_lower" bitfld.long 0x6C8 31. "DISTRIBUTOR__37_GICD_IROUTER249_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x6C8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER249_LOWER__8_8,A1" newline hexmask.long.byte 0x6C8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER249_LOWER__0_8,A0" line.long 0x6CC "GIC_REGS_Distributor__37_GICD_IROUTER249_upper,GICD_IROUTER249_upper" line.long 0x6D0 "GIC_REGS_Distributor__37_GICD_IROUTER250_lower,GICD_IROUTER250_lower" bitfld.long 0x6D0 31. "DISTRIBUTOR__37_GICD_IROUTER250_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x6D0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER250_LOWER__8_8,A1" newline hexmask.long.byte 0x6D0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER250_LOWER__0_8,A0" line.long 0x6D4 "GIC_REGS_Distributor__37_GICD_IROUTER250_upper,GICD_IROUTER250_upper" line.long 0x6D8 "GIC_REGS_Distributor__37_GICD_IROUTER251_lower,GICD_IROUTER251_lower" bitfld.long 0x6D8 31. "DISTRIBUTOR__37_GICD_IROUTER251_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x6D8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER251_LOWER__8_8,A1" newline hexmask.long.byte 0x6D8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER251_LOWER__0_8,A0" line.long 0x6DC "GIC_REGS_Distributor__37_GICD_IROUTER251_upper,GICD_IROUTER251_upper" line.long 0x6E0 "GIC_REGS_Distributor__37_GICD_IROUTER252_lower,GICD_IROUTER252_lower" bitfld.long 0x6E0 31. "DISTRIBUTOR__37_GICD_IROUTER252_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x6E0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER252_LOWER__8_8,A1" newline hexmask.long.byte 0x6E0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER252_LOWER__0_8,A0" line.long 0x6E4 "GIC_REGS_Distributor__37_GICD_IROUTER252_upper,GICD_IROUTER252_upper" line.long 0x6E8 "GIC_REGS_Distributor__37_GICD_IROUTER253_lower,GICD_IROUTER253_lower" bitfld.long 0x6E8 31. "DISTRIBUTOR__37_GICD_IROUTER253_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x6E8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER253_LOWER__8_8,A1" newline hexmask.long.byte 0x6E8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER253_LOWER__0_8,A0" line.long 0x6EC "GIC_REGS_Distributor__37_GICD_IROUTER253_upper,GICD_IROUTER253_upper" line.long 0x6F0 "GIC_REGS_Distributor__37_GICD_IROUTER254_lower,GICD_IROUTER254_lower" bitfld.long 0x6F0 31. "DISTRIBUTOR__37_GICD_IROUTER254_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x6F0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER254_LOWER__8_8,A1" newline hexmask.long.byte 0x6F0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER254_LOWER__0_8,A0" line.long 0x6F4 "GIC_REGS_Distributor__37_GICD_IROUTER254_upper,GICD_IROUTER254_upper" line.long 0x6F8 "GIC_REGS_Distributor__37_GICD_IROUTER255_lower,GICD_IROUTER255_lower" bitfld.long 0x6F8 31. "DISTRIBUTOR__37_GICD_IROUTER255_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x6F8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER255_LOWER__8_8,A1" newline hexmask.long.byte 0x6F8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER255_LOWER__0_8,A0" line.long 0x6FC "GIC_REGS_Distributor__37_GICD_IROUTER255_upper,GICD_IROUTER255_upper" line.long 0x700 "GIC_REGS_Distributor__37_GICD_IROUTER256_lower,GICD_IROUTER256_lower" bitfld.long 0x700 31. "DISTRIBUTOR__37_GICD_IROUTER256_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x700 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER256_LOWER__8_8,A1" newline hexmask.long.byte 0x700 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER256_LOWER__0_8,A0" line.long 0x704 "GIC_REGS_Distributor__37_GICD_IROUTER256_upper,GICD_IROUTER256_upper" line.long 0x708 "GIC_REGS_Distributor__37_GICD_IROUTER257_lower,GICD_IROUTER257_lower" bitfld.long 0x708 31. "DISTRIBUTOR__37_GICD_IROUTER257_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x708 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER257_LOWER__8_8,A1" newline hexmask.long.byte 0x708 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER257_LOWER__0_8,A0" line.long 0x70C "GIC_REGS_Distributor__37_GICD_IROUTER257_upper,GICD_IROUTER257_upper" line.long 0x710 "GIC_REGS_Distributor__37_GICD_IROUTER258_lower,GICD_IROUTER258_lower" bitfld.long 0x710 31. "DISTRIBUTOR__37_GICD_IROUTER258_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x710 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER258_LOWER__8_8,A1" newline hexmask.long.byte 0x710 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER258_LOWER__0_8,A0" line.long 0x714 "GIC_REGS_Distributor__37_GICD_IROUTER258_upper,GICD_IROUTER258_upper" line.long 0x718 "GIC_REGS_Distributor__37_GICD_IROUTER259_lower,GICD_IROUTER259_lower" bitfld.long 0x718 31. "DISTRIBUTOR__37_GICD_IROUTER259_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x718 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER259_LOWER__8_8,A1" newline hexmask.long.byte 0x718 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER259_LOWER__0_8,A0" line.long 0x71C "GIC_REGS_Distributor__37_GICD_IROUTER259_upper,GICD_IROUTER259_upper" line.long 0x720 "GIC_REGS_Distributor__37_GICD_IROUTER260_lower,GICD_IROUTER260_lower" bitfld.long 0x720 31. "DISTRIBUTOR__37_GICD_IROUTER260_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x720 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER260_LOWER__8_8,A1" newline hexmask.long.byte 0x720 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER260_LOWER__0_8,A0" line.long 0x724 "GIC_REGS_Distributor__37_GICD_IROUTER260_upper,GICD_IROUTER260_upper" line.long 0x728 "GIC_REGS_Distributor__37_GICD_IROUTER261_lower,GICD_IROUTER261_lower" bitfld.long 0x728 31. "DISTRIBUTOR__37_GICD_IROUTER261_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x728 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER261_LOWER__8_8,A1" newline hexmask.long.byte 0x728 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER261_LOWER__0_8,A0" line.long 0x72C "GIC_REGS_Distributor__37_GICD_IROUTER261_upper,GICD_IROUTER261_upper" line.long 0x730 "GIC_REGS_Distributor__37_GICD_IROUTER262_lower,GICD_IROUTER262_lower" bitfld.long 0x730 31. "DISTRIBUTOR__37_GICD_IROUTER262_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x730 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER262_LOWER__8_8,A1" newline hexmask.long.byte 0x730 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER262_LOWER__0_8,A0" line.long 0x734 "GIC_REGS_Distributor__37_GICD_IROUTER262_upper,GICD_IROUTER262_upper" line.long 0x738 "GIC_REGS_Distributor__37_GICD_IROUTER263_lower,GICD_IROUTER263_lower" bitfld.long 0x738 31. "DISTRIBUTOR__37_GICD_IROUTER263_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x738 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER263_LOWER__8_8,A1" newline hexmask.long.byte 0x738 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER263_LOWER__0_8,A0" line.long 0x73C "GIC_REGS_Distributor__37_GICD_IROUTER263_upper,GICD_IROUTER263_upper" line.long 0x740 "GIC_REGS_Distributor__37_GICD_IROUTER264_lower,GICD_IROUTER264_lower" bitfld.long 0x740 31. "DISTRIBUTOR__37_GICD_IROUTER264_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x740 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER264_LOWER__8_8,A1" newline hexmask.long.byte 0x740 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER264_LOWER__0_8,A0" line.long 0x744 "GIC_REGS_Distributor__37_GICD_IROUTER264_upper,GICD_IROUTER264_upper" line.long 0x748 "GIC_REGS_Distributor__37_GICD_IROUTER265_lower,GICD_IROUTER265_lower" bitfld.long 0x748 31. "DISTRIBUTOR__37_GICD_IROUTER265_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x748 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER265_LOWER__8_8,A1" newline hexmask.long.byte 0x748 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER265_LOWER__0_8,A0" line.long 0x74C "GIC_REGS_Distributor__37_GICD_IROUTER265_upper,GICD_IROUTER265_upper" line.long 0x750 "GIC_REGS_Distributor__37_GICD_IROUTER266_lower,GICD_IROUTER266_lower" bitfld.long 0x750 31. "DISTRIBUTOR__37_GICD_IROUTER266_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x750 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER266_LOWER__8_8,A1" newline hexmask.long.byte 0x750 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER266_LOWER__0_8,A0" line.long 0x754 "GIC_REGS_Distributor__37_GICD_IROUTER266_upper,GICD_IROUTER266_upper" line.long 0x758 "GIC_REGS_Distributor__37_GICD_IROUTER267_lower,GICD_IROUTER267_lower" bitfld.long 0x758 31. "DISTRIBUTOR__37_GICD_IROUTER267_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x758 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER267_LOWER__8_8,A1" newline hexmask.long.byte 0x758 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER267_LOWER__0_8,A0" line.long 0x75C "GIC_REGS_Distributor__37_GICD_IROUTER267_upper,GICD_IROUTER267_upper" line.long 0x760 "GIC_REGS_Distributor__37_GICD_IROUTER268_lower,GICD_IROUTER268_lower" bitfld.long 0x760 31. "DISTRIBUTOR__37_GICD_IROUTER268_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x760 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER268_LOWER__8_8,A1" newline hexmask.long.byte 0x760 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER268_LOWER__0_8,A0" line.long 0x764 "GIC_REGS_Distributor__37_GICD_IROUTER268_upper,GICD_IROUTER268_upper" line.long 0x768 "GIC_REGS_Distributor__37_GICD_IROUTER269_lower,GICD_IROUTER269_lower" bitfld.long 0x768 31. "DISTRIBUTOR__37_GICD_IROUTER269_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x768 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER269_LOWER__8_8,A1" newline hexmask.long.byte 0x768 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER269_LOWER__0_8,A0" line.long 0x76C "GIC_REGS_Distributor__37_GICD_IROUTER269_upper,GICD_IROUTER269_upper" line.long 0x770 "GIC_REGS_Distributor__37_GICD_IROUTER270_lower,GICD_IROUTER270_lower" bitfld.long 0x770 31. "DISTRIBUTOR__37_GICD_IROUTER270_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x770 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER270_LOWER__8_8,A1" newline hexmask.long.byte 0x770 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER270_LOWER__0_8,A0" line.long 0x774 "GIC_REGS_Distributor__37_GICD_IROUTER270_upper,GICD_IROUTER270_upper" line.long 0x778 "GIC_REGS_Distributor__37_GICD_IROUTER271_lower,GICD_IROUTER271_lower" bitfld.long 0x778 31. "DISTRIBUTOR__37_GICD_IROUTER271_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x778 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER271_LOWER__8_8,A1" newline hexmask.long.byte 0x778 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER271_LOWER__0_8,A0" line.long 0x77C "GIC_REGS_Distributor__37_GICD_IROUTER271_upper,GICD_IROUTER271_upper" line.long 0x780 "GIC_REGS_Distributor__37_GICD_IROUTER272_lower,GICD_IROUTER272_lower" bitfld.long 0x780 31. "DISTRIBUTOR__37_GICD_IROUTER272_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x780 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER272_LOWER__8_8,A1" newline hexmask.long.byte 0x780 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER272_LOWER__0_8,A0" line.long 0x784 "GIC_REGS_Distributor__37_GICD_IROUTER272_upper,GICD_IROUTER272_upper" line.long 0x788 "GIC_REGS_Distributor__37_GICD_IROUTER273_lower,GICD_IROUTER273_lower" bitfld.long 0x788 31. "DISTRIBUTOR__37_GICD_IROUTER273_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x788 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER273_LOWER__8_8,A1" newline hexmask.long.byte 0x788 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER273_LOWER__0_8,A0" line.long 0x78C "GIC_REGS_Distributor__37_GICD_IROUTER273_upper,GICD_IROUTER273_upper" line.long 0x790 "GIC_REGS_Distributor__37_GICD_IROUTER274_lower,GICD_IROUTER274_lower" bitfld.long 0x790 31. "DISTRIBUTOR__37_GICD_IROUTER274_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x790 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER274_LOWER__8_8,A1" newline hexmask.long.byte 0x790 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER274_LOWER__0_8,A0" line.long 0x794 "GIC_REGS_Distributor__37_GICD_IROUTER274_upper,GICD_IROUTER274_upper" line.long 0x798 "GIC_REGS_Distributor__37_GICD_IROUTER275_lower,GICD_IROUTER275_lower" bitfld.long 0x798 31. "DISTRIBUTOR__37_GICD_IROUTER275_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x798 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER275_LOWER__8_8,A1" newline hexmask.long.byte 0x798 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER275_LOWER__0_8,A0" line.long 0x79C "GIC_REGS_Distributor__37_GICD_IROUTER275_upper,GICD_IROUTER275_upper" line.long 0x7A0 "GIC_REGS_Distributor__37_GICD_IROUTER276_lower,GICD_IROUTER276_lower" bitfld.long 0x7A0 31. "DISTRIBUTOR__37_GICD_IROUTER276_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x7A0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER276_LOWER__8_8,A1" newline hexmask.long.byte 0x7A0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER276_LOWER__0_8,A0" line.long 0x7A4 "GIC_REGS_Distributor__37_GICD_IROUTER276_upper,GICD_IROUTER276_upper" line.long 0x7A8 "GIC_REGS_Distributor__37_GICD_IROUTER277_lower,GICD_IROUTER277_lower" bitfld.long 0x7A8 31. "DISTRIBUTOR__37_GICD_IROUTER277_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x7A8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER277_LOWER__8_8,A1" newline hexmask.long.byte 0x7A8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER277_LOWER__0_8,A0" line.long 0x7AC "GIC_REGS_Distributor__37_GICD_IROUTER277_upper,GICD_IROUTER277_upper" line.long 0x7B0 "GIC_REGS_Distributor__37_GICD_IROUTER278_lower,GICD_IROUTER278_lower" bitfld.long 0x7B0 31. "DISTRIBUTOR__37_GICD_IROUTER278_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x7B0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER278_LOWER__8_8,A1" newline hexmask.long.byte 0x7B0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER278_LOWER__0_8,A0" line.long 0x7B4 "GIC_REGS_Distributor__37_GICD_IROUTER278_upper,GICD_IROUTER278_upper" line.long 0x7B8 "GIC_REGS_Distributor__37_GICD_IROUTER279_lower,GICD_IROUTER279_lower" bitfld.long 0x7B8 31. "DISTRIBUTOR__37_GICD_IROUTER279_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x7B8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER279_LOWER__8_8,A1" newline hexmask.long.byte 0x7B8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER279_LOWER__0_8,A0" line.long 0x7BC "GIC_REGS_Distributor__37_GICD_IROUTER279_upper,GICD_IROUTER279_upper" line.long 0x7C0 "GIC_REGS_Distributor__37_GICD_IROUTER280_lower,GICD_IROUTER280_lower" bitfld.long 0x7C0 31. "DISTRIBUTOR__37_GICD_IROUTER280_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x7C0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER280_LOWER__8_8,A1" newline hexmask.long.byte 0x7C0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER280_LOWER__0_8,A0" line.long 0x7C4 "GIC_REGS_Distributor__37_GICD_IROUTER280_upper,GICD_IROUTER280_upper" line.long 0x7C8 "GIC_REGS_Distributor__37_GICD_IROUTER281_lower,GICD_IROUTER281_lower" bitfld.long 0x7C8 31. "DISTRIBUTOR__37_GICD_IROUTER281_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x7C8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER281_LOWER__8_8,A1" newline hexmask.long.byte 0x7C8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER281_LOWER__0_8,A0" line.long 0x7CC "GIC_REGS_Distributor__37_GICD_IROUTER281_upper,GICD_IROUTER281_upper" line.long 0x7D0 "GIC_REGS_Distributor__37_GICD_IROUTER282_lower,GICD_IROUTER282_lower" bitfld.long 0x7D0 31. "DISTRIBUTOR__37_GICD_IROUTER282_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x7D0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER282_LOWER__8_8,A1" newline hexmask.long.byte 0x7D0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER282_LOWER__0_8,A0" line.long 0x7D4 "GIC_REGS_Distributor__37_GICD_IROUTER282_upper,GICD_IROUTER282_upper" line.long 0x7D8 "GIC_REGS_Distributor__37_GICD_IROUTER283_lower,GICD_IROUTER283_lower" bitfld.long 0x7D8 31. "DISTRIBUTOR__37_GICD_IROUTER283_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x7D8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER283_LOWER__8_8,A1" newline hexmask.long.byte 0x7D8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER283_LOWER__0_8,A0" line.long 0x7DC "GIC_REGS_Distributor__37_GICD_IROUTER283_upper,GICD_IROUTER283_upper" line.long 0x7E0 "GIC_REGS_Distributor__37_GICD_IROUTER284_lower,GICD_IROUTER284_lower" bitfld.long 0x7E0 31. "DISTRIBUTOR__37_GICD_IROUTER284_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x7E0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER284_LOWER__8_8,A1" newline hexmask.long.byte 0x7E0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER284_LOWER__0_8,A0" line.long 0x7E4 "GIC_REGS_Distributor__37_GICD_IROUTER284_upper,GICD_IROUTER284_upper" line.long 0x7E8 "GIC_REGS_Distributor__37_GICD_IROUTER285_lower,GICD_IROUTER285_lower" bitfld.long 0x7E8 31. "DISTRIBUTOR__37_GICD_IROUTER285_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x7E8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER285_LOWER__8_8,A1" newline hexmask.long.byte 0x7E8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER285_LOWER__0_8,A0" line.long 0x7EC "GIC_REGS_Distributor__37_GICD_IROUTER285_upper,GICD_IROUTER285_upper" line.long 0x7F0 "GIC_REGS_Distributor__37_GICD_IROUTER286_lower,GICD_IROUTER286_lower" bitfld.long 0x7F0 31. "DISTRIBUTOR__37_GICD_IROUTER286_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x7F0 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER286_LOWER__8_8,A1" newline hexmask.long.byte 0x7F0 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER286_LOWER__0_8,A0" line.long 0x7F4 "GIC_REGS_Distributor__37_GICD_IROUTER286_upper,GICD_IROUTER286_upper" line.long 0x7F8 "GIC_REGS_Distributor__37_GICD_IROUTER287_lower,GICD_IROUTER287_lower" bitfld.long 0x7F8 31. "DISTRIBUTOR__37_GICD_IROUTER287_LOWER__31_1,IRM" "0,1" newline hexmask.long.byte 0x7F8 8.--15. 1. "DISTRIBUTOR__37_GICD_IROUTER287_LOWER__8_8,A1" newline hexmask.long.byte 0x7F8 0.--7. 1. "DISTRIBUTOR__37_GICD_IROUTER287_LOWER__0_8,A0" line.long 0x7FC "GIC_REGS_Distributor__37_GICD_IROUTER287_upper,GICD_IROUTER287_upper" group.long 0xC000++0x7 line.long 0x0 "GIC_REGS_Distributor__38_GICD_ESTATUSR,GICD_ESTATUSR" bitfld.long 0x0 31. "DISTRIBUTOR__38_GICD_ESTATUSR__31_1,SWRP" "0,1" line.long 0x4 "GIC_REGS_Distributor__39_GICD_ERRTESTR,GICD_ERRTESTR" bitfld.long 0x4 1. "DISTRIBUTOR__39_GICD_ERRTESTR__1_1,AXIM_err" "0,1" newline bitfld.long 0x4 0. "DISTRIBUTOR__39_GICD_ERRTESTR__0_1,ECC_fatal" "0,1" group.long 0xC084++0x1F line.long 0x0 "GIC_REGS_Distributor__40_GICD_SPISR0,GICD_SPISR0" line.long 0x4 "GIC_REGS_Distributor__40_GICD_SPISR1,GICD_SPISR1" line.long 0x8 "GIC_REGS_Distributor__40_GICD_SPISR2,GICD_SPISR2" line.long 0xC "GIC_REGS_Distributor__40_GICD_SPISR3,GICD_SPISR3" line.long 0x10 "GIC_REGS_Distributor__40_GICD_SPISR4,GICD_SPISR4" line.long 0x14 "GIC_REGS_Distributor__40_GICD_SPISR5,GICD_SPISR5" line.long 0x18 "GIC_REGS_Distributor__40_GICD_SPISR6,GICD_SPISR6" line.long 0x1C "GIC_REGS_Distributor__40_GICD_SPISR7,GICD_SPISR7" group.long 0xFFD0++0x2F line.long 0x0 "GIC_REGS_Distributor__41_GICD_PIDR4,GICD_PIDR4" line.long 0x4 "GIC_REGS_Distributor__42_GICD_PIDR5,GICD_PIDR5" line.long 0x8 "GIC_REGS_Distributor__43_GICD_PIDR6,GICD_PIDR6" line.long 0xC "GIC_REGS_Distributor__44_GICD_PIDR7,GICD_PIDR7" line.long 0x10 "GIC_REGS_Distributor__45_GICD_PIDR0,GICD_PIDR0" line.long 0x14 "GIC_REGS_Distributor__46_GICD_PIDR1,GICD_PIDR1" line.long 0x18 "GIC_REGS_Distributor__47_GICD_PIDR2,GICD_PIDR2" line.long 0x1C "GIC_REGS_Distributor__48_GICD_PIDR3,GICD_PIDR3" line.long 0x20 "GIC_REGS_Distributor__49_GICD_CIDR0,GICD_CIDR0" line.long 0x24 "GIC_REGS_Distributor__50_GICD_CIDR1,GICD_CIDR1" line.long 0x28 "GIC_REGS_Distributor__51_GICD_CIDR2,GICD_CIDR2" line.long 0x2C "GIC_REGS_Distributor__52_GICD_CIDR3,GICD_CIDR3" group.long 0x10040++0x3 line.long 0x0 "GIC_REGS_Message_based_SPIs__1_GICD_SETSPI_NSR,GICD_SETSPI_NSR" hexmask.long.word 0x0 0.--9. 1. "MESSAGE_BASED_SPIS__1_GICD_SETSPI_NSR__0_10,SPI ID" group.long 0x10048++0x3 line.long 0x0 "GIC_REGS_Message_based_SPIs__2_GICD_CLRSPI_NSR,GICD_CLRSPI_NSR" hexmask.long.word 0x0 0.--9. 1. "MESSAGE_BASED_SPIS__2_GICD_CLRSPI_NSR__0_10,SPI ID" group.long 0x10050++0x3 line.long 0x0 "GIC_REGS_Message_based_SPIs__3_GICD_SETSPI_SR,GICD_SETSPI_SR" hexmask.long.word 0x0 0.--9. 1. "MESSAGE_BASED_SPIS__3_GICD_SETSPI_SR__0_10,SPI ID" group.long 0x10058++0x3 line.long 0x0 "GIC_REGS_Message_based_SPIs__4_GICD_CLRSPI_SR,GICD_CLRSPI_SR" hexmask.long.word 0x0 0.--9. 1. "MESSAGE_BASED_SPIS__4_GICD_CLRSPI_SR__0_10,SPI ID" group.long 0x20000++0xF line.long 0x0 "GIC_REGS_ITS__1_GITS_CTLR,GITS_CTLR" bitfld.long 0x0 31. "ITS__1_GITS_CTLR__31_1,Quiescent" "0,1" newline bitfld.long 0x0 0. "ITS__1_GITS_CTLR__0_1,Enabled" "0,1" line.long 0x4 "GIC_REGS_ITS__2_GITS_IIDR,GITS_IIDR" hexmask.long.byte 0x4 24.--31. 1. "ITS__2_GITS_IIDR__24_8,ProductID" newline hexmask.long.byte 0x4 16.--19. 1. "ITS__2_GITS_IIDR__16_4,Variant" newline hexmask.long.byte 0x4 12.--15. 1. "ITS__2_GITS_IIDR__12_4,Revision" newline hexmask.long.word 0x4 0.--11. 1. "ITS__2_GITS_IIDR__0_12,Implementer" line.long 0x8 "GIC_REGS_ITS__3_GITS_TYPER_lower,GITS_TYPER_lower" hexmask.long.byte 0x8 24.--31. 1. "ITS__3_GITS_TYPER_LOWER__24_8,HCC" newline bitfld.long 0x8 19. "ITS__3_GITS_TYPER_LOWER__19_1,PTA" "0,1" newline hexmask.long.byte 0x8 13.--17. 1. "ITS__3_GITS_TYPER_LOWER__13_5,Devbits" newline hexmask.long.byte 0x8 8.--12. 1. "ITS__3_GITS_TYPER_LOWER__8_5,IDbits" newline hexmask.long.byte 0x8 4.--7. 1. "ITS__3_GITS_TYPER_LOWER__4_4,ITT Entry Size" newline bitfld.long 0x8 3. "ITS__3_GITS_TYPER_LOWER__3_1,Distributed" "0,1" newline bitfld.long 0x8 1. "ITS__3_GITS_TYPER_LOWER__1_1,VLPIS" "0,1" newline bitfld.long 0x8 0. "ITS__3_GITS_TYPER_LOWER__0_1,PLPIS" "0,1" line.long 0xC "GIC_REGS_ITS__4_GITS_TYPER_upper,GITS_TYPER_upper" group.long 0x20080++0x17 line.long 0x0 "GIC_REGS_ITS__5_GITS_CBASER_lower,GITS_CBASER_lower" hexmask.long.tbyte 0x0 12.--31. 1. "ITS__5_GITS_CBASER_LOWER__12_20,Physical Address [31:12]" newline hexmask.long.byte 0x0 0.--7. 1. "ITS__5_GITS_CBASER_LOWER__0_8,Size" line.long 0x4 "GIC_REGS_ITS__6_GITS_CBASER_upper,GITS_CBASER_upper" bitfld.long 0x4 31. "ITS__6_GITS_CBASER_UPPER__31_1,Valid" "0,1" newline bitfld.long 0x4 27.--29. "ITS__6_GITS_CBASER_UPPER__27_3,Cacheability" "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x4 0.--15. 1. "ITS__6_GITS_CBASER_UPPER__0_16,Physical Address [47:32]" line.long 0x8 "GIC_REGS_ITS__7_GITS_CWRITER_lower,GITS_CWRITER_lower" hexmask.long.word 0x8 5.--19. 1. "ITS__7_GITS_CWRITER_LOWER__5_15,Offset" line.long 0xC "GIC_REGS_ITS__8_GITS_CWRITER_upper,GITS_CWRITER_upper" line.long 0x10 "GIC_REGS_ITS__9_GITS_CREADR_lower,GITS_CREADR_lower" hexmask.long.word 0x10 5.--19. 1. "ITS__9_GITS_CREADR_LOWER__5_15,Offset" line.long 0x14 "GIC_REGS_ITS__10_GITS_CREADR_upper,GITS_CREADR_upper" group.long 0x20100++0x7 line.long 0x0 "GIC_REGS_ITS__11_GITS_BASER0_lower,GITS_BASER0_lower" hexmask.long.tbyte 0x0 12.--31. 1. "ITS__11_GITS_BASER0_LOWER__12_20,Physical Address [31:12]" newline bitfld.long 0x0 8.--9. "ITS__11_GITS_BASER0_LOWER__8_2,Page Size" "0,1,2,3" newline hexmask.long.byte 0x0 0.--7. 1. "ITS__11_GITS_BASER0_LOWER__0_8,Size" line.long 0x4 "GIC_REGS_ITS__12_GITS_BASER0_upper,GITS_BASER0_upper" bitfld.long 0x4 24.--26. "ITS__12_GITS_BASER0_UPPER__24_3,Type" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x4 16.--23. 1. "ITS__12_GITS_BASER0_UPPER__16_8,Entry Size" newline hexmask.long.word 0x4 0.--15. 1. "ITS__12_GITS_BASER0_UPPER__0_16,Physical Address [47:32]" group.long 0x2C000++0x1F line.long 0x0 "GIC_REGS_ITS__13_GITS_TRKCTLR,GITS_TRKCTLR" bitfld.long 0x0 1. "ITS__13_GITS_TRKCTLR__1_1,ITS track" "0,1" newline bitfld.long 0x0 0. "ITS__13_GITS_TRKCTLR__0_1,Cache count reset" "0,1" line.long 0x4 "GIC_REGS_ITS__14_GITS_TRKR,GITS_TRKR" bitfld.long 0x4 5. "ITS__14_GITS_TRKR__5_1,Translated ID out of range" "0,1" newline bitfld.long 0x4 4. "ITS__14_GITS_TRKR__4_1,Target CPU out of range" "0,1" newline bitfld.long 0x4 3. "ITS__14_GITS_TRKR__3_1,DID/ID not mapped" "0,1" newline bitfld.long 0x4 2. "ITS__14_GITS_TRKR__2_1,Input ID out of range" "0,1" newline bitfld.long 0x4 1. "ITS__14_GITS_TRKR__1_1,DID unmapped" "0,1" newline bitfld.long 0x4 0. "ITS__14_GITS_TRKR__0_1,DID out of range" "0,1" line.long 0x8 "GIC_REGS_ITS__15_GITS_TRKDIDR,GITS_TRKDIDR" hexmask.long.tbyte 0x8 0.--19. 1. "ITS__15_GITS_TRKDIDR__0_20,DID" line.long 0xC "GIC_REGS_ITS__16_GITS_TRKPIDR,GITS_TRKPIDR" hexmask.long.word 0xC 0.--15. 1. "ITS__16_GITS_TRKPIDR__0_16,Translated ID" line.long 0x10 "GIC_REGS_ITS__17_GITS_TRKVIDR,GITS_TRKVIDR" hexmask.long.word 0x10 0.--15. 1. "ITS__17_GITS_TRKVIDR__0_16,Input ID" line.long 0x14 "GIC_REGS_ITS__18_GITS_TRKTGTR,GITS_TRKTGTR" hexmask.long.byte 0x14 0.--6. 1. "ITS__18_GITS_TRKTGTR__0_7,Target CPU" line.long 0x18 "GIC_REGS_ITS__19_GITS_TRKICR,GITS_TRKICR" hexmask.long.word 0x18 16.--31. 1. "ITS__19_GITS_TRKICR__16_16,ITE cache hits" newline hexmask.long.word 0x18 0.--15. 1. "ITS__19_GITS_TRKICR__0_16,ITE cache misses" line.long 0x1C "GIC_REGS_ITS__20_GITS_TRKLCR,GITS_TRKLCR" hexmask.long.word 0x1C 16.--31. 1. "ITS__20_GITS_TRKLCR__16_16,LPI cache hits" newline hexmask.long.word 0x1C 0.--15. 1. "ITS__20_GITS_TRKLCR__0_16,LPI cache misses" group.long 0x2FFD0++0x2F line.long 0x0 "GIC_REGS_ITS__21_GITS_PIDR4,GITS_PIDR4" line.long 0x4 "GIC_REGS_ITS__22_GITS_PIDR5,GITS_PIDR5" line.long 0x8 "GIC_REGS_ITS__23_GITS_PIDR6,GITS_PIDR6" line.long 0xC "GIC_REGS_ITS__24_GITS_PIDR7,GITS_PIDR7" line.long 0x10 "GIC_REGS_ITS__25_GITS_PIDR0,GITS_PIDR0" line.long 0x14 "GIC_REGS_ITS__26_GITS_PIDR1,GITS_PIDR1" line.long 0x18 "GIC_REGS_ITS__27_GITS_PIDR2,GITS_PIDR2" line.long 0x1C "GIC_REGS_ITS__28_GITS_PIDR3,GITS_PIDR3" line.long 0x20 "GIC_REGS_ITS__29_GITS_CIDR0,GITS_CIDR0" line.long 0x24 "GIC_REGS_ITS__30_GITS_CIDR1,GITS_CIDR1" line.long 0x28 "GIC_REGS_ITS__31_GITS_CIDR2,GITS_CIDR2" line.long 0x2C "GIC_REGS_ITS__32_GITS_CIDR3,GITS_CIDR3" group.long 0x40000++0xF line.long 0x0 "GIC_REGS_Redistributor_control_LPI_0__2_GICR_CTLR,GICR_CTLR" bitfld.long 0x0 31. "REDISTRIBUTOR_CONTROL_LPI_0__2_GICR_CTLR__31_1,Upstream Write Pending" "0,1" newline bitfld.long 0x0 3. "REDISTRIBUTOR_CONTROL_LPI_0__2_GICR_CTLR__3_1,Register Write Pending" "0,1" newline bitfld.long 0x0 0. "REDISTRIBUTOR_CONTROL_LPI_0__2_GICR_CTLR__0_1,Enable LPIs" "0,1" line.long 0x4 "GIC_REGS_Redistributor_control_LPI_0__3_GICR_IIDR,GICR_IIDR" hexmask.long.byte 0x4 24.--31. 1. "REDISTRIBUTOR_CONTROL_LPI_0__3_GICR_IIDR__24_8,ProductID" newline hexmask.long.byte 0x4 16.--19. 1. "REDISTRIBUTOR_CONTROL_LPI_0__3_GICR_IIDR__16_4,Variant" newline hexmask.long.byte 0x4 12.--15. 1. "REDISTRIBUTOR_CONTROL_LPI_0__3_GICR_IIDR__12_4,Revision" newline hexmask.long.word 0x4 0.--11. 1. "REDISTRIBUTOR_CONTROL_LPI_0__3_GICR_IIDR__0_12,Implementer" line.long 0x8 "GIC_REGS_Redistributor_control_LPI_0__4_GICR_TYPER_lower,GICR_TYPER_lower" hexmask.long.word 0x8 8.--23. 1. "REDISTRIBUTOR_CONTROL_LPI_0__4_GICR_TYPER_LOWER__8_16,Processor Number" newline bitfld.long 0x8 4. "REDISTRIBUTOR_CONTROL_LPI_0__4_GICR_TYPER_LOWER__4_1,Last" "0,1" newline bitfld.long 0x8 3. "REDISTRIBUTOR_CONTROL_LPI_0__4_GICR_TYPER_LOWER__3_1,Distributed" "0,1" newline bitfld.long 0x8 1. "REDISTRIBUTOR_CONTROL_LPI_0__4_GICR_TYPER_LOWER__1_1,VLPIS" "0,1" newline bitfld.long 0x8 0. "REDISTRIBUTOR_CONTROL_LPI_0__4_GICR_TYPER_LOWER__0_1,PLPIS" "0,1" line.long 0xC "GIC_REGS_Redistributor_control_LPI_0__5_GICR_TYPER_upper,GICR_TYPER_upper" hexmask.long.byte 0xC 24.--31. 1. "REDISTRIBUTOR_CONTROL_LPI_0__5_GICR_TYPER_UPPER__24_8,A3" newline hexmask.long.byte 0xC 16.--23. 1. "REDISTRIBUTOR_CONTROL_LPI_0__5_GICR_TYPER_UPPER__16_8,A2" newline hexmask.long.byte 0xC 8.--15. 1. "REDISTRIBUTOR_CONTROL_LPI_0__5_GICR_TYPER_UPPER__8_8,A1" newline hexmask.long.byte 0xC 0.--7. 1. "REDISTRIBUTOR_CONTROL_LPI_0__5_GICR_TYPER_UPPER__0_8,A0" group.long 0x40014++0x3 line.long 0x0 "GIC_REGS_Redistributor_control_LPI_0__6_GICR_WAKER,GICR_WAKER" bitfld.long 0x0 31. "REDISTRIBUTOR_CONTROL_LPI_0__6_GICR_WAKER__31_1,Quiescent" "0,1" newline bitfld.long 0x0 2. "REDISTRIBUTOR_CONTROL_LPI_0__6_GICR_WAKER__2_1,ChildrenAsleep" "0,1" newline bitfld.long 0x0 1. "REDISTRIBUTOR_CONTROL_LPI_0__6_GICR_WAKER__1_1,ProcessorSleep" "0,1" newline bitfld.long 0x0 0. "REDISTRIBUTOR_CONTROL_LPI_0__6_GICR_WAKER__0_1,Sleep" "0,1" group.long 0x40070++0xF line.long 0x0 "GIC_REGS_Redistributor_control_LPI_0__7_GICR_PROPBASER_lower,GICR_PROPBASER_lower" hexmask.long.tbyte 0x0 12.--31. 1. "REDISTRIBUTOR_CONTROL_LPI_0__7_GICR_PROPBASER_LOWER__12_20,Physical Address [31:12]" newline bitfld.long 0x0 7.--9. "REDISTRIBUTOR_CONTROL_LPI_0__7_GICR_PROPBASER_LOWER__7_3,Cacheability" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--4. 1. "REDISTRIBUTOR_CONTROL_LPI_0__7_GICR_PROPBASER_LOWER__0_5,Idbits" line.long 0x4 "GIC_REGS_Redistributor_control_LPI_0__8_GICR_PROPBASER_upper,GICR_PROPBASER_upper" hexmask.long.word 0x4 0.--15. 1. "REDISTRIBUTOR_CONTROL_LPI_0__8_GICR_PROPBASER_UPPER__0_16,Physical Address [47:32]" line.long 0x8 "GIC_REGS_Redistributor_control_LPI_0__9_GICR_PENDBASER_lower,GICR_PENDBASER_lower" hexmask.long.word 0x8 16.--31. 1. "REDISTRIBUTOR_CONTROL_LPI_0__9_GICR_PENDBASER_LOWER__16_16,Physical Address [31:16]" newline bitfld.long 0x8 7.--9. "REDISTRIBUTOR_CONTROL_LPI_0__9_GICR_PENDBASER_LOWER__7_3,Cacheability" "0,1,2,3,4,5,6,7" line.long 0xC "GIC_REGS_Redistributor_control_LPI_0__10_GICR_PENDBASER_upper,GICR_PENDBASER_upper" bitfld.long 0xC 30. "REDISTRIBUTOR_CONTROL_LPI_0__10_GICR_PENDBASER_UPPER__30_1,Pending Table Zero" "0,1" newline hexmask.long.word 0xC 0.--15. 1. "REDISTRIBUTOR_CONTROL_LPI_0__10_GICR_PENDBASER_UPPER__0_16,Physical Address [47:32]" group.long 0x4FFD0++0x2F line.long 0x0 "GIC_REGS_Redistributor_control_LPI_0__11_GICR_PIDR4,GICR_PIDR4" line.long 0x4 "GIC_REGS_Redistributor_control_LPI_0__12_GICR_PIDR5,GICR_PIDR5" line.long 0x8 "GIC_REGS_Redistributor_control_LPI_0__13_GICR_PIDR6,GICR_PIDR6" line.long 0xC "GIC_REGS_Redistributor_control_LPI_0__14_GICR_PIDR7,GICR_PIDR7" line.long 0x10 "GIC_REGS_Redistributor_control_LPI_0__15_GICR_PIDR0,GICR_PIDR0" line.long 0x14 "GIC_REGS_Redistributor_control_LPI_0__16_GICR_PIDR1,GICR_PIDR1" line.long 0x18 "GIC_REGS_Redistributor_control_LPI_0__17_GICR_PIDR2,GICR_PIDR2" line.long 0x1C "GIC_REGS_Redistributor_control_LPI_0__18_GICR_PIDR3,GICR_PIDR3" line.long 0x20 "GIC_REGS_Redistributor_control_LPI_0__19_GICR_CIDR0,GICR_CIDR0" line.long 0x24 "GIC_REGS_Redistributor_control_LPI_0__20_GICR_CIDR1,GICR_CIDR1" line.long 0x28 "GIC_REGS_Redistributor_control_LPI_0__21_GICR_CIDR2,GICR_CIDR2" line.long 0x2C "GIC_REGS_Redistributor_control_LPI_0__22_GICR_CIDR3,GICR_CIDR3" group.long 0x50080++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_0__1_GICR_IGROUPR0,GICR_IGROUPR0" group.long 0x50100++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_0__2_GICR_ISENABLER0,GICR_ISENABLER0" group.long 0x50180++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_0__3_GICR_ICENABLER0,GICR_ICENABLER0" group.long 0x50200++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_0__4_GICR_ISPENDR0,GICR_ISPENDR0" group.long 0x50280++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_0__5_GICR_ICPENDR0,GICR_ICPENDR0" group.long 0x50300++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_0__6_GICR_ISACTIVER0,GICR_ISACTIVER0" group.long 0x50380++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_0__7_GICR_ICACTIVER0,GICR_ICACTIVER0" group.long 0x50400++0x1F line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_0__8_GICR_IPRIORITYR0,GICR_IPRIORITYR0" line.long 0x4 "GIC_REGS_Redistributor_SGI_PPI_0__8_GICR_IPRIORITYR1,GICR_IPRIORITYR1" line.long 0x8 "GIC_REGS_Redistributor_SGI_PPI_0__8_GICR_IPRIORITYR2,GICR_IPRIORITYR2" line.long 0xC "GIC_REGS_Redistributor_SGI_PPI_0__8_GICR_IPRIORITYR3,GICR_IPRIORITYR3" line.long 0x10 "GIC_REGS_Redistributor_SGI_PPI_0__8_GICR_IPRIORITYR4,GICR_IPRIORITYR4" line.long 0x14 "GIC_REGS_Redistributor_SGI_PPI_0__8_GICR_IPRIORITYR5,GICR_IPRIORITYR5" line.long 0x18 "GIC_REGS_Redistributor_SGI_PPI_0__8_GICR_IPRIORITYR6,GICR_IPRIORITYR6" line.long 0x1C "GIC_REGS_Redistributor_SGI_PPI_0__8_GICR_IPRIORITYR7,GICR_IPRIORITYR7" group.long 0x50C00++0x7 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_0__9_GICR_ICFGR0,GICR_ICFGR0" line.long 0x4 "GIC_REGS_Redistributor_SGI_PPI_0__10_GICR_ICFGR1,GICR_ICFGR1" group.long 0x50D00++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_0__11_GICR_IGRPMODR0,GICR_IGRPMODR0" group.long 0x50E00++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_0__12_GICR_NSACR,GICR_NSACR" group.long 0x5C000++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_0__13_GICR_MISCSTATUSR,GICR_MISCSTATUSR" bitfld.long 0x0 31. "REDISTRIBUTOR_SGI_PPI_0__13_GICR_MISCSTATUSR__31_1,cpu_active" "0,1" newline bitfld.long 0x0 2. "REDISTRIBUTOR_SGI_PPI_0__13_GICR_MISCSTATUSR__2_1,EnableGrp1_S" "0,1" newline bitfld.long 0x0 1. "REDISTRIBUTOR_SGI_PPI_0__13_GICR_MISCSTATUSR__1_1,EnableGrp1_NS" "0,1" newline bitfld.long 0x0 0. "REDISTRIBUTOR_SGI_PPI_0__13_GICR_MISCSTATUSR__0_1,EnableGrp0" "0,1" group.long 0x5C080++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_0__14_GICR_PPISR,GICR_PPISR" hexmask.long.word 0x0 16.--31. 1. "REDISTRIBUTOR_SGI_PPI_0__14_GICR_PPISR__16_16,PPI status" group.long 0x60000++0xF line.long 0x0 "GIC_REGS_Redistributor_control_LPI_1__2_GICR_CTLR,GICR_CTLR" bitfld.long 0x0 31. "REDISTRIBUTOR_CONTROL_LPI_1__2_GICR_CTLR__31_1,Upstream Write Pending" "0,1" newline bitfld.long 0x0 3. "REDISTRIBUTOR_CONTROL_LPI_1__2_GICR_CTLR__3_1,Register Write Pending" "0,1" newline bitfld.long 0x0 0. "REDISTRIBUTOR_CONTROL_LPI_1__2_GICR_CTLR__0_1,Enable LPIs" "0,1" line.long 0x4 "GIC_REGS_Redistributor_control_LPI_1__3_GICR_IIDR,GICR_IIDR" hexmask.long.byte 0x4 24.--31. 1. "REDISTRIBUTOR_CONTROL_LPI_1__3_GICR_IIDR__24_8,ProductID" newline hexmask.long.byte 0x4 16.--19. 1. "REDISTRIBUTOR_CONTROL_LPI_1__3_GICR_IIDR__16_4,Variant" newline hexmask.long.byte 0x4 12.--15. 1. "REDISTRIBUTOR_CONTROL_LPI_1__3_GICR_IIDR__12_4,Revision" newline hexmask.long.word 0x4 0.--11. 1. "REDISTRIBUTOR_CONTROL_LPI_1__3_GICR_IIDR__0_12,Implementer" line.long 0x8 "GIC_REGS_Redistributor_control_LPI_1__4_GICR_TYPER_lower,GICR_TYPER_lower" hexmask.long.word 0x8 8.--23. 1. "REDISTRIBUTOR_CONTROL_LPI_1__4_GICR_TYPER_LOWER__8_16,Processor Number" newline bitfld.long 0x8 4. "REDISTRIBUTOR_CONTROL_LPI_1__4_GICR_TYPER_LOWER__4_1,Last" "0,1" newline bitfld.long 0x8 3. "REDISTRIBUTOR_CONTROL_LPI_1__4_GICR_TYPER_LOWER__3_1,Distributed" "0,1" newline bitfld.long 0x8 1. "REDISTRIBUTOR_CONTROL_LPI_1__4_GICR_TYPER_LOWER__1_1,VLPIS" "0,1" newline bitfld.long 0x8 0. "REDISTRIBUTOR_CONTROL_LPI_1__4_GICR_TYPER_LOWER__0_1,PLPIS" "0,1" line.long 0xC "GIC_REGS_Redistributor_control_LPI_1__5_GICR_TYPER_upper,GICR_TYPER_upper" hexmask.long.byte 0xC 24.--31. 1. "REDISTRIBUTOR_CONTROL_LPI_1__5_GICR_TYPER_UPPER__24_8,A3" newline hexmask.long.byte 0xC 16.--23. 1. "REDISTRIBUTOR_CONTROL_LPI_1__5_GICR_TYPER_UPPER__16_8,A2" newline hexmask.long.byte 0xC 8.--15. 1. "REDISTRIBUTOR_CONTROL_LPI_1__5_GICR_TYPER_UPPER__8_8,A1" newline hexmask.long.byte 0xC 0.--7. 1. "REDISTRIBUTOR_CONTROL_LPI_1__5_GICR_TYPER_UPPER__0_8,A0" group.long 0x60014++0x3 line.long 0x0 "GIC_REGS_Redistributor_control_LPI_1__6_GICR_WAKER,GICR_WAKER" bitfld.long 0x0 31. "REDISTRIBUTOR_CONTROL_LPI_1__6_GICR_WAKER__31_1,Quiescent" "0,1" newline bitfld.long 0x0 2. "REDISTRIBUTOR_CONTROL_LPI_1__6_GICR_WAKER__2_1,ChildrenAsleep" "0,1" newline bitfld.long 0x0 1. "REDISTRIBUTOR_CONTROL_LPI_1__6_GICR_WAKER__1_1,ProcessorSleep" "0,1" newline bitfld.long 0x0 0. "REDISTRIBUTOR_CONTROL_LPI_1__6_GICR_WAKER__0_1,Sleep" "0,1" group.long 0x60070++0xF line.long 0x0 "GIC_REGS_Redistributor_control_LPI_1__7_GICR_PROPBASER_lower,GICR_PROPBASER_lower" hexmask.long.tbyte 0x0 12.--31. 1. "REDISTRIBUTOR_CONTROL_LPI_1__7_GICR_PROPBASER_LOWER__12_20,Physical Address [31:12]" newline bitfld.long 0x0 7.--9. "REDISTRIBUTOR_CONTROL_LPI_1__7_GICR_PROPBASER_LOWER__7_3,Cacheability" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--4. 1. "REDISTRIBUTOR_CONTROL_LPI_1__7_GICR_PROPBASER_LOWER__0_5,Idbits" line.long 0x4 "GIC_REGS_Redistributor_control_LPI_1__8_GICR_PROPBASER_upper,GICR_PROPBASER_upper" hexmask.long.word 0x4 0.--15. 1. "REDISTRIBUTOR_CONTROL_LPI_1__8_GICR_PROPBASER_UPPER__0_16,Physical Address [47:32]" line.long 0x8 "GIC_REGS_Redistributor_control_LPI_1__9_GICR_PENDBASER_lower,GICR_PENDBASER_lower" hexmask.long.word 0x8 16.--31. 1. "REDISTRIBUTOR_CONTROL_LPI_1__9_GICR_PENDBASER_LOWER__16_16,Physical Address [31:16]" newline bitfld.long 0x8 7.--9. "REDISTRIBUTOR_CONTROL_LPI_1__9_GICR_PENDBASER_LOWER__7_3,Cacheability" "0,1,2,3,4,5,6,7" line.long 0xC "GIC_REGS_Redistributor_control_LPI_1__10_GICR_PENDBASER_upper,GICR_PENDBASER_upper" bitfld.long 0xC 30. "REDISTRIBUTOR_CONTROL_LPI_1__10_GICR_PENDBASER_UPPER__30_1,Pending Table Zero" "0,1" newline hexmask.long.word 0xC 0.--15. 1. "REDISTRIBUTOR_CONTROL_LPI_1__10_GICR_PENDBASER_UPPER__0_16,Physical Address [47:32]" group.long 0x6FFD0++0x2F line.long 0x0 "GIC_REGS_Redistributor_control_LPI_1__11_GICR_PIDR4,GICR_PIDR4" line.long 0x4 "GIC_REGS_Redistributor_control_LPI_1__12_GICR_PIDR5,GICR_PIDR5" line.long 0x8 "GIC_REGS_Redistributor_control_LPI_1__13_GICR_PIDR6,GICR_PIDR6" line.long 0xC "GIC_REGS_Redistributor_control_LPI_1__14_GICR_PIDR7,GICR_PIDR7" line.long 0x10 "GIC_REGS_Redistributor_control_LPI_1__15_GICR_PIDR0,GICR_PIDR0" line.long 0x14 "GIC_REGS_Redistributor_control_LPI_1__16_GICR_PIDR1,GICR_PIDR1" line.long 0x18 "GIC_REGS_Redistributor_control_LPI_1__17_GICR_PIDR2,GICR_PIDR2" line.long 0x1C "GIC_REGS_Redistributor_control_LPI_1__18_GICR_PIDR3,GICR_PIDR3" line.long 0x20 "GIC_REGS_Redistributor_control_LPI_1__19_GICR_CIDR0,GICR_CIDR0" line.long 0x24 "GIC_REGS_Redistributor_control_LPI_1__20_GICR_CIDR1,GICR_CIDR1" line.long 0x28 "GIC_REGS_Redistributor_control_LPI_1__21_GICR_CIDR2,GICR_CIDR2" line.long 0x2C "GIC_REGS_Redistributor_control_LPI_1__22_GICR_CIDR3,GICR_CIDR3" group.long 0x70080++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_1__1_GICR_IGROUPR0,GICR_IGROUPR0" group.long 0x70100++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_1__2_GICR_ISENABLER0,GICR_ISENABLER0" group.long 0x70180++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_1__3_GICR_ICENABLER0,GICR_ICENABLER0" group.long 0x70200++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_1__4_GICR_ISPENDR0,GICR_ISPENDR0" group.long 0x70280++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_1__5_GICR_ICPENDR0,GICR_ICPENDR0" group.long 0x70300++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_1__6_GICR_ISACTIVER0,GICR_ISACTIVER0" group.long 0x70380++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_1__7_GICR_ICACTIVER0,GICR_ICACTIVER0" group.long 0x70400++0x1F line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_1__8_GICR_IPRIORITYR0,GICR_IPRIORITYR0" line.long 0x4 "GIC_REGS_Redistributor_SGI_PPI_1__8_GICR_IPRIORITYR1,GICR_IPRIORITYR1" line.long 0x8 "GIC_REGS_Redistributor_SGI_PPI_1__8_GICR_IPRIORITYR2,GICR_IPRIORITYR2" line.long 0xC "GIC_REGS_Redistributor_SGI_PPI_1__8_GICR_IPRIORITYR3,GICR_IPRIORITYR3" line.long 0x10 "GIC_REGS_Redistributor_SGI_PPI_1__8_GICR_IPRIORITYR4,GICR_IPRIORITYR4" line.long 0x14 "GIC_REGS_Redistributor_SGI_PPI_1__8_GICR_IPRIORITYR5,GICR_IPRIORITYR5" line.long 0x18 "GIC_REGS_Redistributor_SGI_PPI_1__8_GICR_IPRIORITYR6,GICR_IPRIORITYR6" line.long 0x1C "GIC_REGS_Redistributor_SGI_PPI_1__8_GICR_IPRIORITYR7,GICR_IPRIORITYR7" group.long 0x70C00++0x7 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_1__9_GICR_ICFGR0,GICR_ICFGR0" line.long 0x4 "GIC_REGS_Redistributor_SGI_PPI_1__10_GICR_ICFGR1,GICR_ICFGR1" group.long 0x70D00++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_1__11_GICR_IGRPMODR0,GICR_IGRPMODR0" group.long 0x70E00++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_1__12_GICR_NSACR,GICR_NSACR" group.long 0x7C000++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_1__13_GICR_MISCSTATUSR,GICR_MISCSTATUSR" bitfld.long 0x0 31. "REDISTRIBUTOR_SGI_PPI_1__13_GICR_MISCSTATUSR__31_1,cpu_active" "0,1" newline bitfld.long 0x0 2. "REDISTRIBUTOR_SGI_PPI_1__13_GICR_MISCSTATUSR__2_1,EnableGrp1_S" "0,1" newline bitfld.long 0x0 1. "REDISTRIBUTOR_SGI_PPI_1__13_GICR_MISCSTATUSR__1_1,EnableGrp1_NS" "0,1" newline bitfld.long 0x0 0. "REDISTRIBUTOR_SGI_PPI_1__13_GICR_MISCSTATUSR__0_1,EnableGrp0" "0,1" group.long 0x7C080++0x3 line.long 0x0 "GIC_REGS_Redistributor_SGI_PPI_1__14_GICR_PPISR,GICR_PPISR" hexmask.long.word 0x0 16.--31. 1. "REDISTRIBUTOR_SGI_PPI_1__14_GICR_PPISR__16_16,PPI status" tree.end tree "GICSS0_GIC_TRANSLATER (GICSS0_GIC_TRANSLATER)" base ad:0x1000000 group.long 0x30040++0x3 line.long 0x0 "GIC_TRANSLATER_REGS_TRANSLATER__1_GITS_TRANSLATER,GITS_TRANSLATER" hexmask.long 0x0 0.--31. 1. "TRANSLATER__1_GITS_TRANSLATER__0_32,Input ID" tree.end tree "GICSS0_REGS (GICSS0_REGS)" base ad:0x3F004000 rgroup.long 0x0++0x3 line.long 0x0 "REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 2. "LPI_RAMECC_PEND,Interrupt Pending Status for lpi_ramecc_pend" "0,1" bitfld.long 0x4 1. "ITE_RAMECC_PEND,Interrupt Pending Status for ite_ramecc_pend" "0,1" bitfld.long 0x4 0. "ICB_RAMECC_PEND,Interrupt Pending Status for icb_ramecc_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 2. "LPI_RAMECC_ENABLE_SET,Interrupt Enable Set Register for lpi_ramecc_pend" "0,1" bitfld.long 0x0 1. "ITE_RAMECC_ENABLE_SET,Interrupt Enable Set Register for ite_ramecc_pend" "0,1" bitfld.long 0x0 0. "ICB_RAMECC_ENABLE_SET,Interrupt Enable Set Register for icb_ramecc_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 2. "LPI_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for lpi_ramecc_pend" "0,1" bitfld.long 0x0 1. "ITE_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for ite_ramecc_pend" "0,1" bitfld.long 0x0 0. "ICB_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for icb_ramecc_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 2. "LPI_RAMECC_PEND,Interrupt Pending Status for lpi_ramecc_pend" "0,1" bitfld.long 0x4 1. "ITE_RAMECC_PEND,Interrupt Pending Status for ite_ramecc_pend" "0,1" bitfld.long 0x4 0. "ICB_RAMECC_PEND,Interrupt Pending Status for icb_ramecc_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 2. "LPI_RAMECC_ENABLE_SET,Interrupt Enable Set Register for lpi_ramecc_pend" "0,1" bitfld.long 0x0 1. "ITE_RAMECC_ENABLE_SET,Interrupt Enable Set Register for ite_ramecc_pend" "0,1" bitfld.long 0x0 0. "ICB_RAMECC_ENABLE_SET,Interrupt Enable Set Register for icb_ramecc_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 2. "LPI_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for lpi_ramecc_pend" "0,1" bitfld.long 0x0 1. "ITE_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for ite_ramecc_pend" "0,1" bitfld.long 0x0 0. "ICB_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for icb_ramecc_pend" "0,1" group.long 0x200++0xF line.long 0x0 "REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree.end tree "GPIO" base ad:0x0 tree "GPIO0 (GPIO0)" base ad:0x600000 rgroup.long 0x0++0x7 line.long 0x0 "MEM_pid,GPIO Periperal ID Register" bitfld.long 0x0 30.--31. "SCHEME,Current scheme" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Function code assigned to TCP3" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL Version R code" bitfld.long 0x0 8.--10. "MAJOR,Major revision X code" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version code" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision Y code" line.long 0x4 "MEM_PCR,Peripheral Control Register" bitfld.long 0x4 1. "SOFT,Used in conjunction with FREE bit to determine the emulation suspend mode." "0,1" bitfld.long 0x4 0. "FREE,For GPIO the FREE bit is fixed at 1 which means GPIO runs free in emulation suspend." "0,1" group.long 0x8++0x3 line.long 0x0 "MEM_BINTEN,Bit Interrupt Enable Register" hexmask.long.word 0x0 0.--15. 1. "EN,Per bank interrupt enable. 0 = disable 1 = enable." group.long 0x10++0xF line.long 0x0 "MEM_DIR01,Direction Register" hexmask.long.word 0x0 16.--31. 1. "DIR1,Direction of GPIO bank 1 bits 0 = output 1 = input." hexmask.long.word 0x0 0.--15. 1. "DIR0,Direction of GPIO bank 0 bits 0 = output 1 = input." line.long 0x4 "MEM_OUT_DATA01,Output Drive State Register" hexmask.long.word 0x4 16.--31. 1. "OUT1,Output drive state of GPIO bank 1 bits does not affect operation when it is configured as input. Reading it returns the output drive state." hexmask.long.word 0x4 0.--15. 1. "OUT0,Output drive state of GPIO bank 0 bits does not affect operation when it is configured as input. Reading it returns the output drive state." line.long 0x8 "MEM_SET_DATA01,Set Output Drive State Register" hexmask.long.word 0x8 16.--31. 1. "SET1,Writing 1 sets the output drive state of GPIO bank 1 bits. Reading it returns the output drive state." hexmask.long.word 0x8 0.--15. 1. "SET0,Writing 1 sets the output drive state of GPIO bank 0 bits. Reading it returns the output drive state." line.long 0xC "MEM_CLR_DATA01,Clear Output Drive State Register" hexmask.long.word 0xC 16.--31. 1. "CLR1,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." hexmask.long.word 0xC 0.--15. 1. "CLR0,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." rgroup.long 0x20++0x3 line.long 0x0 "MEM_IN_DATA01,Bank Status Register" hexmask.long.word 0x0 16.--31. 1. "IN1,Status of GPIO bank 1 bits." hexmask.long.word 0x0 0.--15. 1. "IN0,Status of GPIO bank 0 bits." group.long 0x24++0x23 line.long 0x0 "MEM_SET_RIS_TRIG01,Set Rising Edge Detection Register" hexmask.long.word 0x0 16.--31. 1. "SETRIS1,Writing 1 enables rising edge detection for GPIO bank 1 bits." hexmask.long.word 0x0 0.--15. 1. "SETRIS0,Writing 1 enables rising edge detection for GPIO bank 0 bits." line.long 0x4 "MEM_CLR_RIS_TRIG01,Clear Rising Edge Detection Register" hexmask.long.word 0x4 16.--31. 1. "CLRRIS1,Writing 1 clears rising edge detection for GPIO bank 1 bits." hexmask.long.word 0x4 0.--15. 1. "CLRRIS0,Writing 1 clears rising edge detection for GPIO bank 0 bits." line.long 0x8 "MEM_SET_FAL_TRIG01,Set Falling Edge Detection Register" hexmask.long.word 0x8 16.--31. 1. "SETFAL1,Writing 1 enables falling edge detection for for GPIO bank 1 bits." hexmask.long.word 0x8 0.--15. 1. "SETFAL0,Writing 1 enables falling edge detection for for GPIO bank 0 bits." line.long 0xC "MEM_CLR_FAL_TRIG01,Clear Falling Edge Detection Register" hexmask.long.word 0xC 16.--31. 1. "CLRFAL1,Writing 1 clears falling edge detection for for GPIO bank 1 bits." hexmask.long.word 0xC 0.--15. 1. "CLRFAL0,Writing 1 clears falling edge detection for for GPIO bank 0 bits." line.long 0x10 "MEM_INTSTAT01,Bank Interrupt Status Register" hexmask.long.word 0x10 16.--31. 1. "STAT1,Status of GPIO bank 0 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." hexmask.long.word 0x10 0.--15. 1. "STAT0,Status of GPIO bank 0 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." line.long 0x14 "MEM_DIR23,Direction Register" hexmask.long.word 0x14 16.--31. 1. "DIR3,Direction of GPIO bank 3 bits 0 = output 1 = input." hexmask.long.word 0x14 0.--15. 1. "DIR2,Direction of GPIO bank 2 bits 0 = output 1 = input." line.long 0x18 "MEM_OUT_DATA23,Output Drive State Register" hexmask.long.word 0x18 16.--31. 1. "OUT3,Output drive state of GPIO bank 3 bits does not affect operation when it is configured as input. Reading it returns the output drive state." hexmask.long.word 0x18 0.--15. 1. "OUT2,Output drive state of GPIO bank 2 bits does not affect operation when it is configured as input. Reading it returns the output drive state." line.long 0x1C "MEM_SET_DATA23,Set Output Drive State Register" hexmask.long.word 0x1C 16.--31. 1. "SET3,Writing 1 sets the output drive state of GPIO bank 3 bits. Reading it returns the output drive state." hexmask.long.word 0x1C 0.--15. 1. "SET2,Writing 1 sets the output drive state of GPIO bank 2 bits. Reading it returns the output drive state." line.long 0x20 "MEM_CLR_DATA23,Clear Output Drive State Register" hexmask.long.word 0x20 16.--31. 1. "CLR3,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." hexmask.long.word 0x20 0.--15. 1. "CLR2,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." rgroup.long 0x48++0x3 line.long 0x0 "MEM_IN_DATA23,Bank Status Register" hexmask.long.word 0x0 16.--31. 1. "IN3,Status of GPIO bank 3 bits." hexmask.long.word 0x0 0.--15. 1. "IN2,Status of GPIO bank 2 bits." group.long 0x4C++0x23 line.long 0x0 "MEM_SET_RIS_TRIG23,Set Rising Edge Detection Register" hexmask.long.word 0x0 16.--31. 1. "SETRIS3,Writing 1 enables rising edge detection for GPIO bank 3 bits." hexmask.long.word 0x0 0.--15. 1. "SETRIS2,Writing 1 enables rising edge detection for GPIO bank 2 bits." line.long 0x4 "MEM_CLR_RIS_TRIG23,Clear Rising Edge Detection Register" hexmask.long.word 0x4 16.--31. 1. "CLRRIS3,Writing 1 clears rising edge detection for GPIO bank 3 bits." hexmask.long.word 0x4 0.--15. 1. "CLRRIS2,Writing 1 clears rising edge detection for GPIO bank 2 bits." line.long 0x8 "MEM_SET_FAL_TRIG23,Set Falling Edge Detection Register" hexmask.long.word 0x8 16.--31. 1. "SETFAL3,Writing 1 enables falling edge detection for for GPIO bank 3 bits." hexmask.long.word 0x8 0.--15. 1. "SETFAL2,Writing 1 enables falling edge detection for for GPIO bank 2 bits." line.long 0xC "MEM_CLR_FAL_TRIG23,Clear Falling Edge Detection Register" hexmask.long.word 0xC 16.--31. 1. "CLRFAL3,Writing 1 clears falling edge detection for for GPIO bank 3 bits." hexmask.long.word 0xC 0.--15. 1. "CLRFAL2,Writing 1 clears falling edge detection for for GPIO bank 2 bits." line.long 0x10 "MEM_INTSTAT23,Bank Interrupt Status Register" hexmask.long.word 0x10 16.--31. 1. "STAT3,Status of GPIO bank 2 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." hexmask.long.word 0x10 0.--15. 1. "STAT2,Status of GPIO bank 2 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." line.long 0x14 "MEM_DIR45,Direction Register" hexmask.long.word 0x14 16.--31. 1. "DIR5,Direction of GPIO bank 5 bits 0 = output 1 = input." hexmask.long.word 0x14 0.--15. 1. "DIR4,Direction of GPIO bank 4 bits 0 = output 1 = input." line.long 0x18 "MEM_OUT_DATA45,Output Drive State Register" hexmask.long.word 0x18 16.--31. 1. "OUT5,Output drive state of GPIO bank 5 bits does not affect operation when it is configured as input. Reading it returns the output drive state." hexmask.long.word 0x18 0.--15. 1. "OUT4,Output drive state of GPIO bank 4 bits does not affect operation when it is configured as input. Reading it returns the output drive state." line.long 0x1C "MEM_SET_DATA45,Set Output Drive State Register" hexmask.long.word 0x1C 16.--31. 1. "SET5,Writing 1 sets the output drive state of GPIO bank 5 bits. Reading it returns the output drive state." hexmask.long.word 0x1C 0.--15. 1. "SET4,Writing 1 sets the output drive state of GPIO bank 4 bits. Reading it returns the output drive state." line.long 0x20 "MEM_CLR_DATA45,Clear Output Drive State Register" hexmask.long.word 0x20 16.--31. 1. "CLR5,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." hexmask.long.word 0x20 0.--15. 1. "CLR4,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." rgroup.long 0x70++0x3 line.long 0x0 "MEM_IN_DATA45,Bank Status Register" hexmask.long.word 0x0 16.--31. 1. "IN5,Status of GPIO bank 5 bits." hexmask.long.word 0x0 0.--15. 1. "IN4,Status of GPIO bank 4 bits." group.long 0x74++0x23 line.long 0x0 "MEM_SET_RIS_TRIG45,Set Rising Edge Detection Register" hexmask.long.word 0x0 16.--31. 1. "SETRIS5,Writing 1 enables rising edge detection for GPIO bank 5 bits." hexmask.long.word 0x0 0.--15. 1. "SETRIS4,Writing 1 enables rising edge detection for GPIO bank 4 bits." line.long 0x4 "MEM_CLR_RIS_TRIG45,Clear Rising Edge Detection Register" hexmask.long.word 0x4 16.--31. 1. "CLRRIS5,Writing 1 clears rising edge detection for GPIO bank 5 bits." hexmask.long.word 0x4 0.--15. 1. "CLRRIS4,Writing 1 clears rising edge detection for GPIO bank 4 bits." line.long 0x8 "MEM_SET_FAL_TRIG45,Set Falling Edge Detection Register" hexmask.long.word 0x8 16.--31. 1. "SETFAL5,Writing 1 enables falling edge detection for for GPIO bank 5 bits." hexmask.long.word 0x8 0.--15. 1. "SETFAL4,Writing 1 enables falling edge detection for for GPIO bank 4 bits." line.long 0xC "MEM_CLR_FAL_TRIG45,Clear Falling Edge Detection Register" hexmask.long.word 0xC 16.--31. 1. "CLRFAL5,Writing 1 clears falling edge detection for for GPIO bank 5 bits." hexmask.long.word 0xC 0.--15. 1. "CLRFAL4,Writing 1 clears falling edge detection for for GPIO bank 4 bits." line.long 0x10 "MEM_INTSTAT45,Bank Interrupt Status Register" hexmask.long.word 0x10 16.--31. 1. "STAT5,Status of GPIO bank 4 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." hexmask.long.word 0x10 0.--15. 1. "STAT4,Status of GPIO bank 4 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." line.long 0x14 "MEM_DIR67,Direction Register" hexmask.long.word 0x14 16.--31. 1. "DIR7,Direction of GPIO bank 7 bits 0 = output 1 = input." hexmask.long.word 0x14 0.--15. 1. "DIR6,Direction of GPIO bank 6 bits 0 = output 1 = input." line.long 0x18 "MEM_OUT_DATA67,Output Drive State Register" hexmask.long.word 0x18 16.--31. 1. "OUT7,Output drive state of GPIO bank 7 bits does not affect operation when it is configured as input. Reading it returns the output drive state." hexmask.long.word 0x18 0.--15. 1. "OUT6,Output drive state of GPIO bank 6 bits does not affect operation when it is configured as input. Reading it returns the output drive state." line.long 0x1C "MEM_SET_DATA67,Set Output Drive State Register" hexmask.long.word 0x1C 16.--31. 1. "SET7,Writing 1 sets the output drive state of GPIO bank 7 bits. Reading it returns the output drive state." hexmask.long.word 0x1C 0.--15. 1. "SET6,Writing 1 sets the output drive state of GPIO bank 6 bits. Reading it returns the output drive state." line.long 0x20 "MEM_CLR_DATA67,Clear Output Drive State Register" hexmask.long.word 0x20 16.--31. 1. "CLR7,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." hexmask.long.word 0x20 0.--15. 1. "CLR6,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." rgroup.long 0x98++0x3 line.long 0x0 "MEM_IN_DATA67,Bank Status Register" hexmask.long.word 0x0 16.--31. 1. "IN7,Status of GPIO bank 7 bits." hexmask.long.word 0x0 0.--15. 1. "IN6,Status of GPIO bank 6 bits." group.long 0x9C++0x23 line.long 0x0 "MEM_SET_RIS_TRIG67,Set Rising Edge Detection Register" hexmask.long.word 0x0 16.--31. 1. "SETRIS7,Writing 1 enables rising edge detection for GPIO bank 7 bits." hexmask.long.word 0x0 0.--15. 1. "SETRIS6,Writing 1 enables rising edge detection for GPIO bank 6 bits." line.long 0x4 "MEM_CLR_RIS_TRIG67,Clear Rising Edge Detection Register" hexmask.long.word 0x4 16.--31. 1. "CLRRIS7,Writing 1 clears rising edge detection for GPIO bank 7 bits." hexmask.long.word 0x4 0.--15. 1. "CLRRIS6,Writing 1 clears rising edge detection for GPIO bank 6 bits." line.long 0x8 "MEM_SET_FAL_TRIG67,Set Falling Edge Detection Register" hexmask.long.word 0x8 16.--31. 1. "SETFAL7,Writing 1 enables falling edge detection for for GPIO bank 7 bits." hexmask.long.word 0x8 0.--15. 1. "SETFAL6,Writing 1 enables falling edge detection for for GPIO bank 6 bits." line.long 0xC "MEM_CLR_FAL_TRIG67,Clear Falling Edge Detection Register" hexmask.long.word 0xC 16.--31. 1. "CLRFAL7,Writing 1 clears falling edge detection for for GPIO bank 7 bits." hexmask.long.word 0xC 0.--15. 1. "CLRFAL6,Writing 1 clears falling edge detection for for GPIO bank 6 bits." line.long 0x10 "MEM_INTSTAT67,Bank Interrupt Status Register" hexmask.long.word 0x10 16.--31. 1. "STAT7,Status of GPIO bank 6 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." hexmask.long.word 0x10 0.--15. 1. "STAT6,Status of GPIO bank 6 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." line.long 0x14 "MEM_DIR8,Direction Register" hexmask.long.word 0x14 0.--15. 1. "DIR8,Direction of GPIO bank 8 bits 0 = output 1 = input." line.long 0x18 "MEM_OUT_DATA8,Output Drive State Register" hexmask.long.word 0x18 0.--15. 1. "OUT8,Output drive state of GPIO bank 8 bits does not affect operation when it is configured as input. Reading it returns the output drive state." line.long 0x1C "MEM_SET_DATA8,Set Output Drive State Register" hexmask.long.word 0x1C 0.--15. 1. "SET8,Writing 1 sets the output drive state of GPIO bank 8 bits. Reading it returns the output drive state." line.long 0x20 "MEM_CLR_DATA8,Clear Output Drive State Register" hexmask.long.word 0x20 0.--15. 1. "CLR8,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." rgroup.long 0xC0++0x3 line.long 0x0 "MEM_IN_DATA8,Bank Status Register" hexmask.long.word 0x0 0.--15. 1. "IN8,Status of GPIO bank 8 bits." group.long 0xC4++0x13 line.long 0x0 "MEM_SET_RIS_TRIG8,Set Rising Edge Detection Register" hexmask.long.word 0x0 0.--15. 1. "SETRIS8,Writing 1 enables rising edge detection for GPIO bank 8 bits." line.long 0x4 "MEM_CLR_RIS_TRIG8,Clear Rising Edge Detection Register" hexmask.long.word 0x4 0.--15. 1. "CLRRIS8,Writing 1 clears rising edge detection for GPIO bank 8 bits." line.long 0x8 "MEM_SET_FAL_TRIG8,Set Falling Edge Detection Register" hexmask.long.word 0x8 0.--15. 1. "SETFAL8,Writing 1 enables falling edge detection for for GPIO bank 8 bits." line.long 0xC "MEM_CLR_FAL_TRIG8,Clear Falling Edge Detection Register" hexmask.long.word 0xC 0.--15. 1. "CLRFAL8,Writing 1 clears falling edge detection for for GPIO bank 8 bits." line.long 0x10 "MEM_INTSTAT8,Bank Interrupt Status Register" hexmask.long.word 0x10 0.--15. 1. "STAT8,Status of GPIO bank 8 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." tree.end tree "GPIO1 (GPIO1)" base ad:0x601000 rgroup.long 0x0++0x7 line.long 0x0 "MEM_pid,GPIO Periperal ID Register" bitfld.long 0x0 30.--31. "SCHEME,Current scheme" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Function code assigned to TCP3" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL Version R code" bitfld.long 0x0 8.--10. "MAJOR,Major revision X code" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version code" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision Y code" line.long 0x4 "MEM_PCR,Peripheral Control Register" bitfld.long 0x4 1. "SOFT,Used in conjunction with FREE bit to determine the emulation suspend mode." "0,1" bitfld.long 0x4 0. "FREE,For GPIO the FREE bit is fixed at 1 which means GPIO runs free in emulation suspend." "0,1" group.long 0x8++0x3 line.long 0x0 "MEM_BINTEN,Bit Interrupt Enable Register" hexmask.long.word 0x0 0.--15. 1. "EN,Per bank interrupt enable. 0 = disable 1 = enable." group.long 0x10++0xF line.long 0x0 "MEM_DIR01,Direction Register" hexmask.long.word 0x0 16.--31. 1. "DIR1,Direction of GPIO bank 1 bits 0 = output 1 = input." hexmask.long.word 0x0 0.--15. 1. "DIR0,Direction of GPIO bank 0 bits 0 = output 1 = input." line.long 0x4 "MEM_OUT_DATA01,Output Drive State Register" hexmask.long.word 0x4 16.--31. 1. "OUT1,Output drive state of GPIO bank 1 bits does not affect operation when it is configured as input. Reading it returns the output drive state." hexmask.long.word 0x4 0.--15. 1. "OUT0,Output drive state of GPIO bank 0 bits does not affect operation when it is configured as input. Reading it returns the output drive state." line.long 0x8 "MEM_SET_DATA01,Set Output Drive State Register" hexmask.long.word 0x8 16.--31. 1. "SET1,Writing 1 sets the output drive state of GPIO bank 1 bits. Reading it returns the output drive state." hexmask.long.word 0x8 0.--15. 1. "SET0,Writing 1 sets the output drive state of GPIO bank 0 bits. Reading it returns the output drive state." line.long 0xC "MEM_CLR_DATA01,Clear Output Drive State Register" hexmask.long.word 0xC 16.--31. 1. "CLR1,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." hexmask.long.word 0xC 0.--15. 1. "CLR0,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." rgroup.long 0x20++0x3 line.long 0x0 "MEM_IN_DATA01,Bank Status Register" hexmask.long.word 0x0 16.--31. 1. "IN1,Status of GPIO bank 1 bits." hexmask.long.word 0x0 0.--15. 1. "IN0,Status of GPIO bank 0 bits." group.long 0x24++0x23 line.long 0x0 "MEM_SET_RIS_TRIG01,Set Rising Edge Detection Register" hexmask.long.word 0x0 16.--31. 1. "SETRIS1,Writing 1 enables rising edge detection for GPIO bank 1 bits." hexmask.long.word 0x0 0.--15. 1. "SETRIS0,Writing 1 enables rising edge detection for GPIO bank 0 bits." line.long 0x4 "MEM_CLR_RIS_TRIG01,Clear Rising Edge Detection Register" hexmask.long.word 0x4 16.--31. 1. "CLRRIS1,Writing 1 clears rising edge detection for GPIO bank 1 bits." hexmask.long.word 0x4 0.--15. 1. "CLRRIS0,Writing 1 clears rising edge detection for GPIO bank 0 bits." line.long 0x8 "MEM_SET_FAL_TRIG01,Set Falling Edge Detection Register" hexmask.long.word 0x8 16.--31. 1. "SETFAL1,Writing 1 enables falling edge detection for for GPIO bank 1 bits." hexmask.long.word 0x8 0.--15. 1. "SETFAL0,Writing 1 enables falling edge detection for for GPIO bank 0 bits." line.long 0xC "MEM_CLR_FAL_TRIG01,Clear Falling Edge Detection Register" hexmask.long.word 0xC 16.--31. 1. "CLRFAL1,Writing 1 clears falling edge detection for for GPIO bank 1 bits." hexmask.long.word 0xC 0.--15. 1. "CLRFAL0,Writing 1 clears falling edge detection for for GPIO bank 0 bits." line.long 0x10 "MEM_INTSTAT01,Bank Interrupt Status Register" hexmask.long.word 0x10 16.--31. 1. "STAT1,Status of GPIO bank 0 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." hexmask.long.word 0x10 0.--15. 1. "STAT0,Status of GPIO bank 0 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." line.long 0x14 "MEM_DIR23,Direction Register" hexmask.long.word 0x14 16.--31. 1. "DIR3,Direction of GPIO bank 3 bits 0 = output 1 = input." hexmask.long.word 0x14 0.--15. 1. "DIR2,Direction of GPIO bank 2 bits 0 = output 1 = input." line.long 0x18 "MEM_OUT_DATA23,Output Drive State Register" hexmask.long.word 0x18 16.--31. 1. "OUT3,Output drive state of GPIO bank 3 bits does not affect operation when it is configured as input. Reading it returns the output drive state." hexmask.long.word 0x18 0.--15. 1. "OUT2,Output drive state of GPIO bank 2 bits does not affect operation when it is configured as input. Reading it returns the output drive state." line.long 0x1C "MEM_SET_DATA23,Set Output Drive State Register" hexmask.long.word 0x1C 16.--31. 1. "SET3,Writing 1 sets the output drive state of GPIO bank 3 bits. Reading it returns the output drive state." hexmask.long.word 0x1C 0.--15. 1. "SET2,Writing 1 sets the output drive state of GPIO bank 2 bits. Reading it returns the output drive state." line.long 0x20 "MEM_CLR_DATA23,Clear Output Drive State Register" hexmask.long.word 0x20 16.--31. 1. "CLR3,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." hexmask.long.word 0x20 0.--15. 1. "CLR2,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." rgroup.long 0x48++0x3 line.long 0x0 "MEM_IN_DATA23,Bank Status Register" hexmask.long.word 0x0 16.--31. 1. "IN3,Status of GPIO bank 3 bits." hexmask.long.word 0x0 0.--15. 1. "IN2,Status of GPIO bank 2 bits." group.long 0x4C++0x23 line.long 0x0 "MEM_SET_RIS_TRIG23,Set Rising Edge Detection Register" hexmask.long.word 0x0 16.--31. 1. "SETRIS3,Writing 1 enables rising edge detection for GPIO bank 3 bits." hexmask.long.word 0x0 0.--15. 1. "SETRIS2,Writing 1 enables rising edge detection for GPIO bank 2 bits." line.long 0x4 "MEM_CLR_RIS_TRIG23,Clear Rising Edge Detection Register" hexmask.long.word 0x4 16.--31. 1. "CLRRIS3,Writing 1 clears rising edge detection for GPIO bank 3 bits." hexmask.long.word 0x4 0.--15. 1. "CLRRIS2,Writing 1 clears rising edge detection for GPIO bank 2 bits." line.long 0x8 "MEM_SET_FAL_TRIG23,Set Falling Edge Detection Register" hexmask.long.word 0x8 16.--31. 1. "SETFAL3,Writing 1 enables falling edge detection for for GPIO bank 3 bits." hexmask.long.word 0x8 0.--15. 1. "SETFAL2,Writing 1 enables falling edge detection for for GPIO bank 2 bits." line.long 0xC "MEM_CLR_FAL_TRIG23,Clear Falling Edge Detection Register" hexmask.long.word 0xC 16.--31. 1. "CLRFAL3,Writing 1 clears falling edge detection for for GPIO bank 3 bits." hexmask.long.word 0xC 0.--15. 1. "CLRFAL2,Writing 1 clears falling edge detection for for GPIO bank 2 bits." line.long 0x10 "MEM_INTSTAT23,Bank Interrupt Status Register" hexmask.long.word 0x10 16.--31. 1. "STAT3,Status of GPIO bank 2 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." hexmask.long.word 0x10 0.--15. 1. "STAT2,Status of GPIO bank 2 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." line.long 0x14 "MEM_DIR45,Direction Register" hexmask.long.word 0x14 16.--31. 1. "DIR5,Direction of GPIO bank 5 bits 0 = output 1 = input." hexmask.long.word 0x14 0.--15. 1. "DIR4,Direction of GPIO bank 4 bits 0 = output 1 = input." line.long 0x18 "MEM_OUT_DATA45,Output Drive State Register" hexmask.long.word 0x18 16.--31. 1. "OUT5,Output drive state of GPIO bank 5 bits does not affect operation when it is configured as input. Reading it returns the output drive state." hexmask.long.word 0x18 0.--15. 1. "OUT4,Output drive state of GPIO bank 4 bits does not affect operation when it is configured as input. Reading it returns the output drive state." line.long 0x1C "MEM_SET_DATA45,Set Output Drive State Register" hexmask.long.word 0x1C 16.--31. 1. "SET5,Writing 1 sets the output drive state of GPIO bank 5 bits. Reading it returns the output drive state." hexmask.long.word 0x1C 0.--15. 1. "SET4,Writing 1 sets the output drive state of GPIO bank 4 bits. Reading it returns the output drive state." line.long 0x20 "MEM_CLR_DATA45,Clear Output Drive State Register" hexmask.long.word 0x20 16.--31. 1. "CLR5,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." hexmask.long.word 0x20 0.--15. 1. "CLR4,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." rgroup.long 0x70++0x3 line.long 0x0 "MEM_IN_DATA45,Bank Status Register" hexmask.long.word 0x0 16.--31. 1. "IN5,Status of GPIO bank 5 bits." hexmask.long.word 0x0 0.--15. 1. "IN4,Status of GPIO bank 4 bits." group.long 0x74++0x23 line.long 0x0 "MEM_SET_RIS_TRIG45,Set Rising Edge Detection Register" hexmask.long.word 0x0 16.--31. 1. "SETRIS5,Writing 1 enables rising edge detection for GPIO bank 5 bits." hexmask.long.word 0x0 0.--15. 1. "SETRIS4,Writing 1 enables rising edge detection for GPIO bank 4 bits." line.long 0x4 "MEM_CLR_RIS_TRIG45,Clear Rising Edge Detection Register" hexmask.long.word 0x4 16.--31. 1. "CLRRIS5,Writing 1 clears rising edge detection for GPIO bank 5 bits." hexmask.long.word 0x4 0.--15. 1. "CLRRIS4,Writing 1 clears rising edge detection for GPIO bank 4 bits." line.long 0x8 "MEM_SET_FAL_TRIG45,Set Falling Edge Detection Register" hexmask.long.word 0x8 16.--31. 1. "SETFAL5,Writing 1 enables falling edge detection for for GPIO bank 5 bits." hexmask.long.word 0x8 0.--15. 1. "SETFAL4,Writing 1 enables falling edge detection for for GPIO bank 4 bits." line.long 0xC "MEM_CLR_FAL_TRIG45,Clear Falling Edge Detection Register" hexmask.long.word 0xC 16.--31. 1. "CLRFAL5,Writing 1 clears falling edge detection for for GPIO bank 5 bits." hexmask.long.word 0xC 0.--15. 1. "CLRFAL4,Writing 1 clears falling edge detection for for GPIO bank 4 bits." line.long 0x10 "MEM_INTSTAT45,Bank Interrupt Status Register" hexmask.long.word 0x10 16.--31. 1. "STAT5,Status of GPIO bank 4 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." hexmask.long.word 0x10 0.--15. 1. "STAT4,Status of GPIO bank 4 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." line.long 0x14 "MEM_DIR67,Direction Register" hexmask.long.word 0x14 16.--31. 1. "DIR7,Direction of GPIO bank 7 bits 0 = output 1 = input." hexmask.long.word 0x14 0.--15. 1. "DIR6,Direction of GPIO bank 6 bits 0 = output 1 = input." line.long 0x18 "MEM_OUT_DATA67,Output Drive State Register" hexmask.long.word 0x18 16.--31. 1. "OUT7,Output drive state of GPIO bank 7 bits does not affect operation when it is configured as input. Reading it returns the output drive state." hexmask.long.word 0x18 0.--15. 1. "OUT6,Output drive state of GPIO bank 6 bits does not affect operation when it is configured as input. Reading it returns the output drive state." line.long 0x1C "MEM_SET_DATA67,Set Output Drive State Register" hexmask.long.word 0x1C 16.--31. 1. "SET7,Writing 1 sets the output drive state of GPIO bank 7 bits. Reading it returns the output drive state." hexmask.long.word 0x1C 0.--15. 1. "SET6,Writing 1 sets the output drive state of GPIO bank 6 bits. Reading it returns the output drive state." line.long 0x20 "MEM_CLR_DATA67,Clear Output Drive State Register" hexmask.long.word 0x20 16.--31. 1. "CLR7,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." hexmask.long.word 0x20 0.--15. 1. "CLR6,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." rgroup.long 0x98++0x3 line.long 0x0 "MEM_IN_DATA67,Bank Status Register" hexmask.long.word 0x0 16.--31. 1. "IN7,Status of GPIO bank 7 bits." hexmask.long.word 0x0 0.--15. 1. "IN6,Status of GPIO bank 6 bits." group.long 0x9C++0x23 line.long 0x0 "MEM_SET_RIS_TRIG67,Set Rising Edge Detection Register" hexmask.long.word 0x0 16.--31. 1. "SETRIS7,Writing 1 enables rising edge detection for GPIO bank 7 bits." hexmask.long.word 0x0 0.--15. 1. "SETRIS6,Writing 1 enables rising edge detection for GPIO bank 6 bits." line.long 0x4 "MEM_CLR_RIS_TRIG67,Clear Rising Edge Detection Register" hexmask.long.word 0x4 16.--31. 1. "CLRRIS7,Writing 1 clears rising edge detection for GPIO bank 7 bits." hexmask.long.word 0x4 0.--15. 1. "CLRRIS6,Writing 1 clears rising edge detection for GPIO bank 6 bits." line.long 0x8 "MEM_SET_FAL_TRIG67,Set Falling Edge Detection Register" hexmask.long.word 0x8 16.--31. 1. "SETFAL7,Writing 1 enables falling edge detection for for GPIO bank 7 bits." hexmask.long.word 0x8 0.--15. 1. "SETFAL6,Writing 1 enables falling edge detection for for GPIO bank 6 bits." line.long 0xC "MEM_CLR_FAL_TRIG67,Clear Falling Edge Detection Register" hexmask.long.word 0xC 16.--31. 1. "CLRFAL7,Writing 1 clears falling edge detection for for GPIO bank 7 bits." hexmask.long.word 0xC 0.--15. 1. "CLRFAL6,Writing 1 clears falling edge detection for for GPIO bank 6 bits." line.long 0x10 "MEM_INTSTAT67,Bank Interrupt Status Register" hexmask.long.word 0x10 16.--31. 1. "STAT7,Status of GPIO bank 6 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." hexmask.long.word 0x10 0.--15. 1. "STAT6,Status of GPIO bank 6 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." line.long 0x14 "MEM_DIR8,Direction Register" hexmask.long.word 0x14 0.--15. 1. "DIR8,Direction of GPIO bank 8 bits 0 = output 1 = input." line.long 0x18 "MEM_OUT_DATA8,Output Drive State Register" hexmask.long.word 0x18 0.--15. 1. "OUT8,Output drive state of GPIO bank 8 bits does not affect operation when it is configured as input. Reading it returns the output drive state." line.long 0x1C "MEM_SET_DATA8,Set Output Drive State Register" hexmask.long.word 0x1C 0.--15. 1. "SET8,Writing 1 sets the output drive state of GPIO bank 8 bits. Reading it returns the output drive state." line.long 0x20 "MEM_CLR_DATA8,Clear Output Drive State Register" hexmask.long.word 0x20 0.--15. 1. "CLR8,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." rgroup.long 0xC0++0x3 line.long 0x0 "MEM_IN_DATA8,Bank Status Register" hexmask.long.word 0x0 0.--15. 1. "IN8,Status of GPIO bank 8 bits." group.long 0xC4++0x13 line.long 0x0 "MEM_SET_RIS_TRIG8,Set Rising Edge Detection Register" hexmask.long.word 0x0 0.--15. 1. "SETRIS8,Writing 1 enables rising edge detection for GPIO bank 8 bits." line.long 0x4 "MEM_CLR_RIS_TRIG8,Clear Rising Edge Detection Register" hexmask.long.word 0x4 0.--15. 1. "CLRRIS8,Writing 1 clears rising edge detection for GPIO bank 8 bits." line.long 0x8 "MEM_SET_FAL_TRIG8,Set Falling Edge Detection Register" hexmask.long.word 0x8 0.--15. 1. "SETFAL8,Writing 1 enables falling edge detection for for GPIO bank 8 bits." line.long 0xC "MEM_CLR_FAL_TRIG8,Clear Falling Edge Detection Register" hexmask.long.word 0xC 0.--15. 1. "CLRFAL8,Writing 1 clears falling edge detection for for GPIO bank 8 bits." line.long 0x10 "MEM_INTSTAT8,Bank Interrupt Status Register" hexmask.long.word 0x10 0.--15. 1. "STAT8,Status of GPIO bank 8 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." tree.end tree.end tree "GPMC0_CFG (GPMC0_CFG)" base ad:0x3B000000 group.long 0x0++0x3 line.long 0x0 "CFG_GPMC_REVISION,This register contains the IP revision code" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED,Reads returns 0" hexmask.long.byte 0x0 0.--7. 1. "REV,IP revision [7:4] Major revision [3:0] Minor revision Examples: 0x10 for 1.0 0x21 for 2.1" group.long 0x10++0xF line.long 0x0 "CFG_GPMC_SYSCONFIG,This register controls the various parameters of the OCP interface" hexmask.long 0x0 5.--31. 1. "RESERVED,Write 0's for future compatibility Reads return 0" bitfld.long 0x0 3.--4. "IDLEMODE," "0,1,2,3" newline bitfld.long 0x0 2. "RESERVED,Write 0 for future compatibility Reads returns 0" "0,1" bitfld.long 0x0 1. "RESERVED,This bit must be kept 0 for normal functioning of the IP. Do not set this bit to 1" "0,1" newline bitfld.long 0x0 0. "AUTOIDLE,Internal OCP clock gating strategy" "0,1" line.long 0x4 "CFG_GPMC_SYSSTATUS,This register provides status information about the module. excluding the interrupt status information" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED,Reads returns 0" hexmask.long.byte 0x4 1.--7. 1. "RESERVED,Reads returns 0 [reserved for OCP-socket status information]" newline rbitfld.long 0x4 0. "RESETDONE,Internal reset monitoring" "0,1" line.long 0x8 "CFG_GPMC_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt." hexmask.long.tbyte 0x8 12.--31. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" bitfld.long 0x8 11. "WAIT3EDGEDETECTIONSTATUS,Status of the Wait3 Edge Detection interrupt" "0,1" newline bitfld.long 0x8 10. "WAIT2EDGEDETECTIONSTATUS,Status of the Wait2 Edge Detection interrupt" "0,1" bitfld.long 0x8 9. "WAIT1EDGEDETECTIONSTATUS,Status of the Wait1 Edge Detection interrupt" "0,1" newline bitfld.long 0x8 8. "WAIT0EDGEDETECTIONSTATUS,Status of the Wait0 Edge Detection interrupt" "0,1" hexmask.long.byte 0x8 2.--7. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" newline bitfld.long 0x8 1. "TERMINALCOUNTSTATUS,Status of the TerminalCountEvent interrupt" "0,1" bitfld.long 0x8 0. "FIFOEVENTSTATUS,Status of the FIFOEvent interrupt" "0,1" line.long 0xC "CFG_GPMC_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt. on a event-by-event basis." hexmask.long.tbyte 0xC 12.--31. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" bitfld.long 0xC 11. "WAIT3EDGEDETECTIONENABLE,Enables the Wait3 Edge Detection interrupt" "0,1" newline bitfld.long 0xC 10. "WAIT2EDGEDETECTIONENABLE,Enables the Wait2 Edge Detection interrupt" "0,1" bitfld.long 0xC 9. "WAIT1EDGEDETECTIONENABLE,Enables the Wait1 Edge Detection interrupt" "0,1" newline bitfld.long 0xC 8. "WAIT0EDGEDETECTIONENABLE,Enables the Wait0 Edge Detection interrupt" "0,1" hexmask.long.byte 0xC 2.--7. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" newline bitfld.long 0xC 1. "TERMINALCOUNTEVENTENABLE,Enables TerminalCountEvent interrupt issuing in pre-fetch or write posting mode" "0,1" bitfld.long 0xC 0. "FIFOEVENTENABLE,Enables the FIFOEvent interrupt" "0,1" group.long 0x40++0xB line.long 0x0 "CFG_GPMC_TIMEOUT_CONTROL,The GPMC_TIMEOUT_CONTROL register allows the user to set the start value of the timeout counter" hexmask.long.tbyte 0x0 13.--31. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" hexmask.long.word 0x0 4.--12. 1. "TIMEOUTSTARTVALUE,Start value of the time-out counter [0x000 corresponds to 0 GPMC.FCLK cycle 0x001 corresponds to 1 GmpcClk cycle & 0x1FF corresponds to 511 GPMC.FCLK cyles.]" newline bitfld.long 0x0 1.--3. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3,4,5,6,7" bitfld.long 0x0 0. "TIMEOUTENABLE,Enable bit of the TimeOut feature" "0,1" line.long 0x4 "CFG_GPMC_ERR_ADDRESS,The GPMC_ERR_ADDRESS register stores the address of the illegal access when an error occurs" bitfld.long 0x4 31. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1" hexmask.long 0x4 0.--30. 1. "ILLEGALADD,Address of illegal access : A30[0 for memory region 1 for GPMC register region] and A29-A0[1 GBytes maximum]" line.long 0x8 "CFG_GPMC_ERR_TYPE,The GPMC_ERR_TYPE register stores the type of error when an error occurs" hexmask.long.tbyte 0x8 11.--31. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" rbitfld.long 0x8 8.--10. "ILLEGALMCMD,System Command of the transaction that caused the error" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 5.--7. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3,4,5,6,7" rbitfld.long 0x8 4. "ERRORNOTSUPPADD,Not supported Address error" "0,1" newline rbitfld.long 0x8 3. "ERRORNOTSUPPMCMD,Not supported Command error" "0,1" rbitfld.long 0x8 2. "ERRORTIMEOUT,Time-out error" "0,1" newline bitfld.long 0x8 1. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1" bitfld.long 0x8 0. "ERRORVALID,Error validity status - Must be explicitely cleared with a write 1 transaction" "0,1" group.long 0x50++0x7 line.long 0x0 "CFG_GPMC_CONFIG,The configuration register allows global configuration of the GPMC" hexmask.long.tbyte 0x0 12.--31. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" bitfld.long 0x0 11. "WAIT3PINPOLARITY,Selects the polarity of input pin WAIT3" "0,1" newline bitfld.long 0x0 10. "WAIT2PINPOLARITY,Selects the polarity of input pin WAIT2" "0,1" bitfld.long 0x0 9. "WAIT1PINPOLARITY,Selects the polarity of input pin WAIT1" "0,1" newline bitfld.long 0x0 8. "WAIT0PINPOLARITY,Selects the polarity of input pin WAIT0" "0,1" bitfld.long 0x0 5.--7. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 4. "WRITEPROTECT,Controls the WP output pin level" "0,1" bitfld.long 0x0 2.--3. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3" newline bitfld.long 0x0 1. "LIMITEDADDRESS,Limited Address device support" "0,1" bitfld.long 0x0 0. "NANDFORCEPOSTEDWRITE,Enables the Force Posted Write feature to NAND Cmd/Add/Data location" "0,1" line.long 0x4 "CFG_GPMC_STATUS,The status register provides global status bits of the GPMC" hexmask.long.tbyte 0x4 12.--31. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" rbitfld.long 0x4 11. "WAIT3STATUS,Is a copy of input pin WAIT3. [Reset value is WAIT3 input pin sampled at IC reset]" "0,1" newline rbitfld.long 0x4 10. "WAIT2STATUS,Is a copy of input pin WAIT2. [Reset value is WAIT2 input pin sampled at IC reset]" "0,1" rbitfld.long 0x4 9. "WAIT1STATUS,Is a copy of input pin WAIT1. [Reset value is WAIT1 input pin sampled at IC reset]" "0,1" newline rbitfld.long 0x4 8. "WAIT0STATUS,Is a copy of input pin WAIT0. [Reset value is WAIT0 input pin sampled at IC reset]" "0,1" hexmask.long.byte 0x4 1.--7. 1. "RESERVED,Write 0's for future compatibility Reads returns 0" newline rbitfld.long 0x4 0. "EMPTYWRITEBUFFERSTATUS,Stores the empty status of the write buffer" "0,1" group.long 0x1E0++0x7 line.long 0x0 "CFG_GPMC_PREFETCH_CONFIG1,Prefetch engine configuration 1" bitfld.long 0x0 31. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1" bitfld.long 0x0 28.--30. "CYCLEOPTIMIZATION,Define the number of GPMC.FCLK cycles to be substracted from RdCycleTime WrCycleTime AccessTime CSRdOffTime CSWrOffTime ADVRdOffTime ADVWrOffTime OEOffTime WEOffTime [0x0 corresponds to 0 GPMC.FCLK cycle 0x1 corresponds to 1.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 27. "ENABLEOPTIMIZEDACCESS,Enables access cycle optimization" "0,1" bitfld.long 0x0 24.--26. "ENGINECSSELECTOR,Selects the CS where Prefetch Postwrite engine is active [0x0 corresponds toCS0 0x1 corresponds to CS1 & 0x7 corresponds to CS7]" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 23. "PFPWENROUNDROBIN,Enables the PFPW RoundRobin arbitration" "0,1" bitfld.long 0x0 20.--22. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 16.--19. 1. "PFPWWEIGHTEDPRIO,When an arbitration occurs between a direct memory access and a PFPW engine access the direct memory access is always serviced. If the PFPWEnRoundRobin is enabled 0x0 means : the next access is granted to the PFPW engine 0x1 means :.." bitfld.long 0x0 15. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1" newline hexmask.long.byte 0x0 8.--14. 1. "FIFOTHRESHOLD,Selects the maximum number of bytes read from the FIFO or written to the FIFO by the host on a DMA or interrupt request [0x00 corresponds to 0 byte 0x01 corresponds to 1 byte & 0x40 corresponds to 64 bytes]" bitfld.long 0x0 7. "ENABLEENGINE,Enables the Prefetch Postwite engine" "0,1" newline bitfld.long 0x0 6. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1" bitfld.long 0x0 4.--5. "WAITPINSELECTOR,Select which wait pin edge detector should start the engine in synchronized mode" "0,1,2,3" newline bitfld.long 0x0 3. "SYNCHROMODE,Selects when the engine starts the access to CS" "0,1" bitfld.long 0x0 2. "DMAMODE,Selects interrupt synchronization or DMA request synchronization" "0,1" newline bitfld.long 0x0 1. "ENDIANISMTYPE,Selects endianism for prefetch data [0x0 for Little Endian and 0x1 for Big Endian]" "0,1" bitfld.long 0x0 0. "ACCESSMODE,Selects pre-fetch read or write posting accesses" "0,1" line.long 0x4 "CFG_GPMC_PREFETCH_CONFIG2,Prefetch engine configuration 2" hexmask.long.tbyte 0x4 14.--31. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" hexmask.long.word 0x4 0.--13. 1. "TRANSFERCOUNT,Selects the number of bytes to be read or written by the engine to the selected CS [0x0000 corresponds to 0 byte 0x0001 corresponds to 1 byte & 0x2000 corresponds to 8 Kbytes]" group.long 0x1EC++0x17 line.long 0x0 "CFG_GPMC_PREFETCH_CONTROL,Prefetch engine control" hexmask.long 0x0 1.--31. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" bitfld.long 0x0 0. "STARTENGINE,Resets the FIFO pointer and starts the engine" "0,1" line.long 0x4 "CFG_GPMC_PREFETCH_STATUS,Prefetch engine status" bitfld.long 0x4 31. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1" hexmask.long.byte 0x4 24.--30. 1. "FIFOPOINTER,Number of available bytes to be read or number of free empty byte places to be written [0x00 corresponds to 0 byte available to be read or 0 free empty place to be written & 0x40 corresponds to 64 bytes available to be read or 64 empty.." newline hexmask.long.byte 0x4 17.--23. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" rbitfld.long 0x4 16. "FIFOTHRESHOLDSTATUS,Set when FIFOPointer exceeds FIFOThreshold value" "0,1" newline bitfld.long 0x4 14.--15. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3" hexmask.long.word 0x4 0.--13. 1. "COUNTVALUE,Number of remaining bytes to be read or to be written by the engine according to the TransferCount value [0x0000 corresponds to 0 byte remaining to be read or to be written 0x0001 corresponds to 1 byte remaining to be read or to be written .." line.long 0x8 "CFG_GPMC_ECC_CONFIG,ECC configuration" hexmask.long.word 0x8 17.--31. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" bitfld.long 0x8 16. "ECCALGORITHM,ECC algorithm used 0x0: Hamming code 0x1: BCH code" "0: Hamming code,1: BCH code" newline bitfld.long 0x8 14.--15. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3" bitfld.long 0x8 12.--13. "ECCBCHTSEL,Error correction capability used for BCH 0x0: up to 4 bits error correction [t = 4] 0x1: up to 8 bits error correction [t=8] 0x2: up to 16 bits error correction [t=16] 0x3: reserved" "0: up to 4 bits error correction [t = 4],1: up to 8 bits error correction [t=8],2: up to 16 bits error correction [t=16],3: reserved" newline hexmask.long.byte 0x8 8.--11. 1. "ECCWRAPMODE,Spare area organization definition for the BCH algorithm. See the BCH syndrome/parity calculator module functional specification for more details" bitfld.long 0x8 7. "ECC16B,Selects an ECC calculated on 16 columns" "0,1" newline bitfld.long 0x8 4.--6. "ECCTOPSECTOR,Number of sectors to process with the BCH algorithm 0x0: 1 sector [512kB page] 0x1: 2 sectors ... 0x3: 4 sectors [2kB page] ... 0x7: 8 sectors [4kB page]" "0: 1 sector [512kB page],1: 2 sectors,?,3: 4 sectors [2kB page],?,?,?,7: 8 sectors [4kB page]" bitfld.long 0x8 1.--3. "ECCCS,Selects the CS where ECC is computed" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 0. "ECCENABLE,Enables the ECC feature" "0,1" line.long 0xC "CFG_GPMC_ECC_CONTROL,ECC control" hexmask.long.tbyte 0xC 9.--31. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" bitfld.long 0xC 8. "ECCCLEAR,Clear all ECC result registers [Reads returns 0 - Writes 1 to this field clear all ECC result registers - Writes 0 are ignored]" "0,1" newline hexmask.long.byte 0xC 4.--7. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" hexmask.long.byte 0xC 0.--3. 1. "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 the.." line.long 0x10 "CFG_GPMC_ECC_SIZE_CONFIG,ECC size" hexmask.long.word 0x10 22.--31. 1. "ECCSIZE1,Defines ECC size 1 [For Hamming Code: 0x000 corresponds to 2 Bytes 0x001 corresponds to 4 Bytes 0x002 corresponds to 6 Bytes 0x003 corresponds to 8 Bytes & 0x0FF corresponds to 512 Bytes. Max supported value is 0x0FF.] [For BCH: 0x000.." hexmask.long.word 0x10 12.--21. 1. "ECCSIZE0,Defines ECC size 0 [For Hamming Code: 0x000 corresponds to 2 Bytes 0x001 corresponds to 4 Bytes 0x002 corresponds to 6 Bytes 0x003 corresponds to 8 Bytes & 0x0FF corresponds to 512 Bytes. Max supported value is 0x0FF.] [For BCH: 0x000.." newline bitfld.long 0x10 9.--11. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3,4,5,6,7" bitfld.long 0x10 8. "ECC9RESULTSIZE,Selects ECC size for ECC 9 result register" "0,1" newline bitfld.long 0x10 7. "ECC8RESULTSIZE,Selects ECC size for ECC 8 result register" "0,1" bitfld.long 0x10 6. "ECC7RESULTSIZE,Selects ECC size for ECC 7 result register" "0,1" newline bitfld.long 0x10 5. "ECC6RESULTSIZE,Selects ECC size for ECC 6 result register" "0,1" bitfld.long 0x10 4. "ECC5RESULTSIZE,Selects ECC size for ECC 5 result register" "0,1" newline bitfld.long 0x10 3. "ECC4RESULTSIZE,Selects ECC size for ECC 4 result register" "0,1" bitfld.long 0x10 2. "ECC3RESULTSIZE,Selects ECC size for ECC 3 result register" "0,1" newline bitfld.long 0x10 1. "ECC2RESULTSIZE,Selects ECC size for ECC 2 result register" "0,1" bitfld.long 0x10 0. "ECC1RESULTSIZE,Selects ECC size for ECC 1 result register" "0,1" line.long 0x14 "CFG_GPMC_ECC_RESULT,ECC result register" hexmask.long.byte 0x14 28.--31. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" rbitfld.long 0x14 27. "P2048O,Odd Row Parity bit 2048 only used for ECC computed on 512 Bytes" "0,1" newline rbitfld.long 0x14 26. "P1024O,Odd Row Parity bit 1024" "0,1" rbitfld.long 0x14 25. "P512O,Odd Row Parity bit 512" "0,1" newline rbitfld.long 0x14 24. "P256O,Odd Row Parity bit 256" "0,1" rbitfld.long 0x14 23. "P128O,Odd Row Parity bit 128" "0,1" newline rbitfld.long 0x14 22. "P64O,Odd Row Parity bit 64" "0,1" rbitfld.long 0x14 21. "P32O,Odd Row Parity bit 32" "0,1" newline rbitfld.long 0x14 20. "P16O,Odd Row Parity bit 16" "0,1" rbitfld.long 0x14 19. "P8O,Odd Row Parity bit 8" "0,1" newline rbitfld.long 0x14 18. "P4O,Odd Column Parity bit 4" "0,1" rbitfld.long 0x14 17. "P2O,Odd Column Parity bit 2" "0,1" newline rbitfld.long 0x14 16. "P1O,Odd Column Parity bit 1" "0,1" hexmask.long.byte 0x14 12.--15. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" newline rbitfld.long 0x14 11. "P2048E,Even Row Parity bit 2048 only used for ECC computed on 512 Bytes" "0,1" rbitfld.long 0x14 10. "P1024E,Even Row Parity bit 1024" "0,1" newline rbitfld.long 0x14 9. "P512E,Even Row Parity bit 512" "0,1" rbitfld.long 0x14 8. "P256E,Even Row Parity bit 256" "0,1" newline rbitfld.long 0x14 7. "P128E,Even Row Parity bit 128" "0,1" rbitfld.long 0x14 6. "P64E,Even Row Parity bit 64" "0,1" newline rbitfld.long 0x14 5. "P32E,Even Row Parity bit 32" "0,1" rbitfld.long 0x14 4. "P16E,Even Row Parity bit 16" "0,1" newline rbitfld.long 0x14 3. "P8E,Even Row Parity bit 8" "0,1" rbitfld.long 0x14 2. "P4E,Even Column Parity bit 4" "0,1" newline rbitfld.long 0x14 1. "P2E,Even Column Parity bit 2" "0,1" rbitfld.long 0x14 0. "P1E,Even Column Parity bit 1" "0,1" wgroup.long 0x2D0++0x3 line.long 0x0 "CFG_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 0x0 0.--15. 1. "BCH_DATA,Data to be included in the BCH calculation. Only bits 0 to 7 are taken into account if the calculator is configured to use 8 bits data [ECC16B = 0]" group.long 0x60++0x1B line.long 0x0 "CFG_GPMC_CONFIG1,The configuration 1 register sets signal control parameters per chip select" bitfld.long 0x0 31. "WRAPBURST,Enables the wrapping burst capability. Must be set if the attached device is configured in wrapping burst" "0,1" bitfld.long 0x0 30. "READMULTIPLE,Selects the read single or multiple access" "0,1" newline bitfld.long 0x0 29. "READTYPE,Selects the read mode operation" "0,1" bitfld.long 0x0 28. "WRITEMULTIPLE,Selects the write single or multiple access" "0,1" newline bitfld.long 0x0 27. "WRITETYPE,Selects the write mode operation" "0,1" bitfld.long 0x0 25.--26. "CLKACTIVATIONTIME,Output GPMC.CLK activation time" "0,1,2,3" newline bitfld.long 0x0 23.--24. "ATTACHEDDEVICEPAGELENGTH,Specifies the attached device page [burst] length" "0,1,2,3" bitfld.long 0x0 22. "WAITREADMONITORING,Selects the Wait monitoring configuration for Read accesses [Reset value is BOOTWAITEN input pin sampled at IC reset]" "0,1" newline bitfld.long 0x0 21. "WAITWRITEMONITORING,Selects the Wait monitoring configuration for Write accesses" "0,1" bitfld.long 0x0 20. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1" newline bitfld.long 0x0 18.--19. "WAITMONITORINGTIME,Selects input pin Wait monitoring time" "0,1,2,3" bitfld.long 0x0 16.--17. "WAITPINSELECT,Selects the input WAIT pin for this chip select [Reset value is BOOTWAITSELECT input pin sampled at IC reset for CS0 and 0 for CS1-7]" "0,1,2,3" newline bitfld.long 0x0 14.--15. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3" bitfld.long 0x0 12.--13. "DEVICESIZE,Selects the device size attached [Reset value is BOOTDEVICESIZE input pin sampled at IC reset for CS0 and 01 for CS1-7]" "0,1,2,3" newline bitfld.long 0x0 10.--11. "DEVICETYPE,Selects the attached device type" "0,1,2,3" bitfld.long 0x0 8.--9. "MUXADDDATA,Enables the Address and data multiplexed protocol [Reset value is CS0MUXDEVICE input pin sampled at IC reset for CS0 and 0 for CS1-7]" "0,1,2,3" newline bitfld.long 0x0 5.--7. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3,4,5,6,7" bitfld.long 0x0 4. "TIMEPARAGRANULARITY,Signals timing latencies scalar factor [Rd/WRCycleTime AccessTime PageBurstAccessTime CSOnTime CSRd/WrOffTime ADVOnTime ADVRd/WrOffTime OEOnTime OEOffTime WEOnTime WEOffTime Cycle2CycleDelay BusTurnAround TimeOutStartValue]" "0,1" newline bitfld.long 0x0 2.--3. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3" bitfld.long 0x0 0.--1. "GPMCFCLKDIVIDER,Divides the GPMC.FCLK clock" "0,1,2,3" line.long 0x4 "CFG_GPMC_CONFIG2,Chip-select signal timing parameter configuration" hexmask.long.word 0x4 21.--31. 1. "RESERVED,Write 0's for future compatibility Reads returns 0" hexmask.long.byte 0x4 16.--20. 1. "CSWROFFTIME,CS# de-assertion time from start cycle time for write accesses [0x00 corresponds to 0 GPMC.FCLK cycle 0x01 corresponds to 1 GPMC.FCLK cycle & 0x1F corresponds to 31 GPMC.FCLK cycles]" newline bitfld.long 0x4 13.--15. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4 8.--12. 1. "CSRDOFFTIME,CS# de-assertion time from start cycle time for read accesses [0x00 corresponds to 0 GPMC.FCLK cycle 0x01 corresponds to 1 GPMC.FCLK cycle & 0x1F corresponds to 31 GPMC.FCLK cycles]" newline bitfld.long 0x4 7. "CSEXTRADELAY,CS# Add Extra Half GPMC.FCLK cycle" "0,1" bitfld.long 0x4 4.--6. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x4 0.--3. 1. "CSONTIME,CS# assertion time from start cycle time [0x0 corresponds to 0 GPMC.FCLK cycle 0x1 corresponds to 1 GPMC.FCLK cycle & 0xF corresponds to 15 GPMC.FCLK cycles]" line.long 0x8 "CFG_GPMC_CONFIG3,ADV# signal timing parameter configuration" rbitfld.long 0x8 31. "RESERVED_1,Write 0's for future compatibility. Read returns 0" "0,1" bitfld.long 0x8 28.--30. "ADVAADMUXWROFFTIME,ADV# de-assertion for first address phase when using the AAD-Mux protocol" "0,1,2,3,4,5,6,7" newline rbitfld.long 0x8 27. "RESERVED_0,Write 0's for future compatibility. Read returns 0" "0,1" bitfld.long 0x8 24.--26. "ADVAADMUXRDOFFTIME,ADV# assertion for first address phase when using the AAD-Mux protocol" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 21.--23. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 16.--20. 1. "ADVWROFFTIME,ADV# de-assertion time from start cycle time for write accesses [0x00 corresponds to 0 GPMC.FCLK cycle 0x01 corresponds to 1 GPMC.FCLK cycle & 0x1F corresponds to 31 GPMC.FCLK cycles]" newline bitfld.long 0x8 13.--15. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 8.--12. 1. "ADVRDOFFTIME,ADV# de-assertion time from start cycle time for read accesses[0x00 corresponds to 0 GPMC.FCLK cycle 0x01 corresponds to 1 GPMC.FCLK cycle & 0x1F corresponds to 31 GPMC.FCLK cycles]" newline bitfld.long 0x8 7. "ADVEXTRADELAY,ADV# Add Extra Half GPMC.FCLK cycle" "0,1" bitfld.long 0x8 4.--6. "ADVAADMUXONTIME,ADV# assertion for first address phase when using the AAD-Mux protocol" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x8 0.--3. 1. "ADVONTIME,ADV# assertion time from start cycle time [0x0 corresponds to 0 GPMC.FCLK cycle 0x1 corresponds to 1 GPMC.FCLK cycle & 0xF corresponds to 15 GPMC.FCLK cycles]" line.long 0xC "CFG_GPMC_CONFIG4,WE# and OE# signals timing parameter configuration" rbitfld.long 0xC 29.--31. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC 24.--28. 1. "WEOFFTIME,WE# de-assertion time from start cycle time [0x00 corresponds to 0 GPMC.FCLK cycle 0x01 corresponds to 1 GPMC.FCLK cycle & 0x1F corresponds to 31 GPMC.FCLK cycles]" newline bitfld.long 0xC 23. "WEEXTRADELAY,WE# Add Extra Half GPMC.FCLK cycle" "0,1" bitfld.long 0xC 20.--22. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0xC 16.--19. 1. "WEONTIME,WE# assertion time from start cycle time [0x0 corresponds to 0 GPMC.FCLK cycle 0x1 corresponds to 1 GPMC.FCLK cycle & 0xF corresponds to 15 GPMC.FCLK cycles]" bitfld.long 0xC 13.--15. "OEAADMUXOFFTIME,OE# de-assertion time for the first address phase in an AAD-Mux access" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0xC 8.--12. 1. "OEOFFTIME,OE# de-assertion time from start cycle time [0x00 corresponds to 0 GPMC.FCLK cycle 0x01 corresponds to 1 GPMC.FCLK cycle & 0x1F corresponds to 31 GPMC.FCLK cycles]" bitfld.long 0xC 7. "OEEXTRADELAY,OE# Add Extra Half GPMC.FCLK cycle" "0,1" newline bitfld.long 0xC 4.--6. "OEAADMUXONTIME,OE# assertion time for the first address phase in an AAD-Mux access" "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC 0.--3. 1. "OEONTIME,OE# assertion time from start cycle time [0x0 corresponds to 0 GPMC.FCLK cycle 0x1 corresponds to 1 GPMC.FCLK cycle & 0xF corresponds to 15 GPMC.FCLK cycles]" line.long 0x10 "CFG_GPMC_CONFIG5,RdAccessTime and CycleTime timing parameters configuration" hexmask.long.byte 0x10 28.--31. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" hexmask.long.byte 0x10 24.--27. 1. "PAGEBURSTACCESSTIME,Delay between successive words in a multiple access [0x0 corresponds to 0 GPMC.FCLK cycle 0x1 corresponds to 1 GPMC.FCLK cycle & 0xF corresponds to 15 GPMC.FCLK cycles]" newline bitfld.long 0x10 21.--23. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x10 16.--20. 1. "RDACCESSTIME,Delay between start cycle time and first data valid [0x00 corresponds to 0 GPMC.FCLK cycle 0x01 corresponds to 1 GPMC.FCLK cycle & 0x1F corresponds to 31 GPMC.FCLK cycles]" newline bitfld.long 0x10 13.--15. "RESERVED,Write 0's for future compatibility Reads returns 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x10 8.--12. 1. "WRCYCLETIME,Total write cycle time [0x00 corresponds to 0 GPMC.FCLK cycle 0x01 corresponds to 1 GPMC.FCLK cycle & 0x1F corresponds to 31 GPMC.FCLK cycles]" newline bitfld.long 0x10 5.--7. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x10 0.--4. 1. "RDCYCLETIME,Total read cycle time [0x00 corresponds to 0 GPMC.FCLK cycle 0x01 corresponds to 1 GPMC.FCLK cycle & 0x1F corresponds to 31 GPMC.FCLK cycles]" line.long 0x14 "CFG_GPMC_CONFIG6,WrAccessTime. WrDataOnADmuxBus. Cycle2Cycle and BusTurnAround parameters configuration" bitfld.long 0x14 31. "RESERVED,TI Internal use - Do not modify" "0,1" bitfld.long 0x14 29.--30. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1,2,3" newline hexmask.long.byte 0x14 24.--28. 1. "WRACCESSTIME,Delay from StartAccessTime to the GPMC.FCLK rising edge corresponding the the GPMC.CLK rising edge used by the attached memory for the first data capture [0x00 corresponds to 0 GPMC.FCLK cycle 0x01 corresponds to 1 GPMC.FCLK cycle & 0x1F.." hexmask.long.byte 0x14 20.--23. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" newline hexmask.long.byte 0x14 16.--19. 1. "WRDATAONADMUXBUS,Specifies on which GPMC.FCLK rising edge the first data of the synchronous burst write is driven in the add/data mux bus" hexmask.long.byte 0x14 12.--15. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" newline hexmask.long.byte 0x14 8.--11. 1. "CYCLE2CYCLEDELAY,Chip select high pulse delay between two successive accesses [0x0 corresponds to 0 GPMC.FCLK cycle 0x1 corresponds to 1 GPMC.FCLK cycle & 0xF corresponds to 15 GPMC.FCLK cycles]" bitfld.long 0x14 7. "CYCLE2CYCLESAMECSEN,Add Cycle2CycleDelay between two successive accesses to the same chip-select [any access type]" "0,1" newline bitfld.long 0x14 6. "CYCLE2CYCLEDIFFCSEN,Add Cycle2CycleDelay between two successive accesses to a different chip-select [any access type]" "0,1" bitfld.long 0x14 4.--5. "RESERVED,Write 0's for future compatibility Reads returns 0" "0,1,2,3" newline hexmask.long.byte 0x14 0.--3. 1. "BUSTURNAROUND,Bus turn around latency between two successive accesses to the same chip-select [rd to wr] or to a different chip-select [read to read and read to write] [0x0 corresponds to 0 GPMC.FCLK cycle 0x1 corresponds to 1 GPMC.FCLK cycle & 0xF.." line.long 0x18 "CFG_GPMC_CONFIG7,Chip-select address mapping configuration" hexmask.long.tbyte 0x18 12.--31. 1. "RESERVED,Write 0's for future compatibility. Read returns 0" hexmask.long.byte 0x18 8.--11. 1. "MASKADDRESS,Chip-select mask address" newline bitfld.long 0x18 7. "RESERVED,Write 0's for future compatibility. Read returns 0" "0,1" bitfld.long 0x18 6. "CSVALID,Chip-select enable [reset value is 1 for CS0 and 0 for CS1-7]" "0,1" newline hexmask.long.byte 0x18 0.--5. 1. "BASEADDRESS,Chip-select base address" wgroup.long 0x7C++0x7 line.long 0x0 "CFG_GPMC_NAND_COMMAND,This Register is not a true register. just a address location." hexmask.long 0x0 0.--31. 1. "GPMC_NAND_COMMAND_0," line.long 0x4 "CFG_GPMC_NAND_ADDRESS,This Register is not a true register. just a address location." hexmask.long 0x4 0.--31. 1. "GPMC_NAND_ADDRESS_0," group.long 0x84++0x3 line.long 0x0 "CFG_GPMC_NAND_DATA,This Register is not a true register. just a address location." hexmask.long 0x0 0.--31. 1. "GPMC_NAND_DATA_0," rgroup.long 0x240++0xF line.long 0x0 "CFG_GPMC_BCH_RESULT_0,BCH ECC result. bits 0 to 31" hexmask.long 0x0 0.--31. 1. "BCH_RESULT_0,BCH ECC result bits 0 to 31" line.long 0x4 "CFG_GPMC_BCH_RESULT_1,BCH ECC result. bits 32 to 63" hexmask.long 0x4 0.--31. 1. "BCH_RESULT_1,BCH ECC result bits 32 to 63" line.long 0x8 "CFG_GPMC_BCH_RESULT_2,BCH ECC result. bits 64 to 95" hexmask.long 0x8 0.--31. 1. "BCH_RESULT_2,BCH ECC result bits 64 to 95" line.long 0xC "CFG_GPMC_BCH_RESULT_3,BCH ECC result. bits 96 to 127" hexmask.long 0xC 0.--31. 1. "BCH_RESULT_3,BCH ECC result bits 96 to 127" rgroup.long 0x300++0xB line.long 0x0 "CFG_GPMC_BCH_RESULT_4,BCH ECC result. bits 128 to 159" hexmask.long 0x0 0.--31. 1. "BCH_RESULT_4,BCH ECC result bits 128 to 159" line.long 0x4 "CFG_GPMC_BCH_RESULT_5,BCH ECC result. bits 160 to 191" hexmask.long 0x4 0.--31. 1. "BCH_RESULT_5,BCH ECC result bits 160 to 191" line.long 0x8 "CFG_GPMC_BCH_RESULT_6,BCH ECC result. bits 192 to 207" hexmask.long.word 0x8 0.--15. 1. "BCH_RESULT_6,BCH ECC result bits 192 to 207" tree.end tree "GPU" base ad:0x0 tree "GPU_RS_BW_LIMITER9_REGS (GPU_RS_BW_LIMITER9_REGS)" base ad:0x3040A000 rgroup.long 0x0++0x3 line.long 0x0 "REGS_PID,This is the standard TI peripheral ID register that exists at address 0 in the peripheral space" bitfld.long 0x0 30.--31. "SCHEME,PID scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,PID bu identifier" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,PID function identifier" hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,PID RTL version number" bitfld.long 0x0 8.--10. "MAJOR_REV,PID Major revision number" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,PID custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV,PID Minor revision number" group.long 0x4++0x3 line.long 0x0 "REGS_CTRL,This register controls the overall behavior of the rate limiter module" bitfld.long 0x0 4. "REGION_FILTER_EN,Enable the region filter which will only apply the bandwith and transaction limits to the configured address regions" "0,1" bitfld.long 0x0 3. "WR_TXN_ENABLE,Enable limiting maximum outstanding write transactions" "0,1" bitfld.long 0x0 2. "RD_TXN_ENABLE,Enable limiting maximum outstanding read transactions" "0,1" bitfld.long 0x0 1. "WR_BW_ENABLE,Enable write bandwidth limiting" "0,1" bitfld.long 0x0 0. "RD_BW_ENABLE,Enable read bandwidth limiting" "0,1" group.long 0x100++0xB line.long 0x0 "REGS_RD_BW_CIR,Read Bandwidth Committed Information Rate" hexmask.long 0x0 0.--31. 1. "CIR,Committed Information Rate" line.long 0x4 "REGS_RD_BW_PIR,Read Bandwidth Peak Information Rate" hexmask.long 0x4 0.--31. 1. "PIR,Peak Information Rate" line.long 0x8 "REGS_RD_BW_BURST_OFFSET,Read Bandwidth Burst Offset" hexmask.long.word 0x8 0.--15. 1. "OFFSET,Burst Offset - the number of bytes before the Committed Information Rate is applied at startup or after a period of inactivity. Peak Information Rate will still apply" rgroup.long 0x10C++0x3 line.long 0x0 "REGS_RD_BW_INFO,Read Bandwidth State machine information. Primarly for verification purposes" bitfld.long 0x0 0.--1. "COLOR,Read Bandwidth three-color marker output from rategen submodule" "0,1,2,3" group.long 0x120++0x7 line.long 0x0 "REGS_RD_BW_STATS,Read Bandwidth Statistics Control Register" hexmask.long.word 0x0 16.--31. 1. "WINDOW,Statistics window size. This cannot be set to 0. If 16'd0 is written it will be set to the reset value of 16'd1024" rbitfld.long 0x0 9. "OVERFLOW,Statistics overflow error" "0,1" bitfld.long 0x0 8. "CLR,Clear statistics data. Resets statistics counters at 0" "0,1" bitfld.long 0x0 0. "EN,Enable read bandwidth statistics" "0,1" line.long 0x4 "REGS_RD_BW_STATS_THRSHLD,A statistics threshold separate from the CIR and PIR" hexmask.long 0x4 0.--31. 1. "THRESHOLD,Read bandwidth stats threshold in bytes. Note that this is total bytes unlike CIR and PIR. CIR and PIR are based on a rolling window and the statistics threshold is based on a fixed window. This will still take into account DDR bytes used so.." rgroup.long 0x128++0x13 line.long 0x0 "REGS_RD_BW_WINDOWS_CNT,Read Bandwidth Statistics - Window Count" hexmask.long 0x0 0.--31. 1. "VAL,Read bandwidth window count - the number of windows elapsed since statistics collection began" line.long 0x4 "REGS_RD_BW_CIR_CNT,Read Bandwidth Statistics - CIR Count" hexmask.long 0x4 0.--31. 1. "VAL,The total number of statistics windows in which Read Commit Information Rate occurred. Note that if PIR is set to a lower value than CIR or if the burst offset feature is used this will also count times that PIR is reached." line.long 0x8 "REGS_RD_BW_PIR_CNT,Read Bandwidth Statistics - PIR Count" hexmask.long 0x8 0.--31. 1. "VAL,The total number of statistics windows in which Read Peak Information Rate occurred" line.long 0xC "REGS_RD_BW_THRSHLD_CNT,Read Bandwidth Statistics - Threshold Count" hexmask.long 0xC 0.--31. 1. "VAL,The total number of statistics windows in which Read bytes transferred exceeded the statistics threshold" line.long 0x10 "REGS_RD_BYTES_MAX,The maximum number of bytes seen in a single statitsics window. This can be compared with the window size to calculate the maximum bandwidth seen" hexmask.long 0x10 0.--31. 1. "VAL,Max number of bytes in a single window. This number accounts for DDR bandwidth consumed not simply the accumulation of the packet bytecnt values across a window. The max bandwidth calculation is the total bytes value in this MMR divided by the.." group.long 0x300++0x3 line.long 0x0 "REGS_RD_TXN,The maximum number of outstanding read transactions the rate limiter will allow" hexmask.long.word 0x0 0.--15. 1. "LIMIT,The maximum number of outstanding read transactions allowed. NOTE: This cannot be programmed to a zero. If a zero is written it will default to the reset value of 16'd64 as a limit of zero outstanding transactions would hang the interface." rgroup.long 0x30C++0x3 line.long 0x0 "REGS_RD_TXN_INFO,Read Transaction State machine information. Primarly for verification purposes" hexmask.long.byte 0x0 0.--6. 1. "OCC,Read transaction scoreboard occupancy" group.long 0x320++0x7 line.long 0x0 "REGS_RD_TXN_STATS,Read Transaction Stats Control Register" hexmask.long.word 0x0 16.--31. 1. "WINDOW,Statistics window size. This cannot be set to 0. If 16'd0 is written it will be set to the reset value of 16'd1024" rbitfld.long 0x0 9. "OVERFLOW,Statistics overflow error" "0,1" bitfld.long 0x0 8. "CLR,Clear statistics data. Resets statistics counters at 0" "0,1" bitfld.long 0x0 0. "EN,Enable read transaction statistics" "0,1" line.long 0x4 "REGS_RD_TXN_STATS_THRSHLD,A statistics threshold separate from the read transaction limit" hexmask.long.word 0x4 0.--15. 1. "THRESHOLD,Read transaction statistics threshold. The threshold can be set to any value though it will saturate at the outstanding transaction limit if it is set to a value greater than the programmed outstanding read transaction limit" rgroup.long 0x328++0x17 line.long 0x0 "REGS_RD_TXN_WINDOWS_CNT,Read Transaction Statistics - Window Count" hexmask.long 0x0 0.--31. 1. "VAL,Read transaction window count - the number of windows elapsed since statistics collection began" line.long 0x4 "REGS_RD_TXN_LMT_CNT,Read Transaction Statistics - number of windows in which the outstanding transaction limit was reached" hexmask.long 0x4 0.--31. 1. "VAL,The number of statistics windows in which the outstanding read transaction limit was reached" line.long 0x8 "REGS_RD_TXN_THRSHLD_CNT,Read Transaction Statistics - number of windows in which the statistics threshold was reached" hexmask.long 0x8 0.--31. 1. "VAL,The number of statistics windows in which the number of outstanding read transactions was greater than or equal to the threshold in RD_TXN_STATS_THRSHLD" line.long 0xC "REGS_RD_TXN_LIMIT_TOTAL,Read Transaction Statistics - Cycles at Outstanding Read Transactions Limit" hexmask.long 0xC 0.--31. 1. "VAL,The total number of cycles with the read transactions outstanding at the programmed limit since statistics collection began" line.long 0x10 "REGS_RD_TXN_THRSHLD_TOTAL,Read Transaction Statistics - Cycles at the Statistics Threshold" hexmask.long 0x10 0.--31. 1. "VAL,The total number of cycles with read transactions outstanding greater than or equal to the statistics threshold in RD_TXN_STATS_THRSHLD since statistics collection began" line.long 0x14 "REGS_RD_TXN_MAX,Read Transaction Statistics - Max Observed Outstanding Read Transactions" hexmask.long.word 0x14 0.--15. 1. "VAL,The maximum outstanding read transactions at any point in time regardless of the programmed limit" tree.end tree "GPU_WS_BW_LIMITER10_REGS (GPU_WS_BW_LIMITER10_REGS)" base ad:0x30409000 rgroup.long 0x0++0x3 line.long 0x0 "REGS_PID,This is the standard TI peripheral ID register that exists at address 0 in the peripheral space" bitfld.long 0x0 30.--31. "SCHEME,PID scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,PID bu identifier" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,PID function identifier" hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,PID RTL version number" bitfld.long 0x0 8.--10. "MAJOR_REV,PID Major revision number" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,PID custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV,PID Minor revision number" group.long 0x4++0x3 line.long 0x0 "REGS_CTRL,This register controls the overall behavior of the rate limiter module" bitfld.long 0x0 4. "REGION_FILTER_EN,Enable the region filter which will only apply the bandwith and transaction limits to the configured address regions" "0,1" bitfld.long 0x0 3. "WR_TXN_ENABLE,Enable limiting maximum outstanding write transactions" "0,1" bitfld.long 0x0 2. "RD_TXN_ENABLE,Enable limiting maximum outstanding read transactions" "0,1" bitfld.long 0x0 1. "WR_BW_ENABLE,Enable write bandwidth limiting" "0,1" bitfld.long 0x0 0. "RD_BW_ENABLE,Enable read bandwidth limiting" "0,1" group.long 0x200++0xB line.long 0x0 "REGS_WR_BW_CIR,Write Bandwidth Committed Information Rate" hexmask.long 0x0 0.--31. 1. "CIR,Committed Information Rate" line.long 0x4 "REGS_WR_BW_PIR,Write Bandwidth Peak Information Rate" hexmask.long 0x4 0.--31. 1. "PIR,Peak Information Rate" line.long 0x8 "REGS_WR_BW_BURST_OFFSET,Write Bandwidth Burst Offset" hexmask.long.word 0x8 0.--15. 1. "OFFSET,Burst Offset - the number of bytes before the Committed Information Rate is applied at startup or after a period of inactivity. Peak Information Rate will still apply" rgroup.long 0x20C++0x3 line.long 0x0 "REGS_WR_BW_INFO,Write Bandwidth State machine information. Primarly for verification purposes" bitfld.long 0x0 0.--1. "COLOR,Write Bandwidth three-color marker output from rategen submodule" "0,1,2,3" group.long 0x220++0x7 line.long 0x0 "REGS_WR_BW_STATS,Write Bandwidth Statistics Control Register" hexmask.long.word 0x0 16.--31. 1. "WINDOW,Statistics window size. This cannot be set to 0. If 16'd0 is written it will be set to the reset value of 16'd1024" rbitfld.long 0x0 9. "OVERFLOW,Statistics overflow error" "0,1" bitfld.long 0x0 8. "CLR,Clear statistics data. Resets statistics counters at 0" "0,1" bitfld.long 0x0 0. "EN,Enable write bandwidth statistics" "0,1" line.long 0x4 "REGS_WR_BW_STATS_THRSHLD,A statistics threshold separate from the CIR and PIR" hexmask.long 0x4 0.--31. 1. "THRESHOLD,Write bandwidth stats threshold in bytes. Note that this is total bytes unlike CIR and PIR. CIR and PIR are based on a rolling window and the statistics threshold is based on a fixed window. This will still take into account DDR bytes used .." rgroup.long 0x228++0x13 line.long 0x0 "REGS_WR_BW_WINDOWS_CNT,Write Bandwidth Statistics - Window Count" hexmask.long 0x0 0.--31. 1. "VAL,Write bandwidth window count - the number of windows elapsed since statistics collection began" line.long 0x4 "REGS_WR_BW_CIR_CNT,Write Bandwidth Statistics - CIR Count" hexmask.long 0x4 0.--31. 1. "VAL,The total number of statistics windows in which Write Commit Information Rate occurred. Note that if PIR is set to a lower value than CIR or if the burst offset feature is used this will also count times that PIR is reached." line.long 0x8 "REGS_WR_BW_PIR_CNT,Write Bandwidth Statistics - PIR Count" hexmask.long 0x8 0.--31. 1. "VAL,The total number of statistics windows in which Write Peak Information Rate occurred" line.long 0xC "REGS_WR_BW_THRSHLD_CNT,Write Bandwidth Statistics - Threshold Count" hexmask.long 0xC 0.--31. 1. "VAL,The total number of statistics windows in which Write bytes transferred exceeded the statistics threshold" line.long 0x10 "REGS_WR_BYTES_MAX,The maximum number of bytes seen in a single statitsics window. This can be compared with the window size to calculate the maximum bandwidth seen" hexmask.long 0x10 0.--31. 1. "VAL,Max number of bytes in a single window. This number accounts for DDR bandwidth consumed not simply the accumulation of the packet bytecnt values across a window. The max bandwidth calculation is the total bytes value in this MMR divided by the.." group.long 0x400++0x3 line.long 0x0 "REGS_WR_TXN,The maximum number of outstanding write transactions the rate limiter will allow" hexmask.long.word 0x0 0.--15. 1. "LIMIT,The maximum number of outstanding write transactions allowed. NOTE: This cannot be programmed to a zero. If a zero is written it will default to the reset value of 16'd64 as a limit of zero outstanding transactions would hang the interface." rgroup.long 0x40C++0x3 line.long 0x0 "REGS_WR_TXN_INFO,Write Transaction State machine information. Primarly for verification purposes" hexmask.long.byte 0x0 0.--6. 1. "OCC,Write transaction scoreboard occupancy" group.long 0x420++0x7 line.long 0x0 "REGS_WR_TXN_STATS,Write Transaction Stats Control Register" hexmask.long.word 0x0 16.--31. 1. "WINDOW,Statistics window size. This cannot be set to 0. If 16'd0 is written it will be set to the reset value of 16'd1024" rbitfld.long 0x0 9. "OVERFLOW,Statistics overflow error" "0,1" bitfld.long 0x0 8. "CLR,Clear statistics data. Resets statistics counters at 0" "0,1" bitfld.long 0x0 0. "EN,Enable write transaction statistics" "0,1" line.long 0x4 "REGS_WR_TXN_STATS_THRSHLD,A statistics threshold separate from the write transaction limit" hexmask.long.word 0x4 0.--15. 1. "THRESHOLD,Write transaction statistics threshold. The threshold can be set to any value though it will saturate at the outstanding transaction limit if it is set to a value greater than the programmed outstanding write transaction limit" rgroup.long 0x428++0x17 line.long 0x0 "REGS_WR_TXN_WINDOWS_CNT,Write Transaction Statistics - Window Count" hexmask.long 0x0 0.--31. 1. "VAL,Write transaction window count - the number of windows elapsed since statistics collection began" line.long 0x4 "REGS_WR_TXN_LMT_CNT,Write Transaction Statistics - number of windows in which the outstanding transaction limit was reached" hexmask.long 0x4 0.--31. 1. "VAL,The number of statistics windows in which the outstanding write transaction limit was reached" line.long 0x8 "REGS_WR_TXN_THRSHLD_CNT,Write Transaction Statistics - number of windows in which the statistics threshold was reached" hexmask.long 0x8 0.--31. 1. "VAL,The number of statistics windows in which the number of outstanding write transactions was greater than or equal to the threshold in WR_TXN_STATS_THRSHLD" line.long 0xC "REGS_WR_TXN_LIMIT_TOTAL,Write Transaction Statistics - Cycles at Outstanding Write Transactions Limit" hexmask.long 0xC 0.--31. 1. "VAL,The total number of cycles with the write transactions outstanding at the programmed limit since statistics collection began" line.long 0x10 "REGS_WR_TXN_THRSHLD_TOTAL,Write Transaction Statistics - Cycles at the Statistics Threshold" hexmask.long 0x10 0.--31. 1. "VAL,The total number of cycles with write transactions outstanding greater than or equal to the statistics threshold in WR_TXN_STATS_THRSHLD since statistics collection began" line.long 0x14 "REGS_WR_TXN_MAX,Write Transaction Statistics - Max Observed Outstanding Write Transactions" hexmask.long.word 0x14 0.--15. 1. "VAL,The maximum outstanding write transactions at any point in time regardless of the programmed limit" tree.end tree.end tree "GPU0_CORE_MMRS (GPU0_CORE_MMRS)" base ad:0xFD80000 group.quad 0x0++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_CLK_CTRL,Core Module Clock Control Modes." hexmask.quad.word 0x0 54.--63. 1. "RESERVED_54," newline bitfld.quad 0x0 52.--53. "USCS," "0,1,2,3" newline bitfld.quad 0x0 50.--51. "PBE," "0,1,2,3" newline bitfld.quad 0x0 48.--49. "MCU_L1," "0,1,2,3" newline bitfld.quad 0x0 46.--47. "CDM," "0,1,2,3" newline bitfld.quad 0x0 44.--45. "SIDEKICK," "0,1,2,3" newline bitfld.quad 0x0 42.--43. "BIF_SIDEKICK," "0,1,2,3" newline bitfld.quad 0x0 40.--41. "BIF," "0,1,2,3" newline hexmask.quad.word 0x0 30.--39. 1. "RESERVED_30," newline bitfld.quad 0x0 28.--29. "TPU_MCU_DEMUX," "0,1,2,3" newline bitfld.quad 0x0 26.--27. "MCU_L0," "0,1,2,3" newline bitfld.quad 0x0 24.--25. "TPU," "0,1,2,3" newline rbitfld.quad 0x0 22.--23. "RESERVED_22," "0,1,2,3" newline bitfld.quad 0x0 20.--21. "USC," "0,1,2,3" newline rbitfld.quad 0x0 18.--19. "RESERVED_18," "0,1,2,3" newline bitfld.quad 0x0 16.--17. "SLC," "0,1,2,3" newline bitfld.quad 0x0 14.--15. "UVS," "0,1,2,3" newline bitfld.quad 0x0 12.--13. "PDS," "0,1,2,3" newline bitfld.quad 0x0 10.--11. "VDM," "0,1,2,3" newline bitfld.quad 0x0 8.--9. "PM," "0,1,2,3" newline bitfld.quad 0x0 6.--7. "GPP," "0,1,2,3" newline bitfld.quad 0x0 4.--5. "TE," "0,1,2,3" newline bitfld.quad 0x0 2.--3. "TSP," "0,1,2,3" newline bitfld.quad 0x0 0.--1. "ISP," "0,1,2,3" rgroup.quad 0x8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_CLK_STATUS,Reports the current module clock status" hexmask.quad 0x0 27.--63. 1. "RESERVED_27," newline bitfld.quad 0x0 26. "USCS," "0,1" newline bitfld.quad 0x0 25. "PBE," "0,1" newline bitfld.quad 0x0 24. "MCU_L1," "0,1" newline bitfld.quad 0x0 23. "CDM," "0,1" newline bitfld.quad 0x0 22. "SIDEKICK," "0,1" newline bitfld.quad 0x0 21. "BIF_SIDEKICK," "0,1" newline bitfld.quad 0x0 20. "BIF," "0,1" newline hexmask.quad.byte 0x0 15.--19. 1. "RESERVED_15," newline bitfld.quad 0x0 14. "TPU_MCU_DEMUX," "0,1" newline bitfld.quad 0x0 13. "MCU_L0," "0,1" newline bitfld.quad 0x0 12. "TPU," "0,1" newline bitfld.quad 0x0 11. "RESERVED_11," "0,1" newline bitfld.quad 0x0 10. "USC," "0,1" newline bitfld.quad 0x0 9. "RESERVED_9," "0,1" newline bitfld.quad 0x0 8. "SLC," "0,1" newline bitfld.quad 0x0 7. "UVS," "0,1" newline bitfld.quad 0x0 6. "PDS," "0,1" newline bitfld.quad 0x0 5. "VDM," "0,1" newline bitfld.quad 0x0 4. "PM," "0,1" newline bitfld.quad 0x0 3. "GPP," "0,1" newline bitfld.quad 0x0 2. "TE," "0,1" newline bitfld.quad 0x0 1. "TSP," "0,1" newline bitfld.quad 0x0 0. "ISP," "0,1" rgroup.quad 0x18++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_PRODUCT_ID,Reports the product ID" hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.word 0x0 16.--31. 1. "IMG_PRODUCT_ID,IMG Product ID" newline hexmask.quad.word 0x0 0.--15. 1. "RESERVED_0," line.quad 0x8 "CORE_MMRS_RGX_CR_CORE_ID,Reports the product ID" hexmask.quad.word 0x8 48.--63. 1. "BRANCH_ID,B - Branch ID" newline hexmask.quad.word 0x8 32.--47. 1. "VERSION_ID,V - Version ID" newline hexmask.quad.word 0x8 16.--31. 1. "NUMBER_OF_SCALABLE_UNITS,N - Number of scalable Units" newline hexmask.quad.word 0x8 0.--15. 1. "CONFIG_ID,C - Config ID" line.quad 0x10 "CORE_MMRS_RGX_CR_CORE_IP_INTEGRATOR_ID,Reports the product ID" hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x10 0.--31. 1. "VALUE,IP company ID/Designer" line.quad 0x18 "CORE_MMRS_RGX_CR_CORE_IP_CHANGELIST,Reports the version control ID" hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x18 0.--31. 1. "VALUE,Version control ID" group.quad 0x38++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_POWER_EVENT,Allows the firmware to request a power-up or power-down operation to an external (to Rogue) power-management controller" hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.byte 0x0 24.--31. 1. "GPU_MASK,One bit per GPU indicating which GPUs are considered for the power event." newline hexmask.quad.word 0x0 8.--23. 1. "DOMAIN,sets which power island is enabled for the current power event request; bit0:jones bit1-8:dusts bit9-12:blackpearls" newline hexmask.quad.byte 0x0 2.--7. 1. "RESERVED_2," newline bitfld.quad 0x0 1. "REQ,Set when a power event operation is requested" "0,1" newline bitfld.quad 0x0 0. "TYPE,The requested power event operation" "0,1" rgroup.quad 0x50++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_DUSTS_ENABLE,Controls how many Dual Unified Shading and Texturing Units (DUSTs) are enabled." hexmask.quad 0x0 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x0 0.--7. 1. "ENABLE,Dusts enabled" line.quad 0x8 "CORE_MMRS_RGX_CR_DUSTS_FUSE,Indicates how many of the available DUST modules are enabled on the Silicon." hexmask.quad 0x8 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x8 0.--7. 1. "ENABLE,Dusts enabled" group.quad 0x80++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_CLK_XTPLUS_CTRL,Core Module Clock Control Modes." hexmask.quad.long 0x0 36.--63. 1. "RESERVED_36," newline bitfld.quad 0x0 34.--35. "ASTC," "0,1,2,3" newline hexmask.quad 0x0 0.--33. 1. "RESERVED_0," rgroup.quad 0x88++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_CLK_XTPLUS_STATUS,Reports the current module clock status" hexmask.quad 0x0 10.--63. 1. "RESERVED_10," newline bitfld.quad 0x0 9. "IPF," "0,1" newline bitfld.quad 0x0 8. "COMPUTE," "0,1" newline bitfld.quad 0x0 7. "ASTC," "0,1" newline bitfld.quad 0x0 6. "PIXEL," "0,1" newline bitfld.quad 0x0 5. "VERTEX," "0,1" newline bitfld.quad 0x0 4. "RESERVED_4," "0,1" newline bitfld.quad 0x0 3. "PDS_SHARED," "0,1" newline bitfld.quad 0x0 2. "BIF_BLACKPEARL," "0,1" newline bitfld.quad 0x0 1. "USC_SHARED," "0,1" newline bitfld.quad 0x0 0. "GEOMETRY," "0,1" rgroup.quad 0xE0++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_SOC_TIMER_GRAY,This register contains the value of a 64-bit external gray coded timer." hexmask.quad 0x0 0.--63. 1. "VALUE," line.quad 0x8 "CORE_MMRS_RGX_CR_SOC_TIMER_BINARY,This register contains the value of a 64-bit external binary coded timer." hexmask.quad 0x8 0.--63. 1. "VALUE," group.quad 0x100++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_SOFT_RESET,Core soft reset control register." hexmask.quad.byte 0x0 60.--63. 1. "RESERVED_60," newline rbitfld.quad 0x0 59. "TILING_CORE," "0,1" newline rbitfld.quad 0x0 58. "TE3," "0,1" newline rbitfld.quad 0x0 57. "VCE," "0,1" newline rbitfld.quad 0x0 56. "VBS," "0,1" newline hexmask.quad.tbyte 0x0 35.--55. 1. "RESERVED_35," newline bitfld.quad 0x0 34. "MMU," "0,1" newline rbitfld.quad 0x0 33. "RESERVED_33," "0,1" newline bitfld.quad 0x0 32. "CPU,Includes MTS and META or MIPS" "0,1" newline bitfld.quad 0x0 31. "RASCAL_CORE,Note that the RASL_CORE bit affects logic related to the reading and writing of registers. This soft reset should therefore be used with caution. Upon power down events it is necessary.." "0,1" newline bitfld.quad 0x0 30. "DUST_B_CORE," "0,1" newline bitfld.quad 0x0 29. "DUST_A_CORE," "0,1" newline rbitfld.quad 0x0 28. "RESERVED_28," "0,1" newline bitfld.quad 0x0 27. "SLC," "0,1" newline rbitfld.quad 0x0 26. "RESERVED_26," "0,1" newline bitfld.quad 0x0 25. "UVS," "0,1" newline bitfld.quad 0x0 24. "TE," "0,1" newline bitfld.quad 0x0 23. "GPP," "0,1" newline rbitfld.quad 0x0 21.--22. "RESERVED_21," "0,1,2,3" newline bitfld.quad 0x0 20. "PM," "0,1" newline bitfld.quad 0x0 19. "PBE," "0,1" newline bitfld.quad 0x0 18. "USC_SHARED," "0,1" newline bitfld.quad 0x0 17. "MCU_L1," "0,1" newline bitfld.quad 0x0 16. "BIF,Bifpmcache BIF" "0,1" newline bitfld.quad 0x0 15. "CDM," "0,1" newline bitfld.quad 0x0 14. "VDM," "0,1" newline rbitfld.quad 0x0 13. "RESERVED_13," "0,1" newline bitfld.quad 0x0 12. "PDS," "0,1" newline bitfld.quad 0x0 11. "ISP," "0,1" newline bitfld.quad 0x0 10. "TSP," "0,1" newline hexmask.quad.byte 0x0 6.--9. 1. "RESERVED_6," newline bitfld.quad 0x0 5. "SYSARB," "0,1" newline bitfld.quad 0x0 4. "TPU_MCU_DEMUX," "0,1" newline bitfld.quad 0x0 3. "MCU_L0," "0,1" newline bitfld.quad 0x0 2. "TPU," "0,1" newline rbitfld.quad 0x0 1. "RESERVED_1," "0,1" newline bitfld.quad 0x0 0. "USC," "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_SOFT_RESET2,Core soft reset control register." hexmask.quad 0x8 11.--63. 1. "RESERVED_11," newline bitfld.quad 0x8 10. "ASTC," "0,1" newline rbitfld.quad 0x8 9. "BLACKPEARL," "0,1" newline rbitfld.quad 0x8 8. "RESERVED_8," "0,1" newline rbitfld.quad 0x8 7. "IPF," "0,1" newline rbitfld.quad 0x8 6. "GEOMETRY," "0,1" newline rbitfld.quad 0x8 5. "USC_SHARED," "0,1" newline rbitfld.quad 0x8 4. "PDS_SHARED," "0,1" newline rbitfld.quad 0x8 3. "BIF_BLACKPEARL," "0,1" newline rbitfld.quad 0x8 2. "PIXEL," "0,1" newline rbitfld.quad 0x8 1. "RESERVED_1," "0,1" newline rbitfld.quad 0x8 0. "VERTEX," "0,1" group.quad 0x120++0x2F line.quad 0x0 "CORE_MMRS_RGX_CR_CONTEXT_SWITCH_ENABLE,The use of the this register has been deprecated." hexmask.quad 0x0 4.--63. 1. "RESERVED_4," newline bitfld.quad 0x0 3. "SOFT_RESET," "0,1" newline bitfld.quad 0x0 2. "IPF," "0,1" newline bitfld.quad 0x0 1. "VDM," "0,1" newline bitfld.quad 0x0 0. "CDM," "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_EVENT_ENABLE,This register is used to enable GPU interrupts directly to the host" hexmask.quad 0x8 21.--63. 1. "RESERVED_21," newline bitfld.quad 0x8 20. "SAFETY,Indicates an interrupt event from an active safety feature has been received" "0,1" newline bitfld.quad 0x8 19. "SLAVE_REQ,Indicates an interrupt event from a target has been received." "0,1" newline rbitfld.quad 0x8 16.--18. "RESERVED_16," "0,1,2,3,4,5,6,7" newline bitfld.quad 0x8 15. "USC_TRIGGER,One or more USC has executed a nop.trigger instruction" "0,1" newline bitfld.quad 0x8 14. "ZLS_FINISHED,ZLS has finished all tiles in a Render" "0,1" newline bitfld.quad 0x8 13. "GPIO_ACK,General Purpose ouput acknowledgement" "0,1" newline bitfld.quad 0x8 12. "GPIO_REQ,General Purpose input request" "0,1" newline bitfld.quad 0x8 11. "POWER_ABORT,The requested power operation has been denied." "0,1" newline bitfld.quad 0x8 10. "POWER_COMPLETE,The requested power operation has completed" "0,1" newline bitfld.quad 0x8 9. "MMU_PAGE_FAULT,An MMU page fault has occurred" "0,1" newline bitfld.quad 0x8 8. "PM_3D_MEM_FREE,PM memory allocation completed for the current render" "0,1" newline bitfld.quad 0x8 7. "PM_OUT_OF_MEMORY,PM memory allocation failed for a macro-tile" "0,1" newline bitfld.quad 0x8 6. "TA_TERMINATE,The TE has aborted a macro tile after a failted PM allocation request" "0,1" newline bitfld.quad 0x8 5. "TA_FINISHED,The TA phase has completed" "0,1" newline bitfld.quad 0x8 4. "ISP_END_MACROTILE,ISP End-of-Macrotile" "0,1" newline bitfld.quad 0x8 3. "PIXELBE_END_RENDER,The 3D phase has completed" "0,1" newline bitfld.quad 0x8 2. "COMPUTE_FINISHED,The compute phase has completed" "0,1" newline bitfld.quad 0x8 1. "KERNEL_FINISHED,A compute kernel has completed and updated the associated event object in external memory" "0,1" newline rbitfld.quad 0x8 0. "RESERVED_0," "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_EVENT_STATUS,The event status register indicate the source of an interrupt generated by PowerVR RGX" hexmask.quad 0x10 21.--63. 1. "RESERVED_21," newline bitfld.quad 0x10 20. "SAFETY,Indicates an interrupt event from an active safety feature has been received" "0,1" newline bitfld.quad 0x10 19. "SLAVE_REQ,Indicates an interrupt event from a target has been received." "0,1" newline rbitfld.quad 0x10 16.--18. "RESERVED_16," "0,1,2,3,4,5,6,7" newline bitfld.quad 0x10 15. "USC_TRIGGER,One or more USC has executed a nop.trigger instruction" "0,1" newline bitfld.quad 0x10 14. "ZLS_FINISHED,ZLS has finished all tiles in a Render" "0,1" newline bitfld.quad 0x10 13. "GPIO_ACK,General Purpose ouput acknowledgement" "0,1" newline bitfld.quad 0x10 12. "GPIO_REQ,General Purpose input request" "0,1" newline bitfld.quad 0x10 11. "POWER_ABORT,The requested power operation has been denied." "0,1" newline bitfld.quad 0x10 10. "POWER_COMPLETE,The requested power operation has completed" "0,1" newline bitfld.quad 0x10 9. "MMU_PAGE_FAULT,An MMU page fault has occurred" "0,1" newline bitfld.quad 0x10 8. "PM_3D_MEM_FREE,PM memory allocation completed for the current render" "0,1" newline bitfld.quad 0x10 7. "PM_OUT_OF_MEMORY,PM memory allocation failed for a macro-tile" "0,1" newline bitfld.quad 0x10 6. "TA_TERMINATE,The TE has aborted a macro tile after a failted PM allocation request" "0,1" newline bitfld.quad 0x10 5. "TA_FINISHED,The TA phase has completed" "0,1" newline bitfld.quad 0x10 4. "ISP_END_MACROTILE,ISP End-of-Macrotile" "0,1" newline bitfld.quad 0x10 3. "PIXELBE_END_RENDER,The 3D phase has completed" "0,1" newline bitfld.quad 0x10 2. "COMPUTE_FINISHED,The compute phase has completed" "0,1" newline bitfld.quad 0x10 1. "KERNEL_FINISHED,A compute kernel has completed and updated the associated event object in external memory" "0,1" newline rbitfld.quad 0x10 0. "RESERVED_0," "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_EVENT_CLEAR,This register is used to clear event interrupts." hexmask.quad 0x18 21.--63. 1. "RESERVED_21," newline bitfld.quad 0x18 20. "SAFETY,Indicates an interrupt event from an active safety feature has been received" "0,1" newline bitfld.quad 0x18 19. "SLAVE_REQ,Indicates an interrupt event from a target has been received." "0,1" newline rbitfld.quad 0x18 16.--18. "RESERVED_16," "0,1,2,3,4,5,6,7" newline bitfld.quad 0x18 15. "USC_TRIGGER,One or more USC has executed a nop.trigger instruction" "0,1" newline bitfld.quad 0x18 14. "ZLS_FINISHED,ZLS has finished all tiles in a Render" "0,1" newline bitfld.quad 0x18 13. "GPIO_ACK,General Purpose ouput acknowledgement" "0,1" newline bitfld.quad 0x18 12. "GPIO_REQ,General Purpose input request" "0,1" newline bitfld.quad 0x18 11. "POWER_ABORT,The requested power operation has been denied." "0,1" newline bitfld.quad 0x18 10. "POWER_COMPLETE,The requested power operation has completed" "0,1" newline bitfld.quad 0x18 9. "MMU_PAGE_FAULT,An MMU page fault has occurred" "0,1" newline bitfld.quad 0x18 8. "PM_3D_MEM_FREE,PM memory allocation completed for the current render" "0,1" newline bitfld.quad 0x18 7. "PM_OUT_OF_MEMORY,PM memory allocation failed for a macro-tile" "0,1" newline bitfld.quad 0x18 6. "TA_TERMINATE,The TE has aborted a macro tile after a failted PM allocation request" "0,1" newline bitfld.quad 0x18 5. "TA_FINISHED,The TA phase has completed" "0,1" newline bitfld.quad 0x18 4. "ISP_END_MACROTILE,ISP End-of-Macrotile" "0,1" newline bitfld.quad 0x18 3. "PIXELBE_END_RENDER,The 3D phase has completed" "0,1" newline bitfld.quad 0x18 2. "COMPUTE_FINISHED,The compute phase has completed" "0,1" newline bitfld.quad 0x18 1. "KERNEL_FINISHED,A compute kernel has completed and updated the associated event object in external memory" "0,1" newline rbitfld.quad 0x18 0. "RESERVED_0," "0,1" line.quad 0x20 "CORE_MMRS_RGX_CR_GPIO_OUTPUT_DATA,General Purpose Input/Output interface for implementing communication protocol between HW external to Rogue and the firmware" hexmask.quad 0x20 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x20 0.--7. 1. "DATA,The data the firmware wants to transfer" line.quad 0x28 "CORE_MMRS_RGX_CR_GPIO_OUTPUT_REQ,General Purpose Input/Output interface for implementing communication protocol between HW external to Rogue and the firmware" hexmask.quad 0x28 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x28 0. "REQ,Set when the firmware wants to communicate with a external HW" "0,1" rgroup.quad 0x150++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_GPIO_INPUT_DATA,General Purpose Input/Output interface for implementing communication protocol between HW external to Rogue and the firmware" hexmask.quad 0x0 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x0 0.--7. 1. "DATA,The incoming data from HW external to Rogue" group.quad 0x158++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_GPIO_INPUT_ACK,General Purpose Input/Output interface for implementing communication protocol between HW external to Rogue and the firmware" hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "ACK,Set by the firmware when it has acknowledged the incoming request" "0,1" rgroup.quad 0x160++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_TIMER,This register contains the value of a 48-bit internal timer." bitfld.quad 0x0 63. "BIT31," "0,1" newline hexmask.quad.word 0x0 48.--62. 1. "RESERVED_48," newline hexmask.quad 0x0 0.--47. 1. "VALUE," group.quad 0x168++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_AXI_EXACCESS,AXI exclusive access enable register" hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "SOCIF_ENABLE,enable the exclusive access logic in the socif img_axi2img. vhd module" "0,1" group.quad 0x190++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_TASK_MLIST_LOAD,This register is part of the parameter management. which controls the allocation and de-allocation of memory for the 3D display list (parameters)." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "PENDING,A write to this register will cause the MLIST pointer to be loaded from either PM_MLIST0_START_OF or PM_MLIST1_START_OF depending upon the Context ID contained in PM_CONTEXT_ID_MLS_LS." "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_TASK_MLIST_CLEAR,This register is part of the parameter management. which controls the allocation and de-allocation of memory for the 3D display list (parameters)." hexmask.quad 0x8 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x8 0. "PENDING,A write to this register will cause the MLIST pointer to be reset to 0. A read to this register return '1' until this operation has completed." "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_PM_TA_MAX_RENDER_TARGET,This register is deprecated and has no function." hexmask.quad 0x10 11.--63. 1. "RESERVED_11," newline hexmask.quad.word 0x10 0.--10. 1. "ID,If used the software should program this with the maximum render target array index used within the Scene" rgroup.quad 0x1A8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_MTILE_ARRAY_REORDER_VALID_STATUS,This register is deprecated and has no function." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "OP," "0,1" group.quad 0x1B0++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_PM_EMPTY_PAGE_FAST_FREEING,This register is part of the parameter management. which controls the allocation and de-allocation of memory for the 3D display list (parameters)." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "ID,When set enable freeing of unused pages during TA phase" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_MMU_REMAP_PENDING,This register is part of the parameter management. which controls the allocation and de-allocation of memory for the 3D display list (parameters)." hexmask.quad 0x8 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x8 0. "OP,Pending status register corresponding to the MMU remapping operation it will become '1' when written and deassert when the operation complete." "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_PM_PBE_FORCE_FREEING,This register is part of the parameter management. which controls the allocation and de-allocation of memory for the 3D display list (parameters)." hexmask.quad 0x10 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x10 0. "ENABLE,When this bit is set PM will free all the 3D context Memory when a genuine pixelbe end of render is received." "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_PM_PDS_STARTOF_MTILEFREE," hexmask.quad 0x18 17.--63. 1. "RESERVED_17," newline hexmask.quad.tbyte 0x18 0.--16. 1. "OP,This startof register indicates the macrotile number of the PDSs current macrotile free request needs to be programmed by FW on a render start" group.quad 0x200++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_TASK_3D_FREE_LOAD," hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "PENDING,A write into this register will cause the 3D free list context to be loaded from the relevant configuration registers" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_TASK_TA_FREE_LOAD," hexmask.quad 0x8 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x8 0. "PENDING,A write into this register will cause the TA free list context to be loaded from the relevant configuration registers" "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_PM_TA_FSTACK_BASE,Effective on load TA context. this register defines the base address of the free list stack being referenced during TA processing." hexmask.quad.tbyte 0x10 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x10 4.--39. 1. "ADDR,1TB Addressable 128 bits aligned Base Address for TA context page tables in the DPM module" newline hexmask.quad.byte 0x10 0.--3. 1. "RESERVED_0," line.quad 0x18 "CORE_MMRS_RGX_CR_PM_3D_FSTACK_BASE,Effective on load 3D context. this register defines the base address of the free list table being referenced in the process of de-allocating pages during a 3D render." hexmask.quad.tbyte 0x18 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x18 4.--39. 1. "ADDR,1TB Addressable 128 bits aligned Base Address for 3D context page tables in the DPM module" newline hexmask.quad.byte 0x18 0.--3. 1. "RESERVED_0," line.quad 0x20 "CORE_MMRS_RGX_CR_PM_TA_FSTACK,Note: each 16GB 4KB addressable page (22 bits) is rounded to dword aligned" hexmask.quad.word 0x20 54.--63. 1. "RESERVED_54," newline hexmask.quad.tbyte 0x20 32.--53. 1. "STARTOF_TOP,This register defines the head pointer of the free list in terms of 4K free pages in the free list stack effective on a load TA context." newline hexmask.quad.word 0x20 22.--31. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x20 0.--21. 1. "SIZE,This register defines the number of 4K pages in the free list stack used for the TA page allocation effective on a load TA context." group.quad 0x230++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_3D_FSTACK,Note: each 16GB 4KB addressable page (22 bits) is rounded to dword aligned" hexmask.quad.tbyte 0x0 44.--63. 1. "RESERVED_44," newline hexmask.quad.tbyte 0x0 22.--43. 1. "STARTOF_TOP,This register defines the head pointer of the free list in terms of 4K free pages in the free list stack effective on a load TA context." newline hexmask.quad.tbyte 0x0 0.--21. 1. "SIZE,This register defines the number of 4K pages in the free list stack used for the TA page allocation effective on a load TA context." group.quad 0x240++0x2F line.quad 0x0 "CORE_MMRS_RGX_CR_PM_MTILE_ARRAY,Effective Immediately." hexmask.quad.tbyte 0x0 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x0 4.--39. 1. "BASE_ADDR,1TB Addressable 128 bits aligned Base Address for Mtile Array Base" newline hexmask.quad.byte 0x0 0.--3. 1. "RESERVED_0," line.quad 0x8 "CORE_MMRS_RGX_CR_PM_VHEAP_TABLE,Effective immediately. this register defines the base address of the virtual heap table information." hexmask.quad.tbyte 0x8 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x8 4.--39. 1. "BASE_ADDR,1TB Addressable 128 bits aligned Base Address for Virtual Heap Table" newline hexmask.quad.byte 0x8 0.--3. 1. "RESERVED_0," line.quad 0x10 "CORE_MMRS_RGX_CR_PM_TASK_VHEAP_LOAD," hexmask.quad 0x10 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x10 0. "PENDING,Causes the vheap to be loaded as specified by the relevant configuration registers when it is done the hw will clear this bit" "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_PM_TASK_VHEAP_CLEAR," hexmask.quad 0x18 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x18 0. "PENDING,Causes the vheap to be cleared as specified by the relevant configuration registers. When it is done the hw will clear this bit" "0,1" line.quad 0x20 "CORE_MMRS_RGX_CR_PM_TASK_VHEAP_STORE," hexmask.quad 0x20 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x20 0. "PENDING,Causes the vheap to be stored as specified by the relevant configuration registers. When it is done the hw will clear this bit" "0,1" line.quad 0x28 "CORE_MMRS_RGX_CR_PM_ALIST0_START_OF,start pointer of the allocation list tail.in size of 8 bytes" hexmask.quad.long 0x28 33.--63. 1. "RESERVED_33," newline hexmask.quad 0x28 0.--32. 1. "TAIL,allocation List 0 tail pointer" rgroup.quad 0x270++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_ALIST0_STATUS,pointer of current allocation list.in size of 8 bytes" hexmask.quad.long 0x0 33.--63. 1. "RESERVED_33," newline hexmask.quad 0x0 0.--32. 1. "TAIL,allocation List tail pointer" group.quad 0x278++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_ALIST1_START_OF,start of the tail pointer of current allocation list.effecitve on an allocation_list_load" hexmask.quad.long 0x0 33.--63. 1. "RESERVED_33," newline hexmask.quad 0x0 0.--32. 1. "TAIL,start of the allocation list tail pointer" rgroup.quad 0x280++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_ALIST1_STATUS,pointer of current allocation list.in size of 8 bytes" hexmask.quad.long 0x0 33.--63. 1. "RESERVED_33," newline hexmask.quad 0x0 0.--32. 1. "TAIL,allocation List tail pointer" group.quad 0x288++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_PM_TASK_ALIST_LOAD," hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "PENDING,the write to this register will cause allocation list to be loaded from the relevant configuration registers" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_TASK_ALIST_CLEAR," hexmask.quad 0x8 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x8 0. "PENDING,the write to this register will causes the allocation list to be cleard from the relevant configuration registers" "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_PM_DEALLOCATION_STARTOF_MASK," hexmask.quad 0x10 16.--63. 1. "RESERVED_16," newline hexmask.quad.word 0x10 0.--15. 1. "OP,This is the start of the mask PM deallocation will be based on. Normally it is 0. However in ISP context resume or extra 3D timeout case the driver has to.." line.quad 0x18 "CORE_MMRS_RGX_CR_PM_PAGE_MANAGEOP," hexmask.quad 0x18 3.--63. 1. "RESERVED_3," newline bitfld.quad 0x18 2. "COMBINE_DALLOC,1 means the PM writes to the free stack will be burst combined" "0,1" newline bitfld.quad 0x18 1. "DISABLE_DALLOC,1 means the PM page management deallocation operation will be disabled" "0,1" newline bitfld.quad 0x18 0. "DISABLE_ALLOC,1 means the PM page management allocation operation will be disabled" "0,1" rgroup.quad 0x2A8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_PAGE_MANAGEOP_STATUS," hexmask.quad 0x0 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x0 1. "DALLOC_DISABLED,1 means the PM page management operation has been disabled" "0,1" newline bitfld.quad 0x0 0. "ALLOC_DISABLED,1 means the PM page management operation has been disabled" "0,1" group.quad 0x2B0++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_PM_CONTEXT_PB_BASE," hexmask.quad 0x0 3.--63. 1. "RESERVED_3," newline bitfld.quad 0x0 0.--2. "CMP,Defines whether the TA/3D/HOST contexts are using the same parameter buffer. Setting a bit to '1' indicates that the context is using a different parameter buffer." "0: MMU Free List 3D context Parameter buffer = MMU..,?,?,?,?,?,?,?" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_MLIST0_START_OF,start value of the mlist tail @ the loading of the context." hexmask.quad 0x8 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x8 0.--21. 1. "TAIL,allocation List 0 tail pointer" rgroup.quad 0x2C0++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_MLIST0_STATUS,pointer of current mmu allocation list.in size of 4 bytes." hexmask.quad 0x0 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x0 0.--21. 1. "TAIL,allocation List 1 tail pointer" group.quad 0x2C8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_MLIST1_START_OF,start of the tail pointer of mmu allocation list.effecitve on an allocation_list_load" hexmask.quad 0x0 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x0 0.--21. 1. "TAIL,start of the allocation list 1 tail pointer" rgroup.quad 0x2D0++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_MLIST1_STATUS,pointer of mmu allocation list1 pointer.in size of 4 bytes" hexmask.quad 0x0 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x0 0.--21. 1. "TAIL,mmu allocation List 1 tail pointer" group.quad 0x2D8++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_PM_MLIST0_BASE,This register defines the base address of the mmu list 0 for the mmu pages." hexmask.quad.tbyte 0x0 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x0 4.--39. 1. "ADDR,1TB Addressable 128 bits aligned Base Address for mmu list0 module Effective Immediately" newline hexmask.quad.byte 0x0 0.--3. 1. "RESERVED_0," line.quad 0x8 "CORE_MMRS_RGX_CR_PM_MLIST1_BASE,This register defines the base address of the mmu list 1 for the mmu pages." hexmask.quad.tbyte 0x8 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x8 4.--39. 1. "ADDR,1TB Addressable 128 bits aligned Base Address for mmu list1 module Effective Immediately" newline hexmask.quad.byte 0x8 0.--3. 1. "RESERVED_0," rgroup.quad 0x2F8++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_VCE_VTOP_STATUS," hexmask.quad 0x0 21.--63. 1. "RESERVED_21," newline hexmask.quad.tbyte 0x0 0.--20. 1. "OP,Virtual Page Pointer for the VCE 8KB granularity" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_TE_VTOP_STATUS," hexmask.quad 0x8 21.--63. 1. "RESERVED_21," newline hexmask.quad.tbyte 0x8 0.--20. 1. "OP,Virtual Page Pointer for the TE 8KB granularity" line.quad 0x10 "CORE_MMRS_RGX_CR_PM_OUTOF_MEM_SRC," hexmask.quad 0x10 3.--63. 1. "RESERVED_3," newline bitfld.quad 0x10 0.--2. "OP,one hot encoding indicating which part of resource runs out of memory bit 0: normal ta free list bit 1: unified ta free list bit 2: mmu free list" "0: normal ta free list,1: unified ta free list,2: mmu free list,?,?,?,?,?" line.quad 0x18 "CORE_MMRS_RGX_CR_PM_ALIST_VTOP_STATUS," hexmask.quad 0x18 21.--63. 1. "RESERVED_21," newline hexmask.quad.tbyte 0x18 0.--20. 1. "OP,Virtual Page Pointer for the allocation list 8KB granularity" line.quad 0x20 "CORE_MMRS_RGX_CR_PM_MMU_VTOP_STATUS," hexmask.quad 0x20 21.--63. 1. "RESERVED_21," newline hexmask.quad.tbyte 0x20 0.--20. 1. "OP,Virtual Page Pointer for the MMU 4KB granularity" group.quad 0x320++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_PM_OUTOFMEM_ABORTALL," hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "OP,Instruct the PM to Deny the TE allocation outstanding on Out Of Memory" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_OUTOFMEM_RESTART," hexmask.quad 0x8 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x8 0. "OP,Restart the PM after an Out of Memory and Abort sequence" "0,1" rgroup.quad 0x330++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_REQUESTING_SOURCE," hexmask.quad 0x0 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x0 0.--1. "OP,Requesting source when out of memory. Bit 1 : VCE Bit 0 : TE" "0: TE,1: VCE,?,?" group.quad 0x338++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_PM_PARTIAL_RENDER_ENABLE," hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "OP,Partial Render Enable Bit" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_3D_DEALLOCATE_SCANMODE," hexmask.quad 0x8 5.--63. 1. "RESERVED_5," newline hexmask.quad.byte 0x8 0.--4. 1. "OP,This register defines the deallocation behaviour of the PM: value > 2 is only for debug on ZLS mode 0 it can only set less than 2 0: PM will free the macrotile memory as soon as it is possible.." rgroup.quad 0x348++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_PM_TA_FSTACK_STATUS,Note: this is the pointer pointing to the TA free stack top." hexmask.quad 0x0 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x0 0.--21. 1. "TOP,This status register indicated the ta context free list pointer status." line.quad 0x8 "CORE_MMRS_RGX_CR_PM_3D_FSTACK_STATUS,Note: this is the pointer pointing to the 3D free stack top." hexmask.quad 0x8 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x8 0.--21. 1. "TOP,This status register indicated the 3D context free list status" group.quad 0x358++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_RESERVE_PAGES," hexmask.quad 0x0 16.--63. 1. "RESERVED_16," newline hexmask.quad.word 0x0 0.--15. 1. "OP,This register defines the guard page required for one VCE/TE allocation. The requirement is set by the number of ppages needed to create the ALIST nodes when a vpage is closed." rgroup.quad 0x360++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_DEALLOCATED_MASK_STATUS," hexmask.quad 0x0 16.--63. 1. "RESERVED_16," newline hexmask.quad.word 0x0 0.--15. 1. "TOP,This status register contains a bitmask of the macrotiles freed at this point in the render" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_DEALLOCATING_MASK_STATUS," hexmask.quad 0x8 16.--63. 1. "RESERVED_16," newline hexmask.quad.word 0x8 0.--15. 1. "TOP,This status register indicates the mtile mask being freed at the current traverse" line.quad 0x10 "CORE_MMRS_RGX_CR_PM_PDS_MTILEFREE_STATUS," hexmask.quad 0x10 17.--63. 1. "RESERVED_17," newline hexmask.quad.tbyte 0x10 0.--16. 1. "OP,This status register indicates the macrotile number of the PDSs current macrotile free request" group.quad 0x378++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_TA_FREE_CONTEXT," hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "PENDING,free the ta context register operation" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_3D_TIMEOUT_NOW," hexmask.quad 0x8 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x8 0. "OP,free the 3D context" "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_PM_3D_DEALLOCATE_ENABLE," hexmask.quad 0x10 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x10 0. "OP,3D deallocate enable mode" "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_PM_START_OF_TACONTEXT," hexmask.quad.word 0x18 54.--63. 1. "RESERVED_54," newline hexmask.quad.tbyte 0x18 32.--53. 1. "ALLOCATED_MMUPAGE,Start of TA MMU pages[4KB] on loading of the TA context" newline hexmask.quad.word 0x18 22.--31. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x18 0.--21. 1. "ALLOCATED_PAGE,Start of TA pages[4KB] on loading of the TA context" line.quad 0x20 "CORE_MMRS_RGX_CR_PM_START_OF_3DCONTEXT," hexmask.quad.word 0x20 54.--63. 1. "RESERVED_54," newline hexmask.quad.tbyte 0x20 32.--53. 1. "ALLOCATED_MMUPAGE,Start of 3D MMU pages[4KB] on loading of the TA context" newline hexmask.quad.word 0x20 22.--31. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x20 0.--21. 1. "ALLOCATED_PAGE,Start of 3D pages[4KB] on loading of the TA context" rgroup.quad 0x3A0++0x2F line.quad 0x0 "CORE_MMRS_RGX_CR_PM_TA_PAGE_STATUS," hexmask.quad 0x0 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x0 0.--21. 1. "OP,The number of TA pages currently allocated" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_3D_PAGE_STATUS," hexmask.quad 0x8 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x8 0.--21. 1. "OP,The number of 3D pages currently allocated" line.quad 0x10 "CORE_MMRS_RGX_CR_PM_VCE_INFLIGHT_STATUS," hexmask.quad 0x10 21.--63. 1. "RESERVED_21," newline hexmask.quad.tbyte 0x10 0.--20. 1. "OP,The Virtual Page Number in flight in the VCE Requestor" line.quad 0x18 "CORE_MMRS_RGX_CR_PM_TE_INFLIGHT_STATUS," hexmask.quad 0x18 21.--63. 1. "RESERVED_21," newline hexmask.quad.tbyte 0x18 0.--20. 1. "OP,The Virtual Page Number in flight in the TE Requestor" line.quad 0x20 "CORE_MMRS_RGX_CR_BIFPM_IDLE," hexmask.quad 0x20 7.--63. 1. "RESERVED_7," newline bitfld.quad 0x20 6. "MCU_L0_MEMIF,MCU L0 MEMIF Module IDLE" "0,1" newline bitfld.quad 0x20 5. "PBE,PBE Module IDLE" "0,1" newline bitfld.quad 0x20 4. "MCU_L0_PDSRW,MCU L0 PDSRW Module IDLE" "0,1" newline bitfld.quad 0x20 3. "MCU_L1,MCU L1 Module IDLE" "0,1" newline bitfld.quad 0x20 2. "USCS,USC Shared Module IDLE" "0,1" newline bitfld.quad 0x20 1. "PM,PM Module IDLE" "0,1" newline bitfld.quad 0x20 0. "BIF256,BIF256 Module IDLE" "0,1" line.quad 0x28 "CORE_MMRS_RGX_CR_SIDEKICK_IDLE," hexmask.quad 0x28 7.--63. 1. "RESERVED_7," newline bitfld.quad 0x28 6. "FB_CDC,FB CDC Module IDLE" "0,1" newline bitfld.quad 0x28 5. "MMU,MMU Module IDLE" "0,1" newline bitfld.quad 0x28 4. "BIF128,BIF128 Module IDLE" "0,1" newline bitfld.quad 0x28 3. "TLA,TLA Module IDLE" "0,1" newline bitfld.quad 0x28 2. "GARTEN,GARTEN Module IDLE" "0,1" newline bitfld.quad 0x28 1. "HOSTIF,HOSTIF Module IDLE" "0,1" newline bitfld.quad 0x28 0. "SOCIF,SOCIF Module IDLE" "0,1" group.quad 0x3D0++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_CONTEXT_ID," hexmask.quad.tbyte 0x0 41.--63. 1. "RESERVED_41," newline bitfld.quad 0x0 40. "MLIS_LS,MMU page List [TE VCE aligned with this context ]Load Store Context ID" "0,1" newline hexmask.quad.byte 0x0 33.--39. 1. "RESERVED_33," newline bitfld.quad 0x0 32. "MLIS_DALLOC,MMU page List [TE VCE aligned with this context ]DeAllocation Context ID" "0,1" newline hexmask.quad.byte 0x0 25.--31. 1. "RESERVED_25," newline bitfld.quad 0x0 24. "MLIS_ALLOC,MMU page List [TE VCE aligned with this context ]Allocation Context ID" "0,1" newline hexmask.quad.byte 0x0 17.--23. 1. "RESERVED_17," newline bitfld.quad 0x0 16. "LS,Load Store Context ID for the allocation list" "0,1" newline hexmask.quad.byte 0x0 9.--15. 1. "RESERVED_9," newline bitfld.quad 0x0 8. "DALLOC,DeAllocation Context ID for the allocation list" "0,1" newline hexmask.quad.byte 0x0 1.--7. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "ALLOC,Allocation Context ID for the allocation list" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_3D_RENDER_TARGET_INDEX," hexmask.quad 0x8 11.--63. 1. "RESERVED_11," newline hexmask.quad.word 0x8 0.--10. 1. "ID,Render Target ID which is being rendered" line.quad 0x10 "CORE_MMRS_RGX_CR_PM_3D_RENDER_TARGET_LAST," hexmask.quad 0x10 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x10 0. "ID,If this bit is set this means the render will be the last one in the whole render target array. If no multiple render target array is present this bit always needs set" "0,1" rgroup.quad 0x3E8++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_LOCK_STATUS," hexmask.quad 0x0 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x0 1. "TD,Bit 1: 3D free list Lock Status. 0 idle/ 1 used" "?,1: 3D free list Lock Status" newline bitfld.quad 0x0 0. "TA,Bit 0: TA free list Lock Status. 0 idle/ 1 used." "0: TA free list Lock Status,?" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_LOCK_OWNER," hexmask.quad 0x8 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x8 1. "TD,Bit 1 :3D free list Lock owner. 0 PMA / 1 PMD" "?,1: 3D free list Lock owner" newline bitfld.quad 0x8 0. "TA,Bit 0: TA free list Lock Owner. 0 PMA / 1 PMD." "0: TA free list Lock Owner,?" line.quad 0x10 "CORE_MMRS_RGX_CR_PM_IDLE_STATUS," hexmask.quad 0x10 8.--63. 1. "RESERVED_8," newline bitfld.quad 0x10 7. "PMD_BIF,Idle Status Register of the PMD module bif state machine" "0,1" newline bitfld.quad 0x10 6. "PMD_FRE,Idle Status Register of the PMD module master state machine" "0,1" newline bitfld.quad 0x10 5. "BIF,Idle Status Register of the BIF Interface default" "0,1" newline bitfld.quad 0x10 4. "BARB,Idle Status Register of the BIF Arbiter state BAR" "0,1" newline bitfld.quad 0x10 3. "AMAN,Idle Status Register of the Alist state machine" "0,1" newline bitfld.quad 0x10 2. "STA,Idle Status Register of the Stack Manager Modul" "0,1" newline bitfld.quad 0x10 1. "PMD,Idle Status Register of the PMD module" "0,1" newline bitfld.quad 0x10 0. "PMA,Idle Status Register of the PMA module" "0,1" group.quad 0x400++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_VDM_START,A write of '1' to this register starts the Vertex Data Master (TA) Reading the control stream pointed to by VDM_CTRL_STREAM_BASE" hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "PULSE,Start VDM" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_VDM_CTRL_STREAM_BASE,The base address of the Vertex Data Master's Input Parameter Control Stream in external memory" hexmask.quad.tbyte 0x8 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x8 2.--39. 1. "ADDR,1TB range 32-bit aligned base address" newline rbitfld.quad 0x8 0.--1. "RESERVED_0," "0,1,2,3" rgroup.quad 0x410++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_VDM_CTRL_STREAM_CURRENT,This status register reports the current position in the input parameter format of the data being processed." hexmask.quad.tbyte 0x0 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x0 2.--39. 1. "ADDR,1TB range 32-bit aligned address" newline bitfld.quad 0x0 0.--1. "RESERVED_0," "0,1,2,3" group.quad 0x418++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_VDM_CALL_STACK_POINTER,The pointer to the control stream call stack." hexmask.quad.tbyte 0x0 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x0 3.--39. 1. "ADDR,1TB range 64-bit aligned base address" newline rbitfld.quad 0x0 0.--2. "RESERVED_0," "0,1,2,3,4,5,6,7" line.quad 0x8 "CORE_MMRS_RGX_CR_VDM_BATCH,The Batch number is a index list block (draw call) ID which is passed through the GPU pipeline." hexmask.quad 0x8 14.--63. 1. "RESERVED_14," newline hexmask.quad.word 0x8 0.--13. 1. "NUMBER," line.quad 0x10 "CORE_MMRS_RGX_CR_VDM_CONTEXT_STATE_BASE,The base address in external memory of the VDM's context state buffer." hexmask.quad.tbyte 0x10 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x10 4.--39. 1. "ADDR,1TB range 128-bit aligned base address" newline hexmask.quad.byte 0x10 0.--3. 1. "RESERVED_0," rgroup.quad 0x430++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_VDM_CONTEXT_STORE_STATUS,This register indicates the status of a VDM context switch operation." hexmask.quad 0x0 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x0 4.--7. 1. "LAST_PIPE,The TA pipe number to which the VDM last sent indices" newline bitfld.quad 0x0 2.--3. "RESERVED_2," "0,1,2,3" newline bitfld.quad 0x0 1. "NEED_RESUME,The VDM still has control stream left to process meaning this context must be resumed" "0,1" newline bitfld.quad 0x0 0. "COMPLETE,The VDM has completed the context store operation and fenced its state to external memory" "0,1" group.quad 0x438++0x67 line.quad 0x0 "CORE_MMRS_RGX_CR_VDM_CONTEXT_STORE_TASK0,These words define the PDS State Update task which will be inserted into the VDM pipeline on a context store operation." hexmask.quad.long 0x0 32.--63. 1. "PDS_STATE1," newline hexmask.quad.long 0x0 0.--31. 1. "PDS_STATE0," line.quad 0x8 "CORE_MMRS_RGX_CR_VDM_CONTEXT_STORE_TASK1,This word defines the PDS State Update task which will be inserted into the VDM pipeline on a context store operation." hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "PDS_STATE2," line.quad 0x10 "CORE_MMRS_RGX_CR_VDM_CONTEXT_STORE_TASK2,These words defines the Stream Out Sync program which will be inserted into the VDM pipeline as a PPP State Update on a context store operation." hexmask.quad.long 0x10 32.--63. 1. "STREAM_OUT2," newline hexmask.quad.long 0x10 0.--31. 1. "STREAM_OUT1," line.quad 0x18 "CORE_MMRS_RGX_CR_VDM_CONTEXT_RESUME_TASK0,These words define the PDS State Update task which will be written by the VDM to its context resume control stream on a context store operation." hexmask.quad.long 0x18 32.--63. 1. "PDS_STATE1," newline hexmask.quad.long 0x18 0.--31. 1. "PDS_STATE0," line.quad 0x20 "CORE_MMRS_RGX_CR_VDM_CONTEXT_RESUME_TASK1,This word defines the PDS State Update task which will be written by the VDM to its context resume control stream on a context store operation." hexmask.quad.long 0x20 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x20 0.--31. 1. "PDS_STATE2," line.quad 0x28 "CORE_MMRS_RGX_CR_VDM_CONTEXT_RESUME_TASK2,These words defines the Stream Out Sync program which will be written." hexmask.quad.long 0x28 32.--63. 1. "STREAM_OUT2," newline hexmask.quad.long 0x28 0.--31. 1. "STREAM_OUT1," line.quad 0x30 "CORE_MMRS_RGX_CR_VDM_CONTEXT_STORE_START,Writing '1' to this register starts the VDM context store operation." hexmask.quad 0x30 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x30 0. "PULSE," "0,1" line.quad 0x38 "CORE_MMRS_RGX_CR_VDM_SYNC_PDS_DATA_BASE,The base address of the PDS data segment base for all TA state sync program" hexmask.quad.long 0x38 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x38 4.--31. 1. "ADDR," newline hexmask.quad.byte 0x38 0.--3. 1. "RESERVED_0," line.quad 0x40 "CORE_MMRS_RGX_CR_CDM_START,A write of '1' to this register starts the Compute Data Master reading it's control stream from memory." hexmask.quad 0x40 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x40 0. "PULSE,Start CDM" "0,1" line.quad 0x48 "CORE_MMRS_RGX_CR_CDM_CTRL_STREAM_BASE,The base address of the Compute Data Master's Input Parameter Control Stream in external memory" hexmask.quad.tbyte 0x48 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x48 2.--39. 1. "ADDR,1TB range 32-bit aligned base address" newline rbitfld.quad 0x48 0.--1. "RESERVED_0," "0,1,2,3" line.quad 0x50 "CORE_MMRS_RGX_CR_CDM_CONTEXT_STORE,Writing '1' to this register starts the CDM context store operation." hexmask.quad 0x50 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x50 0. "PULSE," "0,1" line.quad 0x58 "CORE_MMRS_RGX_CR_CDM_CONTEXT_LOAD,The firmware writes a '1' to this register starts the CDM context load operation." hexmask.quad 0x58 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x58 0. "PENDING," "0,1" line.quad 0x60 "CORE_MMRS_RGX_CR_CDM_CONTEXT_STATE_BASE,The base address in external memory of the CDM's context state buffer." hexmask.quad.tbyte 0x60 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x60 4.--39. 1. "ADDR,1TB range 128-bit aligned base address" newline hexmask.quad.byte 0x60 0.--3. 1. "RESERVED_0," rgroup.quad 0x4A0++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_CDM_CONTEXT_STORE_STATUS,This register indicates the status of a CDM context switch operation." hexmask.quad 0x0 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x0 1. "NEED_RESUME,The CDM still has control stream left to process meaning this context must be resumed" "0,1" newline bitfld.quad 0x0 0. "COMPLETE,The CDM has completed the context store operation and fenced its state to external memory" "0,1" group.quad 0x4A8++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_CDM_CONTEXT_PDS0,This register contains the PDS Code and Data Addresses for the Store/Load Program." hexmask.quad.long 0x0 36.--63. 1. "DATA_ADDR,PDS Data Address for Store/Load Program 128-bit aligned" newline hexmask.quad.byte 0x0 32.--35. 1. "RESERVED_32," newline hexmask.quad.long 0x0 4.--31. 1. "CODE_ADDR,PDS Code Address for Store/Load Program 128-bit aligned" newline hexmask.quad.byte 0x0 0.--3. 1. "RESERVED_0," line.quad 0x8 "CORE_MMRS_RGX_CR_CDM_CONTEXT_PDS1,This register contains the PDS Task Data necessary to produce the Store/Load PDS Program Task from CDM to PDS" hexmask.quad 0x8 30.--63. 1. "RESERVED_30," newline bitfld.quad 0x8 29. "PDS_SEQ_DEP,PDS Sequential Dependency" "0,1" newline bitfld.quad 0x8 28. "USC_SEQ_DEP,USC Sequential Dependency" "0,1" newline bitfld.quad 0x8 27. "TARGET,USC Target [0=All 1=Any]" "?,1: Any]" newline hexmask.quad.byte 0x8 21.--26. 1. "UNIFIED_SIZE,Unified Size" newline bitfld.quad 0x8 20. "COMMON_SHARED,PDS Common Store Allocation is Shared Registers" "0,1" newline hexmask.quad.word 0x8 11.--19. 1. "COMMON_SIZE,PDS Common Size" newline hexmask.quad.byte 0x8 7.--10. 1. "TEMP_SIZE,PDS Temp Size" newline hexmask.quad.byte 0x8 1.--6. 1. "DATA_SIZE,PDS Data Size" newline bitfld.quad 0x8 0. "FENCE,Fence the Task in the PDS/USC - Set on Store unset on Load" "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_CDM_TERMINATE_PDS,This register contains the PDS Code and Data Addresses for the Terminate Program." hexmask.quad.long 0x10 36.--63. 1. "DATA_ADDR,PDS Data Address for Terminate Program 128-bit aligned" newline hexmask.quad.byte 0x10 32.--35. 1. "RESERVED_32," newline hexmask.quad.long 0x10 4.--31. 1. "CODE_ADDR,PDS Code Address for Terminate Program 128-bit aligned" newline hexmask.quad.byte 0x10 0.--3. 1. "RESERVED_0," line.quad 0x18 "CORE_MMRS_RGX_CR_CDM_TERMINATE_PDS1,This register contains the PDS Task Data necessary to produce the Context Store Terminate PDS Program Task from CDM to PDS" hexmask.quad 0x18 30.--63. 1. "RESERVED_30," newline bitfld.quad 0x18 29. "PDS_SEQ_DEP,PDS Sequential Dependency" "0,1" newline bitfld.quad 0x18 28. "USC_SEQ_DEP,USC Sequential Dependency" "0,1" newline bitfld.quad 0x18 27. "TARGET,USC Target [0=All 1=Any]" "?,1: Any]" newline hexmask.quad.byte 0x18 21.--26. 1. "UNIFIED_SIZE,Unified Size" newline bitfld.quad 0x18 20. "COMMON_SHARED,PDS Common Store Allocation is Shared Registers" "0,1" newline hexmask.quad.word 0x18 11.--19. 1. "COMMON_SIZE,PDS Common Size" newline hexmask.quad.byte 0x18 7.--10. 1. "TEMP_SIZE,PDS Temp Size" newline hexmask.quad.byte 0x18 1.--6. 1. "DATA_SIZE,PDS Data Size" newline bitfld.quad 0x18 0. "FENCE,Fence the Task in the PDS/USC - Set on Store Terminate" "0,1" group.quad 0x4D8++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_CDM_CONTEXT_LOAD_PDS0,This register contains the PDS Code and Data Addresses for the Store/Load Program." hexmask.quad.long 0x0 36.--63. 1. "DATA_ADDR,PDS Data Address for Store/Load Program 128-bit aligned" newline hexmask.quad.byte 0x0 32.--35. 1. "RESERVED_32," newline hexmask.quad.long 0x0 4.--31. 1. "CODE_ADDR,PDS Code Address for Store/Load Program 128-bit aligned" newline hexmask.quad.byte 0x0 0.--3. 1. "RESERVED_0," line.quad 0x8 "CORE_MMRS_RGX_CR_CDM_CONTEXT_LOAD_PDS1,This register contains the PDS Task Data necessary to produce the Store/Load PDS Program Task from CDM to PDS" hexmask.quad 0x8 30.--63. 1. "RESERVED_30," newline bitfld.quad 0x8 29. "PDS_SEQ_DEP,PDS Sequential Dependency" "0,1" newline bitfld.quad 0x8 28. "USC_SEQ_DEP,USC Sequential Dependency" "0,1" newline bitfld.quad 0x8 27. "TARGET,USC Target [0=All 1=Any]" "?,1: Any]" newline hexmask.quad.byte 0x8 21.--26. 1. "UNIFIED_SIZE,Unified Size" newline bitfld.quad 0x8 20. "COMMON_SHARED,PDS Common Store Allocation is Shared Registers" "0,1" newline hexmask.quad.word 0x8 11.--19. 1. "COMMON_SIZE,PDS Common Size" newline hexmask.quad.byte 0x8 7.--10. 1. "TEMP_SIZE,PDS Temp Size" newline hexmask.quad.byte 0x8 1.--6. 1. "DATA_SIZE,PDS Data Size" newline bitfld.quad 0x8 0. "FENCE,Fence the Task in the PDS/USC - Set on Store unset on Load" "0,1" group.quad 0x600++0x67 line.quad 0x0 "CORE_MMRS_RGX_CR_PDS_CTRL,Controls the maximum number of tasks per data master (per USC)." hexmask.quad.byte 0x0 56.--63. 1. "RESERVED_56," newline bitfld.quad 0x0 55. "SM_OVERLAP_ENABLE,Enable per Data Master slot tracking within the PDS Slot Manager [SM] for improved performance while running overlapped" "0,1" newline hexmask.quad.tbyte 0x0 32.--54. 1. "RESERVED_32," newline hexmask.quad.byte 0x0 24.--31. 1. "MAX_NUM_CDM_TASKS,The maximum number of compute tasks allowed on each USC range 0 to 48" newline hexmask.quad.byte 0x0 16.--23. 1. "MAX_NUM_PDM_TASKS,The maximum number of pixel tasks allowed on each USC range 0 to 48" newline hexmask.quad.byte 0x0 8.--15. 1. "MAX_NUM_VDM_TASKS,The maximum number of vertex tasks [VS HS GS when Tess not enabled] allowed on each USC range 0 to 39 [Note reduced range to prevent Pixel/VDM system deadlock]" newline hexmask.quad.byte 0x0 0.--7. 1. "RESERVED_0," line.quad 0x8 "CORE_MMRS_RGX_CR_PDS_USC_COLLATOR,This register clear the internal resource tracking storage." hexmask.quad 0x8 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x8 0. "CLEAR,Clear PDS Unified Clusters Resource Collator" "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_PDS_EXEC_BASE,Base Address in memory where the PDS programs are located" hexmask.quad.tbyte 0x10 40.--63. 1. "RESERVED_40," newline hexmask.quad.tbyte 0x10 20.--39. 1. "ADDR,1TB addressable 1 MB aligned base address for PDS programs" newline hexmask.quad.tbyte 0x10 0.--19. 1. "RESERVED_0," line.quad 0x18 "CORE_MMRS_RGX_CR_EVENT_PIXEL_PDS_CODE," hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x18 4.--31. 1. "ADDR,PDS Execution Address for pixel tasks [Positioned as a byte address 128 bit granularity] 4 GB Range" newline hexmask.quad.byte 0x18 0.--3. 1. "RESERVED_0," line.quad 0x20 "CORE_MMRS_RGX_CR_EVENT_PIXEL_PDS_DATA," hexmask.quad.long 0x20 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x20 4.--31. 1. "ADDR,PDS Execution Address for pixel tasks [Positioned as a byte address 128 bit granularity] 4 GB Range" newline hexmask.quad.byte 0x20 0.--3. 1. "RESERVED_0," line.quad 0x28 "CORE_MMRS_RGX_CR_EVENT_PIXEL_PDS_INFO," hexmask.quad 0x28 15.--63. 1. "RESERVED_15," newline hexmask.quad.byte 0x28 9.--14. 1. "USC_SR_SIZE,USC Shared Register Data Size in 4x128 bit words [0=0] for pixel event task if zero pixel event task is skipped" newline hexmask.quad.byte 0x28 5.--8. 1. "TEMP_STRIDE,PDS Temp Size in 128 bit words [0=0] for pixel event tasks" newline hexmask.quad.byte 0x28 0.--4. 1. "CONST_SIZE,PDS Data Size in 128 bit words [0=0] for pixel event tasks if zero pixel event task is skipped" line.quad 0x30 "CORE_MMRS_RGX_CR_PDS_CSRM,A write of '1' to this register clears the PDS Common Store Resource Manager Contents" hexmask.quad 0x30 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x30 0. "CLEAR,Clear PDS Common Store Resource Manager a write to this register results in a one cycle pulse" "0,1" line.quad 0x38 "CORE_MMRS_RGX_CR_PDS_MAX_CSRM_CHUNKS,Soft Limit Registers for Maximum Allocation Chunks in the Common Store on a Data Master basis." hexmask.quad 0x38 27.--63. 1. "RESERVED_27," newline hexmask.quad.word 0x38 18.--26. 1. "CDM,Max Number of Allocation Regions to Allocate to the Compute Data Master in Common Store" newline hexmask.quad.word 0x38 9.--17. 1. "PDM,Max Number of Allocation Regions to Allocate to the Pixel Data Master in Common Store" newline hexmask.quad.word 0x38 0.--8. 1. "VDM,Max Number of Allocation Regions to Allocate to the VDM Data Master in Common Store" line.quad 0x40 "CORE_MMRS_RGX_CR_PDS_CSRM_MAX_COEFF,The Common Store contains Coefficients and Shared Registers in a maximum of n Lines of 64 Allocation Chunks numbered 0-19." hexmask.quad 0x40 6.--63. 1. "RESERVED_6," newline hexmask.quad.byte 0x40 1.--5. 1. "LINE,Coefficients are allocated from Line 0 upwards this is the maximum Line to use for Coefficients before wrapping" newline bitfld.quad 0x40 0. "LINE_ENABLE,Enable Max Coefficient Line Limit" "0,1" line.quad 0x48 "CORE_MMRS_RGX_CR_PDS_USRM,A write of '1' to this register clears the PDS Unified Store Resource Manager Contents." hexmask.quad 0x48 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x48 0. "CLEAR,Clear PDS Unified Store Resource Manager a write to this register results in a one cycle pulse" "0,1" line.quad 0x50 "CORE_MMRS_RGX_CR_PDS_MAX_USRM_CHUNKS,Soft Limit Registers for Maximum Allocation Chunks in the Unified Store on a Data Master basis." hexmask.quad 0x50 18.--63. 1. "RESERVED_18," newline hexmask.quad.word 0x50 9.--17. 1. "CDM,Max Number of Allocation Regions to Allocate to the Compute Data Master in Unified Store" newline hexmask.quad.word 0x50 0.--8. 1. "VDM,Max Number of Allocation Regions to Allocate to the VDM Data Master in Unified Store" line.quad 0x58 "CORE_MMRS_RGX_CR_PDS_USRM_MAX_TEMP,The Unified Store contains Temporaries and Attributes in n Lines of 16 Allocation Chunks numbered 0- n-1." hexmask.quad 0x58 6.--63. 1. "RESERVED_6," newline hexmask.quad.byte 0x58 1.--5. 1. "LINE,Max Line for use as Temporaries" newline bitfld.quad 0x58 0. "LINE_ENABLE,Enable Max Temporaries Line Limit" "0,1" line.quad 0x60 "CORE_MMRS_RGX_CR_PDS_UVSRM,A write of '1' to this register clears the PDS Unified Vertex Store Resource Manager Contents" hexmask.quad 0x60 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x60 0. "CLEAR,Clear PDS Unified Vertex Store Resource Manager a write to this register results in a one cycle pulse" "0,1" group.quad 0x670++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_PDS_STORERM,A write of '1' to this register clears the PDS Store Resource Manager Contents." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "CLEAR,Clear PDS Store Resource Manager a write to this register results in a one cycle pulse" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_PDS_MAX_STORERM_CHUNKS,Soft Limit Registers for Maximum Allocation Chunks in the PDS Store on a Data Master basis." hexmask.quad.long 0x8 36.--63. 1. "RESERVED_36," newline hexmask.quad.word 0x8 27.--35. 1. "STM,Max Number of Allocation Regions to Allocate to the Stream Out Data Master in PDS Store" newline hexmask.quad.word 0x8 18.--26. 1. "CDM,Max Number of Allocation Regions to Allocate to the Compute Data Master in PDS Store" newline hexmask.quad.word 0x8 9.--17. 1. "PDM,Max Number of Allocation Regions to Allocate to the Pixel Data Master in PDS Store" newline hexmask.quad.word 0x8 0.--8. 1. "VDM,Max Number of Allocation Regions to Allocate to the VDM Data Master in PDS Store" group.quad 0x688++0x3F line.quad 0x0 "CORE_MMRS_RGX_CR_PDS_ICC_INVAL,A write of '1' any bit to this register clears the PDS Instruction Cache for the selected DM" hexmask.quad 0x0 3.--63. 1. "RESERVED_3," newline bitfld.quad 0x0 2. "COMPUTE_PENDING,PDS Instruction Cache Compute [DM 2] has been invalidated" "0,1" newline bitfld.quad 0x0 1. "PIXEL_PENDING,PDS Instruction Cache Pixel [DM 1] has been invalidated" "0,1" newline bitfld.quad 0x0 0. "VERTEX_PENDING,PDS Instruction Cache Vertex [DM 0] has been invalidated" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_PDS_MCU_REQ_CTRL,The PDS makes requests to the MCU to DMA to the PDS store and write data to memory." hexmask.quad 0x8 4.--63. 1. "RESERVED_4," newline bitfld.quad 0x8 2.--3. "SMODE,SLC cache policy to use for requests from the VDM/PDM/CDM/STM resource requestors inside the PDS" "0,1,2,3" newline bitfld.quad 0x8 0.--1. "CMODE,Cache Mode to use for requests from the VDM/PDM/CDM/STM resource requestors inside the PDS" "0,1,2,3" line.quad 0x10 "CORE_MMRS_RGX_CR_PDS_CSRM_MIN_SHARED,The Common Store contains Coefficients and Shared Registers in 14 Lines of 64 Allocation Chunks numbered 0-13." hexmask.quad 0x10 6.--63. 1. "RESERVED_6," newline hexmask.quad.byte 0x10 1.--5. 1. "LINE,Shared are allocated from top line downwards this is the minimum Line to use for Shared Registers before wrapping" newline bitfld.quad 0x10 0. "LINE_ENABLE,Enable Min Shared Register Line Limit" "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_PDS_BGRND0_BASE,PDS Background Setup Word 0" hexmask.quad.long 0x18 36.--63. 1. "TEXUNICODE_ADDR,This is the PDS Code Address used for 2 programs. The Program which issues the DMAs [DOUTD etc. ] for uniform data and/or texture state." newline hexmask.quad.byte 0x18 32.--35. 1. "RESERVED_32," newline hexmask.quad.long 0x18 4.--31. 1. "SHADER_ADDR,The pixel shader base is the base address of the PDS Data Segment. The code segment is address is PDS_PIXEL_SHADERBASE + PDS_PIXELSHADERSIZE. The pixel shader program issues the DOUTU.." newline hexmask.quad.byte 0x18 0.--3. 1. "RESERVED_0," line.quad 0x20 "CORE_MMRS_RGX_CR_PDS_BGRND1_BASE,PDS Background Setup Word 1" hexmask.quad.long 0x20 36.--63. 1. "TEXTUREDATA_ADDR,This points to the DMAs to load the Texture State [or contains the State with DOUTW commands]" newline hexmask.quad.byte 0x20 32.--35. 1. "RESERVED_32," newline hexmask.quad.long 0x20 4.--31. 1. "VARYING_ADDR,This is the base address of the PDS Data Segment. The code segment is address is PDS_VARYINGBASE + PDS_VARYINGSIZE [PDS_BGRND_SIZEINFO1]." newline hexmask.quad.byte 0x20 0.--3. 1. "RESERVED_0," line.quad 0x28 "CORE_MMRS_RGX_CR_PDS_BGRND2_BASE,PDS Background Setup Word 2" hexmask.quad.long 0x28 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x28 4.--31. 1. "UNIFORMDATA_ADDR,This points to the DMAs to load the Uniforms [or contains the Uniforms with DOUTW commands]" newline hexmask.quad.byte 0x28 0.--3. 1. "RESERVED_0," line.quad 0x30 "CORE_MMRS_RGX_CR_PDS_BGRND3_SIZEINFO,If any of the size fields are 0. then that program will not be run." hexmask.quad.word 0x30 55.--63. 1. "USC_SHAREDSIZE,The common store allocation size for the shared registers [texture and uniform data commbined]" newline hexmask.quad.word 0x30 46.--54. 1. "RESERVED_46," newline hexmask.quad.word 0x30 32.--45. 1. "PDS_BATCHNUM,The batch ID to be associated with the background" newline hexmask.quad.word 0x30 23.--31. 1. "PDS_UNIFORMSIZE,The size of the Uniform PDS Data Segment in 128 bit words" newline hexmask.quad.byte 0x30 16.--22. 1. "PDS_TEXTURESTATESIZE,The size of the Texture PDS Data Segment in 128 bit words" newline hexmask.quad.byte 0x30 10.--15. 1. "PDS_VARYINGSIZE,The size of the Varying/Coefficient PDS Data Segment in 128 bit words" newline hexmask.quad.byte 0x30 4.--9. 1. "USC_VARYINGSIZE,The size of the Varying/Coefficient USC Common Store Data in 4x128 bit words" newline hexmask.quad.byte 0x30 0.--3. 1. "PDS_TEMPSIZE,0 = 0 128 bit words 1 = 1 128 bit word this applies to coefficient uniform and varying state" line.quad 0x38 "CORE_MMRS_RGX_CR_PDS_USRM_MIN_ATTR,The Unified Store contains Temporaries and Attributes in n Lines of 16 Allocation Chunks numbered 0 - n-1." hexmask.quad 0x38 6.--63. 1. "RESERVED_6," newline hexmask.quad.byte 0x38 1.--5. 1. "LINE,Min Line for use for Attributes" newline bitfld.quad 0x38 0. "LINE_ENABLE,Enable Min Attributes Line Limit" "0,1" group.quad 0x6D0++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_PDS_PIXELMERGE," hexmask.quad 0x0 7.--63. 1. "RESERVED_7," newline bitfld.quad 0x0 6. "TASK_DISABLE,Disable pixel merging within a whole pixel fragment task" "0,1" newline bitfld.quad 0x0 5. "DISABLE,Disable pixel merging within each 2x2 pixel block of a pixel fragment task" "0,1" newline hexmask.quad.byte 0x0 0.--4. 1. "GRADLIMIT,Gradient difference limit for PDS PP pixel merging" line.quad 0x8 "CORE_MMRS_RGX_CR_PDS_CSRM_USC_DEBUG,When written a non zero value. this register assigns an extra degree of space to be allocated in the Common Store via the PDS CSRM for USC debugging on Shared Allocations." hexmask.quad 0x8 5.--63. 1. "RESERVED_5," newline hexmask.quad.byte 0x8 0.--4. 1. "SIZE,Amount of Space [in 512-bit Allocation Regions] to allocate to USC Debug Space on a Shared Allocation." line.quad 0x10 "CORE_MMRS_RGX_CR_PDS_CSRM_DISABLE,When this register is set. the CSRM will be configured on PDS CSRM CLEAR to not reserve any space for Partitions (this is normally governed by the AA MODE and PIXEL OUTPUT CTRL WIDTH register settings)." hexmask.quad 0x10 3.--63. 1. "RESERVED_3," newline bitfld.quad 0x10 2. "COEFF_SLIDE,Disable Slide of Coeff Allocations on Failure" "0,1" newline bitfld.quad 0x10 1. "SHARED_SLIDE,Disable Slide of Shared Allocations on Failure" "0,1" newline rbitfld.quad 0x10 0. "RESERVED_0," "0,1" rgroup.quad 0x6E8++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_HUB_IDLE," hexmask.quad 0x0 3.--63. 1. "RESERVED_3," newline bitfld.quad 0x0 2. "CDM,CDM Module IDLE" "0,1" newline bitfld.quad 0x0 1. "VDM,VDM Module IDLE" "0,1" newline bitfld.quad 0x0 0. "PDS,PDS Module IDLE" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_HUB_PWR," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "NUM_PDS_INST,Number of PDS instructions" group.quad 0x700++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_PDS_PASSGROUP," hexmask.quad 0x0 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x0 1. "FORCE_PT,Force the use of Hard SDs between punchthrough or depth feedback type passes" "0,1" newline bitfld.quad 0x0 0. "ENABLE,Enable pass group optimisation within USC by replacing USC Hard SDs with USC Soft SDs for all pass groups in the PDS PP." "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_PDS_COMPUTE_THREAD_BARRIER," hexmask.quad 0x8 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x8 0. "ENABLE,Enable thread barrier support in the PDS CDM_RR." "0,1" group.quad 0x720++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PDS_CSRM_SETUP,If the ENABLE field is set. then when the PDS CSRM is Cleared via the PDS_CSRM_CLEAR register." hexmask.quad 0x0 6.--63. 1. "RESERVED_6," newline bitfld.quad 0x0 5. "HALF,Top line is prefilled half full" "0,1" newline hexmask.quad.byte 0x0 1.--4. 1. "MAX_LINE,[Lower 4 bits of] Maximum Line within the CSRM that can be allocated to Shared Registers/Coefficients" newline bitfld.quad 0x0 0. "ENABLE,Enable use of this register to set the Maximum Line the CSRM can allocate on behalf of the USC Common Store" "0,1" group.quad 0x738++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PDS_USRM_DISABLE,When this register is set. the USRM will be configured on PDS USRM CLEAR to disable the Temp/Attribute slide functionality which allows" hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "TEMP_SLIDE,Disable Slide of Temp Allocations on Failure" "0,1" group.quad 0x788++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PDS_CSRM_PIXEL,The Common Store contains Coefficients and Shared Registers in a maximum of n Lines of 64 Allocation Chunks numbered 0-31." hexmask.quad 0x0 6.--63. 1. "RESERVED_6," newline hexmask.quad.byte 0x0 1.--5. 1. "MAX_LINE,Coefficients are allocated from Line 0 upwards this is the maximum Line to reserve for ONLY PDM Coefficients. The Max line of this region is set in the PDS_CSRM_MAX_COEFF register" newline bitfld.quad 0x0 0. "MODE_ENABLE,Enable PIXEL RESERVE MODE in the PDS CSRM" "0,1" group.quad 0x890++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_XPU_BROADCAST,This register contains a bit for this. the primary XPU and for each secondary device connected to the primary." hexmask.quad 0x0 9.--63. 1. "RESERVED_9," newline hexmask.quad.word 0x0 0.--8. 1. "MASK,If bit N is set forward broadcast XPU register writes to this device." line.quad 0x8 "CORE_MMRS_RGX_CR_XPU_RW_ORDER," hexmask.quad 0x8 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x8 0. "FORCE,1 - Force reads and writes to complete in order with respect to each other on the XPU register AXI bus by stalling read requests if any writes are outstanding and vice versa. 0 - No ordering.." "0,1" rgroup.quad 0x8F0++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_SLAVE_EVENT,This register contains a bit for each slave connected to this." hexmask.quad 0x0 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x0 0.--7. 1. "STATUS,If bit N is set an interrupt from target N is pending." line.quad 0x8 "CORE_MMRS_RGX_CR_MARS_IDLE," hexmask.quad 0x8 3.--63. 1. "RESERVED_3," newline bitfld.quad 0x8 2. "MH_SYSARB0,SYSARB0 Module IDLE" "0,1" newline bitfld.quad 0x8 1. "CPU,CPU Module IDLE" "0,1" newline bitfld.quad 0x8 0. "SOCIF,SOCIF Module IDLE" "0,1" group.quad 0xB00++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_SCHEDULE,This register allows firmware tasks to be scheduled on the META (Garten) core." hexmask.quad 0x0 9.--63. 1. "RESERVED_9," newline bitfld.quad 0x0 8. "HOST,Host Interrupte kick" "0,1" newline bitfld.quad 0x0 6.--7. "PRIORITY,DataMaster Priority" "0,1,2,3" newline bitfld.quad 0x0 5. "CONTEXT," "0,1" newline bitfld.quad 0x0 4. "TASK," "0,1" newline hexmask.quad.byte 0x0 0.--3. 1. "DM,DataMaster Type" line.quad 0x8 "CORE_MMRS_RGX_CR_MTS_PROC_COMPLETE,This register allows firmware tasks to signal process completion." hexmask.quad 0x8 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x8 1. "CONTEXT," "0,1" newline rbitfld.quad 0x8 0. "RESERVED_0," "0,1" rgroup.quad 0xB10++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_BGCTX_SBDATA0,This register contains the sideband data for the process running on the background context of thread 0." hexmask.quad 0x0 9.--63. 1. "RESERVED_9," newline bitfld.quad 0x0 6.--8. "OS_ID,The OS_ID of the active thread" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x0 5. "THREAD_ACTIVE,Indicates the thread is active" "0,1" newline bitfld.quad 0x0 4. "TASK," "0,1" newline hexmask.quad.byte 0x0 0.--3. 1. "DM,DataMaster Type" rgroup.quad 0xB20++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_INTCTX_SBDATA0,This register contains the sideband data for the process running on the interrupt context of thread 0." hexmask.quad.tbyte 0x0 42.--63. 1. "RESERVED_42," newline bitfld.quad 0x0 39.--41. "OS_ID,The OS_ID of the active thread" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x0 38. "THREAD_ACTIVE,Indicates the thread is active" "0,1" newline hexmask.quad.long 0x0 6.--37. 1. "INT_STATUS,Interrupt Status for 32 event bus lines" newline hexmask.quad.byte 0x0 2.--5. 1. "DM,DataMaster Type" newline bitfld.quad 0x0 0.--1. "INT_TASK,Kick Request for timer/BG-request/host" "0,1,2,3" group.quad 0xB30++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_BGCTX_THREAD0_DM_ASSOC,This register is the DataMaster assocation for the background context of thread 0." hexmask.quad 0x0 16.--63. 1. "RESERVED_16," newline hexmask.quad.word 0x0 0.--15. 1. "DM_ASSOC,DataMaster Association [Active High]" group.quad 0xB40++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_INTCTX_THREAD0_DM_ASSOC,This register is the DataMaster assocation for the interrupt context of thread 0." hexmask.quad 0x0 16.--63. 1. "RESERVED_16," newline hexmask.quad.word 0x0 0.--15. 1. "DM_ASSOC,DataMaster Association [Active High]" group.quad 0xB50++0x47 line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_GARTEN_WRAPPER_CONFIG,This register contains the configuration options for the Garten wrapper." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "IDLE_CTRL," "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_MTS_DM0_INTERRUPT_ENABLE,Interrupt enable status register for DataMaster 0" hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "INT_ENABLE,Interrupt Enable" line.quad 0x10 "CORE_MMRS_RGX_CR_MTS_DM1_INTERRUPT_ENABLE,Interrupt enable status register for DataMaster 1" hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x10 0.--31. 1. "INT_ENABLE,Interrupt Enable" line.quad 0x18 "CORE_MMRS_RGX_CR_MTS_DM2_INTERRUPT_ENABLE,Interrupt enable status register for DataMaster 2" hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x18 0.--31. 1. "INT_ENABLE,Interrupt Enable" line.quad 0x20 "CORE_MMRS_RGX_CR_MTS_DM3_INTERRUPT_ENABLE,Interrupt enable status register for DataMaster 3" hexmask.quad.long 0x20 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x20 0.--31. 1. "INT_ENABLE,Interrupt Enable" line.quad 0x28 "CORE_MMRS_RGX_CR_MTS_DM4_INTERRUPT_ENABLE,Interrupt enable status register for DataMaster 4" hexmask.quad.long 0x28 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x28 0.--31. 1. "INT_ENABLE,Interrupt Enable" line.quad 0x30 "CORE_MMRS_RGX_CR_MTS_DM5_INTERRUPT_ENABLE,Interrupt enable status register for DataMaster 5" hexmask.quad.long 0x30 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x30 0.--31. 1. "INT_ENABLE,Interrupt Enable" line.quad 0x38 "CORE_MMRS_RGX_CR_MTS_EVENT_MASK,Mask interrupt events" hexmask.quad.long 0x38 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x38 0.--31. 1. "MASK,DESCRIPTION" line.quad 0x40 "CORE_MMRS_RGX_CR_MTS_EVENT_CLEAR,Clear internal interrupt registers" hexmask.quad.long 0x40 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x40 0.--31. 1. "CLEAR,DESCRIPTION" rgroup.quad 0xB98++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_INTCTX,This register contains the sideband data for the MTS internal interrupt context registers" hexmask.quad 0x0 30.--63. 1. "RESERVED_30," newline hexmask.quad.byte 0x0 22.--29. 1. "DM_HOST_SCHEDULE,A 1 bit counter per DM for host requests" newline hexmask.quad.byte 0x0 16.--21. 1. "RESERVED_16," newline hexmask.quad.byte 0x0 8.--15. 1. "DM_TIMER_SCHEDULE,A 1 bit counter per DM for timer requests" newline hexmask.quad.byte 0x0 0.--7. 1. "DM_INTERRUPT_SCHEDULE,A 1 bit counter per DM for interrupt requests" line.quad 0x8 "CORE_MMRS_RGX_CR_MTS_BGCTX,This register contains the sideband data for the MTS internal background context registers" hexmask.quad 0x8 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x8 0.--7. 1. "DM_NONCOUNTED_SCHEDULE,A 1 bit counter per DM for non-counted background request" line.quad 0x10 "CORE_MMRS_RGX_CR_MTS_BGCTX_COUNTED_SCHEDULE,This register contains the sideband data for the MTS internal counted background context counters" hexmask.quad.word 0x10 48.--63. 1. "RESERVED_48," newline hexmask.quad.byte 0x10 40.--47. 1. "DM5,A 8 bit counter for DM5" newline hexmask.quad.byte 0x10 32.--39. 1. "DM4,A 8 bit counter for DM4" newline hexmask.quad.byte 0x10 24.--31. 1. "DM3,A 8 bit counter for DM3" newline hexmask.quad.byte 0x10 16.--23. 1. "DM2,A 8 bit counter for DM2" newline hexmask.quad.byte 0x10 8.--15. 1. "DM1,A 8 bit counter for DM1" newline hexmask.quad.byte 0x10 0.--7. 1. "DM0,A 8 bit counter for DM0" line.quad 0x18 "CORE_MMRS_RGX_CR_MTS_GPU_INT_STATUS,This register contains the sideband data for the MTS internal GPU interrupt status" hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x18 0.--31. 1. "STATUS,A 32 bit register for recored GPU events" group.quad 0xBC0++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_OS_PRIORITY,Operating System Priority" hexmask.quad 0x0 16.--63. 1. "RESERVED_16," newline bitfld.quad 0x0 14.--15. "ID7,Scheduling priority for operating system 7" "0,1,2,3" newline bitfld.quad 0x0 12.--13. "ID6,Scheduling priority for operating system 6" "0,1,2,3" newline bitfld.quad 0x0 10.--11. "ID5,Scheduling priority for operating system 5" "0,1,2,3" newline bitfld.quad 0x0 8.--9. "ID4,Scheduling priority for operating system 4" "0,1,2,3" newline bitfld.quad 0x0 6.--7. "ID3,Scheduling priority for operating system 3" "0,1,2,3" newline bitfld.quad 0x0 4.--5. "ID2,Scheduling priority for operating system 2" "0,1,2,3" newline bitfld.quad 0x0 2.--3. "ID1,Scheduling priority for operating system 1" "0,1,2,3" newline bitfld.quad 0x0 0.--1. "ID0,Scheduling priority for operating system 0" "0,1,2,3" line.quad 0x8 "CORE_MMRS_RGX_CR_MTS_SCHEDULE_ENABLE,This register is an active-high mask." hexmask.quad 0x8 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x8 0.--7. 1. "MASK," rgroup.quad 0xBD8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_IRQ_OS0_EVENT_STATUS,This register indicates the source of a per-OS host interrupt." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "SOURCE," "0,1" group.quad 0xBE0++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_HOST_IRQ,This register triggers a per-OS host interrupt." hexmask.quad 0x0 3.--63. 1. "RESERVED_3," newline bitfld.quad 0x0 0.--2. "OSID,Indicates the Guest OS for the interrupt" "0,1,2,3,4,5,6,7" line.quad 0x8 "CORE_MMRS_RGX_CR_IRQ_OS0_EVENT_CLEAR,This register clears a per-OS host interrupt." hexmask.quad 0x8 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x8 0. "SOURCE," "0,1" group.quad 0xBF8++0x5F line.quad 0x0 "CORE_MMRS_RGX_CR_META_BOOT," hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "MODE,0 = Don't boot 1 = Boot" "0: Don't boot,1: Boot" line.quad 0x8 "CORE_MMRS_RGX_CR_TE_AA,This register controls the anti-aliasing mode of the Tiling Co-Processor." hexmask.quad 0x8 4.--63. 1. "RESERVED_4," newline bitfld.quad 0x8 3. "Y2,Indicates 4xmsaa when X2 and Y2 are set to 1. This does not affect TE and is only used within TPW." "0,1" newline bitfld.quad 0x8 2. "Y,Anti-Aliasing in Y Plane Enabled" "0,1" newline bitfld.quad 0x8 1. "X,Anti-Aliasing in X Plane Enabled" "0,1" newline bitfld.quad 0x8 0. "X2,2x Anti-Aliasing Enabled affects PPP only" "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_TE_MTILE1,MacroTile Boundaries X Plane" hexmask.quad 0x10 27.--63. 1. "RESERVED_27," newline hexmask.quad.word 0x10 18.--26. 1. "X1,X1 MacroTile boundary left tile X for second column of macrotiles [16MT mode] - 32 pixels across tile" newline hexmask.quad.word 0x10 9.--17. 1. "X2,X2 MacroTile boundary left tile X for third[16MT] column of macrotiles - 32 pixels across tile" newline hexmask.quad.word 0x10 0.--8. 1. "X3,X3 MacroTile boundary left tile X for fourth column of macrotiles [16MT] - 32 pixels across tile" line.quad 0x18 "CORE_MMRS_RGX_CR_TE_MTILE2,MacroTile Boundaries Y Plane." hexmask.quad 0x18 27.--63. 1. "RESERVED_27," newline hexmask.quad.word 0x18 18.--26. 1. "Y1,X1 MacroTile boundary ltop tile Y for second column of macrotiles [16MT mode] - 32 pixels tile height" newline hexmask.quad.word 0x18 9.--17. 1. "Y2,X2 MacroTile boundary top tile Y for third[16MT] column of macrotiles - 32 pixels tile height" newline hexmask.quad.word 0x18 0.--8. 1. "Y3,X3 MacroTile boundary top tile Y for fourth column of macrotiles [16MT] - 32 pixels tile height" line.quad 0x20 "CORE_MMRS_RGX_CR_TE_SCREEN,In order to perform the tiling operation and generate the display list the maximum screen size must be configured in terms of the number of tiles in X & Y axis." hexmask.quad 0x20 21.--63. 1. "RESERVED_21," newline hexmask.quad.word 0x20 12.--20. 1. "YMAX,Maximum Y tile address visible on screen 32 pixel tile height 16Kx16K max screen size" newline rbitfld.quad 0x20 9.--11. "RESERVED_9," "0,1,2,3,4,5,6,7" newline hexmask.quad.word 0x20 0.--8. 1. "XMAX,Maximum X tile address visible on screen 32 pixel tile width 16Kx16K max screen size" line.quad 0x28 "CORE_MMRS_RGX_CR_TE_MTILE,In order to perform the tiling operation and generate the display list the maximum screen size must be configured in terms of the number of tiles in X & Y axis." hexmask.quad 0x28 19.--63. 1. "RESERVED_19," newline hexmask.quad.tbyte 0x28 0.--18. 1. "STRIDE,Number of tiles in a Macrotile. Stride = [XTile * YTiles] tiles 32 pixels across by 32 pixels" line.quad 0x30 "CORE_MMRS_RGX_CR_TE_PSG,This register defines the global control for the Parameter Stream Generator within the Tiling Co-Processor." hexmask.quad 0x30 23.--63. 1. "RESERVED_23," newline bitfld.quad 0x30 22. "FORCE_PROTECT,When set the TE shall force the PROTECT bit to 1 for all tiles" "0,1" newline bitfld.quad 0x30 21. "CS_SIZE,Size of control stream chunk. 0x0 512 bit 0x1 1024 bit" "0,1" newline bitfld.quad 0x30 20. "ENABLE_PWR_GATE_STATE,Enables TE PSG power gate state init. 0x0 Disable 0x1 Enable" "0,1" newline bitfld.quad 0x30 19. "ENABLE_CONTEXT_STATE_RESTORE,Enables sampling of Driver TE_STATE_ISP_STATE_ID and TE_ACTIVE_MTILE registers on context switch/restore when set when reset current local value is preserved." "0,1" newline bitfld.quad 0x30 18. "ZONLYRENDER,Don't invalidate Tail Pointer Cache entries on a Terminate command. Only effective when COMPLETEONTERMINATE is 0x0 0x0 Do Invalidate 0x1 Don't.." "0,1" newline bitfld.quad 0x30 17. "COMPLETEONTERMINATE,0x1 Write region headers terminate streams and invalidate tail pointer cache entries on terminate. 0x0 If ZONLYRENDER = 0x0 then force an Interrupt .." "0,1" newline rbitfld.quad 0x30 15.--16. "RESERVED_15," "0,1,2,3" newline bitfld.quad 0x30 14. "CACHE_BYPASS,when set PSG sets its write only cache to bypass mode effectively disabling the cache" "0,1" newline bitfld.quad 0x30 13. "FORCENEWSTATE,Always embed state information in control stream. Debug only." "0,1" newline rbitfld.quad 0x30 11.--12. "RESERVED_11," "0,1,2,3" newline hexmask.quad.word 0x30 0.--10. 1. "REGION_STRIDE,Number of 4kB Pages devoted to region headers for each Render Target - max needed = 0x500" line.quad 0x38 "CORE_MMRS_RGX_CR_TE_PSG_TERMINATE,This register can be written by the driver to define what the TA should terminate tile control streams with." hexmask.quad.tbyte 0x38 40.--63. 1. "RESERVED_40," newline hexmask.quad.byte 0x38 32.--39. 1. "BYTE,Byte to terminate all tile control streams with." newline hexmask.quad.long 0x38 0.--31. 1. "DWORD,Double-word to terminate all tile control streams with." line.quad 0x40 "CORE_MMRS_RGX_CR_TE_PSGREGION_ADDR,This register defines the base address in memory of the Region Header writes by the TA." hexmask.quad.tbyte 0x40 40.--63. 1. "RESERVED_40," newline hexmask.quad.byte 0x40 34.--39. 1. "HEAP,1TB Addressable 16GB aligned Heap Address for Region Header writes" newline hexmask.quad.long 0x40 6.--33. 1. "BASE,16GB Addressable 512-bit aligned Base Address for Region Header writes" newline hexmask.quad.byte 0x40 0.--5. 1. "RESERVED_0," line.quad 0x48 "CORE_MMRS_RGX_CR_TE_TPC_ADDR,This register defines the base address in memory of the Tail Pointer Cache." hexmask.quad.tbyte 0x48 40.--63. 1. "RESERVED_40," newline hexmask.quad.byte 0x48 34.--39. 1. "HEAP,1TB Addressable 16GB aligned Heap Address for Tail Pointer Cache." newline hexmask.quad.long 0x48 6.--33. 1. "BASE,16GB Addressable 512-bit aligned Base Address for Tail Pointer Cache entries. The tail pointer is the current last address written to for a control stream for a tile." newline hexmask.quad.byte 0x48 0.--5. 1. "RESERVED_0," line.quad 0x50 "CORE_MMRS_RGX_CR_TE_TPC,This register defines the TPC Memory footprint size per Render Target as a Stride of 4KB pages" hexmask.quad 0x50 12.--63. 1. "RESERVED_12," newline hexmask.quad.word 0x50 0.--11. 1. "STRIDE,Number of 4KB pages per Render Target in each TPC footprint - max = 2048" line.quad 0x58 "CORE_MMRS_RGX_CR_TE_TPC_CONTEXT,The Tail Pointer Cache is used to keep track of the last address written to for a particular tile." hexmask.quad.long 0x58 32.--63. 1. "RESERVED_32," newline bitfld.quad 0x58 31. "CLEAR_PENDING,Reset contents of Tail Pointer Cache" "0,1" newline bitfld.quad 0x58 30. "FLUSH_PENDING,Flush contents of Tail Pointer Cache to Memory" "0,1" newline hexmask.quad.long 0x58 0.--29. 1. "RESERVED_0," rgroup.quad 0xC58++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_TE_RGNBBOX_X,Reset or enabled by the PPP_RESETBBOX and PPP_UPDATEBBOX fields in the PPPControl word of the Input Parameter format." hexmask.quad 0x0 26.--63. 1. "RESERVED_26," newline hexmask.quad.word 0x0 16.--25. 1. "MAX,XMax value for maintained Region Generator Bounding Box tiles 32 pixels in width" newline hexmask.quad.byte 0x0 10.--15. 1. "RESERVED_10," newline hexmask.quad.word 0x0 0.--9. 1. "MIN,XMin value for maintained Region Generator Bounding Box tiles 32 pixels in width" line.quad 0x8 "CORE_MMRS_RGX_CR_TE_RGNBBOX_Y,Reset or enabled by the PPP_RESETBBOX and PPP_UPDATEBBOX fields in the PPP Control word of the Input Parameter format." hexmask.quad 0x8 26.--63. 1. "RESERVED_26," newline hexmask.quad.word 0x8 16.--25. 1. "MAX,YMax value for maintained Region Generator Bounding Box tiles 16 pixels in height" newline hexmask.quad.byte 0x8 10.--15. 1. "RESERVED_10," newline hexmask.quad.word 0x8 0.--9. 1. "MIN,YMin value for maintained Region Generator Bounding Box tiles 16 pixels in height" group.quad 0xC68++0x5F line.quad 0x0 "CORE_MMRS_RGX_CR_TE_RGNHDR_INIT,A write of '1' to this register starts the TE Region Header Initialisation Sequence" hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "PENDING,Start TE Region Header Initialisation" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_TE_PSG_HAZARD,Control of hazard checking in SLC for TE PSG requesters" hexmask.quad 0x8 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x8 1. "STREAM_CHECK_ENABLE,when set PSG will enable hazard checking in the SLC for control stream writes" "0,1" newline bitfld.quad 0x8 0. "REGION_CHECK_ENABLE,when set PSG will enable hazard checking in the SLC for region header writes" "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_PPP_GRIDOFFSET,Sample position grid offset for use when MSAA/ODAA is DISABLED" hexmask.quad 0x10 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x10 4.--7. 1. "GRID_Y,Unsigned sub-pixel offset" newline hexmask.quad.byte 0x10 0.--3. 1. "GRID_X,Unsigned sub-pixel offset" line.quad 0x18 "CORE_MMRS_RGX_CR_PPP_MULTISAMPLECTL,Sample position grid offset for use in 2x. 4x. 8xMSAA and ODAA modes." hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.byte 0x18 28.--31. 1. "MSAA_Y3,Unsigned sub-pixel offset for the 4th multisample Y position" newline hexmask.quad.byte 0x18 24.--27. 1. "MSAA_X3,Unsigned sub-pixel offset for the 4th multisample X position" newline hexmask.quad.byte 0x18 20.--23. 1. "MSAA_Y2,Unsigned sub-pixel offset for the 3rd multisample Y position" newline hexmask.quad.byte 0x18 16.--19. 1. "MSAA_X2,Unsigned sub-pixel offset for the 3rd multisample X position" newline hexmask.quad.byte 0x18 12.--15. 1. "MSAA_Y1,Unsigned sub-pixel offset for the 2nd multisample Y position" newline hexmask.quad.byte 0x18 8.--11. 1. "MSAA_X1,Unsigned sub-pixel offset for the 2nd multisample X position" newline hexmask.quad.byte 0x18 4.--7. 1. "MSAA_Y0,Unsigned sub-pixel offset for the 1st multisample Y position" newline hexmask.quad.byte 0x18 0.--3. 1. "MSAA_X0,Unsigned sub-pixel offset for the 1st multisample X position" line.quad 0x20 "CORE_MMRS_RGX_CR_PPP_CTRL,This register controls the global setup of the PPP." hexmask.quad 0x20 13.--63. 1. "RESERVED_13," newline bitfld.quad 0x20 12. "VPT_SCISSOR,When 0 the PPP will insert state updates on change of VPT ID When 1 this feature is disabled" "0,1" newline bitfld.quad 0x20 11. "FLUSH_MODE,when 0 PPP will supress end of draw call flushed from reaching the Clipper and TA pipeline This will break batch number funstionality but will give better primitive block utiliastion." "0,1" newline bitfld.quad 0x20 10. "BFCULL_RESTRICT_CLIP,When set clipped primitives are only back-face culled after the clipper. 0 Enable early back face cull for clipped primitives 1.." "0,1" newline bitfld.quad 0x20 9. "FIXED_POINT_FORMAT,When set the PPP will use a fixed point format of 16. 8 rather than 16.4. 0 16.4 fixed point format 1 16.8 fixed point format" "0,1" newline bitfld.quad 0x20 8. "DEFAULT_POINT_SIZE,When set the PPP will use the default point size rather than reading it from the vertex. 0 Point size read from vertex 1 Default point.." "0,1" newline bitfld.quad 0x20 7. "BFCULL1_DISABLE,Disable for fully clipped culling 0 First back face cull block enabled 1 First back face cull block disabled" "0,1" newline bitfld.quad 0x20 6. "BFCULL2_DISABLE,Disable for fully clipped culling 0 Second back face cull block enabled 1 Second back face cull block disabled" "0,1" newline bitfld.quad 0x20 5. "FCCULL_DISABLE,Disable for fully clipped culling 0 Fully clipped culling enabled 1 Fully clipped culling disabled" "0,1" newline bitfld.quad 0x20 4. "OSCULL_DISABLE,Disable for off screen culling 0 Off screen culling enabled 1 Off screen culling disabled" "0,1" newline bitfld.quad 0x20 3. "PSOCULL_DISABLE,Disable for perfect small object culling 0 Perfect small object culling enabled 1 Perfect small object culling disabled" "0,1" newline bitfld.quad 0x20 2. "SOCULL_DISABLE,Disable for small object culling 0 Small object culling enabled 1 Small object culling disabled" "0,1" newline bitfld.quad 0x20 1. "WCLAMPEN,Enable W clamping 0 W clamping disabled 1 W clamping enabled" "0,1" newline bitfld.quad 0x20 0. "OPENGL,Select OpenGL or D3D mode 0 D3D 1 OpenGL" "0,1" line.quad 0x28 "CORE_MMRS_RGX_CR_PPP_WCLAMP," hexmask.quad.long 0x28 32.--63. 1. "COMPARE_VALUE,Compare value for W clamping. See the Input parameter format viewport transform for details. Compare is applied post viewport transform. Note that this value cannot be negative." newline hexmask.quad.long 0x28 0.--31. 1. "CLAMP_VALUE,Clamp value for W clamping. See the Input parameter format viewport transform for details. Clamp is applied post viewport transform if the w value is less than the WCOMPARE value." line.quad 0x30 "CORE_MMRS_RGX_CR_PPP_SCREEN,In order to perform the tiling operation and generate the display list the maximum screen size must be configured in terms of the number of pixels in X & Y axis since this may not be the same as the number of tiles defined in.." hexmask.quad 0x30 31.--63. 1. "RESERVED_31," newline hexmask.quad.word 0x30 16.--30. 1. "PIXYMAX,Screen height in pixels. [16K x 16K max screen size]" newline rbitfld.quad 0x30 15. "RESERVED_15," "0,1" newline hexmask.quad.word 0x30 0.--14. 1. "PIXXMAX,Screen width in pixels.[16K x 16K max screen size]" line.quad 0x38 "CORE_MMRS_RGX_CR_VCE_CTRL,This register controls the global setup of the VCE." hexmask.quad 0x38 5.--63. 1. "RESERVED_5," newline bitfld.quad 0x38 4. "HAZARD_CHECK_ENABLE,when set hazard checking will be enabled in SLC for parameter buffer writes" "0,1" newline bitfld.quad 0x38 3. "CACHE_BYPASS,when set VCE sets its write only cache to bypass mode effectively disabling the cache" "0,1" newline rbitfld.quad 0x38 2. "RESERVED_2," "0,1" newline bitfld.quad 0x38 1. "TWO_ORIGIN_DISABLE,When set raw mode is selected in place of 2-origin delta stream compression mode" "0,1" newline bitfld.quad 0x38 0. "COMPRESS_DISABLE,When set vertex compression is disabled. I.e. raw mode is forced for all vertices" "0,1" line.quad 0x40 "CORE_MMRS_RGX_CR_TE_CLEAR_LISTS_AFTER_ABORT,A write of '1' to this register tells the TE we are resuming after an Abort and Partial Render Sequence" hexmask.quad 0x40 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x40 0. "PULSE,TE Clears all references after Abort and Partial Render Sequence" "0,1" line.quad 0x48 "CORE_MMRS_RGX_CR_TA_RTC_ADDR,This register defines the base address in memory of the TA Render Target Caches." hexmask.quad.tbyte 0x48 40.--63. 1. "RESERVED_40," newline hexmask.quad.byte 0x48 34.--39. 1. "HEAP,1TB Addressable 16GB aligned Heap Address for TA Render Target Caches" newline hexmask.quad.long 0x48 6.--33. 1. "BASE,16GB Addressabreadonly le 512-bit aligned Base Address for TA Render Target Caches." newline hexmask.quad.byte 0x48 0.--5. 1. "RESERVED_0," line.quad 0x50 "CORE_MMRS_RGX_CR_TA_RTC_CTRL,A write of '1' to Bit 0 of this register Clears the RTC." hexmask.quad 0x50 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x50 1. "STORE_PENDING,Store RTC" "0,1" newline bitfld.quad 0x50 0. "CLEAR_PENDING,Clear RTC" "0,1" line.quad 0x58 "CORE_MMRS_RGX_CR_TA_CONTEXT_STATE_BASE,The base address in external memory of the TA's context state buffer." hexmask.quad.tbyte 0x58 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x58 4.--39. 1. "ADDR,1TB range 128-bit aligned base address" newline hexmask.quad.byte 0x58 0.--3. 1. "RESERVED_0," rgroup.quad 0xCC8++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_PPP_DIAG_CULL,Diagnois register keeps a count of the number of primtives entering the PPP culling module" hexmask.quad.word 0x0 52.--63. 1. "RESERVED_52," newline hexmask.quad.long 0x0 26.--51. 1. "OP_COUNT,count of primitives exiting the cull block" newline hexmask.quad.long 0x0 0.--25. 1. "IP_COUNT,count of primitives entering the cull block" line.quad 0x8 "CORE_MMRS_RGX_CR_PPP,Checksum generated from the output of the PPP" hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "CHECKSUM,checksum generated from the output of the PPP" group.quad 0xCD8++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_UVS_CLEAR,A write of '1' to this register starts the UVS Clear Operation" hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "PENDING,Start UVS Clear Operation a write to this register results in a one cycle pulse" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_TA_RTC_PRELOAD,When set. the RTC will be Preloaded with Zeros (or a nonRTA render target of 1) on a Clear Operation (used when Render Targets are not in use to remove the need for memory allocation)" hexmask.quad 0x8 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x8 1. "ONE,Preload RTC with Render Target 0 set on a Clear. Used when resuming a TA phase after coarse grain context switch" "0,1" newline bitfld.quad 0x8 0. "ZEROS,Preload RTC with Zeros on a Clear" "0,1" rgroup.quad 0xCE8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_TE_STATE,This register should be Sampled by the Driver on Context Switch and Restored before the Resume of the TA Context" hexmask.quad 0x0 6.--63. 1. "RESERVED_6," newline hexmask.quad.byte 0x0 1.--5. 1. "ISP_STATE_ID,ISP State ID" newline bitfld.quad 0x0 0. "ABORTED,TA had been aborted in the past" "0,1" group.quad 0xCF0++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_VCE_HALT,The MicroKernel must halt VCE processing (consumption of it's pages allocated by PM) before we can do a Partial Render in the Rogue Architecture." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "PENDING,VCE is Halting after Current Block" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_TE_RESUME_AFTER_ABORT,A write of '1' to this register tells the TE we are resuming after an Abort but that no Partial Render took place" hexmask.quad 0x8 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x8 0. "PULSE,TE is restarted and reattempts failing allocation after Out Of Memory event only" "0,1" rgroup.quad 0xD00++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_TA_IDLE," hexmask.quad 0x0 6.--63. 1. "RESERVED_6," newline bitfld.quad 0x0 5. "TE,TE Module IDLE" "0,1" newline bitfld.quad 0x0 4. "VCE,VCE Module IDLE" "0,1" newline bitfld.quad 0x0 3. "VBG,VBG Module IDLE" "0,1" newline bitfld.quad 0x0 2. "CLIP,CLIP Module IDLE" "0,1" newline bitfld.quad 0x0 1. "PPP,PPP Module IDLE" "0,1" newline bitfld.quad 0x0 0. "UVS,UVS Module IDLE" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_STAT_NEW_PRIM," hexmask.quad.long 0x8 32.--63. 1. "TE,Number of primitives into TE" newline hexmask.quad.long 0x8 0.--31. 1. "PPP,Number of primitives into PPP" line.quad 0x10 "CORE_MMRS_RGX_CR_STAT_NEW," hexmask.quad.long 0x10 32.--63. 1. "OBJECT_TE,Number of Control Stream Updates by TE" newline hexmask.quad.long 0x10 0.--31. 1. "VERTEX,Number of vertices" group.quad 0xD20++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_TE_PSG_RTC,This register should be Sampled by the Driver on VDM Context Switch Terminate TA FINISHED event and Restored before the Resume of the TA Context" hexmask.quad 0x0 12.--63. 1. "RESERVED_12," newline hexmask.quad.word 0x0 0.--11. 1. "ACTIVE_RTS,RTAs active at the point of the VDM Context SWitch" line.quad 0x8 "CORE_MMRS_RGX_CR_VCE_CACHE_FLUSH,The MicroKernel can use this to flush the VCE write only cache at the end of TA phase render." hexmask.quad 0x8 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x8 0. "PENDING,VCE is Flushing its write only cache to memory" "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_TE_CACHE_FLUSH,The MicroKernel can use this to flush the TE write only cache at the end of TA phase render." hexmask.quad 0x10 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x10 0. "PENDING,TE is Flushing its write only cache to memory" "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_PM_CACHE_FLUSH,The MicroKernel can use this to flush the PM write only cache at the end of TA phase render." hexmask.quad 0x18 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x18 0. "PENDING,PM is Flushing its write only cache to memory" "0,1" group.quad 0xF00++0x8F line.quad 0x0 "CORE_MMRS_RGX_CR_ISP_START_RENDER,Writing '1' to this register initiates a 3D render" hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "PULSE," "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_ISP_RENDER,Controls the render" hexmask.quad 0x8 9.--63. 1. "RESERVED_9," newline bitfld.quad 0x8 8. "FAST_RENDER_FORCE_PROTECT,When set all tiles to be rasterised are marked as protected" "0,1" newline bitfld.quad 0x8 7. "PROCESS_PROTECTED_TILES,When set protected tiles are processed" "0,1" newline bitfld.quad 0x8 6. "PROCESS_UNPROTECTED_TILES,When set unprotected tiles are processed" "0,1" newline bitfld.quad 0x8 5. "DISABLE_EOMT,Prevent End-of-Macro-Tile flags being sent to ISP" "0,1" newline bitfld.quad 0x8 4. "RESUME,Render resume" "0,1" newline bitfld.quad 0x8 2.--3. "DIR,Render direction" "0,1,2,3" newline bitfld.quad 0x8 0.--1. "MODE,Render type" "0,1,2,3" line.quad 0x10 "CORE_MMRS_RGX_CR_ISP_RENDER_ORIGIN,This register defines the top-left tile coordinate for the render." hexmask.quad 0x10 26.--63. 1. "RESERVED_26," newline hexmask.quad.word 0x10 16.--25. 1. "X,X coordinate in tiles" newline hexmask.quad.byte 0x10 10.--15. 1. "RESERVED_10," newline hexmask.quad.word 0x10 0.--9. 1. "Y,Y coordinate in tiles" line.quad 0x18 "CORE_MMRS_RGX_CR_ISP_MTILE_SIZE," hexmask.quad 0x18 26.--63. 1. "RESERVED_26," newline hexmask.quad.word 0x18 16.--25. 1. "X,Macrotile width in tiles. A value of zero corresponds to the maximum size" newline hexmask.quad.byte 0x18 10.--15. 1. "RESERVED_10," newline hexmask.quad.word 0x18 0.--9. 1. "Y,Macrotile height in tiles. A value of zero corresponds to the maximum size" line.quad 0x20 "CORE_MMRS_RGX_CR_ISP_MTILE_BASE," hexmask.quad.tbyte 0x20 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x20 2.--39. 1. "ADDR,1TB range 32-bit aligned base address" newline rbitfld.quad 0x20 0.--1. "RESERVED_0," "0,1,2,3" line.quad 0x28 "CORE_MMRS_RGX_CR_ISP_RGN,This register defines the sizes of the allocations of the simple internal parameter data." hexmask.quad 0x28 29.--63. 1. "RESERVED_29," newline hexmask.quad.byte 0x28 24.--28. 1. "CS_SIZE,Number of primitive headers in the control stream for a fast 2D render. If the number of primitive headers exceeds the maximum field size or the size of the control stream is unknown a.." newline hexmask.quad.tbyte 0x28 0.--23. 1. "SIZE,Number of Region Headers to fetch" line.quad 0x30 "CORE_MMRS_RGX_CR_ISP_AA,Controls whether anti-aliasing is enabled or disabled" hexmask.quad 0x30 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x30 0.--1. "MODE," "0,1,2,3" line.quad 0x38 "CORE_MMRS_RGX_CR_ISP_CTL,ISP control register." hexmask.quad.long 0x38 32.--63. 1. "RESERVED_32," newline bitfld.quad 0x38 31. "SKIP_INIT_HDRS,Used to enable skipping of initial region headers based on gpu offset '0': reads all region headers and discards the ones not needed. '1': skip reading of.." "0: reads all region headers and discards the ones..,1: skip reading of region headers based on gpu offset" newline rbitfld.quad 0x38 29.--30. "RESERVED_29," "0,1,2,3" newline bitfld.quad 0x38 28. "PAIR_TILES_VERT,If set causes IPF to pair tiles vertically within its pipeline." "0,1" newline bitfld.quad 0x38 27. "PAIR_TILES,If set causes IPF to pair tiles within its pipeline." "0,1" newline hexmask.quad.byte 0x38 21.--26. 1. "RESERVED_21," newline bitfld.quad 0x38 20. "DBIAS_IS_INT,When set depth bias value is a signed integer" "0,1" newline bitfld.quad 0x38 19. "OVERLAP_CHECK_MODE,0 - different samples for the same pixel will be sent to different pass groups for translucent objects [pixel to pixel overlap test] 1 - different samples for the same pixel will be sent as the same pass.." "0,1" newline bitfld.quad 0x38 18. "PT_UPFRONT_DEPTH_DISABLE,When set disable UPFRONT depth test in the Depthsorter" "0,1" newline bitfld.quad 0x38 17. "PROCESS_EMPTY_TILES,When set empty tiles are always processed rather than being suppressed" "0,1" newline bitfld.quad 0x38 16. "SAMPLE_POS,Specifies the sampling rule to be used when calculating the endpoint adjustment for thin lines" "0,1" newline hexmask.quad.byte 0x38 12.--15. 1. "PIPE_ENABLE,Tiles-in-flight" newline rbitfld.quad 0x38 10.--11. "RESERVED_10," "0,1,2,3" newline hexmask.quad.byte 0x38 4.--9. 1. "VALID_ID,Triangle validation value" newline hexmask.quad.byte 0x38 0.--3. 1. "UPASS_START,User pass start value" line.quad 0x40 "CORE_MMRS_RGX_CR_ISP_SPLIT_RENDER," hexmask.quad.long 0x40 33.--63. 1. "RESERVED_33," newline bitfld.quad 0x40 32. "ENABLE," "0,1" newline rbitfld.quad 0x40 30.--31. "RESERVED_30," "0,1,2,3" newline hexmask.quad.word 0x40 16.--29. 1. "MAX,Render up to and including this value" newline rbitfld.quad 0x40 14.--15. "RESERVED_14," "0,1,2,3" newline hexmask.quad.word 0x40 0.--13. 1. "MIN,Render up from and including this value" line.quad 0x48 "CORE_MMRS_RGX_CR_ISP_ZLSCTL,ISP Z Load/Store & format global control register" hexmask.quad.byte 0x48 58.--63. 1. "RESERVED_58," newline hexmask.quad.word 0x48 48.--57. 1. "ZLSEXTENT_Y_S,For stencil buffer the value calculation is the same as ZLSEXTENT_Y_Z" newline hexmask.quad.word 0x48 38.--47. 1. "ZLSEXTENT_X_S,For stencil buffer the value calculation is the same as ZLSEXTENT_X_Z" newline bitfld.quad 0x48 37. "STENCIL_EXTENT_ENABLE,When this bit is '1' stencil buffer will use zlsextent_x/y_s value to calculate zload/store address otherwise zlsextent_x/y_z value will be used." "0,1" newline hexmask.quad.word 0x48 27.--36. 1. "ZLSEXTENT_Y_Z,For Depth buffer Display width of Y in tiles minus one: 0x000 1 tile 0x001 2 tiles .. 0x2FF 1024 tiles zlsextent_y = total_samples_y / 32.." newline bitfld.quad 0x48 25.--26. "ZSTOREFORMAT," "0,1,2,3" newline bitfld.quad 0x48 23.--24. "ZLOADFORMAT," "0,1,2,3" newline bitfld.quad 0x48 22. "FB_STOREEN,when set frame buffer compression store is enabled" "0,1" newline bitfld.quad 0x48 21. "FB_LOADEN,when set frame buffer decompression load is enabled" "0,1" newline bitfld.quad 0x48 20. "MSTOREEN,When set and ZSTOREFORMAT = 0x0 mask plane is stored within msb of IEEE format when set and ZSTOREFORMAT = 0x3 mask plane is stored at bit position 31 of IEEE format .." "0,1" newline bitfld.quad 0x48 19. "ZSTOREEN,When set to 1 if the ZSTORE bit in the region header is also set then the depth buffer is stored to memory after each tile is processed" "0,1" newline bitfld.quad 0x48 18. "SSTOREEN,When set to 1 if the ZSTORE bit in the region header is also set then the stencil buffer is stored to memory after each tile is processed" "0,1" newline bitfld.quad 0x48 17. "STORETWIDDLED,When set to 1 depth and stencil data is written out in Twiddled order." "0,1" newline bitfld.quad 0x48 16. "MLOADEN,When set and ZLOADFORMAT = 0x0 mask plane is loaded from msb of IEEE format when set and ZLOADFORMAT = 0x3 mask plane is loaded from the bit position 31 of IEEE format .." "0,1" newline bitfld.quad 0x48 15. "ZLOADEN,When set to 1 if the ZLOAD bit in the region header is also set then the depth buffer is read from memory prior to tile processing" "0,1" newline bitfld.quad 0x48 14. "SLOADEN,When set to 1 if the ZLOAD bit in the region header is also set then the stencil buffer is read from memory prior to tile processing" "0,1" newline bitfld.quad 0x48 13. "LOADTWIDDLED,When set to 1 depth stencil data is loaded in Twiddled order" "0,1" newline hexmask.quad.word 0x48 3.--12. 1. "ZLSEXTENT_X_Z,For depth buffer Display width of X in tiles minus one: 0x000 1 tile 0x001 2 tiles .. 0x2FF 1024 tiles. For different msaa mode .." newline bitfld.quad 0x48 2. "FORCEZSTORE,If set to 1 the depth/stencil buffer is always stored at the end of each tile irrespective of the region header ZSTORE bit." "0,1" newline bitfld.quad 0x48 1. "FORCEZLOAD,If set to 1 the depth/stencil buffer is always loaded at the start of each tile irrespective of the region header ZLOAD bit." "0,1" newline bitfld.quad 0x48 0. "ZONLYRENDER,When set only the Z buffer is rendered. Opaque and translucent objects are stencil and depth tested as usual but no pixel spans are emitted to the PDS Pixel presenter. Pixels within punch through and depth.." "0,1" line.quad 0x50 "CORE_MMRS_RGX_CR_ISP_ZLOAD_BASE,Base address in memory of the Z Buffer base address to load into the ISP for non-compressed ZLS formats." hexmask.quad.tbyte 0x50 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x50 4.--39. 1. "ADDR,1TB Addressable 16byte aligned Base Address of the Z Buffer Load base address" newline hexmask.quad.byte 0x50 0.--3. 1. "RESERVED_0," line.quad 0x58 "CORE_MMRS_RGX_CR_ISP_ZSTORE_BASE,Base address in memory of the Z Buffer base address to store into the ISP for non-compressed ZLS formats." hexmask.quad.tbyte 0x58 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x58 4.--39. 1. "ADDR,1TB Addressable 16byte aligned Base Address of the Z Buffer Store base address" newline hexmask.quad.byte 0x58 0.--3. 1. "RESERVED_0," line.quad 0x60 "CORE_MMRS_RGX_CR_ISP_STENCIL_LOAD_BASE,Base address in memory of the Stencil Buffer base address to load into the ISP for non-compressed ZLS formats." hexmask.quad.tbyte 0x60 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x60 4.--39. 1. "ADDR,1TB Addressable 16byte aligned Base Address of the Z Buffer Load base address" newline rbitfld.quad 0x60 1.--3. "RESERVED_1," "0,1,2,3,4,5,6,7" newline bitfld.quad 0x60 0. "ENABLE,When set to 1 enables fetching of stencil from a separate base address" "0,1" line.quad 0x68 "CORE_MMRS_RGX_CR_ISP_STENCIL_STORE_BASE,Base address in memory of the Stencil Buffer base address to store into the ISP for non-compressed ZLS formats." hexmask.quad.tbyte 0x68 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x68 4.--39. 1. "ADDR,1TB Addressable 16byte aligned Base Address of the Z Buffer Load base address" newline rbitfld.quad 0x68 1.--3. "RESERVED_1," "0,1,2,3,4,5,6,7" newline bitfld.quad 0x68 0. "ENABLE,When set to 1 enables fetching of stencil from a separate base address" "0,1" line.quad 0x70 "CORE_MMRS_RGX_CR_ISP_MASK_LOAD_BASE,Base address in memory of the Mask Buffer base address to load into the ISP for non-compressed ZLS formats." hexmask.quad.tbyte 0x70 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x70 4.--39. 1. "ADDR,1TB Addressable 16byte aligned Base Address of the Z Buffer Load base address" newline rbitfld.quad 0x70 1.--3. "RESERVED_1," "0,1,2,3,4,5,6,7" newline bitfld.quad 0x70 0. "ENABLE,When set to 1 enables fetching of mask from a separate base address" "0,1" line.quad 0x78 "CORE_MMRS_RGX_CR_ISP_MASK_STORE_BASE,Base address in memory of the Mask Buffer base address to store into the ISP for non-compressed ZLS formats." hexmask.quad.tbyte 0x78 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x78 4.--39. 1. "ADDR,1TB Addressable 16byte aligned Base Address of the Z Buffer Load base address" newline rbitfld.quad 0x78 1.--3. "RESERVED_1," "0,1,2,3,4,5,6,7" newline bitfld.quad 0x78 0. "ENABLE,When set to 1 enables fetching of mask from a separate base address" "0,1" line.quad 0x80 "CORE_MMRS_RGX_CR_ISP_BGOBJDEPTH,The ISP operates by comparing depth values of incoming objects with the results of previous depth compares." hexmask.quad.long 0x80 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x80 0.--31. 1. "VALUE,Note the format in this register has to be consistent with the format defined by ZLS_STORE_FORMAT register. If depth buffer is F32 then the value here should be IEEE 754 single precisoin.." line.quad 0x88 "CORE_MMRS_RGX_CR_ISP_BGOBJVALS,This register provides enable. mask and stencil information for the hardware background object." hexmask.quad 0x88 10.--63. 1. "RESERVED_10," newline bitfld.quad 0x88 9. "ENABLEBGTAG,When set to 1 at the start of each tile the ISP tag buffer is initialised with the background object tag [default = 1]" "0,1" newline bitfld.quad 0x88 8. "MASK,Hardware background object mask plane" "0,1" newline hexmask.quad.byte 0x88 0.--7. 1. "STENCIL,Hardware background object stencil" group.quad 0xFA0++0x3F line.quad 0x0 "CORE_MMRS_RGX_CR_ISP_GRIDOFFSET,Sample position grid offset for use when MSAA/ODAA is DISABLED" hexmask.quad 0x0 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x0 4.--7. 1. "GRID_Y,Unsigned sub-pixel offset" newline hexmask.quad.byte 0x0 0.--3. 1. "GRID_X,Unsigned sub-pixel offset" line.quad 0x8 "CORE_MMRS_RGX_CR_ISP_MULTISAMPLECTL,Sample position grid offset for use in 2x. 4x. 8xMSAA and ODAA modes." hexmask.quad.byte 0x8 60.--63. 1. "MSAA_Y7,Unsigned sub-pixel offset for the 8th multisample Y position" newline hexmask.quad.byte 0x8 56.--59. 1. "MSAA_X7,Unsigned sub-pixel offset for the 8th multisample X position" newline hexmask.quad.byte 0x8 52.--55. 1. "MSAA_Y6,Unsigned sub-pixel offset for the 7th multisample Y position" newline hexmask.quad.byte 0x8 48.--51. 1. "MSAA_X6,Unsigned sub-pixel offset for the 7th multisample X position" newline hexmask.quad.byte 0x8 44.--47. 1. "MSAA_Y5,Unsigned sub-pixel offset for the 6th multisample Y position" newline hexmask.quad.byte 0x8 40.--43. 1. "MSAA_X5,Unsigned sub-pixel offset for the 6th multisample X position" newline hexmask.quad.byte 0x8 36.--39. 1. "MSAA_Y4,Unsigned sub-pixel offset for the 5th multisample Y position" newline hexmask.quad.byte 0x8 32.--35. 1. "MSAA_X4,Unsigned sub-pixel offset for the 5th multisample X position" newline hexmask.quad.byte 0x8 28.--31. 1. "MSAA_Y3,Unsigned sub-pixel offset for the 4th multisample Y position" newline hexmask.quad.byte 0x8 24.--27. 1. "MSAA_X3,Unsigned sub-pixel offset for the 4th multisample X position" newline hexmask.quad.byte 0x8 20.--23. 1. "MSAA_Y2,Unsigned sub-pixel offset for the 3rd multisample Y position" newline hexmask.quad.byte 0x8 16.--19. 1. "MSAA_X2,Unsigned sub-pixel offset for the 3rd multisample X position" newline hexmask.quad.byte 0x8 12.--15. 1. "MSAA_Y1,Unsigned sub-pixel offset for the 2nd multisample Y position" newline hexmask.quad.byte 0x8 8.--11. 1. "MSAA_X1,Unsigned sub-pixel offset for the 2nd multisample X position" newline hexmask.quad.byte 0x8 4.--7. 1. "MSAA_Y0,Unsigned sub-pixel offset for the 1st multisample Y position" newline hexmask.quad.byte 0x8 0.--3. 1. "MSAA_X0,Unsigned sub-pixel offset for the 1st multisample X position" line.quad 0x10 "CORE_MMRS_RGX_CR_ISP_SCISSOR_BASE," hexmask.quad.tbyte 0x10 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x10 2.--39. 1. "ADDR,1TB range 32-bit aligned base address" newline rbitfld.quad 0x10 0.--1. "RESERVED_0," "0,1,2,3" line.quad 0x18 "CORE_MMRS_RGX_CR_ISP_DBIAS_BASE," hexmask.quad.tbyte 0x18 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x18 2.--39. 1. "ADDR,1TB range 32-bit aligned base address" newline rbitfld.quad 0x18 0.--1. "RESERVED_0," "0,1,2,3" line.quad 0x20 "CORE_MMRS_RGX_CR_ISP_OCLQRY_BASE,Base address for occlusion query counter values." hexmask.quad.tbyte 0x20 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x20 4.--39. 1. "ADDR,1TB range 128-bit aligned base address" newline hexmask.quad.byte 0x20 0.--3. 1. "RESERVED_0," line.quad 0x28 "CORE_MMRS_RGX_CR_ISP_PIXEL_BASE,Base address for control stream and primitive blocks." hexmask.quad.tbyte 0x28 40.--63. 1. "RESERVED_40," newline hexmask.quad.byte 0x28 34.--39. 1. "ADDR,1TB range 16GB granularity" newline hexmask.quad 0x28 0.--33. 1. "RESERVED_0," line.quad 0x30 "CORE_MMRS_RGX_CR_ISP_ZLS_PIXELS,screen size in pixel numbers for ZLS." hexmask.quad 0x30 30.--63. 1. "RESERVED_30," newline hexmask.quad.word 0x30 15.--29. 1. "Y,Display width of Y in pixels minus one. 0x000 1 pixel 0x001 2 pixels ... 0x7FFF 1024*32 pixels. Subtile only supports for non-msaa mode depth load/store .." newline hexmask.quad.word 0x30 0.--14. 1. "X,Display width of X in pixels minus one. 0x000 1 pixel 0x001 2 pixels ... 0x7FFF 1024*32 pixels. Subtile only supports for non-msaa mode depth load/store .." line.quad 0x38 "CORE_MMRS_RGX_CR_ISP_CTL2," hexmask.quad 0x38 5.--63. 1. "RESERVED_5," newline hexmask.quad.byte 0x38 0.--4. 1. "DEPTHBUFFERS_IN_USE,Specifies the number of depth buffers to use" group.quad 0x1000++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_ISP_START_CONTEXT_STORE,Writing '1' to this register initiates a 3D context store" hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "PULSE," "0,1" rgroup.quad 0x1008++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_ISP_STORE0,ISP context store register" hexmask.quad 0x0 31.--63. 1. "RESERVED_31," newline bitfld.quad 0x0 30. "ACTIVE," "0,1" newline bitfld.quad 0x0 29. "EOR," "0,1" newline bitfld.quad 0x0 28. "TILE_LAST," "0,1" newline hexmask.quad.byte 0x0 24.--27. 1. "MT," newline bitfld.quad 0x0 22.--23. "RESERVED_22," "0,1,2,3" newline hexmask.quad.word 0x0 12.--21. 1. "TILE_X," newline bitfld.quad 0x0 10.--11. "RESERVED_10," "0,1,2,3" newline hexmask.quad.word 0x0 0.--9. 1. "TILE_Y," group.quad 0x1020++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_ISP_RESUME0,ISP context resume register" hexmask.quad 0x0 22.--63. 1. "RESERVED_22," newline hexmask.quad.word 0x0 12.--21. 1. "TILE_X," newline rbitfld.quad 0x0 10.--11. "RESERVED_10," "0,1,2,3" newline hexmask.quad.word 0x0 0.--9. 1. "TILE_Y," rgroup.quad 0x1038++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_ISP_STATUS,ISP status registers" hexmask.quad 0x0 3.--63. 1. "RESERVED_3," newline bitfld.quad 0x0 2. "SPLIT_MAX,Split Render Maximum Threshold has been Exceeded" "0,1" newline bitfld.quad 0x0 1. "ACTIVE,ISP is Active first tile in the render has been assigned" "0,1" newline bitfld.quad 0x0 0. "EOR,ISP has assigned the last tile in the render" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_RAST_IDLE," hexmask.quad 0x8 5.--63. 1. "RESERVED_5," newline bitfld.quad 0x8 4. "TFPU,TFPU Module IDLE" "0,1" newline bitfld.quad 0x8 3. "TPF,TPF Module IDLE" "0,1" newline bitfld.quad 0x8 2. "IFPU,IFPU Module IDLE" "0,1" newline bitfld.quad 0x8 1. "ISP,ISP Module IDLE" "0,1" newline bitfld.quad 0x8 0. "IPF,IPF Module IDLE" "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_ISP_PWR_NUM," hexmask.quad.long 0x10 32.--63. 1. "VERTICES_PROCESS,Number of vertices processed" newline hexmask.quad.long 0x10 0.--31. 1. "PIXELS_PROCESS,Number of depth tested pixels[non-MSAA] or samples[MSAA] processed" rgroup.quad 0x1058++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_TFPU_PWR_NUM," hexmask.quad.long 0x0 32.--63. 1. "LAYERS_PROCESSED,Number of layers processed" newline hexmask.quad.long 0x0 0.--31. 1. "PRIMITIVES_PROCESSED,Number of primitives processed" group.quad 0x11D0++0x87 line.quad 0x0 "CORE_MMRS_RGX_CR_ISP_MERGE_LOWER_X,Used by the IFPU to generate the angle vectors used for triangle merging" hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "VALUE,tan[15]/16k screen size" line.quad 0x8 "CORE_MMRS_RGX_CR_ISP_MERGE_LOWER_Y,Used by the IFPU to generate the angle vectors used for triangle merging" hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "VALUE,tan[15]/16k screen size" line.quad 0x10 "CORE_MMRS_RGX_CR_ISP_MERGE_UPPER_X," hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x10 0.--31. 1. "VALUE,tan[60]/16k screen size" line.quad 0x18 "CORE_MMRS_RGX_CR_ISP_MERGE_UPPER_Y,Used by the IFPU to generate the angle vectors used for triangle merging" hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x18 0.--31. 1. "VALUE,tan[60]/16k screen size" line.quad 0x20 "CORE_MMRS_RGX_CR_ISP_MERGE_SCALE_X," hexmask.quad.long 0x20 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x20 0.--31. 1. "VALUE,16 * default screen size of 16k" line.quad 0x28 "CORE_MMRS_RGX_CR_ISP_MERGE_SCALE_Y,Used by the IFPU to generate the angle vectors used for triangle merging" hexmask.quad.long 0x28 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x28 0.--31. 1. "VALUE,16 * default screen size of 16k" line.quad 0x30 "CORE_MMRS_RGX_CR_BIF_CAT_BASE0," hexmask.quad.tbyte 0x30 40.--63. 1. "RESERVED_40," newline hexmask.quad.long 0x30 12.--39. 1. "ADDR," newline hexmask.quad.word 0x30 0.--11. 1. "RESERVED_0," line.quad 0x38 "CORE_MMRS_RGX_CR_BIF_CAT_BASE1," hexmask.quad.tbyte 0x38 40.--63. 1. "RESERVED_40," newline hexmask.quad.long 0x38 12.--39. 1. "ADDR," newline hexmask.quad.word 0x38 0.--11. 1. "RESERVED_0," line.quad 0x40 "CORE_MMRS_RGX_CR_BIF_CAT_BASE2," hexmask.quad.tbyte 0x40 40.--63. 1. "RESERVED_40," newline hexmask.quad.long 0x40 12.--39. 1. "ADDR," newline hexmask.quad.word 0x40 0.--11. 1. "RESERVED_0," line.quad 0x48 "CORE_MMRS_RGX_CR_BIF_CAT_BASE3," hexmask.quad.tbyte 0x48 40.--63. 1. "RESERVED_40," newline hexmask.quad.long 0x48 12.--39. 1. "ADDR," newline hexmask.quad.word 0x48 0.--11. 1. "RESERVED_0," line.quad 0x50 "CORE_MMRS_RGX_CR_BIF_CAT_BASE4," hexmask.quad.tbyte 0x50 40.--63. 1. "RESERVED_40," newline hexmask.quad.long 0x50 12.--39. 1. "ADDR," newline hexmask.quad.word 0x50 0.--11. 1. "RESERVED_0," line.quad 0x58 "CORE_MMRS_RGX_CR_BIF_CAT_BASE5," hexmask.quad.tbyte 0x58 40.--63. 1. "RESERVED_40," newline hexmask.quad.long 0x58 12.--39. 1. "ADDR," newline hexmask.quad.word 0x58 0.--11. 1. "RESERVED_0," line.quad 0x60 "CORE_MMRS_RGX_CR_BIF_CAT_BASE6," hexmask.quad.tbyte 0x60 40.--63. 1. "RESERVED_40," newline hexmask.quad.long 0x60 12.--39. 1. "ADDR," newline hexmask.quad.word 0x60 0.--11. 1. "RESERVED_0," line.quad 0x68 "CORE_MMRS_RGX_CR_BIF_CAT_BASE7," hexmask.quad.tbyte 0x68 40.--63. 1. "RESERVED_40," newline hexmask.quad.long 0x68 12.--39. 1. "ADDR," newline hexmask.quad.word 0x68 0.--11. 1. "RESERVED_0," line.quad 0x70 "CORE_MMRS_RGX_CR_BIF_CAT_BASE_INDEX,Index registers per data master. Byte aligned fields to allow byte-masked access" hexmask.quad.long 0x70 35.--63. 1. "RESERVED_35," newline bitfld.quad 0x70 32.--34. "HOST,Catalogue Base number for HOST data master" "0,1,2,3,4,5,6,7" newline hexmask.quad.word 0x70 19.--31. 1. "RESERVED_19," newline bitfld.quad 0x70 16.--18. "CDM,Catalogue Base number for CDM data master" "0,1,2,3,4,5,6,7" newline hexmask.quad.byte 0x70 11.--15. 1. "RESERVED_11," newline bitfld.quad 0x70 8.--10. "PIXEL,Catalogue Base number for PIXEL data master" "0,1,2,3,4,5,6,7" newline hexmask.quad.byte 0x70 3.--7. 1. "RESERVED_3," newline bitfld.quad 0x70 0.--2. "TA,Catalogue Base number for TA data master" "0,1,2,3,4,5,6,7" line.quad 0x78 "CORE_MMRS_RGX_CR_BIF_PM_CAT_BASE_VCE0,PM catalogue base address for VCE context 0" hexmask.quad.byte 0x78 60.--63. 1. "RESERVED_60," newline hexmask.quad.tbyte 0x78 40.--59. 1. "INIT_PAGE," newline hexmask.quad.byte 0x78 36.--39. 1. "RESERVED_36," newline hexmask.quad.tbyte 0x78 12.--35. 1. "ADDR," newline hexmask.quad.word 0x78 2.--11. 1. "RESERVED_2," newline bitfld.quad 0x78 1. "WRAP,Indicates address space has been fully allocated" "0,1" newline bitfld.quad 0x78 0. "VALID," "0,1" line.quad 0x80 "CORE_MMRS_RGX_CR_BIF_PM_CAT_BASE_TE0,PM catalogue base address for TE context 0" hexmask.quad.byte 0x80 60.--63. 1. "RESERVED_60," newline hexmask.quad.tbyte 0x80 40.--59. 1. "INIT_PAGE," newline hexmask.quad.byte 0x80 36.--39. 1. "RESERVED_36," newline hexmask.quad.tbyte 0x80 12.--35. 1. "ADDR," newline hexmask.quad.word 0x80 2.--11. 1. "RESERVED_2," newline bitfld.quad 0x80 1. "WRAP," "0,1" newline bitfld.quad 0x80 0. "VALID," "0,1" group.quad 0x1260++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_BIF_PM_CAT_BASE_ALIST0,PM catalogue base address for ALIST context 0" hexmask.quad.byte 0x0 60.--63. 1. "RESERVED_60," newline hexmask.quad.tbyte 0x0 40.--59. 1. "INIT_PAGE," newline hexmask.quad.byte 0x0 36.--39. 1. "RESERVED_36," newline hexmask.quad.tbyte 0x0 12.--35. 1. "ADDR," newline hexmask.quad.word 0x0 2.--11. 1. "RESERVED_2," newline bitfld.quad 0x0 1. "WRAP," "0,1" newline bitfld.quad 0x0 0. "VALID," "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_BIF_PM_CAT_BASE_VCE1,PM catalogue base address for VCE context 1" hexmask.quad.byte 0x8 60.--63. 1. "RESERVED_60," newline hexmask.quad.tbyte 0x8 40.--59. 1. "INIT_PAGE," newline hexmask.quad.byte 0x8 36.--39. 1. "RESERVED_36," newline hexmask.quad.tbyte 0x8 12.--35. 1. "ADDR," newline hexmask.quad.word 0x8 2.--11. 1. "RESERVED_2," newline bitfld.quad 0x8 1. "WRAP," "0,1" newline bitfld.quad 0x8 0. "VALID," "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_BIF_PM_CAT_BASE_TE1,PM catalogue base address for TE context 1" hexmask.quad.byte 0x10 60.--63. 1. "RESERVED_60," newline hexmask.quad.tbyte 0x10 40.--59. 1. "INIT_PAGE," newline hexmask.quad.byte 0x10 36.--39. 1. "RESERVED_36," newline hexmask.quad.tbyte 0x10 12.--35. 1. "ADDR," newline hexmask.quad.word 0x10 2.--11. 1. "RESERVED_2," newline bitfld.quad 0x10 1. "WRAP," "0,1" newline bitfld.quad 0x10 0. "VALID," "0,1" group.quad 0x1280++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_BIF_PM_CAT_BASE_ALIST1,PM catalogue base address for ALIST context 1" hexmask.quad.byte 0x0 60.--63. 1. "RESERVED_60," newline hexmask.quad.tbyte 0x0 40.--59. 1. "INIT_PAGE," newline hexmask.quad.byte 0x0 36.--39. 1. "RESERVED_36," newline hexmask.quad.tbyte 0x0 12.--35. 1. "ADDR," newline hexmask.quad.word 0x0 2.--11. 1. "RESERVED_2," newline bitfld.quad 0x0 1. "WRAP," "0,1" newline bitfld.quad 0x0 0. "VALID," "0,1" group.quad 0x12A0++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_BIF_CTRL_INVAL,Invalidation bits allowing BIF/MMU to clear when invalidation complete" hexmask.quad 0x0 4.--63. 1. "RESERVED_4," newline bitfld.quad 0x0 3. "TLB1," "0,1" newline bitfld.quad 0x0 2. "PC," "0,1" newline bitfld.quad 0x0 1. "PD," "0,1" newline bitfld.quad 0x0 0. "PT," "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_BIF_CTRL,Miscellaneous controls" hexmask.quad 0x8 10.--63. 1. "RESERVED_10," newline bitfld.quad 0x8 9. "PAUSE_MMU_CPU,Stalls input to CPU MMU" "0,1" newline hexmask.quad.byte 0x8 4.--8. 1. "RESERVED_4," newline bitfld.quad 0x8 3. "PAUSE_BIF1,Stalls BIF1 pipeline" "0,1" newline bitfld.quad 0x8 2. "PAUSE_MMU_PM,Stalls PM input to MMU" "0,1" newline rbitfld.quad 0x8 1. "RESERVED_1," "0,1" newline bitfld.quad 0x8 0. "PAUSE_MMU_BIF0,Stalls BIF0 input to MMU" "0,1" rgroup.quad 0x12B0++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_BIF_FAULT_BANK0_MMU_STATUS,Indicates a fault has occurred on bank 0 and provides details of fault" hexmask.quad 0x0 16.--63. 1. "RESERVED_16," newline hexmask.quad.byte 0x0 12.--15. 1. "CAT_BASE,Catalogue base address number" newline bitfld.quad 0x0 11. "RESERVED_11," "0,1" newline bitfld.quad 0x0 8.--10. "PAGE_SIZE,Page size" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x0 7. "RESERVED_7," "0,1" newline bitfld.quad 0x0 5.--6. "DATA_TYPE,MMU data type that was invalid [on valid fault]" "0,1,2,3" newline bitfld.quad 0x0 4. "FAULT_RO,Indicates read-only fault['1'] or valid fault['0']" "0,1" newline bitfld.quad 0x0 3. "RESERVED_3," "0,1" newline bitfld.quad 0x0 2. "FAULT_PM_META_RO,Indicates pm/meta protected region fault" "0,1" newline bitfld.quad 0x0 1. "RESERVED_1," "0,1" newline bitfld.quad 0x0 0. "FAULT,Indicates a fault has occured" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_BIF_FAULT_BANK0_REQ_STATUS,Provides details of the request that faulted on bank 0" hexmask.quad.word 0x8 53.--63. 1. "RESERVED_53," newline bitfld.quad 0x8 52. "RNW," "0,1" newline hexmask.quad.byte 0x8 46.--51. 1. "TAG_SB," newline hexmask.quad.byte 0x8 40.--45. 1. "TAG_ID," newline hexmask.quad 0x8 4.--39. 1. "ADDRESS," newline hexmask.quad.byte 0x8 0.--3. 1. "RESERVED_0," rgroup.quad 0x12D0++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_BIF_MMU_STATUS,General MMU status" hexmask.quad 0x0 29.--63. 1. "RESERVED_29," newline bitfld.quad 0x0 28. "PM_FAULT," "0,1" newline hexmask.quad.byte 0x0 20.--27. 1. "PC_DATA," newline hexmask.quad.byte 0x0 12.--19. 1. "PD_DATA," newline hexmask.quad.byte 0x0 4.--11. 1. "PT_DATA," newline bitfld.quad 0x0 3. "RESERVED_3," "0,1" newline bitfld.quad 0x0 2. "STALLED," "0,1" newline bitfld.quad 0x0 1. "PAUSED," "0,1" newline bitfld.quad 0x0 0. "BUSY," "0,1" rgroup.quad 0x1320++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_BIF_READS_EXT_STATUS,Outstanding read data external to BIF for BIF128 and MMU" hexmask.quad 0x0 28.--63. 1. "RESERVED_28," newline hexmask.quad.word 0x0 16.--27. 1. "MMU," newline hexmask.quad.word 0x0 0.--15. 1. "BANK1," line.quad 0x8 "CORE_MMRS_RGX_CR_BIF_READS_INT_STATUS,Outstanding 256-bit read data in return data FIFO for BIF128 and MMU" hexmask.quad 0x8 27.--63. 1. "RESERVED_27," newline hexmask.quad.word 0x8 16.--26. 1. "MMU," newline hexmask.quad.word 0x8 0.--15. 1. "BANK1," line.quad 0x10 "CORE_MMRS_RGX_CR_BIFPM_READS_INT_STATUS,Outstanding 256-bit read data in return data FIFO for BIF256" hexmask.quad 0x10 16.--63. 1. "RESERVED_16," newline hexmask.quad.word 0x10 0.--15. 1. "BANK0," line.quad 0x18 "CORE_MMRS_RGX_CR_BIFPM_READS_EXT_STATUS,Outstanding 256-bit read data external to BIF for BIF256" hexmask.quad 0x18 16.--63. 1. "RESERVED_16," newline hexmask.quad.word 0x18 0.--15. 1. "BANK0," group.quad 0x1340++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_BIFPM_CTRL,Miscellaneous controls" hexmask.quad 0x0 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x0 1. "ENABLE_SLC_STALLING,Enables BIF to stall returns from SLC so that requests can be made even when there is no space in the BIF return buffer [only when no chance of lockup]" "0,1" newline bitfld.quad 0x0 0. "PAUSE_BIF0,Stalls BIF0 pipeline" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_BIFPM_CTRL_INVAL,Invalidation bits allowing BIF to clear when invalidation complete" hexmask.quad 0x8 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x8 0. "TLB0," "0,1" rgroup.quad 0x1350++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_BIFPM_STATUS_MMU,Outstanding MMU requests from BIF0" hexmask.quad 0x0 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x0 0.--7. 1. "REQUESTS," line.quad 0x8 "CORE_MMRS_RGX_CR_BIF_STATUS_MMU,Outstanding MMU requests from BIF1" hexmask.quad 0x8 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x8 0.--7. 1. "REQUESTS," rgroup.quad 0x1370++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_BIF_BLACKPEARL_PWR,Power monitoring register" hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "NUM_256BIT_TRANS,Number of 256-bit transactions" line.quad 0x8 "CORE_MMRS_RGX_CR_BIF_JONES_PWR,Power monitoring register" hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "NUM_256BIT_TRANS,Number of 256-bit transactions" group.quad 0x13E0++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_BIF_FAULT_READ,Specifies physical address to read from in the event of a faulting read request from BIF1" hexmask.quad.tbyte 0x0 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x0 4.--39. 1. "ADDRESS," newline hexmask.quad.byte 0x0 0.--3. 1. "RESERVED_0," rgroup.quad 0x13E8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_BIF_PWR,Power monitoring register" hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "NUM_256BIT_TRANS,Number of 256-bit transactions" group.quad 0x13F8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_BIF_MCU_RESERVED,Allows driver to change the amount of space in the return data FIFO reserved for the MCU" hexmask.quad 0x0 5.--63. 1. "RESERVED_5," newline hexmask.quad.byte 0x0 0.--4. 1. "SPACE,Granularity of 8 spaces minimum legal value 0x1" rgroup.quad 0x1430++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_TEXAS_BIF_FAULT_BANK0_MMU_STATUS,Indicates a fault has occurred on bank 0 and provides details of fault" hexmask.quad 0x0 16.--63. 1. "RESERVED_16," newline hexmask.quad.byte 0x0 12.--15. 1. "CAT_BASE,Catalogue base address number" newline bitfld.quad 0x0 11. "RESERVED_11," "0,1" newline bitfld.quad 0x0 8.--10. "PAGE_SIZE,Page size" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x0 7. "RESERVED_7," "0,1" newline bitfld.quad 0x0 5.--6. "DATA_TYPE,MMU data type that was invalid [on valid fault]" "0,1,2,3" newline bitfld.quad 0x0 4. "FAULT_RO,Indicates read-only fault['1'] or valid fault['0']" "0,1" newline bitfld.quad 0x0 3. "RESERVED_3," "0,1" newline bitfld.quad 0x0 2. "FAULT_PM_META_RO,Indicates pm/meta protected region fault" "0,1" newline bitfld.quad 0x0 1. "RESERVED_1," "0,1" newline bitfld.quad 0x0 0. "FAULT,Indicates a fault has occured" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_TEXAS_BIF_FAULT_BANK0_REQ_STATUS,Provides details of the request that faulted on bank 0" hexmask.quad.word 0x8 51.--63. 1. "RESERVED_51," newline bitfld.quad 0x8 50. "RNW," "0,1" newline hexmask.quad.byte 0x8 44.--49. 1. "TAG_SB," newline hexmask.quad.byte 0x8 40.--43. 1. "TAG_ID," newline hexmask.quad 0x8 4.--39. 1. "ADDRESS," newline hexmask.quad.byte 0x8 0.--3. 1. "RESERVED_0," line.quad 0x10 "CORE_MMRS_RGX_CR_TEXAS_BIFPM_READS_INT_STATUS,Outstanding 256-bit read data in return data FIFO for BIF256" hexmask.quad 0x10 16.--63. 1. "RESERVED_16," newline hexmask.quad.word 0x10 0.--15. 1. "BANK0," line.quad 0x18 "CORE_MMRS_RGX_CR_TEXAS_BIFPM_READS_EXT_STATUS,Outstanding 256-bit read data external to BIF for BIF256" hexmask.quad 0x18 16.--63. 1. "RESERVED_16," newline hexmask.quad.word 0x18 0.--15. 1. "BANK0," line.quad 0x20 "CORE_MMRS_RGX_CR_TEXAS_BIFPM_STATUS_MMU,Outstanding MMU requests from BIF0" hexmask.quad 0x20 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x20 0.--7. 1. "REQUESTS," group.quad 0x1460++0x3F line.quad 0x0 "CORE_MMRS_RGX_CR_BIF_OSID0,Defines OSID for each CAT_BASE" hexmask.quad.byte 0x0 59.--63. 1. "RESERVED_59," newline bitfld.quad 0x0 56.--58. "CBASE7,OSID for CAT BASE 7" "0,1,2,3,4,5,6,7" newline hexmask.quad.byte 0x0 51.--55. 1. "RESERVED_51," newline bitfld.quad 0x0 48.--50. "CBASE6,OSID for CAT BASE 6" "0,1,2,3,4,5,6,7" newline hexmask.quad.byte 0x0 43.--47. 1. "RESERVED_43," newline bitfld.quad 0x0 40.--42. "CBASE5,OSID for CAT BASE 5" "0,1,2,3,4,5,6,7" newline hexmask.quad.byte 0x0 35.--39. 1. "RESERVED_35," newline bitfld.quad 0x0 32.--34. "CBASE4,OSID for CAT BASE 4" "0,1,2,3,4,5,6,7" newline hexmask.quad.byte 0x0 27.--31. 1. "RESERVED_27," newline bitfld.quad 0x0 24.--26. "CBASE3,OSID for CAT BASE 3" "0,1,2,3,4,5,6,7" newline hexmask.quad.byte 0x0 19.--23. 1. "RESERVED_19," newline bitfld.quad 0x0 16.--18. "CBASE2,OSID for CAT BASE 2" "0,1,2,3,4,5,6,7" newline hexmask.quad.byte 0x0 11.--15. 1. "RESERVED_11," newline bitfld.quad 0x0 8.--10. "CBASE1,OSID for CAT BASE 1" "0,1,2,3,4,5,6,7" newline hexmask.quad.byte 0x0 3.--7. 1. "RESERVED_3," newline bitfld.quad 0x0 0.--2. "CBASE0,OSID for CAT BASE 0" "0,1,2,3,4,5,6,7" line.quad 0x8 "CORE_MMRS_RGX_CR_BIF_OSID1,Defines OSID for each data master" hexmask.quad 0x8 11.--63. 1. "RESERVED_11," newline bitfld.quad 0x8 8.--10. "PM_CTX1,OSID for VCE1 TE1 and ALIST1" "0,1,2,3,4,5,6,7" newline hexmask.quad.byte 0x8 3.--7. 1. "RESERVED_3," newline bitfld.quad 0x8 0.--2. "PM_CTX0,OSID for VCE0 TE0 and ALIST0" "0,1,2,3,4,5,6,7" line.quad 0x10 "CORE_MMRS_RGX_CR_TFBC_ZLS_COMPRESSOR_CFI,ZLS TFBC compressor cache control flush" hexmask.quad 0x10 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x10 0. "PENDING,Write a one to this register to initiate a flush of the ZLS TFBC Compressor cache. This register can be read. If the value is one the this indicates a flush operation is underway." "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_TFBC_PBE_COMPRESSOR_CFI,PBE TFBC compressor cache control flush" hexmask.quad 0x18 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x18 0. "PENDING,Write a one to this register to initiate a flush of the PBE TFBC Compressor cache. This register can be read. If the value is one the this indicates a flush operation is underway." "0,1" line.quad 0x20 "CORE_MMRS_RGX_CR_TFBC_ZLS_DECOMPRESSOR_CFI,ZLS TFBC decompressor cache invalidation" hexmask.quad 0x20 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x20 0. "INVALIDATE,Informs the ZLS decompressor to invalidate its cache." "0,1" line.quad 0x28 "CORE_MMRS_RGX_CR_TFBC_TPU_DECOMPRESSOR_CFI,TPU TFBC decompressor cache invalidation" hexmask.quad 0x28 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x28 0. "INVALIDATE,Informs the TPU decompressor to invalidate its cache." "0,1" line.quad 0x30 "CORE_MMRS_RGX_CR_TFBC_CACHE_CTRL,TFBC compressor and decompressor cache control register" hexmask.quad 0x30 22.--63. 1. "RESERVED_22," newline bitfld.quad 0x30 21. "ZLS_DECOMPRESSOR_BYPASS,When set to 1 the ZLS decompressor cache is disabled." "0,1" newline bitfld.quad 0x30 20. "TPU_DECOMPRESSOR_BYPASS,When set to 1 the TPU decompressor cache is disabled." "0,1" newline bitfld.quad 0x30 19. "ZLS_COMPRESSOR_DELTA_NOHAZARD,When set to 1 the ZLS compressor no_hazard signal is set high to the SLC for delta writes. This will cause the TFBC to disable hazard checking in the SLC for delta writes." "0,1" newline bitfld.quad 0x30 18. "ZLS_COMPRESSOR_HEADER_NOHAZARD,When set to 1 the ZLS compressor no_hazard signal is set high to the SLC for header writes. This will cause the TFBC to disable hazard checking in the SLC for header writes." "0,1" newline bitfld.quad 0x30 17. "ZLS_COMPRESSOR_DELTA_NOLINEFILL,When set to 0 the ZLS compressor line fills data from memory before writing data back for deltas. When set to 1 the ZLS compressor does not line fill from memory for deltas." "0,1" newline bitfld.quad 0x30 16. "ZLS_COMPRESSOR_HEADER_NOLINEFILL,When set to 0 the ZLS compressor line fills data from memory before writing data back for headers. When set to 1 the ZLS compressor does not line fill from memory for headers." "0,1" newline bitfld.quad 0x30 15. "ZLS_COMPRESSOR_DELTA_POLICY_OVERRIDE,When set to 0 the ZLS compressor will use the SLC policy supplied by the ZLS for delta writes. When set to 1 the ZLS compressor will use the ZLS_COMPRESSOR_DELTA_POLICY for delta writes." "0,1" newline bitfld.quad 0x30 14. "ZLS_COMPRESSOR_HEADER_POLICY_OVERRIDE,When set to 0 the ZLS compressor will use the SLC policy supplied by the ZLS for header writes. When set to 1 the ZLS compressor will use the ZLS_COMPRESSOR_HEADER_POLICY for header.." "0,1" newline bitfld.quad 0x30 12.--13. "ZLS_COMPRESSOR_DELTA_POLICY,SLC cache policy applied to ZLS compressor delta writes when ZLS_COMPRESSOR_DELTA_POLICY_OVERRIDE is set to 1" "0,1,2,3" newline bitfld.quad 0x30 10.--11. "ZLS_COMPRESSOR_HEADER_POLICY,SLC cache policy applied to ZLS compressor header writes when ZLS_COMPRESSOR_HEADER_POLICY_OVERRIDE is set to 1" "0,1,2,3" newline bitfld.quad 0x30 9. "PBE_COMPRESSOR_DELTA_NOHAZARD,When set to 1 the PBE compressor no_hazard signal is set high to the SLC for delta writes. This will cause the TFBC to disable hazard checking in the SLC for delta writes." "0,1" newline bitfld.quad 0x30 8. "PBE_COMPRESSOR_HEADER_NOHAZARD,When set to 1 the PBE compressor no_hazard signal is set high to the SLC for header writes. This will cause the TFBC to disable hazard checking in the SLC for header writes." "0,1" newline bitfld.quad 0x30 7. "PBE_COMPRESSOR_DELTA_NOLINEFILL,When set to 0 the PBE compressor line fills data from memory before writing data back for deltas. When set to 1 the PBE compressor does not line fill from memory for deltas." "0,1" newline bitfld.quad 0x30 6. "PBE_COMPRESSOR_HEADER_NOLINEFILL,When set to 0 the PBE compressor line fills data from memory before writing data back for headers. When set to 1 the PBE compressor does not line fill from memory for headers." "0,1" newline bitfld.quad 0x30 5. "PBE_COMPRESSOR_DELTA_POLICY_OVERRIDE,When set to 0 the PBE compressor will use the SLC policy supplied by the PBE for delta writes. When set to 1 the PBE compressor will use the PBE_COMPRESSOR_DELTA_POLICY for delta writes." "0,1" newline bitfld.quad 0x30 4. "PBE_COMPRESSOR_HEADER_POLICY_OVERRIDE,When set to 0 the PBE compressor will use the SLC policy supplied by the PBE for header writes. When set to 1 the PBE compressor will use the PBE_COMPRESSOR_HEADER_POLICY for header.." "0,1" newline bitfld.quad 0x30 2.--3. "PBE_COMPRESSOR_DELTA_POLICY,SLC cache policy applied to PBE compressor delta writes when PBE_COMPRESSOR_DELTA_POLICY_OVERRIDE is set to 1" "0,1,2,3" newline bitfld.quad 0x30 0.--1. "PBE_COMPRESSOR_HEADER_POLICY,SLC cache policy applied to PBE compressor header writes when PBE_COMPRESSOR_HEADER_POLICY_OVERRIDE is set to 1" "0,1,2,3" line.quad 0x38 "CORE_MMRS_RGX_CR_TFBC_CTRL,General TFBC control register" hexmask.quad 0x38 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x38 1. "ZLS_CRC_ENABLE,Enable the generation of CRCs for compression depth buffer writes." "0,1" newline bitfld.quad 0x38 0. "PBE_CRC_ENABLE,Enable the generation of CRCs for compressed frame buffer writes." "0,1" group.quad 0x1500++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PBE,The PBE(Pixel back end) module scales and packs the pixel data before writing to memory." hexmask.quad 0x0 9.--63. 1. "RESERVED_9," newline bitfld.quad 0x0 8. "AA_EDGEOPT_OFF,Switches off the PBE-USE read optimisation during Anti aliasing mode. [This is typically for debug purposes only]" "0,1" newline hexmask.quad.byte 0x0 0.--7. 1. "ALPHATHRESHOLD,Alpha threshold used when encoding 1555 format. If the internal 8bit Alpha value exceeds this value then a 1 is written to the top bit of the output otherwise a 0 is written" rgroup.quad 0x1508++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PBE_EMIT_STATUS,This register indicates if the PixelBE would stall the USE if there were another emit." hexmask.quad 0x0 16.--63. 1. "RESERVED_16," newline bitfld.quad 0x0 15. "USC15,Pipe 15 status" "0,1" newline bitfld.quad 0x0 14. "USC14,Pipe 14 status" "0,1" newline bitfld.quad 0x0 13. "USC13,Pipe 13 status" "0,1" newline bitfld.quad 0x0 12. "USC12,Pipe 12 status" "0,1" newline bitfld.quad 0x0 11. "USC11,Pipe 11 status" "0,1" newline bitfld.quad 0x0 10. "USC10,Pipe 10 status" "0,1" newline bitfld.quad 0x0 9. "USC9,Pipe 9 status" "0,1" newline bitfld.quad 0x0 8. "USC8,Pipe 8 status" "0,1" newline bitfld.quad 0x0 7. "USC7,Pipe 7 status" "0,1" newline bitfld.quad 0x0 6. "USC6,Pipe 6 status" "0,1" newline bitfld.quad 0x0 5. "USC5,Pipe 5 status" "0,1" newline bitfld.quad 0x0 4. "USC4,Pipe 4 status" "0,1" newline bitfld.quad 0x0 3. "USC3,Pipe 3 status" "0,1" newline bitfld.quad 0x0 2. "USC2,Pipe 2 status" "0,1" newline bitfld.quad 0x0 1. "USC1,Pipe 1 status" "0,1" newline bitfld.quad 0x0 0. "USC0,Pipe 0 status" "0,1" group.quad 0x1510++0x7F line.quad 0x0 "CORE_MMRS_RGX_CR_PBE_WORD0_MRT0,Pixel Back end State Word 0." bitfld.quad 0x0 62.--63. "TFBC_LOSSY,Sets the lossy bit for frame buffer compression" "0,1,2,3" newline bitfld.quad 0x0 61. "COMPRESS_SIZE_EXT,Extra bit to support 32x2 compression size used with COMPRESS_SIZE register bit to define 8x8; 16x4 or 32x2 size COMPRESS_SIZE_EXT COMPRESS_SIZE SIZE 0 0.." "0,1" newline bitfld.quad 0x0 60. "PAIR_TILES,If set then PBE will pair 16x16 tiles" "0,1" newline bitfld.quad 0x0 59. "X_RSRVD2,Not used" "0,1" newline bitfld.quad 0x0 58. "DITHER,Enable dither" "0,1" newline bitfld.quad 0x0 57. "TILERELATIVE,Add tile offset" "0,1" newline bitfld.quad 0x0 56. "DOWNSCALE,Perform box filter downscale" "0,1" newline hexmask.quad.byte 0x0 52.--55. 1. "SIZE_Z,Z Size in pixels [log 2]" newline bitfld.quad 0x0 50.--51. "ROTATION,Rotation angle" "0,1,2,3" newline hexmask.quad.word 0x0 34.--49. 1. "LINESTRIDE,Linestride in 2 pixel units. 0 == 2. Supports 32KDWORD stride memory write" newline bitfld.quad 0x0 32.--33. "MEMLAYOUT,Memory layout" "0,1,2,3" newline bitfld.quad 0x0 29.--31. "SWIZ_CHAN3,Swizzle for destination channel 3" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x0 26.--28. "SWIZ_CHAN2,Swizzle for destination channel 2" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x0 23.--25. "SWIZ_CHAN1,Swizzle for destination channel 1" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x0 20.--22. "SWIZ_CHAN0,Swizzle for destination channel 0" "0,1,2,3,4,5,6,7" newline hexmask.quad.word 0x0 6.--19. 1. "MINCLIP_X,Min X Clip" newline bitfld.quad 0x0 5. "TWOCOMP_GAMMA,Sets the gamma mode for 2 component targets" "0,1" newline bitfld.quad 0x0 4. "GAMMA,Gamma enabled" "0,1" newline bitfld.quad 0x0 3. "COMPRESSION,Frame buffer Compression enabled" "0,1" newline bitfld.quad 0x0 2. "COMPRESS_SIZE,Block size for the compressor used with COMPRESS_SIZE_EXT register bit to define 8x8; 16x4 or 32x2 size COMPRESS_SIZE_EXT COMPRESS_SIZE SIZE 0 0 8x8.." "0,1" newline bitfld.quad 0x0 1. "COMP_INDIRECT_TABLE,If set indicates to the compressor that an indirect addressing is used otherwise direct addressing" "0,1" newline bitfld.quad 0x0 0. "Y_FLIP," "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_PBE_WORD0_MRT1,Pixel Back end State Word 0." bitfld.quad 0x8 62.--63. "TFBC_LOSSY,Sets the lossy bit for frame buffer compression" "0,1,2,3" newline bitfld.quad 0x8 61. "COMPRESS_SIZE_EXT,Extra bit to support 32x2 compression size used with COMPRESS_SIZE register bit to define 8x8; 16x4 or 32x2 size COMPRESS_SIZE_EXT COMPRESS_SIZE SIZE 0 0.." "0,1" newline bitfld.quad 0x8 60. "PAIR_TILES,If set then PBE will pair 16x16 tiles" "0,1" newline bitfld.quad 0x8 59. "X_RSRVD2,Not used" "0,1" newline bitfld.quad 0x8 58. "DITHER,Enable dither" "0,1" newline bitfld.quad 0x8 57. "TILERELATIVE,Add tile offset" "0,1" newline bitfld.quad 0x8 56. "DOWNSCALE,Perform box filter downscale" "0,1" newline hexmask.quad.byte 0x8 52.--55. 1. "SIZE_Z,Z Size in pixels [log 2]" newline bitfld.quad 0x8 50.--51. "ROTATION,Rotation angle" "0,1,2,3" newline hexmask.quad.word 0x8 34.--49. 1. "LINESTRIDE,Linestride in 2 pixel units. 0 == 2. Supports 32KDWORD stride memory write" newline bitfld.quad 0x8 32.--33. "MEMLAYOUT,Memory layout" "0,1,2,3" newline bitfld.quad 0x8 29.--31. "SWIZ_CHAN3,Swizzle for destination channel 3" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x8 26.--28. "SWIZ_CHAN2,Swizzle for destination channel 2" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x8 23.--25. "SWIZ_CHAN1,Swizzle for destination channel 1" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x8 20.--22. "SWIZ_CHAN0,Swizzle for destination channel 0" "0,1,2,3,4,5,6,7" newline hexmask.quad.word 0x8 6.--19. 1. "MINCLIP_X,Min X Clip" newline bitfld.quad 0x8 5. "TWOCOMP_GAMMA,Sets the gamma mode for 2 component targets" "0,1" newline bitfld.quad 0x8 4. "GAMMA,Gamma enabled" "0,1" newline bitfld.quad 0x8 3. "COMPRESSION,Frame buffer Compression enabled" "0,1" newline bitfld.quad 0x8 2. "COMPRESS_SIZE,Block size for the compressor used with COMPRESS_SIZE_EXT register bit to define 8x8; 16x4 or 32x2 size COMPRESS_SIZE_EXT COMPRESS_SIZE SIZE 0 0 8x8.." "0,1" newline bitfld.quad 0x8 1. "COMP_INDIRECT_TABLE,If set indicates to the compressor that an indirect addressing is used otherwise direct addressing" "0,1" newline bitfld.quad 0x8 0. "Y_FLIP," "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_PBE_WORD0_MRT2,Pixel Back end State Word 0." bitfld.quad 0x10 62.--63. "TFBC_LOSSY,Sets the lossy bit for frame buffer compression" "0,1,2,3" newline bitfld.quad 0x10 61. "COMPRESS_SIZE_EXT,Extra bit to support 32x2 compression size used with COMPRESS_SIZE register bit to define 8x8; 16x4 or 32x2 size COMPRESS_SIZE_EXT COMPRESS_SIZE SIZE 0 0.." "0,1" newline bitfld.quad 0x10 60. "PAIR_TILES,If set then PBE will pair 16x16 tiles" "0,1" newline bitfld.quad 0x10 59. "X_RSRVD2,Not used" "0,1" newline bitfld.quad 0x10 58. "DITHER,Enable dither" "0,1" newline bitfld.quad 0x10 57. "TILERELATIVE,Add tile offset" "0,1" newline bitfld.quad 0x10 56. "DOWNSCALE,Perform box filter downscale" "0,1" newline hexmask.quad.byte 0x10 52.--55. 1. "SIZE_Z,Z Size in pixels [log 2]" newline bitfld.quad 0x10 50.--51. "ROTATION,Rotation angle" "0,1,2,3" newline hexmask.quad.word 0x10 34.--49. 1. "LINESTRIDE,Linestride in 2 pixel units. 0 == 2. Supports 32KDWORD stride memory write" newline bitfld.quad 0x10 32.--33. "MEMLAYOUT,Memory layout" "0,1,2,3" newline bitfld.quad 0x10 29.--31. "SWIZ_CHAN3,Swizzle for destination channel 3" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x10 26.--28. "SWIZ_CHAN2,Swizzle for destination channel 2" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x10 23.--25. "SWIZ_CHAN1,Swizzle for destination channel 1" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x10 20.--22. "SWIZ_CHAN0,Swizzle for destination channel 0" "0,1,2,3,4,5,6,7" newline hexmask.quad.word 0x10 6.--19. 1. "MINCLIP_X,Min X Clip" newline bitfld.quad 0x10 5. "TWOCOMP_GAMMA,Sets the gamma mode for 2 component targets" "0,1" newline bitfld.quad 0x10 4. "GAMMA,Gamma enabled" "0,1" newline bitfld.quad 0x10 3. "COMPRESSION,Frame buffer Compression enabled" "0,1" newline bitfld.quad 0x10 2. "COMPRESS_SIZE,Block size for the compressor used with COMPRESS_SIZE_EXT register bit to define 8x8; 16x4 or 32x2 size COMPRESS_SIZE_EXT COMPRESS_SIZE SIZE 0 0 8x8.." "0,1" newline bitfld.quad 0x10 1. "COMP_INDIRECT_TABLE,If set indicates to the compressor that an indirect addressing is used otherwise direct addressing" "0,1" newline bitfld.quad 0x10 0. "Y_FLIP," "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_PBE_WORD0_MRT3,Pixel Back end State Word 0." bitfld.quad 0x18 62.--63. "TFBC_LOSSY,Sets the lossy bit for frame buffer compression" "0,1,2,3" newline bitfld.quad 0x18 61. "COMPRESS_SIZE_EXT,Extra bit to support 32x2 compression size used with COMPRESS_SIZE register bit to define 8x8; 16x4 or 32x2 size COMPRESS_SIZE_EXT COMPRESS_SIZE SIZE 0 0.." "0,1" newline bitfld.quad 0x18 60. "PAIR_TILES,If set then PBE will pair 16x16 tiles" "0,1" newline bitfld.quad 0x18 59. "X_RSRVD2,Not used" "0,1" newline bitfld.quad 0x18 58. "DITHER,Enable dither" "0,1" newline bitfld.quad 0x18 57. "TILERELATIVE,Add tile offset" "0,1" newline bitfld.quad 0x18 56. "DOWNSCALE,Perform box filter downscale" "0,1" newline hexmask.quad.byte 0x18 52.--55. 1. "SIZE_Z,Z Size in pixels [log 2]" newline bitfld.quad 0x18 50.--51. "ROTATION,Rotation angle" "0,1,2,3" newline hexmask.quad.word 0x18 34.--49. 1. "LINESTRIDE,Linestride in 2 pixel units. 0 == 2. Supports 32KDWORD stride memory write" newline bitfld.quad 0x18 32.--33. "MEMLAYOUT,Memory layout" "0,1,2,3" newline bitfld.quad 0x18 29.--31. "SWIZ_CHAN3,Swizzle for destination channel 3" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x18 26.--28. "SWIZ_CHAN2,Swizzle for destination channel 2" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x18 23.--25. "SWIZ_CHAN1,Swizzle for destination channel 1" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x18 20.--22. "SWIZ_CHAN0,Swizzle for destination channel 0" "0,1,2,3,4,5,6,7" newline hexmask.quad.word 0x18 6.--19. 1. "MINCLIP_X,Min X Clip" newline bitfld.quad 0x18 5. "TWOCOMP_GAMMA,Sets the gamma mode for 2 component targets" "0,1" newline bitfld.quad 0x18 4. "GAMMA,Gamma enabled" "0,1" newline bitfld.quad 0x18 3. "COMPRESSION,Frame buffer Compression enabled" "0,1" newline bitfld.quad 0x18 2. "COMPRESS_SIZE,Block size for the compressor used with COMPRESS_SIZE_EXT register bit to define 8x8; 16x4 or 32x2 size COMPRESS_SIZE_EXT COMPRESS_SIZE SIZE 0 0 8x8.." "0,1" newline bitfld.quad 0x18 1. "COMP_INDIRECT_TABLE,If set indicates to the compressor that an indirect addressing is used otherwise direct addressing" "0,1" newline bitfld.quad 0x18 0. "Y_FLIP," "0,1" line.quad 0x20 "CORE_MMRS_RGX_CR_PBE_WORD0_MRT4,Pixel Back end State Word 0." bitfld.quad 0x20 62.--63. "TFBC_LOSSY,Sets the lossy bit for frame buffer compression" "0,1,2,3" newline bitfld.quad 0x20 61. "COMPRESS_SIZE_EXT,Extra bit to support 32x2 compression size used with COMPRESS_SIZE register bit to define 8x8; 16x4 or 32x2 size COMPRESS_SIZE_EXT COMPRESS_SIZE SIZE 0 0.." "0,1" newline bitfld.quad 0x20 60. "PAIR_TILES,If set then PBE will pair 16x16 tiles" "0,1" newline bitfld.quad 0x20 59. "X_RSRVD2,Not used" "0,1" newline bitfld.quad 0x20 58. "DITHER,Enable dither" "0,1" newline bitfld.quad 0x20 57. "TILERELATIVE,Add tile offset" "0,1" newline bitfld.quad 0x20 56. "DOWNSCALE,Perform box filter downscale" "0,1" newline hexmask.quad.byte 0x20 52.--55. 1. "SIZE_Z,Z Size in pixels [log 2]" newline bitfld.quad 0x20 50.--51. "ROTATION,Rotation angle" "0,1,2,3" newline hexmask.quad.word 0x20 34.--49. 1. "LINESTRIDE,Linestride in 2 pixel units. 0 == 2. Supports 32KDWORD stride memory write" newline bitfld.quad 0x20 32.--33. "MEMLAYOUT,Memory layout" "0,1,2,3" newline bitfld.quad 0x20 29.--31. "SWIZ_CHAN3,Swizzle for destination channel 3" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x20 26.--28. "SWIZ_CHAN2,Swizzle for destination channel 2" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x20 23.--25. "SWIZ_CHAN1,Swizzle for destination channel 1" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x20 20.--22. "SWIZ_CHAN0,Swizzle for destination channel 0" "0,1,2,3,4,5,6,7" newline hexmask.quad.word 0x20 6.--19. 1. "MINCLIP_X,Min X Clip" newline bitfld.quad 0x20 5. "TWOCOMP_GAMMA,Sets the gamma mode for 2 component targets" "0,1" newline bitfld.quad 0x20 4. "GAMMA,Gamma enabled" "0,1" newline bitfld.quad 0x20 3. "COMPRESSION,Frame buffer Compression enabled" "0,1" newline bitfld.quad 0x20 2. "COMPRESS_SIZE,Block size for the compressor used with COMPRESS_SIZE_EXT register bit to define 8x8; 16x4 or 32x2 size COMPRESS_SIZE_EXT COMPRESS_SIZE SIZE 0 0 8x8.." "0,1" newline bitfld.quad 0x20 1. "COMP_INDIRECT_TABLE,If set indicates to the compressor that an indirect addressing is used otherwise direct addressing" "0,1" newline bitfld.quad 0x20 0. "Y_FLIP," "0,1" line.quad 0x28 "CORE_MMRS_RGX_CR_PBE_WORD0_MRT5,Pixel Back end State Word 0." bitfld.quad 0x28 62.--63. "TFBC_LOSSY,Sets the lossy bit for frame buffer compression" "0,1,2,3" newline bitfld.quad 0x28 61. "COMPRESS_SIZE_EXT,Extra bit to support 32x2 compression size used with COMPRESS_SIZE register bit to define 8x8; 16x4 or 32x2 size COMPRESS_SIZE_EXT COMPRESS_SIZE SIZE 0 0.." "0,1" newline bitfld.quad 0x28 60. "PAIR_TILES,If set then PBE will pair 16x16 tiles" "0,1" newline bitfld.quad 0x28 59. "X_RSRVD2,Not used" "0,1" newline bitfld.quad 0x28 58. "DITHER,Enable dither" "0,1" newline bitfld.quad 0x28 57. "TILERELATIVE,Add tile offset" "0,1" newline bitfld.quad 0x28 56. "DOWNSCALE,Perform box filter downscale" "0,1" newline hexmask.quad.byte 0x28 52.--55. 1. "SIZE_Z,Z Size in pixels [log 2]" newline bitfld.quad 0x28 50.--51. "ROTATION,Rotation angle" "0,1,2,3" newline hexmask.quad.word 0x28 34.--49. 1. "LINESTRIDE,Linestride in 2 pixel units. 0 == 2. Supports 32KDWORD stride memory write" newline bitfld.quad 0x28 32.--33. "MEMLAYOUT,Memory layout" "0,1,2,3" newline bitfld.quad 0x28 29.--31. "SWIZ_CHAN3,Swizzle for destination channel 3" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x28 26.--28. "SWIZ_CHAN2,Swizzle for destination channel 2" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x28 23.--25. "SWIZ_CHAN1,Swizzle for destination channel 1" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x28 20.--22. "SWIZ_CHAN0,Swizzle for destination channel 0" "0,1,2,3,4,5,6,7" newline hexmask.quad.word 0x28 6.--19. 1. "MINCLIP_X,Min X Clip" newline bitfld.quad 0x28 5. "TWOCOMP_GAMMA,Sets the gamma mode for 2 component targets" "0,1" newline bitfld.quad 0x28 4. "GAMMA,Gamma enabled" "0,1" newline bitfld.quad 0x28 3. "COMPRESSION,Frame buffer Compression enabled" "0,1" newline bitfld.quad 0x28 2. "COMPRESS_SIZE,Block size for the compressor used with COMPRESS_SIZE_EXT register bit to define 8x8; 16x4 or 32x2 size COMPRESS_SIZE_EXT COMPRESS_SIZE SIZE 0 0 8x8.." "0,1" newline bitfld.quad 0x28 1. "COMP_INDIRECT_TABLE,If set indicates to the compressor that an indirect addressing is used otherwise direct addressing" "0,1" newline bitfld.quad 0x28 0. "Y_FLIP," "0,1" line.quad 0x30 "CORE_MMRS_RGX_CR_PBE_WORD0_MRT6,Pixel Back end State Word 0." bitfld.quad 0x30 62.--63. "TFBC_LOSSY,Sets the lossy bit for frame buffer compression" "0,1,2,3" newline bitfld.quad 0x30 61. "COMPRESS_SIZE_EXT,Extra bit to support 32x2 compression size used with COMPRESS_SIZE register bit to define 8x8; 16x4 or 32x2 size COMPRESS_SIZE_EXT COMPRESS_SIZE SIZE 0 0.." "0,1" newline bitfld.quad 0x30 60. "PAIR_TILES,If set then PBE will pair 16x16 tiles" "0,1" newline bitfld.quad 0x30 59. "X_RSRVD2,Not used" "0,1" newline bitfld.quad 0x30 58. "DITHER,Enable dither" "0,1" newline bitfld.quad 0x30 57. "TILERELATIVE,Add tile offset" "0,1" newline bitfld.quad 0x30 56. "DOWNSCALE,Perform box filter downscale" "0,1" newline hexmask.quad.byte 0x30 52.--55. 1. "SIZE_Z,Z Size in pixels [log 2]" newline bitfld.quad 0x30 50.--51. "ROTATION,Rotation angle" "0,1,2,3" newline hexmask.quad.word 0x30 34.--49. 1. "LINESTRIDE,Linestride in 2 pixel units. 0 == 2. Supports 32KDWORD stride memory write" newline bitfld.quad 0x30 32.--33. "MEMLAYOUT,Memory layout" "0,1,2,3" newline bitfld.quad 0x30 29.--31. "SWIZ_CHAN3,Swizzle for destination channel 3" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x30 26.--28. "SWIZ_CHAN2,Swizzle for destination channel 2" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x30 23.--25. "SWIZ_CHAN1,Swizzle for destination channel 1" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x30 20.--22. "SWIZ_CHAN0,Swizzle for destination channel 0" "0,1,2,3,4,5,6,7" newline hexmask.quad.word 0x30 6.--19. 1. "MINCLIP_X,Min X Clip" newline bitfld.quad 0x30 5. "TWOCOMP_GAMMA,Sets the gamma mode for 2 component targets" "0,1" newline bitfld.quad 0x30 4. "GAMMA,Gamma enabled" "0,1" newline bitfld.quad 0x30 3. "COMPRESSION,Frame buffer Compression enabled" "0,1" newline bitfld.quad 0x30 2. "COMPRESS_SIZE,Block size for the compressor used with COMPRESS_SIZE_EXT register bit to define 8x8; 16x4 or 32x2 size COMPRESS_SIZE_EXT COMPRESS_SIZE SIZE 0 0 8x8.." "0,1" newline bitfld.quad 0x30 1. "COMP_INDIRECT_TABLE,If set indicates to the compressor that an indirect addressing is used otherwise direct addressing" "0,1" newline bitfld.quad 0x30 0. "Y_FLIP," "0,1" line.quad 0x38 "CORE_MMRS_RGX_CR_PBE_WORD0_MRT7,Pixel Back end State Word 0." bitfld.quad 0x38 62.--63. "TFBC_LOSSY,Sets the lossy bit for frame buffer compression" "0,1,2,3" newline bitfld.quad 0x38 61. "COMPRESS_SIZE_EXT,Extra bit to support 32x2 compression size used with COMPRESS_SIZE register bit to define 8x8; 16x4 or 32x2 size COMPRESS_SIZE_EXT COMPRESS_SIZE SIZE 0 0.." "0,1" newline bitfld.quad 0x38 60. "PAIR_TILES,If set then PBE will pair 16x16 tiles" "0,1" newline bitfld.quad 0x38 59. "X_RSRVD2,Not used" "0,1" newline bitfld.quad 0x38 58. "DITHER,Enable dither" "0,1" newline bitfld.quad 0x38 57. "TILERELATIVE,Add tile offset" "0,1" newline bitfld.quad 0x38 56. "DOWNSCALE,Perform box filter downscale" "0,1" newline hexmask.quad.byte 0x38 52.--55. 1. "SIZE_Z,Z Size in pixels [log 2]" newline bitfld.quad 0x38 50.--51. "ROTATION,Rotation angle" "0,1,2,3" newline hexmask.quad.word 0x38 34.--49. 1. "LINESTRIDE,Linestride in 2 pixel units. 0 == 2. Supports 32KDWORD stride memory write" newline bitfld.quad 0x38 32.--33. "MEMLAYOUT,Memory layout" "0,1,2,3" newline bitfld.quad 0x38 29.--31. "SWIZ_CHAN3,Swizzle for destination channel 3" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x38 26.--28. "SWIZ_CHAN2,Swizzle for destination channel 2" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x38 23.--25. "SWIZ_CHAN1,Swizzle for destination channel 1" "0,1,2,3,4,5,6,7" newline bitfld.quad 0x38 20.--22. "SWIZ_CHAN0,Swizzle for destination channel 0" "0,1,2,3,4,5,6,7" newline hexmask.quad.word 0x38 6.--19. 1. "MINCLIP_X,Min X Clip" newline bitfld.quad 0x38 5. "TWOCOMP_GAMMA,Sets the gamma mode for 2 component targets" "0,1" newline bitfld.quad 0x38 4. "GAMMA,Gamma enabled" "0,1" newline bitfld.quad 0x38 3. "COMPRESSION,Frame buffer Compression enabled" "0,1" newline bitfld.quad 0x38 2. "COMPRESS_SIZE,Block size for the compressor used with COMPRESS_SIZE_EXT register bit to define 8x8; 16x4 or 32x2 size COMPRESS_SIZE_EXT COMPRESS_SIZE SIZE 0 0 8x8.." "0,1" newline bitfld.quad 0x38 1. "COMP_INDIRECT_TABLE,If set indicates to the compressor that an indirect addressing is used otherwise direct addressing" "0,1" newline bitfld.quad 0x38 0. "Y_FLIP," "0,1" line.quad 0x40 "CORE_MMRS_RGX_CR_PBE_WORD1_MRT0,Pixel Back end State Word 1." hexmask.quad.byte 0x40 60.--63. 1. "SIZE_X,X Size in pixels [log 2]" newline hexmask.quad.word 0x40 46.--59. 1. "MINCLIP_Y,Min Y Clip" newline hexmask.quad.word 0x40 32.--45. 1. "MAXCLIP_X,Max X clip" newline hexmask.quad.byte 0x40 28.--31. 1. "SIZE_Y,Y Size in pixels [log 2]" newline hexmask.quad.word 0x40 14.--27. 1. "ZSLICE,Slice number for render to 3D twiddle target" newline hexmask.quad.word 0x40 0.--13. 1. "MAXCLIP_Y,Max Y clip" line.quad 0x48 "CORE_MMRS_RGX_CR_PBE_WORD1_MRT1,Pixel Back end State Word 1." hexmask.quad.byte 0x48 60.--63. 1. "SIZE_X,X Size in pixels [log 2]" newline hexmask.quad.word 0x48 46.--59. 1. "MINCLIP_Y,Min Y Clip" newline hexmask.quad.word 0x48 32.--45. 1. "MAXCLIP_X,Max X clip" newline hexmask.quad.byte 0x48 28.--31. 1. "SIZE_Y,Y Size in pixels [log 2]" newline hexmask.quad.word 0x48 14.--27. 1. "ZSLICE,Slice number for render to 3D twiddle target" newline hexmask.quad.word 0x48 0.--13. 1. "MAXCLIP_Y,Max Y clip" line.quad 0x50 "CORE_MMRS_RGX_CR_PBE_WORD1_MRT2,Pixel Back end State Word 1." hexmask.quad.byte 0x50 60.--63. 1. "SIZE_X,X Size in pixels [log 2]" newline hexmask.quad.word 0x50 46.--59. 1. "MINCLIP_Y,Min Y Clip" newline hexmask.quad.word 0x50 32.--45. 1. "MAXCLIP_X,Max X clip" newline hexmask.quad.byte 0x50 28.--31. 1. "SIZE_Y,Y Size in pixels [log 2]" newline hexmask.quad.word 0x50 14.--27. 1. "ZSLICE,Slice number for render to 3D twiddle target" newline hexmask.quad.word 0x50 0.--13. 1. "MAXCLIP_Y,Max Y clip" line.quad 0x58 "CORE_MMRS_RGX_CR_PBE_WORD1_MRT3,Pixel Back end State Word 1." hexmask.quad.byte 0x58 60.--63. 1. "SIZE_X,X Size in pixels [log 2]" newline hexmask.quad.word 0x58 46.--59. 1. "MINCLIP_Y,Min Y Clip" newline hexmask.quad.word 0x58 32.--45. 1. "MAXCLIP_X,Max X clip" newline hexmask.quad.byte 0x58 28.--31. 1. "SIZE_Y,Y Size in pixels [log 2]" newline hexmask.quad.word 0x58 14.--27. 1. "ZSLICE,Slice number for render to 3D twiddle target" newline hexmask.quad.word 0x58 0.--13. 1. "MAXCLIP_Y,Max Y clip" line.quad 0x60 "CORE_MMRS_RGX_CR_PBE_WORD1_MRT4,Pixel Back end State Word 1." hexmask.quad.byte 0x60 60.--63. 1. "SIZE_X,X Size in pixels [log 2]" newline hexmask.quad.word 0x60 46.--59. 1. "MINCLIP_Y,Min Y Clip" newline hexmask.quad.word 0x60 32.--45. 1. "MAXCLIP_X,Max X clip" newline hexmask.quad.byte 0x60 28.--31. 1. "SIZE_Y,Y Size in pixels [log 2]" newline hexmask.quad.word 0x60 14.--27. 1. "ZSLICE,Slice number for render to 3D twiddle target" newline hexmask.quad.word 0x60 0.--13. 1. "MAXCLIP_Y,Max Y clip" line.quad 0x68 "CORE_MMRS_RGX_CR_PBE_WORD1_MRT5,Pixel Back end State Word 1." hexmask.quad.byte 0x68 60.--63. 1. "SIZE_X,X Size in pixels [log 2]" newline hexmask.quad.word 0x68 46.--59. 1. "MINCLIP_Y,Min Y Clip" newline hexmask.quad.word 0x68 32.--45. 1. "MAXCLIP_X,Max X clip" newline hexmask.quad.byte 0x68 28.--31. 1. "SIZE_Y,Y Size in pixels [log 2]" newline hexmask.quad.word 0x68 14.--27. 1. "ZSLICE,Slice number for render to 3D twiddle target" newline hexmask.quad.word 0x68 0.--13. 1. "MAXCLIP_Y,Max Y clip" line.quad 0x70 "CORE_MMRS_RGX_CR_PBE_WORD1_MRT6,Pixel Back end State Word 1." hexmask.quad.byte 0x70 60.--63. 1. "SIZE_X,X Size in pixels [log 2]" newline hexmask.quad.word 0x70 46.--59. 1. "MINCLIP_Y,Min Y Clip" newline hexmask.quad.word 0x70 32.--45. 1. "MAXCLIP_X,Max X clip" newline hexmask.quad.byte 0x70 28.--31. 1. "SIZE_Y,Y Size in pixels [log 2]" newline hexmask.quad.word 0x70 14.--27. 1. "ZSLICE,Slice number for render to 3D twiddle target" newline hexmask.quad.word 0x70 0.--13. 1. "MAXCLIP_Y,Max Y clip" line.quad 0x78 "CORE_MMRS_RGX_CR_PBE_WORD1_MRT7,Pixel Back end State Word 1." hexmask.quad.byte 0x78 60.--63. 1. "SIZE_X,X Size in pixels [log 2]" newline hexmask.quad.word 0x78 46.--59. 1. "MINCLIP_Y,Min Y Clip" newline hexmask.quad.word 0x78 32.--45. 1. "MAXCLIP_X,Max X clip" newline hexmask.quad.byte 0x78 28.--31. 1. "SIZE_Y,Y Size in pixels [log 2]" newline hexmask.quad.word 0x78 14.--27. 1. "ZSLICE,Slice number for render to 3D twiddle target" newline hexmask.quad.word 0x78 0.--13. 1. "MAXCLIP_Y,Max Y clip" rgroup.quad 0x1590++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PBE_PWR,Power monitoring register" hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "NUM_PIXELS_PROCESSED,Number of on-edge/off-edge pixels per tile." group.quad 0x1720++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_MCU_GLB_CFI,Global flush and invalidation control for all Texture and Data Cache." hexmask.quad 0x0 6.--63. 1. "RESERVED_6," newline bitfld.quad 0x0 5. "FENCE,When set additionally perform a fence to external memory before signalling that a flush is complete" "0,1" newline bitfld.quad 0x0 4. "DM_COMPUTE,When set perform operation on compute data master" "0,1" newline bitfld.quad 0x0 3. "DM_PIXEL,When set perform operation on pixel data master" "0,1" newline bitfld.quad 0x0 2. "DM_VERTEX,When set perform operation on vertex data master" "0,1" newline bitfld.quad 0x0 1. "FLUSH,When set will flush cache based on data master" "0,1" newline bitfld.quad 0x0 0. "INVALIDATE,When set will invalidate cache based on data master. This bit will also invalidate the L0 cache in the MADD and teh YUV cache in the TAG to reset the CSC coefficients." "0,1" rgroup.quad 0x1728++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_MCU_GLB_CFI_EVENT,Global flush and invalidation event for all Texture and Data Cache." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "PENDING,1 Indicate there is a pending global CFI operation on the MCU" "0,1" group.quad 0x1730++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_MCU_LIMIT,Define the maximum number of cache lines allowed to be allocated to each Data Master within the SLC." hexmask.quad 0x0 24.--63. 1. "RESERVED_24," newline hexmask.quad.byte 0x0 16.--23. 1. "DM_COMPUTE,Maximum number of cachelines which can be used by the Compute data master" newline hexmask.quad.byte 0x0 8.--15. 1. "DM_PIXEL,Maximum number of cachelines which can be used by the Pixel data master" newline hexmask.quad.byte 0x0 0.--7. 1. "DM_VERTEX,Maximum number of cachelines which can be used by the Vertex data master" line.quad 0x8 "CORE_MMRS_RGX_CR_MCU_CTRL,MCU control registers" hexmask.quad 0x8 18.--63. 1. "RESERVED_18," newline bitfld.quad 0x8 17. "PDSRW_L0_OFF,Turn off MCU PDSRW L0 cache" "0,1" newline hexmask.quad.byte 0x8 9.--16. 1. "FBDC_REQ_THRESHOLD,Maximum number of outstanding requests each MCU group can have to the Framebuffer Decompression module" newline bitfld.quad 0x8 8. "RD_OVERTAKE_THRESH_ENABLE,Enables the use of the threshold to limit the amount of overtaking which is permitted" "0,1" newline hexmask.quad.byte 0x8 2.--7. 1. "RD_OVERTAKE_THRESHOLD,The number of read accesses which are permitted to overtake waiting Writebacks when enabled" newline bitfld.quad 0x8 1. "INSTANCE_MERGE_DISABLE,Turn off instance merging in the MCU L1" "0,1" newline bitfld.quad 0x8 0. "L1_OFF,Turn off MCU L1" "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_MCU_FENCE,Defines the Data Master and Addresses used when the MCU optionally issues a Fence as part of a Flush operation." hexmask.quad.tbyte 0x10 43.--63. 1. "RESERVED_43," newline bitfld.quad 0x10 40.--42. "DM,Data Master value to use when issuing a Fence" "0,1,2,3,4,5,6,7" newline hexmask.quad 0x10 5.--39. 1. "ADDR,Address value to use when issuing a Fence" newline hexmask.quad.byte 0x10 0.--4. 1. "RESERVED_0," group.quad 0x1780++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_TPU,Global control to TPU_MCU_L0|tpu" hexmask.quad 0x0 9.--63. 1. "RESERVED_9," newline bitfld.quad 0x0 8. "MCU_PDS_L0_OFF,Turn off MCU PDSL0 cache" "0,1" newline bitfld.quad 0x0 7. "TAG_CEM_64_FACE_PACKING,Pixel data master. Enable 64-byte alignment between CEM faces when set to 1. It applies for both when mipmap is enabled or disabled" "0,1" newline bitfld.quad 0x0 6. "TAG_ENABLE_MMU_PREFETCH,Enables generation of prefetch requests to the MMU" "0,1" newline bitfld.quad 0x0 5. "TAG_CEM_4K_FACE_PACKING,Pixel data master. Enable 4K-byte alignment between CEM faces when set to 1. It applies for both when mipmap is enabled or disabled" "0,1" newline bitfld.quad 0x0 4. "MADD_CONFIG_L0OFF,When set this disables MADD P0 L0 cache" "0,1" newline bitfld.quad 0x0 3. "TAG_CEM_FACE_PACKING,Pixel data master. Enable dword alignment between CEM faces when set to 1" "0,1" newline bitfld.quad 0x0 2. "TAG_CEMEDGE_DONTFILTER,Pixel data master. Disable filtering over edges/corners for CEM. When set to 1 HW will be seemfull ie always stay in the current map always.." "0,1" newline bitfld.quad 0x0 1. "TAG_CEMGRAD_DONTNEGATE,Pixel data master. Disable negation for user supplied gradients for cem swap i. e. will only swap dudx etc not negate" "0,1" newline bitfld.quad 0x0 0. "MADD_CONFIG_DXT35_TRANSOVR,When set this disables alternative mode implied by colour0 > colour1 for DXT3 to DXT5" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_TPU_YUV_CSC_COEFFICIENTS,Base address for the YUV CSC set of coefficients stored in memory for pixel data master" hexmask.quad.long 0x8 38.--63. 1. "RESERVED_38," newline hexmask.quad 0x8 0.--37. 1. "YUV_CSC_COEFFICIENTS_ADDRESS,Base address DWORD aligned for the location in memory of the CSC coefficients" line.quad 0x10 "CORE_MMRS_RGX_CR_TPU_BORDER_COLOUR_TABLE_PDM,Base address for the border colour table" hexmask.quad.long 0x10 38.--63. 1. "RESERVED_38," newline hexmask.quad 0x10 0.--37. 1. "BORDER_COLOUR_TABLE_ADDRESS,Base address DWORD aligned for the location in memory of the border colour table for the PDM" rgroup.quad 0x1798++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_DUST_IDLE," hexmask.quad 0x0 7.--63. 1. "RESERVED_7," newline bitfld.quad 0x0 6. "MCU_L0_WRAP,MCU L0 WRAP Module IDLE" "0,1" newline bitfld.quad 0x0 5. "MCU_L0,MCU L0 Module IDLE" "0,1" newline bitfld.quad 0x0 4. "TF,TF Module IDLE" "0,1" newline bitfld.quad 0x0 3. "MADD,MADD Module IDLE" "0,1" newline bitfld.quad 0x0 2. "TAG,TAG Module IDLE" "0,1" newline bitfld.quad 0x0 1. "USC1,USC1 Module IDLE" "0,1" newline bitfld.quad 0x0 0. "USC0,USC0 Module IDLE" "0,1" group.quad 0x17A0++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_TPU_BORDER_COLOUR_TABLE_VDM,Base address for the border colour table" hexmask.quad.long 0x0 38.--63. 1. "RESERVED_38," newline hexmask.quad 0x0 0.--37. 1. "BORDER_COLOUR_TABLE_ADDRESS,Base address DWORD aligned for the location in memory of the border colour table for the VDM" line.quad 0x8 "CORE_MMRS_RGX_CR_TPU_BORDER_COLOUR_TABLE_CDM,Base address for the border colour table" hexmask.quad.long 0x8 38.--63. 1. "RESERVED_38," newline hexmask.quad 0x8 0.--37. 1. "BORDER_COLOUR_TABLE_ADDRESS,Base address DWORD aligned for the location in memory of the border colour table for the CDM" rgroup.quad 0x17B0++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_TPU_PWR_NUMBER_OF_TEXELS,Peformance counter associated with Power Monitoring." hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "VALUE,Number of texels requested per clock" group.quad 0x17B8++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_TPU_TAG_CTRL,Global control to TAG for the pixel data master" hexmask.quad 0x0 4.--63. 1. "RESERVED_4," newline bitfld.quad 0x0 3. "AF_RATIO_TRUNCATE_TO_INTEGER,0 current mode 1 clear the fractional part of the calculated AF ratio" "0,1" newline bitfld.quad 0x0 2. "AF_RATIO_TRUNCATE_TO_HALF,0 current mode 1 truncate the fractional part of the calculated AF ratio to 0. 5" "0,1" newline bitfld.quad 0x0 1. "AF_FILTERING_MODE,0 current mode 1 new mode." "0,1" newline bitfld.quad 0x0 0. "YUV_CAM_INVALIDATE,When set will invalidate YUV CSC CAM to reset the CSC coefficients. It should be set when the TPU is not performing CSC." "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_TPU_MADD_CTRL,Global control to MADD for pixel data master" hexmask.quad 0x8 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x8 1. "ASTC_ODD_SCALING_ENABLE,When set ASTC encoded texels use the odd U16->F16 scaling in the TF. When zero the usual scaling will be used in TF." "0,1" newline bitfld.quad 0x8 0. "ASTC_MULTICYCLE_TF_FORCE_F16,When set ASTC encoded texels that are filtered over multiple cycles by the TF will be output from the MADD as F16." "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_TPU_MADD_VDM_CTRL,Global control to MADD for vertex data master" hexmask.quad 0x10 3.--63. 1. "RESERVED_3," newline bitfld.quad 0x10 2. "MADD_CONFIG_DXT35_TRANSOVR,When set this disables alternative mode implied by colour0 > colour1 for DXT3 to DXT5" "0,1" newline bitfld.quad 0x10 1. "ASTC_ODD_SCALING_ENABLE,When set ASTC encoded texels use the odd U16->F16 scaling in the TF. When zero the usual scaling will be used in TF." "0,1" newline bitfld.quad 0x10 0. "ASTC_MULTICYCLE_TF_FORCE_F16,When set ASTC encoded texels that are filtered over multiple cycles by the TF will be output from the MADD as F16." "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_TPU_MADD_CDM_CTRL,Global control to MADD for compute data master" hexmask.quad 0x18 3.--63. 1. "RESERVED_3," newline bitfld.quad 0x18 2. "MADD_CONFIG_DXT35_TRANSOVR,When set this disables alternative mode implied by colour0 > colour1 for DXT3 to DXT5" "0,1" newline bitfld.quad 0x18 1. "ASTC_ODD_SCALING_ENABLE,When set ASTC encoded texels use the odd U16->F16 scaling in the TF. When zero the usual scaling will be used in TF." "0,1" newline bitfld.quad 0x18 0. "ASTC_MULTICYCLE_TF_FORCE_F16,When set ASTC encoded texels that are filtered over multiple cycles by the TF will be output from the MADD as F16." "0,1" group.quad 0x1800++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_TPU_CEM_VDM,Global control to CEM textures for vertex data master" hexmask.quad 0x0 8.--63. 1. "RESERVED_8," newline bitfld.quad 0x0 7. "TAG_CEM_64_FACE_PACKING,Vertex data master. Enable 64-byte alignment between CEM faces when set to 1. It applies for both when mipmap is enabled or disabled" "0,1" newline rbitfld.quad 0x0 6. "RESERVED_6," "0,1" newline bitfld.quad 0x0 5. "TAG_CEM_4K_FACE_PACKING,Vertex data master. Enable 4K-byte alignment between CEM faces when set to 1. It applies for both when mipmap is enabled or disabled" "0,1" newline rbitfld.quad 0x0 4. "RESERVED_4," "0,1" newline bitfld.quad 0x0 3. "TAG_CEM_FACE_PACKING,Vertex data master. Enable dword alignment between CEM faces when set to 1" "0,1" newline bitfld.quad 0x0 2. "TAG_CEMEDGE_DONTFILTER,Vertex data master. Disable filtering over edges/corners for CEM. When set to 1 HW will be seemfull ie always stay in the current map always.." "0,1" newline bitfld.quad 0x0 1. "TAG_CEMGRAD_DONTNEGATE,Vertex data master. Disable negation for user supplied gradients for cem swap i. e. will only swap dudx etc not negate" "0,1" newline rbitfld.quad 0x0 0. "RESERVED_0," "0,1" group.quad 0x1810++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_TPU_CEM_CDM,Global control to CEM textures for compute data master" hexmask.quad 0x0 8.--63. 1. "RESERVED_8," newline bitfld.quad 0x0 7. "TAG_CEM_64_FACE_PACKING,Compute data master. Enable 64-byte alignment between CEM faces when set to 1. It applies for both when mipmap is enabled or disabled" "0,1" newline rbitfld.quad 0x0 6. "RESERVED_6," "0,1" newline bitfld.quad 0x0 5. "TAG_CEM_4K_FACE_PACKING,Compute data master. Enable 4K-byte alignment between CEM faces when set to 1. It applies for both when mipmap is enabled or disabled" "0,1" newline rbitfld.quad 0x0 4. "RESERVED_4," "0,1" newline bitfld.quad 0x0 3. "TAG_CEM_FACE_PACKING,Compute data master. Enable dword alignment between CEM faces when set to 1" "0,1" newline bitfld.quad 0x0 2. "TAG_CEMEDGE_DONTFILTER,Compute data master. Disable filtering over edges/corners for CEM. When set to 1 HW will be seemfull ie always stay in the current map always.." "0,1" newline bitfld.quad 0x0 1. "TAG_CEMGRAD_DONTNEGATE,Compute data master. Disable negation for user supplied gradients for cem swap i. e. will only swap dudx etc not negate" "0,1" newline rbitfld.quad 0x0 0. "RESERVED_0," "0,1" group.quad 0x1850++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_TPU_TAG_VDM_CTRL,Global control to TAG for the vertex data master" hexmask.quad 0x0 4.--63. 1. "RESERVED_4," newline bitfld.quad 0x0 3. "AF_RATIO_TRUNCATE_TO_INTEGER,0 current mode 1 clear the fractional part of the calculated AF ratio" "0,1" newline bitfld.quad 0x0 2. "AF_RATIO_TRUNCATE_TO_HALF,0 current mode 1 truncate the fractional part of the calculated AF ratio to 0. 5" "0,1" newline bitfld.quad 0x0 1. "AF_FILTERING_MODE,0 current mode 1 new mode." "0,1" newline bitfld.quad 0x0 0. "YUV_CAM_INVALIDATE,When set will invalidate YUV CSC CAM to reset the CSC coefficients. It should be set when the TPU is not performing CSC." "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_TPU_TAG_CDM_CTRL,Global control to TAG for the compute data master" hexmask.quad 0x8 4.--63. 1. "RESERVED_4," newline bitfld.quad 0x8 3. "AF_RATIO_TRUNCATE_TO_INTEGER,0 current mode 1 clear the fractional part of the calculated AF ratio" "0,1" newline bitfld.quad 0x8 2. "AF_RATIO_TRUNCATE_TO_HALF,0 current mode 1 truncate the fractional part of the calculated AF ratio to 0. 5" "0,1" newline bitfld.quad 0x8 1. "AF_FILTERING_MODE,0 current mode 1 new mode." "0,1" newline bitfld.quad 0x8 0. "YUV_CAM_INVALIDATE,When set will invalidate YUV CSC CAM to reset the CSC coefficients. It should be set when the TPU is not performing CSC." "0,1" group.quad 0x1870++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_TPU_VDM_YUV_CSC_COEFFICIENTS,Base address for the YUV CSC set of coefficients stored in memory for the compute data master" hexmask.quad.long 0x0 38.--63. 1. "RESERVED_38," newline hexmask.quad 0x0 0.--37. 1. "YUV_CSC_COEFFICIENTS_ADDRESS,Base address DWORD aligned for the location in memory of the CSC coefficients" line.quad 0x8 "CORE_MMRS_RGX_CR_TPU_CDM_YUV_CSC_COEFFICIENTS,Base address for the YUV CSC set of coefficients stored in memory for the compute data master" hexmask.quad.long 0x8 38.--63. 1. "RESERVED_38," newline hexmask.quad 0x8 0.--37. 1. "YUV_CSC_COEFFICIENTS_ADDRESS,Base address DWORD aligned for the location in memory of the CSC coefficients" group.quad 0x18C0++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_TPU_LODBIASREP_CMP_MANTISSA_MASK_PDM,Mask for comparing mantissa of f32 LOD Bias/Replace value for PPLOD speedup for the pixel data master" hexmask.quad 0x0 23.--63. 1. "RESERVED_23," newline hexmask.quad.tbyte 0x0 0.--22. 1. "LODBIASREP_CMP_MANTISSA_MASK,Mask for comparing mantissa of f32 LOD Bias/Replace value for PPLOD speedup" line.quad 0x8 "CORE_MMRS_RGX_CR_TPU_LODBIASREP_CMP_MANTISSA_MASK_VDM,Mask for comparing mantissa of f32 LOD Bias/Replace value for PPLOD speedup for the vertex data master" hexmask.quad 0x8 23.--63. 1. "RESERVED_23," newline hexmask.quad.tbyte 0x8 0.--22. 1. "LODBIASREP_CMP_MANTISSA_MASK,Mask for comparing mantissa of f32 LOD Bias/Replace value for PPLOD speedup" line.quad 0x10 "CORE_MMRS_RGX_CR_TPU_LODBIASREP_CMP_MANTISSA_MASK_CDM,Mask for comparing mantissa of f32 LOD Bias/Replace value for PPLOD speedup for the compute data master" hexmask.quad 0x10 23.--63. 1. "RESERVED_23," newline hexmask.quad.tbyte 0x10 0.--22. 1. "LODBIASREP_CMP_MANTISSA_MASK,Mask for comparing mantissa of f32 LOD Bias/Replace value for PPLOD speedup" group.quad 0x18E8++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_TPU_TAG_LOD_TRI_FRAC_MASK,Mask to enable/disable and set accuracy of Trilinear performance optimisation." hexmask.quad 0x0 4.--63. 1. "RESERVED_4," newline hexmask.quad.byte 0x0 0.--3. 1. "TAG_LOD_TRI_FRAC_MASK,Mask to enable/disable and set accuracy of Trilinear performance optimisation. Mask bit 1 => corresponding trilinear fraction LSB rounding enabled 0 => disabled. Only 4 LSBs.." line.quad 0x8 "CORE_MMRS_RGX_CR_TPU_TAG_LOD_TRI_FRAC_MASK_VDM,Mask to enable/disable and set accuracy of Trilinear performance optimisation." hexmask.quad 0x8 4.--63. 1. "RESERVED_4," newline hexmask.quad.byte 0x8 0.--3. 1. "TAG_LOD_TRI_FRAC_MASK,Mask to enable/disable and set accuracy of Trilinear performance optimisation. Mask bit 1 => corresponding trilinear fraction LSB rounding enabled 0 => disabled. Only 4 LSBs.." line.quad 0x10 "CORE_MMRS_RGX_CR_TPU_TAG_LOD_TRI_FRAC_MASK_CDM,Mask to enable/disable and set accuracy of Trilinear performance optimisation." hexmask.quad 0x10 4.--63. 1. "RESERVED_4," newline hexmask.quad.byte 0x10 0.--3. 1. "TAG_LOD_TRI_FRAC_MASK,Mask to enable/disable and set accuracy of Trilinear performance optimisation. Mask bit 1 => corresponding trilinear fraction LSB rounding enabled 0 => disabled. Only 4 LSBs.." group.quad 0x1A00++0x9F line.quad 0x0 "CORE_MMRS_RGX_CR_SCRATCH0,Internal 'scratch' register for debug use by the firmware." hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "DATA," line.quad 0x8 "CORE_MMRS_RGX_CR_SCRATCH1,Internal 'scratch' register for debug use by the firmware." hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "DATA," line.quad 0x10 "CORE_MMRS_RGX_CR_SCRATCH2,Internal 'scratch' register for debug use by the firmware." hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x10 0.--31. 1. "DATA," line.quad 0x18 "CORE_MMRS_RGX_CR_SCRATCH3,Internal 'scratch' register for debug use by the firmware." hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x18 0.--31. 1. "DATA," line.quad 0x20 "CORE_MMRS_RGX_CR_SCRATCH4,Internal 'scratch' register for debug use by the firmware." hexmask.quad.long 0x20 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x20 0.--31. 1. "DATA," line.quad 0x28 "CORE_MMRS_RGX_CR_SCRATCH5,Internal 'scratch' register for debug use by the firmware." hexmask.quad.long 0x28 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x28 0.--31. 1. "DATA," line.quad 0x30 "CORE_MMRS_RGX_CR_SCRATCH6,Internal 'scratch' register for debug use by the firmware." hexmask.quad.long 0x30 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x30 0.--31. 1. "DATA," line.quad 0x38 "CORE_MMRS_RGX_CR_SCRATCH7,Internal 'scratch' register for debug use by the firmware." hexmask.quad.long 0x38 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x38 0.--31. 1. "DATA," line.quad 0x40 "CORE_MMRS_RGX_CR_SCRATCH8,Internal 'scratch' register for debug use by the firmware." hexmask.quad.long 0x40 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x40 0.--31. 1. "DATA," line.quad 0x48 "CORE_MMRS_RGX_CR_SCRATCH9,Internal 'scratch' register for debug use by the firmware." hexmask.quad.long 0x48 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x48 0.--31. 1. "DATA," line.quad 0x50 "CORE_MMRS_RGX_CR_SCRATCH10,Internal 'scratch' register for debug use by the firmware." hexmask.quad.long 0x50 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x50 0.--31. 1. "DATA," line.quad 0x58 "CORE_MMRS_RGX_CR_SCRATCH11,Internal 'scratch' register for debug use by the firmware." hexmask.quad.long 0x58 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x58 0.--31. 1. "DATA," line.quad 0x60 "CORE_MMRS_RGX_CR_SCRATCH12,Internal 'scratch' register for debug use by the firmware." hexmask.quad.long 0x60 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x60 0.--31. 1. "DATA," line.quad 0x68 "CORE_MMRS_RGX_CR_SCRATCH13,Internal 'scratch' register for debug use by the firmware." hexmask.quad.long 0x68 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x68 0.--31. 1. "DATA," line.quad 0x70 "CORE_MMRS_RGX_CR_SCRATCH14,Internal 'scratch' register for debug use by the firmware." hexmask.quad.long 0x70 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x70 0.--31. 1. "DATA," line.quad 0x78 "CORE_MMRS_RGX_CR_SCRATCH15,Internal 'scratch' register for debug use by the firmware." hexmask.quad.long 0x78 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x78 0.--31. 1. "DATA," line.quad 0x80 "CORE_MMRS_RGX_CR_OS0_SCRATCH0," hexmask.quad.long 0x80 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x80 0.--31. 1. "DATA," line.quad 0x88 "CORE_MMRS_RGX_CR_OS0_SCRATCH1," hexmask.quad.long 0x88 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x88 0.--31. 1. "DATA," line.quad 0x90 "CORE_MMRS_RGX_CR_OS0_SCRATCH2," hexmask.quad 0x90 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x90 0.--7. 1. "DATA," line.quad 0x98 "CORE_MMRS_RGX_CR_OS0_SCRATCH3," hexmask.quad 0x98 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x98 0.--7. 1. "DATA," rgroup.quad 0x2000++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_PM_TA_MMUPAGE_STATUS," hexmask.quad 0x0 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x0 0.--21. 1. "OP,MMU pages[4KB] counter @ the TA context" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_3D_MMUPAGE_STATUS," hexmask.quad 0x8 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x8 0.--21. 1. "OP,MMU pages[4KB] counter @ the 3D context" group.quad 0x2010++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_PM_MMU_STACK_POLICY,This register enables the PM to drain pages for MMU from the dedicated mmu free list stack." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "OP,when this bit is '1' PM will try to drain pages from the dedicated mmu free list stack" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_TA_MMU_FSTACK_BASE,Effective on loading of the MMU TA free list loading . this register defines the base address of the mmu free list stack being referenced during TA processing." hexmask.quad.tbyte 0x8 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x8 4.--39. 1. "ADDR,1TB Addressable 128 bits aligned Base Address for MMU TA free list stack" newline hexmask.quad.byte 0x8 0.--3. 1. "RESERVED_0," rgroup.quad 0x2020++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_TA_MMU_FSTACK_STATUS,Note: this is the pointer pointing to the MMU TA free stack top." hexmask.quad 0x0 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x0 0.--21. 1. "TOP,This status register indicated the mmu ta context free list pointer status." group.quad 0x2028++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_PM_TA_MMU_FSTACK,Defines the start of the stack pointer regarding to the MMU free list stack" hexmask.quad 0x0 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x0 0.--21. 1. "STARTOF_TOP,This register defines the head pointer of the mmu free list in terms of 4K free pages in the free list stack effective on a loading of the MMU TA free list" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_START_OF_MMU_TACONTEXT," hexmask.quad 0x8 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x8 0.--21. 1. "ALLOCATED_MMUPAGE,Start of MMU Freelists TA pages[4KB] on loading of the MMU TA context" line.quad 0x10 "CORE_MMRS_RGX_CR_PM_TASK_TA_MMU_FSTACK_FREE_LOAD," hexmask.quad 0x10 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x10 0. "PENDING,A write into this register will cause the TA MMU free list context to be loaded from the relevant configuration registers" "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_PM_3D_MMU_FSTACK_BASE,Effective on loading of the MMU 3D free list loading . this register defines the base address of the mmu free list stack" hexmask.quad.tbyte 0x18 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x18 4.--39. 1. "ADDR,1TB Addressable 128 bits aligned Base Address for MMU TA free list stack" newline hexmask.quad.byte 0x18 0.--3. 1. "RESERVED_0," rgroup.quad 0x2048++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_3D_MMU_FSTACK_STATUS,Note: this is the pointer pointing to the MMU TA free stack top." hexmask.quad 0x0 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x0 0.--21. 1. "TOP,This status register indicated the mmu ta context free list pointer status." group.quad 0x2050++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_3D_MMU_FSTACK,Defines the start of the stack pointer regarding to the MMU free list stack" hexmask.quad 0x0 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x0 0.--21. 1. "STARTOF_TOP,This register defines the head pointer of the mmu free list in terms of 4K free pages in the free list stack effective on a loading of the MMU TA free list" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_START_OF_MMU_3DCONTEXT,Effective on a 3D MMU fstack load" hexmask.quad 0x8 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x8 0.--21. 1. "ALLOCATED_MMUPAGE,Start of MMU Freelists 3D pages[4KB] on loading of the MMU TA context" line.quad 0x10 "CORE_MMRS_RGX_CR_PM_TASK_3D_MMU_FSTACK_FREE_LOAD," hexmask.quad 0x10 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x10 0. "PENDING,A write into this register will cause the 3D MMU free list context to be loaded from the relevant configuration registers" "0,1" rgroup.quad 0x2068++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_PM_MMUSTACK_LOCK_STATUS," hexmask.quad 0x0 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x0 1. "TD,Bit 1: 3D MMU free list Lock Status. 0 idle/ 1 used" "?,1: 3D MMU free list Lock Status" newline bitfld.quad 0x0 0. "TA,Bit 0: TA MMU free list Lock Status. 0 idle/ 1 used." "0: TA MMU free list Lock Status,?" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_MMUSTACK_LOCK_OWNER," hexmask.quad 0x8 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x8 1. "TD,Bit 1 :3D free list Lock owner. 0 PMA / 1 PMD" "?,1: 3D free list Lock owner" newline bitfld.quad 0x8 0. "TA,Bit 0: TA free list Lock Owner. 0 PMA / 1 PMD." "0: TA free list Lock Owner,?" group.quad 0x2078++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_PM_3D_UFSTACK_BASE,Effective on load of the Unified Free List Stack. this register defines the base address of the unified free list stack being referenced." hexmask.quad.tbyte 0x0 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x0 4.--39. 1. "ADDR,1TB Addressable 128 bits aligned Base Address for unified free list stack base address" newline hexmask.quad.byte 0x0 0.--3. 1. "RESERVED_0," line.quad 0x8 "CORE_MMRS_RGX_CR_PM_3D_UFSTACK,Note: each 16GB 4KB addressable page (22 bits) is rounded to dword aligned" hexmask.quad 0x8 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x8 0.--21. 1. "STARTOF_TOP,This register defines the unified free list stack pointer @ loading time. It is 4K page." rgroup.quad 0x2088++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_3D_UFSTACK_STATUS,Note: this is the pointer pointing to the ufstack top. (4KB page pointer)" hexmask.quad 0x0 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x0 0.--21. 1. "TOP,This status register indicated the unified free list stack pointer status." group.quad 0x2090++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_START_OF_3D_UFSTACK,Effective on load of the Unified Free List Stack." hexmask.quad.word 0x0 54.--63. 1. "RESERVED_54," newline hexmask.quad.tbyte 0x0 32.--53. 1. "ALLOCATED_MMUPAGE,Start of MMU Pages allocated from the Unifed Free List Stack On Loading" newline hexmask.quad.word 0x0 22.--31. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x0 0.--21. 1. "ALLOCATED_PAGE,Start of TA pages[4KB] on loading of the Unified Free List Stack" rgroup.quad 0x2098++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_PM_3D_UFSTACK_PAGE_STATUS," hexmask.quad 0x0 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x0 0.--21. 1. "OP,The number of Unified Free list pages currently allocated for the TA" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_3D_UFSTACK_MMUPAGE_STATUS," hexmask.quad 0x8 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x8 0.--21. 1. "OP,The number of Unified Free list pages currently allocated for the MMU" line.quad 0x10 "CORE_MMRS_RGX_CR_PM_TASK_3D_UFSTACK_LOAD," hexmask.quad 0x10 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x10 0. "PENDING,pending status register corresponding to the ustack loading operation it will become '1' when this pm_task_ufstack_load being written and deassert until the operation is done" "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_PM_TASK_TA_UFSTACK_LOAD," hexmask.quad 0x18 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x18 0. "PENDING,pending status register corresponding to the ustack loading operation it will become '1' when this pm_task_ufstack_load being written and deassert until the operation is done" "0,1" group.quad 0x20B8++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_PM_TA_UFSTACK_BASE,Effective on load of the Unified Free List Stack. this register defines the base address of the unified free list stack being referenced." hexmask.quad.tbyte 0x0 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x0 4.--39. 1. "ADDR,1TB Addressable 128 bits aligned Base Address for unified free list stack base address" newline hexmask.quad.byte 0x0 0.--3. 1. "RESERVED_0," line.quad 0x8 "CORE_MMRS_RGX_CR_PM_TA_UFSTACK,Note: each 16GB 4KB addressable page (22 bits) is rounded to dword aligned" hexmask.quad 0x8 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x8 0.--21. 1. "STARTOF_TOP,This register defines the unified free list stack pointer @ loading time. It is 4K page." rgroup.quad 0x20C8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_TA_UFSTACK_STATUS,Note: this is the pointer pointing to the ufstack top. (4KB page pointer)" hexmask.quad 0x0 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x0 0.--21. 1. "TOP,This status register indicated the unified free list stack pointer status." group.quad 0x20D0++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PM_START_OF_TA_UFSTACK," hexmask.quad.word 0x0 54.--63. 1. "RESERVED_54," newline hexmask.quad.tbyte 0x0 32.--53. 1. "ALLOCATED_MMUPAGE,Start of MMU Pages allocated from the Unifed Free List Stack On Loading" newline hexmask.quad.word 0x0 22.--31. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x0 0.--21. 1. "ALLOCATED_PAGE,Start of TA pages[4KB] on loading of the Unified Free List Stack" rgroup.quad 0x20D8++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_PM_TA_UFSTACK_PAGE_STATUS," hexmask.quad 0x0 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x0 0.--21. 1. "OP,The number of Unified Free list pages currently allocated for the TA" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_TA_UFSTACK_MMUPAGE_STATUS," hexmask.quad 0x8 22.--63. 1. "RESERVED_22," newline hexmask.quad.tbyte 0x8 0.--21. 1. "OP,The number of Unified Free list pages currently allocated for the MMU" line.quad 0x10 "CORE_MMRS_RGX_CR_PM_UFSTACK_LOCK_STATUS,In rogue architecture. there is a unified free list whereby shared across multiple context." hexmask.quad 0x10 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x10 1. "PMD,Bit 1: Page DeAllocation Manger is grabing the lock. 0:idle/ 1 used." "0: idle/ 1 used,1: Page DeAllocation Manger is grabing the lock" newline bitfld.quad 0x10 0. "PMA,Bit 0: Page Allocation Manger is grabing the lock. 0:idle/ 1 used." "0: idle/ 1 used,?" line.quad 0x18 "CORE_MMRS_RGX_CR_PM_UFSTACK_LOCK_OWNER," hexmask.quad 0x18 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x18 1. "TD,Bit 1 :3D free list Lock owner. 0 PMA / 1 PMD" "?,1: 3D free list Lock owner" newline bitfld.quad 0x18 0. "TA,Bit 0: TA free list Lock Owner. 0 PMA / 1 PMD." "0: TA free list Lock Owner,?" group.quad 0x20F8++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_PM_UFSTACK_POLICY,This register enables the PM to drain pages from the unified free list stack" hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "OP,when this bit is '1' PM will try to drain pages from the unified free list stack as long as the ta free list do not have enough pages for the allocation" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_PM_VFP_TRAN_EN,This register enables the PM to another level of transfrom which is from Virtial Page to VirtualPhysical Page number" hexmask.quad 0x8 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x8 0. "OP,when this bit is '1' PM will try to another level of lookup between virtual page and the virtual physical page" "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_PM_TA_VFP_TABLE_BASE,Effective on loading TA context. this register defines the base address of the virtual-physical page table during TA processing." hexmask.quad.tbyte 0x10 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x10 4.--39. 1. "ADDR,1TB Addressable 128 bits aligned Base Address for TA context page tables in the DPM module" newline hexmask.quad.byte 0x10 0.--3. 1. "RESERVED_0," line.quad 0x18 "CORE_MMRS_RGX_CR_PM_3D_VFP_TABLE_BASE,Effective on loading 3D context. this register defines the base address of the virtual-physical page table during 3D processing." hexmask.quad.tbyte 0x18 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x18 4.--39. 1. "ADDR,1TB Addressable 128 bits aligned Base Address for 3D context page tables in the DPM module" newline hexmask.quad.byte 0x18 0.--3. 1. "RESERVED_0," group.quad 0x3000++0x7F line.quad 0x0 "CORE_MMRS_RGX_CR_FWCORE_ADDR_REMAP_CONFIG0,Override swerv memory access for this region" rbitfld.quad 0x0 63. "RESERVED_63," "0,1" newline bitfld.quad 0x0 62. "TRUSTED,Set whether accesses in the this region are trusted" "0,1" newline bitfld.quad 0x0 61. "LOAD_STORE_EN,Region enabled for loads/stores" "0,1" newline bitfld.quad 0x0 60. "FETCH_EN,Region enabled for instruction fetches" "0,1" newline hexmask.quad.word 0x0 44.--59. 1. "SIZE,Region mapped window size" newline rbitfld.quad 0x0 43. "RESERVED_43," "0,1" newline bitfld.quad 0x0 40.--42. "CBASE,MMU catalogue base index. Indices 0-7 are supported" "0,1,2,3,4,5,6,7" newline hexmask.quad.long 0x0 12.--39. 1. "DEVVADDR,Base output address [4k aligned]" newline hexmask.quad.word 0x0 0.--11. 1. "RESERVED_0," line.quad 0x8 "CORE_MMRS_RGX_CR_FWCORE_ADDR_REMAP_CONFIG1,Override swerv memory access for this region" rbitfld.quad 0x8 63. "RESERVED_63," "0,1" newline bitfld.quad 0x8 62. "TRUSTED,Set whether accesses in the this region are trusted" "0,1" newline bitfld.quad 0x8 61. "LOAD_STORE_EN,Region enabled for loads/stores" "0,1" newline bitfld.quad 0x8 60. "FETCH_EN,Region enabled for instruction fetches" "0,1" newline hexmask.quad.word 0x8 44.--59. 1. "SIZE,Region mapped window size" newline rbitfld.quad 0x8 43. "RESERVED_43," "0,1" newline bitfld.quad 0x8 40.--42. "CBASE,MMU catalogue base index. Indices 0-7 are supported" "0,1,2,3,4,5,6,7" newline hexmask.quad.long 0x8 12.--39. 1. "DEVVADDR,Base output address [4k aligned]" newline hexmask.quad.word 0x8 0.--11. 1. "RESERVED_0," line.quad 0x10 "CORE_MMRS_RGX_CR_FWCORE_ADDR_REMAP_CONFIG2,Override swerv memory access for this region" rbitfld.quad 0x10 63. "RESERVED_63," "0,1" newline bitfld.quad 0x10 62. "TRUSTED,Set whether accesses in the this region are trusted" "0,1" newline bitfld.quad 0x10 61. "LOAD_STORE_EN,Region enabled for loads/stores" "0,1" newline bitfld.quad 0x10 60. "FETCH_EN,Region enabled for instruction fetches" "0,1" newline hexmask.quad.word 0x10 44.--59. 1. "SIZE,Region mapped window size" newline rbitfld.quad 0x10 43. "RESERVED_43," "0,1" newline bitfld.quad 0x10 40.--42. "CBASE,MMU catalogue base index. Indices 0-7 are supported" "0,1,2,3,4,5,6,7" newline hexmask.quad.long 0x10 12.--39. 1. "DEVVADDR,Base output address [4k aligned]" newline hexmask.quad.word 0x10 0.--11. 1. "RESERVED_0," line.quad 0x18 "CORE_MMRS_RGX_CR_FWCORE_ADDR_REMAP_CONFIG3,Override swerv memory access for this region" rbitfld.quad 0x18 63. "RESERVED_63," "0,1" newline bitfld.quad 0x18 62. "TRUSTED,Set whether accesses in the this region are trusted" "0,1" newline bitfld.quad 0x18 61. "LOAD_STORE_EN,Region enabled for loads/stores" "0,1" newline bitfld.quad 0x18 60. "FETCH_EN,Region enabled for instruction fetches" "0,1" newline hexmask.quad.word 0x18 44.--59. 1. "SIZE,Region mapped window size" newline rbitfld.quad 0x18 43. "RESERVED_43," "0,1" newline bitfld.quad 0x18 40.--42. "CBASE,MMU catalogue base index. Indices 0-7 are supported" "0,1,2,3,4,5,6,7" newline hexmask.quad.long 0x18 12.--39. 1. "DEVVADDR,Base output address [4k aligned]" newline hexmask.quad.word 0x18 0.--11. 1. "RESERVED_0," line.quad 0x20 "CORE_MMRS_RGX_CR_FWCORE_ADDR_REMAP_CONFIG4,Override swerv memory access for this region" rbitfld.quad 0x20 63. "RESERVED_63," "0,1" newline bitfld.quad 0x20 62. "TRUSTED,Set whether accesses in the this region are trusted" "0,1" newline bitfld.quad 0x20 61. "LOAD_STORE_EN,Region enabled for loads/stores" "0,1" newline bitfld.quad 0x20 60. "FETCH_EN,Region enabled for instruction fetches" "0,1" newline hexmask.quad.word 0x20 44.--59. 1. "SIZE,Region mapped window size" newline rbitfld.quad 0x20 43. "RESERVED_43," "0,1" newline bitfld.quad 0x20 40.--42. "CBASE,MMU catalogue base index. Indices 0-7 are supported" "0,1,2,3,4,5,6,7" newline hexmask.quad.long 0x20 12.--39. 1. "DEVVADDR,Base output address [4k aligned]" newline hexmask.quad.word 0x20 0.--11. 1. "RESERVED_0," line.quad 0x28 "CORE_MMRS_RGX_CR_FWCORE_ADDR_REMAP_CONFIG5,Override swerv memory access for this region" rbitfld.quad 0x28 63. "RESERVED_63," "0,1" newline bitfld.quad 0x28 62. "TRUSTED,Set whether accesses in the this region are trusted" "0,1" newline bitfld.quad 0x28 61. "LOAD_STORE_EN,Region enabled for loads/stores" "0,1" newline bitfld.quad 0x28 60. "FETCH_EN,Region enabled for instruction fetches" "0,1" newline hexmask.quad.word 0x28 44.--59. 1. "SIZE,Region mapped window size" newline rbitfld.quad 0x28 43. "RESERVED_43," "0,1" newline bitfld.quad 0x28 40.--42. "CBASE,MMU catalogue base index. Indices 0-7 are supported" "0,1,2,3,4,5,6,7" newline hexmask.quad.long 0x28 12.--39. 1. "DEVVADDR,Base output address [4k aligned]" newline hexmask.quad.word 0x28 0.--11. 1. "RESERVED_0," line.quad 0x30 "CORE_MMRS_RGX_CR_FWCORE_ADDR_REMAP_CONFIG6,Override swerv memory access for this region" rbitfld.quad 0x30 63. "RESERVED_63," "0,1" newline bitfld.quad 0x30 62. "TRUSTED,Set whether accesses in the this region are trusted" "0,1" newline bitfld.quad 0x30 61. "LOAD_STORE_EN,Region enabled for loads/stores" "0,1" newline bitfld.quad 0x30 60. "FETCH_EN,Region enabled for instruction fetches" "0,1" newline hexmask.quad.word 0x30 44.--59. 1. "SIZE,Region mapped window size" newline rbitfld.quad 0x30 43. "RESERVED_43," "0,1" newline bitfld.quad 0x30 40.--42. "CBASE,MMU catalogue base index. Indices 0-7 are supported" "0,1,2,3,4,5,6,7" newline hexmask.quad.long 0x30 12.--39. 1. "DEVVADDR,Base output address [4k aligned]" newline hexmask.quad.word 0x30 0.--11. 1. "RESERVED_0," line.quad 0x38 "CORE_MMRS_RGX_CR_FWCORE_ADDR_REMAP_CONFIG7,Override swerv memory access for this region" rbitfld.quad 0x38 63. "RESERVED_63," "0,1" newline bitfld.quad 0x38 62. "TRUSTED,Set whether accesses in the this region are trusted" "0,1" newline bitfld.quad 0x38 61. "LOAD_STORE_EN,Region enabled for loads/stores" "0,1" newline bitfld.quad 0x38 60. "FETCH_EN,Region enabled for instruction fetches" "0,1" newline hexmask.quad.word 0x38 44.--59. 1. "SIZE,Region mapped window size" newline rbitfld.quad 0x38 43. "RESERVED_43," "0,1" newline bitfld.quad 0x38 40.--42. "CBASE,MMU catalogue base index. Indices 0-7 are supported" "0,1,2,3,4,5,6,7" newline hexmask.quad.long 0x38 12.--39. 1. "DEVVADDR,Base output address [4k aligned]" newline hexmask.quad.word 0x38 0.--11. 1. "RESERVED_0," line.quad 0x40 "CORE_MMRS_RGX_CR_FWCORE_ADDR_REMAP_CONFIG8,Override swerv memory access for this region" rbitfld.quad 0x40 63. "RESERVED_63," "0,1" newline bitfld.quad 0x40 62. "TRUSTED,Set whether accesses in the this region are trusted" "0,1" newline bitfld.quad 0x40 61. "LOAD_STORE_EN,Region enabled for loads/stores" "0,1" newline bitfld.quad 0x40 60. "FETCH_EN,Region enabled for instruction fetches" "0,1" newline hexmask.quad.word 0x40 44.--59. 1. "SIZE,Region mapped window size" newline rbitfld.quad 0x40 43. "RESERVED_43," "0,1" newline bitfld.quad 0x40 40.--42. "CBASE,MMU catalogue base index. Indices 0-7 are supported" "0,1,2,3,4,5,6,7" newline hexmask.quad.long 0x40 12.--39. 1. "DEVVADDR,Base output address [4k aligned]" newline hexmask.quad.word 0x40 0.--11. 1. "RESERVED_0," line.quad 0x48 "CORE_MMRS_RGX_CR_FWCORE_ADDR_REMAP_CONFIG9,Override swerv memory access for this region" rbitfld.quad 0x48 63. "RESERVED_63," "0,1" newline bitfld.quad 0x48 62. "TRUSTED,Set whether accesses in the this region are trusted" "0,1" newline bitfld.quad 0x48 61. "LOAD_STORE_EN,Region enabled for loads/stores" "0,1" newline bitfld.quad 0x48 60. "FETCH_EN,Region enabled for instruction fetches" "0,1" newline hexmask.quad.word 0x48 44.--59. 1. "SIZE,Region mapped window size" newline rbitfld.quad 0x48 43. "RESERVED_43," "0,1" newline bitfld.quad 0x48 40.--42. "CBASE,MMU catalogue base index. Indices 0-7 are supported" "0,1,2,3,4,5,6,7" newline hexmask.quad.long 0x48 12.--39. 1. "DEVVADDR,Base output address [4k aligned]" newline hexmask.quad.word 0x48 0.--11. 1. "RESERVED_0," line.quad 0x50 "CORE_MMRS_RGX_CR_FWCORE_ADDR_REMAP_CONFIG10,Override swerv memory access for this region" rbitfld.quad 0x50 63. "RESERVED_63," "0,1" newline bitfld.quad 0x50 62. "TRUSTED,Set whether accesses in the this region are trusted" "0,1" newline bitfld.quad 0x50 61. "LOAD_STORE_EN,Region enabled for loads/stores" "0,1" newline bitfld.quad 0x50 60. "FETCH_EN,Region enabled for instruction fetches" "0,1" newline hexmask.quad.word 0x50 44.--59. 1. "SIZE,Region mapped window size" newline rbitfld.quad 0x50 43. "RESERVED_43," "0,1" newline bitfld.quad 0x50 40.--42. "CBASE,MMU catalogue base index. Indices 0-7 are supported" "0,1,2,3,4,5,6,7" newline hexmask.quad.long 0x50 12.--39. 1. "DEVVADDR,Base output address [4k aligned]" newline hexmask.quad.word 0x50 0.--11. 1. "RESERVED_0," line.quad 0x58 "CORE_MMRS_RGX_CR_FWCORE_ADDR_REMAP_CONFIG11,Override swerv memory access for this region" rbitfld.quad 0x58 63. "RESERVED_63," "0,1" newline bitfld.quad 0x58 62. "TRUSTED,Set whether accesses in the this region are trusted" "0,1" newline bitfld.quad 0x58 61. "LOAD_STORE_EN,Region enabled for loads/stores" "0,1" newline bitfld.quad 0x58 60. "FETCH_EN,Region enabled for instruction fetches" "0,1" newline hexmask.quad.word 0x58 44.--59. 1. "SIZE,Region mapped window size" newline rbitfld.quad 0x58 43. "RESERVED_43," "0,1" newline bitfld.quad 0x58 40.--42. "CBASE,MMU catalogue base index. Indices 0-7 are supported" "0,1,2,3,4,5,6,7" newline hexmask.quad.long 0x58 12.--39. 1. "DEVVADDR,Base output address [4k aligned]" newline hexmask.quad.word 0x58 0.--11. 1. "RESERVED_0," line.quad 0x60 "CORE_MMRS_RGX_CR_FWCORE_ADDR_REMAP_CONFIG12,Override swerv memory access for this region" rbitfld.quad 0x60 63. "RESERVED_63," "0,1" newline bitfld.quad 0x60 62. "TRUSTED,Set whether accesses in the this region are trusted" "0,1" newline bitfld.quad 0x60 61. "LOAD_STORE_EN,Region enabled for loads/stores" "0,1" newline bitfld.quad 0x60 60. "FETCH_EN,Region enabled for instruction fetches" "0,1" newline hexmask.quad.word 0x60 44.--59. 1. "SIZE,Region mapped window size" newline rbitfld.quad 0x60 43. "RESERVED_43," "0,1" newline bitfld.quad 0x60 40.--42. "CBASE,MMU catalogue base index. Indices 0-7 are supported" "0,1,2,3,4,5,6,7" newline hexmask.quad.long 0x60 12.--39. 1. "DEVVADDR,Base output address [4k aligned]" newline hexmask.quad.word 0x60 0.--11. 1. "RESERVED_0," line.quad 0x68 "CORE_MMRS_RGX_CR_FWCORE_ADDR_REMAP_CONFIG13,Override swerv memory access for this region" rbitfld.quad 0x68 63. "RESERVED_63," "0,1" newline bitfld.quad 0x68 62. "TRUSTED,Set whether accesses in the this region are trusted" "0,1" newline bitfld.quad 0x68 61. "LOAD_STORE_EN,Region enabled for loads/stores" "0,1" newline bitfld.quad 0x68 60. "FETCH_EN,Region enabled for instruction fetches" "0,1" newline hexmask.quad.word 0x68 44.--59. 1. "SIZE,Region mapped window size" newline rbitfld.quad 0x68 43. "RESERVED_43," "0,1" newline bitfld.quad 0x68 40.--42. "CBASE,MMU catalogue base index. Indices 0-7 are supported" "0,1,2,3,4,5,6,7" newline hexmask.quad.long 0x68 12.--39. 1. "DEVVADDR,Base output address [4k aligned]" newline hexmask.quad.word 0x68 0.--11. 1. "RESERVED_0," line.quad 0x70 "CORE_MMRS_RGX_CR_FWCORE_ADDR_REMAP_CONFIG14,Override swerv memory access for this region" rbitfld.quad 0x70 63. "RESERVED_63," "0,1" newline bitfld.quad 0x70 62. "TRUSTED,Set whether accesses in the this region are trusted" "0,1" newline bitfld.quad 0x70 61. "LOAD_STORE_EN,Region enabled for loads/stores" "0,1" newline bitfld.quad 0x70 60. "FETCH_EN,Region enabled for instruction fetches" "0,1" newline hexmask.quad.word 0x70 44.--59. 1. "SIZE,Region mapped window size" newline rbitfld.quad 0x70 43. "RESERVED_43," "0,1" newline bitfld.quad 0x70 40.--42. "CBASE,MMU catalogue base index. Indices 0-7 are supported" "0,1,2,3,4,5,6,7" newline hexmask.quad.long 0x70 12.--39. 1. "DEVVADDR,Base output address [4k aligned]" newline hexmask.quad.word 0x70 0.--11. 1. "RESERVED_0," line.quad 0x78 "CORE_MMRS_RGX_CR_FWCORE_ADDR_REMAP_CONFIG15,Override swerv memory access for this region" rbitfld.quad 0x78 63. "RESERVED_63," "0,1" newline bitfld.quad 0x78 62. "TRUSTED,Set whether accesses in the this region are trusted" "0,1" newline bitfld.quad 0x78 61. "LOAD_STORE_EN,Region enabled for loads/stores" "0,1" newline bitfld.quad 0x78 60. "FETCH_EN,Region enabled for instruction fetches" "0,1" newline hexmask.quad.word 0x78 44.--59. 1. "SIZE,Region mapped window size" newline rbitfld.quad 0x78 43. "RESERVED_43," "0,1" newline bitfld.quad 0x78 40.--42. "CBASE,MMU catalogue base index. Indices 0-7 are supported" "0,1,2,3,4,5,6,7" newline hexmask.quad.long 0x78 12.--39. 1. "DEVVADDR,Base output address [4k aligned]" newline hexmask.quad.word 0x78 0.--11. 1. "RESERVED_0," group.quad 0x3090++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_FWCORE_BOOT,Boot the RISCV CPU" hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "ENABLE,Boot the RISCV CPU" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_FWCORE_RESET_ADDR,Swerv reset address" hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 1.--31. 1. "ADDR,Reset address for the core" newline rbitfld.quad 0x8 0. "RESERVED_0," "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_FWCORE_WRAPPER_NMI_ADDR,Non-Maskable Interrupt address" hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x10 1.--31. 1. "ADDR,Non-Maskable Interrupt address" newline rbitfld.quad 0x10 0. "RESERVED_0," "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_FWCORE_WRAPPER_NMI_EVENT,Issue a Non-Maskable Interrupt to RISCV" hexmask.quad 0x18 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x18 0. "TRIGGER_EN,Issue a Non-Maskable Interrupt to RISCV" "0,1" line.quad 0x20 "CORE_MMRS_RGX_CR_FWCORE_MEM_FAULT_MMU_STATUS,Indicates a fault has occurred on the CPU MMU and provides details of the fault." hexmask.quad 0x20 16.--63. 1. "RESERVED_16," newline hexmask.quad.byte 0x20 12.--15. 1. "CAT_BASE,Catalogue base address number" newline rbitfld.quad 0x20 11. "RESERVED_11," "0,1" newline bitfld.quad 0x20 8.--10. "PAGE_SIZE,Page size" "0,1,2,3,4,5,6,7" newline rbitfld.quad 0x20 7. "RESERVED_7," "0,1" newline bitfld.quad 0x20 5.--6. "DATA_TYPE,MMU data type that was invalid [on valid fault]" "0,1,2,3" newline bitfld.quad 0x20 4. "FAULT_RO,Indicates read-only fault['1'] or valid fault['0']" "0,1" newline rbitfld.quad 0x20 1.--3. "RESERVED_1," "0,1,2,3,4,5,6,7" newline bitfld.quad 0x20 0. "FAULT,Indicates a fault has occured" "0,1" rgroup.quad 0x30B8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_FWCORE_MEM_FAULT_REQ_STATUS,Provides details of the request that faulted on the CPU MMU" hexmask.quad.word 0x0 53.--63. 1. "RESERVED_53," newline bitfld.quad 0x0 52. "RNW," "0,1" newline hexmask.quad.byte 0x0 46.--51. 1. "TAG_SB," newline hexmask.quad.byte 0x0 40.--45. 1. "TAG_ID," newline hexmask.quad 0x0 4.--39. 1. "ADDRESS," newline hexmask.quad.byte 0x0 0.--3. 1. "RESERVED_0," group.quad 0x30C0++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_FWCORE_MEM_CTRL_INVAL,Invalidation bits allowing CPU BIF/MMU to clear when invalidation complete" hexmask.quad 0x0 4.--63. 1. "RESERVED_4," newline bitfld.quad 0x0 3. "TLB," "0,1" newline bitfld.quad 0x0 2. "PC," "0,1" newline bitfld.quad 0x0 1. "PD," "0,1" newline bitfld.quad 0x0 0. "PT," "0,1" rgroup.quad 0x30C8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_FWCORE_MEM_MMU_STATUS,General CPU MMU status" hexmask.quad 0x0 28.--63. 1. "RESERVED_28," newline hexmask.quad.byte 0x0 20.--27. 1. "PC_DATA," newline hexmask.quad.byte 0x0 12.--19. 1. "PD_DATA," newline hexmask.quad.byte 0x0 4.--11. 1. "PT_DATA," newline bitfld.quad 0x0 3. "RESERVED_3," "0,1" newline bitfld.quad 0x0 2. "STALLED," "0,1" newline bitfld.quad 0x0 1. "PAUSED," "0,1" newline bitfld.quad 0x0 0. "BUSY," "0,1" rgroup.quad 0x30D8++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_FWCORE_MEM_READS_EXT_STATUS,Outstanding read data external to CPU MMU" hexmask.quad 0x0 12.--63. 1. "RESERVED_12," newline hexmask.quad.word 0x0 0.--11. 1. "MMU," line.quad 0x8 "CORE_MMRS_RGX_CR_FWCORE_MEM_READS_INT_STATUS,Outstanding 256-bit read data in return data FIFO for CPU MMU" hexmask.quad 0x8 11.--63. 1. "RESERVED_11," newline hexmask.quad.word 0x8 0.--10. 1. "MMU," group.quad 0x30E8++0x57 line.quad 0x0 "CORE_MMRS_RGX_CR_FWCORE_WRAPPER_FENCE,Writing to this register offset will cause the CPU wrapper to emit a write fence to memory." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "ID," "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_FWCORE_MEM_CAT_BASE0," hexmask.quad.tbyte 0x8 40.--63. 1. "RESERVED_40," newline hexmask.quad.long 0x8 12.--39. 1. "ADDR," newline hexmask.quad.word 0x8 0.--11. 1. "RESERVED_0," line.quad 0x10 "CORE_MMRS_RGX_CR_FWCORE_MEM_CAT_BASE1," hexmask.quad.tbyte 0x10 40.--63. 1. "RESERVED_40," newline hexmask.quad.long 0x10 12.--39. 1. "ADDR," newline hexmask.quad.word 0x10 0.--11. 1. "RESERVED_0," line.quad 0x18 "CORE_MMRS_RGX_CR_FWCORE_MEM_CAT_BASE2," hexmask.quad.tbyte 0x18 40.--63. 1. "RESERVED_40," newline hexmask.quad.long 0x18 12.--39. 1. "ADDR," newline hexmask.quad.word 0x18 0.--11. 1. "RESERVED_0," line.quad 0x20 "CORE_MMRS_RGX_CR_FWCORE_MEM_CAT_BASE3," hexmask.quad.tbyte 0x20 40.--63. 1. "RESERVED_40," newline hexmask.quad.long 0x20 12.--39. 1. "ADDR," newline hexmask.quad.word 0x20 0.--11. 1. "RESERVED_0," line.quad 0x28 "CORE_MMRS_RGX_CR_FWCORE_MEM_CAT_BASE4," hexmask.quad.tbyte 0x28 40.--63. 1. "RESERVED_40," newline hexmask.quad.long 0x28 12.--39. 1. "ADDR," newline hexmask.quad.word 0x28 0.--11. 1. "RESERVED_0," line.quad 0x30 "CORE_MMRS_RGX_CR_FWCORE_MEM_CAT_BASE5," hexmask.quad.tbyte 0x30 40.--63. 1. "RESERVED_40," newline hexmask.quad.long 0x30 12.--39. 1. "ADDR," newline hexmask.quad.word 0x30 0.--11. 1. "RESERVED_0," line.quad 0x38 "CORE_MMRS_RGX_CR_FWCORE_MEM_CAT_BASE6," hexmask.quad.tbyte 0x38 40.--63. 1. "RESERVED_40," newline hexmask.quad.long 0x38 12.--39. 1. "ADDR," newline hexmask.quad.word 0x38 0.--11. 1. "RESERVED_0," line.quad 0x40 "CORE_MMRS_RGX_CR_FWCORE_MEM_CAT_BASE7," hexmask.quad.tbyte 0x40 40.--63. 1. "RESERVED_40," newline hexmask.quad.long 0x40 12.--39. 1. "ADDR," newline hexmask.quad.word 0x40 0.--11. 1. "RESERVED_0," line.quad 0x48 "CORE_MMRS_RGX_CR_FWCORE_WDT_RESET,A '1' may be written to this register to reset the watchdog timer count." hexmask.quad 0x48 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x48 0. "EN," "0,1" line.quad 0x50 "CORE_MMRS_RGX_CR_FWCORE_WDT_CTRL,Watchdog timer control register." hexmask.quad.long 0x50 32.--63. 1. "RESERVED_32," newline hexmask.quad.word 0x50 16.--31. 1. "PROT,Writes to this register must set these bits to 0xABCD for the writes to THRESHOLD and ENABLE to take effect. These bits are read as 0x0000" newline rbitfld.quad 0x50 13.--15. "RESERVED_13," "0,1,2,3,4,5,6,7" newline hexmask.quad.byte 0x50 8.--12. 1. "THRESHOLD,Logarithmic threshold. When the counter bit indexed by the value in this field transitions from 0 to 1 the WDT module output pulse is asserted and the count is reset to 0." newline hexmask.quad.byte 0x50 1.--7. 1. "RESERVED_1," newline bitfld.quad 0x50 0. "ENABLE,'1' - WDT enabled. '0' - WDT disabled." "0,1" rgroup.quad 0x3140++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_FWCORE_WDT_COUNT,Read only register returns the current value of the watchdog timer count." hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "VALUE," group.quad 0x3148++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_RISCV_MTIME_SET,Writing to this register updates the Timer counter. On the following ticks the counter will be incremented based on the newly written value." hexmask.quad 0x0 0.--63. 1. "VALUE," line.quad 0x8 "CORE_MMRS_RGX_CR_RISCV_MTIME_CMP,Writing to this register updates the Timer compare value and at the same time clears the sticky bit of the timer interrupt output." hexmask.quad 0x8 0.--63. 1. "VALUE," rgroup.quad 0x3158++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_RISCV_MTIME_STAT,Shows the momentary value of the 64 bit Timer counter." hexmask.quad 0x0 0.--63. 1. "VALUE," group.quad 0x3160++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_RISCV_MTIME_CTRL,Control register." hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline bitfld.quad 0x0 31. "SOFT_RESET,When high the counter the MTIME_SET & MTIME_CMP registers and the sticky interrupt are all forced to zero" "0,1" newline hexmask.quad.long 0x0 2.--30. 1. "RESERVED_2," newline bitfld.quad 0x0 1. "PAUSE,When high the timer is not being incremented by tick pulses but can still be written using the MTIME_SET registers." "0,1" newline bitfld.quad 0x0 0. "ENABLE,When high the timer interrupt output is enabled. The counter itself is not affected by this bit." "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_FWCORE_IDLE,Top-level idle control register" hexmask.quad 0x8 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x8 0. "ENABLE,Set to 0x0 overwrites the value of GPU_IDLE to 0x0 set to 0x1 makes GPU Idle dependent on top level idles" "0,1" rgroup.quad 0x3400++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED00,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x0 0.--63. 1. "RESERVED_0," line.quad 0x8 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED01,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x8 0.--63. 1. "RESERVED_0," line.quad 0x10 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED02,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x10 0.--63. 1. "RESERVED_0," line.quad 0x18 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED03,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x18 0.--63. 1. "RESERVED_0," group.quad 0x3420++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_FWCORE_DMI_DATA0,RISC-V Debug Module Interface - Basic read/write register that may be read or changed by abstract commands." hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "VAL," line.quad 0x8 "CORE_MMRS_RGX_CR_FWCORE_DMI_DATA1,RISC-V Debug Module Interface - Basic read/write register that may be read or changed by abstract commands." hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "VAL," rgroup.quad 0x3430++0x4F line.quad 0x0 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED10,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x0 0.--63. 1. "RESERVED_0," line.quad 0x8 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED11,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x8 0.--63. 1. "RESERVED_0," line.quad 0x10 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED12,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x10 0.--63. 1. "RESERVED_0," line.quad 0x18 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED13,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x18 0.--63. 1. "RESERVED_0," line.quad 0x20 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED14,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x20 0.--63. 1. "RESERVED_0," line.quad 0x28 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED15,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x28 0.--63. 1. "RESERVED_0," line.quad 0x30 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED16,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x30 0.--63. 1. "RESERVED_0," line.quad 0x38 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED17,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x38 0.--63. 1. "RESERVED_0," line.quad 0x40 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED18,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x40 0.--63. 1. "RESERVED_0," line.quad 0x48 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED19,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x48 0.--63. 1. "RESERVED_0," group.quad 0x3480++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_FWCORE_DMI_DMCONTROL,RISC-V Debug Module Interface - This register controls the overall Debug Module as well as the currently selected harts." hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline bitfld.quad 0x0 31. "HALTREQ," "0,1" newline bitfld.quad 0x0 30. "RESUMEREQ," "0,1" newline rbitfld.quad 0x0 29. "RESERVED_29," "0,1" newline bitfld.quad 0x0 28. "ACKHAVERESET," "0,1" newline hexmask.quad.long 0x0 2.--27. 1. "RESERVED_2," newline bitfld.quad 0x0 1. "NDMRESET," "0,1" newline bitfld.quad 0x0 0. "DMACTIVE," "0,1" rgroup.quad 0x3488++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_FWCORE_DMI_DMSTATUS,RISC-V Debug Module Interface - This register reports status for the overall Debug Module as well as the currently selected harts." hexmask.quad 0x0 23.--63. 1. "RESERVED_23," newline bitfld.quad 0x0 22. "IMPEBREAK," "0,1" newline bitfld.quad 0x0 20.--21. "RESERVED_20," "0,1,2,3" newline bitfld.quad 0x0 19. "ALLHAVERESET," "0,1" newline bitfld.quad 0x0 18. "ANYHAVERESET," "0,1" newline bitfld.quad 0x0 17. "ALLRESUMEACK," "0,1" newline bitfld.quad 0x0 16. "ANYRESUMEACK," "0,1" newline bitfld.quad 0x0 15. "ALLNONEXISTENT," "0,1" newline bitfld.quad 0x0 14. "ANYNONEXISTENT," "0,1" newline bitfld.quad 0x0 13. "ALLUNAVAIL," "0,1" newline bitfld.quad 0x0 12. "ANYUNAVAIL," "0,1" newline bitfld.quad 0x0 11. "ALLRUNNING," "0,1" newline bitfld.quad 0x0 10. "ANYRUNNING," "0,1" newline bitfld.quad 0x0 9. "ALLHALTED," "0,1" newline bitfld.quad 0x0 8. "ANYHALTED," "0,1" newline bitfld.quad 0x0 7. "AUTHENTICATED," "0,1" newline bitfld.quad 0x0 6. "AUTHBUSY," "0,1" newline bitfld.quad 0x0 5. "HASRESETHALTREQ," "0,1" newline bitfld.quad 0x0 4. "CONFSTRPTRVALID," "0,1" newline hexmask.quad.byte 0x0 0.--3. 1. "VERSION," line.quad 0x8 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED20,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x8 0.--63. 1. "RESERVED_0," line.quad 0x10 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED21,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x10 0.--63. 1. "RESERVED_0," line.quad 0x18 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED22,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x18 0.--63. 1. "RESERVED_0," line.quad 0x20 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED23,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x20 0.--63. 1. "RESERVED_0," group.quad 0x34B0++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_FWCORE_DMI_ABSTRACTCS,RISC-V Debug Module Interface - Abstract Control and Status" hexmask.quad 0x0 29.--63. 1. "RESERVED_29," newline hexmask.quad.byte 0x0 24.--28. 1. "PROGBUFSIZE," newline hexmask.quad.word 0x0 13.--23. 1. "RESERVED_13," newline bitfld.quad 0x0 12. "BUSY," "0,1" newline rbitfld.quad 0x0 11. "RESERVED_11," "0,1" newline bitfld.quad 0x0 8.--10. "CMDERR," "0,1,2,3,4,5,6,7" newline hexmask.quad.byte 0x0 4.--7. 1. "RESERVED_4," newline hexmask.quad.byte 0x0 0.--3. 1. "DATACOUNT," line.quad 0x8 "CORE_MMRS_RGX_CR_FWCORE_DMI_COMMAND,RISC-V Debug Module Interface - Abstract Command" hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.byte 0x8 24.--31. 1. "CMDTYPE," newline hexmask.quad.tbyte 0x8 0.--23. 1. "CONTROL," rgroup.quad 0x34C0++0xFF line.quad 0x0 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED30,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x0 0.--63. 1. "RESERVED_0," line.quad 0x8 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED31,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x8 0.--63. 1. "RESERVED_0," line.quad 0x10 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED32,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x10 0.--63. 1. "RESERVED_0," line.quad 0x18 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED33,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x18 0.--63. 1. "RESERVED_0," line.quad 0x20 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED34,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x20 0.--63. 1. "RESERVED_0," line.quad 0x28 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED35,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x28 0.--63. 1. "RESERVED_0," line.quad 0x30 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED36,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x30 0.--63. 1. "RESERVED_0," line.quad 0x38 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED37,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x38 0.--63. 1. "RESERVED_0," line.quad 0x40 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED38,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x40 0.--63. 1. "RESERVED_0," line.quad 0x48 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED39,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x48 0.--63. 1. "RESERVED_0," line.quad 0x50 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED310,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x50 0.--63. 1. "RESERVED_0," line.quad 0x58 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED311,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x58 0.--63. 1. "RESERVED_0," line.quad 0x60 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED312,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x60 0.--63. 1. "RESERVED_0," line.quad 0x68 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED313,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x68 0.--63. 1. "RESERVED_0," line.quad 0x70 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED314,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x70 0.--63. 1. "RESERVED_0," line.quad 0x78 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED315,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x78 0.--63. 1. "RESERVED_0," line.quad 0x80 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED316,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x80 0.--63. 1. "RESERVED_0," line.quad 0x88 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED317,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x88 0.--63. 1. "RESERVED_0," line.quad 0x90 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED318,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x90 0.--63. 1. "RESERVED_0," line.quad 0x98 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED319,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x98 0.--63. 1. "RESERVED_0," line.quad 0xA0 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED320,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0xA0 0.--63. 1. "RESERVED_0," line.quad 0xA8 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED321,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0xA8 0.--63. 1. "RESERVED_0," line.quad 0xB0 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED322,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0xB0 0.--63. 1. "RESERVED_0," line.quad 0xB8 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED323,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0xB8 0.--63. 1. "RESERVED_0," line.quad 0xC0 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED324,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0xC0 0.--63. 1. "RESERVED_0," line.quad 0xC8 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED325,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0xC8 0.--63. 1. "RESERVED_0," line.quad 0xD0 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED326,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0xD0 0.--63. 1. "RESERVED_0," line.quad 0xD8 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED327,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0xD8 0.--63. 1. "RESERVED_0," line.quad 0xE0 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED328,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0xE0 0.--63. 1. "RESERVED_0," line.quad 0xE8 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED329,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0xE8 0.--63. 1. "RESERVED_0," line.quad 0xF0 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED330,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0xF0 0.--63. 1. "RESERVED_0," line.quad 0xF8 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED331,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0xF8 0.--63. 1. "RESERVED_0," group.quad 0x35C0++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_FWCORE_DMI_SBCS,RISC-V Debug Module Interface - System Bus Access Control and Status" hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline bitfld.quad 0x0 29.--31. "SBVERSION," "0,1,2,3,4,5,6,7" newline hexmask.quad.byte 0x0 23.--28. 1. "RESERVED_23," newline bitfld.quad 0x0 22. "SBBUSYERROR," "0,1" newline bitfld.quad 0x0 21. "SBBUSY," "0,1" newline bitfld.quad 0x0 20. "SBREADONADDR," "0,1" newline bitfld.quad 0x0 17.--19. "SBACCESS," "0,1,2,3,4,5,6,7" newline bitfld.quad 0x0 16. "SBAUTOINCREMENT," "0,1" newline bitfld.quad 0x0 15. "SBREADONDATA," "0,1" newline bitfld.quad 0x0 12.--14. "SBERROR," "0,1,2,3,4,5,6,7" newline hexmask.quad.byte 0x0 5.--11. 1. "SBASIZE," newline bitfld.quad 0x0 4. "SBACCESS128," "0,1" newline bitfld.quad 0x0 3. "SBACCESS64," "0,1" newline bitfld.quad 0x0 2. "SBACCESS32," "0,1" newline bitfld.quad 0x0 1. "SBACCESS16," "0,1" newline bitfld.quad 0x0 0. "SBACCESS8," "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_FWCORE_DMI_SBADDRESS0,RISC-V Debug Module Interface - System Bus Address" hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "ADDRESS," rgroup.quad 0x35D0++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED40,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x0 0.--63. 1. "RESERVED_0," line.quad 0x8 "CORE_MMRS_RGX_CR_FWCORE_DMI_RESERVED41,This address is mapped to the FW CPU debug port. Do not use" hexmask.quad 0x8 0.--63. 1. "RESERVED_0," group.quad 0x35E0++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_FWCORE_DMI_SBDATA0,RISC-V Debug Module Interface - System Bus Data Words" hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "DATA," line.quad 0x8 "CORE_MMRS_RGX_CR_FWCORE_DMI_SBDATA1,RISC-V Debug Module Interface - System Bus Data Words" hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "DATA," line.quad 0x10 "CORE_MMRS_RGX_CR_FWCORE_DMI_SBDATA2,RISC-V Debug Module Interface - System Bus Data Words" hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x10 0.--31. 1. "DATA," line.quad 0x18 "CORE_MMRS_RGX_CR_FWCORE_DMI_SBDATA3,RISC-V Debug Module Interface - System Bus Data Words" hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x18 0.--31. 1. "DATA," rgroup.quad 0x3600++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_FWCORE_DMI_HALTSUM0,RISC-V Debug Module Interface - Halt Summary 0" hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "VAL," group.quad 0x3800++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_SLC_CTRL_MISC,SLC control registers" hexmask.quad.long 0x0 32.--63. 1. "SCRAMBLE_BITS,Pattern of bits used to determine the Cache Bank in Address Decode mode 0x21. The actual Cache Bank to use is determined by indexing into the 32 Scramble Bits using the 5 LSB's of the Hash result and then XORing.." newline hexmask.quad.byte 0x0 26.--31. 1. "RESERVED_26," newline bitfld.quad 0x0 25. "TAG_ID_LIMIT_CONTROL,Controls the number of external memory tag IDs available to SLC" "0,1" newline bitfld.quad 0x0 24. "LAZYWB_OVERRIDE,Override cache policy of requests with lazy write back to write back" "0,1" newline hexmask.quad.byte 0x0 16.--23. 1. "ADDR_DECODE_MODE,Address decoding used to determine cache bank from the address: 0x00 = Bit 6 = 64 byte 0x01 = Bit 7 = 128 byte 0x10 = Simple XOR based address hash 1 .." newline hexmask.quad.byte 0x0 9.--15. 1. "RESERVED_9," newline bitfld.quad 0x0 8. "PAUSE,Pause the SLC" "0,1" newline hexmask.quad.byte 0x0 4.--7. 1. "RESERVED_4," newline bitfld.quad 0x0 3. "RESP_PRIORITY,Priority setting between Hit and Miss on return response. Default is round robin and set to 1 if miss needs priority over hit" "0,1" newline bitfld.quad 0x0 2. "ENABLE_LINE_USE_LIMIT,Enable the use of cache line limits" "0,1" newline bitfld.quad 0x0 1. "ENABLE_PSG_HAZARD_CHECK,Enable the hazard checking of PSG writes only turn off if strict write ordering is guaranteed in the memory fabric" "0,1" newline bitfld.quad 0x0 0. "BYPASS_BURST_COMBINER,Disable the burst combiner on the external memory interface" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_SLC_CTRL_INVAL,SLC Invalidate control." hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline bitfld.quad 0x8 31. "LAZY,Advanced mode of operation whereby other requestors are not blocked whilst the Invalidate is in progress" "0,1" newline hexmask.quad.long 0x8 6.--30. 1. "RESERVED_6," newline bitfld.quad 0x8 5. "DM_HOST_META,When set invalidate all SLC entries referenced solely by the HOST or META" "0,1" newline bitfld.quad 0x8 4. "DM_MMU,When set invalidate all SLC entries referenced solely by the MMU" "0,1" newline bitfld.quad 0x8 3. "DM_COMPUTE,When set invalidate all SLC entries referenced solely by the COMPUTE data master" "0,1" newline bitfld.quad 0x8 2. "DM_PIXEL,When set invalidate all SLC entries referenced solely by the PIXEL data master" "0,1" newline bitfld.quad 0x8 1. "DM_TA,When set invalidate all SLC entries referenced solely by the TA group which includes VERTEX TESSELLATOR & STREAM_OUT data masters" "0,1" newline bitfld.quad 0x8 0. "ALL,When set invalidate all SLC entries" "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_SLC_CTRL_FLUSH,SLC Flush control." hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline bitfld.quad 0x10 31. "LAZY,Advanced mode of operation whereby other requestors are not blocked whilst the Flush is in progress" "0,1" newline hexmask.quad.long 0x10 6.--30. 1. "RESERVED_6," newline bitfld.quad 0x10 5. "DM_HOST_META,When set flush all SLC entries made dirty by the HOST or META" "0,1" newline bitfld.quad 0x10 4. "DM_MMU,When set flush all SLC entries made dirty by the MMU" "0,1" newline bitfld.quad 0x10 3. "DM_COMPUTE,When set flush all SLC entries made dirty by the COMPUTE data master" "0,1" newline bitfld.quad 0x10 2. "DM_PIXEL,When set flush all SLC entries made dirty by the PIXEL data master" "0,1" newline bitfld.quad 0x10 1. "DM_TA,When set flush all SLC entries made dirty by the TA group which includes VERTEX TESSELLATOR & STREAM_OUT data masters" "0,1" newline bitfld.quad 0x10 0. "ALL,When set flush all SLC entries" "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_SLC_CTRL_FLUSH_INVAL,SLC Flush & Invalidate control." hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline bitfld.quad 0x18 31. "LAZY,Advanced mode of operation whereby other requestors are not blocked whilst the Flush Invalidate is in progress" "0,1" newline hexmask.quad.long 0x18 6.--30. 1. "RESERVED_6," newline bitfld.quad 0x18 5. "DM_HOST_META,When set flush all SLC entries made dirty by the HOST or META then invalidate all SLC entries referenced solely by the HOST or META" "0,1" newline bitfld.quad 0x18 4. "DM_MMU,When set flush all SLC entries made dirty by the MMU then invalidate all SLC entries referenced solely by the MMU" "0,1" newline bitfld.quad 0x18 3. "DM_COMPUTE,When set flush all SLC entries made dirty by the COMPUTE data master then invalidate all SLC entries referenced solely by the COMPUTE data master" "0,1" newline bitfld.quad 0x18 2. "DM_PIXEL,When set flush all SLC entries made dirty by the PIXEL data master then invalidate all SLC entries referenced solely by the PIXEL data master" "0,1" newline bitfld.quad 0x18 1. "DM_TA,When set flush all SLC entries made dirty by the TA group which includes VERTEX TESSELLATOR & STREAM_OUT data masters then invalidate all SLC entries referenced solely by the TA group which includes VERTEX .." "0,1" newline bitfld.quad 0x18 0. "ALL,When set flush all SLC entries then invalidate all SLC entries" "0,1" rgroup.quad 0x3820++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_SLC_STATUS0,Current status of Flush / Invalidate operations within the SLC" hexmask.quad 0x0 3.--63. 1. "RESERVED_3," newline bitfld.quad 0x0 2. "FLUSH_INVAL_PENDING,1 indicates there is a pending request to perform a combined Flush Invalidate on the SLC" "0,1" newline bitfld.quad 0x0 1. "INVAL_PENDING,1 indicates there is a pending request to Invalidate the SLC" "0,1" newline bitfld.quad 0x0 0. "FLUSH_PENDING,1 indicates there is a pending request to Flush the SLC" "0,1" group.quad 0x3828++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_SLC_CTRL_BYPASS,SLC Bypass control" hexmask.quad.byte 0x0 60.--63. 1. "RESERVED_60," newline bitfld.quad 0x0 59. "REQ_TFBC_COMP_ZLS,Bypass SLC for TFBC_COMP ZLS requestor" "0,1" newline bitfld.quad 0x0 58. "REQ_TFBC_DECOMP_ZLS_HEADER,Bypass SLC for TFBC_DECOMP ZLS Header requestor" "0,1" newline bitfld.quad 0x0 57. "REQ_TFBC_DECOMP_TCU_HEADER,Bypass SLC for TFBC_DECOMP TCU Header requestor" "0,1" newline bitfld.quad 0x0 56. "REQ_TFBC_DECOMP_ZLS_DATA,Bypass SLC for TFBC_DECOMP ZLS Delta requestor" "0,1" newline bitfld.quad 0x0 55. "REQ_TFBC_DECOMP_TCU_DATA,Bypass SLC for TFBC_DECOMP TCU Delta requestor" "0,1" newline bitfld.quad 0x0 54. "REQ_TFBC_COMP_PBE,Bypass SLC for TFBC_COMP PBE requestor" "0,1" newline bitfld.quad 0x0 53. "REQ_TCU_DM_COMPUTE,Bypass SLC when DM is COMPUTE for TCU requests" "0,1" newline bitfld.quad 0x0 52. "PDSRW_NOLINEFILL,PDSRW nolinefill set" "0,1" newline bitfld.quad 0x0 51. "PBE_NOLINEFILL,PBE nolinefill set" "0,1" newline rbitfld.quad 0x0 50. "RESERVED_50," "0,1" newline bitfld.quad 0x0 49. "REQ_IPF_RREQ,Bypass SLC for IPF [RREQ] requestor" "0,1" newline bitfld.quad 0x0 48. "REQ_IPF_CREQ,Bypass SLC for IPF [CREQ] requestor" "0,1" newline bitfld.quad 0x0 47. "REQ_IPF_PREQ,Bypass SLC for IPF [PREQ] requestor" "0,1" newline bitfld.quad 0x0 46. "REQ_IPF_DBSC,Bypass SLC for IPF [DBSC] requestor" "0,1" newline bitfld.quad 0x0 45. "REQ_TCU,Bypass SLC for TCU requests" "0,1" newline bitfld.quad 0x0 44. "REQ_PBE,Bypass SLC for PBE requestor" "0,1" newline bitfld.quad 0x0 43. "REQ_ISP,Bypass SLC for the ISP requestor" "0,1" newline bitfld.quad 0x0 42. "REQ_PM,Bypass SLC for the PM requestor" "0,1" newline rbitfld.quad 0x0 41. "RESERVED_41," "0,1" newline bitfld.quad 0x0 40. "REQ_CDM,Bypass SLC for the CDM requestor" "0,1" newline bitfld.quad 0x0 39. "REQ_TSPF_PDS_STATE,Bypass SLC for the TSPF PDS STATE requestor" "0,1" newline bitfld.quad 0x0 38. "REQ_TSPF_DB,Bypass SLC for the TSPF DB requestor" "0,1" newline bitfld.quad 0x0 37. "REQ_TSPF_VTX_VAR,Bypass SLC for the TSPF VTX VAR requestor" "0,1" newline bitfld.quad 0x0 36. "REQ_VDM,Bypass SLC for VDM requestor" "0,1" newline bitfld.quad 0x0 35. "REQ_TA_PSG_STREAM,Bypass SLC for the TA [PSG Stream] requestor" "0,1" newline bitfld.quad 0x0 34. "REQ_TA_PSG_REGION,Bypass SLC for the TA [PSG Region] requestor" "0,1" newline bitfld.quad 0x0 33. "REQ_TA_VCE,Bypass SLC for the TA [VCE] requestor" "0,1" newline bitfld.quad 0x0 32. "REQ_TA_PPP,Bypass SLC for the TA [PPP] requestor" "0,1" newline rbitfld.quad 0x0 31. "RESERVED_31," "0,1" newline bitfld.quad 0x0 30. "DM_PM_ALIST,Bypass SLC for the PM_ALIST data master" "0,1" newline bitfld.quad 0x0 29. "DM_PB_TE,Bypass SLC for the PB_TE data master" "0,1" newline bitfld.quad 0x0 28. "DM_PB_VCE,Bypass SLC for the PB_VCE data master" "0,1" newline rbitfld.quad 0x0 26.--27. "RESERVED_26," "0,1,2,3" newline bitfld.quad 0x0 25. "REQ_IPF_CPF,Bypass SLC for IPF [CPF] requestor" "0,1" newline bitfld.quad 0x0 24. "REQ_TPU,Bypass SLC for TPU requests coming from the MCU requestor" "0,1" newline rbitfld.quad 0x0 22.--23. "RESERVED_22," "0,1,2,3" newline bitfld.quad 0x0 21. "BYP_CC_N,Bypass SLC when Cache Coherency bit is not set" "0,1" newline bitfld.quad 0x0 20. "BYP_CC,Bypass SLC when Cache Coherency bit is set" "0,1" newline bitfld.quad 0x0 19. "REQ_MCU,Bypass SLC for the MCU requestor" "0,1" newline bitfld.quad 0x0 18. "REQ_PDS,Bypass SLC for the PDS requestor" "0,1" newline bitfld.quad 0x0 17. "REQ_TPF,Bypass SLC for the TPF requestor" "0,1" newline bitfld.quad 0x0 16. "REQ_TA_TPC,Bypass SLC for the TA [Tail Pointer Cache data] requestor" "0,1" newline rbitfld.quad 0x0 15. "RESERVED_15," "0,1" newline bitfld.quad 0x0 14. "REQ_USC,Bypass SLC for the USC requestor" "0,1" newline bitfld.quad 0x0 13. "REQ_META,Bypass SLC for the META requestor" "0,1" newline bitfld.quad 0x0 12. "REQ_HOST,Bypass SLC for the Host requestor" "0,1" newline bitfld.quad 0x0 11. "REQ_MMU_PT,Bypass SLC for the MMU requestor [Page Table data]" "0,1" newline bitfld.quad 0x0 10. "REQ_MMU_PD,Bypass SLC for the MMU requestor [Page Directory data]" "0,1" newline bitfld.quad 0x0 9. "REQ_MMU_PC,Bypass SLC for the MMU requestor [Page Catalogue data]" "0,1" newline rbitfld.quad 0x0 6.--8. "RESERVED_6," "0,1,2,3,4,5,6,7" newline bitfld.quad 0x0 5. "DM_HOST_META,Bypass SLC the HOST/META data master" "0,1" newline bitfld.quad 0x0 4. "DM_MMU,Bypass SLC the MMU data master" "0,1" newline bitfld.quad 0x0 3. "DM_COMPUTE,Bypass SLC the COMPUTE data master" "0,1" newline bitfld.quad 0x0 2. "DM_PIXEL,Bypass SLC for the PIXEL data master" "0,1" newline bitfld.quad 0x0 1. "DM_TA,Bypass SLC for the TA group which includes VERTEX TESSELLATOR & STREAM_OUT data masters" "0,1" newline bitfld.quad 0x0 0. "ALL,Bypass SLC for all requesters" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_SLC_LINE_USE_COUNT_LIMIT0,Define the maximum number of cache lines allowed to be allocated to each requester within the SLC." hexmask.quad.byte 0x8 56.--63. 1. "TPF,Maximum number of cachelines allocated to the TPF requestor" newline hexmask.quad.byte 0x8 48.--55. 1. "TA_TPC,Maximum number of cachelines allocated to the TA [Tail Pointer Cache data] requestor" newline hexmask.quad.byte 0x8 40.--47. 1. "IPF_OBJ,Maximum number of cachelines allocated to the IPF [Object data] requestor" newline hexmask.quad.byte 0x8 32.--39. 1. "USC,Maximum number of cachelines allocated to the USC requestor" newline hexmask.quad.byte 0x8 24.--31. 1. "TDM,Maximum number of cachelines allocated to the TDM requestor" newline hexmask.quad.byte 0x8 16.--23. 1. "HOST,Maximum number of cachelines allocated to the HOST requestor" newline hexmask.quad.byte 0x8 8.--15. 1. "TCU,Maximum number of cachelines allocated to the TCU requestor" newline hexmask.quad.byte 0x8 0.--7. 1. "MMU,Maximum number of cachelines allocated to the MMU requestor" line.quad 0x10 "CORE_MMRS_RGX_CR_SLC_LINE_USE_COUNT_LIMIT1,Define the maximum number of cache lines allowed to be allocated to each requester within the SLC." hexmask.quad 0x10 24.--63. 1. "RESERVED_24," newline hexmask.quad.byte 0x10 16.--23. 1. "FBDC,Maximum number of cachelines allocated to the FBDC requestor" newline hexmask.quad.byte 0x10 8.--15. 1. "MCU,Maximum number of cachelines allocated to the MCU requestor" newline hexmask.quad.byte 0x10 0.--7. 1. "PDS,Maximum number of cachelines allocated to the PDS requestor" rgroup.quad 0x3840++0x37 line.quad 0x0 "CORE_MMRS_RGX_CR_SLC_LINE_USE_COUNT_STATUS0,Number of cache lines currently allocated to each requester within the SLC." hexmask.quad.byte 0x0 60.--63. 1. "RESERVED_60," newline hexmask.quad.word 0x0 48.--59. 1. "BANK0_HOST,Number of cache lines in bank 0 currently allocated to the HOST" newline hexmask.quad.word 0x0 36.--47. 1. "BANK1_TDM,Number of cache lines in bank 1 currently allocated to the TDM" newline hexmask.quad.word 0x0 24.--35. 1. "BANK0_TDM,Number of cache lines in bank 0 currently allocated to the TDM" newline hexmask.quad.word 0x0 12.--23. 1. "BANK1_MMU,Number of cache lines in bank 1 currently allocated to the MMU" newline hexmask.quad.word 0x0 0.--11. 1. "BANK0_MMU,Number of cache lines in bank 0 currently allocated to the MMU" line.quad 0x8 "CORE_MMRS_RGX_CR_SLC_LINE_USE_COUNT_STATUS1,Number of cache lines currently allocated to each requester within the SLC." hexmask.quad.byte 0x8 60.--63. 1. "RESERVED_60," newline hexmask.quad.word 0x8 48.--59. 1. "BANK1_USC,Number of cache lines in bank 1 currently allocated to the USC" newline hexmask.quad.word 0x8 36.--47. 1. "BANK0_USC,Number of cache lines in bank 0 currently allocated to the USC" newline hexmask.quad.word 0x8 24.--35. 1. "BANK1_TCU,Number of cache lines in bank 1 currently allocated to the TCU" newline hexmask.quad.word 0x8 12.--23. 1. "BANK0_TCU,Number of cache lines in bank 0 currently allocated to the TCU" newline hexmask.quad.word 0x8 0.--11. 1. "BANK1_HOST,Number of cache lines in bank 1 currently allocated to the HOST" line.quad 0x10 "CORE_MMRS_RGX_CR_SLC_LINE_USE_COUNT_STATUS2,Number of cache lines currently allocated to each requester within the SLC." hexmask.quad.byte 0x10 60.--63. 1. "RESERVED_60," newline hexmask.quad.word 0x10 48.--59. 1. "BANK0_TPF,Number of cache lines in bank 0 currently allocated to the TPF" newline hexmask.quad.word 0x10 36.--47. 1. "BANK1_TA_TPC,Number of cache lines in bank 1 currently allocated to the TA [Tail Pointer Cache data]" newline hexmask.quad.word 0x10 24.--35. 1. "BANK0_TA_TPC,Number of cache lines in bank 0 currently allocated to the TA [Tail Pointer Cache data]" newline hexmask.quad.word 0x10 12.--23. 1. "BANK1_IPF_OBJ,Number of cache lines in bank 1 currently allocated to the IPF [Object data]" newline hexmask.quad.word 0x10 0.--11. 1. "BANK0_IPF_OBJ,Number of cache lines in bank 0 currently allocated to the IPF [Object data]" line.quad 0x18 "CORE_MMRS_RGX_CR_SLC_LINE_USE_COUNT_STATUS3,Number of cache lines currently allocated to each requester within the SLC." hexmask.quad.byte 0x18 60.--63. 1. "RESERVED_60," newline hexmask.quad.word 0x18 48.--59. 1. "BANK1_MCU,Number of cache lines in bank 1 currently allocated to the MCU" newline hexmask.quad.word 0x18 36.--47. 1. "BANK0_MCU,Number of cache lines in bank 0 currently allocated to the MCU" newline hexmask.quad.word 0x18 24.--35. 1. "BANK1_PDS,Number of cache lines in bank 1 currently allocated to the PDS" newline hexmask.quad.word 0x18 12.--23. 1. "BANK0_PDS,Number of cache lines in bank 0 currently allocated to the PDS" newline hexmask.quad.word 0x18 0.--11. 1. "BANK1_TPF,Number of cache lines in bank 1 currently allocated to the TPF" line.quad 0x20 "CORE_MMRS_RGX_CR_SLC_LINE_USE_COUNT_STATUS4,Number of cache lines currently allocated to each requester within the SLC." hexmask.quad 0x20 24.--63. 1. "RESERVED_24," newline hexmask.quad.word 0x20 12.--23. 1. "BANK1_FBDC,Number of cache lines in bank 1 currently allocated to the FBDC" newline hexmask.quad.word 0x20 0.--11. 1. "BANK0_FBDC,Number of cache lines in bank 0 currently allocated to the FBDC" line.quad 0x28 "CORE_MMRS_RGX_CR_SLC_LINE_USE_COUNT_STATUS5,Number of cache lines currently allocated to each requester within the SLC." hexmask.quad.byte 0x28 60.--63. 1. "RESERVED_60," newline hexmask.quad.word 0x28 48.--59. 1. "BANK1_PM,Number of cache lines in bank 1 currently allocated to the PM core" newline hexmask.quad.word 0x28 36.--47. 1. "BANK0_PM,Number of cache lines in bank 0 currently allocated to the PM core" newline hexmask.quad 0x28 0.--35. 1. "RESERVED_0," line.quad 0x30 "CORE_MMRS_RGX_CR_SLC_STATUS1,Current status of the SLC" bitfld.quad 0x30 63. "PAUSED,All cache banks are Paused" "0,1" newline hexmask.quad.tbyte 0x30 42.--62. 1. "RESERVED_42," newline hexmask.quad.word 0x30 32.--41. 1. "READS1,Number of items of read data SLC bank 1 has in internal pipeline FIFO's" newline hexmask.quad.byte 0x30 26.--31. 1. "RESERVED_26," newline hexmask.quad.word 0x30 16.--25. 1. "READS0,Number of items of read data SLC bank 0 has in internal pipeline FIFO's" newline hexmask.quad.byte 0x30 8.--15. 1. "READS1_EXT,Number of items of read data SLC bank 1 has outstanding from external memory" newline hexmask.quad.byte 0x30 0.--7. 1. "READS0_EXT,Number of items of read data SLC bank 0 has outstanding from external memory" group.quad 0x3878++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_SLC_STATS0_CTRL,Configuration of the SLC Stats counters inside SLC bank 0." hexmask.quad 0x0 28.--63. 1. "RESERVED_28," newline bitfld.quad 0x0 27. "STOP,Pause counting whilst this bit is set" "0,1" newline bitfld.quad 0x0 26. "RESET,Reset counter" "0,1" newline bitfld.quad 0x0 25. "RNW,If constraint set 0x0 count only writes 0x1 count only reads" "0,1" newline bitfld.quad 0x0 24. "BYPASS,If constraint set 0x0 count cached requests 0x1 count bypassed requests" "0,1" newline bitfld.quad 0x0 21.--23. "DM,If constraint set count only requests for the specified Data Master" "0,1,2,3,4,5,6,7" newline hexmask.quad.byte 0x0 16.--20. 1. "TAG_ID,If constraint set count only requests with the specified Tag ID" newline hexmask.quad.byte 0x0 8.--15. 1. "TAG_SB,If constraint set count only requests with the specified sideband Tag" newline bitfld.quad 0x0 7. "SELECT_TAG_SB,Include Tag sideband in constraints" "0,1" newline bitfld.quad 0x0 6. "SELECT_TAG_ID,Include Tag ID in constraints" "0,1" newline bitfld.quad 0x0 5. "SELECT_DM,Include Data Master in constraints" "0,1" newline bitfld.quad 0x0 4. "SELECT_BYPASS,Include Bypass enable in constraints" "0,1" newline bitfld.quad 0x0 3. "SELECT_RNW,Include Wead/Write select in constraints" "0,1" newline bitfld.quad 0x0 2. "TYPE_FLUSH,Count number of cache lines flushed" "0,1" newline bitfld.quad 0x0 1. "TYPE_MISS,Count number of misses" "0,1" newline bitfld.quad 0x0 0. "TYPE_HIT,Count number of hits" "0,1" rgroup.quad 0x3880++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_SLC_STATS0_OUTPUT,Output of the SLC Stats counter inside SLC bank 0." hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "VALUE,Value of counter 0" group.quad 0x3888++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_SLC_STATS1_CTRL,Configuration of the SLC Stats counters inside SLC bank 1." hexmask.quad 0x0 28.--63. 1. "RESERVED_28," newline bitfld.quad 0x0 27. "STOP,Pause counting whilst this bit is set" "0,1" newline bitfld.quad 0x0 26. "RESET,Reset counter" "0,1" newline bitfld.quad 0x0 25. "RNW,If constraint set 0x0 count only writes 0x1 count only reads" "0,1" newline bitfld.quad 0x0 24. "BYPASS,If constraint set 0x0 count cached requests 0x1 count bypassed requests" "0,1" newline bitfld.quad 0x0 21.--23. "DM,If constraint set count only requests for the specified Data Master" "0,1,2,3,4,5,6,7" newline hexmask.quad.byte 0x0 16.--20. 1. "TAG_ID,If constraint set count only requests with the specified Tag ID" newline hexmask.quad.byte 0x0 8.--15. 1. "TAG_SB,If constraint set count only requests with the specified sideband Tag" newline bitfld.quad 0x0 7. "SELECT_TAG_SB,Include Tag sideband in constraints" "0,1" newline bitfld.quad 0x0 6. "SELECT_TAG_ID,Include Tag ID in constraints" "0,1" newline bitfld.quad 0x0 5. "SELECT_DM,Include Data Master in constraints" "0,1" newline bitfld.quad 0x0 4. "SELECT_BYPASS,Include Bypass enable in constraints" "0,1" newline bitfld.quad 0x0 3. "SELECT_RNW,Include Wead/Write select in constraints" "0,1" newline bitfld.quad 0x0 2. "TYPE_FLUSH,Count number of cache lines flushed" "0,1" newline bitfld.quad 0x0 1. "TYPE_MISS,Count number of misses" "0,1" newline bitfld.quad 0x0 0. "TYPE_HIT,Count number of hits" "0,1" rgroup.quad 0x3890++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_SLC_STATS1_OUTPUT,Output of the SLC Stats counter inside SLC bank 1." hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "VALUE,Value of counter 1" line.quad 0x8 "CORE_MMRS_RGX_CR_SLC_IDLE," hexmask.quad 0x8 8.--63. 1. "RESERVED_8," newline bitfld.quad 0x8 7. "IMGBV4,IMG Bus v4 Module IDLE" "0,1" newline bitfld.quad 0x8 6. "CACHE_BANKS,Cache Bank IDLEs" "0,1" newline bitfld.quad 0x8 5. "RBOFIFO,Read Burst Order FIFO Module IDLE" "0,1" newline bitfld.quad 0x8 4. "FRC_CONV,FRC Module IDLE" "0,1" newline bitfld.quad 0x8 3. "VXE_CONV,Video Encode Converter Module IDLE" "0,1" newline bitfld.quad 0x8 2. "VXD_CONV,Video Decode Converter Module IDLE" "0,1" newline bitfld.quad 0x8 1. "BIF1_CONV,BIF128->256 Converter Module IDLE" "0,1" newline bitfld.quad 0x8 0. "CBAR,CrossBar Module IDLE" "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_MCU_PWR_NUM,Power Monitoring register" hexmask.quad.long 0x10 32.--63. 1. "L1_TO_SLC_ACCESS,Number of L1 to SLC accesses" newline hexmask.quad.long 0x10 0.--31. 1. "L0_TO_L1_ACCESS,Number of L0 to L1 accesses. Both L0s in a DUST added together" group.quad 0x38A8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_SLC_LINE_USE_COUNT_LIMIT2,Define the maximum number of cache lines allowed to be allocated to each requester within the SLC." hexmask.quad.tbyte 0x0 40.--63. 1. "RESERVED_40," newline hexmask.quad.byte 0x0 32.--39. 1. "PM,Maximum number of cachelines allocated to the PM requestor" newline hexmask.quad.byte 0x0 24.--31. 1. "CDM,Maximum number of cachelines allocated to the CDM requestor" newline hexmask.quad.byte 0x0 16.--23. 1. "VDM,Maximum number of cachelines allocated to the VDM requestor" newline hexmask.quad.byte 0x0 8.--15. 1. "ISP,Maximum number of cachelines allocated to the ISP requestor" newline hexmask.quad.byte 0x0 0.--7. 1. "PBE,Maximum number of cachelines allocated to the PBE requestor" rgroup.quad 0x38B0++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_SLC_LINE_USE_COUNT_STATUS6,Number of cache lines currently allocated to each requester within the SLC." hexmask.quad.byte 0x0 60.--63. 1. "RESERVED_60," newline hexmask.quad.word 0x0 48.--59. 1. "BANK0_CDM,Number of cache lines in bank 1 currently allocated to the CDM core" newline hexmask.quad.word 0x0 36.--47. 1. "BANK1_ISP,Number of cache lines in bank 1 currently allocated to the ISP core" newline hexmask.quad.word 0x0 24.--35. 1. "BANK0_ISP,Number of cache lines in bank 0 currently allocated to the ISP core" newline hexmask.quad.word 0x0 12.--23. 1. "BANK1_PBE,Number of cache lines in bank 1 currently allocated to the PBE core" newline hexmask.quad.word 0x0 0.--11. 1. "BANK0_PBE,Number of cache lines in bank 0 currently allocated to the PBE core" line.quad 0x8 "CORE_MMRS_RGX_CR_SLC_LINE_USE_COUNT_STATUS7,Number of cache lines currently allocated to each requester within the SLC." hexmask.quad.long 0x8 36.--63. 1. "RESERVED_36," newline hexmask.quad.word 0x8 24.--35. 1. "BANK1_VDM,Number of cache lines in bank 1 currently allocated to the VDM core" newline hexmask.quad.word 0x8 12.--23. 1. "BANK0_VDM,Number of cache lines in bank 0 currently allocated to the VDM core" newline hexmask.quad.word 0x8 0.--11. 1. "BANK1_CDM,Number of cache lines in bank 1 currently allocated to the CDM core" group.quad 0x38C0++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_AXI_ACE_LITE_CONFIGURATION,AXI ACE-LITE configuration registers" hexmask.quad.tbyte 0x0 46.--63. 1. "RESERVED_46," newline bitfld.quad 0x0 45. "ENABLE_FENCE_OUT,SET to 1 to enable fence output to AXI" "0,1" newline hexmask.quad.byte 0x0 37.--44. 1. "OSID_SECURITY,SET to 1 to disable secure reads/writes for each OSID" newline bitfld.quad 0x0 36. "DISABLE_COHERENT_WRITELINEUNIQUE,SET to 1 to disable coherent write line uniques" "0,1" newline bitfld.quad 0x0 35. "DISABLE_COHERENT_WRITE,SET to 1 to disable coherent writes" "0,1" newline bitfld.quad 0x0 34. "DISABLE_COHERENT_READ,SET to 1 to disable coherent reads" "0,1" newline hexmask.quad.byte 0x0 30.--33. 1. "ARCACHE_CACHE_MAINTENANCE,Read cache policy for cache maintenance transactions - bit[1] should be set to 1" newline hexmask.quad.byte 0x0 26.--29. 1. "ARCACHE_COHERENT,Read cache policy for coherent transactions - bit[1] should be set to 1" newline hexmask.quad.byte 0x0 22.--25. 1. "AWCACHE_COHERENT,Write cache policy for coherent transactions - bit[1] should be set to 1" newline bitfld.quad 0x0 20.--21. "ARDOMAIN_BARRIER,Read shareability domain for barrier transactions 00 = Non-Shareable 01 = Inner Shareable 10 = Outer Shareable 11 = System" "0: Non-Shareable,1: Inner Shareable,?,?" newline bitfld.quad 0x0 18.--19. "AWDOMAIN_BARRIER,Write shareability domain for barrier transactions 00 = Non-Shareable 01 = Inner Shareable 10 = Outer Shareable 11 = System" "0: Non-Shareable,1: Inner Shareable,?,?" newline bitfld.quad 0x0 16.--17. "ARDOMAIN_CACHE_MAINTENANCE,Read shareability domain for cache maintenance transactions 00 = Non-Shareable 01 = Inner Shareable 10 = Outer Shareable" "0: Non-Shareable,1: Inner Shareable,?,?" newline bitfld.quad 0x0 14.--15. "AWDOMAIN_COHERENT,Write shareability domain for coherant transactions 01 = Inner Shareable 10 = Outer Shareable" "?,1: Inner Shareable,?,?" newline bitfld.quad 0x0 12.--13. "ARDOMAIN_COHERENT,Read shareability domain for coherant transactions 01 = Inner Shareable 10 = Outer Shareable" "?,1: Inner Shareable,?,?" newline bitfld.quad 0x0 10.--11. "ARDOMAIN_NON_SNOOPING,Read shareability domain for non-snooping transactions 00 = Non-Shareable 11 = System" "0: Non-Shareable,?,?,?" newline bitfld.quad 0x0 8.--9. "AWDOMAIN_NON_SNOOPING,Write shareability domain for non-snooping transactions 00 = Non-Shareable 11 = System" "0: Non-Shareable,?,?,?" newline hexmask.quad.byte 0x0 4.--7. 1. "ARCACHE_NON_SNOOPING,Read cache policy for non-snooping transactions" newline hexmask.quad.byte 0x0 0.--3. 1. "AWCACHE_NON_SNOOPING,Write cache policy for non-snooping transactions" line.quad 0x8 "CORE_MMRS_RGX_CR_AXI_ACE_LITE_CACHE_MAINTENANCE_CONFIGURATION,AXI ACE-LITE Cache Maintenance configuration registers" hexmask.quad.tbyte 0x8 44.--63. 1. "RESERVED_44," newline hexmask.quad 0x8 4.--43. 1. "MAINTENANCE_ADDRESS,Address to perform cache maintenace address on" newline bitfld.quad 0x8 3. "MAINTENANCE_MAKEINVALID,Writing a 1 issues a makeinvalid operation" "0,1" newline bitfld.quad 0x8 2. "MAINTENANCE_CLEAN_INVALID,Writing a 1 issues a clean invalid operation" "0,1" newline bitfld.quad 0x8 1. "MAINTENANCE_CLEANSHARED,Writing a 1 issues a clean shared operation" "0,1" newline bitfld.quad 0x8 0. "ENABLE_MAINTENANCE,Writing a 1 enables cache maintenance operations" "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_AXI_ACE_LITE_CACHE_MAINTENANCE_STATUS,The hardware will set this to 1 once the cache maintenance operation has completed." hexmask.quad 0x10 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x10 0. "DONE," "0,1" group.quad 0x3930++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_SLC_CTRL_MISC2,SLC control registers" hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "SCRAMBLE_BITS,Pattern of bits used to determine the MSB of the Cache Bank in 4 Bank configurations in Address Decode mode 0x21. The actual Cache Bank to use is determined by indexing into the 32 Scramble Bits using the 5.." line.quad 0x8 "CORE_MMRS_RGX_CR_SLC_CROSSBAR_LOAD_BALANCE,SLC control registers to bypass SLC crossbar load balancing" hexmask.quad 0x8 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x8 0. "BYPASS,control register bit to bypass load balancing in SLC crossbar. In this case the requests from img-memif0 will go directly to ocp-memif0 and so on" "0,1" rgroup.quad 0x3960++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_SLC_STATUS3,Current status of the SLC" hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.byte 0x0 24.--31. 1. "WRITES1_TRANSACTIONS_EXT,Number of outsanding write burst transactions in SLC bank 1" newline hexmask.quad.byte 0x0 16.--23. 1. "WRITES0_TRANSACTIONS_EXT,Number of outsanding write burst transactions in SLC bank 0" newline hexmask.quad.byte 0x0 8.--15. 1. "READS1_TRANSACTIONS_EXT,Number of outsanding read burst transactions in SLC bank 1" newline hexmask.quad.byte 0x0 0.--7. 1. "READS0_TRANSACTIONS_EXT,Number of outsanding read burst transactions in SLC bank 0" rgroup.quad 0x3970++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_SLC_SIZE_IN_KB,Configured SLC SIZE in KBytes" hexmask.quad 0x0 16.--63. 1. "RESERVED_16," newline hexmask.quad.word 0x0 0.--15. 1. "SIZE,The configured SLC SIZE in KBytes ie 0x0100 = 256 KB." rgroup.quad 0x39A0++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_TCU_PWR_NUM,Power Monitoring register" hexmask.quad.long 0x0 32.--63. 1. "TCU_TO_SLC_ACCESS,Number of TCU to SLC accesses" newline hexmask.quad.long 0x0 0.--31. 1. "L0_TO_TCU_ACCESS,Number of MADD-L0 to TCU accesses" group.quad 0x39B0++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_TCU_CTRL,TCU control regiseters" hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "SLC_CP_LAZYWB_OVERRIDE,Override the TCU to SLC cache policy from lazy write back to write back" "0,1" group.quad 0x3E40++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_FRAG_SCREEN,Define the screen size for fragment processing." hexmask.quad 0x0 31.--63. 1. "RESERVED_31," newline hexmask.quad.word 0x0 16.--30. 1. "YMAX,Maximum pixel number in y dimension on screen. Screen height in pixels is YMAX+1. 16K x 16K is the max screen size. I.e. 2^14 bit 15 is always written as 0." newline rbitfld.quad 0x0 15. "RESERVED_15," "0,1" newline hexmask.quad.word 0x0 0.--14. 1. "XMAX,Maximum pixel number in x dimension on screen. Screen width in pixels is XMAX+1. 16K x 16K is the max screen size. I.e. 2^14 bit 15 is always written as 0." group.quad 0x4000++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_USC_INST_CACHE," hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "INVALIDATE,Any write to this location invalidates the L1 and L2 instruction caches automatically" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_USC_CODE_BASE_VERTEX," hexmask.quad.tbyte 0x8 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x8 6.--39. 1. "ADDR,Vertex Data Master Code Base Register bits" newline hexmask.quad.byte 0x8 0.--5. 1. "RESERVED_0," line.quad 0x10 "CORE_MMRS_RGX_CR_USC_CODE_BASE_PIXEL," hexmask.quad.tbyte 0x10 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x10 6.--39. 1. "ADDR,Pixel Data Master Code Base Register bits" newline hexmask.quad.byte 0x10 0.--5. 1. "RESERVED_0," group.quad 0x4028++0x2F line.quad 0x0 "CORE_MMRS_RGX_CR_USC_CODE_BASE_COMPUTE," hexmask.quad.tbyte 0x0 40.--63. 1. "RESERVED_40," newline hexmask.quad 0x0 6.--39. 1. "ADDR,Compute Data Master Code Base Register bits" newline hexmask.quad.byte 0x0 0.--5. 1. "RESERVED_0," line.quad 0x8 "CORE_MMRS_RGX_CR_USC_BREAKPOINT," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 1.--31. 1. "ADDR,Breakpoint Address" newline rbitfld.quad 0x8 0. "RESERVED_0," "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_USC_BREAKPOINT_HANDLER," hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x10 1.--31. 1. "ADDR,Breakpoint Handler Address" newline rbitfld.quad 0x10 0. "RESERVED_0," "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_USC_BREAKPOINT_CTRL," hexmask.quad 0x18 4.--63. 1. "RESERVED_4," newline bitfld.quad 0x18 3. "ENABLE,0 = Breakpoint disabled 1 = Breakpoint enabled" "0: Breakpoint disabled,1: Breakpoint enabled" newline bitfld.quad 0x18 0.--2. "DM,Data Master of Breakpoint" "0,1,2,3,4,5,6,7" line.quad 0x20 "CORE_MMRS_RGX_CR_USC_SMP_SWAP," hexmask.quad 0x20 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x20 0. "ENABLE,Deactivate after SMP instruction" "0,1" line.quad 0x28 "CORE_MMRS_RGX_CR_USC_OVERRIDE_CTRL," hexmask.quad 0x28 22.--63. 1. "RESERVED_22," newline bitfld.quad 0x28 21. "USCIS_LOCKING,0 = Default enable locking of USCIS when queue fills to maintain task ordering 1 = retry USCIS request" "0: Default,1: retry USCIS request" newline bitfld.quad 0x28 20. "PHASE_BOTH,0 = Default no extra pass groups when single phase followed by multi-phase 1 = generate pass group whenever phases per task changes" "0: Default,1: generate pass group whenever phases per task.." newline bitfld.quad 0x28 18.--19. "RESERVE_SLOTS,0 = Default allow all slots to be used for first phase tasks 1 = reserve 1 slot 2 = reserve 2 3 = reserve 4" "0: Default,1: reserve 1 slot,2: reserve 2,3: reserve 4" newline bitfld.quad 0x28 17. "NO_RESERVE,0 = Default reserve slots for second phases 1 = Do not reserve slots for second phase tasks" "0: Default,1: Do not reserve slots for second phase tasks" newline bitfld.quad 0x28 15.--16. "MAX_GROUP,0 = Default - 8 pass groups in flight 1 = 6 pass groups 2 = 4 pass groups 3 = 2 pass groups. To disable entirely see PDS" "0: Default,1: 6 pass groups,2: 4 pass groups,3: 2 pass groups" newline bitfld.quad 0x28 14. "WAKE_UP,0 = Default normal wake up 1 = force task wake up" "0: Default,1: force task wake up" newline bitfld.quad 0x28 13. "LATE_PARTN,0 = Default enable pixel data master tasks to start before a partition is allocated 1 = wait for partition" "0: Default,1: wait for partition" newline bitfld.quad 0x28 12. "DMA_LOCKING,0 = Default enable locking of DMA when queue fills to maintain task ordering 1 = retry DMA request" "0: Default,1: retry DMA request" newline bitfld.quad 0x28 11. "PRIORITY,0 = Default enable state loading and end of tile tasks to run with higher priority 1 = all tasks low priority" "0: Default,1: all tasks low priority" newline bitfld.quad 0x28 10. "PHASE_PASSES,0 = Default enable inferred pass groups when multiple phase tasks are encountered 1 = disable hard SDs must be used" "0: Default,1: disable" newline bitfld.quad 0x28 9. "OUTPUT_WRITES,0 = Default enable tracking of output buffer write completion for on-edge buffer validlity 1 = tracking invalid" "0: Default,1: tracking invalid" newline bitfld.quad 0x28 8. "SELECTIVE_RATE,0 = Default [core specific enable selective rate mode if functional] 1 = disable" "0: Default,1: disable" newline rbitfld.quad 0x28 6.--7. "RESERVED_6," "0,1,2,3" newline hexmask.quad.byte 0x28 0.--5. 1. "DEBUG_TEMPS,Number of temps to add to PDS allocation size for debugging. Units of 8" rgroup.quad 0x4068++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_USC_SHARED_GROUP_CLEAR," hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "PENDING,Any write to this location requests the USC Shared Group register file to be cleared" "0,1" group.quad 0x4070++0x67 line.quad 0x0 "CORE_MMRS_RGX_CR_USC_PIXEL_OUTPUT_CTRL," hexmask.quad 0x0 21.--63. 1. "RESERVED_21," newline hexmask.quad.tbyte 0x0 3.--20. 1. "PARTITION_MASK,Partition Enable Mask for USC pixel task" newline bitfld.quad 0x0 2. "ENABLE_4TH_PARTITION,Enables 4th Partition" "0,1" newline bitfld.quad 0x0 0.--1. "WIDTH," "0,1,2,3" line.quad 0x8 "CORE_MMRS_RGX_CR_USC_CLEAR_REGISTER0," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "VAL,Clear Colour register 0" line.quad 0x10 "CORE_MMRS_RGX_CR_USC_CLEAR_REGISTER1," hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x10 0.--31. 1. "VAL,Clear Colour register 1" line.quad 0x18 "CORE_MMRS_RGX_CR_USC_CLEAR_REGISTER2," hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x18 0.--31. 1. "VAL,Clear Colour register 2" line.quad 0x20 "CORE_MMRS_RGX_CR_USC_CLEAR_REGISTER3," hexmask.quad.long 0x20 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x20 0.--31. 1. "VAL,Clear Colour register 3" line.quad 0x28 "CORE_MMRS_RGX_CR_USC_G0," hexmask.quad 0x28 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x28 0.--7. 1. "P,Global cross-thread-accessible read/write register for USC programs via the 'special' bank type" line.quad 0x30 "CORE_MMRS_RGX_CR_USC_G1," hexmask.quad 0x30 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x30 0.--7. 1. "P,Global cross-thread-accessible read/write register for USC programs via the 'special' bank type" line.quad 0x38 "CORE_MMRS_RGX_CR_USC_G2," hexmask.quad 0x38 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x38 0.--7. 1. "P,Global cross-thread-accessible read/write register for USC programs via the 'special' bank type" line.quad 0x40 "CORE_MMRS_RGX_CR_USC_G3," hexmask.quad 0x40 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x40 0.--7. 1. "P,Global cross-thread-accessible read/write register for USC programs via the 'special' bank type" line.quad 0x48 "CORE_MMRS_RGX_CR_USC_G4," hexmask.quad 0x48 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x48 0.--7. 1. "P,Global cross-thread-accessible read/write register for USC programs via the 'special' bank type" line.quad 0x50 "CORE_MMRS_RGX_CR_USC_G5," hexmask.quad 0x50 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x50 0.--7. 1. "P,Global cross-thread-accessible read/write register for USC programs via the 'special' bank type" line.quad 0x58 "CORE_MMRS_RGX_CR_USC_G6," hexmask.quad 0x58 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x58 0.--7. 1. "P,Global cross-thread-accessible read/write register for USC programs via the 'special' bank type" line.quad 0x60 "CORE_MMRS_RGX_CR_USC_G7," hexmask.quad 0x60 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x60 0.--7. 1. "P,Global cross-thread-accessible read/write register for USC programs via the 'special' bank type" rgroup.quad 0x40D8++0x47 line.quad 0x0 "CORE_MMRS_RGX_CR_USC_SERV_PIXEL," hexmask.quad 0x0 17.--63. 1. "RESERVED_17," newline bitfld.quad 0x0 16. "EMPTY,No Pixel Data Master tasks in USC0 queue" "0,1" newline hexmask.quad.word 0x0 0.--15. 1. "COUNT,Number of Pixel Data Master tasks serviced by USC0" line.quad 0x8 "CORE_MMRS_RGX_CR_USC_SERV_VERTEX," hexmask.quad 0x8 17.--63. 1. "RESERVED_17," newline bitfld.quad 0x8 16. "EMPTY,No Vertex Data Master tasks in USC0 queue" "0,1" newline hexmask.quad.word 0x8 0.--15. 1. "COUNT,Number of Vertex Data Master tasks serviced by USC0" line.quad 0x10 "CORE_MMRS_RGX_CR_USC_SERV_TESS_PIXEL," hexmask.quad 0x10 17.--63. 1. "RESERVED_17," newline bitfld.quad 0x10 16. "EMPTY,No Tessellator Pixel Data Master tasks in USC0 queue" "0,1" newline hexmask.quad.word 0x10 0.--15. 1. "COUNT,Number of Tessellator Pixel Data Master tasks serviced by USC0" line.quad 0x18 "CORE_MMRS_RGX_CR_USC_SERV_TESS_VERTEX," hexmask.quad 0x18 17.--63. 1. "RESERVED_17," newline bitfld.quad 0x18 16. "EMPTY,No Tessellator Vertex Data Master tasks in USC0 queue" "0,1" newline hexmask.quad.word 0x18 0.--15. 1. "COUNT,Number of Tessellator Vertex Data Master tasks serviced by USC0" line.quad 0x20 "CORE_MMRS_RGX_CR_USC_SERV_COMPUTE," hexmask.quad 0x20 17.--63. 1. "RESERVED_17," newline bitfld.quad 0x20 16. "EMPTY,No Compute Data Master tasks in USC0 queue" "0,1" newline hexmask.quad.word 0x20 0.--15. 1. "COUNT,Number of Compute Data Master tasks serviced by USC0" line.quad 0x28 "CORE_MMRS_RGX_CR_USC_PARTITION_STATUS," hexmask.quad.word 0x28 48.--63. 1. "RESERVED_48," newline hexmask.quad.word 0x28 32.--47. 1. "WRITES_PEND,Partition writes pending" newline hexmask.quad.word 0x28 16.--31. 1. "CLOSED,Partition closed - end of tile task started" newline hexmask.quad.word 0x28 0.--15. 1. "IN_USE,Partition in use" line.quad 0x30 "CORE_MMRS_RGX_CR_USC_OLDEST_TASK_STATUS," hexmask.quad 0x30 20.--63. 1. "RESERVED_20," newline hexmask.quad.byte 0x30 16.--19. 1. "PASS_NUM,The present pass group" newline bitfld.quad 0x30 13.--15. "DM,The task Data Master" "0,1,2,3,4,5,6,7" newline hexmask.quad.byte 0x30 9.--12. 1. "TILEQUAD,The stream of the task depends on Data Master Vertex: Indicates the patch of the task Pixel >= 4 cluster: The tile ID of the task Pixel 2 cluster: The tile ID.." newline bitfld.quad 0x30 7.--8. "STATE,Queue state for entry" "0,1,2,3" newline bitfld.quad 0x30 6. "NEW_SD,This task is at the start of a new SD group bit is cleared when the task is first run" "0,1" newline bitfld.quad 0x30 5. "TFPU_CS_ED,This task is waiting for a TFPU strobe which has not been satisfied" "0,1" newline bitfld.quad 0x30 4. "MCU_CS_ED,This task is waiting for an MCU CS strobe which has not been satisfied" "0,1" newline bitfld.quad 0x30 3. "MCU_US_ED,This task is waiting for an MCU US strobe which has not been satisfied" "0,1" newline bitfld.quad 0x30 2. "FRAG_TYPE,Is this task a work or state loading type. '1' indicates a Vertex/Fragment/Work type '0' indicates a Shared/ Coefficient/ Control type" "0,1" newline bitfld.quad 0x30 1. "PHAS_ISSUE,This task must issue a PHAS instruction which has not yet been seen" "0,1" newline bitfld.quad 0x30 0. "PASS_GROUP,Is the task the start of a new pass group" "0,1" line.quad 0x38 "CORE_MMRS_RGX_CR_USC_PARTITION_TILE_STATUS0," hexmask.quad.word 0x38 48.--63. 1. "RESERVED_48," newline hexmask.quad.byte 0x38 42.--47. 1. "TILE_ID7,Tile ID for partition 7" newline hexmask.quad.byte 0x38 36.--41. 1. "TILE_ID6,Tile ID for partition 6" newline hexmask.quad.byte 0x38 30.--35. 1. "TILE_ID5,Tile ID for partition 5" newline hexmask.quad.byte 0x38 24.--29. 1. "TILE_ID4,Tile ID for partition 4" newline hexmask.quad.byte 0x38 18.--23. 1. "TILE_ID3,Tile ID for partition 3" newline hexmask.quad.byte 0x38 12.--17. 1. "TILE_ID2,Tile ID for partition 2" newline hexmask.quad.byte 0x38 6.--11. 1. "TILE_ID1,Tile ID for partition 1" newline hexmask.quad.byte 0x38 0.--5. 1. "TILE_ID0,Tile ID for partition 0" line.quad 0x40 "CORE_MMRS_RGX_CR_USC_PARTITION_TILE_STATUS1," hexmask.quad.byte 0x40 60.--63. 1. "RESERVED_60," newline hexmask.quad.byte 0x40 54.--59. 1. "TILE_ID17,Tile ID for partition 17" newline hexmask.quad.byte 0x40 48.--53. 1. "TILE_ID16,Tile ID for partition 16" newline hexmask.quad.byte 0x40 42.--47. 1. "TILE_ID15,Tile ID for partition 15" newline hexmask.quad.byte 0x40 36.--41. 1. "TILE_ID14,Tile ID for partition 14" newline hexmask.quad.byte 0x40 30.--35. 1. "TILE_ID13,Tile ID for partition 13" newline hexmask.quad.byte 0x40 24.--29. 1. "TILE_ID12,Tile ID for partition 12" newline hexmask.quad.byte 0x40 18.--23. 1. "TILE_ID11,Tile ID for partition 11" newline hexmask.quad.byte 0x40 12.--17. 1. "TILE_ID10,Tile ID for partition 10" newline hexmask.quad.byte 0x40 6.--11. 1. "TILE_ID9,Tile ID for partition 9" newline hexmask.quad.byte 0x40 0.--5. 1. "TILE_ID8,Tile ID for partition 8" rgroup.quad 0x4178++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_USC_DM_SLOT0,Cluster Data Master in Slots" hexmask.quad.byte 0x0 60.--63. 1. "SLOT_15," newline hexmask.quad.byte 0x0 56.--59. 1. "SLOT_14," newline hexmask.quad.byte 0x0 52.--55. 1. "SLOT_13," newline hexmask.quad.byte 0x0 48.--51. 1. "SLOT_12," newline hexmask.quad.byte 0x0 44.--47. 1. "SLOT_11," newline hexmask.quad.byte 0x0 40.--43. 1. "SLOT_10," newline hexmask.quad.byte 0x0 36.--39. 1. "SLOT_9," newline hexmask.quad.byte 0x0 32.--35. 1. "SLOT_8," newline hexmask.quad.byte 0x0 28.--31. 1. "SLOT_7," newline hexmask.quad.byte 0x0 24.--27. 1. "SLOT_6," newline hexmask.quad.byte 0x0 20.--23. 1. "SLOT_5," newline hexmask.quad.byte 0x0 16.--19. 1. "SLOT_4," newline hexmask.quad.byte 0x0 12.--15. 1. "SLOT_3," newline hexmask.quad.byte 0x0 8.--11. 1. "SLOT_2," newline hexmask.quad.byte 0x0 4.--7. 1. "SLOT_1," newline hexmask.quad.byte 0x0 0.--3. 1. "SLOT_0," line.quad 0x8 "CORE_MMRS_RGX_CR_USC_DM_SLOT1,Cluster Data Master in Slots" hexmask.quad.byte 0x8 60.--63. 1. "SLOT_15," newline hexmask.quad.byte 0x8 56.--59. 1. "SLOT_14," newline hexmask.quad.byte 0x8 52.--55. 1. "SLOT_13," newline hexmask.quad.byte 0x8 48.--51. 1. "SLOT_12," newline hexmask.quad.byte 0x8 44.--47. 1. "SLOT_11," newline hexmask.quad.byte 0x8 40.--43. 1. "SLOT_10," newline hexmask.quad.byte 0x8 36.--39. 1. "SLOT_9," newline hexmask.quad.byte 0x8 32.--35. 1. "SLOT_8," newline hexmask.quad.byte 0x8 28.--31. 1. "SLOT_7," newline hexmask.quad.byte 0x8 24.--27. 1. "SLOT_6," newline hexmask.quad.byte 0x8 20.--23. 1. "SLOT_5," newline hexmask.quad.byte 0x8 16.--19. 1. "SLOT_4," newline hexmask.quad.byte 0x8 12.--15. 1. "SLOT_3," newline hexmask.quad.byte 0x8 8.--11. 1. "SLOT_2," newline hexmask.quad.byte 0x8 4.--7. 1. "SLOT_1," newline hexmask.quad.byte 0x8 0.--3. 1. "SLOT_0," line.quad 0x10 "CORE_MMRS_RGX_CR_USC_DM_SLOT2,Cluster Data Master in Slots" hexmask.quad.byte 0x10 60.--63. 1. "SLOT_15," newline hexmask.quad.byte 0x10 56.--59. 1. "SLOT_14," newline hexmask.quad.byte 0x10 52.--55. 1. "SLOT_13," newline hexmask.quad.byte 0x10 48.--51. 1. "SLOT_12," newline hexmask.quad.byte 0x10 44.--47. 1. "SLOT_11," newline hexmask.quad.byte 0x10 40.--43. 1. "SLOT_10," newline hexmask.quad.byte 0x10 36.--39. 1. "SLOT_9," newline hexmask.quad.byte 0x10 32.--35. 1. "SLOT_8," newline hexmask.quad.byte 0x10 28.--31. 1. "SLOT_7," newline hexmask.quad.byte 0x10 24.--27. 1. "SLOT_6," newline hexmask.quad.byte 0x10 20.--23. 1. "SLOT_5," newline hexmask.quad.byte 0x10 16.--19. 1. "SLOT_4," newline hexmask.quad.byte 0x10 12.--15. 1. "SLOT_3," newline hexmask.quad.byte 0x10 8.--11. 1. "SLOT_2," newline hexmask.quad.byte 0x10 4.--7. 1. "SLOT_1," newline hexmask.quad.byte 0x10 0.--3. 1. "SLOT_0," line.quad 0x18 "CORE_MMRS_RGX_CR_USC_DM_SLOT3,Cluster Data Master in Slots" hexmask.quad.byte 0x18 60.--63. 1. "SLOT_15," newline hexmask.quad.byte 0x18 56.--59. 1. "SLOT_14," newline hexmask.quad.byte 0x18 52.--55. 1. "SLOT_13," newline hexmask.quad.byte 0x18 48.--51. 1. "SLOT_12," newline hexmask.quad.byte 0x18 44.--47. 1. "SLOT_11," newline hexmask.quad.byte 0x18 40.--43. 1. "SLOT_10," newline hexmask.quad.byte 0x18 36.--39. 1. "SLOT_9," newline hexmask.quad.byte 0x18 32.--35. 1. "SLOT_8," newline hexmask.quad.byte 0x18 28.--31. 1. "SLOT_7," newline hexmask.quad.byte 0x18 24.--27. 1. "SLOT_6," newline hexmask.quad.byte 0x18 20.--23. 1. "SLOT_5," newline hexmask.quad.byte 0x18 16.--19. 1. "SLOT_4," newline hexmask.quad.byte 0x18 12.--15. 1. "SLOT_3," newline hexmask.quad.byte 0x18 8.--11. 1. "SLOT_2," newline hexmask.quad.byte 0x18 4.--7. 1. "SLOT_1," newline hexmask.quad.byte 0x18 0.--3. 1. "SLOT_0," rgroup.quad 0x41B8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_USC_EXCEPTION," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.word 0x0 16.--31. 1. "CODE,Cluster exception code" newline hexmask.quad.word 0x0 1.--15. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "STATUS,1=Cluster has raised an exception" "?,1: Cluster has raised an exception" rgroup.quad 0x41D8++0xFF line.quad 0x0 "CORE_MMRS_RGX_CR_USC_SLOT0," hexmask.quad.long 0x0 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x0 32.--35. 1. "STATUS," newline hexmask.quad.long 0x0 1.--31. 1. "PC," newline bitfld.quad 0x0 0. "RESERVED_0," "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_USC_SLOT1," hexmask.quad.long 0x8 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x8 32.--35. 1. "STATUS," newline hexmask.quad.long 0x8 1.--31. 1. "PC," newline bitfld.quad 0x8 0. "RESERVED_0," "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_USC_SLOT2," hexmask.quad.long 0x10 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x10 32.--35. 1. "STATUS," newline hexmask.quad.long 0x10 1.--31. 1. "PC," newline bitfld.quad 0x10 0. "RESERVED_0," "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_USC_SLOT3," hexmask.quad.long 0x18 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x18 32.--35. 1. "STATUS," newline hexmask.quad.long 0x18 1.--31. 1. "PC," newline bitfld.quad 0x18 0. "RESERVED_0," "0,1" line.quad 0x20 "CORE_MMRS_RGX_CR_USC_SLOT4," hexmask.quad.long 0x20 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x20 32.--35. 1. "STATUS," newline hexmask.quad.long 0x20 1.--31. 1. "PC," newline bitfld.quad 0x20 0. "RESERVED_0," "0,1" line.quad 0x28 "CORE_MMRS_RGX_CR_USC_SLOT5," hexmask.quad.long 0x28 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x28 32.--35. 1. "STATUS," newline hexmask.quad.long 0x28 1.--31. 1. "PC," newline bitfld.quad 0x28 0. "RESERVED_0," "0,1" line.quad 0x30 "CORE_MMRS_RGX_CR_USC_SLOT6," hexmask.quad.long 0x30 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x30 32.--35. 1. "STATUS," newline hexmask.quad.long 0x30 1.--31. 1. "PC," newline bitfld.quad 0x30 0. "RESERVED_0," "0,1" line.quad 0x38 "CORE_MMRS_RGX_CR_USC_SLOT7," hexmask.quad.long 0x38 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x38 32.--35. 1. "STATUS," newline hexmask.quad.long 0x38 1.--31. 1. "PC," newline bitfld.quad 0x38 0. "RESERVED_0," "0,1" line.quad 0x40 "CORE_MMRS_RGX_CR_USC_SLOT8," hexmask.quad.long 0x40 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x40 32.--35. 1. "STATUS," newline hexmask.quad.long 0x40 1.--31. 1. "PC," newline bitfld.quad 0x40 0. "RESERVED_0," "0,1" line.quad 0x48 "CORE_MMRS_RGX_CR_USC_SLOT9," hexmask.quad.long 0x48 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x48 32.--35. 1. "STATUS," newline hexmask.quad.long 0x48 1.--31. 1. "PC," newline bitfld.quad 0x48 0. "RESERVED_0," "0,1" line.quad 0x50 "CORE_MMRS_RGX_CR_USC_SLOT10," hexmask.quad.long 0x50 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x50 32.--35. 1. "STATUS," newline hexmask.quad.long 0x50 1.--31. 1. "PC," newline bitfld.quad 0x50 0. "RESERVED_0," "0,1" line.quad 0x58 "CORE_MMRS_RGX_CR_USC_SLOT11," hexmask.quad.long 0x58 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x58 32.--35. 1. "STATUS," newline hexmask.quad.long 0x58 1.--31. 1. "PC," newline bitfld.quad 0x58 0. "RESERVED_0," "0,1" line.quad 0x60 "CORE_MMRS_RGX_CR_USC_SLOT12," hexmask.quad.long 0x60 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x60 32.--35. 1. "STATUS," newline hexmask.quad.long 0x60 1.--31. 1. "PC," newline bitfld.quad 0x60 0. "RESERVED_0," "0,1" line.quad 0x68 "CORE_MMRS_RGX_CR_USC_SLOT13," hexmask.quad.long 0x68 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x68 32.--35. 1. "STATUS," newline hexmask.quad.long 0x68 1.--31. 1. "PC," newline bitfld.quad 0x68 0. "RESERVED_0," "0,1" line.quad 0x70 "CORE_MMRS_RGX_CR_USC_SLOT14," hexmask.quad.long 0x70 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x70 32.--35. 1. "STATUS," newline hexmask.quad.long 0x70 1.--31. 1. "PC," newline bitfld.quad 0x70 0. "RESERVED_0," "0,1" line.quad 0x78 "CORE_MMRS_RGX_CR_USC_SLOT15," hexmask.quad.long 0x78 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x78 32.--35. 1. "STATUS," newline hexmask.quad.long 0x78 1.--31. 1. "PC," newline bitfld.quad 0x78 0. "RESERVED_0," "0,1" line.quad 0x80 "CORE_MMRS_RGX_CR_USC_SLOT16," hexmask.quad.long 0x80 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x80 32.--35. 1. "STATUS," newline hexmask.quad.long 0x80 1.--31. 1. "PC," newline bitfld.quad 0x80 0. "RESERVED_0," "0,1" line.quad 0x88 "CORE_MMRS_RGX_CR_USC_SLOT17," hexmask.quad.long 0x88 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x88 32.--35. 1. "STATUS," newline hexmask.quad.long 0x88 1.--31. 1. "PC," newline bitfld.quad 0x88 0. "RESERVED_0," "0,1" line.quad 0x90 "CORE_MMRS_RGX_CR_USC_SLOT18," hexmask.quad.long 0x90 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x90 32.--35. 1. "STATUS," newline hexmask.quad.long 0x90 1.--31. 1. "PC," newline bitfld.quad 0x90 0. "RESERVED_0," "0,1" line.quad 0x98 "CORE_MMRS_RGX_CR_USC_SLOT19," hexmask.quad.long 0x98 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x98 32.--35. 1. "STATUS," newline hexmask.quad.long 0x98 1.--31. 1. "PC," newline bitfld.quad 0x98 0. "RESERVED_0," "0,1" line.quad 0xA0 "CORE_MMRS_RGX_CR_USC_SLOT20," hexmask.quad.long 0xA0 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xA0 32.--35. 1. "STATUS," newline hexmask.quad.long 0xA0 1.--31. 1. "PC," newline bitfld.quad 0xA0 0. "RESERVED_0," "0,1" line.quad 0xA8 "CORE_MMRS_RGX_CR_USC_SLOT21," hexmask.quad.long 0xA8 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xA8 32.--35. 1. "STATUS," newline hexmask.quad.long 0xA8 1.--31. 1. "PC," newline bitfld.quad 0xA8 0. "RESERVED_0," "0,1" line.quad 0xB0 "CORE_MMRS_RGX_CR_USC_SLOT22," hexmask.quad.long 0xB0 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xB0 32.--35. 1. "STATUS," newline hexmask.quad.long 0xB0 1.--31. 1. "PC," newline bitfld.quad 0xB0 0. "RESERVED_0," "0,1" line.quad 0xB8 "CORE_MMRS_RGX_CR_USC_SLOT23," hexmask.quad.long 0xB8 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xB8 32.--35. 1. "STATUS," newline hexmask.quad.long 0xB8 1.--31. 1. "PC," newline bitfld.quad 0xB8 0. "RESERVED_0," "0,1" line.quad 0xC0 "CORE_MMRS_RGX_CR_USC_SLOT24," hexmask.quad.long 0xC0 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xC0 32.--35. 1. "STATUS," newline hexmask.quad.long 0xC0 1.--31. 1. "PC," newline bitfld.quad 0xC0 0. "RESERVED_0," "0,1" line.quad 0xC8 "CORE_MMRS_RGX_CR_USC_SLOT25," hexmask.quad.long 0xC8 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xC8 32.--35. 1. "STATUS," newline hexmask.quad.long 0xC8 1.--31. 1. "PC," newline bitfld.quad 0xC8 0. "RESERVED_0," "0,1" line.quad 0xD0 "CORE_MMRS_RGX_CR_USC_SLOT26," hexmask.quad.long 0xD0 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xD0 32.--35. 1. "STATUS," newline hexmask.quad.long 0xD0 1.--31. 1. "PC," newline bitfld.quad 0xD0 0. "RESERVED_0," "0,1" line.quad 0xD8 "CORE_MMRS_RGX_CR_USC_SLOT27," hexmask.quad.long 0xD8 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xD8 32.--35. 1. "STATUS," newline hexmask.quad.long 0xD8 1.--31. 1. "PC," newline bitfld.quad 0xD8 0. "RESERVED_0," "0,1" line.quad 0xE0 "CORE_MMRS_RGX_CR_USC_SLOT28," hexmask.quad.long 0xE0 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xE0 32.--35. 1. "STATUS," newline hexmask.quad.long 0xE0 1.--31. 1. "PC," newline bitfld.quad 0xE0 0. "RESERVED_0," "0,1" line.quad 0xE8 "CORE_MMRS_RGX_CR_USC_SLOT29," hexmask.quad.long 0xE8 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xE8 32.--35. 1. "STATUS," newline hexmask.quad.long 0xE8 1.--31. 1. "PC," newline bitfld.quad 0xE8 0. "RESERVED_0," "0,1" line.quad 0xF0 "CORE_MMRS_RGX_CR_USC_SLOT30," hexmask.quad.long 0xF0 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xF0 32.--35. 1. "STATUS," newline hexmask.quad.long 0xF0 1.--31. 1. "PC," newline bitfld.quad 0xF0 0. "RESERVED_0," "0,1" line.quad 0xF8 "CORE_MMRS_RGX_CR_USC_SLOT31," hexmask.quad.long 0xF8 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xF8 32.--35. 1. "STATUS," newline hexmask.quad.long 0xF8 1.--31. 1. "PC," newline bitfld.quad 0xF8 0. "RESERVED_0," "0,1" rgroup.quad 0x4300++0xFF line.quad 0x0 "CORE_MMRS_RGX_CR_USC_SLOT32," hexmask.quad.long 0x0 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x0 32.--35. 1. "STATUS," newline hexmask.quad.long 0x0 1.--31. 1. "PC," newline bitfld.quad 0x0 0. "RESERVED_0," "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_USC_SLOT33," hexmask.quad.long 0x8 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x8 32.--35. 1. "STATUS," newline hexmask.quad.long 0x8 1.--31. 1. "PC," newline bitfld.quad 0x8 0. "RESERVED_0," "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_USC_SLOT34," hexmask.quad.long 0x10 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x10 32.--35. 1. "STATUS," newline hexmask.quad.long 0x10 1.--31. 1. "PC," newline bitfld.quad 0x10 0. "RESERVED_0," "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_USC_SLOT35," hexmask.quad.long 0x18 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x18 32.--35. 1. "STATUS," newline hexmask.quad.long 0x18 1.--31. 1. "PC," newline bitfld.quad 0x18 0. "RESERVED_0," "0,1" line.quad 0x20 "CORE_MMRS_RGX_CR_USC_SLOT36," hexmask.quad.long 0x20 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x20 32.--35. 1. "STATUS," newline hexmask.quad.long 0x20 1.--31. 1. "PC," newline bitfld.quad 0x20 0. "RESERVED_0," "0,1" line.quad 0x28 "CORE_MMRS_RGX_CR_USC_SLOT37," hexmask.quad.long 0x28 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x28 32.--35. 1. "STATUS," newline hexmask.quad.long 0x28 1.--31. 1. "PC," newline bitfld.quad 0x28 0. "RESERVED_0," "0,1" line.quad 0x30 "CORE_MMRS_RGX_CR_USC_SLOT38," hexmask.quad.long 0x30 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x30 32.--35. 1. "STATUS," newline hexmask.quad.long 0x30 1.--31. 1. "PC," newline bitfld.quad 0x30 0. "RESERVED_0," "0,1" line.quad 0x38 "CORE_MMRS_RGX_CR_USC_SLOT39," hexmask.quad.long 0x38 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x38 32.--35. 1. "STATUS," newline hexmask.quad.long 0x38 1.--31. 1. "PC," newline bitfld.quad 0x38 0. "RESERVED_0," "0,1" line.quad 0x40 "CORE_MMRS_RGX_CR_USC_SLOT40," hexmask.quad.long 0x40 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x40 32.--35. 1. "STATUS," newline hexmask.quad.long 0x40 1.--31. 1. "PC," newline bitfld.quad 0x40 0. "RESERVED_0," "0,1" line.quad 0x48 "CORE_MMRS_RGX_CR_USC_SLOT41," hexmask.quad.long 0x48 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x48 32.--35. 1. "STATUS," newline hexmask.quad.long 0x48 1.--31. 1. "PC," newline bitfld.quad 0x48 0. "RESERVED_0," "0,1" line.quad 0x50 "CORE_MMRS_RGX_CR_USC_SLOT42," hexmask.quad.long 0x50 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x50 32.--35. 1. "STATUS," newline hexmask.quad.long 0x50 1.--31. 1. "PC," newline bitfld.quad 0x50 0. "RESERVED_0," "0,1" line.quad 0x58 "CORE_MMRS_RGX_CR_USC_SLOT43," hexmask.quad.long 0x58 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x58 32.--35. 1. "STATUS," newline hexmask.quad.long 0x58 1.--31. 1. "PC," newline bitfld.quad 0x58 0. "RESERVED_0," "0,1" line.quad 0x60 "CORE_MMRS_RGX_CR_USC_SLOT44," hexmask.quad.long 0x60 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x60 32.--35. 1. "STATUS," newline hexmask.quad.long 0x60 1.--31. 1. "PC," newline bitfld.quad 0x60 0. "RESERVED_0," "0,1" line.quad 0x68 "CORE_MMRS_RGX_CR_USC_SLOT45," hexmask.quad.long 0x68 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x68 32.--35. 1. "STATUS," newline hexmask.quad.long 0x68 1.--31. 1. "PC," newline bitfld.quad 0x68 0. "RESERVED_0," "0,1" line.quad 0x70 "CORE_MMRS_RGX_CR_USC_SLOT46," hexmask.quad.long 0x70 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x70 32.--35. 1. "STATUS," newline hexmask.quad.long 0x70 1.--31. 1. "PC," newline bitfld.quad 0x70 0. "RESERVED_0," "0,1" line.quad 0x78 "CORE_MMRS_RGX_CR_USC_SLOT47," hexmask.quad.long 0x78 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x78 32.--35. 1. "STATUS," newline hexmask.quad.long 0x78 1.--31. 1. "PC," newline bitfld.quad 0x78 0. "RESERVED_0," "0,1" line.quad 0x80 "CORE_MMRS_RGX_CR_USC_SLOT48," hexmask.quad.long 0x80 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x80 32.--35. 1. "STATUS," newline hexmask.quad.long 0x80 1.--31. 1. "PC," newline bitfld.quad 0x80 0. "RESERVED_0," "0,1" line.quad 0x88 "CORE_MMRS_RGX_CR_USC_SLOT49," hexmask.quad.long 0x88 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x88 32.--35. 1. "STATUS," newline hexmask.quad.long 0x88 1.--31. 1. "PC," newline bitfld.quad 0x88 0. "RESERVED_0," "0,1" line.quad 0x90 "CORE_MMRS_RGX_CR_USC_SLOT50," hexmask.quad.long 0x90 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x90 32.--35. 1. "STATUS," newline hexmask.quad.long 0x90 1.--31. 1. "PC," newline bitfld.quad 0x90 0. "RESERVED_0," "0,1" line.quad 0x98 "CORE_MMRS_RGX_CR_USC_SLOT51," hexmask.quad.long 0x98 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0x98 32.--35. 1. "STATUS," newline hexmask.quad.long 0x98 1.--31. 1. "PC," newline bitfld.quad 0x98 0. "RESERVED_0," "0,1" line.quad 0xA0 "CORE_MMRS_RGX_CR_USC_SLOT52," hexmask.quad.long 0xA0 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xA0 32.--35. 1. "STATUS," newline hexmask.quad.long 0xA0 1.--31. 1. "PC," newline bitfld.quad 0xA0 0. "RESERVED_0," "0,1" line.quad 0xA8 "CORE_MMRS_RGX_CR_USC_SLOT53," hexmask.quad.long 0xA8 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xA8 32.--35. 1. "STATUS," newline hexmask.quad.long 0xA8 1.--31. 1. "PC," newline bitfld.quad 0xA8 0. "RESERVED_0," "0,1" line.quad 0xB0 "CORE_MMRS_RGX_CR_USC_SLOT54," hexmask.quad.long 0xB0 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xB0 32.--35. 1. "STATUS," newline hexmask.quad.long 0xB0 1.--31. 1. "PC," newline bitfld.quad 0xB0 0. "RESERVED_0," "0,1" line.quad 0xB8 "CORE_MMRS_RGX_CR_USC_SLOT55," hexmask.quad.long 0xB8 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xB8 32.--35. 1. "STATUS," newline hexmask.quad.long 0xB8 1.--31. 1. "PC," newline bitfld.quad 0xB8 0. "RESERVED_0," "0,1" line.quad 0xC0 "CORE_MMRS_RGX_CR_USC_SLOT56," hexmask.quad.long 0xC0 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xC0 32.--35. 1. "STATUS," newline hexmask.quad.long 0xC0 1.--31. 1. "PC," newline bitfld.quad 0xC0 0. "RESERVED_0," "0,1" line.quad 0xC8 "CORE_MMRS_RGX_CR_USC_SLOT57," hexmask.quad.long 0xC8 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xC8 32.--35. 1. "STATUS," newline hexmask.quad.long 0xC8 1.--31. 1. "PC," newline bitfld.quad 0xC8 0. "RESERVED_0," "0,1" line.quad 0xD0 "CORE_MMRS_RGX_CR_USC_SLOT58," hexmask.quad.long 0xD0 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xD0 32.--35. 1. "STATUS," newline hexmask.quad.long 0xD0 1.--31. 1. "PC," newline bitfld.quad 0xD0 0. "RESERVED_0," "0,1" line.quad 0xD8 "CORE_MMRS_RGX_CR_USC_SLOT59," hexmask.quad.long 0xD8 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xD8 32.--35. 1. "STATUS," newline hexmask.quad.long 0xD8 1.--31. 1. "PC," newline bitfld.quad 0xD8 0. "RESERVED_0," "0,1" line.quad 0xE0 "CORE_MMRS_RGX_CR_USC_SLOT60," hexmask.quad.long 0xE0 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xE0 32.--35. 1. "STATUS," newline hexmask.quad.long 0xE0 1.--31. 1. "PC," newline bitfld.quad 0xE0 0. "RESERVED_0," "0,1" line.quad 0xE8 "CORE_MMRS_RGX_CR_USC_SLOT61," hexmask.quad.long 0xE8 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xE8 32.--35. 1. "STATUS," newline hexmask.quad.long 0xE8 1.--31. 1. "PC," newline bitfld.quad 0xE8 0. "RESERVED_0," "0,1" line.quad 0xF0 "CORE_MMRS_RGX_CR_USC_SLOT62," hexmask.quad.long 0xF0 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xF0 32.--35. 1. "STATUS," newline hexmask.quad.long 0xF0 1.--31. 1. "PC," newline bitfld.quad 0xF0 0. "RESERVED_0," "0,1" line.quad 0xF8 "CORE_MMRS_RGX_CR_USC_SLOT63," hexmask.quad.long 0xF8 36.--63. 1. "RESERVED_36," newline hexmask.quad.byte 0xF8 32.--35. 1. "STATUS," newline hexmask.quad.long 0xF8 1.--31. 1. "PC," newline bitfld.quad 0xF8 0. "RESERVED_0," "0,1" group.quad 0x4500++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_USC_BREAKPOINT1," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 1.--31. 1. "ADDR,Breakpoint Address" newline rbitfld.quad 0x0 0. "RESERVED_0," "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_USC_BREAKPOINT1_HANDLER," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 1.--31. 1. "ADDR,Breakpoint Handler Address" newline rbitfld.quad 0x8 0. "RESERVED_0," "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_USC_BREAKPOINT1_CTRL," hexmask.quad 0x10 4.--63. 1. "RESERVED_4," newline bitfld.quad 0x10 3. "ENABLE,0 = Breakpoint disabled 1 = Breakpoint enabled" "0: Breakpoint disabled,1: Breakpoint enabled" newline bitfld.quad 0x10 0.--2. "DM,Data Master of Breakpoint" "0,1,2,3,4,5,6,7" rgroup.quad 0x45D8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_USC_IDLE," hexmask.quad 0x0 10.--63. 1. "RESERVED_10," newline bitfld.quad 0x0 9. "USCITR,USCITR idle" "0,1" newline bitfld.quad 0x0 8. "USCDMA,USCDMA idle" "0,1" newline bitfld.quad 0x0 7. "USCFS,USCFS idle" "0,1" newline bitfld.quad 0x0 6. "USCCS,USCCS idle" "0,1" newline bitfld.quad 0x0 5. "USCPD3,USCPD idle" "0,1" newline bitfld.quad 0x0 4. "USCPD2,USCPD idle" "0,1" newline bitfld.quad 0x0 3. "USCPD1,USCPD idle" "0,1" newline bitfld.quad 0x0 2. "USCPD0,USCPD idle" "0,1" newline bitfld.quad 0x0 1. "USCPC,USCPC idle" "0,1" newline bitfld.quad 0x0 0. "USCC,USCC idle" "0,1" group.quad 0x45E8++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_USC_ITRCOEFF_CACHE,USC Iterator Coefficient Cache Bypass bit" hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "BYPASS,Bypass bit of the coefficient cache" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_USC_ITRSMP_STATE_CACHE,USC ITRSMP State Cache Bypass bit" hexmask.quad 0x8 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x8 0. "BYPASS,Bypass bit of the state cache" "0,1" rgroup.quad 0x4600++0x77 line.quad 0x0 "CORE_MMRS_RGX_CR_USC_PWR_INSTR,Peformance counter associated with Power Monitoring" hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "EXEC,Number of instructions executed [max 1 per clock]" line.quad 0x8 "CORE_MMRS_RGX_CR_USC_PWR_CMMN_STR_ACCESS,Peformance counter associated with Power Monitoring" hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "COUNT,Number of Common Store accesses [max of 4 per lock]" line.quad 0x10 "CORE_MMRS_RGX_CR_USC_PWR_CMMN_STR,Peformance counter associated with Power Monitoring" hexmask.quad.long 0x10 32.--63. 1. "RD_BANK_CLASH,Common Store: Number of read/read bank clashes" newline hexmask.quad.long 0x10 0.--31. 1. "WR_BANK_CLASH,Common Store: Number of write/write bank clashes" line.quad 0x18 "CORE_MMRS_RGX_CR_USC_PWR_UNI_STR,Peformance counter associated with Power Monitoring" hexmask.quad.long 0x18 32.--63. 1. "RD_BANK_CLASH,Unified Store: Number of read/read bank clashes" newline hexmask.quad.long 0x18 0.--31. 1. "WR_BANK_CLASH,Unified Store: Number of write/write bank clashes" line.quad 0x20 "CORE_MMRS_RGX_CR_USC_PWR_NUM_FLOAT,Peformance counter associated with Power Monitoring" hexmask.quad.long 0x20 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x20 0.--31. 1. "OPS,Number of floating point ops; FAdd/Fmul=1 MAD=2; max 32x2=64 per clock" line.quad 0x28 "CORE_MMRS_RGX_CR_USC_PWR_NUM_INTEGER,Peformance counter associated with Power Monitoring" hexmask.quad.long 0x28 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x28 0.--31. 1. "OPS,Number of integer ops; Add/Mul=1 MAD=2 max 16*2=32 per clock" line.quad 0x30 "CORE_MMRS_RGX_CR_USC_PWR_NUM_COALU,Peformance counter associated with Power Monitoring" hexmask.quad.long 0x30 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x30 0.--31. 1. "OPS,Number of COALU ops; max of 16 per clock" line.quad 0x38 "CORE_MMRS_RGX_CR_USC_PWR_NUM,Peformance counter associated with Power Monitoring" hexmask.quad.long 0x38 32.--63. 1. "ITERATIONS,Number of iterates" newline hexmask.quad.long 0x38 0.--31. 1. "PENALTY_CYCLES,Penalty cycles for read/read and write/write clashes. For each instruction this is max[a b c d]" line.quad 0x40 "CORE_MMRS_RGX_CR_USC_PWR_AV_NUM_INST_VALID,Peformance counter associated with Power Monitoring" hexmask.quad.long 0x40 32.--63. 1. "PIXEL,Average number of instances valid out of 16 for pixel tasks" newline hexmask.quad.long 0x40 0.--31. 1. "VERT,Average number of instances valid out of 16 for vertex tasks" line.quad 0x48 "CORE_MMRS_RGX_CR_USC_PWR_NUM_ON_EDGE_PIXL,Peformance counter associated with Power Monitoring" hexmask.quad.long 0x48 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x48 0.--31. 1. "WRITE,Number of on-edge pixel output register writes" line.quad 0x50 "CORE_MMRS_RGX_CR_USC_PWR_NUM_OFF_EDGE_PIXL,Peformance counter associated with Power Monitoring" hexmask.quad.long 0x50 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x50 0.--31. 1. "WRITE,Number of off-edge pixel output register writes" line.quad 0x58 "CORE_MMRS_RGX_CR_USC_PWR_NUM_F16,Peformance counter associated with Power Monitoring" hexmask.quad.long 0x58 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x58 0.--31. 1. "OPS,Number of F16 operations. Max of 16" line.quad 0x60 "CORE_MMRS_RGX_CR_USC_PWR_USCPD_INSTR,Peformance counter associated with Power Monitoring" hexmask.quad.long 0x60 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x60 0.--31. 1. "COUNT,Number of instructions executed by USCPD" line.quad 0x68 "CORE_MMRS_RGX_CR_USC_PWR_INT_REG_ACCESS,Peformance counter associated with Power Monitoring" hexmask.quad.long 0x68 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x68 0.--31. 1. "COUNT,Number of internal register accesses. Max 128 per clock = 8 registers * 16 instances" line.quad 0x70 "CORE_MMRS_RGX_CR_USC_PWR_US_STR_ACCESS,Peformance counter associated with Power Monitoring" hexmask.quad.long 0x70 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x70 0.--31. 1. "COUNT,Number of unified sotre US bank accesses. Max of 32 per clock = 8 banks * 4 pipes" group.quad 0x4678++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_USC_HQ_RESCH,Disable rescheduling of slots in USCPC HQ" hexmask.quad 0x0 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x0 1. "DISABLE_FOR_BE,Disable rescheduling for BE instr in USCPC" "0,1" newline bitfld.quad 0x0 0. "DISABLE,Disable rescheduling in USCPC" "0,1" rgroup.quad 0x5000++0x8F line.quad 0x0 "CORE_MMRS_RGX_CR_USC_UVS0_CHECKSUM," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "VALUE,Checksum of USC to UVS writes from USC0" line.quad 0x8 "CORE_MMRS_RGX_CR_USC_UVS1_CHECKSUM," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "VALUE,Checksum of USC to UVS writes from USC1" line.quad 0x10 "CORE_MMRS_RGX_CR_USC_UVS2_CHECKSUM," hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x10 0.--31. 1. "VALUE,Checksum of USC to UVS writes from USC2" line.quad 0x18 "CORE_MMRS_RGX_CR_USC_UVS3_CHECKSUM," hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x18 0.--31. 1. "VALUE,Checksum of USC to UVS writes from USC3" line.quad 0x20 "CORE_MMRS_RGX_CR_PPP_SIGNATURE," hexmask.quad.long 0x20 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x20 0.--31. 1. "VALUE,Signature of PPP to Clipper Interface" line.quad 0x28 "CORE_MMRS_RGX_CR_TE_SIGNATURE," hexmask.quad.long 0x28 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x28 0.--31. 1. "VALUE,Signature of TE control stream writes" line.quad 0x30 "CORE_MMRS_RGX_CR_VCE_CHECKSUM," hexmask.quad.long 0x30 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x30 0.--31. 1. "VALUE,Checksum of VCE memory writes" line.quad 0x38 "CORE_MMRS_RGX_CR_ISP_PDS_CHECKSUM," hexmask.quad.long 0x38 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x38 0.--31. 1. "VALUE,Checksum of ISP PDS Span Output" line.quad 0x40 "CORE_MMRS_RGX_CR_ISP_TPF_CHECKSUM," hexmask.quad.long 0x40 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x40 0.--31. 1. "VALUE,Checksum of ISP TPF Object Output" line.quad 0x48 "CORE_MMRS_RGX_CR_TFPU_PLANE0_CHECKSUM," hexmask.quad.long 0x48 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x48 0.--31. 1. "VALUE,Checksum of TFPU Plane0 Output" line.quad 0x50 "CORE_MMRS_RGX_CR_TFPU_PLANE1_CHECKSUM," hexmask.quad.long 0x50 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x50 0.--31. 1. "VALUE,Checksum of TFPU Plane1 Output" line.quad 0x58 "CORE_MMRS_RGX_CR_PBE_CHECKSUM," hexmask.quad.long 0x58 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x58 0.--31. 1. "VALUE,Checksum of PBE memory writes" line.quad 0x60 "CORE_MMRS_RGX_CR_PDS_DOUTM_STM_SIGNATURE," hexmask.quad.long 0x60 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x60 0.--31. 1. "VALUE,Signature of PDS DOUTM Stream Out MCU writes" line.quad 0x68 "CORE_MMRS_RGX_CR_IFPU_ISP_CHECKSUM," hexmask.quad.long 0x68 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x68 0.--31. 1. "VALUE,Checksum of IFPU Output" line.quad 0x70 "CORE_MMRS_RGX_CR_MCU_L0_TA_CHECKSUM," hexmask.quad.long 0x70 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x70 0.--31. 1. "VALUE,Checksum of the PDS->USC from MCU for TA data" line.quad 0x78 "CORE_MMRS_RGX_CR_MCU_L0_3D_CHECKSUM," hexmask.quad.long 0x78 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x78 0.--31. 1. "VALUE,Checksum of the PDS->USC from MCU for 3D data" line.quad 0x80 "CORE_MMRS_RGX_CR_MCU_L0_WRAP_TA_CHECKSUM," hexmask.quad.long 0x80 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x80 0.--31. 1. "VALUE,Checksum of the PDS->USC from MCU for TA data" line.quad 0x88 "CORE_MMRS_RGX_CR_MCU_L0_WRAP_3D_CHECKSUM," hexmask.quad.long 0x88 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x88 0.--31. 1. "VALUE,Checksum of the PDS->USC from MCU for 3D data" rgroup.quad 0x5100++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_USC_UVS4_CHECKSUM," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "VALUE,Checksum of USC to UVS writes from USC4" line.quad 0x8 "CORE_MMRS_RGX_CR_USC_UVS5_CHECKSUM," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "VALUE,Checksum of USC to UVS writes from USC5" rgroup.quad 0x5160++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PBE_CHECKSUM_NO_ADDR," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "VALUE,No address checksum of PBE memory writes" group.quad 0x6000++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PERF_COUNTER," hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "RESET,A write of 1 to this register resets the Cycle Counters and holds them in Reset. A write of 0 enables them for Counting" "0,1" rgroup.quad 0x6008++0x6F line.quad 0x0 "CORE_MMRS_RGX_CR_PERF_TA_PHASE," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "COUNT,The number of TA phases completed" line.quad 0x8 "CORE_MMRS_RGX_CR_PERF_3D_PHASE," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "COUNT,The number of 3D phases completed" line.quad 0x10 "CORE_MMRS_RGX_CR_PERF_COMPUTE_PHASE," hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x10 0.--31. 1. "COUNT,The number of Compute phases completed" line.quad 0x18 "CORE_MMRS_RGX_CR_PERF_TA_CYCLE," hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x18 0.--31. 1. "COUNT,The number of cycles spent in TA phases" line.quad 0x20 "CORE_MMRS_RGX_CR_PERF_3D_CYCLE," hexmask.quad.long 0x20 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x20 0.--31. 1. "COUNT,The number of cycles spent in 3D phases" line.quad 0x28 "CORE_MMRS_RGX_CR_PERF_COMPUTE_CYCLE," hexmask.quad.long 0x28 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x28 0.--31. 1. "COUNT,The number of cycles spent in Compute phases" line.quad 0x30 "CORE_MMRS_RGX_CR_PERF_TA_OR_3D_CYCLE," hexmask.quad.long 0x30 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x30 0.--31. 1. "COUNT,The number of cycles spent in TA phases or 3D phases" line.quad 0x38 "CORE_MMRS_RGX_CR_PERF_INITIAL_TA_CYCLE," hexmask.quad.long 0x38 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x38 0.--31. 1. "COUNT,The number of cycles spent in TA phases before the first 3D phase" line.quad 0x40 "CORE_MMRS_RGX_CR_PERF_FINAL_3D_CYCLE," hexmask.quad.long 0x40 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x40 0.--31. 1. "COUNT,The number of cycles spent in the last 3D phase" line.quad 0x48 "CORE_MMRS_RGX_CR_PERF_BIF0_READ," hexmask.quad.long 0x48 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x48 0.--31. 1. "COUNT,The number of BIF0-to-SLC reads" line.quad 0x50 "CORE_MMRS_RGX_CR_PERF_BIF0_WRITE," hexmask.quad.long 0x50 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x50 0.--31. 1. "COUNT,The number of BIF0-to-SLC writes" line.quad 0x58 "CORE_MMRS_RGX_CR_PERF_BIF0_BYTE_WRITE," hexmask.quad.long 0x58 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x58 0.--31. 1. "COUNT,The number of BIF0-to-SLC bytes written" line.quad 0x60 "CORE_MMRS_RGX_CR_PERF_BIF0_READ_STALL," hexmask.quad.long 0x60 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x60 0.--31. 1. "COUNT,The number of BIF0-to-SLC read stalls" line.quad 0x68 "CORE_MMRS_RGX_CR_PERF_BIF0_WRITE_STALL," hexmask.quad.long 0x68 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x68 0.--31. 1. "COUNT,The number of BIF0-to-SLC write stalls" rgroup.quad 0x60A0++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_PERF_SLC0_READ," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "COUNT,The number of SLC-to-MEM interface 0 reads" line.quad 0x8 "CORE_MMRS_RGX_CR_PERF_SLC0_WRITE," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "COUNT,The number of SLC-to-MEM interface 0 writes" line.quad 0x10 "CORE_MMRS_RGX_CR_PERF_SLC0_BYTE_WRITE," hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x10 0.--31. 1. "COUNT,The number of SLC-to-MEM interface 0 bytes written" line.quad 0x18 "CORE_MMRS_RGX_CR_PERF_SLC0_READ_STALL," hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x18 0.--31. 1. "COUNT,The number of SLC-to-MEM interface 0 command stalls" line.quad 0x20 "CORE_MMRS_RGX_CR_PERF_SLC0_WRITE_STALL," hexmask.quad.long 0x20 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x20 0.--31. 1. "COUNT,The number of SLC-to-MEM insterface 0 write channel stalls" rgroup.quad 0x60F0++0x37 line.quad 0x0 "CORE_MMRS_RGX_CR_PERF_SLC_BURST_SIZE0_IN," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "VALUE,The number of burstlength 0 accesses into the Burst Combiner" line.quad 0x8 "CORE_MMRS_RGX_CR_PERF_SLC_BURST_SIZE1_IN," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "VALUE,The number of burstlength 1 accesses into the Burst Combiner" line.quad 0x10 "CORE_MMRS_RGX_CR_PERF_SLC_BURST_SIZE0_OUT," hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x10 0.--31. 1. "VALUE,The number of burstlength 0 accesses out of the Burst Combiner" line.quad 0x18 "CORE_MMRS_RGX_CR_PERF_SLC_BURST_SIZE1_OUT," hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x18 0.--31. 1. "VALUE,The number of burstlength 1 accesses out of the Burst Combiner" line.quad 0x20 "CORE_MMRS_RGX_CR_PERF_SLC_BURST_SIZE2_OUT," hexmask.quad.long 0x20 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x20 0.--31. 1. "VALUE,The number of burstlength 2 accesses out of the Burst Combiner" line.quad 0x28 "CORE_MMRS_RGX_CR_PERF_SLC0_READ_ID_STALL," hexmask.quad.long 0x28 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x28 0.--31. 1. "COUNT,The number of cycles the SLC spends stalled because all Read IDs on memory interface 0 are currently in use" line.quad 0x30 "CORE_MMRS_RGX_CR_PERF_SLC0_WRITE_ID_STALL," hexmask.quad.long 0x30 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x30 0.--31. 1. "COUNT,The number of cycles the SLC spends stalled because all Write IDs on memory interface 0 are currently in use" rgroup.quad 0x6138++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PERF_SLC_BURST_SIZE3_OUT," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "VALUE,The number of burstlength 3 accesses out of the Burst Combiner" rgroup.quad 0x6190++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_PERF_SLC_BURST_SIZE2_IN," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "VALUE,The number of burstlength 2 accesses into the Burst Combiner" line.quad 0x8 "CORE_MMRS_RGX_CR_PERF_SLC_BURST_SIZE3_IN," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "VALUE,The number of burstlength 3 accesses into the Burst Combiner" rgroup.quad 0x6220++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PERF_3D_SPINUP," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "CYCLES,The number of cycles it takes the 3D pipeline to spin-up" group.quad 0x6300++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_POWER_ESTIMATE_REQ_RST,Power estimate Request/Reset - The generation of the power estimate will be initiated upon a write to the power" hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "VALUE," "0,1" group.quad 0x6310++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_POWER_ESTIMATE_SAMPLE_COUNT,Power Estimate Sample Count - This defines the number of cycles over which power monitoring will occur." hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "VALUE," rgroup.quad 0x6318++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_POWER_ESTIMATE_READY,Power estimate Ready - A system event (portmap signal and maskable interrupt) is output when the power estimate has" hexmask.quad 0x0 15.--63. 1. "RESERVED_15," newline bitfld.quad 0x0 14. "SLC," "0,1" newline bitfld.quad 0x0 13. "TILING," "0,1" newline bitfld.quad 0x0 12. "JONES," "0,1" newline bitfld.quad 0x0 10.--11. "RESERVED_10," "0,1,2,3" newline bitfld.quad 0x0 9. "TA," "0,1" newline bitfld.quad 0x0 8. "RASTERISATION," "0,1" newline bitfld.quad 0x0 7. "HUB," "0,1" newline bitfld.quad 0x0 6. "BIFPMCACHE," "0,1" newline bitfld.quad 0x0 5. "RESERVED_5," "0,1" newline bitfld.quad 0x0 4. "TPU_MCU," "0,1" newline bitfld.quad 0x0 1.--3. "RESERVED_1," "0,1,2,3,4,5,6,7" newline bitfld.quad 0x0 0. "USC," "0,1" group.quad 0x6320++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_POWER_ESTIMATE_GAIN_COEFF,Final Gain coefficient to apply to summation of all power monitoring quotients" hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "VALUE," line.quad 0x8 "CORE_MMRS_RGX_CR_POWER_ESTIMATE_RESULT,Power Estimate Result. This represents the estimation of the total system power usage." hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "VALUE," line.quad 0x10 "CORE_MMRS_RGX_CR_PERF_COUNT_MODE_ONLY,This register bit set means we need to do only perf-counter gathering and nothing to do with pwr-perf related counting" hexmask.quad 0x10 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x10 0. "VALUE," "0,1" rgroup.quad 0x6500++0x2F line.quad 0x0 "CORE_MMRS_RGX_CR_AVG_NON_CRITICAL_MEM0_LATENCY," hexmask.quad 0x0 12.--63. 1. "RESERVED_12," newline hexmask.quad.word 0x0 0.--11. 1. "COUNT,The average number of read latency cycles incur at external memory for non critical tag" line.quad 0x8 "CORE_MMRS_RGX_CR_MIN_NON_CRITICAL_MEM0_LATENCY," hexmask.quad 0x8 12.--63. 1. "RESERVED_12," newline hexmask.quad.word 0x8 0.--11. 1. "COUNT,The min number of read latency cycles incur at external memory for non critical tag" line.quad 0x10 "CORE_MMRS_RGX_CR_MAX_NON_CRITICAL_MEM0_LATENCY," hexmask.quad 0x10 12.--63. 1. "RESERVED_12," newline hexmask.quad.word 0x10 0.--11. 1. "COUNT,The max number of read latency cycles incur at external memory for non critical tag" line.quad 0x18 "CORE_MMRS_RGX_CR_AVG_CRITICAL_MEM0_LATENCY," hexmask.quad 0x18 12.--63. 1. "RESERVED_12," newline hexmask.quad.word 0x18 0.--11. 1. "COUNT,The average number of read latency cycles incur at external memory for critical tag" line.quad 0x20 "CORE_MMRS_RGX_CR_MIN_CRITICAL_MEM0_LATENCY," hexmask.quad 0x20 12.--63. 1. "RESERVED_12," newline hexmask.quad.word 0x20 0.--11. 1. "COUNT,The min number of read latency cycles incur at external memory for critical tag" line.quad 0x28 "CORE_MMRS_RGX_CR_MAX_CRITICAL_MEM0_LATENCY," hexmask.quad 0x28 12.--63. 1. "RESERVED_12," newline hexmask.quad.word 0x28 0.--11. 1. "COUNT,The max number of read latency cycles incur at external memory for critical tag" group.quad 0x6530++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_USER_DEFINED_MEM0_MH_TAG,Writing '1' followed by mh_tag value at the lsb end of this register starts the user defined mh_tag value for latency calculation." hexmask.quad 0x0 7.--63. 1. "RESERVED_7," newline hexmask.quad.byte 0x0 0.--6. 1. "VALUE," rgroup.quad 0x6538++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_AVG_USER_MH_TAG_MEM0_LATENCY," hexmask.quad 0x0 12.--63. 1. "RESERVED_12," newline hexmask.quad.word 0x0 0.--11. 1. "COUNT,The average number of read latency cycles incur at external memory for user_defined tag" line.quad 0x8 "CORE_MMRS_RGX_CR_MIN_USER_MH_TAG_MEM0_LATENCY," hexmask.quad 0x8 12.--63. 1. "RESERVED_12," newline hexmask.quad.word 0x8 0.--11. 1. "COUNT,The min number of read latency cycles incur at external memory for user defined tag" line.quad 0x10 "CORE_MMRS_RGX_CR_MAX_USER_MH_TAG_MEM0_LATENCY," hexmask.quad 0x10 12.--63. 1. "RESERVED_12," newline hexmask.quad.word 0x10 0.--11. 1. "COUNT,The max number of read latency cycles incur at external memory for user defined tag" line.quad 0x18 "CORE_MMRS_RGX_CR_MIN_NON_CRITICAL_MEM0_LATENCY_MH_TAG," hexmask.quad 0x18 6.--63. 1. "RESERVED_6," newline hexmask.quad.byte 0x18 0.--5. 1. "VALUE,The mh_tag value of min read latency cycles for non critical tag" line.quad 0x20 "CORE_MMRS_RGX_CR_MAX_NON_CRITICAL_MEM0_LATENCY_MH_TAG," hexmask.quad 0x20 6.--63. 1. "RESERVED_6," newline hexmask.quad.byte 0x20 0.--5. 1. "VALUE,The mh_tag value of max read latency cycles for non critical tag" group.quad 0x7600++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_TA_PERF," hexmask.quad 0x0 5.--63. 1. "RESERVED_5," newline bitfld.quad 0x0 4. "CLR_3,clear counter 3" "0,1" newline bitfld.quad 0x0 3. "CLR_2,clear counter 2" "0,1" newline bitfld.quad 0x0 2. "CLR_1,clear counter 1" "0,1" newline bitfld.quad 0x0 1. "CLR_0,clear counter 0" "0,1" newline bitfld.quad 0x0 0. "CTRL_ENABLE,enables the perf bus counters" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_TA_PERF_SELECT0," hexmask.quad 0x8 22.--63. 1. "RESERVED_22," newline bitfld.quad 0x8 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x8 16.--20. 1. "GROUP_SELECT,group select see full PERF documentation for signals in each group" newline hexmask.quad.word 0x8 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" line.quad 0x10 "CORE_MMRS_RGX_CR_TA_PERF_SELECT1," hexmask.quad 0x10 22.--63. 1. "RESERVED_22," newline bitfld.quad 0x10 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x10 16.--20. 1. "GROUP_SELECT,group select see full PERF documentation for signals in each group" newline hexmask.quad.word 0x10 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" line.quad 0x18 "CORE_MMRS_RGX_CR_TA_PERF_SELECT2," hexmask.quad 0x18 22.--63. 1. "RESERVED_22," newline bitfld.quad 0x18 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x18 16.--20. 1. "GROUP_SELECT,group select see full PERF documentation for signals in each group" newline hexmask.quad.word 0x18 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" line.quad 0x20 "CORE_MMRS_RGX_CR_TA_PERF_SELECT3," hexmask.quad 0x20 22.--63. 1. "RESERVED_22," newline bitfld.quad 0x20 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x20 16.--20. 1. "GROUP_SELECT,group select see full PERF documentation for signals in each group" newline hexmask.quad.word 0x20 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" rgroup.quad 0x7648++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_TA_PERF_SELECTED_BITS," hexmask.quad.word 0x0 48.--63. 1. "REG3,present bus signals counter 3" newline hexmask.quad.word 0x0 32.--47. 1. "REG2,present bus signals counter 2" newline hexmask.quad.word 0x0 16.--31. 1. "REG1,persent bus signals counter 1" newline hexmask.quad.word 0x0 0.--15. 1. "REG0,present bus signals counter 0" line.quad 0x8 "CORE_MMRS_RGX_CR_TA_PERF_COUNTER_0," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "REG,counter a0" line.quad 0x10 "CORE_MMRS_RGX_CR_TA_PERF_COUNTER_1," hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x10 0.--31. 1. "REG,counter a0" line.quad 0x18 "CORE_MMRS_RGX_CR_TA_PERF_COUNTER_2," hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x18 0.--31. 1. "REG,counter a0" line.quad 0x20 "CORE_MMRS_RGX_CR_TA_PERF_COUNTER_3," hexmask.quad.long 0x20 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x20 0.--31. 1. "REG,counter a0" group.quad 0x7700++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_RASTERISATION_PERF," hexmask.quad 0x0 5.--63. 1. "RESERVED_5," newline bitfld.quad 0x0 4. "CLR_3,clear counter 3" "0,1" newline bitfld.quad 0x0 3. "CLR_2,clear counter 2" "0,1" newline bitfld.quad 0x0 2. "CLR_1,clear counter 1" "0,1" newline bitfld.quad 0x0 1. "CLR_0,clear counter 0" "0,1" newline bitfld.quad 0x0 0. "CTRL_ENABLE,enables the perf bus counters" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_RASTERISATION_PERF_SELECT0," hexmask.quad 0x8 22.--63. 1. "RESERVED_22," newline bitfld.quad 0x8 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x8 16.--20. 1. "GROUP_SELECT,group select see full PERF documenrasterisationtion for signals in each group" newline hexmask.quad.word 0x8 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" line.quad 0x10 "CORE_MMRS_RGX_CR_RASTERISATION_PERF_SELECT1," hexmask.quad 0x10 22.--63. 1. "RESERVED_22," newline bitfld.quad 0x10 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x10 16.--20. 1. "GROUP_SELECT,group select see full PERF documenrasterisationtion for signals in each group" newline hexmask.quad.word 0x10 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" line.quad 0x18 "CORE_MMRS_RGX_CR_RASTERISATION_PERF_SELECT2," hexmask.quad 0x18 22.--63. 1. "RESERVED_22," newline bitfld.quad 0x18 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x18 16.--20. 1. "GROUP_SELECT,group select see full PERF documenrasterisationtion for signals in each group" newline hexmask.quad.word 0x18 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" line.quad 0x20 "CORE_MMRS_RGX_CR_RASTERISATION_PERF_SELECT3," hexmask.quad 0x20 22.--63. 1. "RESERVED_22," newline bitfld.quad 0x20 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x20 16.--20. 1. "GROUP_SELECT,group select see full PERF documenrasterisationtion for signals in each group" newline hexmask.quad.word 0x20 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" rgroup.quad 0x7748++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_RASTERISATION_PERF_SELECTED_BITS," hexmask.quad.word 0x0 48.--63. 1. "REG3,present bus signals counter 3" newline hexmask.quad.word 0x0 32.--47. 1. "REG2,present bus signals counter 2" newline hexmask.quad.word 0x0 16.--31. 1. "REG1,persent bus signals counter 1" newline hexmask.quad.word 0x0 0.--15. 1. "REG0,present bus signals counter 0" line.quad 0x8 "CORE_MMRS_RGX_CR_RASTERISATION_PERF_COUNTER_0," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "REG,counter a0" line.quad 0x10 "CORE_MMRS_RGX_CR_RASTERISATION_PERF_COUNTER_1," hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x10 0.--31. 1. "REG,counter a0" line.quad 0x18 "CORE_MMRS_RGX_CR_RASTERISATION_PERF_COUNTER_2," hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x18 0.--31. 1. "REG,counter a0" line.quad 0x20 "CORE_MMRS_RGX_CR_RASTERISATION_PERF_COUNTER_3," hexmask.quad.long 0x20 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x20 0.--31. 1. "REG,counter a0" group.quad 0x7800++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_HUB_BIFPMCACHE_PERF," hexmask.quad 0x0 5.--63. 1. "RESERVED_5," newline bitfld.quad 0x0 4. "CLR_3,clear counter 3" "0,1" newline bitfld.quad 0x0 3. "CLR_2,clear counter 2" "0,1" newline bitfld.quad 0x0 2. "CLR_1,clear counter 1" "0,1" newline bitfld.quad 0x0 1. "CLR_0,clear counter 0" "0,1" newline bitfld.quad 0x0 0. "CTRL_ENABLE,enables the perf bus counters" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_HUB_BIFPMCACHE_PERF_SELECT0," hexmask.quad 0x8 22.--63. 1. "RESERVED_22," newline bitfld.quad 0x8 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x8 16.--20. 1. "GROUP_SELECT,group select see full PERF documenhub_bifpmcachetion for signals in each group" newline hexmask.quad.word 0x8 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" line.quad 0x10 "CORE_MMRS_RGX_CR_HUB_BIFPMCACHE_PERF_SELECT1," hexmask.quad 0x10 22.--63. 1. "RESERVED_22," newline bitfld.quad 0x10 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x10 16.--20. 1. "GROUP_SELECT,group select see full PERF documenhub_bifpmcachetion for signals in each group" newline hexmask.quad.word 0x10 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" line.quad 0x18 "CORE_MMRS_RGX_CR_HUB_BIFPMCACHE_PERF_SELECT2," hexmask.quad 0x18 22.--63. 1. "RESERVED_22," newline bitfld.quad 0x18 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x18 16.--20. 1. "GROUP_SELECT,group select see full PERF documenhub_bifpmcachetion for signals in each group" newline hexmask.quad.word 0x18 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" line.quad 0x20 "CORE_MMRS_RGX_CR_HUB_BIFPMCACHE_PERF_SELECT3," hexmask.quad 0x20 22.--63. 1. "RESERVED_22," newline bitfld.quad 0x20 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x20 16.--20. 1. "GROUP_SELECT,group select see full PERF documenhub_bifpmcachetion for signals in each group" newline hexmask.quad.word 0x20 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" rgroup.quad 0x7848++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_HUB_BIFPMCACHE_PERF_SELECTED_BITS," hexmask.quad.word 0x0 48.--63. 1. "REG3,present bus signals counter 3" newline hexmask.quad.word 0x0 32.--47. 1. "REG2,present bus signals counter 2" newline hexmask.quad.word 0x0 16.--31. 1. "REG1,persent bus signals counter 1" newline hexmask.quad.word 0x0 0.--15. 1. "REG0,present bus signals counter 0" line.quad 0x8 "CORE_MMRS_RGX_CR_HUB_BIFPMCACHE_PERF_COUNTER_0," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "REG,counter a0" line.quad 0x10 "CORE_MMRS_RGX_CR_HUB_BIFPMCACHE_PERF_COUNTER_1," hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x10 0.--31. 1. "REG,counter a0" line.quad 0x18 "CORE_MMRS_RGX_CR_HUB_BIFPMCACHE_PERF_COUNTER_2," hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x18 0.--31. 1. "REG,counter a0" line.quad 0x20 "CORE_MMRS_RGX_CR_HUB_BIFPMCACHE_PERF_COUNTER_3," hexmask.quad.long 0x20 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x20 0.--31. 1. "REG,counter a0" group.quad 0x7900++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_TPU_MCU_L0_PERF," hexmask.quad 0x0 5.--63. 1. "RESERVED_5," newline bitfld.quad 0x0 4. "CLR_3,clear counter 3" "0,1" newline bitfld.quad 0x0 3. "CLR_2,clear counter 2" "0,1" newline bitfld.quad 0x0 2. "CLR_1,clear counter 1" "0,1" newline bitfld.quad 0x0 1. "CLR_0,clear counter 0" "0,1" newline bitfld.quad 0x0 0. "CTRL_ENABLE,enables the perf bus counters" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_TPU_MCU_L0_PERF_SELECT0," rbitfld.quad 0x8 62.--63. "RESERVED_62," "0,1,2,3" newline hexmask.quad.word 0x8 48.--61. 1. "BATCH_MAX,this is the min batch number which will be counted in this group" newline rbitfld.quad 0x8 46.--47. "RESERVED_46," "0,1,2,3" newline hexmask.quad.word 0x8 32.--45. 1. "BATCH_MIN,this is the min batch number which will be counted in this group" newline hexmask.quad.word 0x8 22.--31. 1. "RESERVED_22," newline bitfld.quad 0x8 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x8 16.--20. 1. "GROUP_SELECT,group select see full PERF documentation for signals in each group" newline hexmask.quad.word 0x8 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" line.quad 0x10 "CORE_MMRS_RGX_CR_TPU_MCU_L0_PERF_SELECT1," rbitfld.quad 0x10 62.--63. "RESERVED_62," "0,1,2,3" newline hexmask.quad.word 0x10 48.--61. 1. "BATCH_MAX,this is the min batch number which will be counted in this group" newline rbitfld.quad 0x10 46.--47. "RESERVED_46," "0,1,2,3" newline hexmask.quad.word 0x10 32.--45. 1. "BATCH_MIN,this is the min batch number which will be counted in this group" newline hexmask.quad.word 0x10 22.--31. 1. "RESERVED_22," newline bitfld.quad 0x10 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x10 16.--20. 1. "GROUP_SELECT,group select see full PERF documentation for signals in each group" newline hexmask.quad.word 0x10 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" line.quad 0x18 "CORE_MMRS_RGX_CR_TPU_MCU_L0_PERF_SELECT2," rbitfld.quad 0x18 62.--63. "RESERVED_62," "0,1,2,3" newline hexmask.quad.word 0x18 48.--61. 1. "BATCH_MAX,this is the min batch number which will be counted in this group" newline rbitfld.quad 0x18 46.--47. "RESERVED_46," "0,1,2,3" newline hexmask.quad.word 0x18 32.--45. 1. "BATCH_MIN,this is the min batch number which will be counted in this group" newline hexmask.quad.word 0x18 22.--31. 1. "RESERVED_22," newline bitfld.quad 0x18 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x18 16.--20. 1. "GROUP_SELECT,group select see full PERF documentation for signals in each group" newline hexmask.quad.word 0x18 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" line.quad 0x20 "CORE_MMRS_RGX_CR_TPU_MCU_L0_PERF_SELECT3," rbitfld.quad 0x20 62.--63. "RESERVED_62," "0,1,2,3" newline hexmask.quad.word 0x20 48.--61. 1. "BATCH_MAX,this is the min batch number which will be counted in this group" newline rbitfld.quad 0x20 46.--47. "RESERVED_46," "0,1,2,3" newline hexmask.quad.word 0x20 32.--45. 1. "BATCH_MIN,this is the min batch number which will be counted in this group" newline hexmask.quad.word 0x20 22.--31. 1. "RESERVED_22," newline bitfld.quad 0x20 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x20 16.--20. 1. "GROUP_SELECT,group select see full PERF documentation for signals in each group" newline hexmask.quad.word 0x20 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" rgroup.quad 0x7948++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_TPU_MCU_L0_PERF_SELECTED_BITS," hexmask.quad.word 0x0 48.--63. 1. "REG3,present bus signals counter 3" newline hexmask.quad.word 0x0 32.--47. 1. "REG2,present bus signals counter 2" newline hexmask.quad.word 0x0 16.--31. 1. "REG1,persent bus signals counter 1" newline hexmask.quad.word 0x0 0.--15. 1. "REG0,present bus signals counter 0" line.quad 0x8 "CORE_MMRS_RGX_CR_TPU_MCU_L0_PERF_COUNTER_0," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "REG,counter a0" line.quad 0x10 "CORE_MMRS_RGX_CR_TPU_MCU_L0_PERF_COUNTER_1," hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x10 0.--31. 1. "REG,counter a0" line.quad 0x18 "CORE_MMRS_RGX_CR_TPU_MCU_L0_PERF_COUNTER_2," hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x18 0.--31. 1. "REG,counter a0" line.quad 0x20 "CORE_MMRS_RGX_CR_TPU_MCU_L0_PERF_COUNTER_3," hexmask.quad.long 0x20 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x20 0.--31. 1. "REG,counter a0" group.quad 0x8020++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_USC_TPU_LOW_PRECISION_ENABLE,Enable signal to use low precision across USC and TPU (TAG) in coordinates." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "VALUE," "0,1" group.quad 0x8100++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_USC_PERF," hexmask.quad 0x0 5.--63. 1. "RESERVED_5," newline bitfld.quad 0x0 4. "CLR_3,clear counter 3" "0,1" newline bitfld.quad 0x0 3. "CLR_2,clear counter 2" "0,1" newline bitfld.quad 0x0 2. "CLR_1,clear counter 1" "0,1" newline bitfld.quad 0x0 1. "CLR_0,clear counter 0" "0,1" newline bitfld.quad 0x0 0. "CTRL_ENABLE,enables the perf bus counters" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_USC_PERF_SELECT0," rbitfld.quad 0x8 62.--63. "RESERVED_62," "0,1,2,3" newline hexmask.quad.word 0x8 48.--61. 1. "BATCH_MAX,this is the min batch number which will be counted in this group" newline rbitfld.quad 0x8 46.--47. "RESERVED_46," "0,1,2,3" newline hexmask.quad.word 0x8 32.--45. 1. "BATCH_MIN,this is the min batch number which will be counted in this group" newline hexmask.quad.word 0x8 22.--31. 1. "RESERVED_22," newline bitfld.quad 0x8 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x8 16.--20. 1. "GROUP_SELECT,group select see full PERF documenusction for signals in each group" newline hexmask.quad.word 0x8 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" line.quad 0x10 "CORE_MMRS_RGX_CR_USC_PERF_SELECT1," rbitfld.quad 0x10 62.--63. "RESERVED_62," "0,1,2,3" newline hexmask.quad.word 0x10 48.--61. 1. "BATCH_MAX,this is the min batch number which will be counted in this group" newline rbitfld.quad 0x10 46.--47. "RESERVED_46," "0,1,2,3" newline hexmask.quad.word 0x10 32.--45. 1. "BATCH_MIN,this is the min batch number which will be counted in this group" newline hexmask.quad.word 0x10 22.--31. 1. "RESERVED_22," newline bitfld.quad 0x10 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x10 16.--20. 1. "GROUP_SELECT,group select see full PERF documenusction for signals in each group" newline hexmask.quad.word 0x10 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" line.quad 0x18 "CORE_MMRS_RGX_CR_USC_PERF_SELECT2," rbitfld.quad 0x18 62.--63. "RESERVED_62," "0,1,2,3" newline hexmask.quad.word 0x18 48.--61. 1. "BATCH_MAX,this is the min batch number which will be counted in this group" newline rbitfld.quad 0x18 46.--47. "RESERVED_46," "0,1,2,3" newline hexmask.quad.word 0x18 32.--45. 1. "BATCH_MIN,this is the min batch number which will be counted in this group" newline hexmask.quad.word 0x18 22.--31. 1. "RESERVED_22," newline bitfld.quad 0x18 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x18 16.--20. 1. "GROUP_SELECT,group select see full PERF documenusction for signals in each group" newline hexmask.quad.word 0x18 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" line.quad 0x20 "CORE_MMRS_RGX_CR_USC_PERF_SELECT3," rbitfld.quad 0x20 62.--63. "RESERVED_62," "0,1,2,3" newline hexmask.quad.word 0x20 48.--61. 1. "BATCH_MAX,this is the min batch number which will be counted in this group" newline rbitfld.quad 0x20 46.--47. "RESERVED_46," "0,1,2,3" newline hexmask.quad.word 0x20 32.--45. 1. "BATCH_MIN,this is the min batch number which will be counted in this group" newline hexmask.quad.word 0x20 22.--31. 1. "RESERVED_22," newline bitfld.quad 0x20 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x20 16.--20. 1. "GROUP_SELECT,group select see full PERF documenusction for signals in each group" newline hexmask.quad.word 0x20 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" rgroup.quad 0x8148++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_USC_PERF_SELECTED_BITS," hexmask.quad.word 0x0 48.--63. 1. "REG3,present bus signals counter 3" newline hexmask.quad.word 0x0 32.--47. 1. "REG2,present bus signals counter 2" newline hexmask.quad.word 0x0 16.--31. 1. "REG1,persent bus signals counter 1" newline hexmask.quad.word 0x0 0.--15. 1. "REG0,present bus signals counter 0" line.quad 0x8 "CORE_MMRS_RGX_CR_USC_PERF_COUNTER_0," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "REG,counter a0" line.quad 0x10 "CORE_MMRS_RGX_CR_USC_PERF_COUNTER_1," hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x10 0.--31. 1. "REG,counter a0" line.quad 0x18 "CORE_MMRS_RGX_CR_USC_PERF_COUNTER_2," hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x18 0.--31. 1. "REG,counter a0" line.quad 0x20 "CORE_MMRS_RGX_CR_USC_PERF_COUNTER_3," hexmask.quad.long 0x20 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x20 0.--31. 1. "REG,counter a0" group.quad 0x8478++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_PBE_PERF," hexmask.quad 0x0 5.--63. 1. "RESERVED_5," newline bitfld.quad 0x0 4. "CLR_3,clear counter 3" "0,1" newline bitfld.quad 0x0 3. "CLR_2,clear counter 2" "0,1" newline bitfld.quad 0x0 2. "CLR_1,clear counter 1" "0,1" newline bitfld.quad 0x0 1. "CLR_0,clear counter 0" "0,1" newline bitfld.quad 0x0 0. "CTRL_ENABLE,enables the perf bus counters" "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_PBE_PERF_SELECT0," rbitfld.quad 0x8 62.--63. "RESERVED_62," "0,1,2,3" newline hexmask.quad.word 0x8 48.--61. 1. "BATCH_MAX,this is the max batch number which will be counted in this group" newline rbitfld.quad 0x8 46.--47. "RESERVED_46," "0,1,2,3" newline hexmask.quad.word 0x8 32.--45. 1. "BATCH_MIN,this is the min batch number which will be counted in this group" newline hexmask.quad.word 0x8 22.--31. 1. "RESERVED_22," newline bitfld.quad 0x8 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x8 16.--20. 1. "GROUP_SELECT,group select see full PERF documentation for signals in each group" newline hexmask.quad.word 0x8 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" line.quad 0x10 "CORE_MMRS_RGX_CR_PBE_PERF_SELECT1," rbitfld.quad 0x10 62.--63. "RESERVED_62," "0,1,2,3" newline hexmask.quad.word 0x10 48.--61. 1. "BATCH_MAX,this is the max batch number which will be counted in this group" newline rbitfld.quad 0x10 46.--47. "RESERVED_46," "0,1,2,3" newline hexmask.quad.word 0x10 32.--45. 1. "BATCH_MIN,this is the min batch number which will be counted in this group" newline hexmask.quad.word 0x10 22.--31. 1. "RESERVED_22," newline bitfld.quad 0x10 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x10 16.--20. 1. "GROUP_SELECT,group select see full PERF documentation for signals in each group" newline hexmask.quad.word 0x10 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" line.quad 0x18 "CORE_MMRS_RGX_CR_PBE_PERF_SELECT2," rbitfld.quad 0x18 62.--63. "RESERVED_62," "0,1,2,3" newline hexmask.quad.word 0x18 48.--61. 1. "BATCH_MAX,this is the max batch number which will be counted in this group" newline rbitfld.quad 0x18 46.--47. "RESERVED_46," "0,1,2,3" newline hexmask.quad.word 0x18 32.--45. 1. "BATCH_MIN,this is the min batch number which will be counted in this group" newline hexmask.quad.word 0x18 22.--31. 1. "RESERVED_22," newline bitfld.quad 0x18 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x18 16.--20. 1. "GROUP_SELECT,group select see full PERF documentation for signals in each group" newline hexmask.quad.word 0x18 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" group.quad 0x84A0++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_PBE_PERF_SELECT3," rbitfld.quad 0x0 62.--63. "RESERVED_62," "0,1,2,3" newline hexmask.quad.word 0x0 48.--61. 1. "BATCH_MAX,this is the max batch number which will be counted in this group" newline rbitfld.quad 0x0 46.--47. "RESERVED_46," "0,1,2,3" newline hexmask.quad.word 0x0 32.--45. 1. "BATCH_MIN,this is the min batch number which will be counted in this group" newline hexmask.quad.word 0x0 22.--31. 1. "RESERVED_22," newline bitfld.quad 0x0 21. "MODE,reduction mode 0: bitwise increments 1: unsigned count increment" "0: bitwise increments,1: unsigned count increment" newline hexmask.quad.byte 0x0 16.--20. 1. "GROUP_SELECT,group select see full PERF documentation for signals in each group" newline hexmask.quad.word 0x0 0.--15. 1. "BIT_SELECT,bit mask for enabled signals in group" rgroup.quad 0x84A8++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_PBE_PERF_SELECTED_BITS," hexmask.quad.word 0x0 48.--63. 1. "REG3,present bus signals counter 3" newline hexmask.quad.word 0x0 32.--47. 1. "REG2,present bus signals counter 2" newline hexmask.quad.word 0x0 16.--31. 1. "REG1,persent bus signals counter 1" newline hexmask.quad.word 0x0 0.--15. 1. "REG0,present bus signals counter 0" line.quad 0x8 "CORE_MMRS_RGX_CR_PBE_PERF_COUNTER_0," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "REG,counter a0" line.quad 0x10 "CORE_MMRS_RGX_CR_PBE_PERF_COUNTER_1," hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x10 0.--31. 1. "REG,counter a0" line.quad 0x18 "CORE_MMRS_RGX_CR_PBE_PERF_COUNTER_2," hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x18 0.--31. 1. "REG,counter a0" line.quad 0x20 "CORE_MMRS_RGX_CR_PBE_PERF_COUNTER_3," hexmask.quad.long 0x20 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x20 0.--31. 1. "REG,counter a0" rgroup.quad 0x9100++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_TRP_CHECKSUM_PBE_3D," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "VALUE," rgroup.quad 0x9110++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_TRP_CHECKSUM_ZLS_UNCOMPRESSED," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "VALUE," line.quad 0x8 "CORE_MMRS_RGX_CR_TRP_CHECKSUM_ZLS_COMPRESSED," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "VALUE," line.quad 0x10 "CORE_MMRS_RGX_CR_TRP_CHECKSUM_TPW," hexmask.quad.long 0x10 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x10 0.--31. 1. "VALUE," line.quad 0x18 "CORE_MMRS_RGX_CR_TRP_CHECKSUM_TE_REGION," hexmask.quad.long 0x18 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x18 0.--31. 1. "VALUE," line.quad 0x20 "CORE_MMRS_RGX_CR_TRP_CHECKSUM_TE_CONTROL," hexmask.quad.long 0x20 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x20 0.--31. 1. "VALUE," group.quad 0x9138++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_TRP_CLEAR,At the end of a processing phase where TRP is enabled. after having read the relevant status registers." hexmask.quad 0x0 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x0 1. "FRAG_3D," "0,1" newline bitfld.quad 0x0 0. "GEOM," "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_TRP_FILTER,This register designates which TRP Filters shall discard the protected 'safety' transactions for the respective processing phase" hexmask.quad 0x8 2.--63. 1. "RESERVED_2," newline bitfld.quad 0x8 1. "FRAG_3D," "0,1" newline bitfld.quad 0x8 0. "GEOM," "0,1" rgroup.quad 0x9148++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_USC_DMA_CHECKSUM_DATA_COMP,Checksum of protected compute workloads on USC to TPU_MCU data path" hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "VALUE," group.quad 0x9150++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_USC_DMA_CHECKSUM_OP_COMP,Writes to this register will clear compute checksums generated for USC to TPU_MCU datapath" hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "CLEAR," "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_USC_DMA_HEAP_COMP,Defines the address stride of the duplicate buffer for safe compute operations" hexmask.quad.tbyte 0x8 40.--63. 1. "RESERVED_40," newline hexmask.quad.long 0x8 12.--39. 1. "STRIDE," newline hexmask.quad.word 0x8 0.--11. 1. "RESERVED_0," line.quad 0x10 "CORE_MMRS_RGX_CR_TRP_DUMMY_PM,A write of '1' to this register resets the Dummy PM allocation counters to zero." hexmask.quad 0x10 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x10 0. "CLEAR,Clear Dummy PM allocations a write to this register results in a one cycle pulse" "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_TRP_DUMMY_PM_TE_PAGE,The reset value of the TE vpage for dummy PM. in 8KB granularity." hexmask.quad.long 0x18 34.--63. 1. "RESERVED_34," newline hexmask.quad.tbyte 0x18 13.--33. 1. "ADDR," newline hexmask.quad.word 0x18 0.--12. 1. "RESERVED_0," line.quad 0x20 "CORE_MMRS_RGX_CR_TRP_DUMMY_PM_TPW_PAGE,The reset value of the TPW vpage for dummy PM. in 8KB granularity." hexmask.quad.long 0x20 34.--63. 1. "RESERVED_34," newline hexmask.quad.tbyte 0x20 13.--33. 1. "ADDR," newline hexmask.quad.word 0x20 0.--12. 1. "RESERVED_0," group.quad 0xA000++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_BIF_TRUST,Define Requestors/Data Masters which are Trusted/Untrusted and enable/disable the Memory Bus Security feature within the Core" hexmask.quad 0x0 17.--63. 1. "RESERVED_17," newline bitfld.quad 0x0 16. "ENABLE,Enable Security feature: 0x1 = Enabled 0x0 = Disabled" "0: Disabled,1: Enabled" newline hexmask.quad.byte 0x0 9.--15. 1. "DM_TRUSTED,Mask of bits which defines which of the remaining Data Masters are trusted: 0x1 = Trusted 0x0 = Untrusted" newline bitfld.quad 0x0 8. "OTHER_COMPUTE_DM_TRUSTED,Defines whether other accesses with the Compute DM are trusted: 0x1 = Trusted 0x0 = Untrusted" "0: Untrusted,1: Trusted" newline bitfld.quad 0x0 7. "MCU_COMPUTE_DM_TRUSTED,Defines whether MCU accesses with the Compute DM are trusted: 0x1 = Trusted 0x0 = Untrusted" "0: Untrusted,1: Trusted" newline bitfld.quad 0x0 6. "PBE_COMPUTE_DM_TRUSTED,Defines whether PBE accesses with the Compute DM are trusted: 0x1 = Trusted 0x0 = Untrusted" "0: Untrusted,1: Trusted" newline bitfld.quad 0x0 5. "OTHER_PIXEL_DM_TRUSTED,Defines whether other accesses with the Pixel DM are trusted: 0x1 = Trusted 0x0 = Untrusted" "0: Untrusted,1: Trusted" newline bitfld.quad 0x0 4. "MCU_PIXEL_DM_TRUSTED,Defines whether MCU accesses with the Pixel DM are trusted: 0x1 = Trusted 0x0 = Untrusted" "0: Untrusted,1: Trusted" newline bitfld.quad 0x0 3. "PBE_PIXEL_DM_TRUSTED,Defines whether PBE accesses with the Pixel DM are trusted: 0x1 = Trusted 0x0 = Untrusted" "0: Untrusted,1: Trusted" newline bitfld.quad 0x0 2. "OTHER_VERTEX_DM_TRUSTED,Defines whether other accesses with the Vertex DM are trusted: 0x1 = Trusted 0x0 = Untrusted" "0: Untrusted,1: Trusted" newline bitfld.quad 0x0 1. "MCU_VERTEX_DM_TRUSTED,Defines whether MCU accesses with the Vertex DM are trusted: 0x1 = Trusted 0x0 = Untrusted" "0: Untrusted,1: Trusted" newline bitfld.quad 0x0 0. "PBE_VERTEX_DM_TRUSTED,Defines whether PBE accesses with the Vertex DM are trusted: 0x1 = Trusted 0x0 = Untrusted" "0: Untrusted,1: Trusted" group.quad 0xA100++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_SYS_BUS_SECURE,Setting this register secures the IMG Configuration Registers from the System Bus." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "ENABLE,<p>0 = No System Bus Security</p><p>1 = System Bus Restricted</p>" "0,1" group.quad 0xB000++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_PIPELINE_STATS_ENABLE,This register globally enables per DM pipeline statistics counters." hexmask.quad 0x0 17.--63. 1. "RESERVED_17," newline bitfld.quad 0x0 16. "COMPUTE," "0,1" newline hexmask.quad.byte 0x0 9.--15. 1. "RESERVED_9," newline bitfld.quad 0x0 8. "_3D," "0,1" newline hexmask.quad.byte 0x0 1.--7. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "TA," "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_PIPELINE_STATS_CLEAR,Writing '1' to fields of this register resets the pipeline statistics counters per DM" hexmask.quad 0x8 17.--63. 1. "RESERVED_17," newline bitfld.quad 0x8 16. "COMPUTE," "0,1" newline hexmask.quad.byte 0x8 9.--15. 1. "RESERVED_9," newline bitfld.quad 0x8 8. "_3D," "0,1" newline hexmask.quad.byte 0x8 1.--7. 1. "RESERVED_1," newline bitfld.quad 0x8 0. "TA," "0,1" rgroup.quad 0xB010++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_PIPELINE_STATS_IA_VERTICES,Number of vertices the Input Assembly stage generated (not subtracting any caching)" hexmask.quad 0x0 0.--63. 1. "COUNT," line.quad 0x8 "CORE_MMRS_RGX_CR_PIPELINE_STATS_IA_PRIMITIVES,Number of primitives the Input Assembly stage generated" hexmask.quad 0x8 0.--63. 1. "COUNT," line.quad 0x10 "CORE_MMRS_RGX_CR_PIPELINE_STATS_VS_INVOCATIONS,Number of times the Vertex Shader is executed" hexmask.quad 0x10 0.--63. 1. "COUNT," rgroup.quad 0xB038++0x2F line.quad 0x0 "CORE_MMRS_RGX_CR_PIPELINE_STATS_GS_INVOCATIONS,Number of times the Geometry Shader is executed" hexmask.quad 0x0 0.--63. 1. "COUNT," line.quad 0x8 "CORE_MMRS_RGX_CR_PIPELINE_STATS_GS_PRIMITIVES,Number of primitives the Geometry Shader generated" hexmask.quad 0x8 0.--63. 1. "COUNT," line.quad 0x10 "CORE_MMRS_RGX_CR_PIPELINE_STATS_C_INVOCATIONS,Number of times the Clipper is executed" hexmask.quad 0x10 0.--63. 1. "COUNT," line.quad 0x18 "CORE_MMRS_RGX_CR_PIPELINE_STATS_C_PRIMITIVES,Number of primitives the Clipper generated" hexmask.quad 0x18 0.--63. 1. "COUNT," line.quad 0x20 "CORE_MMRS_RGX_CR_PIPELINE_STATS_PS_INVOCATIONS,Number of times the Pixel Shader is executed" hexmask.quad 0x20 0.--63. 1. "COUNT," line.quad 0x28 "CORE_MMRS_RGX_CR_PIPELINE_STATS_CS_INVOCATIONS,Number of times the Compute Shader is executed" hexmask.quad 0x28 0.--63. 1. "COUNT," rgroup.quad 0xE000++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_CACHE_CFI_EVENT,Global Flush and Invalidation Pending bits for all Texture and Data Caches in the design." hexmask.quad.tbyte 0x0 41.--63. 1. "RESERVED_41," newline bitfld.quad 0x0 40. "SLC_PENDING,1 Indicates there is a pending global CFI operation on the SLC cache" "0,1" newline hexmask.quad.byte 0x0 32.--39. 1. "MCU_L1_PENDING,1 Indicates there is a pending global CFI operation on the specified MCU L1 cache [there can be up to 8 MCU L1 caches depending on the number of clusters]" newline hexmask.quad.word 0x0 16.--31. 1. "MCU_L0_PENDING,1 Indicates there is a pending global CFI operation on the specified MCU L0 cache [there can be up to 16 MCU L0 caches depending on the number of clusters]" newline hexmask.quad.word 0x0 0.--15. 1. "MADD_PENDING,1 Indicates there is a pending global CFI operation on the specified MADD Texture cache [there can be up to 16 MADD caches depending on the number of clusters]" group.quad 0xE138++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_MMU_CTRL_INVAL,MMU invalidation control registers" hexmask.quad 0x0 12.--63. 1. "RESERVED_12," newline bitfld.quad 0x0 11. "ALL_CONTEXTS,When ALL_CONTEXTS is set all context ids get invalidated [global invalidation]" "0,1" newline hexmask.quad.byte 0x0 3.--10. 1. "CONTEXT,When ALL_CONTEXTS is not set this field specifies the context id to be invalidated [per-context invalidation]" newline bitfld.quad 0x0 2. "PC,Invalidates PC PD & PT" "0,1" newline bitfld.quad 0x0 1. "PD,Invalidates PD & PT" "0,1" newline bitfld.quad 0x0 0. "PT,Invalidates PT" "0,1" rgroup.quad 0xF220++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_BIF_BLACKPEARL_RTN_FIFO_WORD_COUNT,Blackpearl BIF return FIFO word count" hexmask.quad 0x0 9.--63. 1. "RESERVED_9," newline hexmask.quad.word 0x0 0.--8. 1. "COUNTER," line.quad 0x8 "CORE_MMRS_RGX_CR_BIF_JONES_RTN_FIFO_WORD_COUNT,Jones BIF return FIFO word count" hexmask.quad 0x8 9.--63. 1. "RESERVED_9," newline hexmask.quad.word 0x8 0.--8. 1. "COUNTER," rgroup.quad 0xF300++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_MULTICORE_GPU," hexmask.quad 0x0 7.--63. 1. "RESERVED_7," newline bitfld.quad 0x0 6. "CAPABILITY_FRAGMENT,Whether or not this core has fragment capability. A value of 1 means it has the capability." "0,1" newline bitfld.quad 0x0 5. "CAPABILITY_GEOMETRY,Whether or not this core has geometry capability. A value of 1 means it has the capability." "0,1" newline bitfld.quad 0x0 4. "CAPABILITY_COMPUTE,Whether or not this core has compute capability. A value of 1 means it has the capability." "0,1" newline bitfld.quad 0x0 3. "CAPABILITY_PRIMARY,If this field is set to one then this core has job synchronisation capabilities [i. e. via its firmware scheduler] and can be used as a Primary core." "0,1" newline bitfld.quad 0x0 0.--2. "ID,The ID number of the GPU within the multicore system" "0,1,2,3,4,5,6,7" line.quad 0x8 "CORE_MMRS_RGX_CR_MULTICORE_SYSTEM,Multicore read-only count register." hexmask.quad 0x8 4.--63. 1. "RESERVED_4," newline hexmask.quad.byte 0x8 0.--3. 1. "GPU_COUNT,The number of physical cores in this Primary-Secondary group of a multicore system. A value of zero is meaningless. This register is set via a top level pin." group.quad 0xF310++0xF line.quad 0x0 "CORE_MMRS_RGX_CR_MULTICORE_FRAGMENT_CTRL_COMMON,Multicore common fragment phase control register. This register must be the same across all instances in this Primary-Secondary group." hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline bitfld.quad 0x0 30.--31. "WORKLOAD_TYPE,Sets the type of workload to be executed. 0 = Execute count is per tile-group [2x2 group of 16x16 tiles] for standard 3D renders and per two-tiles for Fast/Scale renders. 1 = Execute count is per row. Where a.." "0: Execute count is per tile-group [2x2 group of..,1: Execute count is per row,2: Reserved,3: Reserved" newline hexmask.quad.tbyte 0x0 8.--29. 1. "WORKLOAD_EXECUTE_COUNT,The number of workloads to process in a run where a workload is as identified by the RGX_CR_MULTICORE_FRAGMENT_CTRL_COMMON_WORKLOAD_TYPE register. This register must be the same across all instances in.." newline hexmask.quad.byte 0x0 0.--7. 1. "GPU_ENABLE,An active high signal one bit per GPU indicating if the fragment phase is active. Each GPU uses its RGX_CR_MULTICORE_FRAGMENT_CTRL_GPU_OFFSET register value to index into this register." line.quad 0x8 "CORE_MMRS_RGX_CR_MULTICORE_FRAGMENT_CTRL,Multicore non-common fragment phase control register. This register can be different per Primary/Secondary instance within a group." hexmask.quad 0x8 3.--63. 1. "RESERVED_3," newline bitfld.quad 0x8 0.--2. "GPU_OFFSET,The index of the GPU used in the calculation of the fragment Workload Distribution. This register shall be different per Primary/Secondary instance within a group. See the Workload.." "0,1,2,3,4,5,6,7" group.quad 0xF330++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_MULTICORE_COMPUTE_CTRL_COMMON,Multicore common compute phase control register. Should be same across all instances in this Primary-Secondary group." hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline bitfld.quad 0x0 30.--31. "WORKLOAD_TYPE,The type of workload per WORKLOAD_EXECUTE_COUNT. 0 = workgroup. 1 2 3 = reserved." "0: workgroup,?,?,3: reserved" newline hexmask.quad.tbyte 0x0 8.--29. 1. "WORKLOAD_EXECUTE_COUNT,The number of compute workloads to process in a run. This register must be the same across all instances in this Primary-Secondary group. Setting this register to zero means.." newline hexmask.quad.byte 0x0 0.--7. 1. "GPU_ENABLE,An active high signal one bit per GPU indicating if the compute phase is active. Each GPU uses its RGX_CR_MULTICORE_COMPUTE_CTRL_GPU_OFFSET register value to index into this register." line.quad 0x8 "CORE_MMRS_RGX_CR_MULTICORE_COMPUTE_CTRL,Multicore non-common compute phase control register. Can be different per Primary/Secondary instance within a group." hexmask.quad 0x8 3.--63. 1. "RESERVED_3," newline bitfld.quad 0x8 0.--2. "GPU_OFFSET,The index of the GPU used in the calculation of the compute Workload Distribution. This register shall be different per Primary/Secondary instance within a group. The offset must be.." "0,1,2,3,4,5,6,7" line.quad 0x10 "CORE_MMRS_RGX_CR_ECC_RAM_ERR_INJ,Core ECC RAM error injection control register." hexmask.quad 0x10 5.--63. 1. "RESERVED_5," newline bitfld.quad 0x10 4. "SLC_SIDEKICK,ECC_RAM error injection for ALL blocks within SLC_SIDEKICK" "0,1" newline bitfld.quad 0x10 3. "USC,ECC_RAM error injection for ALL blocks within USC" "0,1" newline bitfld.quad 0x10 2. "TPU_MCU_L0,ECC_RAM error injection for ALL blocks within TPU_MCU_L0" "0,1" newline bitfld.quad 0x10 1. "RASCAL,ECC_RAM error injection for ALL blocks within RASCAL" "0,1" newline rbitfld.quad 0x10 0. "RESERVED_0," "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_ECC_RAM_INIT_KICK,Core ECC RAM Initialisation control register." hexmask.quad 0x18 5.--63. 1. "RESERVED_5," newline bitfld.quad 0x18 4. "SLC_SIDEKICK,ECC_RAM Init kick for ALL blocks within SLC_SIDEKICK" "0,1" newline bitfld.quad 0x18 3. "USC,ECC_RAM Init kick for ALL blocks within USC" "0,1" newline bitfld.quad 0x18 2. "TPU_MCU_L0,ECC_RAM Init kick for ALL blocks within TPU_MCU_L0" "0,1" newline bitfld.quad 0x18 1. "RASCAL,ECC_RAM Init kick for ALL blocks within RASCAL" "0,1" newline rbitfld.quad 0x18 0. "RESERVED_0," "0,1" rgroup.quad 0xF350++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_ECC_RAM_INIT_DONE,Core ECC RAM initialisation status register." hexmask.quad 0x0 5.--63. 1. "RESERVED_5," newline bitfld.quad 0x0 4. "SLC_SIDEKICK,ECC_RAM Init kick for ALL blocks within SLC_SIDEKICK" "0,1" newline bitfld.quad 0x0 3. "USC,ECC_RAM Init kick for ALL blocks within USC" "0,1" newline bitfld.quad 0x0 2. "TPU_MCU_L0,ECC_RAM Init kick for ALL blocks within TPU_MCU_L0" "0,1" newline bitfld.quad 0x0 1. "RASCAL,ECC_RAM Init kick for ALL blocks within RASCAL" "0,1" newline bitfld.quad 0x0 0. "RESERVED_0," "0,1" group.quad 0xF390++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_SAFETY_EVENT_ENABLE,This register is used to enable Safety mechanism interrupts directly to the host" hexmask.quad 0x0 8.--63. 1. "RESERVED_8," newline bitfld.quad 0x0 7. "GPU_LOCKUP,Set if GPU has locked up" "0,1" newline bitfld.quad 0x0 6. "CPU_PAGE_FAULT,Set if a CPU page fault has been detected." "0,1" newline bitfld.quad 0x0 5. "SAFE_COMPUTE_FAIL,Set if workgroup protection checksum comparison has failed" "0,1" newline bitfld.quad 0x0 4. "WATCHDOG_TIMEOUT,Set if HW watchdog timer has timed out" "0,1" newline bitfld.quad 0x0 3. "TRP_FAIL,Set if TRP checksum check has failed" "0,1" newline bitfld.quad 0x0 2. "FAULT_FW,Set if a parity failure has been detected in FW processor" "0,1" newline bitfld.quad 0x0 1. "FAULT_GPU,Set if a parity failure has been detected in GPU" "0,1" newline bitfld.quad 0x0 0. "GPU_PAGE_FAULT,Set if a GPU page fault has been detected." "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_SAFETY_EVENT_STATUS,The event status register indicate the source of an interrupt generated by the current active safety mechanisms" hexmask.quad 0x8 8.--63. 1. "RESERVED_8," newline bitfld.quad 0x8 7. "GPU_LOCKUP,Set if GPU has locked up" "0,1" newline bitfld.quad 0x8 6. "CPU_PAGE_FAULT,Set if a CPU page fault has been detected." "0,1" newline bitfld.quad 0x8 5. "SAFE_COMPUTE_FAIL,Set if workgroup protection checksum comparison has failed" "0,1" newline bitfld.quad 0x8 4. "WATCHDOG_TIMEOUT,Set if HW watchdog timer has timed out" "0,1" newline bitfld.quad 0x8 3. "TRP_FAIL,Set if TRP checksum check has failed" "0,1" newline bitfld.quad 0x8 2. "FAULT_FW,Set if a parity failure has been detected in FW processor" "0,1" newline bitfld.quad 0x8 1. "FAULT_GPU,Set if a parity failure has been detected in GPU" "0,1" newline bitfld.quad 0x8 0. "GPU_PAGE_FAULT,Set if a GPU page fault has been detected." "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_SAFETY_EVENT_CLEAR,This register is used to clear safety event interrupts." hexmask.quad 0x10 8.--63. 1. "RESERVED_8," newline bitfld.quad 0x10 7. "GPU_LOCKUP,Set if GPU has locked up" "0,1" newline bitfld.quad 0x10 6. "CPU_PAGE_FAULT,Set if a CPU page fault has been detected." "0,1" newline bitfld.quad 0x10 5. "SAFE_COMPUTE_FAIL,Set if workgroup protection checksum comparison has failed" "0,1" newline bitfld.quad 0x10 4. "WATCHDOG_TIMEOUT,Set if HW watchdog timer has timed out" "0,1" newline bitfld.quad 0x10 3. "TRP_FAIL,Set if TRP checksum check has failed" "0,1" newline bitfld.quad 0x10 2. "FAULT_FW,Set if a parity failure has been detected in FW processor" "0,1" newline bitfld.quad 0x10 1. "FAULT_GPU,Set if a parity failure has been detected in GPU" "0,1" newline bitfld.quad 0x10 0. "GPU_PAGE_FAULT,Set if a GPU page fault has been detected." "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_TRP_FAIL,Writing '1' to this register indicates a failure in TRP checksum comparison" hexmask.quad 0x18 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x18 0. "PULSE," "0,1" rgroup.quad 0xF3B0++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_FAULT_FW_STATUS,Status register to indicate memory fault that has been detected in the FW processor" hexmask.quad 0x0 17.--63. 1. "RESERVED_17," newline bitfld.quad 0x0 16. "CPU_CORRECT,Set if a fault affecting the FW processor has been corrected" "0,1" newline hexmask.quad.word 0x0 1.--15. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "CPU_DETECT,Set if a fault affecting the FW processor has been detected" "0,1" group.quad 0xF3B8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_FAULT_FW_CLEAR,Individually clear FAULT_FW_STATUS fields" hexmask.quad 0x0 17.--63. 1. "RESERVED_17," newline bitfld.quad 0x0 16. "CPU_CORRECT,Set if a fault affecting the FW processor has been corrected" "0,1" newline hexmask.quad.word 0x0 1.--15. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "CPU_DETECT,Set if a fault affecting the FW processor has been detected" "0,1" rgroup.quad 0xF3C0++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_FAULT_GPU_STATUS,Status register to indicate the granularity of a memory fault that has been detected in the GPU" hexmask.quad 0x0 20.--63. 1. "RESERVED_20," newline bitfld.quad 0x0 19. "SLC_SIDEKICK_CORRECT,Set if a fault affecting any RAM in SLC_SIDEKICK layout block has been corrected." "0,1" newline bitfld.quad 0x0 18. "USC_CORRECT,Set if a fault affecting any RAM in USC layout block has been corrected." "0,1" newline bitfld.quad 0x0 17. "TPU_MCU_L0_CORRECT,Set if a fault affecting any RAM in TPU_MCU_L0 layout block has been corrected." "0,1" newline bitfld.quad 0x0 16. "RASCAL_CORRECT,Set if a fault affecting any RAM in RASCAL layout block has been corrected." "0,1" newline hexmask.quad.word 0x0 4.--15. 1. "RESERVED_4," newline bitfld.quad 0x0 3. "SLC_SIDEKICK_DETECT,Set if a fault affecting any RAM in SLC_SIDEKICK layout block has been detected." "0,1" newline bitfld.quad 0x0 2. "USC_DETECT,Set if a fault affecting any RAM in USC layout block has been detected." "0,1" newline bitfld.quad 0x0 1. "TPU_MCU_L0_DETECT,Set if a fault affecting any RAM in TPU_MCU_L0 layout block has been detected." "0,1" newline bitfld.quad 0x0 0. "RASCAL_DETECT,Set if a fault affecting any RAM in RASCAL layout block has been detected." "0,1" group.quad 0xF3C8++0x27 line.quad 0x0 "CORE_MMRS_RGX_CR_FAULT_GPU_CLEAR,Individually clear RAM_FAULT_GPU_STATUS fields" hexmask.quad 0x0 20.--63. 1. "RESERVED_20," newline bitfld.quad 0x0 19. "SLC_SIDEKICK_CORRECT,Set if a fault affecting any RAM in SLC_SIDEKICK layout block has been corrected." "0,1" newline bitfld.quad 0x0 18. "USC_CORRECT,Set if a fault affecting any RAM in USC layout block has been corrected." "0,1" newline bitfld.quad 0x0 17. "TPU_MCU_L0_CORRECT,Set if a fault affecting any RAM in TPU_MCU_L0 layout block has been corrected." "0,1" newline bitfld.quad 0x0 16. "RASCAL_CORRECT,Set if a fault affecting any RAM in RASCAL layout block has been corrected." "0,1" newline hexmask.quad.word 0x0 4.--15. 1. "RESERVED_4," newline bitfld.quad 0x0 3. "SLC_SIDEKICK_DETECT,Set if a fault affecting any RAM in SLC_SIDEKICK layout block has been detected." "0,1" newline bitfld.quad 0x0 2. "USC_DETECT,Set if a fault affecting any RAM in USC layout block has been detected." "0,1" newline bitfld.quad 0x0 1. "TPU_MCU_L0_DETECT,Set if a fault affecting any RAM in TPU_MCU_L0 layout block has been detected." "0,1" newline bitfld.quad 0x0 0. "RASCAL_DETECT,Set if a fault affecting any RAM in RASCAL layout block has been detected." "0,1" line.quad 0x8 "CORE_MMRS_RGX_CR_FILTER_FAULT_CORRECTION,This register affects the category of faults that are signaled on the FAULT_GPU and FAULT_FW fields of the SAFETY_EVENT_STATUS register." hexmask.quad 0x8 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x8 0. "ENABLE,0 - Only faults that were detected but not corrected are signaled . 1 - Faults that are detected or corrected are signaled." "0,1" line.quad 0x10 "CORE_MMRS_RGX_CR_MTS_SAFETY_EVENT_ENABLE,This register is used to enable safety mechanism interrupts directly to the MTS" hexmask.quad 0x10 8.--63. 1. "RESERVED_8," newline bitfld.quad 0x10 7. "GPU_LOCKUP,Set if GPU has locked up" "0,1" newline bitfld.quad 0x10 6. "CPU_PAGE_FAULT,Set if a CPU page fault has been detected." "0,1" newline bitfld.quad 0x10 5. "SAFE_COMPUTE_FAIL,Set if workgroup protection checksum comparison has failed" "0,1" newline bitfld.quad 0x10 4. "WATCHDOG_TIMEOUT,Set if HW watchdog timer has timed out" "0,1" newline bitfld.quad 0x10 3. "TRP_FAIL,Set if TRP checksum check has failed" "0,1" newline bitfld.quad 0x10 2. "FAULT_FW,Set if a parity failure has been detected in FW processor" "0,1" newline bitfld.quad 0x10 1. "FAULT_GPU,Set if a parity failure has been detected in GPU" "0,1" newline bitfld.quad 0x10 0. "GPU_PAGE_FAULT,Set if a GPU page fault has been detected." "0,1" line.quad 0x18 "CORE_MMRS_RGX_CR_SAFE_COMPUTE_FAIL,Writing '1' to this register indicates a failure in workgroup protection checksum comparison" hexmask.quad 0x18 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x18 0. "PULSE," "0,1" line.quad 0x20 "CORE_MMRS_RGX_CR_GPU_LOCKUP,Writing '1' to this register indicates failure of GPU to complete processing a workload" hexmask.quad 0x20 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x20 0. "PULSE," "0,1" rgroup.quad 0x10020++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_CORE_ID1,Reports the product ID" hexmask.quad.word 0x0 48.--63. 1. "BRANCH_ID,B - Branch ID" newline hexmask.quad.word 0x0 32.--47. 1. "VERSION_ID,V - Version ID" newline hexmask.quad.word 0x0 16.--31. 1. "NUMBER_OF_SCALABLE_UNITS,N - Number of scalable Units" newline hexmask.quad.word 0x0 0.--15. 1. "CONFIG_ID,C - Config ID" group.quad 0x10B00++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_SCHEDULE1,This register allows firmware tasks to be scheduled on the META (Garten) core." hexmask.quad 0x0 9.--63. 1. "RESERVED_9," newline bitfld.quad 0x0 8. "HOST,Host Interrupte kick" "0,1" newline bitfld.quad 0x0 6.--7. "PRIORITY,DataMaster Priority" "0,1,2,3" newline bitfld.quad 0x0 5. "CONTEXT," "0,1" newline bitfld.quad 0x0 4. "TASK," "0,1" newline hexmask.quad.byte 0x0 0.--3. 1. "DM,DataMaster Type" rgroup.quad 0x10B98++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_INTCTX1,This register contains the sideband data for the MTS internal interrupt context registers" hexmask.quad 0x0 30.--63. 1. "RESERVED_30," newline hexmask.quad.byte 0x0 22.--29. 1. "DM_HOST_SCHEDULE,A 1 bit counter per DM for host requests" newline hexmask.quad.byte 0x0 16.--21. 1. "RESERVED_16," newline hexmask.quad.byte 0x0 8.--15. 1. "DM_TIMER_SCHEDULE,A 1 bit counter per DM for timer requests" newline hexmask.quad.byte 0x0 0.--7. 1. "DM_INTERRUPT_SCHEDULE,A 1 bit counter per DM for interrupt requests" line.quad 0x8 "CORE_MMRS_RGX_CR_MTS_BGCTX1,This register contains the sideband data for the MTS internal background context registers" hexmask.quad 0x8 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x8 0.--7. 1. "DM_NONCOUNTED_SCHEDULE,A 1 bit counter per DM for non-counted background request" line.quad 0x10 "CORE_MMRS_RGX_CR_MTS_BGCTX_COUNTED_SCHEDULE1,This register contains the sideband data for the MTS internal counted background context counters" hexmask.quad.word 0x10 48.--63. 1. "RESERVED_48," newline hexmask.quad.byte 0x10 40.--47. 1. "DM5,A 8 bit counter for DM5" newline hexmask.quad.byte 0x10 32.--39. 1. "DM4,A 8 bit counter for DM4" newline hexmask.quad.byte 0x10 24.--31. 1. "DM3,A 8 bit counter for DM3" newline hexmask.quad.byte 0x10 16.--23. 1. "DM2,A 8 bit counter for DM2" newline hexmask.quad.byte 0x10 8.--15. 1. "DM1,A 8 bit counter for DM1" newline hexmask.quad.byte 0x10 0.--7. 1. "DM0,A 8 bit counter for DM0" rgroup.quad 0x10BD8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_IRQ_OS1_EVENT_STATUS,This register indicates the source of a per-OS host interrupt." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "SOURCE," "0,1" group.quad 0x10BE8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_IRQ_OS1_EVENT_CLEAR,This register clears a per-OS host interrupt." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "SOURCE," "0,1" group.quad 0x11A80++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_OS1_SCRATCH0," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "DATA," line.quad 0x8 "CORE_MMRS_RGX_CR_OS1_SCRATCH1," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "DATA," line.quad 0x10 "CORE_MMRS_RGX_CR_OS1_SCRATCH2," hexmask.quad 0x10 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x10 0.--7. 1. "DATA," line.quad 0x18 "CORE_MMRS_RGX_CR_OS1_SCRATCH3," hexmask.quad 0x18 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x18 0.--7. 1. "DATA," rgroup.quad 0x20020++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_CORE_ID2,Reports the product ID" hexmask.quad.word 0x0 48.--63. 1. "BRANCH_ID,B - Branch ID" newline hexmask.quad.word 0x0 32.--47. 1. "VERSION_ID,V - Version ID" newline hexmask.quad.word 0x0 16.--31. 1. "NUMBER_OF_SCALABLE_UNITS,N - Number of scalable Units" newline hexmask.quad.word 0x0 0.--15. 1. "CONFIG_ID,C - Config ID" group.quad 0x20B00++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_SCHEDULE2,This register allows firmware tasks to be scheduled on the META (Garten) core." hexmask.quad 0x0 9.--63. 1. "RESERVED_9," newline bitfld.quad 0x0 8. "HOST,Host Interrupte kick" "0,1" newline bitfld.quad 0x0 6.--7. "PRIORITY,DataMaster Priority" "0,1,2,3" newline bitfld.quad 0x0 5. "CONTEXT," "0,1" newline bitfld.quad 0x0 4. "TASK," "0,1" newline hexmask.quad.byte 0x0 0.--3. 1. "DM,DataMaster Type" rgroup.quad 0x20B98++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_INTCTX2,This register contains the sideband data for the MTS internal interrupt context registers" hexmask.quad 0x0 30.--63. 1. "RESERVED_30," newline hexmask.quad.byte 0x0 22.--29. 1. "DM_HOST_SCHEDULE,A 1 bit counter per DM for host requests" newline hexmask.quad.byte 0x0 16.--21. 1. "RESERVED_16," newline hexmask.quad.byte 0x0 8.--15. 1. "DM_TIMER_SCHEDULE,A 1 bit counter per DM for timer requests" newline hexmask.quad.byte 0x0 0.--7. 1. "DM_INTERRUPT_SCHEDULE,A 1 bit counter per DM for interrupt requests" line.quad 0x8 "CORE_MMRS_RGX_CR_MTS_BGCTX2,This register contains the sideband data for the MTS internal background context registers" hexmask.quad 0x8 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x8 0.--7. 1. "DM_NONCOUNTED_SCHEDULE,A 1 bit counter per DM for non-counted background request" line.quad 0x10 "CORE_MMRS_RGX_CR_MTS_BGCTX_COUNTED_SCHEDULE2,This register contains the sideband data for the MTS internal counted background context counters" hexmask.quad.word 0x10 48.--63. 1. "RESERVED_48," newline hexmask.quad.byte 0x10 40.--47. 1. "DM5,A 8 bit counter for DM5" newline hexmask.quad.byte 0x10 32.--39. 1. "DM4,A 8 bit counter for DM4" newline hexmask.quad.byte 0x10 24.--31. 1. "DM3,A 8 bit counter for DM3" newline hexmask.quad.byte 0x10 16.--23. 1. "DM2,A 8 bit counter for DM2" newline hexmask.quad.byte 0x10 8.--15. 1. "DM1,A 8 bit counter for DM1" newline hexmask.quad.byte 0x10 0.--7. 1. "DM0,A 8 bit counter for DM0" rgroup.quad 0x20BD8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_IRQ_OS2_EVENT_STATUS,This register indicates the source of a per-OS host interrupt." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "SOURCE," "0,1" group.quad 0x20BE8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_IRQ_OS2_EVENT_CLEAR,This register clears a per-OS host interrupt." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "SOURCE," "0,1" group.quad 0x21A80++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_OS2_SCRATCH0," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "DATA," line.quad 0x8 "CORE_MMRS_RGX_CR_OS2_SCRATCH1," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "DATA," line.quad 0x10 "CORE_MMRS_RGX_CR_OS2_SCRATCH2," hexmask.quad 0x10 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x10 0.--7. 1. "DATA," line.quad 0x18 "CORE_MMRS_RGX_CR_OS2_SCRATCH3," hexmask.quad 0x18 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x18 0.--7. 1. "DATA," rgroup.quad 0x30020++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_CORE_ID3,Reports the product ID" hexmask.quad.word 0x0 48.--63. 1. "BRANCH_ID,B - Branch ID" newline hexmask.quad.word 0x0 32.--47. 1. "VERSION_ID,V - Version ID" newline hexmask.quad.word 0x0 16.--31. 1. "NUMBER_OF_SCALABLE_UNITS,N - Number of scalable Units" newline hexmask.quad.word 0x0 0.--15. 1. "CONFIG_ID,C - Config ID" group.quad 0x30B00++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_SCHEDULE3,This register allows firmware tasks to be scheduled on the META (Garten) core." hexmask.quad 0x0 9.--63. 1. "RESERVED_9," newline bitfld.quad 0x0 8. "HOST,Host Interrupte kick" "0,1" newline bitfld.quad 0x0 6.--7. "PRIORITY,DataMaster Priority" "0,1,2,3" newline bitfld.quad 0x0 5. "CONTEXT," "0,1" newline bitfld.quad 0x0 4. "TASK," "0,1" newline hexmask.quad.byte 0x0 0.--3. 1. "DM,DataMaster Type" rgroup.quad 0x30B98++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_INTCTX3,This register contains the sideband data for the MTS internal interrupt context registers" hexmask.quad 0x0 30.--63. 1. "RESERVED_30," newline hexmask.quad.byte 0x0 22.--29. 1. "DM_HOST_SCHEDULE,A 1 bit counter per DM for host requests" newline hexmask.quad.byte 0x0 16.--21. 1. "RESERVED_16," newline hexmask.quad.byte 0x0 8.--15. 1. "DM_TIMER_SCHEDULE,A 1 bit counter per DM for timer requests" newline hexmask.quad.byte 0x0 0.--7. 1. "DM_INTERRUPT_SCHEDULE,A 1 bit counter per DM for interrupt requests" line.quad 0x8 "CORE_MMRS_RGX_CR_MTS_BGCTX3,This register contains the sideband data for the MTS internal background context registers" hexmask.quad 0x8 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x8 0.--7. 1. "DM_NONCOUNTED_SCHEDULE,A 1 bit counter per DM for non-counted background request" line.quad 0x10 "CORE_MMRS_RGX_CR_MTS_BGCTX_COUNTED_SCHEDULE3,This register contains the sideband data for the MTS internal counted background context counters" hexmask.quad.word 0x10 48.--63. 1. "RESERVED_48," newline hexmask.quad.byte 0x10 40.--47. 1. "DM5,A 8 bit counter for DM5" newline hexmask.quad.byte 0x10 32.--39. 1. "DM4,A 8 bit counter for DM4" newline hexmask.quad.byte 0x10 24.--31. 1. "DM3,A 8 bit counter for DM3" newline hexmask.quad.byte 0x10 16.--23. 1. "DM2,A 8 bit counter for DM2" newline hexmask.quad.byte 0x10 8.--15. 1. "DM1,A 8 bit counter for DM1" newline hexmask.quad.byte 0x10 0.--7. 1. "DM0,A 8 bit counter for DM0" rgroup.quad 0x30BD8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_IRQ_OS3_EVENT_STATUS,This register indicates the source of a per-OS host interrupt." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "SOURCE," "0,1" group.quad 0x30BE8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_IRQ_OS3_EVENT_CLEAR,This register clears a per-OS host interrupt." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "SOURCE," "0,1" group.quad 0x31A80++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_OS3_SCRATCH0," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "DATA," line.quad 0x8 "CORE_MMRS_RGX_CR_OS3_SCRATCH1," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "DATA," line.quad 0x10 "CORE_MMRS_RGX_CR_OS3_SCRATCH2," hexmask.quad 0x10 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x10 0.--7. 1. "DATA," line.quad 0x18 "CORE_MMRS_RGX_CR_OS3_SCRATCH3," hexmask.quad 0x18 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x18 0.--7. 1. "DATA," rgroup.quad 0x40020++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_CORE_ID4,Reports the product ID" hexmask.quad.word 0x0 48.--63. 1. "BRANCH_ID,B - Branch ID" newline hexmask.quad.word 0x0 32.--47. 1. "VERSION_ID,V - Version ID" newline hexmask.quad.word 0x0 16.--31. 1. "NUMBER_OF_SCALABLE_UNITS,N - Number of scalable Units" newline hexmask.quad.word 0x0 0.--15. 1. "CONFIG_ID,C - Config ID" group.quad 0x40B00++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_SCHEDULE4,This register allows firmware tasks to be scheduled on the META (Garten) core." hexmask.quad 0x0 9.--63. 1. "RESERVED_9," newline bitfld.quad 0x0 8. "HOST,Host Interrupte kick" "0,1" newline bitfld.quad 0x0 6.--7. "PRIORITY,DataMaster Priority" "0,1,2,3" newline bitfld.quad 0x0 5. "CONTEXT," "0,1" newline bitfld.quad 0x0 4. "TASK," "0,1" newline hexmask.quad.byte 0x0 0.--3. 1. "DM,DataMaster Type" rgroup.quad 0x40B98++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_INTCTX4,This register contains the sideband data for the MTS internal interrupt context registers" hexmask.quad 0x0 30.--63. 1. "RESERVED_30," newline hexmask.quad.byte 0x0 22.--29. 1. "DM_HOST_SCHEDULE,A 1 bit counter per DM for host requests" newline hexmask.quad.byte 0x0 16.--21. 1. "RESERVED_16," newline hexmask.quad.byte 0x0 8.--15. 1. "DM_TIMER_SCHEDULE,A 1 bit counter per DM for timer requests" newline hexmask.quad.byte 0x0 0.--7. 1. "DM_INTERRUPT_SCHEDULE,A 1 bit counter per DM for interrupt requests" line.quad 0x8 "CORE_MMRS_RGX_CR_MTS_BGCTX4,This register contains the sideband data for the MTS internal background context registers" hexmask.quad 0x8 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x8 0.--7. 1. "DM_NONCOUNTED_SCHEDULE,A 1 bit counter per DM for non-counted background request" line.quad 0x10 "CORE_MMRS_RGX_CR_MTS_BGCTX_COUNTED_SCHEDULE4,This register contains the sideband data for the MTS internal counted background context counters" hexmask.quad.word 0x10 48.--63. 1. "RESERVED_48," newline hexmask.quad.byte 0x10 40.--47. 1. "DM5,A 8 bit counter for DM5" newline hexmask.quad.byte 0x10 32.--39. 1. "DM4,A 8 bit counter for DM4" newline hexmask.quad.byte 0x10 24.--31. 1. "DM3,A 8 bit counter for DM3" newline hexmask.quad.byte 0x10 16.--23. 1. "DM2,A 8 bit counter for DM2" newline hexmask.quad.byte 0x10 8.--15. 1. "DM1,A 8 bit counter for DM1" newline hexmask.quad.byte 0x10 0.--7. 1. "DM0,A 8 bit counter for DM0" rgroup.quad 0x40BD8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_IRQ_OS4_EVENT_STATUS,This register indicates the source of a per-OS host interrupt." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "SOURCE," "0,1" group.quad 0x40BE8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_IRQ_OS4_EVENT_CLEAR,This register clears a per-OS host interrupt." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "SOURCE," "0,1" group.quad 0x41A80++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_OS4_SCRATCH0," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "DATA," line.quad 0x8 "CORE_MMRS_RGX_CR_OS4_SCRATCH1," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "DATA," line.quad 0x10 "CORE_MMRS_RGX_CR_OS4_SCRATCH2," hexmask.quad 0x10 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x10 0.--7. 1. "DATA," line.quad 0x18 "CORE_MMRS_RGX_CR_OS4_SCRATCH3," hexmask.quad 0x18 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x18 0.--7. 1. "DATA," rgroup.quad 0x50020++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_CORE_ID5,Reports the product ID" hexmask.quad.word 0x0 48.--63. 1. "BRANCH_ID,B - Branch ID" newline hexmask.quad.word 0x0 32.--47. 1. "VERSION_ID,V - Version ID" newline hexmask.quad.word 0x0 16.--31. 1. "NUMBER_OF_SCALABLE_UNITS,N - Number of scalable Units" newline hexmask.quad.word 0x0 0.--15. 1. "CONFIG_ID,C - Config ID" group.quad 0x50B00++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_SCHEDULE5,This register allows firmware tasks to be scheduled on the META (Garten) core." hexmask.quad 0x0 9.--63. 1. "RESERVED_9," newline bitfld.quad 0x0 8. "HOST,Host Interrupte kick" "0,1" newline bitfld.quad 0x0 6.--7. "PRIORITY,DataMaster Priority" "0,1,2,3" newline bitfld.quad 0x0 5. "CONTEXT," "0,1" newline bitfld.quad 0x0 4. "TASK," "0,1" newline hexmask.quad.byte 0x0 0.--3. 1. "DM,DataMaster Type" rgroup.quad 0x50B98++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_INTCTX5,This register contains the sideband data for the MTS internal interrupt context registers" hexmask.quad 0x0 30.--63. 1. "RESERVED_30," newline hexmask.quad.byte 0x0 22.--29. 1. "DM_HOST_SCHEDULE,A 1 bit counter per DM for host requests" newline hexmask.quad.byte 0x0 16.--21. 1. "RESERVED_16," newline hexmask.quad.byte 0x0 8.--15. 1. "DM_TIMER_SCHEDULE,A 1 bit counter per DM for timer requests" newline hexmask.quad.byte 0x0 0.--7. 1. "DM_INTERRUPT_SCHEDULE,A 1 bit counter per DM for interrupt requests" line.quad 0x8 "CORE_MMRS_RGX_CR_MTS_BGCTX5,This register contains the sideband data for the MTS internal background context registers" hexmask.quad 0x8 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x8 0.--7. 1. "DM_NONCOUNTED_SCHEDULE,A 1 bit counter per DM for non-counted background request" line.quad 0x10 "CORE_MMRS_RGX_CR_MTS_BGCTX_COUNTED_SCHEDULE5,This register contains the sideband data for the MTS internal counted background context counters" hexmask.quad.word 0x10 48.--63. 1. "RESERVED_48," newline hexmask.quad.byte 0x10 40.--47. 1. "DM5,A 8 bit counter for DM5" newline hexmask.quad.byte 0x10 32.--39. 1. "DM4,A 8 bit counter for DM4" newline hexmask.quad.byte 0x10 24.--31. 1. "DM3,A 8 bit counter for DM3" newline hexmask.quad.byte 0x10 16.--23. 1. "DM2,A 8 bit counter for DM2" newline hexmask.quad.byte 0x10 8.--15. 1. "DM1,A 8 bit counter for DM1" newline hexmask.quad.byte 0x10 0.--7. 1. "DM0,A 8 bit counter for DM0" rgroup.quad 0x50BD8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_IRQ_OS5_EVENT_STATUS,This register indicates the source of a per-OS host interrupt." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "SOURCE," "0,1" group.quad 0x50BE8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_IRQ_OS5_EVENT_CLEAR,This register clears a per-OS host interrupt." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "SOURCE," "0,1" group.quad 0x51A80++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_OS5_SCRATCH0," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "DATA," line.quad 0x8 "CORE_MMRS_RGX_CR_OS5_SCRATCH1," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "DATA," line.quad 0x10 "CORE_MMRS_RGX_CR_OS5_SCRATCH2," hexmask.quad 0x10 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x10 0.--7. 1. "DATA," line.quad 0x18 "CORE_MMRS_RGX_CR_OS5_SCRATCH3," hexmask.quad 0x18 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x18 0.--7. 1. "DATA," rgroup.quad 0x60020++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_CORE_ID6,Reports the product ID" hexmask.quad.word 0x0 48.--63. 1. "BRANCH_ID,B - Branch ID" newline hexmask.quad.word 0x0 32.--47. 1. "VERSION_ID,V - Version ID" newline hexmask.quad.word 0x0 16.--31. 1. "NUMBER_OF_SCALABLE_UNITS,N - Number of scalable Units" newline hexmask.quad.word 0x0 0.--15. 1. "CONFIG_ID,C - Config ID" group.quad 0x60B00++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_SCHEDULE6,This register allows firmware tasks to be scheduled on the META (Garten) core." hexmask.quad 0x0 9.--63. 1. "RESERVED_9," newline bitfld.quad 0x0 8. "HOST,Host Interrupte kick" "0,1" newline bitfld.quad 0x0 6.--7. "PRIORITY,DataMaster Priority" "0,1,2,3" newline bitfld.quad 0x0 5. "CONTEXT," "0,1" newline bitfld.quad 0x0 4. "TASK," "0,1" newline hexmask.quad.byte 0x0 0.--3. 1. "DM,DataMaster Type" rgroup.quad 0x60B98++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_INTCTX6,This register contains the sideband data for the MTS internal interrupt context registers" hexmask.quad 0x0 30.--63. 1. "RESERVED_30," newline hexmask.quad.byte 0x0 22.--29. 1. "DM_HOST_SCHEDULE,A 1 bit counter per DM for host requests" newline hexmask.quad.byte 0x0 16.--21. 1. "RESERVED_16," newline hexmask.quad.byte 0x0 8.--15. 1. "DM_TIMER_SCHEDULE,A 1 bit counter per DM for timer requests" newline hexmask.quad.byte 0x0 0.--7. 1. "DM_INTERRUPT_SCHEDULE,A 1 bit counter per DM for interrupt requests" line.quad 0x8 "CORE_MMRS_RGX_CR_MTS_BGCTX6,This register contains the sideband data for the MTS internal background context registers" hexmask.quad 0x8 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x8 0.--7. 1. "DM_NONCOUNTED_SCHEDULE,A 1 bit counter per DM for non-counted background request" line.quad 0x10 "CORE_MMRS_RGX_CR_MTS_BGCTX_COUNTED_SCHEDULE6,This register contains the sideband data for the MTS internal counted background context counters" hexmask.quad.word 0x10 48.--63. 1. "RESERVED_48," newline hexmask.quad.byte 0x10 40.--47. 1. "DM5,A 8 bit counter for DM5" newline hexmask.quad.byte 0x10 32.--39. 1. "DM4,A 8 bit counter for DM4" newline hexmask.quad.byte 0x10 24.--31. 1. "DM3,A 8 bit counter for DM3" newline hexmask.quad.byte 0x10 16.--23. 1. "DM2,A 8 bit counter for DM2" newline hexmask.quad.byte 0x10 8.--15. 1. "DM1,A 8 bit counter for DM1" newline hexmask.quad.byte 0x10 0.--7. 1. "DM0,A 8 bit counter for DM0" rgroup.quad 0x60BD8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_IRQ_OS6_EVENT_STATUS,This register indicates the source of a per-OS host interrupt." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "SOURCE," "0,1" group.quad 0x60BE8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_IRQ_OS6_EVENT_CLEAR,This register clears a per-OS host interrupt." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "SOURCE," "0,1" group.quad 0x61A80++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_OS6_SCRATCH0," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "DATA," line.quad 0x8 "CORE_MMRS_RGX_CR_OS6_SCRATCH1," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "DATA," line.quad 0x10 "CORE_MMRS_RGX_CR_OS6_SCRATCH2," hexmask.quad 0x10 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x10 0.--7. 1. "DATA," line.quad 0x18 "CORE_MMRS_RGX_CR_OS6_SCRATCH3," hexmask.quad 0x18 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x18 0.--7. 1. "DATA," rgroup.quad 0x70020++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_CORE_ID7,Reports the product ID" hexmask.quad.word 0x0 48.--63. 1. "BRANCH_ID,B - Branch ID" newline hexmask.quad.word 0x0 32.--47. 1. "VERSION_ID,V - Version ID" newline hexmask.quad.word 0x0 16.--31. 1. "NUMBER_OF_SCALABLE_UNITS,N - Number of scalable Units" newline hexmask.quad.word 0x0 0.--15. 1. "CONFIG_ID,C - Config ID" group.quad 0x70B00++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_SCHEDULE7,This register allows firmware tasks to be scheduled on the META (Garten) core." hexmask.quad 0x0 9.--63. 1. "RESERVED_9," newline bitfld.quad 0x0 8. "HOST,Host Interrupte kick" "0,1" newline bitfld.quad 0x0 6.--7. "PRIORITY,DataMaster Priority" "0,1,2,3" newline bitfld.quad 0x0 5. "CONTEXT," "0,1" newline bitfld.quad 0x0 4. "TASK," "0,1" newline hexmask.quad.byte 0x0 0.--3. 1. "DM,DataMaster Type" rgroup.quad 0x70B98++0x17 line.quad 0x0 "CORE_MMRS_RGX_CR_MTS_INTCTX7,This register contains the sideband data for the MTS internal interrupt context registers" hexmask.quad 0x0 30.--63. 1. "RESERVED_30," newline hexmask.quad.byte 0x0 22.--29. 1. "DM_HOST_SCHEDULE,A 1 bit counter per DM for host requests" newline hexmask.quad.byte 0x0 16.--21. 1. "RESERVED_16," newline hexmask.quad.byte 0x0 8.--15. 1. "DM_TIMER_SCHEDULE,A 1 bit counter per DM for timer requests" newline hexmask.quad.byte 0x0 0.--7. 1. "DM_INTERRUPT_SCHEDULE,A 1 bit counter per DM for interrupt requests" line.quad 0x8 "CORE_MMRS_RGX_CR_MTS_BGCTX7,This register contains the sideband data for the MTS internal background context registers" hexmask.quad 0x8 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x8 0.--7. 1. "DM_NONCOUNTED_SCHEDULE,A 1 bit counter per DM for non-counted background request" line.quad 0x10 "CORE_MMRS_RGX_CR_MTS_BGCTX_COUNTED_SCHEDULE7,This register contains the sideband data for the MTS internal counted background context counters" hexmask.quad.word 0x10 48.--63. 1. "RESERVED_48," newline hexmask.quad.byte 0x10 40.--47. 1. "DM5,A 8 bit counter for DM5" newline hexmask.quad.byte 0x10 32.--39. 1. "DM4,A 8 bit counter for DM4" newline hexmask.quad.byte 0x10 24.--31. 1. "DM3,A 8 bit counter for DM3" newline hexmask.quad.byte 0x10 16.--23. 1. "DM2,A 8 bit counter for DM2" newline hexmask.quad.byte 0x10 8.--15. 1. "DM1,A 8 bit counter for DM1" newline hexmask.quad.byte 0x10 0.--7. 1. "DM0,A 8 bit counter for DM0" rgroup.quad 0x70BD8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_IRQ_OS7_EVENT_STATUS,This register indicates the source of a per-OS host interrupt." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "SOURCE," "0,1" group.quad 0x70BE8++0x7 line.quad 0x0 "CORE_MMRS_RGX_CR_IRQ_OS7_EVENT_CLEAR,This register clears a per-OS host interrupt." hexmask.quad 0x0 1.--63. 1. "RESERVED_1," newline bitfld.quad 0x0 0. "SOURCE," "0,1" group.quad 0x71A80++0x1F line.quad 0x0 "CORE_MMRS_RGX_CR_OS7_SCRATCH0," hexmask.quad.long 0x0 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x0 0.--31. 1. "DATA," line.quad 0x8 "CORE_MMRS_RGX_CR_OS7_SCRATCH1," hexmask.quad.long 0x8 32.--63. 1. "RESERVED_32," newline hexmask.quad.long 0x8 0.--31. 1. "DATA," line.quad 0x10 "CORE_MMRS_RGX_CR_OS7_SCRATCH2," hexmask.quad 0x10 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x10 0.--7. 1. "DATA," line.quad 0x18 "CORE_MMRS_RGX_CR_OS7_SCRATCH3," hexmask.quad 0x18 8.--63. 1. "RESERVED_8," newline hexmask.quad.byte 0x18 0.--7. 1. "DATA," tree.end tree "I2C" base ad:0x0 tree "I2C0_CFG (I2C0_CFG)" base ad:0x20000000 rgroup.long 0x0++0x7 line.long 0x0 "CFG_I2C_REVNB_LO,Revision Number register (Low)" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL version This field changes on bug fix and resets to" bitfld.long 0x0 8.--10. "MAJOR,Major Revision This field changes when there is a major feature change This field does not change due to bug fix or minor feature change" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version for a particular device Consequence of use may avoid use of standard Chip Support Library [CSL] / Drivers 0 if non-custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor Revision This field changes when features are scaled up or down This field does not change due to bug fix or major feature change" line.long 0x4 "CFG_I2C_REVNB_HI,Revision Number register (High)" bitfld.long 0x4 14.--15. "SCHEME,Used to distinguish between old Scheme and current Spare bit to encode future schemes" "0,1,2,3" bitfld.long 0x4 12.--13. "RESERVED,Reads return 0x1" "0,1,2,3" hexmask.long.word 0x4 0.--11. 1. "FUNC,Function: Indicates a software compatible module family" group.long 0x10++0x3 line.long 0x0 "CFG_I2C_SYSC,System Configuration register" bitfld.long 0x0 8.--9. "CLKACTIVITY,Clock Activity selection bits" "0,1,2,3" bitfld.long 0x0 5.--7. "RESERVED,Reads return 0" "0,1,2,3,4,5,6,7" bitfld.long 0x0 3.--4. "IDLEMODE,Idle Mode selection bits" "0,1,2,3" bitfld.long 0x0 2. "ENAWAKEUP,Enable Wakeup control bit" "0,1" newline bitfld.long 0x0 1. "SRST,SoftReset bit" "0,1" bitfld.long 0x0 0. "AUTOIDLE,Autoidle bit" "0,1" wgroup.long 0x20++0x3 line.long 0x0 "CFG_I2C_EOI,End Of Interrupt number specification" bitfld.long 0x0 0. "LINE_NUMBER,Software End Of Interrupt [EOI] control Write number of interrupt output" "0,1" group.long 0x24++0x2B line.long 0x0 "CFG_I2C_IRQSTATUS_RAW,Per-event raw interrupt status vector" bitfld.long 0x0 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x0 14. "XDR,Transmit draining IRQ status" "0,1" bitfld.long 0x0 13. "RDR,Receive draining IRQ status" "0,1" rbitfld.long 0x0 12. "BB,Bus busy statusWriting into this bit has no effect" "0,1" newline bitfld.long 0x0 11. "ROVR,Receive overrun statusWriting into this bit has no effect" "0,1" bitfld.long 0x0 10. "XUDF,Transmit underflow statusWriting into this bit has no effect" "0,1" bitfld.long 0x0 9. "AAS,Address recognized as target IRQ status" "0,1" bitfld.long 0x0 8. "BF,Bus Free IRQ status" "0,1" newline bitfld.long 0x0 7. "AERR,Access Error IRQ status" "0,1" bitfld.long 0x0 6. "STC,Start Condition IRQ status" "0,1" bitfld.long 0x0 5. "GC,General call IRQ status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x0 4. "XRDY,Transmit data ready IRQ status Set to '1' by core when transmitter and when new data is requested When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" newline bitfld.long 0x0 3. "RRDY,Receive data ready IRQ status Set to '1' by core when receiver mode a new data is able to be read When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x0 2. "ARDY,Register access ready IRQ status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x0 1. "NACK,No acknowledgement IRQ status Bit is set when No Acknowledge has been received an interrupt is signaled to MPUSS Write '1' to clear this bit" "0,1" bitfld.long 0x0 0. "AL,Arbitration lost IRQ status This bit is automatically set by the hardware when it loses the Arbitration in controller transmit mode an interrupt is signaled to MPUSS During reads it always returns 0" "0,1" line.long 0x4 "CFG_I2C_IRQSTATUS,Per-event enabled interrupt status vector" bitfld.long 0x4 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x4 14. "XDR,Transmit draining IRQ enabled status" "0,1" bitfld.long 0x4 13. "RDR,Receive draining IRQ enabled status" "0,1" rbitfld.long 0x4 12. "BB,Bus busy enabled statusWriting into this bit has no effect" "0,1" newline bitfld.long 0x4 11. "ROVR,Receive overrun enabled statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 10. "XUDF,Transmit underflow enabled statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 9. "AAS,Address recognized as target IRQ enabled status" "0,1" bitfld.long 0x4 8. "BF,Bus Free IRQ enabled status" "0,1" newline bitfld.long 0x4 7. "AERR,Access Error IRQ enabled status" "0,1" bitfld.long 0x4 6. "STC,Start Condition IRQ enabled status" "0,1" bitfld.long 0x4 5. "GC,General call IRQ enabled status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 4. "XRDY,Transmit data ready IRQ enabled status Set to '1' by core when transmitter and when new data is requested When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" newline bitfld.long 0x4 3. "RRDY,Receive data ready IRQ enabled status Set to '1' by core when receiver mode a new data is able to be read When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 2. "ARDY,Register access ready IRQ enabled status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 1. "NACK,No acknowledgement IRQ enabled status Bit is set when No Acknowledge has been received an interrupt is signaled to MPUSS Write '1' to clear this bit" "0,1" bitfld.long 0x4 0. "AL,Arbitration lost IRQ enabled status This bit is automatically set by the hardware when it loses the Arbitration in controller transmit mode an interrupt is signaled to MPUSS During reads it always returns 0" "0,1" line.long 0x8 "CFG_I2C_IRQENABLE_SET,Per-event interrupt enable bit vector." bitfld.long 0x8 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x8 14. "XDR_IE,Transmit Draining interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]" "0,1" bitfld.long 0x8 13. "RDR_IE,Receive Draining interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]" "0,1" bitfld.long 0x8 11. "ROVR,Receive overrun enable set" "0,1" newline bitfld.long 0x8 10. "XUDF,Transmit underflow enable set" "0,1" bitfld.long 0x8 9. "ASS_IE,Addressed as Target interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]" "0,1" bitfld.long 0x8 8. "BF_IE,Bus Free interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]" "0,1" bitfld.long 0x8 7. "AERR_IE,Access Error interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]" "0,1" newline bitfld.long 0x8 6. "STC_IE,Start Condition interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]" "0,1" bitfld.long 0x8 5. "GC_IE,General call Interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]" "0,1" bitfld.long 0x8 4. "XRDY_IE,Transmit data ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]" "0,1" bitfld.long 0x8 3. "RRDY_IE,Receive data ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]" "0,1" newline bitfld.long 0x8 2. "ARDY_IE,Register access ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]" "0,1" bitfld.long 0x8 1. "NACK_IE,No acknowledgement interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]" "0,1" bitfld.long 0x8 0. "AL_IE,Arbitration lost interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]" "0,1" line.long 0xC "CFG_I2C_IRQENABLE_CLR,Per-event interrupt clear bit vector." bitfld.long 0xC 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0xC 14. "XDR_IE,Transmit Draining interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]" "0,1" bitfld.long 0xC 13. "RDR_IE,Receive Draining interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]" "0,1" bitfld.long 0xC 11. "ROVR,Receive overrun enable clear" "0,1" newline bitfld.long 0xC 10. "XUDF,Transmit underflow enable clear" "0,1" bitfld.long 0xC 9. "ASS_IE,Addressed as Target interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]" "0,1" bitfld.long 0xC 8. "BF_IE,Bus Free interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]" "0,1" bitfld.long 0xC 7. "AERR_IE,Access Error interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]" "0,1" newline bitfld.long 0xC 6. "STC_IE,Start Condition interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]" "0,1" bitfld.long 0xC 5. "GC_IE,General call Interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]" "0,1" bitfld.long 0xC 4. "XRDY_IE,Transmit data ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]" "0,1" bitfld.long 0xC 3. "RRDY_IE,Receive data ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]" "0,1" newline bitfld.long 0xC 2. "ARDY_IE,Register access ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]" "0,1" bitfld.long 0xC 1. "NACK_IE,No acknowledgement interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]" "0,1" bitfld.long 0xC 0. "AL_IE,Arbitration lost interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]" "0,1" line.long 0x10 "CFG_I2C_WE,I2C wakeup enable vector (legacy)." bitfld.long 0x10 14. "XDR,Transmit Draining wakeup set" "0,1" bitfld.long 0x10 13. "RDR,Receive Draining wakeup set" "0,1" bitfld.long 0x10 11. "ROVR,Receive overrun wakeup set" "0,1" bitfld.long 0x10 10. "XUDF,Transmit underflow wakeup set" "0,1" newline bitfld.long 0x10 9. "AAS,Address as target IRQ wakeup set" "0,1" bitfld.long 0x10 8. "BF,Bus Free IRQ wakeup set" "0,1" bitfld.long 0x10 6. "STC,Start Condition IRQ wakeup set" "0,1" bitfld.long 0x10 5. "GC,General call IRQ wakeup set" "0,1" newline bitfld.long 0x10 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "0,1" bitfld.long 0x10 2. "ARDY,Register access ready IRQ wakeup set" "0,1" bitfld.long 0x10 1. "NACK,No acknowledgment IRQ wakeup set" "0,1" bitfld.long 0x10 0. "AL,Arbitration lost IRQ wakeup set" "0,1" line.long 0x14 "CFG_I2C_DMARXENABLE_SET,Per-event DMA RX enable set." bitfld.long 0x14 0. "DMARX_ENABLE_SET,Receive DMA channel enable set" "0,1" line.long 0x18 "CFG_I2C_DMATXENABLE_SET,Per-event DMA TX enable set." bitfld.long 0x18 0. "DMATX_ENABLE_SET,Transmit DMA channel enable set" "0,1" line.long 0x1C "CFG_I2C_DMARXENABLE_CLR,Per-event DMA RX enable clear." bitfld.long 0x1C 0. "DMARX_ENABLE_CLEAR,Receive DMA channel enable clear" "0,1" line.long 0x20 "CFG_I2C_DMATXENABLE_CLR,Per-event DMA TX enable clear." bitfld.long 0x20 0. "DMATX_ENABLE_CLEAR,Transmit DMA channel enable clear" "0,1" line.long 0x24 "CFG_I2C_DMARXWAKE_EN,Per-event DMA RX wakeup enable." bitfld.long 0x24 14. "XDR,Transmit Draining wakeup set" "0,1" bitfld.long 0x24 13. "RDR,Receive Draining wakeup set" "0,1" bitfld.long 0x24 11. "ROVR,Receive overrun wakeup set" "0,1" bitfld.long 0x24 10. "XUDF,Transmit underflow wakeup set" "0,1" newline bitfld.long 0x24 9. "AAS,Address as target IRQ wakeup set" "0,1" bitfld.long 0x24 8. "BF,Bus Free IRQ wakeup set" "0,1" bitfld.long 0x24 6. "STC,Start Condition IRQ wakeup set" "0,1" bitfld.long 0x24 5. "GC,General call IRQ wakeup set" "0,1" newline bitfld.long 0x24 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "0,1" bitfld.long 0x24 2. "ARDY,Register access ready IRQ wakeup set" "0,1" bitfld.long 0x24 1. "NACK,No acknowledgment IRQ wakeup set" "0,1" bitfld.long 0x24 0. "AL,Arbitration lost IRQ wakeup set" "0,1" line.long 0x28 "CFG_I2C_DMATXWAKE_EN,Per-event DMA TX wakeup enable." bitfld.long 0x28 14. "XDR,Transmit Draining wakeup set" "0,1" bitfld.long 0x28 13. "RDR,Receive Draining wakeup set" "0,1" bitfld.long 0x28 11. "ROVR,Receive overrun wakeup set" "0,1" bitfld.long 0x28 10. "XUDF,Transmit underflow wakeup set" "0,1" newline bitfld.long 0x28 9. "AAS,Address as target IRQ wakeup set" "0,1" bitfld.long 0x28 8. "BF,Bus Free IRQ wakeup set" "0,1" bitfld.long 0x28 6. "STC,Start Condition IRQ wakeup set" "0,1" bitfld.long 0x28 5. "GC,General call IRQ wakeup set" "0,1" newline bitfld.long 0x28 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "0,1" bitfld.long 0x28 2. "ARDY,Register access ready IRQ wakeup set" "0,1" bitfld.long 0x28 1. "NACK,No acknowledgment IRQ wakeup set" "0,1" bitfld.long 0x28 0. "AL,Arbitration lost IRQ wakeup set" "0,1" group.long 0x84++0x7 line.long 0x0 "CFG_I2C_IE,I2C interrupt enable vector (legacy)." bitfld.long 0x0 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x0 14. "XDR_IE,Transmit Draining interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]" "0,1" bitfld.long 0x0 13. "RDR_IE,Receive Draining interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]" "0,1" bitfld.long 0x0 11. "ROVR,Receive overrun enable set" "0,1" newline bitfld.long 0x0 10. "XUDF,Transmit underflow enable set" "0,1" bitfld.long 0x0 9. "ASS_IE,Addressed as Target interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]" "0,1" bitfld.long 0x0 8. "BF_IE,Bus Free interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]" "0,1" bitfld.long 0x0 7. "AERR_IE,Access Error interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]" "0,1" newline bitfld.long 0x0 6. "STC_IE,Start Condition interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]" "0,1" bitfld.long 0x0 5. "GC_IE,General call Interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]" "0,1" bitfld.long 0x0 4. "XRDY_IE,Transmit data ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]" "0,1" bitfld.long 0x0 3. "RRDY_IE,Receive data ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]" "0,1" newline bitfld.long 0x0 2. "ARDY_IE,Register access ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]" "0,1" bitfld.long 0x0 1. "NACK_IE,No acknowledgement interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]" "0,1" bitfld.long 0x0 0. "AL_IE,Arbitration lost interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]" "0,1" line.long 0x4 "CFG_I2C_STAT,I2C interrupt status vector (legacy)." bitfld.long 0x4 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x4 14. "XDR,Transmit draining IRQ status" "0,1" bitfld.long 0x4 13. "RDR,Receive draining IRQ status" "0,1" rbitfld.long 0x4 12. "BB,Bus busy statusWriting into this bit has no effect" "0,1" newline bitfld.long 0x4 11. "ROVR,Receive overrun statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 10. "XUDF,Transmit underflow statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 9. "AAS,Address recognized as target IRQ status" "0,1" bitfld.long 0x4 8. "BF,Bus Free IRQ status" "0,1" newline bitfld.long 0x4 7. "AERR,Access Error IRQ status" "0,1" bitfld.long 0x4 6. "STC,Start Condition IRQ status" "0,1" bitfld.long 0x4 5. "GC,General call IRQ status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 4. "XRDY,Transmit data ready IRQ status Set to '1' by core when transmitter and when new data is requested When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" newline bitfld.long 0x4 3. "RRDY,Receive data ready IRQ status Set to '1' by core when receiver mode a new data is able to be read When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 2. "ARDY,Register access ready IRQ status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 1. "NACK,No acknowledgement IRQ status Bit is set when No Acknowledge has been received an interrupt is signaled to MPUSS Write '1' to clear this bit" "0,1" bitfld.long 0x4 0. "AL,Arbitration lost IRQ status This bit is automatically set by the hardware when it loses the Arbitration in controller transmit mode an interrupt is signaled to MPUSS During reads it always returns 0" "0,1" rgroup.long 0x90++0x3 line.long 0x0 "CFG_I2C_SYSS,System Status register" bitfld.long 0x0 0. "RDONE,Reset done bit" "0,1" group.long 0x94++0xB line.long 0x0 "CFG_I2C_BUF,Buffer Configuration register" bitfld.long 0x0 15. "RDMA_EN,Receive DMA channel enable" "0,1" bitfld.long 0x0 14. "RXFIFO_CLR,Receive FIFO clear" "0,1" hexmask.long.byte 0x0 8.--13. 1. "RXTRSH,Threshold value for FIFO buffer in RX mode" bitfld.long 0x0 7. "XDMA_EN,Transmit DMA channel enable" "0,1" newline bitfld.long 0x0 6. "TXFIFO_CLR,Transmit FIFO clear" "0,1" hexmask.long.byte 0x0 0.--5. 1. "TXTRSH,Threshold value for FIFO buffer in TX mode" line.long 0x4 "CFG_I2C_CNT,Data counter register" hexmask.long.word 0x4 0.--15. 1. "DCOUNT,Data count" line.long 0x8 "CFG_I2C_DATA,Data access register" hexmask.long.byte 0x8 0.--7. 1. "DATA,Transmit/Receive data FIFO endpoint" group.long 0xA4++0x1B line.long 0x0 "CFG_I2C_CON,I2C configuration register." bitfld.long 0x0 15. "I2C_EN,I2C module enable" "0,1" bitfld.long 0x0 12.--13. "OPMODE,Operation mode selection" "0,1,2,3" bitfld.long 0x0 11. "STB,Start byte mode [controller mode only]" "0,1" bitfld.long 0x0 10. "MST,Controller/target mode" "0,1" newline bitfld.long 0x0 9. "TRX,Transmitter/Receiver mode [controller mode only]" "0,1" bitfld.long 0x0 8. "XSA,Expand Target address" "0,1" bitfld.long 0x0 7. "XOA0,Expand Own address 0" "0,1" bitfld.long 0x0 6. "XOA1,Expand Own address 1" "0,1" newline bitfld.long 0x0 5. "XOA2,Expand Own address 2" "0,1" bitfld.long 0x0 4. "XOA3,Expand Own address 3" "0,1" bitfld.long 0x0 1. "STP,Stop condition [controller mode only]" "0,1" bitfld.long 0x0 0. "STT,Start condition [controller mode only]" "0,1" line.long 0x4 "CFG_I2C_OA,Own address register" bitfld.long 0x4 13.--15. "MCODE,Controller Code" "0,1,2,3,4,5,6,7" hexmask.long.word 0x4 0.--9. 1. "OA,Own address" line.long 0x8 "CFG_I2C_SA,Target address register" hexmask.long.word 0x8 0.--9. 1. "SA,Target address" line.long 0xC "CFG_I2C_PSC,I2C Clock Prescaler Register" hexmask.long.byte 0xC 0.--7. 1. "PSC,Fast/Standard mode prescale sampling clock divider value 0x0: Divide by 1 0x1: Divide by 2 0xFF: Divide by 256" line.long 0x10 "CFG_I2C_SCLL,I2C SCL Low Time Register." hexmask.long.byte 0x10 8.--15. 1. "HSSCLL,High Speed mode SCL low time" hexmask.long.byte 0x10 0.--7. 1. "SCLL,Fast/Standard mode SCL low time" line.long 0x14 "CFG_I2C_SCLH,I2C SCL High Time Register." hexmask.long.byte 0x14 8.--15. 1. "HSSCLH,High Speed mode SCL high time" hexmask.long.byte 0x14 0.--7. 1. "SCLH,Fast/Standard mode SCL high time" line.long 0x18 "CFG_I2C_SYSTEST,I2C System Test Register." bitfld.long 0x18 15. "ST_EN,System test enable" "0,1" bitfld.long 0x18 14. "FREE,Free running mode [on breakpoint]" "0,1" bitfld.long 0x18 12.--13. "TMODE,Test mode select" "0,1,2,3" bitfld.long 0x18 11. "SSB,Set status bits" "0,1" newline rbitfld.long 0x18 8. "SCL_I_FUNC,SCL line input value [functional mode]" "0,1" rbitfld.long 0x18 7. "SCL_O_FUNC,SCL line output value [functional mode]" "0,1" rbitfld.long 0x18 6. "SDA_I_FUNC,SDA line input value [functional mode]" "0,1" rbitfld.long 0x18 5. "SDA_O_FUNC,SDA line output value [functional mode]" "0,1" newline bitfld.long 0x18 4. "SCCB_E_O,SCCB_E line sense output value" "0,1" rbitfld.long 0x18 3. "SCL_I,SCL line sense input value" "0,1" bitfld.long 0x18 2. "SCL_O,SCL line drive output value" "0,1" rbitfld.long 0x18 1. "SDA_I,SDA line sense input value" "0,1" newline bitfld.long 0x18 0. "SDA_O,SDA line drive output value" "0,1" rgroup.long 0xC0++0x3 line.long 0x0 "CFG_I2C_BUFSTAT,I2C Buffer Status Register." bitfld.long 0x0 14.--15. "FIFODEPTH,Internal FIFO buffers depth" "0,1,2,3" hexmask.long.byte 0x0 8.--13. 1. "RXSTAT,RX Buffer Status" hexmask.long.byte 0x0 0.--5. 1. "TXSTAT,TX Buffer Status" group.long 0xC4++0xB line.long 0x0 "CFG_I2C_OA1,I2C Own Address 1 Register" hexmask.long.word 0x0 0.--9. 1. "OA1,Own address 1" line.long 0x4 "CFG_I2C_OA2,I2C Own Address 2" hexmask.long.word 0x4 0.--9. 1. "OA2,Own address 2" line.long 0x8 "CFG_I2C_OA3,I2C Own Address 3 Register" hexmask.long.word 0x8 0.--9. 1. "OA3,Own address 3" rgroup.long 0xD0++0x3 line.long 0x0 "CFG_I2C_ACTOA,I2C Active Own Address Register." bitfld.long 0x0 3. "OA3_ACT,Own Address 3 active" "0,1" bitfld.long 0x0 2. "OA2_ACT,Own Address 2 active" "0,1" bitfld.long 0x0 1. "OA1_ACT,Own Address 1 active" "0,1" bitfld.long 0x0 0. "OA0_ACT,Own Address 0 active" "0,1" group.long 0xD4++0x3 line.long 0x0 "CFG_I2C_SBLOCK,I2C Clock Blocking Enable Register." bitfld.long 0x0 3. "OA3_EN,Enable I2C Clock Blocking for Own Address 3" "0,1" bitfld.long 0x0 2. "OA2_EN,Enable I2C Clock Blocking for Own Address 2" "0,1" bitfld.long 0x0 1. "OA1_EN,Enable I2C Clock Blocking for Own Address 1" "0,1" bitfld.long 0x0 0. "OA0_EN,Enable I2C Clock Blocking for Own Address 0" "0,1" tree.end tree "I2C1_CFG (I2C1_CFG)" base ad:0x20010000 rgroup.long 0x0++0x7 line.long 0x0 "CFG_I2C_REVNB_LO,Revision Number register (Low)" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL version This field changes on bug fix and resets to" bitfld.long 0x0 8.--10. "MAJOR,Major Revision This field changes when there is a major feature change This field does not change due to bug fix or minor feature change" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version for a particular device Consequence of use may avoid use of standard Chip Support Library [CSL] / Drivers 0 if non-custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor Revision This field changes when features are scaled up or down This field does not change due to bug fix or major feature change" line.long 0x4 "CFG_I2C_REVNB_HI,Revision Number register (High)" bitfld.long 0x4 14.--15. "SCHEME,Used to distinguish between old Scheme and current Spare bit to encode future schemes" "0,1,2,3" bitfld.long 0x4 12.--13. "RESERVED,Reads return 0x1" "0,1,2,3" hexmask.long.word 0x4 0.--11. 1. "FUNC,Function: Indicates a software compatible module family" group.long 0x10++0x3 line.long 0x0 "CFG_I2C_SYSC,System Configuration register" bitfld.long 0x0 8.--9. "CLKACTIVITY,Clock Activity selection bits" "0,1,2,3" bitfld.long 0x0 5.--7. "RESERVED,Reads return 0" "0,1,2,3,4,5,6,7" bitfld.long 0x0 3.--4. "IDLEMODE,Idle Mode selection bits" "0,1,2,3" bitfld.long 0x0 2. "ENAWAKEUP,Enable Wakeup control bit" "0,1" newline bitfld.long 0x0 1. "SRST,SoftReset bit" "0,1" bitfld.long 0x0 0. "AUTOIDLE,Autoidle bit" "0,1" wgroup.long 0x20++0x3 line.long 0x0 "CFG_I2C_EOI,End Of Interrupt number specification" bitfld.long 0x0 0. "LINE_NUMBER,Software End Of Interrupt [EOI] control Write number of interrupt output" "0,1" group.long 0x24++0x2B line.long 0x0 "CFG_I2C_IRQSTATUS_RAW,Per-event raw interrupt status vector" bitfld.long 0x0 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x0 14. "XDR,Transmit draining IRQ status" "0,1" bitfld.long 0x0 13. "RDR,Receive draining IRQ status" "0,1" rbitfld.long 0x0 12. "BB,Bus busy statusWriting into this bit has no effect" "0,1" newline bitfld.long 0x0 11. "ROVR,Receive overrun statusWriting into this bit has no effect" "0,1" bitfld.long 0x0 10. "XUDF,Transmit underflow statusWriting into this bit has no effect" "0,1" bitfld.long 0x0 9. "AAS,Address recognized as target IRQ status" "0,1" bitfld.long 0x0 8. "BF,Bus Free IRQ status" "0,1" newline bitfld.long 0x0 7. "AERR,Access Error IRQ status" "0,1" bitfld.long 0x0 6. "STC,Start Condition IRQ status" "0,1" bitfld.long 0x0 5. "GC,General call IRQ status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x0 4. "XRDY,Transmit data ready IRQ status Set to '1' by core when transmitter and when new data is requested When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" newline bitfld.long 0x0 3. "RRDY,Receive data ready IRQ status Set to '1' by core when receiver mode a new data is able to be read When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x0 2. "ARDY,Register access ready IRQ status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x0 1. "NACK,No acknowledgement IRQ status Bit is set when No Acknowledge has been received an interrupt is signaled to MPUSS Write '1' to clear this bit" "0,1" bitfld.long 0x0 0. "AL,Arbitration lost IRQ status This bit is automatically set by the hardware when it loses the Arbitration in controller transmit mode an interrupt is signaled to MPUSS During reads it always returns 0" "0,1" line.long 0x4 "CFG_I2C_IRQSTATUS,Per-event enabled interrupt status vector" bitfld.long 0x4 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x4 14. "XDR,Transmit draining IRQ enabled status" "0,1" bitfld.long 0x4 13. "RDR,Receive draining IRQ enabled status" "0,1" rbitfld.long 0x4 12. "BB,Bus busy enabled statusWriting into this bit has no effect" "0,1" newline bitfld.long 0x4 11. "ROVR,Receive overrun enabled statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 10. "XUDF,Transmit underflow enabled statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 9. "AAS,Address recognized as target IRQ enabled status" "0,1" bitfld.long 0x4 8. "BF,Bus Free IRQ enabled status" "0,1" newline bitfld.long 0x4 7. "AERR,Access Error IRQ enabled status" "0,1" bitfld.long 0x4 6. "STC,Start Condition IRQ enabled status" "0,1" bitfld.long 0x4 5. "GC,General call IRQ enabled status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 4. "XRDY,Transmit data ready IRQ enabled status Set to '1' by core when transmitter and when new data is requested When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" newline bitfld.long 0x4 3. "RRDY,Receive data ready IRQ enabled status Set to '1' by core when receiver mode a new data is able to be read When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 2. "ARDY,Register access ready IRQ enabled status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 1. "NACK,No acknowledgement IRQ enabled status Bit is set when No Acknowledge has been received an interrupt is signaled to MPUSS Write '1' to clear this bit" "0,1" bitfld.long 0x4 0. "AL,Arbitration lost IRQ enabled status This bit is automatically set by the hardware when it loses the Arbitration in controller transmit mode an interrupt is signaled to MPUSS During reads it always returns 0" "0,1" line.long 0x8 "CFG_I2C_IRQENABLE_SET,Per-event interrupt enable bit vector." bitfld.long 0x8 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x8 14. "XDR_IE,Transmit Draining interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]" "0,1" bitfld.long 0x8 13. "RDR_IE,Receive Draining interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]" "0,1" bitfld.long 0x8 11. "ROVR,Receive overrun enable set" "0,1" newline bitfld.long 0x8 10. "XUDF,Transmit underflow enable set" "0,1" bitfld.long 0x8 9. "ASS_IE,Addressed as Target interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]" "0,1" bitfld.long 0x8 8. "BF_IE,Bus Free interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]" "0,1" bitfld.long 0x8 7. "AERR_IE,Access Error interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]" "0,1" newline bitfld.long 0x8 6. "STC_IE,Start Condition interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]" "0,1" bitfld.long 0x8 5. "GC_IE,General call Interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]" "0,1" bitfld.long 0x8 4. "XRDY_IE,Transmit data ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]" "0,1" bitfld.long 0x8 3. "RRDY_IE,Receive data ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]" "0,1" newline bitfld.long 0x8 2. "ARDY_IE,Register access ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]" "0,1" bitfld.long 0x8 1. "NACK_IE,No acknowledgement interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]" "0,1" bitfld.long 0x8 0. "AL_IE,Arbitration lost interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]" "0,1" line.long 0xC "CFG_I2C_IRQENABLE_CLR,Per-event interrupt clear bit vector." bitfld.long 0xC 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0xC 14. "XDR_IE,Transmit Draining interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]" "0,1" bitfld.long 0xC 13. "RDR_IE,Receive Draining interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]" "0,1" bitfld.long 0xC 11. "ROVR,Receive overrun enable clear" "0,1" newline bitfld.long 0xC 10. "XUDF,Transmit underflow enable clear" "0,1" bitfld.long 0xC 9. "ASS_IE,Addressed as Target interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]" "0,1" bitfld.long 0xC 8. "BF_IE,Bus Free interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]" "0,1" bitfld.long 0xC 7. "AERR_IE,Access Error interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]" "0,1" newline bitfld.long 0xC 6. "STC_IE,Start Condition interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]" "0,1" bitfld.long 0xC 5. "GC_IE,General call Interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]" "0,1" bitfld.long 0xC 4. "XRDY_IE,Transmit data ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]" "0,1" bitfld.long 0xC 3. "RRDY_IE,Receive data ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]" "0,1" newline bitfld.long 0xC 2. "ARDY_IE,Register access ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]" "0,1" bitfld.long 0xC 1. "NACK_IE,No acknowledgement interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]" "0,1" bitfld.long 0xC 0. "AL_IE,Arbitration lost interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]" "0,1" line.long 0x10 "CFG_I2C_WE,I2C wakeup enable vector (legacy)." bitfld.long 0x10 14. "XDR,Transmit Draining wakeup set" "0,1" bitfld.long 0x10 13. "RDR,Receive Draining wakeup set" "0,1" bitfld.long 0x10 11. "ROVR,Receive overrun wakeup set" "0,1" bitfld.long 0x10 10. "XUDF,Transmit underflow wakeup set" "0,1" newline bitfld.long 0x10 9. "AAS,Address as target IRQ wakeup set" "0,1" bitfld.long 0x10 8. "BF,Bus Free IRQ wakeup set" "0,1" bitfld.long 0x10 6. "STC,Start Condition IRQ wakeup set" "0,1" bitfld.long 0x10 5. "GC,General call IRQ wakeup set" "0,1" newline bitfld.long 0x10 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "0,1" bitfld.long 0x10 2. "ARDY,Register access ready IRQ wakeup set" "0,1" bitfld.long 0x10 1. "NACK,No acknowledgment IRQ wakeup set" "0,1" bitfld.long 0x10 0. "AL,Arbitration lost IRQ wakeup set" "0,1" line.long 0x14 "CFG_I2C_DMARXENABLE_SET,Per-event DMA RX enable set." bitfld.long 0x14 0. "DMARX_ENABLE_SET,Receive DMA channel enable set" "0,1" line.long 0x18 "CFG_I2C_DMATXENABLE_SET,Per-event DMA TX enable set." bitfld.long 0x18 0. "DMATX_ENABLE_SET,Transmit DMA channel enable set" "0,1" line.long 0x1C "CFG_I2C_DMARXENABLE_CLR,Per-event DMA RX enable clear." bitfld.long 0x1C 0. "DMARX_ENABLE_CLEAR,Receive DMA channel enable clear" "0,1" line.long 0x20 "CFG_I2C_DMATXENABLE_CLR,Per-event DMA TX enable clear." bitfld.long 0x20 0. "DMATX_ENABLE_CLEAR,Transmit DMA channel enable clear" "0,1" line.long 0x24 "CFG_I2C_DMARXWAKE_EN,Per-event DMA RX wakeup enable." bitfld.long 0x24 14. "XDR,Transmit Draining wakeup set" "0,1" bitfld.long 0x24 13. "RDR,Receive Draining wakeup set" "0,1" bitfld.long 0x24 11. "ROVR,Receive overrun wakeup set" "0,1" bitfld.long 0x24 10. "XUDF,Transmit underflow wakeup set" "0,1" newline bitfld.long 0x24 9. "AAS,Address as target IRQ wakeup set" "0,1" bitfld.long 0x24 8. "BF,Bus Free IRQ wakeup set" "0,1" bitfld.long 0x24 6. "STC,Start Condition IRQ wakeup set" "0,1" bitfld.long 0x24 5. "GC,General call IRQ wakeup set" "0,1" newline bitfld.long 0x24 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "0,1" bitfld.long 0x24 2. "ARDY,Register access ready IRQ wakeup set" "0,1" bitfld.long 0x24 1. "NACK,No acknowledgment IRQ wakeup set" "0,1" bitfld.long 0x24 0. "AL,Arbitration lost IRQ wakeup set" "0,1" line.long 0x28 "CFG_I2C_DMATXWAKE_EN,Per-event DMA TX wakeup enable." bitfld.long 0x28 14. "XDR,Transmit Draining wakeup set" "0,1" bitfld.long 0x28 13. "RDR,Receive Draining wakeup set" "0,1" bitfld.long 0x28 11. "ROVR,Receive overrun wakeup set" "0,1" bitfld.long 0x28 10. "XUDF,Transmit underflow wakeup set" "0,1" newline bitfld.long 0x28 9. "AAS,Address as target IRQ wakeup set" "0,1" bitfld.long 0x28 8. "BF,Bus Free IRQ wakeup set" "0,1" bitfld.long 0x28 6. "STC,Start Condition IRQ wakeup set" "0,1" bitfld.long 0x28 5. "GC,General call IRQ wakeup set" "0,1" newline bitfld.long 0x28 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "0,1" bitfld.long 0x28 2. "ARDY,Register access ready IRQ wakeup set" "0,1" bitfld.long 0x28 1. "NACK,No acknowledgment IRQ wakeup set" "0,1" bitfld.long 0x28 0. "AL,Arbitration lost IRQ wakeup set" "0,1" group.long 0x84++0x7 line.long 0x0 "CFG_I2C_IE,I2C interrupt enable vector (legacy)." bitfld.long 0x0 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x0 14. "XDR_IE,Transmit Draining interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]" "0,1" bitfld.long 0x0 13. "RDR_IE,Receive Draining interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]" "0,1" bitfld.long 0x0 11. "ROVR,Receive overrun enable set" "0,1" newline bitfld.long 0x0 10. "XUDF,Transmit underflow enable set" "0,1" bitfld.long 0x0 9. "ASS_IE,Addressed as Target interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]" "0,1" bitfld.long 0x0 8. "BF_IE,Bus Free interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]" "0,1" bitfld.long 0x0 7. "AERR_IE,Access Error interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]" "0,1" newline bitfld.long 0x0 6. "STC_IE,Start Condition interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]" "0,1" bitfld.long 0x0 5. "GC_IE,General call Interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]" "0,1" bitfld.long 0x0 4. "XRDY_IE,Transmit data ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]" "0,1" bitfld.long 0x0 3. "RRDY_IE,Receive data ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]" "0,1" newline bitfld.long 0x0 2. "ARDY_IE,Register access ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]" "0,1" bitfld.long 0x0 1. "NACK_IE,No acknowledgement interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]" "0,1" bitfld.long 0x0 0. "AL_IE,Arbitration lost interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]" "0,1" line.long 0x4 "CFG_I2C_STAT,I2C interrupt status vector (legacy)." bitfld.long 0x4 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x4 14. "XDR,Transmit draining IRQ status" "0,1" bitfld.long 0x4 13. "RDR,Receive draining IRQ status" "0,1" rbitfld.long 0x4 12. "BB,Bus busy statusWriting into this bit has no effect" "0,1" newline bitfld.long 0x4 11. "ROVR,Receive overrun statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 10. "XUDF,Transmit underflow statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 9. "AAS,Address recognized as target IRQ status" "0,1" bitfld.long 0x4 8. "BF,Bus Free IRQ status" "0,1" newline bitfld.long 0x4 7. "AERR,Access Error IRQ status" "0,1" bitfld.long 0x4 6. "STC,Start Condition IRQ status" "0,1" bitfld.long 0x4 5. "GC,General call IRQ status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 4. "XRDY,Transmit data ready IRQ status Set to '1' by core when transmitter and when new data is requested When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" newline bitfld.long 0x4 3. "RRDY,Receive data ready IRQ status Set to '1' by core when receiver mode a new data is able to be read When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 2. "ARDY,Register access ready IRQ status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 1. "NACK,No acknowledgement IRQ status Bit is set when No Acknowledge has been received an interrupt is signaled to MPUSS Write '1' to clear this bit" "0,1" bitfld.long 0x4 0. "AL,Arbitration lost IRQ status This bit is automatically set by the hardware when it loses the Arbitration in controller transmit mode an interrupt is signaled to MPUSS During reads it always returns 0" "0,1" rgroup.long 0x90++0x3 line.long 0x0 "CFG_I2C_SYSS,System Status register" bitfld.long 0x0 0. "RDONE,Reset done bit" "0,1" group.long 0x94++0xB line.long 0x0 "CFG_I2C_BUF,Buffer Configuration register" bitfld.long 0x0 15. "RDMA_EN,Receive DMA channel enable" "0,1" bitfld.long 0x0 14. "RXFIFO_CLR,Receive FIFO clear" "0,1" hexmask.long.byte 0x0 8.--13. 1. "RXTRSH,Threshold value for FIFO buffer in RX mode" bitfld.long 0x0 7. "XDMA_EN,Transmit DMA channel enable" "0,1" newline bitfld.long 0x0 6. "TXFIFO_CLR,Transmit FIFO clear" "0,1" hexmask.long.byte 0x0 0.--5. 1. "TXTRSH,Threshold value for FIFO buffer in TX mode" line.long 0x4 "CFG_I2C_CNT,Data counter register" hexmask.long.word 0x4 0.--15. 1. "DCOUNT,Data count" line.long 0x8 "CFG_I2C_DATA,Data access register" hexmask.long.byte 0x8 0.--7. 1. "DATA,Transmit/Receive data FIFO endpoint" group.long 0xA4++0x1B line.long 0x0 "CFG_I2C_CON,I2C configuration register." bitfld.long 0x0 15. "I2C_EN,I2C module enable" "0,1" bitfld.long 0x0 12.--13. "OPMODE,Operation mode selection" "0,1,2,3" bitfld.long 0x0 11. "STB,Start byte mode [controller mode only]" "0,1" bitfld.long 0x0 10. "MST,Controller/target mode" "0,1" newline bitfld.long 0x0 9. "TRX,Transmitter/Receiver mode [controller mode only]" "0,1" bitfld.long 0x0 8. "XSA,Expand Target address" "0,1" bitfld.long 0x0 7. "XOA0,Expand Own address 0" "0,1" bitfld.long 0x0 6. "XOA1,Expand Own address 1" "0,1" newline bitfld.long 0x0 5. "XOA2,Expand Own address 2" "0,1" bitfld.long 0x0 4. "XOA3,Expand Own address 3" "0,1" bitfld.long 0x0 1. "STP,Stop condition [controller mode only]" "0,1" bitfld.long 0x0 0. "STT,Start condition [controller mode only]" "0,1" line.long 0x4 "CFG_I2C_OA,Own address register" bitfld.long 0x4 13.--15. "MCODE,Controller Code" "0,1,2,3,4,5,6,7" hexmask.long.word 0x4 0.--9. 1. "OA,Own address" line.long 0x8 "CFG_I2C_SA,Target address register" hexmask.long.word 0x8 0.--9. 1. "SA,Target address" line.long 0xC "CFG_I2C_PSC,I2C Clock Prescaler Register" hexmask.long.byte 0xC 0.--7. 1. "PSC,Fast/Standard mode prescale sampling clock divider value 0x0: Divide by 1 0x1: Divide by 2 0xFF: Divide by 256" line.long 0x10 "CFG_I2C_SCLL,I2C SCL Low Time Register." hexmask.long.byte 0x10 8.--15. 1. "HSSCLL,High Speed mode SCL low time" hexmask.long.byte 0x10 0.--7. 1. "SCLL,Fast/Standard mode SCL low time" line.long 0x14 "CFG_I2C_SCLH,I2C SCL High Time Register." hexmask.long.byte 0x14 8.--15. 1. "HSSCLH,High Speed mode SCL high time" hexmask.long.byte 0x14 0.--7. 1. "SCLH,Fast/Standard mode SCL high time" line.long 0x18 "CFG_I2C_SYSTEST,I2C System Test Register." bitfld.long 0x18 15. "ST_EN,System test enable" "0,1" bitfld.long 0x18 14. "FREE,Free running mode [on breakpoint]" "0,1" bitfld.long 0x18 12.--13. "TMODE,Test mode select" "0,1,2,3" bitfld.long 0x18 11. "SSB,Set status bits" "0,1" newline rbitfld.long 0x18 8. "SCL_I_FUNC,SCL line input value [functional mode]" "0,1" rbitfld.long 0x18 7. "SCL_O_FUNC,SCL line output value [functional mode]" "0,1" rbitfld.long 0x18 6. "SDA_I_FUNC,SDA line input value [functional mode]" "0,1" rbitfld.long 0x18 5. "SDA_O_FUNC,SDA line output value [functional mode]" "0,1" newline bitfld.long 0x18 4. "SCCB_E_O,SCCB_E line sense output value" "0,1" rbitfld.long 0x18 3. "SCL_I,SCL line sense input value" "0,1" bitfld.long 0x18 2. "SCL_O,SCL line drive output value" "0,1" rbitfld.long 0x18 1. "SDA_I,SDA line sense input value" "0,1" newline bitfld.long 0x18 0. "SDA_O,SDA line drive output value" "0,1" rgroup.long 0xC0++0x3 line.long 0x0 "CFG_I2C_BUFSTAT,I2C Buffer Status Register." bitfld.long 0x0 14.--15. "FIFODEPTH,Internal FIFO buffers depth" "0,1,2,3" hexmask.long.byte 0x0 8.--13. 1. "RXSTAT,RX Buffer Status" hexmask.long.byte 0x0 0.--5. 1. "TXSTAT,TX Buffer Status" group.long 0xC4++0xB line.long 0x0 "CFG_I2C_OA1,I2C Own Address 1 Register" hexmask.long.word 0x0 0.--9. 1. "OA1,Own address 1" line.long 0x4 "CFG_I2C_OA2,I2C Own Address 2" hexmask.long.word 0x4 0.--9. 1. "OA2,Own address 2" line.long 0x8 "CFG_I2C_OA3,I2C Own Address 3 Register" hexmask.long.word 0x8 0.--9. 1. "OA3,Own address 3" rgroup.long 0xD0++0x3 line.long 0x0 "CFG_I2C_ACTOA,I2C Active Own Address Register." bitfld.long 0x0 3. "OA3_ACT,Own Address 3 active" "0,1" bitfld.long 0x0 2. "OA2_ACT,Own Address 2 active" "0,1" bitfld.long 0x0 1. "OA1_ACT,Own Address 1 active" "0,1" bitfld.long 0x0 0. "OA0_ACT,Own Address 0 active" "0,1" group.long 0xD4++0x3 line.long 0x0 "CFG_I2C_SBLOCK,I2C Clock Blocking Enable Register." bitfld.long 0x0 3. "OA3_EN,Enable I2C Clock Blocking for Own Address 3" "0,1" bitfld.long 0x0 2. "OA2_EN,Enable I2C Clock Blocking for Own Address 2" "0,1" bitfld.long 0x0 1. "OA1_EN,Enable I2C Clock Blocking for Own Address 1" "0,1" bitfld.long 0x0 0. "OA0_EN,Enable I2C Clock Blocking for Own Address 0" "0,1" tree.end tree "I2C2_CFG (I2C2_CFG)" base ad:0x20020000 rgroup.long 0x0++0x7 line.long 0x0 "CFG_I2C_REVNB_LO,Revision Number register (Low)" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL version This field changes on bug fix and resets to" bitfld.long 0x0 8.--10. "MAJOR,Major Revision This field changes when there is a major feature change This field does not change due to bug fix or minor feature change" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version for a particular device Consequence of use may avoid use of standard Chip Support Library [CSL] / Drivers 0 if non-custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor Revision This field changes when features are scaled up or down This field does not change due to bug fix or major feature change" line.long 0x4 "CFG_I2C_REVNB_HI,Revision Number register (High)" bitfld.long 0x4 14.--15. "SCHEME,Used to distinguish between old Scheme and current Spare bit to encode future schemes" "0,1,2,3" bitfld.long 0x4 12.--13. "RESERVED,Reads return 0x1" "0,1,2,3" hexmask.long.word 0x4 0.--11. 1. "FUNC,Function: Indicates a software compatible module family" group.long 0x10++0x3 line.long 0x0 "CFG_I2C_SYSC,System Configuration register" bitfld.long 0x0 8.--9. "CLKACTIVITY,Clock Activity selection bits" "0,1,2,3" bitfld.long 0x0 5.--7. "RESERVED,Reads return 0" "0,1,2,3,4,5,6,7" bitfld.long 0x0 3.--4. "IDLEMODE,Idle Mode selection bits" "0,1,2,3" bitfld.long 0x0 2. "ENAWAKEUP,Enable Wakeup control bit" "0,1" newline bitfld.long 0x0 1. "SRST,SoftReset bit" "0,1" bitfld.long 0x0 0. "AUTOIDLE,Autoidle bit" "0,1" wgroup.long 0x20++0x3 line.long 0x0 "CFG_I2C_EOI,End Of Interrupt number specification" bitfld.long 0x0 0. "LINE_NUMBER,Software End Of Interrupt [EOI] control Write number of interrupt output" "0,1" group.long 0x24++0x2B line.long 0x0 "CFG_I2C_IRQSTATUS_RAW,Per-event raw interrupt status vector" bitfld.long 0x0 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x0 14. "XDR,Transmit draining IRQ status" "0,1" bitfld.long 0x0 13. "RDR,Receive draining IRQ status" "0,1" rbitfld.long 0x0 12. "BB,Bus busy statusWriting into this bit has no effect" "0,1" newline bitfld.long 0x0 11. "ROVR,Receive overrun statusWriting into this bit has no effect" "0,1" bitfld.long 0x0 10. "XUDF,Transmit underflow statusWriting into this bit has no effect" "0,1" bitfld.long 0x0 9. "AAS,Address recognized as target IRQ status" "0,1" bitfld.long 0x0 8. "BF,Bus Free IRQ status" "0,1" newline bitfld.long 0x0 7. "AERR,Access Error IRQ status" "0,1" bitfld.long 0x0 6. "STC,Start Condition IRQ status" "0,1" bitfld.long 0x0 5. "GC,General call IRQ status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x0 4. "XRDY,Transmit data ready IRQ status Set to '1' by core when transmitter and when new data is requested When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" newline bitfld.long 0x0 3. "RRDY,Receive data ready IRQ status Set to '1' by core when receiver mode a new data is able to be read When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x0 2. "ARDY,Register access ready IRQ status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x0 1. "NACK,No acknowledgement IRQ status Bit is set when No Acknowledge has been received an interrupt is signaled to MPUSS Write '1' to clear this bit" "0,1" bitfld.long 0x0 0. "AL,Arbitration lost IRQ status This bit is automatically set by the hardware when it loses the Arbitration in controller transmit mode an interrupt is signaled to MPUSS During reads it always returns 0" "0,1" line.long 0x4 "CFG_I2C_IRQSTATUS,Per-event enabled interrupt status vector" bitfld.long 0x4 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x4 14. "XDR,Transmit draining IRQ enabled status" "0,1" bitfld.long 0x4 13. "RDR,Receive draining IRQ enabled status" "0,1" rbitfld.long 0x4 12. "BB,Bus busy enabled statusWriting into this bit has no effect" "0,1" newline bitfld.long 0x4 11. "ROVR,Receive overrun enabled statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 10. "XUDF,Transmit underflow enabled statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 9. "AAS,Address recognized as target IRQ enabled status" "0,1" bitfld.long 0x4 8. "BF,Bus Free IRQ enabled status" "0,1" newline bitfld.long 0x4 7. "AERR,Access Error IRQ enabled status" "0,1" bitfld.long 0x4 6. "STC,Start Condition IRQ enabled status" "0,1" bitfld.long 0x4 5. "GC,General call IRQ enabled status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 4. "XRDY,Transmit data ready IRQ enabled status Set to '1' by core when transmitter and when new data is requested When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" newline bitfld.long 0x4 3. "RRDY,Receive data ready IRQ enabled status Set to '1' by core when receiver mode a new data is able to be read When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 2. "ARDY,Register access ready IRQ enabled status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 1. "NACK,No acknowledgement IRQ enabled status Bit is set when No Acknowledge has been received an interrupt is signaled to MPUSS Write '1' to clear this bit" "0,1" bitfld.long 0x4 0. "AL,Arbitration lost IRQ enabled status This bit is automatically set by the hardware when it loses the Arbitration in controller transmit mode an interrupt is signaled to MPUSS During reads it always returns 0" "0,1" line.long 0x8 "CFG_I2C_IRQENABLE_SET,Per-event interrupt enable bit vector." bitfld.long 0x8 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x8 14. "XDR_IE,Transmit Draining interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]" "0,1" bitfld.long 0x8 13. "RDR_IE,Receive Draining interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]" "0,1" bitfld.long 0x8 11. "ROVR,Receive overrun enable set" "0,1" newline bitfld.long 0x8 10. "XUDF,Transmit underflow enable set" "0,1" bitfld.long 0x8 9. "ASS_IE,Addressed as Target interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]" "0,1" bitfld.long 0x8 8. "BF_IE,Bus Free interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]" "0,1" bitfld.long 0x8 7. "AERR_IE,Access Error interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]" "0,1" newline bitfld.long 0x8 6. "STC_IE,Start Condition interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]" "0,1" bitfld.long 0x8 5. "GC_IE,General call Interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]" "0,1" bitfld.long 0x8 4. "XRDY_IE,Transmit data ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]" "0,1" bitfld.long 0x8 3. "RRDY_IE,Receive data ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]" "0,1" newline bitfld.long 0x8 2. "ARDY_IE,Register access ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]" "0,1" bitfld.long 0x8 1. "NACK_IE,No acknowledgement interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]" "0,1" bitfld.long 0x8 0. "AL_IE,Arbitration lost interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]" "0,1" line.long 0xC "CFG_I2C_IRQENABLE_CLR,Per-event interrupt clear bit vector." bitfld.long 0xC 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0xC 14. "XDR_IE,Transmit Draining interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]" "0,1" bitfld.long 0xC 13. "RDR_IE,Receive Draining interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]" "0,1" bitfld.long 0xC 11. "ROVR,Receive overrun enable clear" "0,1" newline bitfld.long 0xC 10. "XUDF,Transmit underflow enable clear" "0,1" bitfld.long 0xC 9. "ASS_IE,Addressed as Target interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]" "0,1" bitfld.long 0xC 8. "BF_IE,Bus Free interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]" "0,1" bitfld.long 0xC 7. "AERR_IE,Access Error interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]" "0,1" newline bitfld.long 0xC 6. "STC_IE,Start Condition interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]" "0,1" bitfld.long 0xC 5. "GC_IE,General call Interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]" "0,1" bitfld.long 0xC 4. "XRDY_IE,Transmit data ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]" "0,1" bitfld.long 0xC 3. "RRDY_IE,Receive data ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]" "0,1" newline bitfld.long 0xC 2. "ARDY_IE,Register access ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]" "0,1" bitfld.long 0xC 1. "NACK_IE,No acknowledgement interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]" "0,1" bitfld.long 0xC 0. "AL_IE,Arbitration lost interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]" "0,1" line.long 0x10 "CFG_I2C_WE,I2C wakeup enable vector (legacy)." bitfld.long 0x10 14. "XDR,Transmit Draining wakeup set" "0,1" bitfld.long 0x10 13. "RDR,Receive Draining wakeup set" "0,1" bitfld.long 0x10 11. "ROVR,Receive overrun wakeup set" "0,1" bitfld.long 0x10 10. "XUDF,Transmit underflow wakeup set" "0,1" newline bitfld.long 0x10 9. "AAS,Address as target IRQ wakeup set" "0,1" bitfld.long 0x10 8. "BF,Bus Free IRQ wakeup set" "0,1" bitfld.long 0x10 6. "STC,Start Condition IRQ wakeup set" "0,1" bitfld.long 0x10 5. "GC,General call IRQ wakeup set" "0,1" newline bitfld.long 0x10 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "0,1" bitfld.long 0x10 2. "ARDY,Register access ready IRQ wakeup set" "0,1" bitfld.long 0x10 1. "NACK,No acknowledgment IRQ wakeup set" "0,1" bitfld.long 0x10 0. "AL,Arbitration lost IRQ wakeup set" "0,1" line.long 0x14 "CFG_I2C_DMARXENABLE_SET,Per-event DMA RX enable set." bitfld.long 0x14 0. "DMARX_ENABLE_SET,Receive DMA channel enable set" "0,1" line.long 0x18 "CFG_I2C_DMATXENABLE_SET,Per-event DMA TX enable set." bitfld.long 0x18 0. "DMATX_ENABLE_SET,Transmit DMA channel enable set" "0,1" line.long 0x1C "CFG_I2C_DMARXENABLE_CLR,Per-event DMA RX enable clear." bitfld.long 0x1C 0. "DMARX_ENABLE_CLEAR,Receive DMA channel enable clear" "0,1" line.long 0x20 "CFG_I2C_DMATXENABLE_CLR,Per-event DMA TX enable clear." bitfld.long 0x20 0. "DMATX_ENABLE_CLEAR,Transmit DMA channel enable clear" "0,1" line.long 0x24 "CFG_I2C_DMARXWAKE_EN,Per-event DMA RX wakeup enable." bitfld.long 0x24 14. "XDR,Transmit Draining wakeup set" "0,1" bitfld.long 0x24 13. "RDR,Receive Draining wakeup set" "0,1" bitfld.long 0x24 11. "ROVR,Receive overrun wakeup set" "0,1" bitfld.long 0x24 10. "XUDF,Transmit underflow wakeup set" "0,1" newline bitfld.long 0x24 9. "AAS,Address as target IRQ wakeup set" "0,1" bitfld.long 0x24 8. "BF,Bus Free IRQ wakeup set" "0,1" bitfld.long 0x24 6. "STC,Start Condition IRQ wakeup set" "0,1" bitfld.long 0x24 5. "GC,General call IRQ wakeup set" "0,1" newline bitfld.long 0x24 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "0,1" bitfld.long 0x24 2. "ARDY,Register access ready IRQ wakeup set" "0,1" bitfld.long 0x24 1. "NACK,No acknowledgment IRQ wakeup set" "0,1" bitfld.long 0x24 0. "AL,Arbitration lost IRQ wakeup set" "0,1" line.long 0x28 "CFG_I2C_DMATXWAKE_EN,Per-event DMA TX wakeup enable." bitfld.long 0x28 14. "XDR,Transmit Draining wakeup set" "0,1" bitfld.long 0x28 13. "RDR,Receive Draining wakeup set" "0,1" bitfld.long 0x28 11. "ROVR,Receive overrun wakeup set" "0,1" bitfld.long 0x28 10. "XUDF,Transmit underflow wakeup set" "0,1" newline bitfld.long 0x28 9. "AAS,Address as target IRQ wakeup set" "0,1" bitfld.long 0x28 8. "BF,Bus Free IRQ wakeup set" "0,1" bitfld.long 0x28 6. "STC,Start Condition IRQ wakeup set" "0,1" bitfld.long 0x28 5. "GC,General call IRQ wakeup set" "0,1" newline bitfld.long 0x28 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "0,1" bitfld.long 0x28 2. "ARDY,Register access ready IRQ wakeup set" "0,1" bitfld.long 0x28 1. "NACK,No acknowledgment IRQ wakeup set" "0,1" bitfld.long 0x28 0. "AL,Arbitration lost IRQ wakeup set" "0,1" group.long 0x84++0x7 line.long 0x0 "CFG_I2C_IE,I2C interrupt enable vector (legacy)." bitfld.long 0x0 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x0 14. "XDR_IE,Transmit Draining interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]" "0,1" bitfld.long 0x0 13. "RDR_IE,Receive Draining interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]" "0,1" bitfld.long 0x0 11. "ROVR,Receive overrun enable set" "0,1" newline bitfld.long 0x0 10. "XUDF,Transmit underflow enable set" "0,1" bitfld.long 0x0 9. "ASS_IE,Addressed as Target interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]" "0,1" bitfld.long 0x0 8. "BF_IE,Bus Free interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]" "0,1" bitfld.long 0x0 7. "AERR_IE,Access Error interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]" "0,1" newline bitfld.long 0x0 6. "STC_IE,Start Condition interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]" "0,1" bitfld.long 0x0 5. "GC_IE,General call Interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]" "0,1" bitfld.long 0x0 4. "XRDY_IE,Transmit data ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]" "0,1" bitfld.long 0x0 3. "RRDY_IE,Receive data ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]" "0,1" newline bitfld.long 0x0 2. "ARDY_IE,Register access ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]" "0,1" bitfld.long 0x0 1. "NACK_IE,No acknowledgement interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]" "0,1" bitfld.long 0x0 0. "AL_IE,Arbitration lost interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]" "0,1" line.long 0x4 "CFG_I2C_STAT,I2C interrupt status vector (legacy)." bitfld.long 0x4 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x4 14. "XDR,Transmit draining IRQ status" "0,1" bitfld.long 0x4 13. "RDR,Receive draining IRQ status" "0,1" rbitfld.long 0x4 12. "BB,Bus busy statusWriting into this bit has no effect" "0,1" newline bitfld.long 0x4 11. "ROVR,Receive overrun statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 10. "XUDF,Transmit underflow statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 9. "AAS,Address recognized as target IRQ status" "0,1" bitfld.long 0x4 8. "BF,Bus Free IRQ status" "0,1" newline bitfld.long 0x4 7. "AERR,Access Error IRQ status" "0,1" bitfld.long 0x4 6. "STC,Start Condition IRQ status" "0,1" bitfld.long 0x4 5. "GC,General call IRQ status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 4. "XRDY,Transmit data ready IRQ status Set to '1' by core when transmitter and when new data is requested When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" newline bitfld.long 0x4 3. "RRDY,Receive data ready IRQ status Set to '1' by core when receiver mode a new data is able to be read When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 2. "ARDY,Register access ready IRQ status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 1. "NACK,No acknowledgement IRQ status Bit is set when No Acknowledge has been received an interrupt is signaled to MPUSS Write '1' to clear this bit" "0,1" bitfld.long 0x4 0. "AL,Arbitration lost IRQ status This bit is automatically set by the hardware when it loses the Arbitration in controller transmit mode an interrupt is signaled to MPUSS During reads it always returns 0" "0,1" rgroup.long 0x90++0x3 line.long 0x0 "CFG_I2C_SYSS,System Status register" bitfld.long 0x0 0. "RDONE,Reset done bit" "0,1" group.long 0x94++0xB line.long 0x0 "CFG_I2C_BUF,Buffer Configuration register" bitfld.long 0x0 15. "RDMA_EN,Receive DMA channel enable" "0,1" bitfld.long 0x0 14. "RXFIFO_CLR,Receive FIFO clear" "0,1" hexmask.long.byte 0x0 8.--13. 1. "RXTRSH,Threshold value for FIFO buffer in RX mode" bitfld.long 0x0 7. "XDMA_EN,Transmit DMA channel enable" "0,1" newline bitfld.long 0x0 6. "TXFIFO_CLR,Transmit FIFO clear" "0,1" hexmask.long.byte 0x0 0.--5. 1. "TXTRSH,Threshold value for FIFO buffer in TX mode" line.long 0x4 "CFG_I2C_CNT,Data counter register" hexmask.long.word 0x4 0.--15. 1. "DCOUNT,Data count" line.long 0x8 "CFG_I2C_DATA,Data access register" hexmask.long.byte 0x8 0.--7. 1. "DATA,Transmit/Receive data FIFO endpoint" group.long 0xA4++0x1B line.long 0x0 "CFG_I2C_CON,I2C configuration register." bitfld.long 0x0 15. "I2C_EN,I2C module enable" "0,1" bitfld.long 0x0 12.--13. "OPMODE,Operation mode selection" "0,1,2,3" bitfld.long 0x0 11. "STB,Start byte mode [controller mode only]" "0,1" bitfld.long 0x0 10. "MST,Controller/target mode" "0,1" newline bitfld.long 0x0 9. "TRX,Transmitter/Receiver mode [controller mode only]" "0,1" bitfld.long 0x0 8. "XSA,Expand Target address" "0,1" bitfld.long 0x0 7. "XOA0,Expand Own address 0" "0,1" bitfld.long 0x0 6. "XOA1,Expand Own address 1" "0,1" newline bitfld.long 0x0 5. "XOA2,Expand Own address 2" "0,1" bitfld.long 0x0 4. "XOA3,Expand Own address 3" "0,1" bitfld.long 0x0 1. "STP,Stop condition [controller mode only]" "0,1" bitfld.long 0x0 0. "STT,Start condition [controller mode only]" "0,1" line.long 0x4 "CFG_I2C_OA,Own address register" bitfld.long 0x4 13.--15. "MCODE,Controller Code" "0,1,2,3,4,5,6,7" hexmask.long.word 0x4 0.--9. 1. "OA,Own address" line.long 0x8 "CFG_I2C_SA,Target address register" hexmask.long.word 0x8 0.--9. 1. "SA,Target address" line.long 0xC "CFG_I2C_PSC,I2C Clock Prescaler Register" hexmask.long.byte 0xC 0.--7. 1. "PSC,Fast/Standard mode prescale sampling clock divider value 0x0: Divide by 1 0x1: Divide by 2 0xFF: Divide by 256" line.long 0x10 "CFG_I2C_SCLL,I2C SCL Low Time Register." hexmask.long.byte 0x10 8.--15. 1. "HSSCLL,High Speed mode SCL low time" hexmask.long.byte 0x10 0.--7. 1. "SCLL,Fast/Standard mode SCL low time" line.long 0x14 "CFG_I2C_SCLH,I2C SCL High Time Register." hexmask.long.byte 0x14 8.--15. 1. "HSSCLH,High Speed mode SCL high time" hexmask.long.byte 0x14 0.--7. 1. "SCLH,Fast/Standard mode SCL high time" line.long 0x18 "CFG_I2C_SYSTEST,I2C System Test Register." bitfld.long 0x18 15. "ST_EN,System test enable" "0,1" bitfld.long 0x18 14. "FREE,Free running mode [on breakpoint]" "0,1" bitfld.long 0x18 12.--13. "TMODE,Test mode select" "0,1,2,3" bitfld.long 0x18 11. "SSB,Set status bits" "0,1" newline rbitfld.long 0x18 8. "SCL_I_FUNC,SCL line input value [functional mode]" "0,1" rbitfld.long 0x18 7. "SCL_O_FUNC,SCL line output value [functional mode]" "0,1" rbitfld.long 0x18 6. "SDA_I_FUNC,SDA line input value [functional mode]" "0,1" rbitfld.long 0x18 5. "SDA_O_FUNC,SDA line output value [functional mode]" "0,1" newline bitfld.long 0x18 4. "SCCB_E_O,SCCB_E line sense output value" "0,1" rbitfld.long 0x18 3. "SCL_I,SCL line sense input value" "0,1" bitfld.long 0x18 2. "SCL_O,SCL line drive output value" "0,1" rbitfld.long 0x18 1. "SDA_I,SDA line sense input value" "0,1" newline bitfld.long 0x18 0. "SDA_O,SDA line drive output value" "0,1" rgroup.long 0xC0++0x3 line.long 0x0 "CFG_I2C_BUFSTAT,I2C Buffer Status Register." bitfld.long 0x0 14.--15. "FIFODEPTH,Internal FIFO buffers depth" "0,1,2,3" hexmask.long.byte 0x0 8.--13. 1. "RXSTAT,RX Buffer Status" hexmask.long.byte 0x0 0.--5. 1. "TXSTAT,TX Buffer Status" group.long 0xC4++0xB line.long 0x0 "CFG_I2C_OA1,I2C Own Address 1 Register" hexmask.long.word 0x0 0.--9. 1. "OA1,Own address 1" line.long 0x4 "CFG_I2C_OA2,I2C Own Address 2" hexmask.long.word 0x4 0.--9. 1. "OA2,Own address 2" line.long 0x8 "CFG_I2C_OA3,I2C Own Address 3 Register" hexmask.long.word 0x8 0.--9. 1. "OA3,Own address 3" rgroup.long 0xD0++0x3 line.long 0x0 "CFG_I2C_ACTOA,I2C Active Own Address Register." bitfld.long 0x0 3. "OA3_ACT,Own Address 3 active" "0,1" bitfld.long 0x0 2. "OA2_ACT,Own Address 2 active" "0,1" bitfld.long 0x0 1. "OA1_ACT,Own Address 1 active" "0,1" bitfld.long 0x0 0. "OA0_ACT,Own Address 0 active" "0,1" group.long 0xD4++0x3 line.long 0x0 "CFG_I2C_SBLOCK,I2C Clock Blocking Enable Register." bitfld.long 0x0 3. "OA3_EN,Enable I2C Clock Blocking for Own Address 3" "0,1" bitfld.long 0x0 2. "OA2_EN,Enable I2C Clock Blocking for Own Address 2" "0,1" bitfld.long 0x0 1. "OA1_EN,Enable I2C Clock Blocking for Own Address 1" "0,1" bitfld.long 0x0 0. "OA0_EN,Enable I2C Clock Blocking for Own Address 0" "0,1" tree.end tree "I2C3_CFG (I2C3_CFG)" base ad:0x20030000 rgroup.long 0x0++0x7 line.long 0x0 "CFG_I2C_REVNB_LO,Revision Number register (Low)" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL version This field changes on bug fix and resets to" bitfld.long 0x0 8.--10. "MAJOR,Major Revision This field changes when there is a major feature change This field does not change due to bug fix or minor feature change" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version for a particular device Consequence of use may avoid use of standard Chip Support Library [CSL] / Drivers 0 if non-custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor Revision This field changes when features are scaled up or down This field does not change due to bug fix or major feature change" line.long 0x4 "CFG_I2C_REVNB_HI,Revision Number register (High)" bitfld.long 0x4 14.--15. "SCHEME,Used to distinguish between old Scheme and current Spare bit to encode future schemes" "0,1,2,3" bitfld.long 0x4 12.--13. "RESERVED,Reads return 0x1" "0,1,2,3" hexmask.long.word 0x4 0.--11. 1. "FUNC,Function: Indicates a software compatible module family" group.long 0x10++0x3 line.long 0x0 "CFG_I2C_SYSC,System Configuration register" bitfld.long 0x0 8.--9. "CLKACTIVITY,Clock Activity selection bits" "0,1,2,3" bitfld.long 0x0 5.--7. "RESERVED,Reads return 0" "0,1,2,3,4,5,6,7" bitfld.long 0x0 3.--4. "IDLEMODE,Idle Mode selection bits" "0,1,2,3" bitfld.long 0x0 2. "ENAWAKEUP,Enable Wakeup control bit" "0,1" newline bitfld.long 0x0 1. "SRST,SoftReset bit" "0,1" bitfld.long 0x0 0. "AUTOIDLE,Autoidle bit" "0,1" wgroup.long 0x20++0x3 line.long 0x0 "CFG_I2C_EOI,End Of Interrupt number specification" bitfld.long 0x0 0. "LINE_NUMBER,Software End Of Interrupt [EOI] control Write number of interrupt output" "0,1" group.long 0x24++0x2B line.long 0x0 "CFG_I2C_IRQSTATUS_RAW,Per-event raw interrupt status vector" bitfld.long 0x0 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x0 14. "XDR,Transmit draining IRQ status" "0,1" bitfld.long 0x0 13. "RDR,Receive draining IRQ status" "0,1" rbitfld.long 0x0 12. "BB,Bus busy statusWriting into this bit has no effect" "0,1" newline bitfld.long 0x0 11. "ROVR,Receive overrun statusWriting into this bit has no effect" "0,1" bitfld.long 0x0 10. "XUDF,Transmit underflow statusWriting into this bit has no effect" "0,1" bitfld.long 0x0 9. "AAS,Address recognized as target IRQ status" "0,1" bitfld.long 0x0 8. "BF,Bus Free IRQ status" "0,1" newline bitfld.long 0x0 7. "AERR,Access Error IRQ status" "0,1" bitfld.long 0x0 6. "STC,Start Condition IRQ status" "0,1" bitfld.long 0x0 5. "GC,General call IRQ status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x0 4. "XRDY,Transmit data ready IRQ status Set to '1' by core when transmitter and when new data is requested When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" newline bitfld.long 0x0 3. "RRDY,Receive data ready IRQ status Set to '1' by core when receiver mode a new data is able to be read When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x0 2. "ARDY,Register access ready IRQ status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x0 1. "NACK,No acknowledgement IRQ status Bit is set when No Acknowledge has been received an interrupt is signaled to MPUSS Write '1' to clear this bit" "0,1" bitfld.long 0x0 0. "AL,Arbitration lost IRQ status This bit is automatically set by the hardware when it loses the Arbitration in controller transmit mode an interrupt is signaled to MPUSS During reads it always returns 0" "0,1" line.long 0x4 "CFG_I2C_IRQSTATUS,Per-event enabled interrupt status vector" bitfld.long 0x4 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x4 14. "XDR,Transmit draining IRQ enabled status" "0,1" bitfld.long 0x4 13. "RDR,Receive draining IRQ enabled status" "0,1" rbitfld.long 0x4 12. "BB,Bus busy enabled statusWriting into this bit has no effect" "0,1" newline bitfld.long 0x4 11. "ROVR,Receive overrun enabled statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 10. "XUDF,Transmit underflow enabled statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 9. "AAS,Address recognized as target IRQ enabled status" "0,1" bitfld.long 0x4 8. "BF,Bus Free IRQ enabled status" "0,1" newline bitfld.long 0x4 7. "AERR,Access Error IRQ enabled status" "0,1" bitfld.long 0x4 6. "STC,Start Condition IRQ enabled status" "0,1" bitfld.long 0x4 5. "GC,General call IRQ enabled status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 4. "XRDY,Transmit data ready IRQ enabled status Set to '1' by core when transmitter and when new data is requested When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" newline bitfld.long 0x4 3. "RRDY,Receive data ready IRQ enabled status Set to '1' by core when receiver mode a new data is able to be read When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 2. "ARDY,Register access ready IRQ enabled status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 1. "NACK,No acknowledgement IRQ enabled status Bit is set when No Acknowledge has been received an interrupt is signaled to MPUSS Write '1' to clear this bit" "0,1" bitfld.long 0x4 0. "AL,Arbitration lost IRQ enabled status This bit is automatically set by the hardware when it loses the Arbitration in controller transmit mode an interrupt is signaled to MPUSS During reads it always returns 0" "0,1" line.long 0x8 "CFG_I2C_IRQENABLE_SET,Per-event interrupt enable bit vector." bitfld.long 0x8 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x8 14. "XDR_IE,Transmit Draining interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]" "0,1" bitfld.long 0x8 13. "RDR_IE,Receive Draining interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]" "0,1" bitfld.long 0x8 11. "ROVR,Receive overrun enable set" "0,1" newline bitfld.long 0x8 10. "XUDF,Transmit underflow enable set" "0,1" bitfld.long 0x8 9. "ASS_IE,Addressed as Target interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]" "0,1" bitfld.long 0x8 8. "BF_IE,Bus Free interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]" "0,1" bitfld.long 0x8 7. "AERR_IE,Access Error interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]" "0,1" newline bitfld.long 0x8 6. "STC_IE,Start Condition interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]" "0,1" bitfld.long 0x8 5. "GC_IE,General call Interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]" "0,1" bitfld.long 0x8 4. "XRDY_IE,Transmit data ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]" "0,1" bitfld.long 0x8 3. "RRDY_IE,Receive data ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]" "0,1" newline bitfld.long 0x8 2. "ARDY_IE,Register access ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]" "0,1" bitfld.long 0x8 1. "NACK_IE,No acknowledgement interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]" "0,1" bitfld.long 0x8 0. "AL_IE,Arbitration lost interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]" "0,1" line.long 0xC "CFG_I2C_IRQENABLE_CLR,Per-event interrupt clear bit vector." bitfld.long 0xC 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0xC 14. "XDR_IE,Transmit Draining interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]" "0,1" bitfld.long 0xC 13. "RDR_IE,Receive Draining interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]" "0,1" bitfld.long 0xC 11. "ROVR,Receive overrun enable clear" "0,1" newline bitfld.long 0xC 10. "XUDF,Transmit underflow enable clear" "0,1" bitfld.long 0xC 9. "ASS_IE,Addressed as Target interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]" "0,1" bitfld.long 0xC 8. "BF_IE,Bus Free interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]" "0,1" bitfld.long 0xC 7. "AERR_IE,Access Error interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]" "0,1" newline bitfld.long 0xC 6. "STC_IE,Start Condition interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]" "0,1" bitfld.long 0xC 5. "GC_IE,General call Interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]" "0,1" bitfld.long 0xC 4. "XRDY_IE,Transmit data ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]" "0,1" bitfld.long 0xC 3. "RRDY_IE,Receive data ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]" "0,1" newline bitfld.long 0xC 2. "ARDY_IE,Register access ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]" "0,1" bitfld.long 0xC 1. "NACK_IE,No acknowledgement interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]" "0,1" bitfld.long 0xC 0. "AL_IE,Arbitration lost interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]" "0,1" line.long 0x10 "CFG_I2C_WE,I2C wakeup enable vector (legacy)." bitfld.long 0x10 14. "XDR,Transmit Draining wakeup set" "0,1" bitfld.long 0x10 13. "RDR,Receive Draining wakeup set" "0,1" bitfld.long 0x10 11. "ROVR,Receive overrun wakeup set" "0,1" bitfld.long 0x10 10. "XUDF,Transmit underflow wakeup set" "0,1" newline bitfld.long 0x10 9. "AAS,Address as target IRQ wakeup set" "0,1" bitfld.long 0x10 8. "BF,Bus Free IRQ wakeup set" "0,1" bitfld.long 0x10 6. "STC,Start Condition IRQ wakeup set" "0,1" bitfld.long 0x10 5. "GC,General call IRQ wakeup set" "0,1" newline bitfld.long 0x10 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "0,1" bitfld.long 0x10 2. "ARDY,Register access ready IRQ wakeup set" "0,1" bitfld.long 0x10 1. "NACK,No acknowledgment IRQ wakeup set" "0,1" bitfld.long 0x10 0. "AL,Arbitration lost IRQ wakeup set" "0,1" line.long 0x14 "CFG_I2C_DMARXENABLE_SET,Per-event DMA RX enable set." bitfld.long 0x14 0. "DMARX_ENABLE_SET,Receive DMA channel enable set" "0,1" line.long 0x18 "CFG_I2C_DMATXENABLE_SET,Per-event DMA TX enable set." bitfld.long 0x18 0. "DMATX_ENABLE_SET,Transmit DMA channel enable set" "0,1" line.long 0x1C "CFG_I2C_DMARXENABLE_CLR,Per-event DMA RX enable clear." bitfld.long 0x1C 0. "DMARX_ENABLE_CLEAR,Receive DMA channel enable clear" "0,1" line.long 0x20 "CFG_I2C_DMATXENABLE_CLR,Per-event DMA TX enable clear." bitfld.long 0x20 0. "DMATX_ENABLE_CLEAR,Transmit DMA channel enable clear" "0,1" line.long 0x24 "CFG_I2C_DMARXWAKE_EN,Per-event DMA RX wakeup enable." bitfld.long 0x24 14. "XDR,Transmit Draining wakeup set" "0,1" bitfld.long 0x24 13. "RDR,Receive Draining wakeup set" "0,1" bitfld.long 0x24 11. "ROVR,Receive overrun wakeup set" "0,1" bitfld.long 0x24 10. "XUDF,Transmit underflow wakeup set" "0,1" newline bitfld.long 0x24 9. "AAS,Address as target IRQ wakeup set" "0,1" bitfld.long 0x24 8. "BF,Bus Free IRQ wakeup set" "0,1" bitfld.long 0x24 6. "STC,Start Condition IRQ wakeup set" "0,1" bitfld.long 0x24 5. "GC,General call IRQ wakeup set" "0,1" newline bitfld.long 0x24 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "0,1" bitfld.long 0x24 2. "ARDY,Register access ready IRQ wakeup set" "0,1" bitfld.long 0x24 1. "NACK,No acknowledgment IRQ wakeup set" "0,1" bitfld.long 0x24 0. "AL,Arbitration lost IRQ wakeup set" "0,1" line.long 0x28 "CFG_I2C_DMATXWAKE_EN,Per-event DMA TX wakeup enable." bitfld.long 0x28 14. "XDR,Transmit Draining wakeup set" "0,1" bitfld.long 0x28 13. "RDR,Receive Draining wakeup set" "0,1" bitfld.long 0x28 11. "ROVR,Receive overrun wakeup set" "0,1" bitfld.long 0x28 10. "XUDF,Transmit underflow wakeup set" "0,1" newline bitfld.long 0x28 9. "AAS,Address as target IRQ wakeup set" "0,1" bitfld.long 0x28 8. "BF,Bus Free IRQ wakeup set" "0,1" bitfld.long 0x28 6. "STC,Start Condition IRQ wakeup set" "0,1" bitfld.long 0x28 5. "GC,General call IRQ wakeup set" "0,1" newline bitfld.long 0x28 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "0,1" bitfld.long 0x28 2. "ARDY,Register access ready IRQ wakeup set" "0,1" bitfld.long 0x28 1. "NACK,No acknowledgment IRQ wakeup set" "0,1" bitfld.long 0x28 0. "AL,Arbitration lost IRQ wakeup set" "0,1" group.long 0x84++0x7 line.long 0x0 "CFG_I2C_IE,I2C interrupt enable vector (legacy)." bitfld.long 0x0 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x0 14. "XDR_IE,Transmit Draining interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]" "0,1" bitfld.long 0x0 13. "RDR_IE,Receive Draining interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]" "0,1" bitfld.long 0x0 11. "ROVR,Receive overrun enable set" "0,1" newline bitfld.long 0x0 10. "XUDF,Transmit underflow enable set" "0,1" bitfld.long 0x0 9. "ASS_IE,Addressed as Target interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]" "0,1" bitfld.long 0x0 8. "BF_IE,Bus Free interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]" "0,1" bitfld.long 0x0 7. "AERR_IE,Access Error interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]" "0,1" newline bitfld.long 0x0 6. "STC_IE,Start Condition interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]" "0,1" bitfld.long 0x0 5. "GC_IE,General call Interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]" "0,1" bitfld.long 0x0 4. "XRDY_IE,Transmit data ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]" "0,1" bitfld.long 0x0 3. "RRDY_IE,Receive data ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]" "0,1" newline bitfld.long 0x0 2. "ARDY_IE,Register access ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]" "0,1" bitfld.long 0x0 1. "NACK_IE,No acknowledgement interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]" "0,1" bitfld.long 0x0 0. "AL_IE,Arbitration lost interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]" "0,1" line.long 0x4 "CFG_I2C_STAT,I2C interrupt status vector (legacy)." bitfld.long 0x4 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x4 14. "XDR,Transmit draining IRQ status" "0,1" bitfld.long 0x4 13. "RDR,Receive draining IRQ status" "0,1" rbitfld.long 0x4 12. "BB,Bus busy statusWriting into this bit has no effect" "0,1" newline bitfld.long 0x4 11. "ROVR,Receive overrun statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 10. "XUDF,Transmit underflow statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 9. "AAS,Address recognized as target IRQ status" "0,1" bitfld.long 0x4 8. "BF,Bus Free IRQ status" "0,1" newline bitfld.long 0x4 7. "AERR,Access Error IRQ status" "0,1" bitfld.long 0x4 6. "STC,Start Condition IRQ status" "0,1" bitfld.long 0x4 5. "GC,General call IRQ status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 4. "XRDY,Transmit data ready IRQ status Set to '1' by core when transmitter and when new data is requested When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" newline bitfld.long 0x4 3. "RRDY,Receive data ready IRQ status Set to '1' by core when receiver mode a new data is able to be read When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 2. "ARDY,Register access ready IRQ status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 1. "NACK,No acknowledgement IRQ status Bit is set when No Acknowledge has been received an interrupt is signaled to MPUSS Write '1' to clear this bit" "0,1" bitfld.long 0x4 0. "AL,Arbitration lost IRQ status This bit is automatically set by the hardware when it loses the Arbitration in controller transmit mode an interrupt is signaled to MPUSS During reads it always returns 0" "0,1" rgroup.long 0x90++0x3 line.long 0x0 "CFG_I2C_SYSS,System Status register" bitfld.long 0x0 0. "RDONE,Reset done bit" "0,1" group.long 0x94++0xB line.long 0x0 "CFG_I2C_BUF,Buffer Configuration register" bitfld.long 0x0 15. "RDMA_EN,Receive DMA channel enable" "0,1" bitfld.long 0x0 14. "RXFIFO_CLR,Receive FIFO clear" "0,1" hexmask.long.byte 0x0 8.--13. 1. "RXTRSH,Threshold value for FIFO buffer in RX mode" bitfld.long 0x0 7. "XDMA_EN,Transmit DMA channel enable" "0,1" newline bitfld.long 0x0 6. "TXFIFO_CLR,Transmit FIFO clear" "0,1" hexmask.long.byte 0x0 0.--5. 1. "TXTRSH,Threshold value for FIFO buffer in TX mode" line.long 0x4 "CFG_I2C_CNT,Data counter register" hexmask.long.word 0x4 0.--15. 1. "DCOUNT,Data count" line.long 0x8 "CFG_I2C_DATA,Data access register" hexmask.long.byte 0x8 0.--7. 1. "DATA,Transmit/Receive data FIFO endpoint" group.long 0xA4++0x1B line.long 0x0 "CFG_I2C_CON,I2C configuration register." bitfld.long 0x0 15. "I2C_EN,I2C module enable" "0,1" bitfld.long 0x0 12.--13. "OPMODE,Operation mode selection" "0,1,2,3" bitfld.long 0x0 11. "STB,Start byte mode [controller mode only]" "0,1" bitfld.long 0x0 10. "MST,Controller/target mode" "0,1" newline bitfld.long 0x0 9. "TRX,Transmitter/Receiver mode [controller mode only]" "0,1" bitfld.long 0x0 8. "XSA,Expand Target address" "0,1" bitfld.long 0x0 7. "XOA0,Expand Own address 0" "0,1" bitfld.long 0x0 6. "XOA1,Expand Own address 1" "0,1" newline bitfld.long 0x0 5. "XOA2,Expand Own address 2" "0,1" bitfld.long 0x0 4. "XOA3,Expand Own address 3" "0,1" bitfld.long 0x0 1. "STP,Stop condition [controller mode only]" "0,1" bitfld.long 0x0 0. "STT,Start condition [controller mode only]" "0,1" line.long 0x4 "CFG_I2C_OA,Own address register" bitfld.long 0x4 13.--15. "MCODE,Controller Code" "0,1,2,3,4,5,6,7" hexmask.long.word 0x4 0.--9. 1. "OA,Own address" line.long 0x8 "CFG_I2C_SA,Target address register" hexmask.long.word 0x8 0.--9. 1. "SA,Target address" line.long 0xC "CFG_I2C_PSC,I2C Clock Prescaler Register" hexmask.long.byte 0xC 0.--7. 1. "PSC,Fast/Standard mode prescale sampling clock divider value 0x0: Divide by 1 0x1: Divide by 2 0xFF: Divide by 256" line.long 0x10 "CFG_I2C_SCLL,I2C SCL Low Time Register." hexmask.long.byte 0x10 8.--15. 1. "HSSCLL,High Speed mode SCL low time" hexmask.long.byte 0x10 0.--7. 1. "SCLL,Fast/Standard mode SCL low time" line.long 0x14 "CFG_I2C_SCLH,I2C SCL High Time Register." hexmask.long.byte 0x14 8.--15. 1. "HSSCLH,High Speed mode SCL high time" hexmask.long.byte 0x14 0.--7. 1. "SCLH,Fast/Standard mode SCL high time" line.long 0x18 "CFG_I2C_SYSTEST,I2C System Test Register." bitfld.long 0x18 15. "ST_EN,System test enable" "0,1" bitfld.long 0x18 14. "FREE,Free running mode [on breakpoint]" "0,1" bitfld.long 0x18 12.--13. "TMODE,Test mode select" "0,1,2,3" bitfld.long 0x18 11. "SSB,Set status bits" "0,1" newline rbitfld.long 0x18 8. "SCL_I_FUNC,SCL line input value [functional mode]" "0,1" rbitfld.long 0x18 7. "SCL_O_FUNC,SCL line output value [functional mode]" "0,1" rbitfld.long 0x18 6. "SDA_I_FUNC,SDA line input value [functional mode]" "0,1" rbitfld.long 0x18 5. "SDA_O_FUNC,SDA line output value [functional mode]" "0,1" newline bitfld.long 0x18 4. "SCCB_E_O,SCCB_E line sense output value" "0,1" rbitfld.long 0x18 3. "SCL_I,SCL line sense input value" "0,1" bitfld.long 0x18 2. "SCL_O,SCL line drive output value" "0,1" rbitfld.long 0x18 1. "SDA_I,SDA line sense input value" "0,1" newline bitfld.long 0x18 0. "SDA_O,SDA line drive output value" "0,1" rgroup.long 0xC0++0x3 line.long 0x0 "CFG_I2C_BUFSTAT,I2C Buffer Status Register." bitfld.long 0x0 14.--15. "FIFODEPTH,Internal FIFO buffers depth" "0,1,2,3" hexmask.long.byte 0x0 8.--13. 1. "RXSTAT,RX Buffer Status" hexmask.long.byte 0x0 0.--5. 1. "TXSTAT,TX Buffer Status" group.long 0xC4++0xB line.long 0x0 "CFG_I2C_OA1,I2C Own Address 1 Register" hexmask.long.word 0x0 0.--9. 1. "OA1,Own address 1" line.long 0x4 "CFG_I2C_OA2,I2C Own Address 2" hexmask.long.word 0x4 0.--9. 1. "OA2,Own address 2" line.long 0x8 "CFG_I2C_OA3,I2C Own Address 3 Register" hexmask.long.word 0x8 0.--9. 1. "OA3,Own address 3" rgroup.long 0xD0++0x3 line.long 0x0 "CFG_I2C_ACTOA,I2C Active Own Address Register." bitfld.long 0x0 3. "OA3_ACT,Own Address 3 active" "0,1" bitfld.long 0x0 2. "OA2_ACT,Own Address 2 active" "0,1" bitfld.long 0x0 1. "OA1_ACT,Own Address 1 active" "0,1" bitfld.long 0x0 0. "OA0_ACT,Own Address 0 active" "0,1" group.long 0xD4++0x3 line.long 0x0 "CFG_I2C_SBLOCK,I2C Clock Blocking Enable Register." bitfld.long 0x0 3. "OA3_EN,Enable I2C Clock Blocking for Own Address 3" "0,1" bitfld.long 0x0 2. "OA2_EN,Enable I2C Clock Blocking for Own Address 2" "0,1" bitfld.long 0x0 1. "OA1_EN,Enable I2C Clock Blocking for Own Address 1" "0,1" bitfld.long 0x0 0. "OA0_EN,Enable I2C Clock Blocking for Own Address 0" "0,1" tree.end tree.end tree "MAILBOX0_MAILBOX_CLUSTER" base ad:0x0 tree "MAILBOX0_MAILBOX_CLUSTER_0_REGS0 (MAILBOX0_MAILBOX_CLUSTER_0_REGS0)" base ad:0x29000000 rgroup.long 0x0++0x3 line.long 0x0 "REGS0_MAILBOX_ID,This is the standard TI peripheral ID register that exists at address 0 in the peripheral space" bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish which ID numbering scheme is used." "0,1,2,3" bitfld.long 0x0 28.--29. "BU,BU identifier" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION,Module family." hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,RTL version. R of X.Y.R.Z" newline bitfld.long 0x0 8.--10. "MAJOR_REV,Major revision. X of X.Y.R.Z" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Special version number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV,Minor revision. Y of X.Y.R.Z" group.long 0x10++0x3 line.long 0x0 "REGS0_MAILBOX_SYSCONFIG,This register contains parameters to control the whole Mailbox system. Provided for backwards compatibility with OMAP Mailbox. Only contains the soft reset." bitfld.long 0x0 0. "SOFT_RESET,Module Software Reset The bit is automatically reset by the hardware. During reads it always returns 0. It has the same effect as the hardware reset. Writing a 0 has no effect. Writing a 1 will start a soft reset sequence and empty all the.." "0,1" group.long 0x40++0x3 line.long 0x0 "REGS0_MAILBOX_MESSAGE,The message register stores the next to-be-read message of the mailbox." hexmask.long 0x0 0.--31. 1. "MESSAGE_VALUE,Message in Mailbox [a]" rgroup.long 0x80++0x3 line.long 0x0 "REGS0_MAILBOX_FIFOSTATUS,The FIFO status register has the status of the Mailbox[a] FIFO" bitfld.long 0x0 0. "FIFO_FULL,Full flag for Mailbox m" "0,1" rgroup.long 0xC0++0x3 line.long 0x0 "REGS0_MAILBOX_MSGSTATUS,The message status register has the status of the messages in Mailbox[a]" bitfld.long 0x0 0.--2. "NUM_MESSAGES,Number of messages in Mailbox[a]" "0,1,2,3,4,5,6,7" wgroup.long 0x140++0x3 line.long 0x0 "REGS0_MAILBOX_IRQ_EOI,This is the EOI register with which the software is enabled to do the interrupt clearance." bitfld.long 0x0 3. "EOI3,Software EOI signal for the user 3 interrupt" "0,1" bitfld.long 0x0 2. "EOI2,Software EOI signal for the user 2 interrupt" "0,1" bitfld.long 0x0 1. "EOI1,Software EOI signal for the user 1 interrupt" "0,1" bitfld.long 0x0 0. "EOI0,Software EOI signal for the user 0 interrupt" "0,1" group.long 0x100++0xF line.long 0x0 "REGS0_MAILBOX_IRQ_STATUS_RAW,The interrupt status register has the status for each event that may be responsible for the generation of an interrupt to the corresponding user ." bitfld.long 0x0 31. "NOTFULLSTATUSMB15,1 if Mailbox 15 is not full" "0,1" bitfld.long 0x0 30. "NEWMSGSTATUSMB15,1 if there are messages present in Mailbox 15" "0,1" bitfld.long 0x0 29. "NOTFULLSTATUSMB14,1 if Mailbox 14 is not full" "0,1" bitfld.long 0x0 28. "NEWMSGSTATUSMB14,1 if there are messages present in Mailbox 14" "0,1" newline bitfld.long 0x0 27. "NOTFULLSTATUSMB13,1 if Mailbox 13 is not full" "0,1" bitfld.long 0x0 26. "NEWMSGSTATUSMB13,1 if there are messages present in Mailbox 13" "0,1" bitfld.long 0x0 25. "NOTFULLSTATUSMB12,1 if Mailbox 12 is not full" "0,1" bitfld.long 0x0 24. "NEWMSGSTATUSMB12,1 if there are messages present in Mailbox 12" "0,1" newline bitfld.long 0x0 23. "NOTFULLSTATUSMB11,1 if Mailbox 11 is not full" "0,1" bitfld.long 0x0 22. "NEWMSGSTATUSMB11,1 if there are messages present in Mailbox 11" "0,1" bitfld.long 0x0 21. "NOTFULLSTATUSMB10,1 if Mailbox 10 is not full" "0,1" bitfld.long 0x0 20. "NEWMSGSTATUSMB10,1 if there are messages present in Mailbox 10" "0,1" newline bitfld.long 0x0 19. "NOTFULLSTATUSMB9,1 if Mailbox 9 is not full" "0,1" bitfld.long 0x0 18. "NEWMSGSTATUSMB9,1 if there are messages present in Mailbox 9" "0,1" bitfld.long 0x0 17. "NOTFULLSTATUSMB8,1 if Mailbox 8 is not full" "0,1" bitfld.long 0x0 16. "NEWMSGSTATUSMB8,1 if there are messages present in Mailbox 8" "0,1" newline bitfld.long 0x0 15. "NOTFULLSTATUSMB7,1 if Mailbox 7 is not full" "0,1" bitfld.long 0x0 14. "NEWMSGSTATUSMB7,1 if there are messages present in Mailbox 7" "0,1" bitfld.long 0x0 13. "NOTFULLSTATUSMB6,1 if Mailbox 6 is not full" "0,1" bitfld.long 0x0 12. "NEWMSGSTATUSMB6,1 if there are messages present in Mailbox 6" "0,1" newline bitfld.long 0x0 11. "NOTFULLSTATUSMB5,1 if Mailbox 5 is not full" "0,1" bitfld.long 0x0 10. "NEWMSGSTATUSMB5,1 if there are messages present in Mailbox 5" "0,1" bitfld.long 0x0 9. "NOTFULLSTATUSMB4,1 if Mailbox 4 is not full" "0,1" bitfld.long 0x0 8. "NEWMSGSTATUSMB4,1 if there are messages present in Mailbox 4" "0,1" newline bitfld.long 0x0 7. "NOTFULLSTATUSMB3,1 if Mailbox 3 is not full" "0,1" bitfld.long 0x0 6. "NEWMSGSTATUSMB3,1 if there are messages present in Mailbox 3" "0,1" bitfld.long 0x0 5. "NOTFULLSTATUSMB2,1 if Mailbox 2 is not full" "0,1" bitfld.long 0x0 4. "NEWMSGSTATUSMB2,1 if there are messages present in Mailbox 2" "0,1" newline bitfld.long 0x0 3. "NOTFULLSTATUSMB1,1 if Mailbox 1 is not full" "0,1" bitfld.long 0x0 2. "NEWMSGSTATUSMB1,1 if there are messages present in Mailbox 1" "0,1" bitfld.long 0x0 1. "NOTFULLSTATUSMB0,1 if Mailbox 0 is not full" "0,1" bitfld.long 0x0 0. "NEWMSGSTATUSMB0,1 if there are messages present in Mailbox 0" "0,1" line.long 0x4 "REGS0_MAILBOX_IRQ_STATUS_CLR,The interrupt status register has the status for each event that may be responsible for the generation of an interrupt to the corresponding user combined with the corresponding MASK information." bitfld.long 0x4 31. "NOTFULLSTATUSMB15,1 if Mailbox 15 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 30. "NEWMSGSTATUSMB15,1 if there are messages present in Mailbox 15 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 29. "NOTFULLSTATUSMB14,1 if Mailbox 14 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 28. "NEWMSGSTATUSMB14,1 if there are messages present in Mailbox 14 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 27. "NOTFULLSTATUSMB13,1 if Mailbox 13 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 26. "NEWMSGSTATUSMB13,1 if there are messages present in Mailbox 13 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 25. "NOTFULLSTATUSMB12,1 if Mailbox 12 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 24. "NEWMSGSTATUSMB12,1 if there are messages present in Mailbox 12 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 23. "NOTFULLSTATUSMB11,1 if Mailbox 11 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 22. "NEWMSGSTATUSMB11,1 if there are messages present in Mailbox 11 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 21. "NOTFULLSTATUSMB10,1 if Mailbox 10 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 20. "NEWMSGSTATUSMB10,1 if there are messages present in Mailbox 10 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 19. "NOTFULLSTATUSMB9,1 if Mailbox 9 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 18. "NEWMSGSTATUSMB9,1 if there are messages present in Mailbox 9 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 17. "NOTFULLSTATUSMB8,1 if Mailbox 8 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 16. "NEWMSGSTATUSMB8,1 if there are messages present in Mailbox 8 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 15. "NOTFULLSTATUSMB7,1 if Mailbox 7 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 14. "NEWMSGSTATUSMB7,1 if there are messages present in Mailbox 7 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 13. "NOTFULLSTATUSMB6,1 if Mailbox 6 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 12. "NEWMSGSTATUSMB6,1 if there are messages present in Mailbox 6 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 11. "NOTFULLSTATUSMB5,1 if Mailbox 5 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 10. "NEWMSGSTATUSMB5,1 if there are messages present in Mailbox 5 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 9. "NOTFULLSTATUSMB4,1 if Mailbox 4 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 8. "NEWMSGSTATUSMB4,1 if there are messages present in Mailbox 4 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 7. "NOTFULLSTATUSMB3,1 if Mailbox 3 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 6. "NEWMSGSTATUSMB3,1 if there are messages present in Mailbox 3 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 5. "NOTFULLSTATUSMB2,1 if Mailbox 2 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 4. "NEWMSGSTATUSMB2,1 if there are messages present in Mailbox 2 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 3. "NOTFULLSTATUSMB1,1 if Mailbox 1 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 2. "NEWMSGSTATUSMB1,1 if there are messages present in Mailbox 1 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 1. "NOTFULLSTATUSMB0,1 if Mailbox 0 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 0. "NEWMSGSTATUSMB0,1 if there are messages present in Mailbox 0 and this interrupt bit is enabled" "0,1" line.long 0x8 "REGS0_MAILBOX_IRQ_ENABLE_SET,The interrupt enable register allows software to mask/unmask the module internal source of interrupt for the user [a]." bitfld.long 0x8 31. "NOTFULLENABLEMB15,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 30. "NEWMSGENABLEMB15,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 29. "NOTFULLENABLEMB14,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 28. "NEWMSGENABLEMB14,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 27. "NOTFULLENABLEMB13,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 26. "NEWMSGENABLEMB13,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 25. "NOTFULLENABLEMB12,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 24. "NEWMSGENABLEMB12,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 23. "NOTFULLENABLEMB11,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 22. "NEWMSGENABLEMB11,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 21. "NOTFULLENABLEMB10,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 20. "NEWMSGENABLEMB10,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 19. "NOTFULLENABLEMB9,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 18. "NEWMSGENABLEMB9,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 17. "NOTFULLENABLEMB8,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 16. "NEWMSGENABLEMB8,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 15. "NOTFULLENABLEMB7,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 14. "NEWMSGENABLEMB7,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 13. "NOTFULLENABLEMB6,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 12. "NEWMSGENABLEMB6,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 11. "NOTFULLENABLEMB5,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 10. "NEWMSGENABLEMB5,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 9. "NOTFULLENABLEMB4,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 8. "NEWMSGENABLEMB4,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 7. "NOTFULLENABLEMB3,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 6. "NEWMSGENABLEMB3,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 5. "NOTFULLENABLEMB2,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 4. "NEWMSGENABLEMB2,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 3. "NOTFULLENABLEMB1,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 2. "NEWMSGENABLEMB1,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 1. "NOTFULLENABLEMB0,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 0. "NEWMSGENABLEMB0,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" line.long 0xC "REGS0_MAILBOX_IRQ_ENABLE_CLR,The interrupt enable register allows software to mask/unmask the module internal source of interrupt for the user [a]." bitfld.long 0xC 31. "NOTFULLENABLEMB15,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 30. "NEWMSGENABLEMB15,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 29. "NOTFULLENABLEMB14,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 28. "NEWMSGENABLEMB14,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 27. "NOTFULLENABLEMB13,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 26. "NEWMSGENABLEMB13,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 25. "NOTFULLENABLEMB12,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 24. "NEWMSGENABLEMB12,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 23. "NOTFULLENABLEMB11,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 22. "NEWMSGENABLEMB11,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 21. "NOTFULLENABLEMB10,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 20. "NEWMSGENABLEMB10,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 19. "NOTFULLENABLEMB9,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 18. "NEWMSGENABLEMB9,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 17. "NOTFULLENABLEMB8,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 16. "NEWMSGENABLEMB8,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 15. "NOTFULLENABLEMB7,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 14. "NEWMSGENABLEMB7,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 13. "NOTFULLENABLEMB6,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 12. "NEWMSGENABLEMB6,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 11. "NOTFULLENABLEMB5,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 10. "NEWMSGENABLEMB5,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 9. "NOTFULLENABLEMB4,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 8. "NEWMSGENABLEMB4,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 7. "NOTFULLENABLEMB3,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 6. "NEWMSGENABLEMB3,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 5. "NOTFULLENABLEMB2,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 4. "NEWMSGENABLEMB2,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 3. "NOTFULLENABLEMB1,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 2. "NEWMSGENABLEMB1,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 1. "NOTFULLENABLEMB0,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 0. "NEWMSGENABLEMB0,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" tree.end tree "MAILBOX0_MAILBOX_CLUSTER_1_REGS1 (MAILBOX0_MAILBOX_CLUSTER_1_REGS1)" base ad:0x29010000 rgroup.long 0x0++0x3 line.long 0x0 "REGS1_MAILBOX_ID,This is the standard TI peripheral ID register that exists at address 0 in the peripheral space" bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish which ID numbering scheme is used." "0,1,2,3" bitfld.long 0x0 28.--29. "BU,BU identifier" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION,Module family." hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,RTL version. R of X.Y.R.Z" newline bitfld.long 0x0 8.--10. "MAJOR_REV,Major revision. X of X.Y.R.Z" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Special version number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV,Minor revision. Y of X.Y.R.Z" group.long 0x10++0x3 line.long 0x0 "REGS1_MAILBOX_SYSCONFIG,This register contains parameters to control the whole Mailbox system. Provided for backwards compatibility with OMAP Mailbox. Only contains the soft reset." bitfld.long 0x0 0. "SOFT_RESET,Module Software Reset The bit is automatically reset by the hardware. During reads it always returns 0. It has the same effect as the hardware reset. Writing a 0 has no effect. Writing a 1 will start a soft reset sequence and empty all the.." "0,1" group.long 0x40++0x3 line.long 0x0 "REGS1_MAILBOX_MESSAGE,The message register stores the next to-be-read message of the mailbox." hexmask.long 0x0 0.--31. 1. "MESSAGE_VALUE,Message in Mailbox [a]" rgroup.long 0x80++0x3 line.long 0x0 "REGS1_MAILBOX_FIFOSTATUS,The FIFO status register has the status of the Mailbox[a] FIFO" bitfld.long 0x0 0. "FIFO_FULL,Full flag for Mailbox m" "0,1" rgroup.long 0xC0++0x3 line.long 0x0 "REGS1_MAILBOX_MSGSTATUS,The message status register has the status of the messages in Mailbox[a]" bitfld.long 0x0 0.--2. "NUM_MESSAGES,Number of messages in Mailbox[a]" "0,1,2,3,4,5,6,7" wgroup.long 0x140++0x3 line.long 0x0 "REGS1_MAILBOX_IRQ_EOI,This is the EOI register with which the software is enabled to do the interrupt clearance." bitfld.long 0x0 3. "EOI3,Software EOI signal for the user 3 interrupt" "0,1" bitfld.long 0x0 2. "EOI2,Software EOI signal for the user 2 interrupt" "0,1" bitfld.long 0x0 1. "EOI1,Software EOI signal for the user 1 interrupt" "0,1" bitfld.long 0x0 0. "EOI0,Software EOI signal for the user 0 interrupt" "0,1" group.long 0x100++0xF line.long 0x0 "REGS1_MAILBOX_IRQ_STATUS_RAW,The interrupt status register has the status for each event that may be responsible for the generation of an interrupt to the corresponding user ." bitfld.long 0x0 31. "NOTFULLSTATUSMB15,1 if Mailbox 15 is not full" "0,1" bitfld.long 0x0 30. "NEWMSGSTATUSMB15,1 if there are messages present in Mailbox 15" "0,1" bitfld.long 0x0 29. "NOTFULLSTATUSMB14,1 if Mailbox 14 is not full" "0,1" bitfld.long 0x0 28. "NEWMSGSTATUSMB14,1 if there are messages present in Mailbox 14" "0,1" newline bitfld.long 0x0 27. "NOTFULLSTATUSMB13,1 if Mailbox 13 is not full" "0,1" bitfld.long 0x0 26. "NEWMSGSTATUSMB13,1 if there are messages present in Mailbox 13" "0,1" bitfld.long 0x0 25. "NOTFULLSTATUSMB12,1 if Mailbox 12 is not full" "0,1" bitfld.long 0x0 24. "NEWMSGSTATUSMB12,1 if there are messages present in Mailbox 12" "0,1" newline bitfld.long 0x0 23. "NOTFULLSTATUSMB11,1 if Mailbox 11 is not full" "0,1" bitfld.long 0x0 22. "NEWMSGSTATUSMB11,1 if there are messages present in Mailbox 11" "0,1" bitfld.long 0x0 21. "NOTFULLSTATUSMB10,1 if Mailbox 10 is not full" "0,1" bitfld.long 0x0 20. "NEWMSGSTATUSMB10,1 if there are messages present in Mailbox 10" "0,1" newline bitfld.long 0x0 19. "NOTFULLSTATUSMB9,1 if Mailbox 9 is not full" "0,1" bitfld.long 0x0 18. "NEWMSGSTATUSMB9,1 if there are messages present in Mailbox 9" "0,1" bitfld.long 0x0 17. "NOTFULLSTATUSMB8,1 if Mailbox 8 is not full" "0,1" bitfld.long 0x0 16. "NEWMSGSTATUSMB8,1 if there are messages present in Mailbox 8" "0,1" newline bitfld.long 0x0 15. "NOTFULLSTATUSMB7,1 if Mailbox 7 is not full" "0,1" bitfld.long 0x0 14. "NEWMSGSTATUSMB7,1 if there are messages present in Mailbox 7" "0,1" bitfld.long 0x0 13. "NOTFULLSTATUSMB6,1 if Mailbox 6 is not full" "0,1" bitfld.long 0x0 12. "NEWMSGSTATUSMB6,1 if there are messages present in Mailbox 6" "0,1" newline bitfld.long 0x0 11. "NOTFULLSTATUSMB5,1 if Mailbox 5 is not full" "0,1" bitfld.long 0x0 10. "NEWMSGSTATUSMB5,1 if there are messages present in Mailbox 5" "0,1" bitfld.long 0x0 9. "NOTFULLSTATUSMB4,1 if Mailbox 4 is not full" "0,1" bitfld.long 0x0 8. "NEWMSGSTATUSMB4,1 if there are messages present in Mailbox 4" "0,1" newline bitfld.long 0x0 7. "NOTFULLSTATUSMB3,1 if Mailbox 3 is not full" "0,1" bitfld.long 0x0 6. "NEWMSGSTATUSMB3,1 if there are messages present in Mailbox 3" "0,1" bitfld.long 0x0 5. "NOTFULLSTATUSMB2,1 if Mailbox 2 is not full" "0,1" bitfld.long 0x0 4. "NEWMSGSTATUSMB2,1 if there are messages present in Mailbox 2" "0,1" newline bitfld.long 0x0 3. "NOTFULLSTATUSMB1,1 if Mailbox 1 is not full" "0,1" bitfld.long 0x0 2. "NEWMSGSTATUSMB1,1 if there are messages present in Mailbox 1" "0,1" bitfld.long 0x0 1. "NOTFULLSTATUSMB0,1 if Mailbox 0 is not full" "0,1" bitfld.long 0x0 0. "NEWMSGSTATUSMB0,1 if there are messages present in Mailbox 0" "0,1" line.long 0x4 "REGS1_MAILBOX_IRQ_STATUS_CLR,The interrupt status register has the status for each event that may be responsible for the generation of an interrupt to the corresponding user combined with the corresponding MASK information." bitfld.long 0x4 31. "NOTFULLSTATUSMB15,1 if Mailbox 15 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 30. "NEWMSGSTATUSMB15,1 if there are messages present in Mailbox 15 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 29. "NOTFULLSTATUSMB14,1 if Mailbox 14 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 28. "NEWMSGSTATUSMB14,1 if there are messages present in Mailbox 14 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 27. "NOTFULLSTATUSMB13,1 if Mailbox 13 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 26. "NEWMSGSTATUSMB13,1 if there are messages present in Mailbox 13 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 25. "NOTFULLSTATUSMB12,1 if Mailbox 12 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 24. "NEWMSGSTATUSMB12,1 if there are messages present in Mailbox 12 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 23. "NOTFULLSTATUSMB11,1 if Mailbox 11 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 22. "NEWMSGSTATUSMB11,1 if there are messages present in Mailbox 11 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 21. "NOTFULLSTATUSMB10,1 if Mailbox 10 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 20. "NEWMSGSTATUSMB10,1 if there are messages present in Mailbox 10 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 19. "NOTFULLSTATUSMB9,1 if Mailbox 9 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 18. "NEWMSGSTATUSMB9,1 if there are messages present in Mailbox 9 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 17. "NOTFULLSTATUSMB8,1 if Mailbox 8 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 16. "NEWMSGSTATUSMB8,1 if there are messages present in Mailbox 8 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 15. "NOTFULLSTATUSMB7,1 if Mailbox 7 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 14. "NEWMSGSTATUSMB7,1 if there are messages present in Mailbox 7 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 13. "NOTFULLSTATUSMB6,1 if Mailbox 6 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 12. "NEWMSGSTATUSMB6,1 if there are messages present in Mailbox 6 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 11. "NOTFULLSTATUSMB5,1 if Mailbox 5 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 10. "NEWMSGSTATUSMB5,1 if there are messages present in Mailbox 5 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 9. "NOTFULLSTATUSMB4,1 if Mailbox 4 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 8. "NEWMSGSTATUSMB4,1 if there are messages present in Mailbox 4 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 7. "NOTFULLSTATUSMB3,1 if Mailbox 3 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 6. "NEWMSGSTATUSMB3,1 if there are messages present in Mailbox 3 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 5. "NOTFULLSTATUSMB2,1 if Mailbox 2 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 4. "NEWMSGSTATUSMB2,1 if there are messages present in Mailbox 2 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 3. "NOTFULLSTATUSMB1,1 if Mailbox 1 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 2. "NEWMSGSTATUSMB1,1 if there are messages present in Mailbox 1 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 1. "NOTFULLSTATUSMB0,1 if Mailbox 0 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 0. "NEWMSGSTATUSMB0,1 if there are messages present in Mailbox 0 and this interrupt bit is enabled" "0,1" line.long 0x8 "REGS1_MAILBOX_IRQ_ENABLE_SET,The interrupt enable register allows software to mask/unmask the module internal source of interrupt for the user [a]." bitfld.long 0x8 31. "NOTFULLENABLEMB15,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 30. "NEWMSGENABLEMB15,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 29. "NOTFULLENABLEMB14,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 28. "NEWMSGENABLEMB14,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 27. "NOTFULLENABLEMB13,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 26. "NEWMSGENABLEMB13,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 25. "NOTFULLENABLEMB12,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 24. "NEWMSGENABLEMB12,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 23. "NOTFULLENABLEMB11,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 22. "NEWMSGENABLEMB11,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 21. "NOTFULLENABLEMB10,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 20. "NEWMSGENABLEMB10,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 19. "NOTFULLENABLEMB9,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 18. "NEWMSGENABLEMB9,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 17. "NOTFULLENABLEMB8,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 16. "NEWMSGENABLEMB8,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 15. "NOTFULLENABLEMB7,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 14. "NEWMSGENABLEMB7,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 13. "NOTFULLENABLEMB6,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 12. "NEWMSGENABLEMB6,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 11. "NOTFULLENABLEMB5,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 10. "NEWMSGENABLEMB5,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 9. "NOTFULLENABLEMB4,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 8. "NEWMSGENABLEMB4,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 7. "NOTFULLENABLEMB3,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 6. "NEWMSGENABLEMB3,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 5. "NOTFULLENABLEMB2,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 4. "NEWMSGENABLEMB2,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 3. "NOTFULLENABLEMB1,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 2. "NEWMSGENABLEMB1,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 1. "NOTFULLENABLEMB0,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 0. "NEWMSGENABLEMB0,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" line.long 0xC "REGS1_MAILBOX_IRQ_ENABLE_CLR,The interrupt enable register allows software to mask/unmask the module internal source of interrupt for the user [a]." bitfld.long 0xC 31. "NOTFULLENABLEMB15,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 30. "NEWMSGENABLEMB15,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 29. "NOTFULLENABLEMB14,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 28. "NEWMSGENABLEMB14,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 27. "NOTFULLENABLEMB13,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 26. "NEWMSGENABLEMB13,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 25. "NOTFULLENABLEMB12,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 24. "NEWMSGENABLEMB12,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 23. "NOTFULLENABLEMB11,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 22. "NEWMSGENABLEMB11,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 21. "NOTFULLENABLEMB10,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 20. "NEWMSGENABLEMB10,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 19. "NOTFULLENABLEMB9,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 18. "NEWMSGENABLEMB9,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 17. "NOTFULLENABLEMB8,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 16. "NEWMSGENABLEMB8,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 15. "NOTFULLENABLEMB7,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 14. "NEWMSGENABLEMB7,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 13. "NOTFULLENABLEMB6,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 12. "NEWMSGENABLEMB6,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 11. "NOTFULLENABLEMB5,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 10. "NEWMSGENABLEMB5,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 9. "NOTFULLENABLEMB4,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 8. "NEWMSGENABLEMB4,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 7. "NOTFULLENABLEMB3,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 6. "NEWMSGENABLEMB3,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 5. "NOTFULLENABLEMB2,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 4. "NEWMSGENABLEMB2,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 3. "NOTFULLENABLEMB1,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 2. "NEWMSGENABLEMB1,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 1. "NOTFULLENABLEMB0,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 0. "NEWMSGENABLEMB0,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" tree.end tree "MAILBOX0_MAILBOX_CLUSTER_2_REGS2 (MAILBOX0_MAILBOX_CLUSTER_2_REGS2)" base ad:0x29020000 rgroup.long 0x0++0x3 line.long 0x0 "REGS2_MAILBOX_ID,This is the standard TI peripheral ID register that exists at address 0 in the peripheral space" bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish which ID numbering scheme is used." "0,1,2,3" bitfld.long 0x0 28.--29. "BU,BU identifier" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION,Module family." hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,RTL version. R of X.Y.R.Z" newline bitfld.long 0x0 8.--10. "MAJOR_REV,Major revision. X of X.Y.R.Z" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Special version number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV,Minor revision. Y of X.Y.R.Z" group.long 0x10++0x3 line.long 0x0 "REGS2_MAILBOX_SYSCONFIG,This register contains parameters to control the whole Mailbox system. Provided for backwards compatibility with OMAP Mailbox. Only contains the soft reset." bitfld.long 0x0 0. "SOFT_RESET,Module Software Reset The bit is automatically reset by the hardware. During reads it always returns 0. It has the same effect as the hardware reset. Writing a 0 has no effect. Writing a 1 will start a soft reset sequence and empty all the.." "0,1" group.long 0x40++0x3 line.long 0x0 "REGS2_MAILBOX_MESSAGE,The message register stores the next to-be-read message of the mailbox." hexmask.long 0x0 0.--31. 1. "MESSAGE_VALUE,Message in Mailbox [a]" rgroup.long 0x80++0x3 line.long 0x0 "REGS2_MAILBOX_FIFOSTATUS,The FIFO status register has the status of the Mailbox[a] FIFO" bitfld.long 0x0 0. "FIFO_FULL,Full flag for Mailbox m" "0,1" rgroup.long 0xC0++0x3 line.long 0x0 "REGS2_MAILBOX_MSGSTATUS,The message status register has the status of the messages in Mailbox[a]" bitfld.long 0x0 0.--2. "NUM_MESSAGES,Number of messages in Mailbox[a]" "0,1,2,3,4,5,6,7" wgroup.long 0x140++0x3 line.long 0x0 "REGS2_MAILBOX_IRQ_EOI,This is the EOI register with which the software is enabled to do the interrupt clearance." bitfld.long 0x0 3. "EOI3,Software EOI signal for the user 3 interrupt" "0,1" bitfld.long 0x0 2. "EOI2,Software EOI signal for the user 2 interrupt" "0,1" bitfld.long 0x0 1. "EOI1,Software EOI signal for the user 1 interrupt" "0,1" bitfld.long 0x0 0. "EOI0,Software EOI signal for the user 0 interrupt" "0,1" group.long 0x100++0xF line.long 0x0 "REGS2_MAILBOX_IRQ_STATUS_RAW,The interrupt status register has the status for each event that may be responsible for the generation of an interrupt to the corresponding user ." bitfld.long 0x0 31. "NOTFULLSTATUSMB15,1 if Mailbox 15 is not full" "0,1" bitfld.long 0x0 30. "NEWMSGSTATUSMB15,1 if there are messages present in Mailbox 15" "0,1" bitfld.long 0x0 29. "NOTFULLSTATUSMB14,1 if Mailbox 14 is not full" "0,1" bitfld.long 0x0 28. "NEWMSGSTATUSMB14,1 if there are messages present in Mailbox 14" "0,1" newline bitfld.long 0x0 27. "NOTFULLSTATUSMB13,1 if Mailbox 13 is not full" "0,1" bitfld.long 0x0 26. "NEWMSGSTATUSMB13,1 if there are messages present in Mailbox 13" "0,1" bitfld.long 0x0 25. "NOTFULLSTATUSMB12,1 if Mailbox 12 is not full" "0,1" bitfld.long 0x0 24. "NEWMSGSTATUSMB12,1 if there are messages present in Mailbox 12" "0,1" newline bitfld.long 0x0 23. "NOTFULLSTATUSMB11,1 if Mailbox 11 is not full" "0,1" bitfld.long 0x0 22. "NEWMSGSTATUSMB11,1 if there are messages present in Mailbox 11" "0,1" bitfld.long 0x0 21. "NOTFULLSTATUSMB10,1 if Mailbox 10 is not full" "0,1" bitfld.long 0x0 20. "NEWMSGSTATUSMB10,1 if there are messages present in Mailbox 10" "0,1" newline bitfld.long 0x0 19. "NOTFULLSTATUSMB9,1 if Mailbox 9 is not full" "0,1" bitfld.long 0x0 18. "NEWMSGSTATUSMB9,1 if there are messages present in Mailbox 9" "0,1" bitfld.long 0x0 17. "NOTFULLSTATUSMB8,1 if Mailbox 8 is not full" "0,1" bitfld.long 0x0 16. "NEWMSGSTATUSMB8,1 if there are messages present in Mailbox 8" "0,1" newline bitfld.long 0x0 15. "NOTFULLSTATUSMB7,1 if Mailbox 7 is not full" "0,1" bitfld.long 0x0 14. "NEWMSGSTATUSMB7,1 if there are messages present in Mailbox 7" "0,1" bitfld.long 0x0 13. "NOTFULLSTATUSMB6,1 if Mailbox 6 is not full" "0,1" bitfld.long 0x0 12. "NEWMSGSTATUSMB6,1 if there are messages present in Mailbox 6" "0,1" newline bitfld.long 0x0 11. "NOTFULLSTATUSMB5,1 if Mailbox 5 is not full" "0,1" bitfld.long 0x0 10. "NEWMSGSTATUSMB5,1 if there are messages present in Mailbox 5" "0,1" bitfld.long 0x0 9. "NOTFULLSTATUSMB4,1 if Mailbox 4 is not full" "0,1" bitfld.long 0x0 8. "NEWMSGSTATUSMB4,1 if there are messages present in Mailbox 4" "0,1" newline bitfld.long 0x0 7. "NOTFULLSTATUSMB3,1 if Mailbox 3 is not full" "0,1" bitfld.long 0x0 6. "NEWMSGSTATUSMB3,1 if there are messages present in Mailbox 3" "0,1" bitfld.long 0x0 5. "NOTFULLSTATUSMB2,1 if Mailbox 2 is not full" "0,1" bitfld.long 0x0 4. "NEWMSGSTATUSMB2,1 if there are messages present in Mailbox 2" "0,1" newline bitfld.long 0x0 3. "NOTFULLSTATUSMB1,1 if Mailbox 1 is not full" "0,1" bitfld.long 0x0 2. "NEWMSGSTATUSMB1,1 if there are messages present in Mailbox 1" "0,1" bitfld.long 0x0 1. "NOTFULLSTATUSMB0,1 if Mailbox 0 is not full" "0,1" bitfld.long 0x0 0. "NEWMSGSTATUSMB0,1 if there are messages present in Mailbox 0" "0,1" line.long 0x4 "REGS2_MAILBOX_IRQ_STATUS_CLR,The interrupt status register has the status for each event that may be responsible for the generation of an interrupt to the corresponding user combined with the corresponding MASK information." bitfld.long 0x4 31. "NOTFULLSTATUSMB15,1 if Mailbox 15 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 30. "NEWMSGSTATUSMB15,1 if there are messages present in Mailbox 15 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 29. "NOTFULLSTATUSMB14,1 if Mailbox 14 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 28. "NEWMSGSTATUSMB14,1 if there are messages present in Mailbox 14 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 27. "NOTFULLSTATUSMB13,1 if Mailbox 13 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 26. "NEWMSGSTATUSMB13,1 if there are messages present in Mailbox 13 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 25. "NOTFULLSTATUSMB12,1 if Mailbox 12 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 24. "NEWMSGSTATUSMB12,1 if there are messages present in Mailbox 12 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 23. "NOTFULLSTATUSMB11,1 if Mailbox 11 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 22. "NEWMSGSTATUSMB11,1 if there are messages present in Mailbox 11 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 21. "NOTFULLSTATUSMB10,1 if Mailbox 10 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 20. "NEWMSGSTATUSMB10,1 if there are messages present in Mailbox 10 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 19. "NOTFULLSTATUSMB9,1 if Mailbox 9 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 18. "NEWMSGSTATUSMB9,1 if there are messages present in Mailbox 9 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 17. "NOTFULLSTATUSMB8,1 if Mailbox 8 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 16. "NEWMSGSTATUSMB8,1 if there are messages present in Mailbox 8 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 15. "NOTFULLSTATUSMB7,1 if Mailbox 7 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 14. "NEWMSGSTATUSMB7,1 if there are messages present in Mailbox 7 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 13. "NOTFULLSTATUSMB6,1 if Mailbox 6 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 12. "NEWMSGSTATUSMB6,1 if there are messages present in Mailbox 6 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 11. "NOTFULLSTATUSMB5,1 if Mailbox 5 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 10. "NEWMSGSTATUSMB5,1 if there are messages present in Mailbox 5 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 9. "NOTFULLSTATUSMB4,1 if Mailbox 4 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 8. "NEWMSGSTATUSMB4,1 if there are messages present in Mailbox 4 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 7. "NOTFULLSTATUSMB3,1 if Mailbox 3 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 6. "NEWMSGSTATUSMB3,1 if there are messages present in Mailbox 3 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 5. "NOTFULLSTATUSMB2,1 if Mailbox 2 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 4. "NEWMSGSTATUSMB2,1 if there are messages present in Mailbox 2 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 3. "NOTFULLSTATUSMB1,1 if Mailbox 1 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 2. "NEWMSGSTATUSMB1,1 if there are messages present in Mailbox 1 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 1. "NOTFULLSTATUSMB0,1 if Mailbox 0 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 0. "NEWMSGSTATUSMB0,1 if there are messages present in Mailbox 0 and this interrupt bit is enabled" "0,1" line.long 0x8 "REGS2_MAILBOX_IRQ_ENABLE_SET,The interrupt enable register allows software to mask/unmask the module internal source of interrupt for the user [a]." bitfld.long 0x8 31. "NOTFULLENABLEMB15,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 30. "NEWMSGENABLEMB15,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 29. "NOTFULLENABLEMB14,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 28. "NEWMSGENABLEMB14,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 27. "NOTFULLENABLEMB13,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 26. "NEWMSGENABLEMB13,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 25. "NOTFULLENABLEMB12,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 24. "NEWMSGENABLEMB12,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 23. "NOTFULLENABLEMB11,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 22. "NEWMSGENABLEMB11,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 21. "NOTFULLENABLEMB10,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 20. "NEWMSGENABLEMB10,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 19. "NOTFULLENABLEMB9,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 18. "NEWMSGENABLEMB9,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 17. "NOTFULLENABLEMB8,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 16. "NEWMSGENABLEMB8,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 15. "NOTFULLENABLEMB7,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 14. "NEWMSGENABLEMB7,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 13. "NOTFULLENABLEMB6,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 12. "NEWMSGENABLEMB6,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 11. "NOTFULLENABLEMB5,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 10. "NEWMSGENABLEMB5,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 9. "NOTFULLENABLEMB4,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 8. "NEWMSGENABLEMB4,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 7. "NOTFULLENABLEMB3,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 6. "NEWMSGENABLEMB3,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 5. "NOTFULLENABLEMB2,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 4. "NEWMSGENABLEMB2,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 3. "NOTFULLENABLEMB1,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 2. "NEWMSGENABLEMB1,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 1. "NOTFULLENABLEMB0,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 0. "NEWMSGENABLEMB0,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" line.long 0xC "REGS2_MAILBOX_IRQ_ENABLE_CLR,The interrupt enable register allows software to mask/unmask the module internal source of interrupt for the user [a]." bitfld.long 0xC 31. "NOTFULLENABLEMB15,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 30. "NEWMSGENABLEMB15,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 29. "NOTFULLENABLEMB14,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 28. "NEWMSGENABLEMB14,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 27. "NOTFULLENABLEMB13,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 26. "NEWMSGENABLEMB13,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 25. "NOTFULLENABLEMB12,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 24. "NEWMSGENABLEMB12,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 23. "NOTFULLENABLEMB11,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 22. "NEWMSGENABLEMB11,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 21. "NOTFULLENABLEMB10,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 20. "NEWMSGENABLEMB10,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 19. "NOTFULLENABLEMB9,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 18. "NEWMSGENABLEMB9,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 17. "NOTFULLENABLEMB8,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 16. "NEWMSGENABLEMB8,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 15. "NOTFULLENABLEMB7,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 14. "NEWMSGENABLEMB7,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 13. "NOTFULLENABLEMB6,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 12. "NEWMSGENABLEMB6,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 11. "NOTFULLENABLEMB5,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 10. "NEWMSGENABLEMB5,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 9. "NOTFULLENABLEMB4,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 8. "NEWMSGENABLEMB4,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 7. "NOTFULLENABLEMB3,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 6. "NEWMSGENABLEMB3,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 5. "NOTFULLENABLEMB2,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 4. "NEWMSGENABLEMB2,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 3. "NOTFULLENABLEMB1,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 2. "NEWMSGENABLEMB1,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 1. "NOTFULLENABLEMB0,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 0. "NEWMSGENABLEMB0,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" tree.end tree "MAILBOX0_MAILBOX_CLUSTER_3_REGS3 (MAILBOX0_MAILBOX_CLUSTER_3_REGS3)" base ad:0x29030000 rgroup.long 0x0++0x3 line.long 0x0 "REGS3_MAILBOX_ID,This is the standard TI peripheral ID register that exists at address 0 in the peripheral space" bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish which ID numbering scheme is used." "0,1,2,3" bitfld.long 0x0 28.--29. "BU,BU identifier" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION,Module family." hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,RTL version. R of X.Y.R.Z" newline bitfld.long 0x0 8.--10. "MAJOR_REV,Major revision. X of X.Y.R.Z" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Special version number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV,Minor revision. Y of X.Y.R.Z" group.long 0x10++0x3 line.long 0x0 "REGS3_MAILBOX_SYSCONFIG,This register contains parameters to control the whole Mailbox system. Provided for backwards compatibility with OMAP Mailbox. Only contains the soft reset." bitfld.long 0x0 0. "SOFT_RESET,Module Software Reset The bit is automatically reset by the hardware. During reads it always returns 0. It has the same effect as the hardware reset. Writing a 0 has no effect. Writing a 1 will start a soft reset sequence and empty all the.." "0,1" group.long 0x40++0x3 line.long 0x0 "REGS3_MAILBOX_MESSAGE,The message register stores the next to-be-read message of the mailbox." hexmask.long 0x0 0.--31. 1. "MESSAGE_VALUE,Message in Mailbox [a]" rgroup.long 0x80++0x3 line.long 0x0 "REGS3_MAILBOX_FIFOSTATUS,The FIFO status register has the status of the Mailbox[a] FIFO" bitfld.long 0x0 0. "FIFO_FULL,Full flag for Mailbox m" "0,1" rgroup.long 0xC0++0x3 line.long 0x0 "REGS3_MAILBOX_MSGSTATUS,The message status register has the status of the messages in Mailbox[a]" bitfld.long 0x0 0.--2. "NUM_MESSAGES,Number of messages in Mailbox[a]" "0,1,2,3,4,5,6,7" wgroup.long 0x140++0x3 line.long 0x0 "REGS3_MAILBOX_IRQ_EOI,This is the EOI register with which the software is enabled to do the interrupt clearance." bitfld.long 0x0 3. "EOI3,Software EOI signal for the user 3 interrupt" "0,1" bitfld.long 0x0 2. "EOI2,Software EOI signal for the user 2 interrupt" "0,1" bitfld.long 0x0 1. "EOI1,Software EOI signal for the user 1 interrupt" "0,1" bitfld.long 0x0 0. "EOI0,Software EOI signal for the user 0 interrupt" "0,1" group.long 0x100++0xF line.long 0x0 "REGS3_MAILBOX_IRQ_STATUS_RAW,The interrupt status register has the status for each event that may be responsible for the generation of an interrupt to the corresponding user ." bitfld.long 0x0 31. "NOTFULLSTATUSMB15,1 if Mailbox 15 is not full" "0,1" bitfld.long 0x0 30. "NEWMSGSTATUSMB15,1 if there are messages present in Mailbox 15" "0,1" bitfld.long 0x0 29. "NOTFULLSTATUSMB14,1 if Mailbox 14 is not full" "0,1" bitfld.long 0x0 28. "NEWMSGSTATUSMB14,1 if there are messages present in Mailbox 14" "0,1" newline bitfld.long 0x0 27. "NOTFULLSTATUSMB13,1 if Mailbox 13 is not full" "0,1" bitfld.long 0x0 26. "NEWMSGSTATUSMB13,1 if there are messages present in Mailbox 13" "0,1" bitfld.long 0x0 25. "NOTFULLSTATUSMB12,1 if Mailbox 12 is not full" "0,1" bitfld.long 0x0 24. "NEWMSGSTATUSMB12,1 if there are messages present in Mailbox 12" "0,1" newline bitfld.long 0x0 23. "NOTFULLSTATUSMB11,1 if Mailbox 11 is not full" "0,1" bitfld.long 0x0 22. "NEWMSGSTATUSMB11,1 if there are messages present in Mailbox 11" "0,1" bitfld.long 0x0 21. "NOTFULLSTATUSMB10,1 if Mailbox 10 is not full" "0,1" bitfld.long 0x0 20. "NEWMSGSTATUSMB10,1 if there are messages present in Mailbox 10" "0,1" newline bitfld.long 0x0 19. "NOTFULLSTATUSMB9,1 if Mailbox 9 is not full" "0,1" bitfld.long 0x0 18. "NEWMSGSTATUSMB9,1 if there are messages present in Mailbox 9" "0,1" bitfld.long 0x0 17. "NOTFULLSTATUSMB8,1 if Mailbox 8 is not full" "0,1" bitfld.long 0x0 16. "NEWMSGSTATUSMB8,1 if there are messages present in Mailbox 8" "0,1" newline bitfld.long 0x0 15. "NOTFULLSTATUSMB7,1 if Mailbox 7 is not full" "0,1" bitfld.long 0x0 14. "NEWMSGSTATUSMB7,1 if there are messages present in Mailbox 7" "0,1" bitfld.long 0x0 13. "NOTFULLSTATUSMB6,1 if Mailbox 6 is not full" "0,1" bitfld.long 0x0 12. "NEWMSGSTATUSMB6,1 if there are messages present in Mailbox 6" "0,1" newline bitfld.long 0x0 11. "NOTFULLSTATUSMB5,1 if Mailbox 5 is not full" "0,1" bitfld.long 0x0 10. "NEWMSGSTATUSMB5,1 if there are messages present in Mailbox 5" "0,1" bitfld.long 0x0 9. "NOTFULLSTATUSMB4,1 if Mailbox 4 is not full" "0,1" bitfld.long 0x0 8. "NEWMSGSTATUSMB4,1 if there are messages present in Mailbox 4" "0,1" newline bitfld.long 0x0 7. "NOTFULLSTATUSMB3,1 if Mailbox 3 is not full" "0,1" bitfld.long 0x0 6. "NEWMSGSTATUSMB3,1 if there are messages present in Mailbox 3" "0,1" bitfld.long 0x0 5. "NOTFULLSTATUSMB2,1 if Mailbox 2 is not full" "0,1" bitfld.long 0x0 4. "NEWMSGSTATUSMB2,1 if there are messages present in Mailbox 2" "0,1" newline bitfld.long 0x0 3. "NOTFULLSTATUSMB1,1 if Mailbox 1 is not full" "0,1" bitfld.long 0x0 2. "NEWMSGSTATUSMB1,1 if there are messages present in Mailbox 1" "0,1" bitfld.long 0x0 1. "NOTFULLSTATUSMB0,1 if Mailbox 0 is not full" "0,1" bitfld.long 0x0 0. "NEWMSGSTATUSMB0,1 if there are messages present in Mailbox 0" "0,1" line.long 0x4 "REGS3_MAILBOX_IRQ_STATUS_CLR,The interrupt status register has the status for each event that may be responsible for the generation of an interrupt to the corresponding user combined with the corresponding MASK information." bitfld.long 0x4 31. "NOTFULLSTATUSMB15,1 if Mailbox 15 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 30. "NEWMSGSTATUSMB15,1 if there are messages present in Mailbox 15 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 29. "NOTFULLSTATUSMB14,1 if Mailbox 14 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 28. "NEWMSGSTATUSMB14,1 if there are messages present in Mailbox 14 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 27. "NOTFULLSTATUSMB13,1 if Mailbox 13 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 26. "NEWMSGSTATUSMB13,1 if there are messages present in Mailbox 13 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 25. "NOTFULLSTATUSMB12,1 if Mailbox 12 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 24. "NEWMSGSTATUSMB12,1 if there are messages present in Mailbox 12 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 23. "NOTFULLSTATUSMB11,1 if Mailbox 11 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 22. "NEWMSGSTATUSMB11,1 if there are messages present in Mailbox 11 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 21. "NOTFULLSTATUSMB10,1 if Mailbox 10 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 20. "NEWMSGSTATUSMB10,1 if there are messages present in Mailbox 10 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 19. "NOTFULLSTATUSMB9,1 if Mailbox 9 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 18. "NEWMSGSTATUSMB9,1 if there are messages present in Mailbox 9 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 17. "NOTFULLSTATUSMB8,1 if Mailbox 8 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 16. "NEWMSGSTATUSMB8,1 if there are messages present in Mailbox 8 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 15. "NOTFULLSTATUSMB7,1 if Mailbox 7 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 14. "NEWMSGSTATUSMB7,1 if there are messages present in Mailbox 7 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 13. "NOTFULLSTATUSMB6,1 if Mailbox 6 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 12. "NEWMSGSTATUSMB6,1 if there are messages present in Mailbox 6 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 11. "NOTFULLSTATUSMB5,1 if Mailbox 5 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 10. "NEWMSGSTATUSMB5,1 if there are messages present in Mailbox 5 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 9. "NOTFULLSTATUSMB4,1 if Mailbox 4 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 8. "NEWMSGSTATUSMB4,1 if there are messages present in Mailbox 4 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 7. "NOTFULLSTATUSMB3,1 if Mailbox 3 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 6. "NEWMSGSTATUSMB3,1 if there are messages present in Mailbox 3 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 5. "NOTFULLSTATUSMB2,1 if Mailbox 2 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 4. "NEWMSGSTATUSMB2,1 if there are messages present in Mailbox 2 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 3. "NOTFULLSTATUSMB1,1 if Mailbox 1 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 2. "NEWMSGSTATUSMB1,1 if there are messages present in Mailbox 1 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 1. "NOTFULLSTATUSMB0,1 if Mailbox 0 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 0. "NEWMSGSTATUSMB0,1 if there are messages present in Mailbox 0 and this interrupt bit is enabled" "0,1" line.long 0x8 "REGS3_MAILBOX_IRQ_ENABLE_SET,The interrupt enable register allows software to mask/unmask the module internal source of interrupt for the user [a]." bitfld.long 0x8 31. "NOTFULLENABLEMB15,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 30. "NEWMSGENABLEMB15,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 29. "NOTFULLENABLEMB14,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 28. "NEWMSGENABLEMB14,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 27. "NOTFULLENABLEMB13,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 26. "NEWMSGENABLEMB13,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 25. "NOTFULLENABLEMB12,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 24. "NEWMSGENABLEMB12,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 23. "NOTFULLENABLEMB11,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 22. "NEWMSGENABLEMB11,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 21. "NOTFULLENABLEMB10,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 20. "NEWMSGENABLEMB10,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 19. "NOTFULLENABLEMB9,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 18. "NEWMSGENABLEMB9,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 17. "NOTFULLENABLEMB8,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 16. "NEWMSGENABLEMB8,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 15. "NOTFULLENABLEMB7,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 14. "NEWMSGENABLEMB7,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 13. "NOTFULLENABLEMB6,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 12. "NEWMSGENABLEMB6,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 11. "NOTFULLENABLEMB5,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 10. "NEWMSGENABLEMB5,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 9. "NOTFULLENABLEMB4,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 8. "NEWMSGENABLEMB4,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 7. "NOTFULLENABLEMB3,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 6. "NEWMSGENABLEMB3,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 5. "NOTFULLENABLEMB2,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 4. "NEWMSGENABLEMB2,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 3. "NOTFULLENABLEMB1,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 2. "NEWMSGENABLEMB1,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 1. "NOTFULLENABLEMB0,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 0. "NEWMSGENABLEMB0,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" line.long 0xC "REGS3_MAILBOX_IRQ_ENABLE_CLR,The interrupt enable register allows software to mask/unmask the module internal source of interrupt for the user [a]." bitfld.long 0xC 31. "NOTFULLENABLEMB15,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 30. "NEWMSGENABLEMB15,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 29. "NOTFULLENABLEMB14,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 28. "NEWMSGENABLEMB14,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 27. "NOTFULLENABLEMB13,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 26. "NEWMSGENABLEMB13,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 25. "NOTFULLENABLEMB12,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 24. "NEWMSGENABLEMB12,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 23. "NOTFULLENABLEMB11,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 22. "NEWMSGENABLEMB11,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 21. "NOTFULLENABLEMB10,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 20. "NEWMSGENABLEMB10,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 19. "NOTFULLENABLEMB9,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 18. "NEWMSGENABLEMB9,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 17. "NOTFULLENABLEMB8,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 16. "NEWMSGENABLEMB8,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 15. "NOTFULLENABLEMB7,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 14. "NEWMSGENABLEMB7,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 13. "NOTFULLENABLEMB6,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 12. "NEWMSGENABLEMB6,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 11. "NOTFULLENABLEMB5,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 10. "NEWMSGENABLEMB5,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 9. "NOTFULLENABLEMB4,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 8. "NEWMSGENABLEMB4,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 7. "NOTFULLENABLEMB3,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 6. "NEWMSGENABLEMB3,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 5. "NOTFULLENABLEMB2,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 4. "NEWMSGENABLEMB2,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 3. "NOTFULLENABLEMB1,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 2. "NEWMSGENABLEMB1,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 1. "NOTFULLENABLEMB0,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 0. "NEWMSGENABLEMB0,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" tree.end tree "MAILBOX0_MAILBOX_CLUSTER_4_REGS4 (MAILBOX0_MAILBOX_CLUSTER_4_REGS4)" base ad:0x29040000 rgroup.long 0x0++0x3 line.long 0x0 "REGS4_MAILBOX_ID,This is the standard TI peripheral ID register that exists at address 0 in the peripheral space" bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish which ID numbering scheme is used." "0,1,2,3" bitfld.long 0x0 28.--29. "BU,BU identifier" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION,Module family." hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,RTL version. R of X.Y.R.Z" newline bitfld.long 0x0 8.--10. "MAJOR_REV,Major revision. X of X.Y.R.Z" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Special version number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV,Minor revision. Y of X.Y.R.Z" group.long 0x10++0x3 line.long 0x0 "REGS4_MAILBOX_SYSCONFIG,This register contains parameters to control the whole Mailbox system. Provided for backwards compatibility with OMAP Mailbox. Only contains the soft reset." bitfld.long 0x0 0. "SOFT_RESET,Module Software Reset The bit is automatically reset by the hardware. During reads it always returns 0. It has the same effect as the hardware reset. Writing a 0 has no effect. Writing a 1 will start a soft reset sequence and empty all the.." "0,1" group.long 0x40++0x3 line.long 0x0 "REGS4_MAILBOX_MESSAGE,The message register stores the next to-be-read message of the mailbox." hexmask.long 0x0 0.--31. 1. "MESSAGE_VALUE,Message in Mailbox [a]" rgroup.long 0x80++0x3 line.long 0x0 "REGS4_MAILBOX_FIFOSTATUS,The FIFO status register has the status of the Mailbox[a] FIFO" bitfld.long 0x0 0. "FIFO_FULL,Full flag for Mailbox m" "0,1" rgroup.long 0xC0++0x3 line.long 0x0 "REGS4_MAILBOX_MSGSTATUS,The message status register has the status of the messages in Mailbox[a]" bitfld.long 0x0 0.--2. "NUM_MESSAGES,Number of messages in Mailbox[a]" "0,1,2,3,4,5,6,7" wgroup.long 0x140++0x3 line.long 0x0 "REGS4_MAILBOX_IRQ_EOI,This is the EOI register with which the software is enabled to do the interrupt clearance." bitfld.long 0x0 3. "EOI3,Software EOI signal for the user 3 interrupt" "0,1" bitfld.long 0x0 2. "EOI2,Software EOI signal for the user 2 interrupt" "0,1" bitfld.long 0x0 1. "EOI1,Software EOI signal for the user 1 interrupt" "0,1" bitfld.long 0x0 0. "EOI0,Software EOI signal for the user 0 interrupt" "0,1" group.long 0x100++0xF line.long 0x0 "REGS4_MAILBOX_IRQ_STATUS_RAW,The interrupt status register has the status for each event that may be responsible for the generation of an interrupt to the corresponding user ." bitfld.long 0x0 31. "NOTFULLSTATUSMB15,1 if Mailbox 15 is not full" "0,1" bitfld.long 0x0 30. "NEWMSGSTATUSMB15,1 if there are messages present in Mailbox 15" "0,1" bitfld.long 0x0 29. "NOTFULLSTATUSMB14,1 if Mailbox 14 is not full" "0,1" bitfld.long 0x0 28. "NEWMSGSTATUSMB14,1 if there are messages present in Mailbox 14" "0,1" newline bitfld.long 0x0 27. "NOTFULLSTATUSMB13,1 if Mailbox 13 is not full" "0,1" bitfld.long 0x0 26. "NEWMSGSTATUSMB13,1 if there are messages present in Mailbox 13" "0,1" bitfld.long 0x0 25. "NOTFULLSTATUSMB12,1 if Mailbox 12 is not full" "0,1" bitfld.long 0x0 24. "NEWMSGSTATUSMB12,1 if there are messages present in Mailbox 12" "0,1" newline bitfld.long 0x0 23. "NOTFULLSTATUSMB11,1 if Mailbox 11 is not full" "0,1" bitfld.long 0x0 22. "NEWMSGSTATUSMB11,1 if there are messages present in Mailbox 11" "0,1" bitfld.long 0x0 21. "NOTFULLSTATUSMB10,1 if Mailbox 10 is not full" "0,1" bitfld.long 0x0 20. "NEWMSGSTATUSMB10,1 if there are messages present in Mailbox 10" "0,1" newline bitfld.long 0x0 19. "NOTFULLSTATUSMB9,1 if Mailbox 9 is not full" "0,1" bitfld.long 0x0 18. "NEWMSGSTATUSMB9,1 if there are messages present in Mailbox 9" "0,1" bitfld.long 0x0 17. "NOTFULLSTATUSMB8,1 if Mailbox 8 is not full" "0,1" bitfld.long 0x0 16. "NEWMSGSTATUSMB8,1 if there are messages present in Mailbox 8" "0,1" newline bitfld.long 0x0 15. "NOTFULLSTATUSMB7,1 if Mailbox 7 is not full" "0,1" bitfld.long 0x0 14. "NEWMSGSTATUSMB7,1 if there are messages present in Mailbox 7" "0,1" bitfld.long 0x0 13. "NOTFULLSTATUSMB6,1 if Mailbox 6 is not full" "0,1" bitfld.long 0x0 12. "NEWMSGSTATUSMB6,1 if there are messages present in Mailbox 6" "0,1" newline bitfld.long 0x0 11. "NOTFULLSTATUSMB5,1 if Mailbox 5 is not full" "0,1" bitfld.long 0x0 10. "NEWMSGSTATUSMB5,1 if there are messages present in Mailbox 5" "0,1" bitfld.long 0x0 9. "NOTFULLSTATUSMB4,1 if Mailbox 4 is not full" "0,1" bitfld.long 0x0 8. "NEWMSGSTATUSMB4,1 if there are messages present in Mailbox 4" "0,1" newline bitfld.long 0x0 7. "NOTFULLSTATUSMB3,1 if Mailbox 3 is not full" "0,1" bitfld.long 0x0 6. "NEWMSGSTATUSMB3,1 if there are messages present in Mailbox 3" "0,1" bitfld.long 0x0 5. "NOTFULLSTATUSMB2,1 if Mailbox 2 is not full" "0,1" bitfld.long 0x0 4. "NEWMSGSTATUSMB2,1 if there are messages present in Mailbox 2" "0,1" newline bitfld.long 0x0 3. "NOTFULLSTATUSMB1,1 if Mailbox 1 is not full" "0,1" bitfld.long 0x0 2. "NEWMSGSTATUSMB1,1 if there are messages present in Mailbox 1" "0,1" bitfld.long 0x0 1. "NOTFULLSTATUSMB0,1 if Mailbox 0 is not full" "0,1" bitfld.long 0x0 0. "NEWMSGSTATUSMB0,1 if there are messages present in Mailbox 0" "0,1" line.long 0x4 "REGS4_MAILBOX_IRQ_STATUS_CLR,The interrupt status register has the status for each event that may be responsible for the generation of an interrupt to the corresponding user combined with the corresponding MASK information." bitfld.long 0x4 31. "NOTFULLSTATUSMB15,1 if Mailbox 15 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 30. "NEWMSGSTATUSMB15,1 if there are messages present in Mailbox 15 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 29. "NOTFULLSTATUSMB14,1 if Mailbox 14 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 28. "NEWMSGSTATUSMB14,1 if there are messages present in Mailbox 14 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 27. "NOTFULLSTATUSMB13,1 if Mailbox 13 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 26. "NEWMSGSTATUSMB13,1 if there are messages present in Mailbox 13 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 25. "NOTFULLSTATUSMB12,1 if Mailbox 12 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 24. "NEWMSGSTATUSMB12,1 if there are messages present in Mailbox 12 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 23. "NOTFULLSTATUSMB11,1 if Mailbox 11 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 22. "NEWMSGSTATUSMB11,1 if there are messages present in Mailbox 11 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 21. "NOTFULLSTATUSMB10,1 if Mailbox 10 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 20. "NEWMSGSTATUSMB10,1 if there are messages present in Mailbox 10 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 19. "NOTFULLSTATUSMB9,1 if Mailbox 9 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 18. "NEWMSGSTATUSMB9,1 if there are messages present in Mailbox 9 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 17. "NOTFULLSTATUSMB8,1 if Mailbox 8 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 16. "NEWMSGSTATUSMB8,1 if there are messages present in Mailbox 8 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 15. "NOTFULLSTATUSMB7,1 if Mailbox 7 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 14. "NEWMSGSTATUSMB7,1 if there are messages present in Mailbox 7 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 13. "NOTFULLSTATUSMB6,1 if Mailbox 6 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 12. "NEWMSGSTATUSMB6,1 if there are messages present in Mailbox 6 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 11. "NOTFULLSTATUSMB5,1 if Mailbox 5 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 10. "NEWMSGSTATUSMB5,1 if there are messages present in Mailbox 5 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 9. "NOTFULLSTATUSMB4,1 if Mailbox 4 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 8. "NEWMSGSTATUSMB4,1 if there are messages present in Mailbox 4 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 7. "NOTFULLSTATUSMB3,1 if Mailbox 3 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 6. "NEWMSGSTATUSMB3,1 if there are messages present in Mailbox 3 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 5. "NOTFULLSTATUSMB2,1 if Mailbox 2 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 4. "NEWMSGSTATUSMB2,1 if there are messages present in Mailbox 2 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 3. "NOTFULLSTATUSMB1,1 if Mailbox 1 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 2. "NEWMSGSTATUSMB1,1 if there are messages present in Mailbox 1 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 1. "NOTFULLSTATUSMB0,1 if Mailbox 0 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 0. "NEWMSGSTATUSMB0,1 if there are messages present in Mailbox 0 and this interrupt bit is enabled" "0,1" line.long 0x8 "REGS4_MAILBOX_IRQ_ENABLE_SET,The interrupt enable register allows software to mask/unmask the module internal source of interrupt for the user [a]." bitfld.long 0x8 31. "NOTFULLENABLEMB15,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 30. "NEWMSGENABLEMB15,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 29. "NOTFULLENABLEMB14,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 28. "NEWMSGENABLEMB14,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 27. "NOTFULLENABLEMB13,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 26. "NEWMSGENABLEMB13,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 25. "NOTFULLENABLEMB12,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 24. "NEWMSGENABLEMB12,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 23. "NOTFULLENABLEMB11,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 22. "NEWMSGENABLEMB11,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 21. "NOTFULLENABLEMB10,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 20. "NEWMSGENABLEMB10,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 19. "NOTFULLENABLEMB9,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 18. "NEWMSGENABLEMB9,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 17. "NOTFULLENABLEMB8,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 16. "NEWMSGENABLEMB8,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 15. "NOTFULLENABLEMB7,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 14. "NEWMSGENABLEMB7,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 13. "NOTFULLENABLEMB6,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 12. "NEWMSGENABLEMB6,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 11. "NOTFULLENABLEMB5,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 10. "NEWMSGENABLEMB5,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 9. "NOTFULLENABLEMB4,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 8. "NEWMSGENABLEMB4,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 7. "NOTFULLENABLEMB3,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 6. "NEWMSGENABLEMB3,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 5. "NOTFULLENABLEMB2,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 4. "NEWMSGENABLEMB2,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 3. "NOTFULLENABLEMB1,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 2. "NEWMSGENABLEMB1,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 1. "NOTFULLENABLEMB0,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 0. "NEWMSGENABLEMB0,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" line.long 0xC "REGS4_MAILBOX_IRQ_ENABLE_CLR,The interrupt enable register allows software to mask/unmask the module internal source of interrupt for the user [a]." bitfld.long 0xC 31. "NOTFULLENABLEMB15,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 30. "NEWMSGENABLEMB15,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 29. "NOTFULLENABLEMB14,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 28. "NEWMSGENABLEMB14,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 27. "NOTFULLENABLEMB13,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 26. "NEWMSGENABLEMB13,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 25. "NOTFULLENABLEMB12,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 24. "NEWMSGENABLEMB12,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 23. "NOTFULLENABLEMB11,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 22. "NEWMSGENABLEMB11,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 21. "NOTFULLENABLEMB10,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 20. "NEWMSGENABLEMB10,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 19. "NOTFULLENABLEMB9,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 18. "NEWMSGENABLEMB9,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 17. "NOTFULLENABLEMB8,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 16. "NEWMSGENABLEMB8,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 15. "NOTFULLENABLEMB7,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 14. "NEWMSGENABLEMB7,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 13. "NOTFULLENABLEMB6,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 12. "NEWMSGENABLEMB6,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 11. "NOTFULLENABLEMB5,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 10. "NEWMSGENABLEMB5,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 9. "NOTFULLENABLEMB4,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 8. "NEWMSGENABLEMB4,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 7. "NOTFULLENABLEMB3,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 6. "NEWMSGENABLEMB3,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 5. "NOTFULLENABLEMB2,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 4. "NEWMSGENABLEMB2,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 3. "NOTFULLENABLEMB1,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 2. "NEWMSGENABLEMB1,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 1. "NOTFULLENABLEMB0,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 0. "NEWMSGENABLEMB0,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" tree.end tree "MAILBOX0_MAILBOX_CLUSTER_5_REGS5 (MAILBOX0_MAILBOX_CLUSTER_5_REGS5)" base ad:0x29050000 rgroup.long 0x0++0x3 line.long 0x0 "REGS5_MAILBOX_ID,This is the standard TI peripheral ID register that exists at address 0 in the peripheral space" bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish which ID numbering scheme is used." "0,1,2,3" bitfld.long 0x0 28.--29. "BU,BU identifier" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION,Module family." hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,RTL version. R of X.Y.R.Z" newline bitfld.long 0x0 8.--10. "MAJOR_REV,Major revision. X of X.Y.R.Z" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Special version number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV,Minor revision. Y of X.Y.R.Z" group.long 0x10++0x3 line.long 0x0 "REGS5_MAILBOX_SYSCONFIG,This register contains parameters to control the whole Mailbox system. Provided for backwards compatibility with OMAP Mailbox. Only contains the soft reset." bitfld.long 0x0 0. "SOFT_RESET,Module Software Reset The bit is automatically reset by the hardware. During reads it always returns 0. It has the same effect as the hardware reset. Writing a 0 has no effect. Writing a 1 will start a soft reset sequence and empty all the.." "0,1" group.long 0x40++0x3 line.long 0x0 "REGS5_MAILBOX_MESSAGE,The message register stores the next to-be-read message of the mailbox." hexmask.long 0x0 0.--31. 1. "MESSAGE_VALUE,Message in Mailbox [a]" rgroup.long 0x80++0x3 line.long 0x0 "REGS5_MAILBOX_FIFOSTATUS,The FIFO status register has the status of the Mailbox[a] FIFO" bitfld.long 0x0 0. "FIFO_FULL,Full flag for Mailbox m" "0,1" rgroup.long 0xC0++0x3 line.long 0x0 "REGS5_MAILBOX_MSGSTATUS,The message status register has the status of the messages in Mailbox[a]" bitfld.long 0x0 0.--2. "NUM_MESSAGES,Number of messages in Mailbox[a]" "0,1,2,3,4,5,6,7" wgroup.long 0x140++0x3 line.long 0x0 "REGS5_MAILBOX_IRQ_EOI,This is the EOI register with which the software is enabled to do the interrupt clearance." bitfld.long 0x0 3. "EOI3,Software EOI signal for the user 3 interrupt" "0,1" bitfld.long 0x0 2. "EOI2,Software EOI signal for the user 2 interrupt" "0,1" bitfld.long 0x0 1. "EOI1,Software EOI signal for the user 1 interrupt" "0,1" bitfld.long 0x0 0. "EOI0,Software EOI signal for the user 0 interrupt" "0,1" group.long 0x100++0xF line.long 0x0 "REGS5_MAILBOX_IRQ_STATUS_RAW,The interrupt status register has the status for each event that may be responsible for the generation of an interrupt to the corresponding user ." bitfld.long 0x0 31. "NOTFULLSTATUSMB15,1 if Mailbox 15 is not full" "0,1" bitfld.long 0x0 30. "NEWMSGSTATUSMB15,1 if there are messages present in Mailbox 15" "0,1" bitfld.long 0x0 29. "NOTFULLSTATUSMB14,1 if Mailbox 14 is not full" "0,1" bitfld.long 0x0 28. "NEWMSGSTATUSMB14,1 if there are messages present in Mailbox 14" "0,1" newline bitfld.long 0x0 27. "NOTFULLSTATUSMB13,1 if Mailbox 13 is not full" "0,1" bitfld.long 0x0 26. "NEWMSGSTATUSMB13,1 if there are messages present in Mailbox 13" "0,1" bitfld.long 0x0 25. "NOTFULLSTATUSMB12,1 if Mailbox 12 is not full" "0,1" bitfld.long 0x0 24. "NEWMSGSTATUSMB12,1 if there are messages present in Mailbox 12" "0,1" newline bitfld.long 0x0 23. "NOTFULLSTATUSMB11,1 if Mailbox 11 is not full" "0,1" bitfld.long 0x0 22. "NEWMSGSTATUSMB11,1 if there are messages present in Mailbox 11" "0,1" bitfld.long 0x0 21. "NOTFULLSTATUSMB10,1 if Mailbox 10 is not full" "0,1" bitfld.long 0x0 20. "NEWMSGSTATUSMB10,1 if there are messages present in Mailbox 10" "0,1" newline bitfld.long 0x0 19. "NOTFULLSTATUSMB9,1 if Mailbox 9 is not full" "0,1" bitfld.long 0x0 18. "NEWMSGSTATUSMB9,1 if there are messages present in Mailbox 9" "0,1" bitfld.long 0x0 17. "NOTFULLSTATUSMB8,1 if Mailbox 8 is not full" "0,1" bitfld.long 0x0 16. "NEWMSGSTATUSMB8,1 if there are messages present in Mailbox 8" "0,1" newline bitfld.long 0x0 15. "NOTFULLSTATUSMB7,1 if Mailbox 7 is not full" "0,1" bitfld.long 0x0 14. "NEWMSGSTATUSMB7,1 if there are messages present in Mailbox 7" "0,1" bitfld.long 0x0 13. "NOTFULLSTATUSMB6,1 if Mailbox 6 is not full" "0,1" bitfld.long 0x0 12. "NEWMSGSTATUSMB6,1 if there are messages present in Mailbox 6" "0,1" newline bitfld.long 0x0 11. "NOTFULLSTATUSMB5,1 if Mailbox 5 is not full" "0,1" bitfld.long 0x0 10. "NEWMSGSTATUSMB5,1 if there are messages present in Mailbox 5" "0,1" bitfld.long 0x0 9. "NOTFULLSTATUSMB4,1 if Mailbox 4 is not full" "0,1" bitfld.long 0x0 8. "NEWMSGSTATUSMB4,1 if there are messages present in Mailbox 4" "0,1" newline bitfld.long 0x0 7. "NOTFULLSTATUSMB3,1 if Mailbox 3 is not full" "0,1" bitfld.long 0x0 6. "NEWMSGSTATUSMB3,1 if there are messages present in Mailbox 3" "0,1" bitfld.long 0x0 5. "NOTFULLSTATUSMB2,1 if Mailbox 2 is not full" "0,1" bitfld.long 0x0 4. "NEWMSGSTATUSMB2,1 if there are messages present in Mailbox 2" "0,1" newline bitfld.long 0x0 3. "NOTFULLSTATUSMB1,1 if Mailbox 1 is not full" "0,1" bitfld.long 0x0 2. "NEWMSGSTATUSMB1,1 if there are messages present in Mailbox 1" "0,1" bitfld.long 0x0 1. "NOTFULLSTATUSMB0,1 if Mailbox 0 is not full" "0,1" bitfld.long 0x0 0. "NEWMSGSTATUSMB0,1 if there are messages present in Mailbox 0" "0,1" line.long 0x4 "REGS5_MAILBOX_IRQ_STATUS_CLR,The interrupt status register has the status for each event that may be responsible for the generation of an interrupt to the corresponding user combined with the corresponding MASK information." bitfld.long 0x4 31. "NOTFULLSTATUSMB15,1 if Mailbox 15 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 30. "NEWMSGSTATUSMB15,1 if there are messages present in Mailbox 15 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 29. "NOTFULLSTATUSMB14,1 if Mailbox 14 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 28. "NEWMSGSTATUSMB14,1 if there are messages present in Mailbox 14 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 27. "NOTFULLSTATUSMB13,1 if Mailbox 13 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 26. "NEWMSGSTATUSMB13,1 if there are messages present in Mailbox 13 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 25. "NOTFULLSTATUSMB12,1 if Mailbox 12 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 24. "NEWMSGSTATUSMB12,1 if there are messages present in Mailbox 12 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 23. "NOTFULLSTATUSMB11,1 if Mailbox 11 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 22. "NEWMSGSTATUSMB11,1 if there are messages present in Mailbox 11 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 21. "NOTFULLSTATUSMB10,1 if Mailbox 10 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 20. "NEWMSGSTATUSMB10,1 if there are messages present in Mailbox 10 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 19. "NOTFULLSTATUSMB9,1 if Mailbox 9 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 18. "NEWMSGSTATUSMB9,1 if there are messages present in Mailbox 9 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 17. "NOTFULLSTATUSMB8,1 if Mailbox 8 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 16. "NEWMSGSTATUSMB8,1 if there are messages present in Mailbox 8 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 15. "NOTFULLSTATUSMB7,1 if Mailbox 7 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 14. "NEWMSGSTATUSMB7,1 if there are messages present in Mailbox 7 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 13. "NOTFULLSTATUSMB6,1 if Mailbox 6 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 12. "NEWMSGSTATUSMB6,1 if there are messages present in Mailbox 6 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 11. "NOTFULLSTATUSMB5,1 if Mailbox 5 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 10. "NEWMSGSTATUSMB5,1 if there are messages present in Mailbox 5 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 9. "NOTFULLSTATUSMB4,1 if Mailbox 4 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 8. "NEWMSGSTATUSMB4,1 if there are messages present in Mailbox 4 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 7. "NOTFULLSTATUSMB3,1 if Mailbox 3 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 6. "NEWMSGSTATUSMB3,1 if there are messages present in Mailbox 3 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 5. "NOTFULLSTATUSMB2,1 if Mailbox 2 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 4. "NEWMSGSTATUSMB2,1 if there are messages present in Mailbox 2 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 3. "NOTFULLSTATUSMB1,1 if Mailbox 1 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 2. "NEWMSGSTATUSMB1,1 if there are messages present in Mailbox 1 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 1. "NOTFULLSTATUSMB0,1 if Mailbox 0 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 0. "NEWMSGSTATUSMB0,1 if there are messages present in Mailbox 0 and this interrupt bit is enabled" "0,1" line.long 0x8 "REGS5_MAILBOX_IRQ_ENABLE_SET,The interrupt enable register allows software to mask/unmask the module internal source of interrupt for the user [a]." bitfld.long 0x8 31. "NOTFULLENABLEMB15,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 30. "NEWMSGENABLEMB15,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 29. "NOTFULLENABLEMB14,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 28. "NEWMSGENABLEMB14,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 27. "NOTFULLENABLEMB13,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 26. "NEWMSGENABLEMB13,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 25. "NOTFULLENABLEMB12,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 24. "NEWMSGENABLEMB12,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 23. "NOTFULLENABLEMB11,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 22. "NEWMSGENABLEMB11,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 21. "NOTFULLENABLEMB10,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 20. "NEWMSGENABLEMB10,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 19. "NOTFULLENABLEMB9,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 18. "NEWMSGENABLEMB9,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 17. "NOTFULLENABLEMB8,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 16. "NEWMSGENABLEMB8,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 15. "NOTFULLENABLEMB7,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 14. "NEWMSGENABLEMB7,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 13. "NOTFULLENABLEMB6,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 12. "NEWMSGENABLEMB6,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 11. "NOTFULLENABLEMB5,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 10. "NEWMSGENABLEMB5,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 9. "NOTFULLENABLEMB4,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 8. "NEWMSGENABLEMB4,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 7. "NOTFULLENABLEMB3,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 6. "NEWMSGENABLEMB3,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 5. "NOTFULLENABLEMB2,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 4. "NEWMSGENABLEMB2,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 3. "NOTFULLENABLEMB1,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 2. "NEWMSGENABLEMB1,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 1. "NOTFULLENABLEMB0,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 0. "NEWMSGENABLEMB0,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" line.long 0xC "REGS5_MAILBOX_IRQ_ENABLE_CLR,The interrupt enable register allows software to mask/unmask the module internal source of interrupt for the user [a]." bitfld.long 0xC 31. "NOTFULLENABLEMB15,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 30. "NEWMSGENABLEMB15,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 29. "NOTFULLENABLEMB14,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 28. "NEWMSGENABLEMB14,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 27. "NOTFULLENABLEMB13,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 26. "NEWMSGENABLEMB13,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 25. "NOTFULLENABLEMB12,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 24. "NEWMSGENABLEMB12,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 23. "NOTFULLENABLEMB11,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 22. "NEWMSGENABLEMB11,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 21. "NOTFULLENABLEMB10,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 20. "NEWMSGENABLEMB10,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 19. "NOTFULLENABLEMB9,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 18. "NEWMSGENABLEMB9,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 17. "NOTFULLENABLEMB8,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 16. "NEWMSGENABLEMB8,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 15. "NOTFULLENABLEMB7,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 14. "NEWMSGENABLEMB7,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 13. "NOTFULLENABLEMB6,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 12. "NEWMSGENABLEMB6,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 11. "NOTFULLENABLEMB5,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 10. "NEWMSGENABLEMB5,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 9. "NOTFULLENABLEMB4,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 8. "NEWMSGENABLEMB4,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 7. "NOTFULLENABLEMB3,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 6. "NEWMSGENABLEMB3,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 5. "NOTFULLENABLEMB2,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 4. "NEWMSGENABLEMB2,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 3. "NOTFULLENABLEMB1,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 2. "NEWMSGENABLEMB1,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 1. "NOTFULLENABLEMB0,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 0. "NEWMSGENABLEMB0,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" tree.end tree "MAILBOX0_MAILBOX_CLUSTER_6_REGS6 (MAILBOX0_MAILBOX_CLUSTER_6_REGS6)" base ad:0x29060000 rgroup.long 0x0++0x3 line.long 0x0 "REGS6_MAILBOX_ID,This is the standard TI peripheral ID register that exists at address 0 in the peripheral space" bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish which ID numbering scheme is used." "0,1,2,3" bitfld.long 0x0 28.--29. "BU,BU identifier" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION,Module family." hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,RTL version. R of X.Y.R.Z" newline bitfld.long 0x0 8.--10. "MAJOR_REV,Major revision. X of X.Y.R.Z" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Special version number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV,Minor revision. Y of X.Y.R.Z" group.long 0x10++0x3 line.long 0x0 "REGS6_MAILBOX_SYSCONFIG,This register contains parameters to control the whole Mailbox system. Provided for backwards compatibility with OMAP Mailbox. Only contains the soft reset." bitfld.long 0x0 0. "SOFT_RESET,Module Software Reset The bit is automatically reset by the hardware. During reads it always returns 0. It has the same effect as the hardware reset. Writing a 0 has no effect. Writing a 1 will start a soft reset sequence and empty all the.." "0,1" group.long 0x40++0x3 line.long 0x0 "REGS6_MAILBOX_MESSAGE,The message register stores the next to-be-read message of the mailbox." hexmask.long 0x0 0.--31. 1. "MESSAGE_VALUE,Message in Mailbox [a]" rgroup.long 0x80++0x3 line.long 0x0 "REGS6_MAILBOX_FIFOSTATUS,The FIFO status register has the status of the Mailbox[a] FIFO" bitfld.long 0x0 0. "FIFO_FULL,Full flag for Mailbox m" "0,1" rgroup.long 0xC0++0x3 line.long 0x0 "REGS6_MAILBOX_MSGSTATUS,The message status register has the status of the messages in Mailbox[a]" bitfld.long 0x0 0.--2. "NUM_MESSAGES,Number of messages in Mailbox[a]" "0,1,2,3,4,5,6,7" wgroup.long 0x140++0x3 line.long 0x0 "REGS6_MAILBOX_IRQ_EOI,This is the EOI register with which the software is enabled to do the interrupt clearance." bitfld.long 0x0 3. "EOI3,Software EOI signal for the user 3 interrupt" "0,1" bitfld.long 0x0 2. "EOI2,Software EOI signal for the user 2 interrupt" "0,1" bitfld.long 0x0 1. "EOI1,Software EOI signal for the user 1 interrupt" "0,1" bitfld.long 0x0 0. "EOI0,Software EOI signal for the user 0 interrupt" "0,1" group.long 0x100++0xF line.long 0x0 "REGS6_MAILBOX_IRQ_STATUS_RAW,The interrupt status register has the status for each event that may be responsible for the generation of an interrupt to the corresponding user ." bitfld.long 0x0 31. "NOTFULLSTATUSMB15,1 if Mailbox 15 is not full" "0,1" bitfld.long 0x0 30. "NEWMSGSTATUSMB15,1 if there are messages present in Mailbox 15" "0,1" bitfld.long 0x0 29. "NOTFULLSTATUSMB14,1 if Mailbox 14 is not full" "0,1" bitfld.long 0x0 28. "NEWMSGSTATUSMB14,1 if there are messages present in Mailbox 14" "0,1" newline bitfld.long 0x0 27. "NOTFULLSTATUSMB13,1 if Mailbox 13 is not full" "0,1" bitfld.long 0x0 26. "NEWMSGSTATUSMB13,1 if there are messages present in Mailbox 13" "0,1" bitfld.long 0x0 25. "NOTFULLSTATUSMB12,1 if Mailbox 12 is not full" "0,1" bitfld.long 0x0 24. "NEWMSGSTATUSMB12,1 if there are messages present in Mailbox 12" "0,1" newline bitfld.long 0x0 23. "NOTFULLSTATUSMB11,1 if Mailbox 11 is not full" "0,1" bitfld.long 0x0 22. "NEWMSGSTATUSMB11,1 if there are messages present in Mailbox 11" "0,1" bitfld.long 0x0 21. "NOTFULLSTATUSMB10,1 if Mailbox 10 is not full" "0,1" bitfld.long 0x0 20. "NEWMSGSTATUSMB10,1 if there are messages present in Mailbox 10" "0,1" newline bitfld.long 0x0 19. "NOTFULLSTATUSMB9,1 if Mailbox 9 is not full" "0,1" bitfld.long 0x0 18. "NEWMSGSTATUSMB9,1 if there are messages present in Mailbox 9" "0,1" bitfld.long 0x0 17. "NOTFULLSTATUSMB8,1 if Mailbox 8 is not full" "0,1" bitfld.long 0x0 16. "NEWMSGSTATUSMB8,1 if there are messages present in Mailbox 8" "0,1" newline bitfld.long 0x0 15. "NOTFULLSTATUSMB7,1 if Mailbox 7 is not full" "0,1" bitfld.long 0x0 14. "NEWMSGSTATUSMB7,1 if there are messages present in Mailbox 7" "0,1" bitfld.long 0x0 13. "NOTFULLSTATUSMB6,1 if Mailbox 6 is not full" "0,1" bitfld.long 0x0 12. "NEWMSGSTATUSMB6,1 if there are messages present in Mailbox 6" "0,1" newline bitfld.long 0x0 11. "NOTFULLSTATUSMB5,1 if Mailbox 5 is not full" "0,1" bitfld.long 0x0 10. "NEWMSGSTATUSMB5,1 if there are messages present in Mailbox 5" "0,1" bitfld.long 0x0 9. "NOTFULLSTATUSMB4,1 if Mailbox 4 is not full" "0,1" bitfld.long 0x0 8. "NEWMSGSTATUSMB4,1 if there are messages present in Mailbox 4" "0,1" newline bitfld.long 0x0 7. "NOTFULLSTATUSMB3,1 if Mailbox 3 is not full" "0,1" bitfld.long 0x0 6. "NEWMSGSTATUSMB3,1 if there are messages present in Mailbox 3" "0,1" bitfld.long 0x0 5. "NOTFULLSTATUSMB2,1 if Mailbox 2 is not full" "0,1" bitfld.long 0x0 4. "NEWMSGSTATUSMB2,1 if there are messages present in Mailbox 2" "0,1" newline bitfld.long 0x0 3. "NOTFULLSTATUSMB1,1 if Mailbox 1 is not full" "0,1" bitfld.long 0x0 2. "NEWMSGSTATUSMB1,1 if there are messages present in Mailbox 1" "0,1" bitfld.long 0x0 1. "NOTFULLSTATUSMB0,1 if Mailbox 0 is not full" "0,1" bitfld.long 0x0 0. "NEWMSGSTATUSMB0,1 if there are messages present in Mailbox 0" "0,1" line.long 0x4 "REGS6_MAILBOX_IRQ_STATUS_CLR,The interrupt status register has the status for each event that may be responsible for the generation of an interrupt to the corresponding user combined with the corresponding MASK information." bitfld.long 0x4 31. "NOTFULLSTATUSMB15,1 if Mailbox 15 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 30. "NEWMSGSTATUSMB15,1 if there are messages present in Mailbox 15 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 29. "NOTFULLSTATUSMB14,1 if Mailbox 14 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 28. "NEWMSGSTATUSMB14,1 if there are messages present in Mailbox 14 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 27. "NOTFULLSTATUSMB13,1 if Mailbox 13 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 26. "NEWMSGSTATUSMB13,1 if there are messages present in Mailbox 13 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 25. "NOTFULLSTATUSMB12,1 if Mailbox 12 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 24. "NEWMSGSTATUSMB12,1 if there are messages present in Mailbox 12 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 23. "NOTFULLSTATUSMB11,1 if Mailbox 11 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 22. "NEWMSGSTATUSMB11,1 if there are messages present in Mailbox 11 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 21. "NOTFULLSTATUSMB10,1 if Mailbox 10 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 20. "NEWMSGSTATUSMB10,1 if there are messages present in Mailbox 10 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 19. "NOTFULLSTATUSMB9,1 if Mailbox 9 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 18. "NEWMSGSTATUSMB9,1 if there are messages present in Mailbox 9 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 17. "NOTFULLSTATUSMB8,1 if Mailbox 8 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 16. "NEWMSGSTATUSMB8,1 if there are messages present in Mailbox 8 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 15. "NOTFULLSTATUSMB7,1 if Mailbox 7 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 14. "NEWMSGSTATUSMB7,1 if there are messages present in Mailbox 7 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 13. "NOTFULLSTATUSMB6,1 if Mailbox 6 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 12. "NEWMSGSTATUSMB6,1 if there are messages present in Mailbox 6 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 11. "NOTFULLSTATUSMB5,1 if Mailbox 5 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 10. "NEWMSGSTATUSMB5,1 if there are messages present in Mailbox 5 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 9. "NOTFULLSTATUSMB4,1 if Mailbox 4 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 8. "NEWMSGSTATUSMB4,1 if there are messages present in Mailbox 4 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 7. "NOTFULLSTATUSMB3,1 if Mailbox 3 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 6. "NEWMSGSTATUSMB3,1 if there are messages present in Mailbox 3 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 5. "NOTFULLSTATUSMB2,1 if Mailbox 2 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 4. "NEWMSGSTATUSMB2,1 if there are messages present in Mailbox 2 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 3. "NOTFULLSTATUSMB1,1 if Mailbox 1 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 2. "NEWMSGSTATUSMB1,1 if there are messages present in Mailbox 1 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 1. "NOTFULLSTATUSMB0,1 if Mailbox 0 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 0. "NEWMSGSTATUSMB0,1 if there are messages present in Mailbox 0 and this interrupt bit is enabled" "0,1" line.long 0x8 "REGS6_MAILBOX_IRQ_ENABLE_SET,The interrupt enable register allows software to mask/unmask the module internal source of interrupt for the user [a]." bitfld.long 0x8 31. "NOTFULLENABLEMB15,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 30. "NEWMSGENABLEMB15,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 29. "NOTFULLENABLEMB14,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 28. "NEWMSGENABLEMB14,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 27. "NOTFULLENABLEMB13,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 26. "NEWMSGENABLEMB13,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 25. "NOTFULLENABLEMB12,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 24. "NEWMSGENABLEMB12,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 23. "NOTFULLENABLEMB11,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 22. "NEWMSGENABLEMB11,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 21. "NOTFULLENABLEMB10,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 20. "NEWMSGENABLEMB10,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 19. "NOTFULLENABLEMB9,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 18. "NEWMSGENABLEMB9,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 17. "NOTFULLENABLEMB8,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 16. "NEWMSGENABLEMB8,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 15. "NOTFULLENABLEMB7,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 14. "NEWMSGENABLEMB7,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 13. "NOTFULLENABLEMB6,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 12. "NEWMSGENABLEMB6,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 11. "NOTFULLENABLEMB5,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 10. "NEWMSGENABLEMB5,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 9. "NOTFULLENABLEMB4,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 8. "NEWMSGENABLEMB4,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 7. "NOTFULLENABLEMB3,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 6. "NEWMSGENABLEMB3,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 5. "NOTFULLENABLEMB2,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 4. "NEWMSGENABLEMB2,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 3. "NOTFULLENABLEMB1,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 2. "NEWMSGENABLEMB1,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 1. "NOTFULLENABLEMB0,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 0. "NEWMSGENABLEMB0,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" line.long 0xC "REGS6_MAILBOX_IRQ_ENABLE_CLR,The interrupt enable register allows software to mask/unmask the module internal source of interrupt for the user [a]." bitfld.long 0xC 31. "NOTFULLENABLEMB15,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 30. "NEWMSGENABLEMB15,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 29. "NOTFULLENABLEMB14,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 28. "NEWMSGENABLEMB14,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 27. "NOTFULLENABLEMB13,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 26. "NEWMSGENABLEMB13,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 25. "NOTFULLENABLEMB12,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 24. "NEWMSGENABLEMB12,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 23. "NOTFULLENABLEMB11,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 22. "NEWMSGENABLEMB11,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 21. "NOTFULLENABLEMB10,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 20. "NEWMSGENABLEMB10,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 19. "NOTFULLENABLEMB9,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 18. "NEWMSGENABLEMB9,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 17. "NOTFULLENABLEMB8,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 16. "NEWMSGENABLEMB8,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 15. "NOTFULLENABLEMB7,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 14. "NEWMSGENABLEMB7,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 13. "NOTFULLENABLEMB6,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 12. "NEWMSGENABLEMB6,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 11. "NOTFULLENABLEMB5,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 10. "NEWMSGENABLEMB5,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 9. "NOTFULLENABLEMB4,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 8. "NEWMSGENABLEMB4,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 7. "NOTFULLENABLEMB3,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 6. "NEWMSGENABLEMB3,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 5. "NOTFULLENABLEMB2,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 4. "NEWMSGENABLEMB2,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 3. "NOTFULLENABLEMB1,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 2. "NEWMSGENABLEMB1,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 1. "NOTFULLENABLEMB0,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 0. "NEWMSGENABLEMB0,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" tree.end tree "MAILBOX0_MAILBOX_CLUSTER_7_REGS7 (MAILBOX0_MAILBOX_CLUSTER_7_REGS7)" base ad:0x29070000 rgroup.long 0x0++0x3 line.long 0x0 "REGS7_MAILBOX_ID,This is the standard TI peripheral ID register that exists at address 0 in the peripheral space" bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish which ID numbering scheme is used." "0,1,2,3" bitfld.long 0x0 28.--29. "BU,BU identifier" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION,Module family." hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,RTL version. R of X.Y.R.Z" newline bitfld.long 0x0 8.--10. "MAJOR_REV,Major revision. X of X.Y.R.Z" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Special version number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV,Minor revision. Y of X.Y.R.Z" group.long 0x10++0x3 line.long 0x0 "REGS7_MAILBOX_SYSCONFIG,This register contains parameters to control the whole Mailbox system. Provided for backwards compatibility with OMAP Mailbox. Only contains the soft reset." bitfld.long 0x0 0. "SOFT_RESET,Module Software Reset The bit is automatically reset by the hardware. During reads it always returns 0. It has the same effect as the hardware reset. Writing a 0 has no effect. Writing a 1 will start a soft reset sequence and empty all the.." "0,1" group.long 0x40++0x3 line.long 0x0 "REGS7_MAILBOX_MESSAGE,The message register stores the next to-be-read message of the mailbox." hexmask.long 0x0 0.--31. 1. "MESSAGE_VALUE,Message in Mailbox [a]" rgroup.long 0x80++0x3 line.long 0x0 "REGS7_MAILBOX_FIFOSTATUS,The FIFO status register has the status of the Mailbox[a] FIFO" bitfld.long 0x0 0. "FIFO_FULL,Full flag for Mailbox m" "0,1" rgroup.long 0xC0++0x3 line.long 0x0 "REGS7_MAILBOX_MSGSTATUS,The message status register has the status of the messages in Mailbox[a]" bitfld.long 0x0 0.--2. "NUM_MESSAGES,Number of messages in Mailbox[a]" "0,1,2,3,4,5,6,7" wgroup.long 0x140++0x3 line.long 0x0 "REGS7_MAILBOX_IRQ_EOI,This is the EOI register with which the software is enabled to do the interrupt clearance." bitfld.long 0x0 3. "EOI3,Software EOI signal for the user 3 interrupt" "0,1" bitfld.long 0x0 2. "EOI2,Software EOI signal for the user 2 interrupt" "0,1" bitfld.long 0x0 1. "EOI1,Software EOI signal for the user 1 interrupt" "0,1" bitfld.long 0x0 0. "EOI0,Software EOI signal for the user 0 interrupt" "0,1" group.long 0x100++0xF line.long 0x0 "REGS7_MAILBOX_IRQ_STATUS_RAW,The interrupt status register has the status for each event that may be responsible for the generation of an interrupt to the corresponding user ." bitfld.long 0x0 31. "NOTFULLSTATUSMB15,1 if Mailbox 15 is not full" "0,1" bitfld.long 0x0 30. "NEWMSGSTATUSMB15,1 if there are messages present in Mailbox 15" "0,1" bitfld.long 0x0 29. "NOTFULLSTATUSMB14,1 if Mailbox 14 is not full" "0,1" bitfld.long 0x0 28. "NEWMSGSTATUSMB14,1 if there are messages present in Mailbox 14" "0,1" newline bitfld.long 0x0 27. "NOTFULLSTATUSMB13,1 if Mailbox 13 is not full" "0,1" bitfld.long 0x0 26. "NEWMSGSTATUSMB13,1 if there are messages present in Mailbox 13" "0,1" bitfld.long 0x0 25. "NOTFULLSTATUSMB12,1 if Mailbox 12 is not full" "0,1" bitfld.long 0x0 24. "NEWMSGSTATUSMB12,1 if there are messages present in Mailbox 12" "0,1" newline bitfld.long 0x0 23. "NOTFULLSTATUSMB11,1 if Mailbox 11 is not full" "0,1" bitfld.long 0x0 22. "NEWMSGSTATUSMB11,1 if there are messages present in Mailbox 11" "0,1" bitfld.long 0x0 21. "NOTFULLSTATUSMB10,1 if Mailbox 10 is not full" "0,1" bitfld.long 0x0 20. "NEWMSGSTATUSMB10,1 if there are messages present in Mailbox 10" "0,1" newline bitfld.long 0x0 19. "NOTFULLSTATUSMB9,1 if Mailbox 9 is not full" "0,1" bitfld.long 0x0 18. "NEWMSGSTATUSMB9,1 if there are messages present in Mailbox 9" "0,1" bitfld.long 0x0 17. "NOTFULLSTATUSMB8,1 if Mailbox 8 is not full" "0,1" bitfld.long 0x0 16. "NEWMSGSTATUSMB8,1 if there are messages present in Mailbox 8" "0,1" newline bitfld.long 0x0 15. "NOTFULLSTATUSMB7,1 if Mailbox 7 is not full" "0,1" bitfld.long 0x0 14. "NEWMSGSTATUSMB7,1 if there are messages present in Mailbox 7" "0,1" bitfld.long 0x0 13. "NOTFULLSTATUSMB6,1 if Mailbox 6 is not full" "0,1" bitfld.long 0x0 12. "NEWMSGSTATUSMB6,1 if there are messages present in Mailbox 6" "0,1" newline bitfld.long 0x0 11. "NOTFULLSTATUSMB5,1 if Mailbox 5 is not full" "0,1" bitfld.long 0x0 10. "NEWMSGSTATUSMB5,1 if there are messages present in Mailbox 5" "0,1" bitfld.long 0x0 9. "NOTFULLSTATUSMB4,1 if Mailbox 4 is not full" "0,1" bitfld.long 0x0 8. "NEWMSGSTATUSMB4,1 if there are messages present in Mailbox 4" "0,1" newline bitfld.long 0x0 7. "NOTFULLSTATUSMB3,1 if Mailbox 3 is not full" "0,1" bitfld.long 0x0 6. "NEWMSGSTATUSMB3,1 if there are messages present in Mailbox 3" "0,1" bitfld.long 0x0 5. "NOTFULLSTATUSMB2,1 if Mailbox 2 is not full" "0,1" bitfld.long 0x0 4. "NEWMSGSTATUSMB2,1 if there are messages present in Mailbox 2" "0,1" newline bitfld.long 0x0 3. "NOTFULLSTATUSMB1,1 if Mailbox 1 is not full" "0,1" bitfld.long 0x0 2. "NEWMSGSTATUSMB1,1 if there are messages present in Mailbox 1" "0,1" bitfld.long 0x0 1. "NOTFULLSTATUSMB0,1 if Mailbox 0 is not full" "0,1" bitfld.long 0x0 0. "NEWMSGSTATUSMB0,1 if there are messages present in Mailbox 0" "0,1" line.long 0x4 "REGS7_MAILBOX_IRQ_STATUS_CLR,The interrupt status register has the status for each event that may be responsible for the generation of an interrupt to the corresponding user combined with the corresponding MASK information." bitfld.long 0x4 31. "NOTFULLSTATUSMB15,1 if Mailbox 15 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 30. "NEWMSGSTATUSMB15,1 if there are messages present in Mailbox 15 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 29. "NOTFULLSTATUSMB14,1 if Mailbox 14 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 28. "NEWMSGSTATUSMB14,1 if there are messages present in Mailbox 14 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 27. "NOTFULLSTATUSMB13,1 if Mailbox 13 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 26. "NEWMSGSTATUSMB13,1 if there are messages present in Mailbox 13 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 25. "NOTFULLSTATUSMB12,1 if Mailbox 12 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 24. "NEWMSGSTATUSMB12,1 if there are messages present in Mailbox 12 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 23. "NOTFULLSTATUSMB11,1 if Mailbox 11 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 22. "NEWMSGSTATUSMB11,1 if there are messages present in Mailbox 11 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 21. "NOTFULLSTATUSMB10,1 if Mailbox 10 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 20. "NEWMSGSTATUSMB10,1 if there are messages present in Mailbox 10 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 19. "NOTFULLSTATUSMB9,1 if Mailbox 9 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 18. "NEWMSGSTATUSMB9,1 if there are messages present in Mailbox 9 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 17. "NOTFULLSTATUSMB8,1 if Mailbox 8 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 16. "NEWMSGSTATUSMB8,1 if there are messages present in Mailbox 8 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 15. "NOTFULLSTATUSMB7,1 if Mailbox 7 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 14. "NEWMSGSTATUSMB7,1 if there are messages present in Mailbox 7 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 13. "NOTFULLSTATUSMB6,1 if Mailbox 6 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 12. "NEWMSGSTATUSMB6,1 if there are messages present in Mailbox 6 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 11. "NOTFULLSTATUSMB5,1 if Mailbox 5 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 10. "NEWMSGSTATUSMB5,1 if there are messages present in Mailbox 5 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 9. "NOTFULLSTATUSMB4,1 if Mailbox 4 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 8. "NEWMSGSTATUSMB4,1 if there are messages present in Mailbox 4 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 7. "NOTFULLSTATUSMB3,1 if Mailbox 3 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 6. "NEWMSGSTATUSMB3,1 if there are messages present in Mailbox 3 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 5. "NOTFULLSTATUSMB2,1 if Mailbox 2 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 4. "NEWMSGSTATUSMB2,1 if there are messages present in Mailbox 2 and this interrupt bit is enabled" "0,1" newline bitfld.long 0x4 3. "NOTFULLSTATUSMB1,1 if Mailbox 1 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 2. "NEWMSGSTATUSMB1,1 if there are messages present in Mailbox 1 and this interrupt bit is enabled" "0,1" bitfld.long 0x4 1. "NOTFULLSTATUSMB0,1 if Mailbox 0 is not full and this interrupt bit is enabled" "0,1" bitfld.long 0x4 0. "NEWMSGSTATUSMB0,1 if there are messages present in Mailbox 0 and this interrupt bit is enabled" "0,1" line.long 0x8 "REGS7_MAILBOX_IRQ_ENABLE_SET,The interrupt enable register allows software to mask/unmask the module internal source of interrupt for the user [a]." bitfld.long 0x8 31. "NOTFULLENABLEMB15,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 30. "NEWMSGENABLEMB15,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 29. "NOTFULLENABLEMB14,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 28. "NEWMSGENABLEMB14,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 27. "NOTFULLENABLEMB13,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 26. "NEWMSGENABLEMB13,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 25. "NOTFULLENABLEMB12,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 24. "NEWMSGENABLEMB12,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 23. "NOTFULLENABLEMB11,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 22. "NEWMSGENABLEMB11,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 21. "NOTFULLENABLEMB10,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 20. "NEWMSGENABLEMB10,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 19. "NOTFULLENABLEMB9,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 18. "NEWMSGENABLEMB9,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 17. "NOTFULLENABLEMB8,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 16. "NEWMSGENABLEMB8,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 15. "NOTFULLENABLEMB7,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 14. "NEWMSGENABLEMB7,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 13. "NOTFULLENABLEMB6,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 12. "NEWMSGENABLEMB6,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 11. "NOTFULLENABLEMB5,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 10. "NEWMSGENABLEMB5,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 9. "NOTFULLENABLEMB4,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 8. "NEWMSGENABLEMB4,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 7. "NOTFULLENABLEMB3,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 6. "NEWMSGENABLEMB3,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 5. "NOTFULLENABLEMB2,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 4. "NEWMSGENABLEMB2,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0x8 3. "NOTFULLENABLEMB1,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 2. "NEWMSGENABLEMB1,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 1. "NOTFULLENABLEMB0,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0x8 0. "NEWMSGENABLEMB0,Read value is current enable state for this interrupt. Write 1 enables the interrupt. Write 0 does nothing." "0,1" line.long 0xC "REGS7_MAILBOX_IRQ_ENABLE_CLR,The interrupt enable register allows software to mask/unmask the module internal source of interrupt for the user [a]." bitfld.long 0xC 31. "NOTFULLENABLEMB15,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 30. "NEWMSGENABLEMB15,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 29. "NOTFULLENABLEMB14,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 28. "NEWMSGENABLEMB14,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 27. "NOTFULLENABLEMB13,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 26. "NEWMSGENABLEMB13,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 25. "NOTFULLENABLEMB12,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 24. "NEWMSGENABLEMB12,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 23. "NOTFULLENABLEMB11,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 22. "NEWMSGENABLEMB11,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 21. "NOTFULLENABLEMB10,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 20. "NEWMSGENABLEMB10,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 19. "NOTFULLENABLEMB9,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 18. "NEWMSGENABLEMB9,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 17. "NOTFULLENABLEMB8,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 16. "NEWMSGENABLEMB8,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 15. "NOTFULLENABLEMB7,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 14. "NEWMSGENABLEMB7,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 13. "NOTFULLENABLEMB6,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 12. "NEWMSGENABLEMB6,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 11. "NOTFULLENABLEMB5,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 10. "NEWMSGENABLEMB5,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 9. "NOTFULLENABLEMB4,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 8. "NEWMSGENABLEMB4,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 7. "NOTFULLENABLEMB3,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 6. "NEWMSGENABLEMB3,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 5. "NOTFULLENABLEMB2,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 4. "NEWMSGENABLEMB2,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" newline bitfld.long 0xC 3. "NOTFULLENABLEMB1,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 2. "NEWMSGENABLEMB1,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 1. "NOTFULLENABLEMB0,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" bitfld.long 0xC 0. "NEWMSGENABLEMB0,Read value is current enable state for this interrupt. Write 1 disables the interrupt. Write 0 does nothing." "0,1" tree.end tree.end tree "MAIN" base ad:0x0 tree "MAIN_GPIOMUX_INTROUTER0_INTR_ROUTER_CFG (MAIN_GPIOMUX_INTROUTER0_INTR_ROUTER_CFG)" base ad:0xA00000 rgroup.long 0x0++0x3 line.long 0x0 "INTR_ROUTER_CFG_PID,Identification register" bitfld.long 0x0 30.--31. "SCHEME,scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION,function" hexmask.long.byte 0x0 11.--15. 1. "RTLVER,rtl version" bitfld.long 0x0 8.--10. "MAJREV,major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,custom id" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINREV,minor version" group.long 0x4++0x3 line.long 0x0 "INTR_ROUTER_CFG_INTR_MUXCNTL,Interrupt mux control register" bitfld.long 0x0 16. "INT_ENABLE,interrupt output enable for interrupt N" "0,1" hexmask.long.byte 0x0 0.--7. 1. "MUX_CNTL,Mux control for interrupt N" tree.end base ad:0x0 tree "MAIN_SEC_MMR0" tree "MAIN_SEC_MMR0_CFG0 (MAIN_SEC_MMR0_CFG0)" base ad:0x45A00000 rgroup.long 0x0++0x3 line.long 0x0 "CFG0_PID," hexmask.long.word 0x0 16.--31. 1. "PID_MSB16," newline hexmask.long.byte 0x0 11.--15. 1. "PID_MISC," newline bitfld.long 0x0 8.--10. "PID_MAJOR," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "PID_CUSTOM," "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "PID_MINOR," rgroup.long 0x20++0x3 line.long 0x0 "CFG0_CLSTR0_DEF," bitfld.long 0x0 16.--17. "CLSTR0_DEF_CORE_NUM,Number of cores in cluster 001 - Single Core 010 - Dual Core" "0,1,2,3" newline hexmask.long.byte 0x0 8.--15. 1. "CLSTR0_DEF_DSP_CORE_TYPE,DSP core type configuration Field values (others are reserved): 8'h00 - C7x 8'h01 - C6x 8'h10 - AC7x 8'hFF - Not DSP" newline hexmask.long.byte 0x0 0.--7. 1. "CLSTR0_DEF_ARM_CORE_TYPE,ARM core type configuration Field values (others are reserved): 8'h01 - A57 8'h10 - R5 8'h11 - M4F 8'hFF - Not ARM 8'h00 - A53 8'h01 - A57 8'h10 - R5 8'h11 - M4F 8'hFF - Not ARM" group.long 0x40++0x3 line.long 0x0 "CFG0_CLSTR0_CFG," rbitfld.long 0x0 6. "CLSTR0_CFG_SINGLE_CORE_ONLY,Single / Dual CPU Mode Supported: 0 = Both Dual and Single Core are supported 1 = Only Single Core Mode is Supported" "0: Both Dual and Single Core are supported,1: Only Single Core Mode is Supported" newline rbitfld.long 0x0 5. "CLSTR0_CFG_SINGLE_CORE,Single / Dual CPU Mode: 0 = Unsupported on this device 1 = Only CPU0 is active." "0: Unsupported on this device,1: Only CPU0 is active" newline bitfld.long 0x0 4. "CLSTR0_CFG_MEM_INIT_DIS,Deactivates SRAM initialization (TCM Cache Tags etc) at reset Initialization must be performed for proper initial ECC initialization. The mem_init_dis value must be selected prior to R5 reset assertion. 1'b0 - Perform memory.." "0,1" newline rbitfld.long 0x0 3. "CLSTR0_CFG_LOCKSTEP_EN,Lockstep Not Supported" "0,1" newline bitfld.long 0x0 2. "CLSTR0_CFG_DBG_NO_CLKSTOP,CPU clockstop behavior 0 - CPU clocks stopped and nCLOCKSTOPPED asserted in standby mode 1 - CPU clocks not stopped in standby mode" "0,1" newline bitfld.long 0x0 1. "CLSTR0_CFG_TEINIT,Exception handling state at reset: 0 - ARM mode 1 - Thumb mode CAUTION: This bit must not be modified while R5F CPU is released from reset." "0,1" newline rbitfld.long 0x0 0. "CLSTR0_CFG_LOCKSTEP,Lockstep Not Supported" "0,1" group.long 0x80++0x3 line.long 0x0 "CFG0_CLSTR0_PMCTRL," group.long 0x90++0x3 line.long 0x0 "CFG0_CLSTR0_PMSTAT," group.long 0x100++0x3 line.long 0x0 "CFG0_CLSTR0_CORE0_CFG," bitfld.long 0x0 15. "CLSTR0_CORE0_CFG_NMFI_EN,Activate Core0 Non-Maskable Fast Interrupts CAUTION: This bit must not be modified while R5F CPU is released from reset." "0,1" newline bitfld.long 0x0 11. "CLSTR0_CORE0_CFG_TCM_RSTBASE,Core0 A/BTCM Reset Base Address Indicator 0 - BTCM located at address 0x0 1 - ATCM located at address 0x0 CAUTION: This bit must not be modified while R5F CPU is released from reset." "0,1" newline bitfld.long 0x0 7. "CLSTR0_CORE0_CFG_BTCM_EN,Activate Core0 BTCM RAM at reset CAUTION: This bit must not be modified while R5F CPU is released from reset." "0,1" newline bitfld.long 0x0 3. "CLSTR0_CORE0_CFG_ATCM_EN,Activate Core0 ATCM RAM at reset CAUTION: This bit must not be modified while R5F CPU is released from reset." "0,1" group.long 0x110++0x7 line.long 0x0 "CFG0_CLSTR0_CORE0_BOOTVECT_LO," hexmask.long 0x0 7.--31. 1. "CLSTR0_CORE0_BOOTVECT_LO_VECT_ADDR,Specifies the lower 25 bits of the 41-bit vector address corresponding to Vector Table address bits[31:7]. Note bits 6:0 of the Vector Table address are always 0." line.long 0x4 "CFG0_CLSTR0_CORE0_BOOTVECT_HI," hexmask.long.word 0x4 0.--15. 1. "CLSTR0_CORE0_BOOTVECT_HI_VECT_ADDR,Specifies the upper 16 bits of the 41-bit vector address corresponding to Vector Table address bits[47:32]." group.long 0x120++0x3 line.long 0x0 "CFG0_CLSTR0_CORE0_PMCTRL," bitfld.long 0x0 0. "CLSTR0_CORE0_PMCTRL_CORE_HALT,Halt Core0 Field values (others are reserved): 1'b0 - CPU is held waiting to begin execution after reset is released 1'b1 - CPU is released to execute" "0,1" rgroup.long 0x130++0x3 line.long 0x0 "CFG0_CLSTR0_CORE0_PMSTAT," bitfld.long 0x0 3. "CLSTR0_CORE0_PMSTAT_CLK_GATE,Core0 Clocked stopped due to WFI or WFE state Note: Informaton is only valid when core is out of reset." "0,1" newline bitfld.long 0x0 1. "CLSTR0_CORE0_PMSTAT_WFE,Core0 WFE When 0 indicates that Core0 is in the WFE state Note: Informaton is only valid when core is out of reset." "0,1" newline bitfld.long 0x0 0. "CLSTR0_CORE0_PMSTAT_WFI,Core0 WFI When 0 indicates that Core0 is in the WFI state Note: Informaton is only valid when core is out of reset." "0,1" rgroup.long 0x9020++0x3 line.long 0x0 "CFG0_CLSTR9_DEF," bitfld.long 0x0 16.--18. "CLSTR9_DEF_CORE_NUM,Number of cores in cluster 000 - Single Core 001 - Dual Core 010 - Quad Core" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 8.--15. 1. "CLSTR9_DEF_DSP_CORE_TYPE,DSP core type configuration Field values (others are reserved): 8'h00 - C7x 8'h01 - C6x 8'h10 - AC7x 8'hFF - Not DSP" newline hexmask.long.byte 0x0 0.--7. 1. "CLSTR9_DEF_ARM_CORE_TYPE,ARM core type configuration Field values (others are reserved): 8'h00 - A53 8'h01 - A57 8'h10 - R5 8'h11 - M4F 8'hFF - Not ARM" group.long 0x9040++0x3 line.long 0x0 "CFG0_CLSTR9_CONFIG0," bitfld.long 0x0 11. "CLSTR9_CONFIG0_CP15_DISABLE3,Deactivate write access to secure CP15 registers for Core3 0 - Access activated 1 - Access deactivated CAUTION: This bit must not be modified while A53 CPU is released from reset." "0,1" newline bitfld.long 0x0 10. "CLSTR9_CONFIG0_CP15_DISABLE2,Deactivate write access to secure CP15 registers for Core2 0 - Access activated 1 - Access deactivated CAUTION: This bit must not be modified while A53 CPU is released from reset." "0,1" newline bitfld.long 0x0 9. "CLSTR9_CONFIG0_CP15_DISABLE1,Deactivate write access to secure CP15 registers for Core1 0 - Access activated 1 - Access deactivated CAUTION: This bit must not be modified while A53 CPU is released from reset." "0,1" newline bitfld.long 0x0 8. "CLSTR9_CONFIG0_CP15_DISABLE0,Deactivate write access to secure CP15 registers for Core0 0 - Access activated 1 - Access deactivated CAUTION: This bit must not be modified while A53 CPU is released from reset." "0,1" newline bitfld.long 0x0 7. "CLSTR9_CONFIG0_CONFIG_TE3,Activate T32 exceptions for Core3 Sets the initial value of the TE bit in the CP15 SCTLR register. This bitfield is sampled only during reset of the processor. 0 - TE bit is LOW 1 - TE bit is HIGH CAUTION: This bit must not be.." "0,1" newline bitfld.long 0x0 6. "CLSTR9_CONFIG0_CONFIG_TE2,Activate T32 exceptions for Core2 Sets the initial value of the TE bit in the CP15 SCTLR register. This bitfield is sampled only during reset of the processor. 0 - TE bit is LOW 1 - TE bit is HIGH CAUTION: This bit must not be.." "0,1" newline bitfld.long 0x0 5. "CLSTR9_CONFIG0_CONFIG_TE1,Activate T32 exceptions for Core1 Sets the initial value of the TE bit in the CP15 SCTLR register. This bitfield is sampled only during reset of the processor. 0 - TE bit is LOW 1 - TE bit is HIGH CAUTION: This bit must not be.." "0,1" newline bitfld.long 0x0 4. "CLSTR9_CONFIG0_CONFIG_TE0,Activate T32 exceptions for Core0 Sets the initial value of the TE bit in the CP15 SCTLR register. This bitfield is sampled only during reset of the processor. 0 - TE bit is LOW 1 - TE bit is HIGH CAUTION: This bit must not be.." "0,1" newline bitfld.long 0x0 3. "CLSTR9_CONFIG0_AARCH3,Core3 ARM Architecture configuration 0 - AArch32 1 - AArch64 CAUTION: This bit must not be modified while A53 CPU is released from reset." "0,1" newline bitfld.long 0x0 2. "CLSTR9_CONFIG0_AARCH2,Core2 ARM Architecture configuration 0 - AArch32 1 - AArch64 CAUTION: This bit must not be modified while A53 CPU is released from reset." "0,1" newline bitfld.long 0x0 1. "CLSTR9_CONFIG0_AARCH1,Core1 ARM Architecture configuration 0 - AArch32 1 - AArch64 CAUTION: This bit must not be modified while A53 CPU is released from reset." "0,1" newline bitfld.long 0x0 0. "CLSTR9_CONFIG0_AARCH0,Core0 ARM Architecture configuration 0 - AArch32 1 - AArch64 CAUTION: This bit must not be modified while A53 CPU is released from reset." "0,1" group.long 0x9080++0x3 line.long 0x0 "CFG0_CLSTR9_PM_CONFIG," bitfld.long 0x0 12. "CLSTR9_PM_CONFIG_L2RSTDISABLE,Deactivate L2 cache automatic invalidate on reset functionality. This pin is sampled only during reset of the processor. 0 - Activate automatic invalidation of L2 cache on reset. 1 - Deactivate automatic invalidation of L2.." "0,1" newline bitfld.long 0x0 11. "CLSTR9_PM_CONFIG_DBGPWRUP3,Core3 powered up 0 - Core is powered down 1 - Core is powered up" "0,1" newline bitfld.long 0x0 10. "CLSTR9_PM_CONFIG_DBGPWRUP2,Core2 powered up 0 - Core is powered down 1 - Core is powered up" "0,1" newline bitfld.long 0x0 9. "CLSTR9_PM_CONFIG_DBGPWRUP1,Core1 powered up 0 - Core is powered down 1 - Core is powered up" "0,1" newline bitfld.long 0x0 8. "CLSTR9_PM_CONFIG_DBGPWRUP0,Core0 powered up 0 - Core is powered down 1 - Core is powered up" "0,1" newline bitfld.long 0x0 7. "CLSTR9_PM_CONFIG_DBGL1RSTDISABLE,Deactivate L1 data cache automatic invalidate on reset functionality. This pin is sampled only during reset of the processor. 0 - Activate automatic invalidation of L1 data cache on reset. 1 - Deactivate automatic.." "0,1" newline bitfld.long 0x0 6. "CLSTR9_PM_CONFIG_CLEAR_MON,Request to clear the external global exclusive monitor. This sends a WFE wake-up event to all cores in the cluster. When set HIGH the global exclusive monitor in the system is requesting the processor EVENT registers to be set.." "0,1" newline bitfld.long 0x0 5. "CLSTR9_PM_CONFIG_L2_FLUSHREQ,ARM L2 hardware flush request" "0,1" newline bitfld.long 0x0 1. "CLSTR9_PM_CONFIG_ACP_MASTER,ACP controller is inactive and is not participating in coherency. There must be no outstanding transactions when the controller asserts this signal and while it is asserted the controller must not send any new transactions: 0.." "0,1" rgroup.long 0x9090++0x3 line.long 0x0 "CFG0_CLSTR9_PM_STATUS," bitfld.long 0x0 13. "CLSTR9_PM_STATUS_STANDBY_WFI_L2,Indicates L2 low power state 0 - L2 not in low power state 1 - L2 is in WFI low power state" "0,1" newline bitfld.long 0x0 12. "CLSTR9_PM_STATUS_L2_HW_FLUSH,L2 hardware flush complete" "0,1" newline bitfld.long 0x0 11. "CLSTR9_PM_STATUS_CORE3_SMPEN,Core3 coherency indicator 0 - Core is taking part in coherency 1 - Core is not taking part in coherency" "0,1" newline bitfld.long 0x0 10. "CLSTR9_PM_STATUS_CORE2_SMPEN,Core2 coherency indicator 0 - Core is taking part in coherency 1 - Core is not taking part in coherency" "0,1" newline bitfld.long 0x0 9. "CLSTR9_PM_STATUS_CORE1_SMPEN,Core1 coherency indicator 0 - Core is taking part in coherency 1 - Core is not taking part in coherency" "0,1" newline bitfld.long 0x0 8. "CLSTR9_PM_STATUS_CORE0_SMPEN,Core0 coherency indicator 0 - Core is taking part in coherency 1 - Core is not taking part in coherency" "0,1" newline bitfld.long 0x0 7. "CLSTR9_PM_STATUS_CORE3_WFE,Indicates Core3 in WFE state Note: Informaton is only valid when core is out of reset." "0,1" newline bitfld.long 0x0 6. "CLSTR9_PM_STATUS_CORE2_WFE,Indicates Core2 in WFE state Note: Informaton is only valid when core is out of reset." "0,1" newline bitfld.long 0x0 5. "CLSTR9_PM_STATUS_CORE1_WFE,Indicates Core1 in WFE state Note: Informaton is only valid when core is out of reset." "0,1" newline bitfld.long 0x0 4. "CLSTR9_PM_STATUS_CORE0_WFE,Indicates Core0 in WFE state Note: Informaton is only valid when core is out of reset." "0,1" newline bitfld.long 0x0 3. "CLSTR9_PM_STATUS_CORE3_WFI,Indicates Core3 in WFI state Note: Informaton is only valid when core is out of reset." "0,1" newline bitfld.long 0x0 2. "CLSTR9_PM_STATUS_CORE2_WFI,Indicates Core2 in WFI state Note: Informaton is only valid when core is out of reset." "0,1" newline bitfld.long 0x0 1. "CLSTR9_PM_STATUS_CORE1_WFI,Indicates Core1 in WFI state Note: Informaton is only valid when core is out of reset." "0,1" newline bitfld.long 0x0 0. "CLSTR9_PM_STATUS_CORE0_WFI,Indicates Core0 in WFI state Note: Informaton is only valid when core is out of reset." "0,1" group.long 0x9110++0x7 line.long 0x0 "CFG0_CLSTR9_RST_VEC_LO_CORE0," hexmask.long 0x0 0.--31. 1. "CLSTR9_RST_VEC_LO_CORE0_RESET_BASE_VECTOR_LO,Core0 - Reset base vector (v8 Mode) Address[33:2] CAUTION: This bit must not be modified while A53 CPU is released from reset." line.long 0x4 "CFG0_CLSTR9_RST_VEC_HI_CORE0," bitfld.long 0x4 0.--1. "CLSTR9_RST_VEC_HI_CORE0_RESET_BASE_VECTOR_HI,Core0 - Reset base vector (v8 Mode) Address[35:34] CAUTION: This bit must not be modified while A53 CPU is released from reset." "0,1,2,3" group.long 0x9190++0x7 line.long 0x0 "CFG0_CLSTR9_RST_VEC_LO_CORE1," hexmask.long 0x0 0.--31. 1. "CLSTR9_RST_VEC_LO_CORE1_RESET_BASE_VECTOR_LO,Core1 - Reset base vector (v8 Mode) Address[33:2] CAUTION: This bit must not be modified while A53 CPU is released from reset." line.long 0x4 "CFG0_CLSTR9_RST_VEC_HI_CORE1," bitfld.long 0x4 0.--1. "CLSTR9_RST_VEC_HI_CORE1_RESET_BASE_VECTOR_HI,Core1 - Reset base vector (v8 Mode) Address[35:34] CAUTION: This bit must not be modified while A53 CPU is released from reset." "0,1,2,3" group.long 0x9210++0x7 line.long 0x0 "CFG0_CLSTR9_RST_VEC_LO_CORE2," hexmask.long 0x0 0.--31. 1. "CLSTR9_RST_VEC_LO_CORE2_RESET_BASE_VECTOR_LO,Core2 - Reset base vector (v8 Mode) Address[33:2] CAUTION: This bit must not be modified while A53 CPU is released from reset." line.long 0x4 "CFG0_CLSTR9_RST_VEC_HI_CORE2," bitfld.long 0x4 0.--1. "CLSTR9_RST_VEC_HI_CORE2_RESET_BASE_VECTOR_HI,Core2 - Reset base vector (v8 Mode) Address[35:34] CAUTION: This bit must not be modified while A53 CPU is released from reset." "0,1,2,3" group.long 0x9290++0x7 line.long 0x0 "CFG0_CLSTR9_RST_VEC_LO_CORE3," hexmask.long 0x0 0.--31. 1. "CLSTR9_RST_VEC_LO_CORE3_RESET_BASE_VECTOR_LO,Core3 - Reset base vector (v8 Mode) Address[33:2] CAUTION: This bit must not be modified while A53 CPU is released from reset." line.long 0x4 "CFG0_CLSTR9_RST_VEC_HI_CORE3," bitfld.long 0x4 0.--1. "CLSTR9_RST_VEC_HI_CORE3_RESET_BASE_VECTOR_HI,Core3 - Reset base vector (v8 Mode) Address[35:34] CAUTION: This bit must not be modified while A53 CPU is released from reset." "0,1,2,3" rgroup.long 0xD020++0x3 line.long 0x0 "CFG0_CLSTR13_DEF," bitfld.long 0x0 16.--18. "CLSTR13_DEF_CORE_NUM,Number of cores in cluster 000 - Single Core 001 - Dual Core 010 - Quad Core" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 8.--15. 1. "CLSTR13_DEF_DSP_CORE_TYPE,DSP core type configuration Field values (others are reserved): 8'h00 - C7x 8'h01 - C6x 8'h10 - AC7x 8'hFF - Not DSP" newline hexmask.long.byte 0x0 0.--7. 1. "CLSTR13_DEF_ARM_CORE_TYPE,ARM core type configuration Field values (others are reserved): 8'h00 - A53 8'h01 - A57 8'h10 - R5 8'h11 - M4F 8'hFF - Not ARM" group.long 0xD040++0x3 line.long 0x0 "CFG0_CLSTR13_CONFIG0," bitfld.long 0x0 31. "CLSTR13_CONFIG0_ENDIAN,Reset value of Endian control. Valid for DSP only. 0 - Little Endian 1 - Big Endian" "0,1" newline bitfld.long 0x0 30. "CLSTR13_CONFIG0_CPU_SYS_RISCV_MODE,Activates CPU Booting in RiscV Mode 0 - Boot in C7x ISA Mode 1 - Boot in RiscV ISA Mode" "0,1" newline bitfld.long 0x0 19. "CLSTR13_CONFIG0_MMA_PRESENT,MMA Present Based on EFUSE. This bit is intended to be read not modified and writes to this bit will not have any impact on the C7xv256 mma present which is directly controlled by efuse." "0,1" newline rbitfld.long 0x0 16.--18. "CLSTR13_CONFIG0_EL2SIZE,EL2 Size Field values (others are reserved): 3'b111 - 4MB 3'b110 - 3.5MB 3'b101 - 3MB 3'b100 - 2.5MB 3'b011 - 2MB 3'b010 - 1.5MB 3'b001 - 1MB 3'b000 - None" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 11.--15. 1. "CLSTR13_CONFIG0_L2SIZE,L2 Size Field values (others are reserved): 5'b10111 - 8MB 5'b10110 - 7.5MB 5'b10101 - 7MB 5'b10100 - 6.5MB 5'b10011 - 6MB 5'b10010 - 5.5MB 5'b10001 - 5MB 5'b10000 - 4.5MB 5'b01111 - 4MB 5'b01110 - 3.75MB 5'b01101 - 3.5MB 5'b01100.." newline rbitfld.long 0x0 9.--10. "CLSTR13_CONFIG0_L1DSIZE,L1D Size Field values (others are reserved): 2'b11 - 128KB 2'b10 - 64KB 2'b01 - 48KB 2'b00 - 32KB" "0,1,2,3" newline rbitfld.long 0x0 7.--8. "CLSTR13_CONFIG0_L1PSIZE,L1P Size Field values (others are reserved): 2'b11 - 128KB 2'b10 - 64KB 2'b01 - 48KB 2'b00 - 32KB" "0,1,2,3" newline rbitfld.long 0x0 5.--6. "CLSTR13_CONFIG0_VWIDTH,Vector Width Field values (others are reserved): 2'b11 - 512b 2'b10 - 256b 2'b01 - 128b 2'b00 - 64b" "0,1,2,3" newline rbitfld.long 0x0 4. "CLSTR13_CONFIG0_RISCV,RISCV ISA SUPPORT Field values (others are reserved): 1'b1 - Supported 1'b0 - Not Supported" "0,1" newline rbitfld.long 0x0 2.--3. "CLSTR13_CONFIG0_MMA,MMA Type Field values (others are reserved): 2'b11 - MMA2 2'b10 - MMA2P1 2'b01 - Reserved 2'b00 - Reserved" "0,1,2,3" newline rbitfld.long 0x0 0.--1. "CLSTR13_CONFIG0_CPU,CPU Type Field values (others are reserved): 2'b11 - Reserved 2'b10 - Reserved 2'b01 - Reserved 2'b00 - AC72 R10" "0,1,2,3" group.long 0xD080++0x3 line.long 0x0 "CFG0_CLSTR13_PM_CONFIG," rgroup.long 0xD090++0x3 line.long 0x0 "CFG0_CLSTR13_PM_STATUS," bitfld.long 0x0 16. "CLSTR13_PM_STATUS_DSP_IDLE_STAT16,C7x PBIST Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" newline bitfld.long 0x0 8. "CLSTR13_PM_STATUS_DSP_IDLE_STAT8,C7x DRU Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" newline bitfld.long 0x0 7. "CLSTR13_PM_STATUS_DSP_IDLE_STAT7,C7x L2 Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" newline bitfld.long 0x0 6. "CLSTR13_PM_STATUS_DSP_IDLE_STAT6,C7x Debug Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" newline bitfld.long 0x0 5. "CLSTR13_PM_STATUS_DSP_IDLE_STAT5,C7x SE Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" newline bitfld.long 0x0 4. "CLSTR13_PM_STATUS_DSP_IDLE_STAT4,C7x DMC Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" newline bitfld.long 0x0 3. "CLSTR13_PM_STATUS_DSP_IDLE_STAT3,C7x PMC Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" newline bitfld.long 0x0 2. "CLSTR13_PM_STATUS_DSP_IDLE_STAT2,C7x CPU Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" newline bitfld.long 0x0 1. "CLSTR13_PM_STATUS_DSP_IDLE_STAT1,C7x Core LPSC Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" newline bitfld.long 0x0 0. "CLSTR13_PM_STATUS_DSP_IDLE_STAT0,Composite Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" group.long 0xD100++0x3 line.long 0x0 "CFG0_CLSTR13_CORE0_CFG," group.long 0xD110++0x7 line.long 0x0 "CFG0_CLSTR13_RST_VEC_LO_CORE0," hexmask.long 0x0 0.--31. 1. "CLSTR13_RST_VEC_LO_CORE0_RESET_BASE_VECTOR_LO,Reset Vector Base Address 33:2 for C7x DSP" line.long 0x4 "CFG0_CLSTR13_RST_VEC_HI_CORE0," bitfld.long 0x4 0.--1. "CLSTR13_RST_VEC_HI_CORE0_RESET_BASE_VECTOR_HI,Reset Vector Base Address 35:34 for C7x DSP" "0,1,2,3" group.long 0xD120++0x3 line.long 0x0 "CFG0_CLSTR13_CORE0_PMCTRL," group.long 0xD130++0x3 line.long 0x0 "CFG0_CLSTR13_CORE0_PMSTAT," rgroup.long 0xE020++0x3 line.long 0x0 "CFG0_CLSTR14_DEF," bitfld.long 0x0 16.--18. "CLSTR14_DEF_CORE_NUM,Number of cores in cluster 000 - Single Core 001 - Dual Core 010 - Quad Core" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 8.--15. 1. "CLSTR14_DEF_DSP_CORE_TYPE,DSP core type configuration Field values (others are reserved): 8'h00 - C7x 8'h01 - C6x 8'h10 - AC7x 8'hFF - Not DSP" newline hexmask.long.byte 0x0 0.--7. 1. "CLSTR14_DEF_ARM_CORE_TYPE,ARM core type configuration Field values (others are reserved): 8'h00 - A53 8'h01 - A57 8'h10 - R5 8'h11 - M4F 8'hFF - Not ARM" group.long 0xE040++0x3 line.long 0x0 "CFG0_CLSTR14_CONFIG0," bitfld.long 0x0 31. "CLSTR14_CONFIG0_ENDIAN,Reset value of Endian control. Valid for DSP only. 0 - Little Endian 1 - Big Endian" "0,1" newline bitfld.long 0x0 30. "CLSTR14_CONFIG0_CPU_SYS_RISCV_MODE,Activates CPU Booting in RiscV Mode 0 - Boot in C7x ISA Mode 1 - Boot in RiscV ISA Mode" "0,1" newline bitfld.long 0x0 19. "CLSTR14_CONFIG0_MMA_PRESENT,MMA Present Based on EFUSE. This bit is intended to be read not modified and writes to this bit will not have any impact on the C7xv256 mma present which is directly controlled by efuse." "0,1" newline rbitfld.long 0x0 16.--18. "CLSTR14_CONFIG0_EL2SIZE,EL2 Size Field values (others are reserved): 3'b111 - 4MB 3'b110 - 3.5MB 3'b101 - 3MB 3'b100 - 2.5MB 3'b011 - 2MB 3'b010 - 1.5MB 3'b001 - 1MB 3'b000 - None" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 11.--15. 1. "CLSTR14_CONFIG0_L2SIZE,L2 Size Field values (others are reserved): 5'b10111 - 8MB 5'b10110 - 7.5MB 5'b10101 - 7MB 5'b10100 - 6.5MB 5'b10011 - 6MB 5'b10010 - 5.5MB 5'b10001 - 5MB 5'b10000 - 4.5MB 5'b01111 - 4MB 5'b01110 - 3.75MB 5'b01101 - 3.5MB 5'b01100.." newline rbitfld.long 0x0 9.--10. "CLSTR14_CONFIG0_L1DSIZE,L1D Size Field values (others are reserved): 2'b11 - 128KB 2'b10 - 64KB 2'b01 - 48KB 2'b00 - 32KB" "0,1,2,3" newline rbitfld.long 0x0 7.--8. "CLSTR14_CONFIG0_L1PSIZE,L1P Size Field values (others are reserved): 2'b11 - 128KB 2'b10 - 64KB 2'b01 - 48KB 2'b00 - 32KB" "0,1,2,3" newline rbitfld.long 0x0 5.--6. "CLSTR14_CONFIG0_VWIDTH,Vector Width Field values (others are reserved): 2'b11 - 512b 2'b10 - 256b 2'b01 - 128b 2'b00 - 64b" "0,1,2,3" newline rbitfld.long 0x0 4. "CLSTR14_CONFIG0_RISCV,RISCV ISA SUPPORT Field values (others are reserved): 1'b1 - Supported 1'b0 - Not Supported" "0,1" newline rbitfld.long 0x0 2.--3. "CLSTR14_CONFIG0_MMA,MMA Type Field values (others are reserved): 2'b11 - MMA2 2'b10 - MMA2P1 2'b01 - Reserved 2'b00 - Reserved" "0,1,2,3" newline rbitfld.long 0x0 0.--1. "CLSTR14_CONFIG0_CPU,CPU Type Field values (others are reserved): 2'b11 - Reserved 2'b10 - Reserved 2'b01 - Reserved 2'b00 - AC72 R10" "0,1,2,3" group.long 0xE080++0x3 line.long 0x0 "CFG0_CLSTR14_PM_CONFIG," rgroup.long 0xE090++0x3 line.long 0x0 "CFG0_CLSTR14_PM_STATUS," bitfld.long 0x0 16. "CLSTR14_PM_STATUS_DSP_IDLE_STAT16,C7x PBIST Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" newline bitfld.long 0x0 8. "CLSTR14_PM_STATUS_DSP_IDLE_STAT8,C7x DRU Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" newline bitfld.long 0x0 7. "CLSTR14_PM_STATUS_DSP_IDLE_STAT7,C7x L2 Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" newline bitfld.long 0x0 6. "CLSTR14_PM_STATUS_DSP_IDLE_STAT6,C7x Debug Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" newline bitfld.long 0x0 5. "CLSTR14_PM_STATUS_DSP_IDLE_STAT5,C7x SE Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" newline bitfld.long 0x0 4. "CLSTR14_PM_STATUS_DSP_IDLE_STAT4,C7x DMC Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" newline bitfld.long 0x0 3. "CLSTR14_PM_STATUS_DSP_IDLE_STAT3,C7x PMC Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" newline bitfld.long 0x0 2. "CLSTR14_PM_STATUS_DSP_IDLE_STAT2,C7x CPU Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" newline bitfld.long 0x0 1. "CLSTR14_PM_STATUS_DSP_IDLE_STAT1,C7x Core LPSC Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" newline bitfld.long 0x0 0. "CLSTR14_PM_STATUS_DSP_IDLE_STAT0,Composite Idle Status Field values (others are reserved): 1'b1 - Idle 1'b0 - Not Idle" "0,1" group.long 0xE100++0x3 line.long 0x0 "CFG0_CLSTR14_CORE0_CFG," group.long 0xE110++0x7 line.long 0x0 "CFG0_CLSTR14_RST_VEC_LO_CORE0," hexmask.long 0x0 0.--31. 1. "CLSTR14_RST_VEC_LO_CORE0_RESET_BASE_VECTOR_LO,Reset Vector Base Address 33:2 for C7x DSP" line.long 0x4 "CFG0_CLSTR14_RST_VEC_HI_CORE0," bitfld.long 0x4 0.--1. "CLSTR14_RST_VEC_HI_CORE0_RESET_BASE_VECTOR_HI,Reset Vector Base Address 35:34 for C7x DSP" "0,1,2,3" group.long 0xE120++0x3 line.long 0x0 "CFG0_CLSTR14_CORE0_PMCTRL," group.long 0xE130++0x3 line.long 0x0 "CFG0_CLSTR14_CORE0_PMSTAT," group.long 0x18008++0x3 line.long 0x0 "CFG0_GIC_CONFIG," bitfld.long 0x0 11. "GIC_CONFIG_A53SS0_CORE3_ACTIVE,Drives GIC cpu_active input for A53SS0 Core3. When a core is in a low-power mode (cpu_active=0) the GIC will not route shared-SPI events to the core which would wake up the core resulting in increased power consumption. 0.." "0,1" newline bitfld.long 0x0 10. "GIC_CONFIG_A53SS0_CORE2_ACTIVE,Drives GIC cpu_active input for A53SS0 Core2. When a core is in a low-power mode (cpu_active=0) the GIC will not route shared-SPI events to the core which would wake up the core resulting in increased power consumption. 0.." "0,1" newline bitfld.long 0x0 9. "GIC_CONFIG_A53SS0_CORE1_ACTIVE,Drives GIC cpu_active input for A53SS0 Core1. When a core is in a low-power mode (cpu_active=0) the GIC will not route shared-SPI events to the core which would wake up the core resulting in increased power consumption. 0.." "0,1" newline bitfld.long 0x0 8. "GIC_CONFIG_A53SS0_CORE0_ACTIVE,Drives GIC cpu_active input for A53SS0 Core0. When a core is in a low-power mode (cpu_active=0) the GIC will not route shared-SPI events to the core which would wake up the core resulting in increased power consumption. 0.." "0,1" tree.end tree "MAIN_SEC_MMR0_CFG2 (MAIN_SEC_MMR0_CFG2)" base ad:0x45900000 group.long 0x0++0x3 line.long 0x0 "CFG2_CLSTR0_CORE0_DBG_CFG," hexmask.long.byte 0x0 12.--15. 1. "CLSTR0_CORE0_DBG_CFG_DBGEN,Core0 Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" hexmask.long.byte 0x0 8.--11. 1. "CLSTR0_CORE0_DBG_CFG_NIDEN,Core0 Non-invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" group.long 0x9000++0x3 line.long 0x0 "CFG2_CLSTR9_CORE0_DBG_CFG," hexmask.long.byte 0x0 12.--15. 1. "CLSTR9_CORE0_DBG_CFG_SPNIDEN,Core0 Secure Non-Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" hexmask.long.byte 0x0 8.--11. 1. "CLSTR9_CORE0_DBG_CFG_SPIDEN,Core0 Secure Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" hexmask.long.byte 0x0 4.--7. 1. "CLSTR9_CORE0_DBG_CFG_NIDEN,Core0 Non-Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" newline hexmask.long.byte 0x0 0.--3. 1. "CLSTR9_CORE0_DBG_CFG_DBGEN,Core0 Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" group.long 0x9040++0x3 line.long 0x0 "CFG2_CLSTR9_CORE1_DBG_CFG," hexmask.long.byte 0x0 12.--15. 1. "CLSTR9_CORE1_DBG_CFG_SPNIDEN,Core1 Secure Non-Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" hexmask.long.byte 0x0 8.--11. 1. "CLSTR9_CORE1_DBG_CFG_SPIDEN,Core1 Secure Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" hexmask.long.byte 0x0 4.--7. 1. "CLSTR9_CORE1_DBG_CFG_NIDEN,Core1 Non-Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" newline hexmask.long.byte 0x0 0.--3. 1. "CLSTR9_CORE1_DBG_CFG_DBGEN,Core1 Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" group.long 0x9080++0x3 line.long 0x0 "CFG2_CLSTR9_CORE2_DBG_CFG," hexmask.long.byte 0x0 12.--15. 1. "CLSTR9_CORE2_DBG_CFG_SPNIDEN,Core2 Secure Non-Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" hexmask.long.byte 0x0 8.--11. 1. "CLSTR9_CORE2_DBG_CFG_SPIDEN,Core2 Secure Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" hexmask.long.byte 0x0 4.--7. 1. "CLSTR9_CORE2_DBG_CFG_NIDEN,Core2 Non-Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" newline hexmask.long.byte 0x0 0.--3. 1. "CLSTR9_CORE2_DBG_CFG_DBGEN,Core2 Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" group.long 0x90C0++0x3 line.long 0x0 "CFG2_CLSTR9_CORE3_DBG_CFG," hexmask.long.byte 0x0 12.--15. 1. "CLSTR9_CORE3_DBG_CFG_SPNIDEN,Core3 Secure Non-Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" hexmask.long.byte 0x0 8.--11. 1. "CLSTR9_CORE3_DBG_CFG_SPIDEN,Core3 Secure Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" hexmask.long.byte 0x0 4.--7. 1. "CLSTR9_CORE3_DBG_CFG_NIDEN,Core3 Non-Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" newline hexmask.long.byte 0x0 0.--3. 1. "CLSTR9_CORE3_DBG_CFG_DBGEN,Core3 Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" group.long 0xD000++0x3 line.long 0x0 "CFG2_CLSTR13_CORE0_DBG_CFG," hexmask.long.byte 0x0 12.--15. 1. "CLSTR13_CORE0_DBG_CFG_SPNIDEN,Core0 Secure Non-Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" hexmask.long.byte 0x0 8.--11. 1. "CLSTR13_CORE0_DBG_CFG_SPIDEN,Core0 Secure Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" hexmask.long.byte 0x0 4.--7. 1. "CLSTR13_CORE0_DBG_CFG_NIDEN,Core0 Non-Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" newline hexmask.long.byte 0x0 0.--3. 1. "CLSTR13_CORE0_DBG_CFG_DBGEN,Core0 Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" group.long 0xE000++0x3 line.long 0x0 "CFG2_CLSTR14_CORE0_DBG_CFG," hexmask.long.byte 0x0 12.--15. 1. "CLSTR14_CORE0_DBG_CFG_SPNIDEN,Core0 Secure Non-Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" hexmask.long.byte 0x0 8.--11. 1. "CLSTR14_CORE0_DBG_CFG_SPIDEN,Core0 Secure Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" hexmask.long.byte 0x0 4.--7. 1. "CLSTR14_CORE0_DBG_CFG_NIDEN,Core0 Non-Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" newline hexmask.long.byte 0x0 0.--3. 1. "CLSTR14_CORE0_DBG_CFG_DBGEN,Core0 Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" tree.end tree.end tree.end tree "MCAN0" base ad:0x0 tree "MCAN0_CFG (MCAN0_CFG)" base ad:0x20701000 rgroup.long 0x0++0x7 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_CREL,Release dependent constant (version + date)" hexmask.long.byte 0x0 28.--31. 1. "REL,Core Release" hexmask.long.byte 0x0 24.--27. 1. "STEP,Step of Core Release" hexmask.long.byte 0x0 20.--23. 1. "SUBSTEP,Sub-Step of Core Release" newline hexmask.long.byte 0x0 16.--19. 1. "YEAR,Time Stamp Year" hexmask.long.byte 0x0 8.--15. 1. "MON,Time Stamp Month" hexmask.long.byte 0x0 0.--7. 1. "DAY,Time Stamp Day" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ENDN,Constant 0x8765 4321" hexmask.long 0x4 0.--31. 1. "ETV,Endianess test value" group.long 0x8++0x37 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_CUST,Optional customer-specific register" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_DBTP,Configuration of data phase bit timing. transmitter delay compensation enable" bitfld.long 0x4 23. "TDC,Transmitter Delay Compensation" "0,1" hexmask.long.byte 0x4 16.--20. 1. "DBRP,Data Baud Rate Prescaler" hexmask.long.byte 0x4 8.--12. 1. "DTSEG1,Data time segment before sample point" newline hexmask.long.byte 0x4 4.--7. 1. "DTSEG2,Data time segment after sample point" hexmask.long.byte 0x4 0.--3. 1. "DSJW,Data resynchronization Jump Width" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TEST,Test mode selection" rbitfld.long 0x8 7. "RX,Receive Pin" "0,1" bitfld.long 0x8 5.--6. "TX,Control of Transmit Pin" "0,1,2,3" bitfld.long 0x8 4. "LBCK,Loop Back Mode" "0,1" line.long 0xC "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RWD,Monitors the READY output of the Message RAM" hexmask.long.byte 0xC 8.--15. 1. "WDV,Watchdog Value" hexmask.long.byte 0xC 0.--7. 1. "WDC,Watchdog Counter Value" line.long 0x10 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_CCCR,Operation mode configuration" bitfld.long 0x10 15. "NISO,Non ISO Operation. 0= CAN FD frame format according to ISO 11898-1:2015. 1= CAN FD frame format according to Bosch CAN FD Specification 1.0" "0: CAN FD frame format according to ISO 11898-1:2015,1: CAN FD frame format according to Bosch CAN FD.." bitfld.long 0x10 14. "TXP,Transmit Pause" "0,1" bitfld.long 0x10 13. "EFBI,Edge Filtering during Bus Integration" "0,1" newline bitfld.long 0x10 12. "PXHD,Protocol Exception Handling Disable" "0,1" bitfld.long 0x10 9. "BRSE,Bit Rate Switch Enable" "0,1" bitfld.long 0x10 8. "FDOE,FD Operation Enable" "0,1" newline bitfld.long 0x10 7. "TEST,Test Mode enable" "0,1" bitfld.long 0x10 6. "DAR,Disable Automatic Retransmission" "0,1" bitfld.long 0x10 5. "MON,Bus Monitoring Mode" "0,1" newline bitfld.long 0x10 4. "CSR,Clock Stop Request" "0,1" rbitfld.long 0x10 3. "CSA,Clock Stop Acknowledge" "0,1" bitfld.long 0x10 2. "ASM,Restricted Operation Mode" "0,1" newline bitfld.long 0x10 1. "CCE,Configuration Change Enable" "0,1" bitfld.long 0x10 0. "INIT,Initialization" "0,1" line.long 0x14 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_NBTP,Configuration of arbitration phase bit timing" hexmask.long.byte 0x14 25.--31. 1. "NSJW,Nominal Resynchronization Jump Width" hexmask.long.word 0x14 16.--24. 1. "NBRP,Nominal Baud Rate Prescaler" hexmask.long.byte 0x14 8.--15. 1. "NTSEG1,Nominal Time segment before sample point" newline hexmask.long.byte 0x14 0.--6. 1. "NTSEG2,Nominal Time segment after sample point" line.long 0x18 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TSCC,Timestamp counter prescaler setting. selection of internal/external timestamp vector" hexmask.long.byte 0x18 16.--19. 1. "TCP,Timestamp Counter Prescaler" bitfld.long 0x18 0.--1. "TSS,Timestamp Select" "0,1,2,3" line.long 0x1C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TSCV,Read/reset timestamp counter" hexmask.long.word 0x1C 0.--15. 1. "TSC,Timestamp Counter" line.long 0x20 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TOCC,Configuration of timeout period. selection of timeout counter operation mode" hexmask.long.word 0x20 16.--31. 1. "TOP,Timeout Period" bitfld.long 0x20 1.--2. "TOS,Timeout Select" "0,1,2,3" bitfld.long 0x20 0. "ETOC,Enable Timeout Counter" "0,1" line.long 0x24 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TOCV,Read/reset timeout counter" hexmask.long.word 0x24 0.--15. 1. "TOC,Timeout Counter" line.long 0x28 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved00,Reserved field" line.long 0x2C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved11,Reserved field" line.long 0x30 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved22,Reserved field" line.long 0x34 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved33,Reserved field" rgroup.long 0x40++0x7 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ECR,State of Rx/Tx Error Counter. CAN Error Logging" hexmask.long.byte 0x0 16.--23. 1. "CEL,CAN Error Logging" bitfld.long 0x0 15. "RP,Receive Error Passive" "0,1" hexmask.long.byte 0x0 8.--14. 1. "REC,Receive Error Counter" newline hexmask.long.byte 0x0 0.--7. 1. "TEC,Transmit Error Counter" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_PSR,CAN protocol controller status. transmitter delay compensation value" hexmask.long.byte 0x4 16.--22. 1. "TDCV,Transmitter Delay Compensation Value" bitfld.long 0x4 14. "PXE,Protocol Exception Event" "0,1" bitfld.long 0x4 13. "RFDF,Received a CAN FD Message" "0,1" newline bitfld.long 0x4 12. "RBRS,BRS flag of last received CAN FD Message" "0,1" bitfld.long 0x4 11. "RESI,ESI flag of last received CAN FD Message" "0,1" bitfld.long 0x4 8.--10. "DLEC,Data Phase Last Error Code" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 7. "BO,Bus_Off status" "0,1" bitfld.long 0x4 6. "EW,Warning Status" "0,1" bitfld.long 0x4 5. "EP,Error Passive" "0,1" newline bitfld.long 0x4 3.--4. "ACT,Activity" "0,1,2,3" bitfld.long 0x4 0.--2. "LEC,Last Error Code" "0,1,2,3,4,5,6,7" group.long 0x48++0x4B line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TDCR,configuration of transmitter delay compensation offset and filter window length" hexmask.long.byte 0x0 8.--14. 1. "TDCO,Transmitter Delay Compensation Offset" hexmask.long.byte 0x0 0.--6. 1. "TDCF,Transmitter Delay Compensation Filter Window Length" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved44,Reserved field" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_IR,Interrupt flags" bitfld.long 0x8 29. "ARA,Access to Reserved Address" "0,1" bitfld.long 0x8 28. "PED,Protocol Error in data Phase" "0,1" bitfld.long 0x8 27. "PEA,Protocol Error in Arbitration Phase" "0,1" newline bitfld.long 0x8 26. "WDI,Watchdog Interrupt" "0,1" bitfld.long 0x8 25. "BO,Bus_Off Status" "0,1" bitfld.long 0x8 24. "EW,Warning Status" "0,1" newline bitfld.long 0x8 23. "EP,Error Passive" "0,1" bitfld.long 0x8 22. "ELO,Error Logging Overflow" "0,1" bitfld.long 0x8 21. "BEU,Bit Error Uncorrected" "0,1" newline bitfld.long 0x8 19. "DRX,Message stored to Dedicated Rx Buffer" "0,1" bitfld.long 0x8 18. "TOO,Timeout Occurred" "0,1" bitfld.long 0x8 17. "MRAF,Message RAM Access Failure" "0,1" newline bitfld.long 0x8 16. "TSW,Timestamp Wraparound" "0,1" bitfld.long 0x8 15. "TEFL,Tx Event FIFO Element Lost" "0,1" bitfld.long 0x8 14. "TEFF,Tx Event FIFO Full" "0,1" newline bitfld.long 0x8 13. "TEFW,Tx Event FIFO Watermark Reached" "0,1" bitfld.long 0x8 12. "TEFN,Tx Event FIFO New Entry" "0,1" bitfld.long 0x8 11. "TFE,Tx FIFO Empty" "0,1" newline bitfld.long 0x8 10. "TCF,Transmission Cancellation Finished" "0,1" bitfld.long 0x8 9. "TC,Transmission Complete" "0,1" bitfld.long 0x8 8. "HPM,High Priority Message" "0,1" newline bitfld.long 0x8 7. "RF1L,Rx FIFO 1 Message Lost" "0,1" bitfld.long 0x8 6. "RF1F,Rx FIFO 1 Full" "0,1" bitfld.long 0x8 5. "RF1W,Rx FIFO 1 Watermark Reached" "0,1" newline bitfld.long 0x8 4. "RF1N,Rx FIFO 1 New Message" "0,1" bitfld.long 0x8 3. "RF0L,Rx FIFO 0 Message Lost" "0,1" bitfld.long 0x8 2. "RF0F,Rx FIFO 0 Full" "0,1" newline bitfld.long 0x8 1. "RF0W,Rx FIFO 0 Watermark Reached" "0,1" bitfld.long 0x8 0. "RF0N,Rx FIFO 0 New Message" "0,1" line.long 0xC "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_IE,Interrupt enable/disable" bitfld.long 0xC 29. "ARAE,Access to Reserve Address Interrupt Enable" "0,1" bitfld.long 0xC 28. "PEDE,Protocol Error in Data Phase Interrupt Enable" "0,1" bitfld.long 0xC 27. "PEAE,Protocol Error in Arbitration Phase Interrupt Enable" "0,1" newline bitfld.long 0xC 26. "WDIE,Watchdog Interrupt Enable" "0,1" bitfld.long 0xC 25. "BOE,Bus_Off Status Interrupt Enable" "0,1" bitfld.long 0xC 24. "EWE,Warning Status Interrupt Enable" "0,1" newline bitfld.long 0xC 23. "EPE,Error Passive Interrupt Enable" "0,1" bitfld.long 0xC 22. "ELOE,Error Logging Overflow Interrupt Enable" "0,1" bitfld.long 0xC 21. "BEUE,Bit Error Uncorrected Interrupt Enable" "0,1" newline bitfld.long 0xC 20. "BECE,Bit Error Corrected Interrupt Enable" "0,1" bitfld.long 0xC 19. "DRX,Message stored to Dedicated Rx Buffer Interrupt Enable" "0,1" bitfld.long 0xC 18. "TOOE,Timeout Occurred Interrupt Enable" "0,1" newline bitfld.long 0xC 17. "MRAFE,Message RAM Access Failure Interrupt Enable" "0,1" bitfld.long 0xC 16. "TSWE,Timestamp Wraparound Interrupt Enable" "0,1" bitfld.long 0xC 15. "TEFLE,Tx Event FIFO Event Lost Interrupt Enable" "0,1" newline bitfld.long 0xC 14. "TEFFE,Tx Event FIFO Full Interrupt Enable" "0,1" bitfld.long 0xC 13. "TEFWE,Tx Event FIFO Watermark Reached Interrupt enable" "0,1" bitfld.long 0xC 12. "TEFNE,Tx Event FIFO New Entry Interrupt Enable" "0,1" newline bitfld.long 0xC 11. "TFEE,Tx FIFO Empty Interrupt Enable" "0,1" bitfld.long 0xC 10. "TCFE,Transmission Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0xC 9. "TCE,Transmission Completed Interrupt Enable" "0,1" newline bitfld.long 0xC 8. "HPME,High Priority message Interrupt Enable" "0,1" bitfld.long 0xC 7. "RF1LE,rx FIFO 1 Message Lost Interrupt Enable" "0,1" bitfld.long 0xC 6. "RF1FE,Rx FIFO 1 Full Interrupt Enable" "0,1" newline bitfld.long 0xC 5. "RF1WE,Rx FIFO 1 Watermark Reached Interrupt Enable" "0,1" bitfld.long 0xC 4. "RF1NE,Rx FIFO 1 New Message Interrupt Enable" "0,1" bitfld.long 0xC 3. "RF0LE,Rx FIFO 0 Message Lost Interrupt Enable" "0,1" newline bitfld.long 0xC 2. "RF0FE,Rx FIFO 0 Full Interrupt Enable" "0,1" bitfld.long 0xC 1. "RF0WE,Rx FIFO 0 Watermark Reached Interrupt Enable" "0,1" bitfld.long 0xC 0. "RF0NE,Rx FIFO 0 New Message Interrupt Enable" "0,1" line.long 0x10 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ILS,Interrupt line select (m_can_int0 or m_can_int1)" bitfld.long 0x10 29. "ARAL,Access to Reserve Address Interrupt Line" "0,1" bitfld.long 0x10 28. "PEDL,Protocol Error in Data Phase Interrupt Line" "0,1" bitfld.long 0x10 27. "PEAL,Protocol Error in Arbitration Phase Interrupt Line" "0,1" newline bitfld.long 0x10 26. "WDIL,Watchdog Interrupt Line" "0,1" bitfld.long 0x10 25. "BOL,Bus_Off Status Interrupt Line" "0,1" bitfld.long 0x10 24. "EWL,Warning Status Interrupt Line" "0,1" newline bitfld.long 0x10 23. "EPL,Error Passive Interrupt Line" "0,1" bitfld.long 0x10 22. "ELOL,Error Logging Overflow Interrupt Line" "0,1" bitfld.long 0x10 21. "BEUL,Bit Error Uncorrected Interrupt Line" "0,1" newline bitfld.long 0x10 20. "BECL,Bit Error Corrected Interrupt Line" "0,1" bitfld.long 0x10 19. "DRXL,Message stored to Dedicated Rx Buffer Interrupt Line" "0,1" bitfld.long 0x10 18. "TOOL,Timeout Occurred Interrupt Line" "0,1" newline bitfld.long 0x10 17. "MRAFL,Message RAM Access Failure Interrupt Line" "0,1" bitfld.long 0x10 16. "TSWL,Timestamp Wraparound Interrupt Line" "0,1" bitfld.long 0x10 15. "TEFLL,Tx Event FIFO Event Lost Interrupt Line" "0,1" newline bitfld.long 0x10 14. "TEFFL,Tx Event FIFO Full Interrupt Line" "0,1" bitfld.long 0x10 13. "TEFWL,Tx Event FIFO Watermark Reached Interrupt Line" "0,1" bitfld.long 0x10 12. "TEFNL,Tx Event FIFO New Entry Interrupt Line" "0,1" newline bitfld.long 0x10 11. "TFEL,Tx FIFO Empty Interrupt Line" "0,1" bitfld.long 0x10 10. "TCFL,Transmission Cancellation Finishied Interrupt Line" "0,1" bitfld.long 0x10 9. "TCL,Transmission Completed Interrupt Line" "0,1" newline bitfld.long 0x10 8. "HPML,High Priority message Interrupt Line" "0,1" bitfld.long 0x10 7. "RF1LL,rx FIFO 1 Message Lost Interrupt Line" "0,1" bitfld.long 0x10 6. "RF1FL,Rx FIFO 1 Full Interrupt Line" "0,1" newline bitfld.long 0x10 5. "RF1WL,Rx FIFO 1 Watermark Reached Interrupt Line" "0,1" bitfld.long 0x10 4. "RF1NL,Rx FIFO 1 New Message Interrupt Line" "0,1" bitfld.long 0x10 3. "RF0LL,Rx FIFO 0 Message Lost Interrupt Line" "0,1" newline bitfld.long 0x10 2. "RF0FL,Rx FIFO 0 Full Interrupt Line" "0,1" bitfld.long 0x10 1. "RF0WL,Rx FIFO 0 Watermark Reached Interrupt Line" "0,1" bitfld.long 0x10 0. "RF0NL,Rx FIFO 0 New Message Interrupt Line" "0,1" line.long 0x14 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ILE,Enable/disable interrupt lines m_can_int0 / m_can_int1" bitfld.long 0x14 1. "EINT1,Enable Interrupt Line 1" "0,1" bitfld.long 0x14 0. "EINT0,Enable Interrupt Line 0" "0,1" line.long 0x18 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved55,Reserved field" line.long 0x1C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved66,Reserved field" line.long 0x20 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved77,Reserved field" line.long 0x24 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved88,Reserved field" line.long 0x28 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved99,Reserved field" line.long 0x2C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1010,Reserved field" line.long 0x30 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1111,Reserved field" line.long 0x34 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1212,Reserved field" line.long 0x38 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_GFC,Handling of non-matching frames and remote frames" bitfld.long 0x38 4.--5. "ANFS,Accept Non-matching Frames Standard" "0,1,2,3" bitfld.long 0x38 2.--3. "ANFE,Accept Non-matching Frames Extended" "0,1,2,3" bitfld.long 0x38 1. "RRFS,reject Remote Frames Standard" "0,1" newline bitfld.long 0x38 0. "RRFE,reject Remote Frames Extended" "0,1" line.long 0x3C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_SIDFC,Number of filter elements. pointer to start of filter list" hexmask.long.byte 0x3C 16.--23. 1. "LSS,List Size Standard" hexmask.long.word 0x3C 2.--15. 1. "FLSSA,Filter List Standard Start Address" line.long 0x40 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_XIDFC,Number of filter elements. pointer to start of filter list" hexmask.long.byte 0x40 16.--22. 1. "LSE,List Size Extended" hexmask.long.word 0x40 2.--15. 1. "FLESA,Filter List Extended Start Address" line.long 0x44 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1313,Reserved field" line.long 0x48 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_XIDAM,29-bit logical AND mask for J1939" hexmask.long 0x48 0.--28. 1. "EIDM,Extended ID Mask" rgroup.long 0x94++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_HPMS,Status monitoring of incoming high priority messages" bitfld.long 0x0 15. "FLST,Filter List" "0,1" hexmask.long.byte 0x0 8.--14. 1. "FIDX,Filter Index" bitfld.long 0x0 6.--7. "MSI,Message Storage Indicator" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "BIDX,Buffer Index" group.long 0x98++0xB line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_NDAT1,NewDat flags of dedicated Rx buffers 0-31" bitfld.long 0x0 31. "ND31,New Data" "0,1" bitfld.long 0x0 30. "ND30,New Data" "0,1" bitfld.long 0x0 29. "ND29,New Data" "0,1" newline bitfld.long 0x0 28. "ND28,New Data" "0,1" bitfld.long 0x0 27. "ND27,New Data" "0,1" bitfld.long 0x0 26. "ND26,New Data" "0,1" newline bitfld.long 0x0 25. "ND25,New Data" "0,1" bitfld.long 0x0 24. "ND24,New Data" "0,1" bitfld.long 0x0 23. "ND23,New Data" "0,1" newline bitfld.long 0x0 22. "ND22,New Data" "0,1" bitfld.long 0x0 21. "ND21,New Data" "0,1" bitfld.long 0x0 20. "ND20,New Data" "0,1" newline bitfld.long 0x0 19. "ND19,New Data" "0,1" bitfld.long 0x0 18. "ND18,New Data" "0,1" bitfld.long 0x0 17. "ND17,New Data" "0,1" newline bitfld.long 0x0 16. "ND16,New Data" "0,1" bitfld.long 0x0 15. "ND15,New Data" "0,1" bitfld.long 0x0 14. "ND14,New Data" "0,1" newline bitfld.long 0x0 13. "ND13,New Data" "0,1" bitfld.long 0x0 12. "ND12,New Data" "0,1" bitfld.long 0x0 11. "ND11,New Data" "0,1" newline bitfld.long 0x0 10. "ND10,New Data" "0,1" bitfld.long 0x0 9. "ND9,New Data" "0,1" bitfld.long 0x0 8. "ND8,New Data" "0,1" newline bitfld.long 0x0 7. "ND7,New Data" "0,1" bitfld.long 0x0 6. "ND6,New Data" "0,1" bitfld.long 0x0 5. "ND5,New Data" "0,1" newline bitfld.long 0x0 4. "ND4,New Data" "0,1" bitfld.long 0x0 3. "ND3,New Data" "0,1" bitfld.long 0x0 2. "ND2,New Data" "0,1" newline bitfld.long 0x0 1. "ND1,New Data" "0,1" bitfld.long 0x0 0. "ND0,New Data" "0,1" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_NDAT2,NewDat flags of dedicated Rx buffers 32-63" bitfld.long 0x4 31. "ND63,New Data" "0,1" bitfld.long 0x4 30. "ND62,New Data" "0,1" bitfld.long 0x4 29. "ND61,New Data" "0,1" newline bitfld.long 0x4 28. "ND60,New Data" "0,1" bitfld.long 0x4 27. "ND59,New Data" "0,1" bitfld.long 0x4 26. "ND58,New Data" "0,1" newline bitfld.long 0x4 25. "ND57,New Data" "0,1" bitfld.long 0x4 24. "ND56,New Data" "0,1" bitfld.long 0x4 23. "ND55,New Data" "0,1" newline bitfld.long 0x4 22. "ND54,New Data" "0,1" bitfld.long 0x4 21. "ND53,New Data" "0,1" bitfld.long 0x4 20. "ND52,New Data" "0,1" newline bitfld.long 0x4 19. "ND51,New Data" "0,1" bitfld.long 0x4 18. "ND50,New Data" "0,1" bitfld.long 0x4 17. "ND49,New Data" "0,1" newline bitfld.long 0x4 16. "ND48,New Data" "0,1" bitfld.long 0x4 15. "ND47,New Data" "0,1" bitfld.long 0x4 14. "ND46,New Data" "0,1" newline bitfld.long 0x4 13. "ND45,New Data" "0,1" bitfld.long 0x4 12. "ND44,New Data" "0,1" bitfld.long 0x4 11. "ND43,New Data" "0,1" newline bitfld.long 0x4 10. "ND42,New Data" "0,1" bitfld.long 0x4 9. "ND41,New Data" "0,1" bitfld.long 0x4 8. "ND40,New Data" "0,1" newline bitfld.long 0x4 7. "ND39,New Data" "0,1" bitfld.long 0x4 6. "ND38,New Data" "0,1" bitfld.long 0x4 5. "ND37,New Data" "0,1" newline bitfld.long 0x4 4. "ND36,New Data" "0,1" bitfld.long 0x4 3. "ND35,New Data" "0,1" bitfld.long 0x4 2. "ND34,New Data" "0,1" newline bitfld.long 0x4 1. "ND33,New Data" "0,1" bitfld.long 0x4 0. "ND32,New Data" "0,1" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF0C,FIFO 0 operation mode. watermark. size and start address" bitfld.long 0x8 31. "F0OM,Rx FIFO 0 Operation Mode" "0,1" hexmask.long.byte 0x8 24.--30. 1. "F0WM,Rx FIFO 0 Watermark" hexmask.long.byte 0x8 16.--22. 1. "F0S,Rx FIFO 0 Size" newline hexmask.long.word 0x8 2.--15. 1. "F0SA,Rx FIFO 0 Start Address" rgroup.long 0xA4++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF0S,FIFO 0 message lost/full indication. put index. get index and fill level" bitfld.long 0x0 25. "RF0L,Rx FIFO 0 Message Lost" "0,1" bitfld.long 0x0 24. "F0F,Rx FIFO 0 Full" "0,1" hexmask.long.byte 0x0 16.--21. 1. "F0PI,Rx FIFO 0 Put Index" newline hexmask.long.byte 0x0 8.--13. 1. "F0GI,Rx FIFO 0 Get Index" hexmask.long.byte 0x0 0.--6. 1. "F0FL,Rx FIFO 0 Fill Level" group.long 0xA8++0xB line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF0A,FIFO 0 acknowledge last index of read buffers. updates get index and fill level" hexmask.long.byte 0x0 0.--5. 1. "F0AI,Rx FIFO 0 Acknowledge Index" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXBC,Start address of Rx buffer section" hexmask.long.word 0x4 2.--15. 1. "RBSA,Rx Buffer Start Address" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF1C,FIFO 1 operation mode. watermark. size and start address" bitfld.long 0x8 31. "F1OM,Rx FIFO 1 Operation Mode" "0,1" hexmask.long.byte 0x8 24.--30. 1. "F1WM,Rx FIFO 1 Watermark" hexmask.long.byte 0x8 16.--22. 1. "F1S,Rx FIFO 1 Size" newline hexmask.long.word 0x8 2.--15. 1. "F1SA,Rx FIFO 1 Start Address" rgroup.long 0xB4++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF1S,FIFO 1 message lost/full indication. put index. get index and fill level" bitfld.long 0x0 30.--31. "DMS,Debug Message Status" "0,1,2,3" bitfld.long 0x0 25. "RF1L,Rx FIFO 1 Message Lost" "0,1" bitfld.long 0x0 24. "F1F,Rx FIFO 1 Full" "0,1" newline hexmask.long.byte 0x0 16.--21. 1. "F1PI,Rx FIFO 1 Put Index" hexmask.long.byte 0x0 8.--13. 1. "F1GI,Rx FIFO 1 Get Index" hexmask.long.byte 0x0 0.--6. 1. "F1FL,Rx FIFO 1 Fill Level" group.long 0xB8++0xB line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF1A,FIFO 1 acknowledge last index of read buffers. updates get index and fill level" hexmask.long.byte 0x0 0.--5. 1. "F1AI,Rx FIFO 1 Acknowledge Index" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXESC,Configure data field size for storage of accepted frames" bitfld.long 0x4 8.--10. "RBDS,Rx Buffer data Field Size" "0,1,2,3,4,5,6,7" bitfld.long 0x4 4.--6. "F1DS,Rx FIFO 1 Data Field Size" "0,1,2,3,4,5,6,7" bitfld.long 0x4 0.--2. "F0DS,Rx FIFO 0 Data Field Size" "0,1,2,3,4,5,6,7" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBC,Configure Tx FIFO/Queue mode. Tx FIFO/Queue size. number of dedicated Tx buffers. Tx buffer start address" bitfld.long 0x8 30. "TFQM,Tx FIFO/Queue Mode" "0,1" hexmask.long.byte 0x8 24.--29. 1. "TFQS,Transmit FIFO/Queue Size" hexmask.long.byte 0x8 16.--21. 1. "NDTB,Number of Dedicated Transmit Buffers" newline hexmask.long.word 0x8 2.--15. 1. "TBSA,Tx Buffers Start Address" rgroup.long 0xC4++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXFQS,Tx FIFO/Queue full indication and put index. Tx FIFO get index and fill level" bitfld.long 0x0 21. "TFQF,Tx FIFO/Queue Full" "0,1" hexmask.long.byte 0x0 16.--20. 1. "TFQPI,Tx FIFO/Queue Put Index" hexmask.long.byte 0x0 8.--12. 1. "TFGI,Tx Queue Get Index" newline hexmask.long.byte 0x0 0.--5. 1. "TFFL,Tx FIFO Free Level" group.long 0xC8++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXESC,Configure data field size for frame transmission" bitfld.long 0x0 0.--2. "TBDS,Tx Buffer Data Field Size" "0,1,2,3,4,5,6,7" rgroup.long 0xCC++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBRP,Tx buffers with pending transmission request" bitfld.long 0x0 31. "TRP31,Transmission Request Pending" "0,1" bitfld.long 0x0 30. "TRP30,Transmission Request Pending" "0,1" bitfld.long 0x0 29. "TRP29,Transmission Request Pending" "0,1" newline bitfld.long 0x0 28. "TRP28,Transmission Request Pending" "0,1" bitfld.long 0x0 27. "TRP27,Transmission Request Pending" "0,1" bitfld.long 0x0 26. "TRP26,Transmission Request Pending" "0,1" newline bitfld.long 0x0 25. "TRP25,Transmission Request Pending" "0,1" bitfld.long 0x0 24. "TRP24,Transmission Request Pending" "0,1" bitfld.long 0x0 23. "TRP23,Transmission Request Pending" "0,1" newline bitfld.long 0x0 22. "TRP22,Transmission Request Pending" "0,1" bitfld.long 0x0 21. "TRP21,Transmission Request Pending" "0,1" bitfld.long 0x0 20. "TRP20,Transmission Request Pending" "0,1" newline bitfld.long 0x0 19. "TRP19,Transmission Request Pending" "0,1" bitfld.long 0x0 18. "TRP18,Transmission Request Pending" "0,1" bitfld.long 0x0 17. "TRP17,Transmission Request Pending" "0,1" newline bitfld.long 0x0 16. "TRP16,Transmission Request Pending" "0,1" bitfld.long 0x0 15. "TRP15,Transmission Request Pending" "0,1" bitfld.long 0x0 14. "TRP14,Transmission Request Pending" "0,1" newline bitfld.long 0x0 13. "TRP13,Transmission Request Pending" "0,1" bitfld.long 0x0 12. "TRP12,Transmission Request Pending" "0,1" bitfld.long 0x0 11. "TRP11,Transmission Request Pending" "0,1" newline bitfld.long 0x0 10. "TRP10,Transmission Request Pending" "0,1" bitfld.long 0x0 9. "TRP9,Transmission Request Pending" "0,1" bitfld.long 0x0 8. "TRP8,Transmission Request Pending" "0,1" newline bitfld.long 0x0 7. "TRP7,Transmission Request Pending" "0,1" bitfld.long 0x0 6. "TRP6,Transmission Request Pending" "0,1" bitfld.long 0x0 5. "TRP5,Transmission Request Pending" "0,1" newline bitfld.long 0x0 4. "TRP4,Transmission Request Pending" "0,1" bitfld.long 0x0 3. "TRP3,Transmission Request Pending" "0,1" bitfld.long 0x0 2. "TRP2,Transmission Request Pending" "0,1" newline bitfld.long 0x0 1. "TRP1,Transmission Request Pending" "0,1" bitfld.long 0x0 0. "TRP0,Transmission Request Pending" "0,1" group.long 0xD0++0x7 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBAR,Add transmission requests" bitfld.long 0x0 31. "AR31,Add request" "0,1" bitfld.long 0x0 30. "AR30,Add request" "0,1" bitfld.long 0x0 29. "AR29,Add request" "0,1" newline bitfld.long 0x0 28. "AR28,Add request" "0,1" bitfld.long 0x0 27. "AR27,Add request" "0,1" bitfld.long 0x0 26. "AR26,Add request" "0,1" newline bitfld.long 0x0 25. "AR25,Add request" "0,1" bitfld.long 0x0 24. "AR24,Add request" "0,1" bitfld.long 0x0 23. "AR23,Add request" "0,1" newline bitfld.long 0x0 22. "AR22,Add request" "0,1" bitfld.long 0x0 21. "AR21,Add request" "0,1" bitfld.long 0x0 20. "AR20,Add request" "0,1" newline bitfld.long 0x0 19. "AR19,Add request" "0,1" bitfld.long 0x0 18. "AR18,Add request" "0,1" bitfld.long 0x0 17. "AR17,Add request" "0,1" newline bitfld.long 0x0 16. "AR16,Add request" "0,1" bitfld.long 0x0 15. "AR15,Add request" "0,1" bitfld.long 0x0 14. "AR14,Add request" "0,1" newline bitfld.long 0x0 13. "AR13,Add request" "0,1" bitfld.long 0x0 12. "AR12,Add request" "0,1" bitfld.long 0x0 11. "AR11,Add request" "0,1" newline bitfld.long 0x0 10. "AR10,Add request" "0,1" bitfld.long 0x0 9. "AR9,Add request" "0,1" bitfld.long 0x0 8. "AR8,Add request" "0,1" newline bitfld.long 0x0 7. "AR7,Add request" "0,1" bitfld.long 0x0 6. "AR6,Add request" "0,1" bitfld.long 0x0 5. "AR5,Add request" "0,1" newline bitfld.long 0x0 4. "AR4,Add request" "0,1" bitfld.long 0x0 3. "AR3,Add request" "0,1" bitfld.long 0x0 2. "AR2,Add request" "0,1" newline bitfld.long 0x0 1. "AR1,Add request" "0,1" bitfld.long 0x0 0. "AR0,Add request" "0,1" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBCR,Request cancellation of pending transmissions" bitfld.long 0x4 31. "CR31,Cancellation Request" "0,1" bitfld.long 0x4 30. "CR30,Cancellation Request" "0,1" bitfld.long 0x4 29. "CR29,Cancellation Request" "0,1" newline bitfld.long 0x4 28. "CR28,Cancellation Request" "0,1" bitfld.long 0x4 27. "CR27,Cancellation Request" "0,1" bitfld.long 0x4 26. "CR26,Cancellation Request" "0,1" newline bitfld.long 0x4 25. "CR25,Cancellation Request" "0,1" bitfld.long 0x4 24. "CR24,Cancellation Request" "0,1" bitfld.long 0x4 23. "CR23,Cancellation Request" "0,1" newline bitfld.long 0x4 22. "CR22,Cancellation Request" "0,1" bitfld.long 0x4 21. "CR21,Cancellation Request" "0,1" bitfld.long 0x4 20. "CR20,Cancellation Request" "0,1" newline bitfld.long 0x4 19. "CR19,Cancellation Request" "0,1" bitfld.long 0x4 18. "CR18,Cancellation Request" "0,1" bitfld.long 0x4 17. "CR17,Cancellation Request" "0,1" newline bitfld.long 0x4 16. "CR16,Cancellation Request" "0,1" bitfld.long 0x4 15. "CR15,Cancellation Request" "0,1" bitfld.long 0x4 14. "CR14,Cancellation Request" "0,1" newline bitfld.long 0x4 13. "CR13,Cancellation Request" "0,1" bitfld.long 0x4 12. "CR12,Cancellation Request" "0,1" bitfld.long 0x4 11. "CR11,Cancellation Request" "0,1" newline bitfld.long 0x4 10. "CR10,Cancellation Request" "0,1" bitfld.long 0x4 9. "CR9,Cancellation Request" "0,1" bitfld.long 0x4 8. "CR8,Cancellation Request" "0,1" newline bitfld.long 0x4 7. "CR7,Cancellation Request" "0,1" bitfld.long 0x4 6. "CR6,Cancellation Request" "0,1" bitfld.long 0x4 5. "CR5,Cancellation Request" "0,1" newline bitfld.long 0x4 4. "CR4,Cancellation Request" "0,1" bitfld.long 0x4 3. "CR3,Cancellation Request" "0,1" bitfld.long 0x4 2. "CR2,Cancellation Request" "0,1" newline bitfld.long 0x4 1. "CR1,Cancellation Request" "0,1" bitfld.long 0x4 0. "CR0,Cancellation Request" "0,1" rgroup.long 0xD8++0x7 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBTO,Signals successful transmissions. set when corresponding TXBRP flag is cleared" bitfld.long 0x0 31. "TO31,Transmission Occurred" "0,1" bitfld.long 0x0 30. "TO30,Transmission Occurred" "0,1" bitfld.long 0x0 29. "TO29,Transmission Occurred" "0,1" newline bitfld.long 0x0 28. "TO28,Transmission Occurred" "0,1" bitfld.long 0x0 27. "TO27,Transmission Occurred" "0,1" bitfld.long 0x0 26. "TO26,Transmission Occurred" "0,1" newline bitfld.long 0x0 25. "TO25,Transmission Occurred" "0,1" bitfld.long 0x0 24. "TO24,Transmission Occurred" "0,1" bitfld.long 0x0 23. "TO23,Transmission Occurred" "0,1" newline bitfld.long 0x0 22. "TO22,Transmission Occurred" "0,1" bitfld.long 0x0 21. "TO21,Transmission Occurred" "0,1" bitfld.long 0x0 20. "TO20,Transmission Occurred" "0,1" newline bitfld.long 0x0 19. "TO19,Transmission Occurred" "0,1" bitfld.long 0x0 18. "TO18,Transmission Occurred" "0,1" bitfld.long 0x0 17. "TO17,Transmission Occurred" "0,1" newline bitfld.long 0x0 16. "TO16,Transmission Occurred" "0,1" bitfld.long 0x0 15. "TO15,Transmission Occurred" "0,1" bitfld.long 0x0 14. "TO14,Transmission Occurred" "0,1" newline bitfld.long 0x0 13. "TO13,Transmission Occurred" "0,1" bitfld.long 0x0 12. "TO12,Transmission Occurred" "0,1" bitfld.long 0x0 11. "TO11,Transmission Occurred" "0,1" newline bitfld.long 0x0 10. "TO10,Transmission Occurred" "0,1" bitfld.long 0x0 9. "TO9,Transmission Occurred" "0,1" bitfld.long 0x0 8. "TO8,Transmission Occurred" "0,1" newline bitfld.long 0x0 7. "TO7,Transmission Occurred" "0,1" bitfld.long 0x0 6. "TO6,Transmission Occurred" "0,1" bitfld.long 0x0 5. "TO5,Transmission Occurred" "0,1" newline bitfld.long 0x0 4. "TO4,Transmission Occurred" "0,1" bitfld.long 0x0 3. "TO3,Transmission Occurred" "0,1" bitfld.long 0x0 2. "TO2,Transmission Occurred" "0,1" newline bitfld.long 0x0 1. "TO1,Transmission Occurred" "0,1" bitfld.long 0x0 0. "TO0,Transmission Occurred" "0,1" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBCF,Signals successful transmit cancellation. set when corresponding TXBRP flag is cleared after cancellation request" bitfld.long 0x4 31. "CF31,Cancellation Finished" "0,1" bitfld.long 0x4 30. "CF30,Cancellation Finished" "0,1" bitfld.long 0x4 29. "CF29,Cancellation Finished" "0,1" newline bitfld.long 0x4 28. "CF28,Cancellation Finished" "0,1" bitfld.long 0x4 27. "CF27,Cancellation Finished" "0,1" bitfld.long 0x4 26. "CF26,Cancellation Finished" "0,1" newline bitfld.long 0x4 25. "CF25,Cancellation Finished" "0,1" bitfld.long 0x4 24. "CF24,Cancellation Finished" "0,1" bitfld.long 0x4 23. "CF23,Cancellation Finished" "0,1" newline bitfld.long 0x4 22. "CF22,Cancellation Finished" "0,1" bitfld.long 0x4 21. "CF21,Cancellation Finished" "0,1" bitfld.long 0x4 20. "CF20,Cancellation Finished" "0,1" newline bitfld.long 0x4 19. "CF19,Cancellation Finished" "0,1" bitfld.long 0x4 18. "CF18,Cancellation Finished" "0,1" bitfld.long 0x4 17. "CF17,Cancellation Finished" "0,1" newline bitfld.long 0x4 16. "CF16,Cancellation Finished" "0,1" bitfld.long 0x4 15. "CF15,Cancellation Finished" "0,1" bitfld.long 0x4 14. "CF14,Cancellation Finished" "0,1" newline bitfld.long 0x4 13. "CF13,Cancellation Finished" "0,1" bitfld.long 0x4 12. "CF12,Cancellation Finished" "0,1" bitfld.long 0x4 11. "CF11,Cancellation Finished" "0,1" newline bitfld.long 0x4 10. "CF10,Cancellation Finished" "0,1" bitfld.long 0x4 9. "CF9,Cancellation Finished" "0,1" bitfld.long 0x4 8. "CF8,Cancellation Finished" "0,1" newline bitfld.long 0x4 7. "CF7,Cancellation Finished" "0,1" bitfld.long 0x4 6. "CF6,Cancellation Finished" "0,1" bitfld.long 0x4 5. "CF5,Cancellation Finished" "0,1" newline bitfld.long 0x4 4. "CF4,Cancellation Finished" "0,1" bitfld.long 0x4 3. "CF3,Cancellation Finished" "0,1" bitfld.long 0x4 2. "CF2,Cancellation Finished" "0,1" newline bitfld.long 0x4 1. "CF1,Cancellation Finished" "0,1" bitfld.long 0x4 0. "CF0,Cancellation Finished" "0,1" group.long 0xE0++0x13 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBTIE,Enable transmit interrupts for selected Tx buffers" bitfld.long 0x0 31. "TIE31,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 30. "TIE30,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 29. "TIE29,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 28. "TIE28,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 27. "TIE27,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 26. "TIE26,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 25. "TIE25,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 24. "TIE24,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 23. "TIE23,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 22. "TIE22,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 21. "TIE21,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 20. "TIE20,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 19. "TIE19,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 18. "TIE18,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 17. "TIE17,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 16. "TIE16,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 15. "TIE15,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 14. "TIE14,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 13. "TIE13,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 12. "TIE12,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 11. "TIE11,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 10. "TIE10,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 9. "TIE9,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 8. "TIE8,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 7. "TIE7,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 6. "TIE6,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 5. "TIE5,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 4. "TIE4,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 3. "TIE3,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 2. "TIE2,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 1. "TIE1,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 0. "TIE0,Transmission Interrupt Enable" "0,1" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBCIE,Enable cancellation finished interrupts for selected Tx buffers" bitfld.long 0x4 31. "CFIE31,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 30. "CFIE30,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 29. "CFIE29,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 28. "CFIE28,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 27. "CFIE27,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 26. "CFIE26,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 25. "CFIE25,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 24. "CFIE24,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 23. "CFIE23,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 22. "CFIE22,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 21. "CFIE21,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 20. "CFIE20,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 19. "CFIE19,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 18. "CFIE18,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 17. "CFIE17,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 16. "CFIE16,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 15. "CFIE15,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 14. "CFIE14,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 13. "CFIE13,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 12. "CFIE12,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 11. "CFIE11,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 10. "CFIE10,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 9. "CFIE9,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 8. "CFIE8,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 7. "CFIE7,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 6. "CFIE6,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 5. "CFIE5,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 4. "CFIE4,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 3. "CFIE3,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 2. "CFIE2,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 1. "CFIE1,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 0. "CFIE0,Cancellation Finished Interrupt Enable" "0,1" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1414,Reserved Field" line.long 0xC "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1515,Reserved Field" line.long 0x10 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXEFC,Tx event FIFO watermark. size and start address" hexmask.long.byte 0x10 24.--29. 1. "EFWM,Event FIFO Watermark" hexmask.long.byte 0x10 16.--21. 1. "EFS,Event FIFO Size" hexmask.long.word 0x10 2.--15. 1. "EFSA,Event FIFO Start Address" rgroup.long 0xF4++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXEFS,Tx event FIFO element lost/full indication. put index. get index. and fill level" bitfld.long 0x0 25. "TEFL,Tx Event FIFO Element Lost" "0,1" bitfld.long 0x0 24. "EFF,Event FIFO Full" "0,1" hexmask.long.byte 0x0 16.--20. 1. "EFPI,Event FIFO Put Index" newline hexmask.long.byte 0x0 8.--12. 1. "EFGI,Event FIFO Get Index" hexmask.long.byte 0x0 0.--5. 1. "EFFL,Event FIFO Fill Level" group.long 0xF8++0xB line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXEFA,Tx event FIFO acknowledge last index of read elements. updates get index and fill level" hexmask.long.byte 0x0 0.--4. 1. "EFAI,Event FIFO Acknowledge Index" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1616,Reserved Field" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ReservUpper256,Reserved Field" tree.end tree "MCAN0_ECC_AGGR (MCAN0_ECC_AGGR)" base ad:0x24018000 rgroup.long 0x0++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 1. "CTRL_EDC_VBUSS_PEND,Interrupt Pending Status for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x4 0. "MSGMEM_PEND,Interrupt Pending Status for msgmem_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 1. "CTRL_EDC_VBUSS_ENABLE_SET,Interrupt Enable Set Register for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x0 0. "MSGMEM_ENABLE_SET,Interrupt Enable Set Register for msgmem_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 1. "CTRL_EDC_VBUSS_ENABLE_CLR,Interrupt Enable Clear Register for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x0 0. "MSGMEM_ENABLE_CLR,Interrupt Enable Clear Register for msgmem_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 1. "CTRL_EDC_VBUSS_PEND,Interrupt Pending Status for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x4 0. "MSGMEM_PEND,Interrupt Pending Status for msgmem_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 1. "CTRL_EDC_VBUSS_ENABLE_SET,Interrupt Enable Set Register for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x0 0. "MSGMEM_ENABLE_SET,Interrupt Enable Set Register for msgmem_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 1. "CTRL_EDC_VBUSS_ENABLE_CLR,Interrupt Enable Clear Register for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x0 0. "MSGMEM_ENABLE_CLR,Interrupt Enable Clear Register for msgmem_pend" "0,1" group.long 0x200++0xF line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "MCAN0_MSGMEM_RAM (MCAN0_MSGMEM_RAM)" base ad:0x20708000 group.long 0x0++0x3 line.long 0x0 "MSGMEM_WRAP__MSGMEM_VBP__RAM_RAM_REG,The RAM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end tree "MCAN0_SS (MCAN0_SS)" base ad:0x20700000 rgroup.long 0x0++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_PID,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_CTRL,The Control Register contains general control bits for the MCANSS" bitfld.long 0x0 6. "EXT_TS_CNTR_EN,External TimeStamp Counter Enable" "0,1" bitfld.long 0x0 5. "AUTOWAKEUP,Automatic Wakeup Enable" "0,1" newline bitfld.long 0x0 4. "WAKEUPREQEN,Wakeup Request Enable" "0,1" bitfld.long 0x0 3. "DBGSUSP_FREE,0-Honor Debug Suspend 1-Disregard debug suspend" "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_STAT,The Status register provide general status bits for the MCANSS" bitfld.long 0x0 2. "ENABLE_FDOE,Reflects the value of mcanss_enable_fdoe configuration port x=mcanss_enable_fdoe" "0,1" bitfld.long 0x0 1. "MEM_INIT_DONE,0:Memory Initialization is in progress 1:Memory Intialization Done" "0: Memory Initialization is in progress,1: Memory Intialization Done" wgroup.long 0xC++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_ICS,Write to clear interrupt bits" bitfld.long 0x0 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt status. Write '1' to clear bits." "0,1" group.long 0x10++0xB line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_IRS,Read raw interrupt status. Write '1' to set interrupt bits." bitfld.long 0x0 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt status." "0,1" line.long 0x4 "MMR__MMRVBP__MCANSS_REGS_MCANSS_IECS,Write to clear interrupt enable bits" bitfld.long 0x4 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt. Write '1' to clear bits." "0,1" line.long 0x8 "MMR__MMRVBP__MCANSS_REGS_MCANSS_IE,Read interrupt Enable" bitfld.long 0x8 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt." "0,1" rgroup.long 0x1C++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_IES,Read Enabled Interrupts" bitfld.long 0x0 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt" "0,1" wgroup.long 0x20++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_EOI,End of Interrupt Register" hexmask.long.byte 0x0 0.--7. 1. "EOI,Write with bit position of targeted interrupt. (E.g. Ext TS is bit 0). Upon write level interrupt will clear and if unserviced interrupt counter > 1 will issue another pulse interrupt" group.long 0x24++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_EXT_TS_PRESCALER,External TImeStamp PreScaler" hexmask.long.tbyte 0x0 0.--23. 1. "PRESCALER,External Timestamp Prescaler reload value. External Timestamp count rate is host clock rate divided by this value with one exception: a value of 0 has the same effect as 1" rgroup.long 0x28++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_EXT_TS_UNSERVICED_INTR_CNTR,External TImeStamp Unserviced Interrupts Counter" hexmask.long.byte 0x0 0.--4. 1. "EXT_TS_INTR_CNTR,Number of unserviced rollover interrupts. If >1 an EOI write will issue another pulse interrupt" tree.end tree.end tree "MCAN1" base ad:0x0 tree "MCAN1_CFG (MCAN1_CFG)" base ad:0x20711000 rgroup.long 0x0++0x7 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_CREL,Release dependent constant (version + date)" hexmask.long.byte 0x0 28.--31. 1. "REL,Core Release" hexmask.long.byte 0x0 24.--27. 1. "STEP,Step of Core Release" hexmask.long.byte 0x0 20.--23. 1. "SUBSTEP,Sub-Step of Core Release" newline hexmask.long.byte 0x0 16.--19. 1. "YEAR,Time Stamp Year" hexmask.long.byte 0x0 8.--15. 1. "MON,Time Stamp Month" hexmask.long.byte 0x0 0.--7. 1. "DAY,Time Stamp Day" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ENDN,Constant 0x8765 4321" hexmask.long 0x4 0.--31. 1. "ETV,Endianess test value" group.long 0x8++0x37 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_CUST,Optional customer-specific register" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_DBTP,Configuration of data phase bit timing. transmitter delay compensation enable" bitfld.long 0x4 23. "TDC,Transmitter Delay Compensation" "0,1" hexmask.long.byte 0x4 16.--20. 1. "DBRP,Data Baud Rate Prescaler" hexmask.long.byte 0x4 8.--12. 1. "DTSEG1,Data time segment before sample point" newline hexmask.long.byte 0x4 4.--7. 1. "DTSEG2,Data time segment after sample point" hexmask.long.byte 0x4 0.--3. 1. "DSJW,Data resynchronization Jump Width" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TEST,Test mode selection" rbitfld.long 0x8 7. "RX,Receive Pin" "0,1" bitfld.long 0x8 5.--6. "TX,Control of Transmit Pin" "0,1,2,3" bitfld.long 0x8 4. "LBCK,Loop Back Mode" "0,1" line.long 0xC "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RWD,Monitors the READY output of the Message RAM" hexmask.long.byte 0xC 8.--15. 1. "WDV,Watchdog Value" hexmask.long.byte 0xC 0.--7. 1. "WDC,Watchdog Counter Value" line.long 0x10 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_CCCR,Operation mode configuration" bitfld.long 0x10 15. "NISO,Non ISO Operation. 0= CAN FD frame format according to ISO 11898-1:2015. 1= CAN FD frame format according to Bosch CAN FD Specification 1.0" "0: CAN FD frame format according to ISO 11898-1:2015,1: CAN FD frame format according to Bosch CAN FD.." bitfld.long 0x10 14. "TXP,Transmit Pause" "0,1" bitfld.long 0x10 13. "EFBI,Edge Filtering during Bus Integration" "0,1" newline bitfld.long 0x10 12. "PXHD,Protocol Exception Handling Disable" "0,1" bitfld.long 0x10 9. "BRSE,Bit Rate Switch Enable" "0,1" bitfld.long 0x10 8. "FDOE,FD Operation Enable" "0,1" newline bitfld.long 0x10 7. "TEST,Test Mode enable" "0,1" bitfld.long 0x10 6. "DAR,Disable Automatic Retransmission" "0,1" bitfld.long 0x10 5. "MON,Bus Monitoring Mode" "0,1" newline bitfld.long 0x10 4. "CSR,Clock Stop Request" "0,1" rbitfld.long 0x10 3. "CSA,Clock Stop Acknowledge" "0,1" bitfld.long 0x10 2. "ASM,Restricted Operation Mode" "0,1" newline bitfld.long 0x10 1. "CCE,Configuration Change Enable" "0,1" bitfld.long 0x10 0. "INIT,Initialization" "0,1" line.long 0x14 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_NBTP,Configuration of arbitration phase bit timing" hexmask.long.byte 0x14 25.--31. 1. "NSJW,Nominal Resynchronization Jump Width" hexmask.long.word 0x14 16.--24. 1. "NBRP,Nominal Baud Rate Prescaler" hexmask.long.byte 0x14 8.--15. 1. "NTSEG1,Nominal Time segment before sample point" newline hexmask.long.byte 0x14 0.--6. 1. "NTSEG2,Nominal Time segment after sample point" line.long 0x18 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TSCC,Timestamp counter prescaler setting. selection of internal/external timestamp vector" hexmask.long.byte 0x18 16.--19. 1. "TCP,Timestamp Counter Prescaler" bitfld.long 0x18 0.--1. "TSS,Timestamp Select" "0,1,2,3" line.long 0x1C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TSCV,Read/reset timestamp counter" hexmask.long.word 0x1C 0.--15. 1. "TSC,Timestamp Counter" line.long 0x20 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TOCC,Configuration of timeout period. selection of timeout counter operation mode" hexmask.long.word 0x20 16.--31. 1. "TOP,Timeout Period" bitfld.long 0x20 1.--2. "TOS,Timeout Select" "0,1,2,3" bitfld.long 0x20 0. "ETOC,Enable Timeout Counter" "0,1" line.long 0x24 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TOCV,Read/reset timeout counter" hexmask.long.word 0x24 0.--15. 1. "TOC,Timeout Counter" line.long 0x28 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved00,Reserved field" line.long 0x2C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved11,Reserved field" line.long 0x30 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved22,Reserved field" line.long 0x34 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved33,Reserved field" rgroup.long 0x40++0x7 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ECR,State of Rx/Tx Error Counter. CAN Error Logging" hexmask.long.byte 0x0 16.--23. 1. "CEL,CAN Error Logging" bitfld.long 0x0 15. "RP,Receive Error Passive" "0,1" hexmask.long.byte 0x0 8.--14. 1. "REC,Receive Error Counter" newline hexmask.long.byte 0x0 0.--7. 1. "TEC,Transmit Error Counter" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_PSR,CAN protocol controller status. transmitter delay compensation value" hexmask.long.byte 0x4 16.--22. 1. "TDCV,Transmitter Delay Compensation Value" bitfld.long 0x4 14. "PXE,Protocol Exception Event" "0,1" bitfld.long 0x4 13. "RFDF,Received a CAN FD Message" "0,1" newline bitfld.long 0x4 12. "RBRS,BRS flag of last received CAN FD Message" "0,1" bitfld.long 0x4 11. "RESI,ESI flag of last received CAN FD Message" "0,1" bitfld.long 0x4 8.--10. "DLEC,Data Phase Last Error Code" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 7. "BO,Bus_Off status" "0,1" bitfld.long 0x4 6. "EW,Warning Status" "0,1" bitfld.long 0x4 5. "EP,Error Passive" "0,1" newline bitfld.long 0x4 3.--4. "ACT,Activity" "0,1,2,3" bitfld.long 0x4 0.--2. "LEC,Last Error Code" "0,1,2,3,4,5,6,7" group.long 0x48++0x4B line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TDCR,configuration of transmitter delay compensation offset and filter window length" hexmask.long.byte 0x0 8.--14. 1. "TDCO,Transmitter Delay Compensation Offset" hexmask.long.byte 0x0 0.--6. 1. "TDCF,Transmitter Delay Compensation Filter Window Length" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved44,Reserved field" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_IR,Interrupt flags" bitfld.long 0x8 29. "ARA,Access to Reserved Address" "0,1" bitfld.long 0x8 28. "PED,Protocol Error in data Phase" "0,1" bitfld.long 0x8 27. "PEA,Protocol Error in Arbitration Phase" "0,1" newline bitfld.long 0x8 26. "WDI,Watchdog Interrupt" "0,1" bitfld.long 0x8 25. "BO,Bus_Off Status" "0,1" bitfld.long 0x8 24. "EW,Warning Status" "0,1" newline bitfld.long 0x8 23. "EP,Error Passive" "0,1" bitfld.long 0x8 22. "ELO,Error Logging Overflow" "0,1" bitfld.long 0x8 21. "BEU,Bit Error Uncorrected" "0,1" newline bitfld.long 0x8 19. "DRX,Message stored to Dedicated Rx Buffer" "0,1" bitfld.long 0x8 18. "TOO,Timeout Occurred" "0,1" bitfld.long 0x8 17. "MRAF,Message RAM Access Failure" "0,1" newline bitfld.long 0x8 16. "TSW,Timestamp Wraparound" "0,1" bitfld.long 0x8 15. "TEFL,Tx Event FIFO Element Lost" "0,1" bitfld.long 0x8 14. "TEFF,Tx Event FIFO Full" "0,1" newline bitfld.long 0x8 13. "TEFW,Tx Event FIFO Watermark Reached" "0,1" bitfld.long 0x8 12. "TEFN,Tx Event FIFO New Entry" "0,1" bitfld.long 0x8 11. "TFE,Tx FIFO Empty" "0,1" newline bitfld.long 0x8 10. "TCF,Transmission Cancellation Finished" "0,1" bitfld.long 0x8 9. "TC,Transmission Complete" "0,1" bitfld.long 0x8 8. "HPM,High Priority Message" "0,1" newline bitfld.long 0x8 7. "RF1L,Rx FIFO 1 Message Lost" "0,1" bitfld.long 0x8 6. "RF1F,Rx FIFO 1 Full" "0,1" bitfld.long 0x8 5. "RF1W,Rx FIFO 1 Watermark Reached" "0,1" newline bitfld.long 0x8 4. "RF1N,Rx FIFO 1 New Message" "0,1" bitfld.long 0x8 3. "RF0L,Rx FIFO 0 Message Lost" "0,1" bitfld.long 0x8 2. "RF0F,Rx FIFO 0 Full" "0,1" newline bitfld.long 0x8 1. "RF0W,Rx FIFO 0 Watermark Reached" "0,1" bitfld.long 0x8 0. "RF0N,Rx FIFO 0 New Message" "0,1" line.long 0xC "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_IE,Interrupt enable/disable" bitfld.long 0xC 29. "ARAE,Access to Reserve Address Interrupt Enable" "0,1" bitfld.long 0xC 28. "PEDE,Protocol Error in Data Phase Interrupt Enable" "0,1" bitfld.long 0xC 27. "PEAE,Protocol Error in Arbitration Phase Interrupt Enable" "0,1" newline bitfld.long 0xC 26. "WDIE,Watchdog Interrupt Enable" "0,1" bitfld.long 0xC 25. "BOE,Bus_Off Status Interrupt Enable" "0,1" bitfld.long 0xC 24. "EWE,Warning Status Interrupt Enable" "0,1" newline bitfld.long 0xC 23. "EPE,Error Passive Interrupt Enable" "0,1" bitfld.long 0xC 22. "ELOE,Error Logging Overflow Interrupt Enable" "0,1" bitfld.long 0xC 21. "BEUE,Bit Error Uncorrected Interrupt Enable" "0,1" newline bitfld.long 0xC 20. "BECE,Bit Error Corrected Interrupt Enable" "0,1" bitfld.long 0xC 19. "DRX,Message stored to Dedicated Rx Buffer Interrupt Enable" "0,1" bitfld.long 0xC 18. "TOOE,Timeout Occurred Interrupt Enable" "0,1" newline bitfld.long 0xC 17. "MRAFE,Message RAM Access Failure Interrupt Enable" "0,1" bitfld.long 0xC 16. "TSWE,Timestamp Wraparound Interrupt Enable" "0,1" bitfld.long 0xC 15. "TEFLE,Tx Event FIFO Event Lost Interrupt Enable" "0,1" newline bitfld.long 0xC 14. "TEFFE,Tx Event FIFO Full Interrupt Enable" "0,1" bitfld.long 0xC 13. "TEFWE,Tx Event FIFO Watermark Reached Interrupt enable" "0,1" bitfld.long 0xC 12. "TEFNE,Tx Event FIFO New Entry Interrupt Enable" "0,1" newline bitfld.long 0xC 11. "TFEE,Tx FIFO Empty Interrupt Enable" "0,1" bitfld.long 0xC 10. "TCFE,Transmission Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0xC 9. "TCE,Transmission Completed Interrupt Enable" "0,1" newline bitfld.long 0xC 8. "HPME,High Priority message Interrupt Enable" "0,1" bitfld.long 0xC 7. "RF1LE,rx FIFO 1 Message Lost Interrupt Enable" "0,1" bitfld.long 0xC 6. "RF1FE,Rx FIFO 1 Full Interrupt Enable" "0,1" newline bitfld.long 0xC 5. "RF1WE,Rx FIFO 1 Watermark Reached Interrupt Enable" "0,1" bitfld.long 0xC 4. "RF1NE,Rx FIFO 1 New Message Interrupt Enable" "0,1" bitfld.long 0xC 3. "RF0LE,Rx FIFO 0 Message Lost Interrupt Enable" "0,1" newline bitfld.long 0xC 2. "RF0FE,Rx FIFO 0 Full Interrupt Enable" "0,1" bitfld.long 0xC 1. "RF0WE,Rx FIFO 0 Watermark Reached Interrupt Enable" "0,1" bitfld.long 0xC 0. "RF0NE,Rx FIFO 0 New Message Interrupt Enable" "0,1" line.long 0x10 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ILS,Interrupt line select (m_can_int0 or m_can_int1)" bitfld.long 0x10 29. "ARAL,Access to Reserve Address Interrupt Line" "0,1" bitfld.long 0x10 28. "PEDL,Protocol Error in Data Phase Interrupt Line" "0,1" bitfld.long 0x10 27. "PEAL,Protocol Error in Arbitration Phase Interrupt Line" "0,1" newline bitfld.long 0x10 26. "WDIL,Watchdog Interrupt Line" "0,1" bitfld.long 0x10 25. "BOL,Bus_Off Status Interrupt Line" "0,1" bitfld.long 0x10 24. "EWL,Warning Status Interrupt Line" "0,1" newline bitfld.long 0x10 23. "EPL,Error Passive Interrupt Line" "0,1" bitfld.long 0x10 22. "ELOL,Error Logging Overflow Interrupt Line" "0,1" bitfld.long 0x10 21. "BEUL,Bit Error Uncorrected Interrupt Line" "0,1" newline bitfld.long 0x10 20. "BECL,Bit Error Corrected Interrupt Line" "0,1" bitfld.long 0x10 19. "DRXL,Message stored to Dedicated Rx Buffer Interrupt Line" "0,1" bitfld.long 0x10 18. "TOOL,Timeout Occurred Interrupt Line" "0,1" newline bitfld.long 0x10 17. "MRAFL,Message RAM Access Failure Interrupt Line" "0,1" bitfld.long 0x10 16. "TSWL,Timestamp Wraparound Interrupt Line" "0,1" bitfld.long 0x10 15. "TEFLL,Tx Event FIFO Event Lost Interrupt Line" "0,1" newline bitfld.long 0x10 14. "TEFFL,Tx Event FIFO Full Interrupt Line" "0,1" bitfld.long 0x10 13. "TEFWL,Tx Event FIFO Watermark Reached Interrupt Line" "0,1" bitfld.long 0x10 12. "TEFNL,Tx Event FIFO New Entry Interrupt Line" "0,1" newline bitfld.long 0x10 11. "TFEL,Tx FIFO Empty Interrupt Line" "0,1" bitfld.long 0x10 10. "TCFL,Transmission Cancellation Finishied Interrupt Line" "0,1" bitfld.long 0x10 9. "TCL,Transmission Completed Interrupt Line" "0,1" newline bitfld.long 0x10 8. "HPML,High Priority message Interrupt Line" "0,1" bitfld.long 0x10 7. "RF1LL,rx FIFO 1 Message Lost Interrupt Line" "0,1" bitfld.long 0x10 6. "RF1FL,Rx FIFO 1 Full Interrupt Line" "0,1" newline bitfld.long 0x10 5. "RF1WL,Rx FIFO 1 Watermark Reached Interrupt Line" "0,1" bitfld.long 0x10 4. "RF1NL,Rx FIFO 1 New Message Interrupt Line" "0,1" bitfld.long 0x10 3. "RF0LL,Rx FIFO 0 Message Lost Interrupt Line" "0,1" newline bitfld.long 0x10 2. "RF0FL,Rx FIFO 0 Full Interrupt Line" "0,1" bitfld.long 0x10 1. "RF0WL,Rx FIFO 0 Watermark Reached Interrupt Line" "0,1" bitfld.long 0x10 0. "RF0NL,Rx FIFO 0 New Message Interrupt Line" "0,1" line.long 0x14 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ILE,Enable/disable interrupt lines m_can_int0 / m_can_int1" bitfld.long 0x14 1. "EINT1,Enable Interrupt Line 1" "0,1" bitfld.long 0x14 0. "EINT0,Enable Interrupt Line 0" "0,1" line.long 0x18 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved55,Reserved field" line.long 0x1C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved66,Reserved field" line.long 0x20 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved77,Reserved field" line.long 0x24 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved88,Reserved field" line.long 0x28 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved99,Reserved field" line.long 0x2C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1010,Reserved field" line.long 0x30 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1111,Reserved field" line.long 0x34 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1212,Reserved field" line.long 0x38 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_GFC,Handling of non-matching frames and remote frames" bitfld.long 0x38 4.--5. "ANFS,Accept Non-matching Frames Standard" "0,1,2,3" bitfld.long 0x38 2.--3. "ANFE,Accept Non-matching Frames Extended" "0,1,2,3" bitfld.long 0x38 1. "RRFS,reject Remote Frames Standard" "0,1" newline bitfld.long 0x38 0. "RRFE,reject Remote Frames Extended" "0,1" line.long 0x3C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_SIDFC,Number of filter elements. pointer to start of filter list" hexmask.long.byte 0x3C 16.--23. 1. "LSS,List Size Standard" hexmask.long.word 0x3C 2.--15. 1. "FLSSA,Filter List Standard Start Address" line.long 0x40 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_XIDFC,Number of filter elements. pointer to start of filter list" hexmask.long.byte 0x40 16.--22. 1. "LSE,List Size Extended" hexmask.long.word 0x40 2.--15. 1. "FLESA,Filter List Extended Start Address" line.long 0x44 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1313,Reserved field" line.long 0x48 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_XIDAM,29-bit logical AND mask for J1939" hexmask.long 0x48 0.--28. 1. "EIDM,Extended ID Mask" rgroup.long 0x94++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_HPMS,Status monitoring of incoming high priority messages" bitfld.long 0x0 15. "FLST,Filter List" "0,1" hexmask.long.byte 0x0 8.--14. 1. "FIDX,Filter Index" bitfld.long 0x0 6.--7. "MSI,Message Storage Indicator" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "BIDX,Buffer Index" group.long 0x98++0xB line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_NDAT1,NewDat flags of dedicated Rx buffers 0-31" bitfld.long 0x0 31. "ND31,New Data" "0,1" bitfld.long 0x0 30. "ND30,New Data" "0,1" bitfld.long 0x0 29. "ND29,New Data" "0,1" newline bitfld.long 0x0 28. "ND28,New Data" "0,1" bitfld.long 0x0 27. "ND27,New Data" "0,1" bitfld.long 0x0 26. "ND26,New Data" "0,1" newline bitfld.long 0x0 25. "ND25,New Data" "0,1" bitfld.long 0x0 24. "ND24,New Data" "0,1" bitfld.long 0x0 23. "ND23,New Data" "0,1" newline bitfld.long 0x0 22. "ND22,New Data" "0,1" bitfld.long 0x0 21. "ND21,New Data" "0,1" bitfld.long 0x0 20. "ND20,New Data" "0,1" newline bitfld.long 0x0 19. "ND19,New Data" "0,1" bitfld.long 0x0 18. "ND18,New Data" "0,1" bitfld.long 0x0 17. "ND17,New Data" "0,1" newline bitfld.long 0x0 16. "ND16,New Data" "0,1" bitfld.long 0x0 15. "ND15,New Data" "0,1" bitfld.long 0x0 14. "ND14,New Data" "0,1" newline bitfld.long 0x0 13. "ND13,New Data" "0,1" bitfld.long 0x0 12. "ND12,New Data" "0,1" bitfld.long 0x0 11. "ND11,New Data" "0,1" newline bitfld.long 0x0 10. "ND10,New Data" "0,1" bitfld.long 0x0 9. "ND9,New Data" "0,1" bitfld.long 0x0 8. "ND8,New Data" "0,1" newline bitfld.long 0x0 7. "ND7,New Data" "0,1" bitfld.long 0x0 6. "ND6,New Data" "0,1" bitfld.long 0x0 5. "ND5,New Data" "0,1" newline bitfld.long 0x0 4. "ND4,New Data" "0,1" bitfld.long 0x0 3. "ND3,New Data" "0,1" bitfld.long 0x0 2. "ND2,New Data" "0,1" newline bitfld.long 0x0 1. "ND1,New Data" "0,1" bitfld.long 0x0 0. "ND0,New Data" "0,1" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_NDAT2,NewDat flags of dedicated Rx buffers 32-63" bitfld.long 0x4 31. "ND63,New Data" "0,1" bitfld.long 0x4 30. "ND62,New Data" "0,1" bitfld.long 0x4 29. "ND61,New Data" "0,1" newline bitfld.long 0x4 28. "ND60,New Data" "0,1" bitfld.long 0x4 27. "ND59,New Data" "0,1" bitfld.long 0x4 26. "ND58,New Data" "0,1" newline bitfld.long 0x4 25. "ND57,New Data" "0,1" bitfld.long 0x4 24. "ND56,New Data" "0,1" bitfld.long 0x4 23. "ND55,New Data" "0,1" newline bitfld.long 0x4 22. "ND54,New Data" "0,1" bitfld.long 0x4 21. "ND53,New Data" "0,1" bitfld.long 0x4 20. "ND52,New Data" "0,1" newline bitfld.long 0x4 19. "ND51,New Data" "0,1" bitfld.long 0x4 18. "ND50,New Data" "0,1" bitfld.long 0x4 17. "ND49,New Data" "0,1" newline bitfld.long 0x4 16. "ND48,New Data" "0,1" bitfld.long 0x4 15. "ND47,New Data" "0,1" bitfld.long 0x4 14. "ND46,New Data" "0,1" newline bitfld.long 0x4 13. "ND45,New Data" "0,1" bitfld.long 0x4 12. "ND44,New Data" "0,1" bitfld.long 0x4 11. "ND43,New Data" "0,1" newline bitfld.long 0x4 10. "ND42,New Data" "0,1" bitfld.long 0x4 9. "ND41,New Data" "0,1" bitfld.long 0x4 8. "ND40,New Data" "0,1" newline bitfld.long 0x4 7. "ND39,New Data" "0,1" bitfld.long 0x4 6. "ND38,New Data" "0,1" bitfld.long 0x4 5. "ND37,New Data" "0,1" newline bitfld.long 0x4 4. "ND36,New Data" "0,1" bitfld.long 0x4 3. "ND35,New Data" "0,1" bitfld.long 0x4 2. "ND34,New Data" "0,1" newline bitfld.long 0x4 1. "ND33,New Data" "0,1" bitfld.long 0x4 0. "ND32,New Data" "0,1" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF0C,FIFO 0 operation mode. watermark. size and start address" bitfld.long 0x8 31. "F0OM,Rx FIFO 0 Operation Mode" "0,1" hexmask.long.byte 0x8 24.--30. 1. "F0WM,Rx FIFO 0 Watermark" hexmask.long.byte 0x8 16.--22. 1. "F0S,Rx FIFO 0 Size" newline hexmask.long.word 0x8 2.--15. 1. "F0SA,Rx FIFO 0 Start Address" rgroup.long 0xA4++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF0S,FIFO 0 message lost/full indication. put index. get index and fill level" bitfld.long 0x0 25. "RF0L,Rx FIFO 0 Message Lost" "0,1" bitfld.long 0x0 24. "F0F,Rx FIFO 0 Full" "0,1" hexmask.long.byte 0x0 16.--21. 1. "F0PI,Rx FIFO 0 Put Index" newline hexmask.long.byte 0x0 8.--13. 1. "F0GI,Rx FIFO 0 Get Index" hexmask.long.byte 0x0 0.--6. 1. "F0FL,Rx FIFO 0 Fill Level" group.long 0xA8++0xB line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF0A,FIFO 0 acknowledge last index of read buffers. updates get index and fill level" hexmask.long.byte 0x0 0.--5. 1. "F0AI,Rx FIFO 0 Acknowledge Index" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXBC,Start address of Rx buffer section" hexmask.long.word 0x4 2.--15. 1. "RBSA,Rx Buffer Start Address" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF1C,FIFO 1 operation mode. watermark. size and start address" bitfld.long 0x8 31. "F1OM,Rx FIFO 1 Operation Mode" "0,1" hexmask.long.byte 0x8 24.--30. 1. "F1WM,Rx FIFO 1 Watermark" hexmask.long.byte 0x8 16.--22. 1. "F1S,Rx FIFO 1 Size" newline hexmask.long.word 0x8 2.--15. 1. "F1SA,Rx FIFO 1 Start Address" rgroup.long 0xB4++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF1S,FIFO 1 message lost/full indication. put index. get index and fill level" bitfld.long 0x0 30.--31. "DMS,Debug Message Status" "0,1,2,3" bitfld.long 0x0 25. "RF1L,Rx FIFO 1 Message Lost" "0,1" bitfld.long 0x0 24. "F1F,Rx FIFO 1 Full" "0,1" newline hexmask.long.byte 0x0 16.--21. 1. "F1PI,Rx FIFO 1 Put Index" hexmask.long.byte 0x0 8.--13. 1. "F1GI,Rx FIFO 1 Get Index" hexmask.long.byte 0x0 0.--6. 1. "F1FL,Rx FIFO 1 Fill Level" group.long 0xB8++0xB line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF1A,FIFO 1 acknowledge last index of read buffers. updates get index and fill level" hexmask.long.byte 0x0 0.--5. 1. "F1AI,Rx FIFO 1 Acknowledge Index" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXESC,Configure data field size for storage of accepted frames" bitfld.long 0x4 8.--10. "RBDS,Rx Buffer data Field Size" "0,1,2,3,4,5,6,7" bitfld.long 0x4 4.--6. "F1DS,Rx FIFO 1 Data Field Size" "0,1,2,3,4,5,6,7" bitfld.long 0x4 0.--2. "F0DS,Rx FIFO 0 Data Field Size" "0,1,2,3,4,5,6,7" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBC,Configure Tx FIFO/Queue mode. Tx FIFO/Queue size. number of dedicated Tx buffers. Tx buffer start address" bitfld.long 0x8 30. "TFQM,Tx FIFO/Queue Mode" "0,1" hexmask.long.byte 0x8 24.--29. 1. "TFQS,Transmit FIFO/Queue Size" hexmask.long.byte 0x8 16.--21. 1. "NDTB,Number of Dedicated Transmit Buffers" newline hexmask.long.word 0x8 2.--15. 1. "TBSA,Tx Buffers Start Address" rgroup.long 0xC4++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXFQS,Tx FIFO/Queue full indication and put index. Tx FIFO get index and fill level" bitfld.long 0x0 21. "TFQF,Tx FIFO/Queue Full" "0,1" hexmask.long.byte 0x0 16.--20. 1. "TFQPI,Tx FIFO/Queue Put Index" hexmask.long.byte 0x0 8.--12. 1. "TFGI,Tx Queue Get Index" newline hexmask.long.byte 0x0 0.--5. 1. "TFFL,Tx FIFO Free Level" group.long 0xC8++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXESC,Configure data field size for frame transmission" bitfld.long 0x0 0.--2. "TBDS,Tx Buffer Data Field Size" "0,1,2,3,4,5,6,7" rgroup.long 0xCC++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBRP,Tx buffers with pending transmission request" bitfld.long 0x0 31. "TRP31,Transmission Request Pending" "0,1" bitfld.long 0x0 30. "TRP30,Transmission Request Pending" "0,1" bitfld.long 0x0 29. "TRP29,Transmission Request Pending" "0,1" newline bitfld.long 0x0 28. "TRP28,Transmission Request Pending" "0,1" bitfld.long 0x0 27. "TRP27,Transmission Request Pending" "0,1" bitfld.long 0x0 26. "TRP26,Transmission Request Pending" "0,1" newline bitfld.long 0x0 25. "TRP25,Transmission Request Pending" "0,1" bitfld.long 0x0 24. "TRP24,Transmission Request Pending" "0,1" bitfld.long 0x0 23. "TRP23,Transmission Request Pending" "0,1" newline bitfld.long 0x0 22. "TRP22,Transmission Request Pending" "0,1" bitfld.long 0x0 21. "TRP21,Transmission Request Pending" "0,1" bitfld.long 0x0 20. "TRP20,Transmission Request Pending" "0,1" newline bitfld.long 0x0 19. "TRP19,Transmission Request Pending" "0,1" bitfld.long 0x0 18. "TRP18,Transmission Request Pending" "0,1" bitfld.long 0x0 17. "TRP17,Transmission Request Pending" "0,1" newline bitfld.long 0x0 16. "TRP16,Transmission Request Pending" "0,1" bitfld.long 0x0 15. "TRP15,Transmission Request Pending" "0,1" bitfld.long 0x0 14. "TRP14,Transmission Request Pending" "0,1" newline bitfld.long 0x0 13. "TRP13,Transmission Request Pending" "0,1" bitfld.long 0x0 12. "TRP12,Transmission Request Pending" "0,1" bitfld.long 0x0 11. "TRP11,Transmission Request Pending" "0,1" newline bitfld.long 0x0 10. "TRP10,Transmission Request Pending" "0,1" bitfld.long 0x0 9. "TRP9,Transmission Request Pending" "0,1" bitfld.long 0x0 8. "TRP8,Transmission Request Pending" "0,1" newline bitfld.long 0x0 7. "TRP7,Transmission Request Pending" "0,1" bitfld.long 0x0 6. "TRP6,Transmission Request Pending" "0,1" bitfld.long 0x0 5. "TRP5,Transmission Request Pending" "0,1" newline bitfld.long 0x0 4. "TRP4,Transmission Request Pending" "0,1" bitfld.long 0x0 3. "TRP3,Transmission Request Pending" "0,1" bitfld.long 0x0 2. "TRP2,Transmission Request Pending" "0,1" newline bitfld.long 0x0 1. "TRP1,Transmission Request Pending" "0,1" bitfld.long 0x0 0. "TRP0,Transmission Request Pending" "0,1" group.long 0xD0++0x7 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBAR,Add transmission requests" bitfld.long 0x0 31. "AR31,Add request" "0,1" bitfld.long 0x0 30. "AR30,Add request" "0,1" bitfld.long 0x0 29. "AR29,Add request" "0,1" newline bitfld.long 0x0 28. "AR28,Add request" "0,1" bitfld.long 0x0 27. "AR27,Add request" "0,1" bitfld.long 0x0 26. "AR26,Add request" "0,1" newline bitfld.long 0x0 25. "AR25,Add request" "0,1" bitfld.long 0x0 24. "AR24,Add request" "0,1" bitfld.long 0x0 23. "AR23,Add request" "0,1" newline bitfld.long 0x0 22. "AR22,Add request" "0,1" bitfld.long 0x0 21. "AR21,Add request" "0,1" bitfld.long 0x0 20. "AR20,Add request" "0,1" newline bitfld.long 0x0 19. "AR19,Add request" "0,1" bitfld.long 0x0 18. "AR18,Add request" "0,1" bitfld.long 0x0 17. "AR17,Add request" "0,1" newline bitfld.long 0x0 16. "AR16,Add request" "0,1" bitfld.long 0x0 15. "AR15,Add request" "0,1" bitfld.long 0x0 14. "AR14,Add request" "0,1" newline bitfld.long 0x0 13. "AR13,Add request" "0,1" bitfld.long 0x0 12. "AR12,Add request" "0,1" bitfld.long 0x0 11. "AR11,Add request" "0,1" newline bitfld.long 0x0 10. "AR10,Add request" "0,1" bitfld.long 0x0 9. "AR9,Add request" "0,1" bitfld.long 0x0 8. "AR8,Add request" "0,1" newline bitfld.long 0x0 7. "AR7,Add request" "0,1" bitfld.long 0x0 6. "AR6,Add request" "0,1" bitfld.long 0x0 5. "AR5,Add request" "0,1" newline bitfld.long 0x0 4. "AR4,Add request" "0,1" bitfld.long 0x0 3. "AR3,Add request" "0,1" bitfld.long 0x0 2. "AR2,Add request" "0,1" newline bitfld.long 0x0 1. "AR1,Add request" "0,1" bitfld.long 0x0 0. "AR0,Add request" "0,1" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBCR,Request cancellation of pending transmissions" bitfld.long 0x4 31. "CR31,Cancellation Request" "0,1" bitfld.long 0x4 30. "CR30,Cancellation Request" "0,1" bitfld.long 0x4 29. "CR29,Cancellation Request" "0,1" newline bitfld.long 0x4 28. "CR28,Cancellation Request" "0,1" bitfld.long 0x4 27. "CR27,Cancellation Request" "0,1" bitfld.long 0x4 26. "CR26,Cancellation Request" "0,1" newline bitfld.long 0x4 25. "CR25,Cancellation Request" "0,1" bitfld.long 0x4 24. "CR24,Cancellation Request" "0,1" bitfld.long 0x4 23. "CR23,Cancellation Request" "0,1" newline bitfld.long 0x4 22. "CR22,Cancellation Request" "0,1" bitfld.long 0x4 21. "CR21,Cancellation Request" "0,1" bitfld.long 0x4 20. "CR20,Cancellation Request" "0,1" newline bitfld.long 0x4 19. "CR19,Cancellation Request" "0,1" bitfld.long 0x4 18. "CR18,Cancellation Request" "0,1" bitfld.long 0x4 17. "CR17,Cancellation Request" "0,1" newline bitfld.long 0x4 16. "CR16,Cancellation Request" "0,1" bitfld.long 0x4 15. "CR15,Cancellation Request" "0,1" bitfld.long 0x4 14. "CR14,Cancellation Request" "0,1" newline bitfld.long 0x4 13. "CR13,Cancellation Request" "0,1" bitfld.long 0x4 12. "CR12,Cancellation Request" "0,1" bitfld.long 0x4 11. "CR11,Cancellation Request" "0,1" newline bitfld.long 0x4 10. "CR10,Cancellation Request" "0,1" bitfld.long 0x4 9. "CR9,Cancellation Request" "0,1" bitfld.long 0x4 8. "CR8,Cancellation Request" "0,1" newline bitfld.long 0x4 7. "CR7,Cancellation Request" "0,1" bitfld.long 0x4 6. "CR6,Cancellation Request" "0,1" bitfld.long 0x4 5. "CR5,Cancellation Request" "0,1" newline bitfld.long 0x4 4. "CR4,Cancellation Request" "0,1" bitfld.long 0x4 3. "CR3,Cancellation Request" "0,1" bitfld.long 0x4 2. "CR2,Cancellation Request" "0,1" newline bitfld.long 0x4 1. "CR1,Cancellation Request" "0,1" bitfld.long 0x4 0. "CR0,Cancellation Request" "0,1" rgroup.long 0xD8++0x7 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBTO,Signals successful transmissions. set when corresponding TXBRP flag is cleared" bitfld.long 0x0 31. "TO31,Transmission Occurred" "0,1" bitfld.long 0x0 30. "TO30,Transmission Occurred" "0,1" bitfld.long 0x0 29. "TO29,Transmission Occurred" "0,1" newline bitfld.long 0x0 28. "TO28,Transmission Occurred" "0,1" bitfld.long 0x0 27. "TO27,Transmission Occurred" "0,1" bitfld.long 0x0 26. "TO26,Transmission Occurred" "0,1" newline bitfld.long 0x0 25. "TO25,Transmission Occurred" "0,1" bitfld.long 0x0 24. "TO24,Transmission Occurred" "0,1" bitfld.long 0x0 23. "TO23,Transmission Occurred" "0,1" newline bitfld.long 0x0 22. "TO22,Transmission Occurred" "0,1" bitfld.long 0x0 21. "TO21,Transmission Occurred" "0,1" bitfld.long 0x0 20. "TO20,Transmission Occurred" "0,1" newline bitfld.long 0x0 19. "TO19,Transmission Occurred" "0,1" bitfld.long 0x0 18. "TO18,Transmission Occurred" "0,1" bitfld.long 0x0 17. "TO17,Transmission Occurred" "0,1" newline bitfld.long 0x0 16. "TO16,Transmission Occurred" "0,1" bitfld.long 0x0 15. "TO15,Transmission Occurred" "0,1" bitfld.long 0x0 14. "TO14,Transmission Occurred" "0,1" newline bitfld.long 0x0 13. "TO13,Transmission Occurred" "0,1" bitfld.long 0x0 12. "TO12,Transmission Occurred" "0,1" bitfld.long 0x0 11. "TO11,Transmission Occurred" "0,1" newline bitfld.long 0x0 10. "TO10,Transmission Occurred" "0,1" bitfld.long 0x0 9. "TO9,Transmission Occurred" "0,1" bitfld.long 0x0 8. "TO8,Transmission Occurred" "0,1" newline bitfld.long 0x0 7. "TO7,Transmission Occurred" "0,1" bitfld.long 0x0 6. "TO6,Transmission Occurred" "0,1" bitfld.long 0x0 5. "TO5,Transmission Occurred" "0,1" newline bitfld.long 0x0 4. "TO4,Transmission Occurred" "0,1" bitfld.long 0x0 3. "TO3,Transmission Occurred" "0,1" bitfld.long 0x0 2. "TO2,Transmission Occurred" "0,1" newline bitfld.long 0x0 1. "TO1,Transmission Occurred" "0,1" bitfld.long 0x0 0. "TO0,Transmission Occurred" "0,1" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBCF,Signals successful transmit cancellation. set when corresponding TXBRP flag is cleared after cancellation request" bitfld.long 0x4 31. "CF31,Cancellation Finished" "0,1" bitfld.long 0x4 30. "CF30,Cancellation Finished" "0,1" bitfld.long 0x4 29. "CF29,Cancellation Finished" "0,1" newline bitfld.long 0x4 28. "CF28,Cancellation Finished" "0,1" bitfld.long 0x4 27. "CF27,Cancellation Finished" "0,1" bitfld.long 0x4 26. "CF26,Cancellation Finished" "0,1" newline bitfld.long 0x4 25. "CF25,Cancellation Finished" "0,1" bitfld.long 0x4 24. "CF24,Cancellation Finished" "0,1" bitfld.long 0x4 23. "CF23,Cancellation Finished" "0,1" newline bitfld.long 0x4 22. "CF22,Cancellation Finished" "0,1" bitfld.long 0x4 21. "CF21,Cancellation Finished" "0,1" bitfld.long 0x4 20. "CF20,Cancellation Finished" "0,1" newline bitfld.long 0x4 19. "CF19,Cancellation Finished" "0,1" bitfld.long 0x4 18. "CF18,Cancellation Finished" "0,1" bitfld.long 0x4 17. "CF17,Cancellation Finished" "0,1" newline bitfld.long 0x4 16. "CF16,Cancellation Finished" "0,1" bitfld.long 0x4 15. "CF15,Cancellation Finished" "0,1" bitfld.long 0x4 14. "CF14,Cancellation Finished" "0,1" newline bitfld.long 0x4 13. "CF13,Cancellation Finished" "0,1" bitfld.long 0x4 12. "CF12,Cancellation Finished" "0,1" bitfld.long 0x4 11. "CF11,Cancellation Finished" "0,1" newline bitfld.long 0x4 10. "CF10,Cancellation Finished" "0,1" bitfld.long 0x4 9. "CF9,Cancellation Finished" "0,1" bitfld.long 0x4 8. "CF8,Cancellation Finished" "0,1" newline bitfld.long 0x4 7. "CF7,Cancellation Finished" "0,1" bitfld.long 0x4 6. "CF6,Cancellation Finished" "0,1" bitfld.long 0x4 5. "CF5,Cancellation Finished" "0,1" newline bitfld.long 0x4 4. "CF4,Cancellation Finished" "0,1" bitfld.long 0x4 3. "CF3,Cancellation Finished" "0,1" bitfld.long 0x4 2. "CF2,Cancellation Finished" "0,1" newline bitfld.long 0x4 1. "CF1,Cancellation Finished" "0,1" bitfld.long 0x4 0. "CF0,Cancellation Finished" "0,1" group.long 0xE0++0x13 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBTIE,Enable transmit interrupts for selected Tx buffers" bitfld.long 0x0 31. "TIE31,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 30. "TIE30,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 29. "TIE29,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 28. "TIE28,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 27. "TIE27,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 26. "TIE26,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 25. "TIE25,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 24. "TIE24,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 23. "TIE23,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 22. "TIE22,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 21. "TIE21,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 20. "TIE20,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 19. "TIE19,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 18. "TIE18,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 17. "TIE17,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 16. "TIE16,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 15. "TIE15,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 14. "TIE14,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 13. "TIE13,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 12. "TIE12,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 11. "TIE11,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 10. "TIE10,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 9. "TIE9,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 8. "TIE8,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 7. "TIE7,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 6. "TIE6,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 5. "TIE5,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 4. "TIE4,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 3. "TIE3,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 2. "TIE2,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 1. "TIE1,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 0. "TIE0,Transmission Interrupt Enable" "0,1" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBCIE,Enable cancellation finished interrupts for selected Tx buffers" bitfld.long 0x4 31. "CFIE31,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 30. "CFIE30,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 29. "CFIE29,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 28. "CFIE28,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 27. "CFIE27,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 26. "CFIE26,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 25. "CFIE25,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 24. "CFIE24,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 23. "CFIE23,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 22. "CFIE22,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 21. "CFIE21,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 20. "CFIE20,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 19. "CFIE19,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 18. "CFIE18,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 17. "CFIE17,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 16. "CFIE16,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 15. "CFIE15,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 14. "CFIE14,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 13. "CFIE13,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 12. "CFIE12,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 11. "CFIE11,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 10. "CFIE10,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 9. "CFIE9,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 8. "CFIE8,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 7. "CFIE7,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 6. "CFIE6,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 5. "CFIE5,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 4. "CFIE4,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 3. "CFIE3,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 2. "CFIE2,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 1. "CFIE1,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 0. "CFIE0,Cancellation Finished Interrupt Enable" "0,1" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1414,Reserved Field" line.long 0xC "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1515,Reserved Field" line.long 0x10 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXEFC,Tx event FIFO watermark. size and start address" hexmask.long.byte 0x10 24.--29. 1. "EFWM,Event FIFO Watermark" hexmask.long.byte 0x10 16.--21. 1. "EFS,Event FIFO Size" hexmask.long.word 0x10 2.--15. 1. "EFSA,Event FIFO Start Address" rgroup.long 0xF4++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXEFS,Tx event FIFO element lost/full indication. put index. get index. and fill level" bitfld.long 0x0 25. "TEFL,Tx Event FIFO Element Lost" "0,1" bitfld.long 0x0 24. "EFF,Event FIFO Full" "0,1" hexmask.long.byte 0x0 16.--20. 1. "EFPI,Event FIFO Put Index" newline hexmask.long.byte 0x0 8.--12. 1. "EFGI,Event FIFO Get Index" hexmask.long.byte 0x0 0.--5. 1. "EFFL,Event FIFO Fill Level" group.long 0xF8++0xB line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXEFA,Tx event FIFO acknowledge last index of read elements. updates get index and fill level" hexmask.long.byte 0x0 0.--4. 1. "EFAI,Event FIFO Acknowledge Index" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1616,Reserved Field" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ReservUpper256,Reserved Field" tree.end tree "MCAN1_ECC_AGGR (MCAN1_ECC_AGGR)" base ad:0x24019000 rgroup.long 0x0++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 1. "CTRL_EDC_VBUSS_PEND,Interrupt Pending Status for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x4 0. "MSGMEM_PEND,Interrupt Pending Status for msgmem_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 1. "CTRL_EDC_VBUSS_ENABLE_SET,Interrupt Enable Set Register for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x0 0. "MSGMEM_ENABLE_SET,Interrupt Enable Set Register for msgmem_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 1. "CTRL_EDC_VBUSS_ENABLE_CLR,Interrupt Enable Clear Register for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x0 0. "MSGMEM_ENABLE_CLR,Interrupt Enable Clear Register for msgmem_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 1. "CTRL_EDC_VBUSS_PEND,Interrupt Pending Status for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x4 0. "MSGMEM_PEND,Interrupt Pending Status for msgmem_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 1. "CTRL_EDC_VBUSS_ENABLE_SET,Interrupt Enable Set Register for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x0 0. "MSGMEM_ENABLE_SET,Interrupt Enable Set Register for msgmem_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 1. "CTRL_EDC_VBUSS_ENABLE_CLR,Interrupt Enable Clear Register for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x0 0. "MSGMEM_ENABLE_CLR,Interrupt Enable Clear Register for msgmem_pend" "0,1" group.long 0x200++0xF line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "MCAN1_MSGMEM_RAM (MCAN1_MSGMEM_RAM)" base ad:0x20718000 group.long 0x0++0x3 line.long 0x0 "MSGMEM_WRAP__MSGMEM_VBP__RAM_RAM_REG,The RAM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end tree "MCAN1_SS (MCAN1_SS)" base ad:0x20710000 rgroup.long 0x0++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_PID,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_CTRL,The Control Register contains general control bits for the MCANSS" bitfld.long 0x0 6. "EXT_TS_CNTR_EN,External TimeStamp Counter Enable" "0,1" bitfld.long 0x0 5. "AUTOWAKEUP,Automatic Wakeup Enable" "0,1" newline bitfld.long 0x0 4. "WAKEUPREQEN,Wakeup Request Enable" "0,1" bitfld.long 0x0 3. "DBGSUSP_FREE,0-Honor Debug Suspend 1-Disregard debug suspend" "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_STAT,The Status register provide general status bits for the MCANSS" bitfld.long 0x0 2. "ENABLE_FDOE,Reflects the value of mcanss_enable_fdoe configuration port x=mcanss_enable_fdoe" "0,1" bitfld.long 0x0 1. "MEM_INIT_DONE,0:Memory Initialization is in progress 1:Memory Intialization Done" "0: Memory Initialization is in progress,1: Memory Intialization Done" wgroup.long 0xC++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_ICS,Write to clear interrupt bits" bitfld.long 0x0 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt status. Write '1' to clear bits." "0,1" group.long 0x10++0xB line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_IRS,Read raw interrupt status. Write '1' to set interrupt bits." bitfld.long 0x0 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt status." "0,1" line.long 0x4 "MMR__MMRVBP__MCANSS_REGS_MCANSS_IECS,Write to clear interrupt enable bits" bitfld.long 0x4 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt. Write '1' to clear bits." "0,1" line.long 0x8 "MMR__MMRVBP__MCANSS_REGS_MCANSS_IE,Read interrupt Enable" bitfld.long 0x8 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt." "0,1" rgroup.long 0x1C++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_IES,Read Enabled Interrupts" bitfld.long 0x0 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt" "0,1" wgroup.long 0x20++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_EOI,End of Interrupt Register" hexmask.long.byte 0x0 0.--7. 1. "EOI,Write with bit position of targeted interrupt. (E.g. Ext TS is bit 0). Upon write level interrupt will clear and if unserviced interrupt counter > 1 will issue another pulse interrupt" group.long 0x24++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_EXT_TS_PRESCALER,External TImeStamp PreScaler" hexmask.long.tbyte 0x0 0.--23. 1. "PRESCALER,External Timestamp Prescaler reload value. External Timestamp count rate is host clock rate divided by this value with one exception: a value of 0 has the same effect as 1" rgroup.long 0x28++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_EXT_TS_UNSERVICED_INTR_CNTR,External TImeStamp Unserviced Interrupts Counter" hexmask.long.byte 0x0 0.--4. 1. "EXT_TS_INTR_CNTR,Number of unserviced rollover interrupts. If >1 an EOI write will issue another pulse interrupt" tree.end tree.end tree "MCASP" base ad:0x0 tree "MCASP0_CFG (MCASP0_CFG)" base ad:0x2B00000 rgroup.long 0x0++0x3 line.long 0x0 "CFG_PID,The revision identification register (PID) contains identification data for the peripheral." hexmask.long 0x0 0.--31. 1. "REV,Identifies revision of peripheral." group.long 0x4++0x3 line.long 0x0 "CFG_PWRIDLESYSCONFIG," hexmask.long 0x0 6.--31. 1. "RESERVED66," hexmask.long.byte 0x0 2.--5. 1. "OTHER,Reserved for future programming." bitfld.long 0x0 0.--1. "IDLEMODE,Power management Configuration of the local target state management mode. By definition target can handle read/write transaction as long as it is out of IDLE state." "0,1,2,3" group.long 0x10++0x13 line.long 0x0 "CFG_PFUNC,The pin function register (PFUNC) specifies the function of AXRn. ACLKX. AHCLKX. AFSX. ACLKR. AHCLKR. and AFSR pins as either a McASP pin or a general-purpose input/output (GPIO) pin. CAUTION: Writing a value other than 0 to reserved bits in.." bitfld.long 0x0 31. "AFSR,Determines if AFSR pin functions as McASP or GPIO." "0,1" bitfld.long 0x0 30. "AHCLKR,Determines if AHCLKR pin functions as McASP or GPIO." "0,1" bitfld.long 0x0 29. "ACLKR,Determines if ACLKR pin functions as McASP or GPIO." "0,1" bitfld.long 0x0 28. "AFSX,Determines if AFSX pin functions as McASP or GPIO." "0,1" bitfld.long 0x0 27. "AHCLKX,Determines if AHCLKX pin functions as McASP or GPIO." "0,1" bitfld.long 0x0 26. "ACLKX,Determines if ACLKX pin functions as McASP or GPIO." "0,1" newline bitfld.long 0x0 25. "AMUTE,Determines if AMUTE pin functions as McASP or GPIO." "0,1" hexmask.long.tbyte 0x0 4.--24. 1. "RESERVED67," hexmask.long.byte 0x0 0.--3. 1. "AXR,Determines if AXRn pin functions as McASP or GPIO." line.long 0x4 "CFG_PDIR,The pin direction register (PDIR) specifies the direction of AXRn. ACLKX. AHCLKX. AFSX. ACLKR. AHCLKR. and AFSR pins as either an input or an output pin. Regardless of the pin function register (PFUNC) setting. each PDIR bit must be set to 1 for.." bitfld.long 0x4 31. "AFSR,Determines if AFSR pin functions as an input or output." "0,1" bitfld.long 0x4 30. "AHCLKR,Determines if AHCLKR pin functions as an input or output." "0,1" bitfld.long 0x4 29. "ACLKR,Determines if ACLKR pin functions as an input or output." "0,1" bitfld.long 0x4 28. "AFSX,Determines if AFSX pin functions as an input or output." "0,1" bitfld.long 0x4 27. "AHCLKX,Determines if AHCLKX pin functions as an input or output." "0,1" bitfld.long 0x4 26. "ACLKX,Determines if ACLKX pin functions as an input or output." "0,1" newline bitfld.long 0x4 25. "AMUTE,Determines if AMUTE pin functions as an input or output." "0,1" hexmask.long.tbyte 0x4 4.--24. 1. "RESERVED68," hexmask.long.byte 0x4 0.--3. 1. "AXR,Determines if AXRn pin functions as an input or output." line.long 0x8 "CFG_PDOUT,The pin data output register (PDOUT) holds a value for data out at all times. and may be read back at all times. The value held by PDOUT is not affected by writing to PDIR and PFUNC. However. the data value in PDOUT is driven out onto the McASP.." bitfld.long 0x8 31. "AFSR,Determines drive on AFSR output pin when the corresponding PFUNC[31] and PDIR[31] bits are set to 1." "0,1" bitfld.long 0x8 30. "AHCLKR,Determines drive on AHCLKR output pin when the corresponding PFUNC[30] and PDIR[30] bits are set to 1." "0,1" bitfld.long 0x8 29. "ACLKR,Determines drive on ACLKR output pin when the corresponding PFUNC[29] and PDIR[29] bits are set to 1." "0,1" bitfld.long 0x8 28. "AFSX,Determines drive on AFSX output pin when the corresponding PFUNC[28] and PDIR[28] bits are set to 1." "0,1" bitfld.long 0x8 27. "AHCLKX,Determines drive on AHCLKX output pin when the corresponding PFUNC[27] and PDIR[27] bits are set to 1." "0,1" bitfld.long 0x8 26. "ACLKX,Determines drive on ACLKX output pin when the corresponding PFUNC[26] and PDIR[26] bits are set to 1." "0,1" newline bitfld.long 0x8 25. "AMUTE,Determines drive on AMUTE output pin when the corresponding PFUNC[25] and PDIR[25] bits are set to 1." "0,1" hexmask.long.tbyte 0x8 4.--24. 1. "RESERVED69," hexmask.long.byte 0x8 0.--3. 1. "AXR,Determines drive on AXR[n] output pin when the corresponding PFUNC[n] and PDIR[n] bits are set to 1." line.long 0xC "CFG_PDIN,The pin data input register (PDIN) holds the I/O pin state of each of the McASP pins. PDIN allows the actual value of the pin to be read. regardless of the state of PFUNC and PDIR. The value after reset for registers 1 through 15 and 24 through.." bitfld.long 0xC 31. "AFSR,Logic level on AFSR pin." "0,1" bitfld.long 0xC 30. "AHCLKR,Logic level on AHCLKR pin." "0,1" bitfld.long 0xC 29. "ACLKR,Logic level on ACLKR pin." "0,1" bitfld.long 0xC 28. "AFSX,Logic level on AFSX pin." "0,1" bitfld.long 0xC 27. "AHCLKX,Logic level on AHCLKX pin." "0,1" bitfld.long 0xC 26. "ACLKX,Logic level on ACLKX pin." "0,1" newline bitfld.long 0xC 25. "AMUTE,Logic level on AMUTE pin." "0,1" hexmask.long.tbyte 0xC 4.--24. 1. "RESERVED70," hexmask.long.byte 0xC 0.--3. 1. "AXR,Logic level on AXR[n] pin." line.long 0x10 "CFG_PDCLR,The pin data clear register (PDCLR) is an alias of the pin data output register (PDOUT) for writes only. Writing a 1 to the PDCLR bit clears the corresponding bit in PDOUT and. if PFUNC = 1 (GPIO function) and PDIR = 1 (output). drives a logic.." bitfld.long 0x10 31. "AFSR,Allows the corresponding AFSR bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" bitfld.long 0x10 30. "AHCLKR,Allows the corresponding AHCLKR bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" bitfld.long 0x10 29. "ACLKR,Allows the corresponding ACLKR bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" bitfld.long 0x10 28. "AFSX,Allows the corresponding AFSX bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" bitfld.long 0x10 27. "AHCLKX,Allows the corresponding AHCLKX bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" bitfld.long 0x10 26. "ACLKX,Allows the corresponding ACLKX bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" newline bitfld.long 0x10 25. "AMUTE,Allows the corresponding AMUTE bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" hexmask.long.tbyte 0x10 4.--24. 1. "RESERVED71," hexmask.long.byte 0x10 0.--3. 1. "AXR,Allows the corresponding AXR[n] bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." group.long 0x44++0xF line.long 0x0 "CFG_GBLCTL,The global control register (GBLCTL) provides initialization of the transmit and receive sections. The bit fields in GBLCTL are synchronized and latched by the corresponding clocks (ACLKX for bits 12-8 and ACLKR for bits 4-0). Before GBLCTL is.." hexmask.long.tbyte 0x0 13.--31. 1. "RESERVED73," bitfld.long 0x0 12. "XFRST,Transmit frame sync generator reset enable bit." "0,1" bitfld.long 0x0 11. "XSMRST,Transmit state machine reset enable bit." "0,1" bitfld.long 0x0 10. "XSRCLR,Transmit serializer clear enable bit. By clearing then setting this bit the transmit buffer is flushed to an empty state [XDATA = 1]. If XSMRST = 1 XSRCLR = 1 XDATA = 1 and XBUF is not loaded with new data before the start of the next active.." "0,1" bitfld.long 0x0 9. "XHCLKRST,Transmit high-frequency clock divider reset enable bit." "0,1" bitfld.long 0x0 8. "XCLKRST,Transmit clock divider reset enable bit." "0,1" newline rbitfld.long 0x0 5.--7. "RESERVED72," "0,1,2,3,4,5,6,7" bitfld.long 0x0 4. "RFRST,Receive frame sync generator reset enable bit." "0,1" bitfld.long 0x0 3. "RSMRST,Receive state machine reset enable bit." "0,1" bitfld.long 0x0 2. "RSRCLR,Receive serializer clear enable bit. By clearing then setting this bit the receive buffer is flushed." "0,1" bitfld.long 0x0 1. "RHCLKRST,Receive high-frequency clock divider reset enable bit." "0,1" bitfld.long 0x0 0. "RCLKRST,Receive high-frequency clock divider reset enable bit." "0,1" line.long 0x4 "CFG_AMUTE,The audio mute control register (AMUTE) controls the McASP audio mute (AMUTE) output pin. The value after reset for register 4 depends on how the pins are being driven." hexmask.long.tbyte 0x4 13.--31. 1. "RESERVED74," bitfld.long 0x4 12. "XDMAERR,If transmit DMA error [XDMAERR] drive AMUTE active enable bit." "0,1" bitfld.long 0x4 11. "RDMAERR,If receive DMA error [RDMAERR] drive AMUTE active enable bit." "0,1" bitfld.long 0x4 10. "XCKFAIL,If transmit clock failure [XCKFAIL] drive AMUTE active enable bit." "0,1" bitfld.long 0x4 9. "RCKFAIL,If receive clock failure [RCKFAIL] drive AMUTE active enable bit." "0,1" bitfld.long 0x4 8. "XSYNCERR,If unexpected transmit frame sync error [XSYNCERR] drive AMUTE active enable bit." "0,1" newline bitfld.long 0x4 7. "RSYNCERR,If unexpected receive frame sync error [RSYNCERR] drive AMUTE active enable bit." "0,1" bitfld.long 0x4 6. "XUNDRN,If transmit underrun error [XUNDRN] drive AMUTE active enable bit." "0,1" bitfld.long 0x4 5. "ROVRN,If receiver overrun error [ROVRN] drive AMUTE active enable bit." "0,1" rbitfld.long 0x4 4. "INSTAT,Determines drive on AXRn pin when PFUNC[n] and PDIR[n] bits are set to 1." "0,1" bitfld.long 0x4 3. "INEN,Drive AMUTE active when AMUTEIN error is active [INSTAT = 1]." "0,1" bitfld.long 0x4 2. "INPOL,Audio mute in [AMUTEIN] polarity select bit." "0,1" newline bitfld.long 0x4 0.--1. "MUTEN,AMUTE pin enable bit [unless overridden by GPIO registers]." "0,1,2,3" line.long 0x8 "CFG_DLBCTL,The digital loopback control register (DLBCTL) controls the internal loopback settings of the McASP in TDM mode." hexmask.long 0x8 4.--31. 1. "RESERVED75," bitfld.long 0x8 2.--3. "MODE,Loopback generator mode bits. Applies only when loopback mode is enabled [DLBEN = 1]." "0,1,2,3" bitfld.long 0x8 1. "ORD,Loopback order bit when loopback mode is enabled [DLBEN = 1]." "0,1" bitfld.long 0x8 0. "DLBEN,Loopback mode enable bit." "0,1" line.long 0xC "CFG_DITCTL,The DIT mode control register (DITCTL) controls DIT operations of the McASP." hexmask.long 0xC 4.--31. 1. "RESERVED77," bitfld.long 0xC 3. "VB,Valid bit for odd time slots [DIT right subframe]." "0,1" bitfld.long 0xC 2. "VA,Valid bit for even time slots [DIT left subframe]." "0,1" rbitfld.long 0xC 1. "RESERVED76," "0,1" bitfld.long 0xC 0. "DITEN,DIT mode enable bit. DITEN should only be changed while the XSMRST bit in GBLCTL is in reset [and for startup XSRCLR also in reset]. However it is not necessary to reset the XCLKRST or XHCLKRST bits in GBLCTL to change DITEN." "0,1" group.long 0x60++0x23 line.long 0x0 "CFG_RGBLCTL,Alias of the global control register (GBLCTL). Writing to the receiver global control register (RGBLCTL) affects only the receive bits of GBLCTL (bits 4-0). Reads from RGBLCTL return the value of GBLCTL. RGBLCTL allows the receiver to be.." hexmask.long.tbyte 0x0 13.--31. 1. "RESERVED79," rbitfld.long 0x0 12. "XFRST,Transmit frame sync generator reset enable bit. A read of this bit returns the XFRST bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 11. "XSMRST,Transmit state machine reset enable bit. A read of this bit returns the XSMRST bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 10. "XSRCLR,Transmit serializer clear enable bit. A read of this bit returns the XSRCLR bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 9. "XHCLKRST,Transmit high-frequency clock divider reset enable bit. A read of this bit returns the XHCLKRST bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 8. "XCLKRST,Transmit clock divider reset enable bit. A read of this bit returns the XCLKRST bit value of GBLCTL. Writes have no effect." "0,1" newline rbitfld.long 0x0 5.--7. "RESERVED78," "0,1,2,3,4,5,6,7" bitfld.long 0x0 4. "RFRST,Receive frame sync generator reset enable bit. A write to this bit affects the RFRST bit of GBLCTL." "0,1" bitfld.long 0x0 3. "RSMRST,Receive state machine reset enable bit. A write to this bit affects the RSMRST bit of GBLCTL." "0,1" bitfld.long 0x0 2. "RSRCLR,Receive serializer clear enable bit. A write to this bit affects the RSRCLR bit of GBLCTL." "0,1" bitfld.long 0x0 1. "RHCLKRST,Receive high-frequency clock divider reset enable bit. A write to this bit affects the RHCLKRST bit of GBLCTL." "0,1" bitfld.long 0x0 0. "RCLKRST,Receive clock divider reset enable bit. A write to this bit affects the RCLKRST bit of GBLCTL." "0,1" line.long 0x4 "CFG_RMASK,The receive format unit bit mask register (RMASK) determines which bits of the received data are masked off and padded with a known value before being read by the CPU or DMA." hexmask.long 0x4 0.--31. 1. "RMASK,Receive data mask n enable bit." line.long 0x8 "CFG_RFMT,The receive bit stream format register (RFMT) configures the receive data format." hexmask.long.word 0x8 18.--31. 1. "RESERVED80," bitfld.long 0x8 16.--17. "RDATDLY,Receive bit delay." "0,1,2,3" bitfld.long 0x8 15. "RRVRS,Receive serial bitstream order." "0,1" bitfld.long 0x8 13.--14. "RPAD,Pad value for extra bits in slot not belonging to the word. This field only applies to bits when RMASK[n] = 0." "0,1,2,3" hexmask.long.byte 0x8 8.--12. 1. "RPBIT,RPBIT value determines which bit [as read by the CPU or DMA from RBUF[n]] is used to pad the extra bits. This field only applies when RPAD = 2h." hexmask.long.byte 0x8 4.--7. 1. "RSSZ,Receive slot size." newline bitfld.long 0x8 3. "RBUSEL,Selects whether reads from serializer buffer XRBUF[n] originate from the configuration bus [CFG] or the data [DAT] port." "0,1" bitfld.long 0x8 0.--2. "RROT,Right-rotation value for receive rotate right format unit." "0,1,2,3,4,5,6,7" line.long 0xC "CFG_AFSRCTL,The receive frame sync control register (AFSRCTL) configures the receive frame sync (AFSR)." hexmask.long.word 0xC 16.--31. 1. "RESERVED83," hexmask.long.word 0xC 7.--15. 1. "RMOD,Receive frame sync mode select bits. 1FFh = Reserved from 181h to 1FFh." rbitfld.long 0xC 5.--6. "RESERVED82," "0,1,2,3" bitfld.long 0xC 4. "FRWID,Receive frame sync width select bit indicates the width of the receive frame sync [AFSR] during its active period." "0,1" rbitfld.long 0xC 2.--3. "RESERVED81," "0,1,2,3" bitfld.long 0xC 1. "FSRM,Receive frame sync generation select bit." "0,1" newline bitfld.long 0xC 0. "FSRP,Receive frame sync polarity select bit." "0,1" line.long 0x10 "CFG_ACLKRCTL,The receive clock control register (ACLKRCTL) configures the receive bit clock (ACLKR) and the receive clock generator." hexmask.long.word 0x10 21.--31. 1. "RESERVED86," bitfld.long 0x10 20. "BUSY,Status: logical OR of DIVBUSY ADJBUSY" "0,1" bitfld.long 0x10 19. "DIVBUSY,Status: divide ratio change in progress" "0,1" bitfld.long 0x10 18. "ADJBUSY,Status: one-shot adjustment in progress" "0,1" bitfld.long 0x10 16.--17. "CLKRADJ,CLKRDIV one-shot adjustment" "0,1,2,3" hexmask.long.byte 0x10 8.--15. 1. "RESERVED85," newline bitfld.long 0x10 7. "CLKRP,Receive bitstream clock polarity select bit." "0,1" rbitfld.long 0x10 6. "RESERVED84," "0,1" bitfld.long 0x10 5. "CLKRM,Receive bit clock source bit. Note that this bit does not have any effect if ACLKXCTL.ASYNC = 0." "0,1" hexmask.long.byte 0x10 0.--4. 1. "CLKRDIV,Receive bit clock divide ratio bits determine the divide-down ratio from AHCLKR to ACLKR. Note that this bit does not have any effect if ACLKXCTL.ASYNC = 0." line.long 0x14 "CFG_AHCLKRCTL,The receive high-frequency clock control register (AHCLKRCTL) configures the receive high-frequency controller clock (AHCLKR) and the receive clock generator." hexmask.long.word 0x14 21.--31. 1. "RESERVED88," bitfld.long 0x14 20. "BUSY,Status: logical OR of DIVBUSY ADJBUSY" "0,1" bitfld.long 0x14 19. "DIVBUSY,Status: divide ratio change in progress?" "0,1" bitfld.long 0x14 18. "ADJBUSY,Status: one-shot adjustment in progress?" "0,1" bitfld.long 0x14 16.--17. "HCLKRADJ,HCLKRDIV one-shot adjustment" "0,1,2,3" bitfld.long 0x14 15. "HCLKRM,Receive high-frequency clock source bit." "0,1" newline bitfld.long 0x14 14. "HCLKRP,Receive bitstream high-frequency clock polarity select bit." "0,1" rbitfld.long 0x14 12.--13. "RESERVED87," "0,1,2,3" hexmask.long.word 0x14 0.--11. 1. "HCLKRDIV,Receive high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to AHCLKR." line.long 0x18 "CFG_RTDM,The receive TDM time slot register (RTDM) specifies which TDM time slot the receiver is active." hexmask.long 0x18 0.--31. 1. "RTDMS,Receiver mode during TDM time slot n." line.long 0x1C "CFG_RINTCTL,The receiver interrupt control register (RINTCTL) controls generation of the McASP receive interrupt (RINT). When the register bit(s) is set to 1. the occurrence of the enabled McASP condition(s) generates RINT. See the RSTAT register for a.." hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED90," bitfld.long 0x1C 7. "RSTAFRM,Receive start of frame interrupt enable bit." "0,1" rbitfld.long 0x1C 6. "RESERVED89," "0,1" bitfld.long 0x1C 5. "RDATA,Receive data ready interrupt enable bit." "0,1" bitfld.long 0x1C 4. "RLAST,Receive last slot interrupt enable bit." "0,1" bitfld.long 0x1C 3. "RDMAERR,Receive DMA error interrupt enable bit." "0,1" newline bitfld.long 0x1C 2. "RCKFAIL,Receive clock failure interrupt enable bit." "0,1" bitfld.long 0x1C 1. "RSYNCERR,Unexpected receive frame sync interrupt enable bit." "0,1" bitfld.long 0x1C 0. "ROVRN,Receiver overrun interrupt enable bit." "0,1" line.long 0x20 "CFG_RSTAT,The receiver status register (RSTAT) provides the receiver status and receive TDM time slot number. 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.." hexmask.long.tbyte 0x20 9.--31. 1. "RESERVED91," bitfld.long 0x20 8. "RERR,RERR bit always returns a logic-OR of: ROVRN OR RSYNCERR OR RCKFAIL OR RDMAERR. Allows a single bit to be checked to determine if a receiver error interrupt has occurred." "0,1" bitfld.long 0x20 7. "RDMAERR,Receive DMA error flag. RDMAERR is set when the CPU or DMA reads more serializers through the data port in a given time slot than were programmed as receivers. Causes a receive interrupt [RINT] if this bit is set and RDMAERR in RINTCTL is set." "0,1" bitfld.long 0x20 6. "RSTAFRM,Receive start of frame flag. Causes a receive interrupt [RINT] if this bit is set and RSTAFRM in RINTCTL is set. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect." "0,1" bitfld.long 0x20 5. "RDATA,Receive data ready flag. Causes a receive interrupt [RINT] if this bit is set and RDATA in RINTCTL is set. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect." "0,1" bitfld.long 0x20 4. "RLAST,Receive last slot flag. RLAST is set along with RDATA if the current slot is the last slot in a frame. Causes a receive interrupt [RINT] if this bit is set and RLAST in RINTCTL is set. This bit is cleared by writing a 1 to this bit. Writing a 0.." "0,1" newline rbitfld.long 0x20 3. "RTDMSLOT,Returns the LSB of RSLOT. Allows a single read of RSTAT to determine whether the current TDM time slot is even or odd." "0,1" bitfld.long 0x20 2. "RCKFAIL,Receive clock failure flag. RCKFAIL is set when the receive clock failure detection circuit reports an error. Causes a receive interrupt [RINT] if this bit is set and RCKFAIL in RINTCTL is set. This bit is cleared by writing a 1 to this bit." "0,1" bitfld.long 0x20 1. "RSYNCERR,Unexpected receive frame sync flag. RSYNCERR is set when a new receive frame sync [AFSR] occurs before it is expected. Causes a receive interrupt [RINT] if this bit is set and RSYNCERR in RINTCTL is set. This bit is cleared by writing a 1 to.." "0,1" bitfld.long 0x20 0. "ROVRN,Receiver overrun flag. ROVRN is set when the receive serializer is instructed to transfer data from XRSR to RBUF but the former data in RBUF has not yet been read by the CPU or DMA. Causes a receive interrupt [RINT] if this bit is set and ROVRN.." "0,1" rgroup.long 0x84++0x3 line.long 0x0 "CFG_RSLOT,The current receive TDM time slot register (RSLOT) indicates the current time slot for the receive data frame." hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED92," hexmask.long.word 0x0 0.--8. 1. "RSLOTCNT,0-17Fh = Current receive time slot count. Legal values: 0 to 383 [17Fh]. TDM function is not supported for > 32 time slots. However TDM time slot counter may count to 383 when used to receive a DIR block [transferred over TDM format]." group.long 0x88++0x7 line.long 0x0 "CFG_RCLKCHK,The receive clock check control register (RCLKCHK) configures the receive clock failure detection circuit." hexmask.long.byte 0x0 24.--31. 1. "RCNT,Receive clock count value [from previous measurement]. The clock circuit continually counts the number of system clocks for every 32 receive high-frequency controller clock [AHCLKR] signals and stores the count in RCNT until the next measurement is.." hexmask.long.byte 0x0 16.--23. 1. "RMAX,Receive clock maximum boundary. This 8 bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 receive high-frequency controller clock [AHCLKR] signals have been received. If the current counter value is greater.." hexmask.long.byte 0x0 8.--15. 1. "RMIN,Receive clock minimum boundary. This 8 bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 receive high-frequency controller clock [AHCLKR] signals have been received. If RCNT is less than RMIN after counting 32.." hexmask.long.byte 0x0 4.--7. 1. "RESERVED93," hexmask.long.byte 0x0 0.--3. 1. "RPS,Receive clock check prescaler value." line.long 0x4 "CFG_PIDTCTL,The receiver DMA event control register (PIDTCTL) contains a disable bit for the receiver DMA event. Note for device-specific registers: Accessing PIDTCTL not implemented on a specific device may cause improper operation." hexmask.long 0x4 1.--31. 1. "RESERVED94," bitfld.long 0x4 0. "RDATDMA,Receive data DMA request enable bit. If writing to this bit always write the default value of 0." "0,1" group.long 0xA0++0x23 line.long 0x0 "CFG_XGBLCTL,Alias of the global control register (GBLCTL). Writing to the transmitter global control register (XGBLCTL) affects only the transmit bits of GBLCTL (bits 12-8). Reads from XGBLCTL return the value of GBLCTL. XGBLCTL allows the transmitter to.." hexmask.long.tbyte 0x0 13.--31. 1. "RESERVED96," bitfld.long 0x0 12. "XFRST,Transmit frame sync generator reset enable bit. A write to this bit affects the XFRST bit of GBLCTL." "0,1" bitfld.long 0x0 11. "XSMRST,Transmit state machine reset enable bit. A write to this bit affects the XSMRST bit of GBLCTL." "0,1" bitfld.long 0x0 10. "XSRCLR,Transmit serializer clear enable bit. A write to this bit affects the XSRCLR bit of GBLCTL." "0,1" bitfld.long 0x0 9. "XHCLKRST,Transmit high-frequency clock divider reset enable bit. A write to this bit affects the XHCLKRST bit of GBLCTL." "0,1" bitfld.long 0x0 8. "XCLKRST,Transmit clock divider reset enable bit. A write to this bit affects the XCLKRST bit of GBLCTL." "0,1" newline rbitfld.long 0x0 5.--7. "RESERVED95," "0,1,2,3,4,5,6,7" rbitfld.long 0x0 4. "RFRST,Receive frame sync generator reset enable bit. A read of this bit returns the RFRST bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 3. "RSMRST,Receive state machine reset enable bit. A read of this bit returns the RSMRST bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 2. "RSRCLR,Receive serializer clear enable bit. A read of this bit returns the RSRSCLR bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 1. "RHCLKRST,Receive high-frequency clock divider reset enable bit. A read of this bit returns the RHCLKRST bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 0. "RCLKRST,Receive clock divider reset enable bit. A read of this bit returns the RCLKRST bit value of GBLCTL. Writes have no effect." "0,1" line.long 0x4 "CFG_XMASK,The transmit format unit bit mask register (XMASK) determines which bits of the transmitted data are masked off and padded with a known value before being shifted out the McASP." hexmask.long 0x4 0.--31. 1. "XMASK,Transmit data mask n enable bit." line.long 0x8 "CFG_XFMT,The transmit bit stream format register (XFMT) configures the transmit data format." hexmask.long.word 0x8 18.--31. 1. "RESERVED97," bitfld.long 0x8 16.--17. "XDATDLY,Transmit sync bit delay." "0,1,2,3" bitfld.long 0x8 15. "XRVRS,Transmit serial bitstream order." "0,1" bitfld.long 0x8 13.--14. "XPAD,Pad value for extra bits in slot not belonging to word defined by XMASK. This field only applies to bits when XMASK[n] = 0." "0,1,2,3" hexmask.long.byte 0x8 8.--12. 1. "XPBIT,XPBIT value determines which bit [as written by the CPU or DMA to XBUF[n]] is used to pad the extra bits before shifting. This field only applies when XPAD = 2h." hexmask.long.byte 0x8 4.--7. 1. "XSSZ,Transmit slot size." newline bitfld.long 0x8 3. "XBUSEL,Selects whether writes to serializer buffer XRBUF[n] originate from the configuration bus [CFG] or the data [DAT] port." "0,1" bitfld.long 0x8 0.--2. "XROT,Right-rotation value for transmit rotate right format unit." "0,1,2,3,4,5,6,7" line.long 0xC "CFG_AFSXCTL,The transmit frame sync control register (AFSXCTL) configures the transmit frame sync (AFSX)." hexmask.long.word 0xC 16.--31. 1. "RESERVED100," hexmask.long.word 0xC 7.--15. 1. "XMOD,Transmit frame sync mode select bits. 1FFh = Reserved from 181h to 1FFh." rbitfld.long 0xC 5.--6. "RESERVED99," "0,1,2,3" bitfld.long 0xC 4. "FXWID,Transmit frame sync width select bit indicates the width of the transmit frame sync [AFSX] during its active period." "0,1" rbitfld.long 0xC 2.--3. "RESERVED98," "0,1,2,3" bitfld.long 0xC 1. "FSXM,Transmit frame sync generation select bit." "0,1" newline bitfld.long 0xC 0. "FSXP,Transmit frame sync polarity select bit." "0,1" line.long 0x10 "CFG_ACLKXCTL,The transmit clock control register (ACLKXCTL) configures the transmit bit clock (ACLKX) and the transmit clock generator." hexmask.long.word 0x10 21.--31. 1. "RESERVED102," bitfld.long 0x10 20. "BUSY,Status: logical OR of DIVBUSY ADJBUSY" "0,1" bitfld.long 0x10 19. "DIVBUSY,Status: divide ratio change in progress" "0,1" bitfld.long 0x10 18. "ADJBUSY,Status: one-shot adjustment in progress" "0,1" bitfld.long 0x10 16.--17. "CLKXADJ,CLKXDIV one-shot adjustment" "0,1,2,3" hexmask.long.byte 0x10 8.--15. 1. "RESERVED101," newline bitfld.long 0x10 7. "CLKXP,Transmit bitstream clock polarity select bit." "0,1" bitfld.long 0x10 6. "ASYNC,Transmit/receive operation asynchronous enable bit." "0,1" bitfld.long 0x10 5. "CLKXM,Transmit bit clock source bit." "0,1" hexmask.long.byte 0x10 0.--4. 1. "CLKXDIV,Transmit bit clock divide ratio bits determine the divide-down ratio from AHCLKX to ACLKX." line.long 0x14 "CFG_AHCLKXCTL,The transmit high-frequency clock control register (AHCLKXCTL) configures the transmit high-frequency controller clock (AHCLKX) and the transmit clock generator." hexmask.long.word 0x14 21.--31. 1. "RESERVED104," bitfld.long 0x14 20. "BUSY,Status: logical OR of DIVBUSY ADJBUSY" "0,1" bitfld.long 0x14 19. "DIVBUSY,Status: divide ratio change in progress?" "0,1" bitfld.long 0x14 18. "ADJBUSY,Status: one-shot adjustment in progress?" "0,1" bitfld.long 0x14 16.--17. "HCLKXADJ,HCLKXDIV one-shot adjustment" "0,1,2,3" bitfld.long 0x14 15. "HCLKXM,Transmit high-frequency clock source bit." "0,1" newline bitfld.long 0x14 14. "HCLKXP,Transmit bitstream high-frequency clock polarity select bit." "0,1" rbitfld.long 0x14 12.--13. "RESERVED103," "0,1,2,3" hexmask.long.word 0x14 0.--11. 1. "HCLKXDIV,Transmit high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to AHCLKX." line.long 0x18 "CFG_XTDM,The transmit TDM time slot register (XTDM) specifies in which TDM time slot the transmitter is active. TDM time slot counter range is extended to 384 slots (to support SPDIF blocks of 384 subframes). XTDM operates modulo 32. that is. XTDMS.." hexmask.long 0x18 0.--31. 1. "XTDMS,Transmitter mode during TDM time slot n." line.long 0x1C "CFG_XINTCTL,The transmitter interrupt control register (XINTCTL) controls generation of the McASP transmit interrupt (XINT). When the register bit(s) is set to 1. the occurrence of the enabled McASP condition(s) generates XINT. See the XSTAT register for.." hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED106," bitfld.long 0x1C 7. "XSTAFRM,Transmit start of frame interrupt enable bit." "0,1" rbitfld.long 0x1C 6. "RESERVED105," "0,1" bitfld.long 0x1C 5. "XDATA,Transmit data ready interrupt enable bit." "0,1" bitfld.long 0x1C 4. "XLAST,Transmit last slot interrupt enable bit." "0,1" bitfld.long 0x1C 3. "XDMAERR,Transmit DMA error interrupt enable bit." "0,1" newline bitfld.long 0x1C 2. "XCKFAIL,Transmit clock failure interrupt enable bit." "0,1" bitfld.long 0x1C 1. "XSYNCERR,Unexpected transmit frame sync interrupt enable bit." "0,1" bitfld.long 0x1C 0. "XUNDRN,Transmitter underrun interrupt enable bit." "0,1" line.long 0x20 "CFG_XSTAT,The transmitter status register (XSTAT) provides the transmitter status and transmit TDM time slot number. 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.." hexmask.long.tbyte 0x20 9.--31. 1. "RESERVED107," bitfld.long 0x20 8. "XERR,XERR bit always returns a logic-OR of: XUNDRN OR XSYNCERR OR XCKFAIL OR XDMAERR. Allows a single bit to be checked to determine if a transmitter error interrupt has occurred." "0,1" bitfld.long 0x20 7. "XDMAERR,Transmit DMA error flag. XDMAERR is set when the CPU or DMA writes more serializers through the data port in a given time slot than were programmed as transmitters. Causes a transmit interrupt [XINT] if this bit is set and XDMAERR in XINTCTL is.." "0,1" bitfld.long 0x20 6. "XSTAFRM,Transmit start of frame flag. Causes a transmit interrupt [XINT] if this bit is set and XSTAFRM in XINTCTL is set. This bit is cleared by writing a 1 to this bit. Writing a 0 has no effect." "0,1" bitfld.long 0x20 5. "XDATA,Transmit data ready flag. Causes a transmit interrupt [XINT] if this bit is set and XDATA in XINTCTL is set. This bit is cleared by writing a 1 to this bit. Writing a 0 has no effect." "0,1" bitfld.long 0x20 4. "XLAST,Transmit last slot flag. XLAST is set along with XDATA if the current slot is the last slot in a frame. Causes a transmit interrupt [XINT] if this bit is set and XLAST in XINTCTL is set. This bit is cleared by writing a 1 to this bit. Writing a 0.." "0,1" newline rbitfld.long 0x20 3. "XTDMSLOT,Returns the LSB of XSLOT. Allows a single read of XSTAT to determine whether the current TDM time slot is even or odd." "0,1" bitfld.long 0x20 2. "XCKFAIL,Transmit clock failure flag. XCKFAIL is set when the transmit clock failure detection circuit reports an error. Causes a transmit interrupt [XINT] if this bit is set and XCKFAIL in XINTCTL is set. This bit is cleared by writing a 1 to this bit." "0,1" bitfld.long 0x20 1. "XSYNCERR,Unexpected transmit frame sync flag. XSYNCERR is set when a new transmit frame sync [AFSX] occurs before it is expected. Causes a transmit interrupt [XINT] if this bit is set and XSYNCERR in XINTCTL is set. This bit is cleared by writing a 1 to.." "0,1" bitfld.long 0x20 0. "XUNDRN,Transmitter underrun flag. XUNDRN is set when the transmit serializer is instructed to transfer data from XBUF to XRSR but XBUF has not yet been serviced with new data since the last transfer. Causes a transmit interrupt [XINT] if this bit is.." "0,1" rgroup.long 0xC4++0x3 line.long 0x0 "CFG_XSLOT,The current transmit TDM time slot register (XSLOT) indicates the current time slot for the transmit data frame." hexmask.long.tbyte 0x0 10.--31. 1. "RESERVED108," hexmask.long.word 0x0 0.--9. 1. "XSLOTCNT,Current transmit time slot count. Legal values: 0 to 383 [17Fh]. During reset this counter value is 383 so the next count value which is used to encode the first DIT group of data will be 0 and encodes the B preamble. TDM function is not.." group.long 0xC8++0x7 line.long 0x0 "CFG_XCLKCHK,The transmit clock check control register (XCLKCHK) configures the transmit clock failure detection circuit." hexmask.long.byte 0x0 24.--31. 1. "XCNT,Transmit clock count value [from previous measurement]. The clock circuit continually counts the number of system clocks for every 32 transmit high-frequency controller clock [AHCLKX] signals and stores the count in XCNT until the next measurement.." hexmask.long.byte 0x0 16.--23. 1. "XMAX,Transmit clock maximum boundary. This 8 bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 transmit high-frequency controller clock [AHCLKX] signals have been received. If the current counter value is greater.." hexmask.long.byte 0x0 8.--15. 1. "XMIN,Transmit clock minimum boundary. This 8 bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 transmit high-frequency controller clock [AHCLKX] signals have been received. If XCNT is less than XMIN after counting.." hexmask.long.byte 0x0 4.--7. 1. "RESERVED109," hexmask.long.byte 0x0 0.--3. 1. "XPS,Transmit clock check prescaler value. Fh = Reserved from 9h to Fh." line.long 0x4 "CFG_XEVTCTL,The transmitter DMA event control register (XEVTCTL) contains a disable bit for the transmit DMA event. Note for device-specific registers: Accessing XEVTCTL not implemented on a specific device may cause improper device operation." hexmask.long 0x4 1.--31. 1. "RESERVED110," bitfld.long 0x4 0. "XDATDMA,Transmit data DMA request enable bit. If writing to this bit always write the default value of 0." "0,1" group.long 0x100++0x5F line.long 0x0 "CFG_DITCSRA0,The DIT left channel status registers (DITCSRA0) provide the status of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x0 0.--31. 1. "DITCSRA,DIT left channel status registers." line.long 0x4 "CFG_DITCSRA1,The DIT left channel status registers (DITCSRA) provide the status of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x4 0.--31. 1. "DITCSRA,DIT left channel status registers." line.long 0x8 "CFG_DITCSRA2,The DIT left channel status registers (DITCSRA) provide the status of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x8 0.--31. 1. "DITCSRA,DIT left channel status registers." line.long 0xC "CFG_DITCSRA3,The DIT left channel status registers (DITCSRA) provide the status of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the.." hexmask.long 0xC 0.--31. 1. "DITCSRA,DIT left channel status registers." line.long 0x10 "CFG_DITCSRA4,The DIT left channel status registers (DITCSRA) provide the status of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x10 0.--31. 1. "DITCSRA,DIT left channel status registers." line.long 0x14 "CFG_DITCSRA5,The DIT left channel status registers (DITCSRA) provide the status of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x14 0.--31. 1. "DITCSRA,DIT left channel status registers." line.long 0x18 "CFG_DITCSRB0,The DIT right channel status registers (DITCSRB0) provide the status of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x18 0.--31. 1. "DITCSRB,DIT right channel status registers." line.long 0x1C "CFG_DITCSRB1,The DIT right channel status registers (DITCSRB0) provide the status of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x1C 0.--31. 1. "DITCSRB,DIT right channel status registers." line.long 0x20 "CFG_DITCSRB2,The DIT right channel status registers (DITCSRB0) provide the status of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x20 0.--31. 1. "DITCSRB,DIT right channel status registers." line.long 0x24 "CFG_DITCSRB3,The DIT right channel status registers (DITCSRB0) provide the status of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x24 0.--31. 1. "DITCSRB,DIT right channel status registers." line.long 0x28 "CFG_DITCSRB4,The DIT right channel status registers (DITCSRB0) provide the status of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x28 0.--31. 1. "DITCSRB,DIT right channel status registers." line.long 0x2C "CFG_DITCSRB5,The DIT right channel status registers (DITCSRB0) provide the status of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x2C 0.--31. 1. "DITCSRB,DIT right channel status registers." line.long 0x30 "CFG_DITUDRA0,The DIT left channel user data registers (DITUDRA0) provides the user data of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x30 0.--31. 1. "DITUDRA,DIT left channel user data registers." line.long 0x34 "CFG_DITUDRA1,The DIT left channel user data registers (DITUDRA0) provides the user data of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x34 0.--31. 1. "DITUDRA,DIT left channel user data registers." line.long 0x38 "CFG_DITUDRA2,The DIT left channel user data registers (DITUDRA0) provides the user data of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x38 0.--31. 1. "DITUDRA,DIT left channel user data registers." line.long 0x3C "CFG_DITUDRA3,The DIT left channel user data registers (DITUDRA0) provides the user data of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x3C 0.--31. 1. "DITUDRA,DIT left channel user data registers." line.long 0x40 "CFG_DITUDRA4,The DIT left channel user data registers (DITUDRA0) provides the user data of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x40 0.--31. 1. "DITUDRA,DIT left channel user data registers." line.long 0x44 "CFG_DITUDRA5,The DIT left channel user data registers (DITUDRA0) provides the user data of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x44 0.--31. 1. "DITUDRA,DIT left channel user data registers." line.long 0x48 "CFG_DITUDRB0,The DIT right channel user data registers (DITUDRB0) provides the user data of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x48 0.--31. 1. "DITUDRB,DIT right channel user data registers." line.long 0x4C "CFG_DITUDRB1,The DIT right channel user data registers (DITUDRB0) provides the user data of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x4C 0.--31. 1. "DITUDRB,DIT right channel user data registers." line.long 0x50 "CFG_DITUDRB2,The DIT right channel user data registers (DITUDRB0) provides the user data of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x50 0.--31. 1. "DITUDRB,DIT right channel user data registers." line.long 0x54 "CFG_DITUDRB3,The DIT right channel user data registers (DITUDRB0) provides the user data of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x54 0.--31. 1. "DITUDRB,DIT right channel user data registers." line.long 0x58 "CFG_DITUDRB4,The DIT right channel user data registers (DITUDRB0) provides the user data of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x58 0.--31. 1. "DITUDRB,DIT right channel user data registers." line.long 0x5C "CFG_DITUDRB5,The DIT right channel user data registers (DITUDRB0) provides the user data of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x5C 0.--31. 1. "DITUDRB,DIT right channel user data registers." group.long 0x180++0x3F line.long 0x0 "CFG_SRCTL0,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x0 6.--31. 1. "RESERVED111," rbitfld.long 0x0 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x0 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x0 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x0 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x4 "CFG_SRCTL1,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x4 6.--31. 1. "RESERVED112," rbitfld.long 0x4 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x4 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x4 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x4 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x8 "CFG_SRCTL2,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x8 6.--31. 1. "RESERVED113," rbitfld.long 0x8 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x8 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x8 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x8 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0xC "CFG_SRCTL3,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0xC 6.--31. 1. "RESERVED114," rbitfld.long 0xC 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0xC 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0xC 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0xC 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x10 "CFG_SRCTL4,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x10 6.--31. 1. "RESERVED115," rbitfld.long 0x10 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x10 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x10 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x10 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x14 "CFG_SRCTL5,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x14 6.--31. 1. "RESERVED116," rbitfld.long 0x14 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x14 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x14 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x14 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x18 "CFG_SRCTL6,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x18 6.--31. 1. "RESERVED117," rbitfld.long 0x18 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x18 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x18 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x18 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x1C "CFG_SRCTL7,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x1C 6.--31. 1. "RESERVED118," rbitfld.long 0x1C 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x1C 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x1C 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x1C 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x20 "CFG_SRCTL8,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x20 6.--31. 1. "RESERVED119," rbitfld.long 0x20 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x20 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x20 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x20 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x24 "CFG_SRCTL9,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x24 6.--31. 1. "RESERVED120," rbitfld.long 0x24 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x24 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x24 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x24 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x28 "CFG_SRCTL10,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x28 6.--31. 1. "RESERVED121," rbitfld.long 0x28 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x28 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x28 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x28 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x2C "CFG_SRCTL11,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x2C 6.--31. 1. "RESERVED122," rbitfld.long 0x2C 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x2C 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x2C 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x2C 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x30 "CFG_SRCTL12,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x30 6.--31. 1. "RESERVED123," rbitfld.long 0x30 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x30 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x30 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x30 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x34 "CFG_SRCTL13,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x34 6.--31. 1. "RESERVED124," rbitfld.long 0x34 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x34 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x34 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x34 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x38 "CFG_SRCTL14,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x38 6.--31. 1. "RESERVED125," rbitfld.long 0x38 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x38 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x38 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x38 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x3C "CFG_SRCTL15,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x3C 6.--31. 1. "RESERVED126," rbitfld.long 0x3C 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x3C 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x3C 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x3C 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" group.long 0x200++0x3F line.long 0x0 "CFG_XBUF0,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x0 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x4 "CFG_XBUF1,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x4 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x8 "CFG_XBUF2,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x8 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0xC "CFG_XBUF3,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0xC 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x10 "CFG_XBUF4,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x10 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x14 "CFG_XBUF5,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x14 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x18 "CFG_XBUF6,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x18 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x1C "CFG_XBUF7,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x1C 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x20 "CFG_XBUF8,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x20 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x24 "CFG_XBUF9,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x24 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x28 "CFG_XBUF10,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x28 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x2C "CFG_XBUF11,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x2C 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x30 "CFG_XBUF12,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x30 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x34 "CFG_XBUF13,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x34 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x38 "CFG_XBUF14,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x38 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x3C "CFG_XBUF15,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x3C 0.--31. 1. "XBUF,Transmit buffers for serializers." group.long 0x280++0x3F line.long 0x0 "CFG_RBUF0,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x0 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x4 "CFG_RBUF1,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x4 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x8 "CFG_RBUF2,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x8 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0xC "CFG_RBUF3,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0xC 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x10 "CFG_RBUF4,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x10 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x14 "CFG_RBUF5,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x14 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x18 "CFG_RBUF6,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x18 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x1C "CFG_RBUF7,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x1C 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x20 "CFG_RBUF8,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x20 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x24 "CFG_RBUF9,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x24 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x28 "CFG_RBUF10,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x28 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x2C "CFG_RBUF11,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x2C 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x30 "CFG_RBUF12,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x30 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x34 "CFG_RBUF13,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x34 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x38 "CFG_RBUF14,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x38 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x3C "CFG_RBUF15,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x3C 0.--31. 1. "RBUF,Receive buffers for serializers." group.long 0x1000++0x3 line.long 0x0 "CFG_WFIFOCTL,The WNUMEVT and WNUMDMA values must be set prior to enabling the Write FIFO. If the Write FIFO is to be enabled. it must be enabled prior to taking the McASP out of reset" hexmask.long.word 0x0 17.--31. 1. "RESERVED127," bitfld.long 0x0 16. "WENA,Write FIFO enable bit." "0,1" hexmask.long.byte 0x0 8.--15. 1. "WNUMEVT,Write word count per DMA event [32 bit]. When the Write FIFO has space for at least WNUMEVT words of data then an AXEVT [transmit DMA event] is generated to the host/DMA controller. This value should be set to a non-zero integer multiple of the.." hexmask.long.byte 0x0 0.--7. 1. "WNUMDMA,Write word count per transfer [32 bit words]. Upon a transmit DMA event from the McASP WNUMDMA words are transferred from the Write FIFO to the McASP. This value must equal the number of McASP serializers used as transmitters. This value must be.." rgroup.long 0x1004++0x3 line.long 0x0 "CFG_WFIFOSTS," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED128," hexmask.long.byte 0x0 0.--7. 1. "WLVL,Write level [read-only]. Number of 32 bit words currently in the Write FIFO. 40h = 3 to 64 words currently in Write FIFO from 3h to 40h. FFh = Reserved from 41h to FFh." group.long 0x1008++0x3 line.long 0x0 "CFG_RFIFOCTL,The RNUMEVT and RNUMDMA values must be set prior to enabling the Read FIFO. If the Read FIFO is to be enabled. it must be enabled prior to taking the McASP out of reset" hexmask.long.word 0x0 17.--31. 1. "RESERVED129," bitfld.long 0x0 16. "RENA,Read FIFO enable bit." "0,1" hexmask.long.byte 0x0 8.--15. 1. "RNUMEVT,Read word count per DMA event [32 bit]. When the Read FIFO contains at least RNUMEVT words of data then an AREVT [receive DMA event] is generated to the host/DMA controller. This value should be set to a non-zero integer multiple of the number.." hexmask.long.byte 0x0 0.--7. 1. "RNUMDMA,Read word count per transfer [32 bit words]. Upon a receive DMA event from the McASP the Read FIFO reads RNUMDMA words from the McASP. This value must equal the number of McASP serializers used as receivers. This value must be set prior to.." rgroup.long 0x100C++0x3 line.long 0x0 "CFG_RFIFOSTS," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED130," hexmask.long.byte 0x0 0.--7. 1. "RLVL,Read level [read-only]. Number of 32 bit words currently in the Read FIFO. 40h = 3 to 64 words currently in Read FIFO from 3h to 40h. FFh = Reserved from 41h to FFh." tree.end tree "MCASP1_CFG (MCASP1_CFG)" base ad:0x2B10000 rgroup.long 0x0++0x3 line.long 0x0 "CFG_PID,The revision identification register (PID) contains identification data for the peripheral." hexmask.long 0x0 0.--31. 1. "REV,Identifies revision of peripheral." group.long 0x4++0x3 line.long 0x0 "CFG_PWRIDLESYSCONFIG," hexmask.long 0x0 6.--31. 1. "RESERVED66," hexmask.long.byte 0x0 2.--5. 1. "OTHER,Reserved for future programming." bitfld.long 0x0 0.--1. "IDLEMODE,Power management Configuration of the local target state management mode. By definition target can handle read/write transaction as long as it is out of IDLE state." "0,1,2,3" group.long 0x10++0x13 line.long 0x0 "CFG_PFUNC,The pin function register (PFUNC) specifies the function of AXRn. ACLKX. AHCLKX. AFSX. ACLKR. AHCLKR. and AFSR pins as either a McASP pin or a general-purpose input/output (GPIO) pin. CAUTION: Writing a value other than 0 to reserved bits in.." bitfld.long 0x0 31. "AFSR,Determines if AFSR pin functions as McASP or GPIO." "0,1" bitfld.long 0x0 30. "AHCLKR,Determines if AHCLKR pin functions as McASP or GPIO." "0,1" bitfld.long 0x0 29. "ACLKR,Determines if ACLKR pin functions as McASP or GPIO." "0,1" bitfld.long 0x0 28. "AFSX,Determines if AFSX pin functions as McASP or GPIO." "0,1" bitfld.long 0x0 27. "AHCLKX,Determines if AHCLKX pin functions as McASP or GPIO." "0,1" bitfld.long 0x0 26. "ACLKX,Determines if ACLKX pin functions as McASP or GPIO." "0,1" newline bitfld.long 0x0 25. "AMUTE,Determines if AMUTE pin functions as McASP or GPIO." "0,1" hexmask.long.tbyte 0x0 4.--24. 1. "RESERVED67," hexmask.long.byte 0x0 0.--3. 1. "AXR,Determines if AXRn pin functions as McASP or GPIO." line.long 0x4 "CFG_PDIR,The pin direction register (PDIR) specifies the direction of AXRn. ACLKX. AHCLKX. AFSX. ACLKR. AHCLKR. and AFSR pins as either an input or an output pin. Regardless of the pin function register (PFUNC) setting. each PDIR bit must be set to 1 for.." bitfld.long 0x4 31. "AFSR,Determines if AFSR pin functions as an input or output." "0,1" bitfld.long 0x4 30. "AHCLKR,Determines if AHCLKR pin functions as an input or output." "0,1" bitfld.long 0x4 29. "ACLKR,Determines if ACLKR pin functions as an input or output." "0,1" bitfld.long 0x4 28. "AFSX,Determines if AFSX pin functions as an input or output." "0,1" bitfld.long 0x4 27. "AHCLKX,Determines if AHCLKX pin functions as an input or output." "0,1" bitfld.long 0x4 26. "ACLKX,Determines if ACLKX pin functions as an input or output." "0,1" newline bitfld.long 0x4 25. "AMUTE,Determines if AMUTE pin functions as an input or output." "0,1" hexmask.long.tbyte 0x4 4.--24. 1. "RESERVED68," hexmask.long.byte 0x4 0.--3. 1. "AXR,Determines if AXRn pin functions as an input or output." line.long 0x8 "CFG_PDOUT,The pin data output register (PDOUT) holds a value for data out at all times. and may be read back at all times. The value held by PDOUT is not affected by writing to PDIR and PFUNC. However. the data value in PDOUT is driven out onto the McASP.." bitfld.long 0x8 31. "AFSR,Determines drive on AFSR output pin when the corresponding PFUNC[31] and PDIR[31] bits are set to 1." "0,1" bitfld.long 0x8 30. "AHCLKR,Determines drive on AHCLKR output pin when the corresponding PFUNC[30] and PDIR[30] bits are set to 1." "0,1" bitfld.long 0x8 29. "ACLKR,Determines drive on ACLKR output pin when the corresponding PFUNC[29] and PDIR[29] bits are set to 1." "0,1" bitfld.long 0x8 28. "AFSX,Determines drive on AFSX output pin when the corresponding PFUNC[28] and PDIR[28] bits are set to 1." "0,1" bitfld.long 0x8 27. "AHCLKX,Determines drive on AHCLKX output pin when the corresponding PFUNC[27] and PDIR[27] bits are set to 1." "0,1" bitfld.long 0x8 26. "ACLKX,Determines drive on ACLKX output pin when the corresponding PFUNC[26] and PDIR[26] bits are set to 1." "0,1" newline bitfld.long 0x8 25. "AMUTE,Determines drive on AMUTE output pin when the corresponding PFUNC[25] and PDIR[25] bits are set to 1." "0,1" hexmask.long.tbyte 0x8 4.--24. 1. "RESERVED69," hexmask.long.byte 0x8 0.--3. 1. "AXR,Determines drive on AXR[n] output pin when the corresponding PFUNC[n] and PDIR[n] bits are set to 1." line.long 0xC "CFG_PDIN,The pin data input register (PDIN) holds the I/O pin state of each of the McASP pins. PDIN allows the actual value of the pin to be read. regardless of the state of PFUNC and PDIR. The value after reset for registers 1 through 15 and 24 through.." bitfld.long 0xC 31. "AFSR,Logic level on AFSR pin." "0,1" bitfld.long 0xC 30. "AHCLKR,Logic level on AHCLKR pin." "0,1" bitfld.long 0xC 29. "ACLKR,Logic level on ACLKR pin." "0,1" bitfld.long 0xC 28. "AFSX,Logic level on AFSX pin." "0,1" bitfld.long 0xC 27. "AHCLKX,Logic level on AHCLKX pin." "0,1" bitfld.long 0xC 26. "ACLKX,Logic level on ACLKX pin." "0,1" newline bitfld.long 0xC 25. "AMUTE,Logic level on AMUTE pin." "0,1" hexmask.long.tbyte 0xC 4.--24. 1. "RESERVED70," hexmask.long.byte 0xC 0.--3. 1. "AXR,Logic level on AXR[n] pin." line.long 0x10 "CFG_PDCLR,The pin data clear register (PDCLR) is an alias of the pin data output register (PDOUT) for writes only. Writing a 1 to the PDCLR bit clears the corresponding bit in PDOUT and. if PFUNC = 1 (GPIO function) and PDIR = 1 (output). drives a logic.." bitfld.long 0x10 31. "AFSR,Allows the corresponding AFSR bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" bitfld.long 0x10 30. "AHCLKR,Allows the corresponding AHCLKR bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" bitfld.long 0x10 29. "ACLKR,Allows the corresponding ACLKR bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" bitfld.long 0x10 28. "AFSX,Allows the corresponding AFSX bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" bitfld.long 0x10 27. "AHCLKX,Allows the corresponding AHCLKX bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" bitfld.long 0x10 26. "ACLKX,Allows the corresponding ACLKX bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" newline bitfld.long 0x10 25. "AMUTE,Allows the corresponding AMUTE bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" hexmask.long.tbyte 0x10 4.--24. 1. "RESERVED71," hexmask.long.byte 0x10 0.--3. 1. "AXR,Allows the corresponding AXR[n] bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." group.long 0x44++0xF line.long 0x0 "CFG_GBLCTL,The global control register (GBLCTL) provides initialization of the transmit and receive sections. The bit fields in GBLCTL are synchronized and latched by the corresponding clocks (ACLKX for bits 12-8 and ACLKR for bits 4-0). Before GBLCTL is.." hexmask.long.tbyte 0x0 13.--31. 1. "RESERVED73," bitfld.long 0x0 12. "XFRST,Transmit frame sync generator reset enable bit." "0,1" bitfld.long 0x0 11. "XSMRST,Transmit state machine reset enable bit." "0,1" bitfld.long 0x0 10. "XSRCLR,Transmit serializer clear enable bit. By clearing then setting this bit the transmit buffer is flushed to an empty state [XDATA = 1]. If XSMRST = 1 XSRCLR = 1 XDATA = 1 and XBUF is not loaded with new data before the start of the next active.." "0,1" bitfld.long 0x0 9. "XHCLKRST,Transmit high-frequency clock divider reset enable bit." "0,1" bitfld.long 0x0 8. "XCLKRST,Transmit clock divider reset enable bit." "0,1" newline rbitfld.long 0x0 5.--7. "RESERVED72," "0,1,2,3,4,5,6,7" bitfld.long 0x0 4. "RFRST,Receive frame sync generator reset enable bit." "0,1" bitfld.long 0x0 3. "RSMRST,Receive state machine reset enable bit." "0,1" bitfld.long 0x0 2. "RSRCLR,Receive serializer clear enable bit. By clearing then setting this bit the receive buffer is flushed." "0,1" bitfld.long 0x0 1. "RHCLKRST,Receive high-frequency clock divider reset enable bit." "0,1" bitfld.long 0x0 0. "RCLKRST,Receive high-frequency clock divider reset enable bit." "0,1" line.long 0x4 "CFG_AMUTE,The audio mute control register (AMUTE) controls the McASP audio mute (AMUTE) output pin. The value after reset for register 4 depends on how the pins are being driven." hexmask.long.tbyte 0x4 13.--31. 1. "RESERVED74," bitfld.long 0x4 12. "XDMAERR,If transmit DMA error [XDMAERR] drive AMUTE active enable bit." "0,1" bitfld.long 0x4 11. "RDMAERR,If receive DMA error [RDMAERR] drive AMUTE active enable bit." "0,1" bitfld.long 0x4 10. "XCKFAIL,If transmit clock failure [XCKFAIL] drive AMUTE active enable bit." "0,1" bitfld.long 0x4 9. "RCKFAIL,If receive clock failure [RCKFAIL] drive AMUTE active enable bit." "0,1" bitfld.long 0x4 8. "XSYNCERR,If unexpected transmit frame sync error [XSYNCERR] drive AMUTE active enable bit." "0,1" newline bitfld.long 0x4 7. "RSYNCERR,If unexpected receive frame sync error [RSYNCERR] drive AMUTE active enable bit." "0,1" bitfld.long 0x4 6. "XUNDRN,If transmit underrun error [XUNDRN] drive AMUTE active enable bit." "0,1" bitfld.long 0x4 5. "ROVRN,If receiver overrun error [ROVRN] drive AMUTE active enable bit." "0,1" rbitfld.long 0x4 4. "INSTAT,Determines drive on AXRn pin when PFUNC[n] and PDIR[n] bits are set to 1." "0,1" bitfld.long 0x4 3. "INEN,Drive AMUTE active when AMUTEIN error is active [INSTAT = 1]." "0,1" bitfld.long 0x4 2. "INPOL,Audio mute in [AMUTEIN] polarity select bit." "0,1" newline bitfld.long 0x4 0.--1. "MUTEN,AMUTE pin enable bit [unless overridden by GPIO registers]." "0,1,2,3" line.long 0x8 "CFG_DLBCTL,The digital loopback control register (DLBCTL) controls the internal loopback settings of the McASP in TDM mode." hexmask.long 0x8 4.--31. 1. "RESERVED75," bitfld.long 0x8 2.--3. "MODE,Loopback generator mode bits. Applies only when loopback mode is enabled [DLBEN = 1]." "0,1,2,3" bitfld.long 0x8 1. "ORD,Loopback order bit when loopback mode is enabled [DLBEN = 1]." "0,1" bitfld.long 0x8 0. "DLBEN,Loopback mode enable bit." "0,1" line.long 0xC "CFG_DITCTL,The DIT mode control register (DITCTL) controls DIT operations of the McASP." hexmask.long 0xC 4.--31. 1. "RESERVED77," bitfld.long 0xC 3. "VB,Valid bit for odd time slots [DIT right subframe]." "0,1" bitfld.long 0xC 2. "VA,Valid bit for even time slots [DIT left subframe]." "0,1" rbitfld.long 0xC 1. "RESERVED76," "0,1" bitfld.long 0xC 0. "DITEN,DIT mode enable bit. DITEN should only be changed while the XSMRST bit in GBLCTL is in reset [and for startup XSRCLR also in reset]. However it is not necessary to reset the XCLKRST or XHCLKRST bits in GBLCTL to change DITEN." "0,1" group.long 0x60++0x23 line.long 0x0 "CFG_RGBLCTL,Alias of the global control register (GBLCTL). Writing to the receiver global control register (RGBLCTL) affects only the receive bits of GBLCTL (bits 4-0). Reads from RGBLCTL return the value of GBLCTL. RGBLCTL allows the receiver to be.." hexmask.long.tbyte 0x0 13.--31. 1. "RESERVED79," rbitfld.long 0x0 12. "XFRST,Transmit frame sync generator reset enable bit. A read of this bit returns the XFRST bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 11. "XSMRST,Transmit state machine reset enable bit. A read of this bit returns the XSMRST bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 10. "XSRCLR,Transmit serializer clear enable bit. A read of this bit returns the XSRCLR bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 9. "XHCLKRST,Transmit high-frequency clock divider reset enable bit. A read of this bit returns the XHCLKRST bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 8. "XCLKRST,Transmit clock divider reset enable bit. A read of this bit returns the XCLKRST bit value of GBLCTL. Writes have no effect." "0,1" newline rbitfld.long 0x0 5.--7. "RESERVED78," "0,1,2,3,4,5,6,7" bitfld.long 0x0 4. "RFRST,Receive frame sync generator reset enable bit. A write to this bit affects the RFRST bit of GBLCTL." "0,1" bitfld.long 0x0 3. "RSMRST,Receive state machine reset enable bit. A write to this bit affects the RSMRST bit of GBLCTL." "0,1" bitfld.long 0x0 2. "RSRCLR,Receive serializer clear enable bit. A write to this bit affects the RSRCLR bit of GBLCTL." "0,1" bitfld.long 0x0 1. "RHCLKRST,Receive high-frequency clock divider reset enable bit. A write to this bit affects the RHCLKRST bit of GBLCTL." "0,1" bitfld.long 0x0 0. "RCLKRST,Receive clock divider reset enable bit. A write to this bit affects the RCLKRST bit of GBLCTL." "0,1" line.long 0x4 "CFG_RMASK,The receive format unit bit mask register (RMASK) determines which bits of the received data are masked off and padded with a known value before being read by the CPU or DMA." hexmask.long 0x4 0.--31. 1. "RMASK,Receive data mask n enable bit." line.long 0x8 "CFG_RFMT,The receive bit stream format register (RFMT) configures the receive data format." hexmask.long.word 0x8 18.--31. 1. "RESERVED80," bitfld.long 0x8 16.--17. "RDATDLY,Receive bit delay." "0,1,2,3" bitfld.long 0x8 15. "RRVRS,Receive serial bitstream order." "0,1" bitfld.long 0x8 13.--14. "RPAD,Pad value for extra bits in slot not belonging to the word. This field only applies to bits when RMASK[n] = 0." "0,1,2,3" hexmask.long.byte 0x8 8.--12. 1. "RPBIT,RPBIT value determines which bit [as read by the CPU or DMA from RBUF[n]] is used to pad the extra bits. This field only applies when RPAD = 2h." hexmask.long.byte 0x8 4.--7. 1. "RSSZ,Receive slot size." newline bitfld.long 0x8 3. "RBUSEL,Selects whether reads from serializer buffer XRBUF[n] originate from the configuration bus [CFG] or the data [DAT] port." "0,1" bitfld.long 0x8 0.--2. "RROT,Right-rotation value for receive rotate right format unit." "0,1,2,3,4,5,6,7" line.long 0xC "CFG_AFSRCTL,The receive frame sync control register (AFSRCTL) configures the receive frame sync (AFSR)." hexmask.long.word 0xC 16.--31. 1. "RESERVED83," hexmask.long.word 0xC 7.--15. 1. "RMOD,Receive frame sync mode select bits. 1FFh = Reserved from 181h to 1FFh." rbitfld.long 0xC 5.--6. "RESERVED82," "0,1,2,3" bitfld.long 0xC 4. "FRWID,Receive frame sync width select bit indicates the width of the receive frame sync [AFSR] during its active period." "0,1" rbitfld.long 0xC 2.--3. "RESERVED81," "0,1,2,3" bitfld.long 0xC 1. "FSRM,Receive frame sync generation select bit." "0,1" newline bitfld.long 0xC 0. "FSRP,Receive frame sync polarity select bit." "0,1" line.long 0x10 "CFG_ACLKRCTL,The receive clock control register (ACLKRCTL) configures the receive bit clock (ACLKR) and the receive clock generator." hexmask.long.word 0x10 21.--31. 1. "RESERVED86," bitfld.long 0x10 20. "BUSY,Status: logical OR of DIVBUSY ADJBUSY" "0,1" bitfld.long 0x10 19. "DIVBUSY,Status: divide ratio change in progress" "0,1" bitfld.long 0x10 18. "ADJBUSY,Status: one-shot adjustment in progress" "0,1" bitfld.long 0x10 16.--17. "CLKRADJ,CLKRDIV one-shot adjustment" "0,1,2,3" hexmask.long.byte 0x10 8.--15. 1. "RESERVED85," newline bitfld.long 0x10 7. "CLKRP,Receive bitstream clock polarity select bit." "0,1" rbitfld.long 0x10 6. "RESERVED84," "0,1" bitfld.long 0x10 5. "CLKRM,Receive bit clock source bit. Note that this bit does not have any effect if ACLKXCTL.ASYNC = 0." "0,1" hexmask.long.byte 0x10 0.--4. 1. "CLKRDIV,Receive bit clock divide ratio bits determine the divide-down ratio from AHCLKR to ACLKR. Note that this bit does not have any effect if ACLKXCTL.ASYNC = 0." line.long 0x14 "CFG_AHCLKRCTL,The receive high-frequency clock control register (AHCLKRCTL) configures the receive high-frequency controller clock (AHCLKR) and the receive clock generator." hexmask.long.word 0x14 21.--31. 1. "RESERVED88," bitfld.long 0x14 20. "BUSY,Status: logical OR of DIVBUSY ADJBUSY" "0,1" bitfld.long 0x14 19. "DIVBUSY,Status: divide ratio change in progress?" "0,1" bitfld.long 0x14 18. "ADJBUSY,Status: one-shot adjustment in progress?" "0,1" bitfld.long 0x14 16.--17. "HCLKRADJ,HCLKRDIV one-shot adjustment" "0,1,2,3" bitfld.long 0x14 15. "HCLKRM,Receive high-frequency clock source bit." "0,1" newline bitfld.long 0x14 14. "HCLKRP,Receive bitstream high-frequency clock polarity select bit." "0,1" rbitfld.long 0x14 12.--13. "RESERVED87," "0,1,2,3" hexmask.long.word 0x14 0.--11. 1. "HCLKRDIV,Receive high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to AHCLKR." line.long 0x18 "CFG_RTDM,The receive TDM time slot register (RTDM) specifies which TDM time slot the receiver is active." hexmask.long 0x18 0.--31. 1. "RTDMS,Receiver mode during TDM time slot n." line.long 0x1C "CFG_RINTCTL,The receiver interrupt control register (RINTCTL) controls generation of the McASP receive interrupt (RINT). When the register bit(s) is set to 1. the occurrence of the enabled McASP condition(s) generates RINT. See the RSTAT register for a.." hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED90," bitfld.long 0x1C 7. "RSTAFRM,Receive start of frame interrupt enable bit." "0,1" rbitfld.long 0x1C 6. "RESERVED89," "0,1" bitfld.long 0x1C 5. "RDATA,Receive data ready interrupt enable bit." "0,1" bitfld.long 0x1C 4. "RLAST,Receive last slot interrupt enable bit." "0,1" bitfld.long 0x1C 3. "RDMAERR,Receive DMA error interrupt enable bit." "0,1" newline bitfld.long 0x1C 2. "RCKFAIL,Receive clock failure interrupt enable bit." "0,1" bitfld.long 0x1C 1. "RSYNCERR,Unexpected receive frame sync interrupt enable bit." "0,1" bitfld.long 0x1C 0. "ROVRN,Receiver overrun interrupt enable bit." "0,1" line.long 0x20 "CFG_RSTAT,The receiver status register (RSTAT) provides the receiver status and receive TDM time slot number. 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.." hexmask.long.tbyte 0x20 9.--31. 1. "RESERVED91," bitfld.long 0x20 8. "RERR,RERR bit always returns a logic-OR of: ROVRN OR RSYNCERR OR RCKFAIL OR RDMAERR. Allows a single bit to be checked to determine if a receiver error interrupt has occurred." "0,1" bitfld.long 0x20 7. "RDMAERR,Receive DMA error flag. RDMAERR is set when the CPU or DMA reads more serializers through the data port in a given time slot than were programmed as receivers. Causes a receive interrupt [RINT] if this bit is set and RDMAERR in RINTCTL is set." "0,1" bitfld.long 0x20 6. "RSTAFRM,Receive start of frame flag. Causes a receive interrupt [RINT] if this bit is set and RSTAFRM in RINTCTL is set. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect." "0,1" bitfld.long 0x20 5. "RDATA,Receive data ready flag. Causes a receive interrupt [RINT] if this bit is set and RDATA in RINTCTL is set. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect." "0,1" bitfld.long 0x20 4. "RLAST,Receive last slot flag. RLAST is set along with RDATA if the current slot is the last slot in a frame. Causes a receive interrupt [RINT] if this bit is set and RLAST in RINTCTL is set. This bit is cleared by writing a 1 to this bit. Writing a 0.." "0,1" newline rbitfld.long 0x20 3. "RTDMSLOT,Returns the LSB of RSLOT. Allows a single read of RSTAT to determine whether the current TDM time slot is even or odd." "0,1" bitfld.long 0x20 2. "RCKFAIL,Receive clock failure flag. RCKFAIL is set when the receive clock failure detection circuit reports an error. Causes a receive interrupt [RINT] if this bit is set and RCKFAIL in RINTCTL is set. This bit is cleared by writing a 1 to this bit." "0,1" bitfld.long 0x20 1. "RSYNCERR,Unexpected receive frame sync flag. RSYNCERR is set when a new receive frame sync [AFSR] occurs before it is expected. Causes a receive interrupt [RINT] if this bit is set and RSYNCERR in RINTCTL is set. This bit is cleared by writing a 1 to.." "0,1" bitfld.long 0x20 0. "ROVRN,Receiver overrun flag. ROVRN is set when the receive serializer is instructed to transfer data from XRSR to RBUF but the former data in RBUF has not yet been read by the CPU or DMA. Causes a receive interrupt [RINT] if this bit is set and ROVRN.." "0,1" rgroup.long 0x84++0x3 line.long 0x0 "CFG_RSLOT,The current receive TDM time slot register (RSLOT) indicates the current time slot for the receive data frame." hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED92," hexmask.long.word 0x0 0.--8. 1. "RSLOTCNT,0-17Fh = Current receive time slot count. Legal values: 0 to 383 [17Fh]. TDM function is not supported for > 32 time slots. However TDM time slot counter may count to 383 when used to receive a DIR block [transferred over TDM format]." group.long 0x88++0x7 line.long 0x0 "CFG_RCLKCHK,The receive clock check control register (RCLKCHK) configures the receive clock failure detection circuit." hexmask.long.byte 0x0 24.--31. 1. "RCNT,Receive clock count value [from previous measurement]. The clock circuit continually counts the number of system clocks for every 32 receive high-frequency controller clock [AHCLKR] signals and stores the count in RCNT until the next measurement is.." hexmask.long.byte 0x0 16.--23. 1. "RMAX,Receive clock maximum boundary. This 8 bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 receive high-frequency controller clock [AHCLKR] signals have been received. If the current counter value is greater.." hexmask.long.byte 0x0 8.--15. 1. "RMIN,Receive clock minimum boundary. This 8 bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 receive high-frequency controller clock [AHCLKR] signals have been received. If RCNT is less than RMIN after counting 32.." hexmask.long.byte 0x0 4.--7. 1. "RESERVED93," hexmask.long.byte 0x0 0.--3. 1. "RPS,Receive clock check prescaler value." line.long 0x4 "CFG_PIDTCTL,The receiver DMA event control register (PIDTCTL) contains a disable bit for the receiver DMA event. Note for device-specific registers: Accessing PIDTCTL not implemented on a specific device may cause improper operation." hexmask.long 0x4 1.--31. 1. "RESERVED94," bitfld.long 0x4 0. "RDATDMA,Receive data DMA request enable bit. If writing to this bit always write the default value of 0." "0,1" group.long 0xA0++0x23 line.long 0x0 "CFG_XGBLCTL,Alias of the global control register (GBLCTL). Writing to the transmitter global control register (XGBLCTL) affects only the transmit bits of GBLCTL (bits 12-8). Reads from XGBLCTL return the value of GBLCTL. XGBLCTL allows the transmitter to.." hexmask.long.tbyte 0x0 13.--31. 1. "RESERVED96," bitfld.long 0x0 12. "XFRST,Transmit frame sync generator reset enable bit. A write to this bit affects the XFRST bit of GBLCTL." "0,1" bitfld.long 0x0 11. "XSMRST,Transmit state machine reset enable bit. A write to this bit affects the XSMRST bit of GBLCTL." "0,1" bitfld.long 0x0 10. "XSRCLR,Transmit serializer clear enable bit. A write to this bit affects the XSRCLR bit of GBLCTL." "0,1" bitfld.long 0x0 9. "XHCLKRST,Transmit high-frequency clock divider reset enable bit. A write to this bit affects the XHCLKRST bit of GBLCTL." "0,1" bitfld.long 0x0 8. "XCLKRST,Transmit clock divider reset enable bit. A write to this bit affects the XCLKRST bit of GBLCTL." "0,1" newline rbitfld.long 0x0 5.--7. "RESERVED95," "0,1,2,3,4,5,6,7" rbitfld.long 0x0 4. "RFRST,Receive frame sync generator reset enable bit. A read of this bit returns the RFRST bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 3. "RSMRST,Receive state machine reset enable bit. A read of this bit returns the RSMRST bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 2. "RSRCLR,Receive serializer clear enable bit. A read of this bit returns the RSRSCLR bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 1. "RHCLKRST,Receive high-frequency clock divider reset enable bit. A read of this bit returns the RHCLKRST bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 0. "RCLKRST,Receive clock divider reset enable bit. A read of this bit returns the RCLKRST bit value of GBLCTL. Writes have no effect." "0,1" line.long 0x4 "CFG_XMASK,The transmit format unit bit mask register (XMASK) determines which bits of the transmitted data are masked off and padded with a known value before being shifted out the McASP." hexmask.long 0x4 0.--31. 1. "XMASK,Transmit data mask n enable bit." line.long 0x8 "CFG_XFMT,The transmit bit stream format register (XFMT) configures the transmit data format." hexmask.long.word 0x8 18.--31. 1. "RESERVED97," bitfld.long 0x8 16.--17. "XDATDLY,Transmit sync bit delay." "0,1,2,3" bitfld.long 0x8 15. "XRVRS,Transmit serial bitstream order." "0,1" bitfld.long 0x8 13.--14. "XPAD,Pad value for extra bits in slot not belonging to word defined by XMASK. This field only applies to bits when XMASK[n] = 0." "0,1,2,3" hexmask.long.byte 0x8 8.--12. 1. "XPBIT,XPBIT value determines which bit [as written by the CPU or DMA to XBUF[n]] is used to pad the extra bits before shifting. This field only applies when XPAD = 2h." hexmask.long.byte 0x8 4.--7. 1. "XSSZ,Transmit slot size." newline bitfld.long 0x8 3. "XBUSEL,Selects whether writes to serializer buffer XRBUF[n] originate from the configuration bus [CFG] or the data [DAT] port." "0,1" bitfld.long 0x8 0.--2. "XROT,Right-rotation value for transmit rotate right format unit." "0,1,2,3,4,5,6,7" line.long 0xC "CFG_AFSXCTL,The transmit frame sync control register (AFSXCTL) configures the transmit frame sync (AFSX)." hexmask.long.word 0xC 16.--31. 1. "RESERVED100," hexmask.long.word 0xC 7.--15. 1. "XMOD,Transmit frame sync mode select bits. 1FFh = Reserved from 181h to 1FFh." rbitfld.long 0xC 5.--6. "RESERVED99," "0,1,2,3" bitfld.long 0xC 4. "FXWID,Transmit frame sync width select bit indicates the width of the transmit frame sync [AFSX] during its active period." "0,1" rbitfld.long 0xC 2.--3. "RESERVED98," "0,1,2,3" bitfld.long 0xC 1. "FSXM,Transmit frame sync generation select bit." "0,1" newline bitfld.long 0xC 0. "FSXP,Transmit frame sync polarity select bit." "0,1" line.long 0x10 "CFG_ACLKXCTL,The transmit clock control register (ACLKXCTL) configures the transmit bit clock (ACLKX) and the transmit clock generator." hexmask.long.word 0x10 21.--31. 1. "RESERVED102," bitfld.long 0x10 20. "BUSY,Status: logical OR of DIVBUSY ADJBUSY" "0,1" bitfld.long 0x10 19. "DIVBUSY,Status: divide ratio change in progress" "0,1" bitfld.long 0x10 18. "ADJBUSY,Status: one-shot adjustment in progress" "0,1" bitfld.long 0x10 16.--17. "CLKXADJ,CLKXDIV one-shot adjustment" "0,1,2,3" hexmask.long.byte 0x10 8.--15. 1. "RESERVED101," newline bitfld.long 0x10 7. "CLKXP,Transmit bitstream clock polarity select bit." "0,1" bitfld.long 0x10 6. "ASYNC,Transmit/receive operation asynchronous enable bit." "0,1" bitfld.long 0x10 5. "CLKXM,Transmit bit clock source bit." "0,1" hexmask.long.byte 0x10 0.--4. 1. "CLKXDIV,Transmit bit clock divide ratio bits determine the divide-down ratio from AHCLKX to ACLKX." line.long 0x14 "CFG_AHCLKXCTL,The transmit high-frequency clock control register (AHCLKXCTL) configures the transmit high-frequency controller clock (AHCLKX) and the transmit clock generator." hexmask.long.word 0x14 21.--31. 1. "RESERVED104," bitfld.long 0x14 20. "BUSY,Status: logical OR of DIVBUSY ADJBUSY" "0,1" bitfld.long 0x14 19. "DIVBUSY,Status: divide ratio change in progress?" "0,1" bitfld.long 0x14 18. "ADJBUSY,Status: one-shot adjustment in progress?" "0,1" bitfld.long 0x14 16.--17. "HCLKXADJ,HCLKXDIV one-shot adjustment" "0,1,2,3" bitfld.long 0x14 15. "HCLKXM,Transmit high-frequency clock source bit." "0,1" newline bitfld.long 0x14 14. "HCLKXP,Transmit bitstream high-frequency clock polarity select bit." "0,1" rbitfld.long 0x14 12.--13. "RESERVED103," "0,1,2,3" hexmask.long.word 0x14 0.--11. 1. "HCLKXDIV,Transmit high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to AHCLKX." line.long 0x18 "CFG_XTDM,The transmit TDM time slot register (XTDM) specifies in which TDM time slot the transmitter is active. TDM time slot counter range is extended to 384 slots (to support SPDIF blocks of 384 subframes). XTDM operates modulo 32. that is. XTDMS.." hexmask.long 0x18 0.--31. 1. "XTDMS,Transmitter mode during TDM time slot n." line.long 0x1C "CFG_XINTCTL,The transmitter interrupt control register (XINTCTL) controls generation of the McASP transmit interrupt (XINT). When the register bit(s) is set to 1. the occurrence of the enabled McASP condition(s) generates XINT. See the XSTAT register for.." hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED106," bitfld.long 0x1C 7. "XSTAFRM,Transmit start of frame interrupt enable bit." "0,1" rbitfld.long 0x1C 6. "RESERVED105," "0,1" bitfld.long 0x1C 5. "XDATA,Transmit data ready interrupt enable bit." "0,1" bitfld.long 0x1C 4. "XLAST,Transmit last slot interrupt enable bit." "0,1" bitfld.long 0x1C 3. "XDMAERR,Transmit DMA error interrupt enable bit." "0,1" newline bitfld.long 0x1C 2. "XCKFAIL,Transmit clock failure interrupt enable bit." "0,1" bitfld.long 0x1C 1. "XSYNCERR,Unexpected transmit frame sync interrupt enable bit." "0,1" bitfld.long 0x1C 0. "XUNDRN,Transmitter underrun interrupt enable bit." "0,1" line.long 0x20 "CFG_XSTAT,The transmitter status register (XSTAT) provides the transmitter status and transmit TDM time slot number. 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.." hexmask.long.tbyte 0x20 9.--31. 1. "RESERVED107," bitfld.long 0x20 8. "XERR,XERR bit always returns a logic-OR of: XUNDRN OR XSYNCERR OR XCKFAIL OR XDMAERR. Allows a single bit to be checked to determine if a transmitter error interrupt has occurred." "0,1" bitfld.long 0x20 7. "XDMAERR,Transmit DMA error flag. XDMAERR is set when the CPU or DMA writes more serializers through the data port in a given time slot than were programmed as transmitters. Causes a transmit interrupt [XINT] if this bit is set and XDMAERR in XINTCTL is.." "0,1" bitfld.long 0x20 6. "XSTAFRM,Transmit start of frame flag. Causes a transmit interrupt [XINT] if this bit is set and XSTAFRM in XINTCTL is set. This bit is cleared by writing a 1 to this bit. Writing a 0 has no effect." "0,1" bitfld.long 0x20 5. "XDATA,Transmit data ready flag. Causes a transmit interrupt [XINT] if this bit is set and XDATA in XINTCTL is set. This bit is cleared by writing a 1 to this bit. Writing a 0 has no effect." "0,1" bitfld.long 0x20 4. "XLAST,Transmit last slot flag. XLAST is set along with XDATA if the current slot is the last slot in a frame. Causes a transmit interrupt [XINT] if this bit is set and XLAST in XINTCTL is set. This bit is cleared by writing a 1 to this bit. Writing a 0.." "0,1" newline rbitfld.long 0x20 3. "XTDMSLOT,Returns the LSB of XSLOT. Allows a single read of XSTAT to determine whether the current TDM time slot is even or odd." "0,1" bitfld.long 0x20 2. "XCKFAIL,Transmit clock failure flag. XCKFAIL is set when the transmit clock failure detection circuit reports an error. Causes a transmit interrupt [XINT] if this bit is set and XCKFAIL in XINTCTL is set. This bit is cleared by writing a 1 to this bit." "0,1" bitfld.long 0x20 1. "XSYNCERR,Unexpected transmit frame sync flag. XSYNCERR is set when a new transmit frame sync [AFSX] occurs before it is expected. Causes a transmit interrupt [XINT] if this bit is set and XSYNCERR in XINTCTL is set. This bit is cleared by writing a 1 to.." "0,1" bitfld.long 0x20 0. "XUNDRN,Transmitter underrun flag. XUNDRN is set when the transmit serializer is instructed to transfer data from XBUF to XRSR but XBUF has not yet been serviced with new data since the last transfer. Causes a transmit interrupt [XINT] if this bit is.." "0,1" rgroup.long 0xC4++0x3 line.long 0x0 "CFG_XSLOT,The current transmit TDM time slot register (XSLOT) indicates the current time slot for the transmit data frame." hexmask.long.tbyte 0x0 10.--31. 1. "RESERVED108," hexmask.long.word 0x0 0.--9. 1. "XSLOTCNT,Current transmit time slot count. Legal values: 0 to 383 [17Fh]. During reset this counter value is 383 so the next count value which is used to encode the first DIT group of data will be 0 and encodes the B preamble. TDM function is not.." group.long 0xC8++0x7 line.long 0x0 "CFG_XCLKCHK,The transmit clock check control register (XCLKCHK) configures the transmit clock failure detection circuit." hexmask.long.byte 0x0 24.--31. 1. "XCNT,Transmit clock count value [from previous measurement]. The clock circuit continually counts the number of system clocks for every 32 transmit high-frequency controller clock [AHCLKX] signals and stores the count in XCNT until the next measurement.." hexmask.long.byte 0x0 16.--23. 1. "XMAX,Transmit clock maximum boundary. This 8 bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 transmit high-frequency controller clock [AHCLKX] signals have been received. If the current counter value is greater.." hexmask.long.byte 0x0 8.--15. 1. "XMIN,Transmit clock minimum boundary. This 8 bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 transmit high-frequency controller clock [AHCLKX] signals have been received. If XCNT is less than XMIN after counting.." hexmask.long.byte 0x0 4.--7. 1. "RESERVED109," hexmask.long.byte 0x0 0.--3. 1. "XPS,Transmit clock check prescaler value. Fh = Reserved from 9h to Fh." line.long 0x4 "CFG_XEVTCTL,The transmitter DMA event control register (XEVTCTL) contains a disable bit for the transmit DMA event. Note for device-specific registers: Accessing XEVTCTL not implemented on a specific device may cause improper device operation." hexmask.long 0x4 1.--31. 1. "RESERVED110," bitfld.long 0x4 0. "XDATDMA,Transmit data DMA request enable bit. If writing to this bit always write the default value of 0." "0,1" group.long 0x100++0x5F line.long 0x0 "CFG_DITCSRA0,The DIT left channel status registers (DITCSRA0) provide the status of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x0 0.--31. 1. "DITCSRA,DIT left channel status registers." line.long 0x4 "CFG_DITCSRA1,The DIT left channel status registers (DITCSRA) provide the status of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x4 0.--31. 1. "DITCSRA,DIT left channel status registers." line.long 0x8 "CFG_DITCSRA2,The DIT left channel status registers (DITCSRA) provide the status of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x8 0.--31. 1. "DITCSRA,DIT left channel status registers." line.long 0xC "CFG_DITCSRA3,The DIT left channel status registers (DITCSRA) provide the status of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the.." hexmask.long 0xC 0.--31. 1. "DITCSRA,DIT left channel status registers." line.long 0x10 "CFG_DITCSRA4,The DIT left channel status registers (DITCSRA) provide the status of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x10 0.--31. 1. "DITCSRA,DIT left channel status registers." line.long 0x14 "CFG_DITCSRA5,The DIT left channel status registers (DITCSRA) provide the status of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x14 0.--31. 1. "DITCSRA,DIT left channel status registers." line.long 0x18 "CFG_DITCSRB0,The DIT right channel status registers (DITCSRB0) provide the status of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x18 0.--31. 1. "DITCSRB,DIT right channel status registers." line.long 0x1C "CFG_DITCSRB1,The DIT right channel status registers (DITCSRB0) provide the status of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x1C 0.--31. 1. "DITCSRB,DIT right channel status registers." line.long 0x20 "CFG_DITCSRB2,The DIT right channel status registers (DITCSRB0) provide the status of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x20 0.--31. 1. "DITCSRB,DIT right channel status registers." line.long 0x24 "CFG_DITCSRB3,The DIT right channel status registers (DITCSRB0) provide the status of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x24 0.--31. 1. "DITCSRB,DIT right channel status registers." line.long 0x28 "CFG_DITCSRB4,The DIT right channel status registers (DITCSRB0) provide the status of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x28 0.--31. 1. "DITCSRB,DIT right channel status registers." line.long 0x2C "CFG_DITCSRB5,The DIT right channel status registers (DITCSRB0) provide the status of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x2C 0.--31. 1. "DITCSRB,DIT right channel status registers." line.long 0x30 "CFG_DITUDRA0,The DIT left channel user data registers (DITUDRA0) provides the user data of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x30 0.--31. 1. "DITUDRA,DIT left channel user data registers." line.long 0x34 "CFG_DITUDRA1,The DIT left channel user data registers (DITUDRA0) provides the user data of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x34 0.--31. 1. "DITUDRA,DIT left channel user data registers." line.long 0x38 "CFG_DITUDRA2,The DIT left channel user data registers (DITUDRA0) provides the user data of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x38 0.--31. 1. "DITUDRA,DIT left channel user data registers." line.long 0x3C "CFG_DITUDRA3,The DIT left channel user data registers (DITUDRA0) provides the user data of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x3C 0.--31. 1. "DITUDRA,DIT left channel user data registers." line.long 0x40 "CFG_DITUDRA4,The DIT left channel user data registers (DITUDRA0) provides the user data of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x40 0.--31. 1. "DITUDRA,DIT left channel user data registers." line.long 0x44 "CFG_DITUDRA5,The DIT left channel user data registers (DITUDRA0) provides the user data of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x44 0.--31. 1. "DITUDRA,DIT left channel user data registers." line.long 0x48 "CFG_DITUDRB0,The DIT right channel user data registers (DITUDRB0) provides the user data of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x48 0.--31. 1. "DITUDRB,DIT right channel user data registers." line.long 0x4C "CFG_DITUDRB1,The DIT right channel user data registers (DITUDRB0) provides the user data of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x4C 0.--31. 1. "DITUDRB,DIT right channel user data registers." line.long 0x50 "CFG_DITUDRB2,The DIT right channel user data registers (DITUDRB0) provides the user data of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x50 0.--31. 1. "DITUDRB,DIT right channel user data registers." line.long 0x54 "CFG_DITUDRB3,The DIT right channel user data registers (DITUDRB0) provides the user data of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x54 0.--31. 1. "DITUDRB,DIT right channel user data registers." line.long 0x58 "CFG_DITUDRB4,The DIT right channel user data registers (DITUDRB0) provides the user data of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x58 0.--31. 1. "DITUDRB,DIT right channel user data registers." line.long 0x5C "CFG_DITUDRB5,The DIT right channel user data registers (DITUDRB0) provides the user data of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x5C 0.--31. 1. "DITUDRB,DIT right channel user data registers." group.long 0x180++0x3F line.long 0x0 "CFG_SRCTL0,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x0 6.--31. 1. "RESERVED111," rbitfld.long 0x0 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x0 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x0 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x0 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x4 "CFG_SRCTL1,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x4 6.--31. 1. "RESERVED112," rbitfld.long 0x4 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x4 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x4 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x4 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x8 "CFG_SRCTL2,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x8 6.--31. 1. "RESERVED113," rbitfld.long 0x8 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x8 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x8 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x8 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0xC "CFG_SRCTL3,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0xC 6.--31. 1. "RESERVED114," rbitfld.long 0xC 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0xC 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0xC 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0xC 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x10 "CFG_SRCTL4,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x10 6.--31. 1. "RESERVED115," rbitfld.long 0x10 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x10 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x10 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x10 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x14 "CFG_SRCTL5,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x14 6.--31. 1. "RESERVED116," rbitfld.long 0x14 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x14 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x14 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x14 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x18 "CFG_SRCTL6,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x18 6.--31. 1. "RESERVED117," rbitfld.long 0x18 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x18 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x18 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x18 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x1C "CFG_SRCTL7,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x1C 6.--31. 1. "RESERVED118," rbitfld.long 0x1C 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x1C 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x1C 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x1C 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x20 "CFG_SRCTL8,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x20 6.--31. 1. "RESERVED119," rbitfld.long 0x20 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x20 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x20 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x20 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x24 "CFG_SRCTL9,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x24 6.--31. 1. "RESERVED120," rbitfld.long 0x24 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x24 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x24 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x24 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x28 "CFG_SRCTL10,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x28 6.--31. 1. "RESERVED121," rbitfld.long 0x28 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x28 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x28 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x28 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x2C "CFG_SRCTL11,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x2C 6.--31. 1. "RESERVED122," rbitfld.long 0x2C 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x2C 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x2C 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x2C 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x30 "CFG_SRCTL12,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x30 6.--31. 1. "RESERVED123," rbitfld.long 0x30 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x30 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x30 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x30 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x34 "CFG_SRCTL13,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x34 6.--31. 1. "RESERVED124," rbitfld.long 0x34 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x34 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x34 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x34 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x38 "CFG_SRCTL14,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x38 6.--31. 1. "RESERVED125," rbitfld.long 0x38 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x38 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x38 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x38 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x3C "CFG_SRCTL15,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x3C 6.--31. 1. "RESERVED126," rbitfld.long 0x3C 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x3C 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x3C 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x3C 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" group.long 0x200++0x3F line.long 0x0 "CFG_XBUF0,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x0 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x4 "CFG_XBUF1,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x4 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x8 "CFG_XBUF2,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x8 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0xC "CFG_XBUF3,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0xC 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x10 "CFG_XBUF4,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x10 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x14 "CFG_XBUF5,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x14 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x18 "CFG_XBUF6,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x18 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x1C "CFG_XBUF7,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x1C 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x20 "CFG_XBUF8,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x20 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x24 "CFG_XBUF9,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x24 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x28 "CFG_XBUF10,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x28 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x2C "CFG_XBUF11,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x2C 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x30 "CFG_XBUF12,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x30 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x34 "CFG_XBUF13,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x34 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x38 "CFG_XBUF14,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x38 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x3C "CFG_XBUF15,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x3C 0.--31. 1. "XBUF,Transmit buffers for serializers." group.long 0x280++0x3F line.long 0x0 "CFG_RBUF0,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x0 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x4 "CFG_RBUF1,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x4 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x8 "CFG_RBUF2,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x8 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0xC "CFG_RBUF3,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0xC 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x10 "CFG_RBUF4,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x10 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x14 "CFG_RBUF5,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x14 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x18 "CFG_RBUF6,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x18 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x1C "CFG_RBUF7,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x1C 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x20 "CFG_RBUF8,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x20 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x24 "CFG_RBUF9,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x24 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x28 "CFG_RBUF10,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x28 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x2C "CFG_RBUF11,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x2C 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x30 "CFG_RBUF12,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x30 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x34 "CFG_RBUF13,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x34 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x38 "CFG_RBUF14,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x38 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x3C "CFG_RBUF15,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x3C 0.--31. 1. "RBUF,Receive buffers for serializers." group.long 0x1000++0x3 line.long 0x0 "CFG_WFIFOCTL,The WNUMEVT and WNUMDMA values must be set prior to enabling the Write FIFO. If the Write FIFO is to be enabled. it must be enabled prior to taking the McASP out of reset" hexmask.long.word 0x0 17.--31. 1. "RESERVED127," bitfld.long 0x0 16. "WENA,Write FIFO enable bit." "0,1" hexmask.long.byte 0x0 8.--15. 1. "WNUMEVT,Write word count per DMA event [32 bit]. When the Write FIFO has space for at least WNUMEVT words of data then an AXEVT [transmit DMA event] is generated to the host/DMA controller. This value should be set to a non-zero integer multiple of the.." hexmask.long.byte 0x0 0.--7. 1. "WNUMDMA,Write word count per transfer [32 bit words]. Upon a transmit DMA event from the McASP WNUMDMA words are transferred from the Write FIFO to the McASP. This value must equal the number of McASP serializers used as transmitters. This value must be.." rgroup.long 0x1004++0x3 line.long 0x0 "CFG_WFIFOSTS," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED128," hexmask.long.byte 0x0 0.--7. 1. "WLVL,Write level [read-only]. Number of 32 bit words currently in the Write FIFO. 40h = 3 to 64 words currently in Write FIFO from 3h to 40h. FFh = Reserved from 41h to FFh." group.long 0x1008++0x3 line.long 0x0 "CFG_RFIFOCTL,The RNUMEVT and RNUMDMA values must be set prior to enabling the Read FIFO. If the Read FIFO is to be enabled. it must be enabled prior to taking the McASP out of reset" hexmask.long.word 0x0 17.--31. 1. "RESERVED129," bitfld.long 0x0 16. "RENA,Read FIFO enable bit." "0,1" hexmask.long.byte 0x0 8.--15. 1. "RNUMEVT,Read word count per DMA event [32 bit]. When the Read FIFO contains at least RNUMEVT words of data then an AREVT [receive DMA event] is generated to the host/DMA controller. This value should be set to a non-zero integer multiple of the number.." hexmask.long.byte 0x0 0.--7. 1. "RNUMDMA,Read word count per transfer [32 bit words]. Upon a receive DMA event from the McASP the Read FIFO reads RNUMDMA words from the McASP. This value must equal the number of McASP serializers used as receivers. This value must be set prior to.." rgroup.long 0x100C++0x3 line.long 0x0 "CFG_RFIFOSTS," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED130," hexmask.long.byte 0x0 0.--7. 1. "RLVL,Read level [read-only]. Number of 32 bit words currently in the Read FIFO. 40h = 3 to 64 words currently in Read FIFO from 3h to 40h. FFh = Reserved from 41h to FFh." tree.end tree "MCASP2_CFG (MCASP2_CFG)" base ad:0x2B20000 rgroup.long 0x0++0x3 line.long 0x0 "CFG_PID,The revision identification register (PID) contains identification data for the peripheral." hexmask.long 0x0 0.--31. 1. "REV,Identifies revision of peripheral." group.long 0x4++0x3 line.long 0x0 "CFG_PWRIDLESYSCONFIG," hexmask.long 0x0 6.--31. 1. "RESERVED66," hexmask.long.byte 0x0 2.--5. 1. "OTHER,Reserved for future programming." bitfld.long 0x0 0.--1. "IDLEMODE,Power management Configuration of the local target state management mode. By definition target can handle read/write transaction as long as it is out of IDLE state." "0,1,2,3" group.long 0x10++0x13 line.long 0x0 "CFG_PFUNC,The pin function register (PFUNC) specifies the function of AXRn. ACLKX. AHCLKX. AFSX. ACLKR. AHCLKR. and AFSR pins as either a McASP pin or a general-purpose input/output (GPIO) pin. CAUTION: Writing a value other than 0 to reserved bits in.." bitfld.long 0x0 31. "AFSR,Determines if AFSR pin functions as McASP or GPIO." "0,1" bitfld.long 0x0 30. "AHCLKR,Determines if AHCLKR pin functions as McASP or GPIO." "0,1" bitfld.long 0x0 29. "ACLKR,Determines if ACLKR pin functions as McASP or GPIO." "0,1" bitfld.long 0x0 28. "AFSX,Determines if AFSX pin functions as McASP or GPIO." "0,1" bitfld.long 0x0 27. "AHCLKX,Determines if AHCLKX pin functions as McASP or GPIO." "0,1" bitfld.long 0x0 26. "ACLKX,Determines if ACLKX pin functions as McASP or GPIO." "0,1" newline bitfld.long 0x0 25. "AMUTE,Determines if AMUTE pin functions as McASP or GPIO." "0,1" hexmask.long.tbyte 0x0 4.--24. 1. "RESERVED67," hexmask.long.byte 0x0 0.--3. 1. "AXR,Determines if AXRn pin functions as McASP or GPIO." line.long 0x4 "CFG_PDIR,The pin direction register (PDIR) specifies the direction of AXRn. ACLKX. AHCLKX. AFSX. ACLKR. AHCLKR. and AFSR pins as either an input or an output pin. Regardless of the pin function register (PFUNC) setting. each PDIR bit must be set to 1 for.." bitfld.long 0x4 31. "AFSR,Determines if AFSR pin functions as an input or output." "0,1" bitfld.long 0x4 30. "AHCLKR,Determines if AHCLKR pin functions as an input or output." "0,1" bitfld.long 0x4 29. "ACLKR,Determines if ACLKR pin functions as an input or output." "0,1" bitfld.long 0x4 28. "AFSX,Determines if AFSX pin functions as an input or output." "0,1" bitfld.long 0x4 27. "AHCLKX,Determines if AHCLKX pin functions as an input or output." "0,1" bitfld.long 0x4 26. "ACLKX,Determines if ACLKX pin functions as an input or output." "0,1" newline bitfld.long 0x4 25. "AMUTE,Determines if AMUTE pin functions as an input or output." "0,1" hexmask.long.tbyte 0x4 4.--24. 1. "RESERVED68," hexmask.long.byte 0x4 0.--3. 1. "AXR,Determines if AXRn pin functions as an input or output." line.long 0x8 "CFG_PDOUT,The pin data output register (PDOUT) holds a value for data out at all times. and may be read back at all times. The value held by PDOUT is not affected by writing to PDIR and PFUNC. However. the data value in PDOUT is driven out onto the McASP.." bitfld.long 0x8 31. "AFSR,Determines drive on AFSR output pin when the corresponding PFUNC[31] and PDIR[31] bits are set to 1." "0,1" bitfld.long 0x8 30. "AHCLKR,Determines drive on AHCLKR output pin when the corresponding PFUNC[30] and PDIR[30] bits are set to 1." "0,1" bitfld.long 0x8 29. "ACLKR,Determines drive on ACLKR output pin when the corresponding PFUNC[29] and PDIR[29] bits are set to 1." "0,1" bitfld.long 0x8 28. "AFSX,Determines drive on AFSX output pin when the corresponding PFUNC[28] and PDIR[28] bits are set to 1." "0,1" bitfld.long 0x8 27. "AHCLKX,Determines drive on AHCLKX output pin when the corresponding PFUNC[27] and PDIR[27] bits are set to 1." "0,1" bitfld.long 0x8 26. "ACLKX,Determines drive on ACLKX output pin when the corresponding PFUNC[26] and PDIR[26] bits are set to 1." "0,1" newline bitfld.long 0x8 25. "AMUTE,Determines drive on AMUTE output pin when the corresponding PFUNC[25] and PDIR[25] bits are set to 1." "0,1" hexmask.long.tbyte 0x8 4.--24. 1. "RESERVED69," hexmask.long.byte 0x8 0.--3. 1. "AXR,Determines drive on AXR[n] output pin when the corresponding PFUNC[n] and PDIR[n] bits are set to 1." line.long 0xC "CFG_PDIN,The pin data input register (PDIN) holds the I/O pin state of each of the McASP pins. PDIN allows the actual value of the pin to be read. regardless of the state of PFUNC and PDIR. The value after reset for registers 1 through 15 and 24 through.." bitfld.long 0xC 31. "AFSR,Logic level on AFSR pin." "0,1" bitfld.long 0xC 30. "AHCLKR,Logic level on AHCLKR pin." "0,1" bitfld.long 0xC 29. "ACLKR,Logic level on ACLKR pin." "0,1" bitfld.long 0xC 28. "AFSX,Logic level on AFSX pin." "0,1" bitfld.long 0xC 27. "AHCLKX,Logic level on AHCLKX pin." "0,1" bitfld.long 0xC 26. "ACLKX,Logic level on ACLKX pin." "0,1" newline bitfld.long 0xC 25. "AMUTE,Logic level on AMUTE pin." "0,1" hexmask.long.tbyte 0xC 4.--24. 1. "RESERVED70," hexmask.long.byte 0xC 0.--3. 1. "AXR,Logic level on AXR[n] pin." line.long 0x10 "CFG_PDCLR,The pin data clear register (PDCLR) is an alias of the pin data output register (PDOUT) for writes only. Writing a 1 to the PDCLR bit clears the corresponding bit in PDOUT and. if PFUNC = 1 (GPIO function) and PDIR = 1 (output). drives a logic.." bitfld.long 0x10 31. "AFSR,Allows the corresponding AFSR bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" bitfld.long 0x10 30. "AHCLKR,Allows the corresponding AHCLKR bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" bitfld.long 0x10 29. "ACLKR,Allows the corresponding ACLKR bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" bitfld.long 0x10 28. "AFSX,Allows the corresponding AFSX bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" bitfld.long 0x10 27. "AHCLKX,Allows the corresponding AHCLKX bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" bitfld.long 0x10 26. "ACLKX,Allows the corresponding ACLKX bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" newline bitfld.long 0x10 25. "AMUTE,Allows the corresponding AMUTE bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." "0,1" hexmask.long.tbyte 0x10 4.--24. 1. "RESERVED71," hexmask.long.byte 0x10 0.--3. 1. "AXR,Allows the corresponding AXR[n] bit in PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port." group.long 0x44++0xF line.long 0x0 "CFG_GBLCTL,The global control register (GBLCTL) provides initialization of the transmit and receive sections. The bit fields in GBLCTL are synchronized and latched by the corresponding clocks (ACLKX for bits 12-8 and ACLKR for bits 4-0). Before GBLCTL is.." hexmask.long.tbyte 0x0 13.--31. 1. "RESERVED73," bitfld.long 0x0 12. "XFRST,Transmit frame sync generator reset enable bit." "0,1" bitfld.long 0x0 11. "XSMRST,Transmit state machine reset enable bit." "0,1" bitfld.long 0x0 10. "XSRCLR,Transmit serializer clear enable bit. By clearing then setting this bit the transmit buffer is flushed to an empty state [XDATA = 1]. If XSMRST = 1 XSRCLR = 1 XDATA = 1 and XBUF is not loaded with new data before the start of the next active.." "0,1" bitfld.long 0x0 9. "XHCLKRST,Transmit high-frequency clock divider reset enable bit." "0,1" bitfld.long 0x0 8. "XCLKRST,Transmit clock divider reset enable bit." "0,1" newline rbitfld.long 0x0 5.--7. "RESERVED72," "0,1,2,3,4,5,6,7" bitfld.long 0x0 4. "RFRST,Receive frame sync generator reset enable bit." "0,1" bitfld.long 0x0 3. "RSMRST,Receive state machine reset enable bit." "0,1" bitfld.long 0x0 2. "RSRCLR,Receive serializer clear enable bit. By clearing then setting this bit the receive buffer is flushed." "0,1" bitfld.long 0x0 1. "RHCLKRST,Receive high-frequency clock divider reset enable bit." "0,1" bitfld.long 0x0 0. "RCLKRST,Receive high-frequency clock divider reset enable bit." "0,1" line.long 0x4 "CFG_AMUTE,The audio mute control register (AMUTE) controls the McASP audio mute (AMUTE) output pin. The value after reset for register 4 depends on how the pins are being driven." hexmask.long.tbyte 0x4 13.--31. 1. "RESERVED74," bitfld.long 0x4 12. "XDMAERR,If transmit DMA error [XDMAERR] drive AMUTE active enable bit." "0,1" bitfld.long 0x4 11. "RDMAERR,If receive DMA error [RDMAERR] drive AMUTE active enable bit." "0,1" bitfld.long 0x4 10. "XCKFAIL,If transmit clock failure [XCKFAIL] drive AMUTE active enable bit." "0,1" bitfld.long 0x4 9. "RCKFAIL,If receive clock failure [RCKFAIL] drive AMUTE active enable bit." "0,1" bitfld.long 0x4 8. "XSYNCERR,If unexpected transmit frame sync error [XSYNCERR] drive AMUTE active enable bit." "0,1" newline bitfld.long 0x4 7. "RSYNCERR,If unexpected receive frame sync error [RSYNCERR] drive AMUTE active enable bit." "0,1" bitfld.long 0x4 6. "XUNDRN,If transmit underrun error [XUNDRN] drive AMUTE active enable bit." "0,1" bitfld.long 0x4 5. "ROVRN,If receiver overrun error [ROVRN] drive AMUTE active enable bit." "0,1" rbitfld.long 0x4 4. "INSTAT,Determines drive on AXRn pin when PFUNC[n] and PDIR[n] bits are set to 1." "0,1" bitfld.long 0x4 3. "INEN,Drive AMUTE active when AMUTEIN error is active [INSTAT = 1]." "0,1" bitfld.long 0x4 2. "INPOL,Audio mute in [AMUTEIN] polarity select bit." "0,1" newline bitfld.long 0x4 0.--1. "MUTEN,AMUTE pin enable bit [unless overridden by GPIO registers]." "0,1,2,3" line.long 0x8 "CFG_DLBCTL,The digital loopback control register (DLBCTL) controls the internal loopback settings of the McASP in TDM mode." hexmask.long 0x8 4.--31. 1. "RESERVED75," bitfld.long 0x8 2.--3. "MODE,Loopback generator mode bits. Applies only when loopback mode is enabled [DLBEN = 1]." "0,1,2,3" bitfld.long 0x8 1. "ORD,Loopback order bit when loopback mode is enabled [DLBEN = 1]." "0,1" bitfld.long 0x8 0. "DLBEN,Loopback mode enable bit." "0,1" line.long 0xC "CFG_DITCTL,The DIT mode control register (DITCTL) controls DIT operations of the McASP." hexmask.long 0xC 4.--31. 1. "RESERVED77," bitfld.long 0xC 3. "VB,Valid bit for odd time slots [DIT right subframe]." "0,1" bitfld.long 0xC 2. "VA,Valid bit for even time slots [DIT left subframe]." "0,1" rbitfld.long 0xC 1. "RESERVED76," "0,1" bitfld.long 0xC 0. "DITEN,DIT mode enable bit. DITEN should only be changed while the XSMRST bit in GBLCTL is in reset [and for startup XSRCLR also in reset]. However it is not necessary to reset the XCLKRST or XHCLKRST bits in GBLCTL to change DITEN." "0,1" group.long 0x60++0x23 line.long 0x0 "CFG_RGBLCTL,Alias of the global control register (GBLCTL). Writing to the receiver global control register (RGBLCTL) affects only the receive bits of GBLCTL (bits 4-0). Reads from RGBLCTL return the value of GBLCTL. RGBLCTL allows the receiver to be.." hexmask.long.tbyte 0x0 13.--31. 1. "RESERVED79," rbitfld.long 0x0 12. "XFRST,Transmit frame sync generator reset enable bit. A read of this bit returns the XFRST bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 11. "XSMRST,Transmit state machine reset enable bit. A read of this bit returns the XSMRST bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 10. "XSRCLR,Transmit serializer clear enable bit. A read of this bit returns the XSRCLR bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 9. "XHCLKRST,Transmit high-frequency clock divider reset enable bit. A read of this bit returns the XHCLKRST bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 8. "XCLKRST,Transmit clock divider reset enable bit. A read of this bit returns the XCLKRST bit value of GBLCTL. Writes have no effect." "0,1" newline rbitfld.long 0x0 5.--7. "RESERVED78," "0,1,2,3,4,5,6,7" bitfld.long 0x0 4. "RFRST,Receive frame sync generator reset enable bit. A write to this bit affects the RFRST bit of GBLCTL." "0,1" bitfld.long 0x0 3. "RSMRST,Receive state machine reset enable bit. A write to this bit affects the RSMRST bit of GBLCTL." "0,1" bitfld.long 0x0 2. "RSRCLR,Receive serializer clear enable bit. A write to this bit affects the RSRCLR bit of GBLCTL." "0,1" bitfld.long 0x0 1. "RHCLKRST,Receive high-frequency clock divider reset enable bit. A write to this bit affects the RHCLKRST bit of GBLCTL." "0,1" bitfld.long 0x0 0. "RCLKRST,Receive clock divider reset enable bit. A write to this bit affects the RCLKRST bit of GBLCTL." "0,1" line.long 0x4 "CFG_RMASK,The receive format unit bit mask register (RMASK) determines which bits of the received data are masked off and padded with a known value before being read by the CPU or DMA." hexmask.long 0x4 0.--31. 1. "RMASK,Receive data mask n enable bit." line.long 0x8 "CFG_RFMT,The receive bit stream format register (RFMT) configures the receive data format." hexmask.long.word 0x8 18.--31. 1. "RESERVED80," bitfld.long 0x8 16.--17. "RDATDLY,Receive bit delay." "0,1,2,3" bitfld.long 0x8 15. "RRVRS,Receive serial bitstream order." "0,1" bitfld.long 0x8 13.--14. "RPAD,Pad value for extra bits in slot not belonging to the word. This field only applies to bits when RMASK[n] = 0." "0,1,2,3" hexmask.long.byte 0x8 8.--12. 1. "RPBIT,RPBIT value determines which bit [as read by the CPU or DMA from RBUF[n]] is used to pad the extra bits. This field only applies when RPAD = 2h." hexmask.long.byte 0x8 4.--7. 1. "RSSZ,Receive slot size." newline bitfld.long 0x8 3. "RBUSEL,Selects whether reads from serializer buffer XRBUF[n] originate from the configuration bus [CFG] or the data [DAT] port." "0,1" bitfld.long 0x8 0.--2. "RROT,Right-rotation value for receive rotate right format unit." "0,1,2,3,4,5,6,7" line.long 0xC "CFG_AFSRCTL,The receive frame sync control register (AFSRCTL) configures the receive frame sync (AFSR)." hexmask.long.word 0xC 16.--31. 1. "RESERVED83," hexmask.long.word 0xC 7.--15. 1. "RMOD,Receive frame sync mode select bits. 1FFh = Reserved from 181h to 1FFh." rbitfld.long 0xC 5.--6. "RESERVED82," "0,1,2,3" bitfld.long 0xC 4. "FRWID,Receive frame sync width select bit indicates the width of the receive frame sync [AFSR] during its active period." "0,1" rbitfld.long 0xC 2.--3. "RESERVED81," "0,1,2,3" bitfld.long 0xC 1. "FSRM,Receive frame sync generation select bit." "0,1" newline bitfld.long 0xC 0. "FSRP,Receive frame sync polarity select bit." "0,1" line.long 0x10 "CFG_ACLKRCTL,The receive clock control register (ACLKRCTL) configures the receive bit clock (ACLKR) and the receive clock generator." hexmask.long.word 0x10 21.--31. 1. "RESERVED86," bitfld.long 0x10 20. "BUSY,Status: logical OR of DIVBUSY ADJBUSY" "0,1" bitfld.long 0x10 19. "DIVBUSY,Status: divide ratio change in progress" "0,1" bitfld.long 0x10 18. "ADJBUSY,Status: one-shot adjustment in progress" "0,1" bitfld.long 0x10 16.--17. "CLKRADJ,CLKRDIV one-shot adjustment" "0,1,2,3" hexmask.long.byte 0x10 8.--15. 1. "RESERVED85," newline bitfld.long 0x10 7. "CLKRP,Receive bitstream clock polarity select bit." "0,1" rbitfld.long 0x10 6. "RESERVED84," "0,1" bitfld.long 0x10 5. "CLKRM,Receive bit clock source bit. Note that this bit does not have any effect if ACLKXCTL.ASYNC = 0." "0,1" hexmask.long.byte 0x10 0.--4. 1. "CLKRDIV,Receive bit clock divide ratio bits determine the divide-down ratio from AHCLKR to ACLKR. Note that this bit does not have any effect if ACLKXCTL.ASYNC = 0." line.long 0x14 "CFG_AHCLKRCTL,The receive high-frequency clock control register (AHCLKRCTL) configures the receive high-frequency controller clock (AHCLKR) and the receive clock generator." hexmask.long.word 0x14 21.--31. 1. "RESERVED88," bitfld.long 0x14 20. "BUSY,Status: logical OR of DIVBUSY ADJBUSY" "0,1" bitfld.long 0x14 19. "DIVBUSY,Status: divide ratio change in progress?" "0,1" bitfld.long 0x14 18. "ADJBUSY,Status: one-shot adjustment in progress?" "0,1" bitfld.long 0x14 16.--17. "HCLKRADJ,HCLKRDIV one-shot adjustment" "0,1,2,3" bitfld.long 0x14 15. "HCLKRM,Receive high-frequency clock source bit." "0,1" newline bitfld.long 0x14 14. "HCLKRP,Receive bitstream high-frequency clock polarity select bit." "0,1" rbitfld.long 0x14 12.--13. "RESERVED87," "0,1,2,3" hexmask.long.word 0x14 0.--11. 1. "HCLKRDIV,Receive high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to AHCLKR." line.long 0x18 "CFG_RTDM,The receive TDM time slot register (RTDM) specifies which TDM time slot the receiver is active." hexmask.long 0x18 0.--31. 1. "RTDMS,Receiver mode during TDM time slot n." line.long 0x1C "CFG_RINTCTL,The receiver interrupt control register (RINTCTL) controls generation of the McASP receive interrupt (RINT). When the register bit(s) is set to 1. the occurrence of the enabled McASP condition(s) generates RINT. See the RSTAT register for a.." hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED90," bitfld.long 0x1C 7. "RSTAFRM,Receive start of frame interrupt enable bit." "0,1" rbitfld.long 0x1C 6. "RESERVED89," "0,1" bitfld.long 0x1C 5. "RDATA,Receive data ready interrupt enable bit." "0,1" bitfld.long 0x1C 4. "RLAST,Receive last slot interrupt enable bit." "0,1" bitfld.long 0x1C 3. "RDMAERR,Receive DMA error interrupt enable bit." "0,1" newline bitfld.long 0x1C 2. "RCKFAIL,Receive clock failure interrupt enable bit." "0,1" bitfld.long 0x1C 1. "RSYNCERR,Unexpected receive frame sync interrupt enable bit." "0,1" bitfld.long 0x1C 0. "ROVRN,Receiver overrun interrupt enable bit." "0,1" line.long 0x20 "CFG_RSTAT,The receiver status register (RSTAT) provides the receiver status and receive TDM time slot number. 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.." hexmask.long.tbyte 0x20 9.--31. 1. "RESERVED91," bitfld.long 0x20 8. "RERR,RERR bit always returns a logic-OR of: ROVRN OR RSYNCERR OR RCKFAIL OR RDMAERR. Allows a single bit to be checked to determine if a receiver error interrupt has occurred." "0,1" bitfld.long 0x20 7. "RDMAERR,Receive DMA error flag. RDMAERR is set when the CPU or DMA reads more serializers through the data port in a given time slot than were programmed as receivers. Causes a receive interrupt [RINT] if this bit is set and RDMAERR in RINTCTL is set." "0,1" bitfld.long 0x20 6. "RSTAFRM,Receive start of frame flag. Causes a receive interrupt [RINT] if this bit is set and RSTAFRM in RINTCTL is set. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect." "0,1" bitfld.long 0x20 5. "RDATA,Receive data ready flag. Causes a receive interrupt [RINT] if this bit is set and RDATA in RINTCTL is set. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect." "0,1" bitfld.long 0x20 4. "RLAST,Receive last slot flag. RLAST is set along with RDATA if the current slot is the last slot in a frame. Causes a receive interrupt [RINT] if this bit is set and RLAST in RINTCTL is set. This bit is cleared by writing a 1 to this bit. Writing a 0.." "0,1" newline rbitfld.long 0x20 3. "RTDMSLOT,Returns the LSB of RSLOT. Allows a single read of RSTAT to determine whether the current TDM time slot is even or odd." "0,1" bitfld.long 0x20 2. "RCKFAIL,Receive clock failure flag. RCKFAIL is set when the receive clock failure detection circuit reports an error. Causes a receive interrupt [RINT] if this bit is set and RCKFAIL in RINTCTL is set. This bit is cleared by writing a 1 to this bit." "0,1" bitfld.long 0x20 1. "RSYNCERR,Unexpected receive frame sync flag. RSYNCERR is set when a new receive frame sync [AFSR] occurs before it is expected. Causes a receive interrupt [RINT] if this bit is set and RSYNCERR in RINTCTL is set. This bit is cleared by writing a 1 to.." "0,1" bitfld.long 0x20 0. "ROVRN,Receiver overrun flag. ROVRN is set when the receive serializer is instructed to transfer data from XRSR to RBUF but the former data in RBUF has not yet been read by the CPU or DMA. Causes a receive interrupt [RINT] if this bit is set and ROVRN.." "0,1" rgroup.long 0x84++0x3 line.long 0x0 "CFG_RSLOT,The current receive TDM time slot register (RSLOT) indicates the current time slot for the receive data frame." hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED92," hexmask.long.word 0x0 0.--8. 1. "RSLOTCNT,0-17Fh = Current receive time slot count. Legal values: 0 to 383 [17Fh]. TDM function is not supported for > 32 time slots. However TDM time slot counter may count to 383 when used to receive a DIR block [transferred over TDM format]." group.long 0x88++0x7 line.long 0x0 "CFG_RCLKCHK,The receive clock check control register (RCLKCHK) configures the receive clock failure detection circuit." hexmask.long.byte 0x0 24.--31. 1. "RCNT,Receive clock count value [from previous measurement]. The clock circuit continually counts the number of system clocks for every 32 receive high-frequency controller clock [AHCLKR] signals and stores the count in RCNT until the next measurement is.." hexmask.long.byte 0x0 16.--23. 1. "RMAX,Receive clock maximum boundary. This 8 bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 receive high-frequency controller clock [AHCLKR] signals have been received. If the current counter value is greater.." hexmask.long.byte 0x0 8.--15. 1. "RMIN,Receive clock minimum boundary. This 8 bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 receive high-frequency controller clock [AHCLKR] signals have been received. If RCNT is less than RMIN after counting 32.." hexmask.long.byte 0x0 4.--7. 1. "RESERVED93," hexmask.long.byte 0x0 0.--3. 1. "RPS,Receive clock check prescaler value." line.long 0x4 "CFG_PIDTCTL,The receiver DMA event control register (PIDTCTL) contains a disable bit for the receiver DMA event. Note for device-specific registers: Accessing PIDTCTL not implemented on a specific device may cause improper operation." hexmask.long 0x4 1.--31. 1. "RESERVED94," bitfld.long 0x4 0. "RDATDMA,Receive data DMA request enable bit. If writing to this bit always write the default value of 0." "0,1" group.long 0xA0++0x23 line.long 0x0 "CFG_XGBLCTL,Alias of the global control register (GBLCTL). Writing to the transmitter global control register (XGBLCTL) affects only the transmit bits of GBLCTL (bits 12-8). Reads from XGBLCTL return the value of GBLCTL. XGBLCTL allows the transmitter to.." hexmask.long.tbyte 0x0 13.--31. 1. "RESERVED96," bitfld.long 0x0 12. "XFRST,Transmit frame sync generator reset enable bit. A write to this bit affects the XFRST bit of GBLCTL." "0,1" bitfld.long 0x0 11. "XSMRST,Transmit state machine reset enable bit. A write to this bit affects the XSMRST bit of GBLCTL." "0,1" bitfld.long 0x0 10. "XSRCLR,Transmit serializer clear enable bit. A write to this bit affects the XSRCLR bit of GBLCTL." "0,1" bitfld.long 0x0 9. "XHCLKRST,Transmit high-frequency clock divider reset enable bit. A write to this bit affects the XHCLKRST bit of GBLCTL." "0,1" bitfld.long 0x0 8. "XCLKRST,Transmit clock divider reset enable bit. A write to this bit affects the XCLKRST bit of GBLCTL." "0,1" newline rbitfld.long 0x0 5.--7. "RESERVED95," "0,1,2,3,4,5,6,7" rbitfld.long 0x0 4. "RFRST,Receive frame sync generator reset enable bit. A read of this bit returns the RFRST bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 3. "RSMRST,Receive state machine reset enable bit. A read of this bit returns the RSMRST bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 2. "RSRCLR,Receive serializer clear enable bit. A read of this bit returns the RSRSCLR bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 1. "RHCLKRST,Receive high-frequency clock divider reset enable bit. A read of this bit returns the RHCLKRST bit value of GBLCTL. Writes have no effect." "0,1" rbitfld.long 0x0 0. "RCLKRST,Receive clock divider reset enable bit. A read of this bit returns the RCLKRST bit value of GBLCTL. Writes have no effect." "0,1" line.long 0x4 "CFG_XMASK,The transmit format unit bit mask register (XMASK) determines which bits of the transmitted data are masked off and padded with a known value before being shifted out the McASP." hexmask.long 0x4 0.--31. 1. "XMASK,Transmit data mask n enable bit." line.long 0x8 "CFG_XFMT,The transmit bit stream format register (XFMT) configures the transmit data format." hexmask.long.word 0x8 18.--31. 1. "RESERVED97," bitfld.long 0x8 16.--17. "XDATDLY,Transmit sync bit delay." "0,1,2,3" bitfld.long 0x8 15. "XRVRS,Transmit serial bitstream order." "0,1" bitfld.long 0x8 13.--14. "XPAD,Pad value for extra bits in slot not belonging to word defined by XMASK. This field only applies to bits when XMASK[n] = 0." "0,1,2,3" hexmask.long.byte 0x8 8.--12. 1. "XPBIT,XPBIT value determines which bit [as written by the CPU or DMA to XBUF[n]] is used to pad the extra bits before shifting. This field only applies when XPAD = 2h." hexmask.long.byte 0x8 4.--7. 1. "XSSZ,Transmit slot size." newline bitfld.long 0x8 3. "XBUSEL,Selects whether writes to serializer buffer XRBUF[n] originate from the configuration bus [CFG] or the data [DAT] port." "0,1" bitfld.long 0x8 0.--2. "XROT,Right-rotation value for transmit rotate right format unit." "0,1,2,3,4,5,6,7" line.long 0xC "CFG_AFSXCTL,The transmit frame sync control register (AFSXCTL) configures the transmit frame sync (AFSX)." hexmask.long.word 0xC 16.--31. 1. "RESERVED100," hexmask.long.word 0xC 7.--15. 1. "XMOD,Transmit frame sync mode select bits. 1FFh = Reserved from 181h to 1FFh." rbitfld.long 0xC 5.--6. "RESERVED99," "0,1,2,3" bitfld.long 0xC 4. "FXWID,Transmit frame sync width select bit indicates the width of the transmit frame sync [AFSX] during its active period." "0,1" rbitfld.long 0xC 2.--3. "RESERVED98," "0,1,2,3" bitfld.long 0xC 1. "FSXM,Transmit frame sync generation select bit." "0,1" newline bitfld.long 0xC 0. "FSXP,Transmit frame sync polarity select bit." "0,1" line.long 0x10 "CFG_ACLKXCTL,The transmit clock control register (ACLKXCTL) configures the transmit bit clock (ACLKX) and the transmit clock generator." hexmask.long.word 0x10 21.--31. 1. "RESERVED102," bitfld.long 0x10 20. "BUSY,Status: logical OR of DIVBUSY ADJBUSY" "0,1" bitfld.long 0x10 19. "DIVBUSY,Status: divide ratio change in progress" "0,1" bitfld.long 0x10 18. "ADJBUSY,Status: one-shot adjustment in progress" "0,1" bitfld.long 0x10 16.--17. "CLKXADJ,CLKXDIV one-shot adjustment" "0,1,2,3" hexmask.long.byte 0x10 8.--15. 1. "RESERVED101," newline bitfld.long 0x10 7. "CLKXP,Transmit bitstream clock polarity select bit." "0,1" bitfld.long 0x10 6. "ASYNC,Transmit/receive operation asynchronous enable bit." "0,1" bitfld.long 0x10 5. "CLKXM,Transmit bit clock source bit." "0,1" hexmask.long.byte 0x10 0.--4. 1. "CLKXDIV,Transmit bit clock divide ratio bits determine the divide-down ratio from AHCLKX to ACLKX." line.long 0x14 "CFG_AHCLKXCTL,The transmit high-frequency clock control register (AHCLKXCTL) configures the transmit high-frequency controller clock (AHCLKX) and the transmit clock generator." hexmask.long.word 0x14 21.--31. 1. "RESERVED104," bitfld.long 0x14 20. "BUSY,Status: logical OR of DIVBUSY ADJBUSY" "0,1" bitfld.long 0x14 19. "DIVBUSY,Status: divide ratio change in progress?" "0,1" bitfld.long 0x14 18. "ADJBUSY,Status: one-shot adjustment in progress?" "0,1" bitfld.long 0x14 16.--17. "HCLKXADJ,HCLKXDIV one-shot adjustment" "0,1,2,3" bitfld.long 0x14 15. "HCLKXM,Transmit high-frequency clock source bit." "0,1" newline bitfld.long 0x14 14. "HCLKXP,Transmit bitstream high-frequency clock polarity select bit." "0,1" rbitfld.long 0x14 12.--13. "RESERVED103," "0,1,2,3" hexmask.long.word 0x14 0.--11. 1. "HCLKXDIV,Transmit high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to AHCLKX." line.long 0x18 "CFG_XTDM,The transmit TDM time slot register (XTDM) specifies in which TDM time slot the transmitter is active. TDM time slot counter range is extended to 384 slots (to support SPDIF blocks of 384 subframes). XTDM operates modulo 32. that is. XTDMS.." hexmask.long 0x18 0.--31. 1. "XTDMS,Transmitter mode during TDM time slot n." line.long 0x1C "CFG_XINTCTL,The transmitter interrupt control register (XINTCTL) controls generation of the McASP transmit interrupt (XINT). When the register bit(s) is set to 1. the occurrence of the enabled McASP condition(s) generates XINT. See the XSTAT register for.." hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED106," bitfld.long 0x1C 7. "XSTAFRM,Transmit start of frame interrupt enable bit." "0,1" rbitfld.long 0x1C 6. "RESERVED105," "0,1" bitfld.long 0x1C 5. "XDATA,Transmit data ready interrupt enable bit." "0,1" bitfld.long 0x1C 4. "XLAST,Transmit last slot interrupt enable bit." "0,1" bitfld.long 0x1C 3. "XDMAERR,Transmit DMA error interrupt enable bit." "0,1" newline bitfld.long 0x1C 2. "XCKFAIL,Transmit clock failure interrupt enable bit." "0,1" bitfld.long 0x1C 1. "XSYNCERR,Unexpected transmit frame sync interrupt enable bit." "0,1" bitfld.long 0x1C 0. "XUNDRN,Transmitter underrun interrupt enable bit." "0,1" line.long 0x20 "CFG_XSTAT,The transmitter status register (XSTAT) provides the transmitter status and transmit TDM time slot number. 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.." hexmask.long.tbyte 0x20 9.--31. 1. "RESERVED107," bitfld.long 0x20 8. "XERR,XERR bit always returns a logic-OR of: XUNDRN OR XSYNCERR OR XCKFAIL OR XDMAERR. Allows a single bit to be checked to determine if a transmitter error interrupt has occurred." "0,1" bitfld.long 0x20 7. "XDMAERR,Transmit DMA error flag. XDMAERR is set when the CPU or DMA writes more serializers through the data port in a given time slot than were programmed as transmitters. Causes a transmit interrupt [XINT] if this bit is set and XDMAERR in XINTCTL is.." "0,1" bitfld.long 0x20 6. "XSTAFRM,Transmit start of frame flag. Causes a transmit interrupt [XINT] if this bit is set and XSTAFRM in XINTCTL is set. This bit is cleared by writing a 1 to this bit. Writing a 0 has no effect." "0,1" bitfld.long 0x20 5. "XDATA,Transmit data ready flag. Causes a transmit interrupt [XINT] if this bit is set and XDATA in XINTCTL is set. This bit is cleared by writing a 1 to this bit. Writing a 0 has no effect." "0,1" bitfld.long 0x20 4. "XLAST,Transmit last slot flag. XLAST is set along with XDATA if the current slot is the last slot in a frame. Causes a transmit interrupt [XINT] if this bit is set and XLAST in XINTCTL is set. This bit is cleared by writing a 1 to this bit. Writing a 0.." "0,1" newline rbitfld.long 0x20 3. "XTDMSLOT,Returns the LSB of XSLOT. Allows a single read of XSTAT to determine whether the current TDM time slot is even or odd." "0,1" bitfld.long 0x20 2. "XCKFAIL,Transmit clock failure flag. XCKFAIL is set when the transmit clock failure detection circuit reports an error. Causes a transmit interrupt [XINT] if this bit is set and XCKFAIL in XINTCTL is set. This bit is cleared by writing a 1 to this bit." "0,1" bitfld.long 0x20 1. "XSYNCERR,Unexpected transmit frame sync flag. XSYNCERR is set when a new transmit frame sync [AFSX] occurs before it is expected. Causes a transmit interrupt [XINT] if this bit is set and XSYNCERR in XINTCTL is set. This bit is cleared by writing a 1 to.." "0,1" bitfld.long 0x20 0. "XUNDRN,Transmitter underrun flag. XUNDRN is set when the transmit serializer is instructed to transfer data from XBUF to XRSR but XBUF has not yet been serviced with new data since the last transfer. Causes a transmit interrupt [XINT] if this bit is.." "0,1" rgroup.long 0xC4++0x3 line.long 0x0 "CFG_XSLOT,The current transmit TDM time slot register (XSLOT) indicates the current time slot for the transmit data frame." hexmask.long.tbyte 0x0 10.--31. 1. "RESERVED108," hexmask.long.word 0x0 0.--9. 1. "XSLOTCNT,Current transmit time slot count. Legal values: 0 to 383 [17Fh]. During reset this counter value is 383 so the next count value which is used to encode the first DIT group of data will be 0 and encodes the B preamble. TDM function is not.." group.long 0xC8++0x7 line.long 0x0 "CFG_XCLKCHK,The transmit clock check control register (XCLKCHK) configures the transmit clock failure detection circuit." hexmask.long.byte 0x0 24.--31. 1. "XCNT,Transmit clock count value [from previous measurement]. The clock circuit continually counts the number of system clocks for every 32 transmit high-frequency controller clock [AHCLKX] signals and stores the count in XCNT until the next measurement.." hexmask.long.byte 0x0 16.--23. 1. "XMAX,Transmit clock maximum boundary. This 8 bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 transmit high-frequency controller clock [AHCLKX] signals have been received. If the current counter value is greater.." hexmask.long.byte 0x0 8.--15. 1. "XMIN,Transmit clock minimum boundary. This 8 bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 transmit high-frequency controller clock [AHCLKX] signals have been received. If XCNT is less than XMIN after counting.." hexmask.long.byte 0x0 4.--7. 1. "RESERVED109," hexmask.long.byte 0x0 0.--3. 1. "XPS,Transmit clock check prescaler value. Fh = Reserved from 9h to Fh." line.long 0x4 "CFG_XEVTCTL,The transmitter DMA event control register (XEVTCTL) contains a disable bit for the transmit DMA event. Note for device-specific registers: Accessing XEVTCTL not implemented on a specific device may cause improper device operation." hexmask.long 0x4 1.--31. 1. "RESERVED110," bitfld.long 0x4 0. "XDATDMA,Transmit data DMA request enable bit. If writing to this bit always write the default value of 0." "0,1" group.long 0x100++0x5F line.long 0x0 "CFG_DITCSRA0,The DIT left channel status registers (DITCSRA0) provide the status of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x0 0.--31. 1. "DITCSRA,DIT left channel status registers." line.long 0x4 "CFG_DITCSRA1,The DIT left channel status registers (DITCSRA) provide the status of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x4 0.--31. 1. "DITCSRA,DIT left channel status registers." line.long 0x8 "CFG_DITCSRA2,The DIT left channel status registers (DITCSRA) provide the status of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x8 0.--31. 1. "DITCSRA,DIT left channel status registers." line.long 0xC "CFG_DITCSRA3,The DIT left channel status registers (DITCSRA) provide the status of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the.." hexmask.long 0xC 0.--31. 1. "DITCSRA,DIT left channel status registers." line.long 0x10 "CFG_DITCSRA4,The DIT left channel status registers (DITCSRA) provide the status of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x10 0.--31. 1. "DITCSRA,DIT left channel status registers." line.long 0x14 "CFG_DITCSRA5,The DIT left channel status registers (DITCSRA) provide the status of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x14 0.--31. 1. "DITCSRA,DIT left channel status registers." line.long 0x18 "CFG_DITCSRB0,The DIT right channel status registers (DITCSRB0) provide the status of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x18 0.--31. 1. "DITCSRB,DIT right channel status registers." line.long 0x1C "CFG_DITCSRB1,The DIT right channel status registers (DITCSRB0) provide the status of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x1C 0.--31. 1. "DITCSRB,DIT right channel status registers." line.long 0x20 "CFG_DITCSRB2,The DIT right channel status registers (DITCSRB0) provide the status of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x20 0.--31. 1. "DITCSRB,DIT right channel status registers." line.long 0x24 "CFG_DITCSRB3,The DIT right channel status registers (DITCSRB0) provide the status of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x24 0.--31. 1. "DITCSRB,DIT right channel status registers." line.long 0x28 "CFG_DITCSRB4,The DIT right channel status registers (DITCSRB0) provide the status of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x28 0.--31. 1. "DITCSRB,DIT right channel status registers." line.long 0x2C "CFG_DITCSRB5,The DIT right channel status registers (DITCSRB0) provide the status of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of channel status data for a complete block of transmission. The DIT reuses.." hexmask.long 0x2C 0.--31. 1. "DITCSRB,DIT right channel status registers." line.long 0x30 "CFG_DITUDRA0,The DIT left channel user data registers (DITUDRA0) provides the user data of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x30 0.--31. 1. "DITUDRA,DIT left channel user data registers." line.long 0x34 "CFG_DITUDRA1,The DIT left channel user data registers (DITUDRA0) provides the user data of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x34 0.--31. 1. "DITUDRA,DIT left channel user data registers." line.long 0x38 "CFG_DITUDRA2,The DIT left channel user data registers (DITUDRA0) provides the user data of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x38 0.--31. 1. "DITUDRA,DIT left channel user data registers." line.long 0x3C "CFG_DITUDRA3,The DIT left channel user data registers (DITUDRA0) provides the user data of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x3C 0.--31. 1. "DITUDRA,DIT left channel user data registers." line.long 0x40 "CFG_DITUDRA4,The DIT left channel user data registers (DITUDRA0) provides the user data of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x40 0.--31. 1. "DITUDRA,DIT left channel user data registers." line.long 0x44 "CFG_DITUDRA5,The DIT left channel user data registers (DITUDRA0) provides the user data of each left channel (even TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x44 0.--31. 1. "DITUDRA,DIT left channel user data registers." line.long 0x48 "CFG_DITUDRB0,The DIT right channel user data registers (DITUDRB0) provides the user data of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x48 0.--31. 1. "DITUDRB,DIT right channel user data registers." line.long 0x4C "CFG_DITUDRB1,The DIT right channel user data registers (DITUDRB0) provides the user data of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x4C 0.--31. 1. "DITUDRB,DIT right channel user data registers." line.long 0x50 "CFG_DITUDRB2,The DIT right channel user data registers (DITUDRB0) provides the user data of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x50 0.--31. 1. "DITUDRB,DIT right channel user data registers." line.long 0x54 "CFG_DITUDRB3,The DIT right channel user data registers (DITUDRB0) provides the user data of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x54 0.--31. 1. "DITUDRB,DIT right channel user data registers." line.long 0x58 "CFG_DITUDRB4,The DIT right channel user data registers (DITUDRB0) provides the user data of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x58 0.--31. 1. "DITUDRB,DIT right channel user data registers." line.long 0x5C "CFG_DITUDRB5,The DIT right channel user data registers (DITUDRB0) provides the user data of each right channel (odd TDM time slot). Each of the six 32-bit registers can store 192 bits of user data for a complete block of transmission. The DIT reuses the.." hexmask.long 0x5C 0.--31. 1. "DITUDRB,DIT right channel user data registers." group.long 0x180++0x3F line.long 0x0 "CFG_SRCTL0,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x0 6.--31. 1. "RESERVED111," rbitfld.long 0x0 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x0 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x0 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x0 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x4 "CFG_SRCTL1,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x4 6.--31. 1. "RESERVED112," rbitfld.long 0x4 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x4 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x4 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x4 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x8 "CFG_SRCTL2,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x8 6.--31. 1. "RESERVED113," rbitfld.long 0x8 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x8 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x8 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x8 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0xC "CFG_SRCTL3,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0xC 6.--31. 1. "RESERVED114," rbitfld.long 0xC 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0xC 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0xC 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0xC 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x10 "CFG_SRCTL4,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x10 6.--31. 1. "RESERVED115," rbitfld.long 0x10 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x10 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x10 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x10 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x14 "CFG_SRCTL5,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x14 6.--31. 1. "RESERVED116," rbitfld.long 0x14 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x14 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x14 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x14 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x18 "CFG_SRCTL6,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x18 6.--31. 1. "RESERVED117," rbitfld.long 0x18 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x18 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x18 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x18 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x1C "CFG_SRCTL7,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x1C 6.--31. 1. "RESERVED118," rbitfld.long 0x1C 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x1C 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x1C 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x1C 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x20 "CFG_SRCTL8,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x20 6.--31. 1. "RESERVED119," rbitfld.long 0x20 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x20 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x20 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x20 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x24 "CFG_SRCTL9,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x24 6.--31. 1. "RESERVED120," rbitfld.long 0x24 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x24 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x24 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x24 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x28 "CFG_SRCTL10,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x28 6.--31. 1. "RESERVED121," rbitfld.long 0x28 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x28 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x28 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x28 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x2C "CFG_SRCTL11,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x2C 6.--31. 1. "RESERVED122," rbitfld.long 0x2C 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x2C 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x2C 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x2C 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x30 "CFG_SRCTL12,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x30 6.--31. 1. "RESERVED123," rbitfld.long 0x30 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x30 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x30 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x30 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x34 "CFG_SRCTL13,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x34 6.--31. 1. "RESERVED124," rbitfld.long 0x34 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x34 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x34 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x34 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x38 "CFG_SRCTL14,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x38 6.--31. 1. "RESERVED125," rbitfld.long 0x38 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x38 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x38 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x38 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" line.long 0x3C "CFG_SRCTL15,Each serializer on the McASP has a serializer control register (SRCTL0). There are up to 16 serializers per McASP. Note for device-specific registers: Accessing SRCTL0n not implemented on a specific device may cause improper device operation." hexmask.long 0x3C 6.--31. 1. "RESERVED126," rbitfld.long 0x3C 5. "RRDY,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive [2h] RRDY switches from 0 to 1 whenever data is transferred from XRSR to RBUF." "0,1" rbitfld.long 0x3C 4. "XRDY,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit [1h] XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched from 0 to 1.." "0,1" bitfld.long 0x3C 2.--3. "DISMOD,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a McASP pin [PFUNC = 0]." "0,1,2,3" bitfld.long 0x3C 0.--1. "SRMOD,Serializer mode bit." "0,1,2,3" group.long 0x200++0x3F line.long 0x0 "CFG_XBUF0,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x0 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x4 "CFG_XBUF1,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x4 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x8 "CFG_XBUF2,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x8 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0xC "CFG_XBUF3,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0xC 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x10 "CFG_XBUF4,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x10 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x14 "CFG_XBUF5,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x14 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x18 "CFG_XBUF6,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x18 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x1C "CFG_XBUF7,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x1C 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x20 "CFG_XBUF8,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x20 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x24 "CFG_XBUF9,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x24 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x28 "CFG_XBUF10,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x28 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x2C "CFG_XBUF11,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x2C 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x30 "CFG_XBUF12,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x30 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x34 "CFG_XBUF13,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x34 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x38 "CFG_XBUF14,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x38 0.--31. 1. "XBUF,Transmit buffers for serializers." line.long 0x3C "CFG_XBUF15,The transmit buffers for the serializers (XBUF0) hold data from the transmit format unit. For transmit operations. the XBUF0 is an alias of the XRBUF in the serializer. Accessing XBUF0 registers not implemented on a specific device may cause.." hexmask.long 0x3C 0.--31. 1. "XBUF,Transmit buffers for serializers." group.long 0x280++0x3F line.long 0x0 "CFG_RBUF0,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x0 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x4 "CFG_RBUF1,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x4 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x8 "CFG_RBUF2,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x8 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0xC "CFG_RBUF3,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0xC 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x10 "CFG_RBUF4,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x10 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x14 "CFG_RBUF5,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x14 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x18 "CFG_RBUF6,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x18 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x1C "CFG_RBUF7,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x1C 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x20 "CFG_RBUF8,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x20 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x24 "CFG_RBUF9,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x24 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x28 "CFG_RBUF10,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x28 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x2C "CFG_RBUF11,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x2C 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x30 "CFG_RBUF12,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x30 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x34 "CFG_RBUF13,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x34 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x38 "CFG_RBUF14,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x38 0.--31. 1. "RBUF,Receive buffers for serializers." line.long 0x3C "CFG_RBUF15,The receive buffers for the serializers (RBUF0) hold data from the serializer before the data goes to the receive format unit. For receive operations. the RBUF0 is an alias of the XRBUF0 in the serializer. Accessing XBUF registers not.." hexmask.long 0x3C 0.--31. 1. "RBUF,Receive buffers for serializers." group.long 0x1000++0x3 line.long 0x0 "CFG_WFIFOCTL,The WNUMEVT and WNUMDMA values must be set prior to enabling the Write FIFO. If the Write FIFO is to be enabled. it must be enabled prior to taking the McASP out of reset" hexmask.long.word 0x0 17.--31. 1. "RESERVED127," bitfld.long 0x0 16. "WENA,Write FIFO enable bit." "0,1" hexmask.long.byte 0x0 8.--15. 1. "WNUMEVT,Write word count per DMA event [32 bit]. When the Write FIFO has space for at least WNUMEVT words of data then an AXEVT [transmit DMA event] is generated to the host/DMA controller. This value should be set to a non-zero integer multiple of the.." hexmask.long.byte 0x0 0.--7. 1. "WNUMDMA,Write word count per transfer [32 bit words]. Upon a transmit DMA event from the McASP WNUMDMA words are transferred from the Write FIFO to the McASP. This value must equal the number of McASP serializers used as transmitters. This value must be.." rgroup.long 0x1004++0x3 line.long 0x0 "CFG_WFIFOSTS," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED128," hexmask.long.byte 0x0 0.--7. 1. "WLVL,Write level [read-only]. Number of 32 bit words currently in the Write FIFO. 40h = 3 to 64 words currently in Write FIFO from 3h to 40h. FFh = Reserved from 41h to FFh." group.long 0x1008++0x3 line.long 0x0 "CFG_RFIFOCTL,The RNUMEVT and RNUMDMA values must be set prior to enabling the Read FIFO. If the Read FIFO is to be enabled. it must be enabled prior to taking the McASP out of reset" hexmask.long.word 0x0 17.--31. 1. "RESERVED129," bitfld.long 0x0 16. "RENA,Read FIFO enable bit." "0,1" hexmask.long.byte 0x0 8.--15. 1. "RNUMEVT,Read word count per DMA event [32 bit]. When the Read FIFO contains at least RNUMEVT words of data then an AREVT [receive DMA event] is generated to the host/DMA controller. This value should be set to a non-zero integer multiple of the number.." hexmask.long.byte 0x0 0.--7. 1. "RNUMDMA,Read word count per transfer [32 bit words]. Upon a receive DMA event from the McASP the Read FIFO reads RNUMDMA words from the McASP. This value must equal the number of McASP serializers used as receivers. This value must be set prior to.." rgroup.long 0x100C++0x3 line.long 0x0 "CFG_RFIFOSTS," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED130," hexmask.long.byte 0x0 0.--7. 1. "RLVL,Read level [read-only]. Number of 32 bit words currently in the Read FIFO. 40h = 3 to 64 words currently in Read FIFO from 3h to 40h. FFh = Reserved from 41h to FFh." tree.end tree.end tree "MCRC64_0_REGS (MCRC64_0_REGS)" base ad:0x30300000 group.long 0x0++0x3 line.long 0x0 "MCRC64_REGS_CRC_CTRL0,CRC Global Control Register 0" bitfld.long 0x0 24. "CH4_PSA_SWRE,Channel 4 PSA Software Reset. When set the PSA Signature Register is reset to all zero. Software reset does not reset software reset bit itself. Therefore CPU is required to clear this bit by writing a 0 . 0 = PSA Signature Register not.." "0: PSA Signature Register not reset,1: PSA Signature Register reset" newline bitfld.long 0x0 16. "CH3_PSA_SWRE,Channel 3 PSA Software Reset. When set the PSA Signature Register is reset to all zero. Software reset does not reset software reset bit itself. Therefore CPU is required to clear this bit by writing a 0 . 0 = PSA Signature Register not.." "0: PSA Signature Register not reset,1: PSA Signature Register reset" newline bitfld.long 0x0 8. "CH2_PSA_SWRE,Channel 2 PSA Software Reset. When set the PSA Signature Register is reset to all zero. Software reset does not reset software reset bit itself. Therefore CPU is required to clear this bit by writing a 0 . 0 = PSA Signature Register not.." "0: PSA Signature Register not reset,1: PSA Signature Register reset" newline bitfld.long 0x0 0. "CH1_PSA_SWRE,Channel 1 PSA Software Reset. When set the PSA Signature Register is reset to all zero. Software reset does not reset software reset bit itself. Therefore CPU is required to clear this bit by writing a 0 . 0 = PSA Signature Register not.." "0: PSA Signature Register not reset,1: PSA Signature Register reset" group.long 0x8++0x3 line.long 0x0 "MCRC64_REGS_CRC_CTRL1,CRC Global Control Register 1" bitfld.long 0x0 0. "PWDN,Power Down. When set MCRC moduleMCRC Module is put in power down mode. 0 = MCRC is not in power down mode. 1 = MCRC is in power down mode." "0: MCRC is not in power down mode,1: MCRC is in power down mode" group.long 0x10++0x3 line.long 0x0 "MCRC64_REGS_CRC_CTRL2,Data capture mode is especially useful when it is used in conjunction when data trace (CH1_TRACEEN) for channel 1. The seed value can be planted in PSA Signature Register during data capture mode by writing a seed value into PSA.." bitfld.long 0x0 24.--25. "CH4_MODE,Channel 4 Mode. 00 = Data Capture mode. In this mode the PSA Signature Register does not compress data when it is written. Any data written to PSA Signature Register is simply captured by PSA Signature Register without any compression. This.." "0: Data Capture mode,1: AUTO mode,?,?" newline bitfld.long 0x0 16.--17. "CH3_MODE,Channel 3 Mode. 00 = Data Capture mode. In this mode the PSA Signature Register does not compress data when it is written. Any data written to PSA Signature Register is simply captured by PSA Signature Register without any compression. This.." "0: Data Capture mode,1: AUTO mode,?,?" newline bitfld.long 0x0 8.--9. "CH2_MODE,Channel 2 Mode. 00 = Data Capture mode. In this mode the PSA Signature Register does not compress data when it is written. Any data written to PSA Signature Register is simply captured by PSA Signature Register without any compression. This.." "0: Data Capture mode,1: AUTO mode,?,?" newline bitfld.long 0x0 4. "CH1_TRACEEN,Channel 1 Data Trace Enable When set the channel is put into data trace mode. The channel snoops on the CPU VBUSM ITCM DTCM buses for any read transaction. Any read data on these buses is compressed by the PSA Signature Register. When.." "0: Data Trace disable,1: Data Trace enable" newline bitfld.long 0x0 0.--1. "CH1_MODE,Channel 1 Mode. 00 = Data Capture mode. In this mode the PSA Signature Register does not compress data when it is written. Any data written to PSA Signature Register is simply captured by PSA Signature Register without any compression. This.." "0: Data Capture mode,1: AUTO mode,?,?" group.long 0x18++0x3 line.long 0x0 "MCRC64_REGS_CRC_INTS,CRC Interrupt Enable Set Register" bitfld.long 0x0 28. "CH4_TIME_OUT_ENS_,Channel 4 Timeout Interrupt Enable Bit Writing a one to this bit enable the timeout interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Timeout.." "0: Has no effect,1: Timeout Interrupt enable" newline bitfld.long 0x0 27. "CH4_UNDERENS,Channel 4 Underrun Interrupt Enable Bit Writing a one to this bit enable the underrun interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Underrun.." "0: Has no effect,1: Underrun Interrupt enable" newline bitfld.long 0x0 26. "CH4_OVERENS,Channel 4 Overrun Interrupt Enable Bit Writing a one to this bit enable the overrun interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Overrun.." "0: Has no effect,1: Overrun Interrupt enable" newline bitfld.long 0x0 25. "CH4_CRC_FAILENS,Channel 4 CRC Fail Interrupt Enable Bit. Writing a one to this bit enable the CRC fail interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = CRC Fail.." "0: Has no effect,1: CRC Fail Interrupt enable" newline bitfld.long 0x0 24. "CH4_CCITENS,Channel 4 Compression Complete Interrupt Enable Bit. Writing a one to this bit enable the CRC fail interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read:.." "0: Has no effect,1: Compression Complete Interrupt enable" newline bitfld.long 0x0 20. "CH3_TIME_OUT_ENS,Channel 3 Timeout Interrupt Enable Bit Writing a one to this bit enable the timeout interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Timeout.." "0: Has no effect,1: Timeout Interrupt enable" newline bitfld.long 0x0 19. "CH3_UNDERENS,Channel 3 Underrun Interrupt Enable Bit Writing a one to this bit enable the underrun interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Underrun.." "0: Has no effect,1: Underrun Interrupt enable" newline bitfld.long 0x0 18. "CH3_OVERENS,Channel 3 Overrun Interrupt Enable Bit Writing a one to this bit enable the overrun interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Overrun.." "0: Has no effect,1: Overrun Interrupt enable" newline bitfld.long 0x0 17. "CH3_CRC_FAILENS,Channel 3 CRC Fail Interrupt Enable Bit. Writing a one to this bit enable the CRC fail interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = CRC Fail.." "0: Has no effect,1: CRC Fail Interrupt enable" newline bitfld.long 0x0 16. "CH3_CCITENS,Channel 3 Compression Complete Interrupt Enable Bit. Writing a one to this bit enable the CRC fail interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read:.." "0: Has no effect,1: Compression Complete Interrupt enable" newline bitfld.long 0x0 12. "CH2_TIME_OUT_ENS_,Channel 2 Timeout Interrupt Enable Bit Writing a one to this bit enable the timeout interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Timeout.." "0: Has no effect,1: Timeout Interrupt enable" newline bitfld.long 0x0 11. "CH2_UNDERENS,Channel 2 Underrun Interrupt Enable Bit Writing a one to this bit enable the underrun interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Underrun.." "0: Has no effect,1: Underrun Interrupt enable" newline bitfld.long 0x0 10. "CH2_OVERENS,Channel 2 Overrun Interrupt Enable Bit Writing a one to this bit enable the overrun interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Overrun.." "0: Has no effect,1: Overrun Interrupt enable" newline bitfld.long 0x0 9. "CH2_CRC_FAILENS,Channel 2 CRC Fail Interrupt Enable Bit. Writing a one to this bit enable the CRC fail interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = CRC Fail.." "0: Has no effect,1: CRC Fail Interrupt enable" newline bitfld.long 0x0 8. "CH2_CCITENS,Channel 2 Compression Complete Interrupt Enable Bit. Writing a one to this bit enable the CRC fail interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read:.." "0: Has no effect,1: Compression Complete Interrupt enable" newline bitfld.long 0x0 4. "CH1_TIME_OUT_ENS_,Channel 1 Timeout Interrupt Enable Bit Writing a one to this bit enable the timeout interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Timeout.." "0: Has no effect,1: Timeout Interrupt enable" newline bitfld.long 0x0 3. "CH1_UNDERENS,Channel 1 Underrun Interrupt Enable Bit Writing a one to this bit enable the underrun interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Underrun.." "0: Has no effect,1: Underrun Interrupt enable" newline bitfld.long 0x0 2. "CH1_OVERENS,Channel 1 Overrun Interrupt Enable Bit Writing a one to this bit enable the overrun interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Overrun.." "0: Has no effect,1: Overrun Interrupt enable" newline bitfld.long 0x0 1. "CH1_CRC_FAILENS,Channel 1 CRC Fail Interrupt Enable Bit. Writing a one to this bit enable the CRC fail interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = CRC Fail.." "0: Has no effect,1: CRC Fail Interrupt enable" newline bitfld.long 0x0 0. "CH1_CCITENS,Channel 1 Compression Complete Interrupt Enable Bit. Writing a one to this bit enable the CRC fail interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read:.." "0: Has no effect,1: Compression Complete Interrupt enable" group.long 0x20++0x3 line.long 0x0 "MCRC64_REGS_CRC_INTR,CRC Interrupt Enable Reset Register" bitfld.long 0x0 28. "CH4_TIME_OUT_ENR,Channel 4 Timeout Interrupt Disable Bit Writing a one to this bit disable the timeout interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Timeout.." "0: Has no effect,1: Timeout Interrupt enable" newline bitfld.long 0x0 27. "CH4_UNDERENR,Channel 4 Underrun Interrupt Disable Bit Writing a one to this bit disable the underrun interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Underrun.." "0: Has no effect,1: Underrun Interrupt enable" newline bitfld.long 0x0 26. "CH4_OVERENR,Channel 4 Overrun Interrupt Disable Bit Writing a one to this bit disable the overrun interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Overrun.." "0: Has no effect,1: Overrun Interrupt enable" newline bitfld.long 0x0 25. "CH4_CRC_FAILENR,Channel 4 CRC Fail Interrupt Disable Bit. Writing a one to this bit disable the CRC fail interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = CRC.." "0: Has no effect,1: CRC Fail Interrupt enable" newline bitfld.long 0x0 24. "CH4_CCITENR,Channel 4 Compression Complete Interrupt Disable Bit Writing a one to this bit disable the CRC fail interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable) User and privileged mode read: 0.." "0: Has no effect,1: Compression Complete Interrupt disable" newline bitfld.long 0x0 20. "CH3_TIME_OUT_ENR_,Channel 3 Timeout Interrupt Disable Bit Writing a one to this bit disable the timeout interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Timeout.." "0: Has no effect,1: Timeout Interrupt enable" newline bitfld.long 0x0 19. "CH3_UNDERENR,Channel 3 Underrun Interrupt Disable Bit Writing a one to this bit disable the underrun interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Underrun.." "0: Has no effect,1: Underrun Interrupt enable" newline bitfld.long 0x0 18. "CH3_OVERENR,Channel 3 Overrun Interrupt Disable Bit Writing a one to this bit disable the overrun interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Overrun.." "0: Has no effect,1: Overrun Interrupt enable" newline bitfld.long 0x0 17. "CH3_CRC_FAILENR,Channel 3 CRC Fail Interrupt Disable Bit. Writing a one to this bit disable the CRC fail interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = CRC.." "0: Has no effect,1: CRC Fail Interrupt enable" newline bitfld.long 0x0 16. "CH3_CCITENR,Channel 3 Compression Complete Interrupt Disable Bit Writing a one to this bit disable the CRC fail interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable) User and privileged mode read: 0.." "0: Has no effect,1: Compression Complete Interrupt disable" newline bitfld.long 0x0 12. "CH2_TIME_OUT_ENR_,Channel 2 Timeout Interrupt Disable Bit Writing a one to this bit disable the timeout interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Timeout.." "0: Has no effect,1: Timeout Interrupt enable" newline bitfld.long 0x0 11. "CH2_UNDERENR,Channel 2 Underrun Interrupt Disable Bit Writing a one to this bit disable the underrun interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Underrun.." "0: Has no effect,1: Underrun Interrupt enable" newline bitfld.long 0x0 10. "CH2_OVERENR,Channel 2 Overrun Interrupt Disable Bit Writing a one to this bit disable the overrun interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Overrun.." "0: Has no effect,1: Overrun Interrupt enable" newline bitfld.long 0x0 9. "CH2_CRC_FAILENR,Channel 2 CRC Fail Interrupt Disable Bit. Writing a one to this bit disable the CRC fail interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = CRC.." "0: Has no effect,1: CRC Fail Interrupt enable" newline bitfld.long 0x0 8. "CH2_CCITENR,Channel 2 Compression Complete Interrupt Disable Bit Writing a one to this bit disable the CRC fail interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable) User and privileged mode read: 0.." "0: Has no effect,1: Compression Complete Interrupt disable" newline bitfld.long 0x0 4. "CH1_TIME_OUT_ENR_,Channel 1 Timeout Interrupt Disable Bit Writing a one to this bit disable the timeout interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Timeout.." "0: Has no effect,1: Timeout Interrupt enable" newline bitfld.long 0x0 3. "CH1_UNDERENR,Channel 1 Underrun Interrupt Disable Bit Writing a one to this bit disable the underrun interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Underrun.." "0: Has no effect,1: Underrun Interrupt enable" newline bitfld.long 0x0 2. "CH1_OVERENR,Channel 1 Overrun Interrupt Disable Bit Writing a one to this bit disable the overrun interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = Overrun.." "0: Has no effect,1: Overrun Interrupt enable" newline bitfld.long 0x0 1. "CH1_CRC_FAILENR,Channel 1 CRC Fail Interrupt Disable Bit. Writing a one to this bit disable the CRC fail interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable). User and privileged mode read: 0 = CRC.." "0: Has no effect,1: CRC Fail Interrupt enable" newline bitfld.long 0x0 0. "CH1_CCITENR,Channel 1 Compression Complete Interrupt Disable Bit Writing a one to this bit disable the CRC fail interrupt. Writing a zero has no effect. Reading from this bit gives the status (interrupt enable/disable) User and privileged mode read: 0.." "0: Has no effect,1: Compression Complete Interrupt disable" group.long 0x28++0x3 line.long 0x0 "MCRC64_REGS_CRC_STATUS,CRC Interrupt Status Register" bitfld.long 0x0 28. "CH4_TIME_OUT,Channel 4 CRC Timeout Status Flag This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is set in AUTO mode. 0 = No timeout interrupt is active 1 = Timeout interrupt is active" "0: No timeout interrupt is active,1: Timeout interrupt is active" newline bitfld.long 0x0 27. "CH4_UNDER,Channel 4 CRC Underrun Status Flag. This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is set in AUTO mode only 0 = No underrun interrupt is active 1 = Underrun interrupt is active" "0: No underrun interrupt is active,1: Underrun interrupt is active" newline bitfld.long 0x0 26. "CH4_OVER,Channel 4 CRC Overrun Status Flag This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is set in AUTO mode 0 = No overrun interrupt is active 1 = Overrun interrupt is active" "0: No overrun interrupt is active,1: Overrun interrupt is active" newline bitfld.long 0x0 25. "CH4_CRC_FAIL,Channel 4 CRC Compare Fail Status Flag. This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is set in AUTO mode only. 0 = No CRC compare fail interrupt is active 1 = CRC compare fail interrupt is active" "0: No CRC compare fail interrupt is active,1: CRC compare fail interrupt is active" newline bitfld.long 0x0 24. "CH4_CCIT,Channel 4 CRC Pattern Compression Complete Status Flag. This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is only set in Semi-CPU mode. 0 = No CRC pattern compression complete interrupt is active 1 = CRC.." "0: No CRC pattern compression complete interrupt is..,1: CRC pattern compression complete interrupt is.." newline bitfld.long 0x0 20. "CH3_TIME_OUT,Channel 3 CRC Timeout Status Flag This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is set in AUTO mode. 0 = No timeout interrupt is active 1 = Timeout interrupt is active" "0: No timeout interrupt is active,1: Timeout interrupt is active" newline bitfld.long 0x0 19. "CH3_UNDER,Channel 3 CRC Underrun Status Flag. This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is set in AUTO mode only 0 = No underrun interrupt is active 1 = Underrun interrupt is active" "0: No underrun interrupt is active,1: Underrun interrupt is active" newline bitfld.long 0x0 18. "CH3_OVER,Channel 3 CRC Overrun Status Flag This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is set in AUTO mode 0 = No overrun interrupt is active 1 = Overrun interrupt is active" "0: No overrun interrupt is active,1: Overrun interrupt is active" newline bitfld.long 0x0 17. "CH3_CRC_FAIL,Channel 3 CRC Compare Fail Status Flag. This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is set in AUTO mode only. 0 = No CRC compare fail interrupt is active 1 = CRC compare fail interrupt is active" "0: No CRC compare fail interrupt is active,1: CRC compare fail interrupt is active" newline bitfld.long 0x0 16. "CH3_CCIT,Channel 3 CRC Pattern Compression Complete Status Flag. This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is only set in Semi-CPU mode. 0 = No CRC pattern compression complete interrupt is active 1 = CRC.." "0: No CRC pattern compression complete interrupt is..,1: CRC pattern compression complete interrupt is.." newline bitfld.long 0x0 12. "CH2_TIME_OUT,Channel 2 CRC Timeout Status Flag This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is set in AUTO mode. 0 = No timeout interrupt is active 1 = Timeout interrupt is active" "0: No timeout interrupt is active,1: Timeout interrupt is active" newline bitfld.long 0x0 11. "CH2_UNDER,Channel 2 CRC Underrun Status Flag. This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is set in AUTO mode only 0 = No underrun interrupt is active 1 = Underrun interrupt is active" "0: No underrun interrupt is active,1: Underrun interrupt is active" newline bitfld.long 0x0 10. "CH2_OVER,Channel 2 CRC Overrun Status Flag This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is set in AUTO mode 0 = No overrun interrupt is active 1 = Overrun interrupt is active" "0: No overrun interrupt is active,1: Overrun interrupt is active" newline bitfld.long 0x0 9. "CH2_CRC_FAIL,Channel 2 CRC Compare Fail Status Flag. This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is set in AUTO mode only. 0 = No CRC compare fail interrupt is active 1 = CRC compare fail interrupt is active" "0: No CRC compare fail interrupt is active,1: CRC compare fail interrupt is active" newline bitfld.long 0x0 8. "CH2_CCIT,Channel 2 CRC Pattern Compression Complete Status Flag. This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is only set in Semi-CPU mode. 0 = No CRC pattern compression complete interrupt is active 1 = CRC.." "0: No CRC pattern compression complete interrupt is..,1: CRC pattern compression complete interrupt is.." newline bitfld.long 0x0 4. "CH1_TIME_OUT,Channel 1 CRC Timeout Status Flag This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is set in AUTO mode. 0 = No timeout interrupt is active 1 = Timeout interrupt is active" "0: No timeout interrupt is active,1: Timeout interrupt is active" newline bitfld.long 0x0 3. "CH1_UNDER,Channel 1 CRC Underrun Status Flag. This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is set in AUTO mode only 0 = No underrun interrupt is active 1 = Underrun interrupt is active" "0: No underrun interrupt is active,1: Underrun interrupt is active" newline bitfld.long 0x0 2. "CH1_OVER,Channel 1 CRC Overrun Status Flag This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is set in AUTO mode 0 = No overrun interrupt is active 1 = Overrun interrupt is active" "0: No overrun interrupt is active,1: Overrun interrupt is active" newline bitfld.long 0x0 1. "CH1_CRC_FAIL,Channel 1 CRC Compare Fail Status Flag. This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is set in AUTO mode only. 0 = No CRC compare fail interrupt is active 1 = CRC compare fail interrupt is active" "0: No CRC compare fail interrupt is active,1: CRC compare fail interrupt is active" newline bitfld.long 0x0 0. "CH1_CCIT,Channel 1 CRC Pattern Compression Complete Status Flag. This bit is cleared by writing a 1 to it only. Writing 0 has no effect. This bit is only set in Semi-CPU mode. 0 = No CRC pattern compression complete interrupt is active 1 = CRC.." "0: No CRC pattern compression complete interrupt is..,1: CRC pattern compression complete interrupt is.." rgroup.long 0x30++0x3 line.long 0x0 "MCRC64_REGS_CRC_INT_OFFSET_REG,CRC Interrupt Offset" hexmask.long.byte 0x0 0.--7. 1. "CRC,Interrupt Offset. This register indicates the highest priority pending interrupt vector address. Reading the offset register automatically clears the respective interrupt flag." rgroup.long 0x38++0x3 line.long 0x0 "MCRC64_REGS_CRC_BUSY,CRC Busy Register" bitfld.long 0x0 24. "CH4_BUSY,During AUTO or Semi-CPU mode the busy flag is set when the first data pattern of the block is compressed and remains set until the the last data pattern of the block is compressed. The flag is cleared when the last data pattern of the block is.." "0,1" newline bitfld.long 0x0 16. "CH3_BUSY,During AUTO or Semi-CPU mode the busy flag is set when the first data pattern of the block is compressed and remains set until the the last data pattern of the block is compressed. The flag is cleared when the last data pattern of the block is.." "0,1" newline bitfld.long 0x0 8. "CH2_BUSY,During AUTO or Semi-CPU mode the busy flag is set when the first data pattern of the block is compressed and remains set until the the last data pattern of the block is compressed. The flag is cleared when the last data pattern of the block is.." "0,1" newline bitfld.long 0x0 0. "CH1_BUSY,During AUTO or Semi-CPU mode the busy flag is set when the first data pattern of the block is compressed and remains set until the the last data pattern of the block is compressed. The flag is cleared when the last data pattern of the block is.." "0,1" group.long 0x40++0x7 line.long 0x0 "MCRC64_REGS_CRC_PCOUNT_REG1,CRC Pattern Counter Preload Register1" hexmask.long.tbyte 0x0 0.--19. 1. "CRC_PAT_COUNT1,Channel 1 Pattern Counter Preload Register. This register contains the number of data patterns in one sector to be compressed before a CRC is performed." line.long 0x4 "MCRC64_REGS_CRC_SCOUNT_REG1,CRC Sector Counter Preload Register1" hexmask.long.word 0x4 0.--15. 1. "CRC_SEC_COUNT1,Channel 1 Sector Counter Preload Register. This register contains the number of sectors in one block of memory." rgroup.long 0x48++0x3 line.long 0x0 "MCRC64_REGS_CRC_CURSEC_REG1,CRC Current Sector Register 1" hexmask.long.word 0x0 0.--15. 1. "CRC_CURSEC1,Channel 1 Current Sector ID Register. In AUTO mode this register contains the current sector number of which the signature verification fails. The sector counter is a free running up counter. When a sector fails the erroneous sector number.." group.long 0x4C++0x7 line.long 0x0 "MCRC64_REGS_CRC_WDTOPLD1,CRC channel 1 Watchdog Timeout Preload Register A" hexmask.long.tbyte 0x0 0.--23. 1. "CRC_WDTOPLD1,Channel 1 Watchdog Timeout Counter Preload Register. This register contains the number of clock cycles within which the DMA must transfer the next block of data patterns." line.long 0x4 "MCRC64_REGS_CRC_BCTOPLD1,CRC channel 1 Block Complete Timeout Preload Register B" hexmask.long.tbyte 0x4 0.--23. 1. "CRC_BCTOPLD1,Channel 1 Block Complete Timeout Counter Preload Register. This register contains the number of clock cycles within which the CRC for an entire block needs to complete before a timeout interrupt is generated." group.long 0x60++0xF line.long 0x0 "MCRC64_REGS_PSA_SIGREGL1,Channel 1 PSA signature low register" hexmask.long 0x0 0.--31. 1. "PSASIG1,Channel 1 PSA Signature Low Register. This register contains the value stored at PSASIG1[31:0] register." line.long 0x4 "MCRC64_REGS_PSA_SIGREGH1,Channel 1 PSA signature high register" hexmask.long 0x4 0.--31. 1. "PSASIG1_63_32,Channel 1 PSA Signature High Register. This register contains the value stored at PSASIG1[63:32] register." line.long 0x8 "MCRC64_REGS_CRC_REGL1,Channel 1 CRC value low register" hexmask.long 0x8 0.--31. 1. "CRC1,Channel 1 CRC Value Low Register. This register contains the current known good signature value stored at CRC1[31:0] register." line.long 0xC "MCRC64_REGS_CRC_REGH1,Channel 1 CRC value high register" hexmask.long 0xC 0.--31. 1. "CRC1_47_32,Channel 1 CRC Value High Register. This register contains the current known good signature value stored at CRC1[63:32] register." rgroup.long 0x70++0xF line.long 0x0 "MCRC64_REGS_PSA_SECSIGREGL1,Channel 1 PSA sector signature low register" hexmask.long 0x0 0.--31. 1. "PSASECSIG1,Channel 1 PSA Sector Signature Low Register. This register contains the value stored at PSASECSIG1[31:0] register." line.long 0x4 "MCRC64_REGS_PSA_SECSIGREGH1,Channel 1 PSA sector signature high register" hexmask.long 0x4 0.--31. 1. "PSASECSIG1_63_32,Channel 1 PSA Sector Signature High Register. This register contains the value stored at PSASECSIG1[63:32] register." line.long 0x8 "MCRC64_REGS_RAW_DATAREGL1,Channel 1 Raw Data Low Register" hexmask.long 0x8 0.--31. 1. "RAW_DATA1,Channel 1 Raw Data Low Register. This register contains bit 31:0 of the uncompressed raw data." line.long 0xC "MCRC64_REGS_RAW_DATAREGH1,Channel 1 Raw Data High Register" hexmask.long 0xC 0.--31. 1. "RAW_DATA1_47_32,Channel 1 Raw Data High Register. This register contains bit 63:32 of the uncompressed raw data." group.long 0x80++0x7 line.long 0x0 "MCRC64_REGS_CRC_PCOUNT_REG2,CRC Pattern Counter Preload Register2" hexmask.long.tbyte 0x0 0.--19. 1. "CRC_PAT_COUNT2,CRC Pattern Counter Preload Register 2 This register contains the number of data patterns in one sector to be compressed before a CRC is performed." line.long 0x4 "MCRC64_REGS_CRC_SCOUNT_REG2,CRC Sector Counter Preload Register2" hexmask.long.word 0x4 0.--15. 1. "CRC_SEC_COUNT2,Channel 2 Sector Counter Preload Register. This register contains the number of sectors in one block of memory." rgroup.long 0x88++0x3 line.long 0x0 "MCRC64_REGS_CRC_CURSEC_REG2,CRC Current Sector Register 2" hexmask.long.word 0x0 0.--15. 1. "CRC_CURSEC2,Channel 2 Current Sector ID Register. In AUTO mode this register contains the current sector number of which the signature verification fails. The sector counter is a free running up counter. When a sector fails the erroneous sector number.." group.long 0x8C++0x7 line.long 0x0 "MCRC64_REGS_CRC_WDTOPLD2,CRC channel 2 Watchdog Timeout Preload Register" hexmask.long.tbyte 0x0 0.--23. 1. "CRC_WDTOPLD2,Channel 2 Watchdog Timeout Counter Preload Register. This register contains the number of clock cycles within which the DMA must transfer the next block of data patterns." line.long 0x4 "MCRC64_REGS_CRC_BCTOPLD2,CRC channel 2 Block Complete Timeout Preload Register" hexmask.long.tbyte 0x4 0.--23. 1. "CRC_BCTOPLD2,Channel 2 Block Complete Timeout Counter Preload Register. This register contains the number of clock cycles within which the CRC of an entire block needs to complete before a timeout interrupt is generated." group.long 0xA0++0xF line.long 0x0 "MCRC64_REGS_PSA_SIGREGL2,Channel 2 PSA signature low register" hexmask.long 0x0 0.--31. 1. "PSASIG2,Channel 2 PSA Signature Low Register. This register contains the value stored at PSASIG2[31:0] register." line.long 0x4 "MCRC64_REGS_PSA_SIGREGH2,Channel 2 PSA signature high register" hexmask.long 0x4 0.--31. 1. "PSASIG2_63_32,Channel 2 PSA Signature High Register. This register contains the value stored at PSASIG2[63:32] register." line.long 0x8 "MCRC64_REGS_CRC_REGL2,Channel 2 CRC value low register" hexmask.long 0x8 0.--31. 1. "CRC2,Channel 2 CRC Value Low Register. This register contains the current known good signature value stored at CRC2[31:0] register." line.long 0xC "MCRC64_REGS_CRC_REGH2,Channel 2 CRC value high register" hexmask.long 0xC 0.--31. 1. "CRC2_63_32,Channel 2 CRC Value High Register. This register contains the current known good signature value stored at CRC2[63:32] register." rgroup.long 0xB0++0xF line.long 0x0 "MCRC64_REGS_PSA_SECSIGREGL2,Channel 2 PSA sector signature low register" hexmask.long 0x0 0.--31. 1. "PSASECSIG2,Channel 2 PSA Sector Signature Low Register. This register contains the value stored at PSASECSIG2[31:0] register." line.long 0x4 "MCRC64_REGS_PSA_SECSIGREGH2,Channel 2 PSA sector signature high register" hexmask.long 0x4 0.--31. 1. "PSASECSIG2_63_32,Channel 2 PSA Sector Signature High Register. This register contains the value stored at PSASECSIG2[63:32] register." line.long 0x8 "MCRC64_REGS_RAW_DATAREGL2,Channel 2 Raw Data Low Register" hexmask.long 0x8 0.--31. 1. "RAW_DATA2,Channel 2 Raw Data Low Register. This register contains bit 31:0 of the uncompressed raw data." line.long 0xC "MCRC64_REGS_RAW_DATAREGH2,Channel 2 Raw Data High Register" hexmask.long 0xC 0.--31. 1. "RAW_DATA2_63_32,Channel 2 Raw Data High Register. This register contains bit 63:32 of the uncompressed raw data." group.long 0xC0++0x7 line.long 0x0 "MCRC64_REGS_CRC_PCOUNT_REG3,CRC Pattern Counter Preload Register3" hexmask.long.tbyte 0x0 0.--19. 1. "CRC_PAT_COUNT3,Channel 3 Pattern Counter Preload Register. This register contains the number of data patterns in one sector to be compressed before a CRC is performed." line.long 0x4 "MCRC64_REGS_CRC_SCOUNT_REG3,CRC Sector Counter Preload Register3" hexmask.long.word 0x4 0.--15. 1. "CRC_SEC_COUNT3,Channel 3 Sector Counter Preload Register. This register contains the number of sectors in one block of memory." rgroup.long 0xC8++0x3 line.long 0x0 "MCRC64_REGS_CRC_CURSEC_REG3,CRC Current Sector Register 3" hexmask.long.word 0x0 0.--15. 1. "CRC_CURSEC3,Channel 3 Current Sector ID Register. In AUTO mode this register contains the current sector number of which the signature verification fails. The sector counter is a free running up counter. When a sector fails the erroneous sector number.." group.long 0xCC++0x7 line.long 0x0 "MCRC64_REGS_CRC_WDTOPLD3,CRC channel 3 Watchdog Timeout Preload Register" hexmask.long.tbyte 0x0 0.--23. 1. "CRC_WDTOPLD3,Channel 3 Watchdog Timeout Counter Preload Register. This register contains the number of clock cycles within which the DMA must transfer the next block of data patterns." line.long 0x4 "MCRC64_REGS_CRC_BCTOPLD3,CRC channel 3 Block Complete Timeout Preload Register" hexmask.long.tbyte 0x4 0.--23. 1. "CRC_BCTOPLD3,Channel 3 Block Complete Timeout Counter Preload Register. This register contains the number of clock cycles within which the CRC of an entire block needs to complete before a timeout interrupt is generated." group.long 0xE0++0xF line.long 0x0 "MCRC64_REGS_PSA_SIGREGL3,Channel 3 PSA signature low register" hexmask.long 0x0 0.--31. 1. "PSASIG3,Channel 3 PSA Signature Low Register. This register contains the value stored at PSASIG3[31:0] register." line.long 0x4 "MCRC64_REGS_PSA_SIGREGH3,Channel 3 PSA signature high register" hexmask.long 0x4 0.--31. 1. "PSASIG3_63_32,Channel 3 PSA Signature High Register. This register contains the value stored at PSASIG3[63:32] register." line.long 0x8 "MCRC64_REGS_CRC_REGL3,Channel 3 CRC value low register" hexmask.long 0x8 0.--31. 1. "CRC3,Channel 3 CRC Value Low Register. This register contains the current known good signature value stored at CRC3[31:0] register." line.long 0xC "MCRC64_REGS_CRC_REGH3,Channel 3 CRC value high register" hexmask.long 0xC 0.--31. 1. "CRC3_63_32,Channel 3 CRC Value High Register. This register contains the current known good signature value stored at CRC3[63:32] register." rgroup.long 0xF0++0xF line.long 0x0 "MCRC64_REGS_PSA_SECSIGREGL3,Channel 3 PSA sector signature low register" hexmask.long 0x0 0.--31. 1. "PSASECSIG3,Channel 3 PSA Sector Signature Low Register. This register contains the value stored at PSASECSIG3[31:0] register." line.long 0x4 "MCRC64_REGS_PSA_SECSIGREGH3,Channel 3 PSA sector signature high register" hexmask.long 0x4 0.--31. 1. "PSASECSIG3_63_32,Channel 3 PSA Sector Signature High Register. This register contains the value stored at PSASECSIG3[63:32] register." line.long 0x8 "MCRC64_REGS_RAW_DATAREGL3,Channel 3 Raw Data Low Register" hexmask.long 0x8 0.--31. 1. "RAW_DATA3,Channel 3 Raw Data Low Register. This register contains bit 31:0 of the uncompressed raw data." line.long 0xC "MCRC64_REGS_RAW_DATAREGH3,Channel 3 Raw Data High Register" hexmask.long 0xC 0.--31. 1. "RAW_DATA3_63_32,Channel 3 Raw Data High Register. This register contains bit 63:32 of the uncompressed raw data." group.long 0x100++0x7 line.long 0x0 "MCRC64_REGS_CRC_PCOUNT_REG4,CRC Pattern Counter Preload Register4" hexmask.long.tbyte 0x0 0.--19. 1. "CRC_PAT_COUNT4,Channel 4 Pattern Counter Preload Register. This register contains the number of data patterns in one sector to be compressed before a CRC is performed." line.long 0x4 "MCRC64_REGS_CRC_SCOUNT_REG4,CRC Sector Counter Preload Register4" hexmask.long.word 0x4 0.--15. 1. "CRC_SEC_COUNT4,Channel 4 Sector Counter Preload Register. This register contains the number of sectors in one block of memory." rgroup.long 0x108++0x3 line.long 0x0 "MCRC64_REGS_CRC_CURSEC_REG4,CRC Current Sector Register 4" hexmask.long.word 0x0 0.--15. 1. "CRC_CURSEC4,In AUTO mode this register contains the current sector number of which the signature verification fails. The sector counter is a free running up counter. When a sector fails the erroneous sector number is logged into current sector ID.." group.long 0x10C++0x7 line.long 0x0 "MCRC64_REGS_CRC_WDTOPLD4,CRC channel 4 Watchdog Timeout Preload Register" hexmask.long.tbyte 0x0 0.--23. 1. "CRC_WDTOPLD4,This register contains the number of clock cycles within which the DMA must transfer the next block of data patterns." line.long 0x4 "MCRC64_REGS_CRC_BCTOPLD4,CRC channel 4 Block Complete Timeout Preload Register" hexmask.long.tbyte 0x4 0.--23. 1. "CRC_BCTOPLD4,This register contains the number of clock cycles within which the CRC of an entire block needs to complete before a timeout interrupt is generated." group.long 0x120++0xF line.long 0x0 "MCRC64_REGS_PSA_SIGREGL4,Channel 4 PSA signature low register" hexmask.long 0x0 0.--31. 1. "PSASIG4,This register contains the value stored at PSASIG4[31:0] register." line.long 0x4 "MCRC64_REGS_PSA_SIGREGH4,Channel 4 PSA signature high register" hexmask.long 0x4 0.--31. 1. "PSASIG4_63_32,This register contains the value stored at PSASIG4[63:32] register." line.long 0x8 "MCRC64_REGS_CRC_REGL4,Channel 4 CRC value low register" hexmask.long 0x8 0.--31. 1. "CRC4,Channel 4 CRC Value Low Register." line.long 0xC "MCRC64_REGS_CRC_REGH4,Channel 4 CRC value high register" hexmask.long 0xC 0.--31. 1. "CRC4_63_32,Channel 4 CRC Value High Register." rgroup.long 0x130++0xF line.long 0x0 "MCRC64_REGS_PSA_SECSIGREGL4,Channel 4 PSA sector signature low register" hexmask.long 0x0 0.--31. 1. "PSASECSIG4,Channel 4 PSA Sector Signature Low Register." line.long 0x4 "MCRC64_REGS_PSA_SECSIGREGH4,Channel 4 PSA sector signature high register" hexmask.long 0x4 0.--31. 1. "PSASECSIG4_63_32,Channel 4 PSA Sector Signature High Register. This register contains the value stored at PSASECSIG4[63:32] register." line.long 0x8 "MCRC64_REGS_RAW_DATAREGL4,Channel 4 Raw Data Low Register" hexmask.long 0x8 0.--31. 1. "RAW_DATA4,Channel 4 Raw Data Low Register. This register contains bit 31:0 of the uncompressed raw data." line.long 0xC "MCRC64_REGS_RAW_DATAREGH4,Channel 4 Raw Data High Register" hexmask.long 0xC 0.--31. 1. "RAW_DATA4_63_32,Channel 4 Raw Data High Register. This register contains bit 63:32 of the uncompressed raw data." group.long 0x140++0x3 line.long 0x0 "MCRC64_REGS_MCRC_BUS_SEL,Data bus tracing selection" bitfld.long 0x0 2. "MEN,Enable/disables the tracing of VBUSM 0: Tracing of VBUSM controller bus has been disabled 1: Tracing of VBUSM controller bus has been enabled" "0: Tracing of VBUSM controller bus has been disabled,1: Tracing of VBUSM controller bus has been enabled" newline bitfld.long 0x0 1. "DTC_MEN,Enable/disables the tracing of data TCM 0: Tracing of DTCM_ODD and DTCM_EVEN buses have been disabled 1: Tracing of DTCM_ODD and DTCM_EVEN buses have been enabled" "0: Tracing of DTCM_ODD and DTCM_EVEN buses have..,1: Tracing of DTCM_ODD and DTCM_EVEN buses have.." newline bitfld.long 0x0 0. "ITC_MEN,Enable/disables the tracing of instruction TCM 0: Tracing of ITCM bus has been disabled 1: Tracing of ITCM bus has been enabled Please refer the description of CPU Data trace at page 1-21 for the priority between different data buses." "0: Tracing of ITCM bus has been disabled,1: Tracing of ITCM bus has been enabled Please.." wgroup.long 0x200++0x3 line.long 0x0 "MCRC64_REGS_I0_PSA_SIGREG1_CPY,Region for Channel 1 PSA signature block used by DMA based systems." hexmask.long 0x0 0.--31. 1. "I0_PSASIG1_CPY0,This register is a 128 byte block copy of the PSASIG1 register for DMA destination it is write only the result can be found in the PSASIG1 register." wgroup.long 0x280++0x3 line.long 0x0 "MCRC64_REGS_I0_PSA_SIGREG2_CPY,Region for Channel 2 PSA signature block used by DMA based systems." hexmask.long 0x0 0.--31. 1. "I0_PSASIG2_CPY0,This register is a 128 byte block copy of the PSASIG2 register for DMA destination it is write only the result can be found in the PSASIG2 register." wgroup.long 0x300++0x3 line.long 0x0 "MCRC64_REGS_I0_PSA_SIGREG3_CPY,Region for Channel 3 PSA signature block used by DMA based systems." hexmask.long 0x0 0.--31. 1. "I0_PSASIG3_CPY0,This register is a 128 byte block copy of the PSASIG3 register for DMA destination it is write only the result can be found in the PSASIG3 register." wgroup.long 0x380++0x3 line.long 0x0 "MCRC64_REGS_I0_PSA_SIGREG4_CPY,Region for Channel 4 PSA signature block used by DMA based systems." hexmask.long 0x0 0.--31. 1. "I0_PSASIG4_CPY0,This register is a 128 byte block copy of the PSASIG4 register for DMA destination it is write only the result can be found in the PSASIG4 register." tree.end tree "MCSPI" base ad:0x0 tree "MCSPI0_CFG (MCSPI0_CFG)" base ad:0x20100000 rgroup.long 0x0++0x7 line.long 0x0 "CFG_HL_REV,IP Revision Identifier (X.Y.R)" bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish between old scheme and current" "0,1,2,3" bitfld.long 0x0 28.--29. "RSVD,Reserved These bits are initialized to zero and writes to them are ignored" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Function indicates a software compatible module family If there is no level of software compatibility a new Func number [and hence REVISION] should be assigned" hexmask.long.byte 0x0 11.--15. 1. "R_RTL,RTL Version [R] maintained by IP design owner RTL follows a numbering such as XYRZ which are explained in this table R changes ONLY when: [1] PDS uploads occur which may have been due to spec changes [2] Bug fixes occur [3] Resets to '0' when X or.." bitfld.long 0x0 8.--10. "X_MAJOR,Major Revision [X] maintained by IP specification owner X changes ONLY when: [1] There is a major feature addition An example would be adding Controller Mode to Utopia Level2 The Func field [or Class/Type in old PID format] will remain the same.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version for a particular device Consequence of use may avoid use of standard Chip Support Library [CSL] / Drivers" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "Y_MINOR,Minor Revision [Y] maintained by IP specification owner Y changes ONLY when: [1] Features are scaled [up or down] Flexibility exists in that this feature scalability may either be represented in the Y change or a specific register in the IP that.." line.long 0x4 "CFG_HL_HWINFO,Information about the IP module's hardware configuration. i.e. typically the module's HDL generics (if any)." hexmask.long 0x4 7.--31. 1. "RSVD,Reserved These bits are initialized to zero and writes to them are ignored" bitfld.long 0x4 6. "RETMODE,This bit field indicates whether the retention mode is supported using the pin PIRFFRET" "0,1" hexmask.long.byte 0x4 1.--5. 1. "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" bitfld.long 0x4 0. "USEFIFO,Use of a FIFO enable: This bit field indicates if a FIFO is integrated within controller design with its management" "0,1" group.long 0x10++0x3 line.long 0x0 "CFG_HL_SYSCONFIG,Clock management configuration" bitfld.long 0x0 2.--3. "IDLEMODE,Configuration of the local target state management mode By definition target can handle read/write transaction as long as it is out of IDLE state" "0,1,2,3" bitfld.long 0x0 1. "FREEEMU,Sensitivity to emulation [debug] suspend input signal" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset [Optional]" "0,1" rgroup.long 0x100++0x3 line.long 0x0 "CFG_REVISION,This register contains the hard coded RTL revision number." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED_13,Reads returns 0" hexmask.long.byte 0x0 0.--7. 1. "REV,IP revision [7:4] Major revision [3:0] Minor revision Examples: 0x10 for 10 0x21 for 21" group.long 0x110++0x2B line.long 0x0 "CFG_SYSCONFIG,This register allows controlling various parameters of the OCP interface." hexmask.long.tbyte 0x0 10.--31. 1. "RESERVED_14,Reads returns 0" bitfld.long 0x0 8.--9. "CLOCKACTIVITY,Clocks activity during wake up mode period" "0,1,2,3" rbitfld.long 0x0 5.--7. "RESERVED_15,Reads returns 0" "0,1,2,3,4,5,6,7" bitfld.long 0x0 3.--4. "SIDLEMODE,Power management" "0,1,2,3" bitfld.long 0x0 2. "ENAWAKEUP,WakeUp feature control" "0,1" newline bitfld.long 0x0 1. "SOFTRESET,Software reset During reads it always returns 0" "0,1" bitfld.long 0x0 0. "AUTOIDLE,Internal OCP Clock gating strategy" "0,1" line.long 0x4 "CFG_SYSSTATUS,This register provides status information about the module excluding the interrupt status information" hexmask.long 0x4 1.--31. 1. "RESERVED,Reserved for module specific status information Read returns 0" rbitfld.long 0x4 0. "RESETDONE,Internal Reset Monitoring" "0,1" line.long 0x8 "CFG_IRQSTATUS,The interrupt status regroups all the status of the module internal events that can generate an interrupt" hexmask.long.word 0x8 18.--31. 1. "RESERVED,Reads returns 0" bitfld.long 0x8 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 by MCSPI_XFERLEVEL[WCNT]" "0,1" bitfld.long 0x8 16. "WKS,Wake Up event in target mode when an active control signal is detected on the SPIEN line programmed in the field MCSPI_CH0CONF[SPIENSLV]" "0,1" bitfld.long 0x8 15. "RESERVED,Reads returns 0" "0,1" bitfld.long 0x8 14. "RX3_FULL,Receiver register is full or almost full Only when Channel 3 is enabled" "0,1" newline bitfld.long 0x8 13. "TX3_UNDERFLOW,Transmitter register underflow Only when Channel 3 is enabled The transmitter register is empty [not updated by Host or DMA with new data] before its time slot assignment Exception: No TX_underflow event when no data has been loaded into.." "0,1" bitfld.long 0x8 12. "TX3_EMPTY,Transmitter register is empty or almost empty Note: Enabling the channel automatically rises this event" "0,1" bitfld.long 0x8 11. "RESERVED,Reads returns 0" "0,1" bitfld.long 0x8 10. "RX2_FULL,Receiver register full or almost full Channel 2" "0,1" bitfld.long 0x8 9. "TX2_UNDERFLOW,Transmitter register underflow Channel 2" "0,1" newline bitfld.long 0x8 8. "TX2_EMPTY,Transmitter register empty or almost empty Channel 2" "0,1" bitfld.long 0x8 7. "RESERVED,Reads returns 0" "0,1" bitfld.long 0x8 6. "RX1_FULL,Receiver register full or almost full Channel 1" "0,1" bitfld.long 0x8 5. "TX1_UNDERFLOW,Transmitter register underflow Channel 1" "0,1" bitfld.long 0x8 4. "TX1_EMPTY,Transmitter register empty or almost empty Channel 1" "0,1" newline bitfld.long 0x8 3. "RX0_OVERFLOW,Receiver register overflow [target mode only] Channel 0" "0,1" bitfld.long 0x8 2. "RX0_FULL,Receiver register full or almost full Channel 0" "0,1" bitfld.long 0x8 1. "TX0_UNDERFLOW,Transmitter register underflow Channel 0" "0,1" bitfld.long 0x8 0. "TX0_EMPTY,Transmitter register empty or almost empty Channel 0" "0,1" line.long 0xC "CFG_IRQENABLE,This register allows to enable/disable the module internal sources of interrupt. on an event-by-event basis." hexmask.long.word 0xC 18.--31. 1. "RESERVED,Reads return 0" bitfld.long 0xC 17. "EOW_ENABLE,End of Word count Interrupt Enable" "0,1" bitfld.long 0xC 16. "WKE,Wake Up event interrupt Enable in target mode when an active control signal is detected on the SPIEN line programmed in the field MCSPI_CH0CONF[SPIENSLV]" "0,1" bitfld.long 0xC 15. "RESERVED,Reads returns 0" "0,1" bitfld.long 0xC 14. "RX3_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 3" "0,1" newline bitfld.long 0xC 13. "TX3_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 3" "0,1" bitfld.long 0xC 12. "TX3_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch3" "0,1" bitfld.long 0xC 11. "RESERVED,Reads return 0" "0,1" bitfld.long 0xC 10. "RX2_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 2" "0,1" bitfld.long 0xC 9. "TX2_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 2" "0,1" newline bitfld.long 0xC 8. "TX2_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch 2" "0,1" bitfld.long 0xC 7. "RESERVED,Reads return 0" "0,1" bitfld.long 0xC 6. "RX1_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 1" "0,1" bitfld.long 0xC 5. "TX1_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 1" "0,1" bitfld.long 0xC 4. "TX1_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch 1" "0,1" newline bitfld.long 0xC 3. "RX0_OVERFLOW_ENABLE,Receiver register Overflow Interrupt Enable Ch 0" "0,1" bitfld.long 0xC 2. "RX0_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 0" "0,1" bitfld.long 0xC 1. "TX0_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 0" "0,1" bitfld.long 0xC 0. "TX0_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch 0" "0,1" line.long 0x10 "CFG_WAKEUPENABLE,The wakeup enable register allows to enable/disable the module internal sources of wakeup on event-by-event basis." hexmask.long 0x10 1.--31. 1. "RESERVED_18,Reads returns 0" bitfld.long 0x10 0. "WKEN,WakeUp functionality in target mode when an active control signal is detected on the SPIEN line programmed in the field MCSPI_CH0CONF[SPIENSLV]" "0,1" line.long 0x14 "CFG_SYST,This register is used to check the correctness of the system interconnect either internally to peripheral bus. or externally to device IO pads. when the module is configured in system test (SYSTEST) mode." hexmask.long.tbyte 0x14 12.--31. 1. "RESERVED,Reads returns 0" bitfld.long 0x14 11. "SSB,Set status bit" "0,1" bitfld.long 0x14 10. "SPIENDIR,Set the direction of the SPIEN[3:0] lines and SPICLK line" "0,1" bitfld.long 0x14 9. "SPIDATDIR1,Set the direction of the SPIDAT[1]" "0,1" bitfld.long 0x14 8. "SPIDATDIR0,Set the direction of the SPIDAT[0]" "0,1" newline bitfld.long 0x14 7. "WAKD,SWAKEUP output [signal data value of internal signal to system] The signal is driven high or low according to the value written into this register bit" "0,1" 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 If MCSPI_SYST[SPIENDIR] = 0 [output mode direction] the.." "0,1" 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 If MCSPI_SYST[SPIDATDIR1] = 1 [input mode direction] this bit.." "0,1" 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 If MCSPI_SYST[SPIDATDIR0] = 1 [input mode direction] this bit.." "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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" 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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" 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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" 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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" line.long 0x18 "CFG_MODULCTRL,This register is dedicated to the configuration of the serial port interface." hexmask.long.tbyte 0x18 9.--31. 1. "RESERVED,Reads returns 0" 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 If this bit is set the enabled channel which uses the FIFO has its datas managed.." "0,1" bitfld.long 0x18 7. "MOA,Multiple word ocp access: This register can only be used when a channel is enabled using a FIFO It allows the system to perform multiple SPI word access for a single 32-bit OCP word access This is possible for WL < 16" "0,1" bitfld.long 0x18 4.--6. "INITDLY,Initial spi delay for first transfer: This register is an option only available in SINGLE controller mode The controller waits for a delay to transmit the first spi word after channel enabled and corresponding TX register filled This Delay is.." "0,1,2,3,4,5,6,7" bitfld.long 0x18 3. "SYSTEM_TEST,Enables the system test mode" "0,1" newline bitfld.long 0x18 2. "MS,Controller/ Target" "0,1" bitfld.long 0x18 1. "PIN34,Pin mode selection: This register is used to configure the SPI pin mode in controller or target mode If asserted the controller only use SIMO SOMI and SPICLK clock pin for spi transfers" "0,1" bitfld.long 0x18 0. "SINGLE,Single channel / Multi Channel [controller mode only]" "0,1" line.long 0x1C "CFG_CH0CONF,This register is dedicated to the configuration of the channel 0" bitfld.long 0x1C 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x1C 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x1C 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x1C 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x1C 25.--26. "TCS0,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x1C 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x1C 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x1C 21.--22. "SPIENSLV,Channel 0 only and target mode only: SPI target select signal detection Reserved bits for other cases" "0,1,2,3" bitfld.long 0x1C 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x1C 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x1C 18. "IS,Input Select" "0,1" bitfld.long 0x1C 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x1C 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" 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 The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x1C 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x1C 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x1C 7.--11. 1. "WL,SPI word length" bitfld.long 0x1C 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x1C 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x1C 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x1C 0. "PHA,SPICLK phase" "0,1" line.long 0x20 "CFG_CH0STAT,This register provides status information about transmitter and receiver registers of channel 0" hexmask.long 0x20 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x20 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x20 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x20 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x20 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x20 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x20 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x20 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x24 "CFG_CH0CTRL,This register is dedicated to enable the channel 0" hexmask.long.word 0x24 16.--31. 1. "RESERVED,Read returns 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x24 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x24 0. "EN,Channel Enable" "0,1" line.long 0x28 "CFG_TX0,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0x28 0.--31. 1. "TDATA,Channel 0 Data to transmit" rgroup.long 0x13C++0x3 line.long 0x0 "CFG_RX0,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 0 Received Data" group.long 0x140++0xF line.long 0x0 "CFG_CH1CONF,This register is dedicated to the configuration of the channel." bitfld.long 0x0 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x0 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 25.--26. "TCS1,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x0 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x0 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x0 21.--22. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x0 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x0 18. "IS,Input Select" "0,1" bitfld.long 0x0 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x0 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" bitfld.long 0x0 15. "DMAR,DMA Read request The DMA Read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x0 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x0 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x0 7.--11. 1. "WL,SPI word length" bitfld.long 0x0 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x0 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x0 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x0 0. "PHA,SPICLK phase" "0,1" line.long 0x4 "CFG_CH1STAT,This register provides status information about transmitter and receiver registers of channel 1" hexmask.long 0x4 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x4 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x4 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x4 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x4 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x4 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x4 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x4 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x8 "CFG_CH1CTRL,This register is dedicated to enable the channel 1" hexmask.long.word 0x8 16.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x8 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x8 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x8 0. "EN,Channel Enable" "0,1" line.long 0xC "CFG_TX1,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0xC 0.--31. 1. "TDATA,Channel 1 Data to transmit" rgroup.long 0x150++0x3 line.long 0x0 "CFG_RX1,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 1 Received Data" group.long 0x154++0xF line.long 0x0 "CFG_CH2CONF,This register is dedicated to the configuration of the channel 2" bitfld.long 0x0 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x0 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 25.--26. "TCS2,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x0 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x0 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x0 21.--22. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x0 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x0 18. "IS,Input Select" "0,1" bitfld.long 0x0 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x0 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" bitfld.long 0x0 15. "DMAR,DMA Read request The DMA Read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x0 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x0 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x0 7.--11. 1. "WL,SPI word length" bitfld.long 0x0 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x0 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x0 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x0 0. "PHA,SPICLK phase" "0,1" line.long 0x4 "CFG_CH2STAT,This register provides status information about transmitter and receiver registers of channel 2" hexmask.long 0x4 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x4 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x4 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x4 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x4 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x4 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x4 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x4 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x8 "CFG_CH2CTRL,This register is dedicated to enable the channel 2" hexmask.long.word 0x8 16.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x8 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x8 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x8 0. "EN,Channel Enable" "0,1" line.long 0xC "CFG_TX2,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0xC 0.--31. 1. "TDATA,Channel 2 Data to transmit" rgroup.long 0x164++0x3 line.long 0x0 "CFG_RX2,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 2 Received Data" group.long 0x168++0xF line.long 0x0 "CFG_CH3CONF,This register is dedicated to the configuration of the channel 3" bitfld.long 0x0 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x0 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 25.--26. "TCS3,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x0 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x0 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x0 21.--22. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x0 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x0 18. "IS,Input Select" "0,1" bitfld.long 0x0 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x0 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" bitfld.long 0x0 15. "DMAR,DMA Read request The DMA Read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x0 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x0 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x0 7.--11. 1. "WL,SPI word length" bitfld.long 0x0 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x0 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x0 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x0 0. "PHA,SPICLK phase" "0,1" line.long 0x4 "CFG_CH3STAT,This register provides status information about transmitter and receiver registers of channel 3" hexmask.long 0x4 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x4 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x4 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x4 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x4 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x4 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x4 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x4 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x8 "CFG_CH3CTRL,This register is dedicated to enable the channel 3" hexmask.long.word 0x8 16.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x8 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x8 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x8 0. "EN,Channel Enable" "0,1" line.long 0xC "CFG_TX3,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0xC 0.--31. 1. "TDATA,Channel 3 Data to transmit" rgroup.long 0x178++0x3 line.long 0x0 "CFG_RX3,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 3 Received Data" group.long 0x17C++0x7 line.long 0x0 "CFG_XFERLEVEL,This register provides transfer levels needed while using FIFO buffer during transfer." hexmask.long.word 0x0 16.--31. 1. "WCNT,Spi word counterThis register holds the programmable value of number of SPI word to be transferred on channel which is using the FIFO bufferWhen transfer had started a read back in this register returns the current SPI word transfer index" hexmask.long.byte 0x0 8.--15. 1. "AFL,Buffer Almost Full This register holds the programmable almost full level value used to determine almost full buffer condition If the user wants an interrupt or a DMA read request to be issued during a receive operation when the data buffer holds at.." hexmask.long.byte 0x0 0.--7. 1. "AEL,Buffer Almost EmptyThis register holds the programmable almost empty level value used to determine almost empty buffer condition If the user wants an interrupt or a DMA write request to be issued during a transmit operation when the data buffer is.." line.long 0x4 "CFG_DAFTX,This register contains the SPI words to transmit on the serial link when FIFO used and DMA address is aligned on 256 bit.This register is an image of one of MCSPI_TX(i) register corresponding to the channel which have its FIFO enabled." hexmask.long 0x4 0.--31. 1. "DAFTDATA,FIFO Data to transmit with DMA 256 bit aligned address This Register is only is used when MCSPI_MODULCTRL[FDAA] is set to 1 and only one of the MCSPI_CH[i]CONF[FFEW] of enabled channels is set If these conditions are not respected any access to.." rgroup.long 0x1A0++0x3 line.long 0x0 "CFG_DAFRX,This register contains the SPI words to received on the serial link when FIFO used and DMA address is aligned on 256 bit.This register is an image of one of MCSPI_RX(i) register corresponding to the channel which have its FIFO enabled." hexmask.long 0x0 0.--31. 1. "DAFRDATA,FIFO Data to transmit with DMA 256 bit aligned address This Register is only is used when MCSPI_MODULCTRL[FDAA] is set to 1 and only one of the MCSPI_CH[i]CONF[FFEW] of enabled channels is set If these conditions are not respected any access to.." tree.end tree "MCSPI1_CFG (MCSPI1_CFG)" base ad:0x20110000 rgroup.long 0x0++0x7 line.long 0x0 "CFG_HL_REV,IP Revision Identifier (X.Y.R)" bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish between old scheme and current" "0,1,2,3" bitfld.long 0x0 28.--29. "RSVD,Reserved These bits are initialized to zero and writes to them are ignored" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Function indicates a software compatible module family If there is no level of software compatibility a new Func number [and hence REVISION] should be assigned" hexmask.long.byte 0x0 11.--15. 1. "R_RTL,RTL Version [R] maintained by IP design owner RTL follows a numbering such as XYRZ which are explained in this table R changes ONLY when: [1] PDS uploads occur which may have been due to spec changes [2] Bug fixes occur [3] Resets to '0' when X or.." bitfld.long 0x0 8.--10. "X_MAJOR,Major Revision [X] maintained by IP specification owner X changes ONLY when: [1] There is a major feature addition An example would be adding Controller Mode to Utopia Level2 The Func field [or Class/Type in old PID format] will remain the same.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version for a particular device Consequence of use may avoid use of standard Chip Support Library [CSL] / Drivers" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "Y_MINOR,Minor Revision [Y] maintained by IP specification owner Y changes ONLY when: [1] Features are scaled [up or down] Flexibility exists in that this feature scalability may either be represented in the Y change or a specific register in the IP that.." line.long 0x4 "CFG_HL_HWINFO,Information about the IP module's hardware configuration. i.e. typically the module's HDL generics (if any)." hexmask.long 0x4 7.--31. 1. "RSVD,Reserved These bits are initialized to zero and writes to them are ignored" bitfld.long 0x4 6. "RETMODE,This bit field indicates whether the retention mode is supported using the pin PIRFFRET" "0,1" hexmask.long.byte 0x4 1.--5. 1. "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" bitfld.long 0x4 0. "USEFIFO,Use of a FIFO enable: This bit field indicates if a FIFO is integrated within controller design with its management" "0,1" group.long 0x10++0x3 line.long 0x0 "CFG_HL_SYSCONFIG,Clock management configuration" bitfld.long 0x0 2.--3. "IDLEMODE,Configuration of the local target state management mode By definition target can handle read/write transaction as long as it is out of IDLE state" "0,1,2,3" bitfld.long 0x0 1. "FREEEMU,Sensitivity to emulation [debug] suspend input signal" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset [Optional]" "0,1" rgroup.long 0x100++0x3 line.long 0x0 "CFG_REVISION,This register contains the hard coded RTL revision number." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED_13,Reads returns 0" hexmask.long.byte 0x0 0.--7. 1. "REV,IP revision [7:4] Major revision [3:0] Minor revision Examples: 0x10 for 10 0x21 for 21" group.long 0x110++0x2B line.long 0x0 "CFG_SYSCONFIG,This register allows controlling various parameters of the OCP interface." hexmask.long.tbyte 0x0 10.--31. 1. "RESERVED_14,Reads returns 0" bitfld.long 0x0 8.--9. "CLOCKACTIVITY,Clocks activity during wake up mode period" "0,1,2,3" rbitfld.long 0x0 5.--7. "RESERVED_15,Reads returns 0" "0,1,2,3,4,5,6,7" bitfld.long 0x0 3.--4. "SIDLEMODE,Power management" "0,1,2,3" bitfld.long 0x0 2. "ENAWAKEUP,WakeUp feature control" "0,1" newline bitfld.long 0x0 1. "SOFTRESET,Software reset During reads it always returns 0" "0,1" bitfld.long 0x0 0. "AUTOIDLE,Internal OCP Clock gating strategy" "0,1" line.long 0x4 "CFG_SYSSTATUS,This register provides status information about the module excluding the interrupt status information" hexmask.long 0x4 1.--31. 1. "RESERVED,Reserved for module specific status information Read returns 0" rbitfld.long 0x4 0. "RESETDONE,Internal Reset Monitoring" "0,1" line.long 0x8 "CFG_IRQSTATUS,The interrupt status regroups all the status of the module internal events that can generate an interrupt" hexmask.long.word 0x8 18.--31. 1. "RESERVED,Reads returns 0" bitfld.long 0x8 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 by MCSPI_XFERLEVEL[WCNT]" "0,1" bitfld.long 0x8 16. "WKS,Wake Up event in target mode when an active control signal is detected on the SPIEN line programmed in the field MCSPI_CH0CONF[SPIENSLV]" "0,1" bitfld.long 0x8 15. "RESERVED,Reads returns 0" "0,1" bitfld.long 0x8 14. "RX3_FULL,Receiver register is full or almost full Only when Channel 3 is enabled" "0,1" newline bitfld.long 0x8 13. "TX3_UNDERFLOW,Transmitter register underflow Only when Channel 3 is enabled The transmitter register is empty [not updated by Host or DMA with new data] before its time slot assignment Exception: No TX_underflow event when no data has been loaded into.." "0,1" bitfld.long 0x8 12. "TX3_EMPTY,Transmitter register is empty or almost empty Note: Enabling the channel automatically rises this event" "0,1" bitfld.long 0x8 11. "RESERVED,Reads returns 0" "0,1" bitfld.long 0x8 10. "RX2_FULL,Receiver register full or almost full Channel 2" "0,1" bitfld.long 0x8 9. "TX2_UNDERFLOW,Transmitter register underflow Channel 2" "0,1" newline bitfld.long 0x8 8. "TX2_EMPTY,Transmitter register empty or almost empty Channel 2" "0,1" bitfld.long 0x8 7. "RESERVED,Reads returns 0" "0,1" bitfld.long 0x8 6. "RX1_FULL,Receiver register full or almost full Channel 1" "0,1" bitfld.long 0x8 5. "TX1_UNDERFLOW,Transmitter register underflow Channel 1" "0,1" bitfld.long 0x8 4. "TX1_EMPTY,Transmitter register empty or almost empty Channel 1" "0,1" newline bitfld.long 0x8 3. "RX0_OVERFLOW,Receiver register overflow [target mode only] Channel 0" "0,1" bitfld.long 0x8 2. "RX0_FULL,Receiver register full or almost full Channel 0" "0,1" bitfld.long 0x8 1. "TX0_UNDERFLOW,Transmitter register underflow Channel 0" "0,1" bitfld.long 0x8 0. "TX0_EMPTY,Transmitter register empty or almost empty Channel 0" "0,1" line.long 0xC "CFG_IRQENABLE,This register allows to enable/disable the module internal sources of interrupt. on an event-by-event basis." hexmask.long.word 0xC 18.--31. 1. "RESERVED,Reads return 0" bitfld.long 0xC 17. "EOW_ENABLE,End of Word count Interrupt Enable" "0,1" bitfld.long 0xC 16. "WKE,Wake Up event interrupt Enable in target mode when an active control signal is detected on the SPIEN line programmed in the field MCSPI_CH0CONF[SPIENSLV]" "0,1" bitfld.long 0xC 15. "RESERVED,Reads returns 0" "0,1" bitfld.long 0xC 14. "RX3_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 3" "0,1" newline bitfld.long 0xC 13. "TX3_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 3" "0,1" bitfld.long 0xC 12. "TX3_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch3" "0,1" bitfld.long 0xC 11. "RESERVED,Reads return 0" "0,1" bitfld.long 0xC 10. "RX2_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 2" "0,1" bitfld.long 0xC 9. "TX2_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 2" "0,1" newline bitfld.long 0xC 8. "TX2_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch 2" "0,1" bitfld.long 0xC 7. "RESERVED,Reads return 0" "0,1" bitfld.long 0xC 6. "RX1_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 1" "0,1" bitfld.long 0xC 5. "TX1_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 1" "0,1" bitfld.long 0xC 4. "TX1_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch 1" "0,1" newline bitfld.long 0xC 3. "RX0_OVERFLOW_ENABLE,Receiver register Overflow Interrupt Enable Ch 0" "0,1" bitfld.long 0xC 2. "RX0_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 0" "0,1" bitfld.long 0xC 1. "TX0_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 0" "0,1" bitfld.long 0xC 0. "TX0_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch 0" "0,1" line.long 0x10 "CFG_WAKEUPENABLE,The wakeup enable register allows to enable/disable the module internal sources of wakeup on event-by-event basis." hexmask.long 0x10 1.--31. 1. "RESERVED_18,Reads returns 0" bitfld.long 0x10 0. "WKEN,WakeUp functionality in target mode when an active control signal is detected on the SPIEN line programmed in the field MCSPI_CH0CONF[SPIENSLV]" "0,1" line.long 0x14 "CFG_SYST,This register is used to check the correctness of the system interconnect either internally to peripheral bus. or externally to device IO pads. when the module is configured in system test (SYSTEST) mode." hexmask.long.tbyte 0x14 12.--31. 1. "RESERVED,Reads returns 0" bitfld.long 0x14 11. "SSB,Set status bit" "0,1" bitfld.long 0x14 10. "SPIENDIR,Set the direction of the SPIEN[3:0] lines and SPICLK line" "0,1" bitfld.long 0x14 9. "SPIDATDIR1,Set the direction of the SPIDAT[1]" "0,1" bitfld.long 0x14 8. "SPIDATDIR0,Set the direction of the SPIDAT[0]" "0,1" newline bitfld.long 0x14 7. "WAKD,SWAKEUP output [signal data value of internal signal to system] The signal is driven high or low according to the value written into this register bit" "0,1" 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 If MCSPI_SYST[SPIENDIR] = 0 [output mode direction] the.." "0,1" 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 If MCSPI_SYST[SPIDATDIR1] = 1 [input mode direction] this bit.." "0,1" 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 If MCSPI_SYST[SPIDATDIR0] = 1 [input mode direction] this bit.." "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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" 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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" 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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" 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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" line.long 0x18 "CFG_MODULCTRL,This register is dedicated to the configuration of the serial port interface." hexmask.long.tbyte 0x18 9.--31. 1. "RESERVED,Reads returns 0" 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 If this bit is set the enabled channel which uses the FIFO has its datas managed.." "0,1" bitfld.long 0x18 7. "MOA,Multiple word ocp access: This register can only be used when a channel is enabled using a FIFO It allows the system to perform multiple SPI word access for a single 32-bit OCP word access This is possible for WL < 16" "0,1" bitfld.long 0x18 4.--6. "INITDLY,Initial spi delay for first transfer: This register is an option only available in SINGLE controller mode The controller waits for a delay to transmit the first spi word after channel enabled and corresponding TX register filled This Delay is.." "0,1,2,3,4,5,6,7" bitfld.long 0x18 3. "SYSTEM_TEST,Enables the system test mode" "0,1" newline bitfld.long 0x18 2. "MS,Controller/ Target" "0,1" bitfld.long 0x18 1. "PIN34,Pin mode selection: This register is used to configure the SPI pin mode in controller or target mode If asserted the controller only use SIMO SOMI and SPICLK clock pin for spi transfers" "0,1" bitfld.long 0x18 0. "SINGLE,Single channel / Multi Channel [controller mode only]" "0,1" line.long 0x1C "CFG_CH0CONF,This register is dedicated to the configuration of the channel 0" bitfld.long 0x1C 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x1C 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x1C 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x1C 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x1C 25.--26. "TCS0,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x1C 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x1C 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x1C 21.--22. "SPIENSLV,Channel 0 only and target mode only: SPI target select signal detection Reserved bits for other cases" "0,1,2,3" bitfld.long 0x1C 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x1C 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x1C 18. "IS,Input Select" "0,1" bitfld.long 0x1C 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x1C 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" 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 The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x1C 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x1C 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x1C 7.--11. 1. "WL,SPI word length" bitfld.long 0x1C 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x1C 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x1C 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x1C 0. "PHA,SPICLK phase" "0,1" line.long 0x20 "CFG_CH0STAT,This register provides status information about transmitter and receiver registers of channel 0" hexmask.long 0x20 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x20 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x20 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x20 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x20 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x20 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x20 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x20 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x24 "CFG_CH0CTRL,This register is dedicated to enable the channel 0" hexmask.long.word 0x24 16.--31. 1. "RESERVED,Read returns 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x24 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x24 0. "EN,Channel Enable" "0,1" line.long 0x28 "CFG_TX0,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0x28 0.--31. 1. "TDATA,Channel 0 Data to transmit" rgroup.long 0x13C++0x3 line.long 0x0 "CFG_RX0,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 0 Received Data" group.long 0x140++0xF line.long 0x0 "CFG_CH1CONF,This register is dedicated to the configuration of the channel." bitfld.long 0x0 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x0 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 25.--26. "TCS1,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x0 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x0 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x0 21.--22. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x0 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x0 18. "IS,Input Select" "0,1" bitfld.long 0x0 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x0 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" bitfld.long 0x0 15. "DMAR,DMA Read request The DMA Read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x0 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x0 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x0 7.--11. 1. "WL,SPI word length" bitfld.long 0x0 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x0 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x0 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x0 0. "PHA,SPICLK phase" "0,1" line.long 0x4 "CFG_CH1STAT,This register provides status information about transmitter and receiver registers of channel 1" hexmask.long 0x4 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x4 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x4 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x4 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x4 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x4 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x4 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x4 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x8 "CFG_CH1CTRL,This register is dedicated to enable the channel 1" hexmask.long.word 0x8 16.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x8 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x8 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x8 0. "EN,Channel Enable" "0,1" line.long 0xC "CFG_TX1,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0xC 0.--31. 1. "TDATA,Channel 1 Data to transmit" rgroup.long 0x150++0x3 line.long 0x0 "CFG_RX1,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 1 Received Data" group.long 0x154++0xF line.long 0x0 "CFG_CH2CONF,This register is dedicated to the configuration of the channel 2" bitfld.long 0x0 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x0 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 25.--26. "TCS2,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x0 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x0 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x0 21.--22. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x0 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x0 18. "IS,Input Select" "0,1" bitfld.long 0x0 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x0 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" bitfld.long 0x0 15. "DMAR,DMA Read request The DMA Read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x0 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x0 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x0 7.--11. 1. "WL,SPI word length" bitfld.long 0x0 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x0 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x0 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x0 0. "PHA,SPICLK phase" "0,1" line.long 0x4 "CFG_CH2STAT,This register provides status information about transmitter and receiver registers of channel 2" hexmask.long 0x4 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x4 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x4 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x4 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x4 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x4 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x4 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x4 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x8 "CFG_CH2CTRL,This register is dedicated to enable the channel 2" hexmask.long.word 0x8 16.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x8 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x8 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x8 0. "EN,Channel Enable" "0,1" line.long 0xC "CFG_TX2,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0xC 0.--31. 1. "TDATA,Channel 2 Data to transmit" rgroup.long 0x164++0x3 line.long 0x0 "CFG_RX2,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 2 Received Data" group.long 0x168++0xF line.long 0x0 "CFG_CH3CONF,This register is dedicated to the configuration of the channel 3" bitfld.long 0x0 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x0 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 25.--26. "TCS3,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x0 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x0 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x0 21.--22. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x0 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x0 18. "IS,Input Select" "0,1" bitfld.long 0x0 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x0 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" bitfld.long 0x0 15. "DMAR,DMA Read request The DMA Read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x0 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x0 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x0 7.--11. 1. "WL,SPI word length" bitfld.long 0x0 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x0 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x0 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x0 0. "PHA,SPICLK phase" "0,1" line.long 0x4 "CFG_CH3STAT,This register provides status information about transmitter and receiver registers of channel 3" hexmask.long 0x4 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x4 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x4 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x4 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x4 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x4 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x4 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x4 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x8 "CFG_CH3CTRL,This register is dedicated to enable the channel 3" hexmask.long.word 0x8 16.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x8 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x8 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x8 0. "EN,Channel Enable" "0,1" line.long 0xC "CFG_TX3,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0xC 0.--31. 1. "TDATA,Channel 3 Data to transmit" rgroup.long 0x178++0x3 line.long 0x0 "CFG_RX3,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 3 Received Data" group.long 0x17C++0x7 line.long 0x0 "CFG_XFERLEVEL,This register provides transfer levels needed while using FIFO buffer during transfer." hexmask.long.word 0x0 16.--31. 1. "WCNT,Spi word counterThis register holds the programmable value of number of SPI word to be transferred on channel which is using the FIFO bufferWhen transfer had started a read back in this register returns the current SPI word transfer index" hexmask.long.byte 0x0 8.--15. 1. "AFL,Buffer Almost Full This register holds the programmable almost full level value used to determine almost full buffer condition If the user wants an interrupt or a DMA read request to be issued during a receive operation when the data buffer holds at.." hexmask.long.byte 0x0 0.--7. 1. "AEL,Buffer Almost EmptyThis register holds the programmable almost empty level value used to determine almost empty buffer condition If the user wants an interrupt or a DMA write request to be issued during a transmit operation when the data buffer is.." line.long 0x4 "CFG_DAFTX,This register contains the SPI words to transmit on the serial link when FIFO used and DMA address is aligned on 256 bit.This register is an image of one of MCSPI_TX(i) register corresponding to the channel which have its FIFO enabled." hexmask.long 0x4 0.--31. 1. "DAFTDATA,FIFO Data to transmit with DMA 256 bit aligned address This Register is only is used when MCSPI_MODULCTRL[FDAA] is set to 1 and only one of the MCSPI_CH[i]CONF[FFEW] of enabled channels is set If these conditions are not respected any access to.." rgroup.long 0x1A0++0x3 line.long 0x0 "CFG_DAFRX,This register contains the SPI words to received on the serial link when FIFO used and DMA address is aligned on 256 bit.This register is an image of one of MCSPI_RX(i) register corresponding to the channel which have its FIFO enabled." hexmask.long 0x0 0.--31. 1. "DAFRDATA,FIFO Data to transmit with DMA 256 bit aligned address This Register is only is used when MCSPI_MODULCTRL[FDAA] is set to 1 and only one of the MCSPI_CH[i]CONF[FFEW] of enabled channels is set If these conditions are not respected any access to.." tree.end tree "MCSPI2_CFG (MCSPI2_CFG)" base ad:0x20120000 rgroup.long 0x0++0x7 line.long 0x0 "CFG_HL_REV,IP Revision Identifier (X.Y.R)" bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish between old scheme and current" "0,1,2,3" bitfld.long 0x0 28.--29. "RSVD,Reserved These bits are initialized to zero and writes to them are ignored" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Function indicates a software compatible module family If there is no level of software compatibility a new Func number [and hence REVISION] should be assigned" hexmask.long.byte 0x0 11.--15. 1. "R_RTL,RTL Version [R] maintained by IP design owner RTL follows a numbering such as XYRZ which are explained in this table R changes ONLY when: [1] PDS uploads occur which may have been due to spec changes [2] Bug fixes occur [3] Resets to '0' when X or.." bitfld.long 0x0 8.--10. "X_MAJOR,Major Revision [X] maintained by IP specification owner X changes ONLY when: [1] There is a major feature addition An example would be adding Controller Mode to Utopia Level2 The Func field [or Class/Type in old PID format] will remain the same.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version for a particular device Consequence of use may avoid use of standard Chip Support Library [CSL] / Drivers" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "Y_MINOR,Minor Revision [Y] maintained by IP specification owner Y changes ONLY when: [1] Features are scaled [up or down] Flexibility exists in that this feature scalability may either be represented in the Y change or a specific register in the IP that.." line.long 0x4 "CFG_HL_HWINFO,Information about the IP module's hardware configuration. i.e. typically the module's HDL generics (if any)." hexmask.long 0x4 7.--31. 1. "RSVD,Reserved These bits are initialized to zero and writes to them are ignored" bitfld.long 0x4 6. "RETMODE,This bit field indicates whether the retention mode is supported using the pin PIRFFRET" "0,1" hexmask.long.byte 0x4 1.--5. 1. "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" bitfld.long 0x4 0. "USEFIFO,Use of a FIFO enable: This bit field indicates if a FIFO is integrated within controller design with its management" "0,1" group.long 0x10++0x3 line.long 0x0 "CFG_HL_SYSCONFIG,Clock management configuration" bitfld.long 0x0 2.--3. "IDLEMODE,Configuration of the local target state management mode By definition target can handle read/write transaction as long as it is out of IDLE state" "0,1,2,3" bitfld.long 0x0 1. "FREEEMU,Sensitivity to emulation [debug] suspend input signal" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset [Optional]" "0,1" rgroup.long 0x100++0x3 line.long 0x0 "CFG_REVISION,This register contains the hard coded RTL revision number." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED_13,Reads returns 0" hexmask.long.byte 0x0 0.--7. 1. "REV,IP revision [7:4] Major revision [3:0] Minor revision Examples: 0x10 for 10 0x21 for 21" group.long 0x110++0x2B line.long 0x0 "CFG_SYSCONFIG,This register allows controlling various parameters of the OCP interface." hexmask.long.tbyte 0x0 10.--31. 1. "RESERVED_14,Reads returns 0" bitfld.long 0x0 8.--9. "CLOCKACTIVITY,Clocks activity during wake up mode period" "0,1,2,3" rbitfld.long 0x0 5.--7. "RESERVED_15,Reads returns 0" "0,1,2,3,4,5,6,7" bitfld.long 0x0 3.--4. "SIDLEMODE,Power management" "0,1,2,3" bitfld.long 0x0 2. "ENAWAKEUP,WakeUp feature control" "0,1" newline bitfld.long 0x0 1. "SOFTRESET,Software reset During reads it always returns 0" "0,1" bitfld.long 0x0 0. "AUTOIDLE,Internal OCP Clock gating strategy" "0,1" line.long 0x4 "CFG_SYSSTATUS,This register provides status information about the module excluding the interrupt status information" hexmask.long 0x4 1.--31. 1. "RESERVED,Reserved for module specific status information Read returns 0" rbitfld.long 0x4 0. "RESETDONE,Internal Reset Monitoring" "0,1" line.long 0x8 "CFG_IRQSTATUS,The interrupt status regroups all the status of the module internal events that can generate an interrupt" hexmask.long.word 0x8 18.--31. 1. "RESERVED,Reads returns 0" bitfld.long 0x8 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 by MCSPI_XFERLEVEL[WCNT]" "0,1" bitfld.long 0x8 16. "WKS,Wake Up event in target mode when an active control signal is detected on the SPIEN line programmed in the field MCSPI_CH0CONF[SPIENSLV]" "0,1" bitfld.long 0x8 15. "RESERVED,Reads returns 0" "0,1" bitfld.long 0x8 14. "RX3_FULL,Receiver register is full or almost full Only when Channel 3 is enabled" "0,1" newline bitfld.long 0x8 13. "TX3_UNDERFLOW,Transmitter register underflow Only when Channel 3 is enabled The transmitter register is empty [not updated by Host or DMA with new data] before its time slot assignment Exception: No TX_underflow event when no data has been loaded into.." "0,1" bitfld.long 0x8 12. "TX3_EMPTY,Transmitter register is empty or almost empty Note: Enabling the channel automatically rises this event" "0,1" bitfld.long 0x8 11. "RESERVED,Reads returns 0" "0,1" bitfld.long 0x8 10. "RX2_FULL,Receiver register full or almost full Channel 2" "0,1" bitfld.long 0x8 9. "TX2_UNDERFLOW,Transmitter register underflow Channel 2" "0,1" newline bitfld.long 0x8 8. "TX2_EMPTY,Transmitter register empty or almost empty Channel 2" "0,1" bitfld.long 0x8 7. "RESERVED,Reads returns 0" "0,1" bitfld.long 0x8 6. "RX1_FULL,Receiver register full or almost full Channel 1" "0,1" bitfld.long 0x8 5. "TX1_UNDERFLOW,Transmitter register underflow Channel 1" "0,1" bitfld.long 0x8 4. "TX1_EMPTY,Transmitter register empty or almost empty Channel 1" "0,1" newline bitfld.long 0x8 3. "RX0_OVERFLOW,Receiver register overflow [target mode only] Channel 0" "0,1" bitfld.long 0x8 2. "RX0_FULL,Receiver register full or almost full Channel 0" "0,1" bitfld.long 0x8 1. "TX0_UNDERFLOW,Transmitter register underflow Channel 0" "0,1" bitfld.long 0x8 0. "TX0_EMPTY,Transmitter register empty or almost empty Channel 0" "0,1" line.long 0xC "CFG_IRQENABLE,This register allows to enable/disable the module internal sources of interrupt. on an event-by-event basis." hexmask.long.word 0xC 18.--31. 1. "RESERVED,Reads return 0" bitfld.long 0xC 17. "EOW_ENABLE,End of Word count Interrupt Enable" "0,1" bitfld.long 0xC 16. "WKE,Wake Up event interrupt Enable in target mode when an active control signal is detected on the SPIEN line programmed in the field MCSPI_CH0CONF[SPIENSLV]" "0,1" bitfld.long 0xC 15. "RESERVED,Reads returns 0" "0,1" bitfld.long 0xC 14. "RX3_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 3" "0,1" newline bitfld.long 0xC 13. "TX3_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 3" "0,1" bitfld.long 0xC 12. "TX3_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch3" "0,1" bitfld.long 0xC 11. "RESERVED,Reads return 0" "0,1" bitfld.long 0xC 10. "RX2_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 2" "0,1" bitfld.long 0xC 9. "TX2_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 2" "0,1" newline bitfld.long 0xC 8. "TX2_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch 2" "0,1" bitfld.long 0xC 7. "RESERVED,Reads return 0" "0,1" bitfld.long 0xC 6. "RX1_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 1" "0,1" bitfld.long 0xC 5. "TX1_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 1" "0,1" bitfld.long 0xC 4. "TX1_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch 1" "0,1" newline bitfld.long 0xC 3. "RX0_OVERFLOW_ENABLE,Receiver register Overflow Interrupt Enable Ch 0" "0,1" bitfld.long 0xC 2. "RX0_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 0" "0,1" bitfld.long 0xC 1. "TX0_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 0" "0,1" bitfld.long 0xC 0. "TX0_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch 0" "0,1" line.long 0x10 "CFG_WAKEUPENABLE,The wakeup enable register allows to enable/disable the module internal sources of wakeup on event-by-event basis." hexmask.long 0x10 1.--31. 1. "RESERVED_18,Reads returns 0" bitfld.long 0x10 0. "WKEN,WakeUp functionality in target mode when an active control signal is detected on the SPIEN line programmed in the field MCSPI_CH0CONF[SPIENSLV]" "0,1" line.long 0x14 "CFG_SYST,This register is used to check the correctness of the system interconnect either internally to peripheral bus. or externally to device IO pads. when the module is configured in system test (SYSTEST) mode." hexmask.long.tbyte 0x14 12.--31. 1. "RESERVED,Reads returns 0" bitfld.long 0x14 11. "SSB,Set status bit" "0,1" bitfld.long 0x14 10. "SPIENDIR,Set the direction of the SPIEN[3:0] lines and SPICLK line" "0,1" bitfld.long 0x14 9. "SPIDATDIR1,Set the direction of the SPIDAT[1]" "0,1" bitfld.long 0x14 8. "SPIDATDIR0,Set the direction of the SPIDAT[0]" "0,1" newline bitfld.long 0x14 7. "WAKD,SWAKEUP output [signal data value of internal signal to system] The signal is driven high or low according to the value written into this register bit" "0,1" 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 If MCSPI_SYST[SPIENDIR] = 0 [output mode direction] the.." "0,1" 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 If MCSPI_SYST[SPIDATDIR1] = 1 [input mode direction] this bit.." "0,1" 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 If MCSPI_SYST[SPIDATDIR0] = 1 [input mode direction] this bit.." "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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" 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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" 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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" 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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" line.long 0x18 "CFG_MODULCTRL,This register is dedicated to the configuration of the serial port interface." hexmask.long.tbyte 0x18 9.--31. 1. "RESERVED,Reads returns 0" 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 If this bit is set the enabled channel which uses the FIFO has its datas managed.." "0,1" bitfld.long 0x18 7. "MOA,Multiple word ocp access: This register can only be used when a channel is enabled using a FIFO It allows the system to perform multiple SPI word access for a single 32-bit OCP word access This is possible for WL < 16" "0,1" bitfld.long 0x18 4.--6. "INITDLY,Initial spi delay for first transfer: This register is an option only available in SINGLE controller mode The controller waits for a delay to transmit the first spi word after channel enabled and corresponding TX register filled This Delay is.." "0,1,2,3,4,5,6,7" bitfld.long 0x18 3. "SYSTEM_TEST,Enables the system test mode" "0,1" newline bitfld.long 0x18 2. "MS,Controller/ Target" "0,1" bitfld.long 0x18 1. "PIN34,Pin mode selection: This register is used to configure the SPI pin mode in controller or target mode If asserted the controller only use SIMO SOMI and SPICLK clock pin for spi transfers" "0,1" bitfld.long 0x18 0. "SINGLE,Single channel / Multi Channel [controller mode only]" "0,1" line.long 0x1C "CFG_CH0CONF,This register is dedicated to the configuration of the channel 0" bitfld.long 0x1C 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x1C 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x1C 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x1C 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x1C 25.--26. "TCS0,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x1C 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x1C 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x1C 21.--22. "SPIENSLV,Channel 0 only and target mode only: SPI target select signal detection Reserved bits for other cases" "0,1,2,3" bitfld.long 0x1C 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x1C 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x1C 18. "IS,Input Select" "0,1" bitfld.long 0x1C 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x1C 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" 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 The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x1C 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x1C 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x1C 7.--11. 1. "WL,SPI word length" bitfld.long 0x1C 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x1C 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x1C 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x1C 0. "PHA,SPICLK phase" "0,1" line.long 0x20 "CFG_CH0STAT,This register provides status information about transmitter and receiver registers of channel 0" hexmask.long 0x20 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x20 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x20 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x20 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x20 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x20 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x20 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x20 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x24 "CFG_CH0CTRL,This register is dedicated to enable the channel 0" hexmask.long.word 0x24 16.--31. 1. "RESERVED,Read returns 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x24 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x24 0. "EN,Channel Enable" "0,1" line.long 0x28 "CFG_TX0,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0x28 0.--31. 1. "TDATA,Channel 0 Data to transmit" rgroup.long 0x13C++0x3 line.long 0x0 "CFG_RX0,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 0 Received Data" group.long 0x140++0xF line.long 0x0 "CFG_CH1CONF,This register is dedicated to the configuration of the channel." bitfld.long 0x0 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x0 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 25.--26. "TCS1,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x0 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x0 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x0 21.--22. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x0 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x0 18. "IS,Input Select" "0,1" bitfld.long 0x0 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x0 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" bitfld.long 0x0 15. "DMAR,DMA Read request The DMA Read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x0 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x0 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x0 7.--11. 1. "WL,SPI word length" bitfld.long 0x0 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x0 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x0 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x0 0. "PHA,SPICLK phase" "0,1" line.long 0x4 "CFG_CH1STAT,This register provides status information about transmitter and receiver registers of channel 1" hexmask.long 0x4 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x4 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x4 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x4 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x4 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x4 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x4 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x4 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x8 "CFG_CH1CTRL,This register is dedicated to enable the channel 1" hexmask.long.word 0x8 16.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x8 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x8 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x8 0. "EN,Channel Enable" "0,1" line.long 0xC "CFG_TX1,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0xC 0.--31. 1. "TDATA,Channel 1 Data to transmit" rgroup.long 0x150++0x3 line.long 0x0 "CFG_RX1,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 1 Received Data" group.long 0x154++0xF line.long 0x0 "CFG_CH2CONF,This register is dedicated to the configuration of the channel 2" bitfld.long 0x0 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x0 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 25.--26. "TCS2,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x0 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x0 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x0 21.--22. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x0 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x0 18. "IS,Input Select" "0,1" bitfld.long 0x0 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x0 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" bitfld.long 0x0 15. "DMAR,DMA Read request The DMA Read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x0 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x0 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x0 7.--11. 1. "WL,SPI word length" bitfld.long 0x0 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x0 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x0 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x0 0. "PHA,SPICLK phase" "0,1" line.long 0x4 "CFG_CH2STAT,This register provides status information about transmitter and receiver registers of channel 2" hexmask.long 0x4 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x4 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x4 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x4 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x4 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x4 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x4 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x4 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x8 "CFG_CH2CTRL,This register is dedicated to enable the channel 2" hexmask.long.word 0x8 16.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x8 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x8 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x8 0. "EN,Channel Enable" "0,1" line.long 0xC "CFG_TX2,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0xC 0.--31. 1. "TDATA,Channel 2 Data to transmit" rgroup.long 0x164++0x3 line.long 0x0 "CFG_RX2,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 2 Received Data" group.long 0x168++0xF line.long 0x0 "CFG_CH3CONF,This register is dedicated to the configuration of the channel 3" bitfld.long 0x0 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x0 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 25.--26. "TCS3,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x0 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x0 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x0 21.--22. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x0 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x0 18. "IS,Input Select" "0,1" bitfld.long 0x0 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x0 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" bitfld.long 0x0 15. "DMAR,DMA Read request The DMA Read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x0 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x0 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x0 7.--11. 1. "WL,SPI word length" bitfld.long 0x0 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x0 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x0 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x0 0. "PHA,SPICLK phase" "0,1" line.long 0x4 "CFG_CH3STAT,This register provides status information about transmitter and receiver registers of channel 3" hexmask.long 0x4 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x4 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x4 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x4 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x4 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x4 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x4 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x4 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x8 "CFG_CH3CTRL,This register is dedicated to enable the channel 3" hexmask.long.word 0x8 16.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x8 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x8 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x8 0. "EN,Channel Enable" "0,1" line.long 0xC "CFG_TX3,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0xC 0.--31. 1. "TDATA,Channel 3 Data to transmit" rgroup.long 0x178++0x3 line.long 0x0 "CFG_RX3,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 3 Received Data" group.long 0x17C++0x7 line.long 0x0 "CFG_XFERLEVEL,This register provides transfer levels needed while using FIFO buffer during transfer." hexmask.long.word 0x0 16.--31. 1. "WCNT,Spi word counterThis register holds the programmable value of number of SPI word to be transferred on channel which is using the FIFO bufferWhen transfer had started a read back in this register returns the current SPI word transfer index" hexmask.long.byte 0x0 8.--15. 1. "AFL,Buffer Almost Full This register holds the programmable almost full level value used to determine almost full buffer condition If the user wants an interrupt or a DMA read request to be issued during a receive operation when the data buffer holds at.." hexmask.long.byte 0x0 0.--7. 1. "AEL,Buffer Almost EmptyThis register holds the programmable almost empty level value used to determine almost empty buffer condition If the user wants an interrupt or a DMA write request to be issued during a transmit operation when the data buffer is.." line.long 0x4 "CFG_DAFTX,This register contains the SPI words to transmit on the serial link when FIFO used and DMA address is aligned on 256 bit.This register is an image of one of MCSPI_TX(i) register corresponding to the channel which have its FIFO enabled." hexmask.long 0x4 0.--31. 1. "DAFTDATA,FIFO Data to transmit with DMA 256 bit aligned address This Register is only is used when MCSPI_MODULCTRL[FDAA] is set to 1 and only one of the MCSPI_CH[i]CONF[FFEW] of enabled channels is set If these conditions are not respected any access to.." rgroup.long 0x1A0++0x3 line.long 0x0 "CFG_DAFRX,This register contains the SPI words to received on the serial link when FIFO used and DMA address is aligned on 256 bit.This register is an image of one of MCSPI_RX(i) register corresponding to the channel which have its FIFO enabled." hexmask.long 0x0 0.--31. 1. "DAFRDATA,FIFO Data to transmit with DMA 256 bit aligned address This Register is only is used when MCSPI_MODULCTRL[FDAA] is set to 1 and only one of the MCSPI_CH[i]CONF[FFEW] of enabled channels is set If these conditions are not respected any access to.." tree.end tree.end endif tree "MCU" base ad:0x0 sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_PADCFG_CTRL0_CFG0 (MCU_PADCFG_CTRL0_CFG0)" base ad:0x4080000 rgroup.long 0x0++0xB line.long 0x0 "CFG0_PID," hexmask.long.word 0x0 16.--31. 1. "PID_MSB16," hexmask.long.byte 0x0 11.--15. 1. "PID_MISC," bitfld.long 0x0 8.--10. "PID_MAJOR," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "PID_CUSTOM," "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "PID_MINOR," line.long 0x4 "CFG0_MMR_CFG0," hexmask.long.word 0x4 16.--31. 1. "MMR_CFG0_CFG_REV,Major configuration release" hexmask.long.word 0x4 0.--15. 1. "MMR_CFG0_SPEC_REV,Minor spec-only revision. Doesn't change RTL release" line.long 0x8 "CFG0_MMR_CFG1," bitfld.long 0x8 31. "MMR_CFG1_PROXY_EN,Proxy addressing enabled" "0,1" hexmask.long.byte 0x8 0.--7. 1. "MMR_CFG1_PARTITIONS,Indicates present partitions" group.long 0x1008++0x1B line.long 0x0 "CFG0_LOCK0_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK0_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK0_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK0_KICK1,- KICK1 component" line.long 0x8 "CFG0_intr_raw_status," bitfld.long 0x8 3. "PROXY_ERR,Proxy0 access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" bitfld.long 0x8 2. "KICK_ERR,Kick access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" bitfld.long 0x8 1. "ADDR_ERR,Addressing violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 0. "PROT_ERR,Protection violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" line.long 0xC "CFG0_intr_enabled_status_clear," bitfld.long 0xC 3. "ENABLED_PROXY_ERR,Proxy0 access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" bitfld.long 0xC 2. "ENABLED_KICK_ERR,Kick access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" bitfld.long 0xC 1. "ENABLED_ADDR_ERR,Addressing violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 0. "ENABLED_PROT_ERR,Protection violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" line.long 0x10 "CFG0_intr_enable," bitfld.long 0x10 3. "PROXY_ERR_EN,Proxy0 access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x10 2. "KICK_ERR_EN,Kick access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x10 1. "ADDR_ERR_EN,Addressing violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 0. "PROT_ERR_EN,Protection violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" line.long 0x14 "CFG0_intr_enable_clear," bitfld.long 0x14 3. "PROXY_ERR_EN_CLR,Proxy0 access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x14 2. "KICK_ERR_EN_CLR,Kick access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x14 1. "ADDR_ERR_EN_CLR,Addressing violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x14 0. "PROT_ERR_EN_CLR,Protection violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" line.long 0x18 "CFG0_eoi," hexmask.long.byte 0x18 0.--7. 1. "EOI_VECTOR,EOI vector value. Write this with interrupt distribution value in the chip." rgroup.long 0x1024++0xB line.long 0x0 "CFG0_fault_address," hexmask.long 0x0 0.--31. 1. "FAULT_ADDR,Fault Address." line.long 0x4 "CFG0_fault_type_status," bitfld.long 0x4 6. "FAULT_NS,Non-secure access." "0,1" hexmask.long.byte 0x4 0.--5. 1. "FAULT_TYPE,Fault Type 10_0000 = Supervisor read fault - priv = 1 dir = 1 dtype != 1 01_0000 = Supervisor write fault - priv = 1 dir = 0 00_1000 = Supervisor execute fault - priv = 1 dir = 1 dtype = 1 00_0100 = User read fault - priv = 0 dir.." line.long 0x8 "CFG0_fault_attr_status," hexmask.long.word 0x8 20.--31. 1. "FAULT_XID,XID." hexmask.long.word 0x8 8.--19. 1. "FAULT_ROUTEID,Route ID." hexmask.long.byte 0x8 0.--7. 1. "FAULT_PRIVID,Privilege ID." wgroup.long 0x1030++0x3 line.long 0x0 "CFG0_fault_clear," bitfld.long 0x0 0. "FAULT_CLR,Fault clear. Writing a 1 clears the current fault. Writing a 0 has no effect." "0,1" rgroup.long 0x1100++0x3 line.long 0x0 "CFG0_CLAIMREG_P0_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P0_R0_READONLY,Claim bits for Partition 0" rgroup.long 0x2000++0xB line.long 0x0 "CFG0_PID_PROXY," hexmask.long.word 0x0 16.--31. 1. "PID_MSB16_PROXY," hexmask.long.byte 0x0 11.--15. 1. "PID_MISC_PROXY," bitfld.long 0x0 8.--10. "PID_MAJOR_PROXY," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "PID_CUSTOM_PROXY," "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "PID_MINOR_PROXY," line.long 0x4 "CFG0_MMR_CFG0_PROXY," hexmask.long.word 0x4 16.--31. 1. "MMR_CFG0_CFG_REV_PROXY,Major configuration release" hexmask.long.word 0x4 0.--15. 1. "MMR_CFG0_SPEC_REV_PROXY,Minor spec-only revision. Doesn't change RTL release" line.long 0x8 "CFG0_MMR_CFG1_PROXY," bitfld.long 0x8 31. "MMR_CFG1_PROXY_EN_PROXY,Proxy addressing enabled" "0,1" hexmask.long.byte 0x8 0.--7. 1. "MMR_CFG1_PARTITIONS_PROXY,Indicates present partitions" group.long 0x3008++0x1B line.long 0x0 "CFG0_LOCK0_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK0_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK0_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK0_KICK1_PROXY,- KICK1 component" line.long 0x8 "CFG0_intr_raw_status_PROXY," bitfld.long 0x8 3. "PROXY_ERR_PROXY,Proxy0 access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" bitfld.long 0x8 2. "KICK_ERR_PROXY,Kick access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" bitfld.long 0x8 1. "ADDR_ERR_PROXY,Addressing violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 0. "PROT_ERR_PROXY,Protection violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" line.long 0xC "CFG0_intr_enabled_status_clear_PROXY," bitfld.long 0xC 3. "ENABLED_PROXY_ERR_PROXY,Proxy0 access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" bitfld.long 0xC 2. "ENABLED_KICK_ERR_PROXY,Kick access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" bitfld.long 0xC 1. "ENABLED_ADDR_ERR_PROXY,Addressing violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 0. "ENABLED_PROT_ERR_PROXY,Protection violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" line.long 0x10 "CFG0_intr_enable_PROXY," bitfld.long 0x10 3. "PROXY_ERR_EN_PROXY,Proxy0 access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x10 2. "KICK_ERR_EN_PROXY,Kick access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x10 1. "ADDR_ERR_EN_PROXY,Addressing violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 0. "PROT_ERR_EN_PROXY,Protection violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" line.long 0x14 "CFG0_intr_enable_clear_PROXY," bitfld.long 0x14 3. "PROXY_ERR_EN_CLR_PROXY,Proxy0 access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x14 2. "KICK_ERR_EN_CLR_PROXY,Kick access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x14 1. "ADDR_ERR_EN_CLR_PROXY,Addressing violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x14 0. "PROT_ERR_EN_CLR_PROXY,Protection violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" line.long 0x18 "CFG0_eoi_PROXY," hexmask.long.byte 0x18 0.--7. 1. "EOI_VECTOR_PROXY,EOI vector value. Write this with interrupt distribution value in the chip." rgroup.long 0x3024++0xB line.long 0x0 "CFG0_fault_address_PROXY," hexmask.long 0x0 0.--31. 1. "FAULT_ADDR_PROXY,Fault Address." line.long 0x4 "CFG0_fault_type_status_PROXY," bitfld.long 0x4 6. "FAULT_NS_PROXY,Non-secure access." "0,1" hexmask.long.byte 0x4 0.--5. 1. "FAULT_TYPE_PROXY,Fault Type 10_0000 = Supervisor read fault - priv = 1 dir = 1 dtype != 1 01_0000 = Supervisor write fault - priv = 1 dir = 0 00_1000 = Supervisor execute fault - priv = 1 dir = 1 dtype = 1 00_0100 = User read fault - priv =.." line.long 0x8 "CFG0_fault_attr_status_PROXY," hexmask.long.word 0x8 20.--31. 1. "FAULT_XID_PROXY,XID." hexmask.long.word 0x8 8.--19. 1. "FAULT_ROUTEID_PROXY,Route ID." hexmask.long.byte 0x8 0.--7. 1. "FAULT_PRIVID_PROXY,Privilege ID." wgroup.long 0x3030++0x3 line.long 0x0 "CFG0_fault_clear_PROXY," bitfld.long 0x0 0. "FAULT_CLR_PROXY,Fault clear. Writing a 1 clears the current fault. Writing a 0 has no effect." "0,1" group.long 0x3100++0x3 line.long 0x0 "CFG0_CLAIMREG_P0_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P0_R0,Claim bits for Partition 0" group.long 0x5008++0x7 line.long 0x0 "CFG0_LOCK1_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK1_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK1_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK1_KICK1,- KICK1 component" rgroup.long 0x5100++0x7 line.long 0x0 "CFG0_CLAIMREG_P1_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P1_R0_READONLY,Claim bits for Partition 1" line.long 0x4 "CFG0_CLAIMREG_P1_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P1_R1_READONLY,Claim bits for Partition 1" group.long 0x7008++0x7 line.long 0x0 "CFG0_LOCK1_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK1_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK1_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK1_KICK1_PROXY,- KICK1 component" group.long 0x7100++0x7 line.long 0x0 "CFG0_CLAIMREG_P1_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P1_R0,Claim bits for Partition 1" line.long 0x4 "CFG0_CLAIMREG_P1_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P1_R1,Claim bits for Partition 1" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_GPIO0 (MCU_GPIO0)" base ad:0x4201000 rgroup.long 0x0++0x7 line.long 0x0 "MEM_pid,GPIO Periperal ID Register" bitfld.long 0x0 30.--31. "SCHEME,Current scheme" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Function code assigned to TCP3" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL Version R code" bitfld.long 0x0 8.--10. "MAJOR,Major revision X code" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version code" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision Y code" line.long 0x4 "MEM_PCR,Peripheral Control Register" bitfld.long 0x4 1. "SOFT,Used in conjunction with FREE bit to determine the emulation suspend mode." "0,1" bitfld.long 0x4 0. "FREE,For GPIO the FREE bit is fixed at 1 which means GPIO runs free in emulation suspend." "0,1" group.long 0x8++0x3 line.long 0x0 "MEM_BINTEN,Bit Interrupt Enable Register" hexmask.long.word 0x0 0.--15. 1. "EN,Per bank interrupt enable. 0 = disable 1 = enable." group.long 0x10++0xF line.long 0x0 "MEM_DIR01,Direction Register" hexmask.long.word 0x0 16.--31. 1. "DIR1,Direction of GPIO bank 1 bits 0 = output 1 = input." hexmask.long.word 0x0 0.--15. 1. "DIR0,Direction of GPIO bank 0 bits 0 = output 1 = input." line.long 0x4 "MEM_OUT_DATA01,Output Drive State Register" hexmask.long.word 0x4 16.--31. 1. "OUT1,Output drive state of GPIO bank 1 bits does not affect operation when it is configured as input. Reading it returns the output drive state." hexmask.long.word 0x4 0.--15. 1. "OUT0,Output drive state of GPIO bank 0 bits does not affect operation when it is configured as input. Reading it returns the output drive state." line.long 0x8 "MEM_SET_DATA01,Set Output Drive State Register" hexmask.long.word 0x8 16.--31. 1. "SET1,Writing 1 sets the output drive state of GPIO bank 1 bits. Reading it returns the output drive state." hexmask.long.word 0x8 0.--15. 1. "SET0,Writing 1 sets the output drive state of GPIO bank 0 bits. Reading it returns the output drive state." line.long 0xC "MEM_CLR_DATA01,Clear Output Drive State Register" hexmask.long.word 0xC 16.--31. 1. "CLR1,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." hexmask.long.word 0xC 0.--15. 1. "CLR0,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." rgroup.long 0x20++0x3 line.long 0x0 "MEM_IN_DATA01,Bank Status Register" hexmask.long.word 0x0 16.--31. 1. "IN1,Status of GPIO bank 1 bits." hexmask.long.word 0x0 0.--15. 1. "IN0,Status of GPIO bank 0 bits." group.long 0x24++0x23 line.long 0x0 "MEM_SET_RIS_TRIG01,Set Rising Edge Detection Register" hexmask.long.word 0x0 16.--31. 1. "SETRIS1,Writing 1 enables rising edge detection for GPIO bank 1 bits." hexmask.long.word 0x0 0.--15. 1. "SETRIS0,Writing 1 enables rising edge detection for GPIO bank 0 bits." line.long 0x4 "MEM_CLR_RIS_TRIG01,Clear Rising Edge Detection Register" hexmask.long.word 0x4 16.--31. 1. "CLRRIS1,Writing 1 clears rising edge detection for GPIO bank 1 bits." hexmask.long.word 0x4 0.--15. 1. "CLRRIS0,Writing 1 clears rising edge detection for GPIO bank 0 bits." line.long 0x8 "MEM_SET_FAL_TRIG01,Set Falling Edge Detection Register" hexmask.long.word 0x8 16.--31. 1. "SETFAL1,Writing 1 enables falling edge detection for for GPIO bank 1 bits." hexmask.long.word 0x8 0.--15. 1. "SETFAL0,Writing 1 enables falling edge detection for for GPIO bank 0 bits." line.long 0xC "MEM_CLR_FAL_TRIG01,Clear Falling Edge Detection Register" hexmask.long.word 0xC 16.--31. 1. "CLRFAL1,Writing 1 clears falling edge detection for for GPIO bank 1 bits." hexmask.long.word 0xC 0.--15. 1. "CLRFAL0,Writing 1 clears falling edge detection for for GPIO bank 0 bits." line.long 0x10 "MEM_INTSTAT01,Bank Interrupt Status Register" hexmask.long.word 0x10 16.--31. 1. "STAT1,Status of GPIO bank 0 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." hexmask.long.word 0x10 0.--15. 1. "STAT0,Status of GPIO bank 0 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." line.long 0x14 "MEM_DIR23,Direction Register" hexmask.long.word 0x14 16.--31. 1. "DIR3,Direction of GPIO bank 3 bits 0 = output 1 = input." hexmask.long.word 0x14 0.--15. 1. "DIR2,Direction of GPIO bank 2 bits 0 = output 1 = input." line.long 0x18 "MEM_OUT_DATA23,Output Drive State Register" hexmask.long.word 0x18 16.--31. 1. "OUT3,Output drive state of GPIO bank 3 bits does not affect operation when it is configured as input. Reading it returns the output drive state." hexmask.long.word 0x18 0.--15. 1. "OUT2,Output drive state of GPIO bank 2 bits does not affect operation when it is configured as input. Reading it returns the output drive state." line.long 0x1C "MEM_SET_DATA23,Set Output Drive State Register" hexmask.long.word 0x1C 16.--31. 1. "SET3,Writing 1 sets the output drive state of GPIO bank 3 bits. Reading it returns the output drive state." hexmask.long.word 0x1C 0.--15. 1. "SET2,Writing 1 sets the output drive state of GPIO bank 2 bits. Reading it returns the output drive state." line.long 0x20 "MEM_CLR_DATA23,Clear Output Drive State Register" hexmask.long.word 0x20 16.--31. 1. "CLR3,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." hexmask.long.word 0x20 0.--15. 1. "CLR2,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." rgroup.long 0x48++0x3 line.long 0x0 "MEM_IN_DATA23,Bank Status Register" hexmask.long.word 0x0 16.--31. 1. "IN3,Status of GPIO bank 3 bits." hexmask.long.word 0x0 0.--15. 1. "IN2,Status of GPIO bank 2 bits." group.long 0x4C++0x23 line.long 0x0 "MEM_SET_RIS_TRIG23,Set Rising Edge Detection Register" hexmask.long.word 0x0 16.--31. 1. "SETRIS3,Writing 1 enables rising edge detection for GPIO bank 3 bits." hexmask.long.word 0x0 0.--15. 1. "SETRIS2,Writing 1 enables rising edge detection for GPIO bank 2 bits." line.long 0x4 "MEM_CLR_RIS_TRIG23,Clear Rising Edge Detection Register" hexmask.long.word 0x4 16.--31. 1. "CLRRIS3,Writing 1 clears rising edge detection for GPIO bank 3 bits." hexmask.long.word 0x4 0.--15. 1. "CLRRIS2,Writing 1 clears rising edge detection for GPIO bank 2 bits." line.long 0x8 "MEM_SET_FAL_TRIG23,Set Falling Edge Detection Register" hexmask.long.word 0x8 16.--31. 1. "SETFAL3,Writing 1 enables falling edge detection for for GPIO bank 3 bits." hexmask.long.word 0x8 0.--15. 1. "SETFAL2,Writing 1 enables falling edge detection for for GPIO bank 2 bits." line.long 0xC "MEM_CLR_FAL_TRIG23,Clear Falling Edge Detection Register" hexmask.long.word 0xC 16.--31. 1. "CLRFAL3,Writing 1 clears falling edge detection for for GPIO bank 3 bits." hexmask.long.word 0xC 0.--15. 1. "CLRFAL2,Writing 1 clears falling edge detection for for GPIO bank 2 bits." line.long 0x10 "MEM_INTSTAT23,Bank Interrupt Status Register" hexmask.long.word 0x10 16.--31. 1. "STAT3,Status of GPIO bank 2 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." hexmask.long.word 0x10 0.--15. 1. "STAT2,Status of GPIO bank 2 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." line.long 0x14 "MEM_DIR45,Direction Register" hexmask.long.word 0x14 16.--31. 1. "DIR5,Direction of GPIO bank 5 bits 0 = output 1 = input." hexmask.long.word 0x14 0.--15. 1. "DIR4,Direction of GPIO bank 4 bits 0 = output 1 = input." line.long 0x18 "MEM_OUT_DATA45,Output Drive State Register" hexmask.long.word 0x18 16.--31. 1. "OUT5,Output drive state of GPIO bank 5 bits does not affect operation when it is configured as input. Reading it returns the output drive state." hexmask.long.word 0x18 0.--15. 1. "OUT4,Output drive state of GPIO bank 4 bits does not affect operation when it is configured as input. Reading it returns the output drive state." line.long 0x1C "MEM_SET_DATA45,Set Output Drive State Register" hexmask.long.word 0x1C 16.--31. 1. "SET5,Writing 1 sets the output drive state of GPIO bank 5 bits. Reading it returns the output drive state." hexmask.long.word 0x1C 0.--15. 1. "SET4,Writing 1 sets the output drive state of GPIO bank 4 bits. Reading it returns the output drive state." line.long 0x20 "MEM_CLR_DATA45,Clear Output Drive State Register" hexmask.long.word 0x20 16.--31. 1. "CLR5,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." hexmask.long.word 0x20 0.--15. 1. "CLR4,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." rgroup.long 0x70++0x3 line.long 0x0 "MEM_IN_DATA45,Bank Status Register" hexmask.long.word 0x0 16.--31. 1. "IN5,Status of GPIO bank 5 bits." hexmask.long.word 0x0 0.--15. 1. "IN4,Status of GPIO bank 4 bits." group.long 0x74++0x23 line.long 0x0 "MEM_SET_RIS_TRIG45,Set Rising Edge Detection Register" hexmask.long.word 0x0 16.--31. 1. "SETRIS5,Writing 1 enables rising edge detection for GPIO bank 5 bits." hexmask.long.word 0x0 0.--15. 1. "SETRIS4,Writing 1 enables rising edge detection for GPIO bank 4 bits." line.long 0x4 "MEM_CLR_RIS_TRIG45,Clear Rising Edge Detection Register" hexmask.long.word 0x4 16.--31. 1. "CLRRIS5,Writing 1 clears rising edge detection for GPIO bank 5 bits." hexmask.long.word 0x4 0.--15. 1. "CLRRIS4,Writing 1 clears rising edge detection for GPIO bank 4 bits." line.long 0x8 "MEM_SET_FAL_TRIG45,Set Falling Edge Detection Register" hexmask.long.word 0x8 16.--31. 1. "SETFAL5,Writing 1 enables falling edge detection for for GPIO bank 5 bits." hexmask.long.word 0x8 0.--15. 1. "SETFAL4,Writing 1 enables falling edge detection for for GPIO bank 4 bits." line.long 0xC "MEM_CLR_FAL_TRIG45,Clear Falling Edge Detection Register" hexmask.long.word 0xC 16.--31. 1. "CLRFAL5,Writing 1 clears falling edge detection for for GPIO bank 5 bits." hexmask.long.word 0xC 0.--15. 1. "CLRFAL4,Writing 1 clears falling edge detection for for GPIO bank 4 bits." line.long 0x10 "MEM_INTSTAT45,Bank Interrupt Status Register" hexmask.long.word 0x10 16.--31. 1. "STAT5,Status of GPIO bank 4 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." hexmask.long.word 0x10 0.--15. 1. "STAT4,Status of GPIO bank 4 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." line.long 0x14 "MEM_DIR67,Direction Register" hexmask.long.word 0x14 16.--31. 1. "DIR7,Direction of GPIO bank 7 bits 0 = output 1 = input." hexmask.long.word 0x14 0.--15. 1. "DIR6,Direction of GPIO bank 6 bits 0 = output 1 = input." line.long 0x18 "MEM_OUT_DATA67,Output Drive State Register" hexmask.long.word 0x18 16.--31. 1. "OUT7,Output drive state of GPIO bank 7 bits does not affect operation when it is configured as input. Reading it returns the output drive state." hexmask.long.word 0x18 0.--15. 1. "OUT6,Output drive state of GPIO bank 6 bits does not affect operation when it is configured as input. Reading it returns the output drive state." line.long 0x1C "MEM_SET_DATA67,Set Output Drive State Register" hexmask.long.word 0x1C 16.--31. 1. "SET7,Writing 1 sets the output drive state of GPIO bank 7 bits. Reading it returns the output drive state." hexmask.long.word 0x1C 0.--15. 1. "SET6,Writing 1 sets the output drive state of GPIO bank 6 bits. Reading it returns the output drive state." line.long 0x20 "MEM_CLR_DATA67,Clear Output Drive State Register" hexmask.long.word 0x20 16.--31. 1. "CLR7,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." hexmask.long.word 0x20 0.--15. 1. "CLR6,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." rgroup.long 0x98++0x3 line.long 0x0 "MEM_IN_DATA67,Bank Status Register" hexmask.long.word 0x0 16.--31. 1. "IN7,Status of GPIO bank 7 bits." hexmask.long.word 0x0 0.--15. 1. "IN6,Status of GPIO bank 6 bits." group.long 0x9C++0x23 line.long 0x0 "MEM_SET_RIS_TRIG67,Set Rising Edge Detection Register" hexmask.long.word 0x0 16.--31. 1. "SETRIS7,Writing 1 enables rising edge detection for GPIO bank 7 bits." hexmask.long.word 0x0 0.--15. 1. "SETRIS6,Writing 1 enables rising edge detection for GPIO bank 6 bits." line.long 0x4 "MEM_CLR_RIS_TRIG67,Clear Rising Edge Detection Register" hexmask.long.word 0x4 16.--31. 1. "CLRRIS7,Writing 1 clears rising edge detection for GPIO bank 7 bits." hexmask.long.word 0x4 0.--15. 1. "CLRRIS6,Writing 1 clears rising edge detection for GPIO bank 6 bits." line.long 0x8 "MEM_SET_FAL_TRIG67,Set Falling Edge Detection Register" hexmask.long.word 0x8 16.--31. 1. "SETFAL7,Writing 1 enables falling edge detection for for GPIO bank 7 bits." hexmask.long.word 0x8 0.--15. 1. "SETFAL6,Writing 1 enables falling edge detection for for GPIO bank 6 bits." line.long 0xC "MEM_CLR_FAL_TRIG67,Clear Falling Edge Detection Register" hexmask.long.word 0xC 16.--31. 1. "CLRFAL7,Writing 1 clears falling edge detection for for GPIO bank 7 bits." hexmask.long.word 0xC 0.--15. 1. "CLRFAL6,Writing 1 clears falling edge detection for for GPIO bank 6 bits." line.long 0x10 "MEM_INTSTAT67,Bank Interrupt Status Register" hexmask.long.word 0x10 16.--31. 1. "STAT7,Status of GPIO bank 6 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." hexmask.long.word 0x10 0.--15. 1. "STAT6,Status of GPIO bank 6 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." line.long 0x14 "MEM_DIR8,Direction Register" hexmask.long.word 0x14 0.--15. 1. "DIR8,Direction of GPIO bank 8 bits 0 = output 1 = input." line.long 0x18 "MEM_OUT_DATA8,Output Drive State Register" hexmask.long.word 0x18 0.--15. 1. "OUT8,Output drive state of GPIO bank 8 bits does not affect operation when it is configured as input. Reading it returns the output drive state." line.long 0x1C "MEM_SET_DATA8,Set Output Drive State Register" hexmask.long.word 0x1C 0.--15. 1. "SET8,Writing 1 sets the output drive state of GPIO bank 8 bits. Reading it returns the output drive state." line.long 0x20 "MEM_CLR_DATA8,Clear Output Drive State Register" hexmask.long.word 0x20 0.--15. 1. "CLR8,Writing 1 clears the output drive state of GPIO. Reading it returns the output drive state." rgroup.long 0xC0++0x3 line.long 0x0 "MEM_IN_DATA8,Bank Status Register" hexmask.long.word 0x0 0.--15. 1. "IN8,Status of GPIO bank 8 bits." group.long 0xC4++0x13 line.long 0x0 "MEM_SET_RIS_TRIG8,Set Rising Edge Detection Register" hexmask.long.word 0x0 0.--15. 1. "SETRIS8,Writing 1 enables rising edge detection for GPIO bank 8 bits." line.long 0x4 "MEM_CLR_RIS_TRIG8,Clear Rising Edge Detection Register" hexmask.long.word 0x4 0.--15. 1. "CLRRIS8,Writing 1 clears rising edge detection for GPIO bank 8 bits." line.long 0x8 "MEM_SET_FAL_TRIG8,Set Falling Edge Detection Register" hexmask.long.word 0x8 0.--15. 1. "SETFAL8,Writing 1 enables falling edge detection for for GPIO bank 8 bits." line.long 0xC "MEM_CLR_FAL_TRIG8,Clear Falling Edge Detection Register" hexmask.long.word 0xC 0.--15. 1. "CLRFAL8,Writing 1 clears falling edge detection for for GPIO bank 8 bits." line.long 0x10 "MEM_INTSTAT8,Bank Interrupt Status Register" hexmask.long.word 0x10 0.--15. 1. "STAT8,Status of GPIO bank 8 bits interrupt. Reading back 1 = interrupt occurred. 0 = interrupt hasnt occurred since last cleared. Writing 1 clears the corresponding interrupt status." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_TIMEOUT0_CFG (MCU_TIMEOUT0_CFG)" base ad:0x4301000 rgroup.long 0x0++0xB line.long 0x0 "CFG_PID,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" line.long 0x4 "CFG_CFG,The Configuration Register contains information about the configuration of the gasket." hexmask.long.byte 0x4 16.--23. 1. "NUM_WRITES,Total Number of slots in the write scoreboard" hexmask.long.byte 0x4 0.--7. 1. "NUM_READS,Total Number of slots in the read scoreboard" line.long 0x8 "CFG_INFO,The Info Register contains information about the current state of the gasket." hexmask.long.word 0x8 16.--24. 1. "CUR_WRITES,Current number of occupied slots in the write scoreboard" hexmask.long.word 0x8 0.--8. 1. "CUR_READS,Current number of occupied slots in the read scoreboard" group.long 0xC++0xF line.long 0x0 "CFG_ENABLE,The Enable Register contains the gasket enable." hexmask.long.byte 0x0 0.--3. 1. "EN,Enable. 0 - Disabled All other values - Enabled." line.long 0x4 "CFG_FLUSH,The Flush Register contains software flush control." rbitfld.long 0x4 31. "EXT_FL,The value of external flush input" "0,1" hexmask.long.byte 0x4 0.--3. 1. "FL,SW control and indicator for whether the gasket is in flush mode. 4'b1111 - Flush mode All other values - Normal mode." line.long 0x8 "CFG_TIMEOUT,The Timeout Value Register contains the timeout value for scoreboarded transactions." hexmask.long 0x8 0.--29. 1. "TO,The number of cycles in each eon. Each transaction can be outstanding for 2-3 eons before it times out." line.long 0xC "CFG_TIMER,The Timer Register contains the current value for free-running timer." rbitfld.long 0xC 30.--31. "EON,Current eon" "0,1,2,3" hexmask.long 0xC 0.--29. 1. "CNTR,Current value of the free-running timer. It increments once per clock cycle when the gasket is enabled." group.long 0x20++0x17 line.long 0x0 "CFG_ERR_RAW,This register contains the masked interrupt bits" bitfld.long 0x0 2. "CMD,Raw Command Error Interrupt" "0,1" bitfld.long 0x0 1. "UNEXP,Raw Unexpected Error Interrupt" "0,1" bitfld.long 0x0 0. "TIMEOUT,Raw Timeout Error Interrupt" "0,1" line.long 0x4 "CFG_ERR,This register contains the masked interrupt bits" bitfld.long 0x4 2. "CMD,Masked Command Error Interrupt" "0,1" bitfld.long 0x4 1. "UNEXP,Masked Unexpected Error Interrupt" "0,1" bitfld.long 0x4 0. "TIMEOUT,Masked Timeout Error Interrupt" "0,1" line.long 0x8 "CFG_ERR_MSK_SET,This register contains interrupt mask set bits" bitfld.long 0x8 2. "CMD,Raw Command Error Interrupt Mask Set" "0,1" bitfld.long 0x8 1. "UNEXP,Raw Unexpected Error Interrupt Mask Set" "0,1" bitfld.long 0x8 0. "TIMEOUT,Raw Timeout Error Interrupt Mask Set" "0,1" line.long 0xC "CFG_ERR_MSK_CLR,This register contains interrupt mask clear bits" bitfld.long 0xC 2. "CMD,Raw Command Error Interrupt Mask Clear" "0,1" bitfld.long 0xC 1. "UNEXP,Raw Unexpected Error Interrupt Mask Clear" "0,1" bitfld.long 0xC 0. "TIMEOUT,Raw Timeout Error Interrupt Mask Clear" "0,1" line.long 0x10 "CFG_ERR_TM_INFO,This register contains information about timeout interrupts" bitfld.long 0x10 0.--1. "CNT,This field contains information about how many transactions have timed out since the last one was serviced. Writing to this register decrements the contents by the value written. The value saturates at 3." "0,1,2,3" line.long 0x14 "CFG_ERR_UN_INFO,This register contains information about unexpected interrupts" bitfld.long 0x14 0.--1. "CNT,This field contains information about how many unexpected responses have been received since the last one was serviced. Writing to this register decrements the contents by the value written. The value saturates at 3." "0,1,2,3" rgroup.long 0x38++0x13 line.long 0x0 "CFG_ERR_VAL,This register contains information about transaction that caused the interrupt" hexmask.long.word 0x0 16.--27. 1. "RID,Route ID Indicator" hexmask.long.byte 0x0 8.--11. 1. "OID,Order ID Indicator" bitfld.long 0x0 2. "DIR,Direction Indicator. 0-write. 1-read." "0,1" bitfld.long 0x0 1. "TYP,Error Type Indicator. 0-transaction timeout. 1-unexpected response." "0,1" bitfld.long 0x0 0. "VAL,Valid Indicator. If this field is a 1 then the contents of this and the below registers is considered valid: it contains the information about the transaction that was captured. If this field is 0 then this and the other listed registers are not.." "0,1" line.long 0x4 "CFG_ERR_TAG,This register contains information about transaction that caused the interrupt" hexmask.long.word 0x4 16.--27. 1. "TAG,Command Tag Indicator consisting of replacement CID for timeout error or SID/RID for unexpected response error." hexmask.long.word 0x4 0.--11. 1. "CID,Command ID Indicator. This is the original command id and is only valid on timeout error." line.long 0x8 "CFG_ERR_BYT,This register contains information about transaction that caused the interrupt" hexmask.long.word 0x8 16.--25. 1. "CBYTECNT,Current Bytecnt. For timeout error this is the number of bytes that were not returned." hexmask.long.word 0x8 0.--9. 1. "OBYTECNT,Original Bytecnt. This field represents the transaction cbytecnt of the original command." line.long 0xC "CFG_ERR_ADDR_U,This register contains information about transaction that caused the interrupt" hexmask.long 0xC 0.--31. 1. "ADDR,Upper bits of the address for the captured transaction. This is field is only valid for timeout error." line.long 0x10 "CFG_ERR_ADDR_L,This register contains information about transaction that caused the interrupt" hexmask.long 0x10 0.--31. 1. "ADDR,Lower bits of the address for the captured transaction. This is field is only valid for timeout error. If the address width is less than 32 then the bits above the address range will be read as 0." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_CTRL_MMR0_CFG0 (MCU_CTRL_MMR0_CFG0)" base ad:0x4500000 rgroup.long 0x0++0x3 line.long 0x0 "CFG0_PID," hexmask.long.word 0x0 16.--31. 1. "PID_MSB16," newline hexmask.long.byte 0x0 11.--15. 1. "PID_MISC," newline bitfld.long 0x0 8.--10. "PID_MAJOR," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "PID_CUSTOM," "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "PID_MINOR," rgroup.long 0x8++0x3 line.long 0x0 "CFG0_MMR_CFG1," bitfld.long 0x0 31. "MMR_CFG1_PROXY_EN,Proxy addressing activated" "0,1" newline hexmask.long.byte 0x0 0.--7. 1. "MMR_CFG1_PARTITIONS,Indicates present partitions" group.long 0x100++0x3 line.long 0x0 "CFG0_IPC_SET0," hexmask.long 0x0 4.--31. 1. "IPC_SET0_IPC_SRC_SET,Read returns 0 Write: 0 - No effect 1 - Sets both corresponding IPC_CLR and the IPC_SET bits" newline bitfld.long 0x0 0. "IPC_SET0_IPC_SET,Read returns 0 Write: 0 - No effect 1 - Sets both corresponding IPC_CLR and the IPC_SET bits" "0,1" group.long 0x180++0x3 line.long 0x0 "CFG0_IPC_CLR0," hexmask.long 0x0 4.--31. 1. "IPC_CLR0_IPC_SRC_CLR,Read returns current value Write: 0 - No effect 1 - Clears both corresponding IPC_CLR and the IPC_SET bits" newline bitfld.long 0x0 0. "IPC_CLR0_IPC_CLR,Read returns current value Write: 0 - No effect 1 - Clears both corresponding IPC_CLR and the IPC_SET bits" "0,1" rgroup.long 0x270++0x3 line.long 0x0 "CFG0_CBA_ERR_STAT," bitfld.long 0x0 24. "CBA_ERR_STAT_WKUP_SAFE_CBA_ERR,Access Error from Wkup Safe CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 20. "CBA_ERR_STAT_MCU_CBA_ERR,Access Error from MCU CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" rgroup.long 0x280++0x3 line.long 0x0 "CFG0_ACCESS_ERR_STAT," bitfld.long 0x0 9. "ACCESS_ERR_STAT_ACCESS_ERR_IN9,Access Error From MCU_PADCFG_CTRL0 MMR Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 8. "ACCESS_ERR_STAT_ACCESS_ERR_IN8,Access Error From WKUP_CTRL_MMR1 Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 4. "ACCESS_ERR_STAT_ACCESS_ERR_IN4,Access Error From PADCFG_CTRL0 MMR Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 3. "ACCESS_ERR_STAT_ACCESS_ERR_IN3,Access Error From CTRL_MMR0 Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 0. "ACCESS_ERR_STAT_ACCESS_ERR_IN0,Access Error From WKUP_CTRL_MMR0 Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" group.long 0x1008++0x1B line.long 0x0 "CFG0_LOCK0_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK0_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK0_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK0_KICK1,- KICK1 component" line.long 0x8 "CFG0_intr_raw_status," bitfld.long 0x8 3. "PROXY_ERR,Proxy0 access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 2. "KICK_ERR,Kick access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 1. "ADDR_ERR,Addressing violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 0. "PROT_ERR,Protection violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" line.long 0xC "CFG0_intr_enabled_status_clear," bitfld.long 0xC 3. "ENABLED_PROXY_ERR,Proxy0 access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 2. "ENABLED_KICK_ERR,Kick access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 1. "ENABLED_ADDR_ERR,Addressing violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 0. "ENABLED_PROT_ERR,Protection violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" line.long 0x10 "CFG0_intr_enable," bitfld.long 0x10 3. "PROXY_ERR_EN,Proxy0 access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 2. "KICK_ERR_EN,Kick access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 1. "ADDR_ERR_EN,Addressing violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 0. "PROT_ERR_EN,Protection violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" line.long 0x14 "CFG0_intr_enable_clear," bitfld.long 0x14 3. "PROXY_ERR_EN_CLR,Proxy0 access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x14 2. "KICK_ERR_EN_CLR,Kick access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x14 1. "ADDR_ERR_EN_CLR,Addressing violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x14 0. "PROT_ERR_EN_CLR,Protection violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" line.long 0x18 "CFG0_eoi," hexmask.long.byte 0x18 0.--7. 1. "EOI_VECTOR,EOI vector value. Write this with interrupt distribution value in the chip." rgroup.long 0x1024++0xB line.long 0x0 "CFG0_fault_address," hexmask.long 0x0 0.--31. 1. "FAULT_ADDR,Fault Address." line.long 0x4 "CFG0_fault_type_status," bitfld.long 0x4 6. "FAULT_NS,Non-secure access." "0,1" newline hexmask.long.byte 0x4 0.--5. 1. "FAULT_TYPE,Fault Type 10_0000 = Supervisor read fault - priv = 1 dir = 1 dtype != 1 01_0000 = Supervisor write fault - priv = 1 dir = 0 00_1000 = Supervisor execute fault - priv = 1 dir = 1 dtype = 1 00_0100 = User read fault - priv = 0 dir.." line.long 0x8 "CFG0_fault_attr_status," hexmask.long.word 0x8 20.--31. 1. "FAULT_XID,XID." newline hexmask.long.word 0x8 8.--19. 1. "FAULT_ROUTEID,Route ID." newline hexmask.long.byte 0x8 0.--7. 1. "FAULT_PRIVID,Privilege ID." wgroup.long 0x1030++0x3 line.long 0x0 "CFG0_fault_clear," bitfld.long 0x0 0. "FAULT_CLR,Fault clear. Writing a 1 clears the current fault. Writing a 0 has no effect." "0,1" rgroup.long 0x1100++0x17 line.long 0x0 "CFG0_CLAIMREG_P0_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P0_R0_READONLY,Claim bits for Partition 0" line.long 0x4 "CFG0_CLAIMREG_P0_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P0_R1_READONLY,Claim bits for Partition 0" line.long 0x8 "CFG0_CLAIMREG_P0_R2_READONLY," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P0_R2_READONLY,Claim bits for Partition 0" line.long 0xC "CFG0_CLAIMREG_P0_R3_READONLY," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P0_R3_READONLY,Claim bits for Partition 0" line.long 0x10 "CFG0_CLAIMREG_P0_R4_READONLY," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P0_R4_READONLY,Claim bits for Partition 0" line.long 0x14 "CFG0_CLAIMREG_P0_R5_READONLY," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P0_R5_READONLY,Claim bits for Partition 0" rgroup.long 0x2000++0x3 line.long 0x0 "CFG0_PID_PROXY," hexmask.long.word 0x0 16.--31. 1. "PID_MSB16_PROXY," newline hexmask.long.byte 0x0 11.--15. 1. "PID_MISC_PROXY," newline bitfld.long 0x0 8.--10. "PID_MAJOR_PROXY," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "PID_CUSTOM_PROXY," "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "PID_MINOR_PROXY," rgroup.long 0x2008++0x3 line.long 0x0 "CFG0_MMR_CFG1_PROXY," bitfld.long 0x0 31. "MMR_CFG1_PROXY_EN_PROXY,Proxy addressing activated" "0,1" newline hexmask.long.byte 0x0 0.--7. 1. "MMR_CFG1_PARTITIONS_PROXY,Indicates present partitions" group.long 0x2100++0x3 line.long 0x0 "CFG0_IPC_SET0_PROXY," hexmask.long 0x0 4.--31. 1. "IPC_SET0_IPC_SRC_SET_PROXY,Read returns 0 Write: 0 - No effect 1 - Sets both corresponding IPC_CLR and the IPC_SET bits" newline bitfld.long 0x0 0. "IPC_SET0_IPC_SET_PROXY,Read returns 0 Write: 0 - No effect 1 - Sets both corresponding IPC_CLR and the IPC_SET bits" "0,1" group.long 0x2180++0x3 line.long 0x0 "CFG0_IPC_CLR0_PROXY," hexmask.long 0x0 4.--31. 1. "IPC_CLR0_IPC_SRC_CLR_PROXY,Read returns current value Write: 0 - No effect 1 - Clears both corresponding IPC_CLR and the IPC_SET bits" newline bitfld.long 0x0 0. "IPC_CLR0_IPC_CLR_PROXY,Read returns current value Write: 0 - No effect 1 - Clears both corresponding IPC_CLR and the IPC_SET bits" "0,1" rgroup.long 0x2270++0x3 line.long 0x0 "CFG0_CBA_ERR_STAT_PROXY," bitfld.long 0x0 24. "CBA_ERR_STAT_WKUP_SAFE_CBA_ERR_PROXY,Access Error from Wkup Safe CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 20. "CBA_ERR_STAT_MCU_CBA_ERR_PROXY,Access Error from MCU CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" rgroup.long 0x2280++0x3 line.long 0x0 "CFG0_ACCESS_ERR_STAT_PROXY," bitfld.long 0x0 9. "ACCESS_ERR_STAT_ACCESS_ERR_IN9_PROXY,Access Error From MCU_PADCFG_CTRL0 MMR Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 8. "ACCESS_ERR_STAT_ACCESS_ERR_IN8_PROXY,Access Error From WKUP_CTRL_MMR1 Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 4. "ACCESS_ERR_STAT_ACCESS_ERR_IN4_PROXY,Access Error From PADCFG_CTRL0 MMR Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 3. "ACCESS_ERR_STAT_ACCESS_ERR_IN3_PROXY,Access Error From CTRL_MMR0 Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 0. "ACCESS_ERR_STAT_ACCESS_ERR_IN0_PROXY,Access Error From WKUP_CTRL_MMR0 Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" group.long 0x3008++0x1B line.long 0x0 "CFG0_LOCK0_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK0_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK0_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK0_KICK1_PROXY,- KICK1 component" line.long 0x8 "CFG0_intr_raw_status_PROXY," bitfld.long 0x8 3. "PROXY_ERR_PROXY,Proxy0 access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 2. "KICK_ERR_PROXY,Kick access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 1. "ADDR_ERR_PROXY,Addressing violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 0. "PROT_ERR_PROXY,Protection violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" line.long 0xC "CFG0_intr_enabled_status_clear_PROXY," bitfld.long 0xC 3. "ENABLED_PROXY_ERR_PROXY,Proxy0 access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 2. "ENABLED_KICK_ERR_PROXY,Kick access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 1. "ENABLED_ADDR_ERR_PROXY,Addressing violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 0. "ENABLED_PROT_ERR_PROXY,Protection violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" line.long 0x10 "CFG0_intr_enable_PROXY," bitfld.long 0x10 3. "PROXY_ERR_EN_PROXY,Proxy0 access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 2. "KICK_ERR_EN_PROXY,Kick access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 1. "ADDR_ERR_EN_PROXY,Addressing violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 0. "PROT_ERR_EN_PROXY,Protection violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" line.long 0x14 "CFG0_intr_enable_clear_PROXY," bitfld.long 0x14 3. "PROXY_ERR_EN_CLR_PROXY,Proxy0 access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x14 2. "KICK_ERR_EN_CLR_PROXY,Kick access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x14 1. "ADDR_ERR_EN_CLR_PROXY,Addressing violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x14 0. "PROT_ERR_EN_CLR_PROXY,Protection violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" line.long 0x18 "CFG0_eoi_PROXY," hexmask.long.byte 0x18 0.--7. 1. "EOI_VECTOR_PROXY,EOI vector value. Write this with interrupt distribution value in the chip." rgroup.long 0x3024++0xB line.long 0x0 "CFG0_fault_address_PROXY," hexmask.long 0x0 0.--31. 1. "FAULT_ADDR_PROXY,Fault Address." line.long 0x4 "CFG0_fault_type_status_PROXY," bitfld.long 0x4 6. "FAULT_NS_PROXY,Non-secure access." "0,1" newline hexmask.long.byte 0x4 0.--5. 1. "FAULT_TYPE_PROXY,Fault Type 10_0000 = Supervisor read fault - priv = 1 dir = 1 dtype != 1 01_0000 = Supervisor write fault - priv = 1 dir = 0 00_1000 = Supervisor execute fault - priv = 1 dir = 1 dtype = 1 00_0100 = User read fault - priv =.." line.long 0x8 "CFG0_fault_attr_status_PROXY," hexmask.long.word 0x8 20.--31. 1. "FAULT_XID_PROXY,XID." newline hexmask.long.word 0x8 8.--19. 1. "FAULT_ROUTEID_PROXY,Route ID." newline hexmask.long.byte 0x8 0.--7. 1. "FAULT_PRIVID_PROXY,Privilege ID." wgroup.long 0x3030++0x3 line.long 0x0 "CFG0_fault_clear_PROXY," bitfld.long 0x0 0. "FAULT_CLR_PROXY,Fault clear. Writing a 1 clears the current fault. Writing a 0 has no effect." "0,1" group.long 0x3100++0x17 line.long 0x0 "CFG0_CLAIMREG_P0_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P0_R0,Claim bits for Partition 0" line.long 0x4 "CFG0_CLAIMREG_P0_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P0_R1,Claim bits for Partition 0" line.long 0x8 "CFG0_CLAIMREG_P0_R2," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P0_R2,Claim bits for Partition 0" line.long 0xC "CFG0_CLAIMREG_P0_R3," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P0_R3,Claim bits for Partition 0" line.long 0x10 "CFG0_CLAIMREG_P0_R4," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P0_R4,Claim bits for Partition 0" line.long 0x14 "CFG0_CLAIMREG_P0_R5," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P0_R5,Claim bits for Partition 0" group.long 0x4020++0x3 line.long 0x0 "CFG0_MCU_GPIO_CTRL," bitfld.long 0x0 0. "MCU_GPIO_CTRL_WAKEN,Determines whether or not MCU_GPIO clock is stopped by its LPSC. Preventing the clock stop allows the MCU_GPIO to provide a wakeup event. Field values (others are reserved): 1'b0 - WAKEUP_DISABLED 1'b1 - WAKEUP_ENABLED" "0,1" group.long 0x4084++0x17 line.long 0x0 "CFG0_DBOUNCE_CFG1," hexmask.long.byte 0x0 0.--5. 1. "DBOUNCE_CFG1_DB_CFG,Configures the debounce period used for I/Os with PADCONFIGx_DEBOUNCE_SEL = 1. Debounce period is specified as a number of CLK0 or CLK1 clock cycles. For all inputs except EQEP inputs CLK0 is CLK_32K_RC and CLK1 is HFOSC0_CLKOUT." line.long 0x4 "CFG0_DBOUNCE_CFG2," hexmask.long.byte 0x4 0.--5. 1. "DBOUNCE_CFG2_DB_CFG,Configures the debounce period used for I/Os with PADCONFIGx_DEBOUNCE_SEL = 2. Debounce period is specified as a number of CLK0 or CLK1 clock cycles. For all inputs except EQEP inputs CLK0 is CLK_32K_RC and CLK1 is HFOSC0_CLKOUT." line.long 0x8 "CFG0_DBOUNCE_CFG3," hexmask.long.byte 0x8 0.--5. 1. "DBOUNCE_CFG3_DB_CFG,Configures the debounce period used for I/Os with PADCONFIGx_DEBOUNCE_SEL = 3. Debounce period is specified as a number of CLK0 or CLK1 clock cycles. For all inputs except EQEP inputs CLK0 is CLK_32K_RC and CLK1 is HFOSC0_CLKOUT." line.long 0xC "CFG0_DBOUNCE_CFG4," hexmask.long.byte 0xC 0.--5. 1. "DBOUNCE_CFG4_DB_CFG,Configures the debounce period used for I/Os with PADCONFIGx_DEBOUNCE_SEL = 4. Debounce period is specified as a number of CLK0 or CLK1 clock cycles. For all inputs except EQEP inputs CLK0 is CLK_32K_RC and CLK1 is HFOSC0_CLKOUT." line.long 0x10 "CFG0_DBOUNCE_CFG5," hexmask.long.byte 0x10 0.--5. 1. "DBOUNCE_CFG5_DB_CFG,Configures the debounce period used for I/Os with PADCONFIGx_DEBOUNCE_SEL = 5. Debounce period is specified as a number of CLK0 or CLK1 clock cycles. For all inputs except EQEP inputs CLK0 is CLK_32K_RC and CLK1 is HFOSC0_CLKOUT." line.long 0x14 "CFG0_DBOUNCE_CFG6," hexmask.long.byte 0x14 0.--5. 1. "DBOUNCE_CFG6_DB_CFG,Configures the debounce period used for I/Os with PADCONFIGx_DEBOUNCE_SEL = 6. Debounce period is specified as a number of CLK0 or CLK1 clock cycles. For all inputs except EQEP inputs CLK0 is CLK_32K_RC and CLK1 is HFOSC0_CLKOUT." rgroup.long 0x40A0++0x3 line.long 0x0 "CFG0_TEMP_DIODE_TRIM," hexmask.long.word 0x0 0.--13. 1. "TEMP_DIODE_TRIM_TRIM,Trimmed value of diode non-ideality factor (n) starting from 100th place decimal and going down" rgroup.long 0x40B0++0x3 line.long 0x0 "CFG0_IO_VOLTAGE_STAT," bitfld.long 0x0 17. "IO_VOLTAGE_STAT_GPMC,Detected voltage for GPMC I/O group (VDDSHV3) Field values (others are reserved): 1'b0 - IOGROUP_3P3V 1'b1 - IOGROUP_1P8V" "0,1" newline bitfld.long 0x0 16. "IO_VOLTAGE_STAT_GEMAC,Detected voltage for the GEMAC I/O group (VDDSHV2) Field values (others are reserved): 1'b0 - IOGROUP_3P3V 1'b1 - IOGROUP_1P8V" "0,1" newline bitfld.long 0x0 11. "IO_VOLTAGE_STAT_MMC2,Detected voltage for the MMC2 I/O group (VDDSHV6) Field values (others are reserved): 1'b0 - IOGROUP_3P3V 1'b1 - IOGROUP_1P8V" "0,1" newline bitfld.long 0x0 10. "IO_VOLTAGE_STAT_MMC1,Detected voltage for the MMC1 I/O group (VDDSHV5) Field values (others are reserved): 1'b0 - IOGROUP_3P3V 1'b1 - IOGROUP_1P8V" "0,1" newline bitfld.long 0x0 9. "IO_VOLTAGE_STAT_MMC0,Detected voltage for the MMC0 I/O group (VDDSHV4) Field values (others are reserved): 1'b0 - IOGROUP_3P3V 1'b1 - IOGROUP_1P8V" "0,1" newline bitfld.long 0x0 8. "IO_VOLTAGE_STAT_GENERAL,Detected voltage for the General I/O group (VDDSHV0) Field values (others are reserved): 1'b0 - IOGROUP_3P3V 1'b1 - IOGROUP_1P8V" "0,1" newline bitfld.long 0x0 2. "IO_VOLTAGE_STAT_CANUART,Detected voltage for the CANUART I/O group (VDDSHV_WKUP) Field values (others are reserved): 1'b0 - IOGROUP_3P3V 1'b1 - IOGROUP_1P8V" "0,1" newline bitfld.long 0x0 1. "IO_VOLTAGE_STAT_FLASH,Detected voltage for the Flash I/O group (VDDSHV1) Field values (others are reserved): 1'b0 - IOGROUP_3P3V 1'b1 - IOGROUP_1P8V" "0,1" newline bitfld.long 0x0 0. "IO_VOLTAGE_STAT_WKUP_MCU,Detected voltage for the WKUP_MCU I/O group (VDDSHV_MCU) Field values (others are reserved): 1'b0 - IOGROUP_3P3V 1'b1 - IOGROUP_1P8V" "0,1" group.long 0x4204++0x3 line.long 0x0 "CFG0_MCU_TIMER1_CTRL," bitfld.long 0x0 8. "MCU_TIMER1_CTRL_CASCADE_EN,Activates cascading of TIMER1 to TIMER0 Field values (others are reserved): 1'b0 - CASCADE_DEACTIVATED 1'b1 - CASCADE_ACTIVATED" "0,1" group.long 0x420C++0x3 line.long 0x0 "CFG0_MCU_TIMER3_CTRL," bitfld.long 0x0 8. "MCU_TIMER3_CTRL_CASCADE_EN,Activates cascading of TIMER3 to TIMER2 Field values (others are reserved): 1'b0 - CASCADE_DEACTIVATED 1'b1 - CASCADE_ACTIVATED" "0,1" group.long 0x42E0++0x3 line.long 0x0 "CFG0_MCU_I2C0_CTRL," bitfld.long 0x0 0. "MCU_I2C0_CTRL_HS_MCS_EN,HS Mode controller current source activate. When set activates the current-source pull-up on the SCL output. Only one controller on the I2C bus should activate SCL current sourcing. Field values (others are reserved): 1'b0 -.." "0,1" group.long 0x4604++0x7 line.long 0x0 "CFG0_WKUP_MTOG_CTRL0," rbitfld.long 0x0 31. "WKUP_MTOG_CTRL0_IDLE_STAT,Indicates the Gasket is Idle Field values (others are reserved): 1'b0 - BUSY 1'b1 - IDLE" "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "WKUP_MTOG_CTRL0_FORCE_TIMEOUT,Force Timout This is a fault tolerant bitfield. Forces a flush of the interface transactions. This bitfield is only relevant if timeout_en=1. After forcing a timeout by writing the encoded value the force_timeout and.." newline bitfld.long 0x0 15. "WKUP_MTOG_CTRL0_TIMEOUT_EN,Activate Timeout Gasket Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 0.--2. "WKUP_MTOG_CTRL0_TIMEOUT_VAL,Gasket Timeout Value Selects the number of clock cycles before the interface is considered to have timed out Field values (others are reserved): 3'b000 - TO_1K_CYCLES 3'b001 - TO_4K_CYCLES 3'b010 - TO_16K_CYCLES 3'b011 -.." "0,1,2,3,4,5,6,7" line.long 0x4 "CFG0_WKUP_MTOG_CTRL1," rbitfld.long 0x4 31. "WKUP_MTOG_CTRL1_IDLE_STAT,Indicates the Gasket is Idle Field values (others are reserved): 1'b0 - BUSY 1'b1 - IDLE" "0,1" newline hexmask.long.byte 0x4 16.--23. 1. "WKUP_MTOG_CTRL1_FORCE_TIMEOUT,Force Timout This is a fault tolerant bitfield. Forces a flush of the interface transactions. This bitfield is only relevant if timeout_en=1. After forcing a timeout by writing the encoded value the force_timeout and.." newline bitfld.long 0x4 15. "WKUP_MTOG_CTRL1_TIMEOUT_EN,Activate Timeout Gasket Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x4 0.--2. "WKUP_MTOG_CTRL1_TIMEOUT_VAL,Gasket Timeout Value Selects the number of clock cycles before the interface is considered to have timed out Field values (others are reserved): 3'b000 - TO_1K_CYCLES 3'b001 - TO_4K_CYCLES 3'b010 - TO_16K_CYCLES 3'b011 -.." "0,1,2,3,4,5,6,7" rgroup.long 0x4610++0x3 line.long 0x0 "CFG0_TOG_STAT," bitfld.long 0x0 15. "TOG_STAT_SLV_TOG_STAT,Error Status of Target Timeout Gaskets Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - MCU_TIMEOUT0" "0,1" newline bitfld.long 0x0 0.--1. "TOG_STAT_MST_TOG_STAT,Error Status of Initiator Timeout Gaskets Field values (others are reserved): 2'b00 - NO_ERROR 2'b01 - WKUP_TIMEOUT1 2'b10 - WKUP_TIMEOUT0 2'b11 - WKUP_TIMEOUT0_AND_WKUP_TIMEOUT1" "0,1,2,3" group.long 0x5008++0x7 line.long 0x0 "CFG0_LOCK1_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK1_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK1_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK1_KICK1,- KICK1 component" rgroup.long 0x5100++0x33 line.long 0x0 "CFG0_CLAIMREG_P1_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P1_R0_READONLY,Claim bits for Partition 1" line.long 0x4 "CFG0_CLAIMREG_P1_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P1_R1_READONLY,Claim bits for Partition 1" line.long 0x8 "CFG0_CLAIMREG_P1_R2_READONLY," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P1_R2_READONLY,Claim bits for Partition 1" line.long 0xC "CFG0_CLAIMREG_P1_R3_READONLY," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P1_R3_READONLY,Claim bits for Partition 1" line.long 0x10 "CFG0_CLAIMREG_P1_R4_READONLY," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P1_R4_READONLY,Claim bits for Partition 1" line.long 0x14 "CFG0_CLAIMREG_P1_R5_READONLY," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P1_R5_READONLY,Claim bits for Partition 1" line.long 0x18 "CFG0_CLAIMREG_P1_R6_READONLY," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P1_R6_READONLY,Claim bits for Partition 1" line.long 0x1C "CFG0_CLAIMREG_P1_R7_READONLY," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P1_R7_READONLY,Claim bits for Partition 1" line.long 0x20 "CFG0_CLAIMREG_P1_R8_READONLY," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P1_R8_READONLY,Claim bits for Partition 1" line.long 0x24 "CFG0_CLAIMREG_P1_R9_READONLY," hexmask.long 0x24 0.--31. 1. "CLAIMREG_P1_R9_READONLY,Claim bits for Partition 1" line.long 0x28 "CFG0_CLAIMREG_P1_R10_READONLY," hexmask.long 0x28 0.--31. 1. "CLAIMREG_P1_R10_READONLY,Claim bits for Partition 1" line.long 0x2C "CFG0_CLAIMREG_P1_R11_READONLY," hexmask.long 0x2C 0.--31. 1. "CLAIMREG_P1_R11_READONLY,Claim bits for Partition 1" line.long 0x30 "CFG0_CLAIMREG_P1_R12_READONLY," hexmask.long 0x30 0.--31. 1. "CLAIMREG_P1_R12_READONLY,Claim bits for Partition 1" group.long 0x6020++0x3 line.long 0x0 "CFG0_MCU_GPIO_CTRL_PROXY," bitfld.long 0x0 0. "MCU_GPIO_CTRL_WAKEN_PROXY,Determines whether or not MCU_GPIO clock is stopped by its LPSC. Preventing the clock stop allows the MCU_GPIO to provide a wakeup event. Field values (others are reserved): 1'b0 - WAKEUP_DISABLED 1'b1 - WAKEUP_ENABLED" "0,1" group.long 0x6084++0x17 line.long 0x0 "CFG0_DBOUNCE_CFG1_PROXY," hexmask.long.byte 0x0 0.--5. 1. "DBOUNCE_CFG1_DB_CFG_PROXY,Configures the debounce period used for I/Os with PADCONFIGx_DEBOUNCE_SEL = 1. Debounce period is specified as a number of CLK0 or CLK1 clock cycles. For all inputs except EQEP inputs CLK0 is CLK_32K_RC and CLK1 is.." line.long 0x4 "CFG0_DBOUNCE_CFG2_PROXY," hexmask.long.byte 0x4 0.--5. 1. "DBOUNCE_CFG2_DB_CFG_PROXY,Configures the debounce period used for I/Os with PADCONFIGx_DEBOUNCE_SEL = 2. Debounce period is specified as a number of CLK0 or CLK1 clock cycles. For all inputs except EQEP inputs CLK0 is CLK_32K_RC and CLK1 is.." line.long 0x8 "CFG0_DBOUNCE_CFG3_PROXY," hexmask.long.byte 0x8 0.--5. 1. "DBOUNCE_CFG3_DB_CFG_PROXY,Configures the debounce period used for I/Os with PADCONFIGx_DEBOUNCE_SEL = 3. Debounce period is specified as a number of CLK0 or CLK1 clock cycles. For all inputs except EQEP inputs CLK0 is CLK_32K_RC and CLK1 is.." line.long 0xC "CFG0_DBOUNCE_CFG4_PROXY," hexmask.long.byte 0xC 0.--5. 1. "DBOUNCE_CFG4_DB_CFG_PROXY,Configures the debounce period used for I/Os with PADCONFIGx_DEBOUNCE_SEL = 4. Debounce period is specified as a number of CLK0 or CLK1 clock cycles. For all inputs except EQEP inputs CLK0 is CLK_32K_RC and CLK1 is.." line.long 0x10 "CFG0_DBOUNCE_CFG5_PROXY," hexmask.long.byte 0x10 0.--5. 1. "DBOUNCE_CFG5_DB_CFG_PROXY,Configures the debounce period used for I/Os with PADCONFIGx_DEBOUNCE_SEL = 5. Debounce period is specified as a number of CLK0 or CLK1 clock cycles. For all inputs except EQEP inputs CLK0 is CLK_32K_RC and CLK1 is.." line.long 0x14 "CFG0_DBOUNCE_CFG6_PROXY," hexmask.long.byte 0x14 0.--5. 1. "DBOUNCE_CFG6_DB_CFG_PROXY,Configures the debounce period used for I/Os with PADCONFIGx_DEBOUNCE_SEL = 6. Debounce period is specified as a number of CLK0 or CLK1 clock cycles. For all inputs except EQEP inputs CLK0 is CLK_32K_RC and CLK1 is.." rgroup.long 0x60A0++0x3 line.long 0x0 "CFG0_TEMP_DIODE_TRIM_PROXY," hexmask.long.word 0x0 0.--13. 1. "TEMP_DIODE_TRIM_TRIM_PROXY,Trimmed value of diode non-ideality factor (n) starting from 100th place decimal and going down" rgroup.long 0x60B0++0x3 line.long 0x0 "CFG0_IO_VOLTAGE_STAT_PROXY," bitfld.long 0x0 17. "IO_VOLTAGE_STAT_GPMC_PROXY,Detected voltage for GPMC I/O group (VDDSHV3) Field values (others are reserved): 1'b0 - IOGROUP_3P3V 1'b1 - IOGROUP_1P8V" "0,1" newline bitfld.long 0x0 16. "IO_VOLTAGE_STAT_GEMAC_PROXY,Detected voltage for the GEMAC I/O group (VDDSHV2) Field values (others are reserved): 1'b0 - IOGROUP_3P3V 1'b1 - IOGROUP_1P8V" "0,1" newline bitfld.long 0x0 11. "IO_VOLTAGE_STAT_MMC2_PROXY,Detected voltage for the MMC2 I/O group (VDDSHV6) Field values (others are reserved): 1'b0 - IOGROUP_3P3V 1'b1 - IOGROUP_1P8V" "0,1" newline bitfld.long 0x0 10. "IO_VOLTAGE_STAT_MMC1_PROXY,Detected voltage for the MMC1 I/O group (VDDSHV5) Field values (others are reserved): 1'b0 - IOGROUP_3P3V 1'b1 - IOGROUP_1P8V" "0,1" newline bitfld.long 0x0 9. "IO_VOLTAGE_STAT_MMC0_PROXY,Detected voltage for the MMC0 I/O group (VDDSHV4) Field values (others are reserved): 1'b0 - IOGROUP_3P3V 1'b1 - IOGROUP_1P8V" "0,1" newline bitfld.long 0x0 8. "IO_VOLTAGE_STAT_GENERAL_PROXY,Detected voltage for the General I/O group (VDDSHV0) Field values (others are reserved): 1'b0 - IOGROUP_3P3V 1'b1 - IOGROUP_1P8V" "0,1" newline bitfld.long 0x0 2. "IO_VOLTAGE_STAT_CANUART_PROXY,Detected voltage for the CANUART I/O group (VDDSHV_WKUP) Field values (others are reserved): 1'b0 - IOGROUP_3P3V 1'b1 - IOGROUP_1P8V" "0,1" newline bitfld.long 0x0 1. "IO_VOLTAGE_STAT_FLASH_PROXY,Detected voltage for the Flash I/O group (VDDSHV1) Field values (others are reserved): 1'b0 - IOGROUP_3P3V 1'b1 - IOGROUP_1P8V" "0,1" newline bitfld.long 0x0 0. "IO_VOLTAGE_STAT_WKUP_MCU_PROXY,Detected voltage for the WKUP_MCU I/O group (VDDSHV_MCU) Field values (others are reserved): 1'b0 - IOGROUP_3P3V 1'b1 - IOGROUP_1P8V" "0,1" group.long 0x6204++0x3 line.long 0x0 "CFG0_MCU_TIMER1_CTRL_PROXY," bitfld.long 0x0 8. "MCU_TIMER1_CTRL_CASCADE_EN_PROXY,Activates cascading of TIMER1 to TIMER0 Field values (others are reserved): 1'b0 - CASCADE_DEACTIVATED 1'b1 - CASCADE_ACTIVATED" "0,1" group.long 0x620C++0x3 line.long 0x0 "CFG0_MCU_TIMER3_CTRL_PROXY," bitfld.long 0x0 8. "MCU_TIMER3_CTRL_CASCADE_EN_PROXY,Activates cascading of TIMER3 to TIMER2 Field values (others are reserved): 1'b0 - CASCADE_DEACTIVATED 1'b1 - CASCADE_ACTIVATED" "0,1" group.long 0x62E0++0x3 line.long 0x0 "CFG0_MCU_I2C0_CTRL_PROXY," bitfld.long 0x0 0. "MCU_I2C0_CTRL_HS_MCS_EN_PROXY,HS Mode controller current source activate. When set activates the current-source pull-up on the SCL output. Only one controller on the I2C bus should activate SCL current sourcing. Field values (others are reserved):.." "0,1" group.long 0x6604++0x7 line.long 0x0 "CFG0_WKUP_MTOG_CTRL0_PROXY," rbitfld.long 0x0 31. "WKUP_MTOG_CTRL0_IDLE_STAT_PROXY,Indicates the Gasket is Idle Field values (others are reserved): 1'b0 - BUSY 1'b1 - IDLE" "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "WKUP_MTOG_CTRL0_FORCE_TIMEOUT_PROXY,Force Timout This is a fault tolerant bitfield. Forces a flush of the interface transactions. This bitfield is only relevant if timeout_en=1. After forcing a timeout by writing the encoded value the force_timeout.." newline bitfld.long 0x0 15. "WKUP_MTOG_CTRL0_TIMEOUT_EN_PROXY,Activate Timeout Gasket Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 0.--2. "WKUP_MTOG_CTRL0_TIMEOUT_VAL_PROXY,Gasket Timeout Value Selects the number of clock cycles before the interface is considered to have timed out Field values (others are reserved): 3'b000 - TO_1K_CYCLES 3'b001 - TO_4K_CYCLES 3'b010 - TO_16K_CYCLES 3'b011 -.." "0,1,2,3,4,5,6,7" line.long 0x4 "CFG0_WKUP_MTOG_CTRL1_PROXY," rbitfld.long 0x4 31. "WKUP_MTOG_CTRL1_IDLE_STAT_PROXY,Indicates the Gasket is Idle Field values (others are reserved): 1'b0 - BUSY 1'b1 - IDLE" "0,1" newline hexmask.long.byte 0x4 16.--23. 1. "WKUP_MTOG_CTRL1_FORCE_TIMEOUT_PROXY,Force Timout This is a fault tolerant bitfield. Forces a flush of the interface transactions. This bitfield is only relevant if timeout_en=1. After forcing a timeout by writing the encoded value the force_timeout.." newline bitfld.long 0x4 15. "WKUP_MTOG_CTRL1_TIMEOUT_EN_PROXY,Activate Timeout Gasket Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x4 0.--2. "WKUP_MTOG_CTRL1_TIMEOUT_VAL_PROXY,Gasket Timeout Value Selects the number of clock cycles before the interface is considered to have timed out Field values (others are reserved): 3'b000 - TO_1K_CYCLES 3'b001 - TO_4K_CYCLES 3'b010 - TO_16K_CYCLES 3'b011 -.." "0,1,2,3,4,5,6,7" rgroup.long 0x6610++0x3 line.long 0x0 "CFG0_TOG_STAT_PROXY," bitfld.long 0x0 15. "TOG_STAT_SLV_TOG_STAT_PROXY,Error Status of Target Timeout Gaskets Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - MCU_TIMEOUT0" "0,1" newline bitfld.long 0x0 0.--1. "TOG_STAT_MST_TOG_STAT_PROXY,Error Status of Initiator Timeout Gaskets Field values (others are reserved): 2'b00 - NO_ERROR 2'b01 - WKUP_TIMEOUT1 2'b10 - WKUP_TIMEOUT0 2'b11 - WKUP_TIMEOUT0_AND_WKUP_TIMEOUT1" "0,1,2,3" group.long 0x7008++0x7 line.long 0x0 "CFG0_LOCK1_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK1_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK1_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK1_KICK1_PROXY,- KICK1 component" group.long 0x7100++0x33 line.long 0x0 "CFG0_CLAIMREG_P1_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P1_R0,Claim bits for Partition 1" line.long 0x4 "CFG0_CLAIMREG_P1_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P1_R1,Claim bits for Partition 1" line.long 0x8 "CFG0_CLAIMREG_P1_R2," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P1_R2,Claim bits for Partition 1" line.long 0xC "CFG0_CLAIMREG_P1_R3," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P1_R3,Claim bits for Partition 1" line.long 0x10 "CFG0_CLAIMREG_P1_R4," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P1_R4,Claim bits for Partition 1" line.long 0x14 "CFG0_CLAIMREG_P1_R5," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P1_R5,Claim bits for Partition 1" line.long 0x18 "CFG0_CLAIMREG_P1_R6," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P1_R6,Claim bits for Partition 1" line.long 0x1C "CFG0_CLAIMREG_P1_R7," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P1_R7,Claim bits for Partition 1" line.long 0x20 "CFG0_CLAIMREG_P1_R8," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P1_R8,Claim bits for Partition 1" line.long 0x24 "CFG0_CLAIMREG_P1_R9," hexmask.long 0x24 0.--31. 1. "CLAIMREG_P1_R9,Claim bits for Partition 1" line.long 0x28 "CFG0_CLAIMREG_P1_R10," hexmask.long 0x28 0.--31. 1. "CLAIMREG_P1_R10,Claim bits for Partition 1" line.long 0x2C "CFG0_CLAIMREG_P1_R11," hexmask.long 0x2C 0.--31. 1. "CLAIMREG_P1_R11,Claim bits for Partition 1" line.long 0x30 "CFG0_CLAIMREG_P1_R12," hexmask.long 0x30 0.--31. 1. "CLAIMREG_P1_R12,Claim bits for Partition 1" group.long 0x8000++0x3 line.long 0x0 "CFG0_MCU_OBSCLK_CTRL," bitfld.long 0x0 24. "MCU_OBSCLK_CTRL_OUT_MUX_SEL,MCU_OBSCLK pin output mux selection. Note HFOSC0_CLK is a direct output from the HFOSC0 distinct from HFOSC0_CLKOUT. Note when HFOSC0_CLK is selected (1'b1) the MCU_OBSCLK_CTRL_clk_sel field must be programmed to 4'b0001." "0,1" newline bitfld.long 0x0 16. "MCU_OBSCLK_CTRL_CLK_DIV_LD,Load the output divider value Writing 1 to this bit will generate a load pulse to load the OBSCLK divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div value is changed. Field.." "0,1" newline hexmask.long.byte 0x0 8.--11. 1. "MCU_OBSCLK_CTRL_CLK_DIV,MCU_OBSCLK pin clock selection output divider Output clock is divided by clk_div+1" newline hexmask.long.byte 0x0 0.--3. 1. "MCU_OBSCLK_CTRL_CLK_SEL,MCU_OBSCLK pin clock selection Field values (others are reserved): 4'b0000 - CLK_12M_RC 4'b0001 - OFF 4'b0010 - MCU_PLL0_HSDIV0_CLKOUT 4'b0011 - MCU_PLL0_HSDIV4_CLKOUT 4'b0100 - MCU_PLLCTRL_OBSCLK 4'b0101 - CLK_32K_RC 4'b0110 -.." group.long 0x8010++0x3 line.long 0x0 "CFG0_HFOSC0_CTRL," bitfld.long 0x0 7. "HFOSC0_CTRL_PD_C,Oscillator powerdown control. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - POWERDOWN" "0,1" newline bitfld.long 0x0 4. "HFOSC0_CTRL_BP_C,Must Write '0'" "0,1" group.long 0x8018++0x3 line.long 0x0 "CFG0_HFOSC0_TRIM," bitfld.long 0x0 31. "HFOSC0_TRIM_TRIM_EN,Apply MMR values to OSC trim inputs instead of tie-offs Field values (others are reserved): 1'b0 - FIXED_TRIM 1'b1 - MMR_TRIM" "0,1" newline bitfld.long 0x0 20.--21. "HFOSC0_TRIM_HYST,Sets comparator hysterisis Field values (others are reserved): 2'b00 - NO_HYS 2'b01 - TYPE1_HYS 2'b10 - TYPE2_HYS 2'b11 - BOTH_TYPES_HYS" "0,1,2,3" newline bitfld.long 0x0 16.--18. "HFOSC0_TRIM_I_MULT,AGC AMP current multiplication gain Field values (others are reserved): 3'b000 - GAIN_0P250X 3'b001 - GAIN_0P375X 3'b010 - GAIN_0P500X 3'b011 - GAIN_0P625X 3'b100 - GAIN_0P750X 3'b101 - GAIN_0P875X 3'b110 - GAIN_1X 3'b111 - GAIN_1P250X" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 8.--13. 1. "HFOSC0_TRIM_R_REF,Sets the AMP AGC bias current Field values (others are reserved): 6'b000000 - R_REF_4X 6'b001000 - R_REF_6X 6'b010000 - R_REF_8X 6'b011000 - R_REF_10X 6'b100000 - R_REF_12X 6'b101000 - R_REF_14X 6'b110000 - R_REF_16X 6'b111000 - R_REF_18X" newline hexmask.long.byte 0x0 4.--7. 1. "HFOSC0_TRIM_I_IBIAS_COMP,Sets the COMP bias current Field values (others are reserved): 4'b0000 - I_BIAS_COMP_2P00X 4'b0001 - I_BIAS_COMP_2P25X 4'b0010 - I_BIAS_COMP_2P50X 4'b0011 - I_BIAS_COMP_2P75X 4'b0100 - I_BIAS_COMP__2P50X 4'b0101 -.." newline hexmask.long.byte 0x0 0.--3. 1. "HFOSC0_TRIM_R_IBIAS_REF,Sets the base IBIAS reference Field values (others are reserved): 4'b0000 - IBIAS_REF_1X 4'b0001 - IBIAS_REF_5X 4'b0010 - IBIAS_REF_3X (Default) 4'b0011 - IBIAS_REF_7X" rgroup.long 0x8020++0x3 line.long 0x0 "CFG0_HFOSC0_STAT," bitfld.long 0x0 0. "HFOSC0_STAT_DS_ON_WFI_STAT,Reflects the status of Device Manager Request to Disable HFOSC0 when it enters the WFI state (DeepSleep Entry) Field values (others are reserved): 1'b0 - NO_DEEPSLEEP_REQUEST 1'b1 - DEEPSLEEP_REQUEST" "0,1" group.long 0x8024++0x3 line.long 0x0 "CFG0_RC12M_OSC_TRIM," bitfld.long 0x0 6. "RC12M_OSC_TRIM_TRIMOSC_COARSE_DIR,Coarse adjustment direction. Field values (others are reserved): 1'b0 - TRIM_FREQ_LOWER 1'b1 - TRIM_FREQ_HIGHER" "0,1" newline bitfld.long 0x0 3.--5. "RC12M_OSC_TRIM_TRIMOSC_COARSE,Coarse adjustment. Frequency is decreased or increased by 1.25 MHz per value based on the trimosc_coarse_dir value. Field values (others are reserved): 3'b000 - TRIM_0_MHZ 3'b001 - TRIM_1P25_MHZ 3'b010 - TRIM_2P50_MHZ.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 0.--2. "RC12M_OSC_TRIM_TRIMOSC_FINE,Fine adjustment. Decreases the frequency by 250 KHz per value. Field values (others are reserved): 3'b000 - TRIM_0_KHZ 3'b001 - TRIM_250_KHZ 3'b010 - TRIM_500_KHZ 3'b011 - TRIM_750_KHZ 3'b100 - TRIM_1000_KHZ 3'b101 -.." "0,1,2,3,4,5,6,7" group.long 0x8030++0x3 line.long 0x0 "CFG0_HFOSC0_CLKOUT_32K_CTRL," bitfld.long 0x0 31. "HFOSC0_CLKOUT_32K_CTRL_RESET,Asynchronous Divider Reset. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - RESET" "0,1" newline bitfld.long 0x0 15. "HFOSC0_CLKOUT_32K_CTRL_CLKOUT_EN,HFOSC0_CLKOUT_32K output active Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 8. "HFOSC0_CLKOUT_32K_CTRL_SYNC_DIS,HFOSC0_CLKOUT_32K Synchronize Deactivate This bit must be written 0. Field values (others are reserved): 1'b0 - NORMAL" "0,1" newline hexmask.long.byte 0x0 0.--6. 1. "HFOSC0_CLKOUT_32K_CTRL_HSDIV,HFOSC0_CLKOUT_32K divider: HFOSC0_CLKKOUT_32K Frequency = HFOSC0 Frequency / [8 * (hsdiv + 1)] Ex. HFOSC0 Frequency = 26MHz. hsdiv = 101 (Default) HFOSC0_CLKOUT_32K = 26MHz / (8 * (101+1)) = 26MHz / 816 = 31.9 KHz" group.long 0x8038++0x7 line.long 0x0 "CFG0_LFXOSC_CTRL," bitfld.long 0x0 7. "LFXOSC_CTRL_PD_C,Oscillator powerdown control. When set oscillator is deactivated. Oscillator output is tristated if bp_c=0 Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - POWERDOWN" "0,1" newline bitfld.long 0x0 4. "LFXOSC_CTRL_BP_C,Oscillator bypass control. When set oscillator is in bypass mode Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - BYPASS" "0,1" line.long 0x4 "CFG0_LFXOSC_TRIM," bitfld.long 0x4 20.--21. "LFXOSC_TRIM_HYST,Sets comparator hysterisis Field values (others are reserved): 2'b00 - NO_HYS 2'b01 - TYPE1_HYS 2'b10 - TYPE2_HYS 2'b11 - BOTH_TYPES_HYS" "0,1,2,3" newline bitfld.long 0x4 16.--18. "LFXOSC_TRIM_I_MULT,AGC AMP current multiplication gain Field values (others are reserved): 3'b000 - AMP_AGC_IBIAS_3X 3'b001 - AMP_AGC_IBIAS_4X 3'b010 - AMP_AGC_IBIAS_5X 3'b011 - AMP_AGC_IBIAS_6X 3'b100 - AMP_AGC_IBIAS_7X 3'b101 - AMP_AGC_IBIAS_8X 3'b110.." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x4 8.--13. 1. "LFXOSC_TRIM_R_REF,Sets the AMP AGC bias current Field values (others are reserved): 6'b000000 - OHMS_0K 6'b000001 - OHMS_24K 6'b000010 - OHMS_48K 6'b000011 - OHMS_73K 6'b000100 - OHMS_97K 6'b000101 - OHMS_121K 6'b000110 - OHMS_145K 6'b000111 - OHMS_169K.." newline hexmask.long.byte 0x4 4.--7. 1. "LFXOSC_TRIM_I_IBIAS_COMP,Sets the COMP bias current Field values (others are reserved): 4'b0000 - BASE_IBIAS_REF_X2 4'b0001 - BASE_IBIAS_REF_X3 4'b0010 - BASE_IBIAS_REF_X4 4'b0011 - BASE_IBIAS_REF_X5 4'b0100 - BASE_IBIAS_REF_X6 4'b0101 -.." newline hexmask.long.byte 0x4 0.--3. 1. "LFXOSC_TRIM_R_IBIAS_REF,Sets the base IBIAS reference Field values (others are reserved): 4'b0000 - OHMS_512K 4'b0001 - OHMS_576K 4'b0010 - OHMS_640K 4'b0011 - OHMS_704K (Default) 4'b0100 - OHMS_768K 4'b0101 - OHMS_832K 4'b0110 - OHMS_896K 4'b0111 -.." group.long 0x8050++0x3 line.long 0x0 "CFG0_MCU_PLL_CLKSEL," bitfld.long 0x0 31. "MCU_PLL_CLKSEL_BYPASS_SW_OVRD,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a mcu_reset_z for MCU_PLL0. This bit must not be set until after the corresponding byp_warm_rst bit has been cleared.." "0,1" newline bitfld.long 0x0 23. "MCU_PLL_CLKSEL_BYP_WARM_RST,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MCU warm reset occurs and will keep MCU_PLL0 in bypass mode after.." "0,1" newline bitfld.long 0x0 8. "MCU_PLL_CLKSEL_CLKLOSS_SWTCH_EN,When set activates automatic switching of MCU_PLL0 clock source to CLK_12M_RC if HFOSC0 clock loss is detected Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" group.long 0x8058++0x3 line.long 0x0 "CFG0_DEVICE_CLKOUT_32K_CTRL," bitfld.long 0x0 0.--1. "DEVICE_CLKOUT_32K_CTRL_CLK_32K_RC_SEL,Selects the source of the device level 32KHz Clock Field values (others are reserved): 2'b00 - CLK_32K_RC 2'b01 - HFOSC0_CLKOUT_32K undefined - undefined 2'b11 - LFOSC0_CLKOUT" "0,1,2,3" group.long 0x8060++0x13 line.long 0x0 "CFG0_MCU_TIMER0_CLKSEL," bitfld.long 0x0 0.--2. "MCU_TIMER0_CLKSEL_CLK_SEL,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 3'b000 - HFOSC0_CLKOUT 3'b001 - MCU_SYSCLK0 / 2 3'b010 - CLK_12M_RC 3'b011 - MCU_PLL0_HSDIV5_CLKOUT.." "0,1,2,3,4,5,6,7" line.long 0x4 "CFG0_MCU_TIMER1_CLKSEL," bitfld.long 0x4 0.--2. "MCU_TIMER1_CLKSEL_CLK_SEL,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 3'b000 - HFOSC0_CLKOUT 3'b001 - MCU_SYSCLK0 / 2 3'b010 - CLK_12M_RC 3'b011 - MCU_PLL0_HSDIV5_CLKOUT.." "0,1,2,3,4,5,6,7" line.long 0x8 "CFG0_MCU_TIMER2_CLKSEL," bitfld.long 0x8 0.--2. "MCU_TIMER2_CLKSEL_CLK_SEL,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 3'b000 - HFOSC0_CLKOUT 3'b001 - MCU_SYSCLK0 / 2 3'b010 - CLK_12M_RC 3'b011 - MCU_PLL0_HSDIV5_CLKOUT.." "0,1,2,3,4,5,6,7" line.long 0xC "CFG0_MCU_TIMER3_CLKSEL," bitfld.long 0xC 0.--2. "MCU_TIMER3_CLKSEL_CLK_SEL,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 3'b000 - HFOSC0_CLKOUT 3'b001 - MCU_SYSCLK0 / 2 3'b010 - CLK_12M_RC 3'b011 - MCU_PLL0_HSDIV5_CLKOUT.." "0,1,2,3,4,5,6,7" line.long 0x10 "CFG0_MCU_GPIO_CLKSEL," bitfld.long 0x10 0.--1. "MCU_GPIO_CLKSEL_CLK_SEL,MCU_GPIO clock selection. Must be set to MCU_SYSCLK0/4 whenever MCU_GPIO VBUS interface is activated. Other clock source may be selected as a clk_sel up clock for DeepSleep modes after MCU_GPIO is gated off through LPSC. Field.." "0,1,2,3" group.long 0x8080++0x7 line.long 0x0 "CFG0_MCU_MCAN0_CLKSEL," bitfld.long 0x0 0.--1. "MCU_MCAN0_CLKSEL_CLK_SEL,Selects the clock source for MCAN0 Field values (others are reserved): 2'b00 - MCU_PLL0_HSDIV4_CLKOUT 2'b01 - MCU_EXT_REFCLK0 2'b10 - HFOSC0_CLKOUT 2'b11 - HFOSC0_CLKOUT" "0,1,2,3" line.long 0x4 "CFG0_MCU_MCAN1_CLKSEL," bitfld.long 0x4 0.--1. "MCU_MCAN1_CLKSEL_CLK_SEL,Selects the clock source for MCAN1 Field values (others are reserved): 2'b00 - MCU_PLL0_HSDIV4_CLKOUT 2'b01 - MCU_EXT_REFCLK0 2'b10 - HFOSC0_CLKOUT 2'b11 - HFOSC0_CLKOUT" "0,1,2,3" group.long 0x80A0++0x7 line.long 0x0 "CFG0_MCU_SPI0_CLKSEL," bitfld.long 0x0 16. "MCU_SPI0_CLKSEL_MSTR_LB_CLKSEL,Controller mode receive capture clock loopback selection Field values (others are reserved): 1'b0 - INTERNAL_LOOPBACK 1'b1 - EXTERNAL_LOOPBACK" "0,1" line.long 0x4 "CFG0_MCU_SPI1_CLKSEL," bitfld.long 0x4 16. "MCU_SPI1_CLKSEL_MSTR_LB_CLKSEL,Controller mode receive capture clock loopback selection Field values (others are reserved): 1'b0 - INTERNAL_LOOPBACK 1'b1 - EXTERNAL_LOOPBACK" "0,1" group.long 0x80B0++0x3 line.long 0x0 "CFG0_MCU_WWD0_CLKSEL," bitfld.long 0x0 31. "MCU_WWD0_CLKSEL_WRTLOCK,When set locks WWD0_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" newline bitfld.long 0x0 0.--1. "MCU_WWD0_CLKSEL_CLK_SEL,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K_RC" "0,1,2,3" group.long 0x9008++0x7 line.long 0x0 "CFG0_LOCK2_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK2_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK2_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK2_KICK1,- KICK1 component" rgroup.long 0x9100++0x7 line.long 0x0 "CFG0_CLAIMREG_P2_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P2_R0_READONLY,Claim bits for Partition 2" line.long 0x4 "CFG0_CLAIMREG_P2_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P2_R1_READONLY,Claim bits for Partition 2" group.long 0xA000++0x3 line.long 0x0 "CFG0_MCU_OBSCLK_CTRL_PROXY," bitfld.long 0x0 24. "MCU_OBSCLK_CTRL_OUT_MUX_SEL_PROXY,MCU_OBSCLK pin output mux selection. Note HFOSC0_CLK is a direct output from the HFOSC0 distinct from HFOSC0_CLKOUT. Note when HFOSC0_CLK is selected (1'b1) the MCU_OBSCLK_CTRL_clk_sel field must be programmed to.." "0,1" newline bitfld.long 0x0 16. "MCU_OBSCLK_CTRL_CLK_DIV_LD_PROXY,Load the output divider value Writing 1 to this bit will generate a load pulse to load the OBSCLK divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div value is changed." "0,1" newline hexmask.long.byte 0x0 8.--11. 1. "MCU_OBSCLK_CTRL_CLK_DIV_PROXY,MCU_OBSCLK pin clock selection output divider Output clock is divided by clk_div+1" newline hexmask.long.byte 0x0 0.--3. 1. "MCU_OBSCLK_CTRL_CLK_SEL_PROXY,MCU_OBSCLK pin clock selection Field values (others are reserved): 4'b0000 - CLK_12M_RC 4'b0001 - OFF 4'b0010 - MCU_PLL0_HSDIV0_CLKOUT 4'b0011 - MCU_PLL0_HSDIV4_CLKOUT 4'b0100 - MCU_PLLCTRL_OBSCLK 4'b0101 - CLK_32K_RC.." group.long 0xA010++0x3 line.long 0x0 "CFG0_HFOSC0_CTRL_PROXY," bitfld.long 0x0 7. "HFOSC0_CTRL_PD_C_PROXY,Oscillator powerdown control. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - POWERDOWN" "0,1" newline bitfld.long 0x0 4. "HFOSC0_CTRL_BP_C_PROXY,Must Write '0'" "0,1" group.long 0xA018++0x3 line.long 0x0 "CFG0_HFOSC0_TRIM_PROXY," bitfld.long 0x0 31. "HFOSC0_TRIM_TRIM_EN_PROXY,Apply MMR values to OSC trim inputs instead of tie-offs Field values (others are reserved): 1'b0 - FIXED_TRIM 1'b1 - MMR_TRIM" "0,1" newline bitfld.long 0x0 20.--21. "HFOSC0_TRIM_HYST_PROXY,Sets comparator hysterisis Field values (others are reserved): 2'b00 - NO_HYS 2'b01 - TYPE1_HYS 2'b10 - TYPE2_HYS 2'b11 - BOTH_TYPES_HYS" "0,1,2,3" newline bitfld.long 0x0 16.--18. "HFOSC0_TRIM_I_MULT_PROXY,AGC AMP current multiplication gain Field values (others are reserved): 3'b000 - GAIN_0P250X 3'b001 - GAIN_0P375X 3'b010 - GAIN_0P500X 3'b011 - GAIN_0P625X 3'b100 - GAIN_0P750X 3'b101 - GAIN_0P875X 3'b110 - GAIN_1X 3'b111 -.." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 8.--13. 1. "HFOSC0_TRIM_R_REF_PROXY,Sets the AMP AGC bias current Field values (others are reserved): 6'b000000 - R_REF_4X 6'b001000 - R_REF_6X 6'b010000 - R_REF_8X 6'b011000 - R_REF_10X 6'b100000 - R_REF_12X 6'b101000 - R_REF_14X 6'b110000 - R_REF_16X 6'b111000 -.." newline hexmask.long.byte 0x0 4.--7. 1. "HFOSC0_TRIM_I_IBIAS_COMP_PROXY,Sets the COMP bias current Field values (others are reserved): 4'b0000 - I_BIAS_COMP_2P00X 4'b0001 - I_BIAS_COMP_2P25X 4'b0010 - I_BIAS_COMP_2P50X 4'b0011 - I_BIAS_COMP_2P75X 4'b0100 - I_BIAS_COMP__2P50X 4'b0101 -.." newline hexmask.long.byte 0x0 0.--3. 1. "HFOSC0_TRIM_R_IBIAS_REF_PROXY,Sets the base IBIAS reference Field values (others are reserved): 4'b0000 - IBIAS_REF_1X 4'b0001 - IBIAS_REF_5X 4'b0010 - IBIAS_REF_3X (Default) 4'b0011 - IBIAS_REF_7X" rgroup.long 0xA020++0x3 line.long 0x0 "CFG0_HFOSC0_STAT_PROXY," bitfld.long 0x0 0. "HFOSC0_STAT_DS_ON_WFI_STAT_PROXY,Reflects the status of Device Manager Request to Disable HFOSC0 when it enters the WFI state (DeepSleep Entry) Field values (others are reserved): 1'b0 - NO_DEEPSLEEP_REQUEST 1'b1 - DEEPSLEEP_REQUEST" "0,1" group.long 0xA024++0x3 line.long 0x0 "CFG0_RC12M_OSC_TRIM_PROXY," bitfld.long 0x0 6. "RC12M_OSC_TRIM_TRIMOSC_COARSE_DIR_PROXY,Coarse adjustment direction. Field values (others are reserved): 1'b0 - TRIM_FREQ_LOWER 1'b1 - TRIM_FREQ_HIGHER" "0,1" newline bitfld.long 0x0 3.--5. "RC12M_OSC_TRIM_TRIMOSC_COARSE_PROXY,Coarse adjustment. Frequency is decreased or increased by 1.25 MHz per value based on the trimosc_coarse_dir value. Field values (others are reserved): 3'b000 - TRIM_0_MHZ 3'b001 - TRIM_1P25_MHZ 3'b010 -.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 0.--2. "RC12M_OSC_TRIM_TRIMOSC_FINE_PROXY,Fine adjustment. Decreases the frequency by 250 KHz per value. Field values (others are reserved): 3'b000 - TRIM_0_KHZ 3'b001 - TRIM_250_KHZ 3'b010 - TRIM_500_KHZ 3'b011 - TRIM_750_KHZ 3'b100 - TRIM_1000_KHZ 3'b101 -.." "0,1,2,3,4,5,6,7" group.long 0xA030++0x3 line.long 0x0 "CFG0_HFOSC0_CLKOUT_32K_CTRL_PROXY," bitfld.long 0x0 31. "HFOSC0_CLKOUT_32K_CTRL_RESET_PROXY,Asynchronous Divider Reset. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - RESET" "0,1" newline bitfld.long 0x0 15. "HFOSC0_CLKOUT_32K_CTRL_CLKOUT_EN_PROXY,HFOSC0_CLKOUT_32K output active Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 8. "HFOSC0_CLKOUT_32K_CTRL_SYNC_DIS_PROXY,HFOSC0_CLKOUT_32K Synchronize Deactivate This bit must be written 0. Field values (others are reserved): 1'b0 - NORMAL" "0,1" newline hexmask.long.byte 0x0 0.--6. 1. "HFOSC0_CLKOUT_32K_CTRL_HSDIV_PROXY,HFOSC0_CLKOUT_32K divider: HFOSC0_CLKKOUT_32K Frequency = HFOSC0 Frequency / [8 * (hsdiv + 1)] Ex. HFOSC0 Frequency = 26MHz. hsdiv = 101 (Default) HFOSC0_CLKOUT_32K = 26MHz / (8 * (101+1)) = 26MHz / 816 = 31.9 KHz" group.long 0xA038++0x7 line.long 0x0 "CFG0_LFXOSC_CTRL_PROXY," bitfld.long 0x0 7. "LFXOSC_CTRL_PD_C_PROXY,Oscillator powerdown control. When set oscillator is deactivated. Oscillator output is tristated if bp_c=0 Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - POWERDOWN" "0,1" newline bitfld.long 0x0 4. "LFXOSC_CTRL_BP_C_PROXY,Oscillator bypass control. When set oscillator is in bypass mode Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - BYPASS" "0,1" line.long 0x4 "CFG0_LFXOSC_TRIM_PROXY," bitfld.long 0x4 20.--21. "LFXOSC_TRIM_HYST_PROXY,Sets comparator hysterisis Field values (others are reserved): 2'b00 - NO_HYS 2'b01 - TYPE1_HYS 2'b10 - TYPE2_HYS 2'b11 - BOTH_TYPES_HYS" "0,1,2,3" newline bitfld.long 0x4 16.--18. "LFXOSC_TRIM_I_MULT_PROXY,AGC AMP current multiplication gain Field values (others are reserved): 3'b000 - AMP_AGC_IBIAS_3X 3'b001 - AMP_AGC_IBIAS_4X 3'b010 - AMP_AGC_IBIAS_5X 3'b011 - AMP_AGC_IBIAS_6X 3'b100 - AMP_AGC_IBIAS_7X 3'b101 - AMP_AGC_IBIAS_8X.." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x4 8.--13. 1. "LFXOSC_TRIM_R_REF_PROXY,Sets the AMP AGC bias current Field values (others are reserved): 6'b000000 - OHMS_0K 6'b000001 - OHMS_24K 6'b000010 - OHMS_48K 6'b000011 - OHMS_73K 6'b000100 - OHMS_97K 6'b000101 - OHMS_121K 6'b000110 - OHMS_145K 6'b000111 -.." newline hexmask.long.byte 0x4 4.--7. 1. "LFXOSC_TRIM_I_IBIAS_COMP_PROXY,Sets the COMP bias current Field values (others are reserved): 4'b0000 - BASE_IBIAS_REF_X2 4'b0001 - BASE_IBIAS_REF_X3 4'b0010 - BASE_IBIAS_REF_X4 4'b0011 - BASE_IBIAS_REF_X5 4'b0100 - BASE_IBIAS_REF_X6 4'b0101 -.." newline hexmask.long.byte 0x4 0.--3. 1. "LFXOSC_TRIM_R_IBIAS_REF_PROXY,Sets the base IBIAS reference Field values (others are reserved): 4'b0000 - OHMS_512K 4'b0001 - OHMS_576K 4'b0010 - OHMS_640K 4'b0011 - OHMS_704K (Default) 4'b0100 - OHMS_768K 4'b0101 - OHMS_832K 4'b0110 - OHMS_896K 4'b0111.." group.long 0xA050++0x3 line.long 0x0 "CFG0_MCU_PLL_CLKSEL_PROXY," bitfld.long 0x0 31. "MCU_PLL_CLKSEL_BYPASS_SW_OVRD_PROXY,PLL Bypass warm reset software override When set activates software control of exit from bypass mode on a mcu_reset_z for MCU_PLL0. This bit must not be set until after the corresponding byp_warm_rst bit has been.." "0,1" newline bitfld.long 0x0 23. "MCU_PLL_CLKSEL_BYP_WARM_RST_PROXY,PLL bypass mode after warm reset. This bit is only valid when bypass_sw_ovrd is set to 1'b1 to activate bypass software override. This bit is set (1'b1) when a MCU warm reset occurs and will keep MCU_PLL0 in bypass mode.." "0,1" newline bitfld.long 0x0 8. "MCU_PLL_CLKSEL_CLKLOSS_SWTCH_EN_PROXY,When set activates automatic switching of MCU_PLL0 clock source to CLK_12M_RC if HFOSC0 clock loss is detected Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" group.long 0xA058++0x3 line.long 0x0 "CFG0_DEVICE_CLKOUT_32K_CTRL_PROXY," bitfld.long 0x0 0.--1. "DEVICE_CLKOUT_32K_CTRL_CLK_32K_RC_SEL_PROXY,Selects the source of the device level 32KHz Clock Field values (others are reserved): 2'b00 - CLK_32K_RC 2'b01 - HFOSC0_CLKOUT_32K undefined - undefined 2'b11 - LFOSC0_CLKOUT" "0,1,2,3" group.long 0xA060++0x13 line.long 0x0 "CFG0_MCU_TIMER0_CLKSEL_PROXY," bitfld.long 0x0 0.--2. "MCU_TIMER0_CLKSEL_CLK_SEL_PROXY,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 3'b000 - HFOSC0_CLKOUT 3'b001 - MCU_SYSCLK0 / 2 3'b010 - CLK_12M_RC 3'b011 -.." "0,1,2,3,4,5,6,7" line.long 0x4 "CFG0_MCU_TIMER1_CLKSEL_PROXY," bitfld.long 0x4 0.--2. "MCU_TIMER1_CLKSEL_CLK_SEL_PROXY,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 3'b000 - HFOSC0_CLKOUT 3'b001 - MCU_SYSCLK0 / 2 3'b010 - CLK_12M_RC 3'b011 -.." "0,1,2,3,4,5,6,7" line.long 0x8 "CFG0_MCU_TIMER2_CLKSEL_PROXY," bitfld.long 0x8 0.--2. "MCU_TIMER2_CLKSEL_CLK_SEL_PROXY,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 3'b000 - HFOSC0_CLKOUT 3'b001 - MCU_SYSCLK0 / 2 3'b010 - CLK_12M_RC 3'b011 -.." "0,1,2,3,4,5,6,7" line.long 0xC "CFG0_MCU_TIMER3_CLKSEL_PROXY," bitfld.long 0xC 0.--2. "MCU_TIMER3_CLKSEL_CLK_SEL_PROXY,Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK) Field values (others are reserved): 3'b000 - HFOSC0_CLKOUT 3'b001 - MCU_SYSCLK0 / 2 3'b010 - CLK_12M_RC 3'b011 -.." "0,1,2,3,4,5,6,7" line.long 0x10 "CFG0_MCU_GPIO_CLKSEL_PROXY," bitfld.long 0x10 0.--1. "MCU_GPIO_CLKSEL_CLK_SEL_PROXY,MCU_GPIO clock selection. Must be set to MCU_SYSCLK0/4 whenever MCU_GPIO VBUS interface is activated. Other clock source may be selected as a clk_sel up clock for DeepSleep modes after MCU_GPIO is gated off through LPSC." "0,1,2,3" group.long 0xA080++0x7 line.long 0x0 "CFG0_MCU_MCAN0_CLKSEL_PROXY," bitfld.long 0x0 0.--1. "MCU_MCAN0_CLKSEL_CLK_SEL_PROXY,Selects the clock source for MCAN0 Field values (others are reserved): 2'b00 - MCU_PLL0_HSDIV4_CLKOUT 2'b01 - MCU_EXT_REFCLK0 2'b10 - HFOSC0_CLKOUT 2'b11 - HFOSC0_CLKOUT" "0,1,2,3" line.long 0x4 "CFG0_MCU_MCAN1_CLKSEL_PROXY," bitfld.long 0x4 0.--1. "MCU_MCAN1_CLKSEL_CLK_SEL_PROXY,Selects the clock source for MCAN1 Field values (others are reserved): 2'b00 - MCU_PLL0_HSDIV4_CLKOUT 2'b01 - MCU_EXT_REFCLK0 2'b10 - HFOSC0_CLKOUT 2'b11 - HFOSC0_CLKOUT" "0,1,2,3" group.long 0xA0A0++0x7 line.long 0x0 "CFG0_MCU_SPI0_CLKSEL_PROXY," bitfld.long 0x0 16. "MCU_SPI0_CLKSEL_MSTR_LB_CLKSEL_PROXY,Controller mode receive capture clock loopback selection Field values (others are reserved): 1'b0 - INTERNAL_LOOPBACK 1'b1 - EXTERNAL_LOOPBACK" "0,1" line.long 0x4 "CFG0_MCU_SPI1_CLKSEL_PROXY," bitfld.long 0x4 16. "MCU_SPI1_CLKSEL_MSTR_LB_CLKSEL_PROXY,Controller mode receive capture clock loopback selection Field values (others are reserved): 1'b0 - INTERNAL_LOOPBACK 1'b1 - EXTERNAL_LOOPBACK" "0,1" group.long 0xA0B0++0x3 line.long 0x0 "CFG0_MCU_WWD0_CLKSEL_PROXY," bitfld.long 0x0 31. "MCU_WWD0_CLKSEL_WRTLOCK_PROXY,When set locks WWD0_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" newline bitfld.long 0x0 0.--1. "MCU_WWD0_CLKSEL_CLK_SEL_PROXY,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K_RC" "0,1,2,3" group.long 0xB008++0x7 line.long 0x0 "CFG0_LOCK2_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK2_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK2_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK2_KICK1_PROXY,- KICK1 component" group.long 0xB100++0x7 line.long 0x0 "CFG0_CLAIMREG_P2_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P2_R0,Claim bits for Partition 2" line.long 0x4 "CFG0_CLAIMREG_P2_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P2_R1,Claim bits for Partition 2" group.long 0xC020++0x1B line.long 0x0 "CFG0_MCU_R5FSS0_LBIST_CTRL," bitfld.long 0x0 31. "MCU_R5FSS0_LBIST_CTRL_BIST_RESET,This bitfield is not used." "0,1" newline hexmask.long.byte 0x0 24.--27. 1. "MCU_R5FSS0_LBIST_CTRL_BIST_RUN,This bitfield is not used." newline hexmask.long.byte 0x0 16.--20. 1. "MCU_R5FSS0_LBIST_CTRL_SUBCHIP_ID,Specifies which sub-chip is to be tested" newline hexmask.long.byte 0x0 12.--15. 1. "MCU_R5FSS0_LBIST_CTRL_RUNBIST_MODE,Runbist mode activate if all bits are 1" newline bitfld.long 0x0 8.--9. "MCU_R5FSS0_LBIST_CTRL_DC_DEF,Clock delay after scan_activate switching" "0,1,2,3" newline bitfld.long 0x0 7. "MCU_R5FSS0_LBIST_CTRL_LOAD_DIV,Loads LBIST clock divide ratio on transition from 0 to 1" "0,1" newline hexmask.long.byte 0x0 0.--4. 1. "MCU_R5FSS0_LBIST_CTRL_DIVIDE_RATIO,LBIST clock divide ratio" line.long 0x4 "CFG0_MCU_R5FSS0_LBIST_PATCOUNT," hexmask.long.word 0x4 16.--29. 1. "MCU_R5FSS0_LBIST_PATCOUNT_STATIC_PC_DEF,Number of stuck-at patterns to run" newline hexmask.long.byte 0x4 8.--11. 1. "MCU_R5FSS0_LBIST_PATCOUNT_SET_PC_DEF,Number of set patterns to run" newline hexmask.long.byte 0x4 4.--7. 1. "MCU_R5FSS0_LBIST_PATCOUNT_RESET_PC_DEF,Number of reset patterns to run" newline hexmask.long.byte 0x4 0.--3. 1. "MCU_R5FSS0_LBIST_PATCOUNT_SCAN_PC_DEF,Number of chain test patterns to run" line.long 0x8 "CFG0_MCU_R5FSS0_LBIST_SEED0," hexmask.long 0x8 0.--31. 1. "MCU_R5FSS0_LBIST_SEED0_PRPG_DEF,Initial seed for PRPG (bits 31:0)" line.long 0xC "CFG0_MCU_R5FSS0_LBIST_SEED1," hexmask.long.tbyte 0xC 0.--20. 1. "MCU_R5FSS0_LBIST_SEED1_PRPG_DEF,Initial seed for PRPG (bits 52:32)" line.long 0x10 "CFG0_MCU_R5FSS0_LBIST_SPARE0," hexmask.long 0x10 2.--31. 1. "MCU_R5FSS0_LBIST_SPARE0_SPARE0,LBIST spare bits" newline bitfld.long 0x10 1. "MCU_R5FSS0_LBIST_SPARE0_PBIST_SELFTEST_EN,Isolates MCU_R5FSS0 inputs/outputs related to Memory BIST (PBIST). Field values (others are reserved): 1'b0 - NOT_ISOLATED 1'b1 - ISOLATED" "0,1" newline bitfld.long 0x10 0. "MCU_R5FSS0_LBIST_SPARE0_LBIST_SELFTEST_EN,Isolates MCU_R5FSS0 inputs/outputs related to Logic BIST (LBIST) Field values (others are reserved): 1'b0 - NOT_ISOLATED 1'b1 - ISOLATED" "0,1" line.long 0x14 "CFG0_MCU_R5FSS0_LBIST_SPARE1," hexmask.long 0x14 0.--31. 1. "MCU_R5FSS0_LBIST_SPARE1_SPARE1,LBIST spare bits" line.long 0x18 "CFG0_MCU_R5FSS0_LBIST_STAT," rbitfld.long 0x18 31. "MCU_R5FSS0_LBIST_STAT_BIST_DONE,LBIST is done" "0,1" newline rbitfld.long 0x18 15. "MCU_R5FSS0_LBIST_STAT_BIST_RUNNING,LBIST is running" "0,1" newline bitfld.long 0x18 8.--9. "MCU_R5FSS0_LBIST_STAT_OUT_MUX_CTL,Selects source of LBIST output 00 - LBIST IP PID value 01 - LBIST CTRL ID value 1x - MISR value" "0,1,2,3" newline hexmask.long.byte 0x18 0.--7. 1. "MCU_R5FSS0_LBIST_STAT_MISR_MUX_CTL,Selects block of 32 MISR bits to read. A value of 0 selects a compacted 32-bit version of the full MISR. A value of 1-32 select a 32-bit segment of the MISR." rgroup.long 0xC03C++0x3 line.long 0x0 "CFG0_MCU_R5FSS0_LBIST_MISR," hexmask.long 0x0 0.--31. 1. "MCU_R5FSS0_LBIST_MISR_MISR_RESULT,32-bits of MISR value selected by misr_mux_ctl" group.long 0xD008++0x7 line.long 0x0 "CFG0_LOCK3_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK3_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK3_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK3_KICK1,- KICK1 component" rgroup.long 0xD100++0x3 line.long 0x0 "CFG0_CLAIMREG_P3_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P3_R0_READONLY,Claim bits for Partition 3" group.long 0xE020++0x1B line.long 0x0 "CFG0_MCU_R5FSS0_LBIST_CTRL_PROXY," bitfld.long 0x0 31. "MCU_R5FSS0_LBIST_CTRL_BIST_RESET_PROXY,This bitfield is not used." "0,1" newline hexmask.long.byte 0x0 24.--27. 1. "MCU_R5FSS0_LBIST_CTRL_BIST_RUN_PROXY,This bitfield is not used." newline hexmask.long.byte 0x0 16.--20. 1. "MCU_R5FSS0_LBIST_CTRL_SUBCHIP_ID_PROXY,Specifies which sub-chip is to be tested" newline hexmask.long.byte 0x0 12.--15. 1. "MCU_R5FSS0_LBIST_CTRL_RUNBIST_MODE_PROXY,Runbist mode activate if all bits are 1" newline bitfld.long 0x0 8.--9. "MCU_R5FSS0_LBIST_CTRL_DC_DEF_PROXY,Clock delay after scan_activate switching" "0,1,2,3" newline bitfld.long 0x0 7. "MCU_R5FSS0_LBIST_CTRL_LOAD_DIV_PROXY,Loads LBIST clock divide ratio on transition from 0 to 1" "0,1" newline hexmask.long.byte 0x0 0.--4. 1. "MCU_R5FSS0_LBIST_CTRL_DIVIDE_RATIO_PROXY,LBIST clock divide ratio" line.long 0x4 "CFG0_MCU_R5FSS0_LBIST_PATCOUNT_PROXY," hexmask.long.word 0x4 16.--29. 1. "MCU_R5FSS0_LBIST_PATCOUNT_STATIC_PC_DEF_PROXY,Number of stuck-at patterns to run" newline hexmask.long.byte 0x4 8.--11. 1. "MCU_R5FSS0_LBIST_PATCOUNT_SET_PC_DEF_PROXY,Number of set patterns to run" newline hexmask.long.byte 0x4 4.--7. 1. "MCU_R5FSS0_LBIST_PATCOUNT_RESET_PC_DEF_PROXY,Number of reset patterns to run" newline hexmask.long.byte 0x4 0.--3. 1. "MCU_R5FSS0_LBIST_PATCOUNT_SCAN_PC_DEF_PROXY,Number of chain test patterns to run" line.long 0x8 "CFG0_MCU_R5FSS0_LBIST_SEED0_PROXY," hexmask.long 0x8 0.--31. 1. "MCU_R5FSS0_LBIST_SEED0_PRPG_DEF_PROXY,Initial seed for PRPG (bits 31:0)" line.long 0xC "CFG0_MCU_R5FSS0_LBIST_SEED1_PROXY," hexmask.long.tbyte 0xC 0.--20. 1. "MCU_R5FSS0_LBIST_SEED1_PRPG_DEF_PROXY,Initial seed for PRPG (bits 52:32)" line.long 0x10 "CFG0_MCU_R5FSS0_LBIST_SPARE0_PROXY," hexmask.long 0x10 2.--31. 1. "MCU_R5FSS0_LBIST_SPARE0_SPARE0_PROXY,LBIST spare bits" newline bitfld.long 0x10 1. "MCU_R5FSS0_LBIST_SPARE0_PBIST_SELFTEST_EN_PROXY,Isolates MCU_R5FSS0 inputs/outputs related to Memory BIST (PBIST). Field values (others are reserved): 1'b0 - NOT_ISOLATED 1'b1 - ISOLATED" "0,1" newline bitfld.long 0x10 0. "MCU_R5FSS0_LBIST_SPARE0_LBIST_SELFTEST_EN_PROXY,Isolates MCU_R5FSS0 inputs/outputs related to Logic BIST (LBIST) Field values (others are reserved): 1'b0 - NOT_ISOLATED 1'b1 - ISOLATED" "0,1" line.long 0x14 "CFG0_MCU_R5FSS0_LBIST_SPARE1_PROXY," hexmask.long 0x14 0.--31. 1. "MCU_R5FSS0_LBIST_SPARE1_SPARE1_PROXY,LBIST spare bits" line.long 0x18 "CFG0_MCU_R5FSS0_LBIST_STAT_PROXY," rbitfld.long 0x18 31. "MCU_R5FSS0_LBIST_STAT_BIST_DONE_PROXY,LBIST is done" "0,1" newline rbitfld.long 0x18 15. "MCU_R5FSS0_LBIST_STAT_BIST_RUNNING_PROXY,LBIST is running" "0,1" newline bitfld.long 0x18 8.--9. "MCU_R5FSS0_LBIST_STAT_OUT_MUX_CTL_PROXY,Selects source of LBIST output 00 - LBIST IP PID value 01 - LBIST CTRL ID value 1x - MISR value" "0,1,2,3" newline hexmask.long.byte 0x18 0.--7. 1. "MCU_R5FSS0_LBIST_STAT_MISR_MUX_CTL_PROXY,Selects block of 32 MISR bits to read. A value of 0 selects a compacted 32-bit version of the full MISR. A value of 1-32 select a 32-bit segment of the MISR." rgroup.long 0xE03C++0x3 line.long 0x0 "CFG0_MCU_R5FSS0_LBIST_MISR_PROXY," hexmask.long 0x0 0.--31. 1. "MCU_R5FSS0_LBIST_MISR_MISR_RESULT_PROXY,32-bits of MISR value selected by misr_mux_ctl" group.long 0xF008++0x7 line.long 0x0 "CFG0_LOCK3_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK3_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK3_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK3_KICK1_PROXY,- KICK1 component" group.long 0xF100++0x3 line.long 0x0 "CFG0_CLAIMREG_P3_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P3_R0,Claim bits for Partition 3" group.long 0x10874++0x3 line.long 0x0 "CFG0_OLDI_PD_CTRL_TEST_REG," rbitfld.long 0x0 31. "OLDI_PD_CTRL_TEST_REG_BGOK,Status of the Bandgap: 1 = Bandgap is On" "?,1: Bandgap is On" newline bitfld.long 0x0 8. "OLDI_PD_CTRL_TEST_REG_PD_BG,When Set forces the LVDS Bandgap into Power Down" "0,1" newline bitfld.long 0x0 1. "OLDI_PD_CTRL_TEST_REG_PD_OLDI1,When Set overrides the biase_en of all OLDI1 LVDS IO to force power down" "0,1" newline bitfld.long 0x0 0. "OLDI_PD_CTRL_TEST_REG_PD_OLDI0,When Set overrides the biase_en of all OLDI0 LVDS IO to force power down" "0,1" group.long 0x11008++0x7 line.long 0x0 "CFG0_LOCK4_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK4_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK4_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK4_KICK1,- KICK1 component" rgroup.long 0x11100++0x4F line.long 0x0 "CFG0_CLAIMREG_P4_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P4_R0_READONLY,Claim bits for Partition 4" line.long 0x4 "CFG0_CLAIMREG_P4_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P4_R1_READONLY,Claim bits for Partition 4" line.long 0x8 "CFG0_CLAIMREG_P4_R2_READONLY," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P4_R2_READONLY,Claim bits for Partition 4" line.long 0xC "CFG0_CLAIMREG_P4_R3_READONLY," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P4_R3_READONLY,Claim bits for Partition 4" line.long 0x10 "CFG0_CLAIMREG_P4_R4_READONLY," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P4_R4_READONLY,Claim bits for Partition 4" line.long 0x14 "CFG0_CLAIMREG_P4_R5_READONLY," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P4_R5_READONLY,Claim bits for Partition 4" line.long 0x18 "CFG0_CLAIMREG_P4_R6_READONLY," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P4_R6_READONLY,Claim bits for Partition 4" line.long 0x1C "CFG0_CLAIMREG_P4_R7_READONLY," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P4_R7_READONLY,Claim bits for Partition 4" line.long 0x20 "CFG0_CLAIMREG_P4_R8_READONLY," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P4_R8_READONLY,Claim bits for Partition 4" line.long 0x24 "CFG0_CLAIMREG_P4_R9_READONLY," hexmask.long 0x24 0.--31. 1. "CLAIMREG_P4_R9_READONLY,Claim bits for Partition 4" line.long 0x28 "CFG0_CLAIMREG_P4_R10_READONLY," hexmask.long 0x28 0.--31. 1. "CLAIMREG_P4_R10_READONLY,Claim bits for Partition 4" line.long 0x2C "CFG0_CLAIMREG_P4_R11_READONLY," hexmask.long 0x2C 0.--31. 1. "CLAIMREG_P4_R11_READONLY,Claim bits for Partition 4" line.long 0x30 "CFG0_CLAIMREG_P4_R12_READONLY," hexmask.long 0x30 0.--31. 1. "CLAIMREG_P4_R12_READONLY,Claim bits for Partition 4" line.long 0x34 "CFG0_CLAIMREG_P4_R13_READONLY," hexmask.long 0x34 0.--31. 1. "CLAIMREG_P4_R13_READONLY,Claim bits for Partition 4" line.long 0x38 "CFG0_CLAIMREG_P4_R14_READONLY," hexmask.long 0x38 0.--31. 1. "CLAIMREG_P4_R14_READONLY,Claim bits for Partition 4" line.long 0x3C "CFG0_CLAIMREG_P4_R15_READONLY," hexmask.long 0x3C 0.--31. 1. "CLAIMREG_P4_R15_READONLY,Claim bits for Partition 4" line.long 0x40 "CFG0_CLAIMREG_P4_R16_READONLY," hexmask.long 0x40 0.--31. 1. "CLAIMREG_P4_R16_READONLY,Claim bits for Partition 4" line.long 0x44 "CFG0_CLAIMREG_P4_R17_READONLY," hexmask.long 0x44 0.--31. 1. "CLAIMREG_P4_R17_READONLY,Claim bits for Partition 4" line.long 0x48 "CFG0_CLAIMREG_P4_R18_READONLY," hexmask.long 0x48 0.--31. 1. "CLAIMREG_P4_R18_READONLY,Claim bits for Partition 4" line.long 0x4C "CFG0_CLAIMREG_P4_R19_READONLY," hexmask.long 0x4C 0.--31. 1. "CLAIMREG_P4_R19_READONLY,Claim bits for Partition 4" group.long 0x12874++0x3 line.long 0x0 "CFG0_OLDI_PD_CTRL_TEST_REG_PROXY," rbitfld.long 0x0 31. "OLDI_PD_CTRL_TEST_REG_BGOK_PROXY,Status of the Bandgap: 1 = Bandgap is On" "?,1: Bandgap is On" newline bitfld.long 0x0 8. "OLDI_PD_CTRL_TEST_REG_PD_BG_PROXY,When Set forces the LVDS Bandgap into Power Down" "0,1" newline bitfld.long 0x0 1. "OLDI_PD_CTRL_TEST_REG_PD_OLDI1_PROXY,When Set overrides the biase_en of all OLDI1 LVDS IO to force power down" "0,1" newline bitfld.long 0x0 0. "OLDI_PD_CTRL_TEST_REG_PD_OLDI0_PROXY,When Set overrides the biase_en of all OLDI0 LVDS IO to force power down" "0,1" group.long 0x13008++0x7 line.long 0x0 "CFG0_LOCK4_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK4_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK4_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK4_KICK1_PROXY,- KICK1 component" group.long 0x13100++0x4F line.long 0x0 "CFG0_CLAIMREG_P4_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P4_R0,Claim bits for Partition 4" line.long 0x4 "CFG0_CLAIMREG_P4_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P4_R1,Claim bits for Partition 4" line.long 0x8 "CFG0_CLAIMREG_P4_R2," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P4_R2,Claim bits for Partition 4" line.long 0xC "CFG0_CLAIMREG_P4_R3," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P4_R3,Claim bits for Partition 4" line.long 0x10 "CFG0_CLAIMREG_P4_R4," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P4_R4,Claim bits for Partition 4" line.long 0x14 "CFG0_CLAIMREG_P4_R5," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P4_R5,Claim bits for Partition 4" line.long 0x18 "CFG0_CLAIMREG_P4_R6," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P4_R6,Claim bits for Partition 4" line.long 0x1C "CFG0_CLAIMREG_P4_R7," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P4_R7,Claim bits for Partition 4" line.long 0x20 "CFG0_CLAIMREG_P4_R8," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P4_R8,Claim bits for Partition 4" line.long 0x24 "CFG0_CLAIMREG_P4_R9," hexmask.long 0x24 0.--31. 1. "CLAIMREG_P4_R9,Claim bits for Partition 4" line.long 0x28 "CFG0_CLAIMREG_P4_R10," hexmask.long 0x28 0.--31. 1. "CLAIMREG_P4_R10,Claim bits for Partition 4" line.long 0x2C "CFG0_CLAIMREG_P4_R11," hexmask.long 0x2C 0.--31. 1. "CLAIMREG_P4_R11,Claim bits for Partition 4" line.long 0x30 "CFG0_CLAIMREG_P4_R12," hexmask.long 0x30 0.--31. 1. "CLAIMREG_P4_R12,Claim bits for Partition 4" line.long 0x34 "CFG0_CLAIMREG_P4_R13," hexmask.long 0x34 0.--31. 1. "CLAIMREG_P4_R13,Claim bits for Partition 4" line.long 0x38 "CFG0_CLAIMREG_P4_R14," hexmask.long 0x38 0.--31. 1. "CLAIMREG_P4_R14,Claim bits for Partition 4" line.long 0x3C "CFG0_CLAIMREG_P4_R15," hexmask.long 0x3C 0.--31. 1. "CLAIMREG_P4_R15,Claim bits for Partition 4" line.long 0x40 "CFG0_CLAIMREG_P4_R16," hexmask.long 0x40 0.--31. 1. "CLAIMREG_P4_R16,Claim bits for Partition 4" line.long 0x44 "CFG0_CLAIMREG_P4_R17," hexmask.long 0x44 0.--31. 1. "CLAIMREG_P4_R17,Claim bits for Partition 4" line.long 0x48 "CFG0_CLAIMREG_P4_R18," hexmask.long 0x48 0.--31. 1. "CLAIMREG_P4_R18,Claim bits for Partition 4" line.long 0x4C "CFG0_CLAIMREG_P4_R19," hexmask.long 0x4C 0.--31. 1. "CLAIMREG_P4_R19,Claim bits for Partition 4" group.long 0x18000++0x3 line.long 0x0 "CFG0_POR_CTRL," bitfld.long 0x0 29. "POR_CTRL_OVRD_SET5,Override value when override is active for RESERVED output. Field values (others are reserved): 1'b0 - OVERRIDE_TO_0 1'b1 - OVERRIDE_TO_1" "0,1" newline bitfld.long 0x0 28. "POR_CTRL_OVRD_SET4,Override value when override is active for POKLVB output. Field values (others are reserved): 1'b0 - OVERRIDE_TO_0 1'b1 - OVERRIDE_TO_1" "0,1" newline bitfld.long 0x0 27. "POR_CTRL_OVRD_SET3,Override value when override is active for POKLVA output. Field values (others are reserved): 1'b0 - OVERRIDE_TO_0 1'b1 - OVERRIDE_TO_1" "0,1" newline bitfld.long 0x0 26. "POR_CTRL_OVRD_SET2,Override value when override is active for POKHV output. Field values (others are reserved): 1'b0 - OVERRIDE_TO_0 1'b1 - OVERRIDE_TO_1" "0,1" newline bitfld.long 0x0 25. "POR_CTRL_OVRD_SET1,Override value when override is active for BGOK output. Field values (others are reserved): 1'b0 - OVERRIDE_TO_0 1'b1 - OVERRIDE_TO_1" "0,1" newline bitfld.long 0x0 24. "POR_CTRL_OVRD_SET0,Override value when override is active for PORHV output. Field values (others are reserved): 1'b0 - OVERRIDE_TO_0 1'b1 - OVERRIDE_TO_1" "0,1" newline bitfld.long 0x0 21. "POR_CTRL_OVRD5,Activates override of RESERVED output Field values (others are reserved): 1'b0 - NORMAL_OPERATION 1'b1 - OVERRIDE_OUTPUT" "0,1" newline bitfld.long 0x0 20. "POR_CTRL_OVRD4,Activates override of POKLVB output Field values (others are reserved): 1'b0 - NORMAL_OPERATION 1'b1 - OVERRIDE_OUTPUT" "0,1" newline bitfld.long 0x0 19. "POR_CTRL_OVRD3,Activates override of POKLVA output Field values (others are reserved): 1'b0 - NORMAL_OPERATION 1'b1 - OVERRIDE_OUTPUT" "0,1" newline bitfld.long 0x0 18. "POR_CTRL_OVRD2,Activates override of POKHV output Field values (others are reserved): 1'b0 - NORMAL_OPERATION 1'b1 - OVERRIDE_OUTPUT" "0,1" newline bitfld.long 0x0 17. "POR_CTRL_OVRD1,Activates override of BGOK output Field values (others are reserved): 1'b0 - NORMAL_OPERATION 1'b1 - OVERRIDE_OUTPUT" "0,1" newline bitfld.long 0x0 16. "POR_CTRL_OVRD0,Activates override of PORHV output Field values (others are reserved): 1'b0 - NORMAL_OPERATION 1'b1 - OVERRIDE_OUTPUT" "0,1" newline bitfld.long 0x0 7. "POR_CTRL_TRIM_SEL,POR Trim Select - Fixed value or from POR_BANDGAP_CTRL and POR_POKxxx_CTRL registers MMRs Field values (others are reserved): 1'b0 - FIXED_TRIM 1'b1 - MMR_TRIM" "0,1" newline bitfld.long 0x0 4. "POR_CTRL_MASK_HHV,Mask HHV/SOC_PORz outputs when applying new trim values Field values (others are reserved): 1'b0 - UNMASK 1'b1 - MASK" "0,1" rgroup.long 0x18004++0x3 line.long 0x0 "CFG0_POR_STAT," bitfld.long 0x0 8. "POR_STAT_BGOK,Bandgap OK status Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - OK" "0,1" newline bitfld.long 0x0 4. "POR_STAT_SOC_POR,POR module status Field values (others are reserved): 1'b0 - POR_IS_ACTIVE 1'b1 - POR_IS_RESET" "0,1" group.long 0x18100++0x3 line.long 0x0 "CFG0_POR_BANDGAP_CTRL," hexmask.long.byte 0x0 16.--19. 1. "POR_BANDGAP_CTRL_BGAPI,Bandgap output current trim bits" newline hexmask.long.byte 0x0 8.--15. 1. "POR_BANDGAP_CTRL_BGAPV,Bandgap output voltage magnitude trim bits" newline hexmask.long.byte 0x0 0.--7. 1. "POR_BANDGAP_CTRL_BGAPC,Bandgap slope trim bits." group.long 0x18110++0x17 line.long 0x0 "CFG0_POK_VDDA_MCU_UV_CTRL," bitfld.long 0x0 31. "POK_VDDA_MCU_UV_CTRL_HYST_EN,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 7. "POK_VDDA_MCU_UV_CTRL_OVER_VOLT_DET,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x0 0.--6. 1. "POK_VDDA_MCU_UV_CTRL_POK_TRIM,POK Trim Value from Fuse" line.long 0x4 "CFG0_POK_VDDA_MCU_OV_CTRL," bitfld.long 0x4 31. "POK_VDDA_MCU_OV_CTRL_HYST_EN,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x4 7. "POK_VDDA_MCU_OV_CTRL_OVER_VOLT_DET,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x4 0.--6. 1. "POK_VDDA_MCU_OV_CTRL_POK_TRIM,POK Trim Value from Fuse" line.long 0x8 "CFG0_POK_VDD_CORE_UV_CTRL," bitfld.long 0x8 31. "POK_VDD_CORE_UV_CTRL_HYST_EN,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x8 7. "POK_VDD_CORE_UV_CTRL_OVER_VOLT_DET,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x8 0.--6. 1. "POK_VDD_CORE_UV_CTRL_POK_TRIM,POK Trim Value from Fuse" line.long 0xC "CFG0_POK_VDD_CORE_OV_CTRL," bitfld.long 0xC 31. "POK_VDD_CORE_OV_CTRL_HYST_EN,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0xC 7. "POK_VDD_CORE_OV_CTRL_OVER_VOLT_DET,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0xC 0.--6. 1. "POK_VDD_CORE_OV_CTRL_POK_TRIM,POK Trim Value from Fuse" line.long 0x10 "CFG0_POK_VDDR_CORE_UV_CTRL," bitfld.long 0x10 31. "POK_VDDR_CORE_UV_CTRL_HYST_EN,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x10 7. "POK_VDDR_CORE_UV_CTRL_OVER_VOLT_DET,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x10 0.--6. 1. "POK_VDDR_CORE_UV_CTRL_POK_TRIM,POK Trim Value from Fuse" line.long 0x14 "CFG0_POK_VDDR_CORE_OV_CTRL," bitfld.long 0x14 31. "POK_VDDR_CORE_OV_CTRL_HYST_EN,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x14 7. "POK_VDDR_CORE_OV_CTRL_OVER_VOLT_DET,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x14 0.--6. 1. "POK_VDDR_CORE_OV_CTRL_POK_TRIM,POK Trim Value from Fuse" group.long 0x18138++0x1F line.long 0x0 "CFG0_POK_VMON_CAP_MCU_GENERAL_UV_CTRL," bitfld.long 0x0 31. "POK_VMON_CAP_MCU_GENERAL_UV_CTRL_HYST_EN,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 7. "POK_VMON_CAP_MCU_GENERAL_UV_CTRL_OVER_VOLT_DET,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x0 0.--6. 1. "POK_VMON_CAP_MCU_GENERAL_UV_CTRL_POK_TRIM,POK Trim Value from Fuse" line.long 0x4 "CFG0_POK_VMON_CAP_MCU_GENERAL_OV_CTRL," bitfld.long 0x4 31. "POK_VMON_CAP_MCU_GENERAL_OV_CTRL_HYST_EN,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x4 7. "POK_VMON_CAP_MCU_GENERAL_OV_CTRL_OVER_VOLT_DET,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x4 0.--6. 1. "POK_VMON_CAP_MCU_GENERAL_OV_CTRL_POK_TRIM,POK Trim Value from Fuse" line.long 0x8 "CFG0_POK_VDDSHV_MAIN_1P8_UV_CTRL," bitfld.long 0x8 31. "POK_VDDSHV_MAIN_1P8_UV_CTRL_HYST_EN,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x8 7. "POK_VDDSHV_MAIN_1P8_UV_CTRL_OVER_VOLT_DET,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x8 0.--6. 1. "POK_VDDSHV_MAIN_1P8_UV_CTRL_POK_TRIM,POK Trim Value from Fuse" line.long 0xC "CFG0_POK_VDDSHV_MAIN_1P8_OV_CTRL," bitfld.long 0xC 31. "POK_VDDSHV_MAIN_1P8_OV_CTRL_HYST_EN,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0xC 7. "POK_VDDSHV_MAIN_1P8_OV_CTRL_OVER_VOLT_DET,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0xC 0.--6. 1. "POK_VDDSHV_MAIN_1P8_OV_CTRL_POK_TRIM,POK Trim Value from Fuse" line.long 0x10 "CFG0_POK_VDDSHV_MAIN_3P3_UV_CTRL," bitfld.long 0x10 31. "POK_VDDSHV_MAIN_3P3_UV_CTRL_HYST_EN,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x10 7. "POK_VDDSHV_MAIN_3P3_UV_CTRL_OVER_VOLT_DET,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x10 0.--6. 1. "POK_VDDSHV_MAIN_3P3_UV_CTRL_POK_TRIM,POK Trim Value from Fuse" line.long 0x14 "CFG0_POK_VDDSHV_MAIN_3P3_OV_CTRL," bitfld.long 0x14 31. "POK_VDDSHV_MAIN_3P3_OV_CTRL_HYST_EN,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x14 7. "POK_VDDSHV_MAIN_3P3_OV_CTRL_OVER_VOLT_DET,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x14 0.--6. 1. "POK_VDDSHV_MAIN_3P3_OV_CTRL_POK_TRIM,POK Trim Value from Fuse" line.long 0x18 "CFG0_POK_VDDS_DDRIO_UV_CTRL," bitfld.long 0x18 31. "POK_VDDS_DDRIO_UV_CTRL_HYST_EN,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x18 7. "POK_VDDS_DDRIO_UV_CTRL_OVER_VOLT_DET,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x18 0.--6. 1. "POK_VDDS_DDRIO_UV_CTRL_POK_TRIM,POK Trim Value from Fuse" line.long 0x1C "CFG0_POK_VDDS_DDRIO_OV_CTRL," bitfld.long 0x1C 31. "POK_VDDS_DDRIO_OV_CTRL_HYST_EN,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x1C 7. "POK_VDDS_DDRIO_OV_CTRL_OVER_VOLT_DET,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x1C 0.--6. 1. "POK_VDDS_DDRIO_OV_CTRL_POK_TRIM,POK Trim Value from Fuse" group.long 0x18160++0x3 line.long 0x0 "CFG0_POK_VDDA_PMIC_IN_CTRL," bitfld.long 0x0 31. "POK_VDDA_PMIC_IN_CTRL_HYST_EN,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 15. "POK_VDDA_PMIC_IN_CTRL_OVER_VOLT_DET,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" group.long 0x18170++0x3 line.long 0x0 "CFG0_RST_CTRL," bitfld.long 0x0 22. "RST_CTRL_DM_WDT_RST_EN_Z,Block Reset from DM WDT propogating to MCU domain Field values (others are reserved): 1'b0 - PROPOGATE 1'b1 - BLOCK" "0,1" newline bitfld.long 0x0 18. "RST_CTRL_MCU_RESET_ISO_DONE_Z,Block Main Domain Warm Reset MCU domain Field values (others are reserved): 1'b0 - PROPOGATE 1'b1 - BLOCK" "0,1" newline bitfld.long 0x0 17. "RST_CTRL_MCU_ESM_ERROR_RST_EN_Z,Block Reset of MCU by ESM Field values (others are reserved): 1'b0 - PROPOGATE 1'b1 - BLOCK" "0,1" newline bitfld.long 0x0 16. "RST_CTRL_SMS_COLD_RESET_EN_Z,Block Reset of MCU by SMS Field values (others are reserved): 1'b0 - PROPOGATE 1'b1 - BLOCK" "0,1" newline hexmask.long.byte 0x0 8.--11. 1. "RST_CTRL_SW_MCU_WARMRST,Causes MAIN Domain Warm Reset. This is a fault tolerant bitfield. Automatically resets to 4'b1111 after write. Field values (others are reserved): 4'b0110 - FORCE_RESET 4'b1111 - INACTIVE" newline hexmask.long.byte 0x0 4.--7. 1. "RST_CTRL_SW_MAIN_POR,Causes MAIN Domain Power On Reset. This is a fault tolerant bitfield. Automatically resets to 4'b1111 after write. Field values (others are reserved): 4'b0110 - FORCE_RESET 4'b1111 - INACTIVE" newline hexmask.long.byte 0x0 0.--3. 1. "RST_CTRL_SW_MAIN_WARMRST,Causes MAIN Domain Warm Reset. This is a fault tolerant bitfield. Automatically resets to 4'b1111 after write. Field values (others are reserved): 4'b0110 - FORCE_RESET 4'b1111 - INACTIVE" rgroup.long 0x18174++0x3 line.long 0x0 "CFG0_RST_STAT," bitfld.long 0x0 0. "RST_STAT_MAIN_RESETSTATZ,Status of Main Domain Reset: Field values (others are reserved): 1'b0 - BLOCKED 1'b1 - PROPOGATE" "0,1" group.long 0x18178++0xB line.long 0x0 "CFG0_RST_SRC," bitfld.long 0x0 31. "RST_SRC_SAFETY_ERROR,Reset Caused by MCU ESM Error. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 30. "RST_SRC_MAIN_ESM_ERROR,Reset Caused by Main ESM Error. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 25. "RST_SRC_SW_MAIN_POR_FROM_MAIN,Software Main Power On Reset From CTRL_MMR0. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 24. "RST_SRC_SW_MAIN_POR_FROM_MCU,Software Main Power On Reset From MCU_CTRL_MMR0. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 23. "RST_SRC_DS_MAIN_PORZ,Reset of Main/Wkup Domains while in Deep Sleep as a result of an MCU Warm Reset. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 22. "RST_SRC_DM_WDT_RST,Watchdog Initiated Reset. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 21. "RST_SRC_SW_MAIN_WARMRST_FROM_MAIN,Software Main Warm Reset From CTRL_MMR0. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 20. "RST_SRC_SW_MAIN_WARMRST_FROM_MCU,Software Main Warm Reset From MCU_CTRL_MMR0. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 16. "RST_SRC_SW_MCU_WARMRST,Software Warm Reset. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 13. "RST_SRC_WARM_OUT_RST,SMS Warm Reset. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 12. "RST_SRC_COLD_OUT_RST,SMS Cold Reset. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 8. "RST_SRC_DEBUG_RST,Debug Subsystem Initiated Reset. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 4. "RST_SRC_THERMAL_RST,Thermal Reset. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 2. "RST_SRC_MAIN_RESET_REQ,Main Reset Pin. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 0. "RST_SRC_MCU_RESET_PIN,Rest Caused by MCU Reset Pin. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" line.long 0x4 "CFG0_RST_MAGIC_WORD," hexmask.long 0x4 0.--31. 1. "RST_MAGIC_WORD_MCU_MAGIC_WORD,A value of 0x00000000 (default value after reset) allows MAIN domain resets to also reset the MCU domain. Any other value allows reset propogation into the MCU domain to be blocked by ISO_CTRL." line.long 0x8 "CFG0_ISO_CTRL," bitfld.long 0x8 1. "ISO_CTRL_MCU_DBG_ISO_EN,Isolates the MCU domain from Debug. RST_MAGIC_WORD must also be non-zero for this bit to take effect. Field values (others are reserved): 1'b0 - DBG_ISO_OFF 1'b1 - DBG_ISO_ON" "0,1" newline bitfld.long 0x8 0. "ISO_CTRL_MCU_RST_ISO_EN,Isolates the MCU domain from Warm Reset initiated by Main. RST_MAGIC_WORD must also be non-zero for this bit to take effect. Field values (others are reserved): 1'b0 - RST_ISO_OFF 1'b1 - RST_ISO_ON" "0,1" group.long 0x18190++0x3 line.long 0x0 "CFG0_VDD_CORE_GLDTC_CTRL," bitfld.long 0x0 31. "VDD_CORE_GLDTC_CTRL_PWDB,Power down - active low. Field values (others are reserved): 1'b0 - PWRDN 1'b1 - PWRUP" "0,1" newline bitfld.long 0x0 30. "VDD_CORE_GLDTC_CTRL_RSTB,Reset - active low. To ensure proper operation rstb must be not be de-asserted for at least 100 ns after power-up (pwdb de-asserted). Additionally rstb must be toggled low at least 200 ns after any change in threshold or.." "0,1" newline bitfld.long 0x0 16.--18. "VDD_CORE_GLDTC_CTRL_LP_FILTER_SEL,Selects the glitch detect low-pass filter bandwidth Field values (others are reserved): 3'b000 - BW_150KHz 3'b001 - BW_125KHz 3'b010 - BW_100KHz 3'b011 - BW_80KHz 3'b100 - BW_60KHz 3'b101 - BW_45KHz 3'b110 - BW_30KHz.." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 8.--13. 1. "VDD_CORE_GLDTC_CTRL_THRESH_HI_SEL,Selects the high voltage glitch threshold as a percentage of the monitored voltage Field values (others are reserved): 6'b000000 - PCT_VDD_93P5 6'b000001 - PCT_VDD_94 6'b000010 - PCT_VDD_94P5 6'b000011 - PCT_VDD_95.." newline hexmask.long.byte 0x0 0.--5. 1. "VDD_CORE_GLDTC_CTRL_THRESH_LO_SEL,Selects the low voltage glitch threshold as a percentage of the monitored voltage Field values (others are reserved): 6'b000000 - PCT_VDD_106P5 6'b000001 - PCT_VDD_106 6'b000010 - PCT_VDD_105P5 6'b000011 - PCT_VDD_105.." rgroup.long 0x181B0++0x3 line.long 0x0 "CFG0_VDD_CORE_GLDTC_STAT," bitfld.long 0x0 8. "VDD_CORE_GLDTC_STAT_THRESH_HI_FLAG,High voltage flag. This flag is cleared by clearing the VDD_CORE_GLDTC_CTRL_rstb bit. Field values (others are reserved): 1'b0 - HV_UNKNOWN (not detected) 1'b1 - HV_DETECTED" "0,1" newline bitfld.long 0x0 0. "VDD_CORE_GLDTC_STAT_THRESH_LOW_FLAG,Low voltage flag. This flag is cleared by clearing the VDD_CORE_GLDTC_CTRL_rstb bit. Field values (others are reserved): 1'b0 - LV_UNKNOWN (not detected) 1'b1 - LV_DETECTED" "0,1" group.long 0x18200++0x3 line.long 0x0 "CFG0_PRG_PP_0_CTRL," bitfld.long 0x0 16.--17. "PRG_PP_0_CTRL_DEGLITCH_SEL,Deglitch period for PRG_PP1 POKs (microseconds) Field values (others are reserved): 2'b00 - DG_5_US 2'b01 - DG_10_US 2'b10 - DG_15_US 2'b11 - DG_20_US" "0,1,2,3" newline bitfld.long 0x0 15. "PRG_PP_0_CTRL_POK_EN_SEL,Selects source of POK controls Field values (others are reserved): 1'b0 - TIEOFFS 1'b1 - PRG_PP0_CTRL_REG" "0,1" newline bitfld.long 0x0 4. "PRG_PP_0_CTRL_POK_VDDA_PMIC_IN_UV_EN,Activate VDDA_PMIC_IN undervoltage POK detection Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 3. "PRG_PP_0_CTRL_POK_VDD_MCU_OV_EN,Activate VDD_MCU overvoltage POK detection Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 2. "PRG_PP_0_CTRL_POK_VDD_MCU_UV_EN,Activate VDD_MCU undervoltage POK detection Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 1. "PRG_PP_0_CTRL_POK_VDDA_MCU_OV_EN,Activate 1.8V VDDA_MCU overvoltage POK detection Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 0. "PRG_PP_0_CTRL_POK_VDDA_MCU_UV_EN,Activate 1.8V VDDA_MCU undervoltage POK detection Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" group.long 0x18208++0x3 line.long 0x0 "CFG0_PRG_PP_1_CTRL," bitfld.long 0x0 19. "PRG_PP_1_CTRL_POK_PP_EN,POK ping-pong activate. When set POKs with their ov_sel option set to UV_OR_PINGPONG are automatically cycled between UV and OV detection (ping-pong). POKs with ov_sel selecting OV are unaffected by this bit. Field values.." "0,1" newline bitfld.long 0x0 16.--17. "PRG_PP_1_CTRL_DEGLITCH_SEL,Deglitch period for PRG_PP1 POKs (microseconds) Field values (others are reserved): 2'b00 - DG_5_US 2'b01 - DG_10_US 2'b10 - DG_15_US 2'b11 - DG_20_US" "0,1,2,3" newline bitfld.long 0x0 15. "PRG_PP_1_CTRL_POK_EN_SEL,Selects source of POK controls Field values (others are reserved): 1'b0 - TIEOFFS 1'b1 - PRG_PP0_CTRL_REG" "0,1" newline bitfld.long 0x0 14. "PRG_PP_1_CTRL_POK_VDDS_DDRIO_OV_SEL,POK_VDDS_DDRIO mode (undervoltage/ping-pong or over-voltage) Field values (others are reserved): 1'b0 - UV_OR_PINGPONG 1'b1 - OV" "0,1" newline bitfld.long 0x0 13. "PRG_PP_1_CTRL_POK_VDDSHV_MAIN_3P3_OV_SEL,POK_VDDSHV_MAIN_3P3 mode (undervoltage/ping-pong or over-voltage) Field values (others are reserved): 1'b0 - UV_OR_PINGPONG 1'b1 - OV" "0,1" newline bitfld.long 0x0 12. "PRG_PP_1_CTRL_POK_VDDSHV_MAIN_1P8_OV_SEL,POK_VDDSHV_MAIN_1P8 mode (undervoltage/ping-pong or over-voltage) Field values (others are reserved): 1'b0 - UV_OR_PINGPONG 1'b1 - OV" "0,1" newline bitfld.long 0x0 11. "PRG_PP_1_CTRL_POK_VMON_CAP_MCU_GENERAL_OV_SEL,POK_VMON_CAP_MCU_GENERAL mode (undervoltage/ping-pong or over-voltage) Field values (others are reserved): 1'b0 - UV_OR_PINGPONG 1'b1 - OV" "0,1" newline bitfld.long 0x0 8. "PRG_PP_1_CTRL_POK_VDDR_CORE_OV_SEL,POK_VDDR_CORE mode (undervoltage/ping-pong or over-voltage) Field values (others are reserved): 1'b0 - UV_OR_PINGPONG 1'b1 - OV" "0,1" newline bitfld.long 0x0 6. "PRG_PP_1_CTRL_POK_VDDS_DDRIO_EN,Activate POK_VDDS_DDRIO (if pok_en_sel = 1): Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 5. "PRG_PP_1_CTRL_POK_VDDSHV_MAIN_3P3_EN,Activate POK_VDDSHV_MAIN_3P3 (if pok_en_sel = 1): Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 4. "PRG_PP_1_CTRL_POK_VDDSHV_MAIN_1P8_EN,Activate POK_VDDSHV_MAIN_1P8 (if pok_en_sel = 1): Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 3. "PRG_PP_1_CTRL_POK_VMON_CAP_MCU_GENERAL_EN,Activate POK_VMON_CAP_MCU_GENERAL (if pok_en_sel = 1): Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 0. "PRG_PP_1_CTRL_POK_VDDR_CORE_EN,Activate POK_VDDR_CORE (if pok_en_sel = 1): Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" group.long 0x18280++0x3 line.long 0x0 "CFG0_CLKGATE_CTRL," bitfld.long 0x0 25. "CLKGATE_CTRL_RAM1_NOGATE,MCU SRAM1 auto clockgate on idle deactivate Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 24. "CLKGATE_CTRL_RAM0_NOGATE,MCU SRAM1 auto clockgate on idle deactivate Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 2. "CLKGATE_CTRL_MCUSS_NOGATE,MCU Subsystem auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 1. "CLKGATE_CTRL_MCU_CBA_NOGATE,MCU domain Data CBASS auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 0. "CLKGATE_CTRL_WKUP_SAFE_CBA_NOGATE,WKUP domain CBASS auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" group.long 0x19008++0x7 line.long 0x0 "CFG0_LOCK6_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK6_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK6_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK6_KICK1,- KICK1 component" rgroup.long 0x19100++0x1B line.long 0x0 "CFG0_CLAIMREG_P6_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P6_R0_READONLY,Claim bits for Partition 6" line.long 0x4 "CFG0_CLAIMREG_P6_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P6_R1_READONLY,Claim bits for Partition 6" line.long 0x8 "CFG0_CLAIMREG_P6_R2_READONLY," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P6_R2_READONLY,Claim bits for Partition 6" line.long 0xC "CFG0_CLAIMREG_P6_R3_READONLY," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P6_R3_READONLY,Claim bits for Partition 6" line.long 0x10 "CFG0_CLAIMREG_P6_R4_READONLY," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P6_R4_READONLY,Claim bits for Partition 6" line.long 0x14 "CFG0_CLAIMREG_P6_R5_READONLY," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P6_R5_READONLY,Claim bits for Partition 6" line.long 0x18 "CFG0_CLAIMREG_P6_R6_READONLY," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P6_R6_READONLY,Claim bits for Partition 6" group.long 0x1A000++0x3 line.long 0x0 "CFG0_POR_CTRL_PROXY," bitfld.long 0x0 29. "POR_CTRL_OVRD_SET5_PROXY,Override value when override is active for RESERVED output. Field values (others are reserved): 1'b0 - OVERRIDE_TO_0 1'b1 - OVERRIDE_TO_1" "0,1" newline bitfld.long 0x0 28. "POR_CTRL_OVRD_SET4_PROXY,Override value when override is active for POKLVB output. Field values (others are reserved): 1'b0 - OVERRIDE_TO_0 1'b1 - OVERRIDE_TO_1" "0,1" newline bitfld.long 0x0 27. "POR_CTRL_OVRD_SET3_PROXY,Override value when override is active for POKLVA output. Field values (others are reserved): 1'b0 - OVERRIDE_TO_0 1'b1 - OVERRIDE_TO_1" "0,1" newline bitfld.long 0x0 26. "POR_CTRL_OVRD_SET2_PROXY,Override value when override is active for POKHV output. Field values (others are reserved): 1'b0 - OVERRIDE_TO_0 1'b1 - OVERRIDE_TO_1" "0,1" newline bitfld.long 0x0 25. "POR_CTRL_OVRD_SET1_PROXY,Override value when override is active for BGOK output. Field values (others are reserved): 1'b0 - OVERRIDE_TO_0 1'b1 - OVERRIDE_TO_1" "0,1" newline bitfld.long 0x0 24. "POR_CTRL_OVRD_SET0_PROXY,Override value when override is active for PORHV output. Field values (others are reserved): 1'b0 - OVERRIDE_TO_0 1'b1 - OVERRIDE_TO_1" "0,1" newline bitfld.long 0x0 21. "POR_CTRL_OVRD5_PROXY,Activates override of RESERVED output Field values (others are reserved): 1'b0 - NORMAL_OPERATION 1'b1 - OVERRIDE_OUTPUT" "0,1" newline bitfld.long 0x0 20. "POR_CTRL_OVRD4_PROXY,Activates override of POKLVB output Field values (others are reserved): 1'b0 - NORMAL_OPERATION 1'b1 - OVERRIDE_OUTPUT" "0,1" newline bitfld.long 0x0 19. "POR_CTRL_OVRD3_PROXY,Activates override of POKLVA output Field values (others are reserved): 1'b0 - NORMAL_OPERATION 1'b1 - OVERRIDE_OUTPUT" "0,1" newline bitfld.long 0x0 18. "POR_CTRL_OVRD2_PROXY,Activates override of POKHV output Field values (others are reserved): 1'b0 - NORMAL_OPERATION 1'b1 - OVERRIDE_OUTPUT" "0,1" newline bitfld.long 0x0 17. "POR_CTRL_OVRD1_PROXY,Activates override of BGOK output Field values (others are reserved): 1'b0 - NORMAL_OPERATION 1'b1 - OVERRIDE_OUTPUT" "0,1" newline bitfld.long 0x0 16. "POR_CTRL_OVRD0_PROXY,Activates override of PORHV output Field values (others are reserved): 1'b0 - NORMAL_OPERATION 1'b1 - OVERRIDE_OUTPUT" "0,1" newline bitfld.long 0x0 7. "POR_CTRL_TRIM_SEL_PROXY,POR Trim Select - Fixed value or from POR_BANDGAP_CTRL and POR_POKxxx_CTRL registers MMRs Field values (others are reserved): 1'b0 - FIXED_TRIM 1'b1 - MMR_TRIM" "0,1" newline bitfld.long 0x0 4. "POR_CTRL_MASK_HHV_PROXY,Mask HHV/SOC_PORz outputs when applying new trim values Field values (others are reserved): 1'b0 - UNMASK 1'b1 - MASK" "0,1" rgroup.long 0x1A004++0x3 line.long 0x0 "CFG0_POR_STAT_PROXY," bitfld.long 0x0 8. "POR_STAT_BGOK_PROXY,Bandgap OK status Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - OK" "0,1" newline bitfld.long 0x0 4. "POR_STAT_SOC_POR_PROXY,POR module status Field values (others are reserved): 1'b0 - POR_IS_ACTIVE 1'b1 - POR_IS_RESET" "0,1" group.long 0x1A100++0x3 line.long 0x0 "CFG0_POR_BANDGAP_CTRL_PROXY," hexmask.long.byte 0x0 16.--19. 1. "POR_BANDGAP_CTRL_BGAPI_PROXY,Bandgap output current trim bits" newline hexmask.long.byte 0x0 8.--15. 1. "POR_BANDGAP_CTRL_BGAPV_PROXY,Bandgap output voltage magnitude trim bits" newline hexmask.long.byte 0x0 0.--7. 1. "POR_BANDGAP_CTRL_BGAPC_PROXY,Bandgap slope trim bits." group.long 0x1A110++0x17 line.long 0x0 "CFG0_POK_VDDA_MCU_UV_CTRL_PROXY," bitfld.long 0x0 31. "POK_VDDA_MCU_UV_CTRL_HYST_EN_PROXY,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 7. "POK_VDDA_MCU_UV_CTRL_OVER_VOLT_DET_PROXY,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x0 0.--6. 1. "POK_VDDA_MCU_UV_CTRL_POK_TRIM_PROXY,POK Trim Value from Fuse" line.long 0x4 "CFG0_POK_VDDA_MCU_OV_CTRL_PROXY," bitfld.long 0x4 31. "POK_VDDA_MCU_OV_CTRL_HYST_EN_PROXY,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x4 7. "POK_VDDA_MCU_OV_CTRL_OVER_VOLT_DET_PROXY,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x4 0.--6. 1. "POK_VDDA_MCU_OV_CTRL_POK_TRIM_PROXY,POK Trim Value from Fuse" line.long 0x8 "CFG0_POK_VDD_CORE_UV_CTRL_PROXY," bitfld.long 0x8 31. "POK_VDD_CORE_UV_CTRL_HYST_EN_PROXY,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x8 7. "POK_VDD_CORE_UV_CTRL_OVER_VOLT_DET_PROXY,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x8 0.--6. 1. "POK_VDD_CORE_UV_CTRL_POK_TRIM_PROXY,POK Trim Value from Fuse" line.long 0xC "CFG0_POK_VDD_CORE_OV_CTRL_PROXY," bitfld.long 0xC 31. "POK_VDD_CORE_OV_CTRL_HYST_EN_PROXY,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0xC 7. "POK_VDD_CORE_OV_CTRL_OVER_VOLT_DET_PROXY,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0xC 0.--6. 1. "POK_VDD_CORE_OV_CTRL_POK_TRIM_PROXY,POK Trim Value from Fuse" line.long 0x10 "CFG0_POK_VDDR_CORE_UV_CTRL_PROXY," bitfld.long 0x10 31. "POK_VDDR_CORE_UV_CTRL_HYST_EN_PROXY,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x10 7. "POK_VDDR_CORE_UV_CTRL_OVER_VOLT_DET_PROXY,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x10 0.--6. 1. "POK_VDDR_CORE_UV_CTRL_POK_TRIM_PROXY,POK Trim Value from Fuse" line.long 0x14 "CFG0_POK_VDDR_CORE_OV_CTRL_PROXY," bitfld.long 0x14 31. "POK_VDDR_CORE_OV_CTRL_HYST_EN_PROXY,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x14 7. "POK_VDDR_CORE_OV_CTRL_OVER_VOLT_DET_PROXY,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x14 0.--6. 1. "POK_VDDR_CORE_OV_CTRL_POK_TRIM_PROXY,POK Trim Value from Fuse" group.long 0x1A138++0x1F line.long 0x0 "CFG0_POK_VMON_CAP_MCU_GENERAL_UV_CTRL_PROXY," bitfld.long 0x0 31. "POK_VMON_CAP_MCU_GENERAL_UV_CTRL_HYST_EN_PROXY,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 7. "POK_VMON_CAP_MCU_GENERAL_UV_CTRL_OVER_VOLT_DET_PROXY,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x0 0.--6. 1. "POK_VMON_CAP_MCU_GENERAL_UV_CTRL_POK_TRIM_PROXY,POK Trim Value from Fuse" line.long 0x4 "CFG0_POK_VMON_CAP_MCU_GENERAL_OV_CTRL_PROXY," bitfld.long 0x4 31. "POK_VMON_CAP_MCU_GENERAL_OV_CTRL_HYST_EN_PROXY,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x4 7. "POK_VMON_CAP_MCU_GENERAL_OV_CTRL_OVER_VOLT_DET_PROXY,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x4 0.--6. 1. "POK_VMON_CAP_MCU_GENERAL_OV_CTRL_POK_TRIM_PROXY,POK Trim Value from Fuse" line.long 0x8 "CFG0_POK_VDDSHV_MAIN_1P8_UV_CTRL_PROXY," bitfld.long 0x8 31. "POK_VDDSHV_MAIN_1P8_UV_CTRL_HYST_EN_PROXY,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x8 7. "POK_VDDSHV_MAIN_1P8_UV_CTRL_OVER_VOLT_DET_PROXY,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x8 0.--6. 1. "POK_VDDSHV_MAIN_1P8_UV_CTRL_POK_TRIM_PROXY,POK Trim Value from Fuse" line.long 0xC "CFG0_POK_VDDSHV_MAIN_1P8_OV_CTRL_PROXY," bitfld.long 0xC 31. "POK_VDDSHV_MAIN_1P8_OV_CTRL_HYST_EN_PROXY,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0xC 7. "POK_VDDSHV_MAIN_1P8_OV_CTRL_OVER_VOLT_DET_PROXY,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0xC 0.--6. 1. "POK_VDDSHV_MAIN_1P8_OV_CTRL_POK_TRIM_PROXY,POK Trim Value from Fuse" line.long 0x10 "CFG0_POK_VDDSHV_MAIN_3P3_UV_CTRL_PROXY," bitfld.long 0x10 31. "POK_VDDSHV_MAIN_3P3_UV_CTRL_HYST_EN_PROXY,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x10 7. "POK_VDDSHV_MAIN_3P3_UV_CTRL_OVER_VOLT_DET_PROXY,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x10 0.--6. 1. "POK_VDDSHV_MAIN_3P3_UV_CTRL_POK_TRIM_PROXY,POK Trim Value from Fuse" line.long 0x14 "CFG0_POK_VDDSHV_MAIN_3P3_OV_CTRL_PROXY," bitfld.long 0x14 31. "POK_VDDSHV_MAIN_3P3_OV_CTRL_HYST_EN_PROXY,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x14 7. "POK_VDDSHV_MAIN_3P3_OV_CTRL_OVER_VOLT_DET_PROXY,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x14 0.--6. 1. "POK_VDDSHV_MAIN_3P3_OV_CTRL_POK_TRIM_PROXY,POK Trim Value from Fuse" line.long 0x18 "CFG0_POK_VDDS_DDRIO_UV_CTRL_PROXY," bitfld.long 0x18 31. "POK_VDDS_DDRIO_UV_CTRL_HYST_EN_PROXY,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x18 7. "POK_VDDS_DDRIO_UV_CTRL_OVER_VOLT_DET_PROXY,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x18 0.--6. 1. "POK_VDDS_DDRIO_UV_CTRL_POK_TRIM_PROXY,POK Trim Value from Fuse" line.long 0x1C "CFG0_POK_VDDS_DDRIO_OV_CTRL_PROXY," bitfld.long 0x1C 31. "POK_VDDS_DDRIO_OV_CTRL_HYST_EN_PROXY,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x1C 7. "POK_VDDS_DDRIO_OV_CTRL_OVER_VOLT_DET_PROXY,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" newline hexmask.long.byte 0x1C 0.--6. 1. "POK_VDDS_DDRIO_OV_CTRL_POK_TRIM_PROXY,POK Trim Value from Fuse" group.long 0x1A160++0x3 line.long 0x0 "CFG0_POK_VDDA_PMIC_IN_CTRL_PROXY," bitfld.long 0x0 31. "POK_VDDA_PMIC_IN_CTRL_HYST_EN_PROXY,Activate POK hysteresis Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 15. "POK_VDDA_PMIC_IN_CTRL_OVER_VOLT_DET_PROXY,Over / under voltage detection mode Field values (others are reserved): 1'b0 - UNDERVOLTAGE_MODE 1'b1 - OVERVOLTAGE_MODE" "0,1" group.long 0x1A170++0x3 line.long 0x0 "CFG0_RST_CTRL_PROXY," bitfld.long 0x0 22. "RST_CTRL_DM_WDT_RST_EN_Z_PROXY,Block Reset from DM WDT propogating to MCU domain Field values (others are reserved): 1'b0 - PROPOGATE 1'b1 - BLOCK" "0,1" newline bitfld.long 0x0 18. "RST_CTRL_MCU_RESET_ISO_DONE_Z_PROXY,Block Main Domain Warm Reset MCU domain Field values (others are reserved): 1'b0 - PROPOGATE 1'b1 - BLOCK" "0,1" newline bitfld.long 0x0 17. "RST_CTRL_MCU_ESM_ERROR_RST_EN_Z_PROXY,Block Reset of MCU by ESM Field values (others are reserved): 1'b0 - PROPOGATE 1'b1 - BLOCK" "0,1" newline bitfld.long 0x0 16. "RST_CTRL_SMS_COLD_RESET_EN_Z_PROXY,Block Reset of MCU by SMS Field values (others are reserved): 1'b0 - PROPOGATE 1'b1 - BLOCK" "0,1" newline hexmask.long.byte 0x0 8.--11. 1. "RST_CTRL_SW_MCU_WARMRST_PROXY,Causes MAIN Domain Warm Reset. This is a fault tolerant bitfield. Automatically resets to 4'b1111 after write. Field values (others are reserved): 4'b0110 - FORCE_RESET 4'b1111 - INACTIVE" newline hexmask.long.byte 0x0 4.--7. 1. "RST_CTRL_SW_MAIN_POR_PROXY,Causes MAIN Domain Power On Reset. This is a fault tolerant bitfield. Automatically resets to 4'b1111 after write. Field values (others are reserved): 4'b0110 - FORCE_RESET 4'b1111 - INACTIVE" newline hexmask.long.byte 0x0 0.--3. 1. "RST_CTRL_SW_MAIN_WARMRST_PROXY,Causes MAIN Domain Warm Reset. This is a fault tolerant bitfield. Automatically resets to 4'b1111 after write. Field values (others are reserved): 4'b0110 - FORCE_RESET 4'b1111 - INACTIVE" rgroup.long 0x1A174++0x3 line.long 0x0 "CFG0_RST_STAT_PROXY," bitfld.long 0x0 0. "RST_STAT_MAIN_RESETSTATZ_PROXY,Status of Main Domain Reset: Field values (others are reserved): 1'b0 - BLOCKED 1'b1 - PROPOGATE" "0,1" group.long 0x1A178++0xB line.long 0x0 "CFG0_RST_SRC_PROXY," bitfld.long 0x0 31. "RST_SRC_SAFETY_ERROR_PROXY,Reset Caused by MCU ESM Error. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 30. "RST_SRC_MAIN_ESM_ERROR_PROXY,Reset Caused by Main ESM Error. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 25. "RST_SRC_SW_MAIN_POR_FROM_MAIN_PROXY,Software Main Power On Reset From CTRL_MMR0. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 24. "RST_SRC_SW_MAIN_POR_FROM_MCU_PROXY,Software Main Power On Reset From MCU_CTRL_MMR0. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 23. "RST_SRC_DS_MAIN_PORZ_PROXY,Reset of Main/Wkup Domains while in Deep Sleep as a result of an MCU Warm Reset. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 22. "RST_SRC_DM_WDT_RST_PROXY,Watchdog Initiated Reset. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 21. "RST_SRC_SW_MAIN_WARMRST_FROM_MAIN_PROXY,Software Main Warm Reset From CTRL_MMR0. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 20. "RST_SRC_SW_MAIN_WARMRST_FROM_MCU_PROXY,Software Main Warm Reset From MCU_CTRL_MMR0. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 16. "RST_SRC_SW_MCU_WARMRST_PROXY,Software Warm Reset. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 13. "RST_SRC_WARM_OUT_RST_PROXY,SMS Warm Reset. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 12. "RST_SRC_COLD_OUT_RST_PROXY,SMS Cold Reset. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 8. "RST_SRC_DEBUG_RST_PROXY,Debug Subsystem Initiated Reset. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 4. "RST_SRC_THERMAL_RST_PROXY,Thermal Reset. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 2. "RST_SRC_MAIN_RESET_REQ_PROXY,Main Reset Pin. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x0 0. "RST_SRC_MCU_RESET_PIN_PROXY,Rest Caused by MCU Reset Pin. Write 1 to Clear. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" line.long 0x4 "CFG0_RST_MAGIC_WORD_PROXY," hexmask.long 0x4 0.--31. 1. "RST_MAGIC_WORD_MCU_MAGIC_WORD_PROXY,A value of 0x00000000 (default value after reset) allows MAIN domain resets to also reset the MCU domain. Any other value allows reset propogation into the MCU domain to be blocked by ISO_CTRL." line.long 0x8 "CFG0_ISO_CTRL_PROXY," bitfld.long 0x8 1. "ISO_CTRL_MCU_DBG_ISO_EN_PROXY,Isolates the MCU domain from Debug. RST_MAGIC_WORD must also be non-zero for this bit to take effect. Field values (others are reserved): 1'b0 - DBG_ISO_OFF 1'b1 - DBG_ISO_ON" "0,1" newline bitfld.long 0x8 0. "ISO_CTRL_MCU_RST_ISO_EN_PROXY,Isolates the MCU domain from Warm Reset initiated by Main. RST_MAGIC_WORD must also be non-zero for this bit to take effect. Field values (others are reserved): 1'b0 - RST_ISO_OFF 1'b1 - RST_ISO_ON" "0,1" group.long 0x1A190++0x3 line.long 0x0 "CFG0_VDD_CORE_GLDTC_CTRL_PROXY," bitfld.long 0x0 31. "VDD_CORE_GLDTC_CTRL_PWDB_PROXY,Power down - active low. Field values (others are reserved): 1'b0 - PWRDN 1'b1 - PWRUP" "0,1" newline bitfld.long 0x0 30. "VDD_CORE_GLDTC_CTRL_RSTB_PROXY,Reset - active low. To ensure proper operation rstb must be not be de-asserted for at least 100 ns after power-up (pwdb de-asserted). Additionally rstb must be toggled low at least 200 ns after any change in threshold.." "0,1" newline bitfld.long 0x0 16.--18. "VDD_CORE_GLDTC_CTRL_LP_FILTER_SEL_PROXY,Selects the glitch detect low-pass filter bandwidth Field values (others are reserved): 3'b000 - BW_150KHz 3'b001 - BW_125KHz 3'b010 - BW_100KHz 3'b011 - BW_80KHz 3'b100 - BW_60KHz 3'b101 - BW_45KHz 3'b110 -.." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 8.--13. 1. "VDD_CORE_GLDTC_CTRL_THRESH_HI_SEL_PROXY,Selects the high voltage glitch threshold as a percentage of the monitored voltage Field values (others are reserved): 6'b000000 - PCT_VDD_93P5 6'b000001 - PCT_VDD_94 6'b000010 - PCT_VDD_94P5 6'b000011 - PCT_VDD_95.." newline hexmask.long.byte 0x0 0.--5. 1. "VDD_CORE_GLDTC_CTRL_THRESH_LO_SEL_PROXY,Selects the low voltage glitch threshold as a percentage of the monitored voltage Field values (others are reserved): 6'b000000 - PCT_VDD_106P5 6'b000001 - PCT_VDD_106 6'b000010 - PCT_VDD_105P5 6'b000011 -.." rgroup.long 0x1A1B0++0x3 line.long 0x0 "CFG0_VDD_CORE_GLDTC_STAT_PROXY," bitfld.long 0x0 8. "VDD_CORE_GLDTC_STAT_THRESH_HI_FLAG_PROXY,High voltage flag. This flag is cleared by clearing the VDD_CORE_GLDTC_CTRL_rstb bit. Field values (others are reserved): 1'b0 - HV_UNKNOWN (not detected) 1'b1 - HV_DETECTED" "0,1" newline bitfld.long 0x0 0. "VDD_CORE_GLDTC_STAT_THRESH_LOW_FLAG_PROXY,Low voltage flag. This flag is cleared by clearing the VDD_CORE_GLDTC_CTRL_rstb bit. Field values (others are reserved): 1'b0 - LV_UNKNOWN (not detected) 1'b1 - LV_DETECTED" "0,1" group.long 0x1A200++0x3 line.long 0x0 "CFG0_PRG_PP_0_CTRL_PROXY," bitfld.long 0x0 16.--17. "PRG_PP_0_CTRL_DEGLITCH_SEL_PROXY,Deglitch period for PRG_PP1 POKs (microseconds) Field values (others are reserved): 2'b00 - DG_5_US 2'b01 - DG_10_US 2'b10 - DG_15_US 2'b11 - DG_20_US" "0,1,2,3" newline bitfld.long 0x0 15. "PRG_PP_0_CTRL_POK_EN_SEL_PROXY,Selects source of POK controls Field values (others are reserved): 1'b0 - TIEOFFS 1'b1 - PRG_PP0_CTRL_REG" "0,1" newline bitfld.long 0x0 4. "PRG_PP_0_CTRL_POK_VDDA_PMIC_IN_UV_EN_PROXY,Activate VDDA_PMIC_IN undervoltage POK detection Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 3. "PRG_PP_0_CTRL_POK_VDD_MCU_OV_EN_PROXY,Activate VDD_MCU overvoltage POK detection Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 2. "PRG_PP_0_CTRL_POK_VDD_MCU_UV_EN_PROXY,Activate VDD_MCU undervoltage POK detection Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 1. "PRG_PP_0_CTRL_POK_VDDA_MCU_OV_EN_PROXY,Activate 1.8V VDDA_MCU overvoltage POK detection Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 0. "PRG_PP_0_CTRL_POK_VDDA_MCU_UV_EN_PROXY,Activate 1.8V VDDA_MCU undervoltage POK detection Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" group.long 0x1A208++0x3 line.long 0x0 "CFG0_PRG_PP_1_CTRL_PROXY," bitfld.long 0x0 19. "PRG_PP_1_CTRL_POK_PP_EN_PROXY,POK ping-pong activate. When set POKs with their ov_sel option set to UV_OR_PINGPONG are automatically cycled between UV and OV detection (ping-pong). POKs with ov_sel selecting OV are unaffected by this bit. Field values.." "0,1" newline bitfld.long 0x0 16.--17. "PRG_PP_1_CTRL_DEGLITCH_SEL_PROXY,Deglitch period for PRG_PP1 POKs (microseconds) Field values (others are reserved): 2'b00 - DG_5_US 2'b01 - DG_10_US 2'b10 - DG_15_US 2'b11 - DG_20_US" "0,1,2,3" newline bitfld.long 0x0 15. "PRG_PP_1_CTRL_POK_EN_SEL_PROXY,Selects source of POK controls Field values (others are reserved): 1'b0 - TIEOFFS 1'b1 - PRG_PP0_CTRL_REG" "0,1" newline bitfld.long 0x0 14. "PRG_PP_1_CTRL_POK_VDDS_DDRIO_OV_SEL_PROXY,POK_VDDS_DDRIO mode (undervoltage/ping-pong or over-voltage) Field values (others are reserved): 1'b0 - UV_OR_PINGPONG 1'b1 - OV" "0,1" newline bitfld.long 0x0 13. "PRG_PP_1_CTRL_POK_VDDSHV_MAIN_3P3_OV_SEL_PROXY,POK_VDDSHV_MAIN_3P3 mode (undervoltage/ping-pong or over-voltage) Field values (others are reserved): 1'b0 - UV_OR_PINGPONG 1'b1 - OV" "0,1" newline bitfld.long 0x0 12. "PRG_PP_1_CTRL_POK_VDDSHV_MAIN_1P8_OV_SEL_PROXY,POK_VDDSHV_MAIN_1P8 mode (undervoltage/ping-pong or over-voltage) Field values (others are reserved): 1'b0 - UV_OR_PINGPONG 1'b1 - OV" "0,1" newline bitfld.long 0x0 11. "PRG_PP_1_CTRL_POK_VMON_CAP_MCU_GENERAL_OV_SEL_PROXY,POK_VMON_CAP_MCU_GENERAL mode (undervoltage/ping-pong or over-voltage) Field values (others are reserved): 1'b0 - UV_OR_PINGPONG 1'b1 - OV" "0,1" newline bitfld.long 0x0 8. "PRG_PP_1_CTRL_POK_VDDR_CORE_OV_SEL_PROXY,POK_VDDR_CORE mode (undervoltage/ping-pong or over-voltage) Field values (others are reserved): 1'b0 - UV_OR_PINGPONG 1'b1 - OV" "0,1" newline bitfld.long 0x0 6. "PRG_PP_1_CTRL_POK_VDDS_DDRIO_EN_PROXY,Activate POK_VDDS_DDRIO (if pok_en_sel = 1): Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 5. "PRG_PP_1_CTRL_POK_VDDSHV_MAIN_3P3_EN_PROXY,Activate POK_VDDSHV_MAIN_3P3 (if pok_en_sel = 1): Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 4. "PRG_PP_1_CTRL_POK_VDDSHV_MAIN_1P8_EN_PROXY,Activate POK_VDDSHV_MAIN_1P8 (if pok_en_sel = 1): Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 3. "PRG_PP_1_CTRL_POK_VMON_CAP_MCU_GENERAL_EN_PROXY,Activate POK_VMON_CAP_MCU_GENERAL (if pok_en_sel = 1): Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 0. "PRG_PP_1_CTRL_POK_VDDR_CORE_EN_PROXY,Activate POK_VDDR_CORE (if pok_en_sel = 1): Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" group.long 0x1A280++0x3 line.long 0x0 "CFG0_CLKGATE_CTRL_PROXY," bitfld.long 0x0 25. "CLKGATE_CTRL_RAM1_NOGATE_PROXY,MCU SRAM1 auto clockgate on idle deactivate Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 24. "CLKGATE_CTRL_RAM0_NOGATE_PROXY,MCU SRAM1 auto clockgate on idle deactivate Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 2. "CLKGATE_CTRL_MCUSS_NOGATE_PROXY,MCU Subsystem auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 1. "CLKGATE_CTRL_MCU_CBA_NOGATE_PROXY,MCU domain Data CBASS auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 0. "CLKGATE_CTRL_WKUP_SAFE_CBA_NOGATE_PROXY,WKUP domain CBASS auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" group.long 0x1B008++0x7 line.long 0x0 "CFG0_LOCK6_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK6_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK6_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK6_KICK1_PROXY,- KICK1 component" group.long 0x1B100++0x1B line.long 0x0 "CFG0_CLAIMREG_P6_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P6_R0,Claim bits for Partition 6" line.long 0x4 "CFG0_CLAIMREG_P6_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P6_R1,Claim bits for Partition 6" line.long 0x8 "CFG0_CLAIMREG_P6_R2," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P6_R2,Claim bits for Partition 6" line.long 0xC "CFG0_CLAIMREG_P6_R3," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P6_R3,Claim bits for Partition 6" line.long 0x10 "CFG0_CLAIMREG_P6_R4," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P6_R4,Claim bits for Partition 6" line.long 0x14 "CFG0_CLAIMREG_P6_R5," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P6_R5,Claim bits for Partition 6" line.long 0x18 "CFG0_CLAIMREG_P6_R6," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P6_R6,Claim bits for Partition 6" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_TIMER0_CFG (MCU_TIMER0_CFG)" base ad:0x4800000 rgroup.long 0x0++0x3 line.long 0x0 "CFG_TIDR," bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x10++0x3 line.long 0x0 "CFG_TIOCP_CFG,This register controls the various parameters of the OCP interface" bitfld.long 0x0 2.--3. "IDLEMODE,Idle Mode" "0,1,2,3" bitfld.long 0x0 1. "EMUFREE,Emulation Mode" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset" "0,1" group.long 0x20++0x27 line.long 0x0 "CFG_IRQ_EOI,Allows the generation of further pulses on the interrupt line. if an new interrupt event is pending. when using the pulsed output. Unused when using the level interrupt line" bitfld.long 0x0 0. "LINE_NUMBER,Idle Mode" "0,1" line.long 0x4 "CFG_IRQSTATUS_RAW,Component interrupt request status." bitfld.long 0x4 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x4 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x4 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x8 "CFG_IRQSTATUS,Component interrupt request status." bitfld.long 0x8 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x8 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x8 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0xC "CFG_IRQSTATUS_SET,Component interrupt request enable" bitfld.long 0xC 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0xC 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0xC 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x10 "CFG_IRQSTATUS_CLR,Component interrupt request enable." bitfld.long 0x10 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x10 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x10 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x14 "CFG_IRQWAKEEN,Wakeup-enabled events taking place when module is idle shall generate an asynchronous wakeup" bitfld.long 0x14 2. "MAT_WUP_ENA,Match Wakeup Enable" "0,1" bitfld.long 0x14 1. "OVF_WUP_ENA,Overflow Wakeup Enable" "0,1" bitfld.long 0x14 0. "TCAR_WUP_ENA,Capture Wakeup Enable" "0,1" line.long 0x18 "CFG_TCLR,This register controls optional features specific to the timer functionality" bitfld.long 0x18 14. "GPO_CFG,This field drives directly the timer_gpocfg port" "0,1" bitfld.long 0x18 13. "CAPT_MODE,Capture mode select bit; First/second" "0,1" bitfld.long 0x18 12. "PT,Pulse or Toggle select bit" "0,1" bitfld.long 0x18 10.--11. "TRG,Trigger Output Mode" "0,1,2,3" bitfld.long 0x18 8.--9. "TCM,Transition Capture Mode" "0,1,2,3" newline bitfld.long 0x18 7. "SCPWM,Pulse Width Modulation output pin default value" "0,1" bitfld.long 0x18 6. "CE,Compare Enable" "0,1" bitfld.long 0x18 5. "PRE,Prescaler Enable" "0,1" bitfld.long 0x18 2.--4. "PTV,Trigger Output Mode. The timer counter is prescaled with the value: 2^PTV" "0,1,2,3,4,5,6,7" bitfld.long 0x18 1. "AR,Auto-reload mode" "0,1" newline bitfld.long 0x18 0. "ST,Start/Stop timer control" "0,1" line.long 0x1C "CFG_TCRR,This register holds the value of the internal counter" hexmask.long 0x1C 0.--31. 1. "TIMER_COUNTER,Timer Counter" line.long 0x20 "CFG_TLDR,This register holds the timer's load value" hexmask.long 0x20 0.--31. 1. "LOAD_VALUE,Timer Counter" line.long 0x24 "CFG_TTGR,This register triggers a counter reload of timer by writing any value in it" hexmask.long 0x24 0.--31. 1. "TTRG_VLAUE,The value of the trigger register. During reads it always return 0xFFFF_FFFF" rgroup.long 0x48++0x3 line.long 0x0 "CFG_TWPS,This register contains the write posting bits for all writ-able functional registers" bitfld.long 0x0 9. "W_PEND_TOWR,Write pending for register TOWR" "0,1" bitfld.long 0x0 8. "W_PEND_TOCR,Write pending for register TOCR" "0,1" bitfld.long 0x0 7. "W_PEND_TCVR,Write pending for register TCVR" "0,1" bitfld.long 0x0 6. "W_PEND_TNIR,Write pending for register TNIR" "0,1" bitfld.long 0x0 5. "W_PEND_TPIR,Write pending for register TPIR" "0,1" newline bitfld.long 0x0 4. "W_PEND_TMAR,Write pending for register TMAR" "0,1" bitfld.long 0x0 3. "W_PEND_TTGR,Write pending for register TTGR" "0,1" bitfld.long 0x0 2. "W_PEND_TLDR,Write pending for register TLDR" "0,1" bitfld.long 0x0 1. "W_PEND_TCRR,Write pending for register TCRR" "0,1" bitfld.long 0x0 0. "W_PEND_TCLR,Write pending for register TCLR" "0,1" group.long 0x4C++0x3 line.long 0x0 "CFG_TMAR,This register holds the match value to be compared with the counter's value" hexmask.long 0x0 0.--31. 1. "COMPARE_VLAUE,The value of the match register" rgroup.long 0x50++0x3 line.long 0x0 "CFG_TCAR1,This register holds the value of the first counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE1,The value of first captured counter register" group.long 0x54++0x3 line.long 0x0 "CFG_TSICR,Timer Synchronous Interface Control Register" bitfld.long 0x0 4. "READ_AFTER_IDLE,Select if the synchronization mechanism used for first TCRR read operation after IDLE state is active" "0,1" bitfld.long 0x0 3. "READ_MODE,Select posted/non-posted mode for read operation. This bit is not used when configured in posted mode" "0,1" bitfld.long 0x0 2. "POSTED,Reset value of POSTED depends on hardware integration module at design time. Software must read POSTED field to get the hardwar module configuration" "0,1" bitfld.long 0x0 1. "SFT,This bit reset all the functional part of teh module" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "CFG_TCAR2,This register holds the value of the second counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE2,The value of second captured counter register" group.long 0x5C++0x13 line.long 0x0 "CFG_TPIR,This register is used for 1ms tick generation." hexmask.long 0x0 0.--31. 1. "POSITIVE_INC_VALUE,The value of the positive increment" line.long 0x4 "CFG_TNIR,This register is used for 1ms tick generation." hexmask.long 0x4 0.--31. 1. "NEGATIVE_INC_VALUE,The value of the negative increment" line.long 0x8 "CFG_TCVR,This register is used for 1ms tick generation." hexmask.long 0x8 0.--31. 1. "COUNTER_VALUE,The value of CVR counter" line.long 0xC "CFG_TOCR,This register is used to mask the tick interrupt for a selected number of ticks" hexmask.long.tbyte 0xC 0.--23. 1. "OVF_COUNTER_VALUE,The number of overflow events" line.long 0x10 "CFG_TOWR,This register holds the number of masked overflow interrupts" hexmask.long.tbyte 0x10 0.--23. 1. "OVF_WRAPPING_VALUE,The number of masked interrupts" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_TIMER1_CFG (MCU_TIMER1_CFG)" base ad:0x4810000 rgroup.long 0x0++0x3 line.long 0x0 "CFG_TIDR," bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x10++0x3 line.long 0x0 "CFG_TIOCP_CFG,This register controls the various parameters of the OCP interface" bitfld.long 0x0 2.--3. "IDLEMODE,Idle Mode" "0,1,2,3" bitfld.long 0x0 1. "EMUFREE,Emulation Mode" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset" "0,1" group.long 0x20++0x27 line.long 0x0 "CFG_IRQ_EOI,Allows the generation of further pulses on the interrupt line. if an new interrupt event is pending. when using the pulsed output. Unused when using the level interrupt line" bitfld.long 0x0 0. "LINE_NUMBER,Idle Mode" "0,1" line.long 0x4 "CFG_IRQSTATUS_RAW,Component interrupt request status." bitfld.long 0x4 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x4 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x4 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x8 "CFG_IRQSTATUS,Component interrupt request status." bitfld.long 0x8 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x8 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x8 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0xC "CFG_IRQSTATUS_SET,Component interrupt request enable" bitfld.long 0xC 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0xC 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0xC 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x10 "CFG_IRQSTATUS_CLR,Component interrupt request enable." bitfld.long 0x10 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x10 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x10 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x14 "CFG_IRQWAKEEN,Wakeup-enabled events taking place when module is idle shall generate an asynchronous wakeup" bitfld.long 0x14 2. "MAT_WUP_ENA,Match Wakeup Enable" "0,1" bitfld.long 0x14 1. "OVF_WUP_ENA,Overflow Wakeup Enable" "0,1" bitfld.long 0x14 0. "TCAR_WUP_ENA,Capture Wakeup Enable" "0,1" line.long 0x18 "CFG_TCLR,This register controls optional features specific to the timer functionality" bitfld.long 0x18 14. "GPO_CFG,This field drives directly the timer_gpocfg port" "0,1" bitfld.long 0x18 13. "CAPT_MODE,Capture mode select bit; First/second" "0,1" bitfld.long 0x18 12. "PT,Pulse or Toggle select bit" "0,1" bitfld.long 0x18 10.--11. "TRG,Trigger Output Mode" "0,1,2,3" bitfld.long 0x18 8.--9. "TCM,Transition Capture Mode" "0,1,2,3" newline bitfld.long 0x18 7. "SCPWM,Pulse Width Modulation output pin default value" "0,1" bitfld.long 0x18 6. "CE,Compare Enable" "0,1" bitfld.long 0x18 5. "PRE,Prescaler Enable" "0,1" bitfld.long 0x18 2.--4. "PTV,Trigger Output Mode. The timer counter is prescaled with the value: 2^PTV" "0,1,2,3,4,5,6,7" bitfld.long 0x18 1. "AR,Auto-reload mode" "0,1" newline bitfld.long 0x18 0. "ST,Start/Stop timer control" "0,1" line.long 0x1C "CFG_TCRR,This register holds the value of the internal counter" hexmask.long 0x1C 0.--31. 1. "TIMER_COUNTER,Timer Counter" line.long 0x20 "CFG_TLDR,This register holds the timer's load value" hexmask.long 0x20 0.--31. 1. "LOAD_VALUE,Timer Counter" line.long 0x24 "CFG_TTGR,This register triggers a counter reload of timer by writing any value in it" hexmask.long 0x24 0.--31. 1. "TTRG_VLAUE,The value of the trigger register. During reads it always return 0xFFFF_FFFF" rgroup.long 0x48++0x3 line.long 0x0 "CFG_TWPS,This register contains the write posting bits for all writ-able functional registers" bitfld.long 0x0 9. "W_PEND_TOWR,Write pending for register TOWR" "0,1" bitfld.long 0x0 8. "W_PEND_TOCR,Write pending for register TOCR" "0,1" bitfld.long 0x0 7. "W_PEND_TCVR,Write pending for register TCVR" "0,1" bitfld.long 0x0 6. "W_PEND_TNIR,Write pending for register TNIR" "0,1" bitfld.long 0x0 5. "W_PEND_TPIR,Write pending for register TPIR" "0,1" newline bitfld.long 0x0 4. "W_PEND_TMAR,Write pending for register TMAR" "0,1" bitfld.long 0x0 3. "W_PEND_TTGR,Write pending for register TTGR" "0,1" bitfld.long 0x0 2. "W_PEND_TLDR,Write pending for register TLDR" "0,1" bitfld.long 0x0 1. "W_PEND_TCRR,Write pending for register TCRR" "0,1" bitfld.long 0x0 0. "W_PEND_TCLR,Write pending for register TCLR" "0,1" group.long 0x4C++0x3 line.long 0x0 "CFG_TMAR,This register holds the match value to be compared with the counter's value" hexmask.long 0x0 0.--31. 1. "COMPARE_VLAUE,The value of the match register" rgroup.long 0x50++0x3 line.long 0x0 "CFG_TCAR1,This register holds the value of the first counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE1,The value of first captured counter register" group.long 0x54++0x3 line.long 0x0 "CFG_TSICR,Timer Synchronous Interface Control Register" bitfld.long 0x0 4. "READ_AFTER_IDLE,Select if the synchronization mechanism used for first TCRR read operation after IDLE state is active" "0,1" bitfld.long 0x0 3. "READ_MODE,Select posted/non-posted mode for read operation. This bit is not used when configured in posted mode" "0,1" bitfld.long 0x0 2. "POSTED,Reset value of POSTED depends on hardware integration module at design time. Software must read POSTED field to get the hardwar module configuration" "0,1" bitfld.long 0x0 1. "SFT,This bit reset all the functional part of teh module" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "CFG_TCAR2,This register holds the value of the second counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE2,The value of second captured counter register" group.long 0x5C++0x13 line.long 0x0 "CFG_TPIR,This register is used for 1ms tick generation." hexmask.long 0x0 0.--31. 1. "POSITIVE_INC_VALUE,The value of the positive increment" line.long 0x4 "CFG_TNIR,This register is used for 1ms tick generation." hexmask.long 0x4 0.--31. 1. "NEGATIVE_INC_VALUE,The value of the negative increment" line.long 0x8 "CFG_TCVR,This register is used for 1ms tick generation." hexmask.long 0x8 0.--31. 1. "COUNTER_VALUE,The value of CVR counter" line.long 0xC "CFG_TOCR,This register is used to mask the tick interrupt for a selected number of ticks" hexmask.long.tbyte 0xC 0.--23. 1. "OVF_COUNTER_VALUE,The number of overflow events" line.long 0x10 "CFG_TOWR,This register holds the number of masked overflow interrupts" hexmask.long.tbyte 0x10 0.--23. 1. "OVF_WRAPPING_VALUE,The number of masked interrupts" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_TIMER2_CFG (MCU_TIMER2_CFG)" base ad:0x4820000 rgroup.long 0x0++0x3 line.long 0x0 "CFG_TIDR," bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x10++0x3 line.long 0x0 "CFG_TIOCP_CFG,This register controls the various parameters of the OCP interface" bitfld.long 0x0 2.--3. "IDLEMODE,Idle Mode" "0,1,2,3" bitfld.long 0x0 1. "EMUFREE,Emulation Mode" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset" "0,1" group.long 0x20++0x27 line.long 0x0 "CFG_IRQ_EOI,Allows the generation of further pulses on the interrupt line. if an new interrupt event is pending. when using the pulsed output. Unused when using the level interrupt line" bitfld.long 0x0 0. "LINE_NUMBER,Idle Mode" "0,1" line.long 0x4 "CFG_IRQSTATUS_RAW,Component interrupt request status." bitfld.long 0x4 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x4 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x4 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x8 "CFG_IRQSTATUS,Component interrupt request status." bitfld.long 0x8 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x8 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x8 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0xC "CFG_IRQSTATUS_SET,Component interrupt request enable" bitfld.long 0xC 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0xC 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0xC 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x10 "CFG_IRQSTATUS_CLR,Component interrupt request enable." bitfld.long 0x10 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x10 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x10 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x14 "CFG_IRQWAKEEN,Wakeup-enabled events taking place when module is idle shall generate an asynchronous wakeup" bitfld.long 0x14 2. "MAT_WUP_ENA,Match Wakeup Enable" "0,1" bitfld.long 0x14 1. "OVF_WUP_ENA,Overflow Wakeup Enable" "0,1" bitfld.long 0x14 0. "TCAR_WUP_ENA,Capture Wakeup Enable" "0,1" line.long 0x18 "CFG_TCLR,This register controls optional features specific to the timer functionality" bitfld.long 0x18 14. "GPO_CFG,This field drives directly the timer_gpocfg port" "0,1" bitfld.long 0x18 13. "CAPT_MODE,Capture mode select bit; First/second" "0,1" bitfld.long 0x18 12. "PT,Pulse or Toggle select bit" "0,1" bitfld.long 0x18 10.--11. "TRG,Trigger Output Mode" "0,1,2,3" bitfld.long 0x18 8.--9. "TCM,Transition Capture Mode" "0,1,2,3" newline bitfld.long 0x18 7. "SCPWM,Pulse Width Modulation output pin default value" "0,1" bitfld.long 0x18 6. "CE,Compare Enable" "0,1" bitfld.long 0x18 5. "PRE,Prescaler Enable" "0,1" bitfld.long 0x18 2.--4. "PTV,Trigger Output Mode. The timer counter is prescaled with the value: 2^PTV" "0,1,2,3,4,5,6,7" bitfld.long 0x18 1. "AR,Auto-reload mode" "0,1" newline bitfld.long 0x18 0. "ST,Start/Stop timer control" "0,1" line.long 0x1C "CFG_TCRR,This register holds the value of the internal counter" hexmask.long 0x1C 0.--31. 1. "TIMER_COUNTER,Timer Counter" line.long 0x20 "CFG_TLDR,This register holds the timer's load value" hexmask.long 0x20 0.--31. 1. "LOAD_VALUE,Timer Counter" line.long 0x24 "CFG_TTGR,This register triggers a counter reload of timer by writing any value in it" hexmask.long 0x24 0.--31. 1. "TTRG_VLAUE,The value of the trigger register. During reads it always return 0xFFFF_FFFF" rgroup.long 0x48++0x3 line.long 0x0 "CFG_TWPS,This register contains the write posting bits for all writ-able functional registers" bitfld.long 0x0 9. "W_PEND_TOWR,Write pending for register TOWR" "0,1" bitfld.long 0x0 8. "W_PEND_TOCR,Write pending for register TOCR" "0,1" bitfld.long 0x0 7. "W_PEND_TCVR,Write pending for register TCVR" "0,1" bitfld.long 0x0 6. "W_PEND_TNIR,Write pending for register TNIR" "0,1" bitfld.long 0x0 5. "W_PEND_TPIR,Write pending for register TPIR" "0,1" newline bitfld.long 0x0 4. "W_PEND_TMAR,Write pending for register TMAR" "0,1" bitfld.long 0x0 3. "W_PEND_TTGR,Write pending for register TTGR" "0,1" bitfld.long 0x0 2. "W_PEND_TLDR,Write pending for register TLDR" "0,1" bitfld.long 0x0 1. "W_PEND_TCRR,Write pending for register TCRR" "0,1" bitfld.long 0x0 0. "W_PEND_TCLR,Write pending for register TCLR" "0,1" group.long 0x4C++0x3 line.long 0x0 "CFG_TMAR,This register holds the match value to be compared with the counter's value" hexmask.long 0x0 0.--31. 1. "COMPARE_VLAUE,The value of the match register" rgroup.long 0x50++0x3 line.long 0x0 "CFG_TCAR1,This register holds the value of the first counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE1,The value of first captured counter register" group.long 0x54++0x3 line.long 0x0 "CFG_TSICR,Timer Synchronous Interface Control Register" bitfld.long 0x0 4. "READ_AFTER_IDLE,Select if the synchronization mechanism used for first TCRR read operation after IDLE state is active" "0,1" bitfld.long 0x0 3. "READ_MODE,Select posted/non-posted mode for read operation. This bit is not used when configured in posted mode" "0,1" bitfld.long 0x0 2. "POSTED,Reset value of POSTED depends on hardware integration module at design time. Software must read POSTED field to get the hardwar module configuration" "0,1" bitfld.long 0x0 1. "SFT,This bit reset all the functional part of teh module" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "CFG_TCAR2,This register holds the value of the second counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE2,The value of second captured counter register" group.long 0x5C++0x13 line.long 0x0 "CFG_TPIR,This register is used for 1ms tick generation." hexmask.long 0x0 0.--31. 1. "POSITIVE_INC_VALUE,The value of the positive increment" line.long 0x4 "CFG_TNIR,This register is used for 1ms tick generation." hexmask.long 0x4 0.--31. 1. "NEGATIVE_INC_VALUE,The value of the negative increment" line.long 0x8 "CFG_TCVR,This register is used for 1ms tick generation." hexmask.long 0x8 0.--31. 1. "COUNTER_VALUE,The value of CVR counter" line.long 0xC "CFG_TOCR,This register is used to mask the tick interrupt for a selected number of ticks" hexmask.long.tbyte 0xC 0.--23. 1. "OVF_COUNTER_VALUE,The number of overflow events" line.long 0x10 "CFG_TOWR,This register holds the number of masked overflow interrupts" hexmask.long.tbyte 0x10 0.--23. 1. "OVF_WRAPPING_VALUE,The number of masked interrupts" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_TIMER3_CFG (MCU_TIMER3_CFG)" base ad:0x4830000 rgroup.long 0x0++0x3 line.long 0x0 "CFG_TIDR," bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x10++0x3 line.long 0x0 "CFG_TIOCP_CFG,This register controls the various parameters of the OCP interface" bitfld.long 0x0 2.--3. "IDLEMODE,Idle Mode" "0,1,2,3" bitfld.long 0x0 1. "EMUFREE,Emulation Mode" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset" "0,1" group.long 0x20++0x27 line.long 0x0 "CFG_IRQ_EOI,Allows the generation of further pulses on the interrupt line. if an new interrupt event is pending. when using the pulsed output. Unused when using the level interrupt line" bitfld.long 0x0 0. "LINE_NUMBER,Idle Mode" "0,1" line.long 0x4 "CFG_IRQSTATUS_RAW,Component interrupt request status." bitfld.long 0x4 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x4 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x4 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x8 "CFG_IRQSTATUS,Component interrupt request status." bitfld.long 0x8 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x8 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x8 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0xC "CFG_IRQSTATUS_SET,Component interrupt request enable" bitfld.long 0xC 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0xC 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0xC 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x10 "CFG_IRQSTATUS_CLR,Component interrupt request enable." bitfld.long 0x10 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x10 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x10 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x14 "CFG_IRQWAKEEN,Wakeup-enabled events taking place when module is idle shall generate an asynchronous wakeup" bitfld.long 0x14 2. "MAT_WUP_ENA,Match Wakeup Enable" "0,1" bitfld.long 0x14 1. "OVF_WUP_ENA,Overflow Wakeup Enable" "0,1" bitfld.long 0x14 0. "TCAR_WUP_ENA,Capture Wakeup Enable" "0,1" line.long 0x18 "CFG_TCLR,This register controls optional features specific to the timer functionality" bitfld.long 0x18 14. "GPO_CFG,This field drives directly the timer_gpocfg port" "0,1" bitfld.long 0x18 13. "CAPT_MODE,Capture mode select bit; First/second" "0,1" bitfld.long 0x18 12. "PT,Pulse or Toggle select bit" "0,1" bitfld.long 0x18 10.--11. "TRG,Trigger Output Mode" "0,1,2,3" bitfld.long 0x18 8.--9. "TCM,Transition Capture Mode" "0,1,2,3" newline bitfld.long 0x18 7. "SCPWM,Pulse Width Modulation output pin default value" "0,1" bitfld.long 0x18 6. "CE,Compare Enable" "0,1" bitfld.long 0x18 5. "PRE,Prescaler Enable" "0,1" bitfld.long 0x18 2.--4. "PTV,Trigger Output Mode. The timer counter is prescaled with the value: 2^PTV" "0,1,2,3,4,5,6,7" bitfld.long 0x18 1. "AR,Auto-reload mode" "0,1" newline bitfld.long 0x18 0. "ST,Start/Stop timer control" "0,1" line.long 0x1C "CFG_TCRR,This register holds the value of the internal counter" hexmask.long 0x1C 0.--31. 1. "TIMER_COUNTER,Timer Counter" line.long 0x20 "CFG_TLDR,This register holds the timer's load value" hexmask.long 0x20 0.--31. 1. "LOAD_VALUE,Timer Counter" line.long 0x24 "CFG_TTGR,This register triggers a counter reload of timer by writing any value in it" hexmask.long 0x24 0.--31. 1. "TTRG_VLAUE,The value of the trigger register. During reads it always return 0xFFFF_FFFF" rgroup.long 0x48++0x3 line.long 0x0 "CFG_TWPS,This register contains the write posting bits for all writ-able functional registers" bitfld.long 0x0 9. "W_PEND_TOWR,Write pending for register TOWR" "0,1" bitfld.long 0x0 8. "W_PEND_TOCR,Write pending for register TOCR" "0,1" bitfld.long 0x0 7. "W_PEND_TCVR,Write pending for register TCVR" "0,1" bitfld.long 0x0 6. "W_PEND_TNIR,Write pending for register TNIR" "0,1" bitfld.long 0x0 5. "W_PEND_TPIR,Write pending for register TPIR" "0,1" newline bitfld.long 0x0 4. "W_PEND_TMAR,Write pending for register TMAR" "0,1" bitfld.long 0x0 3. "W_PEND_TTGR,Write pending for register TTGR" "0,1" bitfld.long 0x0 2. "W_PEND_TLDR,Write pending for register TLDR" "0,1" bitfld.long 0x0 1. "W_PEND_TCRR,Write pending for register TCRR" "0,1" bitfld.long 0x0 0. "W_PEND_TCLR,Write pending for register TCLR" "0,1" group.long 0x4C++0x3 line.long 0x0 "CFG_TMAR,This register holds the match value to be compared with the counter's value" hexmask.long 0x0 0.--31. 1. "COMPARE_VLAUE,The value of the match register" rgroup.long 0x50++0x3 line.long 0x0 "CFG_TCAR1,This register holds the value of the first counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE1,The value of first captured counter register" group.long 0x54++0x3 line.long 0x0 "CFG_TSICR,Timer Synchronous Interface Control Register" bitfld.long 0x0 4. "READ_AFTER_IDLE,Select if the synchronization mechanism used for first TCRR read operation after IDLE state is active" "0,1" bitfld.long 0x0 3. "READ_MODE,Select posted/non-posted mode for read operation. This bit is not used when configured in posted mode" "0,1" bitfld.long 0x0 2. "POSTED,Reset value of POSTED depends on hardware integration module at design time. Software must read POSTED field to get the hardwar module configuration" "0,1" bitfld.long 0x0 1. "SFT,This bit reset all the functional part of teh module" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "CFG_TCAR2,This register holds the value of the second counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE2,The value of second captured counter register" group.long 0x5C++0x13 line.long 0x0 "CFG_TPIR,This register is used for 1ms tick generation." hexmask.long 0x0 0.--31. 1. "POSITIVE_INC_VALUE,The value of the positive increment" line.long 0x4 "CFG_TNIR,This register is used for 1ms tick generation." hexmask.long 0x4 0.--31. 1. "NEGATIVE_INC_VALUE,The value of the negative increment" line.long 0x8 "CFG_TCVR,This register is used for 1ms tick generation." hexmask.long 0x8 0.--31. 1. "COUNTER_VALUE,The value of CVR counter" line.long 0xC "CFG_TOCR,This register is used to mask the tick interrupt for a selected number of ticks" hexmask.long.tbyte 0xC 0.--23. 1. "OVF_COUNTER_VALUE,The number of overflow events" line.long 0x10 "CFG_TOWR,This register holds the number of masked overflow interrupts" hexmask.long.tbyte 0x10 0.--23. 1. "OVF_WRAPPING_VALUE,The number of masked interrupts" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_RTI0_CFG (MCU_RTI0_CFG)" base ad:0x4880000 group.long 0x0++0x1B line.long 0x0 "CFG_GCTRL," hexmask.long.byte 0x0 16.--19. 1. "NTUSEL,These bits determine which NTU input signal is used as external timebase. There are up to four inputs supported with four valid selection combinations. Any invalid selection value written to the NTUSEL bit-field will result in a TIED LOW being.." bitfld.long 0x0 15. "COS,This bit determines if both counters are stopped when the device goes into debug mode or if they continue counting. User and privilege mode (read): 0 = counters are stopped while in debug mode 1 = counters are running while in debug mode.." "0: stop counters in debug mode,1: continue counting in debug mode" newline bitfld.long 0x0 1. "CNT1EN,The CNT1EN bit starts and stops the operation of counter block 1 (UC1 and FRC1). User and privilege mode (read): 0 = counters are stopped 1 = counters are running Privilege mode (write): 0 = stop counters 1 = start counters" "0: stop counters,1: start counters" bitfld.long 0x0 0. "CNT0EN,The CNT0EN bit starts and stops the operation of counter block 0 (UC0 and FRC0). User and privilege mode (read): 0 = counters are stopped 1 = counters are running Privilege mode (write): 0 = stop counters 1 = start counters" "0: stop counters,1: start counters" line.long 0x4 "CFG_TBCTRL," bitfld.long 0x4 1. "INC,This bit determines wether the Free Running Counter 0 is automatically incremented if a failing clock on the NTUx signal is detected. User and privilege mode (read): 0 = FRC0 will not be incremented 1 = FRC0 will be incremented Privilege mode.." "0: Do not increment FRC0 on failing external clock,1: Increment FRC0 on failing external clock" bitfld.long 0x4 0. "TBEXT,The Timebase External bit selects whether the Free Running Counter 0 is clocked by the internal Up Counter 0 or from the external signal NTUx. Since setting the TBEXT bit to 1 resets Up Counter 0 Free Running Counter 0 will not be incremented in.." "0: MUX is switched to internal UC0 clocking scheme,1: MUX is switched to external NTUx clocking scheme" line.long 0x8 "CFG_CAPCTRL," bitfld.long 0x8 1. "CAPCNTR1,This bit determines which external interrupt source triggers a capture event of both UC1 and FRC1. User and privilege mode (read): 0 = capture event is triggered by Capture Event Source 0 1 = capture event is triggered by Capture Event.." "0: enable capture event triggered by Capture Event..,1: enable capture event triggered by Capture Event.." bitfld.long 0x8 0. "CAPCNTR0,This bit determines which external interrupt source triggers a capture event of both UC0 and FRC0. User and privilege mode (read): 0 = capture event is triggered by Capture Event Source 0 1 = capture event is triggered by Capture Event.." "0: enable capture event triggered by Capture Event..,1: enable capture event triggered by Capture Event.." line.long 0xC "CFG_COMPCTRL," bitfld.long 0xC 12. "COMPSEL3,This bit determines the counter with which the compare value hold in compare register 3 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" bitfld.long 0xC 8. "COMPSEL2,This bit determines the counter with which the compare value hold in compare register 2 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" newline bitfld.long 0xC 4. "COMPSEL1,This bit determines the counter with which the compare value hold in compare register 1 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" bitfld.long 0xC 0. "COMPSEL0,This bit determines the counter with which the compare value hold in compare register 0 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" line.long 0x10 "CFG_FRC0," hexmask.long 0x10 0.--31. 1. "FRC0,This registers holds the current value of the Free Running Counter 0 and will be updated continuously. User and privilege mode (read): current value of the counter Privilege mode (write): The counter can be preset by writing to this register." line.long 0x14 "CFG_UC0," hexmask.long 0x14 0.--31. 1. "UC0,This registers holds the current value of the Up Counter 0 and prescales the RTI clock. It will be only updated by a previous read of Free Running Counter 0. This gives effectively a 64 bit read of both counters without having the problem of a.." line.long 0x18 "CFG_CPUC0," hexmask.long 0x18 0.--31. 1. "CPUC0,This registers holds the compare value which is compared with the Up Counter 0. When the compare matches Free Running counter 0 is incremented. The Up Counter is set to zero when the counter value matches the CPUC0 value. The value set in this.." rgroup.long 0x20++0x7 line.long 0x0 "CFG_CAFRC0," hexmask.long 0x0 0.--31. 1. "CAFRC0,This registers captures the current value of the Free Running Counter 0 when a event occurs controlled by the external capture control block. User and privilege mode (read): value of Free Running Counter 0 on a capture event" line.long 0x4 "CFG_CAUC0," hexmask.long 0x4 0.--31. 1. "CAUC0,This registers captures the current value of the Up Counter 0 when a event occurs controlled by the external capture control block. The read sequence has to be the same as with Up Counter 0 and Free Running Counter 0. So the RTICAFRC0 register.." group.long 0x30++0xB line.long 0x0 "CFG_FRC1," hexmask.long 0x0 0.--31. 1. "FRC1,This registers holds the current value of the Free Running Counter 1 and will be updated continuously. User and privilege mode (read): current value of the counter Privilege mode (write): the counter can be preset by writing to this register." line.long 0x4 "CFG_UC1," hexmask.long 0x4 0.--31. 1. "UC1,This registers holds the current value of the Up Counter 1 and prescales the RTI clock. It will be only updated by a previous read of Free Running Counter 1. This gives effectively a 64 bit read of both counters without having the problem of a.." line.long 0x8 "CFG_CPUC1," hexmask.long 0x8 0.--31. 1. "CPUC1,This registers holds the compare value which is compared with the Up Counter 1. When the compare matches Free Running Counter 1 is incremented. The Up Counter is set to zero when the counter value matches the CPUC1 value. The value set in this.." rgroup.long 0x40++0x7 line.long 0x0 "CFG_CAFRC1," hexmask.long 0x0 0.--31. 1. "CAFRC1,This registers captures the current value of the Free Running Counter 1 when a event occurs controlled by the external capture control block. User and privilege mode (read): value of Free Running Counter 1 on a capture event" line.long 0x4 "CFG_CAUC1," hexmask.long 0x4 0.--31. 1. "CAUC1,This registers captures the current value of the Up Counter 1 when a event occurs controlled by the external capture control block. The read sequence has to be the same as with Up Counter 1 and Free Running Counter 1. So the RTICAFRC1 register.." group.long 0x50++0x27 line.long 0x0 "CFG_COMP0," hexmask.long 0x0 0.--31. 1. "COMP0,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x4 "CFG_UDCP0," hexmask.long 0x4 0.--31. 1. "UDCP0,This registers holds a value which is added to the value in the compare 0 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x8 "CFG_COMP1," hexmask.long 0x8 0.--31. 1. "COMP1,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0xC "CFG_UDCP1," hexmask.long 0xC 0.--31. 1. "UDCP1,This registers holds a value which is added to the value in the compare 1 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x10 "CFG_COMP2," hexmask.long 0x10 0.--31. 1. "COMP2,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x14 "CFG_UDCP2," hexmask.long 0x14 0.--31. 1. "UDCP2,This registers holds a value which is added to the value in the compare 2 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x18 "CFG_COMP3," hexmask.long 0x18 0.--31. 1. "COMP3,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x1C "CFG_UDCP3," hexmask.long 0x1C 0.--31. 1. "UDCP3,This registers holds a value which is added to the value in the compare 3 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x20 "CFG_TBLCOMP," hexmask.long 0x20 0.--31. 1. "TBLCOMP,This value determines when the edge detection circuit starts monitoring the NTUx signal. It will be compared with Up Counter 0. User and privilege mode (read): current compare value Privilege mode (write when TBEXT = 0): the compare value is.." line.long 0x24 "CFG_TBHCOMP," hexmask.long 0x24 0.--31. 1. "TBHCOMP,This value determines when the edge detection circuit will stop monitoring the NTUx signal. It will be compared with Up Counter 0. RTITBHCOMP has to be less than RTICPUC0 since RTIUC0 will be reset when RTICPUC0 is reached. Example: The.." group.long 0x80++0xB line.long 0x0 "CFG_SETINT," bitfld.long 0x0 18. "SETOVL1INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 17. "SETOVL0INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 16. "SETTBINT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 11. "SETDMA3,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 10. "SETDMA2,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" bitfld.long 0x0 9. "SETDMA1,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 8. "SETDMA0,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" bitfld.long 0x0 3. "SETINT3,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 2. "SETINT2,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 1. "SETINT1,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 0. "SETINT0,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" line.long 0x4 "CFG_CLEARINT," bitfld.long 0x4 18. "CLEAROVL1INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 17. "CLEAROVL0INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 16. "CLEARTBINT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 11. "CLEARDMA3,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 10. "CLEARDMA2,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" bitfld.long 0x4 9. "CLEARDMA1,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 8. "CLEARDMA0,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" bitfld.long 0x4 3. "CLEARINT3,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 2. "CLEARINT2,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 1. "CLEARINT1,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 0. "CLEARINT0,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" line.long 0x8 "CFG_INTFLAG," bitfld.long 0x8 18. "OVL1INT,User and privilege mode (read): determines if an interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 17. "OVL0INT,User and privilege mode (read): determines if an interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 16. "TBINT,User and privilege mode (read): this flag is set when the TBEXT bit is cleared by detection of a missing external clockedge. It will not be set by clearing TBEXT by software. determines if an interrupt is pending 0 = no interrupt pending 1 =.." "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 3. "INT3,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 2. "INT2,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 1. "INT1,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 0. "INT0,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" group.long 0x90++0xF line.long 0x0 "CFG_DWDCTRL," hexmask.long 0x0 0.--31. 1. "DWDCTRL,User and priviledge mode (read): 0x5312ACED = DWD counter is disabled. This is the default value. 0xA98559DA = DWD counter is enabled Any other value = DWD counter state is unchanged (enabled or disabled) Priviledge mode (write): 0xA98559DA.." line.long 0x4 "CFG_DWDPRLD," hexmask.long.word 0x4 0.--11. 1. "DWDPRLD,User and priviledge mode (read): A read from this register in any CPU mode returns the current preload value. Priviledge mode (write): If the DWD is always enabled after reset is released: The DWD starts counting down from the reset value of.." line.long 0x8 "CFG_WDSTATUS," bitfld.long 0x8 5. "DWWD,This bit denotes whether the time-window defined by the windowed watchdog configuration has been violated or if a wrong key or key sequence was written to service the watchdog. User and priviledge mode (read): 0 = no time-window violation has.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 4. "END,This bit denotes whether the end-time defined by the windowed watchdog configuration has been violated. This bit is effectively a copy of the DWD ST status flag. User and priviledge mode (read): 0 = no end-time window violation has occurred. 1 =.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 3. "START,This bit denotes whether the start-time defined by the windowed watchdog configuration has been violated. This indicates that the WWD was serviced before the service window was opened. User and priviledge mode (read): 0 = no start-time window.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 2. "KEYST,This bit denotes a reset generated by a wrong key or a wrong key-sequence written to the RTIWDKEY register. User and priviledge mode (read): 0 = no wrong key or key-sequence written 1 = wrong key or key-sequence written to RTIWDKEY register.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 1. "DWDST,status flag and is maintained for compatibility reasons. User and priviledge mode (read): 0 = DWD timeout period not expired 1 = DWD timeout period has expired Priviledge mode (write): 0 = leaves the current value unchanged 1 = clears the bit.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 0. "AWDST,User and priviledge mode (read): 0 = AWD pin 0 > 1 threshold not exceeded 1 = AWD pin 0 > 1 threshold exceeded Priviledge mode (write): 0 = leaves the current value unchanged 1 = clears the bit to 0" "0: leaves the current value unchanged,1: clears the bit to 0" line.long 0xC "CFG_WDKEY," hexmask.long.word 0xC 0.--15. 1. "WDKEY,User and privilege mode reads are indeterminate. Privilege mode (write): A write of 0xE51A followed by 0xA35C in two separate write operations defines the Key Sequence and discharges the watchdog capacitor. This also causes the upper 12 bits of.." rgroup.long 0xA0++0x3 line.long 0x0 "CFG_DWDCNTR," hexmask.long 0x0 0.--24. 1. "DWDCNTR,The value of the DWDCNTR after a system reset is 0x002D_FFFF. When the DWD is enabled and the DWD counter starts counting down from this value with an RTICLK1 time base of 3MHz a watchdog reset will be generated in 1 second. User and.." group.long 0xA4++0x1B line.long 0x0 "CFG_WWDRXNCTRL," hexmask.long.byte 0x0 0.--3. 1. "WWDRXN,User and privilege mode (read) privileged mode (write): 0x5 = This is the default value. The windowed watchdog will cause a reset if the watchdog is serviced outside the time window defined by the configuration or if the watchdog is not.." line.long 0x4 "CFG_WWDSIZECTRL," hexmask.long 0x4 0.--31. 1. "WWDSIZE,User and privilege mode (read) privileged mode (write): Table 3. Windowed Watchdog Window Size Configuration Value written to WWDSIZE Window Size 0x00000005 100% (The functionality is the same as the standard time-out digital watchdog.).." line.long 0x8 "CFG_INTCLRENABLE," hexmask.long.byte 0x8 24.--27. 1. "INTCLRENABLE3,Enables the auto-clear functionality on the compare 3 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 3 interrupt is disabled. Any other value = Auto-clear for compare 3 interrupt is enabled. Privileged mode.." hexmask.long.byte 0x8 16.--19. 1. "INTCLRENABLE2,Enables the auto-clear functionality on the compare 2 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 2 interrupt is disabled. Any other value = Auto-clear for compare 2 interrupt is enabled. Privileged mode.." newline hexmask.long.byte 0x8 8.--11. 1. "INTCLRENABLE1,Enables the auto-clear functionality on the compare 1 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 1 interrupt is disabled. Any other value = Auto-clear for compare 1 interrupt is enabled. Privileged mode.." hexmask.long.byte 0x8 0.--3. 1. "INTCLRENABLE0,Enables the auto-clear functionality on the compare 0 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 0 interrupt is disabled. Any other value = Auto-clear for compare 0 interrupt is enabled. Privileged mode.." line.long 0xC "CFG_COMP0CLR," hexmask.long 0xC 0.--31. 1. "COMP0CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 0 interrupt or DMA request line is cleared. User and privilege.." line.long 0x10 "CFG_COMP1CLR," hexmask.long 0x10 0.--31. 1. "COMP1CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 1 interrupt or DMA request line is cleared. User and privilege.." line.long 0x14 "CFG_COMP2CLR," hexmask.long 0x14 0.--31. 1. "COMP2CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 2 interrupt or DMA request line is cleared. User and privilege.." line.long 0x18 "CFG_COMP3CLR," hexmask.long 0x18 0.--31. 1. "COMP3CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 3 interrupt or DMA request line is cleared. User and privilege.." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_I2C0_CFG (MCU_I2C0_CFG)" base ad:0x4900000 rgroup.long 0x0++0x7 line.long 0x0 "CFG_I2C_REVNB_LO,Revision Number register (Low)" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL version This field changes on bug fix and resets to" bitfld.long 0x0 8.--10. "MAJOR,Major Revision This field changes when there is a major feature change This field does not change due to bug fix or minor feature change" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version for a particular device Consequence of use may avoid use of standard Chip Support Library [CSL] / Drivers 0 if non-custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor Revision This field changes when features are scaled up or down This field does not change due to bug fix or major feature change" line.long 0x4 "CFG_I2C_REVNB_HI,Revision Number register (High)" bitfld.long 0x4 14.--15. "SCHEME,Used to distinguish between old Scheme and current Spare bit to encode future schemes" "0,1,2,3" bitfld.long 0x4 12.--13. "RESERVED,Reads return 0x1" "0,1,2,3" hexmask.long.word 0x4 0.--11. 1. "FUNC,Function: Indicates a software compatible module family" group.long 0x10++0x3 line.long 0x0 "CFG_I2C_SYSC,System Configuration register" bitfld.long 0x0 8.--9. "CLKACTIVITY,Clock Activity selection bits" "0,1,2,3" bitfld.long 0x0 5.--7. "RESERVED,Reads return 0" "0,1,2,3,4,5,6,7" bitfld.long 0x0 3.--4. "IDLEMODE,Idle Mode selection bits" "0,1,2,3" bitfld.long 0x0 2. "ENAWAKEUP,Enable Wakeup control bit" "0,1" newline bitfld.long 0x0 1. "SRST,SoftReset bit" "0,1" bitfld.long 0x0 0. "AUTOIDLE,Autoidle bit" "0,1" wgroup.long 0x20++0x3 line.long 0x0 "CFG_I2C_EOI,End Of Interrupt number specification" bitfld.long 0x0 0. "LINE_NUMBER,Software End Of Interrupt [EOI] control Write number of interrupt output" "0,1" group.long 0x24++0x2B line.long 0x0 "CFG_I2C_IRQSTATUS_RAW,Per-event raw interrupt status vector" bitfld.long 0x0 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x0 14. "XDR,Transmit draining IRQ status" "0,1" bitfld.long 0x0 13. "RDR,Receive draining IRQ status" "0,1" rbitfld.long 0x0 12. "BB,Bus busy statusWriting into this bit has no effect" "0,1" newline bitfld.long 0x0 11. "ROVR,Receive overrun statusWriting into this bit has no effect" "0,1" bitfld.long 0x0 10. "XUDF,Transmit underflow statusWriting into this bit has no effect" "0,1" bitfld.long 0x0 9. "AAS,Address recognized as target IRQ status" "0,1" bitfld.long 0x0 8. "BF,Bus Free IRQ status" "0,1" newline bitfld.long 0x0 7. "AERR,Access Error IRQ status" "0,1" bitfld.long 0x0 6. "STC,Start Condition IRQ status" "0,1" bitfld.long 0x0 5. "GC,General call IRQ status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x0 4. "XRDY,Transmit data ready IRQ status Set to '1' by core when transmitter and when new data is requested When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" newline bitfld.long 0x0 3. "RRDY,Receive data ready IRQ status Set to '1' by core when receiver mode a new data is able to be read When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x0 2. "ARDY,Register access ready IRQ status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x0 1. "NACK,No acknowledgement IRQ status Bit is set when No Acknowledge has been received an interrupt is signaled to MPUSS Write '1' to clear this bit" "0,1" bitfld.long 0x0 0. "AL,Arbitration lost IRQ status This bit is automatically set by the hardware when it loses the Arbitration in controller transmit mode an interrupt is signaled to MPUSS During reads it always returns 0" "0,1" line.long 0x4 "CFG_I2C_IRQSTATUS,Per-event enabled interrupt status vector" bitfld.long 0x4 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x4 14. "XDR,Transmit draining IRQ enabled status" "0,1" bitfld.long 0x4 13. "RDR,Receive draining IRQ enabled status" "0,1" rbitfld.long 0x4 12. "BB,Bus busy enabled statusWriting into this bit has no effect" "0,1" newline bitfld.long 0x4 11. "ROVR,Receive overrun enabled statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 10. "XUDF,Transmit underflow enabled statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 9. "AAS,Address recognized as target IRQ enabled status" "0,1" bitfld.long 0x4 8. "BF,Bus Free IRQ enabled status" "0,1" newline bitfld.long 0x4 7. "AERR,Access Error IRQ enabled status" "0,1" bitfld.long 0x4 6. "STC,Start Condition IRQ enabled status" "0,1" bitfld.long 0x4 5. "GC,General call IRQ enabled status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 4. "XRDY,Transmit data ready IRQ enabled status Set to '1' by core when transmitter and when new data is requested When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" newline bitfld.long 0x4 3. "RRDY,Receive data ready IRQ enabled status Set to '1' by core when receiver mode a new data is able to be read When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 2. "ARDY,Register access ready IRQ enabled status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 1. "NACK,No acknowledgement IRQ enabled status Bit is set when No Acknowledge has been received an interrupt is signaled to MPUSS Write '1' to clear this bit" "0,1" bitfld.long 0x4 0. "AL,Arbitration lost IRQ enabled status This bit is automatically set by the hardware when it loses the Arbitration in controller transmit mode an interrupt is signaled to MPUSS During reads it always returns 0" "0,1" line.long 0x8 "CFG_I2C_IRQENABLE_SET,Per-event interrupt enable bit vector." bitfld.long 0x8 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x8 14. "XDR_IE,Transmit Draining interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]" "0,1" bitfld.long 0x8 13. "RDR_IE,Receive Draining interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]" "0,1" bitfld.long 0x8 11. "ROVR,Receive overrun enable set" "0,1" newline bitfld.long 0x8 10. "XUDF,Transmit underflow enable set" "0,1" bitfld.long 0x8 9. "ASS_IE,Addressed as Target interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]" "0,1" bitfld.long 0x8 8. "BF_IE,Bus Free interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]" "0,1" bitfld.long 0x8 7. "AERR_IE,Access Error interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]" "0,1" newline bitfld.long 0x8 6. "STC_IE,Start Condition interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]" "0,1" bitfld.long 0x8 5. "GC_IE,General call Interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]" "0,1" bitfld.long 0x8 4. "XRDY_IE,Transmit data ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]" "0,1" bitfld.long 0x8 3. "RRDY_IE,Receive data ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]" "0,1" newline bitfld.long 0x8 2. "ARDY_IE,Register access ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]" "0,1" bitfld.long 0x8 1. "NACK_IE,No acknowledgement interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]" "0,1" bitfld.long 0x8 0. "AL_IE,Arbitration lost interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]" "0,1" line.long 0xC "CFG_I2C_IRQENABLE_CLR,Per-event interrupt clear bit vector." bitfld.long 0xC 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0xC 14. "XDR_IE,Transmit Draining interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]" "0,1" bitfld.long 0xC 13. "RDR_IE,Receive Draining interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]" "0,1" bitfld.long 0xC 11. "ROVR,Receive overrun enable clear" "0,1" newline bitfld.long 0xC 10. "XUDF,Transmit underflow enable clear" "0,1" bitfld.long 0xC 9. "ASS_IE,Addressed as Target interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]" "0,1" bitfld.long 0xC 8. "BF_IE,Bus Free interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]" "0,1" bitfld.long 0xC 7. "AERR_IE,Access Error interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]" "0,1" newline bitfld.long 0xC 6. "STC_IE,Start Condition interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]" "0,1" bitfld.long 0xC 5. "GC_IE,General call Interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]" "0,1" bitfld.long 0xC 4. "XRDY_IE,Transmit data ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]" "0,1" bitfld.long 0xC 3. "RRDY_IE,Receive data ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]" "0,1" newline bitfld.long 0xC 2. "ARDY_IE,Register access ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]" "0,1" bitfld.long 0xC 1. "NACK_IE,No acknowledgement interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]" "0,1" bitfld.long 0xC 0. "AL_IE,Arbitration lost interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]" "0,1" line.long 0x10 "CFG_I2C_WE,I2C wakeup enable vector (legacy)." bitfld.long 0x10 14. "XDR,Transmit Draining wakeup set" "0,1" bitfld.long 0x10 13. "RDR,Receive Draining wakeup set" "0,1" bitfld.long 0x10 11. "ROVR,Receive overrun wakeup set" "0,1" bitfld.long 0x10 10. "XUDF,Transmit underflow wakeup set" "0,1" newline bitfld.long 0x10 9. "AAS,Address as target IRQ wakeup set" "0,1" bitfld.long 0x10 8. "BF,Bus Free IRQ wakeup set" "0,1" bitfld.long 0x10 6. "STC,Start Condition IRQ wakeup set" "0,1" bitfld.long 0x10 5. "GC,General call IRQ wakeup set" "0,1" newline bitfld.long 0x10 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "0,1" bitfld.long 0x10 2. "ARDY,Register access ready IRQ wakeup set" "0,1" bitfld.long 0x10 1. "NACK,No acknowledgment IRQ wakeup set" "0,1" bitfld.long 0x10 0. "AL,Arbitration lost IRQ wakeup set" "0,1" line.long 0x14 "CFG_I2C_DMARXENABLE_SET,Per-event DMA RX enable set." bitfld.long 0x14 0. "DMARX_ENABLE_SET,Receive DMA channel enable set" "0,1" line.long 0x18 "CFG_I2C_DMATXENABLE_SET,Per-event DMA TX enable set." bitfld.long 0x18 0. "DMATX_ENABLE_SET,Transmit DMA channel enable set" "0,1" line.long 0x1C "CFG_I2C_DMARXENABLE_CLR,Per-event DMA RX enable clear." bitfld.long 0x1C 0. "DMARX_ENABLE_CLEAR,Receive DMA channel enable clear" "0,1" line.long 0x20 "CFG_I2C_DMATXENABLE_CLR,Per-event DMA TX enable clear." bitfld.long 0x20 0. "DMATX_ENABLE_CLEAR,Transmit DMA channel enable clear" "0,1" line.long 0x24 "CFG_I2C_DMARXWAKE_EN,Per-event DMA RX wakeup enable." bitfld.long 0x24 14. "XDR,Transmit Draining wakeup set" "0,1" bitfld.long 0x24 13. "RDR,Receive Draining wakeup set" "0,1" bitfld.long 0x24 11. "ROVR,Receive overrun wakeup set" "0,1" bitfld.long 0x24 10. "XUDF,Transmit underflow wakeup set" "0,1" newline bitfld.long 0x24 9. "AAS,Address as target IRQ wakeup set" "0,1" bitfld.long 0x24 8. "BF,Bus Free IRQ wakeup set" "0,1" bitfld.long 0x24 6. "STC,Start Condition IRQ wakeup set" "0,1" bitfld.long 0x24 5. "GC,General call IRQ wakeup set" "0,1" newline bitfld.long 0x24 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "0,1" bitfld.long 0x24 2. "ARDY,Register access ready IRQ wakeup set" "0,1" bitfld.long 0x24 1. "NACK,No acknowledgment IRQ wakeup set" "0,1" bitfld.long 0x24 0. "AL,Arbitration lost IRQ wakeup set" "0,1" line.long 0x28 "CFG_I2C_DMATXWAKE_EN,Per-event DMA TX wakeup enable." bitfld.long 0x28 14. "XDR,Transmit Draining wakeup set" "0,1" bitfld.long 0x28 13. "RDR,Receive Draining wakeup set" "0,1" bitfld.long 0x28 11. "ROVR,Receive overrun wakeup set" "0,1" bitfld.long 0x28 10. "XUDF,Transmit underflow wakeup set" "0,1" newline bitfld.long 0x28 9. "AAS,Address as target IRQ wakeup set" "0,1" bitfld.long 0x28 8. "BF,Bus Free IRQ wakeup set" "0,1" bitfld.long 0x28 6. "STC,Start Condition IRQ wakeup set" "0,1" bitfld.long 0x28 5. "GC,General call IRQ wakeup set" "0,1" newline bitfld.long 0x28 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "0,1" bitfld.long 0x28 2. "ARDY,Register access ready IRQ wakeup set" "0,1" bitfld.long 0x28 1. "NACK,No acknowledgment IRQ wakeup set" "0,1" bitfld.long 0x28 0. "AL,Arbitration lost IRQ wakeup set" "0,1" group.long 0x84++0x7 line.long 0x0 "CFG_I2C_IE,I2C interrupt enable vector (legacy)." bitfld.long 0x0 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x0 14. "XDR_IE,Transmit Draining interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]" "0,1" bitfld.long 0x0 13. "RDR_IE,Receive Draining interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]" "0,1" bitfld.long 0x0 11. "ROVR,Receive overrun enable set" "0,1" newline bitfld.long 0x0 10. "XUDF,Transmit underflow enable set" "0,1" bitfld.long 0x0 9. "ASS_IE,Addressed as Target interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]" "0,1" bitfld.long 0x0 8. "BF_IE,Bus Free interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]" "0,1" bitfld.long 0x0 7. "AERR_IE,Access Error interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]" "0,1" newline bitfld.long 0x0 6. "STC_IE,Start Condition interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]" "0,1" bitfld.long 0x0 5. "GC_IE,General call Interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]" "0,1" bitfld.long 0x0 4. "XRDY_IE,Transmit data ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]" "0,1" bitfld.long 0x0 3. "RRDY_IE,Receive data ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]" "0,1" newline bitfld.long 0x0 2. "ARDY_IE,Register access ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]" "0,1" bitfld.long 0x0 1. "NACK_IE,No acknowledgement interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]" "0,1" bitfld.long 0x0 0. "AL_IE,Arbitration lost interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]" "0,1" line.long 0x4 "CFG_I2C_STAT,I2C interrupt status vector (legacy)." bitfld.long 0x4 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x4 14. "XDR,Transmit draining IRQ status" "0,1" bitfld.long 0x4 13. "RDR,Receive draining IRQ status" "0,1" rbitfld.long 0x4 12. "BB,Bus busy statusWriting into this bit has no effect" "0,1" newline bitfld.long 0x4 11. "ROVR,Receive overrun statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 10. "XUDF,Transmit underflow statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 9. "AAS,Address recognized as target IRQ status" "0,1" bitfld.long 0x4 8. "BF,Bus Free IRQ status" "0,1" newline bitfld.long 0x4 7. "AERR,Access Error IRQ status" "0,1" bitfld.long 0x4 6. "STC,Start Condition IRQ status" "0,1" bitfld.long 0x4 5. "GC,General call IRQ status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 4. "XRDY,Transmit data ready IRQ status Set to '1' by core when transmitter and when new data is requested When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" newline bitfld.long 0x4 3. "RRDY,Receive data ready IRQ status Set to '1' by core when receiver mode a new data is able to be read When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 2. "ARDY,Register access ready IRQ status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 1. "NACK,No acknowledgement IRQ status Bit is set when No Acknowledge has been received an interrupt is signaled to MPUSS Write '1' to clear this bit" "0,1" bitfld.long 0x4 0. "AL,Arbitration lost IRQ status This bit is automatically set by the hardware when it loses the Arbitration in controller transmit mode an interrupt is signaled to MPUSS During reads it always returns 0" "0,1" rgroup.long 0x90++0x3 line.long 0x0 "CFG_I2C_SYSS,System Status register" bitfld.long 0x0 0. "RDONE,Reset done bit" "0,1" group.long 0x94++0xB line.long 0x0 "CFG_I2C_BUF,Buffer Configuration register" bitfld.long 0x0 15. "RDMA_EN,Receive DMA channel enable" "0,1" bitfld.long 0x0 14. "RXFIFO_CLR,Receive FIFO clear" "0,1" hexmask.long.byte 0x0 8.--13. 1. "RXTRSH,Threshold value for FIFO buffer in RX mode" bitfld.long 0x0 7. "XDMA_EN,Transmit DMA channel enable" "0,1" newline bitfld.long 0x0 6. "TXFIFO_CLR,Transmit FIFO clear" "0,1" hexmask.long.byte 0x0 0.--5. 1. "TXTRSH,Threshold value for FIFO buffer in TX mode" line.long 0x4 "CFG_I2C_CNT,Data counter register" hexmask.long.word 0x4 0.--15. 1. "DCOUNT,Data count" line.long 0x8 "CFG_I2C_DATA,Data access register" hexmask.long.byte 0x8 0.--7. 1. "DATA,Transmit/Receive data FIFO endpoint" group.long 0xA4++0x1B line.long 0x0 "CFG_I2C_CON,I2C configuration register." bitfld.long 0x0 15. "I2C_EN,I2C module enable" "0,1" bitfld.long 0x0 12.--13. "OPMODE,Operation mode selection" "0,1,2,3" bitfld.long 0x0 11. "STB,Start byte mode [controller mode only]" "0,1" bitfld.long 0x0 10. "MST,Controller/target mode" "0,1" newline bitfld.long 0x0 9. "TRX,Transmitter/Receiver mode [controller mode only]" "0,1" bitfld.long 0x0 8. "XSA,Expand Target address" "0,1" bitfld.long 0x0 7. "XOA0,Expand Own address 0" "0,1" bitfld.long 0x0 6. "XOA1,Expand Own address 1" "0,1" newline bitfld.long 0x0 5. "XOA2,Expand Own address 2" "0,1" bitfld.long 0x0 4. "XOA3,Expand Own address 3" "0,1" bitfld.long 0x0 1. "STP,Stop condition [controller mode only]" "0,1" bitfld.long 0x0 0. "STT,Start condition [controller mode only]" "0,1" line.long 0x4 "CFG_I2C_OA,Own address register" bitfld.long 0x4 13.--15. "MCODE,Controller Code" "0,1,2,3,4,5,6,7" hexmask.long.word 0x4 0.--9. 1. "OA,Own address" line.long 0x8 "CFG_I2C_SA,Target address register" hexmask.long.word 0x8 0.--9. 1. "SA,Target address" line.long 0xC "CFG_I2C_PSC,I2C Clock Prescaler Register" hexmask.long.byte 0xC 0.--7. 1. "PSC,Fast/Standard mode prescale sampling clock divider value 0x0: Divide by 1 0x1: Divide by 2 0xFF: Divide by 256" line.long 0x10 "CFG_I2C_SCLL,I2C SCL Low Time Register." hexmask.long.byte 0x10 8.--15. 1. "HSSCLL,High Speed mode SCL low time" hexmask.long.byte 0x10 0.--7. 1. "SCLL,Fast/Standard mode SCL low time" line.long 0x14 "CFG_I2C_SCLH,I2C SCL High Time Register." hexmask.long.byte 0x14 8.--15. 1. "HSSCLH,High Speed mode SCL high time" hexmask.long.byte 0x14 0.--7. 1. "SCLH,Fast/Standard mode SCL high time" line.long 0x18 "CFG_I2C_SYSTEST,I2C System Test Register." bitfld.long 0x18 15. "ST_EN,System test enable" "0,1" bitfld.long 0x18 14. "FREE,Free running mode [on breakpoint]" "0,1" bitfld.long 0x18 12.--13. "TMODE,Test mode select" "0,1,2,3" bitfld.long 0x18 11. "SSB,Set status bits" "0,1" newline rbitfld.long 0x18 8. "SCL_I_FUNC,SCL line input value [functional mode]" "0,1" rbitfld.long 0x18 7. "SCL_O_FUNC,SCL line output value [functional mode]" "0,1" rbitfld.long 0x18 6. "SDA_I_FUNC,SDA line input value [functional mode]" "0,1" rbitfld.long 0x18 5. "SDA_O_FUNC,SDA line output value [functional mode]" "0,1" newline bitfld.long 0x18 4. "SCCB_E_O,SCCB_E line sense output value" "0,1" rbitfld.long 0x18 3. "SCL_I,SCL line sense input value" "0,1" bitfld.long 0x18 2. "SCL_O,SCL line drive output value" "0,1" rbitfld.long 0x18 1. "SDA_I,SDA line sense input value" "0,1" newline bitfld.long 0x18 0. "SDA_O,SDA line drive output value" "0,1" rgroup.long 0xC0++0x3 line.long 0x0 "CFG_I2C_BUFSTAT,I2C Buffer Status Register." bitfld.long 0x0 14.--15. "FIFODEPTH,Internal FIFO buffers depth" "0,1,2,3" hexmask.long.byte 0x0 8.--13. 1. "RXSTAT,RX Buffer Status" hexmask.long.byte 0x0 0.--5. 1. "TXSTAT,TX Buffer Status" group.long 0xC4++0xB line.long 0x0 "CFG_I2C_OA1,I2C Own Address 1 Register" hexmask.long.word 0x0 0.--9. 1. "OA1,Own address 1" line.long 0x4 "CFG_I2C_OA2,I2C Own Address 2" hexmask.long.word 0x4 0.--9. 1. "OA2,Own address 2" line.long 0x8 "CFG_I2C_OA3,I2C Own Address 3 Register" hexmask.long.word 0x8 0.--9. 1. "OA3,Own address 3" rgroup.long 0xD0++0x3 line.long 0x0 "CFG_I2C_ACTOA,I2C Active Own Address Register." bitfld.long 0x0 3. "OA3_ACT,Own Address 3 active" "0,1" bitfld.long 0x0 2. "OA2_ACT,Own Address 2 active" "0,1" bitfld.long 0x0 1. "OA1_ACT,Own Address 1 active" "0,1" bitfld.long 0x0 0. "OA0_ACT,Own Address 0 active" "0,1" group.long 0xD4++0x3 line.long 0x0 "CFG_I2C_SBLOCK,I2C Clock Blocking Enable Register." bitfld.long 0x0 3. "OA3_EN,Enable I2C Clock Blocking for Own Address 3" "0,1" bitfld.long 0x0 2. "OA2_EN,Enable I2C Clock Blocking for Own Address 2" "0,1" bitfld.long 0x0 1. "OA1_EN,Enable I2C Clock Blocking for Own Address 1" "0,1" bitfld.long 0x0 0. "OA0_EN,Enable I2C Clock Blocking for Own Address 0" "0,1" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_UART0 (MCU_UART0)" base ad:0x4A00000 group.long 0x0++0x3 line.long 0x0 "MEM_DLL,Divisor Latches Low Register" hexmask.long.byte 0x0 0.--7. 1. "CLOCK_LSB,Used to store the 8-bit LSB divisor value" rgroup.long 0x0++0x3 line.long 0x0 "MEM_RHR,The receiver section consists of the receiver holding register (RHR) and the receiver shift register. The RHR is actually a 64-byte FIFO. The receiver shift register receives serial data from RX input. The data is converted to parallel data and.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "RHR,Receive holding register" group.long 0x0++0x7 line.long 0x0 "MEM_THR,The transmitter section consists of the transmit holding register (THR) and the transmit shift register. The transmit holding register is actually a 64-byte FIFO. The LH writes data to the THR. The data is placed into the transmit shift register.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "THR,TRANSMIT HOLDING REGISTER" line.long 0x4 "MEM_DLH,Divisor Latches High Register" hexmask.long.byte 0x4 0.--7. 1. "CLOCK_MSB,Used to store the 8-bit MSB divisor value" group.long 0x4++0x3 line.long 0x0 "MEM_IER_CIR,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are 6 types of interrupt in these modes. TX status. status FIFO interrupt. RX overrun. last byte in RX FIFO. THR interrupt and RHR interrupt and they.." bitfld.long 0x0 6.--7. "NOT_USED2," "0,1,2,3" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "NOT_USED1," "0,1" newline bitfld.long 0x0 3. "RX_OVERRUN_IT," "0,1" newline bitfld.long 0x0 2. "RX_STOP_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" group.long 0x4++0x3 line.long 0x0 "MEM_IER_IRDA,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are 8 types of interrupt in these modes. received EOF. LSR interrupt. TX status. status FIFO interrupt. RX overrun. last byte in RX FIFO. THR.." bitfld.long 0x0 7. "EOF_IT," "0,1" newline bitfld.long 0x0 6. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "STS_FIFO_TRIG_IT," "0,1" newline bitfld.long 0x0 3. "RX_OVERRUN_IT," "0,1" newline bitfld.long 0x0 2. "LAST_RX_BYTE_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" group.long 0x4++0x7 line.long 0x0 "MEM_IER_UART,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are seven types of interrupt in this mode: receiver error. RHR interrupt. THR interrupt. XOFF received and CTS*/RTS* change of state from low to.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "CTS_IT," "0,1" newline bitfld.long 0x0 6. "RTS_IT," "0,1" newline bitfld.long 0x0 5. "XOFF_IT," "0,1" newline bitfld.long 0x0 4. "SLEEP_MODE," "0,1" newline bitfld.long 0x0 3. "MODEM_STS_IT," "0,1" newline bitfld.long 0x0 2. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" line.long 0x4 "MEM_EFR,Enhanced Feature Register" bitfld.long 0x4 7. "AUTO_CTS_EN,Auto-CTS enable bit. 0: Normal operation. 1: Auto-CTS flow control is enabled i.e. transmission is halted when the CTS* pin is high (inactive)." "0: Normal operation,1: Auto-CTS flow control is enabled i" newline bitfld.long 0x4 6. "AUTO_RTS_EN,Auto-RTS enable bit. 0: Normal operation. 1: Auto- RTS flow control is enabled i.e. RTS* pin goes high (inactive) when the receiver FIFO HALT trigger level TCR[3:0] is reached and goes low (active) when the receiver FIFO RESTORE.." "0: Normal operation,1: Auto- RTS flow control is enabled i" newline bitfld.long 0x4 5. "SPECIAL_CHAR_DETECT,0: Normal operation. 1: Special character detect enable. Received data is compared with XOFF2 data. If a match occurs the received data is transferred to RX FIFO and IIR bit 4 is set to 1 to indicate a special character has been.." "0: Normal operation,1: Special character detect enable" newline bitfld.long 0x4 4. "ENHANCED_EN,Enhanced functions write enable bit. 0: Disables writing to IER bits 4-7 FCR bits 4-5 and MCR bits 5-7. 1: Enables writing to IER bits 4-7 FCR bits 4-5 and MCR bits 5-7." "0: Disables writing to IER bits 4-7,1: Enables writing to IER bits 4-7" newline hexmask.long.byte 0x4 0.--3. 1. "SW_FLOW_CONTROL,Combinations of Software flow control can be selected by programming bit 3 - bit 0. See Software Flow Control Options" group.long 0x8++0x3 line.long 0x0 "MEM_FCR,Notes:" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 6.--7. "RX_FIFO_TRIG,Sets the trigger level for the RX FIFO: If SCR[7] = 0 and TLR[7:4] = 0000: 00: 8 characters 01: 16 characters 10: 56 characters 11: 60 characters If SCR[7] = 0 and TLR[7:4] != 0000 RX_FIFO_TRIG is not considered. If SCR[7]=1 .." "0: 8 characters,1: 16 characters,?,?" newline bitfld.long 0x0 4.--5. "TX_FIFO_TRIG,Sets the trigger level for the TX FIFO: If SCR[6] = 0 and TLR[3:0] = 0000: 00: 8 spaces 01: 16 spaces 10: 32 spaces 11: 56 spaces If SCR[6] = 0 and TLR[3:0] != 0000 TX_FIFO_TRIG is not considered. If SCR[6]=1 TX_FIFO_TRIG is 2 LSB of.." "0: 8 spaces,1: 16 spaces,?,?" newline bitfld.long 0x0 3. "DMA_MODE,This register is considered if SCR[0] = 0." "0,1" newline bitfld.long 0x0 2. "TX_FIFO_CLEAR," "0,1" newline bitfld.long 0x0 1. "RX_FIFO_CLEAR," "0,1" newline bitfld.long 0x0 0. "FIFO_EN," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_CIR,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 3. "RX_OE_IT," "0,1" newline bitfld.long 0x0 2. "RX_STOP_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_IRDA,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." bitfld.long 0x0 7. "EOF_IT," "0,1" newline bitfld.long 0x0 6. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "STS_FIFO_IT," "0,1" newline bitfld.long 0x0 3. "RX_OE_IT," "0,1" newline bitfld.long 0x0 2. "RX_FIFO_LAST_BYTE_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_UART,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 6.--7. "FCR_MIRROR,Mirror the contents of FCR[0] on both bits." "0,1,2,3" newline hexmask.long.byte 0x0 1.--5. 1. "IT_TYPE," newline bitfld.long 0x0 0. "IT_PENDING," "0,1" group.long 0xC++0x7 line.long 0x0 "MEM_LCR,LCR[6:0] define parameters of the transmission and reception." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "DIV_EN," "0,1" newline bitfld.long 0x0 6. "BREAK_EN,Break control bit." "0,1" newline bitfld.long 0x0 5. "PARITY_TYPE2,Selects the forced parity format [if LCR[3] = 1]. If LCR[5] = 1 and LCR[4] = 0 the parity bit is forced to 1 in the transmitted and received data. If LCR[5] = 1 and LCR[4] = 1 the parity bit is forced to 0 in the transmitted and received.." "0,1" newline bitfld.long 0x0 4. "PARITY_TYPE1," "0,1" newline bitfld.long 0x0 3. "PARITY_EN," "0,1" newline bitfld.long 0x0 2. "NB_STOP,Specifies the number of stop bits:" "0,1" newline bitfld.long 0x0 0.--1. "CHAR_LENGTH,Specifies the word length to be transmitted or received." "0,1,2,3" line.long 0x4 "MEM_MCR,MCR[3:0] controls the interface with the modem. data set or peripheral device that is emulating the modem." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline rbitfld.long 0x4 7. "RESERVED," "0,1" newline bitfld.long 0x4 6. "TCR_TLR," "0,1" newline bitfld.long 0x4 5. "XON_EN," "0,1" newline bitfld.long 0x4 4. "LOOPBACK_EN," "0,1" newline bitfld.long 0x4 3. "CD_STS_CH," "0,1" newline bitfld.long 0x4 2. "RI_STS_CH," "0,1" newline bitfld.long 0x4 1. "RTS,In loop back controls MSR[4]. If auto-RTS is enabled the RTS* output is controlled by hardware flow control." "0,1" newline bitfld.long 0x4 0. "DTR," "0,1" group.long 0x10++0x3 line.long 0x0 "MEM_XON1_ADDR1,XON1/ADDR1 Register" hexmask.long.byte 0x0 0.--7. 1. "XON_WORD1,Used to store the 8-bit XON1 character in UART modes and ADDR1 address 1 for IrDA modes." rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_CIR," bitfld.long 0x0 7. "THR_EMPTY," "0,1" newline bitfld.long 0x0 6. "RESERVED," "0,1" newline bitfld.long 0x0 5. "RX_STOP,The RX_STOP is generated based on the value set in the BOF Length register (EBLR). It is cleared on a single read of the LSR register" "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_IRDA," bitfld.long 0x0 7. "THR_EMPTY," "0,1" newline bitfld.long 0x0 6. "STS_FIFO_FULL," "0,1" newline bitfld.long 0x0 5. "RX_LAST_BYTE," "0,1" newline bitfld.long 0x0 4. "FRAME_TOO_LONG," "0,1" newline bitfld.long 0x0 3. "ABORT," "0,1" newline bitfld.long 0x0 2. "CRC," "0,1" newline bitfld.long 0x0 1. "STS_FIFO_E," "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_UART," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "RX_FIFO_STS," "0,1" newline bitfld.long 0x0 6. "TX_SR_E," "0,1" newline bitfld.long 0x0 5. "TX_FIFO_E," "0,1" newline bitfld.long 0x0 4. "RX_BI," "0,1" newline bitfld.long 0x0 3. "RX_FE," "0,1" newline bitfld.long 0x0 2. "RX_PE," "0,1" newline bitfld.long 0x0 1. "RX_OE," "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" group.long 0x14++0x3 line.long 0x0 "MEM_XON2_ADDR2,XON2/ADDR2 Register" hexmask.long.byte 0x0 0.--7. 1. "XON_WORD2,Used to store the 8-bit XON2 character in UART modes and ADDR2 address 2 for IrDA modes." rgroup.long 0x18++0x3 line.long 0x0 "MEM_MSR,This register provides information about the current state of the control lines from the modem. data set or peripheral device to the LH. It also indicates when a control input from the modem changes state." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "NCD_STS,This bit is the complement of the DCD* input. In loop-back mode it is equivalent to MCR[3]" "0,1" newline bitfld.long 0x0 6. "NRI_STS,This bit is the complement of the RI* input. In loop-back mode it is equivalent to MCR[2]" "0,1" newline bitfld.long 0x0 5. "NDSR_STS,This bit is the complement of the DSR* input. In loop-back mode it is equivalent to MCR[0]" "0,1" newline bitfld.long 0x0 4. "NCTS_STS,This bit is the complement of the CTS* input. In loop-back mode it is equivalent to MCR[1]" "0,1" newline bitfld.long 0x0 3. "DCD_STS,Indicates that DCD* input [or MCR[3] in loop back] has changed. Cleared on a read." "0,1" newline bitfld.long 0x0 2. "RI_STS,Indicates that RI* input [or MCR[2] in loop back] has changed state from low to high. Cleared on a read." "0,1" newline bitfld.long 0x0 1. "DSR_STS," "0,1" newline bitfld.long 0x0 0. "CTS_STS," "0,1" group.long 0x18++0x3 line.long 0x0 "MEM_TCR,Transmission Control Register" hexmask.long.byte 0x0 4.--7. 1. "RX_FIFO_TRIG_START,RX FIFO trigger level to RESTORE transmission (0 - 60)" newline hexmask.long.byte 0x0 0.--3. 1. "RX_FIFO_TRIG_HALT,RX FIFO trigger level to HALT transmission (0 - 60)" group.long 0x18++0x7 line.long 0x0 "MEM_XOFF1,XOFF1 Register" hexmask.long.byte 0x0 0.--7. 1. "XOFF_WORD1,Used to store the 8-bit XOFF1 character in used in UART modes." line.long 0x4 "MEM_SPR,This read/write register does not control the module in anyway. It is intended as a scratchpad register to be used by the programmer to hold temporary data." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "SPR_WORD,Scratchpad register" group.long 0x1C++0x3 line.long 0x0 "MEM_TLR,Trigger Level Register" hexmask.long.byte 0x0 4.--7. 1. "RX_FIFO_TRIG_DMA,Receive FIFO trigger level" newline hexmask.long.byte 0x0 0.--3. 1. "TX_FIFO_TRIG_DMA,Transmit FIFO trigger level" group.long 0x1C++0xB line.long 0x0 "MEM_XOFF2,XOFF2 Register" hexmask.long.byte 0x0 0.--7. 1. "XOFF_WORD2,Used to store the 8-bit XOFF2 character in used in UART modes." line.long 0x4 "MEM_MDR1,The mode of operation can be programmed by writing to MDR1[2:0] and therefore the MDR1 must be programmed on start-up after configuration of the configuration registers (DLL. DLH. LCR). The value of MDR1[2:0] must not be changed again during.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline bitfld.long 0x4 7. "FRAME_END_MODE,IrDA mode only." "0,1" newline bitfld.long 0x4 6. "SIP_MODE,MIR/FIR modes only." "0,1" newline bitfld.long 0x4 5. "SCT,Store and control the transmission" "0,1" newline bitfld.long 0x4 4. "SET_TXIR,Used to configure the infrared transceiver." "0,1" newline bitfld.long 0x4 3. "IR_SLEEP," "0,1" newline bitfld.long 0x4 0.--2. "MODE_SELECT," "0,1,2,3,4,5,6,7" line.long 0x8 "MEM_MDR2,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline bitfld.long 0x8 7. "SET_TXIR_ALT,Provide alternate functionnality for MDR1[4] [SET_TXIR]" "0,1" newline bitfld.long 0x8 6. "IRRXINVERT,Only for IR mode [IRDA & CIR]Invert RX pin inside the module before the voting or sampling system logic of the infra red block. This will not affect the RX path in UART Modem modes." "0,1" newline bitfld.long 0x8 4.--5. "CIR_PULSE_MODE,CIR Pulse modulation definition. It defines high level of the pulse width associated with a digit:" "0,1,2,3" newline bitfld.long 0x8 3. "UART_PULSE,UART mode only. Used to allow pulse shaping in UART mode." "0,1" newline bitfld.long 0x8 1.--2. "STS_FIFO_TRIG,Only for IR-IRDA mode. Frame Status FIFO Threshold select:" "0,1,2,3" newline rbitfld.long 0x8 0. "IRTX_UNDERRUN,IRDA Transmission status interrupt.When the IIR[5] interrupt occurs the meaning of the interrupt is :" "0,1" rgroup.long 0x28++0x3 line.long 0x0 "MEM_SFLSR,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 5.--7. "RESERVED5," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 4. "OE_ERROR," "0,1" newline bitfld.long 0x0 3. "FRAME_TOO_LONG_ERROR," "0,1" newline bitfld.long 0x0 2. "ABORT_DETECT," "0,1" newline bitfld.long 0x0 1. "CRC_ERROR," "0,1" newline bitfld.long 0x0 0. "RESERVED0," "0,1" group.long 0x28++0x3 line.long 0x0 "MEM_TXFLL,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "TXFLL,LSB register used to specify the frame length" rgroup.long 0x2C++0x3 line.long 0x0 "MEM_RESUME,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "RESUME,Dummy read to restart the TX or RX" group.long 0x2C++0x7 line.long 0x0 "MEM_TXFLH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline rbitfld.long 0x0 5.--7. "RESERVED," "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--4. 1. "TXFLH,MSB register used to specify the frame length" line.long 0x4 "MEM_RXFLL,IrDA modes only." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "RXFLL,LSB register used to specify the frame length in reception" rgroup.long 0x30++0x3 line.long 0x0 "MEM_SFREGL,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "SFREGL,LSB part of the frame length" group.long 0x34++0x3 line.long 0x0 "MEM_RXFLH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 4.--7. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "RXFLH,MSB register used to specify the frame length in reception" rgroup.long 0x34++0x3 line.long 0x0 "MEM_SFREGH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 4.--7. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "SFREGH,MSB part of the frame length" group.long 0x38++0x3 line.long 0x0 "MEM_BLR,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "STS_FIFO_RESET,Status FIFO reset. This bit is self-clearing" "0,1" newline bitfld.long 0x0 6. "XBOF_TYPE,SIR xBOF select." "0,1" newline hexmask.long.byte 0x0 0.--5. 1. "RESERVED," rgroup.long 0x38++0x3 line.long 0x0 "MEM_UASR,UART Autobauding Status Register" bitfld.long 0x0 6.--7. "PARITY_TYPE,00 => No Parity identified. 01 => Parity space. 10 => Even Parity. 11 => Odd Parity" "0: No Parity identified,1: Parity space,?,?" newline bitfld.long 0x0 5. "BIT_BY_CHAR,0 => 7 bits character identified. 1 => 8 bits character identified" "0: 7 bits character identified,1: 8 bits character identified" newline hexmask.long.byte 0x0 0.--4. 1. "SPEED,Used to report the speed identified. 00000 => No speed identified. 00001 => 115200 bauds. 00010 => 57600 bauds. 00011 => 38400 bauds. 00100 => 28800 bauds. 00101 => 19200 bauds. 00110 => 14400 bauds. 00111 => 9600 bauds. 01000 => 4800 bauds. 01001.." group.long 0x3C++0xF line.long 0x0 "MEM_ACREG,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "PULSE_TYPE,SIR pulse width select:" "0,1" newline bitfld.long 0x0 6. "SD_MOD,Primary output used to configure transceivers. Connected to the SD/MODE input pin of IrDA transceivers." "0,1" newline bitfld.long 0x0 5. "DIS_IR_RX," "0,1" newline bitfld.long 0x0 4. "DIS_TX_UNDERRUN,It is recommended to disable TX FIFO underrun capability by masking corresponding underrun interrupt. When disabling underrun by setting ACREG[4]=1 garbage data is sent over TX line." "0,1" newline bitfld.long 0x0 3. "SEND_SIP,MIR/FIR Modes only.Send Serial Infrared Interaction Pulse [SIP] If this bit is set during a MIR/FIR transmission the SIP will be send at the end of it.This bit automatically gets cleared at the end of the SIP transmission." "0,1" newline bitfld.long 0x0 2. "SCTX_EN,Store and controlled TX start. When MDR1[5] = 1 and the LH writes 1 to this bit the TX state machine starts frame transmission. This bit is self-clearing." "0,1" newline bitfld.long 0x0 1. "ABORT_EN,Frame Abort. The LH can intentionally abort transmission of a frame by writing 1 to this bit. Neither the end flag nor the CRC bits are appended to the frame. If transmit FIFO is not empty and MDR1[5]=1 UART IrDA will start a new transfer.." "0,1" newline bitfld.long 0x0 0. "EOT_EN,EOT [end of transmission] bit. The LH writes 1 to this bit just before it writes the last byte to the TX FIFO in set-EOT bit frame closing method. This bit automatically gets cleared when the LH writes to the THR [TX FIFO]." "0,1" line.long 0x4 "MEM_SCR,Note: Bit 4 enables the wake-up interrupt. but this interrupt is not mapped into the IIR register. Therefore. when an interrupt occurs and there is no interrupt pending in the IIR register. the SSR[1] bit must be checked. To clear the wake-up.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline bitfld.long 0x4 7. "RX_TRIG_GRANU1," "0,1" newline bitfld.long 0x4 6. "TX_TRIG_GRANU1," "0,1" newline bitfld.long 0x4 5. "DSR_IT," "0,1" newline bitfld.long 0x4 4. "RX_CTS_DSR_WAKE_UP_ENABLE," "0,1" newline bitfld.long 0x4 3. "TX_EMPTY_CTL_IT," "0,1" newline bitfld.long 0x4 1.--2. "DMA_MODE_2,Used to specify the DMA mode valid if SCR[0] = 1" "0,1,2,3" newline bitfld.long 0x4 0. "DMA_MODE_CTL," "0,1" line.long 0x8 "MEM_SSR,Note: Bit 1 is reset only when SCR[4] is reset to 0." hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x8 3.--7. 1. "RESERVED," newline bitfld.long 0x8 2. "DMA_COUNTER_RST," "0,1" newline rbitfld.long 0x8 1. "RX_CTS_DSR_WAKE_UP_STS," "0,1" newline rbitfld.long 0x8 0. "TX_FIFO_FULL," "0,1" line.long 0xC "MEM_EBLR,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED," newline hexmask.long.byte 0xC 0.--7. 1. "EBLR,IR-IRDA mode: This register allows to define up to 176 xBOFs the maximum required by IrDA specification. IR-CIR mode: This register specifies the number of consecutive zeros to be received before generating the RX_STOP interrupt [IIR[2]]. 0x00:.." rgroup.long 0x50++0x3 line.long 0x0 "MEM_MVR,The reset value is fixed by hardware and corresponds to the RTL revision of this module. A reset has no effect on the value returned" bitfld.long 0x0 30.--31. "SCHEME,Scheme revision number of module" "0,1,2,3" newline bitfld.long 0x0 28.--29. "RESERVED," "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "FUNC,Function revision number of module" newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Rtl revision number of module" newline bitfld.long 0x0 8.--10. "MAJOR,Major revision number of the module." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom revision number of the module." "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number of the module." group.long 0x54++0x3 line.long 0x0 "MEM_SYSC,The auto idle bit controls a power saving technique to reduce the logic power consumption of the OCP interface. That is to say when the feature is enabled. the clock will be gated off until an OCP command for this device has been detected. When.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline rbitfld.long 0x0 5.--7. "RESERVED," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 3.--4. "IDLEMODE,POWER MANAGEMENT REQ/ACK CONTROL REF: OCP DESIGN GUIDELINES VERSION 1.1" "0,1,2,3" newline bitfld.long 0x0 2. "ENAWAKEUP,WAKE UP FEATURE CONTROL" "0,1" newline bitfld.long 0x0 1. "SOFTRESET,Software reset. Set this bit to 1 to trigger a module reset. This bit is automatically reset by the hardware. During reads it always returns a 0." "0,1" newline bitfld.long 0x0 0. "AUTOIDLE,Internal OCP clock gating strategy" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "MEM_SYSS," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 1.--7. 1. "RESERVED," newline bitfld.long 0x0 0. "RESETDONE,Internal Reset Monitoring" "0,1" group.long 0x5C++0x7 line.long 0x0 "MEM_WER,The UART wakeup enable register is used to mask and unmask a UART event that would subsequently notify the system. The events are any activity in the logic that could cause an interrupt and/ or an activity that would require the system to wakeup." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "EVENT_7_TX_WAKEUP_EN," "0,1" newline bitfld.long 0x0 6. "EVENT_6_RECEIVER_LINE_STATUS_INTERRUPT," "0,1" newline bitfld.long 0x0 5. "EVENT_5_RHR_INTERRUPT," "0,1" newline bitfld.long 0x0 4. "EVENT_4_RX_ACTIVITY," "0,1" newline bitfld.long 0x0 3. "EVENT_3_DCD_CD_ACTIVITY," "0,1" newline bitfld.long 0x0 2. "EVENT_2_RI_ACTIVITY," "0,1" newline bitfld.long 0x0 1. "EVENT_1_DSR_ACTIVITY," "0,1" newline bitfld.long 0x0 0. "EVENT_0_CTS_ACTIVITY," "0,1" line.long 0x4 "MEM_CFPS,Since the Consumer IR works at modulation rates of 30 56.8 KHz. the 48 MHz clock must be pre scaled before the clock can drive the IR logic. This register sets the divisor rate to give a range to accommodate the remote control requirements in.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "CFPS,System clock frequency prescaler at [12x multiple]. Examples for CFPS values are given in the table below. Target Freq [KHz] CFPS [decimal] Actual Freq[KHz] 30 133 30.08 32.75 122 32.79 36 111 36.04 36.7 109 36.69 38* 105 38.1.." rgroup.long 0x64++0x7 line.long 0x0 "MEM_RXFIFO_LVL,Level of the RX FIFO" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED24," newline hexmask.long.byte 0x0 0.--7. 1. "RXFIFO_LVL," line.long 0x4 "MEM_TXFIFO_LVL,Level of the TX FIFO" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED24," newline hexmask.long.byte 0x4 0.--7. 1. "TXFIFO_LVL," group.long 0x6C++0xB line.long 0x0 "MEM_IER2,Enables RX/TX FIFOs empty corresponding interrupts." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED1," newline hexmask.long.byte 0x0 3.--7. 1. "RESERVED," newline bitfld.long 0x0 2. "RHR_IT_DIS," "0,1" newline bitfld.long 0x0 1. "EN_TXFIFO_EMPTY,Enables[1]/DISABLES[00 EN_TXFIFO_EMPTY interrupt." "0,1" newline bitfld.long 0x0 0. "EN_RXFIFO_EMPTY,Enables[1]/disables[0] EN_RXFIFO_EMPTY interrupt." "0,1" line.long 0x4 "MEM_ISR2,Status of RX/TX FIFOs empty corresponding interrupts." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED1," newline hexmask.long.byte 0x4 2.--7. 1. "RESERVED," newline bitfld.long 0x4 1. "TXFIFO_EMPTY_STS,TXFIFO interrupt pending" "0,1" newline bitfld.long 0x4 0. "RXFIFO_EMPTY_STS,RXFIFO interrupt pending" "0,1" line.long 0x8 "MEM_FREQ_SEL,Sample per bit value selector" hexmask.long.byte 0x8 0.--7. 1. "FREQ_SEL,Sets the sample per bit if non default frequency is used. MDR3[1] must be set to 1 after this value is set. Must be equal or higher then 6." rgroup.long 0x78++0x7 line.long 0x0 "MEM_ABAUD_1ST_CHAR,Unused" hexmask.long 0x0 0.--31. 1. "RESERVED," line.long 0x4 "MEM_BAUD_2ND_CHAR,Unused" hexmask.long 0x4 0.--31. 1. "RESERVED," group.long 0x80++0x23 line.long 0x0 "MEM_MDR3,Mode definition register 3." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED2," newline bitfld.long 0x0 4. "DIR_EN,RS-485 External Transceiver Direction Enable" "0,1" newline bitfld.long 0x0 3. "DIR_POL,RS-485 External Transceiver Direction Polarity. 0 => TX: RTS=0 RX: RTS=1. 1 => TX: RTS=1 RX: RTS=0" "0: TX: RTS=0,1: TX: RTS=1" newline bitfld.long 0x0 2. "SET_DMA_TX_THRESHOLD,Enable to set different TX DMA threshold then 64-trigger [usage of new register TX_DNA_THRESHOLD]" "0,1" newline bitfld.long 0x0 1. "NONDEFAULT_FREQ,Enables[1]/Disables[0] using NONDEFAULT fclk frequencies" "0,1" newline bitfld.long 0x0 0. "DISABLE_CIR_RX_DEMOD,Disables[1]/Enables[0] CIR RX demodulation" "0,1" line.long 0x4 "MEM_TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level." hexmask.long.byte 0x4 0.--5. 1. "TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level." line.long 0x8 "MEM_MDR4,Mode definition register 4" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED1," newline rbitfld.long 0x8 7. "RESERVED," "0,1" newline bitfld.long 0x8 6. "MODE9,9-bit character length. When '1' overrides character length setting in LCR" "0,1" newline bitfld.long 0x8 3.--5. "FREQ_SEL_H,Upper 3 bits of FREQ_SEL register for higher division values as required for example for FI/Di in ISO7816 mode" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 0.--2. "MODE,New modes [when set overrides MDR1 modes]" "0,1,2,3,4,5,6,7" line.long 0xC "MEM_EFR2,Enhanced Features Register 2" hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED1," newline bitfld.long 0xC 7. "BROADCAST,Enables broadcast address matching in multi-drop address match mode" "0,1" newline bitfld.long 0xC 6. "TIMEOUT_BEHAVE,Specifies how timeout is measured" "0,1" newline bitfld.long 0xC 5. "C8,Value for ISO 7816 C8 pin for software control" "0,1" newline bitfld.long 0xC 4. "C4,Value for ISO 7816 C4 pin for software control" "0,1" newline bitfld.long 0xC 3. "C2,Value for ISO 7816 reset pin [software controllable]" "0,1" newline bitfld.long 0xC 2. "MULTIDROP,Enables parity Multi-drop mode [overrides LCR[5..3]] when '1'" "0,1" newline bitfld.long 0xC 1. "RHR_OVERRUN,RHR Overrun behaviour when buffer full" "0,1" newline bitfld.long 0xC 0. "ENDIAN,Endianness" "0,1" line.long 0x10 "MEM_ECR,Enhanced Control register" hexmask.long.tbyte 0x10 8.--31. 1. "RESERVED1," newline rbitfld.long 0x10 6.--7. "RESERVED," "0,1,2,3" newline bitfld.long 0x10 5. "CLEAR_TX_PE,Write 1 to clear parity error from the Transmitter to allow it to continue to try sending data [ISO7816 transmit only]" "0,1" newline bitfld.long 0x10 4. "TX_EN,Enables/Disables the transmitter" "0,1" newline bitfld.long 0x10 3. "RX_EN,Enables/Disables the receiver" "0,1" newline bitfld.long 0x10 2. "TX_RST,Writing '1' resets the transmitter" "0,1" newline bitfld.long 0x10 1. "RX_RST,Writing '1' resets the receiver" "0,1" newline bitfld.long 0x10 0. "A_MULTIDROP,In multi-drop mode when written with the value '1' causes the next byte written into THR to be transmitted with the parity bit set signaling an address" "0,1" line.long 0x14 "MEM_TIMEGUARD,Timeguard" hexmask.long.tbyte 0x14 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x14 0.--7. 1. "TIMEGUARD,Specifies the amount of idle baud clocks [transmitter bit period] to insert between transmitted bytes useful when comunicating with slower devices" line.long 0x18 "MEM_TIMEOUTL,Timeout lower byte" hexmask.long.tbyte 0x18 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x18 0.--7. 1. "TIMEOUT_L,Custom timeout period in baud clocks to override the internal value when different from 0. [Lower byte of the 16 bit value]" line.long 0x1C "MEM_TIMEOUTH,Timeout higher byte" hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x1C 0.--7. 1. "TIMEOUT_H,Custom timeout period in baud clocks to override the internal value when different from 0. [Higher byte of the 16 bit value]" line.long 0x20 "MEM_SCCR,Smartcard (ISO7816) mode Control Register" hexmask.long.tbyte 0x20 8.--31. 1. "RESERVED1," newline bitfld.long 0x20 7. "DSNACK,Applies Max_Iteration to receiver aswell - when maximum number of NACKs have been returned the receiver will accept the data regardless of error. The data will be loaded into the receiver FIFO and PE will be set when reading it." "0,1" newline bitfld.long 0x20 6. "INACK,Inhibit NACK when receiving even if an error is received. The data will be loaded into the receiver FIFO and PE will be set when reading it." "0,1" newline rbitfld.long 0x20 3.--5. "RESERVED," "0,1,2,3,4,5,6,7" newline bitfld.long 0x20 0.--2. "MAX_ITERATION,Number of times to repeat transmitted character if the receiver did not acknowledge. If not acknowledged after the max value is reached the USART transmitter will set parity error stop and not continue until it is cleared." "0,1,2,3,4,5,6,7" rgroup.long 0xA4++0x3 line.long 0x0 "MEM_ERHR,Extended Receive Holding Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--8. 1. "ERHR,Extended Receive Holding Register - allows accessing the full 9bit RHR" group.long 0xA4++0xF line.long 0x0 "MEM_ETHR,Extended Transmit Holding Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--8. 1. "ETHR,Extended Transmit Holding Register - allows writing the full 9bit RHR" line.long 0x4 "MEM_MAR,Multidrop Address Register" hexmask.long.byte 0x4 0.--7. 1. "ADDRESS,Multidrop match address value" line.long 0x8 "MEM_MMR,Multidrop Mask Register" hexmask.long.byte 0x8 0.--7. 1. "MASK,Address match masking value ? writing a 0 to a bit means that the corresponding address bit will be ignored in matching" line.long 0xC "MEM_MBR,Multidrop Broadcast Address Register" hexmask.long.byte 0xC 0.--7. 1. "BROADCAST_ADDRESS,Broadcast address for address matching" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_MCSPI0_CFG (MCU_MCSPI0_CFG)" base ad:0x4B00000 rgroup.long 0x0++0x7 line.long 0x0 "CFG_HL_REV,IP Revision Identifier (X.Y.R)" bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish between old scheme and current" "0,1,2,3" bitfld.long 0x0 28.--29. "RSVD,Reserved These bits are initialized to zero and writes to them are ignored" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Function indicates a software compatible module family If there is no level of software compatibility a new Func number [and hence REVISION] should be assigned" hexmask.long.byte 0x0 11.--15. 1. "R_RTL,RTL Version [R] maintained by IP design owner RTL follows a numbering such as XYRZ which are explained in this table R changes ONLY when: [1] PDS uploads occur which may have been due to spec changes [2] Bug fixes occur [3] Resets to '0' when X or.." bitfld.long 0x0 8.--10. "X_MAJOR,Major Revision [X] maintained by IP specification owner X changes ONLY when: [1] There is a major feature addition An example would be adding Controller Mode to Utopia Level2 The Func field [or Class/Type in old PID format] will remain the same.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version for a particular device Consequence of use may avoid use of standard Chip Support Library [CSL] / Drivers" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "Y_MINOR,Minor Revision [Y] maintained by IP specification owner Y changes ONLY when: [1] Features are scaled [up or down] Flexibility exists in that this feature scalability may either be represented in the Y change or a specific register in the IP that.." line.long 0x4 "CFG_HL_HWINFO,Information about the IP module's hardware configuration. i.e. typically the module's HDL generics (if any)." hexmask.long 0x4 7.--31. 1. "RSVD,Reserved These bits are initialized to zero and writes to them are ignored" bitfld.long 0x4 6. "RETMODE,This bit field indicates whether the retention mode is supported using the pin PIRFFRET" "0,1" hexmask.long.byte 0x4 1.--5. 1. "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" bitfld.long 0x4 0. "USEFIFO,Use of a FIFO enable: This bit field indicates if a FIFO is integrated within controller design with its management" "0,1" group.long 0x10++0x3 line.long 0x0 "CFG_HL_SYSCONFIG,Clock management configuration" bitfld.long 0x0 2.--3. "IDLEMODE,Configuration of the local target state management mode By definition target can handle read/write transaction as long as it is out of IDLE state" "0,1,2,3" bitfld.long 0x0 1. "FREEEMU,Sensitivity to emulation [debug] suspend input signal" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset [Optional]" "0,1" rgroup.long 0x100++0x3 line.long 0x0 "CFG_REVISION,This register contains the hard coded RTL revision number." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED_13,Reads returns 0" hexmask.long.byte 0x0 0.--7. 1. "REV,IP revision [7:4] Major revision [3:0] Minor revision Examples: 0x10 for 10 0x21 for 21" group.long 0x110++0x2B line.long 0x0 "CFG_SYSCONFIG,This register allows controlling various parameters of the OCP interface." hexmask.long.tbyte 0x0 10.--31. 1. "RESERVED_14,Reads returns 0" bitfld.long 0x0 8.--9. "CLOCKACTIVITY,Clocks activity during wake up mode period" "0,1,2,3" rbitfld.long 0x0 5.--7. "RESERVED_15,Reads returns 0" "0,1,2,3,4,5,6,7" bitfld.long 0x0 3.--4. "SIDLEMODE,Power management" "0,1,2,3" bitfld.long 0x0 2. "ENAWAKEUP,WakeUp feature control" "0,1" newline bitfld.long 0x0 1. "SOFTRESET,Software reset During reads it always returns 0" "0,1" bitfld.long 0x0 0. "AUTOIDLE,Internal OCP Clock gating strategy" "0,1" line.long 0x4 "CFG_SYSSTATUS,This register provides status information about the module excluding the interrupt status information" hexmask.long 0x4 1.--31. 1. "RESERVED,Reserved for module specific status information Read returns 0" rbitfld.long 0x4 0. "RESETDONE,Internal Reset Monitoring" "0,1" line.long 0x8 "CFG_IRQSTATUS,The interrupt status regroups all the status of the module internal events that can generate an interrupt" hexmask.long.word 0x8 18.--31. 1. "RESERVED,Reads returns 0" bitfld.long 0x8 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 by MCSPI_XFERLEVEL[WCNT]" "0,1" bitfld.long 0x8 16. "WKS,Wake Up event in target mode when an active control signal is detected on the SPIEN line programmed in the field MCSPI_CH0CONF[SPIENSLV]" "0,1" bitfld.long 0x8 15. "RESERVED,Reads returns 0" "0,1" bitfld.long 0x8 14. "RX3_FULL,Receiver register is full or almost full Only when Channel 3 is enabled" "0,1" newline bitfld.long 0x8 13. "TX3_UNDERFLOW,Transmitter register underflow Only when Channel 3 is enabled The transmitter register is empty [not updated by Host or DMA with new data] before its time slot assignment Exception: No TX_underflow event when no data has been loaded into.." "0,1" bitfld.long 0x8 12. "TX3_EMPTY,Transmitter register is empty or almost empty Note: Enabling the channel automatically rises this event" "0,1" bitfld.long 0x8 11. "RESERVED,Reads returns 0" "0,1" bitfld.long 0x8 10. "RX2_FULL,Receiver register full or almost full Channel 2" "0,1" bitfld.long 0x8 9. "TX2_UNDERFLOW,Transmitter register underflow Channel 2" "0,1" newline bitfld.long 0x8 8. "TX2_EMPTY,Transmitter register empty or almost empty Channel 2" "0,1" bitfld.long 0x8 7. "RESERVED,Reads returns 0" "0,1" bitfld.long 0x8 6. "RX1_FULL,Receiver register full or almost full Channel 1" "0,1" bitfld.long 0x8 5. "TX1_UNDERFLOW,Transmitter register underflow Channel 1" "0,1" bitfld.long 0x8 4. "TX1_EMPTY,Transmitter register empty or almost empty Channel 1" "0,1" newline bitfld.long 0x8 3. "RX0_OVERFLOW,Receiver register overflow [target mode only] Channel 0" "0,1" bitfld.long 0x8 2. "RX0_FULL,Receiver register full or almost full Channel 0" "0,1" bitfld.long 0x8 1. "TX0_UNDERFLOW,Transmitter register underflow Channel 0" "0,1" bitfld.long 0x8 0. "TX0_EMPTY,Transmitter register empty or almost empty Channel 0" "0,1" line.long 0xC "CFG_IRQENABLE,This register allows to enable/disable the module internal sources of interrupt. on an event-by-event basis." hexmask.long.word 0xC 18.--31. 1. "RESERVED,Reads return 0" bitfld.long 0xC 17. "EOW_ENABLE,End of Word count Interrupt Enable" "0,1" bitfld.long 0xC 16. "WKE,Wake Up event interrupt Enable in target mode when an active control signal is detected on the SPIEN line programmed in the field MCSPI_CH0CONF[SPIENSLV]" "0,1" bitfld.long 0xC 15. "RESERVED,Reads returns 0" "0,1" bitfld.long 0xC 14. "RX3_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 3" "0,1" newline bitfld.long 0xC 13. "TX3_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 3" "0,1" bitfld.long 0xC 12. "TX3_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch3" "0,1" bitfld.long 0xC 11. "RESERVED,Reads return 0" "0,1" bitfld.long 0xC 10. "RX2_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 2" "0,1" bitfld.long 0xC 9. "TX2_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 2" "0,1" newline bitfld.long 0xC 8. "TX2_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch 2" "0,1" bitfld.long 0xC 7. "RESERVED,Reads return 0" "0,1" bitfld.long 0xC 6. "RX1_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 1" "0,1" bitfld.long 0xC 5. "TX1_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 1" "0,1" bitfld.long 0xC 4. "TX1_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch 1" "0,1" newline bitfld.long 0xC 3. "RX0_OVERFLOW_ENABLE,Receiver register Overflow Interrupt Enable Ch 0" "0,1" bitfld.long 0xC 2. "RX0_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 0" "0,1" bitfld.long 0xC 1. "TX0_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 0" "0,1" bitfld.long 0xC 0. "TX0_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch 0" "0,1" line.long 0x10 "CFG_WAKEUPENABLE,The wakeup enable register allows to enable/disable the module internal sources of wakeup on event-by-event basis." hexmask.long 0x10 1.--31. 1. "RESERVED_18,Reads returns 0" bitfld.long 0x10 0. "WKEN,WakeUp functionality in target mode when an active control signal is detected on the SPIEN line programmed in the field MCSPI_CH0CONF[SPIENSLV]" "0,1" line.long 0x14 "CFG_SYST,This register is used to check the correctness of the system interconnect either internally to peripheral bus. or externally to device IO pads. when the module is configured in system test (SYSTEST) mode." hexmask.long.tbyte 0x14 12.--31. 1. "RESERVED,Reads returns 0" bitfld.long 0x14 11. "SSB,Set status bit" "0,1" bitfld.long 0x14 10. "SPIENDIR,Set the direction of the SPIEN[3:0] lines and SPICLK line" "0,1" bitfld.long 0x14 9. "SPIDATDIR1,Set the direction of the SPIDAT[1]" "0,1" bitfld.long 0x14 8. "SPIDATDIR0,Set the direction of the SPIDAT[0]" "0,1" newline bitfld.long 0x14 7. "WAKD,SWAKEUP output [signal data value of internal signal to system] The signal is driven high or low according to the value written into this register bit" "0,1" 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 If MCSPI_SYST[SPIENDIR] = 0 [output mode direction] the.." "0,1" 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 If MCSPI_SYST[SPIDATDIR1] = 1 [input mode direction] this bit.." "0,1" 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 If MCSPI_SYST[SPIDATDIR0] = 1 [input mode direction] this bit.." "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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" 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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" 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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" 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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" line.long 0x18 "CFG_MODULCTRL,This register is dedicated to the configuration of the serial port interface." hexmask.long.tbyte 0x18 9.--31. 1. "RESERVED,Reads returns 0" 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 If this bit is set the enabled channel which uses the FIFO has its datas managed.." "0,1" bitfld.long 0x18 7. "MOA,Multiple word ocp access: This register can only be used when a channel is enabled using a FIFO It allows the system to perform multiple SPI word access for a single 32-bit OCP word access This is possible for WL < 16" "0,1" bitfld.long 0x18 4.--6. "INITDLY,Initial spi delay for first transfer: This register is an option only available in SINGLE controller mode The controller waits for a delay to transmit the first spi word after channel enabled and corresponding TX register filled This Delay is.." "0,1,2,3,4,5,6,7" bitfld.long 0x18 3. "SYSTEM_TEST,Enables the system test mode" "0,1" newline bitfld.long 0x18 2. "MS,Controller/ Target" "0,1" bitfld.long 0x18 1. "PIN34,Pin mode selection: This register is used to configure the SPI pin mode in controller or target mode If asserted the controller only use SIMO SOMI and SPICLK clock pin for spi transfers" "0,1" bitfld.long 0x18 0. "SINGLE,Single channel / Multi Channel [controller mode only]" "0,1" line.long 0x1C "CFG_CH0CONF,This register is dedicated to the configuration of the channel 0" bitfld.long 0x1C 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x1C 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x1C 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x1C 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x1C 25.--26. "TCS0,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x1C 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x1C 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x1C 21.--22. "SPIENSLV,Channel 0 only and target mode only: SPI target select signal detection Reserved bits for other cases" "0,1,2,3" bitfld.long 0x1C 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x1C 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x1C 18. "IS,Input Select" "0,1" bitfld.long 0x1C 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x1C 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" 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 The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x1C 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x1C 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x1C 7.--11. 1. "WL,SPI word length" bitfld.long 0x1C 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x1C 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x1C 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x1C 0. "PHA,SPICLK phase" "0,1" line.long 0x20 "CFG_CH0STAT,This register provides status information about transmitter and receiver registers of channel 0" hexmask.long 0x20 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x20 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x20 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x20 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x20 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x20 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x20 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x20 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x24 "CFG_CH0CTRL,This register is dedicated to enable the channel 0" hexmask.long.word 0x24 16.--31. 1. "RESERVED,Read returns 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x24 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x24 0. "EN,Channel Enable" "0,1" line.long 0x28 "CFG_TX0,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0x28 0.--31. 1. "TDATA,Channel 0 Data to transmit" rgroup.long 0x13C++0x3 line.long 0x0 "CFG_RX0,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 0 Received Data" group.long 0x140++0xF line.long 0x0 "CFG_CH1CONF,This register is dedicated to the configuration of the channel." bitfld.long 0x0 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x0 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 25.--26. "TCS1,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x0 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x0 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x0 21.--22. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x0 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x0 18. "IS,Input Select" "0,1" bitfld.long 0x0 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x0 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" bitfld.long 0x0 15. "DMAR,DMA Read request The DMA Read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x0 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x0 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x0 7.--11. 1. "WL,SPI word length" bitfld.long 0x0 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x0 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x0 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x0 0. "PHA,SPICLK phase" "0,1" line.long 0x4 "CFG_CH1STAT,This register provides status information about transmitter and receiver registers of channel 1" hexmask.long 0x4 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x4 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x4 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x4 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x4 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x4 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x4 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x4 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x8 "CFG_CH1CTRL,This register is dedicated to enable the channel 1" hexmask.long.word 0x8 16.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x8 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x8 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x8 0. "EN,Channel Enable" "0,1" line.long 0xC "CFG_TX1,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0xC 0.--31. 1. "TDATA,Channel 1 Data to transmit" rgroup.long 0x150++0x3 line.long 0x0 "CFG_RX1,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 1 Received Data" group.long 0x154++0xF line.long 0x0 "CFG_CH2CONF,This register is dedicated to the configuration of the channel 2" bitfld.long 0x0 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x0 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 25.--26. "TCS2,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x0 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x0 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x0 21.--22. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x0 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x0 18. "IS,Input Select" "0,1" bitfld.long 0x0 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x0 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" bitfld.long 0x0 15. "DMAR,DMA Read request The DMA Read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x0 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x0 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x0 7.--11. 1. "WL,SPI word length" bitfld.long 0x0 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x0 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x0 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x0 0. "PHA,SPICLK phase" "0,1" line.long 0x4 "CFG_CH2STAT,This register provides status information about transmitter and receiver registers of channel 2" hexmask.long 0x4 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x4 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x4 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x4 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x4 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x4 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x4 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x4 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x8 "CFG_CH2CTRL,This register is dedicated to enable the channel 2" hexmask.long.word 0x8 16.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x8 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x8 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x8 0. "EN,Channel Enable" "0,1" line.long 0xC "CFG_TX2,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0xC 0.--31. 1. "TDATA,Channel 2 Data to transmit" rgroup.long 0x164++0x3 line.long 0x0 "CFG_RX2,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 2 Received Data" group.long 0x168++0xF line.long 0x0 "CFG_CH3CONF,This register is dedicated to the configuration of the channel 3" bitfld.long 0x0 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x0 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 25.--26. "TCS3,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x0 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x0 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x0 21.--22. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x0 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x0 18. "IS,Input Select" "0,1" bitfld.long 0x0 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x0 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" bitfld.long 0x0 15. "DMAR,DMA Read request The DMA Read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x0 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x0 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x0 7.--11. 1. "WL,SPI word length" bitfld.long 0x0 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x0 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x0 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x0 0. "PHA,SPICLK phase" "0,1" line.long 0x4 "CFG_CH3STAT,This register provides status information about transmitter and receiver registers of channel 3" hexmask.long 0x4 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x4 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x4 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x4 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x4 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x4 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x4 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x4 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x8 "CFG_CH3CTRL,This register is dedicated to enable the channel 3" hexmask.long.word 0x8 16.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x8 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x8 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x8 0. "EN,Channel Enable" "0,1" line.long 0xC "CFG_TX3,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0xC 0.--31. 1. "TDATA,Channel 3 Data to transmit" rgroup.long 0x178++0x3 line.long 0x0 "CFG_RX3,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 3 Received Data" group.long 0x17C++0x7 line.long 0x0 "CFG_XFERLEVEL,This register provides transfer levels needed while using FIFO buffer during transfer." hexmask.long.word 0x0 16.--31. 1. "WCNT,Spi word counterThis register holds the programmable value of number of SPI word to be transferred on channel which is using the FIFO bufferWhen transfer had started a read back in this register returns the current SPI word transfer index" hexmask.long.byte 0x0 8.--15. 1. "AFL,Buffer Almost Full This register holds the programmable almost full level value used to determine almost full buffer condition If the user wants an interrupt or a DMA read request to be issued during a receive operation when the data buffer holds at.." hexmask.long.byte 0x0 0.--7. 1. "AEL,Buffer Almost EmptyThis register holds the programmable almost empty level value used to determine almost empty buffer condition If the user wants an interrupt or a DMA write request to be issued during a transmit operation when the data buffer is.." line.long 0x4 "CFG_DAFTX,This register contains the SPI words to transmit on the serial link when FIFO used and DMA address is aligned on 256 bit.This register is an image of one of MCSPI_TX(i) register corresponding to the channel which have its FIFO enabled." hexmask.long 0x4 0.--31. 1. "DAFTDATA,FIFO Data to transmit with DMA 256 bit aligned address This Register is only is used when MCSPI_MODULCTRL[FDAA] is set to 1 and only one of the MCSPI_CH[i]CONF[FFEW] of enabled channels is set If these conditions are not respected any access to.." rgroup.long 0x1A0++0x3 line.long 0x0 "CFG_DAFRX,This register contains the SPI words to received on the serial link when FIFO used and DMA address is aligned on 256 bit.This register is an image of one of MCSPI_RX(i) register corresponding to the channel which have its FIFO enabled." hexmask.long 0x0 0.--31. 1. "DAFRDATA,FIFO Data to transmit with DMA 256 bit aligned address This Register is only is used when MCSPI_MODULCTRL[FDAA] is set to 1 and only one of the MCSPI_CH[i]CONF[FFEW] of enabled channels is set If these conditions are not respected any access to.." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_MCSPI1_CFG (MCU_MCSPI1_CFG)" base ad:0x4B10000 rgroup.long 0x0++0x7 line.long 0x0 "CFG_HL_REV,IP Revision Identifier (X.Y.R)" bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish between old scheme and current" "0,1,2,3" bitfld.long 0x0 28.--29. "RSVD,Reserved These bits are initialized to zero and writes to them are ignored" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Function indicates a software compatible module family If there is no level of software compatibility a new Func number [and hence REVISION] should be assigned" hexmask.long.byte 0x0 11.--15. 1. "R_RTL,RTL Version [R] maintained by IP design owner RTL follows a numbering such as XYRZ which are explained in this table R changes ONLY when: [1] PDS uploads occur which may have been due to spec changes [2] Bug fixes occur [3] Resets to '0' when X or.." bitfld.long 0x0 8.--10. "X_MAJOR,Major Revision [X] maintained by IP specification owner X changes ONLY when: [1] There is a major feature addition An example would be adding Controller Mode to Utopia Level2 The Func field [or Class/Type in old PID format] will remain the same.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version for a particular device Consequence of use may avoid use of standard Chip Support Library [CSL] / Drivers" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "Y_MINOR,Minor Revision [Y] maintained by IP specification owner Y changes ONLY when: [1] Features are scaled [up or down] Flexibility exists in that this feature scalability may either be represented in the Y change or a specific register in the IP that.." line.long 0x4 "CFG_HL_HWINFO,Information about the IP module's hardware configuration. i.e. typically the module's HDL generics (if any)." hexmask.long 0x4 7.--31. 1. "RSVD,Reserved These bits are initialized to zero and writes to them are ignored" bitfld.long 0x4 6. "RETMODE,This bit field indicates whether the retention mode is supported using the pin PIRFFRET" "0,1" hexmask.long.byte 0x4 1.--5. 1. "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" bitfld.long 0x4 0. "USEFIFO,Use of a FIFO enable: This bit field indicates if a FIFO is integrated within controller design with its management" "0,1" group.long 0x10++0x3 line.long 0x0 "CFG_HL_SYSCONFIG,Clock management configuration" bitfld.long 0x0 2.--3. "IDLEMODE,Configuration of the local target state management mode By definition target can handle read/write transaction as long as it is out of IDLE state" "0,1,2,3" bitfld.long 0x0 1. "FREEEMU,Sensitivity to emulation [debug] suspend input signal" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset [Optional]" "0,1" rgroup.long 0x100++0x3 line.long 0x0 "CFG_REVISION,This register contains the hard coded RTL revision number." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED_13,Reads returns 0" hexmask.long.byte 0x0 0.--7. 1. "REV,IP revision [7:4] Major revision [3:0] Minor revision Examples: 0x10 for 10 0x21 for 21" group.long 0x110++0x2B line.long 0x0 "CFG_SYSCONFIG,This register allows controlling various parameters of the OCP interface." hexmask.long.tbyte 0x0 10.--31. 1. "RESERVED_14,Reads returns 0" bitfld.long 0x0 8.--9. "CLOCKACTIVITY,Clocks activity during wake up mode period" "0,1,2,3" rbitfld.long 0x0 5.--7. "RESERVED_15,Reads returns 0" "0,1,2,3,4,5,6,7" bitfld.long 0x0 3.--4. "SIDLEMODE,Power management" "0,1,2,3" bitfld.long 0x0 2. "ENAWAKEUP,WakeUp feature control" "0,1" newline bitfld.long 0x0 1. "SOFTRESET,Software reset During reads it always returns 0" "0,1" bitfld.long 0x0 0. "AUTOIDLE,Internal OCP Clock gating strategy" "0,1" line.long 0x4 "CFG_SYSSTATUS,This register provides status information about the module excluding the interrupt status information" hexmask.long 0x4 1.--31. 1. "RESERVED,Reserved for module specific status information Read returns 0" rbitfld.long 0x4 0. "RESETDONE,Internal Reset Monitoring" "0,1" line.long 0x8 "CFG_IRQSTATUS,The interrupt status regroups all the status of the module internal events that can generate an interrupt" hexmask.long.word 0x8 18.--31. 1. "RESERVED,Reads returns 0" bitfld.long 0x8 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 by MCSPI_XFERLEVEL[WCNT]" "0,1" bitfld.long 0x8 16. "WKS,Wake Up event in target mode when an active control signal is detected on the SPIEN line programmed in the field MCSPI_CH0CONF[SPIENSLV]" "0,1" bitfld.long 0x8 15. "RESERVED,Reads returns 0" "0,1" bitfld.long 0x8 14. "RX3_FULL,Receiver register is full or almost full Only when Channel 3 is enabled" "0,1" newline bitfld.long 0x8 13. "TX3_UNDERFLOW,Transmitter register underflow Only when Channel 3 is enabled The transmitter register is empty [not updated by Host or DMA with new data] before its time slot assignment Exception: No TX_underflow event when no data has been loaded into.." "0,1" bitfld.long 0x8 12. "TX3_EMPTY,Transmitter register is empty or almost empty Note: Enabling the channel automatically rises this event" "0,1" bitfld.long 0x8 11. "RESERVED,Reads returns 0" "0,1" bitfld.long 0x8 10. "RX2_FULL,Receiver register full or almost full Channel 2" "0,1" bitfld.long 0x8 9. "TX2_UNDERFLOW,Transmitter register underflow Channel 2" "0,1" newline bitfld.long 0x8 8. "TX2_EMPTY,Transmitter register empty or almost empty Channel 2" "0,1" bitfld.long 0x8 7. "RESERVED,Reads returns 0" "0,1" bitfld.long 0x8 6. "RX1_FULL,Receiver register full or almost full Channel 1" "0,1" bitfld.long 0x8 5. "TX1_UNDERFLOW,Transmitter register underflow Channel 1" "0,1" bitfld.long 0x8 4. "TX1_EMPTY,Transmitter register empty or almost empty Channel 1" "0,1" newline bitfld.long 0x8 3. "RX0_OVERFLOW,Receiver register overflow [target mode only] Channel 0" "0,1" bitfld.long 0x8 2. "RX0_FULL,Receiver register full or almost full Channel 0" "0,1" bitfld.long 0x8 1. "TX0_UNDERFLOW,Transmitter register underflow Channel 0" "0,1" bitfld.long 0x8 0. "TX0_EMPTY,Transmitter register empty or almost empty Channel 0" "0,1" line.long 0xC "CFG_IRQENABLE,This register allows to enable/disable the module internal sources of interrupt. on an event-by-event basis." hexmask.long.word 0xC 18.--31. 1. "RESERVED,Reads return 0" bitfld.long 0xC 17. "EOW_ENABLE,End of Word count Interrupt Enable" "0,1" bitfld.long 0xC 16. "WKE,Wake Up event interrupt Enable in target mode when an active control signal is detected on the SPIEN line programmed in the field MCSPI_CH0CONF[SPIENSLV]" "0,1" bitfld.long 0xC 15. "RESERVED,Reads returns 0" "0,1" bitfld.long 0xC 14. "RX3_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 3" "0,1" newline bitfld.long 0xC 13. "TX3_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 3" "0,1" bitfld.long 0xC 12. "TX3_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch3" "0,1" bitfld.long 0xC 11. "RESERVED,Reads return 0" "0,1" bitfld.long 0xC 10. "RX2_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 2" "0,1" bitfld.long 0xC 9. "TX2_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 2" "0,1" newline bitfld.long 0xC 8. "TX2_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch 2" "0,1" bitfld.long 0xC 7. "RESERVED,Reads return 0" "0,1" bitfld.long 0xC 6. "RX1_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 1" "0,1" bitfld.long 0xC 5. "TX1_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 1" "0,1" bitfld.long 0xC 4. "TX1_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch 1" "0,1" newline bitfld.long 0xC 3. "RX0_OVERFLOW_ENABLE,Receiver register Overflow Interrupt Enable Ch 0" "0,1" bitfld.long 0xC 2. "RX0_FULL_ENABLE,Receiver register Full Interrupt Enable Ch 0" "0,1" bitfld.long 0xC 1. "TX0_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable Ch 0" "0,1" bitfld.long 0xC 0. "TX0_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable Ch 0" "0,1" line.long 0x10 "CFG_WAKEUPENABLE,The wakeup enable register allows to enable/disable the module internal sources of wakeup on event-by-event basis." hexmask.long 0x10 1.--31. 1. "RESERVED_18,Reads returns 0" bitfld.long 0x10 0. "WKEN,WakeUp functionality in target mode when an active control signal is detected on the SPIEN line programmed in the field MCSPI_CH0CONF[SPIENSLV]" "0,1" line.long 0x14 "CFG_SYST,This register is used to check the correctness of the system interconnect either internally to peripheral bus. or externally to device IO pads. when the module is configured in system test (SYSTEST) mode." hexmask.long.tbyte 0x14 12.--31. 1. "RESERVED,Reads returns 0" bitfld.long 0x14 11. "SSB,Set status bit" "0,1" bitfld.long 0x14 10. "SPIENDIR,Set the direction of the SPIEN[3:0] lines and SPICLK line" "0,1" bitfld.long 0x14 9. "SPIDATDIR1,Set the direction of the SPIDAT[1]" "0,1" bitfld.long 0x14 8. "SPIDATDIR0,Set the direction of the SPIDAT[0]" "0,1" newline bitfld.long 0x14 7. "WAKD,SWAKEUP output [signal data value of internal signal to system] The signal is driven high or low according to the value written into this register bit" "0,1" 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 If MCSPI_SYST[SPIENDIR] = 0 [output mode direction] the.." "0,1" 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 If MCSPI_SYST[SPIDATDIR1] = 1 [input mode direction] this bit.." "0,1" 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 If MCSPI_SYST[SPIDATDIR0] = 1 [input mode direction] this bit.." "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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" 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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" 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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" 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 If MCSPI_SYST[SPIENDIR] = 1 [input mode direction] this bit returns.." "0,1" line.long 0x18 "CFG_MODULCTRL,This register is dedicated to the configuration of the serial port interface." hexmask.long.tbyte 0x18 9.--31. 1. "RESERVED,Reads returns 0" 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 If this bit is set the enabled channel which uses the FIFO has its datas managed.." "0,1" bitfld.long 0x18 7. "MOA,Multiple word ocp access: This register can only be used when a channel is enabled using a FIFO It allows the system to perform multiple SPI word access for a single 32-bit OCP word access This is possible for WL < 16" "0,1" bitfld.long 0x18 4.--6. "INITDLY,Initial spi delay for first transfer: This register is an option only available in SINGLE controller mode The controller waits for a delay to transmit the first spi word after channel enabled and corresponding TX register filled This Delay is.." "0,1,2,3,4,5,6,7" bitfld.long 0x18 3. "SYSTEM_TEST,Enables the system test mode" "0,1" newline bitfld.long 0x18 2. "MS,Controller/ Target" "0,1" bitfld.long 0x18 1. "PIN34,Pin mode selection: This register is used to configure the SPI pin mode in controller or target mode If asserted the controller only use SIMO SOMI and SPICLK clock pin for spi transfers" "0,1" bitfld.long 0x18 0. "SINGLE,Single channel / Multi Channel [controller mode only]" "0,1" line.long 0x1C "CFG_CH0CONF,This register is dedicated to the configuration of the channel 0" bitfld.long 0x1C 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x1C 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x1C 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x1C 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x1C 25.--26. "TCS0,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x1C 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x1C 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x1C 21.--22. "SPIENSLV,Channel 0 only and target mode only: SPI target select signal detection Reserved bits for other cases" "0,1,2,3" bitfld.long 0x1C 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x1C 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x1C 18. "IS,Input Select" "0,1" bitfld.long 0x1C 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x1C 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" 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 The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x1C 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x1C 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x1C 7.--11. 1. "WL,SPI word length" bitfld.long 0x1C 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x1C 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x1C 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x1C 0. "PHA,SPICLK phase" "0,1" line.long 0x20 "CFG_CH0STAT,This register provides status information about transmitter and receiver registers of channel 0" hexmask.long 0x20 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x20 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x20 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x20 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x20 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x20 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x20 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x20 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x24 "CFG_CH0CTRL,This register is dedicated to enable the channel 0" hexmask.long.word 0x24 16.--31. 1. "RESERVED,Read returns 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x24 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x24 0. "EN,Channel Enable" "0,1" line.long 0x28 "CFG_TX0,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0x28 0.--31. 1. "TDATA,Channel 0 Data to transmit" rgroup.long 0x13C++0x3 line.long 0x0 "CFG_RX0,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 0 Received Data" group.long 0x140++0xF line.long 0x0 "CFG_CH1CONF,This register is dedicated to the configuration of the channel." bitfld.long 0x0 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x0 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 25.--26. "TCS1,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x0 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x0 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x0 21.--22. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x0 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x0 18. "IS,Input Select" "0,1" bitfld.long 0x0 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x0 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" bitfld.long 0x0 15. "DMAR,DMA Read request The DMA Read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x0 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x0 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x0 7.--11. 1. "WL,SPI word length" bitfld.long 0x0 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x0 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x0 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x0 0. "PHA,SPICLK phase" "0,1" line.long 0x4 "CFG_CH1STAT,This register provides status information about transmitter and receiver registers of channel 1" hexmask.long 0x4 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x4 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x4 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x4 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x4 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x4 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x4 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x4 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x8 "CFG_CH1CTRL,This register is dedicated to enable the channel 1" hexmask.long.word 0x8 16.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x8 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x8 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x8 0. "EN,Channel Enable" "0,1" line.long 0xC "CFG_TX1,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0xC 0.--31. 1. "TDATA,Channel 1 Data to transmit" rgroup.long 0x150++0x3 line.long 0x0 "CFG_RX1,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 1 Received Data" group.long 0x154++0xF line.long 0x0 "CFG_CH2CONF,This register is dedicated to the configuration of the channel 2" bitfld.long 0x0 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x0 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 25.--26. "TCS2,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x0 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x0 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x0 21.--22. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x0 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x0 18. "IS,Input Select" "0,1" bitfld.long 0x0 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x0 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" bitfld.long 0x0 15. "DMAR,DMA Read request The DMA Read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x0 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x0 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x0 7.--11. 1. "WL,SPI word length" bitfld.long 0x0 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x0 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x0 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x0 0. "PHA,SPICLK phase" "0,1" line.long 0x4 "CFG_CH2STAT,This register provides status information about transmitter and receiver registers of channel 2" hexmask.long 0x4 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x4 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x4 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x4 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x4 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x4 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x4 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x4 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x8 "CFG_CH2CTRL,This register is dedicated to enable the channel 2" hexmask.long.word 0x8 16.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x8 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x8 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x8 0. "EN,Channel Enable" "0,1" line.long 0xC "CFG_TX2,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0xC 0.--31. 1. "TDATA,Channel 2 Data to transmit" rgroup.long 0x164++0x3 line.long 0x0 "CFG_RX2,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 2 Received Data" group.long 0x168++0xF line.long 0x0 "CFG_CH3CONF,This register is dedicated to the configuration of the channel 3" bitfld.long 0x0 30.--31. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of two or one clock cycle granularity When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divider.." "0,1" bitfld.long 0x0 28. "FFER,FIFO enabled for receive:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 27. "FFEW,FIFO enabled for Transmit:Only one channel can have this bit field set" "0,1" bitfld.long 0x0 25.--26. "TCS3,Chip Select Time Control This 2-bits field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock" "0,1,2,3" newline bitfld.long 0x0 24. "SBPOL,Start bit polarity" "0,1" bitfld.long 0x0 23. "SBE,Start bit enable for SPI transfer" "0,1" bitfld.long 0x0 21.--22. "RESERVED,read returns 0" "0,1,2,3" bitfld.long 0x0 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words [single channel controller mode only]" "0,1" bitfld.long 0x0 19. "TURBO,Turbo mode" "0,1" newline bitfld.long 0x0 18. "IS,Input Select" "0,1" bitfld.long 0x0 17. "DPE1,Transmission Enable for data line 1 [SPIDATAGZEN[1]]" "0,1" bitfld.long 0x0 16. "DPE0,Transmission Enable for data line 0 [SPIDATAGZEN[0]]" "0,1" bitfld.long 0x0 15. "DMAR,DMA Read request The DMA Read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel The DMA Read request line is deasserted on read completion of the receive register of the channel" "0,1" bitfld.long 0x0 14. "DMAW,DMA Write request The DMA Write request line is asserted when The channel is enabled and the transmitter register of the channel is empty The DMA Write request line is deasserted on load completion of the transmitter register of the channel" "0,1" newline bitfld.long 0x0 12.--13. "TRM,Transmit/Receive modes" "0,1,2,3" hexmask.long.byte 0x0 7.--11. 1. "WL,SPI word length" bitfld.long 0x0 6. "EPOL,SPIEN polarity" "0,1" hexmask.long.byte 0x0 2.--5. 1. "CLKD,Frequency divider for SPICLK [only when the module is a Controller SPI device] A programmable clock divider divides the SPI reference clock [CLKSPIREF] with a 4-bit value and results in a new clock SPICLK available to shift-in and shift-out data By.." bitfld.long 0x0 1. "POL,SPICLK polarity" "0,1" newline bitfld.long 0x0 0. "PHA,SPICLK phase" "0,1" line.long 0x4 "CFG_CH3STAT,This register provides status information about transmitter and receiver registers of channel 3" hexmask.long 0x4 7.--31. 1. "RESERVED,Read returns 0" rbitfld.long 0x4 6. "RXFFF,Channel i FIFO Receive Buffer Full Status" "0,1" rbitfld.long 0x4 5. "RXFFE,Channel i FIFO Receive Buffer Empty Status" "0,1" rbitfld.long 0x4 4. "TXFFF,Channel i FIFO Transmit Buffer Full Status" "0,1" rbitfld.long 0x4 3. "TXFFE,Channel i FIFO Transmit Buffer Empty Status" "0,1" newline rbitfld.long 0x4 2. "EOT,Channel i End of transfer Status The definitions of beginning and end of transfer vary with controller versus target and the transfer format [Transmit/Receive modes Turbo mode] See dedicated chapters for details" "0,1" rbitfld.long 0x4 1. "TXS,Channel i Transmitter Register Status" "0,1" rbitfld.long 0x4 0. "RXS,Channel i Receiver Register Status" "0,1" line.long 0x8 "CFG_CH3CTRL,This register is dedicated to enable the channel 3" hexmask.long.word 0x8 16.--31. 1. "RESERVED,Read returns 0" hexmask.long.byte 0x8 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] Then the max value reached is 4096 clock divider ratio" hexmask.long.byte 0x8 1.--7. 1. "RESERVED,Read returns 0" bitfld.long 0x8 0. "EN,Channel Enable" "0,1" line.long 0xC "CFG_TX3,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is." hexmask.long 0xC 0.--31. 1. "TDATA,Channel 3 Data to transmit" rgroup.long 0x178++0x3 line.long 0x0 "CFG_RX3,This register contains a single SPI word received through the serial link. what ever SPI word length is." hexmask.long 0x0 0.--31. 1. "RDATA,Channel 3 Received Data" group.long 0x17C++0x7 line.long 0x0 "CFG_XFERLEVEL,This register provides transfer levels needed while using FIFO buffer during transfer." hexmask.long.word 0x0 16.--31. 1. "WCNT,Spi word counterThis register holds the programmable value of number of SPI word to be transferred on channel which is using the FIFO bufferWhen transfer had started a read back in this register returns the current SPI word transfer index" hexmask.long.byte 0x0 8.--15. 1. "AFL,Buffer Almost Full This register holds the programmable almost full level value used to determine almost full buffer condition If the user wants an interrupt or a DMA read request to be issued during a receive operation when the data buffer holds at.." hexmask.long.byte 0x0 0.--7. 1. "AEL,Buffer Almost EmptyThis register holds the programmable almost empty level value used to determine almost empty buffer condition If the user wants an interrupt or a DMA write request to be issued during a transmit operation when the data buffer is.." line.long 0x4 "CFG_DAFTX,This register contains the SPI words to transmit on the serial link when FIFO used and DMA address is aligned on 256 bit.This register is an image of one of MCSPI_TX(i) register corresponding to the channel which have its FIFO enabled." hexmask.long 0x4 0.--31. 1. "DAFTDATA,FIFO Data to transmit with DMA 256 bit aligned address This Register is only is used when MCSPI_MODULCTRL[FDAA] is set to 1 and only one of the MCSPI_CH[i]CONF[FFEW] of enabled channels is set If these conditions are not respected any access to.." rgroup.long 0x1A0++0x3 line.long 0x0 "CFG_DAFRX,This register contains the SPI words to received on the serial link when FIFO used and DMA address is aligned on 256 bit.This register is an image of one of MCSPI_RX(i) register corresponding to the channel which have its FIFO enabled." hexmask.long 0x0 0.--31. 1. "DAFRDATA,FIFO Data to transmit with DMA 256 bit aligned address This Register is only is used when MCSPI_MODULCTRL[FDAA] is set to 1 and only one of the MCSPI_CH[i]CONF[FFEW] of enabled channels is set If these conditions are not respected any access to.." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_DCC0 (MCU_DCC0)" base ad:0x4C00000 group.long 0x0++0x3 line.long 0x0 "CFG_DCCGCTRL,Starts / stops the counters. Clears the error signal." hexmask.long.byte 0x0 12.--15. 1. "DONEENA,The DONEENA bit enables/disables the done interrupt signal but has no effect on the done status flag in DCCSTAT register. User privilege and debug mode (read): 0101 = the done signal is disabled others = the done signal is enabled Privilege.." hexmask.long.byte 0x0 8.--11. 1. "SINGLESHOT,The SINGLESHOT bit enables/disables repetitive operation of the DCC. User privilege and debug mode (read): 1010 = stop counting when counter0 and valid0 both reach zero 1011 = stop counting when counter1 reaches zero others = continuously.." newline hexmask.long.byte 0x0 4.--7. 1. "ERRENA,The ERRENA bit enables/disables the error signal. User privilege and debug mode (read): 0101 = the error signal is disabled others = the error signal is enabled Privilege and debug mode (write): 0101 = disable error signal generation others =.." hexmask.long.byte 0x0 0.--3. 1. "DCCENA,The DCCENA bit starts and stops the operation of the dcc. User privilege and debug mode (read): 0101 = counters are stopped others = counters are running Privilege and debug mode (write): 0101 = stop counters and error-checking others = load the.." rgroup.long 0x4++0x3 line.long 0x0 "CFG_DCCREV,Specifies the module version." bitfld.long 0x0 30.--31. "SCHEME,User privilege and debug mode (read): Returns 01. Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Reflects software-compatability. If there is no level of software compatability a unique func number is assigned; for compatible modules the same number is maintained. User privilege and debug mode (read): 0x0 Privilege and debug mode (write):.." newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Incremented for releases due to spec changes or post-release design changes. Reset to 0 when either MAJOR or MINOR is incremented. User privilege and debug mode (read): 0x1 Privilege and debug mode (write): Writes have no effect." bitfld.long 0x0 8.--10. "MAJOR,Represents major changes to the module (e.g. entirely new features are added/changed). The major revision number for this module. User privilege and debug mode (read): 0x2 Privilege and debug mode (write): Writes have no effect." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version of the module. May not be supported by standard software. User privilege and debug mode (read): 0x0 Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Represents minor changes to the module (e.g. enhancements to existing features). The minor revision number for this module. User privilege and debug mode (read): 0x4 Privilege and debug mode (write): Writes have no effect." group.long 0x8++0xF line.long 0x0 "CFG_DCCCNTSEED0,Seed value for the counter attached to clock source 0" hexmask.long.tbyte 0x0 0.--19. 1. "COUNTSEED0,This field contains the seed value that gets loaded into counter 0 (clock source 0). User privilege and debug mode (read): Returns the current seed value for counter 0. Privilege and debug mode (write): Sets the current seed value for.." line.long 0x4 "CFG_DCCVALIDSEED0,Seed value for the timeout counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALIDSEED0,This field contains the seed value that gets loaded into the valid duration counter for clock source 0. User privilege and debug mode (read): Returns the current seed value for VALID0. Privilege and debug mode (write): Sets the current seed.." line.long 0x8 "CFG_DCCCNTSEED1,Seed value for the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNTSEED1,This field contains the seed value that gets loaded into counter 1 (clock source 1). User privilege and debug mode (read): Returns the current seed value for counter 1. Privilege and debug mode (write): Sets the current seed value for.." line.long 0xC "CFG_DCCSTAT,Specifies the status of the DCC Module." bitfld.long 0xC 1. "DONEFLG,Indicates when single-shot mode is complete without error. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = single-shot mode is not done 1 = single-shot mode is done Privilege and debug mode (write): 0 = no.." "0: no effect,1: clear the done flag" bitfld.long 0xC 0. "ERRFLG,Indicates whether or not an error has occured. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = an error has not occurred 1 = an error has occurred Privilege and debug mode (write): 0 = no effect 1 = clear the.." "0: no effect,1: clear the error flag" rgroup.long 0x18++0xB line.long 0x0 "CFG_DCCCNT0,Value of the counter attached to clock source 0." hexmask.long.tbyte 0x0 0.--19. 1. "COUNT0,This field contains the current value of counter 0. User privilege and debug mode (read): Returns the current value for counter 0. Privilege and debug mode (write): Writes have no effect. NOTE - Reads of the counter value may not be exact since.." line.long 0x4 "CFG_DCCVALID0,Value of the valid counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALID0,This field contains the current value of valid counter 0. User privilege and debug mode (read): Returns the current value for valid counter 0. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be.." line.long 0x8 "CFG_DCCCNT1,Value of the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNT1,This field contains the current value of counter 1. User privilege and debug mode (read): Returns the current value for counter 1. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be exact since.." group.long 0x24++0xB line.long 0x0 "CFG_DCCCLKSRC1,Selects the clock source for counter 1." hexmask.long.byte 0x0 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 1. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x0 0.--4. 1. "CLKSRC1,This field specifies the clock source for counter 1 when the KEY field enables this feature. User privilege and debug mode (read): Returns the current value of CLKSRC. Privilege and debug mode (write): Sets the value of CLKSRC. NOTE: DCC does.." line.long 0x4 "CFG_DCCCLKSRC0,Selects the clock source for counter 0." hexmask.long.byte 0x4 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 0. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x4 0.--3. 1. "CLKSRC0,This field specifies the clock source for counter 0. User privilege and debug mode (read): Returns the current value of CLKSRC0. Privilege and debug mode (write): Sets the value of CLKSRC0. NOTE: DCC does not generate an error when the clock.." line.long 0x8 "CFG_DCCGCTRL2,Allows configuring different modes of operation for DCC." hexmask.long.byte 0x8 8.--11. 1. "FIFO_NONERR,Enables/disables FIFO writes without the error event on completion of comparison window. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." hexmask.long.byte 0x8 4.--7. 1. "FIFO_READ,Enables the counter read registers reflect FIFO output instead of the live counter value. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." newline hexmask.long.byte 0x8 0.--3. 1. "CONT_ON_ERR,Continues to next window of comparison despite the error condition. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Enable values: 0101: Comparison and.." rgroup.long 0x30++0x3 line.long 0x0 "CFG_DCCSTATUS2,Specifies the status of the DCC FIFOs." bitfld.long 0x0 5. "COUNT1_FIFO_FULL,Count1 FIFO Full. Indicates whether Count1 FIFO is full. User privilege and debug mode (read): 0: Count1 FIFO is not full 1: Count1 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not full,1: Count1 FIFO is full" bitfld.long 0x0 4. "VALID0_FIFO_FULL,Valid0 FIFO Full. Indicates whether Valid0 FIFO is full. User privilege and debug mode (read): 0: Valid0 FIFO is not full 1: Valid0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not full,1: Valid0 FIFO is full" newline bitfld.long 0x0 3. "COUNT0_FIFO_FULL,Count0 FIFO Full. Indicates whether Count0 FIFO is full. User privilege and debug mode (read): 0: Count0 FIFO is not full 1: Count0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not full,1: Count0 FIFO is full" bitfld.long 0x0 2. "COUNT1_FIFO_EMPTY,Count1 FIFO Empty. Indicates whether Count1 FIFO is empty. User privilege and debug mode (read): 0: Count1 FIFO is not empty 1: Count1 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not empty,1: Count1 FIFO is empty" newline bitfld.long 0x0 1. "VALID0_FIFO_EMPTY,Valid0 FIFO Empty. Indicates whether Valid0 FIFO is empty. User privilege and debug mode (read): 0: Valid0 FIFO is not empty 1: Valid0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not empty,1: Valid0 FIFO is empty" bitfld.long 0x0 0. "COUNT0_FIFO_EMPTY,Count0 FIFO Empty. Indicates whether Count0 FIFO is empty. User privilege and debug mode (read): 0: Count0 FIFO is not empty 1: Count0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not empty,1: Count0 FIFO is empty" group.long 0x34++0x3 line.long 0x0 "CFG_DCCERRCNT,Counts number of errors since last clear." hexmask.long.word 0x0 0.--9. 1. "ERRCNT,Counts the number of errors after the last write to this register or reset. If reached terminal count the count freezes. User needs to clear it." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_DCC1 (MCU_DCC1)" base ad:0x4C10000 group.long 0x0++0x3 line.long 0x0 "CFG_DCCGCTRL,Starts / stops the counters. Clears the error signal." hexmask.long.byte 0x0 12.--15. 1. "DONEENA,The DONEENA bit enables/disables the done interrupt signal but has no effect on the done status flag in DCCSTAT register. User privilege and debug mode (read): 0101 = the done signal is disabled others = the done signal is enabled Privilege.." hexmask.long.byte 0x0 8.--11. 1. "SINGLESHOT,The SINGLESHOT bit enables/disables repetitive operation of the DCC. User privilege and debug mode (read): 1010 = stop counting when counter0 and valid0 both reach zero 1011 = stop counting when counter1 reaches zero others = continuously.." newline hexmask.long.byte 0x0 4.--7. 1. "ERRENA,The ERRENA bit enables/disables the error signal. User privilege and debug mode (read): 0101 = the error signal is disabled others = the error signal is enabled Privilege and debug mode (write): 0101 = disable error signal generation others =.." hexmask.long.byte 0x0 0.--3. 1. "DCCENA,The DCCENA bit starts and stops the operation of the dcc. User privilege and debug mode (read): 0101 = counters are stopped others = counters are running Privilege and debug mode (write): 0101 = stop counters and error-checking others = load the.." rgroup.long 0x4++0x3 line.long 0x0 "CFG_DCCREV,Specifies the module version." bitfld.long 0x0 30.--31. "SCHEME,User privilege and debug mode (read): Returns 01. Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Reflects software-compatability. If there is no level of software compatability a unique func number is assigned; for compatible modules the same number is maintained. User privilege and debug mode (read): 0x0 Privilege and debug mode (write):.." newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Incremented for releases due to spec changes or post-release design changes. Reset to 0 when either MAJOR or MINOR is incremented. User privilege and debug mode (read): 0x1 Privilege and debug mode (write): Writes have no effect." bitfld.long 0x0 8.--10. "MAJOR,Represents major changes to the module (e.g. entirely new features are added/changed). The major revision number for this module. User privilege and debug mode (read): 0x2 Privilege and debug mode (write): Writes have no effect." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version of the module. May not be supported by standard software. User privilege and debug mode (read): 0x0 Privilege and debug mode (write): Writes have no effect." "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Represents minor changes to the module (e.g. enhancements to existing features). The minor revision number for this module. User privilege and debug mode (read): 0x4 Privilege and debug mode (write): Writes have no effect." group.long 0x8++0xF line.long 0x0 "CFG_DCCCNTSEED0,Seed value for the counter attached to clock source 0" hexmask.long.tbyte 0x0 0.--19. 1. "COUNTSEED0,This field contains the seed value that gets loaded into counter 0 (clock source 0). User privilege and debug mode (read): Returns the current seed value for counter 0. Privilege and debug mode (write): Sets the current seed value for.." line.long 0x4 "CFG_DCCVALIDSEED0,Seed value for the timeout counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALIDSEED0,This field contains the seed value that gets loaded into the valid duration counter for clock source 0. User privilege and debug mode (read): Returns the current seed value for VALID0. Privilege and debug mode (write): Sets the current seed.." line.long 0x8 "CFG_DCCCNTSEED1,Seed value for the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNTSEED1,This field contains the seed value that gets loaded into counter 1 (clock source 1). User privilege and debug mode (read): Returns the current seed value for counter 1. Privilege and debug mode (write): Sets the current seed value for.." line.long 0xC "CFG_DCCSTAT,Specifies the status of the DCC Module." bitfld.long 0xC 1. "DONEFLG,Indicates when single-shot mode is complete without error. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = single-shot mode is not done 1 = single-shot mode is done Privilege and debug mode (write): 0 = no.." "0: no effect,1: clear the done flag" bitfld.long 0xC 0. "ERRFLG,Indicates whether or not an error has occured. Writing a 1 to this bit clears the flag. User privilege and debug mode (read): 0 = an error has not occurred 1 = an error has occurred Privilege and debug mode (write): 0 = no effect 1 = clear the.." "0: no effect,1: clear the error flag" rgroup.long 0x18++0xB line.long 0x0 "CFG_DCCCNT0,Value of the counter attached to clock source 0." hexmask.long.tbyte 0x0 0.--19. 1. "COUNT0,This field contains the current value of counter 0. User privilege and debug mode (read): Returns the current value for counter 0. Privilege and debug mode (write): Writes have no effect. NOTE - Reads of the counter value may not be exact since.." line.long 0x4 "CFG_DCCVALID0,Value of the valid counter attached to clock source 0." hexmask.long.word 0x4 0.--15. 1. "VALID0,This field contains the current value of valid counter 0. User privilege and debug mode (read): Returns the current value for valid counter 0. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be.." line.long 0x8 "CFG_DCCCNT1,Value of the counter attached to clock source 1." hexmask.long.tbyte 0x8 0.--19. 1. "COUNT1,This field contains the current value of counter 1. User privilege and debug mode (read): Returns the current value for counter 1. Privilege and debug mode (write): writes have no effect. NOTE - Reads of the counter value may not be exact since.." group.long 0x24++0xB line.long 0x0 "CFG_DCCCLKSRC1,Selects the clock source for counter 1." hexmask.long.byte 0x0 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 1. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x0 0.--4. 1. "CLKSRC1,This field specifies the clock source for counter 1 when the KEY field enables this feature. User privilege and debug mode (read): Returns the current value of CLKSRC. Privilege and debug mode (write): Sets the value of CLKSRC. NOTE: DCC does.." line.long 0x4 "CFG_DCCCLKSRC0,Selects the clock source for counter 0." hexmask.long.byte 0x4 12.--15. 1. "KEY,This field enables or disables clock source selection for counter 0. User privilege and debug mode (read): Returns the current value of the key. Privilege and debug mode (write): Sets the key value. Key values: 1010: The CLKSRC field selects the.." hexmask.long.byte 0x4 0.--3. 1. "CLKSRC0,This field specifies the clock source for counter 0. User privilege and debug mode (read): Returns the current value of CLKSRC0. Privilege and debug mode (write): Sets the value of CLKSRC0. NOTE: DCC does not generate an error when the clock.." line.long 0x8 "CFG_DCCGCTRL2,Allows configuring different modes of operation for DCC." hexmask.long.byte 0x8 8.--11. 1. "FIFO_NONERR,Enables/disables FIFO writes without the error event on completion of comparison window. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." hexmask.long.byte 0x8 4.--7. 1. "FIFO_READ,Enables the counter read registers reflect FIFO output instead of the live counter value. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Source values:.." newline hexmask.long.byte 0x8 0.--3. 1. "CONT_ON_ERR,Continues to next window of comparison despite the error condition. User privilege and debug mode (read): Returns the current field value. Privilege and debug mode (write): Sets the value of field value. Enable values: 0101: Comparison and.." rgroup.long 0x30++0x3 line.long 0x0 "CFG_DCCSTATUS2,Specifies the status of the DCC FIFOs." bitfld.long 0x0 5. "COUNT1_FIFO_FULL,Count1 FIFO Full. Indicates whether Count1 FIFO is full. User privilege and debug mode (read): 0: Count1 FIFO is not full 1: Count1 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not full,1: Count1 FIFO is full" bitfld.long 0x0 4. "VALID0_FIFO_FULL,Valid0 FIFO Full. Indicates whether Valid0 FIFO is full. User privilege and debug mode (read): 0: Valid0 FIFO is not full 1: Valid0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not full,1: Valid0 FIFO is full" newline bitfld.long 0x0 3. "COUNT0_FIFO_FULL,Count0 FIFO Full. Indicates whether Count0 FIFO is full. User privilege and debug mode (read): 0: Count0 FIFO is not full 1: Count0 FIFO is full. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not full,1: Count0 FIFO is full" bitfld.long 0x0 2. "COUNT1_FIFO_EMPTY,Count1 FIFO Empty. Indicates whether Count1 FIFO is empty. User privilege and debug mode (read): 0: Count1 FIFO is not empty 1: Count1 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count1 FIFO is not empty,1: Count1 FIFO is empty" newline bitfld.long 0x0 1. "VALID0_FIFO_EMPTY,Valid0 FIFO Empty. Indicates whether Valid0 FIFO is empty. User privilege and debug mode (read): 0: Valid0 FIFO is not empty 1: Valid0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Valid0 FIFO is not empty,1: Valid0 FIFO is empty" bitfld.long 0x0 0. "COUNT0_FIFO_EMPTY,Count0 FIFO Empty. Indicates whether Count0 FIFO is empty. User privilege and debug mode (read): 0: Count0 FIFO is not empty 1: Count0 FIFO is empty. Privilege and debug mode (write): Writes have no effect." "0: Count0 FIFO is not empty,1: Count0 FIFO is empty" group.long 0x34++0x3 line.long 0x0 "CFG_DCCERRCNT,Counts number of errors since last clear." hexmask.long.word 0x0 0.--9. 1. "ERRCNT,Counts the number of errors after the last write to this register or reset. If reached terminal count the count freezes. User needs to clear it." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_PBIST0 (MCU_PBIST0)" base ad:0x4F00000 group.long 0x0++0x7F line.long 0x0 "MEM_RF0L," hexmask.long 0x0 0.--31. 1. "RF0L,Register Files / Instruction Registers RF0 lower (RF0L)" line.long 0x4 "MEM_RF1L," hexmask.long 0x4 0.--31. 1. "RF1L,Register Files / Instruction Registers RF1 lower (RF1L)" line.long 0x8 "MEM_RF2L," hexmask.long 0x8 0.--31. 1. "RF2L,Register Files / Instruction Registers RF2 lower (RF2L)" line.long 0xC "MEM_RF3L," hexmask.long 0xC 0.--31. 1. "RF3L,Register Files / Instruction Registers RF3 lower (RF3L)" line.long 0x10 "MEM_RF4L," hexmask.long 0x10 0.--31. 1. "RF4L,Register Files / Instruction Registers RF4 lower (RF4L)" line.long 0x14 "MEM_RF5L," hexmask.long 0x14 0.--31. 1. "RF5L,Register Files / Instruction Registers RF5 lower (RF5L)" line.long 0x18 "MEM_RF6L," hexmask.long 0x18 0.--31. 1. "RF6L,Register Files / Instruction Registers RF6 lower (RF6L)" line.long 0x1C "MEM_RF7L," hexmask.long 0x1C 0.--31. 1. "RF7L,Register Files / Instruction Registers RF7 lower (RF7L)" line.long 0x20 "MEM_RF8L," hexmask.long 0x20 0.--31. 1. "RF8L,Register Files / Instruction Registers RF8 lower (RF8L)" line.long 0x24 "MEM_RF9L," hexmask.long 0x24 0.--31. 1. "RF9L,Register Files / Instruction Registers RF9 lower (RF9L)" line.long 0x28 "MEM_RF10L," hexmask.long 0x28 0.--31. 1. "RF10L,Register Files / Instruction Registers RF10 lower (RF10L)" line.long 0x2C "MEM_RF11L," hexmask.long 0x2C 0.--31. 1. "RF11L,Register Files / Instruction Registers RF11 lower (RF11L)" line.long 0x30 "MEM_RF12L," hexmask.long 0x30 0.--31. 1. "RF12L,Register Files / Instruction Registers RF12 lower (RF12L)" line.long 0x34 "MEM_RF13L," hexmask.long 0x34 0.--31. 1. "RF13L,Register Files / Instruction Registers RF13 lower (RF13L)" line.long 0x38 "MEM_RF14L," hexmask.long 0x38 0.--31. 1. "RF14L,Register Files / Instruction Registers RF14 lower (RF14L)" line.long 0x3C "MEM_RF15L," hexmask.long 0x3C 0.--31. 1. "RF15L,Register Files / Instruction Registers RF15 lower (RF15L)" line.long 0x40 "MEM_RF0U," hexmask.long 0x40 0.--31. 1. "RF0U,Register Files / Instruction Registers RF0 upper (RF0U)" line.long 0x44 "MEM_RF1U," hexmask.long 0x44 0.--31. 1. "RF1U,Register Files / Instruction Registers RF1 upper (RF1U)" line.long 0x48 "MEM_RF2U," hexmask.long 0x48 0.--31. 1. "RF2U,Register Files / Instruction Registers RF2 upper (RF2U)" line.long 0x4C "MEM_RF3U," hexmask.long 0x4C 0.--31. 1. "RF3U,Register Files / Instruction Registers RF3 upper (RF3U)" line.long 0x50 "MEM_RF4U," hexmask.long 0x50 0.--31. 1. "RF4U,Register Files / Instruction Registers RF4 upper (RF4U)" line.long 0x54 "MEM_RF5U," hexmask.long 0x54 0.--31. 1. "RF5U,Register Files / Instruction Registers RF5 upper (RF5U)" line.long 0x58 "MEM_RF6U," hexmask.long 0x58 0.--31. 1. "RF6U,Register Files / Instruction Registers RF6 upper (RF6U)" line.long 0x5C "MEM_RF7U," hexmask.long 0x5C 0.--31. 1. "RF7U,Register Files / Instruction Registers RF7 upper (RF7U)" line.long 0x60 "MEM_RF8U," hexmask.long 0x60 0.--31. 1. "RF8U,Register Files / Instruction Registers RF8 upper (RF8U)" line.long 0x64 "MEM_RF9U," hexmask.long 0x64 0.--31. 1. "RF9U,Register Files / Instruction Registers RF9 upper (RF9U)" line.long 0x68 "MEM_RF10U," hexmask.long 0x68 0.--31. 1. "RF10U,Register Files / Instruction Registers RF10 upper (RF10U)" line.long 0x6C "MEM_RF11U," hexmask.long 0x6C 0.--31. 1. "RF11U,Register Files / Instruction Registers RF11 upper (RF11U)" line.long 0x70 "MEM_RF12U," hexmask.long 0x70 0.--31. 1. "RF12U,Register Files / Instruction Registers RF12 upper (RF12U)" line.long 0x74 "MEM_RF13U," hexmask.long 0x74 0.--31. 1. "RF13U,Register Files / Instruction Registers RF13 upper (RF13U)" line.long 0x78 "MEM_RF14U," hexmask.long 0x78 0.--31. 1. "RF14U,Register Files / Instruction Registers RF14 upper (RF14U)" line.long 0x7C "MEM_RF15U," hexmask.long 0x7C 0.--31. 1. "RF15U,Register Files / Instruction Registers RF15 upper (RF15U)" group.long 0x100++0x27 line.long 0x0 "MEM_A0," hexmask.long.word 0x0 0.--15. 1. "A0,Variable Address Register 0 (A0)" line.long 0x4 "MEM_A1," hexmask.long.word 0x4 0.--15. 1. "A1,Variable Address Register 1 (A1)" line.long 0x8 "MEM_A2," hexmask.long.word 0x8 0.--15. 1. "A2,Variable Address Register 2 (A2)" line.long 0xC "MEM_A3," hexmask.long.word 0xC 0.--15. 1. "A3,Variable Address Register 3 (A3)" line.long 0x10 "MEM_L0," hexmask.long.word 0x10 0.--15. 1. "L0,Variable Loop Count Register 0 (L0)" line.long 0x14 "MEM_L1," hexmask.long.word 0x14 0.--15. 1. "L1,Variable Loop Count Register 1 (L1)" line.long 0x18 "MEM_L2," hexmask.long.word 0x18 0.--15. 1. "L2,Variable Loop Count Register 2 (L2)" line.long 0x1C "MEM_L3," hexmask.long.word 0x1C 0.--15. 1. "L3,Variable Loop Count Register 3 (L3)" line.long 0x20 "MEM_D," hexmask.long.word 0x20 16.--31. 1. "D1,DD1 Data Register Upper 16 (D1)" hexmask.long.word 0x20 0.--15. 1. "D0,DD0 Data Register Lower 16 (D0)" line.long 0x24 "MEM_E," hexmask.long.word 0x24 16.--31. 1. "E1,EE1 Data Register Upper 16 (E1)" hexmask.long.word 0x24 0.--15. 1. "E0,EE0 Data Register Lower 16 (E0)" group.long 0x130++0x3F line.long 0x0 "MEM_CA0," hexmask.long.word 0x0 0.--15. 1. "CA0,Constant Address Register 0 (CA0)" line.long 0x4 "MEM_CA1," hexmask.long.word 0x4 0.--15. 1. "CA1,Constant Address Register 1 (CA1)" line.long 0x8 "MEM_CA2," hexmask.long.word 0x8 0.--15. 1. "CA2,Constant Address Register 2 (CA2)" line.long 0xC "MEM_CA3," hexmask.long.word 0xC 0.--15. 1. "CA3,Constant Address Register 3 (CA3)" line.long 0x10 "MEM_CL0," hexmask.long.word 0x10 0.--15. 1. "CL0,Constant Loop Count Register 0 (CL0)" line.long 0x14 "MEM_CL1," hexmask.long.word 0x14 0.--15. 1. "CL1,Constant Loop Count Register 1 (CL1)" line.long 0x18 "MEM_CL2," hexmask.long.word 0x18 0.--15. 1. "CL2,Constant Loop Count Register 2 (CL2)" line.long 0x1C "MEM_CL3," hexmask.long.word 0x1C 0.--15. 1. "CL3,Constant Loop Count Register 3 (CL3)" line.long 0x20 "MEM_I0," hexmask.long.word 0x20 0.--15. 1. "I0,Constant Increment Register 0 (I0)" line.long 0x24 "MEM_I1," hexmask.long.word 0x24 0.--15. 1. "I0,Constant Increment Register 1 (I1)" line.long 0x28 "MEM_I2," hexmask.long.word 0x28 0.--15. 1. "I0,Constant Increment Register 2 (I2)" line.long 0x2C "MEM_I3," hexmask.long.word 0x2C 0.--15. 1. "I0,Constant Increment Register 3 (I3)" line.long 0x30 "MEM_RAMT," hexmask.long.byte 0x30 24.--31. 1. "RGS,RAM Group Select RGS" hexmask.long.byte 0x30 16.--23. 1. "RDS,Return Data select RDS" hexmask.long.byte 0x30 8.--15. 1. "DWR,Data Width Register DWR" hexmask.long.byte 0x30 2.--5. 1. "PLS,Pipeline Latency Select" bitfld.long 0x30 0.--1. "RLS,RAM Latency Select" "0,1,2,3" line.long 0x34 "MEM_DLR," hexmask.long.byte 0x34 16.--23. 1. "BRP,Datalogger 2 (BRP)" bitfld.long 0x34 10. "DLR1_RTM,Retention testing mode" "0,1" bitfld.long 0x34 9. "DLR1_GNG,GO / NO-GO testing mode" "0,1" bitfld.long 0x34 8. "DLR1_MISR,MISR testing mode (mainly for ROM testing)" "0,1" bitfld.long 0x34 7. "DLR0_TSM,Time stamp mode" "0,1" newline bitfld.long 0x34 6. "DLR0_CFMM,Column Fail Masking mode" "0,1" bitfld.long 0x34 5. "DLR0_ECAM,Emulation cache access mode" "0,1" bitfld.long 0x34 4. "DLR0_CAM,Config access mode" "0,1" bitfld.long 0x34 3. "DLR0_TCK,TCK Gated mode" "0,1" bitfld.long 0x34 2. "DLR0_ROM,ROM-based testing mode" "0,1" newline bitfld.long 0x34 1. "DLR0_IDDQ,IDDQ testing mode" "0,1" bitfld.long 0x34 0. "DLR0_DCM,Distributed Compare mode" "0,1" line.long 0x38 "MEM_CMS," hexmask.long.byte 0x38 0.--3. 1. "CMS,Clock Mux Select (CMS)" line.long 0x3C "MEM_STR," bitfld.long 0x3C 4. "CHK,Check MISR mode" "0,1" bitfld.long 0x3C 3. "STEP,Step / Step for emulation mode" "0,1" bitfld.long 0x3C 2. "STOP,Stop" "0,1" bitfld.long 0x3C 1. "RES,Resume / Emulation read" "0,1" bitfld.long 0x3C 0. "START,Start / Time Stamp mode restart" "0,1" group.quad 0x170++0x7 line.quad 0x0 "MEM_SCR," hexmask.quad.byte 0x0 56.--63. 1. "SCR7,Address Scrambling Register 7" hexmask.quad.byte 0x0 48.--55. 1. "SCR6,Address Scrambling Register 6" hexmask.quad.byte 0x0 40.--47. 1. "SCR5,Address Scrambling Register 5" hexmask.quad.byte 0x0 32.--39. 1. "SCR4,Address Scrambling Register 4" hexmask.quad.byte 0x0 24.--31. 1. "SCR3,Address Scrambling Register 3" newline hexmask.quad.byte 0x0 16.--23. 1. "SCR2,Address Scrambling Register 2" hexmask.quad.byte 0x0 8.--15. 1. "SCR1,Address Scrambling Register 1" hexmask.quad.byte 0x0 0.--7. 1. "SCR0,Address Scrambling Register 0" group.long 0x178++0x13 line.long 0x0 "MEM_CSR," hexmask.long.byte 0x0 24.--31. 1. "CSR3,Chip Select 3 (CSR3)" hexmask.long.byte 0x0 16.--23. 1. "CSR2,Chip Select 2 (CSR2)" hexmask.long.byte 0x0 8.--15. 1. "CSR1,Chip Select 1(CSR1)" hexmask.long.byte 0x0 0.--7. 1. "CSR0,Chip Select 0 (CSR0)" line.long 0x4 "MEM_FDLY," hexmask.long.byte 0x4 0.--7. 1. "FDLY,Fail Delay (FDLY)" line.long 0x8 "MEM_PACT," bitfld.long 0x8 0. "PACT,PBIST Activate (PACT)" "0,1" line.long 0xC "MEM_PID," hexmask.long.byte 0xC 0.--4. 1. "PID,PBIST ID" line.long 0x10 "MEM_OVER," bitfld.long 0x10 3. "ALGO,PBIST Override Algorithm Override" "0,1" bitfld.long 0x10 2. "MM,PBIST Override Multiple Memory" "0,1" bitfld.long 0x10 1. "READ,PBIST Override READ Override" "0,1" bitfld.long 0x10 0. "RINFO,PBIST Override RINFO Override" "0,1" rgroup.quad 0x190++0x17 line.quad 0x0 "MEM_FSRF," bitfld.quad 0x0 32. "FRSF1,Fail Status Fail - Port 1 (FSRF1)" "0,1" bitfld.quad 0x0 0. "FRSF0,Fail Status Fail - Port 0 (FSRF0)" "0,1" line.quad 0x8 "MEM_FSRC," hexmask.quad.byte 0x8 32.--35. 1. "FSRC1,Fail Status Count - Port 1 (FSRC1)" hexmask.quad.byte 0x8 0.--3. 1. "FSRC0,Fail Status Count - Port 0 (FSRC0)" line.quad 0x10 "MEM_FSRA," hexmask.quad.word 0x10 32.--47. 1. "FSRA1,Fail Status Address - Port 1 (FSRA1)" hexmask.quad.word 0x10 0.--15. 1. "FSRA0,Fail Status Address - Port 0 (FSRA0)" rgroup.long 0x1A8++0x3 line.long 0x0 "MEM_FSRDL0," hexmask.long 0x0 0.--31. 1. "FSRDL0,Fail Status Data - Port 0 (FSRDL0)" rgroup.long 0x1B0++0xF line.long 0x0 "MEM_FSRDL1," hexmask.long 0x0 0.--31. 1. "FSRDL1,Fail Status Data - Port 1 (FSRDL1)" line.long 0x4 "MEM_MARGIN_MODE," bitfld.long 0x4 2.--3. "PBIST_DFT_READ,pbist_dft_read[1:0]" "0,1,2,3" bitfld.long 0x4 0.--1. "PBIST_DFT_WRITE,pbist_dft_write[1:0]" "0,1,2,3" line.long 0x8 "MEM_WRENZ," bitfld.long 0x8 0.--1. "WRENZ,pbist_ram_wrenz[1:0]" "0,1,2,3" line.long 0xC "MEM_PAGE_PGS," bitfld.long 0xC 0.--1. "PGS,pbist_ram_pgs[1:0]" "0,1,2,3" group.long 0x1C0++0x7 line.long 0x0 "MEM_ROM," bitfld.long 0x0 0.--1. "ROM,ROM Mask (ROM)" "0,1,2,3" line.long 0x4 "MEM_ALGO," hexmask.long.byte 0x4 24.--31. 1. "ALGO_3,ROM Algorithm Mask 3 (ALGO 3)" hexmask.long.byte 0x4 16.--23. 1. "ALGO_2,ROM Algorithm Mask 2 (ALGO 2)" hexmask.long.byte 0x4 8.--15. 1. "ALGO_1,ROM Algorithm Mask 1 (ALGO 1)" hexmask.long.byte 0x4 0.--7. 1. "ALGO_0,ROM Algorithm Mask 0 (ALGO 0)" group.quad 0x1C8++0x7 line.quad 0x0 "MEM_RINFO," hexmask.quad.byte 0x0 56.--63. 1. "U3,RAM Info Mask Upper 3 (RINFOU3)" hexmask.quad.byte 0x0 48.--55. 1. "U2,RAM Info Mask Upper 2 (RINFOU2)" hexmask.quad.byte 0x0 40.--47. 1. "U1,RAM Info Mask Upper 1 (RINFOU1)" hexmask.quad.byte 0x0 32.--39. 1. "U0,RAM Info Mask Upper 0 (RINFOU0)" hexmask.quad.byte 0x0 24.--31. 1. "L3,RAM Info Mask Lower 3 (RINFOL3)" newline hexmask.quad.byte 0x0 16.--23. 1. "L2,RAM Info Mask Lower 2 (RINFOL2)" hexmask.quad.byte 0x0 8.--15. 1. "L1,RAM Info Mask Lower 1 (RINFOL1)" hexmask.quad.byte 0x0 0.--7. 1. "L0,RAM Info Mask Lower 0 (RINFOL0)" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_CBASS0" base ad:0x0 tree "MCU_CBASS0_ERR (MCU_CBASS0_ERR)" base ad:0x4720000 rgroup.long 0x0++0x3 line.long 0x0 "ERR_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "ERR_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." rgroup.long 0x24++0x17 line.long 0x0 "ERR_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type. 7 = CBASS." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID. Always 0." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "ERR_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group. Always 0." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code. 0 = CBASS decode error." line.long 0x8 "ERR_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "ERR_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "ERR_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" newline bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "ERR_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x50++0x13 line.long 0x0 "ERR_REGS_err_intr_raw_stat,The interrupt raw status register indicates if there is null interrupt regardless of interrupt enable" bitfld.long 0x0 0. "INTR,Level Interrupt status" "0,1" line.long 0x4 "ERR_REGS_err_intr_enabled_stat,The interrupt status register is gated by the interrupt enable" bitfld.long 0x4 0. "ENABLED_INTR,Level Enabled Interrupt status" "0,1" line.long 0x8 "ERR_REGS_err_intr_enable_set,Only when this register is set. null access will cause interrupt to be generated." bitfld.long 0x8 0. "INTR_ENABLE_SET,Interrupt Enable Set Register" "0,1" line.long 0xC "ERR_REGS_err_intr_enable_clr,Setting this register disables the null interrupt generation" bitfld.long 0xC 0. "INTR_ENABLE_CLR,Interrupt Enable Clear Register" "0,1" line.long 0x10 "ERR_REGS_err_eoi,Writing to EOI Register indicates that current interrupt has been serviced which then allows next interrupt to be generated" hexmask.long.word 0x10 0.--15. 1. "EOI_WR,End Of Interrupt Register" tree.end tree "MCU_CBASS0_GLB (MCU_CBASS0_GLB)" base ad:0x45B02000 rgroup.long 0x0++0x3 line.long 0x0 "GLB_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" tree.end tree "MCU_CBASS0_ISC (MCU_CBASS0_ISC)" base ad:0x45818000 group.long 0x0++0x3 line.long 0x0 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x10++0x13 line.long 0x0 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_1_control,The ISC Region 1 Control Register defines the control fields for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x30++0x13 line.long 0x0 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_1_start_address_l,The ISC Region 1 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 1 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_1_start_address_h,The ISC Region 1 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 1 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_1_end_address_l,The ISC Region 1 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 1 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_1_end_address_h,The ISC Region 1 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 1 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_2_control,The ISC Region 2 Control Register defines the control fields for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 2 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x50++0x13 line.long 0x0 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_2_start_address_l,The ISC Region 2 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 2 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_2_start_address_h,The ISC Region 2 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 2 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_2_end_address_l,The ISC Region 2 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 2 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_2_end_address_h,The ISC Region 2 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 2 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_3_control,The ISC Region 3 Control Register defines the control fields for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 3 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x70++0x13 line.long 0x0 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_3_start_address_l,The ISC Region 3 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 3 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_3_start_address_h,The ISC Region 3 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 3 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_3_end_address_l,The ISC Region 3 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 3 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_3_end_address_h,The ISC Region 3 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 3 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Ipulsar_uls_mcu_0.cpu0_rmst region 4 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x400++0x3 line.long 0x0 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x410++0x13 line.long 0x0 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_1_control,The ISC Region 1 Control Register defines the control fields for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x430++0x13 line.long 0x0 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_1_start_address_l,The ISC Region 1 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 1 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_1_start_address_h,The ISC Region 1 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 1 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_1_end_address_l,The ISC Region 1 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 1 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_1_end_address_h,The ISC Region 1 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 1 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_2_control,The ISC Region 2 Control Register defines the control fields for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 2 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x450++0x13 line.long 0x0 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_2_start_address_l,The ISC Region 2 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 2 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_2_start_address_h,The ISC Region 2 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 2 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_2_end_address_l,The ISC Region 2 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 2 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_2_end_address_h,The ISC Region 2 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 2 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_3_control,The ISC Region 3 Control Register defines the control fields for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 3 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x470++0x13 line.long 0x0 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_3_start_address_l,The ISC Region 3 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 3 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_3_start_address_h,The ISC Region 3 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 3 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_3_end_address_l,The ISC Region 3 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 3 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_3_end_address_h,The ISC Region 3 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 3 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Ipulsar_uls_mcu_0.cpu0_wmst region 4 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x800++0x3 line.long 0x0 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x810++0x13 line.long 0x0 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_1_control,The ISC Region 1 Control Register defines the control fields for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x830++0x13 line.long 0x0 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_1_start_address_l,The ISC Region 1 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 1 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_1_start_address_h,The ISC Region 1 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 1 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_1_end_address_l,The ISC Region 1 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 1 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_1_end_address_h,The ISC Region 1 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 1 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_2_control,The ISC Region 2 Control Register defines the control fields for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 2 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x850++0x13 line.long 0x0 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_2_start_address_l,The ISC Region 2 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 2 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_2_start_address_h,The ISC Region 2 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 2 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_2_end_address_l,The ISC Region 2 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 2 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_2_end_address_h,The ISC Region 2 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 2 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_3_control,The ISC Region 3 Control Register defines the control fields for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 3 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x870++0x13 line.long 0x0 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_3_start_address_l,The ISC Region 3 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 3 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_3_start_address_h,The ISC Region 3 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 3 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_3_end_address_l,The ISC Region 3 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 3 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_3_end_address_h,The ISC Region 3 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 3 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Ipulsar_uls_mcu_0.cpu0_pmst region 4 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." tree.end tree "MCU_CBASS0_QOS (MCU_CBASS0_QOS)" base ad:0x45D18000 group.long 0x100++0x3 line.long 0x0 "QOS_REGS_Ipulsar_uls_mcu_0_cpu0_rmst_map0,The Map Register defines the fields for the initiator Ipulsar_uls_mcu_0.cpu0_rmst per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x500++0x3 line.long 0x0 "QOS_REGS_Ipulsar_uls_mcu_0_cpu0_wmst_map0,The Map Register defines the fields for the initiator Ipulsar_uls_mcu_0.cpu0_wmst per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x900++0x3 line.long 0x0 "QOS_REGS_Ipulsar_uls_mcu_0_cpu0_pmst_map0,The Map Register defines the fields for the initiator Ipulsar_uls_mcu_0.cpu0_pmst per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" tree.end tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "MCU_CPT2_AGGR0" base ad:0x0 tree "MCU_CPT2_AGGR0_MMR (MCU_CPT2_AGGR0_MMR)" base ad:0x73E180000 rgroup.long 0x0++0x3 line.long 0x0 "MMR__SLV__REGS_AGGREGATOR_ID,This is the standard TI peripheral ID register that exists at address 0 in the preipheral space" bitfld.long 0x0 30.--31. "SCHEME," "0,1,2,3" bitfld.long 0x0 28.--29. "BU," "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION," hexmask.long.byte 0x0 11.--15. 1. "RTL_VER," newline bitfld.long 0x0 8.--10. "MAJOR_REV," "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM," "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV," group.long 0x4++0x7 line.long 0x0 "MMR__SLV__REGS_AGGREGATOR_CNTL,This register contains the controls for serial indrect access and trace processing" hexmask.long.tbyte 0x0 11.--31. 1. "RSVD1," bitfld.long 0x0 9.--10. "CONTINUOUS_READ_NUM," "0,1,2,3" bitfld.long 0x0 8. "CONTINUOUS_READ_MODE," "0,1" hexmask.long.byte 0x0 1.--7. 1. "RSVD0," newline bitfld.long 0x0 0. "TRACE_EN," "0,1" line.long 0x4 "MMR__SLV__REGS_AGGREGATOR_OWN,Module Ownership Control and Status Register" hexmask.long 0x4 3.--31. 1. "RSVD," rbitfld.long 0x4 1.--2. "OWN," "0,1,2,3" bitfld.long 0x4 0. "CLAIM," "0,1" group.long 0x20++0x7 line.long 0x0 "MMR__SLV__REGS_CONT_READ_PORT0,Designates which port (peripheral) is the target of this port. address. data register group" hexmask.long 0x0 5.--31. 1. "RSVD," hexmask.long.byte 0x0 0.--4. 1. "PORT," line.long 0x4 "MMR__SLV__REGS_CONT_READ_ADDR0,Designates the offest (in peripheral space) that is the target of this port. address. data register group" hexmask.long.word 0x4 16.--31. 1. "RSVD," hexmask.long.word 0x4 0.--15. 1. "ADDR," rgroup.long 0x28++0x3 line.long 0x0 "MMR__SLV__REGS_CONT_READ_DATA0,Provides the continuous read data for this port. address. data register group" hexmask.long 0x0 0.--31. 1. "DATA," group.long 0x30++0x7 line.long 0x0 "MMR__SLV__REGS_CONT_READ_PORT1,Designates which port (peripheral) is the target of this port. address. data register group" hexmask.long 0x0 5.--31. 1. "RSVD," hexmask.long.byte 0x0 0.--4. 1. "PORT," line.long 0x4 "MMR__SLV__REGS_CONT_READ_ADDR1,Designates the offest (in peripheral space) that is the target of this port. address. data register group" hexmask.long.word 0x4 16.--31. 1. "RSVD," hexmask.long.word 0x4 0.--15. 1. "ADDR," rgroup.long 0x38++0x3 line.long 0x0 "MMR__SLV__REGS_CONT_READ_DATA1,Provides the continuous read data for this port. address. data register group" hexmask.long 0x0 0.--31. 1. "DATA," group.long 0x40++0x7 line.long 0x0 "MMR__SLV__REGS_CONT_READ_PORT2,Designates which port (peripheral) is the target of this port. address. data register group" hexmask.long 0x0 5.--31. 1. "RSVD," hexmask.long.byte 0x0 0.--4. 1. "PORT," line.long 0x4 "MMR__SLV__REGS_CONT_READ_ADDR2,Designates the offest (in peripheral space) that is the target of this port. address. data register group" hexmask.long.word 0x4 16.--31. 1. "RSVD," hexmask.long.word 0x4 0.--15. 1. "ADDR," rgroup.long 0x48++0x3 line.long 0x0 "MMR__SLV__REGS_CONT_READ_DATA2,Provides the continuous read data for this port. address. data register group" hexmask.long 0x0 0.--31. 1. "DATA," group.long 0x50++0x7 line.long 0x0 "MMR__SLV__REGS_CONT_READ_PORT3,Designates which port (peripheral) is the target of this port. address. data register group" hexmask.long 0x0 5.--31. 1. "RSVD," hexmask.long.byte 0x0 0.--4. 1. "PORT," line.long 0x4 "MMR__SLV__REGS_CONT_READ_ADDR3,Designates the offest (in peripheral space) that is the target of this port. address. data register group" hexmask.long.word 0x4 16.--31. 1. "RSVD," hexmask.long.word 0x4 0.--15. 1. "ADDR," rgroup.long 0x58++0x3 line.long 0x0 "MMR__SLV__REGS_CONT_READ_DATA3,Provides the continuous read data for this port. address. data register group" hexmask.long 0x0 0.--31. 1. "DATA," tree.end tree "MCU_CPT2_AGGR0_STP2ATB_CFG (MCU_CPT2_AGGR0_STP2ATB_CFG)" base ad:0x73E180100 group.long 0x0++0x7 line.long 0x0 "VBUSP2APB_WRAP__STP2ATB_VBUS__CFG_REGS_STP_TRACE_CONTROL,This register contains the control and status settings for STP Trace control register. MID_Fifofull indicates status of internal Initiator/Channel Fifo as full. Data_Fifofull indicates the status.." hexmask.long.byte 0x0 25.--31. 1. "RSVD3," rbitfld.long 0x0 24. "MID_FIFO_FUL," "0,1" rbitfld.long 0x0 23. "DATA_FIFO_FULL," "0,1" hexmask.long.tbyte 0x0 6.--22. 1. "RSVD2," newline bitfld.long 0x0 5. "COMPEN," "0,1" rbitfld.long 0x0 3.--4. "RSVD1," "0,1,2,3" rbitfld.long 0x0 2. "SNCEN," "0,1" bitfld.long 0x0 1. "TSEN," "0,1" newline rbitfld.long 0x0 0. "RSVD0," "0,1" line.long 0x4 "VBUSP2APB_WRAP__STP2ATB_VBUS__CFG_REGS_STP_TRACE_ID,This register contains the trace id register settings. This value is sampled from input and is exported on ATB interface as ATID field. This is usually programmed only when top-level configuration.." hexmask.long 0x4 7.--31. 1. "RSVD," hexmask.long.byte 0x4 0.--6. 1. "TRACEID," group.long 0x10++0x7 line.long 0x0 "VBUSP2APB_WRAP__STP2ATB_VBUS__CFG_REGS_STP_SYNC_CONTROL,This register contains the periodic interval after which an ASYNC packet is exported over ATB interface. This counter register controls the interval between synchronization packets. The number of.." hexmask.long.tbyte 0x0 13.--31. 1. "RSVD," bitfld.long 0x0 12. "MODE," "0,1" hexmask.long.word 0x0 0.--11. 1. "COUNT," line.long 0x4 "VBUSP2APB_WRAP__STP2ATB_VBUS__CFG_REGS_STP_FLUSH_CONTROL,This register contains the bits to indicate flush in STPMI2ATB. It also controls priority control for other conditions in STPMI2ATB." hexmask.long 0x4 6.--31. 1. "RSVD1," bitfld.long 0x4 5. "FORCE_FLUSH," "0,1" rbitfld.long 0x4 2.--4. "RSVD0," "0,1,2,3,4,5,6,7" bitfld.long 0x4 1. "ASYNC_PE," "0,1" newline bitfld.long 0x4 0. "AUTO_FLUSH," "0,1" rgroup.long 0x18++0x3 line.long 0x0 "VBUSP2APB_WRAP__STP2ATB_VBUS__CFG_REGS_STP_FEATURES,This register contains the bits to indicate the features implemented in STPMI2ATB. It shows the VERSION packet implemented based on STP2.0 type of encoding timestamp packet. It also indicates what.." hexmask.long 0x0 7.--31. 1. "RSVD," bitfld.long 0x0 4.--6. "STP_TS_VERSION," "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 0.--3. 1. "PROT," tree.end tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_ECC" base ad:0x0 tree "MCU_ECC_AGGR0_ECC_AGGR (MCU_ECC_AGGR0_ECC_AGGR)" base ad:0x4703000 rgroup.long 0x0++0x3 line.long 0x0 "REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0xB line.long 0x0 "REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 31. "AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_EDC_CTRL_BUSECC_0_PEND,Interrupt Pending Status for am67_mcu_cbass_SCRP_32b_clk2_scr_am67_mcu_cbass_SCRP_32b_clk2_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x4 30. "AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_EDC_CTRL_BUSECC_1_PEND,Interrupt Pending Status for am67_mcu_cbass_SCRM_64b_clk1_scr_am67_mcu_cbass_SCRM_64b_clk1_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x4 29. "AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_EDC_CTRL_BUSECC_0_PEND,Interrupt Pending Status for am67_mcu_cbass_SCRM_64b_clk1_scr_am67_mcu_cbass_SCRM_64b_clk1_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x4 28. "AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_EDC_CTRL_BUSECC_1_PEND,Interrupt Pending Status for am67_mcu_cbass_SCRP_32b_clk4_scr_am67_mcu_cbass_SCRP_32b_clk4_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x4 27. "AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_EDC_CTRL_BUSECC_0_PEND,Interrupt Pending Status for am67_mcu_cbass_SCRP_32b_clk4_scr_am67_mcu_cbass_SCRP_32b_clk4_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x4 26. "AM67_MCU_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 25. "AM67_MCU_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 24. "AM67_MCU_CBASS_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_P2P_BRIDGE_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 23. "AM67_MCU_CBASS_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_P2P_BRIDGE_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 22. "AM67_MCU_CBASS_ISAM67_MCU_MCU_ECC_AGGR_MCU_0_CFG_P2P_BRIDGE_ISAM67_MCU_MCU_ECC_AGGR_MCU_0_CFG_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_Isam67_mcu_mcu_ecc_aggr_mcu_0_cfg_p2p_bridge_Isam67_mcu_mcu_ecc_aggr_mcu_0_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 21. "AM67_MCU_CBASS_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2P_BRIDGE_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 20. "AM67_MCU_CBASS_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2P_BRIDGE_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 19. "AM67_MCU_CBASS_IMSRAM32KX64E_MCU_0_CFG_P2P_BRIDGE_IMSRAM32KX64E_MCU_0_CFG_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_Imsram32kx64e_mcu_0_cfg_p2p_bridge_Imsram32kx64e_mcu_0_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 18. "AM67_MCU_CBASS_ISAM62A_MCU_PULSAR_UL_ECC_AGGR_MCU_0_CFG_P2P_BRIDGE_ISAM62A_MCU_PULSAR_UL_ECC_AGGR_MCU_0_CFG_BRIDGE_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 17. "AM67_MCU_CBASS_IMSRAM32KX64E_MCU_1_CFG_P2P_BRIDGE_IMSRAM32KX64E_MCU_1_CFG_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_Imsram32kx64e_mcu_1_cfg_p2p_bridge_Imsram32kx64e_mcu_1_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 16. "AM67_MCU_CBASS_IPULSAR_ULS_MCU_0_CPU0_CFG_SLV_P2P_BRIDGE_IPULSAR_ULS_MCU_0_CPU0_CFG_SLV_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_Ipulsar_uls_mcu_0_cpu0_cfg_slv_p2p_bridge_Ipulsar_uls_mcu_0_cpu0_cfg_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 15. "AM67_MCU_CBASS_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_M2P_BRIDGE_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 14. "AM67_MCU_CBASS_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_M2P_BRIDGE_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 13. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_P2M_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 12. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_P2M_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 11. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_P2P_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 10. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_P2P_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 9. "ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_EDC_CTRL_PEND,Interrupt Pending Status for Isam67_mcu2dm_vbusm_gasket_mcu_1_edc_ctrl_pend" "0,1" newline bitfld.long 0x4 8. "ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_RD_RAMECC_PEND,Interrupt Pending Status for Isam67_mcu2dm_vbusm_gasket_mcu_1_rd_ramecc_pend" "0,1" newline bitfld.long 0x4 7. "ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_WR_RAMECC_PEND,Interrupt Pending Status for Isam67_mcu2dm_vbusm_gasket_mcu_1_wr_ramecc_pend" "0,1" newline bitfld.long 0x4 6. "ISAM67_DM2MCU_VBUSM_GASKET_MCU_0_EDC_CTRL_PEND,Interrupt Pending Status for Isam67_dm2mcu_vbusm_gasket_mcu_0_edc_ctrl_pend" "0,1" newline bitfld.long 0x4 5. "ISAM62A_MCU_PULSAR_UL_BR__IECC_AGGR_CFG_SRC_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Iecc_aggr_cfg_src_busecc_pend" "0,1" newline bitfld.long 0x4 4. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_WMST_DST_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_wmst_dst_busecc_pend" "0,1" newline bitfld.long 0x4 3. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_RMST_DST_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_rmst_dst_busecc_pend" "0,1" newline bitfld.long 0x4 2. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_PMST_DST_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_pmst_dst_busecc_pend" "0,1" newline bitfld.long 0x4 1. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_CFG_SLV_SRC_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_cfg_slv_src_busecc_pend" "0,1" newline bitfld.long 0x4 0. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_SLV_SRC_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_slv_src_busecc_pend" "0,1" line.long 0x8 "REGS_sec_status_reg1,Interrupt Status Register 1" bitfld.long 0x8 10. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" newline bitfld.long 0x8 9. "AM67_MCU_CBASS_MCU_SYSCLK0_2_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_2_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_MCU_SYSCLK0_2_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_2_busecc_pend" "0,1" newline bitfld.long 0x8 8. "AM67_MCU_CBASS_MCU_SYSCLK0_4_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_4_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_MCU_SYSCLK0_4_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_4_busecc_pend" "0,1" newline bitfld.long 0x8 7. "AM67_MCU_CBASS_MCU_SYSCLK0_1_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_1_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_MCU_SYSCLK0_1_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_1_busecc_pend" "0,1" newline bitfld.long 0x8 6. "AM67_MCU_CBASS_ERR_SCR_AM67_MCU_CBASS_ERR_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_err_scr_am67_mcu_cbass_err_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 5. "AM67_MCU_CBASS_ERR_SLV_P2P_BRIDGE_ERR_SLV_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_err_slv_p2p_bridge_err_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x8 4. "AM67_MCU_CBASS_CBASS_DEFAULT_ERR_AM67_MCU_CBASS_CBASS_DEFAULT_ERR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_cbass_default_err_am67_mcu_cbass_cbass_default_err_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 3. "AM67_MCU_CBASS_CBASS_INT_DMSC_SCR_AM67_MCU_CBASS_CBASS_INT_DMSC_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_cbass_int_dmsc_scr_am67_mcu_cbass_cbass_int_dmsc_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 2. "AM67_MCU_CBASS_DMSC_SLV_P2P_BRIDGE_DMSC_SLV_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_dmsc_slv_p2p_bridge_dmsc_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x8 1. "AM67_MCU_CBASS_CBASS_DEFAULT_MMRS_AM67_MCU_CBASS_CBASS_DEFAULT_MMRS_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_cbass_default_mmrs_am67_mcu_cbass_cbass_default_mmrs_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 0. "AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_EDC_CTRL_BUSECC_1_PEND,Interrupt Pending Status for am67_mcu_cbass_SCRP_32b_clk2_scr_am67_mcu_cbass_SCRP_32b_clk2_scr_edc_ctrl_busecc_1_pend" "0,1" group.long 0x80++0x7 line.long 0x0 "REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 31. "AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_EDC_CTRL_BUSECC_0_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_SCRP_32b_clk2_scr_am67_mcu_cbass_SCRP_32b_clk2_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 30. "AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_EDC_CTRL_BUSECC_1_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_SCRM_64b_clk1_scr_am67_mcu_cbass_SCRM_64b_clk1_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 29. "AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_EDC_CTRL_BUSECC_0_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_SCRM_64b_clk1_scr_am67_mcu_cbass_SCRM_64b_clk1_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 28. "AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_EDC_CTRL_BUSECC_1_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_SCRP_32b_clk4_scr_am67_mcu_cbass_SCRP_32b_clk4_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 27. "AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_EDC_CTRL_BUSECC_0_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_SCRP_32b_clk4_scr_am67_mcu_cbass_SCRP_32b_clk4_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 26. "AM67_MCU_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 25. "AM67_MCU_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 24. "AM67_MCU_CBASS_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_P2P_BRIDGE_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 23. "AM67_MCU_CBASS_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_P2P_BRIDGE_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 22. "AM67_MCU_CBASS_ISAM67_MCU_MCU_ECC_AGGR_MCU_0_CFG_P2P_BRIDGE_ISAM67_MCU_MCU_ECC_AGGR_MCU_0_CFG_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 21. "AM67_MCU_CBASS_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2P_BRIDGE_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 20. "AM67_MCU_CBASS_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2P_BRIDGE_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 19. "AM67_MCU_CBASS_IMSRAM32KX64E_MCU_0_CFG_P2P_BRIDGE_IMSRAM32KX64E_MCU_0_CFG_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_Imsram32kx64e_mcu_0_cfg_p2p_bridge_Imsram32kx64e_mcu_0_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 18. "AM67_MCU_CBASS_ISAM62A_MCU_PULSAR_UL_ECC_AGGR_MCU_0_CFG_P2P_BRIDGE_ISAM62A_MCU_PULSAR_UL_ECC_AGGR_MCU_0_CFG_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 17. "AM67_MCU_CBASS_IMSRAM32KX64E_MCU_1_CFG_P2P_BRIDGE_IMSRAM32KX64E_MCU_1_CFG_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_Imsram32kx64e_mcu_1_cfg_p2p_bridge_Imsram32kx64e_mcu_1_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 16. "AM67_MCU_CBASS_IPULSAR_ULS_MCU_0_CPU0_CFG_SLV_P2P_BRIDGE_IPULSAR_ULS_MCU_0_CPU0_CFG_SLV_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_Ipulsar_uls_mcu_0_cpu0_cfg_slv_p2p_bridge_Ipulsar_uls_mcu_0_cpu0_cfg_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 15. "AM67_MCU_CBASS_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_M2P_BRIDGE_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 14. "AM67_MCU_CBASS_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_M2P_BRIDGE_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 13. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_P2M_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 12. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_P2M_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 11. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_P2P_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 10. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_P2P_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 9. "ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_EDC_CTRL_ENABLE_SET,Interrupt Enable Set Register for Isam67_mcu2dm_vbusm_gasket_mcu_1_edc_ctrl_pend" "0,1" newline bitfld.long 0x0 8. "ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_RD_RAMECC_ENABLE_SET,Interrupt Enable Set Register for Isam67_mcu2dm_vbusm_gasket_mcu_1_rd_ramecc_pend" "0,1" newline bitfld.long 0x0 7. "ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_WR_RAMECC_ENABLE_SET,Interrupt Enable Set Register for Isam67_mcu2dm_vbusm_gasket_mcu_1_wr_ramecc_pend" "0,1" newline bitfld.long 0x0 6. "ISAM67_DM2MCU_VBUSM_GASKET_MCU_0_EDC_CTRL_ENABLE_SET,Interrupt Enable Set Register for Isam67_dm2mcu_vbusm_gasket_mcu_0_edc_ctrl_pend" "0,1" newline bitfld.long 0x0 5. "ISAM62A_MCU_PULSAR_UL_BR__IECC_AGGR_CFG_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Iecc_aggr_cfg_src_busecc_pend" "0,1" newline bitfld.long 0x0 4. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_WMST_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_wmst_dst_busecc_pend" "0,1" newline bitfld.long 0x0 3. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_RMST_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_rmst_dst_busecc_pend" "0,1" newline bitfld.long 0x0 2. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_PMST_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_pmst_dst_busecc_pend" "0,1" newline bitfld.long 0x0 1. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_CFG_SLV_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_cfg_slv_src_busecc_pend" "0,1" newline bitfld.long 0x0 0. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_SLV_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_slv_src_busecc_pend" "0,1" line.long 0x4 "REGS_sec_enable_set_reg1,Interrupt Enable Set Register 1" bitfld.long 0x4 10. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" newline bitfld.long 0x4 9. "AM67_MCU_CBASS_MCU_SYSCLK0_2_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_2_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_MCU_SYSCLK0_2_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_2_busecc_pend" "0,1" newline bitfld.long 0x4 8. "AM67_MCU_CBASS_MCU_SYSCLK0_4_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_4_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_MCU_SYSCLK0_4_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_4_busecc_pend" "0,1" newline bitfld.long 0x4 7. "AM67_MCU_CBASS_MCU_SYSCLK0_1_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_1_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_MCU_SYSCLK0_1_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_1_busecc_pend" "0,1" newline bitfld.long 0x4 6. "AM67_MCU_CBASS_ERR_SCR_AM67_MCU_CBASS_ERR_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_err_scr_am67_mcu_cbass_err_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 5. "AM67_MCU_CBASS_ERR_SLV_P2P_BRIDGE_ERR_SLV_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_err_slv_p2p_bridge_err_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 4. "AM67_MCU_CBASS_CBASS_DEFAULT_ERR_AM67_MCU_CBASS_CBASS_DEFAULT_ERR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_cbass_default_err_am67_mcu_cbass_cbass_default_err_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 3. "AM67_MCU_CBASS_CBASS_INT_DMSC_SCR_AM67_MCU_CBASS_CBASS_INT_DMSC_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_cbass_int_dmsc_scr_am67_mcu_cbass_cbass_int_dmsc_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 2. "AM67_MCU_CBASS_DMSC_SLV_P2P_BRIDGE_DMSC_SLV_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_dmsc_slv_p2p_bridge_dmsc_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 1. "AM67_MCU_CBASS_CBASS_DEFAULT_MMRS_AM67_MCU_CBASS_CBASS_DEFAULT_MMRS_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_cbass_default_mmrs_am67_mcu_cbass_cbass_default_mmrs_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 0. "AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_EDC_CTRL_BUSECC_1_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_SCRP_32b_clk2_scr_am67_mcu_cbass_SCRP_32b_clk2_scr_edc_ctrl_busecc_1_pend" "0,1" group.long 0xC0++0x7 line.long 0x0 "REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 31. "AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_EDC_CTRL_BUSECC_0_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_SCRP_32b_clk2_scr_am67_mcu_cbass_SCRP_32b_clk2_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 30. "AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_EDC_CTRL_BUSECC_1_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_SCRM_64b_clk1_scr_am67_mcu_cbass_SCRM_64b_clk1_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 29. "AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_EDC_CTRL_BUSECC_0_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_SCRM_64b_clk1_scr_am67_mcu_cbass_SCRM_64b_clk1_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 28. "AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_EDC_CTRL_BUSECC_1_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_SCRP_32b_clk4_scr_am67_mcu_cbass_SCRP_32b_clk4_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 27. "AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_EDC_CTRL_BUSECC_0_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_SCRP_32b_clk4_scr_am67_mcu_cbass_SCRP_32b_clk4_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 26. "AM67_MCU_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 25. "AM67_MCU_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 24. "AM67_MCU_CBASS_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_P2P_BRIDGE_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 23. "AM67_MCU_CBASS_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_P2P_BRIDGE_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 22. "AM67_MCU_CBASS_ISAM67_MCU_MCU_ECC_AGGR_MCU_0_CFG_P2P_BRIDGE_ISAM67_MCU_MCU_ECC_AGGR_MCU_0_CFG_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 21. "AM67_MCU_CBASS_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2P_BRIDGE_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 20. "AM67_MCU_CBASS_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2P_BRIDGE_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 19. "AM67_MCU_CBASS_IMSRAM32KX64E_MCU_0_CFG_P2P_BRIDGE_IMSRAM32KX64E_MCU_0_CFG_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_Imsram32kx64e_mcu_0_cfg_p2p_bridge_Imsram32kx64e_mcu_0_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 18. "AM67_MCU_CBASS_ISAM62A_MCU_PULSAR_UL_ECC_AGGR_MCU_0_CFG_P2P_BRIDGE_ISAM62A_MCU_PULSAR_UL_ECC_AGGR_MCU_0_CFG_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 17. "AM67_MCU_CBASS_IMSRAM32KX64E_MCU_1_CFG_P2P_BRIDGE_IMSRAM32KX64E_MCU_1_CFG_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_Imsram32kx64e_mcu_1_cfg_p2p_bridge_Imsram32kx64e_mcu_1_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 16. "AM67_MCU_CBASS_IPULSAR_ULS_MCU_0_CPU0_CFG_SLV_P2P_BRIDGE_IPULSAR_ULS_MCU_0_CPU0_CFG_SLV_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_Ipulsar_uls_mcu_0_cpu0_cfg_slv_p2p_bridge_Ipulsar_uls_mcu_0_cpu0_cfg_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 15. "AM67_MCU_CBASS_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_M2P_BRIDGE_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 14. "AM67_MCU_CBASS_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_M2P_BRIDGE_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 13. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_P2M_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 12. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_P2M_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 11. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_P2P_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 10. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_P2P_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 9. "ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_EDC_CTRL_ENABLE_CLR,Interrupt Enable Clear Register for Isam67_mcu2dm_vbusm_gasket_mcu_1_edc_ctrl_pend" "0,1" newline bitfld.long 0x0 8. "ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_RD_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam67_mcu2dm_vbusm_gasket_mcu_1_rd_ramecc_pend" "0,1" newline bitfld.long 0x0 7. "ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_WR_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam67_mcu2dm_vbusm_gasket_mcu_1_wr_ramecc_pend" "0,1" newline bitfld.long 0x0 6. "ISAM67_DM2MCU_VBUSM_GASKET_MCU_0_EDC_CTRL_ENABLE_CLR,Interrupt Enable Clear Register for Isam67_dm2mcu_vbusm_gasket_mcu_0_edc_ctrl_pend" "0,1" newline bitfld.long 0x0 5. "ISAM62A_MCU_PULSAR_UL_BR__IECC_AGGR_CFG_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Iecc_aggr_cfg_src_busecc_pend" "0,1" newline bitfld.long 0x0 4. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_WMST_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_wmst_dst_busecc_pend" "0,1" newline bitfld.long 0x0 3. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_RMST_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_rmst_dst_busecc_pend" "0,1" newline bitfld.long 0x0 2. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_PMST_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_pmst_dst_busecc_pend" "0,1" newline bitfld.long 0x0 1. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_CFG_SLV_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_cfg_slv_src_busecc_pend" "0,1" newline bitfld.long 0x0 0. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_SLV_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_slv_src_busecc_pend" "0,1" line.long 0x4 "REGS_sec_enable_clr_reg1,Interrupt Enable Clear Register 1" bitfld.long 0x4 10. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" newline bitfld.long 0x4 9. "AM67_MCU_CBASS_MCU_SYSCLK0_2_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_2_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_MCU_SYSCLK0_2_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_2_busecc_pend" "0,1" newline bitfld.long 0x4 8. "AM67_MCU_CBASS_MCU_SYSCLK0_4_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_4_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_MCU_SYSCLK0_4_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_4_busecc_pend" "0,1" newline bitfld.long 0x4 7. "AM67_MCU_CBASS_MCU_SYSCLK0_1_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_1_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_MCU_SYSCLK0_1_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_1_busecc_pend" "0,1" newline bitfld.long 0x4 6. "AM67_MCU_CBASS_ERR_SCR_AM67_MCU_CBASS_ERR_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_err_scr_am67_mcu_cbass_err_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 5. "AM67_MCU_CBASS_ERR_SLV_P2P_BRIDGE_ERR_SLV_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_err_slv_p2p_bridge_err_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 4. "AM67_MCU_CBASS_CBASS_DEFAULT_ERR_AM67_MCU_CBASS_CBASS_DEFAULT_ERR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_cbass_default_err_am67_mcu_cbass_cbass_default_err_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 3. "AM67_MCU_CBASS_CBASS_INT_DMSC_SCR_AM67_MCU_CBASS_CBASS_INT_DMSC_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_cbass_int_dmsc_scr_am67_mcu_cbass_cbass_int_dmsc_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 2. "AM67_MCU_CBASS_DMSC_SLV_P2P_BRIDGE_DMSC_SLV_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_dmsc_slv_p2p_bridge_dmsc_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 1. "AM67_MCU_CBASS_CBASS_DEFAULT_MMRS_AM67_MCU_CBASS_CBASS_DEFAULT_MMRS_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_cbass_default_mmrs_am67_mcu_cbass_cbass_default_mmrs_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 0. "AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_EDC_CTRL_BUSECC_1_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_SCRP_32b_clk2_scr_am67_mcu_cbass_SCRP_32b_clk2_scr_edc_ctrl_busecc_1_pend" "0,1" group.long 0x13C++0xB line.long 0x0 "REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 31. "AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_EDC_CTRL_BUSECC_0_PEND,Interrupt Pending Status for am67_mcu_cbass_SCRP_32b_clk2_scr_am67_mcu_cbass_SCRP_32b_clk2_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x4 30. "AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_EDC_CTRL_BUSECC_1_PEND,Interrupt Pending Status for am67_mcu_cbass_SCRM_64b_clk1_scr_am67_mcu_cbass_SCRM_64b_clk1_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x4 29. "AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_EDC_CTRL_BUSECC_0_PEND,Interrupt Pending Status for am67_mcu_cbass_SCRM_64b_clk1_scr_am67_mcu_cbass_SCRM_64b_clk1_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x4 28. "AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_EDC_CTRL_BUSECC_1_PEND,Interrupt Pending Status for am67_mcu_cbass_SCRP_32b_clk4_scr_am67_mcu_cbass_SCRP_32b_clk4_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x4 27. "AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_EDC_CTRL_BUSECC_0_PEND,Interrupt Pending Status for am67_mcu_cbass_SCRP_32b_clk4_scr_am67_mcu_cbass_SCRP_32b_clk4_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x4 26. "AM67_MCU_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 25. "AM67_MCU_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 24. "AM67_MCU_CBASS_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_P2P_BRIDGE_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 23. "AM67_MCU_CBASS_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_P2P_BRIDGE_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 22. "AM67_MCU_CBASS_ISAM67_MCU_MCU_ECC_AGGR_MCU_0_CFG_P2P_BRIDGE_ISAM67_MCU_MCU_ECC_AGGR_MCU_0_CFG_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_Isam67_mcu_mcu_ecc_aggr_mcu_0_cfg_p2p_bridge_Isam67_mcu_mcu_ecc_aggr_mcu_0_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 21. "AM67_MCU_CBASS_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2P_BRIDGE_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 20. "AM67_MCU_CBASS_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2P_BRIDGE_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 19. "AM67_MCU_CBASS_IMSRAM32KX64E_MCU_0_CFG_P2P_BRIDGE_IMSRAM32KX64E_MCU_0_CFG_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_Imsram32kx64e_mcu_0_cfg_p2p_bridge_Imsram32kx64e_mcu_0_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 18. "AM67_MCU_CBASS_ISAM62A_MCU_PULSAR_UL_ECC_AGGR_MCU_0_CFG_P2P_BRIDGE_ISAM62A_MCU_PULSAR_UL_ECC_AGGR_MCU_0_CFG_BRIDGE_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 17. "AM67_MCU_CBASS_IMSRAM32KX64E_MCU_1_CFG_P2P_BRIDGE_IMSRAM32KX64E_MCU_1_CFG_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_Imsram32kx64e_mcu_1_cfg_p2p_bridge_Imsram32kx64e_mcu_1_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 16. "AM67_MCU_CBASS_IPULSAR_ULS_MCU_0_CPU0_CFG_SLV_P2P_BRIDGE_IPULSAR_ULS_MCU_0_CPU0_CFG_SLV_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_Ipulsar_uls_mcu_0_cpu0_cfg_slv_p2p_bridge_Ipulsar_uls_mcu_0_cpu0_cfg_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 15. "AM67_MCU_CBASS_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_M2P_BRIDGE_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 14. "AM67_MCU_CBASS_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_M2P_BRIDGE_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 13. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_P2M_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 12. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_P2M_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 11. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_P2P_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 10. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_P2P_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 9. "ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_EDC_CTRL_PEND,Interrupt Pending Status for Isam67_mcu2dm_vbusm_gasket_mcu_1_edc_ctrl_pend" "0,1" newline bitfld.long 0x4 8. "ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_RD_RAMECC_PEND,Interrupt Pending Status for Isam67_mcu2dm_vbusm_gasket_mcu_1_rd_ramecc_pend" "0,1" newline bitfld.long 0x4 7. "ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_WR_RAMECC_PEND,Interrupt Pending Status for Isam67_mcu2dm_vbusm_gasket_mcu_1_wr_ramecc_pend" "0,1" newline bitfld.long 0x4 6. "ISAM67_DM2MCU_VBUSM_GASKET_MCU_0_EDC_CTRL_PEND,Interrupt Pending Status for Isam67_dm2mcu_vbusm_gasket_mcu_0_edc_ctrl_pend" "0,1" newline bitfld.long 0x4 5. "ISAM62A_MCU_PULSAR_UL_BR__IECC_AGGR_CFG_SRC_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Iecc_aggr_cfg_src_busecc_pend" "0,1" newline bitfld.long 0x4 4. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_WMST_DST_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_wmst_dst_busecc_pend" "0,1" newline bitfld.long 0x4 3. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_RMST_DST_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_rmst_dst_busecc_pend" "0,1" newline bitfld.long 0x4 2. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_PMST_DST_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_pmst_dst_busecc_pend" "0,1" newline bitfld.long 0x4 1. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_CFG_SLV_SRC_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_cfg_slv_src_busecc_pend" "0,1" newline bitfld.long 0x4 0. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_SLV_SRC_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_slv_src_busecc_pend" "0,1" line.long 0x8 "REGS_ded_status_reg1,Interrupt Status Register 1" bitfld.long 0x8 10. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" newline bitfld.long 0x8 9. "AM67_MCU_CBASS_MCU_SYSCLK0_2_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_2_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_MCU_SYSCLK0_2_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_2_busecc_pend" "0,1" newline bitfld.long 0x8 8. "AM67_MCU_CBASS_MCU_SYSCLK0_4_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_4_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_MCU_SYSCLK0_4_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_4_busecc_pend" "0,1" newline bitfld.long 0x8 7. "AM67_MCU_CBASS_MCU_SYSCLK0_1_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_1_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_MCU_SYSCLK0_1_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_1_busecc_pend" "0,1" newline bitfld.long 0x8 6. "AM67_MCU_CBASS_ERR_SCR_AM67_MCU_CBASS_ERR_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_err_scr_am67_mcu_cbass_err_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 5. "AM67_MCU_CBASS_ERR_SLV_P2P_BRIDGE_ERR_SLV_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_err_slv_p2p_bridge_err_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x8 4. "AM67_MCU_CBASS_CBASS_DEFAULT_ERR_AM67_MCU_CBASS_CBASS_DEFAULT_ERR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_cbass_default_err_am67_mcu_cbass_cbass_default_err_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 3. "AM67_MCU_CBASS_CBASS_INT_DMSC_SCR_AM67_MCU_CBASS_CBASS_INT_DMSC_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_cbass_int_dmsc_scr_am67_mcu_cbass_cbass_int_dmsc_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 2. "AM67_MCU_CBASS_DMSC_SLV_P2P_BRIDGE_DMSC_SLV_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_dmsc_slv_p2p_bridge_dmsc_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x8 1. "AM67_MCU_CBASS_CBASS_DEFAULT_MMRS_AM67_MCU_CBASS_CBASS_DEFAULT_MMRS_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for am67_mcu_cbass_cbass_default_mmrs_am67_mcu_cbass_cbass_default_mmrs_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 0. "AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_EDC_CTRL_BUSECC_1_PEND,Interrupt Pending Status for am67_mcu_cbass_SCRP_32b_clk2_scr_am67_mcu_cbass_SCRP_32b_clk2_scr_edc_ctrl_busecc_1_pend" "0,1" group.long 0x180++0x7 line.long 0x0 "REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 31. "AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_EDC_CTRL_BUSECC_0_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_SCRP_32b_clk2_scr_am67_mcu_cbass_SCRP_32b_clk2_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 30. "AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_EDC_CTRL_BUSECC_1_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_SCRM_64b_clk1_scr_am67_mcu_cbass_SCRM_64b_clk1_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 29. "AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_EDC_CTRL_BUSECC_0_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_SCRM_64b_clk1_scr_am67_mcu_cbass_SCRM_64b_clk1_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 28. "AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_EDC_CTRL_BUSECC_1_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_SCRP_32b_clk4_scr_am67_mcu_cbass_SCRP_32b_clk4_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 27. "AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_EDC_CTRL_BUSECC_0_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_SCRP_32b_clk4_scr_am67_mcu_cbass_SCRP_32b_clk4_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 26. "AM67_MCU_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 25. "AM67_MCU_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 24. "AM67_MCU_CBASS_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_P2P_BRIDGE_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 23. "AM67_MCU_CBASS_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_P2P_BRIDGE_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 22. "AM67_MCU_CBASS_ISAM67_MCU_MCU_ECC_AGGR_MCU_0_CFG_P2P_BRIDGE_ISAM67_MCU_MCU_ECC_AGGR_MCU_0_CFG_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 21. "AM67_MCU_CBASS_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2P_BRIDGE_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 20. "AM67_MCU_CBASS_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2P_BRIDGE_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 19. "AM67_MCU_CBASS_IMSRAM32KX64E_MCU_0_CFG_P2P_BRIDGE_IMSRAM32KX64E_MCU_0_CFG_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_Imsram32kx64e_mcu_0_cfg_p2p_bridge_Imsram32kx64e_mcu_0_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 18. "AM67_MCU_CBASS_ISAM62A_MCU_PULSAR_UL_ECC_AGGR_MCU_0_CFG_P2P_BRIDGE_ISAM62A_MCU_PULSAR_UL_ECC_AGGR_MCU_0_CFG_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 17. "AM67_MCU_CBASS_IMSRAM32KX64E_MCU_1_CFG_P2P_BRIDGE_IMSRAM32KX64E_MCU_1_CFG_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_Imsram32kx64e_mcu_1_cfg_p2p_bridge_Imsram32kx64e_mcu_1_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 16. "AM67_MCU_CBASS_IPULSAR_ULS_MCU_0_CPU0_CFG_SLV_P2P_BRIDGE_IPULSAR_ULS_MCU_0_CPU0_CFG_SLV_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_Ipulsar_uls_mcu_0_cpu0_cfg_slv_p2p_bridge_Ipulsar_uls_mcu_0_cpu0_cfg_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 15. "AM67_MCU_CBASS_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_M2P_BRIDGE_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 14. "AM67_MCU_CBASS_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_M2P_BRIDGE_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 13. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_P2M_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 12. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_P2M_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 11. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_P2P_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 10. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_P2P_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 9. "ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_EDC_CTRL_ENABLE_SET,Interrupt Enable Set Register for Isam67_mcu2dm_vbusm_gasket_mcu_1_edc_ctrl_pend" "0,1" newline bitfld.long 0x0 8. "ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_RD_RAMECC_ENABLE_SET,Interrupt Enable Set Register for Isam67_mcu2dm_vbusm_gasket_mcu_1_rd_ramecc_pend" "0,1" newline bitfld.long 0x0 7. "ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_WR_RAMECC_ENABLE_SET,Interrupt Enable Set Register for Isam67_mcu2dm_vbusm_gasket_mcu_1_wr_ramecc_pend" "0,1" newline bitfld.long 0x0 6. "ISAM67_DM2MCU_VBUSM_GASKET_MCU_0_EDC_CTRL_ENABLE_SET,Interrupt Enable Set Register for Isam67_dm2mcu_vbusm_gasket_mcu_0_edc_ctrl_pend" "0,1" newline bitfld.long 0x0 5. "ISAM62A_MCU_PULSAR_UL_BR__IECC_AGGR_CFG_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Iecc_aggr_cfg_src_busecc_pend" "0,1" newline bitfld.long 0x0 4. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_WMST_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_wmst_dst_busecc_pend" "0,1" newline bitfld.long 0x0 3. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_RMST_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_rmst_dst_busecc_pend" "0,1" newline bitfld.long 0x0 2. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_PMST_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_pmst_dst_busecc_pend" "0,1" newline bitfld.long 0x0 1. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_CFG_SLV_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_cfg_slv_src_busecc_pend" "0,1" newline bitfld.long 0x0 0. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_SLV_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_slv_src_busecc_pend" "0,1" line.long 0x4 "REGS_ded_enable_set_reg1,Interrupt Enable Set Register 1" bitfld.long 0x4 10. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" newline bitfld.long 0x4 9. "AM67_MCU_CBASS_MCU_SYSCLK0_2_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_2_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_MCU_SYSCLK0_2_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_2_busecc_pend" "0,1" newline bitfld.long 0x4 8. "AM67_MCU_CBASS_MCU_SYSCLK0_4_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_4_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_MCU_SYSCLK0_4_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_4_busecc_pend" "0,1" newline bitfld.long 0x4 7. "AM67_MCU_CBASS_MCU_SYSCLK0_1_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_1_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_MCU_SYSCLK0_1_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_1_busecc_pend" "0,1" newline bitfld.long 0x4 6. "AM67_MCU_CBASS_ERR_SCR_AM67_MCU_CBASS_ERR_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_err_scr_am67_mcu_cbass_err_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 5. "AM67_MCU_CBASS_ERR_SLV_P2P_BRIDGE_ERR_SLV_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_err_slv_p2p_bridge_err_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 4. "AM67_MCU_CBASS_CBASS_DEFAULT_ERR_AM67_MCU_CBASS_CBASS_DEFAULT_ERR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_cbass_default_err_am67_mcu_cbass_cbass_default_err_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 3. "AM67_MCU_CBASS_CBASS_INT_DMSC_SCR_AM67_MCU_CBASS_CBASS_INT_DMSC_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_cbass_int_dmsc_scr_am67_mcu_cbass_cbass_int_dmsc_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 2. "AM67_MCU_CBASS_DMSC_SLV_P2P_BRIDGE_DMSC_SLV_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_dmsc_slv_p2p_bridge_dmsc_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 1. "AM67_MCU_CBASS_CBASS_DEFAULT_MMRS_AM67_MCU_CBASS_CBASS_DEFAULT_MMRS_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_cbass_default_mmrs_am67_mcu_cbass_cbass_default_mmrs_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 0. "AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_EDC_CTRL_BUSECC_1_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_cbass_SCRP_32b_clk2_scr_am67_mcu_cbass_SCRP_32b_clk2_scr_edc_ctrl_busecc_1_pend" "0,1" group.long 0x1C0++0x7 line.long 0x0 "REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 31. "AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_EDC_CTRL_BUSECC_0_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_SCRP_32b_clk2_scr_am67_mcu_cbass_SCRP_32b_clk2_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 30. "AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_EDC_CTRL_BUSECC_1_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_SCRM_64b_clk1_scr_am67_mcu_cbass_SCRM_64b_clk1_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 29. "AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_AM67_MCU_CBASS_SCRM_64B_CLK1_SCR_EDC_CTRL_BUSECC_0_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_SCRM_64b_clk1_scr_am67_mcu_cbass_SCRM_64b_clk1_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 28. "AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_EDC_CTRL_BUSECC_1_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_SCRP_32b_clk4_scr_am67_mcu_cbass_SCRP_32b_clk4_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 27. "AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_AM67_MCU_CBASS_SCRP_32B_CLK4_SCR_EDC_CTRL_BUSECC_0_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_SCRP_32b_clk4_scr_am67_mcu_cbass_SCRP_32b_clk4_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 26. "AM67_MCU_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 25. "AM67_MCU_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_ERR_SLV_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 24. "AM67_MCU_CBASS_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_P2P_BRIDGE_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 23. "AM67_MCU_CBASS_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_P2P_BRIDGE_ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_CFG_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 22. "AM67_MCU_CBASS_ISAM67_MCU_MCU_ECC_AGGR_MCU_0_CFG_P2P_BRIDGE_ISAM67_MCU_MCU_ECC_AGGR_MCU_0_CFG_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 21. "AM67_MCU_CBASS_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2P_BRIDGE_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 20. "AM67_MCU_CBASS_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2P_BRIDGE_EXPORT_AM67_MCU_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 19. "AM67_MCU_CBASS_IMSRAM32KX64E_MCU_0_CFG_P2P_BRIDGE_IMSRAM32KX64E_MCU_0_CFG_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_Imsram32kx64e_mcu_0_cfg_p2p_bridge_Imsram32kx64e_mcu_0_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 18. "AM67_MCU_CBASS_ISAM62A_MCU_PULSAR_UL_ECC_AGGR_MCU_0_CFG_P2P_BRIDGE_ISAM62A_MCU_PULSAR_UL_ECC_AGGR_MCU_0_CFG_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 17. "AM67_MCU_CBASS_IMSRAM32KX64E_MCU_1_CFG_P2P_BRIDGE_IMSRAM32KX64E_MCU_1_CFG_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_Imsram32kx64e_mcu_1_cfg_p2p_bridge_Imsram32kx64e_mcu_1_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 16. "AM67_MCU_CBASS_IPULSAR_ULS_MCU_0_CPU0_CFG_SLV_P2P_BRIDGE_IPULSAR_ULS_MCU_0_CPU0_CFG_SLV_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_Ipulsar_uls_mcu_0_cpu0_cfg_slv_p2p_bridge_Ipulsar_uls_mcu_0_cpu0_cfg_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 15. "AM67_MCU_CBASS_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_M2P_BRIDGE_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 14. "AM67_MCU_CBASS_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_M2P_BRIDGE_BR_SCRM_64B_CLK1_TO_SCRP_32B_CLK2_L0_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 13. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_P2M_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 12. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_P2M_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRM_64B_CLK1_L0_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 11. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_P2P_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 10. "AM67_MCU_CBASS_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_P2P_BRIDGE_BR_SCRP_32B_CLK2_TO_SCRP_32B_CLK4_L0_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 9. "ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_EDC_CTRL_ENABLE_CLR,Interrupt Enable Clear Register for Isam67_mcu2dm_vbusm_gasket_mcu_1_edc_ctrl_pend" "0,1" newline bitfld.long 0x0 8. "ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_RD_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam67_mcu2dm_vbusm_gasket_mcu_1_rd_ramecc_pend" "0,1" newline bitfld.long 0x0 7. "ISAM67_MCU2DM_VBUSM_GASKET_MCU_1_WR_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam67_mcu2dm_vbusm_gasket_mcu_1_wr_ramecc_pend" "0,1" newline bitfld.long 0x0 6. "ISAM67_DM2MCU_VBUSM_GASKET_MCU_0_EDC_CTRL_ENABLE_CLR,Interrupt Enable Clear Register for Isam67_dm2mcu_vbusm_gasket_mcu_0_edc_ctrl_pend" "0,1" newline bitfld.long 0x0 5. "ISAM62A_MCU_PULSAR_UL_BR__IECC_AGGR_CFG_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Iecc_aggr_cfg_src_busecc_pend" "0,1" newline bitfld.long 0x0 4. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_WMST_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_wmst_dst_busecc_pend" "0,1" newline bitfld.long 0x0 3. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_RMST_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_rmst_dst_busecc_pend" "0,1" newline bitfld.long 0x0 2. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_PMST_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_pmst_dst_busecc_pend" "0,1" newline bitfld.long 0x0 1. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_CFG_SLV_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_cfg_slv_src_busecc_pend" "0,1" newline bitfld.long 0x0 0. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_SLV_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_slv_src_busecc_pend" "0,1" line.long 0x4 "REGS_ded_enable_clr_reg1,Interrupt Enable Clear Register 1" bitfld.long 0x4 10. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" newline bitfld.long 0x4 9. "AM67_MCU_CBASS_MCU_SYSCLK0_2_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_2_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_MCU_SYSCLK0_2_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_2_busecc_pend" "0,1" newline bitfld.long 0x4 8. "AM67_MCU_CBASS_MCU_SYSCLK0_4_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_4_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_MCU_SYSCLK0_4_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_4_busecc_pend" "0,1" newline bitfld.long 0x4 7. "AM67_MCU_CBASS_MCU_SYSCLK0_1_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_1_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_MCU_SYSCLK0_1_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_1_busecc_pend" "0,1" newline bitfld.long 0x4 6. "AM67_MCU_CBASS_ERR_SCR_AM67_MCU_CBASS_ERR_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_err_scr_am67_mcu_cbass_err_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 5. "AM67_MCU_CBASS_ERR_SLV_P2P_BRIDGE_ERR_SLV_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_err_slv_p2p_bridge_err_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 4. "AM67_MCU_CBASS_CBASS_DEFAULT_ERR_AM67_MCU_CBASS_CBASS_DEFAULT_ERR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_cbass_default_err_am67_mcu_cbass_cbass_default_err_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 3. "AM67_MCU_CBASS_CBASS_INT_DMSC_SCR_AM67_MCU_CBASS_CBASS_INT_DMSC_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_cbass_int_dmsc_scr_am67_mcu_cbass_cbass_int_dmsc_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 2. "AM67_MCU_CBASS_DMSC_SLV_P2P_BRIDGE_DMSC_SLV_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_dmsc_slv_p2p_bridge_dmsc_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 1. "AM67_MCU_CBASS_CBASS_DEFAULT_MMRS_AM67_MCU_CBASS_CBASS_DEFAULT_MMRS_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_cbass_default_mmrs_am67_mcu_cbass_cbass_default_mmrs_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 0. "AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_AM67_MCU_CBASS_SCRP_32B_CLK2_SCR_EDC_CTRL_BUSECC_1_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_cbass_SCRP_32b_clk2_scr_am67_mcu_cbass_SCRP_32b_clk2_scr_edc_ctrl_busecc_1_pend" "0,1" group.long 0x200++0xF line.long 0x0 "REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" newline bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" newline bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" newline bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" newline bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "MCU_ECC_AGGR1_ECC_AGGR (MCU_ECC_AGGR1_ECC_AGGR)" base ad:0x4704000 rgroup.long 0x0++0x3 line.long 0x0 "REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 6. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" newline bitfld.long 0x4 5. "ISAM62A_MCU_PULSAR_UL_BR__IECC_AGGR_CFG_DST_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Iecc_aggr_cfg_dst_busecc_pend" "0,1" newline bitfld.long 0x4 4. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_PMST_SRC_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_pmst_src_busecc_pend" "0,1" newline bitfld.long 0x4 3. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_CFG_SLV_DST_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_cfg_slv_dst_busecc_pend" "0,1" newline bitfld.long 0x4 2. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_WMST_SRC_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_wmst_src_busecc_pend" "0,1" newline bitfld.long 0x4 1. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_SLV_DST_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_slv_dst_busecc_pend" "0,1" newline bitfld.long 0x4 0. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_RMST_SRC_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_rmst_src_busecc_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 6. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" newline bitfld.long 0x0 5. "ISAM62A_MCU_PULSAR_UL_BR__IECC_AGGR_CFG_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Iecc_aggr_cfg_dst_busecc_pend" "0,1" newline bitfld.long 0x0 4. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_PMST_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_pmst_src_busecc_pend" "0,1" newline bitfld.long 0x0 3. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_CFG_SLV_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_cfg_slv_dst_busecc_pend" "0,1" newline bitfld.long 0x0 2. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_WMST_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_wmst_src_busecc_pend" "0,1" newline bitfld.long 0x0 1. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_SLV_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_slv_dst_busecc_pend" "0,1" newline bitfld.long 0x0 0. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_RMST_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_rmst_src_busecc_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 6. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" newline bitfld.long 0x0 5. "ISAM62A_MCU_PULSAR_UL_BR__IECC_AGGR_CFG_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Iecc_aggr_cfg_dst_busecc_pend" "0,1" newline bitfld.long 0x0 4. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_PMST_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_pmst_src_busecc_pend" "0,1" newline bitfld.long 0x0 3. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_CFG_SLV_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_cfg_slv_dst_busecc_pend" "0,1" newline bitfld.long 0x0 2. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_WMST_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_wmst_src_busecc_pend" "0,1" newline bitfld.long 0x0 1. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_SLV_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_slv_dst_busecc_pend" "0,1" newline bitfld.long 0x0 0. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_RMST_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_rmst_src_busecc_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 6. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" newline bitfld.long 0x4 5. "ISAM62A_MCU_PULSAR_UL_BR__IECC_AGGR_CFG_DST_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Iecc_aggr_cfg_dst_busecc_pend" "0,1" newline bitfld.long 0x4 4. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_PMST_SRC_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_pmst_src_busecc_pend" "0,1" newline bitfld.long 0x4 3. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_CFG_SLV_DST_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_cfg_slv_dst_busecc_pend" "0,1" newline bitfld.long 0x4 2. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_WMST_SRC_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_wmst_src_busecc_pend" "0,1" newline bitfld.long 0x4 1. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_SLV_DST_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_slv_dst_busecc_pend" "0,1" newline bitfld.long 0x4 0. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_RMST_SRC_BUSECC_PEND,Interrupt Pending Status for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_rmst_src_busecc_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 6. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" newline bitfld.long 0x0 5. "ISAM62A_MCU_PULSAR_UL_BR__IECC_AGGR_CFG_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Iecc_aggr_cfg_dst_busecc_pend" "0,1" newline bitfld.long 0x0 4. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_PMST_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_pmst_src_busecc_pend" "0,1" newline bitfld.long 0x0 3. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_CFG_SLV_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_cfg_slv_dst_busecc_pend" "0,1" newline bitfld.long 0x0 2. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_WMST_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_wmst_src_busecc_pend" "0,1" newline bitfld.long 0x0 1. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_SLV_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_slv_dst_busecc_pend" "0,1" newline bitfld.long 0x0 0. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_RMST_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_rmst_src_busecc_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 6. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" newline bitfld.long 0x0 5. "ISAM62A_MCU_PULSAR_UL_BR__IECC_AGGR_CFG_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Iecc_aggr_cfg_dst_busecc_pend" "0,1" newline bitfld.long 0x0 4. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_PMST_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_pmst_src_busecc_pend" "0,1" newline bitfld.long 0x0 3. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_P2P_CPU0_CFG_SLV_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_p2p_cpu0_cfg_slv_dst_busecc_pend" "0,1" newline bitfld.long 0x0 2. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_WMST_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_wmst_src_busecc_pend" "0,1" newline bitfld.long 0x0 1. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_SLV_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_slv_dst_busecc_pend" "0,1" newline bitfld.long 0x0 0. "ISAM62A_MCU_PULSAR_UL_BR__ICPU0_M2M_CPU0_RMST_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isam62a_mcu_pulsar_ul_br__Icpu0_m2m_cpu0_rmst_src_busecc_pend" "0,1" group.long 0x200++0xF line.long 0x0 "REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" newline bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" newline bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" newline bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" newline bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_MCAN0" base ad:0x0 tree "MCU_MCAN0_CFG (MCU_MCAN0_CFG)" base ad:0x4E08000 rgroup.long 0x0++0x7 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_CREL,Release dependent constant (version + date)" hexmask.long.byte 0x0 28.--31. 1. "REL,Core Release" hexmask.long.byte 0x0 24.--27. 1. "STEP,Step of Core Release" hexmask.long.byte 0x0 20.--23. 1. "SUBSTEP,Sub-Step of Core Release" newline hexmask.long.byte 0x0 16.--19. 1. "YEAR,Time Stamp Year" hexmask.long.byte 0x0 8.--15. 1. "MON,Time Stamp Month" hexmask.long.byte 0x0 0.--7. 1. "DAY,Time Stamp Day" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ENDN,Constant 0x8765 4321" hexmask.long 0x4 0.--31. 1. "ETV,Endianess test value" group.long 0x8++0x37 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_CUST,Optional customer-specific register" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_DBTP,Configuration of data phase bit timing. transmitter delay compensation enable" bitfld.long 0x4 23. "TDC,Transmitter Delay Compensation" "0,1" hexmask.long.byte 0x4 16.--20. 1. "DBRP,Data Baud Rate Prescaler" hexmask.long.byte 0x4 8.--12. 1. "DTSEG1,Data time segment before sample point" newline hexmask.long.byte 0x4 4.--7. 1. "DTSEG2,Data time segment after sample point" hexmask.long.byte 0x4 0.--3. 1. "DSJW,Data resynchronization Jump Width" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TEST,Test mode selection" rbitfld.long 0x8 7. "RX,Receive Pin" "0,1" bitfld.long 0x8 5.--6. "TX,Control of Transmit Pin" "0,1,2,3" bitfld.long 0x8 4. "LBCK,Loop Back Mode" "0,1" line.long 0xC "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RWD,Monitors the READY output of the Message RAM" hexmask.long.byte 0xC 8.--15. 1. "WDV,Watchdog Value" hexmask.long.byte 0xC 0.--7. 1. "WDC,Watchdog Counter Value" line.long 0x10 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_CCCR,Operation mode configuration" bitfld.long 0x10 15. "NISO,Non ISO Operation. 0= CAN FD frame format according to ISO 11898-1:2015. 1= CAN FD frame format according to Bosch CAN FD Specification 1.0" "0: CAN FD frame format according to ISO 11898-1:2015,1: CAN FD frame format according to Bosch CAN FD.." bitfld.long 0x10 14. "TXP,Transmit Pause" "0,1" bitfld.long 0x10 13. "EFBI,Edge Filtering during Bus Integration" "0,1" newline bitfld.long 0x10 12. "PXHD,Protocol Exception Handling Disable" "0,1" bitfld.long 0x10 9. "BRSE,Bit Rate Switch Enable" "0,1" bitfld.long 0x10 8. "FDOE,FD Operation Enable" "0,1" newline bitfld.long 0x10 7. "TEST,Test Mode enable" "0,1" bitfld.long 0x10 6. "DAR,Disable Automatic Retransmission" "0,1" bitfld.long 0x10 5. "MON,Bus Monitoring Mode" "0,1" newline bitfld.long 0x10 4. "CSR,Clock Stop Request" "0,1" rbitfld.long 0x10 3. "CSA,Clock Stop Acknowledge" "0,1" bitfld.long 0x10 2. "ASM,Restricted Operation Mode" "0,1" newline bitfld.long 0x10 1. "CCE,Configuration Change Enable" "0,1" bitfld.long 0x10 0. "INIT,Initialization" "0,1" line.long 0x14 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_NBTP,Configuration of arbitration phase bit timing" hexmask.long.byte 0x14 25.--31. 1. "NSJW,Nominal Resynchronization Jump Width" hexmask.long.word 0x14 16.--24. 1. "NBRP,Nominal Baud Rate Prescaler" hexmask.long.byte 0x14 8.--15. 1. "NTSEG1,Nominal Time segment before sample point" newline hexmask.long.byte 0x14 0.--6. 1. "NTSEG2,Nominal Time segment after sample point" line.long 0x18 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TSCC,Timestamp counter prescaler setting. selection of internal/external timestamp vector" hexmask.long.byte 0x18 16.--19. 1. "TCP,Timestamp Counter Prescaler" bitfld.long 0x18 0.--1. "TSS,Timestamp Select" "0,1,2,3" line.long 0x1C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TSCV,Read/reset timestamp counter" hexmask.long.word 0x1C 0.--15. 1. "TSC,Timestamp Counter" line.long 0x20 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TOCC,Configuration of timeout period. selection of timeout counter operation mode" hexmask.long.word 0x20 16.--31. 1. "TOP,Timeout Period" bitfld.long 0x20 1.--2. "TOS,Timeout Select" "0,1,2,3" bitfld.long 0x20 0. "ETOC,Enable Timeout Counter" "0,1" line.long 0x24 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TOCV,Read/reset timeout counter" hexmask.long.word 0x24 0.--15. 1. "TOC,Timeout Counter" line.long 0x28 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved00,Reserved field" line.long 0x2C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved11,Reserved field" line.long 0x30 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved22,Reserved field" line.long 0x34 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved33,Reserved field" rgroup.long 0x40++0x7 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ECR,State of Rx/Tx Error Counter. CAN Error Logging" hexmask.long.byte 0x0 16.--23. 1. "CEL,CAN Error Logging" bitfld.long 0x0 15. "RP,Receive Error Passive" "0,1" hexmask.long.byte 0x0 8.--14. 1. "REC,Receive Error Counter" newline hexmask.long.byte 0x0 0.--7. 1. "TEC,Transmit Error Counter" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_PSR,CAN protocol controller status. transmitter delay compensation value" hexmask.long.byte 0x4 16.--22. 1. "TDCV,Transmitter Delay Compensation Value" bitfld.long 0x4 14. "PXE,Protocol Exception Event" "0,1" bitfld.long 0x4 13. "RFDF,Received a CAN FD Message" "0,1" newline bitfld.long 0x4 12. "RBRS,BRS flag of last received CAN FD Message" "0,1" bitfld.long 0x4 11. "RESI,ESI flag of last received CAN FD Message" "0,1" bitfld.long 0x4 8.--10. "DLEC,Data Phase Last Error Code" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 7. "BO,Bus_Off status" "0,1" bitfld.long 0x4 6. "EW,Warning Status" "0,1" bitfld.long 0x4 5. "EP,Error Passive" "0,1" newline bitfld.long 0x4 3.--4. "ACT,Activity" "0,1,2,3" bitfld.long 0x4 0.--2. "LEC,Last Error Code" "0,1,2,3,4,5,6,7" group.long 0x48++0x4B line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TDCR,configuration of transmitter delay compensation offset and filter window length" hexmask.long.byte 0x0 8.--14. 1. "TDCO,Transmitter Delay Compensation Offset" hexmask.long.byte 0x0 0.--6. 1. "TDCF,Transmitter Delay Compensation Filter Window Length" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved44,Reserved field" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_IR,Interrupt flags" bitfld.long 0x8 29. "ARA,Access to Reserved Address" "0,1" bitfld.long 0x8 28. "PED,Protocol Error in data Phase" "0,1" bitfld.long 0x8 27. "PEA,Protocol Error in Arbitration Phase" "0,1" newline bitfld.long 0x8 26. "WDI,Watchdog Interrupt" "0,1" bitfld.long 0x8 25. "BO,Bus_Off Status" "0,1" bitfld.long 0x8 24. "EW,Warning Status" "0,1" newline bitfld.long 0x8 23. "EP,Error Passive" "0,1" bitfld.long 0x8 22. "ELO,Error Logging Overflow" "0,1" bitfld.long 0x8 21. "BEU,Bit Error Uncorrected" "0,1" newline bitfld.long 0x8 19. "DRX,Message stored to Dedicated Rx Buffer" "0,1" bitfld.long 0x8 18. "TOO,Timeout Occurred" "0,1" bitfld.long 0x8 17. "MRAF,Message RAM Access Failure" "0,1" newline bitfld.long 0x8 16. "TSW,Timestamp Wraparound" "0,1" bitfld.long 0x8 15. "TEFL,Tx Event FIFO Element Lost" "0,1" bitfld.long 0x8 14. "TEFF,Tx Event FIFO Full" "0,1" newline bitfld.long 0x8 13. "TEFW,Tx Event FIFO Watermark Reached" "0,1" bitfld.long 0x8 12. "TEFN,Tx Event FIFO New Entry" "0,1" bitfld.long 0x8 11. "TFE,Tx FIFO Empty" "0,1" newline bitfld.long 0x8 10. "TCF,Transmission Cancellation Finished" "0,1" bitfld.long 0x8 9. "TC,Transmission Complete" "0,1" bitfld.long 0x8 8. "HPM,High Priority Message" "0,1" newline bitfld.long 0x8 7. "RF1L,Rx FIFO 1 Message Lost" "0,1" bitfld.long 0x8 6. "RF1F,Rx FIFO 1 Full" "0,1" bitfld.long 0x8 5. "RF1W,Rx FIFO 1 Watermark Reached" "0,1" newline bitfld.long 0x8 4. "RF1N,Rx FIFO 1 New Message" "0,1" bitfld.long 0x8 3. "RF0L,Rx FIFO 0 Message Lost" "0,1" bitfld.long 0x8 2. "RF0F,Rx FIFO 0 Full" "0,1" newline bitfld.long 0x8 1. "RF0W,Rx FIFO 0 Watermark Reached" "0,1" bitfld.long 0x8 0. "RF0N,Rx FIFO 0 New Message" "0,1" line.long 0xC "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_IE,Interrupt enable/disable" bitfld.long 0xC 29. "ARAE,Access to Reserve Address Interrupt Enable" "0,1" bitfld.long 0xC 28. "PEDE,Protocol Error in Data Phase Interrupt Enable" "0,1" bitfld.long 0xC 27. "PEAE,Protocol Error in Arbitration Phase Interrupt Enable" "0,1" newline bitfld.long 0xC 26. "WDIE,Watchdog Interrupt Enable" "0,1" bitfld.long 0xC 25. "BOE,Bus_Off Status Interrupt Enable" "0,1" bitfld.long 0xC 24. "EWE,Warning Status Interrupt Enable" "0,1" newline bitfld.long 0xC 23. "EPE,Error Passive Interrupt Enable" "0,1" bitfld.long 0xC 22. "ELOE,Error Logging Overflow Interrupt Enable" "0,1" bitfld.long 0xC 21. "BEUE,Bit Error Uncorrected Interrupt Enable" "0,1" newline bitfld.long 0xC 20. "BECE,Bit Error Corrected Interrupt Enable" "0,1" bitfld.long 0xC 19. "DRX,Message stored to Dedicated Rx Buffer Interrupt Enable" "0,1" bitfld.long 0xC 18. "TOOE,Timeout Occurred Interrupt Enable" "0,1" newline bitfld.long 0xC 17. "MRAFE,Message RAM Access Failure Interrupt Enable" "0,1" bitfld.long 0xC 16. "TSWE,Timestamp Wraparound Interrupt Enable" "0,1" bitfld.long 0xC 15. "TEFLE,Tx Event FIFO Event Lost Interrupt Enable" "0,1" newline bitfld.long 0xC 14. "TEFFE,Tx Event FIFO Full Interrupt Enable" "0,1" bitfld.long 0xC 13. "TEFWE,Tx Event FIFO Watermark Reached Interrupt enable" "0,1" bitfld.long 0xC 12. "TEFNE,Tx Event FIFO New Entry Interrupt Enable" "0,1" newline bitfld.long 0xC 11. "TFEE,Tx FIFO Empty Interrupt Enable" "0,1" bitfld.long 0xC 10. "TCFE,Transmission Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0xC 9. "TCE,Transmission Completed Interrupt Enable" "0,1" newline bitfld.long 0xC 8. "HPME,High Priority message Interrupt Enable" "0,1" bitfld.long 0xC 7. "RF1LE,rx FIFO 1 Message Lost Interrupt Enable" "0,1" bitfld.long 0xC 6. "RF1FE,Rx FIFO 1 Full Interrupt Enable" "0,1" newline bitfld.long 0xC 5. "RF1WE,Rx FIFO 1 Watermark Reached Interrupt Enable" "0,1" bitfld.long 0xC 4. "RF1NE,Rx FIFO 1 New Message Interrupt Enable" "0,1" bitfld.long 0xC 3. "RF0LE,Rx FIFO 0 Message Lost Interrupt Enable" "0,1" newline bitfld.long 0xC 2. "RF0FE,Rx FIFO 0 Full Interrupt Enable" "0,1" bitfld.long 0xC 1. "RF0WE,Rx FIFO 0 Watermark Reached Interrupt Enable" "0,1" bitfld.long 0xC 0. "RF0NE,Rx FIFO 0 New Message Interrupt Enable" "0,1" line.long 0x10 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ILS,Interrupt line select (m_can_int0 or m_can_int1)" bitfld.long 0x10 29. "ARAL,Access to Reserve Address Interrupt Line" "0,1" bitfld.long 0x10 28. "PEDL,Protocol Error in Data Phase Interrupt Line" "0,1" bitfld.long 0x10 27. "PEAL,Protocol Error in Arbitration Phase Interrupt Line" "0,1" newline bitfld.long 0x10 26. "WDIL,Watchdog Interrupt Line" "0,1" bitfld.long 0x10 25. "BOL,Bus_Off Status Interrupt Line" "0,1" bitfld.long 0x10 24. "EWL,Warning Status Interrupt Line" "0,1" newline bitfld.long 0x10 23. "EPL,Error Passive Interrupt Line" "0,1" bitfld.long 0x10 22. "ELOL,Error Logging Overflow Interrupt Line" "0,1" bitfld.long 0x10 21. "BEUL,Bit Error Uncorrected Interrupt Line" "0,1" newline bitfld.long 0x10 20. "BECL,Bit Error Corrected Interrupt Line" "0,1" bitfld.long 0x10 19. "DRXL,Message stored to Dedicated Rx Buffer Interrupt Line" "0,1" bitfld.long 0x10 18. "TOOL,Timeout Occurred Interrupt Line" "0,1" newline bitfld.long 0x10 17. "MRAFL,Message RAM Access Failure Interrupt Line" "0,1" bitfld.long 0x10 16. "TSWL,Timestamp Wraparound Interrupt Line" "0,1" bitfld.long 0x10 15. "TEFLL,Tx Event FIFO Event Lost Interrupt Line" "0,1" newline bitfld.long 0x10 14. "TEFFL,Tx Event FIFO Full Interrupt Line" "0,1" bitfld.long 0x10 13. "TEFWL,Tx Event FIFO Watermark Reached Interrupt Line" "0,1" bitfld.long 0x10 12. "TEFNL,Tx Event FIFO New Entry Interrupt Line" "0,1" newline bitfld.long 0x10 11. "TFEL,Tx FIFO Empty Interrupt Line" "0,1" bitfld.long 0x10 10. "TCFL,Transmission Cancellation Finishied Interrupt Line" "0,1" bitfld.long 0x10 9. "TCL,Transmission Completed Interrupt Line" "0,1" newline bitfld.long 0x10 8. "HPML,High Priority message Interrupt Line" "0,1" bitfld.long 0x10 7. "RF1LL,rx FIFO 1 Message Lost Interrupt Line" "0,1" bitfld.long 0x10 6. "RF1FL,Rx FIFO 1 Full Interrupt Line" "0,1" newline bitfld.long 0x10 5. "RF1WL,Rx FIFO 1 Watermark Reached Interrupt Line" "0,1" bitfld.long 0x10 4. "RF1NL,Rx FIFO 1 New Message Interrupt Line" "0,1" bitfld.long 0x10 3. "RF0LL,Rx FIFO 0 Message Lost Interrupt Line" "0,1" newline bitfld.long 0x10 2. "RF0FL,Rx FIFO 0 Full Interrupt Line" "0,1" bitfld.long 0x10 1. "RF0WL,Rx FIFO 0 Watermark Reached Interrupt Line" "0,1" bitfld.long 0x10 0. "RF0NL,Rx FIFO 0 New Message Interrupt Line" "0,1" line.long 0x14 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ILE,Enable/disable interrupt lines m_can_int0 / m_can_int1" bitfld.long 0x14 1. "EINT1,Enable Interrupt Line 1" "0,1" bitfld.long 0x14 0. "EINT0,Enable Interrupt Line 0" "0,1" line.long 0x18 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved55,Reserved field" line.long 0x1C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved66,Reserved field" line.long 0x20 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved77,Reserved field" line.long 0x24 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved88,Reserved field" line.long 0x28 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved99,Reserved field" line.long 0x2C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1010,Reserved field" line.long 0x30 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1111,Reserved field" line.long 0x34 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1212,Reserved field" line.long 0x38 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_GFC,Handling of non-matching frames and remote frames" bitfld.long 0x38 4.--5. "ANFS,Accept Non-matching Frames Standard" "0,1,2,3" bitfld.long 0x38 2.--3. "ANFE,Accept Non-matching Frames Extended" "0,1,2,3" bitfld.long 0x38 1. "RRFS,reject Remote Frames Standard" "0,1" newline bitfld.long 0x38 0. "RRFE,reject Remote Frames Extended" "0,1" line.long 0x3C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_SIDFC,Number of filter elements. pointer to start of filter list" hexmask.long.byte 0x3C 16.--23. 1. "LSS,List Size Standard" hexmask.long.word 0x3C 2.--15. 1. "FLSSA,Filter List Standard Start Address" line.long 0x40 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_XIDFC,Number of filter elements. pointer to start of filter list" hexmask.long.byte 0x40 16.--22. 1. "LSE,List Size Extended" hexmask.long.word 0x40 2.--15. 1. "FLESA,Filter List Extended Start Address" line.long 0x44 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1313,Reserved field" line.long 0x48 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_XIDAM,29-bit logical AND mask for J1939" hexmask.long 0x48 0.--28. 1. "EIDM,Extended ID Mask" rgroup.long 0x94++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_HPMS,Status monitoring of incoming high priority messages" bitfld.long 0x0 15. "FLST,Filter List" "0,1" hexmask.long.byte 0x0 8.--14. 1. "FIDX,Filter Index" bitfld.long 0x0 6.--7. "MSI,Message Storage Indicator" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "BIDX,Buffer Index" group.long 0x98++0xB line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_NDAT1,NewDat flags of dedicated Rx buffers 0-31" bitfld.long 0x0 31. "ND31,New Data" "0,1" bitfld.long 0x0 30. "ND30,New Data" "0,1" bitfld.long 0x0 29. "ND29,New Data" "0,1" newline bitfld.long 0x0 28. "ND28,New Data" "0,1" bitfld.long 0x0 27. "ND27,New Data" "0,1" bitfld.long 0x0 26. "ND26,New Data" "0,1" newline bitfld.long 0x0 25. "ND25,New Data" "0,1" bitfld.long 0x0 24. "ND24,New Data" "0,1" bitfld.long 0x0 23. "ND23,New Data" "0,1" newline bitfld.long 0x0 22. "ND22,New Data" "0,1" bitfld.long 0x0 21. "ND21,New Data" "0,1" bitfld.long 0x0 20. "ND20,New Data" "0,1" newline bitfld.long 0x0 19. "ND19,New Data" "0,1" bitfld.long 0x0 18. "ND18,New Data" "0,1" bitfld.long 0x0 17. "ND17,New Data" "0,1" newline bitfld.long 0x0 16. "ND16,New Data" "0,1" bitfld.long 0x0 15. "ND15,New Data" "0,1" bitfld.long 0x0 14. "ND14,New Data" "0,1" newline bitfld.long 0x0 13. "ND13,New Data" "0,1" bitfld.long 0x0 12. "ND12,New Data" "0,1" bitfld.long 0x0 11. "ND11,New Data" "0,1" newline bitfld.long 0x0 10. "ND10,New Data" "0,1" bitfld.long 0x0 9. "ND9,New Data" "0,1" bitfld.long 0x0 8. "ND8,New Data" "0,1" newline bitfld.long 0x0 7. "ND7,New Data" "0,1" bitfld.long 0x0 6. "ND6,New Data" "0,1" bitfld.long 0x0 5. "ND5,New Data" "0,1" newline bitfld.long 0x0 4. "ND4,New Data" "0,1" bitfld.long 0x0 3. "ND3,New Data" "0,1" bitfld.long 0x0 2. "ND2,New Data" "0,1" newline bitfld.long 0x0 1. "ND1,New Data" "0,1" bitfld.long 0x0 0. "ND0,New Data" "0,1" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_NDAT2,NewDat flags of dedicated Rx buffers 32-63" bitfld.long 0x4 31. "ND63,New Data" "0,1" bitfld.long 0x4 30. "ND62,New Data" "0,1" bitfld.long 0x4 29. "ND61,New Data" "0,1" newline bitfld.long 0x4 28. "ND60,New Data" "0,1" bitfld.long 0x4 27. "ND59,New Data" "0,1" bitfld.long 0x4 26. "ND58,New Data" "0,1" newline bitfld.long 0x4 25. "ND57,New Data" "0,1" bitfld.long 0x4 24. "ND56,New Data" "0,1" bitfld.long 0x4 23. "ND55,New Data" "0,1" newline bitfld.long 0x4 22. "ND54,New Data" "0,1" bitfld.long 0x4 21. "ND53,New Data" "0,1" bitfld.long 0x4 20. "ND52,New Data" "0,1" newline bitfld.long 0x4 19. "ND51,New Data" "0,1" bitfld.long 0x4 18. "ND50,New Data" "0,1" bitfld.long 0x4 17. "ND49,New Data" "0,1" newline bitfld.long 0x4 16. "ND48,New Data" "0,1" bitfld.long 0x4 15. "ND47,New Data" "0,1" bitfld.long 0x4 14. "ND46,New Data" "0,1" newline bitfld.long 0x4 13. "ND45,New Data" "0,1" bitfld.long 0x4 12. "ND44,New Data" "0,1" bitfld.long 0x4 11. "ND43,New Data" "0,1" newline bitfld.long 0x4 10. "ND42,New Data" "0,1" bitfld.long 0x4 9. "ND41,New Data" "0,1" bitfld.long 0x4 8. "ND40,New Data" "0,1" newline bitfld.long 0x4 7. "ND39,New Data" "0,1" bitfld.long 0x4 6. "ND38,New Data" "0,1" bitfld.long 0x4 5. "ND37,New Data" "0,1" newline bitfld.long 0x4 4. "ND36,New Data" "0,1" bitfld.long 0x4 3. "ND35,New Data" "0,1" bitfld.long 0x4 2. "ND34,New Data" "0,1" newline bitfld.long 0x4 1. "ND33,New Data" "0,1" bitfld.long 0x4 0. "ND32,New Data" "0,1" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF0C,FIFO 0 operation mode. watermark. size and start address" bitfld.long 0x8 31. "F0OM,Rx FIFO 0 Operation Mode" "0,1" hexmask.long.byte 0x8 24.--30. 1. "F0WM,Rx FIFO 0 Watermark" hexmask.long.byte 0x8 16.--22. 1. "F0S,Rx FIFO 0 Size" newline hexmask.long.word 0x8 2.--15. 1. "F0SA,Rx FIFO 0 Start Address" rgroup.long 0xA4++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF0S,FIFO 0 message lost/full indication. put index. get index and fill level" bitfld.long 0x0 25. "RF0L,Rx FIFO 0 Message Lost" "0,1" bitfld.long 0x0 24. "F0F,Rx FIFO 0 Full" "0,1" hexmask.long.byte 0x0 16.--21. 1. "F0PI,Rx FIFO 0 Put Index" newline hexmask.long.byte 0x0 8.--13. 1. "F0GI,Rx FIFO 0 Get Index" hexmask.long.byte 0x0 0.--6. 1. "F0FL,Rx FIFO 0 Fill Level" group.long 0xA8++0xB line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF0A,FIFO 0 acknowledge last index of read buffers. updates get index and fill level" hexmask.long.byte 0x0 0.--5. 1. "F0AI,Rx FIFO 0 Acknowledge Index" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXBC,Start address of Rx buffer section" hexmask.long.word 0x4 2.--15. 1. "RBSA,Rx Buffer Start Address" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF1C,FIFO 1 operation mode. watermark. size and start address" bitfld.long 0x8 31. "F1OM,Rx FIFO 1 Operation Mode" "0,1" hexmask.long.byte 0x8 24.--30. 1. "F1WM,Rx FIFO 1 Watermark" hexmask.long.byte 0x8 16.--22. 1. "F1S,Rx FIFO 1 Size" newline hexmask.long.word 0x8 2.--15. 1. "F1SA,Rx FIFO 1 Start Address" rgroup.long 0xB4++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF1S,FIFO 1 message lost/full indication. put index. get index and fill level" bitfld.long 0x0 30.--31. "DMS,Debug Message Status" "0,1,2,3" bitfld.long 0x0 25. "RF1L,Rx FIFO 1 Message Lost" "0,1" bitfld.long 0x0 24. "F1F,Rx FIFO 1 Full" "0,1" newline hexmask.long.byte 0x0 16.--21. 1. "F1PI,Rx FIFO 1 Put Index" hexmask.long.byte 0x0 8.--13. 1. "F1GI,Rx FIFO 1 Get Index" hexmask.long.byte 0x0 0.--6. 1. "F1FL,Rx FIFO 1 Fill Level" group.long 0xB8++0xB line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF1A,FIFO 1 acknowledge last index of read buffers. updates get index and fill level" hexmask.long.byte 0x0 0.--5. 1. "F1AI,Rx FIFO 1 Acknowledge Index" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXESC,Configure data field size for storage of accepted frames" bitfld.long 0x4 8.--10. "RBDS,Rx Buffer data Field Size" "0,1,2,3,4,5,6,7" bitfld.long 0x4 4.--6. "F1DS,Rx FIFO 1 Data Field Size" "0,1,2,3,4,5,6,7" bitfld.long 0x4 0.--2. "F0DS,Rx FIFO 0 Data Field Size" "0,1,2,3,4,5,6,7" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBC,Configure Tx FIFO/Queue mode. Tx FIFO/Queue size. number of dedicated Tx buffers. Tx buffer start address" bitfld.long 0x8 30. "TFQM,Tx FIFO/Queue Mode" "0,1" hexmask.long.byte 0x8 24.--29. 1. "TFQS,Transmit FIFO/Queue Size" hexmask.long.byte 0x8 16.--21. 1. "NDTB,Number of Dedicated Transmit Buffers" newline hexmask.long.word 0x8 2.--15. 1. "TBSA,Tx Buffers Start Address" rgroup.long 0xC4++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXFQS,Tx FIFO/Queue full indication and put index. Tx FIFO get index and fill level" bitfld.long 0x0 21. "TFQF,Tx FIFO/Queue Full" "0,1" hexmask.long.byte 0x0 16.--20. 1. "TFQPI,Tx FIFO/Queue Put Index" hexmask.long.byte 0x0 8.--12. 1. "TFGI,Tx Queue Get Index" newline hexmask.long.byte 0x0 0.--5. 1. "TFFL,Tx FIFO Free Level" group.long 0xC8++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXESC,Configure data field size for frame transmission" bitfld.long 0x0 0.--2. "TBDS,Tx Buffer Data Field Size" "0,1,2,3,4,5,6,7" rgroup.long 0xCC++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBRP,Tx buffers with pending transmission request" bitfld.long 0x0 31. "TRP31,Transmission Request Pending" "0,1" bitfld.long 0x0 30. "TRP30,Transmission Request Pending" "0,1" bitfld.long 0x0 29. "TRP29,Transmission Request Pending" "0,1" newline bitfld.long 0x0 28. "TRP28,Transmission Request Pending" "0,1" bitfld.long 0x0 27. "TRP27,Transmission Request Pending" "0,1" bitfld.long 0x0 26. "TRP26,Transmission Request Pending" "0,1" newline bitfld.long 0x0 25. "TRP25,Transmission Request Pending" "0,1" bitfld.long 0x0 24. "TRP24,Transmission Request Pending" "0,1" bitfld.long 0x0 23. "TRP23,Transmission Request Pending" "0,1" newline bitfld.long 0x0 22. "TRP22,Transmission Request Pending" "0,1" bitfld.long 0x0 21. "TRP21,Transmission Request Pending" "0,1" bitfld.long 0x0 20. "TRP20,Transmission Request Pending" "0,1" newline bitfld.long 0x0 19. "TRP19,Transmission Request Pending" "0,1" bitfld.long 0x0 18. "TRP18,Transmission Request Pending" "0,1" bitfld.long 0x0 17. "TRP17,Transmission Request Pending" "0,1" newline bitfld.long 0x0 16. "TRP16,Transmission Request Pending" "0,1" bitfld.long 0x0 15. "TRP15,Transmission Request Pending" "0,1" bitfld.long 0x0 14. "TRP14,Transmission Request Pending" "0,1" newline bitfld.long 0x0 13. "TRP13,Transmission Request Pending" "0,1" bitfld.long 0x0 12. "TRP12,Transmission Request Pending" "0,1" bitfld.long 0x0 11. "TRP11,Transmission Request Pending" "0,1" newline bitfld.long 0x0 10. "TRP10,Transmission Request Pending" "0,1" bitfld.long 0x0 9. "TRP9,Transmission Request Pending" "0,1" bitfld.long 0x0 8. "TRP8,Transmission Request Pending" "0,1" newline bitfld.long 0x0 7. "TRP7,Transmission Request Pending" "0,1" bitfld.long 0x0 6. "TRP6,Transmission Request Pending" "0,1" bitfld.long 0x0 5. "TRP5,Transmission Request Pending" "0,1" newline bitfld.long 0x0 4. "TRP4,Transmission Request Pending" "0,1" bitfld.long 0x0 3. "TRP3,Transmission Request Pending" "0,1" bitfld.long 0x0 2. "TRP2,Transmission Request Pending" "0,1" newline bitfld.long 0x0 1. "TRP1,Transmission Request Pending" "0,1" bitfld.long 0x0 0. "TRP0,Transmission Request Pending" "0,1" group.long 0xD0++0x7 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBAR,Add transmission requests" bitfld.long 0x0 31. "AR31,Add request" "0,1" bitfld.long 0x0 30. "AR30,Add request" "0,1" bitfld.long 0x0 29. "AR29,Add request" "0,1" newline bitfld.long 0x0 28. "AR28,Add request" "0,1" bitfld.long 0x0 27. "AR27,Add request" "0,1" bitfld.long 0x0 26. "AR26,Add request" "0,1" newline bitfld.long 0x0 25. "AR25,Add request" "0,1" bitfld.long 0x0 24. "AR24,Add request" "0,1" bitfld.long 0x0 23. "AR23,Add request" "0,1" newline bitfld.long 0x0 22. "AR22,Add request" "0,1" bitfld.long 0x0 21. "AR21,Add request" "0,1" bitfld.long 0x0 20. "AR20,Add request" "0,1" newline bitfld.long 0x0 19. "AR19,Add request" "0,1" bitfld.long 0x0 18. "AR18,Add request" "0,1" bitfld.long 0x0 17. "AR17,Add request" "0,1" newline bitfld.long 0x0 16. "AR16,Add request" "0,1" bitfld.long 0x0 15. "AR15,Add request" "0,1" bitfld.long 0x0 14. "AR14,Add request" "0,1" newline bitfld.long 0x0 13. "AR13,Add request" "0,1" bitfld.long 0x0 12. "AR12,Add request" "0,1" bitfld.long 0x0 11. "AR11,Add request" "0,1" newline bitfld.long 0x0 10. "AR10,Add request" "0,1" bitfld.long 0x0 9. "AR9,Add request" "0,1" bitfld.long 0x0 8. "AR8,Add request" "0,1" newline bitfld.long 0x0 7. "AR7,Add request" "0,1" bitfld.long 0x0 6. "AR6,Add request" "0,1" bitfld.long 0x0 5. "AR5,Add request" "0,1" newline bitfld.long 0x0 4. "AR4,Add request" "0,1" bitfld.long 0x0 3. "AR3,Add request" "0,1" bitfld.long 0x0 2. "AR2,Add request" "0,1" newline bitfld.long 0x0 1. "AR1,Add request" "0,1" bitfld.long 0x0 0. "AR0,Add request" "0,1" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBCR,Request cancellation of pending transmissions" bitfld.long 0x4 31. "CR31,Cancellation Request" "0,1" bitfld.long 0x4 30. "CR30,Cancellation Request" "0,1" bitfld.long 0x4 29. "CR29,Cancellation Request" "0,1" newline bitfld.long 0x4 28. "CR28,Cancellation Request" "0,1" bitfld.long 0x4 27. "CR27,Cancellation Request" "0,1" bitfld.long 0x4 26. "CR26,Cancellation Request" "0,1" newline bitfld.long 0x4 25. "CR25,Cancellation Request" "0,1" bitfld.long 0x4 24. "CR24,Cancellation Request" "0,1" bitfld.long 0x4 23. "CR23,Cancellation Request" "0,1" newline bitfld.long 0x4 22. "CR22,Cancellation Request" "0,1" bitfld.long 0x4 21. "CR21,Cancellation Request" "0,1" bitfld.long 0x4 20. "CR20,Cancellation Request" "0,1" newline bitfld.long 0x4 19. "CR19,Cancellation Request" "0,1" bitfld.long 0x4 18. "CR18,Cancellation Request" "0,1" bitfld.long 0x4 17. "CR17,Cancellation Request" "0,1" newline bitfld.long 0x4 16. "CR16,Cancellation Request" "0,1" bitfld.long 0x4 15. "CR15,Cancellation Request" "0,1" bitfld.long 0x4 14. "CR14,Cancellation Request" "0,1" newline bitfld.long 0x4 13. "CR13,Cancellation Request" "0,1" bitfld.long 0x4 12. "CR12,Cancellation Request" "0,1" bitfld.long 0x4 11. "CR11,Cancellation Request" "0,1" newline bitfld.long 0x4 10. "CR10,Cancellation Request" "0,1" bitfld.long 0x4 9. "CR9,Cancellation Request" "0,1" bitfld.long 0x4 8. "CR8,Cancellation Request" "0,1" newline bitfld.long 0x4 7. "CR7,Cancellation Request" "0,1" bitfld.long 0x4 6. "CR6,Cancellation Request" "0,1" bitfld.long 0x4 5. "CR5,Cancellation Request" "0,1" newline bitfld.long 0x4 4. "CR4,Cancellation Request" "0,1" bitfld.long 0x4 3. "CR3,Cancellation Request" "0,1" bitfld.long 0x4 2. "CR2,Cancellation Request" "0,1" newline bitfld.long 0x4 1. "CR1,Cancellation Request" "0,1" bitfld.long 0x4 0. "CR0,Cancellation Request" "0,1" rgroup.long 0xD8++0x7 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBTO,Signals successful transmissions. set when corresponding TXBRP flag is cleared" bitfld.long 0x0 31. "TO31,Transmission Occurred" "0,1" bitfld.long 0x0 30. "TO30,Transmission Occurred" "0,1" bitfld.long 0x0 29. "TO29,Transmission Occurred" "0,1" newline bitfld.long 0x0 28. "TO28,Transmission Occurred" "0,1" bitfld.long 0x0 27. "TO27,Transmission Occurred" "0,1" bitfld.long 0x0 26. "TO26,Transmission Occurred" "0,1" newline bitfld.long 0x0 25. "TO25,Transmission Occurred" "0,1" bitfld.long 0x0 24. "TO24,Transmission Occurred" "0,1" bitfld.long 0x0 23. "TO23,Transmission Occurred" "0,1" newline bitfld.long 0x0 22. "TO22,Transmission Occurred" "0,1" bitfld.long 0x0 21. "TO21,Transmission Occurred" "0,1" bitfld.long 0x0 20. "TO20,Transmission Occurred" "0,1" newline bitfld.long 0x0 19. "TO19,Transmission Occurred" "0,1" bitfld.long 0x0 18. "TO18,Transmission Occurred" "0,1" bitfld.long 0x0 17. "TO17,Transmission Occurred" "0,1" newline bitfld.long 0x0 16. "TO16,Transmission Occurred" "0,1" bitfld.long 0x0 15. "TO15,Transmission Occurred" "0,1" bitfld.long 0x0 14. "TO14,Transmission Occurred" "0,1" newline bitfld.long 0x0 13. "TO13,Transmission Occurred" "0,1" bitfld.long 0x0 12. "TO12,Transmission Occurred" "0,1" bitfld.long 0x0 11. "TO11,Transmission Occurred" "0,1" newline bitfld.long 0x0 10. "TO10,Transmission Occurred" "0,1" bitfld.long 0x0 9. "TO9,Transmission Occurred" "0,1" bitfld.long 0x0 8. "TO8,Transmission Occurred" "0,1" newline bitfld.long 0x0 7. "TO7,Transmission Occurred" "0,1" bitfld.long 0x0 6. "TO6,Transmission Occurred" "0,1" bitfld.long 0x0 5. "TO5,Transmission Occurred" "0,1" newline bitfld.long 0x0 4. "TO4,Transmission Occurred" "0,1" bitfld.long 0x0 3. "TO3,Transmission Occurred" "0,1" bitfld.long 0x0 2. "TO2,Transmission Occurred" "0,1" newline bitfld.long 0x0 1. "TO1,Transmission Occurred" "0,1" bitfld.long 0x0 0. "TO0,Transmission Occurred" "0,1" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBCF,Signals successful transmit cancellation. set when corresponding TXBRP flag is cleared after cancellation request" bitfld.long 0x4 31. "CF31,Cancellation Finished" "0,1" bitfld.long 0x4 30. "CF30,Cancellation Finished" "0,1" bitfld.long 0x4 29. "CF29,Cancellation Finished" "0,1" newline bitfld.long 0x4 28. "CF28,Cancellation Finished" "0,1" bitfld.long 0x4 27. "CF27,Cancellation Finished" "0,1" bitfld.long 0x4 26. "CF26,Cancellation Finished" "0,1" newline bitfld.long 0x4 25. "CF25,Cancellation Finished" "0,1" bitfld.long 0x4 24. "CF24,Cancellation Finished" "0,1" bitfld.long 0x4 23. "CF23,Cancellation Finished" "0,1" newline bitfld.long 0x4 22. "CF22,Cancellation Finished" "0,1" bitfld.long 0x4 21. "CF21,Cancellation Finished" "0,1" bitfld.long 0x4 20. "CF20,Cancellation Finished" "0,1" newline bitfld.long 0x4 19. "CF19,Cancellation Finished" "0,1" bitfld.long 0x4 18. "CF18,Cancellation Finished" "0,1" bitfld.long 0x4 17. "CF17,Cancellation Finished" "0,1" newline bitfld.long 0x4 16. "CF16,Cancellation Finished" "0,1" bitfld.long 0x4 15. "CF15,Cancellation Finished" "0,1" bitfld.long 0x4 14. "CF14,Cancellation Finished" "0,1" newline bitfld.long 0x4 13. "CF13,Cancellation Finished" "0,1" bitfld.long 0x4 12. "CF12,Cancellation Finished" "0,1" bitfld.long 0x4 11. "CF11,Cancellation Finished" "0,1" newline bitfld.long 0x4 10. "CF10,Cancellation Finished" "0,1" bitfld.long 0x4 9. "CF9,Cancellation Finished" "0,1" bitfld.long 0x4 8. "CF8,Cancellation Finished" "0,1" newline bitfld.long 0x4 7. "CF7,Cancellation Finished" "0,1" bitfld.long 0x4 6. "CF6,Cancellation Finished" "0,1" bitfld.long 0x4 5. "CF5,Cancellation Finished" "0,1" newline bitfld.long 0x4 4. "CF4,Cancellation Finished" "0,1" bitfld.long 0x4 3. "CF3,Cancellation Finished" "0,1" bitfld.long 0x4 2. "CF2,Cancellation Finished" "0,1" newline bitfld.long 0x4 1. "CF1,Cancellation Finished" "0,1" bitfld.long 0x4 0. "CF0,Cancellation Finished" "0,1" group.long 0xE0++0x13 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBTIE,Enable transmit interrupts for selected Tx buffers" bitfld.long 0x0 31. "TIE31,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 30. "TIE30,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 29. "TIE29,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 28. "TIE28,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 27. "TIE27,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 26. "TIE26,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 25. "TIE25,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 24. "TIE24,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 23. "TIE23,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 22. "TIE22,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 21. "TIE21,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 20. "TIE20,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 19. "TIE19,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 18. "TIE18,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 17. "TIE17,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 16. "TIE16,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 15. "TIE15,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 14. "TIE14,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 13. "TIE13,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 12. "TIE12,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 11. "TIE11,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 10. "TIE10,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 9. "TIE9,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 8. "TIE8,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 7. "TIE7,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 6. "TIE6,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 5. "TIE5,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 4. "TIE4,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 3. "TIE3,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 2. "TIE2,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 1. "TIE1,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 0. "TIE0,Transmission Interrupt Enable" "0,1" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBCIE,Enable cancellation finished interrupts for selected Tx buffers" bitfld.long 0x4 31. "CFIE31,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 30. "CFIE30,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 29. "CFIE29,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 28. "CFIE28,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 27. "CFIE27,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 26. "CFIE26,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 25. "CFIE25,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 24. "CFIE24,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 23. "CFIE23,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 22. "CFIE22,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 21. "CFIE21,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 20. "CFIE20,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 19. "CFIE19,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 18. "CFIE18,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 17. "CFIE17,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 16. "CFIE16,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 15. "CFIE15,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 14. "CFIE14,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 13. "CFIE13,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 12. "CFIE12,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 11. "CFIE11,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 10. "CFIE10,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 9. "CFIE9,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 8. "CFIE8,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 7. "CFIE7,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 6. "CFIE6,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 5. "CFIE5,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 4. "CFIE4,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 3. "CFIE3,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 2. "CFIE2,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 1. "CFIE1,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 0. "CFIE0,Cancellation Finished Interrupt Enable" "0,1" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1414,Reserved Field" line.long 0xC "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1515,Reserved Field" line.long 0x10 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXEFC,Tx event FIFO watermark. size and start address" hexmask.long.byte 0x10 24.--29. 1. "EFWM,Event FIFO Watermark" hexmask.long.byte 0x10 16.--21. 1. "EFS,Event FIFO Size" hexmask.long.word 0x10 2.--15. 1. "EFSA,Event FIFO Start Address" rgroup.long 0xF4++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXEFS,Tx event FIFO element lost/full indication. put index. get index. and fill level" bitfld.long 0x0 25. "TEFL,Tx Event FIFO Element Lost" "0,1" bitfld.long 0x0 24. "EFF,Event FIFO Full" "0,1" hexmask.long.byte 0x0 16.--20. 1. "EFPI,Event FIFO Put Index" newline hexmask.long.byte 0x0 8.--12. 1. "EFGI,Event FIFO Get Index" hexmask.long.byte 0x0 0.--5. 1. "EFFL,Event FIFO Fill Level" group.long 0xF8++0xB line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXEFA,Tx event FIFO acknowledge last index of read elements. updates get index and fill level" hexmask.long.byte 0x0 0.--4. 1. "EFAI,Event FIFO Acknowledge Index" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1616,Reserved Field" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ReservUpper256,Reserved Field" tree.end tree "MCU_MCAN0_ECC_AGGR (MCU_MCAN0_ECC_AGGR)" base ad:0x4701000 rgroup.long 0x0++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 1. "CTRL_EDC_VBUSS_PEND,Interrupt Pending Status for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x4 0. "MSGMEM_PEND,Interrupt Pending Status for msgmem_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 1. "CTRL_EDC_VBUSS_ENABLE_SET,Interrupt Enable Set Register for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x0 0. "MSGMEM_ENABLE_SET,Interrupt Enable Set Register for msgmem_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 1. "CTRL_EDC_VBUSS_ENABLE_CLR,Interrupt Enable Clear Register for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x0 0. "MSGMEM_ENABLE_CLR,Interrupt Enable Clear Register for msgmem_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 1. "CTRL_EDC_VBUSS_PEND,Interrupt Pending Status for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x4 0. "MSGMEM_PEND,Interrupt Pending Status for msgmem_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 1. "CTRL_EDC_VBUSS_ENABLE_SET,Interrupt Enable Set Register for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x0 0. "MSGMEM_ENABLE_SET,Interrupt Enable Set Register for msgmem_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 1. "CTRL_EDC_VBUSS_ENABLE_CLR,Interrupt Enable Clear Register for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x0 0. "MSGMEM_ENABLE_CLR,Interrupt Enable Clear Register for msgmem_pend" "0,1" group.long 0x200++0xF line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "MCU_MCAN0_MSGMEM_RAM (MCU_MCAN0_MSGMEM_RAM)" base ad:0x4E00000 group.long 0x0++0x3 line.long 0x0 "MSGMEM_WRAP__MSGMEM_VBP__RAM_RAM_REG,The RAM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end tree "MCU_MCAN0_SS (MCU_MCAN0_SS)" base ad:0x4E09000 rgroup.long 0x0++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_PID,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_CTRL,The Control Register contains general control bits for the MCANSS" bitfld.long 0x0 6. "EXT_TS_CNTR_EN,External TimeStamp Counter Enable" "0,1" bitfld.long 0x0 5. "AUTOWAKEUP,Automatic Wakeup Enable" "0,1" newline bitfld.long 0x0 4. "WAKEUPREQEN,Wakeup Request Enable" "0,1" bitfld.long 0x0 3. "DBGSUSP_FREE,0-Honor Debug Suspend 1-Disregard debug suspend" "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_STAT,The Status register provide general status bits for the MCANSS" bitfld.long 0x0 2. "ENABLE_FDOE,Reflects the value of mcanss_enable_fdoe configuration port x=mcanss_enable_fdoe" "0,1" bitfld.long 0x0 1. "MEM_INIT_DONE,0:Memory Initialization is in progress 1:Memory Intialization Done" "0: Memory Initialization is in progress,1: Memory Intialization Done" wgroup.long 0xC++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_ICS,Write to clear interrupt bits" bitfld.long 0x0 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt status. Write '1' to clear bits." "0,1" group.long 0x10++0xB line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_IRS,Read raw interrupt status. Write '1' to set interrupt bits." bitfld.long 0x0 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt status." "0,1" line.long 0x4 "MMR__MMRVBP__MCANSS_REGS_MCANSS_IECS,Write to clear interrupt enable bits" bitfld.long 0x4 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt. Write '1' to clear bits." "0,1" line.long 0x8 "MMR__MMRVBP__MCANSS_REGS_MCANSS_IE,Read interrupt Enable" bitfld.long 0x8 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt." "0,1" rgroup.long 0x1C++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_IES,Read Enabled Interrupts" bitfld.long 0x0 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt" "0,1" wgroup.long 0x20++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_EOI,End of Interrupt Register" hexmask.long.byte 0x0 0.--7. 1. "EOI,Write with bit position of targeted interrupt. (E.g. Ext TS is bit 0). Upon write level interrupt will clear and if unserviced interrupt counter > 1 will issue another pulse interrupt" group.long 0x24++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_EXT_TS_PRESCALER,External TImeStamp PreScaler" hexmask.long.tbyte 0x0 0.--23. 1. "PRESCALER,External Timestamp Prescaler reload value. External Timestamp count rate is host clock rate divided by this value with one exception: a value of 0 has the same effect as 1" rgroup.long 0x28++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_EXT_TS_UNSERVICED_INTR_CNTR,External TImeStamp Unserviced Interrupts Counter" hexmask.long.byte 0x0 0.--4. 1. "EXT_TS_INTR_CNTR,Number of unserviced rollover interrupts. If >1 an EOI write will issue another pulse interrupt" tree.end tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_MCAN1" base ad:0x0 tree "MCU_MCAN1_CFG (MCU_MCAN1_CFG)" base ad:0x4E18000 rgroup.long 0x0++0x7 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_CREL,Release dependent constant (version + date)" hexmask.long.byte 0x0 28.--31. 1. "REL,Core Release" hexmask.long.byte 0x0 24.--27. 1. "STEP,Step of Core Release" hexmask.long.byte 0x0 20.--23. 1. "SUBSTEP,Sub-Step of Core Release" newline hexmask.long.byte 0x0 16.--19. 1. "YEAR,Time Stamp Year" hexmask.long.byte 0x0 8.--15. 1. "MON,Time Stamp Month" hexmask.long.byte 0x0 0.--7. 1. "DAY,Time Stamp Day" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ENDN,Constant 0x8765 4321" hexmask.long 0x4 0.--31. 1. "ETV,Endianess test value" group.long 0x8++0x37 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_CUST,Optional customer-specific register" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_DBTP,Configuration of data phase bit timing. transmitter delay compensation enable" bitfld.long 0x4 23. "TDC,Transmitter Delay Compensation" "0,1" hexmask.long.byte 0x4 16.--20. 1. "DBRP,Data Baud Rate Prescaler" hexmask.long.byte 0x4 8.--12. 1. "DTSEG1,Data time segment before sample point" newline hexmask.long.byte 0x4 4.--7. 1. "DTSEG2,Data time segment after sample point" hexmask.long.byte 0x4 0.--3. 1. "DSJW,Data resynchronization Jump Width" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TEST,Test mode selection" rbitfld.long 0x8 7. "RX,Receive Pin" "0,1" bitfld.long 0x8 5.--6. "TX,Control of Transmit Pin" "0,1,2,3" bitfld.long 0x8 4. "LBCK,Loop Back Mode" "0,1" line.long 0xC "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RWD,Monitors the READY output of the Message RAM" hexmask.long.byte 0xC 8.--15. 1. "WDV,Watchdog Value" hexmask.long.byte 0xC 0.--7. 1. "WDC,Watchdog Counter Value" line.long 0x10 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_CCCR,Operation mode configuration" bitfld.long 0x10 15. "NISO,Non ISO Operation. 0= CAN FD frame format according to ISO 11898-1:2015. 1= CAN FD frame format according to Bosch CAN FD Specification 1.0" "0: CAN FD frame format according to ISO 11898-1:2015,1: CAN FD frame format according to Bosch CAN FD.." bitfld.long 0x10 14. "TXP,Transmit Pause" "0,1" bitfld.long 0x10 13. "EFBI,Edge Filtering during Bus Integration" "0,1" newline bitfld.long 0x10 12. "PXHD,Protocol Exception Handling Disable" "0,1" bitfld.long 0x10 9. "BRSE,Bit Rate Switch Enable" "0,1" bitfld.long 0x10 8. "FDOE,FD Operation Enable" "0,1" newline bitfld.long 0x10 7. "TEST,Test Mode enable" "0,1" bitfld.long 0x10 6. "DAR,Disable Automatic Retransmission" "0,1" bitfld.long 0x10 5. "MON,Bus Monitoring Mode" "0,1" newline bitfld.long 0x10 4. "CSR,Clock Stop Request" "0,1" rbitfld.long 0x10 3. "CSA,Clock Stop Acknowledge" "0,1" bitfld.long 0x10 2. "ASM,Restricted Operation Mode" "0,1" newline bitfld.long 0x10 1. "CCE,Configuration Change Enable" "0,1" bitfld.long 0x10 0. "INIT,Initialization" "0,1" line.long 0x14 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_NBTP,Configuration of arbitration phase bit timing" hexmask.long.byte 0x14 25.--31. 1. "NSJW,Nominal Resynchronization Jump Width" hexmask.long.word 0x14 16.--24. 1. "NBRP,Nominal Baud Rate Prescaler" hexmask.long.byte 0x14 8.--15. 1. "NTSEG1,Nominal Time segment before sample point" newline hexmask.long.byte 0x14 0.--6. 1. "NTSEG2,Nominal Time segment after sample point" line.long 0x18 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TSCC,Timestamp counter prescaler setting. selection of internal/external timestamp vector" hexmask.long.byte 0x18 16.--19. 1. "TCP,Timestamp Counter Prescaler" bitfld.long 0x18 0.--1. "TSS,Timestamp Select" "0,1,2,3" line.long 0x1C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TSCV,Read/reset timestamp counter" hexmask.long.word 0x1C 0.--15. 1. "TSC,Timestamp Counter" line.long 0x20 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TOCC,Configuration of timeout period. selection of timeout counter operation mode" hexmask.long.word 0x20 16.--31. 1. "TOP,Timeout Period" bitfld.long 0x20 1.--2. "TOS,Timeout Select" "0,1,2,3" bitfld.long 0x20 0. "ETOC,Enable Timeout Counter" "0,1" line.long 0x24 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TOCV,Read/reset timeout counter" hexmask.long.word 0x24 0.--15. 1. "TOC,Timeout Counter" line.long 0x28 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved00,Reserved field" line.long 0x2C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved11,Reserved field" line.long 0x30 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved22,Reserved field" line.long 0x34 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved33,Reserved field" rgroup.long 0x40++0x7 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ECR,State of Rx/Tx Error Counter. CAN Error Logging" hexmask.long.byte 0x0 16.--23. 1. "CEL,CAN Error Logging" bitfld.long 0x0 15. "RP,Receive Error Passive" "0,1" hexmask.long.byte 0x0 8.--14. 1. "REC,Receive Error Counter" newline hexmask.long.byte 0x0 0.--7. 1. "TEC,Transmit Error Counter" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_PSR,CAN protocol controller status. transmitter delay compensation value" hexmask.long.byte 0x4 16.--22. 1. "TDCV,Transmitter Delay Compensation Value" bitfld.long 0x4 14. "PXE,Protocol Exception Event" "0,1" bitfld.long 0x4 13. "RFDF,Received a CAN FD Message" "0,1" newline bitfld.long 0x4 12. "RBRS,BRS flag of last received CAN FD Message" "0,1" bitfld.long 0x4 11. "RESI,ESI flag of last received CAN FD Message" "0,1" bitfld.long 0x4 8.--10. "DLEC,Data Phase Last Error Code" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 7. "BO,Bus_Off status" "0,1" bitfld.long 0x4 6. "EW,Warning Status" "0,1" bitfld.long 0x4 5. "EP,Error Passive" "0,1" newline bitfld.long 0x4 3.--4. "ACT,Activity" "0,1,2,3" bitfld.long 0x4 0.--2. "LEC,Last Error Code" "0,1,2,3,4,5,6,7" group.long 0x48++0x4B line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TDCR,configuration of transmitter delay compensation offset and filter window length" hexmask.long.byte 0x0 8.--14. 1. "TDCO,Transmitter Delay Compensation Offset" hexmask.long.byte 0x0 0.--6. 1. "TDCF,Transmitter Delay Compensation Filter Window Length" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved44,Reserved field" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_IR,Interrupt flags" bitfld.long 0x8 29. "ARA,Access to Reserved Address" "0,1" bitfld.long 0x8 28. "PED,Protocol Error in data Phase" "0,1" bitfld.long 0x8 27. "PEA,Protocol Error in Arbitration Phase" "0,1" newline bitfld.long 0x8 26. "WDI,Watchdog Interrupt" "0,1" bitfld.long 0x8 25. "BO,Bus_Off Status" "0,1" bitfld.long 0x8 24. "EW,Warning Status" "0,1" newline bitfld.long 0x8 23. "EP,Error Passive" "0,1" bitfld.long 0x8 22. "ELO,Error Logging Overflow" "0,1" bitfld.long 0x8 21. "BEU,Bit Error Uncorrected" "0,1" newline bitfld.long 0x8 19. "DRX,Message stored to Dedicated Rx Buffer" "0,1" bitfld.long 0x8 18. "TOO,Timeout Occurred" "0,1" bitfld.long 0x8 17. "MRAF,Message RAM Access Failure" "0,1" newline bitfld.long 0x8 16. "TSW,Timestamp Wraparound" "0,1" bitfld.long 0x8 15. "TEFL,Tx Event FIFO Element Lost" "0,1" bitfld.long 0x8 14. "TEFF,Tx Event FIFO Full" "0,1" newline bitfld.long 0x8 13. "TEFW,Tx Event FIFO Watermark Reached" "0,1" bitfld.long 0x8 12. "TEFN,Tx Event FIFO New Entry" "0,1" bitfld.long 0x8 11. "TFE,Tx FIFO Empty" "0,1" newline bitfld.long 0x8 10. "TCF,Transmission Cancellation Finished" "0,1" bitfld.long 0x8 9. "TC,Transmission Complete" "0,1" bitfld.long 0x8 8. "HPM,High Priority Message" "0,1" newline bitfld.long 0x8 7. "RF1L,Rx FIFO 1 Message Lost" "0,1" bitfld.long 0x8 6. "RF1F,Rx FIFO 1 Full" "0,1" bitfld.long 0x8 5. "RF1W,Rx FIFO 1 Watermark Reached" "0,1" newline bitfld.long 0x8 4. "RF1N,Rx FIFO 1 New Message" "0,1" bitfld.long 0x8 3. "RF0L,Rx FIFO 0 Message Lost" "0,1" bitfld.long 0x8 2. "RF0F,Rx FIFO 0 Full" "0,1" newline bitfld.long 0x8 1. "RF0W,Rx FIFO 0 Watermark Reached" "0,1" bitfld.long 0x8 0. "RF0N,Rx FIFO 0 New Message" "0,1" line.long 0xC "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_IE,Interrupt enable/disable" bitfld.long 0xC 29. "ARAE,Access to Reserve Address Interrupt Enable" "0,1" bitfld.long 0xC 28. "PEDE,Protocol Error in Data Phase Interrupt Enable" "0,1" bitfld.long 0xC 27. "PEAE,Protocol Error in Arbitration Phase Interrupt Enable" "0,1" newline bitfld.long 0xC 26. "WDIE,Watchdog Interrupt Enable" "0,1" bitfld.long 0xC 25. "BOE,Bus_Off Status Interrupt Enable" "0,1" bitfld.long 0xC 24. "EWE,Warning Status Interrupt Enable" "0,1" newline bitfld.long 0xC 23. "EPE,Error Passive Interrupt Enable" "0,1" bitfld.long 0xC 22. "ELOE,Error Logging Overflow Interrupt Enable" "0,1" bitfld.long 0xC 21. "BEUE,Bit Error Uncorrected Interrupt Enable" "0,1" newline bitfld.long 0xC 20. "BECE,Bit Error Corrected Interrupt Enable" "0,1" bitfld.long 0xC 19. "DRX,Message stored to Dedicated Rx Buffer Interrupt Enable" "0,1" bitfld.long 0xC 18. "TOOE,Timeout Occurred Interrupt Enable" "0,1" newline bitfld.long 0xC 17. "MRAFE,Message RAM Access Failure Interrupt Enable" "0,1" bitfld.long 0xC 16. "TSWE,Timestamp Wraparound Interrupt Enable" "0,1" bitfld.long 0xC 15. "TEFLE,Tx Event FIFO Event Lost Interrupt Enable" "0,1" newline bitfld.long 0xC 14. "TEFFE,Tx Event FIFO Full Interrupt Enable" "0,1" bitfld.long 0xC 13. "TEFWE,Tx Event FIFO Watermark Reached Interrupt enable" "0,1" bitfld.long 0xC 12. "TEFNE,Tx Event FIFO New Entry Interrupt Enable" "0,1" newline bitfld.long 0xC 11. "TFEE,Tx FIFO Empty Interrupt Enable" "0,1" bitfld.long 0xC 10. "TCFE,Transmission Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0xC 9. "TCE,Transmission Completed Interrupt Enable" "0,1" newline bitfld.long 0xC 8. "HPME,High Priority message Interrupt Enable" "0,1" bitfld.long 0xC 7. "RF1LE,rx FIFO 1 Message Lost Interrupt Enable" "0,1" bitfld.long 0xC 6. "RF1FE,Rx FIFO 1 Full Interrupt Enable" "0,1" newline bitfld.long 0xC 5. "RF1WE,Rx FIFO 1 Watermark Reached Interrupt Enable" "0,1" bitfld.long 0xC 4. "RF1NE,Rx FIFO 1 New Message Interrupt Enable" "0,1" bitfld.long 0xC 3. "RF0LE,Rx FIFO 0 Message Lost Interrupt Enable" "0,1" newline bitfld.long 0xC 2. "RF0FE,Rx FIFO 0 Full Interrupt Enable" "0,1" bitfld.long 0xC 1. "RF0WE,Rx FIFO 0 Watermark Reached Interrupt Enable" "0,1" bitfld.long 0xC 0. "RF0NE,Rx FIFO 0 New Message Interrupt Enable" "0,1" line.long 0x10 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ILS,Interrupt line select (m_can_int0 or m_can_int1)" bitfld.long 0x10 29. "ARAL,Access to Reserve Address Interrupt Line" "0,1" bitfld.long 0x10 28. "PEDL,Protocol Error in Data Phase Interrupt Line" "0,1" bitfld.long 0x10 27. "PEAL,Protocol Error in Arbitration Phase Interrupt Line" "0,1" newline bitfld.long 0x10 26. "WDIL,Watchdog Interrupt Line" "0,1" bitfld.long 0x10 25. "BOL,Bus_Off Status Interrupt Line" "0,1" bitfld.long 0x10 24. "EWL,Warning Status Interrupt Line" "0,1" newline bitfld.long 0x10 23. "EPL,Error Passive Interrupt Line" "0,1" bitfld.long 0x10 22. "ELOL,Error Logging Overflow Interrupt Line" "0,1" bitfld.long 0x10 21. "BEUL,Bit Error Uncorrected Interrupt Line" "0,1" newline bitfld.long 0x10 20. "BECL,Bit Error Corrected Interrupt Line" "0,1" bitfld.long 0x10 19. "DRXL,Message stored to Dedicated Rx Buffer Interrupt Line" "0,1" bitfld.long 0x10 18. "TOOL,Timeout Occurred Interrupt Line" "0,1" newline bitfld.long 0x10 17. "MRAFL,Message RAM Access Failure Interrupt Line" "0,1" bitfld.long 0x10 16. "TSWL,Timestamp Wraparound Interrupt Line" "0,1" bitfld.long 0x10 15. "TEFLL,Tx Event FIFO Event Lost Interrupt Line" "0,1" newline bitfld.long 0x10 14. "TEFFL,Tx Event FIFO Full Interrupt Line" "0,1" bitfld.long 0x10 13. "TEFWL,Tx Event FIFO Watermark Reached Interrupt Line" "0,1" bitfld.long 0x10 12. "TEFNL,Tx Event FIFO New Entry Interrupt Line" "0,1" newline bitfld.long 0x10 11. "TFEL,Tx FIFO Empty Interrupt Line" "0,1" bitfld.long 0x10 10. "TCFL,Transmission Cancellation Finishied Interrupt Line" "0,1" bitfld.long 0x10 9. "TCL,Transmission Completed Interrupt Line" "0,1" newline bitfld.long 0x10 8. "HPML,High Priority message Interrupt Line" "0,1" bitfld.long 0x10 7. "RF1LL,rx FIFO 1 Message Lost Interrupt Line" "0,1" bitfld.long 0x10 6. "RF1FL,Rx FIFO 1 Full Interrupt Line" "0,1" newline bitfld.long 0x10 5. "RF1WL,Rx FIFO 1 Watermark Reached Interrupt Line" "0,1" bitfld.long 0x10 4. "RF1NL,Rx FIFO 1 New Message Interrupt Line" "0,1" bitfld.long 0x10 3. "RF0LL,Rx FIFO 0 Message Lost Interrupt Line" "0,1" newline bitfld.long 0x10 2. "RF0FL,Rx FIFO 0 Full Interrupt Line" "0,1" bitfld.long 0x10 1. "RF0WL,Rx FIFO 0 Watermark Reached Interrupt Line" "0,1" bitfld.long 0x10 0. "RF0NL,Rx FIFO 0 New Message Interrupt Line" "0,1" line.long 0x14 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ILE,Enable/disable interrupt lines m_can_int0 / m_can_int1" bitfld.long 0x14 1. "EINT1,Enable Interrupt Line 1" "0,1" bitfld.long 0x14 0. "EINT0,Enable Interrupt Line 0" "0,1" line.long 0x18 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved55,Reserved field" line.long 0x1C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved66,Reserved field" line.long 0x20 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved77,Reserved field" line.long 0x24 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved88,Reserved field" line.long 0x28 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved99,Reserved field" line.long 0x2C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1010,Reserved field" line.long 0x30 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1111,Reserved field" line.long 0x34 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1212,Reserved field" line.long 0x38 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_GFC,Handling of non-matching frames and remote frames" bitfld.long 0x38 4.--5. "ANFS,Accept Non-matching Frames Standard" "0,1,2,3" bitfld.long 0x38 2.--3. "ANFE,Accept Non-matching Frames Extended" "0,1,2,3" bitfld.long 0x38 1. "RRFS,reject Remote Frames Standard" "0,1" newline bitfld.long 0x38 0. "RRFE,reject Remote Frames Extended" "0,1" line.long 0x3C "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_SIDFC,Number of filter elements. pointer to start of filter list" hexmask.long.byte 0x3C 16.--23. 1. "LSS,List Size Standard" hexmask.long.word 0x3C 2.--15. 1. "FLSSA,Filter List Standard Start Address" line.long 0x40 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_XIDFC,Number of filter elements. pointer to start of filter list" hexmask.long.byte 0x40 16.--22. 1. "LSE,List Size Extended" hexmask.long.word 0x40 2.--15. 1. "FLESA,Filter List Extended Start Address" line.long 0x44 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1313,Reserved field" line.long 0x48 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_XIDAM,29-bit logical AND mask for J1939" hexmask.long 0x48 0.--28. 1. "EIDM,Extended ID Mask" rgroup.long 0x94++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_HPMS,Status monitoring of incoming high priority messages" bitfld.long 0x0 15. "FLST,Filter List" "0,1" hexmask.long.byte 0x0 8.--14. 1. "FIDX,Filter Index" bitfld.long 0x0 6.--7. "MSI,Message Storage Indicator" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "BIDX,Buffer Index" group.long 0x98++0xB line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_NDAT1,NewDat flags of dedicated Rx buffers 0-31" bitfld.long 0x0 31. "ND31,New Data" "0,1" bitfld.long 0x0 30. "ND30,New Data" "0,1" bitfld.long 0x0 29. "ND29,New Data" "0,1" newline bitfld.long 0x0 28. "ND28,New Data" "0,1" bitfld.long 0x0 27. "ND27,New Data" "0,1" bitfld.long 0x0 26. "ND26,New Data" "0,1" newline bitfld.long 0x0 25. "ND25,New Data" "0,1" bitfld.long 0x0 24. "ND24,New Data" "0,1" bitfld.long 0x0 23. "ND23,New Data" "0,1" newline bitfld.long 0x0 22. "ND22,New Data" "0,1" bitfld.long 0x0 21. "ND21,New Data" "0,1" bitfld.long 0x0 20. "ND20,New Data" "0,1" newline bitfld.long 0x0 19. "ND19,New Data" "0,1" bitfld.long 0x0 18. "ND18,New Data" "0,1" bitfld.long 0x0 17. "ND17,New Data" "0,1" newline bitfld.long 0x0 16. "ND16,New Data" "0,1" bitfld.long 0x0 15. "ND15,New Data" "0,1" bitfld.long 0x0 14. "ND14,New Data" "0,1" newline bitfld.long 0x0 13. "ND13,New Data" "0,1" bitfld.long 0x0 12. "ND12,New Data" "0,1" bitfld.long 0x0 11. "ND11,New Data" "0,1" newline bitfld.long 0x0 10. "ND10,New Data" "0,1" bitfld.long 0x0 9. "ND9,New Data" "0,1" bitfld.long 0x0 8. "ND8,New Data" "0,1" newline bitfld.long 0x0 7. "ND7,New Data" "0,1" bitfld.long 0x0 6. "ND6,New Data" "0,1" bitfld.long 0x0 5. "ND5,New Data" "0,1" newline bitfld.long 0x0 4. "ND4,New Data" "0,1" bitfld.long 0x0 3. "ND3,New Data" "0,1" bitfld.long 0x0 2. "ND2,New Data" "0,1" newline bitfld.long 0x0 1. "ND1,New Data" "0,1" bitfld.long 0x0 0. "ND0,New Data" "0,1" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_NDAT2,NewDat flags of dedicated Rx buffers 32-63" bitfld.long 0x4 31. "ND63,New Data" "0,1" bitfld.long 0x4 30. "ND62,New Data" "0,1" bitfld.long 0x4 29. "ND61,New Data" "0,1" newline bitfld.long 0x4 28. "ND60,New Data" "0,1" bitfld.long 0x4 27. "ND59,New Data" "0,1" bitfld.long 0x4 26. "ND58,New Data" "0,1" newline bitfld.long 0x4 25. "ND57,New Data" "0,1" bitfld.long 0x4 24. "ND56,New Data" "0,1" bitfld.long 0x4 23. "ND55,New Data" "0,1" newline bitfld.long 0x4 22. "ND54,New Data" "0,1" bitfld.long 0x4 21. "ND53,New Data" "0,1" bitfld.long 0x4 20. "ND52,New Data" "0,1" newline bitfld.long 0x4 19. "ND51,New Data" "0,1" bitfld.long 0x4 18. "ND50,New Data" "0,1" bitfld.long 0x4 17. "ND49,New Data" "0,1" newline bitfld.long 0x4 16. "ND48,New Data" "0,1" bitfld.long 0x4 15. "ND47,New Data" "0,1" bitfld.long 0x4 14. "ND46,New Data" "0,1" newline bitfld.long 0x4 13. "ND45,New Data" "0,1" bitfld.long 0x4 12. "ND44,New Data" "0,1" bitfld.long 0x4 11. "ND43,New Data" "0,1" newline bitfld.long 0x4 10. "ND42,New Data" "0,1" bitfld.long 0x4 9. "ND41,New Data" "0,1" bitfld.long 0x4 8. "ND40,New Data" "0,1" newline bitfld.long 0x4 7. "ND39,New Data" "0,1" bitfld.long 0x4 6. "ND38,New Data" "0,1" bitfld.long 0x4 5. "ND37,New Data" "0,1" newline bitfld.long 0x4 4. "ND36,New Data" "0,1" bitfld.long 0x4 3. "ND35,New Data" "0,1" bitfld.long 0x4 2. "ND34,New Data" "0,1" newline bitfld.long 0x4 1. "ND33,New Data" "0,1" bitfld.long 0x4 0. "ND32,New Data" "0,1" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF0C,FIFO 0 operation mode. watermark. size and start address" bitfld.long 0x8 31. "F0OM,Rx FIFO 0 Operation Mode" "0,1" hexmask.long.byte 0x8 24.--30. 1. "F0WM,Rx FIFO 0 Watermark" hexmask.long.byte 0x8 16.--22. 1. "F0S,Rx FIFO 0 Size" newline hexmask.long.word 0x8 2.--15. 1. "F0SA,Rx FIFO 0 Start Address" rgroup.long 0xA4++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF0S,FIFO 0 message lost/full indication. put index. get index and fill level" bitfld.long 0x0 25. "RF0L,Rx FIFO 0 Message Lost" "0,1" bitfld.long 0x0 24. "F0F,Rx FIFO 0 Full" "0,1" hexmask.long.byte 0x0 16.--21. 1. "F0PI,Rx FIFO 0 Put Index" newline hexmask.long.byte 0x0 8.--13. 1. "F0GI,Rx FIFO 0 Get Index" hexmask.long.byte 0x0 0.--6. 1. "F0FL,Rx FIFO 0 Fill Level" group.long 0xA8++0xB line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF0A,FIFO 0 acknowledge last index of read buffers. updates get index and fill level" hexmask.long.byte 0x0 0.--5. 1. "F0AI,Rx FIFO 0 Acknowledge Index" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXBC,Start address of Rx buffer section" hexmask.long.word 0x4 2.--15. 1. "RBSA,Rx Buffer Start Address" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF1C,FIFO 1 operation mode. watermark. size and start address" bitfld.long 0x8 31. "F1OM,Rx FIFO 1 Operation Mode" "0,1" hexmask.long.byte 0x8 24.--30. 1. "F1WM,Rx FIFO 1 Watermark" hexmask.long.byte 0x8 16.--22. 1. "F1S,Rx FIFO 1 Size" newline hexmask.long.word 0x8 2.--15. 1. "F1SA,Rx FIFO 1 Start Address" rgroup.long 0xB4++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF1S,FIFO 1 message lost/full indication. put index. get index and fill level" bitfld.long 0x0 30.--31. "DMS,Debug Message Status" "0,1,2,3" bitfld.long 0x0 25. "RF1L,Rx FIFO 1 Message Lost" "0,1" bitfld.long 0x0 24. "F1F,Rx FIFO 1 Full" "0,1" newline hexmask.long.byte 0x0 16.--21. 1. "F1PI,Rx FIFO 1 Put Index" hexmask.long.byte 0x0 8.--13. 1. "F1GI,Rx FIFO 1 Get Index" hexmask.long.byte 0x0 0.--6. 1. "F1FL,Rx FIFO 1 Fill Level" group.long 0xB8++0xB line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXF1A,FIFO 1 acknowledge last index of read buffers. updates get index and fill level" hexmask.long.byte 0x0 0.--5. 1. "F1AI,Rx FIFO 1 Acknowledge Index" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_RXESC,Configure data field size for storage of accepted frames" bitfld.long 0x4 8.--10. "RBDS,Rx Buffer data Field Size" "0,1,2,3,4,5,6,7" bitfld.long 0x4 4.--6. "F1DS,Rx FIFO 1 Data Field Size" "0,1,2,3,4,5,6,7" bitfld.long 0x4 0.--2. "F0DS,Rx FIFO 0 Data Field Size" "0,1,2,3,4,5,6,7" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBC,Configure Tx FIFO/Queue mode. Tx FIFO/Queue size. number of dedicated Tx buffers. Tx buffer start address" bitfld.long 0x8 30. "TFQM,Tx FIFO/Queue Mode" "0,1" hexmask.long.byte 0x8 24.--29. 1. "TFQS,Transmit FIFO/Queue Size" hexmask.long.byte 0x8 16.--21. 1. "NDTB,Number of Dedicated Transmit Buffers" newline hexmask.long.word 0x8 2.--15. 1. "TBSA,Tx Buffers Start Address" rgroup.long 0xC4++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXFQS,Tx FIFO/Queue full indication and put index. Tx FIFO get index and fill level" bitfld.long 0x0 21. "TFQF,Tx FIFO/Queue Full" "0,1" hexmask.long.byte 0x0 16.--20. 1. "TFQPI,Tx FIFO/Queue Put Index" hexmask.long.byte 0x0 8.--12. 1. "TFGI,Tx Queue Get Index" newline hexmask.long.byte 0x0 0.--5. 1. "TFFL,Tx FIFO Free Level" group.long 0xC8++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXESC,Configure data field size for frame transmission" bitfld.long 0x0 0.--2. "TBDS,Tx Buffer Data Field Size" "0,1,2,3,4,5,6,7" rgroup.long 0xCC++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBRP,Tx buffers with pending transmission request" bitfld.long 0x0 31. "TRP31,Transmission Request Pending" "0,1" bitfld.long 0x0 30. "TRP30,Transmission Request Pending" "0,1" bitfld.long 0x0 29. "TRP29,Transmission Request Pending" "0,1" newline bitfld.long 0x0 28. "TRP28,Transmission Request Pending" "0,1" bitfld.long 0x0 27. "TRP27,Transmission Request Pending" "0,1" bitfld.long 0x0 26. "TRP26,Transmission Request Pending" "0,1" newline bitfld.long 0x0 25. "TRP25,Transmission Request Pending" "0,1" bitfld.long 0x0 24. "TRP24,Transmission Request Pending" "0,1" bitfld.long 0x0 23. "TRP23,Transmission Request Pending" "0,1" newline bitfld.long 0x0 22. "TRP22,Transmission Request Pending" "0,1" bitfld.long 0x0 21. "TRP21,Transmission Request Pending" "0,1" bitfld.long 0x0 20. "TRP20,Transmission Request Pending" "0,1" newline bitfld.long 0x0 19. "TRP19,Transmission Request Pending" "0,1" bitfld.long 0x0 18. "TRP18,Transmission Request Pending" "0,1" bitfld.long 0x0 17. "TRP17,Transmission Request Pending" "0,1" newline bitfld.long 0x0 16. "TRP16,Transmission Request Pending" "0,1" bitfld.long 0x0 15. "TRP15,Transmission Request Pending" "0,1" bitfld.long 0x0 14. "TRP14,Transmission Request Pending" "0,1" newline bitfld.long 0x0 13. "TRP13,Transmission Request Pending" "0,1" bitfld.long 0x0 12. "TRP12,Transmission Request Pending" "0,1" bitfld.long 0x0 11. "TRP11,Transmission Request Pending" "0,1" newline bitfld.long 0x0 10. "TRP10,Transmission Request Pending" "0,1" bitfld.long 0x0 9. "TRP9,Transmission Request Pending" "0,1" bitfld.long 0x0 8. "TRP8,Transmission Request Pending" "0,1" newline bitfld.long 0x0 7. "TRP7,Transmission Request Pending" "0,1" bitfld.long 0x0 6. "TRP6,Transmission Request Pending" "0,1" bitfld.long 0x0 5. "TRP5,Transmission Request Pending" "0,1" newline bitfld.long 0x0 4. "TRP4,Transmission Request Pending" "0,1" bitfld.long 0x0 3. "TRP3,Transmission Request Pending" "0,1" bitfld.long 0x0 2. "TRP2,Transmission Request Pending" "0,1" newline bitfld.long 0x0 1. "TRP1,Transmission Request Pending" "0,1" bitfld.long 0x0 0. "TRP0,Transmission Request Pending" "0,1" group.long 0xD0++0x7 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBAR,Add transmission requests" bitfld.long 0x0 31. "AR31,Add request" "0,1" bitfld.long 0x0 30. "AR30,Add request" "0,1" bitfld.long 0x0 29. "AR29,Add request" "0,1" newline bitfld.long 0x0 28. "AR28,Add request" "0,1" bitfld.long 0x0 27. "AR27,Add request" "0,1" bitfld.long 0x0 26. "AR26,Add request" "0,1" newline bitfld.long 0x0 25. "AR25,Add request" "0,1" bitfld.long 0x0 24. "AR24,Add request" "0,1" bitfld.long 0x0 23. "AR23,Add request" "0,1" newline bitfld.long 0x0 22. "AR22,Add request" "0,1" bitfld.long 0x0 21. "AR21,Add request" "0,1" bitfld.long 0x0 20. "AR20,Add request" "0,1" newline bitfld.long 0x0 19. "AR19,Add request" "0,1" bitfld.long 0x0 18. "AR18,Add request" "0,1" bitfld.long 0x0 17. "AR17,Add request" "0,1" newline bitfld.long 0x0 16. "AR16,Add request" "0,1" bitfld.long 0x0 15. "AR15,Add request" "0,1" bitfld.long 0x0 14. "AR14,Add request" "0,1" newline bitfld.long 0x0 13. "AR13,Add request" "0,1" bitfld.long 0x0 12. "AR12,Add request" "0,1" bitfld.long 0x0 11. "AR11,Add request" "0,1" newline bitfld.long 0x0 10. "AR10,Add request" "0,1" bitfld.long 0x0 9. "AR9,Add request" "0,1" bitfld.long 0x0 8. "AR8,Add request" "0,1" newline bitfld.long 0x0 7. "AR7,Add request" "0,1" bitfld.long 0x0 6. "AR6,Add request" "0,1" bitfld.long 0x0 5. "AR5,Add request" "0,1" newline bitfld.long 0x0 4. "AR4,Add request" "0,1" bitfld.long 0x0 3. "AR3,Add request" "0,1" bitfld.long 0x0 2. "AR2,Add request" "0,1" newline bitfld.long 0x0 1. "AR1,Add request" "0,1" bitfld.long 0x0 0. "AR0,Add request" "0,1" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBCR,Request cancellation of pending transmissions" bitfld.long 0x4 31. "CR31,Cancellation Request" "0,1" bitfld.long 0x4 30. "CR30,Cancellation Request" "0,1" bitfld.long 0x4 29. "CR29,Cancellation Request" "0,1" newline bitfld.long 0x4 28. "CR28,Cancellation Request" "0,1" bitfld.long 0x4 27. "CR27,Cancellation Request" "0,1" bitfld.long 0x4 26. "CR26,Cancellation Request" "0,1" newline bitfld.long 0x4 25. "CR25,Cancellation Request" "0,1" bitfld.long 0x4 24. "CR24,Cancellation Request" "0,1" bitfld.long 0x4 23. "CR23,Cancellation Request" "0,1" newline bitfld.long 0x4 22. "CR22,Cancellation Request" "0,1" bitfld.long 0x4 21. "CR21,Cancellation Request" "0,1" bitfld.long 0x4 20. "CR20,Cancellation Request" "0,1" newline bitfld.long 0x4 19. "CR19,Cancellation Request" "0,1" bitfld.long 0x4 18. "CR18,Cancellation Request" "0,1" bitfld.long 0x4 17. "CR17,Cancellation Request" "0,1" newline bitfld.long 0x4 16. "CR16,Cancellation Request" "0,1" bitfld.long 0x4 15. "CR15,Cancellation Request" "0,1" bitfld.long 0x4 14. "CR14,Cancellation Request" "0,1" newline bitfld.long 0x4 13. "CR13,Cancellation Request" "0,1" bitfld.long 0x4 12. "CR12,Cancellation Request" "0,1" bitfld.long 0x4 11. "CR11,Cancellation Request" "0,1" newline bitfld.long 0x4 10. "CR10,Cancellation Request" "0,1" bitfld.long 0x4 9. "CR9,Cancellation Request" "0,1" bitfld.long 0x4 8. "CR8,Cancellation Request" "0,1" newline bitfld.long 0x4 7. "CR7,Cancellation Request" "0,1" bitfld.long 0x4 6. "CR6,Cancellation Request" "0,1" bitfld.long 0x4 5. "CR5,Cancellation Request" "0,1" newline bitfld.long 0x4 4. "CR4,Cancellation Request" "0,1" bitfld.long 0x4 3. "CR3,Cancellation Request" "0,1" bitfld.long 0x4 2. "CR2,Cancellation Request" "0,1" newline bitfld.long 0x4 1. "CR1,Cancellation Request" "0,1" bitfld.long 0x4 0. "CR0,Cancellation Request" "0,1" rgroup.long 0xD8++0x7 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBTO,Signals successful transmissions. set when corresponding TXBRP flag is cleared" bitfld.long 0x0 31. "TO31,Transmission Occurred" "0,1" bitfld.long 0x0 30. "TO30,Transmission Occurred" "0,1" bitfld.long 0x0 29. "TO29,Transmission Occurred" "0,1" newline bitfld.long 0x0 28. "TO28,Transmission Occurred" "0,1" bitfld.long 0x0 27. "TO27,Transmission Occurred" "0,1" bitfld.long 0x0 26. "TO26,Transmission Occurred" "0,1" newline bitfld.long 0x0 25. "TO25,Transmission Occurred" "0,1" bitfld.long 0x0 24. "TO24,Transmission Occurred" "0,1" bitfld.long 0x0 23. "TO23,Transmission Occurred" "0,1" newline bitfld.long 0x0 22. "TO22,Transmission Occurred" "0,1" bitfld.long 0x0 21. "TO21,Transmission Occurred" "0,1" bitfld.long 0x0 20. "TO20,Transmission Occurred" "0,1" newline bitfld.long 0x0 19. "TO19,Transmission Occurred" "0,1" bitfld.long 0x0 18. "TO18,Transmission Occurred" "0,1" bitfld.long 0x0 17. "TO17,Transmission Occurred" "0,1" newline bitfld.long 0x0 16. "TO16,Transmission Occurred" "0,1" bitfld.long 0x0 15. "TO15,Transmission Occurred" "0,1" bitfld.long 0x0 14. "TO14,Transmission Occurred" "0,1" newline bitfld.long 0x0 13. "TO13,Transmission Occurred" "0,1" bitfld.long 0x0 12. "TO12,Transmission Occurred" "0,1" bitfld.long 0x0 11. "TO11,Transmission Occurred" "0,1" newline bitfld.long 0x0 10. "TO10,Transmission Occurred" "0,1" bitfld.long 0x0 9. "TO9,Transmission Occurred" "0,1" bitfld.long 0x0 8. "TO8,Transmission Occurred" "0,1" newline bitfld.long 0x0 7. "TO7,Transmission Occurred" "0,1" bitfld.long 0x0 6. "TO6,Transmission Occurred" "0,1" bitfld.long 0x0 5. "TO5,Transmission Occurred" "0,1" newline bitfld.long 0x0 4. "TO4,Transmission Occurred" "0,1" bitfld.long 0x0 3. "TO3,Transmission Occurred" "0,1" bitfld.long 0x0 2. "TO2,Transmission Occurred" "0,1" newline bitfld.long 0x0 1. "TO1,Transmission Occurred" "0,1" bitfld.long 0x0 0. "TO0,Transmission Occurred" "0,1" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBCF,Signals successful transmit cancellation. set when corresponding TXBRP flag is cleared after cancellation request" bitfld.long 0x4 31. "CF31,Cancellation Finished" "0,1" bitfld.long 0x4 30. "CF30,Cancellation Finished" "0,1" bitfld.long 0x4 29. "CF29,Cancellation Finished" "0,1" newline bitfld.long 0x4 28. "CF28,Cancellation Finished" "0,1" bitfld.long 0x4 27. "CF27,Cancellation Finished" "0,1" bitfld.long 0x4 26. "CF26,Cancellation Finished" "0,1" newline bitfld.long 0x4 25. "CF25,Cancellation Finished" "0,1" bitfld.long 0x4 24. "CF24,Cancellation Finished" "0,1" bitfld.long 0x4 23. "CF23,Cancellation Finished" "0,1" newline bitfld.long 0x4 22. "CF22,Cancellation Finished" "0,1" bitfld.long 0x4 21. "CF21,Cancellation Finished" "0,1" bitfld.long 0x4 20. "CF20,Cancellation Finished" "0,1" newline bitfld.long 0x4 19. "CF19,Cancellation Finished" "0,1" bitfld.long 0x4 18. "CF18,Cancellation Finished" "0,1" bitfld.long 0x4 17. "CF17,Cancellation Finished" "0,1" newline bitfld.long 0x4 16. "CF16,Cancellation Finished" "0,1" bitfld.long 0x4 15. "CF15,Cancellation Finished" "0,1" bitfld.long 0x4 14. "CF14,Cancellation Finished" "0,1" newline bitfld.long 0x4 13. "CF13,Cancellation Finished" "0,1" bitfld.long 0x4 12. "CF12,Cancellation Finished" "0,1" bitfld.long 0x4 11. "CF11,Cancellation Finished" "0,1" newline bitfld.long 0x4 10. "CF10,Cancellation Finished" "0,1" bitfld.long 0x4 9. "CF9,Cancellation Finished" "0,1" bitfld.long 0x4 8. "CF8,Cancellation Finished" "0,1" newline bitfld.long 0x4 7. "CF7,Cancellation Finished" "0,1" bitfld.long 0x4 6. "CF6,Cancellation Finished" "0,1" bitfld.long 0x4 5. "CF5,Cancellation Finished" "0,1" newline bitfld.long 0x4 4. "CF4,Cancellation Finished" "0,1" bitfld.long 0x4 3. "CF3,Cancellation Finished" "0,1" bitfld.long 0x4 2. "CF2,Cancellation Finished" "0,1" newline bitfld.long 0x4 1. "CF1,Cancellation Finished" "0,1" bitfld.long 0x4 0. "CF0,Cancellation Finished" "0,1" group.long 0xE0++0x13 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBTIE,Enable transmit interrupts for selected Tx buffers" bitfld.long 0x0 31. "TIE31,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 30. "TIE30,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 29. "TIE29,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 28. "TIE28,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 27. "TIE27,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 26. "TIE26,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 25. "TIE25,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 24. "TIE24,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 23. "TIE23,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 22. "TIE22,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 21. "TIE21,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 20. "TIE20,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 19. "TIE19,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 18. "TIE18,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 17. "TIE17,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 16. "TIE16,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 15. "TIE15,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 14. "TIE14,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 13. "TIE13,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 12. "TIE12,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 11. "TIE11,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 10. "TIE10,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 9. "TIE9,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 8. "TIE8,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 7. "TIE7,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 6. "TIE6,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 5. "TIE5,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 4. "TIE4,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 3. "TIE3,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 2. "TIE2,Transmission Interrupt Enable" "0,1" newline bitfld.long 0x0 1. "TIE1,Transmission Interrupt Enable" "0,1" bitfld.long 0x0 0. "TIE0,Transmission Interrupt Enable" "0,1" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXBCIE,Enable cancellation finished interrupts for selected Tx buffers" bitfld.long 0x4 31. "CFIE31,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 30. "CFIE30,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 29. "CFIE29,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 28. "CFIE28,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 27. "CFIE27,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 26. "CFIE26,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 25. "CFIE25,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 24. "CFIE24,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 23. "CFIE23,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 22. "CFIE22,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 21. "CFIE21,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 20. "CFIE20,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 19. "CFIE19,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 18. "CFIE18,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 17. "CFIE17,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 16. "CFIE16,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 15. "CFIE15,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 14. "CFIE14,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 13. "CFIE13,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 12. "CFIE12,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 11. "CFIE11,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 10. "CFIE10,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 9. "CFIE9,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 8. "CFIE8,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 7. "CFIE7,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 6. "CFIE6,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 5. "CFIE5,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 4. "CFIE4,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 3. "CFIE3,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 2. "CFIE2,Cancellation Finished Interrupt Enable" "0,1" newline bitfld.long 0x4 1. "CFIE1,Cancellation Finished Interrupt Enable" "0,1" bitfld.long 0x4 0. "CFIE0,Cancellation Finished Interrupt Enable" "0,1" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1414,Reserved Field" line.long 0xC "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1515,Reserved Field" line.long 0x10 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXEFC,Tx event FIFO watermark. size and start address" hexmask.long.byte 0x10 24.--29. 1. "EFWM,Event FIFO Watermark" hexmask.long.byte 0x10 16.--21. 1. "EFS,Event FIFO Size" hexmask.long.word 0x10 2.--15. 1. "EFSA,Event FIFO Start Address" rgroup.long 0xF4++0x3 line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXEFS,Tx event FIFO element lost/full indication. put index. get index. and fill level" bitfld.long 0x0 25. "TEFL,Tx Event FIFO Element Lost" "0,1" bitfld.long 0x0 24. "EFF,Event FIFO Full" "0,1" hexmask.long.byte 0x0 16.--20. 1. "EFPI,Event FIFO Put Index" newline hexmask.long.byte 0x0 8.--12. 1. "EFGI,Event FIFO Get Index" hexmask.long.byte 0x0 0.--5. 1. "EFFL,Event FIFO Fill Level" group.long 0xF8++0xB line.long 0x0 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_TXEFA,Tx event FIFO acknowledge last index of read elements. updates get index and fill level" hexmask.long.byte 0x0 0.--4. 1. "EFAI,Event FIFO Acknowledge Index" line.long 0x4 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_reserved1616,Reserved Field" line.long 0x8 "MCAN_WRAP__MCAN_CFG_VBP__MCAN_REGS_ReservUpper256,Reserved Field" tree.end tree "MCU_MCAN1_ECC_AGGR (MCU_MCAN1_ECC_AGGR)" base ad:0x4702000 rgroup.long 0x0++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 1. "CTRL_EDC_VBUSS_PEND,Interrupt Pending Status for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x4 0. "MSGMEM_PEND,Interrupt Pending Status for msgmem_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 1. "CTRL_EDC_VBUSS_ENABLE_SET,Interrupt Enable Set Register for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x0 0. "MSGMEM_ENABLE_SET,Interrupt Enable Set Register for msgmem_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 1. "CTRL_EDC_VBUSS_ENABLE_CLR,Interrupt Enable Clear Register for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x0 0. "MSGMEM_ENABLE_CLR,Interrupt Enable Clear Register for msgmem_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 1. "CTRL_EDC_VBUSS_PEND,Interrupt Pending Status for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x4 0. "MSGMEM_PEND,Interrupt Pending Status for msgmem_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 1. "CTRL_EDC_VBUSS_ENABLE_SET,Interrupt Enable Set Register for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x0 0. "MSGMEM_ENABLE_SET,Interrupt Enable Set Register for msgmem_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 1. "CTRL_EDC_VBUSS_ENABLE_CLR,Interrupt Enable Clear Register for ctrl_edc_vbuss_pend" "0,1" bitfld.long 0x0 0. "MSGMEM_ENABLE_CLR,Interrupt Enable Clear Register for msgmem_pend" "0,1" group.long 0x200++0xF line.long 0x0 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "MSGMEM_WRAP__ECC_AGGR_VBP__REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "MCU_MCAN1_MSGMEM_RAM (MCU_MCAN1_MSGMEM_RAM)" base ad:0x4E10000 group.long 0x0++0x3 line.long 0x0 "MSGMEM_WRAP__MSGMEM_VBP__RAM_RAM_REG,The RAM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end tree "MCU_MCAN1_SS (MCU_MCAN1_SS)" base ad:0x4E19000 rgroup.long 0x0++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_PID,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_CTRL,The Control Register contains general control bits for the MCANSS" bitfld.long 0x0 6. "EXT_TS_CNTR_EN,External TimeStamp Counter Enable" "0,1" bitfld.long 0x0 5. "AUTOWAKEUP,Automatic Wakeup Enable" "0,1" newline bitfld.long 0x0 4. "WAKEUPREQEN,Wakeup Request Enable" "0,1" bitfld.long 0x0 3. "DBGSUSP_FREE,0-Honor Debug Suspend 1-Disregard debug suspend" "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_STAT,The Status register provide general status bits for the MCANSS" bitfld.long 0x0 2. "ENABLE_FDOE,Reflects the value of mcanss_enable_fdoe configuration port x=mcanss_enable_fdoe" "0,1" bitfld.long 0x0 1. "MEM_INIT_DONE,0:Memory Initialization is in progress 1:Memory Intialization Done" "0: Memory Initialization is in progress,1: Memory Intialization Done" wgroup.long 0xC++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_ICS,Write to clear interrupt bits" bitfld.long 0x0 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt status. Write '1' to clear bits." "0,1" group.long 0x10++0xB line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_IRS,Read raw interrupt status. Write '1' to set interrupt bits." bitfld.long 0x0 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt status." "0,1" line.long 0x4 "MMR__MMRVBP__MCANSS_REGS_MCANSS_IECS,Write to clear interrupt enable bits" bitfld.long 0x4 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt. Write '1' to clear bits." "0,1" line.long 0x8 "MMR__MMRVBP__MCANSS_REGS_MCANSS_IE,Read interrupt Enable" bitfld.long 0x8 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt." "0,1" rgroup.long 0x1C++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_IES,Read Enabled Interrupts" bitfld.long 0x0 0. "EXT_TS_CNTR_OVFL,External TimeStamp Counter Overflow Interrupt" "0,1" wgroup.long 0x20++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_EOI,End of Interrupt Register" hexmask.long.byte 0x0 0.--7. 1. "EOI,Write with bit position of targeted interrupt. (E.g. Ext TS is bit 0). Upon write level interrupt will clear and if unserviced interrupt counter > 1 will issue another pulse interrupt" group.long 0x24++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_EXT_TS_PRESCALER,External TImeStamp PreScaler" hexmask.long.tbyte 0x0 0.--23. 1. "PRESCALER,External Timestamp Prescaler reload value. External Timestamp count rate is host clock rate divided by this value with one exception: a value of 0 has the same effect as 1" rgroup.long 0x28++0x3 line.long 0x0 "MMR__MMRVBP__MCANSS_REGS_MCANSS_EXT_TS_UNSERVICED_INTR_CNTR,External TImeStamp Unserviced Interrupts Counter" hexmask.long.byte 0x0 0.--4. 1. "EXT_TS_INTR_CNTR,Number of unserviced rollover interrupts. If >1 an EOI write will issue another pulse interrupt" tree.end tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_MCU_SEC_MMR0" base ad:0x0 tree "MCU_MCU_SEC_MMR0_CFG0 (MCU_MCU_SEC_MMR0_CFG0)" base ad:0x45A40000 rgroup.long 0x0++0x3 line.long 0x0 "CFG0_PID," hexmask.long.word 0x0 16.--31. 1. "PID_MSB16," newline hexmask.long.byte 0x0 11.--15. 1. "PID_MISC," newline bitfld.long 0x0 8.--10. "PID_MAJOR," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "PID_CUSTOM," "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "PID_MINOR," rgroup.long 0x20++0x3 line.long 0x0 "CFG0_CLSTR0_DEF," bitfld.long 0x0 16.--17. "CLSTR0_DEF_CORE_NUM,Number of cores in cluster 01 - Single Core 10 - Dual Core" "0,1,2,3" newline hexmask.long.byte 0x0 8.--15. 1. "CLSTR0_DEF_DSP_CORE_TYPE,DSP core type configuration Field values (others are reserved): 8'h00 - C7x 8'h01 - C6x 8'hFF - Not DSP" newline hexmask.long.byte 0x0 0.--7. 1. "CLSTR0_DEF_ARM_CORE_TYPE,ARM core type configuration Field values (others are reserved): 8'h00 - A53 8'h01 - A57 8'h10 - R5 8'h11 - M4F 8'hFF - Not ARM" group.long 0x40++0x3 line.long 0x0 "CFG0_CLSTR0_CFG," rbitfld.long 0x0 6. "CLSTR0_CFG_SINGLE_CORE_ONLY,Single / Dual CPU Mode Supported: 0 = Both Dual and Single Core are supported 1 = Only Single Core Mode is Supported" "0: Both Dual and Single Core are supported,1: Only Single Core Mode is Supported" newline rbitfld.long 0x0 5. "CLSTR0_CFG_SINGLE_CORE,Single / Dual CPU Mode: 0 = Unsupported on this device 1 = Only CPU0 is active." "0: Unsupported on this device,1: Only CPU0 is active" newline bitfld.long 0x0 4. "CLSTR0_CFG_MEM_INIT_DIS,Deactivates SRAM initialization (TCM Cache Tags etc) at reset Initialization must be performed for proper initial ECC initialization. The mem_init_dis value must be selected prior to R5 reset assertion. 1'b0 - Perform memory.." "0,1" newline rbitfld.long 0x0 3. "CLSTR0_CFG_LOCKSTEP_EN,Lockstep Not Supported" "0,1" newline bitfld.long 0x0 2. "CLSTR0_CFG_DBG_NO_CLKSTOP,CPU clockstop behavior 0 - CPU clocks stopped and nCLOCKSTOPPED asserted in standby mode 1 - CPU clocks not stopped in standby mode" "0,1" newline bitfld.long 0x0 1. "CLSTR0_CFG_TEINIT,Exception handling state at reset: 0 - ARM mode 1 - Thumb mode CAUTION: This bit must not be modified while R5F CPU is released from reset." "0,1" newline rbitfld.long 0x0 0. "CLSTR0_CFG_LOCKSTEP,Lockstep Not Supported" "0,1" group.long 0x80++0x3 line.long 0x0 "CFG0_CLSTR0_PMCTRL," group.long 0x90++0x3 line.long 0x0 "CFG0_CLSTR0_PMSTAT," group.long 0x100++0x3 line.long 0x0 "CFG0_CLSTR0_CORE0_CFG," bitfld.long 0x0 15. "CLSTR0_CORE0_CFG_NMFI_EN,Activate Core0 Non-Maskable Fast Interrupts CAUTION: This bit must not be modified while R5F CPU is released from reset." "0,1" newline bitfld.long 0x0 11. "CLSTR0_CORE0_CFG_TCM_RSTBASE,Core0 A/BTCM Reset Base Address Indicator 0 - BTCM located at address 0x0 1 - ATCM located at address 0x0 CAUTION: This bit must not be modified while R5F CPU is released from reset." "0,1" newline bitfld.long 0x0 7. "CLSTR0_CORE0_CFG_BTCM_EN,Activate Core0 BTCM RAM at reset CAUTION: This bit must not be modified while R5F CPU is released from reset." "0,1" newline bitfld.long 0x0 3. "CLSTR0_CORE0_CFG_ATCM_EN,Activate Core0 ATCM RAM at reset CAUTION: This bit must not be modified while R5F CPU is released from reset." "0,1" group.long 0x110++0x7 line.long 0x0 "CFG0_CLSTR0_CORE0_BOOTVECT_LO," hexmask.long 0x0 7.--31. 1. "CLSTR0_CORE0_BOOTVECT_LO_VECT_ADDR,Specifies the lower 25 bits of the 41-bit vector address corresponding to Vector Table address bits[31:7]. Note bits 6:0 of the Vector Table address are always 0." line.long 0x4 "CFG0_CLSTR0_CORE0_BOOTVECT_HI," hexmask.long.word 0x4 0.--15. 1. "CLSTR0_CORE0_BOOTVECT_HI_VECT_ADDR,Specifies the upper 16 bits of the 41-bit vector address corresponding to Vector Table address bits[47:32]." group.long 0x120++0x3 line.long 0x0 "CFG0_CLSTR0_CORE0_PMCTRL," bitfld.long 0x0 0. "CLSTR0_CORE0_PMCTRL_CORE_HALT,Halt Core0 Field values (others are reserved): 1'b0 - CPU is held waiting to begin execution after reset is released 1'b1 - CPU is released to execute" "0,1" rgroup.long 0x130++0x3 line.long 0x0 "CFG0_CLSTR0_CORE0_PMSTAT," bitfld.long 0x0 3. "CLSTR0_CORE0_PMSTAT_CLK_GATE,Core0 Clocked stopped due to WFI or WFE state Note: Informaton is only valid when core is out of reset." "0,1" newline bitfld.long 0x0 1. "CLSTR0_CORE0_PMSTAT_WFE,Core0 WFE When 0 indicates that Core0 is in the WFE state Note: Informaton is only valid when core is out of reset." "0,1" newline bitfld.long 0x0 0. "CLSTR0_CORE0_PMSTAT_WFI,Core0 WFI When 0 indicates that Core0 is in the WFI state Note: Informaton is only valid when core is out of reset." "0,1" tree.end tree "MCU_MCU_SEC_MMR0_CFG2 (MCU_MCU_SEC_MMR0_CFG2)" base ad:0x45940000 group.long 0x0++0x3 line.long 0x0 "CFG2_CLSTR0_CORE0_DBG_CFG," hexmask.long.byte 0x0 12.--15. 1. "CLSTR0_CORE0_DBG_CFG_DBGEN,Core0 Invasive debug Activate. This is a fault tolerant bitfield that must be set 4'hA to Activate 4'b1010 - Activated others - Deactivated" hexmask.long.byte 0x0 8.--11. 1. "CLSTR0_CORE0_DBG_CFG_NIDEN,Core0 Non-invasive debug Activate. This is a fault tolerant bitfield that must be set 4'hA to Activate 4'b1010 - Activated others - Deactivated" group.long 0x40++0x3 line.long 0x0 "CFG2_CLSTR0_CORE1_DBG_CFG," tree.end tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MCU_MSRAM" base ad:0x0 tree "MCU_MSRAM_256K0" tree "MCU_MSRAM_256K0_ECC_AGGR_REGS (MCU_MSRAM_256K0_ECC_AGGR_REGS)" base ad:0x4705000 rgroup.long 0x0++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECC_AGGR_REGSREGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_REGSREGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 2. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" bitfld.long 0x4 1. "BUSECC_PEND,Interrupt Pending Status for busecc_pend" "0,1" bitfld.long 0x4 0. "RAMECC0_PEND,Interrupt Pending Status for ramecc0_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 2. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" bitfld.long 0x0 1. "BUSECC_ENABLE_SET,Interrupt Enable Set Register for busecc_pend" "0,1" bitfld.long 0x0 0. "RAMECC0_ENABLE_SET,Interrupt Enable Set Register for ramecc0_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 2. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" bitfld.long 0x0 1. "BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for busecc_pend" "0,1" bitfld.long 0x0 0. "RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for ramecc0_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECC_AGGR_REGSREGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_REGSREGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 2. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" bitfld.long 0x4 1. "BUSECC_PEND,Interrupt Pending Status for busecc_pend" "0,1" bitfld.long 0x4 0. "RAMECC0_PEND,Interrupt Pending Status for ramecc0_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 2. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" bitfld.long 0x0 1. "BUSECC_ENABLE_SET,Interrupt Enable Set Register for busecc_pend" "0,1" bitfld.long 0x0 0. "RAMECC0_ENABLE_SET,Interrupt Enable Set Register for ramecc0_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 2. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" bitfld.long 0x0 1. "BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for busecc_pend" "0,1" bitfld.long 0x0 0. "RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for ramecc0_pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECC_AGGR_REGSREGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECC_AGGR_REGSREGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECC_AGGR_REGSREGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECC_AGGR_REGSREGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "MCU_MSRAM_256K0_RAM (MCU_MSRAM_256K0_RAM)" base ad:0x79100000 group.long 0x0++0x3 line.long 0x0 "RAM_RAM_REG,The RAM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end tree.end tree "MCU_MSRAM_256K1" tree "MCU_MSRAM_256K1_ECC_AGGR_REGS (MCU_MSRAM_256K1_ECC_AGGR_REGS)" base ad:0x4706000 rgroup.long 0x0++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECC_AGGR_REGSREGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_REGSREGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 2. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" bitfld.long 0x4 1. "BUSECC_PEND,Interrupt Pending Status for busecc_pend" "0,1" bitfld.long 0x4 0. "RAMECC0_PEND,Interrupt Pending Status for ramecc0_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 2. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" bitfld.long 0x0 1. "BUSECC_ENABLE_SET,Interrupt Enable Set Register for busecc_pend" "0,1" bitfld.long 0x0 0. "RAMECC0_ENABLE_SET,Interrupt Enable Set Register for ramecc0_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 2. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" bitfld.long 0x0 1. "BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for busecc_pend" "0,1" bitfld.long 0x0 0. "RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for ramecc0_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECC_AGGR_REGSREGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_REGSREGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 2. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" bitfld.long 0x4 1. "BUSECC_PEND,Interrupt Pending Status for busecc_pend" "0,1" bitfld.long 0x4 0. "RAMECC0_PEND,Interrupt Pending Status for ramecc0_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 2. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" bitfld.long 0x0 1. "BUSECC_ENABLE_SET,Interrupt Enable Set Register for busecc_pend" "0,1" bitfld.long 0x0 0. "RAMECC0_ENABLE_SET,Interrupt Enable Set Register for ramecc0_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 2. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" bitfld.long 0x0 1. "BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for busecc_pend" "0,1" bitfld.long 0x0 0. "RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for ramecc0_pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECC_AGGR_REGSREGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECC_AGGR_REGSREGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECC_AGGR_REGSREGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECC_AGGR_REGSREGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "MCU_MSRAM_256K1_RAM (MCU_MSRAM_256K1_RAM)" base ad:0x79140000 group.long 0x0++0x3 line.long 0x0 "RAM_RAM_REG,The RAM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end tree.end tree.end endif sif (cpuis("AM62PX-CR5-DM")) tree "MCU_R5FSS0_CORE0" base ad:0x0 tree "MCU_R5FSS0_CORE0_CORE0_ECC_AGGR (MCU_R5FSS0_CORE0_CORE0_ECC_AGGR)" base ad:0x4707000 rgroup.long 0x0++0x3 line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0xB line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "CPU0_ECC_AGGR__CFG__REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 31. "CPU0_AHB2VBUSP_EDC_PEND,Interrupt Pending Status for cpu0_ahb2vbusp_edc_pend" "0,1" newline bitfld.long 0x4 30. "CPU0_AXI2VBUSM_MEM_MST_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for cpu0_axi2vbusm_mem_mst_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 29. "CPU0_AXI2VBUSM_MEM_MST_RAMECC_PEND,Interrupt Pending Status for cpu0_axi2vbusm_mem_mst_ramecc_pend" "0,1" newline bitfld.long 0x4 28. "CPU0_VBUSM2AXI_EDC_PEND,Interrupt Pending Status for cpu0_vbusm2axi_edc_pend" "0,1" newline bitfld.long 0x4 27. "CPU0_KS_VIM_RAMECC_PEND,Interrupt Pending Status for cpu0_ks_vim_ramecc_pend" "0,1" newline bitfld.long 0x4 26. "B1TCM0_BANK1_PEND,Interrupt Pending Status for b1tcm0_bank1_pend" "0,1" newline bitfld.long 0x4 25. "B1TCM0_BANK0_PEND,Interrupt Pending Status for b1tcm0_bank0_pend" "0,1" newline bitfld.long 0x4 24. "B0TCM0_BANK1_PEND,Interrupt Pending Status for b0tcm0_bank1_pend" "0,1" newline bitfld.long 0x4 23. "B0TCM0_BANK0_PEND,Interrupt Pending Status for b0tcm0_bank0_pend" "0,1" newline bitfld.long 0x4 22. "ATCM0_BANK1_PEND,Interrupt Pending Status for atcm0_bank1_pend" "0,1" newline bitfld.long 0x4 21. "ATCM0_BANK0_PEND,Interrupt Pending Status for atcm0_bank0_pend" "0,1" newline bitfld.long 0x4 20. "CPU0_DDATA_RAM7_PEND,Interrupt Pending Status for cpu0_ddata_ram7_pend" "0,1" newline bitfld.long 0x4 19. "CPU0_DDATA_RAM6_PEND,Interrupt Pending Status for cpu0_ddata_ram6_pend" "0,1" newline bitfld.long 0x4 18. "CPU0_DDATA_RAM5_PEND,Interrupt Pending Status for cpu0_ddata_ram5_pend" "0,1" newline bitfld.long 0x4 17. "CPU0_DDATA_RAM4_PEND,Interrupt Pending Status for cpu0_ddata_ram4_pend" "0,1" newline bitfld.long 0x4 16. "CPU0_DDATA_RAM3_PEND,Interrupt Pending Status for cpu0_ddata_ram3_pend" "0,1" newline bitfld.long 0x4 15. "CPU0_DDATA_RAM2_PEND,Interrupt Pending Status for cpu0_ddata_ram2_pend" "0,1" newline bitfld.long 0x4 14. "CPU0_DDATA_RAM1_PEND,Interrupt Pending Status for cpu0_ddata_ram1_pend" "0,1" newline bitfld.long 0x4 13. "CPU0_DDATA_RAM0_PEND,Interrupt Pending Status for cpu0_ddata_ram0_pend" "0,1" newline bitfld.long 0x4 12. "CPU0_DDIRTY_RAM_PEND,Interrupt Pending Status for cpu0_ddirty_ram_pend" "0,1" newline bitfld.long 0x4 11. "CPU0_DTAG_RAM3_PEND,Interrupt Pending Status for cpu0_dtag_ram3_pend" "0,1" newline bitfld.long 0x4 10. "CPU0_DTAG_RAM2_PEND,Interrupt Pending Status for cpu0_dtag_ram2_pend" "0,1" newline bitfld.long 0x4 9. "CPU0_DTAG_RAM1_PEND,Interrupt Pending Status for cpu0_dtag_ram1_pend" "0,1" newline bitfld.long 0x4 8. "CPU0_DTAG_RAM0_PEND,Interrupt Pending Status for cpu0_dtag_ram0_pend" "0,1" newline bitfld.long 0x4 7. "CPU0_IDATA_BANK3_PEND,Interrupt Pending Status for cpu0_idata_bank3_pend" "0,1" newline bitfld.long 0x4 6. "CPU0_IDATA_BANK2_PEND,Interrupt Pending Status for cpu0_idata_bank2_pend" "0,1" newline bitfld.long 0x4 5. "CPU0_IDATA_BANK1_PEND,Interrupt Pending Status for cpu0_idata_bank1_pend" "0,1" newline bitfld.long 0x4 4. "CPU0_IDATA_BANK0_PEND,Interrupt Pending Status for cpu0_idata_bank0_pend" "0,1" newline bitfld.long 0x4 3. "CPU0_ITAG_RAM3_PEND,Interrupt Pending Status for cpu0_itag_ram3_pend" "0,1" newline bitfld.long 0x4 2. "CPU0_ITAG_RAM2_PEND,Interrupt Pending Status for cpu0_itag_ram2_pend" "0,1" newline bitfld.long 0x4 1. "CPU0_ITAG_RAM1_PEND,Interrupt Pending Status for cpu0_itag_ram1_pend" "0,1" newline bitfld.long 0x4 0. "CPU0_ITAG_RAM0_PEND,Interrupt Pending Status for cpu0_itag_ram0_pend" "0,1" line.long 0x8 "CPU0_ECC_AGGR__CFG__REGS_sec_status_reg1,Interrupt Status Register 1" bitfld.long 0x8 2. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" newline bitfld.long 0x8 1. "PULSAR_ULS_CPU0_CFG_SCRP_P_SCR1_SCR_PULSAR_ULS_CPU0_CFG_SCRP_P_SCR1_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for pulsar_uls_cpu0_cfg_scrp_p_scr1_scr_pulsar_uls_cpu0_cfg_scrp_p_scr1_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 0. "SCRP_EDC_PEND,Interrupt Pending Status for scrp_edc_pend" "0,1" group.long 0x80++0x7 line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 31. "CPU0_AHB2VBUSP_EDC_ENABLE_SET,Interrupt Enable Set Register for cpu0_ahb2vbusp_edc_pend" "0,1" newline bitfld.long 0x0 30. "CPU0_AXI2VBUSM_MEM_MST_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for cpu0_axi2vbusm_mem_mst_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 29. "CPU0_AXI2VBUSM_MEM_MST_RAMECC_ENABLE_SET,Interrupt Enable Set Register for cpu0_axi2vbusm_mem_mst_ramecc_pend" "0,1" newline bitfld.long 0x0 28. "CPU0_VBUSM2AXI_EDC_ENABLE_SET,Interrupt Enable Set Register for cpu0_vbusm2axi_edc_pend" "0,1" newline bitfld.long 0x0 27. "CPU0_KS_VIM_RAMECC_ENABLE_SET,Interrupt Enable Set Register for cpu0_ks_vim_ramecc_pend" "0,1" newline bitfld.long 0x0 26. "B1TCM0_BANK1_ENABLE_SET,Interrupt Enable Set Register for b1tcm0_bank1_pend" "0,1" newline bitfld.long 0x0 25. "B1TCM0_BANK0_ENABLE_SET,Interrupt Enable Set Register for b1tcm0_bank0_pend" "0,1" newline bitfld.long 0x0 24. "B0TCM0_BANK1_ENABLE_SET,Interrupt Enable Set Register for b0tcm0_bank1_pend" "0,1" newline bitfld.long 0x0 23. "B0TCM0_BANK0_ENABLE_SET,Interrupt Enable Set Register for b0tcm0_bank0_pend" "0,1" newline bitfld.long 0x0 22. "ATCM0_BANK1_ENABLE_SET,Interrupt Enable Set Register for atcm0_bank1_pend" "0,1" newline bitfld.long 0x0 21. "ATCM0_BANK0_ENABLE_SET,Interrupt Enable Set Register for atcm0_bank0_pend" "0,1" newline bitfld.long 0x0 20. "CPU0_DDATA_RAM7_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram7_pend" "0,1" newline bitfld.long 0x0 19. "CPU0_DDATA_RAM6_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram6_pend" "0,1" newline bitfld.long 0x0 18. "CPU0_DDATA_RAM5_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram5_pend" "0,1" newline bitfld.long 0x0 17. "CPU0_DDATA_RAM4_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram4_pend" "0,1" newline bitfld.long 0x0 16. "CPU0_DDATA_RAM3_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram3_pend" "0,1" newline bitfld.long 0x0 15. "CPU0_DDATA_RAM2_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram2_pend" "0,1" newline bitfld.long 0x0 14. "CPU0_DDATA_RAM1_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram1_pend" "0,1" newline bitfld.long 0x0 13. "CPU0_DDATA_RAM0_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram0_pend" "0,1" newline bitfld.long 0x0 12. "CPU0_DDIRTY_RAM_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddirty_ram_pend" "0,1" newline bitfld.long 0x0 11. "CPU0_DTAG_RAM3_ENABLE_SET,Interrupt Enable Set Register for cpu0_dtag_ram3_pend" "0,1" newline bitfld.long 0x0 10. "CPU0_DTAG_RAM2_ENABLE_SET,Interrupt Enable Set Register for cpu0_dtag_ram2_pend" "0,1" newline bitfld.long 0x0 9. "CPU0_DTAG_RAM1_ENABLE_SET,Interrupt Enable Set Register for cpu0_dtag_ram1_pend" "0,1" newline bitfld.long 0x0 8. "CPU0_DTAG_RAM0_ENABLE_SET,Interrupt Enable Set Register for cpu0_dtag_ram0_pend" "0,1" newline bitfld.long 0x0 7. "CPU0_IDATA_BANK3_ENABLE_SET,Interrupt Enable Set Register for cpu0_idata_bank3_pend" "0,1" newline bitfld.long 0x0 6. "CPU0_IDATA_BANK2_ENABLE_SET,Interrupt Enable Set Register for cpu0_idata_bank2_pend" "0,1" newline bitfld.long 0x0 5. "CPU0_IDATA_BANK1_ENABLE_SET,Interrupt Enable Set Register for cpu0_idata_bank1_pend" "0,1" newline bitfld.long 0x0 4. "CPU0_IDATA_BANK0_ENABLE_SET,Interrupt Enable Set Register for cpu0_idata_bank0_pend" "0,1" newline bitfld.long 0x0 3. "CPU0_ITAG_RAM3_ENABLE_SET,Interrupt Enable Set Register for cpu0_itag_ram3_pend" "0,1" newline bitfld.long 0x0 2. "CPU0_ITAG_RAM2_ENABLE_SET,Interrupt Enable Set Register for cpu0_itag_ram2_pend" "0,1" newline bitfld.long 0x0 1. "CPU0_ITAG_RAM1_ENABLE_SET,Interrupt Enable Set Register for cpu0_itag_ram1_pend" "0,1" newline bitfld.long 0x0 0. "CPU0_ITAG_RAM0_ENABLE_SET,Interrupt Enable Set Register for cpu0_itag_ram0_pend" "0,1" line.long 0x4 "CPU0_ECC_AGGR__CFG__REGS_sec_enable_set_reg1,Interrupt Enable Set Register 1" bitfld.long 0x4 2. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" newline bitfld.long 0x4 1. "PULSAR_ULS_CPU0_CFG_SCRP_P_SCR1_SCR_PULSAR_ULS_CPU0_CFG_SCRP_P_SCR1_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for pulsar_uls_cpu0_cfg_scrp_p_scr1_scr_pulsar_uls_cpu0_cfg_scrp_p_scr1_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 0. "SCRP_EDC_ENABLE_SET,Interrupt Enable Set Register for scrp_edc_pend" "0,1" group.long 0xC0++0x7 line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 31. "CPU0_AHB2VBUSP_EDC_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ahb2vbusp_edc_pend" "0,1" newline bitfld.long 0x0 30. "CPU0_AXI2VBUSM_MEM_MST_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_axi2vbusm_mem_mst_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 29. "CPU0_AXI2VBUSM_MEM_MST_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_axi2vbusm_mem_mst_ramecc_pend" "0,1" newline bitfld.long 0x0 28. "CPU0_VBUSM2AXI_EDC_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_vbusm2axi_edc_pend" "0,1" newline bitfld.long 0x0 27. "CPU0_KS_VIM_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ks_vim_ramecc_pend" "0,1" newline bitfld.long 0x0 26. "B1TCM0_BANK1_ENABLE_CLR,Interrupt Enable Clear Register for b1tcm0_bank1_pend" "0,1" newline bitfld.long 0x0 25. "B1TCM0_BANK0_ENABLE_CLR,Interrupt Enable Clear Register for b1tcm0_bank0_pend" "0,1" newline bitfld.long 0x0 24. "B0TCM0_BANK1_ENABLE_CLR,Interrupt Enable Clear Register for b0tcm0_bank1_pend" "0,1" newline bitfld.long 0x0 23. "B0TCM0_BANK0_ENABLE_CLR,Interrupt Enable Clear Register for b0tcm0_bank0_pend" "0,1" newline bitfld.long 0x0 22. "ATCM0_BANK1_ENABLE_CLR,Interrupt Enable Clear Register for atcm0_bank1_pend" "0,1" newline bitfld.long 0x0 21. "ATCM0_BANK0_ENABLE_CLR,Interrupt Enable Clear Register for atcm0_bank0_pend" "0,1" newline bitfld.long 0x0 20. "CPU0_DDATA_RAM7_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram7_pend" "0,1" newline bitfld.long 0x0 19. "CPU0_DDATA_RAM6_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram6_pend" "0,1" newline bitfld.long 0x0 18. "CPU0_DDATA_RAM5_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram5_pend" "0,1" newline bitfld.long 0x0 17. "CPU0_DDATA_RAM4_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram4_pend" "0,1" newline bitfld.long 0x0 16. "CPU0_DDATA_RAM3_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram3_pend" "0,1" newline bitfld.long 0x0 15. "CPU0_DDATA_RAM2_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram2_pend" "0,1" newline bitfld.long 0x0 14. "CPU0_DDATA_RAM1_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram1_pend" "0,1" newline bitfld.long 0x0 13. "CPU0_DDATA_RAM0_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram0_pend" "0,1" newline bitfld.long 0x0 12. "CPU0_DDIRTY_RAM_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddirty_ram_pend" "0,1" newline bitfld.long 0x0 11. "CPU0_DTAG_RAM3_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_dtag_ram3_pend" "0,1" newline bitfld.long 0x0 10. "CPU0_DTAG_RAM2_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_dtag_ram2_pend" "0,1" newline bitfld.long 0x0 9. "CPU0_DTAG_RAM1_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_dtag_ram1_pend" "0,1" newline bitfld.long 0x0 8. "CPU0_DTAG_RAM0_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_dtag_ram0_pend" "0,1" newline bitfld.long 0x0 7. "CPU0_IDATA_BANK3_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_idata_bank3_pend" "0,1" newline bitfld.long 0x0 6. "CPU0_IDATA_BANK2_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_idata_bank2_pend" "0,1" newline bitfld.long 0x0 5. "CPU0_IDATA_BANK1_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_idata_bank1_pend" "0,1" newline bitfld.long 0x0 4. "CPU0_IDATA_BANK0_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_idata_bank0_pend" "0,1" newline bitfld.long 0x0 3. "CPU0_ITAG_RAM3_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_itag_ram3_pend" "0,1" newline bitfld.long 0x0 2. "CPU0_ITAG_RAM2_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_itag_ram2_pend" "0,1" newline bitfld.long 0x0 1. "CPU0_ITAG_RAM1_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_itag_ram1_pend" "0,1" newline bitfld.long 0x0 0. "CPU0_ITAG_RAM0_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_itag_ram0_pend" "0,1" line.long 0x4 "CPU0_ECC_AGGR__CFG__REGS_sec_enable_clr_reg1,Interrupt Enable Clear Register 1" bitfld.long 0x4 2. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" newline bitfld.long 0x4 1. "PULSAR_ULS_CPU0_CFG_SCRP_P_SCR1_SCR_PULSAR_ULS_CPU0_CFG_SCRP_P_SCR1_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for pulsar_uls_cpu0_cfg_scrp_p_scr1_scr_pulsar_uls_cpu0_cfg_scrp_p_scr1_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 0. "SCRP_EDC_ENABLE_CLR,Interrupt Enable Clear Register for scrp_edc_pend" "0,1" group.long 0x13C++0xB line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "CPU0_ECC_AGGR__CFG__REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 31. "CPU0_AHB2VBUSP_EDC_PEND,Interrupt Pending Status for cpu0_ahb2vbusp_edc_pend" "0,1" newline bitfld.long 0x4 30. "CPU0_AXI2VBUSM_MEM_MST_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for cpu0_axi2vbusm_mem_mst_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 29. "CPU0_AXI2VBUSM_MEM_MST_RAMECC_PEND,Interrupt Pending Status for cpu0_axi2vbusm_mem_mst_ramecc_pend" "0,1" newline bitfld.long 0x4 28. "CPU0_VBUSM2AXI_EDC_PEND,Interrupt Pending Status for cpu0_vbusm2axi_edc_pend" "0,1" newline bitfld.long 0x4 27. "CPU0_KS_VIM_RAMECC_PEND,Interrupt Pending Status for cpu0_ks_vim_ramecc_pend" "0,1" newline bitfld.long 0x4 26. "B1TCM0_BANK1_PEND,Interrupt Pending Status for b1tcm0_bank1_pend" "0,1" newline bitfld.long 0x4 25. "B1TCM0_BANK0_PEND,Interrupt Pending Status for b1tcm0_bank0_pend" "0,1" newline bitfld.long 0x4 24. "B0TCM0_BANK1_PEND,Interrupt Pending Status for b0tcm0_bank1_pend" "0,1" newline bitfld.long 0x4 23. "B0TCM0_BANK0_PEND,Interrupt Pending Status for b0tcm0_bank0_pend" "0,1" newline bitfld.long 0x4 22. "ATCM0_BANK1_PEND,Interrupt Pending Status for atcm0_bank1_pend" "0,1" newline bitfld.long 0x4 21. "ATCM0_BANK0_PEND,Interrupt Pending Status for atcm0_bank0_pend" "0,1" newline bitfld.long 0x4 20. "CPU0_DDATA_RAM7_PEND,Interrupt Pending Status for cpu0_ddata_ram7_pend" "0,1" newline bitfld.long 0x4 19. "CPU0_DDATA_RAM6_PEND,Interrupt Pending Status for cpu0_ddata_ram6_pend" "0,1" newline bitfld.long 0x4 18. "CPU0_DDATA_RAM5_PEND,Interrupt Pending Status for cpu0_ddata_ram5_pend" "0,1" newline bitfld.long 0x4 17. "CPU0_DDATA_RAM4_PEND,Interrupt Pending Status for cpu0_ddata_ram4_pend" "0,1" newline bitfld.long 0x4 16. "CPU0_DDATA_RAM3_PEND,Interrupt Pending Status for cpu0_ddata_ram3_pend" "0,1" newline bitfld.long 0x4 15. "CPU0_DDATA_RAM2_PEND,Interrupt Pending Status for cpu0_ddata_ram2_pend" "0,1" newline bitfld.long 0x4 14. "CPU0_DDATA_RAM1_PEND,Interrupt Pending Status for cpu0_ddata_ram1_pend" "0,1" newline bitfld.long 0x4 13. "CPU0_DDATA_RAM0_PEND,Interrupt Pending Status for cpu0_ddata_ram0_pend" "0,1" newline bitfld.long 0x4 12. "CPU0_DDIRTY_RAM_PEND,Interrupt Pending Status for cpu0_ddirty_ram_pend" "0,1" newline bitfld.long 0x4 11. "CPU0_DTAG_RAM3_PEND,Interrupt Pending Status for cpu0_dtag_ram3_pend" "0,1" newline bitfld.long 0x4 10. "CPU0_DTAG_RAM2_PEND,Interrupt Pending Status for cpu0_dtag_ram2_pend" "0,1" newline bitfld.long 0x4 9. "CPU0_DTAG_RAM1_PEND,Interrupt Pending Status for cpu0_dtag_ram1_pend" "0,1" newline bitfld.long 0x4 8. "CPU0_DTAG_RAM0_PEND,Interrupt Pending Status for cpu0_dtag_ram0_pend" "0,1" newline bitfld.long 0x4 7. "CPU0_IDATA_BANK3_PEND,Interrupt Pending Status for cpu0_idata_bank3_pend" "0,1" newline bitfld.long 0x4 6. "CPU0_IDATA_BANK2_PEND,Interrupt Pending Status for cpu0_idata_bank2_pend" "0,1" newline bitfld.long 0x4 5. "CPU0_IDATA_BANK1_PEND,Interrupt Pending Status for cpu0_idata_bank1_pend" "0,1" newline bitfld.long 0x4 4. "CPU0_IDATA_BANK0_PEND,Interrupt Pending Status for cpu0_idata_bank0_pend" "0,1" newline bitfld.long 0x4 3. "CPU0_ITAG_RAM3_PEND,Interrupt Pending Status for cpu0_itag_ram3_pend" "0,1" newline bitfld.long 0x4 2. "CPU0_ITAG_RAM2_PEND,Interrupt Pending Status for cpu0_itag_ram2_pend" "0,1" newline bitfld.long 0x4 1. "CPU0_ITAG_RAM1_PEND,Interrupt Pending Status for cpu0_itag_ram1_pend" "0,1" newline bitfld.long 0x4 0. "CPU0_ITAG_RAM0_PEND,Interrupt Pending Status for cpu0_itag_ram0_pend" "0,1" line.long 0x8 "CPU0_ECC_AGGR__CFG__REGS_ded_status_reg1,Interrupt Status Register 1" bitfld.long 0x8 2. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" newline bitfld.long 0x8 1. "PULSAR_ULS_CPU0_CFG_SCRP_P_SCR1_SCR_PULSAR_ULS_CPU0_CFG_SCRP_P_SCR1_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for pulsar_uls_cpu0_cfg_scrp_p_scr1_scr_pulsar_uls_cpu0_cfg_scrp_p_scr1_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 0. "SCRP_EDC_PEND,Interrupt Pending Status for scrp_edc_pend" "0,1" group.long 0x180++0x7 line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 31. "CPU0_AHB2VBUSP_EDC_ENABLE_SET,Interrupt Enable Set Register for cpu0_ahb2vbusp_edc_pend" "0,1" newline bitfld.long 0x0 30. "CPU0_AXI2VBUSM_MEM_MST_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for cpu0_axi2vbusm_mem_mst_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 29. "CPU0_AXI2VBUSM_MEM_MST_RAMECC_ENABLE_SET,Interrupt Enable Set Register for cpu0_axi2vbusm_mem_mst_ramecc_pend" "0,1" newline bitfld.long 0x0 28. "CPU0_VBUSM2AXI_EDC_ENABLE_SET,Interrupt Enable Set Register for cpu0_vbusm2axi_edc_pend" "0,1" newline bitfld.long 0x0 27. "CPU0_KS_VIM_RAMECC_ENABLE_SET,Interrupt Enable Set Register for cpu0_ks_vim_ramecc_pend" "0,1" newline bitfld.long 0x0 26. "B1TCM0_BANK1_ENABLE_SET,Interrupt Enable Set Register for b1tcm0_bank1_pend" "0,1" newline bitfld.long 0x0 25. "B1TCM0_BANK0_ENABLE_SET,Interrupt Enable Set Register for b1tcm0_bank0_pend" "0,1" newline bitfld.long 0x0 24. "B0TCM0_BANK1_ENABLE_SET,Interrupt Enable Set Register for b0tcm0_bank1_pend" "0,1" newline bitfld.long 0x0 23. "B0TCM0_BANK0_ENABLE_SET,Interrupt Enable Set Register for b0tcm0_bank0_pend" "0,1" newline bitfld.long 0x0 22. "ATCM0_BANK1_ENABLE_SET,Interrupt Enable Set Register for atcm0_bank1_pend" "0,1" newline bitfld.long 0x0 21. "ATCM0_BANK0_ENABLE_SET,Interrupt Enable Set Register for atcm0_bank0_pend" "0,1" newline bitfld.long 0x0 20. "CPU0_DDATA_RAM7_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram7_pend" "0,1" newline bitfld.long 0x0 19. "CPU0_DDATA_RAM6_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram6_pend" "0,1" newline bitfld.long 0x0 18. "CPU0_DDATA_RAM5_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram5_pend" "0,1" newline bitfld.long 0x0 17. "CPU0_DDATA_RAM4_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram4_pend" "0,1" newline bitfld.long 0x0 16. "CPU0_DDATA_RAM3_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram3_pend" "0,1" newline bitfld.long 0x0 15. "CPU0_DDATA_RAM2_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram2_pend" "0,1" newline bitfld.long 0x0 14. "CPU0_DDATA_RAM1_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram1_pend" "0,1" newline bitfld.long 0x0 13. "CPU0_DDATA_RAM0_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram0_pend" "0,1" newline bitfld.long 0x0 12. "CPU0_DDIRTY_RAM_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddirty_ram_pend" "0,1" newline bitfld.long 0x0 11. "CPU0_DTAG_RAM3_ENABLE_SET,Interrupt Enable Set Register for cpu0_dtag_ram3_pend" "0,1" newline bitfld.long 0x0 10. "CPU0_DTAG_RAM2_ENABLE_SET,Interrupt Enable Set Register for cpu0_dtag_ram2_pend" "0,1" newline bitfld.long 0x0 9. "CPU0_DTAG_RAM1_ENABLE_SET,Interrupt Enable Set Register for cpu0_dtag_ram1_pend" "0,1" newline bitfld.long 0x0 8. "CPU0_DTAG_RAM0_ENABLE_SET,Interrupt Enable Set Register for cpu0_dtag_ram0_pend" "0,1" newline bitfld.long 0x0 7. "CPU0_IDATA_BANK3_ENABLE_SET,Interrupt Enable Set Register for cpu0_idata_bank3_pend" "0,1" newline bitfld.long 0x0 6. "CPU0_IDATA_BANK2_ENABLE_SET,Interrupt Enable Set Register for cpu0_idata_bank2_pend" "0,1" newline bitfld.long 0x0 5. "CPU0_IDATA_BANK1_ENABLE_SET,Interrupt Enable Set Register for cpu0_idata_bank1_pend" "0,1" newline bitfld.long 0x0 4. "CPU0_IDATA_BANK0_ENABLE_SET,Interrupt Enable Set Register for cpu0_idata_bank0_pend" "0,1" newline bitfld.long 0x0 3. "CPU0_ITAG_RAM3_ENABLE_SET,Interrupt Enable Set Register for cpu0_itag_ram3_pend" "0,1" newline bitfld.long 0x0 2. "CPU0_ITAG_RAM2_ENABLE_SET,Interrupt Enable Set Register for cpu0_itag_ram2_pend" "0,1" newline bitfld.long 0x0 1. "CPU0_ITAG_RAM1_ENABLE_SET,Interrupt Enable Set Register for cpu0_itag_ram1_pend" "0,1" newline bitfld.long 0x0 0. "CPU0_ITAG_RAM0_ENABLE_SET,Interrupt Enable Set Register for cpu0_itag_ram0_pend" "0,1" line.long 0x4 "CPU0_ECC_AGGR__CFG__REGS_ded_enable_set_reg1,Interrupt Enable Set Register 1" bitfld.long 0x4 2. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" newline bitfld.long 0x4 1. "PULSAR_ULS_CPU0_CFG_SCRP_P_SCR1_SCR_PULSAR_ULS_CPU0_CFG_SCRP_P_SCR1_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for pulsar_uls_cpu0_cfg_scrp_p_scr1_scr_pulsar_uls_cpu0_cfg_scrp_p_scr1_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 0. "SCRP_EDC_ENABLE_SET,Interrupt Enable Set Register for scrp_edc_pend" "0,1" group.long 0x1C0++0x7 line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 31. "CPU0_AHB2VBUSP_EDC_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ahb2vbusp_edc_pend" "0,1" newline bitfld.long 0x0 30. "CPU0_AXI2VBUSM_MEM_MST_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_axi2vbusm_mem_mst_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 29. "CPU0_AXI2VBUSM_MEM_MST_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_axi2vbusm_mem_mst_ramecc_pend" "0,1" newline bitfld.long 0x0 28. "CPU0_VBUSM2AXI_EDC_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_vbusm2axi_edc_pend" "0,1" newline bitfld.long 0x0 27. "CPU0_KS_VIM_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ks_vim_ramecc_pend" "0,1" newline bitfld.long 0x0 26. "B1TCM0_BANK1_ENABLE_CLR,Interrupt Enable Clear Register for b1tcm0_bank1_pend" "0,1" newline bitfld.long 0x0 25. "B1TCM0_BANK0_ENABLE_CLR,Interrupt Enable Clear Register for b1tcm0_bank0_pend" "0,1" newline bitfld.long 0x0 24. "B0TCM0_BANK1_ENABLE_CLR,Interrupt Enable Clear Register for b0tcm0_bank1_pend" "0,1" newline bitfld.long 0x0 23. "B0TCM0_BANK0_ENABLE_CLR,Interrupt Enable Clear Register for b0tcm0_bank0_pend" "0,1" newline bitfld.long 0x0 22. "ATCM0_BANK1_ENABLE_CLR,Interrupt Enable Clear Register for atcm0_bank1_pend" "0,1" newline bitfld.long 0x0 21. "ATCM0_BANK0_ENABLE_CLR,Interrupt Enable Clear Register for atcm0_bank0_pend" "0,1" newline bitfld.long 0x0 20. "CPU0_DDATA_RAM7_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram7_pend" "0,1" newline bitfld.long 0x0 19. "CPU0_DDATA_RAM6_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram6_pend" "0,1" newline bitfld.long 0x0 18. "CPU0_DDATA_RAM5_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram5_pend" "0,1" newline bitfld.long 0x0 17. "CPU0_DDATA_RAM4_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram4_pend" "0,1" newline bitfld.long 0x0 16. "CPU0_DDATA_RAM3_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram3_pend" "0,1" newline bitfld.long 0x0 15. "CPU0_DDATA_RAM2_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram2_pend" "0,1" newline bitfld.long 0x0 14. "CPU0_DDATA_RAM1_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram1_pend" "0,1" newline bitfld.long 0x0 13. "CPU0_DDATA_RAM0_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram0_pend" "0,1" newline bitfld.long 0x0 12. "CPU0_DDIRTY_RAM_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddirty_ram_pend" "0,1" newline bitfld.long 0x0 11. "CPU0_DTAG_RAM3_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_dtag_ram3_pend" "0,1" newline bitfld.long 0x0 10. "CPU0_DTAG_RAM2_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_dtag_ram2_pend" "0,1" newline bitfld.long 0x0 9. "CPU0_DTAG_RAM1_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_dtag_ram1_pend" "0,1" newline bitfld.long 0x0 8. "CPU0_DTAG_RAM0_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_dtag_ram0_pend" "0,1" newline bitfld.long 0x0 7. "CPU0_IDATA_BANK3_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_idata_bank3_pend" "0,1" newline bitfld.long 0x0 6. "CPU0_IDATA_BANK2_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_idata_bank2_pend" "0,1" newline bitfld.long 0x0 5. "CPU0_IDATA_BANK1_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_idata_bank1_pend" "0,1" newline bitfld.long 0x0 4. "CPU0_IDATA_BANK0_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_idata_bank0_pend" "0,1" newline bitfld.long 0x0 3. "CPU0_ITAG_RAM3_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_itag_ram3_pend" "0,1" newline bitfld.long 0x0 2. "CPU0_ITAG_RAM2_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_itag_ram2_pend" "0,1" newline bitfld.long 0x0 1. "CPU0_ITAG_RAM1_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_itag_ram1_pend" "0,1" newline bitfld.long 0x0 0. "CPU0_ITAG_RAM0_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_itag_ram0_pend" "0,1" line.long 0x4 "CPU0_ECC_AGGR__CFG__REGS_ded_enable_clr_reg1,Interrupt Enable Clear Register 1" bitfld.long 0x4 2. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" newline bitfld.long 0x4 1. "PULSAR_ULS_CPU0_CFG_SCRP_P_SCR1_SCR_PULSAR_ULS_CPU0_CFG_SCRP_P_SCR1_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for pulsar_uls_cpu0_cfg_scrp_p_scr1_scr_pulsar_uls_cpu0_cfg_scrp_p_scr1_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 0. "SCRP_EDC_ENABLE_CLR,Interrupt Enable Clear Register for scrp_edc_pend" "0,1" group.long 0x200++0xF line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" newline bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "CPU0_ECC_AGGR__CFG__REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" newline bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "CPU0_ECC_AGGR__CFG__REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" newline bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "CPU0_ECC_AGGR__CFG__REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" newline bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "MCU_R5FSS0_CORE0_EVNT_BUS_VBUSP_MMRS (MCU_R5FSS0_CORE0_EVNT_BUS_VBUSP_MMRS)" base ad:0x4400000 group.long 0x0++0x3 line.long 0x0 "EVNT_BUS__VBUSP__MMRS_DISABLE_CR,This register contains config bits to enable or disable change requests added to the IP" bitfld.long 0x0 0. "COMBINE_TCM_LOCKSTEP_MODE,this bit disables the CR logic to combine TCM in lockstep mode" "0,1" rgroup.long 0x4++0x13 line.long 0x0 "EVNT_BUS__VBUSP__MMRS_PULSAR_CPU0_EVNT_BUS_SB_ERR_CNT_STATUS,Status bits showing the PULSAR CPU0 EVNT_BUS single bit error counters" bitfld.long 0x0 16.--17. "EVNT_BUS8,Status bits showing the PULSAR CPU0 EVNT 8 single bit error counter." "0,1,2,3" bitfld.long 0x0 14.--15. "EVNT_BUS7,Status bits showing the PULSAR CPU0 EVNT 7 single bit error counter." "0,1,2,3" newline bitfld.long 0x0 12.--13. "EVNT_BUS6,Status bits showing the PULSAR CPU0 EVNT 6 single bit error counter." "0,1,2,3" bitfld.long 0x0 10.--11. "EVNT_BUS5,Status bits showing the PULSAR CPU0 EVNT 5 single bit error counter." "0,1,2,3" newline bitfld.long 0x0 8.--9. "EVNT_BUS4,Status bits showing the PULSAR CPU0 EVNT 4 single bit error counter." "0,1,2,3" bitfld.long 0x0 6.--7. "EVNT_BUS3,Status bits showing the PULSAR CPU0 EVNT 3 single bit error counter." "0,1,2,3" newline bitfld.long 0x0 4.--5. "EVNT_BUS2,Status bits showing the PULSAR CPU0 EVNT 2 single bit error counter." "0,1,2,3" bitfld.long 0x0 2.--3. "EVNT_BUS1,Status bits showing the PULSAR CPU0 EVNT 1 single bit error counter." "0,1,2,3" newline bitfld.long 0x0 0.--1. "EVNT_BUS0,Status bits showing the PULSAR CPU0 EVNT 0 single bit error counter." "0,1,2,3" line.long 0x4 "EVNT_BUS__VBUSP__MMRS_PULSAR_CPU1_EVNT_BUS_SB_ERR_CNT_STATUS,Status bits showing the PULSAR CPU1 EVNT_BUS single bit error counters" bitfld.long 0x4 16.--17. "EVNT_BUS8,Status bits showing the PULSAR CPU1 EVNT 8 single bit error counter." "0,1,2,3" bitfld.long 0x4 14.--15. "EVNT_BUS7,Status bits showing the PULSAR CPU1 EVNT 7 single bit error counter." "0,1,2,3" newline bitfld.long 0x4 12.--13. "EVNT_BUS6,Status bits showing the PULSAR CPU1 EVNT 6 single bit error counter." "0,1,2,3" bitfld.long 0x4 10.--11. "EVNT_BUS5,Status bits showing the PULSAR CPU1 EVNT 5 single bit error counter." "0,1,2,3" newline bitfld.long 0x4 8.--9. "EVNT_BUS4,Status bits showing the PULSAR CPU1 EVNT 4 single bit error counter." "0,1,2,3" bitfld.long 0x4 6.--7. "EVNT_BUS3,Status bits showing the PULSAR CPU1 EVNT 3 single bit error counter." "0,1,2,3" newline bitfld.long 0x4 4.--5. "EVNT_BUS2,Status bits showing the PULSAR CPU1 EVNT 2 single bit error counter." "0,1,2,3" bitfld.long 0x4 2.--3. "EVNT_BUS1,Status bits showing the PULSAR CPU1 EVNT 1 single bit error counter." "0,1,2,3" newline bitfld.long 0x4 0.--1. "EVNT_BUS0,Status bits showing the PULSAR CPU1 EVNT 0 single bit error counter." "0,1,2,3" line.long 0x8 "EVNT_BUS__VBUSP__MMRS_PULSAR_CPU0_EVNT_BUS_MB_ERR_CNT_STATUS,Status bits showing the PULSAR CPU0 EVNT_BUS multi bit error counters" bitfld.long 0x8 12.--13. "EVNT_BUS6,Status bits showing the PULSAR CPU0 EVNT 6 multi bit error counter." "0,1,2,3" bitfld.long 0x8 10.--11. "EVNT_BUS5,Status bits showing the PULSAR CPU0 EVNT 5 multi bit error counter." "0,1,2,3" newline bitfld.long 0x8 8.--9. "EVNT_BUS4,Status bits showing the PULSAR CPU0 EVNT 4 multi bit error counter." "0,1,2,3" bitfld.long 0x8 6.--7. "EVNT_BUS3,Status bits showing the PULSAR CPU0 EVNT 3 multi bit error counter." "0,1,2,3" newline bitfld.long 0x8 4.--5. "EVNT_BUS2,Status bits showing the PULSAR CPU0 EVNT 2 multi bit error counter." "0,1,2,3" bitfld.long 0x8 2.--3. "EVNT_BUS1,Status bits showing the PULSAR CPU0 EVNT 1 multi bit error counter." "0,1,2,3" newline bitfld.long 0x8 0.--1. "EVNT_BUS0,Status bits showing the PULSAR CPU0 EVNT 0 multi bit error counter." "0,1,2,3" line.long 0xC "EVNT_BUS__VBUSP__MMRS_PULSAR_CPU1_EVNT_BUS_MB_ERR_CNT_STATUS,Status bits showing the PULSAR CPU1 EVNT_BUS multi bit error counters" bitfld.long 0xC 12.--13. "EVNT_BUS6,Status bits showing the PULSAR CPU1 EVNT 6 multi bit error counter." "0,1,2,3" bitfld.long 0xC 10.--11. "EVNT_BUS5,Status bits showing the PULSAR CPU1 EVNT 5 multi bit error counter." "0,1,2,3" newline bitfld.long 0xC 8.--9. "EVNT_BUS4,Status bits showing the PULSAR CPU1 EVNT 4 multi bit error counter." "0,1,2,3" bitfld.long 0xC 6.--7. "EVNT_BUS3,Status bits showing the PULSAR CPU1 EVNT 3 multi bit error counter." "0,1,2,3" newline bitfld.long 0xC 4.--5. "EVNT_BUS2,Status bits showing the PULSAR CPU1 EVNT 2 multi bit error counter." "0,1,2,3" bitfld.long 0xC 2.--3. "EVNT_BUS1,Status bits showing the PULSAR CPU1 EVNT 1 multi bit error counter." "0,1,2,3" newline bitfld.long 0xC 0.--1. "EVNT_BUS0,Status bits showing the PULSAR CPU1 EVNT 0 multi bit error counter." "0,1,2,3" line.long 0x10 "EVNT_BUS__VBUSP__MMRS_PULSAR_EVNT_BUS_ESM_STATUS,ESM status bits for the PULSAR EVNT BUS" bitfld.long 0x10 3. "CPU1_MULTIPLE_BIT_ERROR,ESM status of CPU1 multiple bit errors on EVNT BUS" "0,1" bitfld.long 0x10 2. "CPU1_SINGLE_BIT_ERROR,ESM status of CPU1 single bit errors on EVNT BUS" "0,1" newline bitfld.long 0x10 1. "CPU0_MULTIPLE_BIT_ERROR,ESM status of CPU0 multiple bit errors on EVNT BUS" "0,1" bitfld.long 0x10 0. "CPU0_SINGLE_BIT_ERROR,ESM status of CPU0 single bit errors on EVNT BUS" "0,1" group.long 0x18++0xF line.long 0x0 "EVNT_BUS__VBUSP__MMRS_PULSAR_EVNT_BUS_ESM_SET,SET the PULSAR EVNT BUS ESM events" bitfld.long 0x0 3. "CPU1_MULTIPLE_BIT_ERROR,SET CPU1 multiple bit errors ESM event" "0,1" bitfld.long 0x0 2. "CPU1_SINGLE_BIT_ERROR,SET CPU1 single bit errors ESM event" "0,1" newline bitfld.long 0x0 1. "CPU0_MULTIPLE_BIT_ERROR,SET CPU0 multiple bit error ESM event" "0,1" bitfld.long 0x0 0. "CPU0_SINGLE_BIT_ERROR,SET CPU0 single bit error ESM event" "0,1" line.long 0x4 "EVNT_BUS__VBUSP__MMRS_PULSAR_EVNT_BUS_ESM_CLR,RESET the PULSAR EVNT BUS ESM events" bitfld.long 0x4 31. "CPU1_EB6_MULTIPLE_BIT_ERROR,Decrement CPU1 Event Bus 31 MULTIPLE BIT Error Counter" "0,1" bitfld.long 0x4 30. "CPU1_EB5_MULTIPLE_BIT_ERROR,Decrement CPU1 Event Bus 30 MULTIPLE BIT Error Counter" "0,1" newline bitfld.long 0x4 29. "CPU1_EB4_MULTIPLE_BIT_ERROR,Decrement CPU1 Event Bus 29 MULTIPLE BIT Error Counter" "0,1" bitfld.long 0x4 28. "CPU1_EB3_MULTIPLE_BIT_ERROR,Decrement CPU1 Event Bus 28 MULTIPLE BIT Error Counter" "0,1" newline bitfld.long 0x4 27. "CPU1_EB2_MULTIPLE_BIT_ERROR,Decrement CPU1 Event Bus 27 MULTIPLE BIT Error Counter" "0,1" bitfld.long 0x4 26. "CPU1_EB1_MULTIPLE_BIT_ERROR,Decrement CPU1 Event Bus 26 MULTIPLE BIT Error Counter" "0,1" newline bitfld.long 0x4 25. "CPU1_EB0_MULTIPLE_BIT_ERROR,Decrement CPU1 Event Bus 25 MULTIPLE BIT Error Counter" "0,1" bitfld.long 0x4 24. "CPU1_EB8_SINGLE_BIT_ERROR,Decrement CPU1 Event Bus 24 SINGLE BIT Error Counter" "0,1" newline bitfld.long 0x4 23. "CPU1_EB7_SINGLE_BIT_ERROR,Decrement CPU1 Event Bus 23 SINGLE BIT Error Counter" "0,1" bitfld.long 0x4 22. "CPU1_EB6_SINGLE_BIT_ERROR,Decrement CPU1 Event Bus 22 SINGLE BIT Error Counter" "0,1" newline bitfld.long 0x4 21. "CPU1_EB5_SINGLE_BIT_ERROR,Decrement CPU1 Event Bus 21 SINGLE BIT Error Counter" "0,1" bitfld.long 0x4 20. "CPU1_EB4_SINGLE_BIT_ERROR,Decrement CPU1 Event Bus 20 SINGLE BIT Error Counter" "0,1" newline bitfld.long 0x4 19. "CPU1_EB3_SINGLE_BIT_ERROR,Decrement CPU1 Event Bus 19 SINGLE BIT Error Counter" "0,1" bitfld.long 0x4 18. "CPU1_EB2_SINGLE_BIT_ERROR,Decrement CPU1 Event Bus 18 SINGLE BIT Error Counter" "0,1" newline bitfld.long 0x4 17. "CPU1_EB1_SINGLE_BIT_ERROR,Decrement CPU1 Event Bus 17 SINGLE BIT Error Counter" "0,1" bitfld.long 0x4 16. "CPU1_EB0_SINGLE_BIT_ERROR,Decrement CPU1 Event Bus 16 SINGLE BIT Error Counter" "0,1" newline bitfld.long 0x4 15. "CPU0_EB6_MULTIPLE_BIT_ERROR,Decrement CPU0 Event Bus 15 MULTIPLE BIT Error Counter" "0,1" bitfld.long 0x4 14. "CPU0_EB5_MULTIPLE_BIT_ERROR,Decrement CPU0 Event Bus 14 MULTIPLE BIT Error Counter" "0,1" newline bitfld.long 0x4 13. "CPU0_EB4_MULTIPLE_BIT_ERROR,Decrement CPU0 Event Bus 13 MULTIPLE BIT Error Counter" "0,1" bitfld.long 0x4 12. "CPU0_EB3_MULTIPLE_BIT_ERROR,Decrement CPU0 Event Bus 12 MULTIPLE BIT Error Counter" "0,1" newline bitfld.long 0x4 11. "CPU0_EB2_MULTIPLE_BIT_ERROR,Decrement CPU0 Event Bus 11 MULTIPLE BIT Error Counter" "0,1" bitfld.long 0x4 10. "CPU0_EB1_MULTIPLE_BIT_ERROR,Decrement CPU0 Event Bus 10 MULTIPLE BIT Error Counter" "0,1" newline bitfld.long 0x4 9. "CPU0_EB0_MULTIPLE_BIT_ERROR,Decrement CPU0 Event Bus 9 MULTIPLE BIT Error Counter" "0,1" bitfld.long 0x4 8. "CPU0_EB8_SINGLE_BIT_ERROR,Decrement CPU0 Event Bus 8 SINGLE BIT Error Counter" "0,1" newline bitfld.long 0x4 7. "CPU0_EB7_SINGLE_BIT_ERROR,Decrement CPU0 Event Bus 7 SINGLE BIT Error Counter" "0,1" bitfld.long 0x4 6. "CPU0_EB6_SINGLE_BIT_ERROR,Decrement CPU0 Event Bus 6 SINGLE BIT Error Counter" "0,1" newline bitfld.long 0x4 5. "CPU0_EB5_SINGLE_BIT_ERROR,Decrement CPU0 Event Bus 5 SINGLE BIT Error Counter" "0,1" bitfld.long 0x4 4. "CPU0_EB4_SINGLE_BIT_ERROR,Decrement CPU0 Event Bus 4 SINGLE BIT Error Counter" "0,1" newline bitfld.long 0x4 3. "CPU0_EB3_SINGLE_BIT_ERROR,Decrement CPU0 Event Bus 3 SINGLE BIT Error Counter" "0,1" bitfld.long 0x4 2. "CPU0_EB2_SINGLE_BIT_ERROR,Decrement CPU0 Event Bus 2 SINGLE BIT Error Counter" "0,1" newline bitfld.long 0x4 1. "CPU0_EB1_SINGLE_BIT_ERROR,Decrement CPU0 Event Bus 1 SINGLE BIT Error Counter" "0,1" bitfld.long 0x4 0. "CPU0_EB0_SINGLE_BIT_ERROR,Decrement CPU0 Event Bus 0 SINGLE BIT Error Counter" "0,1" line.long 0x8 "EVNT_BUS__VBUSP__MMRS_PULSAR_EVNT_BUS_MASK_ESM_SET,MASK the PULSAR EVNT BUS ESM events" bitfld.long 0x8 3. "CPU1_MULTIPLE_BIT_ERROR,MASK CPU1 multiple bit errors ESM event" "0,1" bitfld.long 0x8 2. "CPU1_SINGLE_BIT_ERROR,MASK CPU1 single bit errors ESM event" "0,1" newline bitfld.long 0x8 1. "CPU0_MULTIPLE_BIT_ERROR,MASK CPU0 multiple bit error ESM event" "0,1" bitfld.long 0x8 0. "CPU0_SINGLE_BIT_ERROR,MASK CPU0 single bit error ESM event" "0,1" line.long 0xC "EVNT_BUS__VBUSP__MMRS_PULSAR_EVNT_BUS_MASK_ESM_CLR,UNMASK the PULSAR EVNT BUS ESM events" bitfld.long 0xC 3. "CPU1_MULTIPLE_BIT_ERROR,UNMASK CPU1 multiple bit errors ESM event" "0,1" bitfld.long 0xC 2. "CPU1_SINGLE_BIT_ERROR,UNMASK CPU1 single bit errors ESM event" "0,1" newline bitfld.long 0xC 1. "CPU0_MULTIPLE_BIT_ERROR,UNMASK CPU0 multiple bit error ESM event" "0,1" bitfld.long 0xC 0. "CPU0_SINGLE_BIT_ERROR,UNMASK CPU0 single bit error ESM event" "0,1" rgroup.long 0x40++0x3 line.long 0x0 "EVNT_BUS__VBUSP__MMRS_PULSAR_EVT_BUS_REVID,Module ID register" hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID field" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL revision. Will vary depending on release" newline bitfld.long 0x0 8.--10. "REVMAJ,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor revision" tree.end tree.end endif tree.end sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "MMCSD" base ad:0x0 tree "MMCSD0" tree "MMCSD0_CTL_CFG (MMCSD0_CTL_CFG)" base ad:0xFA10000 group.word 0x0++0xF line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_sdma_sys_addr_lo,This register contains the Lower 16-bit of physical system memory address used for DMA transfers or the second argument for the Auto CMD23 in Host version 3.0 and as 32-bit Block Count in Version 4.10." hexmask.word 0x0 0.--15. 1. "SDMA_ADDRESS,When Host Version 4 Enable is set to 0 in the Host Control 2 register DMA uses this register as system address in only 32-bit addressing mode. Auto CMD23 cannot be used with SDMA. When Host Version 4 Enable is set to 1 SDMA uses ADMA System.." line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_sdma_sys_addr_hi,This register contains the Upper 16-bit of physical system memory address used for DMA transfers or the second argument for the Auto CMD23 in Host version 3.0 and as 32-bit Block Count in Version 4.10." hexmask.word 0x2 0.--15. 1. "SDMA_ADDRESS,This register contains the Upper 16-bit of physical system memory address used for DMA transfers or the second argument for the Auto CMD23 in Host version 3.0 and as 32-bit Block Count in Version 4.10." line.word 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_block_size,This register is used to configure the number of bytes in a data block" bitfld.word 0x4 12.--14. "SDMA_BUF_SIZE,To perform long DMA transfer System Address register shall be updated at every system boundary during DMA transfer. These bits specify the size of contiguous buffer in the system memory. The DMA transfer shall wait at the every boundary.." "0,1,2,3,4,5,6,7" newline hexmask.word 0x4 0.--11. 1. "XFER_BLK_SIZE,This field specifies the block size for block data transfers for CMD17 CMD18 CMD24 CMD25 and CMD53. It can be accessed only if no transaction is executing [i.e after a transaction has stopped]. Read operations during transfer return an.." line.word 0x6 "SDHC_WRAP__CTL_CFG__CTLCFG_block_count,This register is used to configure the number of data blocks" hexmask.word 0x6 0.--15. 1. "XFER_BLK_CNT,Host Controller Version 4.10 extends block count to 32-bit [Refer to Section 1.15].Selection of either 16-bit Block Count register or 32-bit Block Count register is defined as follows: [1] If Host Version 4 Enable in the Host Control 2.." line.word 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_argument1_lo,This register contains Lower bits of SD Command Argument" hexmask.word 0x8 0.--15. 1. "CMD_ARG1,The SD Command Argument is specified as bit23-8 of Command-Format." line.word 0xA "SDHC_WRAP__CTL_CFG__CTLCFG_argument1_hi,This register contains higher bits of SD Command Argument" hexmask.word 0xA 0.--15. 1. "CMD_ARG1,The SD Command Argument is specified as bit39-24 of Command-Format." line.word 0xC "SDHC_WRAP__CTL_CFG__CTLCFG_transfer_mode,This register is used to control the operations of data transfers" bitfld.word 0xC 8. "RESP_INTR_DIS,Host Controller Version 4.00 supports response error check function to avoid overhead of response error check by Host Driver. Only R1 or R5 can be checked. If Host Driver checks response error sets this bit to 0 and waits Command Complete.." "0,1" newline bitfld.word 0xC 7. "RESP_ERR_CHK_ENA,Host Controller Version 4.00 supports response error check function to avoid overhead of response error check by Host Driver. Only R1 or R5 can be checked.If Host Driver checks response error this bit is set to 0 and Response Interrupt.." "0,1" newline bitfld.word 0xC 6. "RESP_TYPE,When response error check is enabled this bit selects either R1 or R5 response types. Two types of response checks are supported: R1 for memory and R5 for SDIO." "0,1" newline bitfld.word 0xC 5. "MULTI_BLK_SEL,This bit enables multiple block data transfers." "0,1" newline bitfld.word 0xC 4. "DATA_XFER_DIR,This bit defines the direction of data transfers." "0,1" newline bitfld.word 0xC 2.--3. "AUTO_CMD_ENA,There are three methods to stop Multiple-block read and write operation. [1] Auto CMD12 Enable: Multiple-block read and write commands for memory require CMD12 to stop the operation. When this field is set to 01b the Host.." "0,1,2,3" newline bitfld.word 0xC 1. "BLK_CNT_ENA,This bit is used to enable the Block count register which is only relevant for multiple block transfers. When this bit is 0 the Block Count register is disabled which is useful in executing an infinite transfer." "0,1" newline bitfld.word 0xC 0. "DMA_ENA,DMA can be enabled only if DMA Support bit in the Capabilities register is set. If this bit is set to 1 a DMA operation shall begin when the HD writes to the upper byte of Command register [00Fh]." "0,1" line.word 0xE "SDHC_WRAP__CTL_CFG__CTLCFG_command,This register is used to program the Command for host controller" hexmask.word.byte 0xE 8.--13. 1. "CMD_INDEX,This bit shall be set to the command number [CMD0-63 ACMD0-63]." newline bitfld.word 0xE 6.--7. "CMD_TYPE,There are three types of special commands. Suspend Resume andAbort. These bits shall bet set to 00b for all other commands. Suspend Command: If the Suspend command succeeds the HC shall assume the SD Bus has been released and that it is.." "0,1,2,3" newline bitfld.word 0xE 5. "DATA_PRESENT,This bit is set to 1 to indicate that data is present and shall be transferred using the DAT line. If is set to 0 for the following: 1. Commands using only CMD line [ex. CMD52]. 2. Commands with no data transferbut using busy.." "0,1" newline bitfld.word 0xE 4. "CMD_INDEX_CHK_ENA,If this bit is set to 1 the HC shall check the index field in the response to see if it has the same value as the command index. If it is not it is reported as a Command Index Error. If this bit is set to 0 the Index field is not.." "0,1" newline bitfld.word 0xE 3. "CMD_CRC_CHK_ENA,If this bit is set to 1 the HC shall check the CRC field in the response. If an error is detected it is reported as a Command CRC Error. If this bit is set to 0 the CRC field is not checked." "0,1" newline bitfld.word 0xE 2. "SUB_CMD,This bit is added from Version 4.10 to distinguish a main command or sub command [Refer to Section 1.17]. When issuing a main com-mand this bit is set to 0 and when issuing a sub command this bit is set to 1. Setting of this bit is checked.." "0,1" newline bitfld.word 0xE 0.--1. "RESP_TYPE_SEL,Response Type Select." "0,1,2,3" rgroup.word 0x10++0x1 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_response,This register is used to store responses from SD Cards" hexmask.word 0x0 0.--15. 1. "CMD_RESP,R[] refers to a bit range within the response data as transmitted on the SD Bus REP[] refers to a bit range within the Response register." group.long 0x20++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_data_port,This register is used to access internal buffer" hexmask.long 0x0 0.--31. 1. "BUF_RD_DATA,The Host Controller Buffer can be accessed through this 32-bit Data Port Register." rgroup.long 0x24++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_presentstate,The Host Driver can get status of the Host Controller from this 32-bit read-only register" bitfld.long 0x0 31. "UHS2_IF_DETECTION,This status indicates whether a card supports UHS-II IF. This status is enabled by setting UHS-II Interface Enable to 1 in the Host Control 2 regis-ter. UHS-II interface initialization is activated by setting SD Clock Enable in the.." "0,1" newline bitfld.long 0x0 30. "UHS2_IF_LANE_SYNC,This status indicates whether lane is synchronized in UHS-II mode. This status is enabled by setting UHS-II Interface Enable to 1 in the Host Control 2 register. On detecting UHS-II Interface [D31=1] Host Controller provides SYN.." "0,1" newline bitfld.long 0x0 29. "UHS2_DORMANT,This status indicates whether UHS-II Ianes enterDormant state. This function is enabled by setting UHS-II Interface Enable to 1 in the Host Control 2 register. On issuing GO_DORMAT_STATE com-mand Go Dormant Command [111b]; is set to Command.." "0,1" newline bitfld.long 0x0 28. "SUB_COMMAND_STS,The Command register and Response register are commonly used for main command and sub command. This status is used to distinguish which response error statuses main command or sub command indicated in the Error Interrupt Status.." "0,1" newline bitfld.long 0x0 27. "CMD_NOT_ISS_BY_ERR,Setting of this status indicates that a command cannot be issued due to an error except Auto CMD12 error. [Equivalent error status by Auto CMD12 error is defined as Command Not Issued By Auto CMD12 Error in the Auto CMD Error.." "0,1" newline bitfld.long 0x0 24. "SDIF_CMDIN,This status is used to check DAT line level to recover from errors and for debugging." "0,1" newline bitfld.long 0x0 23. "SDIF_DAT3IN,This status is used to check DAT line level to recover from errors and for debugging. This is especially useful in detecting the busy signal level from DAT[3]." "0,1" newline bitfld.long 0x0 22. "SDIF_DAT2IN,This status is used to check DAT line level to recover from errors and for debugging. This is especially useful in detecting the busy signal level from DAT[2]." "0,1" newline bitfld.long 0x0 21. "SDIF_DAT1IN,This status is used to check DAT line level to recover from errors and for debugging. This is especially useful in detecting the busy signal level from DAT[1]." "0,1" newline bitfld.long 0x0 20. "SDIF_DAT0IN,This status is used to check DAT line level to recover from errors and for debugging. This is especially useful in detecting the busy signal level from DAT[0]." "0,1" newline bitfld.long 0x0 19. "WRITE_PROTECT,The Write Protect Switch is supported for memory and combo cards.This bit reflects the SDWP# pin." "0,1" newline bitfld.long 0x0 18. "CARD_DETECT,This bit reflects the inverse value of the SDCD# pin. '0' No Card present [SDCD# = 1] '1' Card present [SDCD# = 0]" "0,1" newline bitfld.long 0x0 17. "CARD_STATE_STABLE,This bit is used for testing. If it is 0 the Card Detect Pin Level is not stable. If this bit is set to 1 it means the Card Detect Pin Level is stable. The Software Reset For All in the Software Reset Register shall not affect this.." "0,1" newline bitfld.long 0x0 16. "CARD_INSERTED,This bit indicates whether a card has been inserted. Changing from 0 to 1 generates a Card Insertion interrupt in the Normal Interrupt Status register and changing from 1 to 0 generates a Card Removal Interrupt in the Normal Interrupt.." "0,1" newline bitfld.long 0x0 11. "BUF_RD_ENA,This status is used for non-DMA read transfers.This read only flag indicates that valid data exists in the host side buffer status. If this bit is 1 readable data exists in the buffer. A change of this bit from 1 to 0 occurs when all the.." "0,1" newline bitfld.long 0x0 10. "BUF_WR_ENA,This status is used for non-DMA write transfers.This read only flag indicates if space is available for write data. If this bit is 1 data can be written to the buffer. A change of this bit from 1 to 0 occurs when all the block data is written.." "0,1" newline bitfld.long 0x0 9. "RD_XFER_ACTIVE,This status is used for detecting completion of a read transfer. This bit is set to 1 for either of the following conditions: After the end bit of the read command. When writing a 1 to continue Request in the Block.." "0,1" newline bitfld.long 0x0 8. "WR_XFER_ACTIVE,This status indicates a write transfer is active. If this bit is 0 it means no valid write data exists in the HC. This bit is set in either of the following cases: After the end bit of the write command. When writing a.." "0,1" newline bitfld.long 0x0 7. "SDIF_DAT7IN,This status is used to check DAT line level to recover from errors and for debugging." "0,1" newline bitfld.long 0x0 6. "SDIF_DAT6IN,This status is used to check DAT line level to recover from errors and for debugging." "0,1" newline bitfld.long 0x0 5. "SDIF_DAT5IN,This status is used to check DAT line level to recover from errors and for debugging." "0,1" newline bitfld.long 0x0 4. "SDIF_DAT4IN,This status is used to check DAT line level to recover from errors and for debugging." "0,1" newline bitfld.long 0x0 3. "RETUNING_REQ,Host Controller may request Host Driver to execute re-tuning sequence by setting this bit when the data window is shifted by temperature drift and a tuned sampling point does not have a good margin to receive correct data. This bit is.." "0,1" newline bitfld.long 0x0 2. "DATA_LINE_ACTIVE,This bit indicates whether one of the DAT line on SD bus is in use." "0,1" newline bitfld.long 0x0 1. "INHIBIT_DAT,This status bit is generated if either the DAT Line Active or the Read transfer Active is set to 1. If this bit is 0 it indicates the HC can issue the next SD command. Commands with busy signal belong to Command Inhibit [DAT] [ex. R1b R5b.." "0,1" newline bitfld.long 0x0 0. "INHIBIT_CMD,SD Mode If this bit is 0 it indicates the CMD line is not in use and the HC can issue a SD command using the CMD line. This bit is set immediately after the Command register [00Fh] is written. This bit is cleared when the command response is.." "0,1" group.byte 0x28++0x3 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_host_control1,This register is used to program DMA modes. LED Control. Data Transfer Width. High Speed Enable. Card detect test level and signal selection" bitfld.byte 0x0 7. "CD_SIG_SEL,This bit selects source for card detection. '0' SDCD# is selected [for normal use] '1' The card detect test level is selected" "0,1" newline bitfld.byte 0x0 6. "CD_TEST_LEVEL,This bit is enabled while the Card Detect Signal Selection is set to 1 and it indicates card inserted or not. Generates [card ins or card removal] interrupt when the normal int sts enable bit is set. '0' No Card '1' Card Inserted" "0,1" newline bitfld.byte 0x0 5. "EXT_DATA_WIDTH,This bit controls 8-bit bus width mode for embedded device. Support of this function is indicated in 8-bit Support for Embedded Device in the Capabilities register. If a device supports 8-bit bus mode this bit may be set to 1. If this bit.." "0,1" newline bitfld.byte 0x0 3.--4. "DMA_SELECT,This field is used to select DMA type. The Host Driver shall check support of DMA modes by referring the Capabilities register. Selected DMA is enabled by DMA Enable of the Transfer Mode register in SD mode and DMA Enable of UHS-II Transfer.." "0,1,2,3" newline bitfld.byte 0x0 2. "HIGH_SPEED_ENA,This bit is optional. Before setting this bit the HD shall check the High Speed Support in the capabilities register. If this bit is set to 0 [default] the HC outputs CMD line and DAT lines at the falling edge of the SD clock [up to.." "0,1" newline bitfld.byte 0x0 1. "DATA_WIDTH,This bit selects the data width of the HC. The HD shall select it to match the data width of the SD card. This bit is not effective in UHS-II mode." "0,1" newline bitfld.byte 0x0 0. "LED_CONTROL,This bit is used to caution the user not to remove the card while the SD card is being accessed. If the software is going to issue multiple SD commands this bit can be set during all transactions. It is not necessary to change for each.." "0,1" line.byte 0x1 "SDHC_WRAP__CTL_CFG__CTLCFG_power_control,This register is used to program the SD Bus power and voltage level" bitfld.byte 0x1 5.--7. "UHS2_VOLTAGE,This field determines supply voltage range to VDD2. This field can be set to 101b if 1.8V VDD2 Support in the Capabilities register is set to 1. '000' VDD2 Not supported '001'- '011' Reserved '100' Reserved for 1.2V.." "0,1,2,3,4,5,6,7" newline bitfld.byte 0x1 4. "UHS2_POWER,Setting this bit enables providing VDD2. '0' Power Off '1' Power On" "0,1" newline bitfld.byte 0x1 1.--3. "SD_BUS_VOLTAGE,By setting these bits the HD selects the voltage level for the SD card. Before setting this register the HD shall check the voltage support bits in the capabilities register. If an unsupported voltage is selected the Host System shall.." "0,1,2,3,4,5,6,7" newline bitfld.byte 0x1 0. "SD_BUS_POWER,Before setting this bit the SD host driver shall set SD Bus Voltage Select. If the HC detects the No Card State this bit shall be cleared. If this bit is cleared the Host Control-ler should immediately stop driving CMD and DAT[3:0].." "0,1" line.byte 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_block_gap_control,This register is used to program the block gap request. read wait control and interrupt at block gap" bitfld.byte 0x2 7. "BOOT_ACK_ENA,To check for the boot acknowledge in boot operation." "0,1" newline bitfld.byte 0x2 6. "ALT_BOOT_MODE,To start boot code access in alternative mode." "0,1" newline bitfld.byte 0x2 5. "BOOT_ENABLE,To start boot code access." "0,1" newline bitfld.byte 0x2 4. "SPI_MODE,SPI mode enable bit." "0,1" newline bitfld.byte 0x2 3. "INTRPT_AT_BLK_GAP,This bit is valid only in 4-bit mode of the SDIO card and selects a sample point in the interrupt cycle. Setting to 1 enables interrupt detection at the block gap for a multiple block transfer. If the SD card cannot signal an interrupt.." "0,1" newline bitfld.byte 0x2 2. "RDWAIT_CTRL,The read wait function is optional for SDIO cards. If the card supports read wait set this bit to enable use of the read wait protocol to stop read data using DAT[2] line. Otherwise the HC has to stop the SD clock to hold read data which.." "0,1" newline bitfld.byte 0x2 1. "CONTINUE,This bit is used to restart a transaction which was stopped using the Stop At Block Gap Request. To cancel stop at the block gap set Stop At block Gap Request to 0 and set this bit to restart the transfer. The Host Controller automatically.." "0,1" newline bitfld.byte 0x2 0. "STOP_AT_BLK_GAP,This bit is used to stop executing a transaction at the next block gap for non- DMA SDMA and ADMA transfers. Until the transfer complete is set to 1 indicating a transfer completion the HD shall leave this bit set to 1. Clearing both the.." "0,1" line.byte 0x3 "SDHC_WRAP__CTL_CFG__CTLCFG_wakeup_control,This register is used to program the wakeup functionality" bitfld.byte 0x3 2. "CARD_REMOVAL,This bit enables wakeup event via Card removal assertion in the Normal Interrupt Status register.FN_WUS [Wake up Support] in CIS does not affect this bit." "0,1" newline bitfld.byte 0x3 1. "CARD_INSERTION,This bit enables wakeup event via Card Insertion assertion in the Normal Interrupt Status register.FN_WUS [Wake up Support] in CIS does not affect this bit." "0,1" newline bitfld.byte 0x3 0. "CARD_INTERRUPT,This bit enables wakeup event via Card Interrupt assertion in the Normal Interrupt Status register.This bit can be set to 1 if FN_WUS [Wake Up Support] in CIS is set to 1." "0,1" group.word 0x2C++0x1 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_clock_control,This register is used to program the Clock frequency select. generator select. Clock enable. Internal Clock state fields" hexmask.word.byte 0x0 8.--15. 1. "SDCLK_FRQSEL,This register is used to select the frequency of the SDCLK pin. The frequency is not programmed directly; rather this register holds the divisor of the Base Clock Frequency For SD clock in the capabilities register. Only the following.." newline bitfld.word 0x0 6.--7. "SDCLK_FRQSEL_UPBITS,Bit 07-06 is assigned to bit 09-08 of clock divider in SDCLK Frequency Select." "0,1,2,3" newline bitfld.word 0x0 5. "CLKGEN_SEL,This bit is used to select the clock generator mode in SDCLK Frequency Select. If the Programmable Clock Mode is supported [non-zero value is set to Clock Multiplier in the Capabilities register] this bit attribute is RW and if not.." "0,1" newline bitfld.word 0x0 3. "PLL_ENA,This bit is added from Version 4.10 for Host Controller using PLL. This feature allows Host Controller to initialize clock generator in two steps: by Internal Clock Enable and PLL Enable and to minimize output latency [ex. SDCLK/RCLK D0lane].." "0,1" newline bitfld.word 0x0 2. "SD_CLK_ENA,The HC shall stop SDCLK when writing this bit to 0. SDCLK frequency Select can be changed when this bit is 0. Then the HC shall maintain the same clock frequency until SDCLK is stopped [Stop at SDCLK = 0]. If the HC detects the No Card state .." "0,1" newline rbitfld.word 0x0 1. "INT_CLK_STABLE,This bit is set to 1 when SD clock is stable after writing to Internal Clock Enable in this register to 1. The SD Host Driver shall wait to set SD Clock Enable until this bit is set to 1. Note: This is useful when using PLL for a clock.." "0,1" newline bitfld.word 0x0 0. "INT_CLK_ENA,This bit is set to 0 when the HD is not using the HC or the HC awaits a wakeup event. The HC should stop its internal clock to go very low power state. Still registers shall be able to be read and written. Clock starts to oscillate when this.." "0,1" group.byte 0x2E++0x1 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_timeout_control,The register sets the Data Timeout counter value" hexmask.byte 0x0 0.--3. 1. "COUNTER_VALUE,This value determines the interval by which DAT line time-outs are detected. Refer to the Data Time-out Error in the Error Interrupt Status register for information on factors that dictate time-out generation. Time-out clock frequency will.." line.byte 0x1 "SDHC_WRAP__CTL_CFG__CTLCFG_software_reset,This register is used to program the software reset for data. command and for all" bitfld.byte 0x1 2. "SWRST_FOR_DAT,Only part of data circuit is reset. The following registers and bits are cleared by this bit: Buffer Data Port Register: Buffer is cleared and Initialized. Present State register: Buffer read Enable Buffer write.." "0,1" newline bitfld.byte 0x1 1. "SWRST_FOR_CMD,Software Reset For CMD Line Only part of command circuit is reset to be able to issue a command. From Version 4.10 this bit is also used to initialize UHS-II command circuit. This reset is effective only command issuing circuit [including.." "0,1" newline bitfld.byte 0x1 0. "SWRST_FOR_ALL,This reset affects the entire HC except for the card detection circuit. Register bits of type ROC RW RW1C RWAC are cleared to 0. During its initialization the HD shall set this bit to 1 to reset the HC. The HC shall reset this bit to 0.." "0,1" group.word 0x30++0xB line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_normal_intr_sts,This register gives the status of all the interrupts" rbitfld.word 0x0 15. "ERROR_INTR,If any of the bits in the Error Interrupt Status Register are set then this bit is set. Therefore the HD can test for an error by checking this bit first. In UHS-II mode is enabled if any of the bits in the UHS-II Error.." "0,1" newline bitfld.word 0x0 14. "BOOT_COMPLETE,This status is set if the boot operation gets terminated. '0' Boot operation is not terminated '1' Boot operation is terminated" "0,1" newline bitfld.word 0x0 13. "RCV_BOOT_ACK,This status is set if the boot acknowledge is received from device. '0' Boot ack not recieved '1' Boot ack is recieved" "0,1" newline rbitfld.word 0x0 12. "RETUNING_EVENT,This status is set if Re-Tuning Request in the Present State register changes from 0 to 1. Host Controller requests Host Driver to perform re-tuning for next data transfer. Current data transfer [not large block count] can be completed.." "0,1" newline rbitfld.word 0x0 11. "INTC,This status is set if INT_C is enabled and INT_C# pin is in low level. Writing this bit to 1 does not clear this bit. It is cleared by resetting the INT_C interrupt factor." "0,1" newline rbitfld.word 0x0 10. "INTB,This status is set if INT_B is enabled and INT_B# pin is in low level. Writing this bit to 1 does not clear this bit. It is cleared by resetting the INT_B interrupt factor." "0,1" newline rbitfld.word 0x0 9. "INTA,This status is set if INT_A is enabled and INT_A# pin is in low level. Writing this bit to 1 does not clear this bit. It is cleared by resetting the INT_A interrupt factor. NOTE : INT_A INT_B and INT_C are to be implemented based on the.." "0,1" newline rbitfld.word 0x0 8. "CARD_INTR,When this status has been set and the Host Driver needs to start this interrupt service Card Interrupt Status Enable in the Normal Interrupt Status Enable register may be set to 0 in order to clear the card interrupt status latched in the Host.." "0,1" newline bitfld.word 0x0 7. "CARD_REM,This status is set if the Card Inserted in the Present State register changes from 1 to 0. When the HD writes this bit to 1 to clear this status the status of the Card Inserted in the Present State register should be confirmed. Because the card.." "0,1" newline bitfld.word 0x0 6. "CARD_INS,This status is set if the Card Inserted in the Present State register changes from 0 to 1.When the HD writes this bit to 1 to clear this status the status of the Card Inserted in the Present State register should be confirmed. Because the card.." "0,1" newline bitfld.word 0x0 5. "BUF_RD_READY,This status is set if the Buffer Read Enable changes from 0 to 1. Buffer Read Ready is set to 1 for every CMD19 execution in tuning procedure.In UHS-II mode this bit is set at FC [Flow Control] unit basis. '0' Not ready to.." "0,1" newline bitfld.word 0x0 4. "BUF_WR_READY,This status is set if the Buffer Write Enable changes from 0 to 1.In UHS-II mode this bit is set at FC [Flow Control] unit basis. '0' Not ready to write to buffer '1' Ready to write to buffer" "0,1" newline bitfld.word 0x0 3. "DMA_INTERRUPT,This status is set if the HC detects the Host DMA Buffer Boundary in the Block Size regiser. '0' No DMA Interrupt '1' DMA Interrupt is generated" "0,1" newline bitfld.word 0x0 2. "BLK_GAP_EVENT,If the Stop At Block Gap Request in the BlockGap Control Register is set this bit is set. Read Transaction: This bit is set at the falling edge of the DAT Line Active Status [When the transaction is stopped at SD Bus timing. The Read.." "0,1" newline bitfld.word 0x0 1. "XFER_COMPLETE,This bit is set when a read / write transaction is completed. SD Mode Read Transaction: This bit is set at the falling edge of Read Transfer Active Status. There are two cases in which the Interrupt is generated. The first is.." "0,1" newline bitfld.word 0x0 0. "CMD_COMPLETE,SD Mode This bit is set when we get the end bit of the command response [Except Auto CMD12 and Auto CMD23] Note: Command Time-out Error has higher priority than Command Complete. If both are set to 1 it can be considered that the.." "0,1" line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_error_intr_sts,This register gives the status of the error interrupts" bitfld.word 0x2 12. "HOST,Occurs when detecting ERROR in m_hresp[dma transaction]" "0,1" newline bitfld.word 0x2 11. "RESP,Host Controller Version 4.00 supports response error check function to avoid overhead of response error check by Host Driver during DMA execution. If Response Error Check Enable is set to 1 in the Transfer Mode register Host Controller Checks R1 or.." "0,1" newline bitfld.word 0x2 10. "TUNING,This bit is set when an unrecoverable error is detected in a tuning circuit except during tuning procedure [Occurrence of an error during tuning procedure is indicated by Sampling Select]. By detecting Tuning Error Host Driver needs to abort a.." "0,1" newline bitfld.word 0x2 9. "ADMA,This bit is set when the Host Controller detects errors during ADMA based data transfer. The state of the ADMA at an error occurrence is saved in the ADMA Error Status Register." "0,1" newline bitfld.word 0x2 8. "AUTO_CMD,Auto CMD12 and Auto CMD23 use this error status.This bit is set when detecting that any of the bits D00 to D05 in Auto CMD Error Status register has changed from 0 to 1. D07 is effective in case of Auto CMD12. Auto CMD Error Status register is.." "0,1" newline bitfld.word 0x2 7. "CURR_LIMIT,By setting the SD Bus Power bit in the Power Control Register the HC is requested to supply power for the SD Bus. If the HC supports the Current Limit Function it can be protected from an Illegal card by stopping power supply to the card in.." "0,1" newline bitfld.word 0x2 6. "DATA_ENDBIT,Occurs when detecting 0 at the end bit position of read data which uses the DAT line or the end bit position of the CRC status." "0,1" newline bitfld.word 0x2 5. "DATA_CRC,Occurs when detecting CRC error when transferring read data which uses the DAT line or when detecting the Write CRC Status having a value of other than 010." "0,1" newline bitfld.word 0x2 4. "DATA_TIMEOUT,Occurs when detecting one of following timeout conditions: 1. Busy Timeout for R1b R5b type. 2. Busy Timeout after Write CRC status 3. Write CRC status Timeout 4. Read Data Timeout." "0,1" newline bitfld.word 0x2 3. "CMD_INDEX,Occurs if a Command Index error occurs in the Command Response." "0,1" newline bitfld.word 0x2 2. "CMD_ENDBIT,Occurs when detecting that the end bit of a command response is 0." "0,1" newline bitfld.word 0x2 1. "CMD_CRC,Command CRC Error is generated in two cases. 1. If a response is returned and the Command Time-out Error is set to 0 this bit is set to 1 when detecting a CRT error in the command response 2. The HC detects a CMD line conflict by.." "0,1" newline bitfld.word 0x2 0. "CMD_TIMEOUT,Occurs only if the no response is returned within 64 SDCLK cycles from the end bit of the command. If the HC detects a CMD line conflict in which case Command CRC Error shall also be set. This bit shall be set without waiting for 64 SDCLK.." "0,1" line.word 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_normal_intr_sts_ena,This register is used to enable the normal interrupt status register fields" rbitfld.word 0x4 15. "BIT15_FIXED0,The HC shall control error Interrupts using the Error Interrupt Status Enable register." "0,1" newline bitfld.word 0x4 14. "BOOT_COMPLETE,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 13. "RCV_BOOT_ACK,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 12. "RETUNING_EVENT,0 - Masked 1 - Enabled" "0,1" newline bitfld.word 0x4 11. "INTC,If this bit is set to 0 the Host Controller shall clear the interrupt request to the System. The Host Driver may clear this bit before servicing the INT_C and may set this bit again after all interrupt requests to INT_C pin are cleared to prevent.." "0,1" newline bitfld.word 0x4 10. "INTB,If this bit is set to 0 the Host Controller shall clear the interrupt request to the System. The Host Driver may clear this bit before servicing the INT_B and may set this bit again after all interrupt requests to INT_B pin are cleared to prevent.." "0,1" newline bitfld.word 0x4 9. "INTA,If this bit is set to 0 the Host Controller shall clear the interrupt request to the System. The Host Driver may clear this bit before servicing the INT_A and may set this bit again after all interrupt requests to INT_A pin are cleared to prevent.." "0,1" newline bitfld.word 0x4 8. "CARD_INTERRUPT,If this bit is set to 0 the HC shall clear Interrupt request to the System. The Card Interrupt detection is stopped when this bit is cleared and restarted when this bit is set to 1. The HD may clear the Card Interrupt Status Enable before.." "0,1" newline bitfld.word 0x4 7. "CARD_REMOVAL,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 6. "CARD_INSERTION,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 5. "BUF_RD_READY,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 4. "BUF_WR_READY,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 3. "DMA_INTERRUPT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 2. "BLK_GAP_EVENT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 1. "XFER_COMPLETE,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 0. "CMD_COMPLETE,'0' Masked '1' Enabled" "0,1" line.word 0x6 "SDHC_WRAP__CTL_CFG__CTLCFG_error_intr_sts_ena,This register is used to enable the Error Interrupt Status register fields" bitfld.word 0x6 13.--14. "VENDOR_SPECIFIC,N/A" "0,1,2,3" newline bitfld.word 0x6 12. "HOST,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 11. "RESP,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 10. "TUNING,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 9. "ADMA,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 8. "AUTO_CMD,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 7. "CURR_LIMIT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 6. "DATA_ENDBIT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 5. "DATA_CRC,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 4. "DATA_TIMEOUT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 3. "CMD_INDEX,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 2. "CMD_ENDBIT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 1. "CMD_CRC,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 0. "CMD_TIMEOUT,'0' Masked '1' Enabled" "0,1" line.word 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_normal_intr_sig_ena,This register is used to enable the Normal Interrupt Signal register" rbitfld.word 0x8 15. "BIT15_FIXED0,The HD shall control error Interrupts using the Error Interrupt Signal Enable register." "0,1" newline bitfld.word 0x8 14. "BOOT_COMPLETE,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 13. "RCV_BOOT_ACK,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 12. "RETUNING_EVENT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 11. "INTC,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 10. "INTB,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 9. "INTA,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 8. "CARD_INTERRUPT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 7. "CARD_REMOVAL,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 6. "CARD_INSERTION,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 5. "BUF_RD_READY,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 4. "BUF_WR_READY,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 3. "DMA_INTERRUPT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 2. "BLK_GAP_EVENT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 1. "XFER_COMPLETE,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 0. "CMD_COMPLETE,'0' Masked '1' Enabled" "0,1" line.word 0xA "SDHC_WRAP__CTL_CFG__CTLCFG_error_intr_sig_ena,This register is used to enable Error Interrupt Signal register" bitfld.word 0xA 13.--14. "VENDOR_SPECIFIC,N/A" "0,1,2,3" newline bitfld.word 0xA 12. "HOST,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 11. "RESP,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 10. "TUNING,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 9. "ADMA,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 8. "AUTO_CMD,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 7. "CURR_LIMIT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 6. "DATA_ENDBIT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 5. "DATA_CRC,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 4. "DATA_TIMEOUT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 3. "CMD_INDEX,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 2. "CMD_ENDBIT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 1. "CMD_CRC,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 0. "CMD_TIMEOUT,'0' Masked '1' Enabled" "0,1" rgroup.word 0x3C++0x1 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_autocmd_err_sts,This register is used to indicate CMD12 response error of Auto CMD12 and CMD23 response error of Auto CMD 23" bitfld.word 0x0 7. "CMD_NOT_ISSUED,Setting this bit to 1 means CMD_wo_DAT is not executed due to an Auto CMD12 error [D04- D01] in this register. This bit is set to 0 when Auto CMD Error is generated by Auto CMD23." "0,1" newline bitfld.word 0x0 5. "RESP,This bit is set when Response Error Check Enable in the Transfer Mode register is set to 1 and an error is detected in R1 response of either Auto CMD12 or Auto CMD23. This status should be ignored if any bit of D00 to D04 is set to 1." "0,1" newline bitfld.word 0x0 4. "INDEX,Occurs if the Command Index error occurs in response to a command." "0,1" newline bitfld.word 0x0 3. "ENDBIT,Occurs when detecting that the end bit of command response is 0." "0,1" newline bitfld.word 0x0 2. "CRC,Occurs when detecting a CRC error in the command response." "0,1" newline bitfld.word 0x0 1. "TIMEOUT,Occurs if the no response is returned within 64 SDCLK cycles from the end bit of the command.If this bit is set to 1 the other error status bits [D04 - D02] are meaningless." "0,1" newline bitfld.word 0x0 0. "ACMD12_NOT_EXEC,If memory multiple block data transfer is not started due to command error this bit is not set because it is not necessary to issue Auto CMD12. Setting this bit to 1 means the HC cannot issue Auto CMD12 to stop memory multiple block.." "0,1" group.word 0x3E++0x1 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_host_control2,This register is used to program UHS Select Mode.UHS Select Mode.Driver Strength Select.Execute Tuning.Sampling Clock Select.Asynchronous Interrupt Enable and Preset value enable" bitfld.word 0x0 15. "PRESET_VALUE_ENA,Host Controller Version 3.00 supports this bit. As the operating SDCLK frequency and I/O driver strength depend on the Host System implementation it is difficult to determine these parameters in the Standard Host Driver. When Preset.." "0,1" newline bitfld.word 0x0 14. "ASYNCH_INTR_ENA,This bit can be set to 1 if a card support asynchronous interrupt and Asynchronous Interrupt Support is set to 1 in the Capabilities register. Asynchronous interrupt is effective when DAT[1] interrupt is used in 4-bit SD mode [and zero is.." "0,1" newline bitfld.word 0x0 13. "BIT64_ADDRESSING,This field is effective when Host Version 4.00 Enable is set to 1. Host Controller selects either of 32-bit or 64-bit addressing modes to access system memory. Whether 32-bit or 64-bit is determined by OS installed in a host.." "0,1" newline bitfld.word 0x0 12. "HOST_VER40_ENA,This bit selects either Version 3.00 compatible mode or Ver4.mode. In Version 4.00 support of 64-bit System Addressing is modified. All DMAs support 64-bit System Addressing. UHS-II supported Host Driver shall enable this bit. In Version.." "0,1" newline bitfld.word 0x0 11. "CMD23_ENA,In memory card initialization Host Driver Version 4.10 checks whether card supports CMD23 by checking a bit SCR[33]. If the card supports CMD23 [SCR[33]=1] this bit is set to 1. This bit is used to select Auto CMD23 or Auto CMD12 for ADMA3.." "0,1" newline bitfld.word 0x0 10. "ADMA2_LEN_MODE,This bit selects one of ADMA2 Length Modes either 16-bit or 26-bit." "0,1" newline bitfld.word 0x0 9. "DRIVER_STRENGTH2,This is the programmed Drive STrength output and Bit[2] of the sdhccore_drivestrength value." "0,1" newline bitfld.word 0x0 8. "UHS2_INTF_ENABLE,This bit is used to enable UHS-II Interface. Before trying to start UHS-II initialization this bit shall be set to 1. Before trying to start SD mode initialization this bit shall be set to 0. This bit is used to enable UHS-II IF.." "0,1" newline bitfld.word 0x0 7. "SAMPLING_CLK_SELECT,This bit is set by tuning procedure when Execute Tuning is cleared. Writing 1 to this bit is meaningless and ignored. Setting 1 means that tuning is completed successfully and setting 0 means that tuning is failed. Host Controller.." "0,1" newline bitfld.word 0x0 6. "EXECUTE_TUNING,This bit is set to 1 to start tuning procedure and automatically cleared when tuning procedure is completed. The result of tuning is indicated to Sampling Clock Select. Tuning procedure is aborted by writing 0 for more detail about tuning.." "0,1" newline bitfld.word 0x0 4.--5. "DRIVER_STRENGTH1,Host Controller output driver in 1.8V signaling is selected by this bit. In 3.3V signaling this field is not effective. This field can be set depends on Driver Type A C and D support bits in the Capabilities register. This bit depends.." "0,1,2,3" newline bitfld.word 0x0 3. "V1P8_SIGNAL_ENA,This bit controls voltage regulator for I/O cell. 3.3V is supplied to the card regardless of signaling voltage. Setting this bit from 0 to 1 starts changing signal voltage from 3.3V to 1.8V. 1.8V regulator output shall be stable within.." "?,1: SDR50" newline bitfld.word 0x0 0.--2. "UHS_MODE_SELECT,This field is used to select one of UHS-I modes or UHS-II mode.In case of UHS-I mode this field is effective when 1.8V Signal-ing Enable is set to 1. In case of UHS-II mode 1.8V Signaling Enable shall be set to 0. Setting of this field.." "0,1,2,3,4,5,6,7" rgroup.quad 0x40++0xF line.quad 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_capabilities,This register provides the HD with information specific to the HC implementation. The HC may implement these values as fixed or loaded from flash memory during power on initializa-tion." bitfld.quad 0x0 63. "HS400_SUPPORT,1 HS400 is Supported 0 HS400 is Not Supported" "0,1" newline bitfld.quad 0x0 60. "VDD2_1P8_SUPPORT,This field indicates that support of VDD2 on Host system." "0,1" newline bitfld.quad 0x0 59. "ADMA3_SUPPORT,This field indicates that support of ADMA3 on Host Controller." "0,1" newline bitfld.quad 0x0 57. "SPI_BLK_MODE,This field indicates whether SPI Block Mode is supported or not." "0,1" newline bitfld.quad 0x0 56. "SPI_SUPPORT,This field indicates whether SPI Mode is supported or not." "0,1" newline hexmask.quad.byte 0x0 48.--55. 1. "CLOCK_MULTIPLIER,This field indicates clock multiplier value of programmable clock generator. Refer to Clock Control register. Setting 00h means that Host Controller does not support programmable clock generator. 'FF' Clock Multiplier M = 256.." newline bitfld.quad 0x0 46.--47. "RETUNING_MODES,This field defines the re-tuning capability of a Host Controller and how to manage the data transfer length and a Re-Tuning Timer by the Host Driver. '00' Mode 1 '01' Mode 2 '10' Mode 3 '11' Reserved. There are two.." "0,1,2,3" newline bitfld.quad 0x0 45. "TUNING_FOR_SDR50,If this bit is set to 1 this Host Controller requires tuning to operate SDR50. [Tuning is always required to operate SDR104]. '0' '1'" "0,1" newline hexmask.quad.byte 0x0 40.--43. 1. "RETUNING_TIMER_CNT,This field indicates an initial value of the Re-Tuning Timer for Re-Tuning Mode 1 to 3. 0h - Get information via other source 1h = 1 seconds 2h = 2 seconds 3h = 4 seconds 4h = 8 seconds ------.." newline bitfld.quad 0x0 38. "DRIVERD_SUPPORT,This bit indicates support of Driver Type D for 1.8 Signaling. '0' Driver Type D is Not supported '1' Driver Type D is supported" "0,1" newline bitfld.quad 0x0 37. "DRIVERC_SUPPORT,This bit indicates support of Driver Type C for 1.8 Signaling. '0' Driver Type C is Not supported '1' Driver Type C is supported" "0,1" newline bitfld.quad 0x0 36. "DRIVERA_SUPPORT,This bit indicates support of Driver Type A for 1.8 Signaling. '0' Driver Type A is Not supported '1' Driver Type A is supported" "0,1" newline bitfld.quad 0x0 35. "UHS2_SUPPORT,This bit indicates whether Host controller supports UHS-II. If this bit is set to 1 1.8V VDD2 Support shall be set to 1 [Host Sys- tem shall support VDD2 power supply]. 1 UHS-II is Supported 0 UHS-II is Not Supported" "0,1" newline bitfld.quad 0x0 34. "DDR50_SUPPORT,This bit indicates whether DDR50 is supported or not." "0,1" newline bitfld.quad 0x0 33. "SDR104_SUPPORT,This bit indicates whether SDR104 is supported or not.SDR104 requires tuning." "0,1" newline bitfld.quad 0x0 32. "SDR50_SUPPORT,If SDR104 is supported this bit shall be set to 1. Bit 40 indicates whether SDR50 requires tuning or not." "0,1" newline bitfld.quad 0x0 30.--31. "SLOT_TYPE,This field indicates usage of a slot by a specific Host System. [A host controller register set is defined perslot.] Embedded slot for one device [01b] means that only one non-removable device is connected to a SD bus slot. Shared Bus Slot.." "0,1,2,3" newline bitfld.quad 0x0 29. "ASYNCH_INTR_SUPPORT,Refer to SDIO Specification Version 3.00 about asynchronous interrupt." "0,1" newline bitfld.quad 0x0 28. "ADDR_64BIT_SUPPORT_V3,IMeaning of this bit is different depends on Versions [Refer to Table 2-35 for more details]. Host Controller Version 3.00 and Ver4.10 use this bit as 64-bit System Address support for V3 mode. Host Con- troller Version 4.00 uses.." "0,1" newline bitfld.quad 0x0 27. "ADDR_64BIT_SUPPORT_V4,This bit is added from Version 4.10. Set-ting 1 to this bit indicates that the Host Controller supports 64-bit System Addressing of Version 4 mode [Refer to Table 2-35 for the summary of 64-bit sys-tem address support].. When.." "0,1" newline bitfld.quad 0x0 26. "VOLT_1P8_SUPPORT,This bit indicates whether the HC supports 1.8V." "0,1" newline bitfld.quad 0x0 25. "VOLT_3P0_SUPPORT,This bit indicates whether the HC supports 3.0V." "0,1" newline bitfld.quad 0x0 24. "VOLT_3P3_SUPPORT,This bit indicates whether the HC supports 3.3V." "0,1" newline bitfld.quad 0x0 23. "SUSP_RES_SUPPORT,This bit indicates whether the HC supports Suspend / Resume functionality. If this bit is 0 the Suspend and Resume mechanism are not supported and the HD shall not issue either Suspend / Resume commands." "0,1" newline bitfld.quad 0x0 22. "SDMA_SUPPORT,This bit indicates whether the HC is capable of using DMA to transfer data between system memory and the HC directly.Version 4.10 Host Controller shall support SDMA if ADMA2 is supported." "0,1" newline bitfld.quad 0x0 21. "HIGH_SPEED_SUPPORT,This bit indicates whether the HC and the Host System support High Speed mode and they can supply SD Clock frequency from 25Mhz to 50 Mhz [for SD]/ 20MHz to 52MHz [for MMC]." "0,1" newline bitfld.quad 0x0 19. "ADMA2_SUPPORT,'0' ADMA2 Not Supported '1' ADMA2 Supported" "0,1" newline bitfld.quad 0x0 18. "BUS_8BIT_SUPPORT,This bit indicates whether the Host Controller is capable of using 8-bit bus width mode. This bit is not effective when Slot Type is set to 10b. In this case refer to Bus Width Preset in the Shared Bus resister." "0,1" newline bitfld.quad 0x0 16.--17. "MAX_BLK_LENGTH,This value indicates the maximum block size that the HD can read and write to the buffer in the HC. The buffer shall transfer this block size without wait cycles. Three sizes can be defined as indicated below." "0,1,2,3" newline hexmask.quad.byte 0x0 8.--15. 1. "BASE_CLK_FREQ,[1]6-bit Base Clock Frequency: This mode is supported by the Host Controller Version 1.00 and 2.00. Upper 2-bit is not effective and always 0. Unit values are 1MHz. The supported clock range is 10MHz to 63MHz. '11xx xxxxb' Not.." newline bitfld.quad 0x0 7. "TIMEOUT_CLK_UNIT,This bit shows the unit of base clock frequency used to detect Data Timeout Error." "0,1" newline hexmask.quad.byte 0x0 0.--5. 1. "TIMEOUT_CLK_FREQ,This bit shows the base clock frequency used to detect Data Timeout Error. '000000' Get Information via another method 'not 0' 1KHz to 63KHz/1MHz to 63MHz" line.quad 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_max_current_cap,This register indicates maximum current capability for each voltage" hexmask.quad.byte 0x8 32.--39. 1. "VDD2_1P8V,Maximum Current for 1.8V VDD2" newline hexmask.quad.byte 0x8 16.--23. 1. "VDD1_1P8V,Maximum Current for 1.8V VDD1" newline hexmask.quad.byte 0x8 8.--15. 1. "VDD1_3P0V,Maximum Current for 3.0V VDD1" newline hexmask.quad.byte 0x8 0.--7. 1. "VDD1_3P3V,Maximum Current for 3.3V VDD1" wgroup.word 0x50++0x3 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_force_evnt_ACMD_Err_Sts,This register is not physically implemented. rather it is an address where Auto CMD Error Status register can be written." bitfld.word 0x0 7. "CMD_NOT_ISS,Force Event for Command Not Issued by AUTO CMD12 Error." "0,1" newline bitfld.word 0x0 5. "RESP,Force Event for AUTO CMD Response Error.." "0,1" newline bitfld.word 0x0 4. "INDEX,Force Event for AUTO CMD Index Error.." "0,1" newline bitfld.word 0x0 3. "ENDBIT,Force Event for AUTO CMD End Bit Error." "0,1" newline bitfld.word 0x0 2. "CRC,Force Event for AUTO CMD Timeout Error." "0,1" newline bitfld.word 0x0 1. "TIMEOUT,Force Event for AUTO CMD Timeout Error." "0,1" newline bitfld.word 0x0 0. "ACMD_NOT_EXEC,Force Event for AUTO CMD12 Not Executed." "0,1" line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_force_evnt_Err_Int_Sts,This register is not physically implemented. rather it is an address where Error Interrupt Status register can be written." bitfld.word 0x2 12. "HOST,Force Event for Host Error" "0,1" newline bitfld.word 0x2 11. "RESP,Force Event for Response Error" "0,1" newline bitfld.word 0x2 10. "TUNING,Force Event for Tuning Error." "0,1" newline bitfld.word 0x2 9. "ADMA,Force Event for ADMA Error." "0,1" newline bitfld.word 0x2 8. "AUTO_CMD,Force Event for Auto CMD Error." "0,1" newline bitfld.word 0x2 7. "CURR_LIM,Force Event for Current Limit Error." "0,1" newline bitfld.word 0x2 6. "DAT_ENDBIT,Force Event for Data End Bit Error." "0,1" newline bitfld.word 0x2 5. "DAT_CRC,Force Event for Data CRC Error." "0,1" newline bitfld.word 0x2 4. "DAT_TIMEOUT,Force Event for Data Timeout Error." "0,1" newline bitfld.word 0x2 3. "CMD_INDEX,Force Event for Command Index Error" "0,1" newline bitfld.word 0x2 2. "CMD_ENDBIT,Force Event for Command End Bit Error." "0,1" newline bitfld.word 0x2 1. "CMD_CRC,Force Event for Command CRC Error." "0,1" newline bitfld.word 0x2 0. "CMD_TIMEOUT,Force Event for CMD Timeout Error." "0,1" rgroup.byte 0x54++0x0 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_adma_err_status,When the ADMA Error interrupt occur. this register holds the ADMA State in ADMA Error States field and ADMA System Address holds address around the error descriptor" bitfld.byte 0x0 2. "ADMA_LENGTH_ERR,This error occurs in the following 2 cases. 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. Total data length can not be.." "0,1" newline bitfld.byte 0x0 0.--1. "ADMA_ERR_STATE,This field indicates the state of ADMA when error is occurred during ADMA data transfer. This field never indicates 10 because ADMA never stops in this state. D01 D00 : ADMA Error State when error occurred Contents of SYS_SDR.." "0,1,2,3" group.quad 0x58++0x7 line.quad 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_adma_sys_address,This register contains the physical address used for ADMA data transfer" hexmask.quad 0x0 0.--63. 1. "ADMA_ADDR,The 32-bit addressing Host Driver uses lower 32-bit of this register [upper 32-bit should be set to 0] and shall program Descriptor Table on 32-bit boundary andset 32-bit boundary address to this register. DMA2/3 ignores lower 2-bit of this.." rgroup.word 0x60++0xF line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value0,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x0 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x0 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x0 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value1,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x2 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x2 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x2 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value2,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x4 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x4 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x4 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0x6 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value3,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x6 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x6 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x6 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value4,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x8 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x8 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x8 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0xA "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value5,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0xA 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0xA 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0xA 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0xC "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value6,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0xC 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0xC 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0xC 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0xE "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value7,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0xE 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0xE 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0xE 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." rgroup.word 0x72++0x3 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value8,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x0 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x0 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x0 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value10,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x2 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x2 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x2 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." group.quad 0x78++0x7 line.quad 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_adma3_desc_address,The start address of Integrated DMA Descriptor is set to this register." hexmask.quad 0x0 0.--63. 1. "INTG_DESC_ADDR,The start address of Integrated DMA Descriptor is set to this register. Writing to a specific address starts ADMA3 depends on 32-bit/64-bit address-ing. The ADMA3 fetches one Descriptor Address and increments this field to indicate the.." group.word 0x80++0x1 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_block_size,This register is used to configure the number of bytes in a data block" bitfld.word 0x0 12.--14. "SDMA_BUF_BOUNDARY,When system memory is managed by paging SDMA data transfer is performed in unit of paging. A page size of sys-tem memory management is set to this field. Host Controller generates the DMA Interrupt at the page boundary and.." "0,1,2,3,4,5,6,7" newline hexmask.word 0x0 0.--11. 1. "XFER_BLK_SIZE,This register specifies the block size of data packet. SD Memory Card uses a fixed block size of 512 bytes. Vari-able block size may be used for SDIO. The maximum value is 2048 Bytes because CRC16 covers up to 2048 bytes. This register is.." group.long 0x84++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_block_count,This register is used to configure the number of data blocks" hexmask.long 0x0 0.--31. 1. "XFER_BLK_COUNT,This register is effective when Data Present is set to 1 in UHS-II Command register and is enabled when Block Count Enable is set to 1 and Block / Byte Mode is set to 0 in the UHS-II Transfer Mode register. Data transfer stops when the.." group.byte 0x88++0x0 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_command_pkt,UHS-II Command Packet image is set to this register. The maximum length is 20 bytes. The command length varies depends on a Command Packet type. The length is specified by the UHS-II Command register." hexmask.byte 0x0 0.--7. 1. "CMD_PKT_BYTE,UHS-II Command Packet image is set to this register.The command length varies depends on a Command Packet type." group.word 0x9C++0x3 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_xfer_mode,This register is used to control the operations of data transfers" bitfld.word 0x0 15. "DUPLEX_SELECT,Use of 2 lane half duplex mode is determined by Host Driver." "0,1" newline bitfld.word 0x0 14. "EBSY_WAIT,This bit is set when issuing a command which is accompanied by EBSY packet to indicate end of command execution. Busy is expected for CCMD with R1b/R5b type and DCMD with data transfer.If this bit is set to 1 Host Controller waits receiving of.." "0,1" newline bitfld.word 0x0 8. "RESP_INTR_DIS,Host Controller Version 4.00 supports response error check function to avoid overhead of response error check by Host Driver. Only R1 or R5 can be checked. If Host Driver checks response error sets this bit to 0 and waits Command.." "0,1" newline bitfld.word 0x0 7. "RESP_ERR_CHK_ENA,Host Controller Version 4.00 supports response error check function to avoid overhead of response error check by Host Driver.Only R1 or R5 can be checked. If Host Driver checks response error this bit is set to 0 and Response.." "0,1" newline bitfld.word 0x0 6. "RESP_TYPE,When response error check is enabled this bit selects either R1 or R5 response types. Two types of response checks are supported: R1 for memory and R5 for SDIO. Error Statuses Checked in R1 Bit31 OUT_OF_RANGE.." "0,1" newline bitfld.word 0x0 5. "BYTE_MODE,This bit specifies whether data transfer is in byte mode or block mode when Data Present is set to 1. This bit is effective to a command with data trans-fer." "0,1" newline bitfld.word 0x0 4. "DATA_XFER_DIR,This bit specifies direction of data trans-fer when Data Present is set to 1. This bit is effective to a command with data transfer. 0 - Read [Card to Host] 1 - Write [Host to Card]" "0,1" newline bitfld.word 0x0 1. "BLK_CNT_ENA,This bit specifies whether data transfer usesUHS-II Block Count register. If this bit is set to 1 data transfer is terminated by Block Count. Setting to UHS-II Block Count register shall be equivalent to TLEN in UHS-II Command Packet.." "0,1" newline bitfld.word 0x0 0. "DMA_ENA,This bit selects whether DMA is used or not and is effective to a command with data transfer. One of DMA types is selected by DMA Select in the Host Control 1 register." "0,1" line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_command,This register is used to program the Command for host controller" hexmask.word.byte 0x2 8.--12. 1. "PKT_LENGTH,A command packet length which is set in the UHS-II Command Packet register is set to this register. 00011b - 00000b - 3-0 Bytes [Not used] 00100b - 4 Bytes .......... ...... 10100b - 20 Bytes.." newline bitfld.word 0x2 6.--7. "CMD_TYPE,This field is used to distinguish a spe-cific command like abort command. If this field is set to 00b the UHS-II RES Packet is stored in UHS-II Response register [0B3h-0A0h]. To avoid overwrit-ing the UHS-II Response register when this filed.." "0,1,2,3" newline bitfld.word 0x2 5. "DATA_PRESENT,This bit specifies whether the command is accompanied by data packet." "0,1" newline bitfld.word 0x2 2. "SUB_COMMAND,This bit is added from Version 4.10 to distinguish a main command or sub command [Refer to Section 1.17].When issuing a main command this bit is set to 0 and when issuing a sub com-mand this bit is set to 1. Setting of this bit is checked.." "0,1" rgroup.byte 0xA0++0x0 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_response,This register is used to store received UHS-II RES Packet image" hexmask.byte 0x0 0.--7. 1. "RESP_PKT_BYTE,Host Controller saves received UHS-II RES Packet image to this register except the response of an abort command." group.byte 0xB4++0x0 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_message_select,This register is used to access internal buffer" bitfld.byte 0x0 0.--1. "MSG_SEL,Host Controller holds 4 MSG packets in FIFO buffer.One of 4 MSGs can be read from the UHS-II MSG register [0BB-0B8h] by setting this register.[Assumed for debug usage.] '00' The latest MSG '01' One MSG before '10' Two MSGs.." "0,1,2,3" rgroup.long 0xB8++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_message,This register is used to access internal buffer" hexmask.long.byte 0x0 24.--31. 1. "MSG_BYTE3,Host Controller holds 4 MSG packets in FIFO buffer. One of 4 MSGs [length is 4 bytes] can be read fromthis register by setting UHS-II MSG Select register. Usually 2 duplicate MSG packets are sent from/toUHS-II card. One of these 2 MSG packets.." newline hexmask.long.byte 0x0 16.--23. 1. "MSG_BYTE2,Host Controller holds 4 MSG packets in FIFO buffer. One of 4 MSGs [length is 4 bytes] can be read fromthis register by setting UHS-II MSG Select register. Usually 2 duplicate MSG packets are sent from/toUHS-II card. One of these 2 MSG packets.." newline hexmask.long.byte 0x0 8.--15. 1. "MSG_BYTE1,Host Controller holds 4 MSG packets in FIFO buffer. One of 4 MSGs [length is 4 bytes] can be read fromthis register by setting UHS-II MSG Select register. Usually 2 duplicate MSG packets are sent from/toUHS-II card. One of these 2 MSG packets.." newline hexmask.long.byte 0x0 0.--7. 1. "MSG_BYTE0,Host Controller holds 4 MSG packets in FIFO buffer. One of 4 MSGs [length is 4 bytes] can be read fromthis register by setting UHS-II MSG Select register. Usually 2 duplicate MSG packets are sent from/toUHS-II card. One of these 2 MSG packets.." group.word 0xBC++0x1 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_device_intr_status,This register shows receipt of INT MSG from which device" hexmask.word 0x0 0.--15. 1. "DEV_INT_STS,This register shows receipt of INT MSG from which device and is effective when INT MSG Enable is set to 1 in the UHS- II Device Select register. On receiving INT MSG from a device Host Controller saves the INT MSG to UHS-II Device Interrupt.." group.byte 0xBE++0x0 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_device_select,UHS-II Device Select Register" bitfld.byte 0x0 7. "INT_MSG_ENA,This bit enables receipt of INT MSG. If this bit is set to 1 receipt of INT MSG is informed by Card Interrupt in the Nor-mal Interrupt Status register. If this bit is set to 0 Host Con-troller ignores receipt of INT MSG and may not set the.." "0,1" newline hexmask.byte 0x0 0.--3. 1. "DEV_SEL,Host Controller holds an INT MSG packet per device. One of INT MSGs [up to 15] can be selected by this field and read from the UHS-II Device Interrupt Code Register [0BFh]. This field is effective when INT MSG Enable is set to 1. The.." rgroup.byte 0xBF++0x0 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_device_int_code,This register is effective when INT MSG Enable is set to 1 in the UHS-II Device Select register." hexmask.byte 0x0 0.--7. 1. "DEV_INTR,This register is effective when INT MSG Enable is set to 1 in the UHS-II Device Select register. Host Controller holds an INT MSG packet per device. One of INT MSGs [Code length is 1 byte] up to 15 can be read from this register by.." group.word 0xC0++0x3 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_software_reset,UHS-II Software Reset Register" bitfld.word 0x0 1. "HOST_SDTRAN_RESET,Host Driver set this bit to 1 to reset SD-TRAN layer when CMD0 is issued to Device or data transfer error occurs. This bit is cleared automatically at completionof SD-TRAN reset. If CMD0 is issued SD-TRAN Initial- ization sequence from.." "0,1" newline bitfld.word 0x0 0. "HOST_FULL_RESET,On issuing FULL_RESET CCMD Host Driver set this bit to 1 to reset Host Controller. This bit is cleared auto-matically at completion of Host Controller reset. Initial- ization sequence from PHY Initialization is required to use UHS-II.." "0,1" line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_timer_control,UHS-II Timeout Control Register" hexmask.word.byte 0x2 4.--7. 1. "DEADLOCK_TIMEOUT_CTR,This value determines the deadlock period while host expecting to receive a packet [1 second]. Tim-eout clock frequency will be generated by dividing the base clock TMCLK value by this value. When setting this register prevent.." newline hexmask.word.byte 0x2 0.--3. 1. "CMDRESP_TIMEOUT_CTR,This value determines the interval between com-mand packet and response packet [5ms]. Timeout clock frequency will be generated by dividing the base clock TMCLK value by this value. When set-ting this register prevent inadvertent.." group.long 0xC4++0xB line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_err_intr_sts,This register gives the status of all UHS-II interrupts" hexmask.long.byte 0x0 27.--31. 1. "VENDOR_SPECFIC_ERR,Vendor may use this field for vendor specific error status. '0' Interrupt is not generated '1' Vendor Specific Error" newline bitfld.long 0x0 17. "DEADLOCK_TIMEOUT,Setting of this bit means that deadlock timeout occurs. Host expects to receive a packet but not received in a specified timeout [1 second]. Timeout value is determined by the setting of Timeout Counter Value for Deadlock in UHS-II Timer.." "0,1" newline bitfld.long 0x0 16. "CMD_RESP_TIMEOUT,Setting of this bit means that RES Packet timeout occurs. Host expects to receive RES packet but not received in a specified timeout [5ms]. Timeout value is determined by the setting of Timeout Counter Value for CMD_RES in UHS-II Timer.." "0,1" newline bitfld.long 0x0 15. "ADMA2_ADMA3,Setting of this bit means that ADMA2/3 Error occurs in UHS-II mode. ADMA2/3 Error Status is indicated to the ADMA Error Status [054h] which is defined in the Host spec 3.00." "0,1" newline bitfld.long 0x0 8. "EBSY,On receiving EBSY packet if the packet indicates an error this bit is set to 1. Setting of this bit also sets Error Interrupt and Transfer Completer together in the Normal Interrupt Status register. This error check is effective for a command with.." "0,1" newline bitfld.long 0x0 7. "UNRECOVERABLE,Setting of this bit means that Unrecoverable Error is set in a packet from a device." "0,1" newline bitfld.long 0x0 5. "TID,Setting of this bit means that TID Error occurs." "0,1" newline bitfld.long 0x0 4. "FRAMING,Setting of this bit means that Framing Error occurs during a packet receiving." "0,1" newline bitfld.long 0x0 3. "CRC,Setting of this bit means that CRC Error occurs during a packet receiving." "0,1" newline bitfld.long 0x0 2. "RETRY_EXPIRED,Setting of this bit means that Retry Counter Expired Error occurs during data transfer.If this bit is set either Framing Error or CRC Error in this register shall be set." "0,1" newline bitfld.long 0x0 1. "RESP_PKT,Host Controller Version 4.00 supports response error check function to avoid overhead of response error check by Host Driver during DMA execution. If Response Error Check Enable is set to1 in the UHS- II Transfer Mode register Host Controller.." "0,1" newline bitfld.long 0x0 0. "HEADER,Setting of this bit means that Header Error occurs in a received packet." "0,1" line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_err_intr_sts_ena,This register is used to enable the UHS-II Error Interrupt Status register fields" hexmask.long.byte 0x4 27.--31. 1. "VENDOR_SPECFIC,Setting this bit to 1 enables setting of Vendor Specific Error bit in the UHS-II Error Interrupt Status register. 0h - Status is Disabled 1h - Status is Enabled" newline bitfld.long 0x4 17. "DEADLOCK_TIMEOUT,Setting this bit to 1 enables setting of Timeout for Dead lock bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 16. "CMD_RESP_TIMEOUT,Setting this bit to 1 enables setting of Timeout for CMD_RES bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 15. "ADMA2_ADMA3,Setting this bit to 1 enables setting of ADMA2/3 Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 8. "EBSY,Setting this bit to 1 enables setting of EBSY Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 7. "UNRECOVERABLE,Setting this bit to 1 enables setting of Unrecoverable Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 5. "TID,Setting this bit to 1 enables setting of TID Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 4. "FRAMING,Setting this bit to 1 enables setting of Framing Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 3. "CRC,Setting this bit to 1 enables setting of CRC Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 2. "RETRY_EXPIRED,Setting this bit to 1 enables setting of Retry Expired bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 1. "RESP_PKT,Setting this bit to 1 enables setting of RES Packet Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 0. "HEADER,Setting this bit to 1 enables setting of Header Error bit in the UHS-II Error Interrupt Status Register." "0,1" line.long 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_err_intr_sig_ena,This register is used to generate UHS-II Interrupt signals" hexmask.long.byte 0x8 27.--31. 1. "VENDOR_SPECFIC,Setting of a bit to 1 in this field enables generating interrupt signal when corre-spondent bit of Vendor Specific Error is set in the UHS-II Error Interrupt Status Register. 0h - Interrupt Signal is Disabled 1h -.." newline bitfld.long 0x8 17. "DEADLOCK_TIMEOUT,Setting this bit to 1 enables generating interrupt signal when Timeout for Dead lock bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 16. "CMD_RESP_TIMEOUT,Setting this bit to 1 enables generating interrupt signal when Timeout for CMD_RES bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 15. "ADMA2_ADMA3,Setting this bit to 1 enables generating interrupt signal when ADMA2/3 Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 8. "EBSY,Setting this bit to 1 enables generating interrupt signal when EBSY Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 7. "UNRECOVERABLE,Setting this bit to 1 enables generating interrupt signal when Unrecoverable Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 5. "TID,Setting this bit to 1 enables generating interrupt signal when TID Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 4. "FRAMING,Setting this bit to 1 enables generating interrupt signal when Framing Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 3. "CRC,Setting this bit to 1 enables generating interrupt signal when CRC Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 2. "RETRY_EXPIRED_SIG_ENA,Setting this bit to 1 enables generating interrupt signal when Retry Expired bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 1. "RESP_PKT,Setting this bit to 1 enables generating interrupt signal when RES Packet Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 0. "HEADER,Setting this bit to 1 enables generating interrupt signal when Header Error bit is set in the UHS-II Error Interrupt Status Register." "0,1" rgroup.word 0xE0++0x9 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_settings_ptr,This register is pointer for UHS-II settings." hexmask.word 0x0 0.--15. 1. "UHS2_SETTINGS_PTR,Pointer for UHS-II Settings Register" line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_capabilities_ptr,This register is pointer for UHS-II Capabilities Register." hexmask.word 0x2 0.--15. 1. "UHS2_CAPABILITIES_PTR,Pointer for UHS-II Capabilities Register" line.word 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_test_ptr,This register is pointer for UHS-II Test Register." hexmask.word 0x4 0.--15. 1. "UHS2_TEST_PTR,Pointer for UHS-II Test Register" line.word 0x6 "SDHC_WRAP__CTL_CFG__CTLCFG_shared_bus_ctrl_ptr,This register is pointer for UHS-II Shared Bus Control Register." hexmask.word 0x6 0.--15. 1. "SHARED_BUS_CTRL_PTR,Pointer for Shared Bus Control Register" line.word 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_vendor_specfic_ptr,This register is pointer for UHS-II Vendor Specific Pointer Register." hexmask.word 0x8 0.--15. 1. "VENDOR_SPECFIC_PTR,Pointer for Vendor Specific Area" group.long 0xF4++0x7 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_boot_timeout_control,This is used to program the boot timeout value counter" hexmask.long 0x0 0.--31. 1. "DATA_TIMEOUT_CNT,This value determines the interval by which DAT line time-outs are detected during boot operation for eMMC4.4 card.The value is in number of sd clock." line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_vendor_register,Vendor register added for autogate sdclk. cmd11 power down timer. enhancedstrobe and eMMC hardware reset" bitfld.long 0x4 16. "AUTOGATE_SDCLK,If this bit is set SD CLK will be gated automatically when there is no transfer. This is applicable only for Embedded Device" "0,1" newline hexmask.long.word 0x4 2.--15. 1. "CMD11_PD_TIMER,cmd11 power-down timer value" newline bitfld.long 0x4 1. "EMMC_HW_RESET,Hardware reset signal is generared for eMMC card when this bit is set" "0,1" newline bitfld.long 0x4 0. "ENHANCED_STROBE,This bit enables the enhanced strobe logic of the Host Controller" "0,1" rgroup.word 0xFC++0x3 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_slot_int_sts,This register is used to read the interrupt signal for each slot." hexmask.word.byte 0x0 0.--7. 1. "INTR_SIG,These status bits indicate the logical OR of Interrupt signal and Wakeup signal for each slot." line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_host_controller_ver,This register is used to read the vendor version number and specification version number" hexmask.word.byte 0x2 8.--15. 1. "VEN_VER_NUM,The Vendor Version Number is set to 0x10 [1.0]" newline hexmask.word.byte 0x2 0.--7. 1. "SPEC_VER_NUM,This status indicates the Host Controller Spec. Version. The upper and lower 4-bits indicate the version. 00h - SD Host Controller Specification Version 1.00 01h - SD Host Controller Specification Version 2.00 Including the.." group.long 0x100++0x7 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_gen_settings,Start Address of General settings is pointed by Pointer for UHS-II Setting Register." hexmask.long.byte 0x0 8.--13. 1. "NUMLANES,The lane configuration of a Host System is set to this field depends on the capability among Host Controller and connected devices. 2 Lanes FD mode is mandatory and the others modes are optional. 0000b - 2 Lanes FD or 2L-HD 0001b -.." newline bitfld.long 0x0 0. "POWER_MODE,This field determines either Fast mode or Low Power mode.Host and all devices connected to the host shall be set to the same mode." "0,1" line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_phy_settings,Start Address of PHY settings is pointed by Pointer for UHS-II Setting Register." hexmask.long.byte 0x4 20.--23. 1. "N_LSS_DIR,The largest value of N_LSS_DIR capabilities among the Host Controller and Connected Devices is set to this field. 0h - 8 x16 LSS 1h - 8 x 1 LSS 2h - 8 x 2 LSS 3h - 8 x 3 LSS ...... ......" newline hexmask.long.byte 0x4 16.--19. 1. "N_LSS_SYN,The largest value of N_LSS_SYN capabilities among the Host Controller and Connected Devices is set to this field. 0h - 4 x16 LSS 1h - 4 x 1 LSS 2h - 4 x 2 LSS 3h - 4 x 3 LSS ...... ......" newline bitfld.long 0x4 15. "HIBERNATE_ENA,After checking card capability of Hibernate mode if all devices support Hibernate mode this bit may be set. This bit determines whether Host remains in Dormant state or goes to Hibernate state. In Hibernate mode VDD1 Power may be off." "0,1" newline bitfld.long 0x4 6.--7. "SPEED_RANGE,PLL multiplier is selected by this field.Change of PLL Multiplier is not effective immediately and is applied from exiting Dormant State. '00' Range A [Default] '01' Range B '10' Reserved '11' Reserved" "0,1,2,3" group.quad 0x108++0x7 line.quad 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_lnk_trn_settings,Start Address of LINK/TRAN settings is pointed by Pointer for UHS-II Setting Register." hexmask.quad.byte 0x0 32.--39. 1. "N_DATA_GAP,The largest value of N_DATA_GAP capabilities among the Host Controller and Connected Devices is set to this field. 00h - No Gap 01h - 1 LSS 02h - 2 LSS 03h - 3 LSS ...... ...... FFh - 255.." newline bitfld.quad 0x0 16.--17. "RETRY_COUNT,Data Burst retry count is set to this field. '00' Retry Disabled '01' 1 time '10' 2 times '11' 3 times" "0,1,2,3" newline hexmask.quad.byte 0x0 8.--15. 1. "HOST_NFCU,Host Driver sets the number of blocks in Data Burst [Flow Control] to this field.The value shall be smaller than or equal to N_FCU capabilities among the Host Controller and connected card and devices. Setting 1 to 4 blocks is recommended.." rgroup.long 0x110++0x7 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_gen_cap,Start Address of General Capabilities is pointed by Pointer for UHS-II Host Capabilities Register." bitfld.long 0x0 22.--23. "CORECFG_UHS2_BUS_TOPLOGY,This field indicates one of bus topologies configured by a Host system. '00' P2P Connection '01' Ring Connection '10' HUB Connection '11' HUB is connected in Ring" "0,1,2,3" newline hexmask.long.byte 0x0 18.--21. 1. "CORECFG_UHS2_MAX_DEVICES,This field indicates the maximum number of devices supported by the Host Controller. 0h - Not used 1h - 1 Devices 2h - 2 Devices ..... ....... Fh - 15 Devices" newline bitfld.long 0x0 16.--17. "DEVICE_TYPE,This field indicates device type configured by a Host system. '00' Removable Card[P2P] '01' Embedded Devices '10' Embedded Devices+Removable Card '11' Reserved" "0,1,2,3" newline bitfld.long 0x0 14. "CFG_64BIT_ADDRESSING,This field indicates support of 64-bit addressing by the Host Controller. '0' 32-bit Addressing is supported '1' 32-bit and 64-bit Addressing is supported" "0,1" newline hexmask.long.byte 0x0 8.--13. 1. "NUM_LANES,This field indicates support of lanes by the Host Controller.0 mean not supported and 1 means supported. D08 - 2L-HD D09 - 2D1U-FD D10 - 1D2U-FD D11 - 2D2U-FD D12 - Reserved D13 - Reserved" newline hexmask.long.byte 0x0 4.--7. 1. "GAP,This field indicates the maximum capability of host power supply for a group configured by a Host system.This field is used to set the argument of DEVICE_INIT CCMD 0h -Not used 1h - 360 mW 2h - 720 mW ....." newline hexmask.long.byte 0x0 0.--3. 1. "DAP,This field indicates the maximum capability of host power supply for a device configured by a Host system.This field is used to set the argument of DEVICE_INIT CCMD 0h -360 mW [Default] 1h - 360 mW 2h - 720 mW.." line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_phy_cap,Start Address of PHY Capabilities is pointed by Pointer for UHS-II Host Capabilities Register." hexmask.long.byte 0x4 20.--23. 1. "N_LSS_DIR,This field indicates the minimum N_LSS_DIR required by the Host Controller. 0h - 4 x16 LSS 1h - 4 x 1 LSS 2h - 4 x 2 LSS 3h - 4 x 3 LSS ...... ...... Fh - 4 x 15 LSS" newline hexmask.long.byte 0x4 16.--19. 1. "N_LSS_SYN,This field indicates the minimum N_LSS_SYN required by the Host Controller. 0h - 4 x16 LSS 1h - 4 x 1 LSS 2h - 4 x 2 LSS 3h - 4 x 3 LSS ...... ...... Fh - 4 x 15 LSS" newline bitfld.long 0x4 6.--7. "SPEED_RANGE,This field indicates supported Speed Range by the Host Controller '00' Range A [Default] '01' Range A and Range B '10' Reserved '11' Reserved" "0,1,2,3" rgroup.quad 0x118++0x7 line.quad 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_lnk_trn_cap,Start Address of LINK/TRAN settings is pointed by Pointer for UHS-II Capabilities Register." hexmask.quad.byte 0x0 32.--39. 1. "N_DATA_GAP,This field indicates the minimum number of data gap[DIDL] supported by the Host Controller. 00h - No Gap 01h - 1 LSS 02h - 2 LSS 03h - 3 LSS ...... ...... FFh - 255 LSS" newline hexmask.quad.word 0x0 20.--31. 1. "MAX_BLK_LENGTH,This field indicates maximum block length by the Host Controller. 000h - Not Used 001h - 1 byte 002h - 2 bytes ...... ...... 200h - 512 bytes ...... ......" newline hexmask.quad.byte 0x0 8.--15. 1. "N_FCU,This field indicates maximum the number of blocks in a Flow Control unit by the Host Controller.This value is determined by supported buffer size. 00h - 256 Blocks 01h - 1 Block 02h - 2 Block 03h - 3 Block.." wgroup.long 0x120++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_force_UHSII_Err_Int_Sts,This register is not physically implemented. rather it is an address where UHS-II Error Interrupt Status register can be written." hexmask.long.byte 0x0 27.--31. 1. "VENDOR_SPECIFIC,Force Event for Vendor Specific Error 0h - Not Affected 1h - Vendor Specific Error Status is set" newline bitfld.long 0x0 17. "TIMEOUT_DEADLOCK,Setting this bit forces the Host Controller to set Timeout for Deadlock in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 16. "TIMEOUT_CMD_RES,Setting this bit forces the Host Controller to set Timeout for CMD_RES in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 15. "ADMA,Setting this bit forces the Host Controller to set ADMA Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 8. "EBSY,Setting this bit forces the Host Controller to set EBSY Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 7. "UNRECOVERABLE,Setting this bit forces the Host Controller to set Unrecover-able Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 5. "TID,Setting this bit forces the Host Controller to set TID Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 4. "FRAMING,Setting this bit forces the Host Controller to set Framing Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 3. "CRC,Setting this bit forces the Host Controller to set CRC Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 2. "RETRY_EXPIRED,Setting this bit forces the Host Controller to set Retry Expired in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 1. "RES_PKT,Setting this bit forces the Host Controller to set RES Packet Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 0. "HEADER,Setting this bit forces the Host Controller to set Header Error in the UHS-II Error Interrupt Status register." "0,1" rgroup.long 0x200++0x7 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_version,This register provides information about the version of the eMMC CQ standard which is 285 implemented by the CQE. in BCD format. The current version is rev 5.1" hexmask.long.byte 0x0 8.--11. 1. "EMMC_MAJOR_VER_NUM,eMMC Major Version Number [digit left of decimal point] in BCD format" newline hexmask.long.byte 0x0 4.--7. 1. "EMMC_MINOR_VER_NUM,eMMC Minor Version Number [digit right of decimal point] in BCD format" newline hexmask.long.byte 0x0 0.--3. 1. "EMMC_VERSION_SUFFIX,eMMC Version Suffix [2nd digit right of decimal point] in BCD format" line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_capabilities,This register is reserved for capability indication." hexmask.long.byte 0x4 12.--15. 1. "CF_MUL,Internal Timer Clock Frequency Multiplier [ITCFMUL] ITCFMUL and ITCFVAL indicate the frequency of the clock used for interrupt coalescing timer and for deter-mining the SQS polling period. See ITCFVAL definition for details." newline hexmask.long.word 0x4 0.--9. 1. "CF_VAL,Internal Timer Clock Frequency Value [ITCFVAL] TCFMUL and ITCFVAL indicate the frequency of the clock used for interrupt coalescing timer and for deter-mining the polling period when using periodic SEND_QUEUE_ STATUS [CMD13] polling." group.long 0x208++0x27 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_config,This register controls CQE behavior affecting the general operation of command queueing 290 module or operation of multiple tasks in the same time." bitfld.long 0x0 12. "DCMD_ENA,Direct Command [DCMD] Enable This bit indicates to the hardware whether the Task Descriptor in slot #31 of the TDL is a Data Transfer Task Descriptor or a Direct Command Task Descriptor. CQE uses this bit when a task is issued in slot.." "0: Task descriptor in slot #31 is a Data Transfer..,1: Task descriptor in slot #31 is a DCMD Task.." newline bitfld.long 0x0 8. "TASK_DESC_SIZE,Task Descriptor Size This bit indicates whether the task descriptor size is 128 bits or 64 bits as detailed in Data Structures section. This bit can only be configured when Command Queueing Enable bit is 0 [command queueing is.." "0: Task descriptor size is 64 bits,1: Task descriptor size is 128 bits" newline bitfld.long 0x0 0. "CQ_ENABLE,Command Queueing Enable Software shall write 1 this bit when in order to enable command queueing mode [i.e. enable CQE]. When this bit is 0 CQE is disabled and software controls the eMMC bus using the legacy eMMC host controller." "0,1" line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_control,This register controls CQE behavior affecting the general operation of command queueing 293 module or operation of multiple tasks in the same time." bitfld.long 0x4 8. "CLEAR_ALL_TASKS,Clear All Tasks Software shall write 1 this bit when it wants to clear all the tasks sent to the device. This bit can only be written when CQE is in halt state [i.e.Halt bit is 1]. When software writes 1 the value of the.." "0,1" newline bitfld.long 0x4 0. "HALT_BIT,Halt Host software shall write 1 to the bit when it wants to acquire software control over the eMMC bus and disable CQE from issuing commands on the bus. For example issuing a Discard Task command [CMDQ_TASK_MGMT] When software writes 1 .." "0,1" line.long 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_intr_sts,This register indicates pending interrupts that require service. Each bit in this registers is asserted 296 in response a specific event. only if the respective bit is set in CQ ISTE register." bitfld.long 0x8 4. "TASK_ERROR,Task Error Interrupt [TERR] This bit is asserted when task error is detected due to invalid task descriptor" "0,1" newline bitfld.long 0x8 3. "TASK_CLEARED,Task Cleared [TCL] This status bit is asserted [if CQISTE.TCL=1] when a task clear operation is completed by CQE. The com-pleted task clear operation is either an individual task clear [CQTCLR] or clearing of all tasks [CQCTL]." "0,1" newline bitfld.long 0x8 2. "RESP_ERR_DET,Response Error Detected Interrupt [RED] This status bit is asserted [if CQISTE.RED=1] when a response is received with an error bit set in the device status field. The contents of the device status field are listed in Section.." "0,1" newline bitfld.long 0x8 1. "TASK_COMPLETE,Task Complete Interrupt [TCC] This status bit is asserted [if CQISTE.TCC=1] when atleast one of the following two conditions are met: [1] A task is completed and the INT bit is set in its Task Descriptor [2] Interrupt caused by.." "0,1" newline bitfld.long 0x8 0. "HALT_COMPLETE,Halt Complete Interrupt [HAC] This status bit is asserted [if CQISTE.HAC=1] when halt bit in CQCTL register transitions from 0 to 1 indicating that host controller has completed its current ongoing task and has entered halt state." "0,1" line.long 0xC "SDHC_WRAP__CTL_CFG__CTLCFG_cq_intr_sts_ena,This register enables and disables the reporting of the corresponding interrupt to host soft-ware in 299 CQIS register. When a bit is set ( 1 ) and the corresponding interrupt c -ondition is active. then.." bitfld.long 0xC 4. "TASK_ERROR,Task Error Interrupt Status Enable 1 = CQIS.TERR will be set when its interrupt condition is active 0 = CQIS.TERR is disabled" "0: CQIS,1: CQIS" newline bitfld.long 0xC 3. "TASK_CLEARED,Task Cleared Status Enable [TCL] 1 = CQIS.TCL will be set when its interrupt condition is active 0 = CQIS.TCL is disabled" "0: CQIS,1: CQIS" newline bitfld.long 0xC 2. "RESP_ERR_DET,Response Error Detected Status Enable [RED] 1 = CQIS.RED will be set when its interrupt condition is active 0 = CQIS.RED is disabled" "0: CQIS,1: CQIS" newline bitfld.long 0xC 1. "TASK_COMPLETE,Task Complete Status Enable [TCC] 1 = CQIS.TCC will be set when its interrupt condition is active 0 = CQIS.TCC is disabled" "0: CQIS,1: CQIS" newline bitfld.long 0xC 0. "HALT_COMPLETE,Halt Complete Status Enable [HAC] 1 = CQIS.HAC will be set when its interrupt condition is active 0 = CQIS.HAC is disabled" "0: CQIS,1: CQIS" line.long 0x10 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_intr_sig_ena,This register enables and disables the generation of interrupts to host software. When a bit is set 304 ( 1 ) and the corresponding bit in CQIS is set. then an interrupt is gene -rated. Interrupt sources.." bitfld.long 0x10 4. "TASK_ERROR,Task Error Interrupt Signal Enable [TERR] When set and CQIS.TERR is asserted the CQE shall generate an interrupt" "0,1" newline bitfld.long 0x10 3. "TASK_CLEARED,Task Cleared Signal Enable [TCL] When set and CQIS.TCL is asserted the CQE shall generate an interrupt" "0,1" newline bitfld.long 0x10 2. "RESP_ERR_DET,Response Error Detected Signal Enable [TCC] When set and CQIS.RED is asserted the CQE shall generate an interrupt" "0,1" newline bitfld.long 0x10 1. "TASK_COMPLETE,Task Complete Signal Enable [TCC] When set and CQIS.TCC is asserted the CQE shall generate an interrupt" "0,1" newline bitfld.long 0x10 0. "HALT_COMPLETE,Halt Complete Signal Enable [HAC] When set and CQIS.HAC is asserted the CQE shall generate an interrupt" "0,1" line.long 0x14 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_intr_coalescing,This register controls the interrupt coalescing feature." bitfld.long 0x14 31. "CQINTCOALESC_ENABLE,When set to 0 by software command responses are neither counted nor timed. Interrupts are still triggered by completion of tasks with INT=1 in the Task Descriptor. When set to 1 the interrupt coalescing mechanism is enabled.." "0,1" newline rbitfld.long 0x14 20. "IC_STATUS,This bit indicates to software whether any tasks [with INT=0] have completed and counted towards interrupt coalescing [i.e. ICSB is set if and only if IC counter > 0]. Bit Value Description 1 = At least one task completion has been.." "0: No task completions have occurred since last..,1: At least one task completion has been counted.." newline hexmask.long.byte 0x14 8.--12. 1. "CTR_THRESHOLD,Interrupt Coalescing Counter Threshold [ICCTH]: Software uses this field to configure the number of task completions [only tasks with INT=0 in the Task Descriptor] which are required in order to generate an interrupt. Counter.." newline hexmask.long.byte 0x14 0.--6. 1. "TIMEOUT_VAL,Interrupt Coalescing Timeout Value [ICTOVAL]: Software uses this field to configure the maximum time allowed between the completion of a task on the bus and the generation of an interrupt. Timer Operation: The timer is reset by.." line.long 0x18 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_tdl_base_addr,This register is used for configuring the lower 32 bits of the byte address of the head of the Task 312 Descriptor List in the host memory." hexmask.long 0x18 0.--31. 1. "CQTDLBA_LO,Task Descriptor List Base Address [TDLBA] This register stores the LSB bits [bits 31:0] of the byte address of the head of the Task Descriptor List in system memory. The size of the task descriptor list is 32 * [Task Descrip-tor.." line.long 0x1C "SDHC_WRAP__CTL_CFG__CTLCFG_cq_tdl_base_addr_upbits,This register is used for configuring the upper 32 bits of the byte address of the head of the Task 316 Descriptor List in the host memory." hexmask.long 0x1C 0.--31. 1. "CQTDLBA_HI,Task Descriptor List Base Address [TDLBA] This register stores the MSB bits [bits 63:32] of the byte address of the head of the Task Descriptor List in system memory. The size of the task descriptor list is 32 * [Task Descrip-tor.." line.long 0x20 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_task_door_bell,Using this register. software triggers CQE to process a new task." hexmask.long 0x20 0.--31. 1. "CQTDB_VAL,Command Queueing Task Doorbell Software shall configure TDLBA and TDLBAU and enable CQE in CQCFG before using this register. Writing 1 to bit n of this register triggers CQE to start pro-cessing the task encoded in slot n of the TDL." line.long 0x24 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_task_comp_notif,This register is used by CQE to notify software about completed tasks." hexmask.long 0x24 0.--31. 1. "CQTCN_VAL,CQE shall set bit n of this register [at the same time it clears bit n of CQTDBR] when a task execution is com-pleted [with success or error]. When receiving interrupt for task completion software may read this register to know which tasks.." rgroup.long 0x230++0x7 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_dev_queue_status,This register stores the most recent value of the device s queue status." hexmask.long 0x0 0.--31. 1. "CQDQ_STS,Every time the Host controller receives a queue status register [QSR] from the device it updates this register with the response of status command i.e. the devices queue status." line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_dev_pending_tasks,This register indicates to software which tasks are queued in the device. awaiting execution." hexmask.long 0x4 0.--31. 1. "CQDP_TSKS,Bit n of this register is set if and only if QUEUED_TASK_PARAMS [CMD44] and QUEUED_TASK_ADDRESS [CMD45] were sent for this specific task and if this task hasnt been executed yet.CQE shall set this bit after receiving a successful response for.." group.long 0x238++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_task_clear,This register is used for removing an outstanding task in the CQE. 327. The register should be used only when CQE is in Halt state." hexmask.long 0x0 0.--31. 1. "CQTCLR,Writing 1 to bit n of this register orders CQE to clear a task which software has previously issued.This bit can only be written when CQE is in Halt state as indicated in CQCFG register Halt bit.When software writes 1 to a bit in this.." group.long 0x240++0x7 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_send_sts_config1,The register controls the when SEND_QUEUE_STATUS commands are sent." hexmask.long.byte 0x0 16.--19. 1. "CMD_BLK_CNTR,This field indicates to CQE when to send SEND_QUEUE_STATUS [CMD13] command to inquire the status of the devices task queue.A value of n means CQE shall send status command on the CMD line during the transfer of data block BLOCK_CNT-n on.." newline hexmask.long.word 0x0 0.--15. 1. "CMD_IDLE_TIMER,This field indicates to CQE the polling period to use when using periodic SEND_QUEUE_STATUS [CMD13] polling.Periodic polling is used when tasks are pending in the device but no data transfer is in progress. When a SEND_QUEUE_STATUS.." line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_send_sts_config2,This register is used for 333 configuring RCA field in SEND_QUEUE_STATUS command argu-ment." hexmask.long.word 0x4 0.--15. 1. "QUEUE_RCA,This field provides CQE with the contents of the 16-bit RCA field in SEND_QUEUE_ STATUS [CMD13] com-mand. argument. CQE shall copy this field to bits 31:16 of the argument when transmitting SEND_ QUEUE_STATUS [CMD13] command." rgroup.long 0x248++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_dcmd_response,This register is used for passing the response of a DCMD task to software." hexmask.long 0x0 0.--31. 1. "LAST_RESP,This register contains the response of the command generated by the last direct-command [DCMD] task which was sent.CQE shall update this register when it receives the response for a DCMD task. This register is considered valid only after bit 31.." group.long 0x250++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_resp_err_mask,This register controls the generation of Response Error Detection (RED) interrupt." hexmask.long 0x0 0.--31. 1. "CQRMEM,This bit is used as in interrupt mask on the device status filed which is received in R1/R1b responses.Bit Value Description [for any bit i]:1 = When a R1/R1b response is received with bit i in the device status set a RED interrupt is generated.." rgroup.long 0x254++0xF line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_task_err_info,This register is updated by CQE when an error occurs on data or command related to a task activity." bitfld.long 0x0 31. "DATERR_VALID,Data Transfer Error Fields Valid This bit is updated when an error is detected by CQE or indicated by eMMC controller. If a data transfer is in progress when the error is detected/indicated the bit is set to 1. If a no.." "0,1" newline hexmask.long.byte 0x0 24.--28. 1. "DATERR_TASK_ID,Data Transfer Error Task ID This field indicates the ID of the task which was executed on the data lines when an error occurred. The field is updated if a data transfer is in progress when an error is detected by CQE or.." newline hexmask.long.byte 0x0 16.--21. 1. "DATERR_CMD_INDEX,Data Transfer Error Command Index This field indicates the index of the command which was executed on the data lines when an error occurred. The index shall be set to EXECUTE_READ_TASK[CMD46] or EXECUTE_WRITE_TASK [CMD47].." newline bitfld.long 0x0 15. "RESP_MODE_VALID,Response Mode Error Fields Valid This bit is updated when an error is detected by CQE or indicated by eMMC controller. If a command transaction is in progress when the error is detected/indicated the bit is set to 1." "0,1" newline hexmask.long.byte 0x0 8.--12. 1. "RESP_MODE_TASK_ID,Response Mode Error Task ID This field indicates the ID of the task which was executed on the command line when an error occurred. The field is updated if a command transaction is in progress when an error is detected by.." newline hexmask.long.byte 0x0 0.--5. 1. "RESP_MODE_CMD_INDEX,Response Mode Error Command Index This field indicates the index of the command which was executed on the command line when an error occurred. The field is updated if a command transaction is in progress when an error is.." line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_cmd_resp_index,This register stores the index of the last received command response." hexmask.long.byte 0x4 0.--5. 1. "LAST_CRI,This field stores the index of the last received command response. CQE shall update the value every time a com-mand response is received." line.long 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_cmd_resp_arg,This register stores the index of the last received command response." hexmask.long 0x8 0.--31. 1. "LAST_CRA,This field stores the argument of the last received com-mand. CQE shall update the value every time a com-mand response is received." line.long 0xC "SDHC_WRAP__CTL_CFG__CTLCFG_cq_error_task_id,CQ Error Task ID Register" hexmask.long.byte 0xC 0.--4. 1. "TERR_ID,Task Error ID" tree.end base ad:0x0 tree "MMCSD0_ECC_AGGR" tree "MMCSD0_ECC_AGGR_RXMEM (MMCSD0_ECC_AGGR_RXMEM)" base ad:0x706000 rgroup.long 0x0++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_RXMEM__CFG__REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "RXMEM_PEND,Interrupt Pending Status for rxmem_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "RXMEM_ENABLE_SET,Interrupt Enable Set Register for rxmem_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "RXMEM_ENABLE_CLR,Interrupt Enable Clear Register for rxmem_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_RXMEM__CFG__REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "RXMEM_PEND,Interrupt Pending Status for rxmem_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "RXMEM_ENABLE_SET,Interrupt Enable Set Register for rxmem_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "RXMEM_ENABLE_CLR,Interrupt Enable Clear Register for rxmem_pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECC_AGGR_RXMEM__CFG__REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECC_AGGR_RXMEM__CFG__REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECC_AGGR_RXMEM__CFG__REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "MMCSD0_ECC_AGGR_TXMEM (MMCSD0_ECC_AGGR_TXMEM)" base ad:0x707000 rgroup.long 0x0++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_TXMEM__CFG__REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "TXMEM_PEND,Interrupt Pending Status for txmem_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "TXMEM_ENABLE_SET,Interrupt Enable Set Register for txmem_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "TXMEM_ENABLE_CLR,Interrupt Enable Clear Register for txmem_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_TXMEM__CFG__REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "TXMEM_PEND,Interrupt Pending Status for txmem_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "TXMEM_ENABLE_SET,Interrupt Enable Set Register for txmem_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "TXMEM_ENABLE_CLR,Interrupt Enable Clear Register for txmem_pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECC_AGGR_TXMEM__CFG__REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECC_AGGR_TXMEM__CFG__REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECC_AGGR_TXMEM__CFG__REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree.end tree "MMCSD0_SS_CFG (MMCSD0_SS_CFG)" base ad:0xFA18000 rgroup.long 0x0++0x3 line.long 0x0 "REGS__SS_CFG__SSCFG_SS_ID_REV_REG,The Subsystem ID and Revision Register contains the module ID. major. and minor revisions for the subsystem" hexmask.long.word 0x0 16.--31. 1. "MOD_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,RTL version" newline bitfld.long 0x0 8.--10. "MAJ_REV,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MIN_REV,Minor revision" group.long 0x10++0x37 line.long 0x0 "REGS__SS_CFG__SSCFG_CTL_CFG_1_REG,The Controller Config 1 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.byte 0x0 24.--29. 1. "TUNINGCOUNT,Configures the Number of Taps (Phases) of the RX clock that is supported. The Tuning State machine uses this information to select one of the Taps (Phases) of the RX clock during the Tuning Procedure." bitfld.long 0x0 20. "ASYNCWKUPENA,Determines the Wakeup Signal Generation Mode. 0: Synchronous Wakeup Mode: The xin_clk has to be running for this mode. The Card Insertion/Removal/Interrupt events are detected synchronously on the xin_clk and the Wakeup Event is generated." "0: Synchronous Wakeup Mode: The xin_clk has to be..,1: Asyncrhonous Wakeup Mode: The xin_clk and the.." newline hexmask.long.byte 0x0 12.--15. 1. "CQFMUL,FMUL for the CQ Internal Timer Clock Frequency" hexmask.long.word 0x0 0.--9. 1. "CQFVAL,FVAL for the CQ Internal Timer Clock Frequency" line.long 0x4 "REGS__SS_CFG__SSCFG_CTL_CFG_2_REG,The Controller Config 2 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." bitfld.long 0x4 30.--31. "SLOTTYPE,Slot Type. Should be set based on the final product usage. 00 - Removable SCard Slot 01 - Embedded Slot for One Device 10 - Shared Bus Slot 11 - Reserved." "0,1,2,3" bitfld.long 0x4 29. "ASYNCHINTRSUPPORT,Asynchronous Interrupt Support. Suggested Value is 1'b1 (The Core supports monitoring of Asynchronous Interrupt)." "0,1" newline bitfld.long 0x4 26. "SUPPORT1P8VOLT,1.8V Support. Suggested Value is 1'b1 (The 1.8 Volt Switching is supported by Core). Optionally can be set to 1'b0 if the application doesn't want 1.8V switching (SD3.0)." "0,1" bitfld.long 0x4 25. "SUPPORT3P0VOLT,3.0V Support. Should be set based on whether 3.0V is supported on the SD Interface." "0,1" newline bitfld.long 0x4 24. "SUPPORT3P3VOLT,3.3V Support. Suggested Value is 1'b1 as the 3.3 V is the default voltage on the SD Interface." "0,1" bitfld.long 0x4 23. "SUSPRESSUPPORT,Suspend/Resume Support. Suggested Value is 1'b1 (The Suspend/Resume is supported by Core). Optionally can be set to 1'b0 if the application doesn't want to support Suspend/Resume Mode." "0,1" newline bitfld.long 0x4 22. "SDMASUPPORT,SDMA Support. Suggested Value is 1'b1 (The SDMA is supported by Core). Optionally can be set to 1'b0 if the application doesn't want to support SDMA Mode." "0,1" bitfld.long 0x4 21. "HIGHSPEEDSUPPORT,High Speed Support. Suggested Value is 1'b1 (The High Speed mode is supported by Core)." "0,1" newline bitfld.long 0x4 19. "ADMA2SUPPORT,ADMA2 Support. Suggested Value is 1'b1 (The ADMA2 is supported by Core). Optionally can be set to 1'b0 if the application doesn't want to support ADMA2 Mode." "0,1" bitfld.long 0x4 18. "SUPPORT8BIT,8-bit Support for Embedded Device. Suggested Value is 1'b1 (The Core supports 8-bit Interface). Optionally an be set to 1'b0 if the Application supports only 4-bit SD Interface." "0,1" newline bitfld.long 0x4 16.--17. "MAXBLKLENGTH,Max Block Length. Maximum Block Length supported by the Core/Device. 00: 512 (Bytes) 01: 1024 10: 2048 11: Reserved." "0: 512,1: 1024,?,?" hexmask.long.byte 0x4 8.--15. 1. "BASECLKFREQ,Base Clock Frequency for SD Clock. This is the frequency of the xin_clk." newline bitfld.long 0x4 7. "TIMEOUTCLKUNIT,Timeout Clock Unit. Suggested Value is 1'b0 (KHz)." "0,1" hexmask.long.byte 0x4 0.--5. 1. "TIMEOUTCLKFREQ,Timeout Clock Frequency. Suggested Value is 1 KHz. Internally the 1msec Timer is used for Timeout Detection. The 1msec Timer is generated from the xin_clk." line.long 0x8 "REGS__SS_CFG__SSCFG_CTL_CFG_3_REG,The Controller Config 3 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." bitfld.long 0x8 31. "HS400SUPPORT,HS400 Support. Suggested Value is 1'b1 (The Core supports HS400 Mode). This applies only to eMMC5.0 mode. This should be set to 1'b0 for SD3.0 mode Optionally can be set to 1'b0 if the application doesn't want to support HS400." "0,1" bitfld.long 0x8 28. "SUPPORT1P8VDD2,1.8V VDD2 Support." "0,1" newline bitfld.long 0x8 27. "ADMA3SUPPORT,ADMA3 Support." "0,1" hexmask.long.byte 0x8 16.--23. 1. "CLOCKMULTIPLIER,Clock Multiplier. This field indicates clock multiplier value of programmable clock generator. Refer to Clock Control register. Setting 00h means that Host Controller does not support programmable clock generator. FFh Clock Multiplier M =.." newline bitfld.long 0x8 14.--15. "RETUNINGMODES,Re-Tuning Modes. Should be set to 2'b00 as the Core supports only the Software Timer based Re-Tuning." "0,1,2,3" bitfld.long 0x8 13. "TUNINGFORSDR50,Use Tuning for SDR50. This bit should be set if the Application wants Tuning be used for SDR50 Modes. The Core operates with or with out tuning for SDR50 mode as long as the Clock can be manually tuned using tap delay." "0,1" newline hexmask.long.byte 0x8 8.--11. 1. "RETUNINGTIMERCNT,Timer Count for Re-Tuning. This is the Timer Count for Re-Tuning Timer for Re-Tuning Mode 1 to 3. Setting to 4'b0 disables Re-Tuning Timer." bitfld.long 0x8 7. "TYPE4SUPPORT,Driver Type 4 Support. This bit should be set based on whether Driver Type 4 for 1.8 Signalling is supported or not." "0,1" newline bitfld.long 0x8 6. "DDRIVERSUPPORT,Driver Type D Support. This bit should be set based on whether Driver Type D for 1.8 Signalling is supported or not." "0,1" bitfld.long 0x8 5. "CDRIVERSUPPORT,Driver Type C Support. This bit should be set based on whether Driver Type C for 1.8 Signalling is supported or not." "0,1" newline bitfld.long 0x8 4. "ADRIVERSUPPORT,Driver Type A Support. This bit should be set based on whether Driver Type A for 1.8 Signalling is supported or not." "0,1" bitfld.long 0x8 2. "DDR50SUPPORT,DDR50 Support. Suggested Value is 1'b1 (The Core supports DDR50 mode of operation). Optionally can be set to 1'b0 if the application doesn't want to support DDR50." "0,1" newline bitfld.long 0x8 1. "SDR104SUPPORT,SDR104 Support. Suggested Value is 1'b1 (The Core supports SDR104 mode of operation). Optionally can be set to 1'b0 if the application doesn't want to support SDR104." "0,1" bitfld.long 0x8 0. "SDR50SUPPORT,SDR50 Support. Suggested Value is 1'b1 (The Core supports SDR50 mode of operation). Optionally can be set to 1'b0 if the application doesn't want to support SDR50." "0,1" line.long 0xC "REGS__SS_CFG__SSCFG_CTL_CFG_4_REG,The Controller Config 4 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.byte 0xC 16.--23. 1. "MAXCURRENT1P8V,Maximum Current for 1.8V." hexmask.long.byte 0xC 8.--15. 1. "MAXCURRENT3P0V,Maximum Current for 3.0V." newline hexmask.long.byte 0xC 0.--7. 1. "MAXCURRENT3P3V,Maximum Current for 3.3V." line.long 0x10 "REGS__SS_CFG__SSCFG_CTL_CFG_5_REG,The Controller Config 5 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.byte 0x10 0.--7. 1. "MAXCURRENTVDD2,Maximum Current for 1.8 V (VDD2)." line.long 0x14 "REGS__SS_CFG__SSCFG_CTL_CFG_6_REG,The Controller Config 6 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x14 0.--12. 1. "INITPRESETVAL,Preset Value for Initialization." line.long 0x18 "REGS__SS_CFG__SSCFG_CTL_CFG_7_REG,The Controller Config 7 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x18 0.--12. 1. "DSPDPRESETVAL,Preset Value for Default Speed." line.long 0x1C "REGS__SS_CFG__SSCFG_CTL_CFG_8_REG,The Controller Config 8 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x1C 0.--12. 1. "HSPDPRESETVAL,Preset Value for High Speed." line.long 0x20 "REGS__SS_CFG__SSCFG_CTL_CFG_9_REG,The Controller Config 9 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x20 0.--12. 1. "SDR12PRESETVAL,Preset Value for SDR12." line.long 0x24 "REGS__SS_CFG__SSCFG_CTL_CFG_10_REG,The Controller Config 10 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x24 0.--12. 1. "SDR25PRESETVAL,Preset Value for SDR25." line.long 0x28 "REGS__SS_CFG__SSCFG_CTL_CFG_11_REG,The Controller Config 11 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x28 0.--12. 1. "SDR50PRESETVAL,Preset Value for SDR50." line.long 0x2C "REGS__SS_CFG__SSCFG_CTL_CFG_12_REG,The Controller Config 12 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x2C 0.--12. 1. "SDR104PRESETVAL,Preset Value for SDR104." line.long 0x30 "REGS__SS_CFG__SSCFG_CTL_CFG_13_REG,The Controller Config 13 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x30 0.--12. 1. "DDR50PRESETVAL,Preset Value for DDR50." line.long 0x34 "REGS__SS_CFG__SSCFG_CTL_CFG_14_REG,The Controller Config 14 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x34 0.--12. 1. "HS400PRESETVAL,Preset Value for HS400." rgroup.long 0x60++0x17 line.long 0x0 "REGS__SS_CFG__SSCFG_CTL_STAT_1_REG,The Controller Status 1 Register contains various fields to reflect the status of the debug ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller debug ports please refer to.." bitfld.long 0x0 31. "SDHC_CMDIDLE,Idle signal to enable S/W to gate off the clocks." "0,1" hexmask.long.word 0x0 0.--15. 1. "DMADEBUGBUS,DMA_CTRL Debug Bus." line.long 0x4 "REGS__SS_CFG__SSCFG_CTL_STAT_2_REG,The Controller Status 2 Register contains various fields to reflect the status of the debug ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller debug ports please refer to.." hexmask.long.word 0x4 0.--15. 1. "CMDDEBUGBUS,CMD_CTRL Debug Bus." line.long 0x8 "REGS__SS_CFG__SSCFG_CTL_STAT_3_REG,The Controller Status 3 Register contains various fields to reflect the status of the debug ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller debug ports please refer to.." hexmask.long.word 0x8 0.--15. 1. "TXDDEBUGBUS,TXD_CTRL Debug Bus." line.long 0xC "REGS__SS_CFG__SSCFG_CTL_STAT_4_REG,The Controller Status 4 Register contains various fields to reflect the status of the debug ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller debug ports please refer to.." hexmask.long.word 0xC 0.--15. 1. "RXDDEBUGBUS0,RXD_CTRL Debug Bus (SD CLK)." line.long 0x10 "REGS__SS_CFG__SSCFG_CTL_STAT_5_REG,The Controller Status 5 Register contains various fields to reflect the status of the debug ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller debug ports please refer to.." hexmask.long.word 0x10 0.--15. 1. "RXDDEBUGBUS1,RXD_CTRL Debug Bus (RX CLK)." line.long 0x14 "REGS__SS_CFG__SSCFG_CTL_STAT_6_REG,The Controller Status 6 Register contains various fields to reflect the status of the debug ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller debug ports please refer to.." hexmask.long.word 0x14 0.--15. 1. "TUNDEBUGBUS,TUN_CTRL Debug Bus." group.long 0x100++0x17 line.long 0x0 "REGS__SS_CFG__SSCFG_PHY_CTRL_1_REG,The PHY Control 1 Register contains various fields to control the ports on the Arasan eMMC/SD PHY. For detailed functionality of the Arasan eMMC/SD PHY control ports please refer to its specification listed in Section.." bitfld.long 0x0 20.--22. "DR_TY,Drive Source/Sink impedance programming. 0 => 50 Ohms 1 => 33 Ohms 2 => 66 Ohms 3 => 100 Ohms 4 => 40 Ohms." "0: 50 Ohms,1: 33 Ohms,2: 66 Ohms,3: 100 Ohms,4: 40 Ohms,?,?,?" bitfld.long 0x0 17. "RETRIM,Start IO calibration cycle. A positive edge initiates the IO calibration cycle using CALIO." "0,1" newline bitfld.long 0x0 16. "EN_RTRIM,Enables CALIO. When enabled CALIO will start IO calibration cycle on the positive edge of pdb." "0,1" hexmask.long.byte 0x0 4.--7. 1. "DLL_TRM_ICP,Analog DLL's Charge Pump Current Trim. Programs the analog DLL loop gain." newline bitfld.long 0x0 1. "ENDLL,Enable DLL. Enables the analog DLL circuits." "0,1" bitfld.long 0x0 0. "PDB,Active low power down for CALIO. Software must write a 1 to power-up CALIO during power-up sequence." "0,1" line.long 0x4 "REGS__SS_CFG__SSCFG_PHY_CTRL_2_REG,The PHY Control 2 Register contains various fields to control the ports on the Arasan eMMC/SD PHY. For detailed functionality of the Arasan eMMC/SD PHY control ports please refer to its specification listed in Section.." bitfld.long 0x4 29. "OD_RELEASE_STRB,Disable an internal 4.7K pull up resistor on STRB line in open drain mode." "0,1" bitfld.long 0x4 28. "OD_RELEASE_CMD,Disable an internal 4.7K pull up resistor on CMD line in open drain mode." "0,1" newline hexmask.long.byte 0x4 16.--23. 1. "OD_RELEASE_DAT,Disable an internal 4.7K pull up resistor on data lines in open drain mode." bitfld.long 0x4 13. "ODEN_STRB,Open Drain Enable on STRB line." "0,1" newline bitfld.long 0x4 12. "ODEN_CMD,Open Drain Enable on CMD line." "0,1" hexmask.long.byte 0x4 0.--7. 1. "ODEN_DAT,Open Drain Enable on DAT lines." line.long 0x8 "REGS__SS_CFG__SSCFG_PHY_CTRL_3_REG,The PHY Control 3 Register contains various fields to control the ports on the Arasan eMMC/SD PHY. For detailed functionality of the Arasan eMMC/SD PHY control ports please refer to its specification listed in Section.." bitfld.long 0x8 29. "PU_STRB,Internal pull select for STRB line. 0=pull-down 1=pull-up." "0: pull-down,1: pull-up" bitfld.long 0x8 28. "PU_CMD,Internal pull select for CMD line. 0=pull-down 1=pull-up." "0: pull-down,1: pull-up" newline hexmask.long.byte 0x8 16.--23. 1. "PU_DAT,Internal pull select for DAT lines. 0=pull-down 1=pull-up." bitfld.long 0x8 13. "REN_STRB,Enable internal pull-up/down resistor on the STRB line. 0=internal pull disable 1=internal pull enabled." "0: internal pull disable,1: internal pull enabled" newline bitfld.long 0x8 12. "REN_CMD,Enable internal pull-up/down resistor on the CMD line. 0=internal pull disable 1=internal pull enabled." "0: internal pull disable,1: internal pull enabled" hexmask.long.byte 0x8 0.--7. 1. "REN_DAT,Enable internal pull-up/down resistor on the DAT lines. 0=internal pull disable 1=internal pull enabled." line.long 0xC "REGS__SS_CFG__SSCFG_PHY_CTRL_4_REG,The PHY Control 4 Register contains various fields to control the ports on the Arasan eMMC/SD PHY. For detailed functionality of the Arasan eMMC/SD PHY control ports please refer to its specification listed in Section.." hexmask.long.byte 0xC 24.--31. 1. "STRBSEL,Select the Four Taps for each of STRB_90 and STRB_180 Outputs. strbsel[3:2] selects one of the four for STRB_180 and strbsel[1:0] selects the four taps for STRB_90." bitfld.long 0xC 20. "OTAPDLYENA,Output Tap Delay Enable. Enables manual control of the TX clock tap delay for clocking the final stage flops for maintaining Hold requirements on EMMC Interface." "0,1" newline hexmask.long.byte 0xC 12.--15. 1. "OTAPDLYSEL,Output Tap Delay Select. Manual control of the TX clock tap delay for clocking the final stage flops for maintaining Hold requirements on EMMC Interface." bitfld.long 0xC 9. "ITAPCHGWIN,Input Tap Change Window. It gets asserted by the controller while changing the itapdlysel. Used to gate of the RX clock during switching the clock source while tap is changing to avoid clock glitches." "0,1" newline bitfld.long 0xC 8. "ITAPDLYENA,Input Tap Delay Enable. This is used for the manual control of the RX clock Tap Delay in non HS200/HS400 modes." "0,1" hexmask.long.byte 0xC 0.--4. 1. "ITAPDLYSEL,Input Tap Delay Select. Manual control of the RX clock Tap Delay in the non HS200/HS400 modes." line.long 0x10 "REGS__SS_CFG__SSCFG_PHY_CTRL_5_REG,The PHY Control 5 Register contains various fields to control the ports on the Arasan eMMC/SD PHY. For detailed functionality of the Arasan eMMC/SD PHY control ports please refer to its specification listed in Section.." bitfld.long 0x10 17. "SELDLYTXCLK,Select the Delay chain based txclk. Enables the TX clock based delay chain rather than analog DLL based delay chain." "0,1" bitfld.long 0x10 16. "SELDLYRXCLK,Select the Delay chain based rxclk. Enables the RX clock based delay chain rather than analog DLL based delay chain." "0,1" newline bitfld.long 0x10 8.--10. "FRQSEL,Select the frequency range of DLL operation: 0 => 200MHz to 170 MHz 1 => 170MHz to 140 MHz 2 => 140MHz to 110 MHz 3 => 110MHz to 80MHz 4 => 80MHz to 50 MHz 5 => 275Mhz to 250MHz 6 => 250MHz to 225MHz 7 => 225MHz to 200MHz." "0: 200MHz to 170 MHz,1: 170MHz to 140 MHz,2: 140MHz to 110 MHz,3: 110MHz to 80MHz,4: 80MHz to 50 MHz,5: 275Mhz to 250MHz,6: 250MHz to 225MHz,7: 225MHz to 200MHz" bitfld.long 0x10 0.--2. "CLKBUFSEL,Clock Delay Buffer Select. Selects one of the eight taps in the CLK Delay Buffer based on PVT variation." "0,1,2,3,4,5,6,7" line.long 0x14 "REGS__SS_CFG__SSCFG_PHY_CTRL_6_REG,The PHY Control 6 Register contains various fields to control the ports on the Arasan eMMC/SD PHY. For detailed functionality of the Arasan eMMC/SD PHY control ports please refer to its specification listed in Section.." bitfld.long 0x14 31. "BISTENABLE,Internal BIST operation enable. Enables the embedded BIST." "0,1" bitfld.long 0x14 30. "BISTSTART,Internal BIST start. Starts the embedded BIST operation." "0,1" newline hexmask.long.byte 0x14 24.--27. 1. "BISTMODE,Internal BIST mode Select. Select the embedded BIST mode of operation." hexmask.long.byte 0x14 0.--7. 1. "TESTCTRL,PHY test control: 8'b00010000 => Test EMMC IOs sink impedance 8'b00010001 => Test EMMC IOs source impedance 8'b00100000 => Test RX clock phases on data lines 8'b00110000 => Test TX clock phases on data lines 8'b01000000 => Test STRB clock.." rgroup.long 0x130++0x7 line.long 0x0 "REGS__SS_CFG__SSCFG_PHY_STAT_1_REG,The PHY Status 1 Register contains various fields to reflect the status of the Arasan eMMC/SD PHY ports. For detailed functionality of the Arasan eMMC/SD PHY status ports please refer to its specification listed in.." hexmask.long.byte 0x0 4.--7. 1. "RTRIM,CALIO Calibration Result. Holds the content of CALIO Impedance Calibration Result." bitfld.long 0x0 3. "BISTDONE,Internal BIST completed test cycle. Indicates that the embedded BIST has completed the test cycle." "0,1" newline bitfld.long 0x0 2. "EXR_NINST,External Resistor on CALIO absent. Indicates trim cycle started and external resistor is absent." "0,1" bitfld.long 0x0 1. "CALDONE,STATUS indicate that CALIO Calibration is completed successfully." "0,1" newline bitfld.long 0x0 0. "DLLRDY,DLL ready. Indicates that DLL loop is locked." "0,1" line.long 0x4 "REGS__SS_CFG__SSCFG_PHY_STAT_2_REG,The PHY Status 2 Register contains various fields to reflect the status of the Arasan eMMC/SD PHY ports. For detailed functionality of the Arasan eMMC/SD PHY status ports please refer to its specification listed in.." hexmask.long 0x4 0.--31. 1. "BISTSTATUS,Internal BIST data compare results. BIST cycle data comparison results." tree.end tree.end tree "MMCSD1" tree "MMCSD1_CTL_CFG (MMCSD1_CTL_CFG)" base ad:0xFA00000 group.word 0x0++0xF line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_sdma_sys_addr_lo,This register contains the Lower 16-bit of physical system memory address used for DMA transfers or the second argument for the Auto CMD23 in Host version 3.0 and as 32-bit Block Count in Version 4.10." hexmask.word 0x0 0.--15. 1. "SDMA_ADDRESS,When Host Version 4 Enable is set to 0 in the Host Control 2 register DMA uses this register as system address in only 32-bit addressing mode. Auto CMD23 cannot be used with SDMA. When Host Version 4 Enable is set to 1 SDMA uses ADMA System.." line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_sdma_sys_addr_hi,This register contains the Upper 16-bit of physical system memory address used for DMA transfers or the second argument for the Auto CMD23 in Host version 3.0 and as 32-bit Block Count in Version 4.10." hexmask.word 0x2 0.--15. 1. "SDMA_ADDRESS,This register contains the Upper 16-bit of physical system memory address used for DMA transfers or the second argument for the Auto CMD23 in Host version 3.0 and as 32-bit Block Count in Version 4.10." line.word 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_block_size,This register is used to configure the number of bytes in a data block" bitfld.word 0x4 12.--14. "SDMA_BUF_SIZE,To perform long DMA transfer System Address register shall be updated at every system boundary during DMA transfer. These bits specify the size of contiguous buffer in the system memory. The DMA transfer shall wait at the every boundary.." "0,1,2,3,4,5,6,7" newline hexmask.word 0x4 0.--11. 1. "XFER_BLK_SIZE,This field specifies the block size for block data transfers for CMD17 CMD18 CMD24 CMD25 and CMD53. It can be accessed only if no transaction is executing [i.e after a transaction has stopped]. Read operations during transfer return an.." line.word 0x6 "SDHC_WRAP__CTL_CFG__CTLCFG_block_count,This register is used to configure the number of data blocks" hexmask.word 0x6 0.--15. 1. "XFER_BLK_CNT,Host Controller Version 4.10 extends block count to 32-bit [Refer to Section 1.15].Selection of either 16-bit Block Count register or 32-bit Block Count register is defined as follows: [1] If Host Version 4 Enable in the Host Control 2.." line.word 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_argument1_lo,This register contains Lower bits of SD Command Argument" hexmask.word 0x8 0.--15. 1. "CMD_ARG1,The SD Command Argument is specified as bit23-8 of Command-Format." line.word 0xA "SDHC_WRAP__CTL_CFG__CTLCFG_argument1_hi,This register contains higher bits of SD Command Argument" hexmask.word 0xA 0.--15. 1. "CMD_ARG1,The SD Command Argument is specified as bit39-24 of Command-Format." line.word 0xC "SDHC_WRAP__CTL_CFG__CTLCFG_transfer_mode,This register is used to control the operations of data transfers" bitfld.word 0xC 8. "RESP_INTR_DIS,Host Controller Version 4.00 supports response error check function to avoid overhead of response error check by Host Driver. Only R1 or R5 can be checked. If Host Driver checks response error sets this bit to 0 and waits Command Complete.." "0,1" newline bitfld.word 0xC 7. "RESP_ERR_CHK_ENA,Host Controller Version 4.00 supports response error check function to avoid overhead of response error check by Host Driver. Only R1 or R5 can be checked.If Host Driver checks response error this bit is set to 0 and Response Interrupt.." "0,1" newline bitfld.word 0xC 6. "RESP_TYPE,When response error check is enabled this bit selects either R1 or R5 response types. Two types of response checks are supported: R1 for memory and R5 for SDIO." "0,1" newline bitfld.word 0xC 5. "MULTI_BLK_SEL,This bit enables multiple block data transfers." "0,1" newline bitfld.word 0xC 4. "DATA_XFER_DIR,This bit defines the direction of data transfers." "0,1" newline bitfld.word 0xC 2.--3. "AUTO_CMD_ENA,There are three methods to stop Multiple-block read and write operation. [1] Auto CMD12 Enable: Multiple-block read and write commands for memory require CMD12 to stop the operation. When this field is set to 01b the Host.." "0,1,2,3" newline bitfld.word 0xC 1. "BLK_CNT_ENA,This bit is used to enable the Block count register which is only relevant for multiple block transfers. When this bit is 0 the Block Count register is disabled which is useful in executing an infinite transfer." "0,1" newline bitfld.word 0xC 0. "DMA_ENA,DMA can be enabled only if DMA Support bit in the Capabilities register is set. If this bit is set to 1 a DMA operation shall begin when the HD writes to the upper byte of Command register [00Fh]." "0,1" line.word 0xE "SDHC_WRAP__CTL_CFG__CTLCFG_command,This register is used to program the Command for host controller" hexmask.word.byte 0xE 8.--13. 1. "CMD_INDEX,This bit shall be set to the command number [CMD0-63 ACMD0-63]." newline bitfld.word 0xE 6.--7. "CMD_TYPE,There are three types of special commands. Suspend Resume andAbort. These bits shall bet set to 00b for all other commands. Suspend Command: If the Suspend command succeeds the HC shall assume the SD Bus has been released and that it is.." "0,1,2,3" newline bitfld.word 0xE 5. "DATA_PRESENT,This bit is set to 1 to indicate that data is present and shall be transferred using the DAT line. If is set to 0 for the following: 1. Commands using only CMD line [ex. CMD52]. 2. Commands with no data transferbut using busy.." "0,1" newline bitfld.word 0xE 4. "CMD_INDEX_CHK_ENA,If this bit is set to 1 the HC shall check the index field in the response to see if it has the same value as the command index. If it is not it is reported as a Command Index Error. If this bit is set to 0 the Index field is not.." "0,1" newline bitfld.word 0xE 3. "CMD_CRC_CHK_ENA,If this bit is set to 1 the HC shall check the CRC field in the response. If an error is detected it is reported as a Command CRC Error. If this bit is set to 0 the CRC field is not checked." "0,1" newline bitfld.word 0xE 2. "SUB_CMD,This bit is added from Version 4.10 to distinguish a main command or sub command [Refer to Section 1.17]. When issuing a main com-mand this bit is set to 0 and when issuing a sub command this bit is set to 1. Setting of this bit is checked.." "0,1" newline bitfld.word 0xE 0.--1. "RESP_TYPE_SEL,Response Type Select." "0,1,2,3" rgroup.word 0x10++0x1 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_response,This register is used to store responses from SD Cards" hexmask.word 0x0 0.--15. 1. "CMD_RESP,R[] refers to a bit range within the response data as transmitted on the SD Bus REP[] refers to a bit range within the Response register." group.long 0x20++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_data_port,This register is used to access internal buffer" hexmask.long 0x0 0.--31. 1. "BUF_RD_DATA,The Host Controller Buffer can be accessed through this 32-bit Data Port Register." rgroup.long 0x24++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_presentstate,The Host Driver can get status of the Host Controller from this 32-bit read-only register" bitfld.long 0x0 31. "UHS2_IF_DETECTION,This status indicates whether a card supports UHS-II IF. This status is enabled by setting UHS-II Interface Enable to 1 in the Host Control 2 regis-ter. UHS-II interface initialization is activated by setting SD Clock Enable in the.." "0,1" newline bitfld.long 0x0 30. "UHS2_IF_LANE_SYNC,This status indicates whether lane is synchronized in UHS-II mode. This status is enabled by setting UHS-II Interface Enable to 1 in the Host Control 2 register. On detecting UHS-II Interface [D31=1] Host Controller provides SYN.." "0,1" newline bitfld.long 0x0 29. "UHS2_DORMANT,This status indicates whether UHS-II Ianes enterDormant state. This function is enabled by setting UHS-II Interface Enable to 1 in the Host Control 2 register. On issuing GO_DORMAT_STATE com-mand Go Dormant Command [111b]; is set to Command.." "0,1" newline bitfld.long 0x0 28. "SUB_COMMAND_STS,The Command register and Response register are commonly used for main command and sub command. This status is used to distinguish which response error statuses main command or sub command indicated in the Error Interrupt Status.." "0,1" newline bitfld.long 0x0 27. "CMD_NOT_ISS_BY_ERR,Setting of this status indicates that a command cannot be issued due to an error except Auto CMD12 error. [Equivalent error status by Auto CMD12 error is defined as Command Not Issued By Auto CMD12 Error in the Auto CMD Error.." "0,1" newline bitfld.long 0x0 24. "SDIF_CMDIN,This status is used to check DAT line level to recover from errors and for debugging." "0,1" newline bitfld.long 0x0 23. "SDIF_DAT3IN,This status is used to check DAT line level to recover from errors and for debugging. This is especially useful in detecting the busy signal level from DAT[3]." "0,1" newline bitfld.long 0x0 22. "SDIF_DAT2IN,This status is used to check DAT line level to recover from errors and for debugging. This is especially useful in detecting the busy signal level from DAT[2]." "0,1" newline bitfld.long 0x0 21. "SDIF_DAT1IN,This status is used to check DAT line level to recover from errors and for debugging. This is especially useful in detecting the busy signal level from DAT[1]." "0,1" newline bitfld.long 0x0 20. "SDIF_DAT0IN,This status is used to check DAT line level to recover from errors and for debugging. This is especially useful in detecting the busy signal level from DAT[0]." "0,1" newline bitfld.long 0x0 19. "WRITE_PROTECT,The Write Protect Switch is supported for memory and combo cards.This bit reflects the SDWP# pin." "0,1" newline bitfld.long 0x0 18. "CARD_DETECT,This bit reflects the inverse value of the SDCD# pin. '0' No Card present [SDCD# = 1] '1' Card present [SDCD# = 0]" "0,1" newline bitfld.long 0x0 17. "CARD_STATE_STABLE,This bit is used for testing. If it is 0 the Card Detect Pin Level is not stable. If this bit is set to 1 it means the Card Detect Pin Level is stable. The Software Reset For All in the Software Reset Register shall not affect this.." "0,1" newline bitfld.long 0x0 16. "CARD_INSERTED,This bit indicates whether a card has been inserted. Changing from 0 to 1 generates a Card Insertion interrupt in the Normal Interrupt Status register and changing from 1 to 0 generates a Card Removal Interrupt in the Normal Interrupt.." "0,1" newline bitfld.long 0x0 11. "BUF_RD_ENA,This status is used for non-DMA read transfers.This read only flag indicates that valid data exists in the host side buffer status. If this bit is 1 readable data exists in the buffer. A change of this bit from 1 to 0 occurs when all the.." "0,1" newline bitfld.long 0x0 10. "BUF_WR_ENA,This status is used for non-DMA write transfers.This read only flag indicates if space is available for write data. If this bit is 1 data can be written to the buffer. A change of this bit from 1 to 0 occurs when all the block data is written.." "0,1" newline bitfld.long 0x0 9. "RD_XFER_ACTIVE,This status is used for detecting completion of a read transfer. This bit is set to 1 for either of the following conditions: After the end bit of the read command. When writing a 1 to continue Request in the Block.." "0,1" newline bitfld.long 0x0 8. "WR_XFER_ACTIVE,This status indicates a write transfer is active. If this bit is 0 it means no valid write data exists in the HC. This bit is set in either of the following cases: After the end bit of the write command. When writing a.." "0,1" newline bitfld.long 0x0 7. "SDIF_DAT7IN,This status is used to check DAT line level to recover from errors and for debugging." "0,1" newline bitfld.long 0x0 6. "SDIF_DAT6IN,This status is used to check DAT line level to recover from errors and for debugging." "0,1" newline bitfld.long 0x0 5. "SDIF_DAT5IN,This status is used to check DAT line level to recover from errors and for debugging." "0,1" newline bitfld.long 0x0 4. "SDIF_DAT4IN,This status is used to check DAT line level to recover from errors and for debugging." "0,1" newline bitfld.long 0x0 3. "RETUNING_REQ,Host Controller may request Host Driver to execute re-tuning sequence by setting this bit when the data window is shifted by temperature drift and a tuned sampling point does not have a good margin to receive correct data. This bit is.." "0,1" newline bitfld.long 0x0 2. "DATA_LINE_ACTIVE,This bit indicates whether one of the DAT line on SD bus is in use." "0,1" newline bitfld.long 0x0 1. "INHIBIT_DAT,This status bit is generated if either the DAT Line Active or the Read transfer Active is set to 1. If this bit is 0 it indicates the HC can issue the next SD command. Commands with busy signal belong to Command Inhibit [DAT] [ex. R1b R5b.." "0,1" newline bitfld.long 0x0 0. "INHIBIT_CMD,SD Mode If this bit is 0 it indicates the CMD line is not in use and the HC can issue a SD command using the CMD line. This bit is set immediately after the Command register [00Fh] is written. This bit is cleared when the command response is.." "0,1" group.byte 0x28++0x3 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_host_control1,This register is used to program DMA modes. LED Control. Data Transfer Width. High Speed Enable. Card detect test level and signal selection" bitfld.byte 0x0 7. "CD_SIG_SEL,This bit selects source for card detection. '0' SDCD# is selected [for normal use] '1' The card detect test level is selected" "0,1" newline bitfld.byte 0x0 6. "CD_TEST_LEVEL,This bit is enabled while the Card Detect Signal Selection is set to 1 and it indicates card inserted or not. Generates [card ins or card removal] interrupt when the normal int sts enable bit is set. '0' No Card '1' Card Inserted" "0,1" newline bitfld.byte 0x0 5. "EXT_DATA_WIDTH,This bit controls 8-bit bus width mode for embedded device. Support of this function is indicated in 8-bit Support for Embedded Device in the Capabilities register. If a device supports 8-bit bus mode this bit may be set to 1. If this bit.." "0,1" newline bitfld.byte 0x0 3.--4. "DMA_SELECT,This field is used to select DMA type. The Host Driver shall check support of DMA modes by referring the Capabilities register. Selected DMA is enabled by DMA Enable of the Transfer Mode register in SD mode and DMA Enable of UHS-II Transfer.." "0,1,2,3" newline bitfld.byte 0x0 2. "HIGH_SPEED_ENA,This bit is optional. Before setting this bit the HD shall check the High Speed Support in the capabilities register. If this bit is set to 0 [default] the HC outputs CMD line and DAT lines at the falling edge of the SD clock [up to.." "0,1" newline bitfld.byte 0x0 1. "DATA_WIDTH,This bit selects the data width of the HC. The HD shall select it to match the data width of the SD card. This bit is not effective in UHS-II mode." "0,1" newline bitfld.byte 0x0 0. "LED_CONTROL,This bit is used to caution the user not to remove the card while the SD card is being accessed. If the software is going to issue multiple SD commands this bit can be set during all transactions. It is not necessary to change for each.." "0,1" line.byte 0x1 "SDHC_WRAP__CTL_CFG__CTLCFG_power_control,This register is used to program the SD Bus power and voltage level" bitfld.byte 0x1 5.--7. "UHS2_VOLTAGE,This field determines supply voltage range to VDD2. This field can be set to 101b if 1.8V VDD2 Support in the Capabilities register is set to 1. '000' VDD2 Not supported '001'- '011' Reserved '100' Reserved for 1.2V.." "0,1,2,3,4,5,6,7" newline bitfld.byte 0x1 4. "UHS2_POWER,Setting this bit enables providing VDD2. '0' Power Off '1' Power On" "0,1" newline bitfld.byte 0x1 1.--3. "SD_BUS_VOLTAGE,By setting these bits the HD selects the voltage level for the SD card. Before setting this register the HD shall check the voltage support bits in the capabilities register. If an unsupported voltage is selected the Host System shall.." "0,1,2,3,4,5,6,7" newline bitfld.byte 0x1 0. "SD_BUS_POWER,Before setting this bit the SD host driver shall set SD Bus Voltage Select. If the HC detects the No Card State this bit shall be cleared. If this bit is cleared the Host Control-ler should immediately stop driving CMD and DAT[3:0].." "0,1" line.byte 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_block_gap_control,This register is used to program the block gap request. read wait control and interrupt at block gap" bitfld.byte 0x2 7. "BOOT_ACK_ENA,To check for the boot acknowledge in boot operation." "0,1" newline bitfld.byte 0x2 6. "ALT_BOOT_MODE,To start boot code access in alternative mode." "0,1" newline bitfld.byte 0x2 5. "BOOT_ENABLE,To start boot code access." "0,1" newline bitfld.byte 0x2 4. "SPI_MODE,SPI mode enable bit." "0,1" newline bitfld.byte 0x2 3. "INTRPT_AT_BLK_GAP,This bit is valid only in 4-bit mode of the SDIO card and selects a sample point in the interrupt cycle. Setting to 1 enables interrupt detection at the block gap for a multiple block transfer. If the SD card cannot signal an interrupt.." "0,1" newline bitfld.byte 0x2 2. "RDWAIT_CTRL,The read wait function is optional for SDIO cards. If the card supports read wait set this bit to enable use of the read wait protocol to stop read data using DAT[2] line. Otherwise the HC has to stop the SD clock to hold read data which.." "0,1" newline bitfld.byte 0x2 1. "CONTINUE,This bit is used to restart a transaction which was stopped using the Stop At Block Gap Request. To cancel stop at the block gap set Stop At block Gap Request to 0 and set this bit to restart the transfer. The Host Controller automatically.." "0,1" newline bitfld.byte 0x2 0. "STOP_AT_BLK_GAP,This bit is used to stop executing a transaction at the next block gap for non- DMA SDMA and ADMA transfers. Until the transfer complete is set to 1 indicating a transfer completion the HD shall leave this bit set to 1. Clearing both the.." "0,1" line.byte 0x3 "SDHC_WRAP__CTL_CFG__CTLCFG_wakeup_control,This register is used to program the wakeup functionality" bitfld.byte 0x3 2. "CARD_REMOVAL,This bit enables wakeup event via Card removal assertion in the Normal Interrupt Status register.FN_WUS [Wake up Support] in CIS does not affect this bit." "0,1" newline bitfld.byte 0x3 1. "CARD_INSERTION,This bit enables wakeup event via Card Insertion assertion in the Normal Interrupt Status register.FN_WUS [Wake up Support] in CIS does not affect this bit." "0,1" newline bitfld.byte 0x3 0. "CARD_INTERRUPT,This bit enables wakeup event via Card Interrupt assertion in the Normal Interrupt Status register.This bit can be set to 1 if FN_WUS [Wake Up Support] in CIS is set to 1." "0,1" group.word 0x2C++0x1 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_clock_control,This register is used to program the Clock frequency select. generator select. Clock enable. Internal Clock state fields" hexmask.word.byte 0x0 8.--15. 1. "SDCLK_FRQSEL,This register is used to select the frequency of the SDCLK pin. The frequency is not programmed directly; rather this register holds the divisor of the Base Clock Frequency For SD clock in the capabilities register. Only the following.." newline bitfld.word 0x0 6.--7. "SDCLK_FRQSEL_UPBITS,Bit 07-06 is assigned to bit 09-08 of clock divider in SDCLK Frequency Select." "0,1,2,3" newline bitfld.word 0x0 5. "CLKGEN_SEL,This bit is used to select the clock generator mode in SDCLK Frequency Select. If the Programmable Clock Mode is supported [non-zero value is set to Clock Multiplier in the Capabilities register] this bit attribute is RW and if not.." "0,1" newline bitfld.word 0x0 3. "PLL_ENA,This bit is added from Version 4.10 for Host Controller using PLL. This feature allows Host Controller to initialize clock generator in two steps: by Internal Clock Enable and PLL Enable and to minimize output latency [ex. SDCLK/RCLK D0lane].." "0,1" newline bitfld.word 0x0 2. "SD_CLK_ENA,The HC shall stop SDCLK when writing this bit to 0. SDCLK frequency Select can be changed when this bit is 0. Then the HC shall maintain the same clock frequency until SDCLK is stopped [Stop at SDCLK = 0]. If the HC detects the No Card state .." "0,1" newline rbitfld.word 0x0 1. "INT_CLK_STABLE,This bit is set to 1 when SD clock is stable after writing to Internal Clock Enable in this register to 1. The SD Host Driver shall wait to set SD Clock Enable until this bit is set to 1. Note: This is useful when using PLL for a clock.." "0,1" newline bitfld.word 0x0 0. "INT_CLK_ENA,This bit is set to 0 when the HD is not using the HC or the HC awaits a wakeup event. The HC should stop its internal clock to go very low power state. Still registers shall be able to be read and written. Clock starts to oscillate when this.." "0,1" group.byte 0x2E++0x1 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_timeout_control,The register sets the Data Timeout counter value" hexmask.byte 0x0 0.--3. 1. "COUNTER_VALUE,This value determines the interval by which DAT line time-outs are detected. Refer to the Data Time-out Error in the Error Interrupt Status register for information on factors that dictate time-out generation. Time-out clock frequency will.." line.byte 0x1 "SDHC_WRAP__CTL_CFG__CTLCFG_software_reset,This register is used to program the software reset for data. command and for all" bitfld.byte 0x1 2. "SWRST_FOR_DAT,Only part of data circuit is reset. The following registers and bits are cleared by this bit: Buffer Data Port Register: Buffer is cleared and Initialized. Present State register: Buffer read Enable Buffer write.." "0,1" newline bitfld.byte 0x1 1. "SWRST_FOR_CMD,Software Reset For CMD Line Only part of command circuit is reset to be able to issue a command. From Version 4.10 this bit is also used to initialize UHS-II command circuit. This reset is effective only command issuing circuit [including.." "0,1" newline bitfld.byte 0x1 0. "SWRST_FOR_ALL,This reset affects the entire HC except for the card detection circuit. Register bits of type ROC RW RW1C RWAC are cleared to 0. During its initialization the HD shall set this bit to 1 to reset the HC. The HC shall reset this bit to 0.." "0,1" group.word 0x30++0xB line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_normal_intr_sts,This register gives the status of all the interrupts" rbitfld.word 0x0 15. "ERROR_INTR,If any of the bits in the Error Interrupt Status Register are set then this bit is set. Therefore the HD can test for an error by checking this bit first. In UHS-II mode is enabled if any of the bits in the UHS-II Error.." "0,1" newline bitfld.word 0x0 14. "BOOT_COMPLETE,This status is set if the boot operation gets terminated. '0' Boot operation is not terminated '1' Boot operation is terminated" "0,1" newline bitfld.word 0x0 13. "RCV_BOOT_ACK,This status is set if the boot acknowledge is received from device. '0' Boot ack not recieved '1' Boot ack is recieved" "0,1" newline rbitfld.word 0x0 12. "RETUNING_EVENT,This status is set if Re-Tuning Request in the Present State register changes from 0 to 1. Host Controller requests Host Driver to perform re-tuning for next data transfer. Current data transfer [not large block count] can be completed.." "0,1" newline rbitfld.word 0x0 11. "INTC,This status is set if INT_C is enabled and INT_C# pin is in low level. Writing this bit to 1 does not clear this bit. It is cleared by resetting the INT_C interrupt factor." "0,1" newline rbitfld.word 0x0 10. "INTB,This status is set if INT_B is enabled and INT_B# pin is in low level. Writing this bit to 1 does not clear this bit. It is cleared by resetting the INT_B interrupt factor." "0,1" newline rbitfld.word 0x0 9. "INTA,This status is set if INT_A is enabled and INT_A# pin is in low level. Writing this bit to 1 does not clear this bit. It is cleared by resetting the INT_A interrupt factor. NOTE : INT_A INT_B and INT_C are to be implemented based on the.." "0,1" newline rbitfld.word 0x0 8. "CARD_INTR,When this status has been set and the Host Driver needs to start this interrupt service Card Interrupt Status Enable in the Normal Interrupt Status Enable register may be set to 0 in order to clear the card interrupt status latched in the Host.." "0,1" newline bitfld.word 0x0 7. "CARD_REM,This status is set if the Card Inserted in the Present State register changes from 1 to 0. When the HD writes this bit to 1 to clear this status the status of the Card Inserted in the Present State register should be confirmed. Because the card.." "0,1" newline bitfld.word 0x0 6. "CARD_INS,This status is set if the Card Inserted in the Present State register changes from 0 to 1.When the HD writes this bit to 1 to clear this status the status of the Card Inserted in the Present State register should be confirmed. Because the card.." "0,1" newline bitfld.word 0x0 5. "BUF_RD_READY,This status is set if the Buffer Read Enable changes from 0 to 1. Buffer Read Ready is set to 1 for every CMD19 execution in tuning procedure.In UHS-II mode this bit is set at FC [Flow Control] unit basis. '0' Not ready to.." "0,1" newline bitfld.word 0x0 4. "BUF_WR_READY,This status is set if the Buffer Write Enable changes from 0 to 1.In UHS-II mode this bit is set at FC [Flow Control] unit basis. '0' Not ready to write to buffer '1' Ready to write to buffer" "0,1" newline bitfld.word 0x0 3. "DMA_INTERRUPT,This status is set if the HC detects the Host DMA Buffer Boundary in the Block Size regiser. '0' No DMA Interrupt '1' DMA Interrupt is generated" "0,1" newline bitfld.word 0x0 2. "BLK_GAP_EVENT,If the Stop At Block Gap Request in the BlockGap Control Register is set this bit is set. Read Transaction: This bit is set at the falling edge of the DAT Line Active Status [When the transaction is stopped at SD Bus timing. The Read.." "0,1" newline bitfld.word 0x0 1. "XFER_COMPLETE,This bit is set when a read / write transaction is completed. SD Mode Read Transaction: This bit is set at the falling edge of Read Transfer Active Status. There are two cases in which the Interrupt is generated. The first is.." "0,1" newline bitfld.word 0x0 0. "CMD_COMPLETE,SD Mode This bit is set when we get the end bit of the command response [Except Auto CMD12 and Auto CMD23] Note: Command Time-out Error has higher priority than Command Complete. If both are set to 1 it can be considered that the.." "0,1" line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_error_intr_sts,This register gives the status of the error interrupts" bitfld.word 0x2 12. "HOST,Occurs when detecting ERROR in m_hresp[dma transaction]" "0,1" newline bitfld.word 0x2 11. "RESP,Host Controller Version 4.00 supports response error check function to avoid overhead of response error check by Host Driver during DMA execution. If Response Error Check Enable is set to 1 in the Transfer Mode register Host Controller Checks R1 or.." "0,1" newline bitfld.word 0x2 10. "TUNING,This bit is set when an unrecoverable error is detected in a tuning circuit except during tuning procedure [Occurrence of an error during tuning procedure is indicated by Sampling Select]. By detecting Tuning Error Host Driver needs to abort a.." "0,1" newline bitfld.word 0x2 9. "ADMA,This bit is set when the Host Controller detects errors during ADMA based data transfer. The state of the ADMA at an error occurrence is saved in the ADMA Error Status Register." "0,1" newline bitfld.word 0x2 8. "AUTO_CMD,Auto CMD12 and Auto CMD23 use this error status.This bit is set when detecting that any of the bits D00 to D05 in Auto CMD Error Status register has changed from 0 to 1. D07 is effective in case of Auto CMD12. Auto CMD Error Status register is.." "0,1" newline bitfld.word 0x2 7. "CURR_LIMIT,By setting the SD Bus Power bit in the Power Control Register the HC is requested to supply power for the SD Bus. If the HC supports the Current Limit Function it can be protected from an Illegal card by stopping power supply to the card in.." "0,1" newline bitfld.word 0x2 6. "DATA_ENDBIT,Occurs when detecting 0 at the end bit position of read data which uses the DAT line or the end bit position of the CRC status." "0,1" newline bitfld.word 0x2 5. "DATA_CRC,Occurs when detecting CRC error when transferring read data which uses the DAT line or when detecting the Write CRC Status having a value of other than 010." "0,1" newline bitfld.word 0x2 4. "DATA_TIMEOUT,Occurs when detecting one of following timeout conditions: 1. Busy Timeout for R1b R5b type. 2. Busy Timeout after Write CRC status 3. Write CRC status Timeout 4. Read Data Timeout." "0,1" newline bitfld.word 0x2 3. "CMD_INDEX,Occurs if a Command Index error occurs in the Command Response." "0,1" newline bitfld.word 0x2 2. "CMD_ENDBIT,Occurs when detecting that the end bit of a command response is 0." "0,1" newline bitfld.word 0x2 1. "CMD_CRC,Command CRC Error is generated in two cases. 1. If a response is returned and the Command Time-out Error is set to 0 this bit is set to 1 when detecting a CRT error in the command response 2. The HC detects a CMD line conflict by.." "0,1" newline bitfld.word 0x2 0. "CMD_TIMEOUT,Occurs only if the no response is returned within 64 SDCLK cycles from the end bit of the command. If the HC detects a CMD line conflict in which case Command CRC Error shall also be set. This bit shall be set without waiting for 64 SDCLK.." "0,1" line.word 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_normal_intr_sts_ena,This register is used to enable the normal interrupt status register fields" rbitfld.word 0x4 15. "BIT15_FIXED0,The HC shall control error Interrupts using the Error Interrupt Status Enable register." "0,1" newline bitfld.word 0x4 14. "BOOT_COMPLETE,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 13. "RCV_BOOT_ACK,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 12. "RETUNING_EVENT,0 - Masked 1 - Enabled" "0,1" newline bitfld.word 0x4 11. "INTC,If this bit is set to 0 the Host Controller shall clear the interrupt request to the System. The Host Driver may clear this bit before servicing the INT_C and may set this bit again after all interrupt requests to INT_C pin are cleared to prevent.." "0,1" newline bitfld.word 0x4 10. "INTB,If this bit is set to 0 the Host Controller shall clear the interrupt request to the System. The Host Driver may clear this bit before servicing the INT_B and may set this bit again after all interrupt requests to INT_B pin are cleared to prevent.." "0,1" newline bitfld.word 0x4 9. "INTA,If this bit is set to 0 the Host Controller shall clear the interrupt request to the System. The Host Driver may clear this bit before servicing the INT_A and may set this bit again after all interrupt requests to INT_A pin are cleared to prevent.." "0,1" newline bitfld.word 0x4 8. "CARD_INTERRUPT,If this bit is set to 0 the HC shall clear Interrupt request to the System. The Card Interrupt detection is stopped when this bit is cleared and restarted when this bit is set to 1. The HD may clear the Card Interrupt Status Enable before.." "0,1" newline bitfld.word 0x4 7. "CARD_REMOVAL,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 6. "CARD_INSERTION,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 5. "BUF_RD_READY,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 4. "BUF_WR_READY,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 3. "DMA_INTERRUPT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 2. "BLK_GAP_EVENT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 1. "XFER_COMPLETE,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 0. "CMD_COMPLETE,'0' Masked '1' Enabled" "0,1" line.word 0x6 "SDHC_WRAP__CTL_CFG__CTLCFG_error_intr_sts_ena,This register is used to enable the Error Interrupt Status register fields" bitfld.word 0x6 13.--14. "VENDOR_SPECIFIC,N/A" "0,1,2,3" newline bitfld.word 0x6 12. "HOST,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 11. "RESP,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 10. "TUNING,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 9. "ADMA,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 8. "AUTO_CMD,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 7. "CURR_LIMIT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 6. "DATA_ENDBIT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 5. "DATA_CRC,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 4. "DATA_TIMEOUT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 3. "CMD_INDEX,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 2. "CMD_ENDBIT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 1. "CMD_CRC,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 0. "CMD_TIMEOUT,'0' Masked '1' Enabled" "0,1" line.word 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_normal_intr_sig_ena,This register is used to enable the Normal Interrupt Signal register" rbitfld.word 0x8 15. "BIT15_FIXED0,The HD shall control error Interrupts using the Error Interrupt Signal Enable register." "0,1" newline bitfld.word 0x8 14. "BOOT_COMPLETE,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 13. "RCV_BOOT_ACK,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 12. "RETUNING_EVENT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 11. "INTC,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 10. "INTB,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 9. "INTA,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 8. "CARD_INTERRUPT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 7. "CARD_REMOVAL,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 6. "CARD_INSERTION,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 5. "BUF_RD_READY,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 4. "BUF_WR_READY,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 3. "DMA_INTERRUPT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 2. "BLK_GAP_EVENT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 1. "XFER_COMPLETE,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 0. "CMD_COMPLETE,'0' Masked '1' Enabled" "0,1" line.word 0xA "SDHC_WRAP__CTL_CFG__CTLCFG_error_intr_sig_ena,This register is used to enable Error Interrupt Signal register" bitfld.word 0xA 13.--14. "VENDOR_SPECIFIC,N/A" "0,1,2,3" newline bitfld.word 0xA 12. "HOST,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 11. "RESP,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 10. "TUNING,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 9. "ADMA,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 8. "AUTO_CMD,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 7. "CURR_LIMIT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 6. "DATA_ENDBIT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 5. "DATA_CRC,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 4. "DATA_TIMEOUT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 3. "CMD_INDEX,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 2. "CMD_ENDBIT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 1. "CMD_CRC,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 0. "CMD_TIMEOUT,'0' Masked '1' Enabled" "0,1" rgroup.word 0x3C++0x1 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_autocmd_err_sts,This register is used to indicate CMD12 response error of Auto CMD12 and CMD23 response error of Auto CMD 23" bitfld.word 0x0 7. "CMD_NOT_ISSUED,Setting this bit to 1 means CMD_wo_DAT is not executed due to an Auto CMD12 error [D04- D01] in this register. This bit is set to 0 when Auto CMD Error is generated by Auto CMD23." "0,1" newline bitfld.word 0x0 5. "RESP,This bit is set when Response Error Check Enable in the Transfer Mode register is set to 1 and an error is detected in R1 response of either Auto CMD12 or Auto CMD23. This status should be ignored if any bit of D00 to D04 is set to 1." "0,1" newline bitfld.word 0x0 4. "INDEX,Occurs if the Command Index error occurs in response to a command." "0,1" newline bitfld.word 0x0 3. "ENDBIT,Occurs when detecting that the end bit of command response is 0." "0,1" newline bitfld.word 0x0 2. "CRC,Occurs when detecting a CRC error in the command response." "0,1" newline bitfld.word 0x0 1. "TIMEOUT,Occurs if the no response is returned within 64 SDCLK cycles from the end bit of the command.If this bit is set to 1 the other error status bits [D04 - D02] are meaningless." "0,1" newline bitfld.word 0x0 0. "ACMD12_NOT_EXEC,If memory multiple block data transfer is not started due to command error this bit is not set because it is not necessary to issue Auto CMD12. Setting this bit to 1 means the HC cannot issue Auto CMD12 to stop memory multiple block.." "0,1" group.word 0x3E++0x1 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_host_control2,This register is used to program UHS Select Mode.UHS Select Mode.Driver Strength Select.Execute Tuning.Sampling Clock Select.Asynchronous Interrupt Enable and Preset value enable" bitfld.word 0x0 15. "PRESET_VALUE_ENA,Host Controller Version 3.00 supports this bit. As the operating SDCLK frequency and I/O driver strength depend on the Host System implementation it is difficult to determine these parameters in the Standard Host Driver. When Preset.." "0,1" newline bitfld.word 0x0 14. "ASYNCH_INTR_ENA,This bit can be set to 1 if a card support asynchronous interrupt and Asynchronous Interrupt Support is set to 1 in the Capabilities register. Asynchronous interrupt is effective when DAT[1] interrupt is used in 4-bit SD mode [and zero is.." "0,1" newline bitfld.word 0x0 13. "BIT64_ADDRESSING,This field is effective when Host Version 4.00 Enable is set to 1. Host Controller selects either of 32-bit or 64-bit addressing modes to access system memory. Whether 32-bit or 64-bit is determined by OS installed in a host.." "0,1" newline bitfld.word 0x0 12. "HOST_VER40_ENA,This bit selects either Version 3.00 compatible mode or Ver4.mode. In Version 4.00 support of 64-bit System Addressing is modified. All DMAs support 64-bit System Addressing. UHS-II supported Host Driver shall enable this bit. In Version.." "0,1" newline bitfld.word 0x0 11. "CMD23_ENA,In memory card initialization Host Driver Version 4.10 checks whether card supports CMD23 by checking a bit SCR[33]. If the card supports CMD23 [SCR[33]=1] this bit is set to 1. This bit is used to select Auto CMD23 or Auto CMD12 for ADMA3.." "0,1" newline bitfld.word 0x0 10. "ADMA2_LEN_MODE,This bit selects one of ADMA2 Length Modes either 16-bit or 26-bit." "0,1" newline bitfld.word 0x0 9. "DRIVER_STRENGTH2,This is the programmed Drive STrength output and Bit[2] of the sdhccore_drivestrength value." "0,1" newline bitfld.word 0x0 8. "UHS2_INTF_ENABLE,This bit is used to enable UHS-II Interface. Before trying to start UHS-II initialization this bit shall be set to 1. Before trying to start SD mode initialization this bit shall be set to 0. This bit is used to enable UHS-II IF.." "0,1" newline bitfld.word 0x0 7. "SAMPLING_CLK_SELECT,This bit is set by tuning procedure when Execute Tuning is cleared. Writing 1 to this bit is meaningless and ignored. Setting 1 means that tuning is completed successfully and setting 0 means that tuning is failed. Host Controller.." "0,1" newline bitfld.word 0x0 6. "EXECUTE_TUNING,This bit is set to 1 to start tuning procedure and automatically cleared when tuning procedure is completed. The result of tuning is indicated to Sampling Clock Select. Tuning procedure is aborted by writing 0 for more detail about tuning.." "0,1" newline bitfld.word 0x0 4.--5. "DRIVER_STRENGTH1,Host Controller output driver in 1.8V signaling is selected by this bit. In 3.3V signaling this field is not effective. This field can be set depends on Driver Type A C and D support bits in the Capabilities register. This bit depends.." "0,1,2,3" newline bitfld.word 0x0 3. "V1P8_SIGNAL_ENA,This bit controls voltage regulator for I/O cell. 3.3V is supplied to the card regardless of signaling voltage. Setting this bit from 0 to 1 starts changing signal voltage from 3.3V to 1.8V. 1.8V regulator output shall be stable within.." "?,1: SDR50" newline bitfld.word 0x0 0.--2. "UHS_MODE_SELECT,This field is used to select one of UHS-I modes or UHS-II mode.In case of UHS-I mode this field is effective when 1.8V Signal-ing Enable is set to 1. In case of UHS-II mode 1.8V Signaling Enable shall be set to 0. Setting of this field.." "0,1,2,3,4,5,6,7" rgroup.quad 0x40++0xF line.quad 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_capabilities,This register provides the HD with information specific to the HC implementation. The HC may implement these values as fixed or loaded from flash memory during power on initializa-tion." bitfld.quad 0x0 63. "HS400_SUPPORT,1 HS400 is Supported 0 HS400 is Not Supported" "0,1" newline bitfld.quad 0x0 60. "VDD2_1P8_SUPPORT,This field indicates that support of VDD2 on Host system." "0,1" newline bitfld.quad 0x0 59. "ADMA3_SUPPORT,This field indicates that support of ADMA3 on Host Controller." "0,1" newline bitfld.quad 0x0 57. "SPI_BLK_MODE,This field indicates whether SPI Block Mode is supported or not." "0,1" newline bitfld.quad 0x0 56. "SPI_SUPPORT,This field indicates whether SPI Mode is supported or not." "0,1" newline hexmask.quad.byte 0x0 48.--55. 1. "CLOCK_MULTIPLIER,This field indicates clock multiplier value of programmable clock generator. Refer to Clock Control register. Setting 00h means that Host Controller does not support programmable clock generator. 'FF' Clock Multiplier M = 256.." newline bitfld.quad 0x0 46.--47. "RETUNING_MODES,This field defines the re-tuning capability of a Host Controller and how to manage the data transfer length and a Re-Tuning Timer by the Host Driver. '00' Mode 1 '01' Mode 2 '10' Mode 3 '11' Reserved. There are two.." "0,1,2,3" newline bitfld.quad 0x0 45. "TUNING_FOR_SDR50,If this bit is set to 1 this Host Controller requires tuning to operate SDR50. [Tuning is always required to operate SDR104]. '0' '1'" "0,1" newline hexmask.quad.byte 0x0 40.--43. 1. "RETUNING_TIMER_CNT,This field indicates an initial value of the Re-Tuning Timer for Re-Tuning Mode 1 to 3. 0h - Get information via other source 1h = 1 seconds 2h = 2 seconds 3h = 4 seconds 4h = 8 seconds ------.." newline bitfld.quad 0x0 38. "DRIVERD_SUPPORT,This bit indicates support of Driver Type D for 1.8 Signaling. '0' Driver Type D is Not supported '1' Driver Type D is supported" "0,1" newline bitfld.quad 0x0 37. "DRIVERC_SUPPORT,This bit indicates support of Driver Type C for 1.8 Signaling. '0' Driver Type C is Not supported '1' Driver Type C is supported" "0,1" newline bitfld.quad 0x0 36. "DRIVERA_SUPPORT,This bit indicates support of Driver Type A for 1.8 Signaling. '0' Driver Type A is Not supported '1' Driver Type A is supported" "0,1" newline bitfld.quad 0x0 35. "UHS2_SUPPORT,This bit indicates whether Host controller supports UHS-II. If this bit is set to 1 1.8V VDD2 Support shall be set to 1 [Host Sys- tem shall support VDD2 power supply]. 1 UHS-II is Supported 0 UHS-II is Not Supported" "0,1" newline bitfld.quad 0x0 34. "DDR50_SUPPORT,This bit indicates whether DDR50 is supported or not." "0,1" newline bitfld.quad 0x0 33. "SDR104_SUPPORT,This bit indicates whether SDR104 is supported or not.SDR104 requires tuning." "0,1" newline bitfld.quad 0x0 32. "SDR50_SUPPORT,If SDR104 is supported this bit shall be set to 1. Bit 40 indicates whether SDR50 requires tuning or not." "0,1" newline bitfld.quad 0x0 30.--31. "SLOT_TYPE,This field indicates usage of a slot by a specific Host System. [A host controller register set is defined perslot.] Embedded slot for one device [01b] means that only one non-removable device is connected to a SD bus slot. Shared Bus Slot.." "0,1,2,3" newline bitfld.quad 0x0 29. "ASYNCH_INTR_SUPPORT,Refer to SDIO Specification Version 3.00 about asynchronous interrupt." "0,1" newline bitfld.quad 0x0 28. "ADDR_64BIT_SUPPORT_V3,IMeaning of this bit is different depends on Versions [Refer to Table 2-35 for more details]. Host Controller Version 3.00 and Ver4.10 use this bit as 64-bit System Address support for V3 mode. Host Con- troller Version 4.00 uses.." "0,1" newline bitfld.quad 0x0 27. "ADDR_64BIT_SUPPORT_V4,This bit is added from Version 4.10. Set-ting 1 to this bit indicates that the Host Controller supports 64-bit System Addressing of Version 4 mode [Refer to Table 2-35 for the summary of 64-bit sys-tem address support].. When.." "0,1" newline bitfld.quad 0x0 26. "VOLT_1P8_SUPPORT,This bit indicates whether the HC supports 1.8V." "0,1" newline bitfld.quad 0x0 25. "VOLT_3P0_SUPPORT,This bit indicates whether the HC supports 3.0V." "0,1" newline bitfld.quad 0x0 24. "VOLT_3P3_SUPPORT,This bit indicates whether the HC supports 3.3V." "0,1" newline bitfld.quad 0x0 23. "SUSP_RES_SUPPORT,This bit indicates whether the HC supports Suspend / Resume functionality. If this bit is 0 the Suspend and Resume mechanism are not supported and the HD shall not issue either Suspend / Resume commands." "0,1" newline bitfld.quad 0x0 22. "SDMA_SUPPORT,This bit indicates whether the HC is capable of using DMA to transfer data between system memory and the HC directly.Version 4.10 Host Controller shall support SDMA if ADMA2 is supported." "0,1" newline bitfld.quad 0x0 21. "HIGH_SPEED_SUPPORT,This bit indicates whether the HC and the Host System support High Speed mode and they can supply SD Clock frequency from 25Mhz to 50 Mhz [for SD]/ 20MHz to 52MHz [for MMC]." "0,1" newline bitfld.quad 0x0 19. "ADMA2_SUPPORT,'0' ADMA2 Not Supported '1' ADMA2 Supported" "0,1" newline bitfld.quad 0x0 18. "BUS_8BIT_SUPPORT,This bit indicates whether the Host Controller is capable of using 8-bit bus width mode. This bit is not effective when Slot Type is set to 10b. In this case refer to Bus Width Preset in the Shared Bus resister." "0,1" newline bitfld.quad 0x0 16.--17. "MAX_BLK_LENGTH,This value indicates the maximum block size that the HD can read and write to the buffer in the HC. The buffer shall transfer this block size without wait cycles. Three sizes can be defined as indicated below." "0,1,2,3" newline hexmask.quad.byte 0x0 8.--15. 1. "BASE_CLK_FREQ,[1]6-bit Base Clock Frequency: This mode is supported by the Host Controller Version 1.00 and 2.00. Upper 2-bit is not effective and always 0. Unit values are 1MHz. The supported clock range is 10MHz to 63MHz. '11xx xxxxb' Not.." newline bitfld.quad 0x0 7. "TIMEOUT_CLK_UNIT,This bit shows the unit of base clock frequency used to detect Data Timeout Error." "0,1" newline hexmask.quad.byte 0x0 0.--5. 1. "TIMEOUT_CLK_FREQ,This bit shows the base clock frequency used to detect Data Timeout Error. '000000' Get Information via another method 'not 0' 1KHz to 63KHz/1MHz to 63MHz" line.quad 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_max_current_cap,This register indicates maximum current capability for each voltage" hexmask.quad.byte 0x8 32.--39. 1. "VDD2_1P8V,Maximum Current for 1.8V VDD2" newline hexmask.quad.byte 0x8 16.--23. 1. "VDD1_1P8V,Maximum Current for 1.8V VDD1" newline hexmask.quad.byte 0x8 8.--15. 1. "VDD1_3P0V,Maximum Current for 3.0V VDD1" newline hexmask.quad.byte 0x8 0.--7. 1. "VDD1_3P3V,Maximum Current for 3.3V VDD1" wgroup.word 0x50++0x3 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_force_evnt_ACMD_Err_Sts,This register is not physically implemented. rather it is an address where Auto CMD Error Status register can be written." bitfld.word 0x0 7. "CMD_NOT_ISS,Force Event for Command Not Issued by AUTO CMD12 Error." "0,1" newline bitfld.word 0x0 5. "RESP,Force Event for AUTO CMD Response Error.." "0,1" newline bitfld.word 0x0 4. "INDEX,Force Event for AUTO CMD Index Error.." "0,1" newline bitfld.word 0x0 3. "ENDBIT,Force Event for AUTO CMD End Bit Error." "0,1" newline bitfld.word 0x0 2. "CRC,Force Event for AUTO CMD Timeout Error." "0,1" newline bitfld.word 0x0 1. "TIMEOUT,Force Event for AUTO CMD Timeout Error." "0,1" newline bitfld.word 0x0 0. "ACMD_NOT_EXEC,Force Event for AUTO CMD12 Not Executed." "0,1" line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_force_evnt_Err_Int_Sts,This register is not physically implemented. rather it is an address where Error Interrupt Status register can be written." bitfld.word 0x2 12. "HOST,Force Event for Host Error" "0,1" newline bitfld.word 0x2 11. "RESP,Force Event for Response Error" "0,1" newline bitfld.word 0x2 10. "TUNING,Force Event for Tuning Error." "0,1" newline bitfld.word 0x2 9. "ADMA,Force Event for ADMA Error." "0,1" newline bitfld.word 0x2 8. "AUTO_CMD,Force Event for Auto CMD Error." "0,1" newline bitfld.word 0x2 7. "CURR_LIM,Force Event for Current Limit Error." "0,1" newline bitfld.word 0x2 6. "DAT_ENDBIT,Force Event for Data End Bit Error." "0,1" newline bitfld.word 0x2 5. "DAT_CRC,Force Event for Data CRC Error." "0,1" newline bitfld.word 0x2 4. "DAT_TIMEOUT,Force Event for Data Timeout Error." "0,1" newline bitfld.word 0x2 3. "CMD_INDEX,Force Event for Command Index Error" "0,1" newline bitfld.word 0x2 2. "CMD_ENDBIT,Force Event for Command End Bit Error." "0,1" newline bitfld.word 0x2 1. "CMD_CRC,Force Event for Command CRC Error." "0,1" newline bitfld.word 0x2 0. "CMD_TIMEOUT,Force Event for CMD Timeout Error." "0,1" rgroup.byte 0x54++0x0 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_adma_err_status,When the ADMA Error interrupt occur. this register holds the ADMA State in ADMA Error States field and ADMA System Address holds address around the error descriptor" bitfld.byte 0x0 2. "ADMA_LENGTH_ERR,This error occurs in the following 2 cases. 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. Total data length can not be.." "0,1" newline bitfld.byte 0x0 0.--1. "ADMA_ERR_STATE,This field indicates the state of ADMA when error is occurred during ADMA data transfer. This field never indicates 10 because ADMA never stops in this state. D01 D00 : ADMA Error State when error occurred Contents of SYS_SDR.." "0,1,2,3" group.quad 0x58++0x7 line.quad 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_adma_sys_address,This register contains the physical address used for ADMA data transfer" hexmask.quad 0x0 0.--63. 1. "ADMA_ADDR,The 32-bit addressing Host Driver uses lower 32-bit of this register [upper 32-bit should be set to 0] and shall program Descriptor Table on 32-bit boundary andset 32-bit boundary address to this register. DMA2/3 ignores lower 2-bit of this.." rgroup.word 0x60++0xF line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value0,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x0 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x0 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x0 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value1,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x2 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x2 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x2 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value2,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x4 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x4 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x4 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0x6 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value3,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x6 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x6 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x6 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value4,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x8 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x8 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x8 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0xA "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value5,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0xA 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0xA 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0xA 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0xC "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value6,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0xC 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0xC 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0xC 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0xE "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value7,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0xE 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0xE 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0xE 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." rgroup.word 0x72++0x3 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value8,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x0 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x0 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x0 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value10,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x2 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x2 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x2 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." group.quad 0x78++0x7 line.quad 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_adma3_desc_address,The start address of Integrated DMA Descriptor is set to this register." hexmask.quad 0x0 0.--63. 1. "INTG_DESC_ADDR,The start address of Integrated DMA Descriptor is set to this register. Writing to a specific address starts ADMA3 depends on 32-bit/64-bit address-ing. The ADMA3 fetches one Descriptor Address and increments this field to indicate the.." group.word 0x80++0x1 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_block_size,This register is used to configure the number of bytes in a data block" bitfld.word 0x0 12.--14. "SDMA_BUF_BOUNDARY,When system memory is managed by paging SDMA data transfer is performed in unit of paging. A page size of sys-tem memory management is set to this field. Host Controller generates the DMA Interrupt at the page boundary and.." "0,1,2,3,4,5,6,7" newline hexmask.word 0x0 0.--11. 1. "XFER_BLK_SIZE,This register specifies the block size of data packet. SD Memory Card uses a fixed block size of 512 bytes. Vari-able block size may be used for SDIO. The maximum value is 2048 Bytes because CRC16 covers up to 2048 bytes. This register is.." group.long 0x84++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_block_count,This register is used to configure the number of data blocks" hexmask.long 0x0 0.--31. 1. "XFER_BLK_COUNT,This register is effective when Data Present is set to 1 in UHS-II Command register and is enabled when Block Count Enable is set to 1 and Block / Byte Mode is set to 0 in the UHS-II Transfer Mode register. Data transfer stops when the.." group.byte 0x88++0x0 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_command_pkt,UHS-II Command Packet image is set to this register. The maximum length is 20 bytes. The command length varies depends on a Command Packet type. The length is specified by the UHS-II Command register." hexmask.byte 0x0 0.--7. 1. "CMD_PKT_BYTE,UHS-II Command Packet image is set to this register.The command length varies depends on a Command Packet type." group.word 0x9C++0x3 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_xfer_mode,This register is used to control the operations of data transfers" bitfld.word 0x0 15. "DUPLEX_SELECT,Use of 2 lane half duplex mode is determined by Host Driver." "0,1" newline bitfld.word 0x0 14. "EBSY_WAIT,This bit is set when issuing a command which is accompanied by EBSY packet to indicate end of command execution. Busy is expected for CCMD with R1b/R5b type and DCMD with data transfer.If this bit is set to 1 Host Controller waits receiving of.." "0,1" newline bitfld.word 0x0 8. "RESP_INTR_DIS,Host Controller Version 4.00 supports response error check function to avoid overhead of response error check by Host Driver. Only R1 or R5 can be checked. If Host Driver checks response error sets this bit to 0 and waits Command.." "0,1" newline bitfld.word 0x0 7. "RESP_ERR_CHK_ENA,Host Controller Version 4.00 supports response error check function to avoid overhead of response error check by Host Driver.Only R1 or R5 can be checked. If Host Driver checks response error this bit is set to 0 and Response.." "0,1" newline bitfld.word 0x0 6. "RESP_TYPE,When response error check is enabled this bit selects either R1 or R5 response types. Two types of response checks are supported: R1 for memory and R5 for SDIO. Error Statuses Checked in R1 Bit31 OUT_OF_RANGE.." "0,1" newline bitfld.word 0x0 5. "BYTE_MODE,This bit specifies whether data transfer is in byte mode or block mode when Data Present is set to 1. This bit is effective to a command with data trans-fer." "0,1" newline bitfld.word 0x0 4. "DATA_XFER_DIR,This bit specifies direction of data trans-fer when Data Present is set to 1. This bit is effective to a command with data transfer. 0 - Read [Card to Host] 1 - Write [Host to Card]" "0,1" newline bitfld.word 0x0 1. "BLK_CNT_ENA,This bit specifies whether data transfer usesUHS-II Block Count register. If this bit is set to 1 data transfer is terminated by Block Count. Setting to UHS-II Block Count register shall be equivalent to TLEN in UHS-II Command Packet.." "0,1" newline bitfld.word 0x0 0. "DMA_ENA,This bit selects whether DMA is used or not and is effective to a command with data transfer. One of DMA types is selected by DMA Select in the Host Control 1 register." "0,1" line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_command,This register is used to program the Command for host controller" hexmask.word.byte 0x2 8.--12. 1. "PKT_LENGTH,A command packet length which is set in the UHS-II Command Packet register is set to this register. 00011b - 00000b - 3-0 Bytes [Not used] 00100b - 4 Bytes .......... ...... 10100b - 20 Bytes.." newline bitfld.word 0x2 6.--7. "CMD_TYPE,This field is used to distinguish a spe-cific command like abort command. If this field is set to 00b the UHS-II RES Packet is stored in UHS-II Response register [0B3h-0A0h]. To avoid overwrit-ing the UHS-II Response register when this filed.." "0,1,2,3" newline bitfld.word 0x2 5. "DATA_PRESENT,This bit specifies whether the command is accompanied by data packet." "0,1" newline bitfld.word 0x2 2. "SUB_COMMAND,This bit is added from Version 4.10 to distinguish a main command or sub command [Refer to Section 1.17].When issuing a main command this bit is set to 0 and when issuing a sub com-mand this bit is set to 1. Setting of this bit is checked.." "0,1" rgroup.byte 0xA0++0x0 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_response,This register is used to store received UHS-II RES Packet image" hexmask.byte 0x0 0.--7. 1. "RESP_PKT_BYTE,Host Controller saves received UHS-II RES Packet image to this register except the response of an abort command." group.byte 0xB4++0x0 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_message_select,This register is used to access internal buffer" bitfld.byte 0x0 0.--1. "MSG_SEL,Host Controller holds 4 MSG packets in FIFO buffer.One of 4 MSGs can be read from the UHS-II MSG register [0BB-0B8h] by setting this register.[Assumed for debug usage.] '00' The latest MSG '01' One MSG before '10' Two MSGs.." "0,1,2,3" rgroup.long 0xB8++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_message,This register is used to access internal buffer" hexmask.long.byte 0x0 24.--31. 1. "MSG_BYTE3,Host Controller holds 4 MSG packets in FIFO buffer. One of 4 MSGs [length is 4 bytes] can be read fromthis register by setting UHS-II MSG Select register. Usually 2 duplicate MSG packets are sent from/toUHS-II card. One of these 2 MSG packets.." newline hexmask.long.byte 0x0 16.--23. 1. "MSG_BYTE2,Host Controller holds 4 MSG packets in FIFO buffer. One of 4 MSGs [length is 4 bytes] can be read fromthis register by setting UHS-II MSG Select register. Usually 2 duplicate MSG packets are sent from/toUHS-II card. One of these 2 MSG packets.." newline hexmask.long.byte 0x0 8.--15. 1. "MSG_BYTE1,Host Controller holds 4 MSG packets in FIFO buffer. One of 4 MSGs [length is 4 bytes] can be read fromthis register by setting UHS-II MSG Select register. Usually 2 duplicate MSG packets are sent from/toUHS-II card. One of these 2 MSG packets.." newline hexmask.long.byte 0x0 0.--7. 1. "MSG_BYTE0,Host Controller holds 4 MSG packets in FIFO buffer. One of 4 MSGs [length is 4 bytes] can be read fromthis register by setting UHS-II MSG Select register. Usually 2 duplicate MSG packets are sent from/toUHS-II card. One of these 2 MSG packets.." group.word 0xBC++0x1 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_device_intr_status,This register shows receipt of INT MSG from which device" hexmask.word 0x0 0.--15. 1. "DEV_INT_STS,This register shows receipt of INT MSG from which device and is effective when INT MSG Enable is set to 1 in the UHS- II Device Select register. On receiving INT MSG from a device Host Controller saves the INT MSG to UHS-II Device Interrupt.." group.byte 0xBE++0x0 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_device_select,UHS-II Device Select Register" bitfld.byte 0x0 7. "INT_MSG_ENA,This bit enables receipt of INT MSG. If this bit is set to 1 receipt of INT MSG is informed by Card Interrupt in the Nor-mal Interrupt Status register. If this bit is set to 0 Host Con-troller ignores receipt of INT MSG and may not set the.." "0,1" newline hexmask.byte 0x0 0.--3. 1. "DEV_SEL,Host Controller holds an INT MSG packet per device. One of INT MSGs [up to 15] can be selected by this field and read from the UHS-II Device Interrupt Code Register [0BFh]. This field is effective when INT MSG Enable is set to 1. The.." rgroup.byte 0xBF++0x0 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_device_int_code,This register is effective when INT MSG Enable is set to 1 in the UHS-II Device Select register." hexmask.byte 0x0 0.--7. 1. "DEV_INTR,This register is effective when INT MSG Enable is set to 1 in the UHS-II Device Select register. Host Controller holds an INT MSG packet per device. One of INT MSGs [Code length is 1 byte] up to 15 can be read from this register by.." group.word 0xC0++0x3 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_software_reset,UHS-II Software Reset Register" bitfld.word 0x0 1. "HOST_SDTRAN_RESET,Host Driver set this bit to 1 to reset SD-TRAN layer when CMD0 is issued to Device or data transfer error occurs. This bit is cleared automatically at completionof SD-TRAN reset. If CMD0 is issued SD-TRAN Initial- ization sequence from.." "0,1" newline bitfld.word 0x0 0. "HOST_FULL_RESET,On issuing FULL_RESET CCMD Host Driver set this bit to 1 to reset Host Controller. This bit is cleared auto-matically at completion of Host Controller reset. Initial- ization sequence from PHY Initialization is required to use UHS-II.." "0,1" line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_timer_control,UHS-II Timeout Control Register" hexmask.word.byte 0x2 4.--7. 1. "DEADLOCK_TIMEOUT_CTR,This value determines the deadlock period while host expecting to receive a packet [1 second]. Tim-eout clock frequency will be generated by dividing the base clock TMCLK value by this value. When setting this register prevent.." newline hexmask.word.byte 0x2 0.--3. 1. "CMDRESP_TIMEOUT_CTR,This value determines the interval between com-mand packet and response packet [5ms]. Timeout clock frequency will be generated by dividing the base clock TMCLK value by this value. When set-ting this register prevent inadvertent.." group.long 0xC4++0xB line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_err_intr_sts,This register gives the status of all UHS-II interrupts" hexmask.long.byte 0x0 27.--31. 1. "VENDOR_SPECFIC_ERR,Vendor may use this field for vendor specific error status. '0' Interrupt is not generated '1' Vendor Specific Error" newline bitfld.long 0x0 17. "DEADLOCK_TIMEOUT,Setting of this bit means that deadlock timeout occurs. Host expects to receive a packet but not received in a specified timeout [1 second]. Timeout value is determined by the setting of Timeout Counter Value for Deadlock in UHS-II Timer.." "0,1" newline bitfld.long 0x0 16. "CMD_RESP_TIMEOUT,Setting of this bit means that RES Packet timeout occurs. Host expects to receive RES packet but not received in a specified timeout [5ms]. Timeout value is determined by the setting of Timeout Counter Value for CMD_RES in UHS-II Timer.." "0,1" newline bitfld.long 0x0 15. "ADMA2_ADMA3,Setting of this bit means that ADMA2/3 Error occurs in UHS-II mode. ADMA2/3 Error Status is indicated to the ADMA Error Status [054h] which is defined in the Host spec 3.00." "0,1" newline bitfld.long 0x0 8. "EBSY,On receiving EBSY packet if the packet indicates an error this bit is set to 1. Setting of this bit also sets Error Interrupt and Transfer Completer together in the Normal Interrupt Status register. This error check is effective for a command with.." "0,1" newline bitfld.long 0x0 7. "UNRECOVERABLE,Setting of this bit means that Unrecoverable Error is set in a packet from a device." "0,1" newline bitfld.long 0x0 5. "TID,Setting of this bit means that TID Error occurs." "0,1" newline bitfld.long 0x0 4. "FRAMING,Setting of this bit means that Framing Error occurs during a packet receiving." "0,1" newline bitfld.long 0x0 3. "CRC,Setting of this bit means that CRC Error occurs during a packet receiving." "0,1" newline bitfld.long 0x0 2. "RETRY_EXPIRED,Setting of this bit means that Retry Counter Expired Error occurs during data transfer.If this bit is set either Framing Error or CRC Error in this register shall be set." "0,1" newline bitfld.long 0x0 1. "RESP_PKT,Host Controller Version 4.00 supports response error check function to avoid overhead of response error check by Host Driver during DMA execution. If Response Error Check Enable is set to1 in the UHS- II Transfer Mode register Host Controller.." "0,1" newline bitfld.long 0x0 0. "HEADER,Setting of this bit means that Header Error occurs in a received packet." "0,1" line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_err_intr_sts_ena,This register is used to enable the UHS-II Error Interrupt Status register fields" hexmask.long.byte 0x4 27.--31. 1. "VENDOR_SPECFIC,Setting this bit to 1 enables setting of Vendor Specific Error bit in the UHS-II Error Interrupt Status register. 0h - Status is Disabled 1h - Status is Enabled" newline bitfld.long 0x4 17. "DEADLOCK_TIMEOUT,Setting this bit to 1 enables setting of Timeout for Dead lock bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 16. "CMD_RESP_TIMEOUT,Setting this bit to 1 enables setting of Timeout for CMD_RES bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 15. "ADMA2_ADMA3,Setting this bit to 1 enables setting of ADMA2/3 Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 8. "EBSY,Setting this bit to 1 enables setting of EBSY Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 7. "UNRECOVERABLE,Setting this bit to 1 enables setting of Unrecoverable Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 5. "TID,Setting this bit to 1 enables setting of TID Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 4. "FRAMING,Setting this bit to 1 enables setting of Framing Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 3. "CRC,Setting this bit to 1 enables setting of CRC Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 2. "RETRY_EXPIRED,Setting this bit to 1 enables setting of Retry Expired bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 1. "RESP_PKT,Setting this bit to 1 enables setting of RES Packet Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 0. "HEADER,Setting this bit to 1 enables setting of Header Error bit in the UHS-II Error Interrupt Status Register." "0,1" line.long 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_err_intr_sig_ena,This register is used to generate UHS-II Interrupt signals" hexmask.long.byte 0x8 27.--31. 1. "VENDOR_SPECFIC,Setting of a bit to 1 in this field enables generating interrupt signal when corre-spondent bit of Vendor Specific Error is set in the UHS-II Error Interrupt Status Register. 0h - Interrupt Signal is Disabled 1h -.." newline bitfld.long 0x8 17. "DEADLOCK_TIMEOUT,Setting this bit to 1 enables generating interrupt signal when Timeout for Dead lock bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 16. "CMD_RESP_TIMEOUT,Setting this bit to 1 enables generating interrupt signal when Timeout for CMD_RES bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 15. "ADMA2_ADMA3,Setting this bit to 1 enables generating interrupt signal when ADMA2/3 Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 8. "EBSY,Setting this bit to 1 enables generating interrupt signal when EBSY Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 7. "UNRECOVERABLE,Setting this bit to 1 enables generating interrupt signal when Unrecoverable Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 5. "TID,Setting this bit to 1 enables generating interrupt signal when TID Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 4. "FRAMING,Setting this bit to 1 enables generating interrupt signal when Framing Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 3. "CRC,Setting this bit to 1 enables generating interrupt signal when CRC Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 2. "RETRY_EXPIRED_SIG_ENA,Setting this bit to 1 enables generating interrupt signal when Retry Expired bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 1. "RESP_PKT,Setting this bit to 1 enables generating interrupt signal when RES Packet Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 0. "HEADER,Setting this bit to 1 enables generating interrupt signal when Header Error bit is set in the UHS-II Error Interrupt Status Register." "0,1" rgroup.word 0xE0++0x9 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_settings_ptr,This register is pointer for UHS-II settings." hexmask.word 0x0 0.--15. 1. "UHS2_SETTINGS_PTR,Pointer for UHS-II Settings Register" line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_capabilities_ptr,This register is pointer for UHS-II Capabilities Register." hexmask.word 0x2 0.--15. 1. "UHS2_CAPABILITIES_PTR,Pointer for UHS-II Capabilities Register" line.word 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_test_ptr,This register is pointer for UHS-II Test Register." hexmask.word 0x4 0.--15. 1. "UHS2_TEST_PTR,Pointer for UHS-II Test Register" line.word 0x6 "SDHC_WRAP__CTL_CFG__CTLCFG_shared_bus_ctrl_ptr,This register is pointer for UHS-II Shared Bus Control Register." hexmask.word 0x6 0.--15. 1. "SHARED_BUS_CTRL_PTR,Pointer for Shared Bus Control Register" line.word 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_vendor_specfic_ptr,This register is pointer for UHS-II Vendor Specific Pointer Register." hexmask.word 0x8 0.--15. 1. "VENDOR_SPECFIC_PTR,Pointer for Vendor Specific Area" group.long 0xF4++0x7 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_boot_timeout_control,This is used to program the boot timeout value counter" hexmask.long 0x0 0.--31. 1. "DATA_TIMEOUT_CNT,This value determines the interval by which DAT line time-outs are detected during boot operation for eMMC4.4 card.The value is in number of sd clock." line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_vendor_register,Vendor register added for autogate sdclk. cmd11 power down timer. enhancedstrobe and eMMC hardware reset" bitfld.long 0x4 16. "AUTOGATE_SDCLK,If this bit is set SD CLK will be gated automatically when there is no transfer. This is applicable only for Embedded Device" "0,1" newline hexmask.long.word 0x4 2.--15. 1. "CMD11_PD_TIMER,cmd11 power-down timer value" newline bitfld.long 0x4 1. "EMMC_HW_RESET,Hardware reset signal is generared for eMMC card when this bit is set" "0,1" newline bitfld.long 0x4 0. "ENHANCED_STROBE,This bit enables the enhanced strobe logic of the Host Controller" "0,1" rgroup.word 0xFC++0x3 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_slot_int_sts,This register is used to read the interrupt signal for each slot." hexmask.word.byte 0x0 0.--7. 1. "INTR_SIG,These status bits indicate the logical OR of Interrupt signal and Wakeup signal for each slot." line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_host_controller_ver,This register is used to read the vendor version number and specification version number" hexmask.word.byte 0x2 8.--15. 1. "VEN_VER_NUM,The Vendor Version Number is set to 0x10 [1.0]" newline hexmask.word.byte 0x2 0.--7. 1. "SPEC_VER_NUM,This status indicates the Host Controller Spec. Version. The upper and lower 4-bits indicate the version. 00h - SD Host Controller Specification Version 1.00 01h - SD Host Controller Specification Version 2.00 Including the.." group.long 0x100++0x7 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_gen_settings,Start Address of General settings is pointed by Pointer for UHS-II Setting Register." hexmask.long.byte 0x0 8.--13. 1. "NUMLANES,The lane configuration of a Host System is set to this field depends on the capability among Host Controller and connected devices. 2 Lanes FD mode is mandatory and the others modes are optional. 0000b - 2 Lanes FD or 2L-HD 0001b -.." newline bitfld.long 0x0 0. "POWER_MODE,This field determines either Fast mode or Low Power mode.Host and all devices connected to the host shall be set to the same mode." "0,1" line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_phy_settings,Start Address of PHY settings is pointed by Pointer for UHS-II Setting Register." hexmask.long.byte 0x4 20.--23. 1. "N_LSS_DIR,The largest value of N_LSS_DIR capabilities among the Host Controller and Connected Devices is set to this field. 0h - 8 x16 LSS 1h - 8 x 1 LSS 2h - 8 x 2 LSS 3h - 8 x 3 LSS ...... ......" newline hexmask.long.byte 0x4 16.--19. 1. "N_LSS_SYN,The largest value of N_LSS_SYN capabilities among the Host Controller and Connected Devices is set to this field. 0h - 4 x16 LSS 1h - 4 x 1 LSS 2h - 4 x 2 LSS 3h - 4 x 3 LSS ...... ......" newline bitfld.long 0x4 15. "HIBERNATE_ENA,After checking card capability of Hibernate mode if all devices support Hibernate mode this bit may be set. This bit determines whether Host remains in Dormant state or goes to Hibernate state. In Hibernate mode VDD1 Power may be off." "0,1" newline bitfld.long 0x4 6.--7. "SPEED_RANGE,PLL multiplier is selected by this field.Change of PLL Multiplier is not effective immediately and is applied from exiting Dormant State. '00' Range A [Default] '01' Range B '10' Reserved '11' Reserved" "0,1,2,3" group.quad 0x108++0x7 line.quad 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_lnk_trn_settings,Start Address of LINK/TRAN settings is pointed by Pointer for UHS-II Setting Register." hexmask.quad.byte 0x0 32.--39. 1. "N_DATA_GAP,The largest value of N_DATA_GAP capabilities among the Host Controller and Connected Devices is set to this field. 00h - No Gap 01h - 1 LSS 02h - 2 LSS 03h - 3 LSS ...... ...... FFh - 255.." newline bitfld.quad 0x0 16.--17. "RETRY_COUNT,Data Burst retry count is set to this field. '00' Retry Disabled '01' 1 time '10' 2 times '11' 3 times" "0,1,2,3" newline hexmask.quad.byte 0x0 8.--15. 1. "HOST_NFCU,Host Driver sets the number of blocks in Data Burst [Flow Control] to this field.The value shall be smaller than or equal to N_FCU capabilities among the Host Controller and connected card and devices. Setting 1 to 4 blocks is recommended.." rgroup.long 0x110++0x7 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_gen_cap,Start Address of General Capabilities is pointed by Pointer for UHS-II Host Capabilities Register." bitfld.long 0x0 22.--23. "CORECFG_UHS2_BUS_TOPLOGY,This field indicates one of bus topologies configured by a Host system. '00' P2P Connection '01' Ring Connection '10' HUB Connection '11' HUB is connected in Ring" "0,1,2,3" newline hexmask.long.byte 0x0 18.--21. 1. "CORECFG_UHS2_MAX_DEVICES,This field indicates the maximum number of devices supported by the Host Controller. 0h - Not used 1h - 1 Devices 2h - 2 Devices ..... ....... Fh - 15 Devices" newline bitfld.long 0x0 16.--17. "DEVICE_TYPE,This field indicates device type configured by a Host system. '00' Removable Card[P2P] '01' Embedded Devices '10' Embedded Devices+Removable Card '11' Reserved" "0,1,2,3" newline bitfld.long 0x0 14. "CFG_64BIT_ADDRESSING,This field indicates support of 64-bit addressing by the Host Controller. '0' 32-bit Addressing is supported '1' 32-bit and 64-bit Addressing is supported" "0,1" newline hexmask.long.byte 0x0 8.--13. 1. "NUM_LANES,This field indicates support of lanes by the Host Controller.0 mean not supported and 1 means supported. D08 - 2L-HD D09 - 2D1U-FD D10 - 1D2U-FD D11 - 2D2U-FD D12 - Reserved D13 - Reserved" newline hexmask.long.byte 0x0 4.--7. 1. "GAP,This field indicates the maximum capability of host power supply for a group configured by a Host system.This field is used to set the argument of DEVICE_INIT CCMD 0h -Not used 1h - 360 mW 2h - 720 mW ....." newline hexmask.long.byte 0x0 0.--3. 1. "DAP,This field indicates the maximum capability of host power supply for a device configured by a Host system.This field is used to set the argument of DEVICE_INIT CCMD 0h -360 mW [Default] 1h - 360 mW 2h - 720 mW.." line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_phy_cap,Start Address of PHY Capabilities is pointed by Pointer for UHS-II Host Capabilities Register." hexmask.long.byte 0x4 20.--23. 1. "N_LSS_DIR,This field indicates the minimum N_LSS_DIR required by the Host Controller. 0h - 4 x16 LSS 1h - 4 x 1 LSS 2h - 4 x 2 LSS 3h - 4 x 3 LSS ...... ...... Fh - 4 x 15 LSS" newline hexmask.long.byte 0x4 16.--19. 1. "N_LSS_SYN,This field indicates the minimum N_LSS_SYN required by the Host Controller. 0h - 4 x16 LSS 1h - 4 x 1 LSS 2h - 4 x 2 LSS 3h - 4 x 3 LSS ...... ...... Fh - 4 x 15 LSS" newline bitfld.long 0x4 6.--7. "SPEED_RANGE,This field indicates supported Speed Range by the Host Controller '00' Range A [Default] '01' Range A and Range B '10' Reserved '11' Reserved" "0,1,2,3" rgroup.quad 0x118++0x7 line.quad 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_lnk_trn_cap,Start Address of LINK/TRAN settings is pointed by Pointer for UHS-II Capabilities Register." hexmask.quad.byte 0x0 32.--39. 1. "N_DATA_GAP,This field indicates the minimum number of data gap[DIDL] supported by the Host Controller. 00h - No Gap 01h - 1 LSS 02h - 2 LSS 03h - 3 LSS ...... ...... FFh - 255 LSS" newline hexmask.quad.word 0x0 20.--31. 1. "MAX_BLK_LENGTH,This field indicates maximum block length by the Host Controller. 000h - Not Used 001h - 1 byte 002h - 2 bytes ...... ...... 200h - 512 bytes ...... ......" newline hexmask.quad.byte 0x0 8.--15. 1. "N_FCU,This field indicates maximum the number of blocks in a Flow Control unit by the Host Controller.This value is determined by supported buffer size. 00h - 256 Blocks 01h - 1 Block 02h - 2 Block 03h - 3 Block.." wgroup.long 0x120++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_force_UHSII_Err_Int_Sts,This register is not physically implemented. rather it is an address where UHS-II Error Interrupt Status register can be written." hexmask.long.byte 0x0 27.--31. 1. "VENDOR_SPECIFIC,Force Event for Vendor Specific Error 0h - Not Affected 1h - Vendor Specific Error Status is set" newline bitfld.long 0x0 17. "TIMEOUT_DEADLOCK,Setting this bit forces the Host Controller to set Timeout for Deadlock in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 16. "TIMEOUT_CMD_RES,Setting this bit forces the Host Controller to set Timeout for CMD_RES in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 15. "ADMA,Setting this bit forces the Host Controller to set ADMA Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 8. "EBSY,Setting this bit forces the Host Controller to set EBSY Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 7. "UNRECOVERABLE,Setting this bit forces the Host Controller to set Unrecover-able Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 5. "TID,Setting this bit forces the Host Controller to set TID Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 4. "FRAMING,Setting this bit forces the Host Controller to set Framing Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 3. "CRC,Setting this bit forces the Host Controller to set CRC Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 2. "RETRY_EXPIRED,Setting this bit forces the Host Controller to set Retry Expired in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 1. "RES_PKT,Setting this bit forces the Host Controller to set RES Packet Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 0. "HEADER,Setting this bit forces the Host Controller to set Header Error in the UHS-II Error Interrupt Status register." "0,1" rgroup.long 0x200++0x7 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_version,This register provides information about the version of the eMMC CQ standard which is 285 implemented by the CQE. in BCD format. The current version is rev 5.1" hexmask.long.byte 0x0 8.--11. 1. "EMMC_MAJOR_VER_NUM,eMMC Major Version Number [digit left of decimal point] in BCD format" newline hexmask.long.byte 0x0 4.--7. 1. "EMMC_MINOR_VER_NUM,eMMC Minor Version Number [digit right of decimal point] in BCD format" newline hexmask.long.byte 0x0 0.--3. 1. "EMMC_VERSION_SUFFIX,eMMC Version Suffix [2nd digit right of decimal point] in BCD format" line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_capabilities,This register is reserved for capability indication." hexmask.long.byte 0x4 12.--15. 1. "CF_MUL,Internal Timer Clock Frequency Multiplier [ITCFMUL] ITCFMUL and ITCFVAL indicate the frequency of the clock used for interrupt coalescing timer and for deter-mining the SQS polling period. See ITCFVAL definition for details." newline hexmask.long.word 0x4 0.--9. 1. "CF_VAL,Internal Timer Clock Frequency Value [ITCFVAL] TCFMUL and ITCFVAL indicate the frequency of the clock used for interrupt coalescing timer and for deter-mining the polling period when using periodic SEND_QUEUE_ STATUS [CMD13] polling." group.long 0x208++0x27 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_config,This register controls CQE behavior affecting the general operation of command queueing 290 module or operation of multiple tasks in the same time." bitfld.long 0x0 12. "DCMD_ENA,Direct Command [DCMD] Enable This bit indicates to the hardware whether the Task Descriptor in slot #31 of the TDL is a Data Transfer Task Descriptor or a Direct Command Task Descriptor. CQE uses this bit when a task is issued in slot.." "0: Task descriptor in slot #31 is a Data Transfer..,1: Task descriptor in slot #31 is a DCMD Task.." newline bitfld.long 0x0 8. "TASK_DESC_SIZE,Task Descriptor Size This bit indicates whether the task descriptor size is 128 bits or 64 bits as detailed in Data Structures section. This bit can only be configured when Command Queueing Enable bit is 0 [command queueing is.." "0: Task descriptor size is 64 bits,1: Task descriptor size is 128 bits" newline bitfld.long 0x0 0. "CQ_ENABLE,Command Queueing Enable Software shall write 1 this bit when in order to enable command queueing mode [i.e. enable CQE]. When this bit is 0 CQE is disabled and software controls the eMMC bus using the legacy eMMC host controller." "0,1" line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_control,This register controls CQE behavior affecting the general operation of command queueing 293 module or operation of multiple tasks in the same time." bitfld.long 0x4 8. "CLEAR_ALL_TASKS,Clear All Tasks Software shall write 1 this bit when it wants to clear all the tasks sent to the device. This bit can only be written when CQE is in halt state [i.e.Halt bit is 1]. When software writes 1 the value of the.." "0,1" newline bitfld.long 0x4 0. "HALT_BIT,Halt Host software shall write 1 to the bit when it wants to acquire software control over the eMMC bus and disable CQE from issuing commands on the bus. For example issuing a Discard Task command [CMDQ_TASK_MGMT] When software writes 1 .." "0,1" line.long 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_intr_sts,This register indicates pending interrupts that require service. Each bit in this registers is asserted 296 in response a specific event. only if the respective bit is set in CQ ISTE register." bitfld.long 0x8 4. "TASK_ERROR,Task Error Interrupt [TERR] This bit is asserted when task error is detected due to invalid task descriptor" "0,1" newline bitfld.long 0x8 3. "TASK_CLEARED,Task Cleared [TCL] This status bit is asserted [if CQISTE.TCL=1] when a task clear operation is completed by CQE. The com-pleted task clear operation is either an individual task clear [CQTCLR] or clearing of all tasks [CQCTL]." "0,1" newline bitfld.long 0x8 2. "RESP_ERR_DET,Response Error Detected Interrupt [RED] This status bit is asserted [if CQISTE.RED=1] when a response is received with an error bit set in the device status field. The contents of the device status field are listed in Section.." "0,1" newline bitfld.long 0x8 1. "TASK_COMPLETE,Task Complete Interrupt [TCC] This status bit is asserted [if CQISTE.TCC=1] when atleast one of the following two conditions are met: [1] A task is completed and the INT bit is set in its Task Descriptor [2] Interrupt caused by.." "0,1" newline bitfld.long 0x8 0. "HALT_COMPLETE,Halt Complete Interrupt [HAC] This status bit is asserted [if CQISTE.HAC=1] when halt bit in CQCTL register transitions from 0 to 1 indicating that host controller has completed its current ongoing task and has entered halt state." "0,1" line.long 0xC "SDHC_WRAP__CTL_CFG__CTLCFG_cq_intr_sts_ena,This register enables and disables the reporting of the corresponding interrupt to host soft-ware in 299 CQIS register. When a bit is set ( 1 ) and the corresponding interrupt c -ondition is active. then.." bitfld.long 0xC 4. "TASK_ERROR,Task Error Interrupt Status Enable 1 = CQIS.TERR will be set when its interrupt condition is active 0 = CQIS.TERR is disabled" "0: CQIS,1: CQIS" newline bitfld.long 0xC 3. "TASK_CLEARED,Task Cleared Status Enable [TCL] 1 = CQIS.TCL will be set when its interrupt condition is active 0 = CQIS.TCL is disabled" "0: CQIS,1: CQIS" newline bitfld.long 0xC 2. "RESP_ERR_DET,Response Error Detected Status Enable [RED] 1 = CQIS.RED will be set when its interrupt condition is active 0 = CQIS.RED is disabled" "0: CQIS,1: CQIS" newline bitfld.long 0xC 1. "TASK_COMPLETE,Task Complete Status Enable [TCC] 1 = CQIS.TCC will be set when its interrupt condition is active 0 = CQIS.TCC is disabled" "0: CQIS,1: CQIS" newline bitfld.long 0xC 0. "HALT_COMPLETE,Halt Complete Status Enable [HAC] 1 = CQIS.HAC will be set when its interrupt condition is active 0 = CQIS.HAC is disabled" "0: CQIS,1: CQIS" line.long 0x10 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_intr_sig_ena,This register enables and disables the generation of interrupts to host software. When a bit is set 304 ( 1 ) and the corresponding bit in CQIS is set. then an interrupt is gene -rated. Interrupt sources.." bitfld.long 0x10 4. "TASK_ERROR,Task Error Interrupt Signal Enable [TERR] When set and CQIS.TERR is asserted the CQE shall generate an interrupt" "0,1" newline bitfld.long 0x10 3. "TASK_CLEARED,Task Cleared Signal Enable [TCL] When set and CQIS.TCL is asserted the CQE shall generate an interrupt" "0,1" newline bitfld.long 0x10 2. "RESP_ERR_DET,Response Error Detected Signal Enable [TCC] When set and CQIS.RED is asserted the CQE shall generate an interrupt" "0,1" newline bitfld.long 0x10 1. "TASK_COMPLETE,Task Complete Signal Enable [TCC] When set and CQIS.TCC is asserted the CQE shall generate an interrupt" "0,1" newline bitfld.long 0x10 0. "HALT_COMPLETE,Halt Complete Signal Enable [HAC] When set and CQIS.HAC is asserted the CQE shall generate an interrupt" "0,1" line.long 0x14 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_intr_coalescing,This register controls the interrupt coalescing feature." bitfld.long 0x14 31. "CQINTCOALESC_ENABLE,When set to 0 by software command responses are neither counted nor timed. Interrupts are still triggered by completion of tasks with INT=1 in the Task Descriptor. When set to 1 the interrupt coalescing mechanism is enabled.." "0,1" newline rbitfld.long 0x14 20. "IC_STATUS,This bit indicates to software whether any tasks [with INT=0] have completed and counted towards interrupt coalescing [i.e. ICSB is set if and only if IC counter > 0]. Bit Value Description 1 = At least one task completion has been.." "0: No task completions have occurred since last..,1: At least one task completion has been counted.." newline hexmask.long.byte 0x14 8.--12. 1. "CTR_THRESHOLD,Interrupt Coalescing Counter Threshold [ICCTH]: Software uses this field to configure the number of task completions [only tasks with INT=0 in the Task Descriptor] which are required in order to generate an interrupt. Counter.." newline hexmask.long.byte 0x14 0.--6. 1. "TIMEOUT_VAL,Interrupt Coalescing Timeout Value [ICTOVAL]: Software uses this field to configure the maximum time allowed between the completion of a task on the bus and the generation of an interrupt. Timer Operation: The timer is reset by.." line.long 0x18 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_tdl_base_addr,This register is used for configuring the lower 32 bits of the byte address of the head of the Task 312 Descriptor List in the host memory." hexmask.long 0x18 0.--31. 1. "CQTDLBA_LO,Task Descriptor List Base Address [TDLBA] This register stores the LSB bits [bits 31:0] of the byte address of the head of the Task Descriptor List in system memory. The size of the task descriptor list is 32 * [Task Descrip-tor.." line.long 0x1C "SDHC_WRAP__CTL_CFG__CTLCFG_cq_tdl_base_addr_upbits,This register is used for configuring the upper 32 bits of the byte address of the head of the Task 316 Descriptor List in the host memory." hexmask.long 0x1C 0.--31. 1. "CQTDLBA_HI,Task Descriptor List Base Address [TDLBA] This register stores the MSB bits [bits 63:32] of the byte address of the head of the Task Descriptor List in system memory. The size of the task descriptor list is 32 * [Task Descrip-tor.." line.long 0x20 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_task_door_bell,Using this register. software triggers CQE to process a new task." hexmask.long 0x20 0.--31. 1. "CQTDB_VAL,Command Queueing Task Doorbell Software shall configure TDLBA and TDLBAU and enable CQE in CQCFG before using this register. Writing 1 to bit n of this register triggers CQE to start pro-cessing the task encoded in slot n of the TDL." line.long 0x24 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_task_comp_notif,This register is used by CQE to notify software about completed tasks." hexmask.long 0x24 0.--31. 1. "CQTCN_VAL,CQE shall set bit n of this register [at the same time it clears bit n of CQTDBR] when a task execution is com-pleted [with success or error]. When receiving interrupt for task completion software may read this register to know which tasks.." rgroup.long 0x230++0x7 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_dev_queue_status,This register stores the most recent value of the device s queue status." hexmask.long 0x0 0.--31. 1. "CQDQ_STS,Every time the Host controller receives a queue status register [QSR] from the device it updates this register with the response of status command i.e. the devices queue status." line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_dev_pending_tasks,This register indicates to software which tasks are queued in the device. awaiting execution." hexmask.long 0x4 0.--31. 1. "CQDP_TSKS,Bit n of this register is set if and only if QUEUED_TASK_PARAMS [CMD44] and QUEUED_TASK_ADDRESS [CMD45] were sent for this specific task and if this task hasnt been executed yet.CQE shall set this bit after receiving a successful response for.." group.long 0x238++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_task_clear,This register is used for removing an outstanding task in the CQE. 327. The register should be used only when CQE is in Halt state." hexmask.long 0x0 0.--31. 1. "CQTCLR,Writing 1 to bit n of this register orders CQE to clear a task which software has previously issued.This bit can only be written when CQE is in Halt state as indicated in CQCFG register Halt bit.When software writes 1 to a bit in this.." group.long 0x240++0x7 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_send_sts_config1,The register controls the when SEND_QUEUE_STATUS commands are sent." hexmask.long.byte 0x0 16.--19. 1. "CMD_BLK_CNTR,This field indicates to CQE when to send SEND_QUEUE_STATUS [CMD13] command to inquire the status of the devices task queue.A value of n means CQE shall send status command on the CMD line during the transfer of data block BLOCK_CNT-n on.." newline hexmask.long.word 0x0 0.--15. 1. "CMD_IDLE_TIMER,This field indicates to CQE the polling period to use when using periodic SEND_QUEUE_STATUS [CMD13] polling.Periodic polling is used when tasks are pending in the device but no data transfer is in progress. When a SEND_QUEUE_STATUS.." line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_send_sts_config2,This register is used for 333 configuring RCA field in SEND_QUEUE_STATUS command argu-ment." hexmask.long.word 0x4 0.--15. 1. "QUEUE_RCA,This field provides CQE with the contents of the 16-bit RCA field in SEND_QUEUE_ STATUS [CMD13] com-mand. argument. CQE shall copy this field to bits 31:16 of the argument when transmitting SEND_ QUEUE_STATUS [CMD13] command." rgroup.long 0x248++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_dcmd_response,This register is used for passing the response of a DCMD task to software." hexmask.long 0x0 0.--31. 1. "LAST_RESP,This register contains the response of the command generated by the last direct-command [DCMD] task which was sent.CQE shall update this register when it receives the response for a DCMD task. This register is considered valid only after bit 31.." group.long 0x250++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_resp_err_mask,This register controls the generation of Response Error Detection (RED) interrupt." hexmask.long 0x0 0.--31. 1. "CQRMEM,This bit is used as in interrupt mask on the device status filed which is received in R1/R1b responses.Bit Value Description [for any bit i]:1 = When a R1/R1b response is received with bit i in the device status set a RED interrupt is generated.." rgroup.long 0x254++0xF line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_task_err_info,This register is updated by CQE when an error occurs on data or command related to a task activity." bitfld.long 0x0 31. "DATERR_VALID,Data Transfer Error Fields Valid This bit is updated when an error is detected by CQE or indicated by eMMC controller. If a data transfer is in progress when the error is detected/indicated the bit is set to 1. If a no.." "0,1" newline hexmask.long.byte 0x0 24.--28. 1. "DATERR_TASK_ID,Data Transfer Error Task ID This field indicates the ID of the task which was executed on the data lines when an error occurred. The field is updated if a data transfer is in progress when an error is detected by CQE or.." newline hexmask.long.byte 0x0 16.--21. 1. "DATERR_CMD_INDEX,Data Transfer Error Command Index This field indicates the index of the command which was executed on the data lines when an error occurred. The index shall be set to EXECUTE_READ_TASK[CMD46] or EXECUTE_WRITE_TASK [CMD47].." newline bitfld.long 0x0 15. "RESP_MODE_VALID,Response Mode Error Fields Valid This bit is updated when an error is detected by CQE or indicated by eMMC controller. If a command transaction is in progress when the error is detected/indicated the bit is set to 1." "0,1" newline hexmask.long.byte 0x0 8.--12. 1. "RESP_MODE_TASK_ID,Response Mode Error Task ID This field indicates the ID of the task which was executed on the command line when an error occurred. The field is updated if a command transaction is in progress when an error is detected by.." newline hexmask.long.byte 0x0 0.--5. 1. "RESP_MODE_CMD_INDEX,Response Mode Error Command Index This field indicates the index of the command which was executed on the command line when an error occurred. The field is updated if a command transaction is in progress when an error is.." line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_cmd_resp_index,This register stores the index of the last received command response." hexmask.long.byte 0x4 0.--5. 1. "LAST_CRI,This field stores the index of the last received command response. CQE shall update the value every time a com-mand response is received." line.long 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_cmd_resp_arg,This register stores the index of the last received command response." hexmask.long 0x8 0.--31. 1. "LAST_CRA,This field stores the argument of the last received com-mand. CQE shall update the value every time a com-mand response is received." line.long 0xC "SDHC_WRAP__CTL_CFG__CTLCFG_cq_error_task_id,CQ Error Task ID Register" hexmask.long.byte 0xC 0.--4. 1. "TERR_ID,Task Error ID" tree.end base ad:0x0 tree "MMCSD1_ECC_AGGR" tree "MMCSD1_ECC_AGGR_RXMEM (MMCSD1_ECC_AGGR_RXMEM)" base ad:0x708000 rgroup.long 0x0++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_RXMEM__CFG__REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "RXMEM_PEND,Interrupt Pending Status for rxmem_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "RXMEM_ENABLE_SET,Interrupt Enable Set Register for rxmem_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "RXMEM_ENABLE_CLR,Interrupt Enable Clear Register for rxmem_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_RXMEM__CFG__REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "RXMEM_PEND,Interrupt Pending Status for rxmem_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "RXMEM_ENABLE_SET,Interrupt Enable Set Register for rxmem_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "RXMEM_ENABLE_CLR,Interrupt Enable Clear Register for rxmem_pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECC_AGGR_RXMEM__CFG__REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECC_AGGR_RXMEM__CFG__REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECC_AGGR_RXMEM__CFG__REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "MMCSD1_ECC_AGGR_TXMEM (MMCSD1_ECC_AGGR_TXMEM)" base ad:0x709000 rgroup.long 0x0++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_TXMEM__CFG__REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "TXMEM_PEND,Interrupt Pending Status for txmem_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "TXMEM_ENABLE_SET,Interrupt Enable Set Register for txmem_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "TXMEM_ENABLE_CLR,Interrupt Enable Clear Register for txmem_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_TXMEM__CFG__REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "TXMEM_PEND,Interrupt Pending Status for txmem_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "TXMEM_ENABLE_SET,Interrupt Enable Set Register for txmem_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "TXMEM_ENABLE_CLR,Interrupt Enable Clear Register for txmem_pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECC_AGGR_TXMEM__CFG__REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECC_AGGR_TXMEM__CFG__REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECC_AGGR_TXMEM__CFG__REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree.end tree "MMCSD1_SS_CFG (MMCSD1_SS_CFG)" base ad:0xFA08000 rgroup.long 0x0++0x3 line.long 0x0 "REGS__SS_CFG__SSCFG_SS_ID_REV_REG,The Subsystem ID and Revision Register contains the module ID. major. and minor revisions for the subsystem" hexmask.long.word 0x0 16.--31. 1. "MOD_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,RTL version" newline bitfld.long 0x0 8.--10. "MAJ_REV,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MIN_REV,Minor revision" group.long 0x10++0x37 line.long 0x0 "REGS__SS_CFG__SSCFG_CTL_CFG_1_REG,The Controller Config 1 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.byte 0x0 24.--29. 1. "TUNINGCOUNT,Configures the Number of Taps (Phases) of the RX clock that is supported. The Tuning State machine uses this information to select one of the Taps (Phases) of the RX clock during the Tuning Procedure." bitfld.long 0x0 20. "ASYNCWKUPENA,Determines the Wakeup Signal Generation Mode. 0: Synchronous Wakeup Mode: The xin_clk has to be running for this mode. The Card Insertion/Removal/Interrupt events are detected synchronously on the xin_clk and the Wakeup Event is generated." "0: Synchronous Wakeup Mode: The xin_clk has to be..,1: Asyncrhonous Wakeup Mode: The xin_clk and the.." newline hexmask.long.byte 0x0 12.--15. 1. "CQFMUL,FMUL for the CQ Internal Timer Clock Frequency" hexmask.long.word 0x0 0.--9. 1. "CQFVAL,FVAL for the CQ Internal Timer Clock Frequency" line.long 0x4 "REGS__SS_CFG__SSCFG_CTL_CFG_2_REG,The Controller Config 2 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." bitfld.long 0x4 30.--31. "SLOTTYPE,Slot Type. Should be set based on the final product usage. 00 - Removable SCard Slot 01 - Embedded Slot for One Device 10 - Shared Bus Slot 11 - Reserved." "0,1,2,3" bitfld.long 0x4 29. "ASYNCHINTRSUPPORT,Asynchronous Interrupt Support. Suggested Value is 1'b1 (The Core supports monitoring of Asynchronous Interrupt)." "0,1" newline bitfld.long 0x4 26. "SUPPORT1P8VOLT,1.8V Support. Suggested Value is 1'b1 (The 1.8 Volt Switching is supported by Core). Optionally can be set to 1'b0 if the application doesn't want 1.8V switching (SD3.0)." "0,1" bitfld.long 0x4 25. "SUPPORT3P0VOLT,3.0V Support. Should be set based on whether 3.0V is supported on the SD Interface." "0,1" newline bitfld.long 0x4 24. "SUPPORT3P3VOLT,3.3V Support. Suggested Value is 1'b1 as the 3.3 V is the default voltage on the SD Interface." "0,1" bitfld.long 0x4 23. "SUSPRESSUPPORT,Suspend/Resume Support. Suggested Value is 1'b1 (The Suspend/Resume is supported by Core). Optionally can be set to 1'b0 if the application doesn't want to support Suspend/Resume Mode." "0,1" newline bitfld.long 0x4 22. "SDMASUPPORT,SDMA Support. Suggested Value is 1'b1 (The SDMA is supported by Core). Optionally can be set to 1'b0 if the application doesn't want to support SDMA Mode." "0,1" bitfld.long 0x4 21. "HIGHSPEEDSUPPORT,High Speed Support. Suggested Value is 1'b1 (The High Speed mode is supported by Core)." "0,1" newline bitfld.long 0x4 19. "ADMA2SUPPORT,ADMA2 Support. Suggested Value is 1'b1 (The ADMA2 is supported by Core). Optionally can be set to 1'b0 if the application doesn't want to support ADMA2 Mode." "0,1" bitfld.long 0x4 18. "SUPPORT8BIT,8-bit Support for Embedded Device. Suggested Value is 1'b1 (The Core supports 8-bit Interface). Optionally an be set to 1'b0 if the Application supports only 4-bit SD Interface." "0,1" newline bitfld.long 0x4 16.--17. "MAXBLKLENGTH,Max Block Length. Maximum Block Length supported by the Core/Device. 00: 512 (Bytes) 01: 1024 10: 2048 11: Reserved." "0: 512,1: 1024,?,?" hexmask.long.byte 0x4 8.--15. 1. "BASECLKFREQ,Base Clock Frequency for SD Clock. This is the frequency of the xin_clk." newline bitfld.long 0x4 7. "TIMEOUTCLKUNIT,Timeout Clock Unit. Suggested Value is 1'b0 (KHz)." "0,1" hexmask.long.byte 0x4 0.--5. 1. "TIMEOUTCLKFREQ,Timeout Clock Frequency. Suggested Value is 1 KHz. Internally the 1msec Timer is used for Timeout Detection. The 1msec Timer is generated from the xin_clk." line.long 0x8 "REGS__SS_CFG__SSCFG_CTL_CFG_3_REG,The Controller Config 3 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." bitfld.long 0x8 28. "SUPPORT1P8VDD2,1.8V VDD2 Support." "0,1" bitfld.long 0x8 27. "ADMA3SUPPORT,ADMA3 Support." "0,1" newline hexmask.long.byte 0x8 16.--23. 1. "CLOCKMULTIPLIER,Clock Multiplier. This field indicates clock multiplier value of programmable clock generator. Refer to Clock Control register. Setting 00h means that Host Controller does not support programmable clock generator. FFh Clock Multiplier M =.." bitfld.long 0x8 14.--15. "RETUNINGMODES,Re-Tuning Modes. Should be set to 2'b00 as the Core supports only the Software Timer based Re-Tuning." "0,1,2,3" newline bitfld.long 0x8 13. "TUNINGFORSDR50,Use Tuning for SDR50. This bit should be set if the Application wants Tuning be used for SDR50 Modes. The Core operates with or with out tuning for SDR50 mode as long as the Clock can be manually tuned using tap delay." "0,1" hexmask.long.byte 0x8 8.--11. 1. "RETUNINGTIMERCNT,Timer Count for Re-Tuning. This is the Timer Count for Re-Tuning Timer for Re-Tuning Mode 1 to 3. Setting to 4'b0 disables Re-Tuning Timer." newline bitfld.long 0x8 7. "TYPE4SUPPORT,Driver Type 4 Support. This bit should be set based on whether Driver Type 4 for 1.8 Signalling is supported or not." "0,1" bitfld.long 0x8 6. "DDRIVERSUPPORT,Driver Type D Support. This bit should be set based on whether Driver Type D for 1.8 Signalling is supported or not." "0,1" newline bitfld.long 0x8 5. "CDRIVERSUPPORT,Driver Type C Support. This bit should be set based on whether Driver Type C for 1.8 Signalling is supported or not." "0,1" bitfld.long 0x8 4. "ADRIVERSUPPORT,Driver Type A Support. This bit should be set based on whether Driver Type A for 1.8 Signalling is supported or not." "0,1" newline bitfld.long 0x8 2. "DDR50SUPPORT,DDR50 Support. Suggested Value is 1'b1 (The Core supports DDR50 mode of operation). Optionally can be set to 1'b0 if the application doesn't want to support DDR50." "0,1" bitfld.long 0x8 1. "SDR104SUPPORT,SDR104 Support. Suggested Value is 1'b1 (The Core supports SDR104 mode of operation). Optionally can be set to 1'b0 if the application doesn't want to support SDR104." "0,1" newline bitfld.long 0x8 0. "SDR50SUPPORT,SDR50 Support. Suggested Value is 1'b1 (The Core supports SDR50 mode of operation). Optionally can be set to 1'b0 if the application doesn't want to support SDR50." "0,1" line.long 0xC "REGS__SS_CFG__SSCFG_CTL_CFG_4_REG,The Controller Config 4 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.byte 0xC 16.--23. 1. "MAXCURRENT1P8V,Maximum Current for 1.8V." hexmask.long.byte 0xC 8.--15. 1. "MAXCURRENT3P0V,Maximum Current for 3.0V." newline hexmask.long.byte 0xC 0.--7. 1. "MAXCURRENT3P3V,Maximum Current for 3.3V." line.long 0x10 "REGS__SS_CFG__SSCFG_CTL_CFG_5_REG,The Controller Config 5 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.byte 0x10 0.--7. 1. "MAXCURRENTVDD2,Maximum Current for 1.8 V (VDD2)." line.long 0x14 "REGS__SS_CFG__SSCFG_CTL_CFG_6_REG,The Controller Config 6 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x14 0.--12. 1. "INITPRESETVAL,Preset Value for Initialization." line.long 0x18 "REGS__SS_CFG__SSCFG_CTL_CFG_7_REG,The Controller Config 7 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x18 0.--12. 1. "DSPDPRESETVAL,Preset Value for Default Speed." line.long 0x1C "REGS__SS_CFG__SSCFG_CTL_CFG_8_REG,The Controller Config 8 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x1C 0.--12. 1. "HSPDPRESETVAL,Preset Value for High Speed." line.long 0x20 "REGS__SS_CFG__SSCFG_CTL_CFG_9_REG,The Controller Config 9 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x20 0.--12. 1. "SDR12PRESETVAL,Preset Value for SDR12." line.long 0x24 "REGS__SS_CFG__SSCFG_CTL_CFG_10_REG,The Controller Config 10 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x24 0.--12. 1. "SDR25PRESETVAL,Preset Value for SDR25." line.long 0x28 "REGS__SS_CFG__SSCFG_CTL_CFG_11_REG,The Controller Config 11 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x28 0.--12. 1. "SDR50PRESETVAL,Preset Value for SDR50." line.long 0x2C "REGS__SS_CFG__SSCFG_CTL_CFG_12_REG,The Controller Config 12 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x2C 0.--12. 1. "SDR104PRESETVAL,Preset Value for SDR104." line.long 0x30 "REGS__SS_CFG__SSCFG_CTL_CFG_13_REG,The Controller Config 13 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x30 0.--12. 1. "DDR50PRESETVAL,Preset Value for DDR50." line.long 0x34 "REGS__SS_CFG__SSCFG_CTL_CFG_14_REG,The Controller Config 14 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." rgroup.long 0x60++0x17 line.long 0x0 "REGS__SS_CFG__SSCFG_CTL_STAT_1_REG,The Controller Status 1 Register contains various fields to reflect the status of the debug ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller debug ports please refer to.." bitfld.long 0x0 31. "SDHC_CMDIDLE,Idle signal to enable S/W to gate off the clocks." "0,1" hexmask.long.word 0x0 0.--15. 1. "DMADEBUGBUS,DMA_CTRL Debug Bus." line.long 0x4 "REGS__SS_CFG__SSCFG_CTL_STAT_2_REG,The Controller Status 2 Register contains various fields to reflect the status of the debug ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller debug ports please refer to.." hexmask.long.word 0x4 0.--15. 1. "CMDDEBUGBUS,CMD_CTRL Debug Bus." line.long 0x8 "REGS__SS_CFG__SSCFG_CTL_STAT_3_REG,The Controller Status 3 Register contains various fields to reflect the status of the debug ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller debug ports please refer to.." hexmask.long.word 0x8 0.--15. 1. "TXDDEBUGBUS,TXD_CTRL Debug Bus." line.long 0xC "REGS__SS_CFG__SSCFG_CTL_STAT_4_REG,The Controller Status 4 Register contains various fields to reflect the status of the debug ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller debug ports please refer to.." hexmask.long.word 0xC 0.--15. 1. "RXDDEBUGBUS0,RXD_CTRL Debug Bus (SD CLK)." line.long 0x10 "REGS__SS_CFG__SSCFG_CTL_STAT_5_REG,The Controller Status 5 Register contains various fields to reflect the status of the debug ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller debug ports please refer to.." hexmask.long.word 0x10 0.--15. 1. "RXDDEBUGBUS1,RXD_CTRL Debug Bus (RX CLK)." line.long 0x14 "REGS__SS_CFG__SSCFG_CTL_STAT_6_REG,The Controller Status 6 Register contains various fields to reflect the status of the debug ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller debug ports please refer to.." hexmask.long.word 0x14 0.--15. 1. "TUNDEBUGBUS,TUN_CTRL Debug Bus." group.long 0x100++0x17 line.long 0x0 "REGS__SS_CFG__SSCFG_PHY_CTRL_1_REG,The PHY Control 1 Register contains various fields to control the ports on the Arasan eMMC/SD PHY. For detailed functionality of the Arasan eMMC/SD PHY control ports please refer to its specification listed in Section.." bitfld.long 0x0 31. "IOMUX_ENABLE,IO mux enable. Set 1 for GPIO. Set 0 for eMMC/SD" "0,1" line.long 0x4 "REGS__SS_CFG__SSCFG_PHY_CTRL_2_REG,The PHY Control 2 Register contains various fields to control the ports on the Arasan eMMC/SD PHY. For detailed functionality of the Arasan eMMC/SD PHY control ports please refer to its specification listed in Section.." line.long 0x8 "REGS__SS_CFG__SSCFG_PHY_CTRL_3_REG,The PHY Control 3 Register contains various fields to control the ports on the Arasan eMMC/SD PHY. For detailed functionality of the Arasan eMMC/SD PHY control ports please refer to its specification listed in Section.." line.long 0xC "REGS__SS_CFG__SSCFG_PHY_CTRL_4_REG,The PHY Control 4 Register contains various fields to control the ports on the Arasan eMMC/SD PHY. For detailed functionality of the Arasan eMMC/SD PHY control ports please refer to its specification listed in Section.." bitfld.long 0xC 20. "OTAPDLYENA,Output Tap Delay Enable. Enables manual control of the TX clock tap delay for clocking the final stage flops for maintaining Hold requirements on EMMC Interface." "0,1" hexmask.long.byte 0xC 12.--15. 1. "OTAPDLYSEL,Output Tap Delay Select. Manual control of the TX clock tap delay for clocking the final stage flops for maintaining Hold requirements on EMMC Interface." newline bitfld.long 0xC 9. "ITAPCHGWIN,Input Tap Change Window. It gets asserted by the controller while changing the itapdlysel. Used to gate of the RX clock during switching the clock source while tap is changing to avoid clock glitches." "0,1" bitfld.long 0xC 8. "ITAPDLYENA,Input Tap Delay Enable. This is used for the manual control of the RX clock Tap Delay in non HS200/HS400 modes." "0,1" newline hexmask.long.byte 0xC 0.--4. 1. "ITAPDLYSEL,Input Tap Delay Select. Manual control of the RX clock Tap Delay in the non HS200/HS400 modes." line.long 0x10 "REGS__SS_CFG__SSCFG_PHY_CTRL_5_REG,The PHY Control 5 Register contains various fields to control the ports on the Arasan eMMC/SD PHY. For detailed functionality of the Arasan eMMC/SD PHY control ports please refer to its specification listed in Section.." bitfld.long 0x10 0.--2. "CLKBUFSEL,Clock Delay Buffer Select. Selects one of the eight taps in the CLK Delay Buffer based on PVT variation." "0,1,2,3,4,5,6,7" line.long 0x14 "REGS__SS_CFG__SSCFG_PHY_CTRL_6_REG,The PHY Control 6 Register contains various fields to control the ports on the Arasan eMMC/SD PHY. For detailed functionality of the Arasan eMMC/SD PHY control ports please refer to its specification listed in Section.." group.long 0x130++0x7 line.long 0x0 "REGS__SS_CFG__SSCFG_PHY_STAT_1_REG,The PHY Status 1 Register contains various fields to reflect the status of the Arasan eMMC/SD PHY ports. For detailed functionality of the Arasan eMMC/SD PHY status ports please refer to its specification listed in.." line.long 0x4 "REGS__SS_CFG__SSCFG_PHY_STAT_2_REG,The PHY Status 2 Register contains various fields to reflect the status of the Arasan eMMC/SD PHY ports. For detailed functionality of the Arasan eMMC/SD PHY status ports please refer to its specification listed in.." tree.end tree.end tree "MMCSD2" tree "MMCSD2_CTL_CFG (MMCSD2_CTL_CFG)" base ad:0xFA20000 group.word 0x0++0xF line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_sdma_sys_addr_lo,This register contains the Lower 16-bit of physical system memory address used for DMA transfers or the second argument for the Auto CMD23 in Host version 3.0 and as 32-bit Block Count in Version 4.10." hexmask.word 0x0 0.--15. 1. "SDMA_ADDRESS,When Host Version 4 Enable is set to 0 in the Host Control 2 register DMA uses this register as system address in only 32-bit addressing mode. Auto CMD23 cannot be used with SDMA. When Host Version 4 Enable is set to 1 SDMA uses ADMA System.." line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_sdma_sys_addr_hi,This register contains the Upper 16-bit of physical system memory address used for DMA transfers or the second argument for the Auto CMD23 in Host version 3.0 and as 32-bit Block Count in Version 4.10." hexmask.word 0x2 0.--15. 1. "SDMA_ADDRESS,This register contains the Upper 16-bit of physical system memory address used for DMA transfers or the second argument for the Auto CMD23 in Host version 3.0 and as 32-bit Block Count in Version 4.10." line.word 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_block_size,This register is used to configure the number of bytes in a data block" bitfld.word 0x4 12.--14. "SDMA_BUF_SIZE,To perform long DMA transfer System Address register shall be updated at every system boundary during DMA transfer. These bits specify the size of contiguous buffer in the system memory. The DMA transfer shall wait at the every boundary.." "0,1,2,3,4,5,6,7" newline hexmask.word 0x4 0.--11. 1. "XFER_BLK_SIZE,This field specifies the block size for block data transfers for CMD17 CMD18 CMD24 CMD25 and CMD53. It can be accessed only if no transaction is executing [i.e after a transaction has stopped]. Read operations during transfer return an.." line.word 0x6 "SDHC_WRAP__CTL_CFG__CTLCFG_block_count,This register is used to configure the number of data blocks" hexmask.word 0x6 0.--15. 1. "XFER_BLK_CNT,Host Controller Version 4.10 extends block count to 32-bit [Refer to Section 1.15].Selection of either 16-bit Block Count register or 32-bit Block Count register is defined as follows: [1] If Host Version 4 Enable in the Host Control 2.." line.word 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_argument1_lo,This register contains Lower bits of SD Command Argument" hexmask.word 0x8 0.--15. 1. "CMD_ARG1,The SD Command Argument is specified as bit23-8 of Command-Format." line.word 0xA "SDHC_WRAP__CTL_CFG__CTLCFG_argument1_hi,This register contains higher bits of SD Command Argument" hexmask.word 0xA 0.--15. 1. "CMD_ARG1,The SD Command Argument is specified as bit39-24 of Command-Format." line.word 0xC "SDHC_WRAP__CTL_CFG__CTLCFG_transfer_mode,This register is used to control the operations of data transfers" bitfld.word 0xC 8. "RESP_INTR_DIS,Host Controller Version 4.00 supports response error check function to avoid overhead of response error check by Host Driver. Only R1 or R5 can be checked. If Host Driver checks response error sets this bit to 0 and waits Command Complete.." "0,1" newline bitfld.word 0xC 7. "RESP_ERR_CHK_ENA,Host Controller Version 4.00 supports response error check function to avoid overhead of response error check by Host Driver. Only R1 or R5 can be checked.If Host Driver checks response error this bit is set to 0 and Response Interrupt.." "0,1" newline bitfld.word 0xC 6. "RESP_TYPE,When response error check is enabled this bit selects either R1 or R5 response types. Two types of response checks are supported: R1 for memory and R5 for SDIO." "0,1" newline bitfld.word 0xC 5. "MULTI_BLK_SEL,This bit enables multiple block data transfers." "0,1" newline bitfld.word 0xC 4. "DATA_XFER_DIR,This bit defines the direction of data transfers." "0,1" newline bitfld.word 0xC 2.--3. "AUTO_CMD_ENA,There are three methods to stop Multiple-block read and write operation. [1] Auto CMD12 Enable: Multiple-block read and write commands for memory require CMD12 to stop the operation. When this field is set to 01b the Host.." "0,1,2,3" newline bitfld.word 0xC 1. "BLK_CNT_ENA,This bit is used to enable the Block count register which is only relevant for multiple block transfers. When this bit is 0 the Block Count register is disabled which is useful in executing an infinite transfer." "0,1" newline bitfld.word 0xC 0. "DMA_ENA,DMA can be enabled only if DMA Support bit in the Capabilities register is set. If this bit is set to 1 a DMA operation shall begin when the HD writes to the upper byte of Command register [00Fh]." "0,1" line.word 0xE "SDHC_WRAP__CTL_CFG__CTLCFG_command,This register is used to program the Command for host controller" hexmask.word.byte 0xE 8.--13. 1. "CMD_INDEX,This bit shall be set to the command number [CMD0-63 ACMD0-63]." newline bitfld.word 0xE 6.--7. "CMD_TYPE,There are three types of special commands. Suspend Resume andAbort. These bits shall bet set to 00b for all other commands. Suspend Command: If the Suspend command succeeds the HC shall assume the SD Bus has been released and that it is.." "0,1,2,3" newline bitfld.word 0xE 5. "DATA_PRESENT,This bit is set to 1 to indicate that data is present and shall be transferred using the DAT line. If is set to 0 for the following: 1. Commands using only CMD line [ex. CMD52]. 2. Commands with no data transferbut using busy.." "0,1" newline bitfld.word 0xE 4. "CMD_INDEX_CHK_ENA,If this bit is set to 1 the HC shall check the index field in the response to see if it has the same value as the command index. If it is not it is reported as a Command Index Error. If this bit is set to 0 the Index field is not.." "0,1" newline bitfld.word 0xE 3. "CMD_CRC_CHK_ENA,If this bit is set to 1 the HC shall check the CRC field in the response. If an error is detected it is reported as a Command CRC Error. If this bit is set to 0 the CRC field is not checked." "0,1" newline bitfld.word 0xE 2. "SUB_CMD,This bit is added from Version 4.10 to distinguish a main command or sub command [Refer to Section 1.17]. When issuing a main com-mand this bit is set to 0 and when issuing a sub command this bit is set to 1. Setting of this bit is checked.." "0,1" newline bitfld.word 0xE 0.--1. "RESP_TYPE_SEL,Response Type Select." "0,1,2,3" rgroup.word 0x10++0x1 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_response,This register is used to store responses from SD Cards" hexmask.word 0x0 0.--15. 1. "CMD_RESP,R[] refers to a bit range within the response data as transmitted on the SD Bus REP[] refers to a bit range within the Response register." group.long 0x20++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_data_port,This register is used to access internal buffer" hexmask.long 0x0 0.--31. 1. "BUF_RD_DATA,The Host Controller Buffer can be accessed through this 32-bit Data Port Register." rgroup.long 0x24++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_presentstate,The Host Driver can get status of the Host Controller from this 32-bit read-only register" bitfld.long 0x0 31. "UHS2_IF_DETECTION,This status indicates whether a card supports UHS-II IF. This status is enabled by setting UHS-II Interface Enable to 1 in the Host Control 2 regis-ter. UHS-II interface initialization is activated by setting SD Clock Enable in the.." "0,1" newline bitfld.long 0x0 30. "UHS2_IF_LANE_SYNC,This status indicates whether lane is synchronized in UHS-II mode. This status is enabled by setting UHS-II Interface Enable to 1 in the Host Control 2 register. On detecting UHS-II Interface [D31=1] Host Controller provides SYN.." "0,1" newline bitfld.long 0x0 29. "UHS2_DORMANT,This status indicates whether UHS-II Ianes enterDormant state. This function is enabled by setting UHS-II Interface Enable to 1 in the Host Control 2 register. On issuing GO_DORMAT_STATE com-mand Go Dormant Command [111b]; is set to Command.." "0,1" newline bitfld.long 0x0 28. "SUB_COMMAND_STS,The Command register and Response register are commonly used for main command and sub command. This status is used to distinguish which response error statuses main command or sub command indicated in the Error Interrupt Status.." "0,1" newline bitfld.long 0x0 27. "CMD_NOT_ISS_BY_ERR,Setting of this status indicates that a command cannot be issued due to an error except Auto CMD12 error. [Equivalent error status by Auto CMD12 error is defined as Command Not Issued By Auto CMD12 Error in the Auto CMD Error.." "0,1" newline bitfld.long 0x0 24. "SDIF_CMDIN,This status is used to check DAT line level to recover from errors and for debugging." "0,1" newline bitfld.long 0x0 23. "SDIF_DAT3IN,This status is used to check DAT line level to recover from errors and for debugging. This is especially useful in detecting the busy signal level from DAT[3]." "0,1" newline bitfld.long 0x0 22. "SDIF_DAT2IN,This status is used to check DAT line level to recover from errors and for debugging. This is especially useful in detecting the busy signal level from DAT[2]." "0,1" newline bitfld.long 0x0 21. "SDIF_DAT1IN,This status is used to check DAT line level to recover from errors and for debugging. This is especially useful in detecting the busy signal level from DAT[1]." "0,1" newline bitfld.long 0x0 20. "SDIF_DAT0IN,This status is used to check DAT line level to recover from errors and for debugging. This is especially useful in detecting the busy signal level from DAT[0]." "0,1" newline bitfld.long 0x0 19. "WRITE_PROTECT,The Write Protect Switch is supported for memory and combo cards.This bit reflects the SDWP# pin." "0,1" newline bitfld.long 0x0 18. "CARD_DETECT,This bit reflects the inverse value of the SDCD# pin. '0' No Card present [SDCD# = 1] '1' Card present [SDCD# = 0]" "0,1" newline bitfld.long 0x0 17. "CARD_STATE_STABLE,This bit is used for testing. If it is 0 the Card Detect Pin Level is not stable. If this bit is set to 1 it means the Card Detect Pin Level is stable. The Software Reset For All in the Software Reset Register shall not affect this.." "0,1" newline bitfld.long 0x0 16. "CARD_INSERTED,This bit indicates whether a card has been inserted. Changing from 0 to 1 generates a Card Insertion interrupt in the Normal Interrupt Status register and changing from 1 to 0 generates a Card Removal Interrupt in the Normal Interrupt.." "0,1" newline bitfld.long 0x0 11. "BUF_RD_ENA,This status is used for non-DMA read transfers.This read only flag indicates that valid data exists in the host side buffer status. If this bit is 1 readable data exists in the buffer. A change of this bit from 1 to 0 occurs when all the.." "0,1" newline bitfld.long 0x0 10. "BUF_WR_ENA,This status is used for non-DMA write transfers.This read only flag indicates if space is available for write data. If this bit is 1 data can be written to the buffer. A change of this bit from 1 to 0 occurs when all the block data is written.." "0,1" newline bitfld.long 0x0 9. "RD_XFER_ACTIVE,This status is used for detecting completion of a read transfer. This bit is set to 1 for either of the following conditions: After the end bit of the read command. When writing a 1 to continue Request in the Block.." "0,1" newline bitfld.long 0x0 8. "WR_XFER_ACTIVE,This status indicates a write transfer is active. If this bit is 0 it means no valid write data exists in the HC. This bit is set in either of the following cases: After the end bit of the write command. When writing a.." "0,1" newline bitfld.long 0x0 7. "SDIF_DAT7IN,This status is used to check DAT line level to recover from errors and for debugging." "0,1" newline bitfld.long 0x0 6. "SDIF_DAT6IN,This status is used to check DAT line level to recover from errors and for debugging." "0,1" newline bitfld.long 0x0 5. "SDIF_DAT5IN,This status is used to check DAT line level to recover from errors and for debugging." "0,1" newline bitfld.long 0x0 4. "SDIF_DAT4IN,This status is used to check DAT line level to recover from errors and for debugging." "0,1" newline bitfld.long 0x0 3. "RETUNING_REQ,Host Controller may request Host Driver to execute re-tuning sequence by setting this bit when the data window is shifted by temperature drift and a tuned sampling point does not have a good margin to receive correct data. This bit is.." "0,1" newline bitfld.long 0x0 2. "DATA_LINE_ACTIVE,This bit indicates whether one of the DAT line on SD bus is in use." "0,1" newline bitfld.long 0x0 1. "INHIBIT_DAT,This status bit is generated if either the DAT Line Active or the Read transfer Active is set to 1. If this bit is 0 it indicates the HC can issue the next SD command. Commands with busy signal belong to Command Inhibit [DAT] [ex. R1b R5b.." "0,1" newline bitfld.long 0x0 0. "INHIBIT_CMD,SD Mode If this bit is 0 it indicates the CMD line is not in use and the HC can issue a SD command using the CMD line. This bit is set immediately after the Command register [00Fh] is written. This bit is cleared when the command response is.." "0,1" group.byte 0x28++0x3 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_host_control1,This register is used to program DMA modes. LED Control. Data Transfer Width. High Speed Enable. Card detect test level and signal selection" bitfld.byte 0x0 7. "CD_SIG_SEL,This bit selects source for card detection. '0' SDCD# is selected [for normal use] '1' The card detect test level is selected" "0,1" newline bitfld.byte 0x0 6. "CD_TEST_LEVEL,This bit is enabled while the Card Detect Signal Selection is set to 1 and it indicates card inserted or not. Generates [card ins or card removal] interrupt when the normal int sts enable bit is set. '0' No Card '1' Card Inserted" "0,1" newline bitfld.byte 0x0 5. "EXT_DATA_WIDTH,This bit controls 8-bit bus width mode for embedded device. Support of this function is indicated in 8-bit Support for Embedded Device in the Capabilities register. If a device supports 8-bit bus mode this bit may be set to 1. If this bit.." "0,1" newline bitfld.byte 0x0 3.--4. "DMA_SELECT,This field is used to select DMA type. The Host Driver shall check support of DMA modes by referring the Capabilities register. Selected DMA is enabled by DMA Enable of the Transfer Mode register in SD mode and DMA Enable of UHS-II Transfer.." "0,1,2,3" newline bitfld.byte 0x0 2. "HIGH_SPEED_ENA,This bit is optional. Before setting this bit the HD shall check the High Speed Support in the capabilities register. If this bit is set to 0 [default] the HC outputs CMD line and DAT lines at the falling edge of the SD clock [up to.." "0,1" newline bitfld.byte 0x0 1. "DATA_WIDTH,This bit selects the data width of the HC. The HD shall select it to match the data width of the SD card. This bit is not effective in UHS-II mode." "0,1" newline bitfld.byte 0x0 0. "LED_CONTROL,This bit is used to caution the user not to remove the card while the SD card is being accessed. If the software is going to issue multiple SD commands this bit can be set during all transactions. It is not necessary to change for each.." "0,1" line.byte 0x1 "SDHC_WRAP__CTL_CFG__CTLCFG_power_control,This register is used to program the SD Bus power and voltage level" bitfld.byte 0x1 5.--7. "UHS2_VOLTAGE,This field determines supply voltage range to VDD2. This field can be set to 101b if 1.8V VDD2 Support in the Capabilities register is set to 1. '000' VDD2 Not supported '001'- '011' Reserved '100' Reserved for 1.2V.." "0,1,2,3,4,5,6,7" newline bitfld.byte 0x1 4. "UHS2_POWER,Setting this bit enables providing VDD2. '0' Power Off '1' Power On" "0,1" newline bitfld.byte 0x1 1.--3. "SD_BUS_VOLTAGE,By setting these bits the HD selects the voltage level for the SD card. Before setting this register the HD shall check the voltage support bits in the capabilities register. If an unsupported voltage is selected the Host System shall.." "0,1,2,3,4,5,6,7" newline bitfld.byte 0x1 0. "SD_BUS_POWER,Before setting this bit the SD host driver shall set SD Bus Voltage Select. If the HC detects the No Card State this bit shall be cleared. If this bit is cleared the Host Control-ler should immediately stop driving CMD and DAT[3:0].." "0,1" line.byte 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_block_gap_control,This register is used to program the block gap request. read wait control and interrupt at block gap" bitfld.byte 0x2 7. "BOOT_ACK_ENA,To check for the boot acknowledge in boot operation." "0,1" newline bitfld.byte 0x2 6. "ALT_BOOT_MODE,To start boot code access in alternative mode." "0,1" newline bitfld.byte 0x2 5. "BOOT_ENABLE,To start boot code access." "0,1" newline bitfld.byte 0x2 4. "SPI_MODE,SPI mode enable bit." "0,1" newline bitfld.byte 0x2 3. "INTRPT_AT_BLK_GAP,This bit is valid only in 4-bit mode of the SDIO card and selects a sample point in the interrupt cycle. Setting to 1 enables interrupt detection at the block gap for a multiple block transfer. If the SD card cannot signal an interrupt.." "0,1" newline bitfld.byte 0x2 2. "RDWAIT_CTRL,The read wait function is optional for SDIO cards. If the card supports read wait set this bit to enable use of the read wait protocol to stop read data using DAT[2] line. Otherwise the HC has to stop the SD clock to hold read data which.." "0,1" newline bitfld.byte 0x2 1. "CONTINUE,This bit is used to restart a transaction which was stopped using the Stop At Block Gap Request. To cancel stop at the block gap set Stop At block Gap Request to 0 and set this bit to restart the transfer. The Host Controller automatically.." "0,1" newline bitfld.byte 0x2 0. "STOP_AT_BLK_GAP,This bit is used to stop executing a transaction at the next block gap for non- DMA SDMA and ADMA transfers. Until the transfer complete is set to 1 indicating a transfer completion the HD shall leave this bit set to 1. Clearing both the.." "0,1" line.byte 0x3 "SDHC_WRAP__CTL_CFG__CTLCFG_wakeup_control,This register is used to program the wakeup functionality" bitfld.byte 0x3 2. "CARD_REMOVAL,This bit enables wakeup event via Card removal assertion in the Normal Interrupt Status register.FN_WUS [Wake up Support] in CIS does not affect this bit." "0,1" newline bitfld.byte 0x3 1. "CARD_INSERTION,This bit enables wakeup event via Card Insertion assertion in the Normal Interrupt Status register.FN_WUS [Wake up Support] in CIS does not affect this bit." "0,1" newline bitfld.byte 0x3 0. "CARD_INTERRUPT,This bit enables wakeup event via Card Interrupt assertion in the Normal Interrupt Status register.This bit can be set to 1 if FN_WUS [Wake Up Support] in CIS is set to 1." "0,1" group.word 0x2C++0x1 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_clock_control,This register is used to program the Clock frequency select. generator select. Clock enable. Internal Clock state fields" hexmask.word.byte 0x0 8.--15. 1. "SDCLK_FRQSEL,This register is used to select the frequency of the SDCLK pin. The frequency is not programmed directly; rather this register holds the divisor of the Base Clock Frequency For SD clock in the capabilities register. Only the following.." newline bitfld.word 0x0 6.--7. "SDCLK_FRQSEL_UPBITS,Bit 07-06 is assigned to bit 09-08 of clock divider in SDCLK Frequency Select." "0,1,2,3" newline bitfld.word 0x0 5. "CLKGEN_SEL,This bit is used to select the clock generator mode in SDCLK Frequency Select. If the Programmable Clock Mode is supported [non-zero value is set to Clock Multiplier in the Capabilities register] this bit attribute is RW and if not.." "0,1" newline bitfld.word 0x0 3. "PLL_ENA,This bit is added from Version 4.10 for Host Controller using PLL. This feature allows Host Controller to initialize clock generator in two steps: by Internal Clock Enable and PLL Enable and to minimize output latency [ex. SDCLK/RCLK D0lane].." "0,1" newline bitfld.word 0x0 2. "SD_CLK_ENA,The HC shall stop SDCLK when writing this bit to 0. SDCLK frequency Select can be changed when this bit is 0. Then the HC shall maintain the same clock frequency until SDCLK is stopped [Stop at SDCLK = 0]. If the HC detects the No Card state .." "0,1" newline rbitfld.word 0x0 1. "INT_CLK_STABLE,This bit is set to 1 when SD clock is stable after writing to Internal Clock Enable in this register to 1. The SD Host Driver shall wait to set SD Clock Enable until this bit is set to 1. Note: This is useful when using PLL for a clock.." "0,1" newline bitfld.word 0x0 0. "INT_CLK_ENA,This bit is set to 0 when the HD is not using the HC or the HC awaits a wakeup event. The HC should stop its internal clock to go very low power state. Still registers shall be able to be read and written. Clock starts to oscillate when this.." "0,1" group.byte 0x2E++0x1 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_timeout_control,The register sets the Data Timeout counter value" hexmask.byte 0x0 0.--3. 1. "COUNTER_VALUE,This value determines the interval by which DAT line time-outs are detected. Refer to the Data Time-out Error in the Error Interrupt Status register for information on factors that dictate time-out generation. Time-out clock frequency will.." line.byte 0x1 "SDHC_WRAP__CTL_CFG__CTLCFG_software_reset,This register is used to program the software reset for data. command and for all" bitfld.byte 0x1 2. "SWRST_FOR_DAT,Only part of data circuit is reset. The following registers and bits are cleared by this bit: Buffer Data Port Register: Buffer is cleared and Initialized. Present State register: Buffer read Enable Buffer write.." "0,1" newline bitfld.byte 0x1 1. "SWRST_FOR_CMD,Software Reset For CMD Line Only part of command circuit is reset to be able to issue a command. From Version 4.10 this bit is also used to initialize UHS-II command circuit. This reset is effective only command issuing circuit [including.." "0,1" newline bitfld.byte 0x1 0. "SWRST_FOR_ALL,This reset affects the entire HC except for the card detection circuit. Register bits of type ROC RW RW1C RWAC are cleared to 0. During its initialization the HD shall set this bit to 1 to reset the HC. The HC shall reset this bit to 0.." "0,1" group.word 0x30++0xB line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_normal_intr_sts,This register gives the status of all the interrupts" rbitfld.word 0x0 15. "ERROR_INTR,If any of the bits in the Error Interrupt Status Register are set then this bit is set. Therefore the HD can test for an error by checking this bit first. In UHS-II mode is enabled if any of the bits in the UHS-II Error.." "0,1" newline bitfld.word 0x0 14. "BOOT_COMPLETE,This status is set if the boot operation gets terminated. '0' Boot operation is not terminated '1' Boot operation is terminated" "0,1" newline bitfld.word 0x0 13. "RCV_BOOT_ACK,This status is set if the boot acknowledge is received from device. '0' Boot ack not recieved '1' Boot ack is recieved" "0,1" newline rbitfld.word 0x0 12. "RETUNING_EVENT,This status is set if Re-Tuning Request in the Present State register changes from 0 to 1. Host Controller requests Host Driver to perform re-tuning for next data transfer. Current data transfer [not large block count] can be completed.." "0,1" newline rbitfld.word 0x0 11. "INTC,This status is set if INT_C is enabled and INT_C# pin is in low level. Writing this bit to 1 does not clear this bit. It is cleared by resetting the INT_C interrupt factor." "0,1" newline rbitfld.word 0x0 10. "INTB,This status is set if INT_B is enabled and INT_B# pin is in low level. Writing this bit to 1 does not clear this bit. It is cleared by resetting the INT_B interrupt factor." "0,1" newline rbitfld.word 0x0 9. "INTA,This status is set if INT_A is enabled and INT_A# pin is in low level. Writing this bit to 1 does not clear this bit. It is cleared by resetting the INT_A interrupt factor. NOTE : INT_A INT_B and INT_C are to be implemented based on the.." "0,1" newline rbitfld.word 0x0 8. "CARD_INTR,When this status has been set and the Host Driver needs to start this interrupt service Card Interrupt Status Enable in the Normal Interrupt Status Enable register may be set to 0 in order to clear the card interrupt status latched in the Host.." "0,1" newline bitfld.word 0x0 7. "CARD_REM,This status is set if the Card Inserted in the Present State register changes from 1 to 0. When the HD writes this bit to 1 to clear this status the status of the Card Inserted in the Present State register should be confirmed. Because the card.." "0,1" newline bitfld.word 0x0 6. "CARD_INS,This status is set if the Card Inserted in the Present State register changes from 0 to 1.When the HD writes this bit to 1 to clear this status the status of the Card Inserted in the Present State register should be confirmed. Because the card.." "0,1" newline bitfld.word 0x0 5. "BUF_RD_READY,This status is set if the Buffer Read Enable changes from 0 to 1. Buffer Read Ready is set to 1 for every CMD19 execution in tuning procedure.In UHS-II mode this bit is set at FC [Flow Control] unit basis. '0' Not ready to.." "0,1" newline bitfld.word 0x0 4. "BUF_WR_READY,This status is set if the Buffer Write Enable changes from 0 to 1.In UHS-II mode this bit is set at FC [Flow Control] unit basis. '0' Not ready to write to buffer '1' Ready to write to buffer" "0,1" newline bitfld.word 0x0 3. "DMA_INTERRUPT,This status is set if the HC detects the Host DMA Buffer Boundary in the Block Size regiser. '0' No DMA Interrupt '1' DMA Interrupt is generated" "0,1" newline bitfld.word 0x0 2. "BLK_GAP_EVENT,If the Stop At Block Gap Request in the BlockGap Control Register is set this bit is set. Read Transaction: This bit is set at the falling edge of the DAT Line Active Status [When the transaction is stopped at SD Bus timing. The Read.." "0,1" newline bitfld.word 0x0 1. "XFER_COMPLETE,This bit is set when a read / write transaction is completed. SD Mode Read Transaction: This bit is set at the falling edge of Read Transfer Active Status. There are two cases in which the Interrupt is generated. The first is.." "0,1" newline bitfld.word 0x0 0. "CMD_COMPLETE,SD Mode This bit is set when we get the end bit of the command response [Except Auto CMD12 and Auto CMD23] Note: Command Time-out Error has higher priority than Command Complete. If both are set to 1 it can be considered that the.." "0,1" line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_error_intr_sts,This register gives the status of the error interrupts" bitfld.word 0x2 12. "HOST,Occurs when detecting ERROR in m_hresp[dma transaction]" "0,1" newline bitfld.word 0x2 11. "RESP,Host Controller Version 4.00 supports response error check function to avoid overhead of response error check by Host Driver during DMA execution. If Response Error Check Enable is set to 1 in the Transfer Mode register Host Controller Checks R1 or.." "0,1" newline bitfld.word 0x2 10. "TUNING,This bit is set when an unrecoverable error is detected in a tuning circuit except during tuning procedure [Occurrence of an error during tuning procedure is indicated by Sampling Select]. By detecting Tuning Error Host Driver needs to abort a.." "0,1" newline bitfld.word 0x2 9. "ADMA,This bit is set when the Host Controller detects errors during ADMA based data transfer. The state of the ADMA at an error occurrence is saved in the ADMA Error Status Register." "0,1" newline bitfld.word 0x2 8. "AUTO_CMD,Auto CMD12 and Auto CMD23 use this error status.This bit is set when detecting that any of the bits D00 to D05 in Auto CMD Error Status register has changed from 0 to 1. D07 is effective in case of Auto CMD12. Auto CMD Error Status register is.." "0,1" newline bitfld.word 0x2 7. "CURR_LIMIT,By setting the SD Bus Power bit in the Power Control Register the HC is requested to supply power for the SD Bus. If the HC supports the Current Limit Function it can be protected from an Illegal card by stopping power supply to the card in.." "0,1" newline bitfld.word 0x2 6. "DATA_ENDBIT,Occurs when detecting 0 at the end bit position of read data which uses the DAT line or the end bit position of the CRC status." "0,1" newline bitfld.word 0x2 5. "DATA_CRC,Occurs when detecting CRC error when transferring read data which uses the DAT line or when detecting the Write CRC Status having a value of other than 010." "0,1" newline bitfld.word 0x2 4. "DATA_TIMEOUT,Occurs when detecting one of following timeout conditions: 1. Busy Timeout for R1b R5b type. 2. Busy Timeout after Write CRC status 3. Write CRC status Timeout 4. Read Data Timeout." "0,1" newline bitfld.word 0x2 3. "CMD_INDEX,Occurs if a Command Index error occurs in the Command Response." "0,1" newline bitfld.word 0x2 2. "CMD_ENDBIT,Occurs when detecting that the end bit of a command response is 0." "0,1" newline bitfld.word 0x2 1. "CMD_CRC,Command CRC Error is generated in two cases. 1. If a response is returned and the Command Time-out Error is set to 0 this bit is set to 1 when detecting a CRT error in the command response 2. The HC detects a CMD line conflict by.." "0,1" newline bitfld.word 0x2 0. "CMD_TIMEOUT,Occurs only if the no response is returned within 64 SDCLK cycles from the end bit of the command. If the HC detects a CMD line conflict in which case Command CRC Error shall also be set. This bit shall be set without waiting for 64 SDCLK.." "0,1" line.word 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_normal_intr_sts_ena,This register is used to enable the normal interrupt status register fields" rbitfld.word 0x4 15. "BIT15_FIXED0,The HC shall control error Interrupts using the Error Interrupt Status Enable register." "0,1" newline bitfld.word 0x4 14. "BOOT_COMPLETE,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 13. "RCV_BOOT_ACK,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 12. "RETUNING_EVENT,0 - Masked 1 - Enabled" "0,1" newline bitfld.word 0x4 11. "INTC,If this bit is set to 0 the Host Controller shall clear the interrupt request to the System. The Host Driver may clear this bit before servicing the INT_C and may set this bit again after all interrupt requests to INT_C pin are cleared to prevent.." "0,1" newline bitfld.word 0x4 10. "INTB,If this bit is set to 0 the Host Controller shall clear the interrupt request to the System. The Host Driver may clear this bit before servicing the INT_B and may set this bit again after all interrupt requests to INT_B pin are cleared to prevent.." "0,1" newline bitfld.word 0x4 9. "INTA,If this bit is set to 0 the Host Controller shall clear the interrupt request to the System. The Host Driver may clear this bit before servicing the INT_A and may set this bit again after all interrupt requests to INT_A pin are cleared to prevent.." "0,1" newline bitfld.word 0x4 8. "CARD_INTERRUPT,If this bit is set to 0 the HC shall clear Interrupt request to the System. The Card Interrupt detection is stopped when this bit is cleared and restarted when this bit is set to 1. The HD may clear the Card Interrupt Status Enable before.." "0,1" newline bitfld.word 0x4 7. "CARD_REMOVAL,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 6. "CARD_INSERTION,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 5. "BUF_RD_READY,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 4. "BUF_WR_READY,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 3. "DMA_INTERRUPT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 2. "BLK_GAP_EVENT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 1. "XFER_COMPLETE,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x4 0. "CMD_COMPLETE,'0' Masked '1' Enabled" "0,1" line.word 0x6 "SDHC_WRAP__CTL_CFG__CTLCFG_error_intr_sts_ena,This register is used to enable the Error Interrupt Status register fields" bitfld.word 0x6 13.--14. "VENDOR_SPECIFIC,N/A" "0,1,2,3" newline bitfld.word 0x6 12. "HOST,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 11. "RESP,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 10. "TUNING,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 9. "ADMA,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 8. "AUTO_CMD,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 7. "CURR_LIMIT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 6. "DATA_ENDBIT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 5. "DATA_CRC,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 4. "DATA_TIMEOUT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 3. "CMD_INDEX,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 2. "CMD_ENDBIT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 1. "CMD_CRC,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x6 0. "CMD_TIMEOUT,'0' Masked '1' Enabled" "0,1" line.word 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_normal_intr_sig_ena,This register is used to enable the Normal Interrupt Signal register" rbitfld.word 0x8 15. "BIT15_FIXED0,The HD shall control error Interrupts using the Error Interrupt Signal Enable register." "0,1" newline bitfld.word 0x8 14. "BOOT_COMPLETE,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 13. "RCV_BOOT_ACK,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 12. "RETUNING_EVENT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 11. "INTC,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 10. "INTB,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 9. "INTA,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 8. "CARD_INTERRUPT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 7. "CARD_REMOVAL,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 6. "CARD_INSERTION,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 5. "BUF_RD_READY,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 4. "BUF_WR_READY,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 3. "DMA_INTERRUPT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 2. "BLK_GAP_EVENT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 1. "XFER_COMPLETE,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0x8 0. "CMD_COMPLETE,'0' Masked '1' Enabled" "0,1" line.word 0xA "SDHC_WRAP__CTL_CFG__CTLCFG_error_intr_sig_ena,This register is used to enable Error Interrupt Signal register" bitfld.word 0xA 13.--14. "VENDOR_SPECIFIC,N/A" "0,1,2,3" newline bitfld.word 0xA 12. "HOST,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 11. "RESP,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 10. "TUNING,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 9. "ADMA,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 8. "AUTO_CMD,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 7. "CURR_LIMIT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 6. "DATA_ENDBIT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 5. "DATA_CRC,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 4. "DATA_TIMEOUT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 3. "CMD_INDEX,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 2. "CMD_ENDBIT,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 1. "CMD_CRC,'0' Masked '1' Enabled" "0,1" newline bitfld.word 0xA 0. "CMD_TIMEOUT,'0' Masked '1' Enabled" "0,1" rgroup.word 0x3C++0x1 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_autocmd_err_sts,This register is used to indicate CMD12 response error of Auto CMD12 and CMD23 response error of Auto CMD 23" bitfld.word 0x0 7. "CMD_NOT_ISSUED,Setting this bit to 1 means CMD_wo_DAT is not executed due to an Auto CMD12 error [D04- D01] in this register. This bit is set to 0 when Auto CMD Error is generated by Auto CMD23." "0,1" newline bitfld.word 0x0 5. "RESP,This bit is set when Response Error Check Enable in the Transfer Mode register is set to 1 and an error is detected in R1 response of either Auto CMD12 or Auto CMD23. This status should be ignored if any bit of D00 to D04 is set to 1." "0,1" newline bitfld.word 0x0 4. "INDEX,Occurs if the Command Index error occurs in response to a command." "0,1" newline bitfld.word 0x0 3. "ENDBIT,Occurs when detecting that the end bit of command response is 0." "0,1" newline bitfld.word 0x0 2. "CRC,Occurs when detecting a CRC error in the command response." "0,1" newline bitfld.word 0x0 1. "TIMEOUT,Occurs if the no response is returned within 64 SDCLK cycles from the end bit of the command.If this bit is set to 1 the other error status bits [D04 - D02] are meaningless." "0,1" newline bitfld.word 0x0 0. "ACMD12_NOT_EXEC,If memory multiple block data transfer is not started due to command error this bit is not set because it is not necessary to issue Auto CMD12. Setting this bit to 1 means the HC cannot issue Auto CMD12 to stop memory multiple block.." "0,1" group.word 0x3E++0x1 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_host_control2,This register is used to program UHS Select Mode.UHS Select Mode.Driver Strength Select.Execute Tuning.Sampling Clock Select.Asynchronous Interrupt Enable and Preset value enable" bitfld.word 0x0 15. "PRESET_VALUE_ENA,Host Controller Version 3.00 supports this bit. As the operating SDCLK frequency and I/O driver strength depend on the Host System implementation it is difficult to determine these parameters in the Standard Host Driver. When Preset.." "0,1" newline bitfld.word 0x0 14. "ASYNCH_INTR_ENA,This bit can be set to 1 if a card support asynchronous interrupt and Asynchronous Interrupt Support is set to 1 in the Capabilities register. Asynchronous interrupt is effective when DAT[1] interrupt is used in 4-bit SD mode [and zero is.." "0,1" newline bitfld.word 0x0 13. "BIT64_ADDRESSING,This field is effective when Host Version 4.00 Enable is set to 1. Host Controller selects either of 32-bit or 64-bit addressing modes to access system memory. Whether 32-bit or 64-bit is determined by OS installed in a host.." "0,1" newline bitfld.word 0x0 12. "HOST_VER40_ENA,This bit selects either Version 3.00 compatible mode or Ver4.mode. In Version 4.00 support of 64-bit System Addressing is modified. All DMAs support 64-bit System Addressing. UHS-II supported Host Driver shall enable this bit. In Version.." "0,1" newline bitfld.word 0x0 11. "CMD23_ENA,In memory card initialization Host Driver Version 4.10 checks whether card supports CMD23 by checking a bit SCR[33]. If the card supports CMD23 [SCR[33]=1] this bit is set to 1. This bit is used to select Auto CMD23 or Auto CMD12 for ADMA3.." "0,1" newline bitfld.word 0x0 10. "ADMA2_LEN_MODE,This bit selects one of ADMA2 Length Modes either 16-bit or 26-bit." "0,1" newline bitfld.word 0x0 9. "DRIVER_STRENGTH2,This is the programmed Drive STrength output and Bit[2] of the sdhccore_drivestrength value." "0,1" newline bitfld.word 0x0 8. "UHS2_INTF_ENABLE,This bit is used to enable UHS-II Interface. Before trying to start UHS-II initialization this bit shall be set to 1. Before trying to start SD mode initialization this bit shall be set to 0. This bit is used to enable UHS-II IF.." "0,1" newline bitfld.word 0x0 7. "SAMPLING_CLK_SELECT,This bit is set by tuning procedure when Execute Tuning is cleared. Writing 1 to this bit is meaningless and ignored. Setting 1 means that tuning is completed successfully and setting 0 means that tuning is failed. Host Controller.." "0,1" newline bitfld.word 0x0 6. "EXECUTE_TUNING,This bit is set to 1 to start tuning procedure and automatically cleared when tuning procedure is completed. The result of tuning is indicated to Sampling Clock Select. Tuning procedure is aborted by writing 0 for more detail about tuning.." "0,1" newline bitfld.word 0x0 4.--5. "DRIVER_STRENGTH1,Host Controller output driver in 1.8V signaling is selected by this bit. In 3.3V signaling this field is not effective. This field can be set depends on Driver Type A C and D support bits in the Capabilities register. This bit depends.." "0,1,2,3" newline bitfld.word 0x0 3. "V1P8_SIGNAL_ENA,This bit controls voltage regulator for I/O cell. 3.3V is supplied to the card regardless of signaling voltage. Setting this bit from 0 to 1 starts changing signal voltage from 3.3V to 1.8V. 1.8V regulator output shall be stable within.." "?,1: SDR50" newline bitfld.word 0x0 0.--2. "UHS_MODE_SELECT,This field is used to select one of UHS-I modes or UHS-II mode.In case of UHS-I mode this field is effective when 1.8V Signal-ing Enable is set to 1. In case of UHS-II mode 1.8V Signaling Enable shall be set to 0. Setting of this field.." "0,1,2,3,4,5,6,7" rgroup.quad 0x40++0xF line.quad 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_capabilities,This register provides the HD with information specific to the HC implementation. The HC may implement these values as fixed or loaded from flash memory during power on initializa-tion." bitfld.quad 0x0 63. "HS400_SUPPORT,1 HS400 is Supported 0 HS400 is Not Supported" "0,1" newline bitfld.quad 0x0 60. "VDD2_1P8_SUPPORT,This field indicates that support of VDD2 on Host system." "0,1" newline bitfld.quad 0x0 59. "ADMA3_SUPPORT,This field indicates that support of ADMA3 on Host Controller." "0,1" newline bitfld.quad 0x0 57. "SPI_BLK_MODE,This field indicates whether SPI Block Mode is supported or not." "0,1" newline bitfld.quad 0x0 56. "SPI_SUPPORT,This field indicates whether SPI Mode is supported or not." "0,1" newline hexmask.quad.byte 0x0 48.--55. 1. "CLOCK_MULTIPLIER,This field indicates clock multiplier value of programmable clock generator. Refer to Clock Control register. Setting 00h means that Host Controller does not support programmable clock generator. 'FF' Clock Multiplier M = 256.." newline bitfld.quad 0x0 46.--47. "RETUNING_MODES,This field defines the re-tuning capability of a Host Controller and how to manage the data transfer length and a Re-Tuning Timer by the Host Driver. '00' Mode 1 '01' Mode 2 '10' Mode 3 '11' Reserved. There are two.." "0,1,2,3" newline bitfld.quad 0x0 45. "TUNING_FOR_SDR50,If this bit is set to 1 this Host Controller requires tuning to operate SDR50. [Tuning is always required to operate SDR104]. '0' '1'" "0,1" newline hexmask.quad.byte 0x0 40.--43. 1. "RETUNING_TIMER_CNT,This field indicates an initial value of the Re-Tuning Timer for Re-Tuning Mode 1 to 3. 0h - Get information via other source 1h = 1 seconds 2h = 2 seconds 3h = 4 seconds 4h = 8 seconds ------.." newline bitfld.quad 0x0 38. "DRIVERD_SUPPORT,This bit indicates support of Driver Type D for 1.8 Signaling. '0' Driver Type D is Not supported '1' Driver Type D is supported" "0,1" newline bitfld.quad 0x0 37. "DRIVERC_SUPPORT,This bit indicates support of Driver Type C for 1.8 Signaling. '0' Driver Type C is Not supported '1' Driver Type C is supported" "0,1" newline bitfld.quad 0x0 36. "DRIVERA_SUPPORT,This bit indicates support of Driver Type A for 1.8 Signaling. '0' Driver Type A is Not supported '1' Driver Type A is supported" "0,1" newline bitfld.quad 0x0 35. "UHS2_SUPPORT,This bit indicates whether Host controller supports UHS-II. If this bit is set to 1 1.8V VDD2 Support shall be set to 1 [Host Sys- tem shall support VDD2 power supply]. 1 UHS-II is Supported 0 UHS-II is Not Supported" "0,1" newline bitfld.quad 0x0 34. "DDR50_SUPPORT,This bit indicates whether DDR50 is supported or not." "0,1" newline bitfld.quad 0x0 33. "SDR104_SUPPORT,This bit indicates whether SDR104 is supported or not.SDR104 requires tuning." "0,1" newline bitfld.quad 0x0 32. "SDR50_SUPPORT,If SDR104 is supported this bit shall be set to 1. Bit 40 indicates whether SDR50 requires tuning or not." "0,1" newline bitfld.quad 0x0 30.--31. "SLOT_TYPE,This field indicates usage of a slot by a specific Host System. [A host controller register set is defined perslot.] Embedded slot for one device [01b] means that only one non-removable device is connected to a SD bus slot. Shared Bus Slot.." "0,1,2,3" newline bitfld.quad 0x0 29. "ASYNCH_INTR_SUPPORT,Refer to SDIO Specification Version 3.00 about asynchronous interrupt." "0,1" newline bitfld.quad 0x0 28. "ADDR_64BIT_SUPPORT_V3,IMeaning of this bit is different depends on Versions [Refer to Table 2-35 for more details]. Host Controller Version 3.00 and Ver4.10 use this bit as 64-bit System Address support for V3 mode. Host Con- troller Version 4.00 uses.." "0,1" newline bitfld.quad 0x0 27. "ADDR_64BIT_SUPPORT_V4,This bit is added from Version 4.10. Set-ting 1 to this bit indicates that the Host Controller supports 64-bit System Addressing of Version 4 mode [Refer to Table 2-35 for the summary of 64-bit sys-tem address support].. When.." "0,1" newline bitfld.quad 0x0 26. "VOLT_1P8_SUPPORT,This bit indicates whether the HC supports 1.8V." "0,1" newline bitfld.quad 0x0 25. "VOLT_3P0_SUPPORT,This bit indicates whether the HC supports 3.0V." "0,1" newline bitfld.quad 0x0 24. "VOLT_3P3_SUPPORT,This bit indicates whether the HC supports 3.3V." "0,1" newline bitfld.quad 0x0 23. "SUSP_RES_SUPPORT,This bit indicates whether the HC supports Suspend / Resume functionality. If this bit is 0 the Suspend and Resume mechanism are not supported and the HD shall not issue either Suspend / Resume commands." "0,1" newline bitfld.quad 0x0 22. "SDMA_SUPPORT,This bit indicates whether the HC is capable of using DMA to transfer data between system memory and the HC directly.Version 4.10 Host Controller shall support SDMA if ADMA2 is supported." "0,1" newline bitfld.quad 0x0 21. "HIGH_SPEED_SUPPORT,This bit indicates whether the HC and the Host System support High Speed mode and they can supply SD Clock frequency from 25Mhz to 50 Mhz [for SD]/ 20MHz to 52MHz [for MMC]." "0,1" newline bitfld.quad 0x0 19. "ADMA2_SUPPORT,'0' ADMA2 Not Supported '1' ADMA2 Supported" "0,1" newline bitfld.quad 0x0 18. "BUS_8BIT_SUPPORT,This bit indicates whether the Host Controller is capable of using 8-bit bus width mode. This bit is not effective when Slot Type is set to 10b. In this case refer to Bus Width Preset in the Shared Bus resister." "0,1" newline bitfld.quad 0x0 16.--17. "MAX_BLK_LENGTH,This value indicates the maximum block size that the HD can read and write to the buffer in the HC. The buffer shall transfer this block size without wait cycles. Three sizes can be defined as indicated below." "0,1,2,3" newline hexmask.quad.byte 0x0 8.--15. 1. "BASE_CLK_FREQ,[1]6-bit Base Clock Frequency: This mode is supported by the Host Controller Version 1.00 and 2.00. Upper 2-bit is not effective and always 0. Unit values are 1MHz. The supported clock range is 10MHz to 63MHz. '11xx xxxxb' Not.." newline bitfld.quad 0x0 7. "TIMEOUT_CLK_UNIT,This bit shows the unit of base clock frequency used to detect Data Timeout Error." "0,1" newline hexmask.quad.byte 0x0 0.--5. 1. "TIMEOUT_CLK_FREQ,This bit shows the base clock frequency used to detect Data Timeout Error. '000000' Get Information via another method 'not 0' 1KHz to 63KHz/1MHz to 63MHz" line.quad 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_max_current_cap,This register indicates maximum current capability for each voltage" hexmask.quad.byte 0x8 32.--39. 1. "VDD2_1P8V,Maximum Current for 1.8V VDD2" newline hexmask.quad.byte 0x8 16.--23. 1. "VDD1_1P8V,Maximum Current for 1.8V VDD1" newline hexmask.quad.byte 0x8 8.--15. 1. "VDD1_3P0V,Maximum Current for 3.0V VDD1" newline hexmask.quad.byte 0x8 0.--7. 1. "VDD1_3P3V,Maximum Current for 3.3V VDD1" wgroup.word 0x50++0x3 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_force_evnt_ACMD_Err_Sts,This register is not physically implemented. rather it is an address where Auto CMD Error Status register can be written." bitfld.word 0x0 7. "CMD_NOT_ISS,Force Event for Command Not Issued by AUTO CMD12 Error." "0,1" newline bitfld.word 0x0 5. "RESP,Force Event for AUTO CMD Response Error.." "0,1" newline bitfld.word 0x0 4. "INDEX,Force Event for AUTO CMD Index Error.." "0,1" newline bitfld.word 0x0 3. "ENDBIT,Force Event for AUTO CMD End Bit Error." "0,1" newline bitfld.word 0x0 2. "CRC,Force Event for AUTO CMD Timeout Error." "0,1" newline bitfld.word 0x0 1. "TIMEOUT,Force Event for AUTO CMD Timeout Error." "0,1" newline bitfld.word 0x0 0. "ACMD_NOT_EXEC,Force Event for AUTO CMD12 Not Executed." "0,1" line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_force_evnt_Err_Int_Sts,This register is not physically implemented. rather it is an address where Error Interrupt Status register can be written." bitfld.word 0x2 12. "HOST,Force Event for Host Error" "0,1" newline bitfld.word 0x2 11. "RESP,Force Event for Response Error" "0,1" newline bitfld.word 0x2 10. "TUNING,Force Event for Tuning Error." "0,1" newline bitfld.word 0x2 9. "ADMA,Force Event for ADMA Error." "0,1" newline bitfld.word 0x2 8. "AUTO_CMD,Force Event for Auto CMD Error." "0,1" newline bitfld.word 0x2 7. "CURR_LIM,Force Event for Current Limit Error." "0,1" newline bitfld.word 0x2 6. "DAT_ENDBIT,Force Event for Data End Bit Error." "0,1" newline bitfld.word 0x2 5. "DAT_CRC,Force Event for Data CRC Error." "0,1" newline bitfld.word 0x2 4. "DAT_TIMEOUT,Force Event for Data Timeout Error." "0,1" newline bitfld.word 0x2 3. "CMD_INDEX,Force Event for Command Index Error" "0,1" newline bitfld.word 0x2 2. "CMD_ENDBIT,Force Event for Command End Bit Error." "0,1" newline bitfld.word 0x2 1. "CMD_CRC,Force Event for Command CRC Error." "0,1" newline bitfld.word 0x2 0. "CMD_TIMEOUT,Force Event for CMD Timeout Error." "0,1" rgroup.byte 0x54++0x0 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_adma_err_status,When the ADMA Error interrupt occur. this register holds the ADMA State in ADMA Error States field and ADMA System Address holds address around the error descriptor" bitfld.byte 0x0 2. "ADMA_LENGTH_ERR,This error occurs in the following 2 cases. 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. Total data length can not be.." "0,1" newline bitfld.byte 0x0 0.--1. "ADMA_ERR_STATE,This field indicates the state of ADMA when error is occurred during ADMA data transfer. This field never indicates 10 because ADMA never stops in this state. D01 D00 : ADMA Error State when error occurred Contents of SYS_SDR.." "0,1,2,3" group.quad 0x58++0x7 line.quad 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_adma_sys_address,This register contains the physical address used for ADMA data transfer" hexmask.quad 0x0 0.--63. 1. "ADMA_ADDR,The 32-bit addressing Host Driver uses lower 32-bit of this register [upper 32-bit should be set to 0] and shall program Descriptor Table on 32-bit boundary andset 32-bit boundary address to this register. DMA2/3 ignores lower 2-bit of this.." rgroup.word 0x60++0xF line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value0,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x0 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x0 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x0 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value1,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x2 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x2 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x2 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value2,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x4 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x4 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x4 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0x6 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value3,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x6 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x6 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x6 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value4,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x8 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x8 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x8 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0xA "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value5,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0xA 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0xA 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0xA 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0xC "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value6,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0xC 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0xC 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0xC 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0xE "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value7,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0xE 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0xE 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0xE 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." rgroup.word 0x72++0x3 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value8,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x0 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x0 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x0 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_preset_value10,This register is used to read the SDCLK Frequency Select Value.Clock Generator Select Value.Driver Strength Select Value" bitfld.word 0x2 14.--15. "DRIVER_STRENGTH_SEL,Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling." "0,1,2,3" newline bitfld.word 0x2 10. "CLOCK_GENSEL,This bit is effective when Host Controller supports programmable clock '0' Host Controller Ver2.00 Compatible Clock Generator '1' Programmable Clock Generator" "0,1" newline hexmask.word 0x2 0.--9. 1. "SDCLK_FRQSEL,10-bit preset value to set SDCLK Frequency Select in the Clock Control Register is described by a host system." group.quad 0x78++0x7 line.quad 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_adma3_desc_address,The start address of Integrated DMA Descriptor is set to this register." hexmask.quad 0x0 0.--63. 1. "INTG_DESC_ADDR,The start address of Integrated DMA Descriptor is set to this register. Writing to a specific address starts ADMA3 depends on 32-bit/64-bit address-ing. The ADMA3 fetches one Descriptor Address and increments this field to indicate the.." group.word 0x80++0x1 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_block_size,This register is used to configure the number of bytes in a data block" bitfld.word 0x0 12.--14. "SDMA_BUF_BOUNDARY,When system memory is managed by paging SDMA data transfer is performed in unit of paging. A page size of sys-tem memory management is set to this field. Host Controller generates the DMA Interrupt at the page boundary and.." "0,1,2,3,4,5,6,7" newline hexmask.word 0x0 0.--11. 1. "XFER_BLK_SIZE,This register specifies the block size of data packet. SD Memory Card uses a fixed block size of 512 bytes. Vari-able block size may be used for SDIO. The maximum value is 2048 Bytes because CRC16 covers up to 2048 bytes. This register is.." group.long 0x84++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_block_count,This register is used to configure the number of data blocks" hexmask.long 0x0 0.--31. 1. "XFER_BLK_COUNT,This register is effective when Data Present is set to 1 in UHS-II Command register and is enabled when Block Count Enable is set to 1 and Block / Byte Mode is set to 0 in the UHS-II Transfer Mode register. Data transfer stops when the.." group.byte 0x88++0x0 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_command_pkt,UHS-II Command Packet image is set to this register. The maximum length is 20 bytes. The command length varies depends on a Command Packet type. The length is specified by the UHS-II Command register." hexmask.byte 0x0 0.--7. 1. "CMD_PKT_BYTE,UHS-II Command Packet image is set to this register.The command length varies depends on a Command Packet type." group.word 0x9C++0x3 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_xfer_mode,This register is used to control the operations of data transfers" bitfld.word 0x0 15. "DUPLEX_SELECT,Use of 2 lane half duplex mode is determined by Host Driver." "0,1" newline bitfld.word 0x0 14. "EBSY_WAIT,This bit is set when issuing a command which is accompanied by EBSY packet to indicate end of command execution. Busy is expected for CCMD with R1b/R5b type and DCMD with data transfer.If this bit is set to 1 Host Controller waits receiving of.." "0,1" newline bitfld.word 0x0 8. "RESP_INTR_DIS,Host Controller Version 4.00 supports response error check function to avoid overhead of response error check by Host Driver. Only R1 or R5 can be checked. If Host Driver checks response error sets this bit to 0 and waits Command.." "0,1" newline bitfld.word 0x0 7. "RESP_ERR_CHK_ENA,Host Controller Version 4.00 supports response error check function to avoid overhead of response error check by Host Driver.Only R1 or R5 can be checked. If Host Driver checks response error this bit is set to 0 and Response.." "0,1" newline bitfld.word 0x0 6. "RESP_TYPE,When response error check is enabled this bit selects either R1 or R5 response types. Two types of response checks are supported: R1 for memory and R5 for SDIO. Error Statuses Checked in R1 Bit31 OUT_OF_RANGE.." "0,1" newline bitfld.word 0x0 5. "BYTE_MODE,This bit specifies whether data transfer is in byte mode or block mode when Data Present is set to 1. This bit is effective to a command with data trans-fer." "0,1" newline bitfld.word 0x0 4. "DATA_XFER_DIR,This bit specifies direction of data trans-fer when Data Present is set to 1. This bit is effective to a command with data transfer. 0 - Read [Card to Host] 1 - Write [Host to Card]" "0,1" newline bitfld.word 0x0 1. "BLK_CNT_ENA,This bit specifies whether data transfer usesUHS-II Block Count register. If this bit is set to 1 data transfer is terminated by Block Count. Setting to UHS-II Block Count register shall be equivalent to TLEN in UHS-II Command Packet.." "0,1" newline bitfld.word 0x0 0. "DMA_ENA,This bit selects whether DMA is used or not and is effective to a command with data transfer. One of DMA types is selected by DMA Select in the Host Control 1 register." "0,1" line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_command,This register is used to program the Command for host controller" hexmask.word.byte 0x2 8.--12. 1. "PKT_LENGTH,A command packet length which is set in the UHS-II Command Packet register is set to this register. 00011b - 00000b - 3-0 Bytes [Not used] 00100b - 4 Bytes .......... ...... 10100b - 20 Bytes.." newline bitfld.word 0x2 6.--7. "CMD_TYPE,This field is used to distinguish a spe-cific command like abort command. If this field is set to 00b the UHS-II RES Packet is stored in UHS-II Response register [0B3h-0A0h]. To avoid overwrit-ing the UHS-II Response register when this filed.." "0,1,2,3" newline bitfld.word 0x2 5. "DATA_PRESENT,This bit specifies whether the command is accompanied by data packet." "0,1" newline bitfld.word 0x2 2. "SUB_COMMAND,This bit is added from Version 4.10 to distinguish a main command or sub command [Refer to Section 1.17].When issuing a main command this bit is set to 0 and when issuing a sub com-mand this bit is set to 1. Setting of this bit is checked.." "0,1" rgroup.byte 0xA0++0x0 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_response,This register is used to store received UHS-II RES Packet image" hexmask.byte 0x0 0.--7. 1. "RESP_PKT_BYTE,Host Controller saves received UHS-II RES Packet image to this register except the response of an abort command." group.byte 0xB4++0x0 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_message_select,This register is used to access internal buffer" bitfld.byte 0x0 0.--1. "MSG_SEL,Host Controller holds 4 MSG packets in FIFO buffer.One of 4 MSGs can be read from the UHS-II MSG register [0BB-0B8h] by setting this register.[Assumed for debug usage.] '00' The latest MSG '01' One MSG before '10' Two MSGs.." "0,1,2,3" rgroup.long 0xB8++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_message,This register is used to access internal buffer" hexmask.long.byte 0x0 24.--31. 1. "MSG_BYTE3,Host Controller holds 4 MSG packets in FIFO buffer. One of 4 MSGs [length is 4 bytes] can be read fromthis register by setting UHS-II MSG Select register. Usually 2 duplicate MSG packets are sent from/toUHS-II card. One of these 2 MSG packets.." newline hexmask.long.byte 0x0 16.--23. 1. "MSG_BYTE2,Host Controller holds 4 MSG packets in FIFO buffer. One of 4 MSGs [length is 4 bytes] can be read fromthis register by setting UHS-II MSG Select register. Usually 2 duplicate MSG packets are sent from/toUHS-II card. One of these 2 MSG packets.." newline hexmask.long.byte 0x0 8.--15. 1. "MSG_BYTE1,Host Controller holds 4 MSG packets in FIFO buffer. One of 4 MSGs [length is 4 bytes] can be read fromthis register by setting UHS-II MSG Select register. Usually 2 duplicate MSG packets are sent from/toUHS-II card. One of these 2 MSG packets.." newline hexmask.long.byte 0x0 0.--7. 1. "MSG_BYTE0,Host Controller holds 4 MSG packets in FIFO buffer. One of 4 MSGs [length is 4 bytes] can be read fromthis register by setting UHS-II MSG Select register. Usually 2 duplicate MSG packets are sent from/toUHS-II card. One of these 2 MSG packets.." group.word 0xBC++0x1 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_device_intr_status,This register shows receipt of INT MSG from which device" hexmask.word 0x0 0.--15. 1. "DEV_INT_STS,This register shows receipt of INT MSG from which device and is effective when INT MSG Enable is set to 1 in the UHS- II Device Select register. On receiving INT MSG from a device Host Controller saves the INT MSG to UHS-II Device Interrupt.." group.byte 0xBE++0x0 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_device_select,UHS-II Device Select Register" bitfld.byte 0x0 7. "INT_MSG_ENA,This bit enables receipt of INT MSG. If this bit is set to 1 receipt of INT MSG is informed by Card Interrupt in the Nor-mal Interrupt Status register. If this bit is set to 0 Host Con-troller ignores receipt of INT MSG and may not set the.." "0,1" newline hexmask.byte 0x0 0.--3. 1. "DEV_SEL,Host Controller holds an INT MSG packet per device. One of INT MSGs [up to 15] can be selected by this field and read from the UHS-II Device Interrupt Code Register [0BFh]. This field is effective when INT MSG Enable is set to 1. The.." rgroup.byte 0xBF++0x0 line.byte 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_device_int_code,This register is effective when INT MSG Enable is set to 1 in the UHS-II Device Select register." hexmask.byte 0x0 0.--7. 1. "DEV_INTR,This register is effective when INT MSG Enable is set to 1 in the UHS-II Device Select register. Host Controller holds an INT MSG packet per device. One of INT MSGs [Code length is 1 byte] up to 15 can be read from this register by.." group.word 0xC0++0x3 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_software_reset,UHS-II Software Reset Register" bitfld.word 0x0 1. "HOST_SDTRAN_RESET,Host Driver set this bit to 1 to reset SD-TRAN layer when CMD0 is issued to Device or data transfer error occurs. This bit is cleared automatically at completionof SD-TRAN reset. If CMD0 is issued SD-TRAN Initial- ization sequence from.." "0,1" newline bitfld.word 0x0 0. "HOST_FULL_RESET,On issuing FULL_RESET CCMD Host Driver set this bit to 1 to reset Host Controller. This bit is cleared auto-matically at completion of Host Controller reset. Initial- ization sequence from PHY Initialization is required to use UHS-II.." "0,1" line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_timer_control,UHS-II Timeout Control Register" hexmask.word.byte 0x2 4.--7. 1. "DEADLOCK_TIMEOUT_CTR,This value determines the deadlock period while host expecting to receive a packet [1 second]. Tim-eout clock frequency will be generated by dividing the base clock TMCLK value by this value. When setting this register prevent.." newline hexmask.word.byte 0x2 0.--3. 1. "CMDRESP_TIMEOUT_CTR,This value determines the interval between com-mand packet and response packet [5ms]. Timeout clock frequency will be generated by dividing the base clock TMCLK value by this value. When set-ting this register prevent inadvertent.." group.long 0xC4++0xB line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_err_intr_sts,This register gives the status of all UHS-II interrupts" hexmask.long.byte 0x0 27.--31. 1. "VENDOR_SPECFIC_ERR,Vendor may use this field for vendor specific error status. '0' Interrupt is not generated '1' Vendor Specific Error" newline bitfld.long 0x0 17. "DEADLOCK_TIMEOUT,Setting of this bit means that deadlock timeout occurs. Host expects to receive a packet but not received in a specified timeout [1 second]. Timeout value is determined by the setting of Timeout Counter Value for Deadlock in UHS-II Timer.." "0,1" newline bitfld.long 0x0 16. "CMD_RESP_TIMEOUT,Setting of this bit means that RES Packet timeout occurs. Host expects to receive RES packet but not received in a specified timeout [5ms]. Timeout value is determined by the setting of Timeout Counter Value for CMD_RES in UHS-II Timer.." "0,1" newline bitfld.long 0x0 15. "ADMA2_ADMA3,Setting of this bit means that ADMA2/3 Error occurs in UHS-II mode. ADMA2/3 Error Status is indicated to the ADMA Error Status [054h] which is defined in the Host spec 3.00." "0,1" newline bitfld.long 0x0 8. "EBSY,On receiving EBSY packet if the packet indicates an error this bit is set to 1. Setting of this bit also sets Error Interrupt and Transfer Completer together in the Normal Interrupt Status register. This error check is effective for a command with.." "0,1" newline bitfld.long 0x0 7. "UNRECOVERABLE,Setting of this bit means that Unrecoverable Error is set in a packet from a device." "0,1" newline bitfld.long 0x0 5. "TID,Setting of this bit means that TID Error occurs." "0,1" newline bitfld.long 0x0 4. "FRAMING,Setting of this bit means that Framing Error occurs during a packet receiving." "0,1" newline bitfld.long 0x0 3. "CRC,Setting of this bit means that CRC Error occurs during a packet receiving." "0,1" newline bitfld.long 0x0 2. "RETRY_EXPIRED,Setting of this bit means that Retry Counter Expired Error occurs during data transfer.If this bit is set either Framing Error or CRC Error in this register shall be set." "0,1" newline bitfld.long 0x0 1. "RESP_PKT,Host Controller Version 4.00 supports response error check function to avoid overhead of response error check by Host Driver during DMA execution. If Response Error Check Enable is set to1 in the UHS- II Transfer Mode register Host Controller.." "0,1" newline bitfld.long 0x0 0. "HEADER,Setting of this bit means that Header Error occurs in a received packet." "0,1" line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_err_intr_sts_ena,This register is used to enable the UHS-II Error Interrupt Status register fields" hexmask.long.byte 0x4 27.--31. 1. "VENDOR_SPECFIC,Setting this bit to 1 enables setting of Vendor Specific Error bit in the UHS-II Error Interrupt Status register. 0h - Status is Disabled 1h - Status is Enabled" newline bitfld.long 0x4 17. "DEADLOCK_TIMEOUT,Setting this bit to 1 enables setting of Timeout for Dead lock bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 16. "CMD_RESP_TIMEOUT,Setting this bit to 1 enables setting of Timeout for CMD_RES bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 15. "ADMA2_ADMA3,Setting this bit to 1 enables setting of ADMA2/3 Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 8. "EBSY,Setting this bit to 1 enables setting of EBSY Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 7. "UNRECOVERABLE,Setting this bit to 1 enables setting of Unrecoverable Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 5. "TID,Setting this bit to 1 enables setting of TID Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 4. "FRAMING,Setting this bit to 1 enables setting of Framing Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 3. "CRC,Setting this bit to 1 enables setting of CRC Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 2. "RETRY_EXPIRED,Setting this bit to 1 enables setting of Retry Expired bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 1. "RESP_PKT,Setting this bit to 1 enables setting of RES Packet Error bit in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x4 0. "HEADER,Setting this bit to 1 enables setting of Header Error bit in the UHS-II Error Interrupt Status Register." "0,1" line.long 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_err_intr_sig_ena,This register is used to generate UHS-II Interrupt signals" hexmask.long.byte 0x8 27.--31. 1. "VENDOR_SPECFIC,Setting of a bit to 1 in this field enables generating interrupt signal when corre-spondent bit of Vendor Specific Error is set in the UHS-II Error Interrupt Status Register. 0h - Interrupt Signal is Disabled 1h -.." newline bitfld.long 0x8 17. "DEADLOCK_TIMEOUT,Setting this bit to 1 enables generating interrupt signal when Timeout for Dead lock bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 16. "CMD_RESP_TIMEOUT,Setting this bit to 1 enables generating interrupt signal when Timeout for CMD_RES bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 15. "ADMA2_ADMA3,Setting this bit to 1 enables generating interrupt signal when ADMA2/3 Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 8. "EBSY,Setting this bit to 1 enables generating interrupt signal when EBSY Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 7. "UNRECOVERABLE,Setting this bit to 1 enables generating interrupt signal when Unrecoverable Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 5. "TID,Setting this bit to 1 enables generating interrupt signal when TID Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 4. "FRAMING,Setting this bit to 1 enables generating interrupt signal when Framing Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 3. "CRC,Setting this bit to 1 enables generating interrupt signal when CRC Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 2. "RETRY_EXPIRED_SIG_ENA,Setting this bit to 1 enables generating interrupt signal when Retry Expired bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 1. "RESP_PKT,Setting this bit to 1 enables generating interrupt signal when RES Packet Error bit is set in the UHS-II Error InterruptStatus Register." "0,1" newline bitfld.long 0x8 0. "HEADER,Setting this bit to 1 enables generating interrupt signal when Header Error bit is set in the UHS-II Error Interrupt Status Register." "0,1" rgroup.word 0xE0++0x9 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_settings_ptr,This register is pointer for UHS-II settings." hexmask.word 0x0 0.--15. 1. "UHS2_SETTINGS_PTR,Pointer for UHS-II Settings Register" line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_capabilities_ptr,This register is pointer for UHS-II Capabilities Register." hexmask.word 0x2 0.--15. 1. "UHS2_CAPABILITIES_PTR,Pointer for UHS-II Capabilities Register" line.word 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_test_ptr,This register is pointer for UHS-II Test Register." hexmask.word 0x4 0.--15. 1. "UHS2_TEST_PTR,Pointer for UHS-II Test Register" line.word 0x6 "SDHC_WRAP__CTL_CFG__CTLCFG_shared_bus_ctrl_ptr,This register is pointer for UHS-II Shared Bus Control Register." hexmask.word 0x6 0.--15. 1. "SHARED_BUS_CTRL_PTR,Pointer for Shared Bus Control Register" line.word 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_vendor_specfic_ptr,This register is pointer for UHS-II Vendor Specific Pointer Register." hexmask.word 0x8 0.--15. 1. "VENDOR_SPECFIC_PTR,Pointer for Vendor Specific Area" group.long 0xF4++0x7 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_boot_timeout_control,This is used to program the boot timeout value counter" hexmask.long 0x0 0.--31. 1. "DATA_TIMEOUT_CNT,This value determines the interval by which DAT line time-outs are detected during boot operation for eMMC4.4 card.The value is in number of sd clock." line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_vendor_register,Vendor register added for autogate sdclk. cmd11 power down timer. enhancedstrobe and eMMC hardware reset" bitfld.long 0x4 16. "AUTOGATE_SDCLK,If this bit is set SD CLK will be gated automatically when there is no transfer. This is applicable only for Embedded Device" "0,1" newline hexmask.long.word 0x4 2.--15. 1. "CMD11_PD_TIMER,cmd11 power-down timer value" newline bitfld.long 0x4 1. "EMMC_HW_RESET,Hardware reset signal is generared for eMMC card when this bit is set" "0,1" newline bitfld.long 0x4 0. "ENHANCED_STROBE,This bit enables the enhanced strobe logic of the Host Controller" "0,1" rgroup.word 0xFC++0x3 line.word 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_slot_int_sts,This register is used to read the interrupt signal for each slot." hexmask.word.byte 0x0 0.--7. 1. "INTR_SIG,These status bits indicate the logical OR of Interrupt signal and Wakeup signal for each slot." line.word 0x2 "SDHC_WRAP__CTL_CFG__CTLCFG_host_controller_ver,This register is used to read the vendor version number and specification version number" hexmask.word.byte 0x2 8.--15. 1. "VEN_VER_NUM,The Vendor Version Number is set to 0x10 [1.0]" newline hexmask.word.byte 0x2 0.--7. 1. "SPEC_VER_NUM,This status indicates the Host Controller Spec. Version. The upper and lower 4-bits indicate the version. 00h - SD Host Controller Specification Version 1.00 01h - SD Host Controller Specification Version 2.00 Including the.." group.long 0x100++0x7 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_gen_settings,Start Address of General settings is pointed by Pointer for UHS-II Setting Register." hexmask.long.byte 0x0 8.--13. 1. "NUMLANES,The lane configuration of a Host System is set to this field depends on the capability among Host Controller and connected devices. 2 Lanes FD mode is mandatory and the others modes are optional. 0000b - 2 Lanes FD or 2L-HD 0001b -.." newline bitfld.long 0x0 0. "POWER_MODE,This field determines either Fast mode or Low Power mode.Host and all devices connected to the host shall be set to the same mode." "0,1" line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_phy_settings,Start Address of PHY settings is pointed by Pointer for UHS-II Setting Register." hexmask.long.byte 0x4 20.--23. 1. "N_LSS_DIR,The largest value of N_LSS_DIR capabilities among the Host Controller and Connected Devices is set to this field. 0h - 8 x16 LSS 1h - 8 x 1 LSS 2h - 8 x 2 LSS 3h - 8 x 3 LSS ...... ......" newline hexmask.long.byte 0x4 16.--19. 1. "N_LSS_SYN,The largest value of N_LSS_SYN capabilities among the Host Controller and Connected Devices is set to this field. 0h - 4 x16 LSS 1h - 4 x 1 LSS 2h - 4 x 2 LSS 3h - 4 x 3 LSS ...... ......" newline bitfld.long 0x4 15. "HIBERNATE_ENA,After checking card capability of Hibernate mode if all devices support Hibernate mode this bit may be set. This bit determines whether Host remains in Dormant state or goes to Hibernate state. In Hibernate mode VDD1 Power may be off." "0,1" newline bitfld.long 0x4 6.--7. "SPEED_RANGE,PLL multiplier is selected by this field.Change of PLL Multiplier is not effective immediately and is applied from exiting Dormant State. '00' Range A [Default] '01' Range B '10' Reserved '11' Reserved" "0,1,2,3" group.quad 0x108++0x7 line.quad 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_lnk_trn_settings,Start Address of LINK/TRAN settings is pointed by Pointer for UHS-II Setting Register." hexmask.quad.byte 0x0 32.--39. 1. "N_DATA_GAP,The largest value of N_DATA_GAP capabilities among the Host Controller and Connected Devices is set to this field. 00h - No Gap 01h - 1 LSS 02h - 2 LSS 03h - 3 LSS ...... ...... FFh - 255.." newline bitfld.quad 0x0 16.--17. "RETRY_COUNT,Data Burst retry count is set to this field. '00' Retry Disabled '01' 1 time '10' 2 times '11' 3 times" "0,1,2,3" newline hexmask.quad.byte 0x0 8.--15. 1. "HOST_NFCU,Host Driver sets the number of blocks in Data Burst [Flow Control] to this field.The value shall be smaller than or equal to N_FCU capabilities among the Host Controller and connected card and devices. Setting 1 to 4 blocks is recommended.." rgroup.long 0x110++0x7 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_gen_cap,Start Address of General Capabilities is pointed by Pointer for UHS-II Host Capabilities Register." bitfld.long 0x0 22.--23. "CORECFG_UHS2_BUS_TOPLOGY,This field indicates one of bus topologies configured by a Host system. '00' P2P Connection '01' Ring Connection '10' HUB Connection '11' HUB is connected in Ring" "0,1,2,3" newline hexmask.long.byte 0x0 18.--21. 1. "CORECFG_UHS2_MAX_DEVICES,This field indicates the maximum number of devices supported by the Host Controller. 0h - Not used 1h - 1 Devices 2h - 2 Devices ..... ....... Fh - 15 Devices" newline bitfld.long 0x0 16.--17. "DEVICE_TYPE,This field indicates device type configured by a Host system. '00' Removable Card[P2P] '01' Embedded Devices '10' Embedded Devices+Removable Card '11' Reserved" "0,1,2,3" newline bitfld.long 0x0 14. "CFG_64BIT_ADDRESSING,This field indicates support of 64-bit addressing by the Host Controller. '0' 32-bit Addressing is supported '1' 32-bit and 64-bit Addressing is supported" "0,1" newline hexmask.long.byte 0x0 8.--13. 1. "NUM_LANES,This field indicates support of lanes by the Host Controller.0 mean not supported and 1 means supported. D08 - 2L-HD D09 - 2D1U-FD D10 - 1D2U-FD D11 - 2D2U-FD D12 - Reserved D13 - Reserved" newline hexmask.long.byte 0x0 4.--7. 1. "GAP,This field indicates the maximum capability of host power supply for a group configured by a Host system.This field is used to set the argument of DEVICE_INIT CCMD 0h -Not used 1h - 360 mW 2h - 720 mW ....." newline hexmask.long.byte 0x0 0.--3. 1. "DAP,This field indicates the maximum capability of host power supply for a device configured by a Host system.This field is used to set the argument of DEVICE_INIT CCMD 0h -360 mW [Default] 1h - 360 mW 2h - 720 mW.." line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_phy_cap,Start Address of PHY Capabilities is pointed by Pointer for UHS-II Host Capabilities Register." hexmask.long.byte 0x4 20.--23. 1. "N_LSS_DIR,This field indicates the minimum N_LSS_DIR required by the Host Controller. 0h - 4 x16 LSS 1h - 4 x 1 LSS 2h - 4 x 2 LSS 3h - 4 x 3 LSS ...... ...... Fh - 4 x 15 LSS" newline hexmask.long.byte 0x4 16.--19. 1. "N_LSS_SYN,This field indicates the minimum N_LSS_SYN required by the Host Controller. 0h - 4 x16 LSS 1h - 4 x 1 LSS 2h - 4 x 2 LSS 3h - 4 x 3 LSS ...... ...... Fh - 4 x 15 LSS" newline bitfld.long 0x4 6.--7. "SPEED_RANGE,This field indicates supported Speed Range by the Host Controller '00' Range A [Default] '01' Range A and Range B '10' Reserved '11' Reserved" "0,1,2,3" rgroup.quad 0x118++0x7 line.quad 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_uhs2_lnk_trn_cap,Start Address of LINK/TRAN settings is pointed by Pointer for UHS-II Capabilities Register." hexmask.quad.byte 0x0 32.--39. 1. "N_DATA_GAP,This field indicates the minimum number of data gap[DIDL] supported by the Host Controller. 00h - No Gap 01h - 1 LSS 02h - 2 LSS 03h - 3 LSS ...... ...... FFh - 255 LSS" newline hexmask.quad.word 0x0 20.--31. 1. "MAX_BLK_LENGTH,This field indicates maximum block length by the Host Controller. 000h - Not Used 001h - 1 byte 002h - 2 bytes ...... ...... 200h - 512 bytes ...... ......" newline hexmask.quad.byte 0x0 8.--15. 1. "N_FCU,This field indicates maximum the number of blocks in a Flow Control unit by the Host Controller.This value is determined by supported buffer size. 00h - 256 Blocks 01h - 1 Block 02h - 2 Block 03h - 3 Block.." wgroup.long 0x120++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_force_UHSII_Err_Int_Sts,This register is not physically implemented. rather it is an address where UHS-II Error Interrupt Status register can be written." hexmask.long.byte 0x0 27.--31. 1. "VENDOR_SPECIFIC,Force Event for Vendor Specific Error 0h - Not Affected 1h - Vendor Specific Error Status is set" newline bitfld.long 0x0 17. "TIMEOUT_DEADLOCK,Setting this bit forces the Host Controller to set Timeout for Deadlock in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 16. "TIMEOUT_CMD_RES,Setting this bit forces the Host Controller to set Timeout for CMD_RES in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 15. "ADMA,Setting this bit forces the Host Controller to set ADMA Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 8. "EBSY,Setting this bit forces the Host Controller to set EBSY Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 7. "UNRECOVERABLE,Setting this bit forces the Host Controller to set Unrecover-able Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 5. "TID,Setting this bit forces the Host Controller to set TID Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 4. "FRAMING,Setting this bit forces the Host Controller to set Framing Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 3. "CRC,Setting this bit forces the Host Controller to set CRC Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 2. "RETRY_EXPIRED,Setting this bit forces the Host Controller to set Retry Expired in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 1. "RES_PKT,Setting this bit forces the Host Controller to set RES Packet Error in the UHS-II Error Interrupt Status register." "0,1" newline bitfld.long 0x0 0. "HEADER,Setting this bit forces the Host Controller to set Header Error in the UHS-II Error Interrupt Status register." "0,1" rgroup.long 0x200++0x7 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_version,This register provides information about the version of the eMMC CQ standard which is 285 implemented by the CQE. in BCD format. The current version is rev 5.1" hexmask.long.byte 0x0 8.--11. 1. "EMMC_MAJOR_VER_NUM,eMMC Major Version Number [digit left of decimal point] in BCD format" newline hexmask.long.byte 0x0 4.--7. 1. "EMMC_MINOR_VER_NUM,eMMC Minor Version Number [digit right of decimal point] in BCD format" newline hexmask.long.byte 0x0 0.--3. 1. "EMMC_VERSION_SUFFIX,eMMC Version Suffix [2nd digit right of decimal point] in BCD format" line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_capabilities,This register is reserved for capability indication." hexmask.long.byte 0x4 12.--15. 1. "CF_MUL,Internal Timer Clock Frequency Multiplier [ITCFMUL] ITCFMUL and ITCFVAL indicate the frequency of the clock used for interrupt coalescing timer and for deter-mining the SQS polling period. See ITCFVAL definition for details." newline hexmask.long.word 0x4 0.--9. 1. "CF_VAL,Internal Timer Clock Frequency Value [ITCFVAL] TCFMUL and ITCFVAL indicate the frequency of the clock used for interrupt coalescing timer and for deter-mining the polling period when using periodic SEND_QUEUE_ STATUS [CMD13] polling." group.long 0x208++0x27 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_config,This register controls CQE behavior affecting the general operation of command queueing 290 module or operation of multiple tasks in the same time." bitfld.long 0x0 12. "DCMD_ENA,Direct Command [DCMD] Enable This bit indicates to the hardware whether the Task Descriptor in slot #31 of the TDL is a Data Transfer Task Descriptor or a Direct Command Task Descriptor. CQE uses this bit when a task is issued in slot.." "0: Task descriptor in slot #31 is a Data Transfer..,1: Task descriptor in slot #31 is a DCMD Task.." newline bitfld.long 0x0 8. "TASK_DESC_SIZE,Task Descriptor Size This bit indicates whether the task descriptor size is 128 bits or 64 bits as detailed in Data Structures section. This bit can only be configured when Command Queueing Enable bit is 0 [command queueing is.." "0: Task descriptor size is 64 bits,1: Task descriptor size is 128 bits" newline bitfld.long 0x0 0. "CQ_ENABLE,Command Queueing Enable Software shall write 1 this bit when in order to enable command queueing mode [i.e. enable CQE]. When this bit is 0 CQE is disabled and software controls the eMMC bus using the legacy eMMC host controller." "0,1" line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_control,This register controls CQE behavior affecting the general operation of command queueing 293 module or operation of multiple tasks in the same time." bitfld.long 0x4 8. "CLEAR_ALL_TASKS,Clear All Tasks Software shall write 1 this bit when it wants to clear all the tasks sent to the device. This bit can only be written when CQE is in halt state [i.e.Halt bit is 1]. When software writes 1 the value of the.." "0,1" newline bitfld.long 0x4 0. "HALT_BIT,Halt Host software shall write 1 to the bit when it wants to acquire software control over the eMMC bus and disable CQE from issuing commands on the bus. For example issuing a Discard Task command [CMDQ_TASK_MGMT] When software writes 1 .." "0,1" line.long 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_intr_sts,This register indicates pending interrupts that require service. Each bit in this registers is asserted 296 in response a specific event. only if the respective bit is set in CQ ISTE register." bitfld.long 0x8 4. "TASK_ERROR,Task Error Interrupt [TERR] This bit is asserted when task error is detected due to invalid task descriptor" "0,1" newline bitfld.long 0x8 3. "TASK_CLEARED,Task Cleared [TCL] This status bit is asserted [if CQISTE.TCL=1] when a task clear operation is completed by CQE. The com-pleted task clear operation is either an individual task clear [CQTCLR] or clearing of all tasks [CQCTL]." "0,1" newline bitfld.long 0x8 2. "RESP_ERR_DET,Response Error Detected Interrupt [RED] This status bit is asserted [if CQISTE.RED=1] when a response is received with an error bit set in the device status field. The contents of the device status field are listed in Section.." "0,1" newline bitfld.long 0x8 1. "TASK_COMPLETE,Task Complete Interrupt [TCC] This status bit is asserted [if CQISTE.TCC=1] when atleast one of the following two conditions are met: [1] A task is completed and the INT bit is set in its Task Descriptor [2] Interrupt caused by.." "0,1" newline bitfld.long 0x8 0. "HALT_COMPLETE,Halt Complete Interrupt [HAC] This status bit is asserted [if CQISTE.HAC=1] when halt bit in CQCTL register transitions from 0 to 1 indicating that host controller has completed its current ongoing task and has entered halt state." "0,1" line.long 0xC "SDHC_WRAP__CTL_CFG__CTLCFG_cq_intr_sts_ena,This register enables and disables the reporting of the corresponding interrupt to host soft-ware in 299 CQIS register. When a bit is set ( 1 ) and the corresponding interrupt c -ondition is active. then.." bitfld.long 0xC 4. "TASK_ERROR,Task Error Interrupt Status Enable 1 = CQIS.TERR will be set when its interrupt condition is active 0 = CQIS.TERR is disabled" "0: CQIS,1: CQIS" newline bitfld.long 0xC 3. "TASK_CLEARED,Task Cleared Status Enable [TCL] 1 = CQIS.TCL will be set when its interrupt condition is active 0 = CQIS.TCL is disabled" "0: CQIS,1: CQIS" newline bitfld.long 0xC 2. "RESP_ERR_DET,Response Error Detected Status Enable [RED] 1 = CQIS.RED will be set when its interrupt condition is active 0 = CQIS.RED is disabled" "0: CQIS,1: CQIS" newline bitfld.long 0xC 1. "TASK_COMPLETE,Task Complete Status Enable [TCC] 1 = CQIS.TCC will be set when its interrupt condition is active 0 = CQIS.TCC is disabled" "0: CQIS,1: CQIS" newline bitfld.long 0xC 0. "HALT_COMPLETE,Halt Complete Status Enable [HAC] 1 = CQIS.HAC will be set when its interrupt condition is active 0 = CQIS.HAC is disabled" "0: CQIS,1: CQIS" line.long 0x10 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_intr_sig_ena,This register enables and disables the generation of interrupts to host software. When a bit is set 304 ( 1 ) and the corresponding bit in CQIS is set. then an interrupt is gene -rated. Interrupt sources.." bitfld.long 0x10 4. "TASK_ERROR,Task Error Interrupt Signal Enable [TERR] When set and CQIS.TERR is asserted the CQE shall generate an interrupt" "0,1" newline bitfld.long 0x10 3. "TASK_CLEARED,Task Cleared Signal Enable [TCL] When set and CQIS.TCL is asserted the CQE shall generate an interrupt" "0,1" newline bitfld.long 0x10 2. "RESP_ERR_DET,Response Error Detected Signal Enable [TCC] When set and CQIS.RED is asserted the CQE shall generate an interrupt" "0,1" newline bitfld.long 0x10 1. "TASK_COMPLETE,Task Complete Signal Enable [TCC] When set and CQIS.TCC is asserted the CQE shall generate an interrupt" "0,1" newline bitfld.long 0x10 0. "HALT_COMPLETE,Halt Complete Signal Enable [HAC] When set and CQIS.HAC is asserted the CQE shall generate an interrupt" "0,1" line.long 0x14 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_intr_coalescing,This register controls the interrupt coalescing feature." bitfld.long 0x14 31. "CQINTCOALESC_ENABLE,When set to 0 by software command responses are neither counted nor timed. Interrupts are still triggered by completion of tasks with INT=1 in the Task Descriptor. When set to 1 the interrupt coalescing mechanism is enabled.." "0,1" newline rbitfld.long 0x14 20. "IC_STATUS,This bit indicates to software whether any tasks [with INT=0] have completed and counted towards interrupt coalescing [i.e. ICSB is set if and only if IC counter > 0]. Bit Value Description 1 = At least one task completion has been.." "0: No task completions have occurred since last..,1: At least one task completion has been counted.." newline hexmask.long.byte 0x14 8.--12. 1. "CTR_THRESHOLD,Interrupt Coalescing Counter Threshold [ICCTH]: Software uses this field to configure the number of task completions [only tasks with INT=0 in the Task Descriptor] which are required in order to generate an interrupt. Counter.." newline hexmask.long.byte 0x14 0.--6. 1. "TIMEOUT_VAL,Interrupt Coalescing Timeout Value [ICTOVAL]: Software uses this field to configure the maximum time allowed between the completion of a task on the bus and the generation of an interrupt. Timer Operation: The timer is reset by.." line.long 0x18 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_tdl_base_addr,This register is used for configuring the lower 32 bits of the byte address of the head of the Task 312 Descriptor List in the host memory." hexmask.long 0x18 0.--31. 1. "CQTDLBA_LO,Task Descriptor List Base Address [TDLBA] This register stores the LSB bits [bits 31:0] of the byte address of the head of the Task Descriptor List in system memory. The size of the task descriptor list is 32 * [Task Descrip-tor.." line.long 0x1C "SDHC_WRAP__CTL_CFG__CTLCFG_cq_tdl_base_addr_upbits,This register is used for configuring the upper 32 bits of the byte address of the head of the Task 316 Descriptor List in the host memory." hexmask.long 0x1C 0.--31. 1. "CQTDLBA_HI,Task Descriptor List Base Address [TDLBA] This register stores the MSB bits [bits 63:32] of the byte address of the head of the Task Descriptor List in system memory. The size of the task descriptor list is 32 * [Task Descrip-tor.." line.long 0x20 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_task_door_bell,Using this register. software triggers CQE to process a new task." hexmask.long 0x20 0.--31. 1. "CQTDB_VAL,Command Queueing Task Doorbell Software shall configure TDLBA and TDLBAU and enable CQE in CQCFG before using this register. Writing 1 to bit n of this register triggers CQE to start pro-cessing the task encoded in slot n of the TDL." line.long 0x24 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_task_comp_notif,This register is used by CQE to notify software about completed tasks." hexmask.long 0x24 0.--31. 1. "CQTCN_VAL,CQE shall set bit n of this register [at the same time it clears bit n of CQTDBR] when a task execution is com-pleted [with success or error]. When receiving interrupt for task completion software may read this register to know which tasks.." rgroup.long 0x230++0x7 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_dev_queue_status,This register stores the most recent value of the device s queue status." hexmask.long 0x0 0.--31. 1. "CQDQ_STS,Every time the Host controller receives a queue status register [QSR] from the device it updates this register with the response of status command i.e. the devices queue status." line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_dev_pending_tasks,This register indicates to software which tasks are queued in the device. awaiting execution." hexmask.long 0x4 0.--31. 1. "CQDP_TSKS,Bit n of this register is set if and only if QUEUED_TASK_PARAMS [CMD44] and QUEUED_TASK_ADDRESS [CMD45] were sent for this specific task and if this task hasnt been executed yet.CQE shall set this bit after receiving a successful response for.." group.long 0x238++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_task_clear,This register is used for removing an outstanding task in the CQE. 327. The register should be used only when CQE is in Halt state." hexmask.long 0x0 0.--31. 1. "CQTCLR,Writing 1 to bit n of this register orders CQE to clear a task which software has previously issued.This bit can only be written when CQE is in Halt state as indicated in CQCFG register Halt bit.When software writes 1 to a bit in this.." group.long 0x240++0x7 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_send_sts_config1,The register controls the when SEND_QUEUE_STATUS commands are sent." hexmask.long.byte 0x0 16.--19. 1. "CMD_BLK_CNTR,This field indicates to CQE when to send SEND_QUEUE_STATUS [CMD13] command to inquire the status of the devices task queue.A value of n means CQE shall send status command on the CMD line during the transfer of data block BLOCK_CNT-n on.." newline hexmask.long.word 0x0 0.--15. 1. "CMD_IDLE_TIMER,This field indicates to CQE the polling period to use when using periodic SEND_QUEUE_STATUS [CMD13] polling.Periodic polling is used when tasks are pending in the device but no data transfer is in progress. When a SEND_QUEUE_STATUS.." line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_send_sts_config2,This register is used for 333 configuring RCA field in SEND_QUEUE_STATUS command argu-ment." hexmask.long.word 0x4 0.--15. 1. "QUEUE_RCA,This field provides CQE with the contents of the 16-bit RCA field in SEND_QUEUE_ STATUS [CMD13] com-mand. argument. CQE shall copy this field to bits 31:16 of the argument when transmitting SEND_ QUEUE_STATUS [CMD13] command." rgroup.long 0x248++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_dcmd_response,This register is used for passing the response of a DCMD task to software." hexmask.long 0x0 0.--31. 1. "LAST_RESP,This register contains the response of the command generated by the last direct-command [DCMD] task which was sent.CQE shall update this register when it receives the response for a DCMD task. This register is considered valid only after bit 31.." group.long 0x250++0x3 line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_resp_err_mask,This register controls the generation of Response Error Detection (RED) interrupt." hexmask.long 0x0 0.--31. 1. "CQRMEM,This bit is used as in interrupt mask on the device status filed which is received in R1/R1b responses.Bit Value Description [for any bit i]:1 = When a R1/R1b response is received with bit i in the device status set a RED interrupt is generated.." rgroup.long 0x254++0xF line.long 0x0 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_task_err_info,This register is updated by CQE when an error occurs on data or command related to a task activity." bitfld.long 0x0 31. "DATERR_VALID,Data Transfer Error Fields Valid This bit is updated when an error is detected by CQE or indicated by eMMC controller. If a data transfer is in progress when the error is detected/indicated the bit is set to 1. If a no.." "0,1" newline hexmask.long.byte 0x0 24.--28. 1. "DATERR_TASK_ID,Data Transfer Error Task ID This field indicates the ID of the task which was executed on the data lines when an error occurred. The field is updated if a data transfer is in progress when an error is detected by CQE or.." newline hexmask.long.byte 0x0 16.--21. 1. "DATERR_CMD_INDEX,Data Transfer Error Command Index This field indicates the index of the command which was executed on the data lines when an error occurred. The index shall be set to EXECUTE_READ_TASK[CMD46] or EXECUTE_WRITE_TASK [CMD47].." newline bitfld.long 0x0 15. "RESP_MODE_VALID,Response Mode Error Fields Valid This bit is updated when an error is detected by CQE or indicated by eMMC controller. If a command transaction is in progress when the error is detected/indicated the bit is set to 1." "0,1" newline hexmask.long.byte 0x0 8.--12. 1. "RESP_MODE_TASK_ID,Response Mode Error Task ID This field indicates the ID of the task which was executed on the command line when an error occurred. The field is updated if a command transaction is in progress when an error is detected by.." newline hexmask.long.byte 0x0 0.--5. 1. "RESP_MODE_CMD_INDEX,Response Mode Error Command Index This field indicates the index of the command which was executed on the command line when an error occurred. The field is updated if a command transaction is in progress when an error is.." line.long 0x4 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_cmd_resp_index,This register stores the index of the last received command response." hexmask.long.byte 0x4 0.--5. 1. "LAST_CRI,This field stores the index of the last received command response. CQE shall update the value every time a com-mand response is received." line.long 0x8 "SDHC_WRAP__CTL_CFG__CTLCFG_cq_cmd_resp_arg,This register stores the index of the last received command response." hexmask.long 0x8 0.--31. 1. "LAST_CRA,This field stores the argument of the last received com-mand. CQE shall update the value every time a com-mand response is received." line.long 0xC "SDHC_WRAP__CTL_CFG__CTLCFG_cq_error_task_id,CQ Error Task ID Register" hexmask.long.byte 0xC 0.--4. 1. "TERR_ID,Task Error ID" tree.end base ad:0x0 tree "MMCSD2_ECC_AGGR" tree "MMCSD2_ECC_AGGR_RXMEM (MMCSD2_ECC_AGGR_RXMEM)" base ad:0x70B000 rgroup.long 0x0++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_RXMEM__CFG__REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "RXMEM_PEND,Interrupt Pending Status for rxmem_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "RXMEM_ENABLE_SET,Interrupt Enable Set Register for rxmem_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "RXMEM_ENABLE_CLR,Interrupt Enable Clear Register for rxmem_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_RXMEM__CFG__REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "RXMEM_PEND,Interrupt Pending Status for rxmem_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "RXMEM_ENABLE_SET,Interrupt Enable Set Register for rxmem_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "RXMEM_ENABLE_CLR,Interrupt Enable Clear Register for rxmem_pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECC_AGGR_RXMEM__CFG__REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECC_AGGR_RXMEM__CFG__REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECC_AGGR_RXMEM__CFG__REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECC_AGGR_RXMEM__CFG__REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "MMCSD2_ECC_AGGR_TXMEM (MMCSD2_ECC_AGGR_TXMEM)" base ad:0x70A000 rgroup.long 0x0++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_TXMEM__CFG__REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "TXMEM_PEND,Interrupt Pending Status for txmem_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "TXMEM_ENABLE_SET,Interrupt Enable Set Register for txmem_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "TXMEM_ENABLE_CLR,Interrupt Enable Clear Register for txmem_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_TXMEM__CFG__REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "TXMEM_PEND,Interrupt Pending Status for txmem_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "TXMEM_ENABLE_SET,Interrupt Enable Set Register for txmem_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "TXMEM_ENABLE_CLR,Interrupt Enable Clear Register for txmem_pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECC_AGGR_TXMEM__CFG__REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECC_AGGR_TXMEM__CFG__REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECC_AGGR_TXMEM__CFG__REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECC_AGGR_TXMEM__CFG__REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree.end tree "MMCSD2_SS_CFG (MMCSD2_SS_CFG)" base ad:0xFA28000 rgroup.long 0x0++0x3 line.long 0x0 "REGS__SS_CFG__SSCFG_SS_ID_REV_REG,The Subsystem ID and Revision Register contains the module ID. major. and minor revisions for the subsystem" hexmask.long.word 0x0 16.--31. 1. "MOD_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,RTL version" newline bitfld.long 0x0 8.--10. "MAJ_REV,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MIN_REV,Minor revision" group.long 0x10++0x37 line.long 0x0 "REGS__SS_CFG__SSCFG_CTL_CFG_1_REG,The Controller Config 1 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.byte 0x0 24.--29. 1. "TUNINGCOUNT,Configures the Number of Taps (Phases) of the RX clock that is supported. The Tuning State machine uses this information to select one of the Taps (Phases) of the RX clock during the Tuning Procedure." bitfld.long 0x0 20. "ASYNCWKUPENA,Determines the Wakeup Signal Generation Mode. 0: Synchronous Wakeup Mode: The xin_clk has to be running for this mode. The Card Insertion/Removal/Interrupt events are detected synchronously on the xin_clk and the Wakeup Event is generated." "0: Synchronous Wakeup Mode: The xin_clk has to be..,1: Asyncrhonous Wakeup Mode: The xin_clk and the.." newline hexmask.long.byte 0x0 12.--15. 1. "CQFMUL,FMUL for the CQ Internal Timer Clock Frequency" hexmask.long.word 0x0 0.--9. 1. "CQFVAL,FVAL for the CQ Internal Timer Clock Frequency" line.long 0x4 "REGS__SS_CFG__SSCFG_CTL_CFG_2_REG,The Controller Config 2 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." bitfld.long 0x4 30.--31. "SLOTTYPE,Slot Type. Should be set based on the final product usage. 00 - Removable SCard Slot 01 - Embedded Slot for One Device 10 - Shared Bus Slot 11 - Reserved." "0,1,2,3" bitfld.long 0x4 29. "ASYNCHINTRSUPPORT,Asynchronous Interrupt Support. Suggested Value is 1'b1 (The Core supports monitoring of Asynchronous Interrupt)." "0,1" newline bitfld.long 0x4 26. "SUPPORT1P8VOLT,1.8V Support. Suggested Value is 1'b1 (The 1.8 Volt Switching is supported by Core). Optionally can be set to 1'b0 if the application doesn't want 1.8V switching (SD3.0)." "0,1" bitfld.long 0x4 25. "SUPPORT3P0VOLT,3.0V Support. Should be set based on whether 3.0V is supported on the SD Interface." "0,1" newline bitfld.long 0x4 24. "SUPPORT3P3VOLT,3.3V Support. Suggested Value is 1'b1 as the 3.3 V is the default voltage on the SD Interface." "0,1" bitfld.long 0x4 23. "SUSPRESSUPPORT,Suspend/Resume Support. Suggested Value is 1'b1 (The Suspend/Resume is supported by Core). Optionally can be set to 1'b0 if the application doesn't want to support Suspend/Resume Mode." "0,1" newline bitfld.long 0x4 22. "SDMASUPPORT,SDMA Support. Suggested Value is 1'b1 (The SDMA is supported by Core). Optionally can be set to 1'b0 if the application doesn't want to support SDMA Mode." "0,1" bitfld.long 0x4 21. "HIGHSPEEDSUPPORT,High Speed Support. Suggested Value is 1'b1 (The High Speed mode is supported by Core)." "0,1" newline bitfld.long 0x4 19. "ADMA2SUPPORT,ADMA2 Support. Suggested Value is 1'b1 (The ADMA2 is supported by Core). Optionally can be set to 1'b0 if the application doesn't want to support ADMA2 Mode." "0,1" bitfld.long 0x4 18. "SUPPORT8BIT,8-bit Support for Embedded Device. Suggested Value is 1'b1 (The Core supports 8-bit Interface). Optionally an be set to 1'b0 if the Application supports only 4-bit SD Interface." "0,1" newline bitfld.long 0x4 16.--17. "MAXBLKLENGTH,Max Block Length. Maximum Block Length supported by the Core/Device. 00: 512 (Bytes) 01: 1024 10: 2048 11: Reserved." "0: 512,1: 1024,?,?" hexmask.long.byte 0x4 8.--15. 1. "BASECLKFREQ,Base Clock Frequency for SD Clock. This is the frequency of the xin_clk." newline bitfld.long 0x4 7. "TIMEOUTCLKUNIT,Timeout Clock Unit. Suggested Value is 1'b0 (KHz)." "0,1" hexmask.long.byte 0x4 0.--5. 1. "TIMEOUTCLKFREQ,Timeout Clock Frequency. Suggested Value is 1 KHz. Internally the 1msec Timer is used for Timeout Detection. The 1msec Timer is generated from the xin_clk." line.long 0x8 "REGS__SS_CFG__SSCFG_CTL_CFG_3_REG,The Controller Config 3 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." bitfld.long 0x8 28. "SUPPORT1P8VDD2,1.8V VDD2 Support." "0,1" bitfld.long 0x8 27. "ADMA3SUPPORT,ADMA3 Support." "0,1" newline hexmask.long.byte 0x8 16.--23. 1. "CLOCKMULTIPLIER,Clock Multiplier. This field indicates clock multiplier value of programmable clock generator. Refer to Clock Control register. Setting 00h means that Host Controller does not support programmable clock generator. FFh Clock Multiplier M =.." bitfld.long 0x8 14.--15. "RETUNINGMODES,Re-Tuning Modes. Should be set to 2'b00 as the Core supports only the Software Timer based Re-Tuning." "0,1,2,3" newline bitfld.long 0x8 13. "TUNINGFORSDR50,Use Tuning for SDR50. This bit should be set if the Application wants Tuning be used for SDR50 Modes. The Core operates with or with out tuning for SDR50 mode as long as the Clock can be manually tuned using tap delay." "0,1" hexmask.long.byte 0x8 8.--11. 1. "RETUNINGTIMERCNT,Timer Count for Re-Tuning. This is the Timer Count for Re-Tuning Timer for Re-Tuning Mode 1 to 3. Setting to 4'b0 disables Re-Tuning Timer." newline bitfld.long 0x8 7. "TYPE4SUPPORT,Driver Type 4 Support. This bit should be set based on whether Driver Type 4 for 1.8 Signalling is supported or not." "0,1" bitfld.long 0x8 6. "DDRIVERSUPPORT,Driver Type D Support. This bit should be set based on whether Driver Type D for 1.8 Signalling is supported or not." "0,1" newline bitfld.long 0x8 5. "CDRIVERSUPPORT,Driver Type C Support. This bit should be set based on whether Driver Type C for 1.8 Signalling is supported or not." "0,1" bitfld.long 0x8 4. "ADRIVERSUPPORT,Driver Type A Support. This bit should be set based on whether Driver Type A for 1.8 Signalling is supported or not." "0,1" newline bitfld.long 0x8 2. "DDR50SUPPORT,DDR50 Support. Suggested Value is 1'b1 (The Core supports DDR50 mode of operation). Optionally can be set to 1'b0 if the application doesn't want to support DDR50." "0,1" bitfld.long 0x8 1. "SDR104SUPPORT,SDR104 Support. Suggested Value is 1'b1 (The Core supports SDR104 mode of operation). Optionally can be set to 1'b0 if the application doesn't want to support SDR104." "0,1" newline bitfld.long 0x8 0. "SDR50SUPPORT,SDR50 Support. Suggested Value is 1'b1 (The Core supports SDR50 mode of operation). Optionally can be set to 1'b0 if the application doesn't want to support SDR50." "0,1" line.long 0xC "REGS__SS_CFG__SSCFG_CTL_CFG_4_REG,The Controller Config 4 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.byte 0xC 16.--23. 1. "MAXCURRENT1P8V,Maximum Current for 1.8V." hexmask.long.byte 0xC 8.--15. 1. "MAXCURRENT3P0V,Maximum Current for 3.0V." newline hexmask.long.byte 0xC 0.--7. 1. "MAXCURRENT3P3V,Maximum Current for 3.3V." line.long 0x10 "REGS__SS_CFG__SSCFG_CTL_CFG_5_REG,The Controller Config 5 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.byte 0x10 0.--7. 1. "MAXCURRENTVDD2,Maximum Current for 1.8 V (VDD2)." line.long 0x14 "REGS__SS_CFG__SSCFG_CTL_CFG_6_REG,The Controller Config 6 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x14 0.--12. 1. "INITPRESETVAL,Preset Value for Initialization." line.long 0x18 "REGS__SS_CFG__SSCFG_CTL_CFG_7_REG,The Controller Config 7 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x18 0.--12. 1. "DSPDPRESETVAL,Preset Value for Default Speed." line.long 0x1C "REGS__SS_CFG__SSCFG_CTL_CFG_8_REG,The Controller Config 8 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x1C 0.--12. 1. "HSPDPRESETVAL,Preset Value for High Speed." line.long 0x20 "REGS__SS_CFG__SSCFG_CTL_CFG_9_REG,The Controller Config 9 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x20 0.--12. 1. "SDR12PRESETVAL,Preset Value for SDR12." line.long 0x24 "REGS__SS_CFG__SSCFG_CTL_CFG_10_REG,The Controller Config 10 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x24 0.--12. 1. "SDR25PRESETVAL,Preset Value for SDR25." line.long 0x28 "REGS__SS_CFG__SSCFG_CTL_CFG_11_REG,The Controller Config 11 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x28 0.--12. 1. "SDR50PRESETVAL,Preset Value for SDR50." line.long 0x2C "REGS__SS_CFG__SSCFG_CTL_CFG_12_REG,The Controller Config 12 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x2C 0.--12. 1. "SDR104PRESETVAL,Preset Value for SDR104." line.long 0x30 "REGS__SS_CFG__SSCFG_CTL_CFG_13_REG,The Controller Config 13 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." hexmask.long.word 0x30 0.--12. 1. "DDR50PRESETVAL,Preset Value for DDR50." line.long 0x34 "REGS__SS_CFG__SSCFG_CTL_CFG_14_REG,The Controller Config 14 Register contains various fields to control the configuration ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller configuration ports please refer.." rgroup.long 0x60++0x17 line.long 0x0 "REGS__SS_CFG__SSCFG_CTL_STAT_1_REG,The Controller Status 1 Register contains various fields to reflect the status of the debug ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller debug ports please refer to.." bitfld.long 0x0 31. "SDHC_CMDIDLE,Idle signal to enable S/W to gate off the clocks." "0,1" hexmask.long.word 0x0 0.--15. 1. "DMADEBUGBUS,DMA_CTRL Debug Bus." line.long 0x4 "REGS__SS_CFG__SSCFG_CTL_STAT_2_REG,The Controller Status 2 Register contains various fields to reflect the status of the debug ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller debug ports please refer to.." hexmask.long.word 0x4 0.--15. 1. "CMDDEBUGBUS,CMD_CTRL Debug Bus." line.long 0x8 "REGS__SS_CFG__SSCFG_CTL_STAT_3_REG,The Controller Status 3 Register contains various fields to reflect the status of the debug ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller debug ports please refer to.." hexmask.long.word 0x8 0.--15. 1. "TXDDEBUGBUS,TXD_CTRL Debug Bus." line.long 0xC "REGS__SS_CFG__SSCFG_CTL_STAT_4_REG,The Controller Status 4 Register contains various fields to reflect the status of the debug ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller debug ports please refer to.." hexmask.long.word 0xC 0.--15. 1. "RXDDEBUGBUS0,RXD_CTRL Debug Bus (SD CLK)." line.long 0x10 "REGS__SS_CFG__SSCFG_CTL_STAT_5_REG,The Controller Status 5 Register contains various fields to reflect the status of the debug ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller debug ports please refer to.." hexmask.long.word 0x10 0.--15. 1. "RXDDEBUGBUS1,RXD_CTRL Debug Bus (RX CLK)." line.long 0x14 "REGS__SS_CFG__SSCFG_CTL_STAT_6_REG,The Controller Status 6 Register contains various fields to reflect the status of the debug ports on the Arasan eMMC/SD Controller. For detailed functionality of the Arasan eMMC/SD Controller debug ports please refer to.." hexmask.long.word 0x14 0.--15. 1. "TUNDEBUGBUS,TUN_CTRL Debug Bus." group.long 0x100++0x17 line.long 0x0 "REGS__SS_CFG__SSCFG_PHY_CTRL_1_REG,The PHY Control 1 Register contains various fields to control the ports on the Arasan eMMC/SD PHY. For detailed functionality of the Arasan eMMC/SD PHY control ports please refer to its specification listed in Section.." bitfld.long 0x0 31. "IOMUX_ENABLE,IO mux enable. Set 1 for GPIO. Set 0 for eMMC/SD" "0,1" line.long 0x4 "REGS__SS_CFG__SSCFG_PHY_CTRL_2_REG,The PHY Control 2 Register contains various fields to control the ports on the Arasan eMMC/SD PHY. For detailed functionality of the Arasan eMMC/SD PHY control ports please refer to its specification listed in Section.." line.long 0x8 "REGS__SS_CFG__SSCFG_PHY_CTRL_3_REG,The PHY Control 3 Register contains various fields to control the ports on the Arasan eMMC/SD PHY. For detailed functionality of the Arasan eMMC/SD PHY control ports please refer to its specification listed in Section.." line.long 0xC "REGS__SS_CFG__SSCFG_PHY_CTRL_4_REG,The PHY Control 4 Register contains various fields to control the ports on the Arasan eMMC/SD PHY. For detailed functionality of the Arasan eMMC/SD PHY control ports please refer to its specification listed in Section.." bitfld.long 0xC 20. "OTAPDLYENA,Output Tap Delay Enable. Enables manual control of the TX clock tap delay for clocking the final stage flops for maintaining Hold requirements on EMMC Interface." "0,1" hexmask.long.byte 0xC 12.--15. 1. "OTAPDLYSEL,Output Tap Delay Select. Manual control of the TX clock tap delay for clocking the final stage flops for maintaining Hold requirements on EMMC Interface." newline bitfld.long 0xC 9. "ITAPCHGWIN,Input Tap Change Window. It gets asserted by the controller while changing the itapdlysel. Used to gate of the RX clock during switching the clock source while tap is changing to avoid clock glitches." "0,1" bitfld.long 0xC 8. "ITAPDLYENA,Input Tap Delay Enable. This is used for the manual control of the RX clock Tap Delay in non HS200/HS400 modes." "0,1" newline hexmask.long.byte 0xC 0.--4. 1. "ITAPDLYSEL,Input Tap Delay Select. Manual control of the RX clock Tap Delay in the non HS200/HS400 modes." line.long 0x10 "REGS__SS_CFG__SSCFG_PHY_CTRL_5_REG,The PHY Control 5 Register contains various fields to control the ports on the Arasan eMMC/SD PHY. For detailed functionality of the Arasan eMMC/SD PHY control ports please refer to its specification listed in Section.." bitfld.long 0x10 0.--2. "CLKBUFSEL,Clock Delay Buffer Select. Selects one of the eight taps in the CLK Delay Buffer based on PVT variation." "0,1,2,3,4,5,6,7" line.long 0x14 "REGS__SS_CFG__SSCFG_PHY_CTRL_6_REG,The PHY Control 6 Register contains various fields to control the ports on the Arasan eMMC/SD PHY. For detailed functionality of the Arasan eMMC/SD PHY control ports please refer to its specification listed in Section.." group.long 0x130++0x7 line.long 0x0 "REGS__SS_CFG__SSCFG_PHY_STAT_1_REG,The PHY Status 1 Register contains various fields to reflect the status of the Arasan eMMC/SD PHY ports. For detailed functionality of the Arasan eMMC/SD PHY status ports please refer to its specification listed in.." line.long 0x4 "REGS__SS_CFG__SSCFG_PHY_STAT_2_REG,The PHY Status 2 Register contains various fields to reflect the status of the Arasan eMMC/SD PHY ports. For detailed functionality of the Arasan eMMC/SD PHY status ports please refer to its specification listed in.." tree.end tree.end tree.end tree "MSRAM_64K0" base ad:0x0 tree "MSRAM_64K0_ECC_AGGR_REGS (MSRAM_64K0_ECC_AGGR_REGS)" base ad:0x710000 rgroup.long 0x0++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECC_AGGR_REGSREGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_REGSREGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "RAMECC0_PEND,Interrupt Pending Status for ramecc0_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "RAMECC0_ENABLE_SET,Interrupt Enable Set Register for ramecc0_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for ramecc0_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECC_AGGR_REGSREGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR_REGSREGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "RAMECC0_PEND,Interrupt Pending Status for ramecc0_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "RAMECC0_ENABLE_SET,Interrupt Enable Set Register for ramecc0_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECC_AGGR_REGSREGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for ramecc0_pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECC_AGGR_REGSREGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECC_AGGR_REGSREGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECC_AGGR_REGSREGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECC_AGGR_REGSREGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "MSRAM_64K0_RAM (MSRAM_64K0_RAM)" base ad:0x43C40000 group.long 0x0++0x3 line.long 0x0 "RAM_RAM_REG,The RAM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end tree "MSRAM_64K0_RAM_1 (MSRAM_64K0_RAM)" base ad:0x70000000 group.long 0x0++0x3 line.long 0x0 "RAM_RAM_REG,The RAM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end tree.end tree "PADCFG_CTRL0_CFG0 (PADCFG_CTRL0_CFG0)" base ad:0xF0000 rgroup.long 0x0++0xB line.long 0x0 "CFG0_PID," hexmask.long.word 0x0 16.--31. 1. "PID_MSB16," hexmask.long.byte 0x0 11.--15. 1. "PID_MISC," bitfld.long 0x0 8.--10. "PID_MAJOR," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "PID_CUSTOM," "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "PID_MINOR," line.long 0x4 "CFG0_MMR_CFG0," hexmask.long.word 0x4 16.--31. 1. "MMR_CFG0_CFG_REV,Major configuration release" hexmask.long.word 0x4 0.--15. 1. "MMR_CFG0_SPEC_REV,Minor spec-only revision. Doesn't change RTL release" line.long 0x8 "CFG0_MMR_CFG1," bitfld.long 0x8 31. "MMR_CFG1_PROXY_EN,Proxy addressing enabled" "0,1" hexmask.long.byte 0x8 0.--7. 1. "MMR_CFG1_PARTITIONS,Indicates present partitions" group.long 0x1008++0x1B line.long 0x0 "CFG0_LOCK0_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK0_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK0_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK0_KICK1,- KICK1 component" line.long 0x8 "CFG0_intr_raw_status," bitfld.long 0x8 3. "PROXY_ERR,Proxy0 access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" bitfld.long 0x8 2. "KICK_ERR,Kick access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" bitfld.long 0x8 1. "ADDR_ERR,Addressing violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 0. "PROT_ERR,Protection violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" line.long 0xC "CFG0_intr_enabled_status_clear," bitfld.long 0xC 3. "ENABLED_PROXY_ERR,Proxy0 access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" bitfld.long 0xC 2. "ENABLED_KICK_ERR,Kick access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" bitfld.long 0xC 1. "ENABLED_ADDR_ERR,Addressing violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 0. "ENABLED_PROT_ERR,Protection violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" line.long 0x10 "CFG0_intr_enable," bitfld.long 0x10 3. "PROXY_ERR_EN,Proxy0 access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x10 2. "KICK_ERR_EN,Kick access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x10 1. "ADDR_ERR_EN,Addressing violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 0. "PROT_ERR_EN,Protection violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" line.long 0x14 "CFG0_intr_enable_clear," bitfld.long 0x14 3. "PROXY_ERR_EN_CLR,Proxy0 access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x14 2. "KICK_ERR_EN_CLR,Kick access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x14 1. "ADDR_ERR_EN_CLR,Addressing violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x14 0. "PROT_ERR_EN_CLR,Protection violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" line.long 0x18 "CFG0_eoi," hexmask.long.byte 0x18 0.--7. 1. "EOI_VECTOR,EOI vector value. Write this with interrupt distribution value in the chip." rgroup.long 0x1024++0xB line.long 0x0 "CFG0_fault_address," hexmask.long 0x0 0.--31. 1. "FAULT_ADDR,Fault Address." line.long 0x4 "CFG0_fault_type_status," bitfld.long 0x4 6. "FAULT_NS,Non-secure access." "0,1" hexmask.long.byte 0x4 0.--5. 1. "FAULT_TYPE,Fault Type 10_0000 = Supervisor read fault - priv = 1 dir = 1 dtype != 1 01_0000 = Supervisor write fault - priv = 1 dir = 0 00_1000 = Supervisor execute fault - priv = 1 dir = 1 dtype = 1 00_0100 = User read fault - priv = 0 dir.." line.long 0x8 "CFG0_fault_attr_status," hexmask.long.word 0x8 20.--31. 1. "FAULT_XID,XID." hexmask.long.word 0x8 8.--19. 1. "FAULT_ROUTEID,Route ID." hexmask.long.byte 0x8 0.--7. 1. "FAULT_PRIVID,Privilege ID." wgroup.long 0x1030++0x3 line.long 0x0 "CFG0_fault_clear," bitfld.long 0x0 0. "FAULT_CLR,Fault clear. Writing a 1 clears the current fault. Writing a 0 has no effect." "0,1" rgroup.long 0x1100++0x3 line.long 0x0 "CFG0_CLAIMREG_P0_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P0_R0_READONLY,Claim bits for Partition 0" rgroup.long 0x2000++0xB line.long 0x0 "CFG0_PID_PROXY," hexmask.long.word 0x0 16.--31. 1. "PID_MSB16_PROXY," hexmask.long.byte 0x0 11.--15. 1. "PID_MISC_PROXY," bitfld.long 0x0 8.--10. "PID_MAJOR_PROXY," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "PID_CUSTOM_PROXY," "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "PID_MINOR_PROXY," line.long 0x4 "CFG0_MMR_CFG0_PROXY," hexmask.long.word 0x4 16.--31. 1. "MMR_CFG0_CFG_REV_PROXY,Major configuration release" hexmask.long.word 0x4 0.--15. 1. "MMR_CFG0_SPEC_REV_PROXY,Minor spec-only revision. Doesn't change RTL release" line.long 0x8 "CFG0_MMR_CFG1_PROXY," bitfld.long 0x8 31. "MMR_CFG1_PROXY_EN_PROXY,Proxy addressing enabled" "0,1" hexmask.long.byte 0x8 0.--7. 1. "MMR_CFG1_PARTITIONS_PROXY,Indicates present partitions" group.long 0x3008++0x1B line.long 0x0 "CFG0_LOCK0_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK0_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK0_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK0_KICK1_PROXY,- KICK1 component" line.long 0x8 "CFG0_intr_raw_status_PROXY," bitfld.long 0x8 3. "PROXY_ERR_PROXY,Proxy0 access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" bitfld.long 0x8 2. "KICK_ERR_PROXY,Kick access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" bitfld.long 0x8 1. "ADDR_ERR_PROXY,Addressing violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 0. "PROT_ERR_PROXY,Protection violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" line.long 0xC "CFG0_intr_enabled_status_clear_PROXY," bitfld.long 0xC 3. "ENABLED_PROXY_ERR_PROXY,Proxy0 access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" bitfld.long 0xC 2. "ENABLED_KICK_ERR_PROXY,Kick access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" bitfld.long 0xC 1. "ENABLED_ADDR_ERR_PROXY,Addressing violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 0. "ENABLED_PROT_ERR_PROXY,Protection violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" line.long 0x10 "CFG0_intr_enable_PROXY," bitfld.long 0x10 3. "PROXY_ERR_EN_PROXY,Proxy0 access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x10 2. "KICK_ERR_EN_PROXY,Kick access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x10 1. "ADDR_ERR_EN_PROXY,Addressing violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 0. "PROT_ERR_EN_PROXY,Protection violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" line.long 0x14 "CFG0_intr_enable_clear_PROXY," bitfld.long 0x14 3. "PROXY_ERR_EN_CLR_PROXY,Proxy0 access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x14 2. "KICK_ERR_EN_CLR_PROXY,Kick access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" bitfld.long 0x14 1. "ADDR_ERR_EN_CLR_PROXY,Addressing violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x14 0. "PROT_ERR_EN_CLR_PROXY,Protection violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" line.long 0x18 "CFG0_eoi_PROXY," hexmask.long.byte 0x18 0.--7. 1. "EOI_VECTOR_PROXY,EOI vector value. Write this with interrupt distribution value in the chip." rgroup.long 0x3024++0xB line.long 0x0 "CFG0_fault_address_PROXY," hexmask.long 0x0 0.--31. 1. "FAULT_ADDR_PROXY,Fault Address." line.long 0x4 "CFG0_fault_type_status_PROXY," bitfld.long 0x4 6. "FAULT_NS_PROXY,Non-secure access." "0,1" hexmask.long.byte 0x4 0.--5. 1. "FAULT_TYPE_PROXY,Fault Type 10_0000 = Supervisor read fault - priv = 1 dir = 1 dtype != 1 01_0000 = Supervisor write fault - priv = 1 dir = 0 00_1000 = Supervisor execute fault - priv = 1 dir = 1 dtype = 1 00_0100 = User read fault - priv =.." line.long 0x8 "CFG0_fault_attr_status_PROXY," hexmask.long.word 0x8 20.--31. 1. "FAULT_XID_PROXY,XID." hexmask.long.word 0x8 8.--19. 1. "FAULT_ROUTEID_PROXY,Route ID." hexmask.long.byte 0x8 0.--7. 1. "FAULT_PRIVID_PROXY,Privilege ID." wgroup.long 0x3030++0x3 line.long 0x0 "CFG0_fault_clear_PROXY," bitfld.long 0x0 0. "FAULT_CLR_PROXY,Fault clear. Writing a 1 clears the current fault. Writing a 0 has no effect." "0,1" group.long 0x3100++0x3 line.long 0x0 "CFG0_CLAIMREG_P0_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P0_R0,Claim bits for Partition 0" group.long 0x5008++0x7 line.long 0x0 "CFG0_LOCK1_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK1_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK1_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK1_KICK1,- KICK1 component" rgroup.long 0x5100++0x17 line.long 0x0 "CFG0_CLAIMREG_P1_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P1_R0_READONLY,Claim bits for Partition 1" line.long 0x4 "CFG0_CLAIMREG_P1_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P1_R1_READONLY,Claim bits for Partition 1" line.long 0x8 "CFG0_CLAIMREG_P1_R2_READONLY," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P1_R2_READONLY,Claim bits for Partition 1" line.long 0xC "CFG0_CLAIMREG_P1_R3_READONLY," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P1_R3_READONLY,Claim bits for Partition 1" line.long 0x10 "CFG0_CLAIMREG_P1_R4_READONLY," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P1_R4_READONLY,Claim bits for Partition 1" line.long 0x14 "CFG0_CLAIMREG_P1_R5_READONLY," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P1_R5_READONLY,Claim bits for Partition 1" group.long 0x7008++0x7 line.long 0x0 "CFG0_LOCK1_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK1_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK1_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK1_KICK1_PROXY,- KICK1 component" group.long 0x7100++0x17 line.long 0x0 "CFG0_CLAIMREG_P1_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P1_R0,Claim bits for Partition 1" line.long 0x4 "CFG0_CLAIMREG_P1_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P1_R1,Claim bits for Partition 1" line.long 0x8 "CFG0_CLAIMREG_P1_R2," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P1_R2,Claim bits for Partition 1" line.long 0xC "CFG0_CLAIMREG_P1_R3," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P1_R3,Claim bits for Partition 1" line.long 0x10 "CFG0_CLAIMREG_P1_R4," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P1_R4,Claim bits for Partition 1" line.long 0x14 "CFG0_CLAIMREG_P1_R5," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P1_R5,Claim bits for Partition 1" tree.end tree "PBIST0 (PBIST0)" base ad:0x3F110000 group.long 0x0++0x7F line.long 0x0 "MEM_RF0L," hexmask.long 0x0 0.--31. 1. "RF0L,Register Files / Instruction Registers RF0 lower (RF0L)" line.long 0x4 "MEM_RF1L," hexmask.long 0x4 0.--31. 1. "RF1L,Register Files / Instruction Registers RF1 lower (RF1L)" line.long 0x8 "MEM_RF2L," hexmask.long 0x8 0.--31. 1. "RF2L,Register Files / Instruction Registers RF2 lower (RF2L)" line.long 0xC "MEM_RF3L," hexmask.long 0xC 0.--31. 1. "RF3L,Register Files / Instruction Registers RF3 lower (RF3L)" line.long 0x10 "MEM_RF4L," hexmask.long 0x10 0.--31. 1. "RF4L,Register Files / Instruction Registers RF4 lower (RF4L)" line.long 0x14 "MEM_RF5L," hexmask.long 0x14 0.--31. 1. "RF5L,Register Files / Instruction Registers RF5 lower (RF5L)" line.long 0x18 "MEM_RF6L," hexmask.long 0x18 0.--31. 1. "RF6L,Register Files / Instruction Registers RF6 lower (RF6L)" line.long 0x1C "MEM_RF7L," hexmask.long 0x1C 0.--31. 1. "RF7L,Register Files / Instruction Registers RF7 lower (RF7L)" line.long 0x20 "MEM_RF8L," hexmask.long 0x20 0.--31. 1. "RF8L,Register Files / Instruction Registers RF8 lower (RF8L)" line.long 0x24 "MEM_RF9L," hexmask.long 0x24 0.--31. 1. "RF9L,Register Files / Instruction Registers RF9 lower (RF9L)" line.long 0x28 "MEM_RF10L," hexmask.long 0x28 0.--31. 1. "RF10L,Register Files / Instruction Registers RF10 lower (RF10L)" line.long 0x2C "MEM_RF11L," hexmask.long 0x2C 0.--31. 1. "RF11L,Register Files / Instruction Registers RF11 lower (RF11L)" line.long 0x30 "MEM_RF12L," hexmask.long 0x30 0.--31. 1. "RF12L,Register Files / Instruction Registers RF12 lower (RF12L)" line.long 0x34 "MEM_RF13L," hexmask.long 0x34 0.--31. 1. "RF13L,Register Files / Instruction Registers RF13 lower (RF13L)" line.long 0x38 "MEM_RF14L," hexmask.long 0x38 0.--31. 1. "RF14L,Register Files / Instruction Registers RF14 lower (RF14L)" line.long 0x3C "MEM_RF15L," hexmask.long 0x3C 0.--31. 1. "RF15L,Register Files / Instruction Registers RF15 lower (RF15L)" line.long 0x40 "MEM_RF0U," hexmask.long 0x40 0.--31. 1. "RF0U,Register Files / Instruction Registers RF0 upper (RF0U)" line.long 0x44 "MEM_RF1U," hexmask.long 0x44 0.--31. 1. "RF1U,Register Files / Instruction Registers RF1 upper (RF1U)" line.long 0x48 "MEM_RF2U," hexmask.long 0x48 0.--31. 1. "RF2U,Register Files / Instruction Registers RF2 upper (RF2U)" line.long 0x4C "MEM_RF3U," hexmask.long 0x4C 0.--31. 1. "RF3U,Register Files / Instruction Registers RF3 upper (RF3U)" line.long 0x50 "MEM_RF4U," hexmask.long 0x50 0.--31. 1. "RF4U,Register Files / Instruction Registers RF4 upper (RF4U)" line.long 0x54 "MEM_RF5U," hexmask.long 0x54 0.--31. 1. "RF5U,Register Files / Instruction Registers RF5 upper (RF5U)" line.long 0x58 "MEM_RF6U," hexmask.long 0x58 0.--31. 1. "RF6U,Register Files / Instruction Registers RF6 upper (RF6U)" line.long 0x5C "MEM_RF7U," hexmask.long 0x5C 0.--31. 1. "RF7U,Register Files / Instruction Registers RF7 upper (RF7U)" line.long 0x60 "MEM_RF8U," hexmask.long 0x60 0.--31. 1. "RF8U,Register Files / Instruction Registers RF8 upper (RF8U)" line.long 0x64 "MEM_RF9U," hexmask.long 0x64 0.--31. 1. "RF9U,Register Files / Instruction Registers RF9 upper (RF9U)" line.long 0x68 "MEM_RF10U," hexmask.long 0x68 0.--31. 1. "RF10U,Register Files / Instruction Registers RF10 upper (RF10U)" line.long 0x6C "MEM_RF11U," hexmask.long 0x6C 0.--31. 1. "RF11U,Register Files / Instruction Registers RF11 upper (RF11U)" line.long 0x70 "MEM_RF12U," hexmask.long 0x70 0.--31. 1. "RF12U,Register Files / Instruction Registers RF12 upper (RF12U)" line.long 0x74 "MEM_RF13U," hexmask.long 0x74 0.--31. 1. "RF13U,Register Files / Instruction Registers RF13 upper (RF13U)" line.long 0x78 "MEM_RF14U," hexmask.long 0x78 0.--31. 1. "RF14U,Register Files / Instruction Registers RF14 upper (RF14U)" line.long 0x7C "MEM_RF15U," hexmask.long 0x7C 0.--31. 1. "RF15U,Register Files / Instruction Registers RF15 upper (RF15U)" group.long 0x100++0x27 line.long 0x0 "MEM_A0," hexmask.long.word 0x0 0.--15. 1. "A0,Variable Address Register 0 (A0)" line.long 0x4 "MEM_A1," hexmask.long.word 0x4 0.--15. 1. "A1,Variable Address Register 1 (A1)" line.long 0x8 "MEM_A2," hexmask.long.word 0x8 0.--15. 1. "A2,Variable Address Register 2 (A2)" line.long 0xC "MEM_A3," hexmask.long.word 0xC 0.--15. 1. "A3,Variable Address Register 3 (A3)" line.long 0x10 "MEM_L0," hexmask.long.word 0x10 0.--15. 1. "L0,Variable Loop Count Register 0 (L0)" line.long 0x14 "MEM_L1," hexmask.long.word 0x14 0.--15. 1. "L1,Variable Loop Count Register 1 (L1)" line.long 0x18 "MEM_L2," hexmask.long.word 0x18 0.--15. 1. "L2,Variable Loop Count Register 2 (L2)" line.long 0x1C "MEM_L3," hexmask.long.word 0x1C 0.--15. 1. "L3,Variable Loop Count Register 3 (L3)" line.long 0x20 "MEM_D," hexmask.long.word 0x20 16.--31. 1. "D1,DD1 Data Register Upper 16 (D1)" hexmask.long.word 0x20 0.--15. 1. "D0,DD0 Data Register Lower 16 (D0)" line.long 0x24 "MEM_E," hexmask.long.word 0x24 16.--31. 1. "E1,EE1 Data Register Upper 16 (E1)" hexmask.long.word 0x24 0.--15. 1. "E0,EE0 Data Register Lower 16 (E0)" group.long 0x130++0x3F line.long 0x0 "MEM_CA0," hexmask.long.word 0x0 0.--15. 1. "CA0,Constant Address Register 0 (CA0)" line.long 0x4 "MEM_CA1," hexmask.long.word 0x4 0.--15. 1. "CA1,Constant Address Register 1 (CA1)" line.long 0x8 "MEM_CA2," hexmask.long.word 0x8 0.--15. 1. "CA2,Constant Address Register 2 (CA2)" line.long 0xC "MEM_CA3," hexmask.long.word 0xC 0.--15. 1. "CA3,Constant Address Register 3 (CA3)" line.long 0x10 "MEM_CL0," hexmask.long.word 0x10 0.--15. 1. "CL0,Constant Loop Count Register 0 (CL0)" line.long 0x14 "MEM_CL1," hexmask.long.word 0x14 0.--15. 1. "CL1,Constant Loop Count Register 1 (CL1)" line.long 0x18 "MEM_CL2," hexmask.long.word 0x18 0.--15. 1. "CL2,Constant Loop Count Register 2 (CL2)" line.long 0x1C "MEM_CL3," hexmask.long.word 0x1C 0.--15. 1. "CL3,Constant Loop Count Register 3 (CL3)" line.long 0x20 "MEM_I0," hexmask.long.word 0x20 0.--15. 1. "I0,Constant Increment Register 0 (I0)" line.long 0x24 "MEM_I1," hexmask.long.word 0x24 0.--15. 1. "I0,Constant Increment Register 1 (I1)" line.long 0x28 "MEM_I2," hexmask.long.word 0x28 0.--15. 1. "I0,Constant Increment Register 2 (I2)" line.long 0x2C "MEM_I3," hexmask.long.word 0x2C 0.--15. 1. "I0,Constant Increment Register 3 (I3)" line.long 0x30 "MEM_RAMT," hexmask.long.byte 0x30 24.--31. 1. "RGS,RAM Group Select RGS" hexmask.long.byte 0x30 16.--23. 1. "RDS,Return Data select RDS" hexmask.long.byte 0x30 8.--15. 1. "DWR,Data Width Register DWR" hexmask.long.byte 0x30 2.--5. 1. "PLS,Pipeline Latency Select" bitfld.long 0x30 0.--1. "RLS,RAM Latency Select" "0,1,2,3" line.long 0x34 "MEM_DLR," hexmask.long.byte 0x34 16.--23. 1. "BRP,Datalogger 2 (BRP)" bitfld.long 0x34 10. "DLR1_RTM,Retention testing mode" "0,1" bitfld.long 0x34 9. "DLR1_GNG,GO / NO-GO testing mode" "0,1" bitfld.long 0x34 8. "DLR1_MISR,MISR testing mode (mainly for ROM testing)" "0,1" bitfld.long 0x34 7. "DLR0_TSM,Time stamp mode" "0,1" newline bitfld.long 0x34 6. "DLR0_CFMM,Column Fail Masking mode" "0,1" bitfld.long 0x34 5. "DLR0_ECAM,Emulation cache access mode" "0,1" bitfld.long 0x34 4. "DLR0_CAM,Config access mode" "0,1" bitfld.long 0x34 3. "DLR0_TCK,TCK Gated mode" "0,1" bitfld.long 0x34 2. "DLR0_ROM,ROM-based testing mode" "0,1" newline bitfld.long 0x34 1. "DLR0_IDDQ,IDDQ testing mode" "0,1" bitfld.long 0x34 0. "DLR0_DCM,Distributed Compare mode" "0,1" line.long 0x38 "MEM_CMS," hexmask.long.byte 0x38 0.--3. 1. "CMS,Clock Mux Select (CMS)" line.long 0x3C "MEM_STR," bitfld.long 0x3C 4. "CHK,Check MISR mode" "0,1" bitfld.long 0x3C 3. "STEP,Step / Step for emulation mode" "0,1" bitfld.long 0x3C 2. "STOP,Stop" "0,1" bitfld.long 0x3C 1. "RES,Resume / Emulation read" "0,1" bitfld.long 0x3C 0. "START,Start / Time Stamp mode restart" "0,1" group.quad 0x170++0x7 line.quad 0x0 "MEM_SCR," hexmask.quad.byte 0x0 56.--63. 1. "SCR7,Address Scrambling Register 7" hexmask.quad.byte 0x0 48.--55. 1. "SCR6,Address Scrambling Register 6" hexmask.quad.byte 0x0 40.--47. 1. "SCR5,Address Scrambling Register 5" hexmask.quad.byte 0x0 32.--39. 1. "SCR4,Address Scrambling Register 4" hexmask.quad.byte 0x0 24.--31. 1. "SCR3,Address Scrambling Register 3" newline hexmask.quad.byte 0x0 16.--23. 1. "SCR2,Address Scrambling Register 2" hexmask.quad.byte 0x0 8.--15. 1. "SCR1,Address Scrambling Register 1" hexmask.quad.byte 0x0 0.--7. 1. "SCR0,Address Scrambling Register 0" group.long 0x178++0x13 line.long 0x0 "MEM_CSR," hexmask.long.byte 0x0 24.--31. 1. "CSR3,Chip Select 3 (CSR3)" hexmask.long.byte 0x0 16.--23. 1. "CSR2,Chip Select 2 (CSR2)" hexmask.long.byte 0x0 8.--15. 1. "CSR1,Chip Select 1(CSR1)" hexmask.long.byte 0x0 0.--7. 1. "CSR0,Chip Select 0 (CSR0)" line.long 0x4 "MEM_FDLY," hexmask.long.byte 0x4 0.--7. 1. "FDLY,Fail Delay (FDLY)" line.long 0x8 "MEM_PACT," bitfld.long 0x8 0. "PACT,PBIST Activate (PACT)" "0,1" line.long 0xC "MEM_PID," hexmask.long.byte 0xC 0.--4. 1. "PID,PBIST ID" line.long 0x10 "MEM_OVER," bitfld.long 0x10 3. "ALGO,PBIST Override Algorithm Override" "0,1" bitfld.long 0x10 2. "MM,PBIST Override Multiple Memory" "0,1" bitfld.long 0x10 1. "READ,PBIST Override READ Override" "0,1" bitfld.long 0x10 0. "RINFO,PBIST Override RINFO Override" "0,1" rgroup.quad 0x190++0x17 line.quad 0x0 "MEM_FSRF," bitfld.quad 0x0 32. "FRSF1,Fail Status Fail - Port 1 (FSRF1)" "0,1" bitfld.quad 0x0 0. "FRSF0,Fail Status Fail - Port 0 (FSRF0)" "0,1" line.quad 0x8 "MEM_FSRC," hexmask.quad.byte 0x8 32.--35. 1. "FSRC1,Fail Status Count - Port 1 (FSRC1)" hexmask.quad.byte 0x8 0.--3. 1. "FSRC0,Fail Status Count - Port 0 (FSRC0)" line.quad 0x10 "MEM_FSRA," hexmask.quad.word 0x10 32.--47. 1. "FSRA1,Fail Status Address - Port 1 (FSRA1)" hexmask.quad.word 0x10 0.--15. 1. "FSRA0,Fail Status Address - Port 0 (FSRA0)" rgroup.long 0x1A8++0x3 line.long 0x0 "MEM_FSRDL0," hexmask.long 0x0 0.--31. 1. "FSRDL0,Fail Status Data - Port 0 (FSRDL0)" rgroup.long 0x1B0++0xF line.long 0x0 "MEM_FSRDL1," hexmask.long 0x0 0.--31. 1. "FSRDL1,Fail Status Data - Port 1 (FSRDL1)" line.long 0x4 "MEM_MARGIN_MODE," bitfld.long 0x4 2.--3. "PBIST_DFT_READ,pbist_dft_read[1:0]" "0,1,2,3" bitfld.long 0x4 0.--1. "PBIST_DFT_WRITE,pbist_dft_write[1:0]" "0,1,2,3" line.long 0x8 "MEM_WRENZ," bitfld.long 0x8 0.--1. "WRENZ,pbist_ram_wrenz[1:0]" "0,1,2,3" line.long 0xC "MEM_PAGE_PGS," bitfld.long 0xC 0.--1. "PGS,pbist_ram_pgs[1:0]" "0,1,2,3" group.long 0x1C0++0x7 line.long 0x0 "MEM_ROM," bitfld.long 0x0 0.--1. "ROM,ROM Mask (ROM)" "0,1,2,3" line.long 0x4 "MEM_ALGO," hexmask.long.byte 0x4 24.--31. 1. "ALGO_3,ROM Algorithm Mask 3 (ALGO 3)" hexmask.long.byte 0x4 16.--23. 1. "ALGO_2,ROM Algorithm Mask 2 (ALGO 2)" hexmask.long.byte 0x4 8.--15. 1. "ALGO_1,ROM Algorithm Mask 1 (ALGO 1)" hexmask.long.byte 0x4 0.--7. 1. "ALGO_0,ROM Algorithm Mask 0 (ALGO 0)" group.quad 0x1C8++0x7 line.quad 0x0 "MEM_RINFO," hexmask.quad.byte 0x0 56.--63. 1. "U3,RAM Info Mask Upper 3 (RINFOU3)" hexmask.quad.byte 0x0 48.--55. 1. "U2,RAM Info Mask Upper 2 (RINFOU2)" hexmask.quad.byte 0x0 40.--47. 1. "U1,RAM Info Mask Upper 1 (RINFOU1)" hexmask.quad.byte 0x0 32.--39. 1. "U0,RAM Info Mask Upper 0 (RINFOU0)" hexmask.quad.byte 0x0 24.--31. 1. "L3,RAM Info Mask Lower 3 (RINFOL3)" newline hexmask.quad.byte 0x0 16.--23. 1. "L2,RAM Info Mask Lower 2 (RINFOL2)" hexmask.quad.byte 0x0 8.--15. 1. "L1,RAM Info Mask Lower 1 (RINFOL1)" hexmask.quad.byte 0x0 0.--7. 1. "L0,RAM Info Mask Lower 0 (RINFOL0)" tree.end tree "PBIST1 (PBIST1)" base ad:0x3F120000 group.long 0x0++0x7F line.long 0x0 "MEM_RF0L," hexmask.long 0x0 0.--31. 1. "RF0L,Register Files / Instruction Registers RF0 lower (RF0L)" line.long 0x4 "MEM_RF1L," hexmask.long 0x4 0.--31. 1. "RF1L,Register Files / Instruction Registers RF1 lower (RF1L)" line.long 0x8 "MEM_RF2L," hexmask.long 0x8 0.--31. 1. "RF2L,Register Files / Instruction Registers RF2 lower (RF2L)" line.long 0xC "MEM_RF3L," hexmask.long 0xC 0.--31. 1. "RF3L,Register Files / Instruction Registers RF3 lower (RF3L)" line.long 0x10 "MEM_RF4L," hexmask.long 0x10 0.--31. 1. "RF4L,Register Files / Instruction Registers RF4 lower (RF4L)" line.long 0x14 "MEM_RF5L," hexmask.long 0x14 0.--31. 1. "RF5L,Register Files / Instruction Registers RF5 lower (RF5L)" line.long 0x18 "MEM_RF6L," hexmask.long 0x18 0.--31. 1. "RF6L,Register Files / Instruction Registers RF6 lower (RF6L)" line.long 0x1C "MEM_RF7L," hexmask.long 0x1C 0.--31. 1. "RF7L,Register Files / Instruction Registers RF7 lower (RF7L)" line.long 0x20 "MEM_RF8L," hexmask.long 0x20 0.--31. 1. "RF8L,Register Files / Instruction Registers RF8 lower (RF8L)" line.long 0x24 "MEM_RF9L," hexmask.long 0x24 0.--31. 1. "RF9L,Register Files / Instruction Registers RF9 lower (RF9L)" line.long 0x28 "MEM_RF10L," hexmask.long 0x28 0.--31. 1. "RF10L,Register Files / Instruction Registers RF10 lower (RF10L)" line.long 0x2C "MEM_RF11L," hexmask.long 0x2C 0.--31. 1. "RF11L,Register Files / Instruction Registers RF11 lower (RF11L)" line.long 0x30 "MEM_RF12L," hexmask.long 0x30 0.--31. 1. "RF12L,Register Files / Instruction Registers RF12 lower (RF12L)" line.long 0x34 "MEM_RF13L," hexmask.long 0x34 0.--31. 1. "RF13L,Register Files / Instruction Registers RF13 lower (RF13L)" line.long 0x38 "MEM_RF14L," hexmask.long 0x38 0.--31. 1. "RF14L,Register Files / Instruction Registers RF14 lower (RF14L)" line.long 0x3C "MEM_RF15L," hexmask.long 0x3C 0.--31. 1. "RF15L,Register Files / Instruction Registers RF15 lower (RF15L)" line.long 0x40 "MEM_RF0U," hexmask.long 0x40 0.--31. 1. "RF0U,Register Files / Instruction Registers RF0 upper (RF0U)" line.long 0x44 "MEM_RF1U," hexmask.long 0x44 0.--31. 1. "RF1U,Register Files / Instruction Registers RF1 upper (RF1U)" line.long 0x48 "MEM_RF2U," hexmask.long 0x48 0.--31. 1. "RF2U,Register Files / Instruction Registers RF2 upper (RF2U)" line.long 0x4C "MEM_RF3U," hexmask.long 0x4C 0.--31. 1. "RF3U,Register Files / Instruction Registers RF3 upper (RF3U)" line.long 0x50 "MEM_RF4U," hexmask.long 0x50 0.--31. 1. "RF4U,Register Files / Instruction Registers RF4 upper (RF4U)" line.long 0x54 "MEM_RF5U," hexmask.long 0x54 0.--31. 1. "RF5U,Register Files / Instruction Registers RF5 upper (RF5U)" line.long 0x58 "MEM_RF6U," hexmask.long 0x58 0.--31. 1. "RF6U,Register Files / Instruction Registers RF6 upper (RF6U)" line.long 0x5C "MEM_RF7U," hexmask.long 0x5C 0.--31. 1. "RF7U,Register Files / Instruction Registers RF7 upper (RF7U)" line.long 0x60 "MEM_RF8U," hexmask.long 0x60 0.--31. 1. "RF8U,Register Files / Instruction Registers RF8 upper (RF8U)" line.long 0x64 "MEM_RF9U," hexmask.long 0x64 0.--31. 1. "RF9U,Register Files / Instruction Registers RF9 upper (RF9U)" line.long 0x68 "MEM_RF10U," hexmask.long 0x68 0.--31. 1. "RF10U,Register Files / Instruction Registers RF10 upper (RF10U)" line.long 0x6C "MEM_RF11U," hexmask.long 0x6C 0.--31. 1. "RF11U,Register Files / Instruction Registers RF11 upper (RF11U)" line.long 0x70 "MEM_RF12U," hexmask.long 0x70 0.--31. 1. "RF12U,Register Files / Instruction Registers RF12 upper (RF12U)" line.long 0x74 "MEM_RF13U," hexmask.long 0x74 0.--31. 1. "RF13U,Register Files / Instruction Registers RF13 upper (RF13U)" line.long 0x78 "MEM_RF14U," hexmask.long 0x78 0.--31. 1. "RF14U,Register Files / Instruction Registers RF14 upper (RF14U)" line.long 0x7C "MEM_RF15U," hexmask.long 0x7C 0.--31. 1. "RF15U,Register Files / Instruction Registers RF15 upper (RF15U)" group.long 0x100++0x27 line.long 0x0 "MEM_A0," hexmask.long.word 0x0 0.--15. 1. "A0,Variable Address Register 0 (A0)" line.long 0x4 "MEM_A1," hexmask.long.word 0x4 0.--15. 1. "A1,Variable Address Register 1 (A1)" line.long 0x8 "MEM_A2," hexmask.long.word 0x8 0.--15. 1. "A2,Variable Address Register 2 (A2)" line.long 0xC "MEM_A3," hexmask.long.word 0xC 0.--15. 1. "A3,Variable Address Register 3 (A3)" line.long 0x10 "MEM_L0," hexmask.long.word 0x10 0.--15. 1. "L0,Variable Loop Count Register 0 (L0)" line.long 0x14 "MEM_L1," hexmask.long.word 0x14 0.--15. 1. "L1,Variable Loop Count Register 1 (L1)" line.long 0x18 "MEM_L2," hexmask.long.word 0x18 0.--15. 1. "L2,Variable Loop Count Register 2 (L2)" line.long 0x1C "MEM_L3," hexmask.long.word 0x1C 0.--15. 1. "L3,Variable Loop Count Register 3 (L3)" line.long 0x20 "MEM_D," hexmask.long.word 0x20 16.--31. 1. "D1,DD1 Data Register Upper 16 (D1)" hexmask.long.word 0x20 0.--15. 1. "D0,DD0 Data Register Lower 16 (D0)" line.long 0x24 "MEM_E," hexmask.long.word 0x24 16.--31. 1. "E1,EE1 Data Register Upper 16 (E1)" hexmask.long.word 0x24 0.--15. 1. "E0,EE0 Data Register Lower 16 (E0)" group.long 0x130++0x3F line.long 0x0 "MEM_CA0," hexmask.long.word 0x0 0.--15. 1. "CA0,Constant Address Register 0 (CA0)" line.long 0x4 "MEM_CA1," hexmask.long.word 0x4 0.--15. 1. "CA1,Constant Address Register 1 (CA1)" line.long 0x8 "MEM_CA2," hexmask.long.word 0x8 0.--15. 1. "CA2,Constant Address Register 2 (CA2)" line.long 0xC "MEM_CA3," hexmask.long.word 0xC 0.--15. 1. "CA3,Constant Address Register 3 (CA3)" line.long 0x10 "MEM_CL0," hexmask.long.word 0x10 0.--15. 1. "CL0,Constant Loop Count Register 0 (CL0)" line.long 0x14 "MEM_CL1," hexmask.long.word 0x14 0.--15. 1. "CL1,Constant Loop Count Register 1 (CL1)" line.long 0x18 "MEM_CL2," hexmask.long.word 0x18 0.--15. 1. "CL2,Constant Loop Count Register 2 (CL2)" line.long 0x1C "MEM_CL3," hexmask.long.word 0x1C 0.--15. 1. "CL3,Constant Loop Count Register 3 (CL3)" line.long 0x20 "MEM_I0," hexmask.long.word 0x20 0.--15. 1. "I0,Constant Increment Register 0 (I0)" line.long 0x24 "MEM_I1," hexmask.long.word 0x24 0.--15. 1. "I0,Constant Increment Register 1 (I1)" line.long 0x28 "MEM_I2," hexmask.long.word 0x28 0.--15. 1. "I0,Constant Increment Register 2 (I2)" line.long 0x2C "MEM_I3," hexmask.long.word 0x2C 0.--15. 1. "I0,Constant Increment Register 3 (I3)" line.long 0x30 "MEM_RAMT," hexmask.long.byte 0x30 24.--31. 1. "RGS,RAM Group Select RGS" hexmask.long.byte 0x30 16.--23. 1. "RDS,Return Data select RDS" hexmask.long.byte 0x30 8.--15. 1. "DWR,Data Width Register DWR" hexmask.long.byte 0x30 2.--5. 1. "PLS,Pipeline Latency Select" bitfld.long 0x30 0.--1. "RLS,RAM Latency Select" "0,1,2,3" line.long 0x34 "MEM_DLR," hexmask.long.byte 0x34 16.--23. 1. "BRP,Datalogger 2 (BRP)" bitfld.long 0x34 10. "DLR1_RTM,Retention testing mode" "0,1" bitfld.long 0x34 9. "DLR1_GNG,GO / NO-GO testing mode" "0,1" bitfld.long 0x34 8. "DLR1_MISR,MISR testing mode (mainly for ROM testing)" "0,1" bitfld.long 0x34 7. "DLR0_TSM,Time stamp mode" "0,1" newline bitfld.long 0x34 6. "DLR0_CFMM,Column Fail Masking mode" "0,1" bitfld.long 0x34 5. "DLR0_ECAM,Emulation cache access mode" "0,1" bitfld.long 0x34 4. "DLR0_CAM,Config access mode" "0,1" bitfld.long 0x34 3. "DLR0_TCK,TCK Gated mode" "0,1" bitfld.long 0x34 2. "DLR0_ROM,ROM-based testing mode" "0,1" newline bitfld.long 0x34 1. "DLR0_IDDQ,IDDQ testing mode" "0,1" bitfld.long 0x34 0. "DLR0_DCM,Distributed Compare mode" "0,1" line.long 0x38 "MEM_CMS," hexmask.long.byte 0x38 0.--3. 1. "CMS,Clock Mux Select (CMS)" line.long 0x3C "MEM_STR," bitfld.long 0x3C 4. "CHK,Check MISR mode" "0,1" bitfld.long 0x3C 3. "STEP,Step / Step for emulation mode" "0,1" bitfld.long 0x3C 2. "STOP,Stop" "0,1" bitfld.long 0x3C 1. "RES,Resume / Emulation read" "0,1" bitfld.long 0x3C 0. "START,Start / Time Stamp mode restart" "0,1" group.quad 0x170++0x7 line.quad 0x0 "MEM_SCR," hexmask.quad.byte 0x0 56.--63. 1. "SCR7,Address Scrambling Register 7" hexmask.quad.byte 0x0 48.--55. 1. "SCR6,Address Scrambling Register 6" hexmask.quad.byte 0x0 40.--47. 1. "SCR5,Address Scrambling Register 5" hexmask.quad.byte 0x0 32.--39. 1. "SCR4,Address Scrambling Register 4" hexmask.quad.byte 0x0 24.--31. 1. "SCR3,Address Scrambling Register 3" newline hexmask.quad.byte 0x0 16.--23. 1. "SCR2,Address Scrambling Register 2" hexmask.quad.byte 0x0 8.--15. 1. "SCR1,Address Scrambling Register 1" hexmask.quad.byte 0x0 0.--7. 1. "SCR0,Address Scrambling Register 0" group.long 0x178++0x13 line.long 0x0 "MEM_CSR," hexmask.long.byte 0x0 24.--31. 1. "CSR3,Chip Select 3 (CSR3)" hexmask.long.byte 0x0 16.--23. 1. "CSR2,Chip Select 2 (CSR2)" hexmask.long.byte 0x0 8.--15. 1. "CSR1,Chip Select 1(CSR1)" hexmask.long.byte 0x0 0.--7. 1. "CSR0,Chip Select 0 (CSR0)" line.long 0x4 "MEM_FDLY," hexmask.long.byte 0x4 0.--7. 1. "FDLY,Fail Delay (FDLY)" line.long 0x8 "MEM_PACT," bitfld.long 0x8 0. "PACT,PBIST Activate (PACT)" "0,1" line.long 0xC "MEM_PID," hexmask.long.byte 0xC 0.--4. 1. "PID,PBIST ID" line.long 0x10 "MEM_OVER," bitfld.long 0x10 3. "ALGO,PBIST Override Algorithm Override" "0,1" bitfld.long 0x10 2. "MM,PBIST Override Multiple Memory" "0,1" bitfld.long 0x10 1. "READ,PBIST Override READ Override" "0,1" bitfld.long 0x10 0. "RINFO,PBIST Override RINFO Override" "0,1" rgroup.quad 0x190++0x17 line.quad 0x0 "MEM_FSRF," bitfld.quad 0x0 32. "FRSF1,Fail Status Fail - Port 1 (FSRF1)" "0,1" bitfld.quad 0x0 0. "FRSF0,Fail Status Fail - Port 0 (FSRF0)" "0,1" line.quad 0x8 "MEM_FSRC," hexmask.quad.byte 0x8 32.--35. 1. "FSRC1,Fail Status Count - Port 1 (FSRC1)" hexmask.quad.byte 0x8 0.--3. 1. "FSRC0,Fail Status Count - Port 0 (FSRC0)" line.quad 0x10 "MEM_FSRA," hexmask.quad.word 0x10 32.--47. 1. "FSRA1,Fail Status Address - Port 1 (FSRA1)" hexmask.quad.word 0x10 0.--15. 1. "FSRA0,Fail Status Address - Port 0 (FSRA0)" rgroup.long 0x1A8++0x3 line.long 0x0 "MEM_FSRDL0," hexmask.long 0x0 0.--31. 1. "FSRDL0,Fail Status Data - Port 0 (FSRDL0)" rgroup.long 0x1B0++0xF line.long 0x0 "MEM_FSRDL1," hexmask.long 0x0 0.--31. 1. "FSRDL1,Fail Status Data - Port 1 (FSRDL1)" line.long 0x4 "MEM_MARGIN_MODE," bitfld.long 0x4 2.--3. "PBIST_DFT_READ,pbist_dft_read[1:0]" "0,1,2,3" bitfld.long 0x4 0.--1. "PBIST_DFT_WRITE,pbist_dft_write[1:0]" "0,1,2,3" line.long 0x8 "MEM_WRENZ," bitfld.long 0x8 0.--1. "WRENZ,pbist_ram_wrenz[1:0]" "0,1,2,3" line.long 0xC "MEM_PAGE_PGS," bitfld.long 0xC 0.--1. "PGS,pbist_ram_pgs[1:0]" "0,1,2,3" group.long 0x1C0++0x7 line.long 0x0 "MEM_ROM," bitfld.long 0x0 0.--1. "ROM,ROM Mask (ROM)" "0,1,2,3" line.long 0x4 "MEM_ALGO," hexmask.long.byte 0x4 24.--31. 1. "ALGO_3,ROM Algorithm Mask 3 (ALGO 3)" hexmask.long.byte 0x4 16.--23. 1. "ALGO_2,ROM Algorithm Mask 2 (ALGO 2)" hexmask.long.byte 0x4 8.--15. 1. "ALGO_1,ROM Algorithm Mask 1 (ALGO 1)" hexmask.long.byte 0x4 0.--7. 1. "ALGO_0,ROM Algorithm Mask 0 (ALGO 0)" group.quad 0x1C8++0x7 line.quad 0x0 "MEM_RINFO," hexmask.quad.byte 0x0 56.--63. 1. "U3,RAM Info Mask Upper 3 (RINFOU3)" hexmask.quad.byte 0x0 48.--55. 1. "U2,RAM Info Mask Upper 2 (RINFOU2)" hexmask.quad.byte 0x0 40.--47. 1. "U1,RAM Info Mask Upper 1 (RINFOU1)" hexmask.quad.byte 0x0 32.--39. 1. "U0,RAM Info Mask Upper 0 (RINFOU0)" hexmask.quad.byte 0x0 24.--31. 1. "L3,RAM Info Mask Lower 3 (RINFOL3)" newline hexmask.quad.byte 0x0 16.--23. 1. "L2,RAM Info Mask Lower 2 (RINFOL2)" hexmask.quad.byte 0x0 8.--15. 1. "L1,RAM Info Mask Lower 1 (RINFOL1)" hexmask.quad.byte 0x0 0.--7. 1. "L0,RAM Info Mask Lower 0 (RINFOL0)" tree.end tree "PDMA" base ad:0x0 tree "PDMA0 (PDMA0)" base ad:0xC00000 rgroup.long 0x0++0x3 line.long 0x0 "REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 3. "RPCF1_RAMECC_PEND,Interrupt Pending Status for rpcf1_ramecc_pend" "0,1" bitfld.long 0x4 2. "RPCF0_RAMECC_PEND,Interrupt Pending Status for rpcf0_ramecc_pend" "0,1" bitfld.long 0x4 1. "TPCF1_RAMECC_PEND,Interrupt Pending Status for tpcf1_ramecc_pend" "0,1" newline bitfld.long 0x4 0. "TPCF0_RAMECC_PEND,Interrupt Pending Status for tpcf0_ramecc_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 3. "RPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for rpcf1_ramecc_pend" "0,1" bitfld.long 0x0 2. "RPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for rpcf0_ramecc_pend" "0,1" bitfld.long 0x0 1. "TPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for tpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "TPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for tpcf0_ramecc_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 3. "RPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for rpcf1_ramecc_pend" "0,1" bitfld.long 0x0 2. "RPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for rpcf0_ramecc_pend" "0,1" bitfld.long 0x0 1. "TPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for tpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "TPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for tpcf0_ramecc_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 3. "RPCF1_RAMECC_PEND,Interrupt Pending Status for rpcf1_ramecc_pend" "0,1" bitfld.long 0x4 2. "RPCF0_RAMECC_PEND,Interrupt Pending Status for rpcf0_ramecc_pend" "0,1" bitfld.long 0x4 1. "TPCF1_RAMECC_PEND,Interrupt Pending Status for tpcf1_ramecc_pend" "0,1" newline bitfld.long 0x4 0. "TPCF0_RAMECC_PEND,Interrupt Pending Status for tpcf0_ramecc_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 3. "RPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for rpcf1_ramecc_pend" "0,1" bitfld.long 0x0 2. "RPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for rpcf0_ramecc_pend" "0,1" bitfld.long 0x0 1. "TPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for tpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "TPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for tpcf0_ramecc_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 3. "RPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for rpcf1_ramecc_pend" "0,1" bitfld.long 0x0 2. "RPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for rpcf0_ramecc_pend" "0,1" bitfld.long 0x0 1. "TPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for tpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "TPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for tpcf0_ramecc_pend" "0,1" group.long 0x200++0xF line.long 0x0 "REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "PDMA1 (PDMA1)" base ad:0xC01000 rgroup.long 0x0++0x3 line.long 0x0 "REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 3. "RPCF1_RAMECC_PEND,Interrupt Pending Status for rpcf1_ramecc_pend" "0,1" bitfld.long 0x4 2. "RPCF0_RAMECC_PEND,Interrupt Pending Status for rpcf0_ramecc_pend" "0,1" bitfld.long 0x4 1. "TPCF1_RAMECC_PEND,Interrupt Pending Status for tpcf1_ramecc_pend" "0,1" newline bitfld.long 0x4 0. "TPCF0_RAMECC_PEND,Interrupt Pending Status for tpcf0_ramecc_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 3. "RPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for rpcf1_ramecc_pend" "0,1" bitfld.long 0x0 2. "RPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for rpcf0_ramecc_pend" "0,1" bitfld.long 0x0 1. "TPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for tpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "TPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for tpcf0_ramecc_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 3. "RPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for rpcf1_ramecc_pend" "0,1" bitfld.long 0x0 2. "RPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for rpcf0_ramecc_pend" "0,1" bitfld.long 0x0 1. "TPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for tpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "TPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for tpcf0_ramecc_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 3. "RPCF1_RAMECC_PEND,Interrupt Pending Status for rpcf1_ramecc_pend" "0,1" bitfld.long 0x4 2. "RPCF0_RAMECC_PEND,Interrupt Pending Status for rpcf0_ramecc_pend" "0,1" bitfld.long 0x4 1. "TPCF1_RAMECC_PEND,Interrupt Pending Status for tpcf1_ramecc_pend" "0,1" newline bitfld.long 0x4 0. "TPCF0_RAMECC_PEND,Interrupt Pending Status for tpcf0_ramecc_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 3. "RPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for rpcf1_ramecc_pend" "0,1" bitfld.long 0x0 2. "RPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for rpcf0_ramecc_pend" "0,1" bitfld.long 0x0 1. "TPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for tpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "TPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for tpcf0_ramecc_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 3. "RPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for rpcf1_ramecc_pend" "0,1" bitfld.long 0x0 2. "RPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for rpcf0_ramecc_pend" "0,1" bitfld.long 0x0 1. "TPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for tpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "TPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for tpcf0_ramecc_pend" "0,1" group.long 0x200++0xF line.long 0x0 "REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree.end tree "PLL0_CFG (PLL0_CFG)" base ad:0x680000 rgroup.long 0x0++0x3 line.long 0x0 "CFG_pll0_PID," bitfld.long 0x0 30.--31. "SCHEME,PID follows new scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit - Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE,Module functional identifier" hexmask.long.byte 0x0 11.--15. 1. "MISC,Misc revision number" bitfld.long 0x0 8.--10. "MAJOR,Major revision number" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,custom revision number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number" rgroup.long 0x8++0x3 line.long 0x0 "CFG_pll0_CFG," hexmask.long.word 0x0 16.--31. 1. "HSDIV_PRSNT,High Speed Divider Presence Each bit Indicates the presence of High Speed dividers 0-15. By definition HSDIV[4:0] are connected the PLL FOUTVCO output clock and HSDIV[15:5] are connected to the PLL FOUTPOSTDIV output clock" bitfld.long 0x0 11.--12. "SSM_TYPE,Spread spectrum module presence Field values (Others are reserved): 2'b00 - SSM is not present 2'b01 - SSM is present 2'b10 - Reserved 2'b11 - Reserved" "0,1,2,3" bitfld.long 0x0 8. "SSM_WVTBL,Spread spectrum wave table presence 1'b0 - SSM Wave table is not present 1'b1 - SSM Wave table is present" "0,1" bitfld.long 0x0 0.--1. "PLL_TYPE,Indicates PLL type Field values (Others are reserved): 2'b00 - Fractional PLL 2'b01 - FractionalF PLL 2'b10 - De-Skew PLL" "0,1,2,3" group.long 0x10++0x7 line.long 0x0 "CFG_pll0_LOCKKEY0," hexmask.long 0x0 1.--31. 1. "KEY,Write the kick0 unlock value followed by the kick1 unlock value to unlock the write-protected Partition0 registers" rbitfld.long 0x0 0. "UNLOCKED,Unlock status. When set indicates that the proper unlock sequence has been performed and the partition is unlocked for writing." "0,1" line.long 0x4 "CFG_pll0_LOCKKEY1," hexmask.long 0x4 0.--31. 1. "LOCKKEY1_VAL,Write the kick1 unlock value after the kick0 unlock value to unlock the write-protected Partition0 registers" group.long 0x20++0x3 line.long 0x0 "CFG_pll0_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass enable. This controls the glitch-free bypass mux. The bypass_en bit should be set prior tomaking any changes to the PLL settings. 1'b0 - Synchronously select PLL and associated HSDIV clock outputs 1'b1 - Synchronously select the.." "0,1" bitfld.long 0x0 16. "BYP_ON_LOCKLOSS,Bypass on loss of PLL lock. This bit controls the PLL bypass mux to automatically switch the clock source to the reference clock when the PLL losses lock. 1'b0 - Do not automatically switch to ref clock source on PLL lock loss 1'b1 -.." "0,1" bitfld.long 0x0 15. "PLL_EN,PLL enable 1'b0 - PLL is disabled 1'b1 - PLL is enabled" "0,1" bitfld.long 0x0 8. "INTL_BYP_EN,PLL internal bypass enable. This is an asynchronous mux which can produce glitches on the outputclocks during switching. 1'b0 - Output clocks are derived from the VCO clock 1'b1 - Output clocks are derived from the FREF reference clock" "0,1" bitfld.long 0x0 5. "CLK_4PH_EN,Enable 4-phase clock generator. This bit is ignored if clk_postdiv_en=0 1'b0 - 4-phase dividers disabled. FOUT1PHx and FOUTn clocks are held low. 1'b1 - 4-phase dividers enabled. FOUT1PH0/90/180/270 and FOUT2 FOUT3 FOUT4 clocks are enabled." "0,1" newline bitfld.long 0x0 4. "CLK_POSTDIV_EN,Post divide CLK enable 1'b0 - Post divide powered down. FOUTPOSTDIV and all auxiliary PLL clocks (4-ohase and synchronous divided clocks) are held low 1'b1 - Post divide enabled. FOUTPOSTDIV 4-phase and synchronous clocks are enabled." "0,1" bitfld.long 0x0 1. "DSM_EN,Delta-Sigma modulator enable 1'b0 - Delta-Sigma modulator is disabled (use integer divide mode) 1'b1 - Delta-Sigma modulator is enabled (use fractional divide mode)" "0,1" bitfld.long 0x0 0. "DAC_EN,Enable fractional noise canceling DAC This bit has no function (DAC is always disabled) in integer divide mode (when dsm_en=0) 1'b0 - Fractional NC DAC is disabled (for Test modes only) 1'b1 - Fractional NC DAC is enabled (ignored in integer.." "0,1" rgroup.long 0x24++0x3 line.long 0x0 "CFG_pll0_STAT," bitfld.long 0x0 0. "LOCK,PLL lock status. Software should wait for lock to be asserted before clearing the PLL_CTRL_bypass_en bit 1'b0 - PLL is not locked 1'b1 - PLL is locked" "0,1" group.long 0x30++0xB line.long 0x0 "CFG_pll0_FREQ_CTRL0," hexmask.long.word 0x0 0.--11. 1. "FB_DIV_INT,PLL feedback divider (integer portion) In Integer mode values of 16 - 3200 (dec) are supported. In Fractional mode values of 20 to 320 are supported. 12'h010 - Divide by 16 12'h011 - Divide by 17 : 12'h140 - Divide by 320 : 12'hC80 -.." line.long 0x4 "CFG_pll0_FREQ_CTRL1," hexmask.long.tbyte 0x4 0.--23. 1. "FB_DIV_FRAC,PLL feedback divider (fractional portion) Supports values of 0 to 0.999999940395. The total feedback divide value is (fb_div_int + fb_div_frac / (2^24)) 24'h000000 - 0 24'h000001 - .000000059605 (1/(2^24)) 24'h000002 - .000000119209.." line.long 0x8 "CFG_pll0_DIV_CTRL," bitfld.long 0x8 24.--26. "POST_DIV2,Secondary post divider. Supports values of 1-7" "0,1,2,3,4,5,6,7" bitfld.long 0x8 16.--18. "POST_DIV1,Primary post divider. To ensure correct operation post_div1 must always be programmed to a value equal to or greater that post_div2. Supports values of 1-7i Field values (Others are reserved): 3'b000 - Reserved (do not use) 3'b001 - Divide.." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 0.--5. 1. "REF_DIV,Reference clock pre-divider. Supports values of 1-63 6'b000000 - Reserved /(do not use/) 6'b000001 - Divide by 1 6'b000010 - Divide by 2 : 6'b111111 - Divide by 63" group.long 0x40++0x7 line.long 0x0 "CFG_pll0_SS_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass the SS modulator. 1'b0 - Spread spectrum modulation is enabled 1'b1 - SSMOD is bypassed. No modulation of PLL frequency" "0,1" hexmask.long.byte 0x0 18.--25. 1. "WV_TBLE_MAXADDR,Wave table max address. Indicates the maximum number of address bits used to access the external wave table. These bits are not used if PLL_CFG_ssm_wvtbl = 0" bitfld.long 0x0 15. "RESET,SSM reset. When set to 1 the SSM modulator is in reset" "0,1" bitfld.long 0x0 4. "DOWNSPREAD_EN,Selects center spread or down spread clock variance 1'b0 - Center spread 1'b1 - Down spread" "0,1" bitfld.long 0x0 0. "WAVE_SEL,Wave pattern select External wave table should only be selected if PLL_CFG_ssm_wvtbl = 1 Field values (Others are reserved): 1'b0 - Use 128 point triangle wave table 1'b1 - Use external wave table" "0,1" line.long 0x4 "CFG_pll0_SS_SPREAD," hexmask.long.byte 0x4 16.--19. 1. "MOD_DIV,Input clock divider. This divider sets the modulation frequency. Supports divide values of 1-63" hexmask.long.byte 0x4 0.--4. 1. "SPREAD,Sets the spread modulation depth. The depth is spread*0.1% 5'b00000 - Reserved (don't use) 5'b00001 - 0.1% 5'b00010 - 0.2% : 5'b10000 - 1.6% : 5'b11111 - 3.1%" group.long 0x60++0x3 line.long 0x0 "CFG_pll0_CAL_CTRL," bitfld.long 0x0 31. "CAL_EN,Calibration enable to actively adjust for input skew 1'b0 - Disabled. Static phase offset determined by analog matching only 1'b1 - Enabled. Static phase offset adjusted by phase sensing at input" "0,1" bitfld.long 0x0 20. "FAST_CAL,Fast calibration enabled 1'b0 - Normal operation 1'b1 - Used for initial calibration if initial value is not already known" "0,1" bitfld.long 0x0 16.--18. "CAL_CNT,Calibration loop programmable counter. Selects the number of PFD edges to wait after each calibration step defined by 2**cal_cnt" "0,1,2,3,4,5,6,7" bitfld.long 0x0 15. "CAL_BYP,Calibration bypass 1'b0 - Use the calibration output to set the phase correction 1'b1 - Use the cal_in input value to set the phase correction" "0,1" hexmask.long.word 0x0 0.--11. 1. "CAL_IN,Calibration input When cal_byp is 1'b0 this represents the initial condition for calibration. When cal_byp is 1'b1 this is the override value for calibration. Value is a signed integer with positive values delaying the faster path reset and.." rgroup.long 0x64++0x3 line.long 0x0 "CFG_pll0_CAL_STAT," bitfld.long 0x0 31. "CAL_LOCK,Reserved for future use" "0,1" hexmask.long.byte 0x0 16.--19. 1. "LOCK_CNT,Reserved for future use" hexmask.long.word 0x0 0.--11. 1. "CAL_OUT,Output of the calibration block if cal_byp = 1'b0. If cal_byp = 1'b1 it is a buffer version of cal_in[11:0]. Can be used to read the phase calibration state to for later use as an override value to bypass skew calibration" group.long 0x80++0x27 line.long 0x0 "CFG_pll0_HSDIV_CTRL0," bitfld.long 0x0 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x0 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x0 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x0 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x4 "CFG_pll0_HSDIV_CTRL1," bitfld.long 0x4 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x4 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x4 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x4 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x8 "CFG_pll0_HSDIV_CTRL2," bitfld.long 0x8 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x8 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x8 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x8 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0xC "CFG_pll0_HSDIV_CTRL3," bitfld.long 0xC 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0xC 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0xC 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0xC 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x10 "CFG_pll0_HSDIV_CTRL4," bitfld.long 0x10 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x10 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x10 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x10 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x14 "CFG_pll0_HSDIV_CTRL5," bitfld.long 0x14 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x14 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x14 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x14 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x18 "CFG_pll0_HSDIV_CTRL6," bitfld.long 0x18 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x18 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x18 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x18 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x1C "CFG_pll0_HSDIV_CTRL7," bitfld.long 0x1C 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x1C 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x1C 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x1C 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x20 "CFG_pll0_HSDIV_CTRL8," bitfld.long 0x20 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x20 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x20 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x20 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x24 "CFG_pll0_HSDIV_CTRL9," bitfld.long 0x24 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x24 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x24 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x24 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" rgroup.long 0x1000++0x3 line.long 0x0 "CFG_pll1_PID," bitfld.long 0x0 30.--31. "SCHEME,PID follows new scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit - Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE,Module functional identifier" hexmask.long.byte 0x0 11.--15. 1. "MISC,Misc revision number" bitfld.long 0x0 8.--10. "MAJOR,Major revision number" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,custom revision number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number" rgroup.long 0x1008++0x3 line.long 0x0 "CFG_pll1_CFG," hexmask.long.word 0x0 16.--31. 1. "HSDIV_PRSNT,High Speed Divider Presence Each bit Indicates the presence of High Speed dividers 0-15. By definition HSDIV[4:0] are connected the PLL FOUTVCO output clock and HSDIV[15:5] are connected to the PLL FOUTPOSTDIV output clock" bitfld.long 0x0 11.--12. "SSM_TYPE,Spread spectrum module presence Field values (Others are reserved): 2'b00 - SSM is not present 2'b01 - SSM is present 2'b10 - Reserved 2'b11 - Reserved" "0,1,2,3" bitfld.long 0x0 8. "SSM_WVTBL,Spread spectrum wave table presence 1'b0 - SSM Wave table is not present 1'b1 - SSM Wave table is present" "0,1" bitfld.long 0x0 0.--1. "PLL_TYPE,Indicates PLL type Field values (Others are reserved): 2'b00 - Fractional PLL 2'b01 - FractionalF PLL 2'b10 - De-Skew PLL" "0,1,2,3" group.long 0x1010++0x7 line.long 0x0 "CFG_pll1_LOCKKEY0," hexmask.long 0x0 1.--31. 1. "KEY,Write the kick0 unlock value followed by the kick1 unlock value to unlock the write-protected Partition1 registers" rbitfld.long 0x0 0. "UNLOCKED,Unlock status. When set indicates that the proper unlock sequence has been performed and the partition is unlocked for writing." "0,1" line.long 0x4 "CFG_pll1_LOCKKEY1," hexmask.long 0x4 0.--31. 1. "LOCKKEY1_VAL,Write the kick1 unlock value after the kick0 unlock value to unlock the write-protected Partition1 registers" group.long 0x1020++0x3 line.long 0x0 "CFG_pll1_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass enable. This controls the glitch-free bypass mux. The bypass_en bit should be set prior tomaking any changes to the PLL settings. 1'b0 - Synchronously select PLL and associated HSDIV clock outputs 1'b1 - Synchronously select the.." "0,1" bitfld.long 0x0 16. "BYP_ON_LOCKLOSS,Bypass on loss of PLL lock. This bit controls the PLL bypass mux to automatically switch the clock source to the reference clock when the PLL losses lock. 1'b0 - Do not automatically switch to ref clock source on PLL lock loss 1'b1 -.." "0,1" bitfld.long 0x0 15. "PLL_EN,PLL enable 1'b0 - PLL is disabled 1'b1 - PLL is enabled" "0,1" bitfld.long 0x0 8. "INTL_BYP_EN,PLL internal bypass enable. This is an asynchronous mux which can produce glitches on the outputclocks during switching. 1'b0 - Output clocks are derived from the VCO clock 1'b1 - Output clocks are derived from the FREF reference clock" "0,1" bitfld.long 0x0 5. "CLK_4PH_EN,Enable 4-phase clock generator. This bit is ignored if clk_postdiv_en=0 1'b0 - 4-phase dividers disabled. FOUT1PHx and FOUTn clocks are held low. 1'b1 - 4-phase dividers enabled. FOUT1PH0/90/180/270 and FOUT2 FOUT3 FOUT4 clocks are enabled." "0,1" newline bitfld.long 0x0 4. "CLK_POSTDIV_EN,Post divide CLK enable 1'b0 - Post divide powered down. FOUTPOSTDIV and all auxiliary PLL clocks (4-ohase and synchronous divided clocks) are held low 1'b1 - Post divide enabled. FOUTPOSTDIV 4-phase and synchronous clocks are enabled." "0,1" bitfld.long 0x0 1. "DSM_EN,Delta-Sigma modulator enable 1'b0 - Delta-Sigma modulator is disabled (use integer divide mode) 1'b1 - Delta-Sigma modulator is enabled (use fractional divide mode)" "0,1" bitfld.long 0x0 0. "DAC_EN,Enable fractional noise canceling DAC This bit has no function (DAC is always disabled) in integer divide mode (when dsm_en=0) 1'b0 - Fractional NC DAC is disabled (for Test modes only) 1'b1 - Fractional NC DAC is enabled (ignored in integer.." "0,1" rgroup.long 0x1024++0x3 line.long 0x0 "CFG_pll1_STAT," bitfld.long 0x0 0. "LOCK,PLL lock status. Software should wait for lock to be asserted before clearing the PLL_CTRL_bypass_en bit 1'b0 - PLL is not locked 1'b1 - PLL is locked" "0,1" group.long 0x1030++0xB line.long 0x0 "CFG_pll1_FREQ_CTRL0," hexmask.long.word 0x0 0.--11. 1. "FB_DIV_INT,PLL feedback divider (integer portion) In Integer mode values of 16 - 3200 (dec) are supported. In Fractional mode values of 20 to 320 are supported. 12'h010 - Divide by 16 12'h011 - Divide by 17 : 12'h140 - Divide by 320 : 12'hC80 -.." line.long 0x4 "CFG_pll1_FREQ_CTRL1," hexmask.long.tbyte 0x4 0.--23. 1. "FB_DIV_FRAC,PLL feedback divider (fractional portion) Supports values of 0 to 0.999999940395. The total feedback divide value is (fb_div_int + fb_div_frac / (2^24)) 24'h000000 - 0 24'h000001 - .000000059605 (1/(2^24)) 24'h000002 - .000000119209.." line.long 0x8 "CFG_pll1_DIV_CTRL," bitfld.long 0x8 24.--26. "POST_DIV2,Secondary post divider. Supports values of 1-7" "0,1,2,3,4,5,6,7" bitfld.long 0x8 16.--18. "POST_DIV1,Primary post divider. To ensure correct operation post_div1 must always be programmed to a value equal to or greater that post_div2. Supports values of 1-7i Field values (Others are reserved): 3'b000 - Reserved (do not use) 3'b001 - Divide.." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 0.--5. 1. "REF_DIV,Reference clock pre-divider. Supports values of 1-63 6'b000000 - Reserved /(do not use/) 6'b000001 - Divide by 1 6'b000010 - Divide by 2 : 6'b111111 - Divide by 63" group.long 0x1040++0x7 line.long 0x0 "CFG_pll1_SS_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass the SS modulator. 1'b0 - Spread spectrum modulation is enabled 1'b1 - SSMOD is bypassed. No modulation of PLL frequency" "0,1" hexmask.long.byte 0x0 18.--25. 1. "WV_TBLE_MAXADDR,Wave table max address. Indicates the maximum number of address bits used to access the external wave table. These bits are not used if PLL_CFG_ssm_wvtbl = 0" bitfld.long 0x0 15. "RESET,SSM reset. When set to 1 the SSM modulator is in reset" "0,1" bitfld.long 0x0 4. "DOWNSPREAD_EN,Selects center spread or down spread clock variance 1'b0 - Center spread 1'b1 - Down spread" "0,1" bitfld.long 0x0 0. "WAVE_SEL,Wave pattern select External wave table should only be selected if PLL_CFG_ssm_wvtbl = 1 Field values (Others are reserved): 1'b0 - Use 128 point triangle wave table 1'b1 - Use external wave table" "0,1" line.long 0x4 "CFG_pll1_SS_SPREAD," hexmask.long.byte 0x4 16.--19. 1. "MOD_DIV,Input clock divider. This divider sets the modulation frequency. Supports divide values of 1-63" hexmask.long.byte 0x4 0.--4. 1. "SPREAD,Sets the spread modulation depth. The depth is spread*0.1% 5'b00000 - Reserved (don't use) 5'b00001 - 0.1% 5'b00010 - 0.2% : 5'b10000 - 1.6% : 5'b11111 - 3.1%" group.long 0x1060++0x3 line.long 0x0 "CFG_pll1_CAL_CTRL," bitfld.long 0x0 31. "CAL_EN,Calibration enable to actively adjust for input skew 1'b0 - Disabled. Static phase offset determined by analog matching only 1'b1 - Enabled. Static phase offset adjusted by phase sensing at input" "0,1" bitfld.long 0x0 20. "FAST_CAL,Fast calibration enabled 1'b0 - Normal operation 1'b1 - Used for initial calibration if initial value is not already known" "0,1" bitfld.long 0x0 16.--18. "CAL_CNT,Calibration loop programmable counter. Selects the number of PFD edges to wait after each calibration step defined by 2**cal_cnt" "0,1,2,3,4,5,6,7" bitfld.long 0x0 15. "CAL_BYP,Calibration bypass 1'b0 - Use the calibration output to set the phase correction 1'b1 - Use the cal_in input value to set the phase correction" "0,1" hexmask.long.word 0x0 0.--11. 1. "CAL_IN,Calibration input When cal_byp is 1'b0 this represents the initial condition for calibration. When cal_byp is 1'b1 this is the override value for calibration. Value is a signed integer with positive values delaying the faster path reset and.." rgroup.long 0x1064++0x3 line.long 0x0 "CFG_pll1_CAL_STAT," bitfld.long 0x0 31. "CAL_LOCK,Reserved for future use" "0,1" hexmask.long.byte 0x0 16.--19. 1. "LOCK_CNT,Reserved for future use" hexmask.long.word 0x0 0.--11. 1. "CAL_OUT,Output of the calibration block if cal_byp = 1'b0. If cal_byp = 1'b1 it is a buffer version of cal_in[11:0]. Can be used to read the phase calibration state to for later use as an override value to bypass skew calibration" group.long 0x1080++0x1B line.long 0x0 "CFG_pll1_HSDIV_CTRL0," bitfld.long 0x0 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x0 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x0 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x0 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x4 "CFG_pll1_HSDIV_CTRL1," bitfld.long 0x4 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x4 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x4 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x4 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x8 "CFG_pll1_HSDIV_CTRL2," bitfld.long 0x8 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x8 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x8 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x8 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0xC "CFG_pll1_HSDIV_CTRL3," bitfld.long 0xC 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0xC 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0xC 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0xC 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x10 "CFG_pll1_HSDIV_CTRL4," bitfld.long 0x10 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x10 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x10 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x10 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x14 "CFG_pll1_HSDIV_CTRL5," bitfld.long 0x14 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x14 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x14 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x14 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x18 "CFG_pll1_HSDIV_CTRL6," bitfld.long 0x18 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x18 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x18 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x18 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" rgroup.long 0x2000++0x3 line.long 0x0 "CFG_pll2_PID," bitfld.long 0x0 30.--31. "SCHEME,PID follows new scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit - Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE,Module functional identifier" hexmask.long.byte 0x0 11.--15. 1. "MISC,Misc revision number" bitfld.long 0x0 8.--10. "MAJOR,Major revision number" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,custom revision number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number" rgroup.long 0x2008++0x3 line.long 0x0 "CFG_pll2_CFG," hexmask.long.word 0x0 16.--31. 1. "HSDIV_PRSNT,High Speed Divider Presence Each bit Indicates the presence of High Speed dividers 0-15. By definition HSDIV[4:0] are connected the PLL FOUTVCO output clock and HSDIV[15:5] are connected to the PLL FOUTPOSTDIV output clock" bitfld.long 0x0 11.--12. "SSM_TYPE,Spread spectrum module presence Field values (Others are reserved): 2'b00 - SSM is not present 2'b01 - SSM is present 2'b10 - Reserved 2'b11 - Reserved" "0,1,2,3" bitfld.long 0x0 8. "SSM_WVTBL,Spread spectrum wave table presence 1'b0 - SSM Wave table is not present 1'b1 - SSM Wave table is present" "0,1" bitfld.long 0x0 0.--1. "PLL_TYPE,Indicates PLL type Field values (Others are reserved): 2'b00 - Fractional PLL 2'b01 - FractionalF PLL 2'b10 - De-Skew PLL" "0,1,2,3" group.long 0x2010++0x7 line.long 0x0 "CFG_pll2_LOCKKEY0," hexmask.long 0x0 1.--31. 1. "KEY,Write the kick0 unlock value followed by the kick1 unlock value to unlock the write-protected Partition2 registers" rbitfld.long 0x0 0. "UNLOCKED,Unlock status. When set indicates that the proper unlock sequence has been performed and the partition is unlocked for writing." "0,1" line.long 0x4 "CFG_pll2_LOCKKEY1," hexmask.long 0x4 0.--31. 1. "LOCKKEY1_VAL,Write the kick1 unlock value after the kick0 unlock value to unlock the write-protected Partition2 registers" group.long 0x2020++0x3 line.long 0x0 "CFG_pll2_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass enable. This controls the glitch-free bypass mux. The bypass_en bit should be set prior tomaking any changes to the PLL settings. 1'b0 - Synchronously select PLL and associated HSDIV clock outputs 1'b1 - Synchronously select the.." "0,1" bitfld.long 0x0 16. "BYP_ON_LOCKLOSS,Bypass on loss of PLL lock. This bit controls the PLL bypass mux to automatically switch the clock source to the reference clock when the PLL losses lock. 1'b0 - Do not automatically switch to ref clock source on PLL lock loss 1'b1 -.." "0,1" bitfld.long 0x0 15. "PLL_EN,PLL enable 1'b0 - PLL is disabled 1'b1 - PLL is enabled" "0,1" bitfld.long 0x0 8. "INTL_BYP_EN,PLL internal bypass enable. This is an asynchronous mux which can produce glitches on the outputclocks during switching. 1'b0 - Output clocks are derived from the VCO clock 1'b1 - Output clocks are derived from the FREF reference clock" "0,1" bitfld.long 0x0 5. "CLK_4PH_EN,Enable 4-phase clock generator. This bit is ignored if clk_postdiv_en=0 1'b0 - 4-phase dividers disabled. FOUT1PHx and FOUTn clocks are held low. 1'b1 - 4-phase dividers enabled. FOUT1PH0/90/180/270 and FOUT2 FOUT3 FOUT4 clocks are enabled." "0,1" newline bitfld.long 0x0 4. "CLK_POSTDIV_EN,Post divide CLK enable 1'b0 - Post divide powered down. FOUTPOSTDIV and all auxiliary PLL clocks (4-ohase and synchronous divided clocks) are held low 1'b1 - Post divide enabled. FOUTPOSTDIV 4-phase and synchronous clocks are enabled." "0,1" bitfld.long 0x0 1. "DSM_EN,Delta-Sigma modulator enable 1'b0 - Delta-Sigma modulator is disabled (use integer divide mode) 1'b1 - Delta-Sigma modulator is enabled (use fractional divide mode)" "0,1" bitfld.long 0x0 0. "DAC_EN,Enable fractional noise canceling DAC This bit has no function (DAC is always disabled) in integer divide mode (when dsm_en=0) 1'b0 - Fractional NC DAC is disabled (for Test modes only) 1'b1 - Fractional NC DAC is enabled (ignored in integer.." "0,1" rgroup.long 0x2024++0x3 line.long 0x0 "CFG_pll2_STAT," bitfld.long 0x0 0. "LOCK,PLL lock status. Software should wait for lock to be asserted before clearing the PLL_CTRL_bypass_en bit 1'b0 - PLL is not locked 1'b1 - PLL is locked" "0,1" group.long 0x2030++0xB line.long 0x0 "CFG_pll2_FREQ_CTRL0," hexmask.long.word 0x0 0.--11. 1. "FB_DIV_INT,PLL feedback divider (integer portion) In Integer mode values of 16 - 3200 (dec) are supported. In Fractional mode values of 20 to 320 are supported. 12'h010 - Divide by 16 12'h011 - Divide by 17 : 12'h140 - Divide by 320 : 12'hC80 -.." line.long 0x4 "CFG_pll2_FREQ_CTRL1," hexmask.long.tbyte 0x4 0.--23. 1. "FB_DIV_FRAC,PLL feedback divider (fractional portion) Supports values of 0 to 0.999999940395. The total feedback divide value is (fb_div_int + fb_div_frac / (2^24)) 24'h000000 - 0 24'h000001 - .000000059605 (1/(2^24)) 24'h000002 - .000000119209.." line.long 0x8 "CFG_pll2_DIV_CTRL," bitfld.long 0x8 24.--26. "POST_DIV2,Secondary post divider. Supports values of 1-7" "0,1,2,3,4,5,6,7" bitfld.long 0x8 16.--18. "POST_DIV1,Primary post divider. To ensure correct operation post_div1 must always be programmed to a value equal to or greater that post_div2. Supports values of 1-7i Field values (Others are reserved): 3'b000 - Reserved (do not use) 3'b001 - Divide.." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 0.--5. 1. "REF_DIV,Reference clock pre-divider. Supports values of 1-63 6'b000000 - Reserved /(do not use/) 6'b000001 - Divide by 1 6'b000010 - Divide by 2 : 6'b111111 - Divide by 63" group.long 0x2040++0x7 line.long 0x0 "CFG_pll2_SS_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass the SS modulator. 1'b0 - Spread spectrum modulation is enabled 1'b1 - SSMOD is bypassed. No modulation of PLL frequency" "0,1" hexmask.long.byte 0x0 18.--25. 1. "WV_TBLE_MAXADDR,Wave table max address. Indicates the maximum number of address bits used to access the external wave table. These bits are not used if PLL_CFG_ssm_wvtbl = 0" bitfld.long 0x0 15. "RESET,SSM reset. When set to 1 the SSM modulator is in reset" "0,1" bitfld.long 0x0 4. "DOWNSPREAD_EN,Selects center spread or down spread clock variance 1'b0 - Center spread 1'b1 - Down spread" "0,1" bitfld.long 0x0 0. "WAVE_SEL,Wave pattern select External wave table should only be selected if PLL_CFG_ssm_wvtbl = 1 Field values (Others are reserved): 1'b0 - Use 128 point triangle wave table 1'b1 - Use external wave table" "0,1" line.long 0x4 "CFG_pll2_SS_SPREAD," hexmask.long.byte 0x4 16.--19. 1. "MOD_DIV,Input clock divider. This divider sets the modulation frequency. Supports divide values of 1-63" hexmask.long.byte 0x4 0.--4. 1. "SPREAD,Sets the spread modulation depth. The depth is spread*0.1% 5'b00000 - Reserved (don't use) 5'b00001 - 0.1% 5'b00010 - 0.2% : 5'b10000 - 1.6% : 5'b11111 - 3.1%" group.long 0x2060++0x3 line.long 0x0 "CFG_pll2_CAL_CTRL," bitfld.long 0x0 31. "CAL_EN,Calibration enable to actively adjust for input skew 1'b0 - Disabled. Static phase offset determined by analog matching only 1'b1 - Enabled. Static phase offset adjusted by phase sensing at input" "0,1" bitfld.long 0x0 20. "FAST_CAL,Fast calibration enabled 1'b0 - Normal operation 1'b1 - Used for initial calibration if initial value is not already known" "0,1" bitfld.long 0x0 16.--18. "CAL_CNT,Calibration loop programmable counter. Selects the number of PFD edges to wait after each calibration step defined by 2**cal_cnt" "0,1,2,3,4,5,6,7" bitfld.long 0x0 15. "CAL_BYP,Calibration bypass 1'b0 - Use the calibration output to set the phase correction 1'b1 - Use the cal_in input value to set the phase correction" "0,1" hexmask.long.word 0x0 0.--11. 1. "CAL_IN,Calibration input When cal_byp is 1'b0 this represents the initial condition for calibration. When cal_byp is 1'b1 this is the override value for calibration. Value is a signed integer with positive values delaying the faster path reset and.." rgroup.long 0x2064++0x3 line.long 0x0 "CFG_pll2_CAL_STAT," bitfld.long 0x0 31. "CAL_LOCK,Reserved for future use" "0,1" hexmask.long.byte 0x0 16.--19. 1. "LOCK_CNT,Reserved for future use" hexmask.long.word 0x0 0.--11. 1. "CAL_OUT,Output of the calibration block if cal_byp = 1'b0. If cal_byp = 1'b1 it is a buffer version of cal_in[11:0]. Can be used to read the phase calibration state to for later use as an override value to bypass skew calibration" group.long 0x2080++0x27 line.long 0x0 "CFG_pll2_HSDIV_CTRL0," bitfld.long 0x0 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x0 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x0 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x0 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x4 "CFG_pll2_HSDIV_CTRL1," bitfld.long 0x4 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x4 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x4 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x4 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x8 "CFG_pll2_HSDIV_CTRL2," bitfld.long 0x8 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x8 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x8 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x8 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0xC "CFG_pll2_HSDIV_CTRL3," bitfld.long 0xC 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0xC 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0xC 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0xC 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x10 "CFG_pll2_HSDIV_CTRL4," bitfld.long 0x10 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x10 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x10 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x10 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x14 "CFG_pll2_HSDIV_CTRL5," bitfld.long 0x14 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x14 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x14 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x14 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x18 "CFG_pll2_HSDIV_CTRL6," bitfld.long 0x18 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x18 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x18 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x18 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x1C "CFG_pll2_HSDIV_CTRL7," bitfld.long 0x1C 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x1C 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x1C 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x1C 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x20 "CFG_pll2_HSDIV_CTRL8," bitfld.long 0x20 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x20 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x20 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x20 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x24 "CFG_pll2_HSDIV_CTRL9," bitfld.long 0x24 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x24 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x24 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x24 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" rgroup.long 0x5000++0x3 line.long 0x0 "CFG_pll5_PID," bitfld.long 0x0 30.--31. "SCHEME,PID follows new scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit - Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE,Module functional identifier" hexmask.long.byte 0x0 11.--15. 1. "MISC,Misc revision number" bitfld.long 0x0 8.--10. "MAJOR,Major revision number" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,custom revision number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number" rgroup.long 0x5008++0x3 line.long 0x0 "CFG_pll5_CFG," hexmask.long.word 0x0 16.--31. 1. "HSDIV_PRSNT,High Speed Divider Presence Each bit Indicates the presence of High Speed dividers 0-15. By definition HSDIV[4:0] are connected the PLL FOUTVCO output clock and HSDIV[15:5] are connected to the PLL FOUTPOSTDIV output clock" bitfld.long 0x0 11.--12. "SSM_TYPE,Spread spectrum module presence Field values (Others are reserved): 2'b00 - SSM is not present 2'b01 - SSM is present 2'b10 - Reserved 2'b11 - Reserved" "0,1,2,3" bitfld.long 0x0 8. "SSM_WVTBL,Spread spectrum wave table presence 1'b0 - SSM Wave table is not present 1'b1 - SSM Wave table is present" "0,1" bitfld.long 0x0 0.--1. "PLL_TYPE,Indicates PLL type Field values (Others are reserved): 2'b00 - Fractional PLL 2'b01 - FractionalF PLL 2'b10 - De-Skew PLL" "0,1,2,3" group.long 0x5010++0x7 line.long 0x0 "CFG_pll5_LOCKKEY0," hexmask.long 0x0 1.--31. 1. "KEY,Write the kick0 unlock value followed by the kick1 unlock value to unlock the write-protected Partition5 registers" rbitfld.long 0x0 0. "UNLOCKED,Unlock status. When set indicates that the proper unlock sequence has been performed and the partition is unlocked for writing." "0,1" line.long 0x4 "CFG_pll5_LOCKKEY1," hexmask.long 0x4 0.--31. 1. "LOCKKEY1_VAL,Write the kick1 unlock value after the kick0 unlock value to unlock the write-protected Partition5 registers" group.long 0x5020++0x3 line.long 0x0 "CFG_pll5_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass enable. This controls the glitch-free bypass mux. The bypass_en bit should be set prior tomaking any changes to the PLL settings. 1'b0 - Synchronously select PLL and associated HSDIV clock outputs 1'b1 - Synchronously select the.." "0,1" bitfld.long 0x0 16. "BYP_ON_LOCKLOSS,Bypass on loss of PLL lock. This bit controls the PLL bypass mux to automatically switch the clock source to the reference clock when the PLL losses lock. 1'b0 - Do not automatically switch to ref clock source on PLL lock loss 1'b1 -.." "0,1" bitfld.long 0x0 15. "PLL_EN,PLL enable 1'b0 - PLL is disabled 1'b1 - PLL is enabled" "0,1" bitfld.long 0x0 8. "INTL_BYP_EN,PLL internal bypass enable. This is an asynchronous mux which can produce glitches on the outputclocks during switching. 1'b0 - Output clocks are derived from the VCO clock 1'b1 - Output clocks are derived from the FREF reference clock" "0,1" bitfld.long 0x0 5. "CLK_4PH_EN,Enable 4-phase clock generator. This bit is ignored if clk_postdiv_en=0 1'b0 - 4-phase dividers disabled. FOUT1PHx and FOUTn clocks are held low. 1'b1 - 4-phase dividers enabled. FOUT1PH0/90/180/270 and FOUT2 FOUT3 FOUT4 clocks are enabled." "0,1" newline bitfld.long 0x0 4. "CLK_POSTDIV_EN,Post divide CLK enable 1'b0 - Post divide powered down. FOUTPOSTDIV and all auxiliary PLL clocks (4-ohase and synchronous divided clocks) are held low 1'b1 - Post divide enabled. FOUTPOSTDIV 4-phase and synchronous clocks are enabled." "0,1" bitfld.long 0x0 1. "DSM_EN,Delta-Sigma modulator enable 1'b0 - Delta-Sigma modulator is disabled (use integer divide mode) 1'b1 - Delta-Sigma modulator is enabled (use fractional divide mode)" "0,1" bitfld.long 0x0 0. "DAC_EN,Enable fractional noise canceling DAC This bit has no function (DAC is always disabled) in integer divide mode (when dsm_en=0) 1'b0 - Fractional NC DAC is disabled (for Test modes only) 1'b1 - Fractional NC DAC is enabled (ignored in integer.." "0,1" rgroup.long 0x5024++0x3 line.long 0x0 "CFG_pll5_STAT," bitfld.long 0x0 0. "LOCK,PLL lock status. Software should wait for lock to be asserted before clearing the PLL_CTRL_bypass_en bit 1'b0 - PLL is not locked 1'b1 - PLL is locked" "0,1" group.long 0x5030++0xB line.long 0x0 "CFG_pll5_FREQ_CTRL0," hexmask.long.word 0x0 0.--11. 1. "FB_DIV_INT,PLL feedback divider (integer portion) In Integer mode values of 16 - 3200 (dec) are supported. In Fractional mode values of 20 to 320 are supported. 12'h010 - Divide by 16 12'h011 - Divide by 17 : 12'h140 - Divide by 320 : 12'hC80 -.." line.long 0x4 "CFG_pll5_FREQ_CTRL1," hexmask.long.tbyte 0x4 0.--23. 1. "FB_DIV_FRAC,PLL feedback divider (fractional portion) Supports values of 0 to 0.999999940395. The total feedback divide value is (fb_div_int + fb_div_frac / (2^24)) 24'h000000 - 0 24'h000001 - .000000059605 (1/(2^24)) 24'h000002 - .000000119209.." line.long 0x8 "CFG_pll5_DIV_CTRL," bitfld.long 0x8 24.--26. "POST_DIV2,Secondary post divider. Supports values of 1-7" "0,1,2,3,4,5,6,7" bitfld.long 0x8 16.--18. "POST_DIV1,Primary post divider. To ensure correct operation post_div1 must always be programmed to a value equal to or greater that post_div2. Supports values of 1-7i Field values (Others are reserved): 3'b000 - Reserved (do not use) 3'b001 - Divide.." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 0.--5. 1. "REF_DIV,Reference clock pre-divider. Supports values of 1-63 6'b000000 - Reserved /(do not use/) 6'b000001 - Divide by 1 6'b000010 - Divide by 2 : 6'b111111 - Divide by 63" group.long 0x5040++0x7 line.long 0x0 "CFG_pll5_SS_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass the SS modulator. 1'b0 - Spread spectrum modulation is enabled 1'b1 - SSMOD is bypassed. No modulation of PLL frequency" "0,1" hexmask.long.byte 0x0 18.--25. 1. "WV_TBLE_MAXADDR,Wave table max address. Indicates the maximum number of address bits used to access the external wave table. These bits are not used if PLL_CFG_ssm_wvtbl = 0" bitfld.long 0x0 15. "RESET,SSM reset. When set to 1 the SSM modulator is in reset" "0,1" bitfld.long 0x0 4. "DOWNSPREAD_EN,Selects center spread or down spread clock variance 1'b0 - Center spread 1'b1 - Down spread" "0,1" bitfld.long 0x0 0. "WAVE_SEL,Wave pattern select External wave table should only be selected if PLL_CFG_ssm_wvtbl = 1 Field values (Others are reserved): 1'b0 - Use 128 point triangle wave table 1'b1 - Use external wave table" "0,1" line.long 0x4 "CFG_pll5_SS_SPREAD," hexmask.long.byte 0x4 16.--19. 1. "MOD_DIV,Input clock divider. This divider sets the modulation frequency. Supports divide values of 1-63" hexmask.long.byte 0x4 0.--4. 1. "SPREAD,Sets the spread modulation depth. The depth is spread*0.1% 5'b00000 - Reserved (don't use) 5'b00001 - 0.1% 5'b00010 - 0.2% : 5'b10000 - 1.6% : 5'b11111 - 3.1%" group.long 0x5060++0x3 line.long 0x0 "CFG_pll5_CAL_CTRL," bitfld.long 0x0 31. "CAL_EN,Calibration enable to actively adjust for input skew 1'b0 - Disabled. Static phase offset determined by analog matching only 1'b1 - Enabled. Static phase offset adjusted by phase sensing at input" "0,1" bitfld.long 0x0 20. "FAST_CAL,Fast calibration enabled 1'b0 - Normal operation 1'b1 - Used for initial calibration if initial value is not already known" "0,1" bitfld.long 0x0 16.--18. "CAL_CNT,Calibration loop programmable counter. Selects the number of PFD edges to wait after each calibration step defined by 2**cal_cnt" "0,1,2,3,4,5,6,7" bitfld.long 0x0 15. "CAL_BYP,Calibration bypass 1'b0 - Use the calibration output to set the phase correction 1'b1 - Use the cal_in input value to set the phase correction" "0,1" hexmask.long.word 0x0 0.--11. 1. "CAL_IN,Calibration input When cal_byp is 1'b0 this represents the initial condition for calibration. When cal_byp is 1'b1 this is the override value for calibration. Value is a signed integer with positive values delaying the faster path reset and.." rgroup.long 0x5064++0x3 line.long 0x0 "CFG_pll5_CAL_STAT," bitfld.long 0x0 31. "CAL_LOCK,Reserved for future use" "0,1" hexmask.long.byte 0x0 16.--19. 1. "LOCK_CNT,Reserved for future use" hexmask.long.word 0x0 0.--11. 1. "CAL_OUT,Output of the calibration block if cal_byp = 1'b0. If cal_byp = 1'b1 it is a buffer version of cal_in[11:0]. Can be used to read the phase calibration state to for later use as an override value to bypass skew calibration" group.long 0x5080++0xB line.long 0x0 "CFG_pll5_HSDIV_CTRL0," bitfld.long 0x0 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x0 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x0 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x0 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x4 "CFG_pll5_HSDIV_CTRL1," bitfld.long 0x4 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x4 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x4 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x4 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x8 "CFG_pll5_HSDIV_CTRL2," bitfld.long 0x8 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x8 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x8 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x8 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" rgroup.long 0x6000++0x3 line.long 0x0 "CFG_pll6_PID," bitfld.long 0x0 30.--31. "SCHEME,PID follows new scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit - Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE,Module functional identifier" hexmask.long.byte 0x0 11.--15. 1. "MISC,Misc revision number" bitfld.long 0x0 8.--10. "MAJOR,Major revision number" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,custom revision number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number" rgroup.long 0x6008++0x3 line.long 0x0 "CFG_pll6_CFG," hexmask.long.word 0x0 16.--31. 1. "HSDIV_PRSNT,High Speed Divider Presence Each bit Indicates the presence of High Speed dividers 0-15. By definition HSDIV[4:0] are connected the PLL FOUTVCO output clock and HSDIV[15:5] are connected to the PLL FOUTPOSTDIV output clock" bitfld.long 0x0 11.--12. "SSM_TYPE,Spread spectrum module presence Field values (Others are reserved): 2'b00 - SSM is not present 2'b01 - SSM is present 2'b10 - Reserved 2'b11 - Reserved" "0,1,2,3" bitfld.long 0x0 8. "SSM_WVTBL,Spread spectrum wave table presence 1'b0 - SSM Wave table is not present 1'b1 - SSM Wave table is present" "0,1" bitfld.long 0x0 0.--1. "PLL_TYPE,Indicates PLL type Field values (Others are reserved): 2'b00 - Fractional PLL 2'b01 - FractionalF PLL 2'b10 - De-Skew PLL" "0,1,2,3" group.long 0x6010++0x7 line.long 0x0 "CFG_pll6_LOCKKEY0," hexmask.long 0x0 1.--31. 1. "KEY,Write the kick0 unlock value followed by the kick1 unlock value to unlock the write-protected Partition6 registers" rbitfld.long 0x0 0. "UNLOCKED,Unlock status. When set indicates that the proper unlock sequence has been performed and the partition is unlocked for writing." "0,1" line.long 0x4 "CFG_pll6_LOCKKEY1," hexmask.long 0x4 0.--31. 1. "LOCKKEY1_VAL,Write the kick1 unlock value after the kick0 unlock value to unlock the write-protected Partition6 registers" group.long 0x6020++0x3 line.long 0x0 "CFG_pll6_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass enable. This controls the glitch-free bypass mux. The bypass_en bit should be set prior tomaking any changes to the PLL settings. 1'b0 - Synchronously select PLL and associated HSDIV clock outputs 1'b1 - Synchronously select the.." "0,1" bitfld.long 0x0 16. "BYP_ON_LOCKLOSS,Bypass on loss of PLL lock. This bit controls the PLL bypass mux to automatically switch the clock source to the reference clock when the PLL losses lock. 1'b0 - Do not automatically switch to ref clock source on PLL lock loss 1'b1 -.." "0,1" bitfld.long 0x0 15. "PLL_EN,PLL enable 1'b0 - PLL is disabled 1'b1 - PLL is enabled" "0,1" bitfld.long 0x0 8. "INTL_BYP_EN,PLL internal bypass enable. This is an asynchronous mux which can produce glitches on the outputclocks during switching. 1'b0 - Output clocks are derived from the VCO clock 1'b1 - Output clocks are derived from the FREF reference clock" "0,1" bitfld.long 0x0 5. "CLK_4PH_EN,Enable 4-phase clock generator. This bit is ignored if clk_postdiv_en=0 1'b0 - 4-phase dividers disabled. FOUT1PHx and FOUTn clocks are held low. 1'b1 - 4-phase dividers enabled. FOUT1PH0/90/180/270 and FOUT2 FOUT3 FOUT4 clocks are enabled." "0,1" newline bitfld.long 0x0 4. "CLK_POSTDIV_EN,Post divide CLK enable 1'b0 - Post divide powered down. FOUTPOSTDIV and all auxiliary PLL clocks (4-ohase and synchronous divided clocks) are held low 1'b1 - Post divide enabled. FOUTPOSTDIV 4-phase and synchronous clocks are enabled." "0,1" bitfld.long 0x0 1. "DSM_EN,Delta-Sigma modulator enable 1'b0 - Delta-Sigma modulator is disabled (use integer divide mode) 1'b1 - Delta-Sigma modulator is enabled (use fractional divide mode)" "0,1" bitfld.long 0x0 0. "DAC_EN,Enable fractional noise canceling DAC This bit has no function (DAC is always disabled) in integer divide mode (when dsm_en=0) 1'b0 - Fractional NC DAC is disabled (for Test modes only) 1'b1 - Fractional NC DAC is enabled (ignored in integer.." "0,1" rgroup.long 0x6024++0x3 line.long 0x0 "CFG_pll6_STAT," bitfld.long 0x0 0. "LOCK,PLL lock status. Software should wait for lock to be asserted before clearing the PLL_CTRL_bypass_en bit 1'b0 - PLL is not locked 1'b1 - PLL is locked" "0,1" group.long 0x6030++0xB line.long 0x0 "CFG_pll6_FREQ_CTRL0," hexmask.long.word 0x0 0.--11. 1. "FB_DIV_INT,PLL feedback divider (integer portion) In Integer mode values of 16 - 3200 (dec) are supported. In Fractional mode values of 20 to 320 are supported. 12'h010 - Divide by 16 12'h011 - Divide by 17 : 12'h140 - Divide by 320 : 12'hC80 -.." line.long 0x4 "CFG_pll6_FREQ_CTRL1," hexmask.long.tbyte 0x4 0.--23. 1. "FB_DIV_FRAC,PLL feedback divider (fractional portion) Supports values of 0 to 0.999999940395. The total feedback divide value is (fb_div_int + fb_div_frac / (2^24)) 24'h000000 - 0 24'h000001 - .000000059605 (1/(2^24)) 24'h000002 - .000000119209.." line.long 0x8 "CFG_pll6_DIV_CTRL," bitfld.long 0x8 24.--26. "POST_DIV2,Secondary post divider. Supports values of 1-7" "0,1,2,3,4,5,6,7" bitfld.long 0x8 16.--18. "POST_DIV1,Primary post divider. To ensure correct operation post_div1 must always be programmed to a value equal to or greater that post_div2. Supports values of 1-7i Field values (Others are reserved): 3'b000 - Reserved (do not use) 3'b001 - Divide.." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 0.--5. 1. "REF_DIV,Reference clock pre-divider. Supports values of 1-63 6'b000000 - Reserved /(do not use/) 6'b000001 - Divide by 1 6'b000010 - Divide by 2 : 6'b111111 - Divide by 63" group.long 0x6040++0x7 line.long 0x0 "CFG_pll6_SS_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass the SS modulator. 1'b0 - Spread spectrum modulation is enabled 1'b1 - SSMOD is bypassed. No modulation of PLL frequency" "0,1" hexmask.long.byte 0x0 18.--25. 1. "WV_TBLE_MAXADDR,Wave table max address. Indicates the maximum number of address bits used to access the external wave table. These bits are not used if PLL_CFG_ssm_wvtbl = 0" bitfld.long 0x0 15. "RESET,SSM reset. When set to 1 the SSM modulator is in reset" "0,1" bitfld.long 0x0 4. "DOWNSPREAD_EN,Selects center spread or down spread clock variance 1'b0 - Center spread 1'b1 - Down spread" "0,1" bitfld.long 0x0 0. "WAVE_SEL,Wave pattern select External wave table should only be selected if PLL_CFG_ssm_wvtbl = 1 Field values (Others are reserved): 1'b0 - Use 128 point triangle wave table 1'b1 - Use external wave table" "0,1" line.long 0x4 "CFG_pll6_SS_SPREAD," hexmask.long.byte 0x4 16.--19. 1. "MOD_DIV,Input clock divider. This divider sets the modulation frequency. Supports divide values of 1-63" hexmask.long.byte 0x4 0.--4. 1. "SPREAD,Sets the spread modulation depth. The depth is spread*0.1% 5'b00000 - Reserved (don't use) 5'b00001 - 0.1% 5'b00010 - 0.2% : 5'b10000 - 1.6% : 5'b11111 - 3.1%" group.long 0x6060++0x3 line.long 0x0 "CFG_pll6_CAL_CTRL," bitfld.long 0x0 31. "CAL_EN,Calibration enable to actively adjust for input skew 1'b0 - Disabled. Static phase offset determined by analog matching only 1'b1 - Enabled. Static phase offset adjusted by phase sensing at input" "0,1" bitfld.long 0x0 20. "FAST_CAL,Fast calibration enabled 1'b0 - Normal operation 1'b1 - Used for initial calibration if initial value is not already known" "0,1" bitfld.long 0x0 16.--18. "CAL_CNT,Calibration loop programmable counter. Selects the number of PFD edges to wait after each calibration step defined by 2**cal_cnt" "0,1,2,3,4,5,6,7" bitfld.long 0x0 15. "CAL_BYP,Calibration bypass 1'b0 - Use the calibration output to set the phase correction 1'b1 - Use the cal_in input value to set the phase correction" "0,1" hexmask.long.word 0x0 0.--11. 1. "CAL_IN,Calibration input When cal_byp is 1'b0 this represents the initial condition for calibration. When cal_byp is 1'b1 this is the override value for calibration. Value is a signed integer with positive values delaying the faster path reset and.." rgroup.long 0x6064++0x3 line.long 0x0 "CFG_pll6_CAL_STAT," bitfld.long 0x0 31. "CAL_LOCK,Reserved for future use" "0,1" hexmask.long.byte 0x0 16.--19. 1. "LOCK_CNT,Reserved for future use" hexmask.long.word 0x0 0.--11. 1. "CAL_OUT,Output of the calibration block if cal_byp = 1'b0. If cal_byp = 1'b1 it is a buffer version of cal_in[11:0]. Can be used to read the phase calibration state to for later use as an override value to bypass skew calibration" group.long 0x6080++0x3 line.long 0x0 "CFG_pll6_HSDIV_CTRL0," bitfld.long 0x0 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x0 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x0 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x0 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" rgroup.long 0x7000++0x3 line.long 0x0 "CFG_pll7_PID," bitfld.long 0x0 30.--31. "SCHEME,PID follows new scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit - Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE,Module functional identifier" hexmask.long.byte 0x0 11.--15. 1. "MISC,Misc revision number" bitfld.long 0x0 8.--10. "MAJOR,Major revision number" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,custom revision number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number" rgroup.long 0x7008++0x3 line.long 0x0 "CFG_pll7_CFG," hexmask.long.word 0x0 16.--31. 1. "HSDIV_PRSNT,High Speed Divider Presence Each bit Indicates the presence of High Speed dividers 0-15. By definition HSDIV[4:0] are connected the PLL FOUTVCO output clock and HSDIV[15:5] are connected to the PLL FOUTPOSTDIV output clock" bitfld.long 0x0 11.--12. "SSM_TYPE,Spread spectrum module presence Field values (Others are reserved): 2'b00 - SSM is not present 2'b01 - SSM is present 2'b10 - Reserved 2'b11 - Reserved" "0,1,2,3" bitfld.long 0x0 8. "SSM_WVTBL,Spread spectrum wave table presence 1'b0 - SSM Wave table is not present 1'b1 - SSM Wave table is present" "0,1" bitfld.long 0x0 0.--1. "PLL_TYPE,Indicates PLL type Field values (Others are reserved): 2'b00 - Fractional PLL 2'b01 - FractionalF PLL 2'b10 - De-Skew PLL" "0,1,2,3" group.long 0x7010++0x7 line.long 0x0 "CFG_pll7_LOCKKEY0," hexmask.long 0x0 1.--31. 1. "KEY,Write the kick0 unlock value followed by the kick1 unlock value to unlock the write-protected Partition7 registers" rbitfld.long 0x0 0. "UNLOCKED,Unlock status. When set indicates that the proper unlock sequence has been performed and the partition is unlocked for writing." "0,1" line.long 0x4 "CFG_pll7_LOCKKEY1," hexmask.long 0x4 0.--31. 1. "LOCKKEY1_VAL,Write the kick1 unlock value after the kick0 unlock value to unlock the write-protected Partition7 registers" group.long 0x7020++0x3 line.long 0x0 "CFG_pll7_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass enable. This controls the glitch-free bypass mux. The bypass_en bit should be set prior tomaking any changes to the PLL settings. 1'b0 - Synchronously select PLL and associated HSDIV clock outputs 1'b1 - Synchronously select the.." "0,1" bitfld.long 0x0 16. "BYP_ON_LOCKLOSS,Bypass on loss of PLL lock. This bit controls the PLL bypass mux to automatically switch the clock source to the reference clock when the PLL losses lock. 1'b0 - Do not automatically switch to ref clock source on PLL lock loss 1'b1 -.." "0,1" bitfld.long 0x0 15. "PLL_EN,PLL enable 1'b0 - PLL is disabled 1'b1 - PLL is enabled" "0,1" bitfld.long 0x0 8. "INTL_BYP_EN,PLL internal bypass enable. This is an asynchronous mux which can produce glitches on the outputclocks during switching. 1'b0 - Output clocks are derived from the VCO clock 1'b1 - Output clocks are derived from the FREF reference clock" "0,1" bitfld.long 0x0 5. "CLK_4PH_EN,Enable 4-phase clock generator. This bit is ignored if clk_postdiv_en=0 1'b0 - 4-phase dividers disabled. FOUT1PHx and FOUTn clocks are held low. 1'b1 - 4-phase dividers enabled. FOUT1PH0/90/180/270 and FOUT2 FOUT3 FOUT4 clocks are enabled." "0,1" newline bitfld.long 0x0 4. "CLK_POSTDIV_EN,Post divide CLK enable 1'b0 - Post divide powered down. FOUTPOSTDIV and all auxiliary PLL clocks (4-ohase and synchronous divided clocks) are held low 1'b1 - Post divide enabled. FOUTPOSTDIV 4-phase and synchronous clocks are enabled." "0,1" bitfld.long 0x0 1. "DSM_EN,Delta-Sigma modulator enable 1'b0 - Delta-Sigma modulator is disabled (use integer divide mode) 1'b1 - Delta-Sigma modulator is enabled (use fractional divide mode)" "0,1" bitfld.long 0x0 0. "DAC_EN,Enable fractional noise canceling DAC This bit has no function (DAC is always disabled) in integer divide mode (when dsm_en=0) 1'b0 - Fractional NC DAC is disabled (for Test modes only) 1'b1 - Fractional NC DAC is enabled (ignored in integer.." "0,1" rgroup.long 0x7024++0x3 line.long 0x0 "CFG_pll7_STAT," bitfld.long 0x0 0. "LOCK,PLL lock status. Software should wait for lock to be asserted before clearing the PLL_CTRL_bypass_en bit 1'b0 - PLL is not locked 1'b1 - PLL is locked" "0,1" group.long 0x7030++0xB line.long 0x0 "CFG_pll7_FREQ_CTRL0," hexmask.long.word 0x0 0.--11. 1. "FB_DIV_INT,PLL feedback divider (integer portion) In Integer mode values of 16 - 3200 (dec) are supported. In Fractional mode values of 20 to 320 are supported. 12'h010 - Divide by 16 12'h011 - Divide by 17 : 12'h140 - Divide by 320 : 12'hC80 -.." line.long 0x4 "CFG_pll7_FREQ_CTRL1," hexmask.long.tbyte 0x4 0.--23. 1. "FB_DIV_FRAC,PLL feedback divider (fractional portion) Supports values of 0 to 0.999999940395. The total feedback divide value is (fb_div_int + fb_div_frac / (2^24)) 24'h000000 - 0 24'h000001 - .000000059605 (1/(2^24)) 24'h000002 - .000000119209.." line.long 0x8 "CFG_pll7_DIV_CTRL," bitfld.long 0x8 24.--26. "POST_DIV2,Secondary post divider. Supports values of 1-7" "0,1,2,3,4,5,6,7" bitfld.long 0x8 16.--18. "POST_DIV1,Primary post divider. To ensure correct operation post_div1 must always be programmed to a value equal to or greater that post_div2. Supports values of 1-7i Field values (Others are reserved): 3'b000 - Reserved (do not use) 3'b001 - Divide.." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 0.--5. 1. "REF_DIV,Reference clock pre-divider. Supports values of 1-63 6'b000000 - Reserved /(do not use/) 6'b000001 - Divide by 1 6'b000010 - Divide by 2 : 6'b111111 - Divide by 63" group.long 0x7040++0x7 line.long 0x0 "CFG_pll7_SS_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass the SS modulator. 1'b0 - Spread spectrum modulation is enabled 1'b1 - SSMOD is bypassed. No modulation of PLL frequency" "0,1" hexmask.long.byte 0x0 18.--25. 1. "WV_TBLE_MAXADDR,Wave table max address. Indicates the maximum number of address bits used to access the external wave table. These bits are not used if PLL_CFG_ssm_wvtbl = 0" bitfld.long 0x0 15. "RESET,SSM reset. When set to 1 the SSM modulator is in reset" "0,1" bitfld.long 0x0 4. "DOWNSPREAD_EN,Selects center spread or down spread clock variance 1'b0 - Center spread 1'b1 - Down spread" "0,1" bitfld.long 0x0 0. "WAVE_SEL,Wave pattern select External wave table should only be selected if PLL_CFG_ssm_wvtbl = 1 Field values (Others are reserved): 1'b0 - Use 128 point triangle wave table 1'b1 - Use external wave table" "0,1" line.long 0x4 "CFG_pll7_SS_SPREAD," hexmask.long.byte 0x4 16.--19. 1. "MOD_DIV,Input clock divider. This divider sets the modulation frequency. Supports divide values of 1-63" hexmask.long.byte 0x4 0.--4. 1. "SPREAD,Sets the spread modulation depth. The depth is spread*0.1% 5'b00000 - Reserved (don't use) 5'b00001 - 0.1% 5'b00010 - 0.2% : 5'b10000 - 1.6% : 5'b11111 - 3.1%" group.long 0x7060++0x3 line.long 0x0 "CFG_pll7_CAL_CTRL," bitfld.long 0x0 31. "CAL_EN,Calibration enable to actively adjust for input skew 1'b0 - Disabled. Static phase offset determined by analog matching only 1'b1 - Enabled. Static phase offset adjusted by phase sensing at input" "0,1" bitfld.long 0x0 20. "FAST_CAL,Fast calibration enabled 1'b0 - Normal operation 1'b1 - Used for initial calibration if initial value is not already known" "0,1" bitfld.long 0x0 16.--18. "CAL_CNT,Calibration loop programmable counter. Selects the number of PFD edges to wait after each calibration step defined by 2**cal_cnt" "0,1,2,3,4,5,6,7" bitfld.long 0x0 15. "CAL_BYP,Calibration bypass 1'b0 - Use the calibration output to set the phase correction 1'b1 - Use the cal_in input value to set the phase correction" "0,1" hexmask.long.word 0x0 0.--11. 1. "CAL_IN,Calibration input When cal_byp is 1'b0 this represents the initial condition for calibration. When cal_byp is 1'b1 this is the override value for calibration. Value is a signed integer with positive values delaying the faster path reset and.." rgroup.long 0x7064++0x3 line.long 0x0 "CFG_pll7_CAL_STAT," bitfld.long 0x0 31. "CAL_LOCK,Reserved for future use" "0,1" hexmask.long.byte 0x0 16.--19. 1. "LOCK_CNT,Reserved for future use" hexmask.long.word 0x0 0.--11. 1. "CAL_OUT,Output of the calibration block if cal_byp = 1'b0. If cal_byp = 1'b1 it is a buffer version of cal_in[11:0]. Can be used to read the phase calibration state to for later use as an override value to bypass skew calibration" group.long 0x7080++0x7 line.long 0x0 "CFG_pll7_HSDIV_CTRL0," bitfld.long 0x0 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x0 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x0 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x0 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x4 "CFG_pll7_HSDIV_CTRL1," bitfld.long 0x4 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x4 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x4 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x4 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" rgroup.long 0x8000++0x3 line.long 0x0 "CFG_pll8_PID," bitfld.long 0x0 30.--31. "SCHEME,PID follows new scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit - Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE,Module functional identifier" hexmask.long.byte 0x0 11.--15. 1. "MISC,Misc revision number" bitfld.long 0x0 8.--10. "MAJOR,Major revision number" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,custom revision number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number" rgroup.long 0x8008++0x3 line.long 0x0 "CFG_pll8_CFG," hexmask.long.word 0x0 16.--31. 1. "HSDIV_PRSNT,High Speed Divider Presence Each bit Indicates the presence of High Speed dividers 0-15. By definition HSDIV[4:0] are connected the PLL FOUTVCO output clock and HSDIV[15:5] are connected to the PLL FOUTPOSTDIV output clock" bitfld.long 0x0 11.--12. "SSM_TYPE,Spread spectrum module presence Field values (Others are reserved): 2'b00 - SSM is not present 2'b01 - SSM is present 2'b10 - Reserved 2'b11 - Reserved" "0,1,2,3" bitfld.long 0x0 8. "SSM_WVTBL,Spread spectrum wave table presence 1'b0 - SSM Wave table is not present 1'b1 - SSM Wave table is present" "0,1" bitfld.long 0x0 0.--1. "PLL_TYPE,Indicates PLL type Field values (Others are reserved): 2'b00 - Fractional PLL 2'b01 - FractionalF PLL 2'b10 - De-Skew PLL" "0,1,2,3" group.long 0x8010++0x7 line.long 0x0 "CFG_pll8_LOCKKEY0," hexmask.long 0x0 1.--31. 1. "KEY,Write the kick0 unlock value followed by the kick1 unlock value to unlock the write-protected Partition8 registers" rbitfld.long 0x0 0. "UNLOCKED,Unlock status. When set indicates that the proper unlock sequence has been performed and the partition is unlocked for writing." "0,1" line.long 0x4 "CFG_pll8_LOCKKEY1," hexmask.long 0x4 0.--31. 1. "LOCKKEY1_VAL,Write the kick1 unlock value after the kick0 unlock value to unlock the write-protected Partition8 registers" group.long 0x8020++0x3 line.long 0x0 "CFG_pll8_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass enable. This controls the glitch-free bypass mux. The bypass_en bit should be set prior tomaking any changes to the PLL settings. 1'b0 - Synchronously select PLL and associated HSDIV clock outputs 1'b1 - Synchronously select the.." "0,1" bitfld.long 0x0 16. "BYP_ON_LOCKLOSS,Bypass on loss of PLL lock. This bit controls the PLL bypass mux to automatically switch the clock source to the reference clock when the PLL losses lock. 1'b0 - Do not automatically switch to ref clock source on PLL lock loss 1'b1 -.." "0,1" bitfld.long 0x0 15. "PLL_EN,PLL enable 1'b0 - PLL is disabled 1'b1 - PLL is enabled" "0,1" bitfld.long 0x0 8. "INTL_BYP_EN,PLL internal bypass enable. This is an asynchronous mux which can produce glitches on the outputclocks during switching. 1'b0 - Output clocks are derived from the VCO clock 1'b1 - Output clocks are derived from the FREF reference clock" "0,1" bitfld.long 0x0 5. "CLK_4PH_EN,Enable 4-phase clock generator. This bit is ignored if clk_postdiv_en=0 1'b0 - 4-phase dividers disabled. FOUT1PHx and FOUTn clocks are held low. 1'b1 - 4-phase dividers enabled. FOUT1PH0/90/180/270 and FOUT2 FOUT3 FOUT4 clocks are enabled." "0,1" newline bitfld.long 0x0 4. "CLK_POSTDIV_EN,Post divide CLK enable 1'b0 - Post divide powered down. FOUTPOSTDIV and all auxiliary PLL clocks (4-ohase and synchronous divided clocks) are held low 1'b1 - Post divide enabled. FOUTPOSTDIV 4-phase and synchronous clocks are enabled." "0,1" bitfld.long 0x0 1. "DSM_EN,Delta-Sigma modulator enable 1'b0 - Delta-Sigma modulator is disabled (use integer divide mode) 1'b1 - Delta-Sigma modulator is enabled (use fractional divide mode)" "0,1" bitfld.long 0x0 0. "DAC_EN,Enable fractional noise canceling DAC This bit has no function (DAC is always disabled) in integer divide mode (when dsm_en=0) 1'b0 - Fractional NC DAC is disabled (for Test modes only) 1'b1 - Fractional NC DAC is enabled (ignored in integer.." "0,1" rgroup.long 0x8024++0x3 line.long 0x0 "CFG_pll8_STAT," bitfld.long 0x0 0. "LOCK,PLL lock status. Software should wait for lock to be asserted before clearing the PLL_CTRL_bypass_en bit 1'b0 - PLL is not locked 1'b1 - PLL is locked" "0,1" group.long 0x8030++0xB line.long 0x0 "CFG_pll8_FREQ_CTRL0," hexmask.long.word 0x0 0.--11. 1. "FB_DIV_INT,PLL feedback divider (integer portion) In Integer mode values of 16 - 3200 (dec) are supported. In Fractional mode values of 20 to 320 are supported. 12'h010 - Divide by 16 12'h011 - Divide by 17 : 12'h140 - Divide by 320 : 12'hC80 -.." line.long 0x4 "CFG_pll8_FREQ_CTRL1," hexmask.long.tbyte 0x4 0.--23. 1. "FB_DIV_FRAC,PLL feedback divider (fractional portion) Supports values of 0 to 0.999999940395. The total feedback divide value is (fb_div_int + fb_div_frac / (2^24)) 24'h000000 - 0 24'h000001 - .000000059605 (1/(2^24)) 24'h000002 - .000000119209.." line.long 0x8 "CFG_pll8_DIV_CTRL," bitfld.long 0x8 24.--26. "POST_DIV2,Secondary post divider. Supports values of 1-7" "0,1,2,3,4,5,6,7" bitfld.long 0x8 16.--18. "POST_DIV1,Primary post divider. To ensure correct operation post_div1 must always be programmed to a value equal to or greater that post_div2. Supports values of 1-7i Field values (Others are reserved): 3'b000 - Reserved (do not use) 3'b001 - Divide.." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 0.--5. 1. "REF_DIV,Reference clock pre-divider. Supports values of 1-63 6'b000000 - Reserved /(do not use/) 6'b000001 - Divide by 1 6'b000010 - Divide by 2 : 6'b111111 - Divide by 63" group.long 0x8040++0x7 line.long 0x0 "CFG_pll8_SS_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass the SS modulator. 1'b0 - Spread spectrum modulation is enabled 1'b1 - SSMOD is bypassed. No modulation of PLL frequency" "0,1" hexmask.long.byte 0x0 18.--25. 1. "WV_TBLE_MAXADDR,Wave table max address. Indicates the maximum number of address bits used to access the external wave table. These bits are not used if PLL_CFG_ssm_wvtbl = 0" bitfld.long 0x0 15. "RESET,SSM reset. When set to 1 the SSM modulator is in reset" "0,1" bitfld.long 0x0 4. "DOWNSPREAD_EN,Selects center spread or down spread clock variance 1'b0 - Center spread 1'b1 - Down spread" "0,1" bitfld.long 0x0 0. "WAVE_SEL,Wave pattern select External wave table should only be selected if PLL_CFG_ssm_wvtbl = 1 Field values (Others are reserved): 1'b0 - Use 128 point triangle wave table 1'b1 - Use external wave table" "0,1" line.long 0x4 "CFG_pll8_SS_SPREAD," hexmask.long.byte 0x4 16.--19. 1. "MOD_DIV,Input clock divider. This divider sets the modulation frequency. Supports divide values of 1-63" hexmask.long.byte 0x4 0.--4. 1. "SPREAD,Sets the spread modulation depth. The depth is spread*0.1% 5'b00000 - Reserved (don't use) 5'b00001 - 0.1% 5'b00010 - 0.2% : 5'b10000 - 1.6% : 5'b11111 - 3.1%" group.long 0x8060++0x3 line.long 0x0 "CFG_pll8_CAL_CTRL," bitfld.long 0x0 31. "CAL_EN,Calibration enable to actively adjust for input skew 1'b0 - Disabled. Static phase offset determined by analog matching only 1'b1 - Enabled. Static phase offset adjusted by phase sensing at input" "0,1" bitfld.long 0x0 20. "FAST_CAL,Fast calibration enabled 1'b0 - Normal operation 1'b1 - Used for initial calibration if initial value is not already known" "0,1" bitfld.long 0x0 16.--18. "CAL_CNT,Calibration loop programmable counter. Selects the number of PFD edges to wait after each calibration step defined by 2**cal_cnt" "0,1,2,3,4,5,6,7" bitfld.long 0x0 15. "CAL_BYP,Calibration bypass 1'b0 - Use the calibration output to set the phase correction 1'b1 - Use the cal_in input value to set the phase correction" "0,1" hexmask.long.word 0x0 0.--11. 1. "CAL_IN,Calibration input When cal_byp is 1'b0 this represents the initial condition for calibration. When cal_byp is 1'b1 this is the override value for calibration. Value is a signed integer with positive values delaying the faster path reset and.." rgroup.long 0x8064++0x3 line.long 0x0 "CFG_pll8_CAL_STAT," bitfld.long 0x0 31. "CAL_LOCK,Reserved for future use" "0,1" hexmask.long.byte 0x0 16.--19. 1. "LOCK_CNT,Reserved for future use" hexmask.long.word 0x0 0.--11. 1. "CAL_OUT,Output of the calibration block if cal_byp = 1'b0. If cal_byp = 1'b1 it is a buffer version of cal_in[11:0]. Can be used to read the phase calibration state to for later use as an override value to bypass skew calibration" group.long 0x8080++0x3 line.long 0x0 "CFG_pll8_HSDIV_CTRL0," bitfld.long 0x0 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x0 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x0 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x0 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" rgroup.long 0xC000++0x3 line.long 0x0 "CFG_pll12_PID," bitfld.long 0x0 30.--31. "SCHEME,PID follows new scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit - Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE,Module functional identifier" hexmask.long.byte 0x0 11.--15. 1. "MISC,Misc revision number" bitfld.long 0x0 8.--10. "MAJOR,Major revision number" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,custom revision number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number" rgroup.long 0xC008++0x3 line.long 0x0 "CFG_pll12_CFG," hexmask.long.word 0x0 16.--31. 1. "HSDIV_PRSNT,High Speed Divider Presence Each bit Indicates the presence of High Speed dividers 0-15. By definition HSDIV[4:0] are connected the PLL FOUTVCO output clock and HSDIV[15:5] are connected to the PLL FOUTPOSTDIV output clock" bitfld.long 0x0 11.--12. "SSM_TYPE,Spread spectrum module presence Field values (Others are reserved): 2'b00 - SSM is not present 2'b01 - SSM is present 2'b10 - Reserved 2'b11 - Reserved" "0,1,2,3" bitfld.long 0x0 8. "SSM_WVTBL,Spread spectrum wave table presence 1'b0 - SSM Wave table is not present 1'b1 - SSM Wave table is present" "0,1" bitfld.long 0x0 0.--1. "PLL_TYPE,Indicates PLL type Field values (Others are reserved): 2'b00 - Fractional PLL 2'b01 - FractionalF PLL 2'b10 - De-Skew PLL" "0,1,2,3" group.long 0xC010++0x7 line.long 0x0 "CFG_pll12_LOCKKEY0," hexmask.long 0x0 1.--31. 1. "KEY,Write the kick0 unlock value followed by the kick1 unlock value to unlock the write-protected Partition12 registers" rbitfld.long 0x0 0. "UNLOCKED,Unlock status. When set indicates that the proper unlock sequence has been performed and the partition is unlocked for writing." "0,1" line.long 0x4 "CFG_pll12_LOCKKEY1," hexmask.long 0x4 0.--31. 1. "LOCKKEY1_VAL,Write the kick1 unlock value after the kick0 unlock value to unlock the write-protected Partition12 registers" group.long 0xC020++0x3 line.long 0x0 "CFG_pll12_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass enable. This controls the glitch-free bypass mux. The bypass_en bit should be set prior tomaking any changes to the PLL settings. 1'b0 - Synchronously select PLL and associated HSDIV clock outputs 1'b1 - Synchronously select the.." "0,1" bitfld.long 0x0 16. "BYP_ON_LOCKLOSS,Bypass on loss of PLL lock. This bit controls the PLL bypass mux to automatically switch the clock source to the reference clock when the PLL losses lock. 1'b0 - Do not automatically switch to ref clock source on PLL lock loss 1'b1 -.." "0,1" bitfld.long 0x0 15. "PLL_EN,PLL enable 1'b0 - PLL is disabled 1'b1 - PLL is enabled" "0,1" bitfld.long 0x0 8. "INTL_BYP_EN,PLL internal bypass enable. This is an asynchronous mux which can produce glitches on the outputclocks during switching. 1'b0 - Output clocks are derived from the VCO clock 1'b1 - Output clocks are derived from the FREF reference clock" "0,1" bitfld.long 0x0 5. "CLK_4PH_EN,Enable 4-phase clock generator. This bit is ignored if clk_postdiv_en=0 1'b0 - 4-phase dividers disabled. FOUT1PHx and FOUTn clocks are held low. 1'b1 - 4-phase dividers enabled. FOUT1PH0/90/180/270 and FOUT2 FOUT3 FOUT4 clocks are enabled." "0,1" newline bitfld.long 0x0 4. "CLK_POSTDIV_EN,Post divide CLK enable 1'b0 - Post divide powered down. FOUTPOSTDIV and all auxiliary PLL clocks (4-ohase and synchronous divided clocks) are held low 1'b1 - Post divide enabled. FOUTPOSTDIV 4-phase and synchronous clocks are enabled." "0,1" bitfld.long 0x0 1. "DSM_EN,Delta-Sigma modulator enable 1'b0 - Delta-Sigma modulator is disabled (use integer divide mode) 1'b1 - Delta-Sigma modulator is enabled (use fractional divide mode)" "0,1" bitfld.long 0x0 0. "DAC_EN,Enable fractional noise canceling DAC This bit has no function (DAC is always disabled) in integer divide mode (when dsm_en=0) 1'b0 - Fractional NC DAC is disabled (for Test modes only) 1'b1 - Fractional NC DAC is enabled (ignored in integer.." "0,1" rgroup.long 0xC024++0x3 line.long 0x0 "CFG_pll12_STAT," bitfld.long 0x0 0. "LOCK,PLL lock status. Software should wait for lock to be asserted before clearing the PLL_CTRL_bypass_en bit 1'b0 - PLL is not locked 1'b1 - PLL is locked" "0,1" group.long 0xC030++0xB line.long 0x0 "CFG_pll12_FREQ_CTRL0," hexmask.long.word 0x0 0.--11. 1. "FB_DIV_INT,PLL feedback divider (integer portion) In Integer mode values of 16 - 3200 (dec) are supported. In Fractional mode values of 20 to 320 are supported. 12'h010 - Divide by 16 12'h011 - Divide by 17 : 12'h140 - Divide by 320 : 12'hC80 -.." line.long 0x4 "CFG_pll12_FREQ_CTRL1," hexmask.long.tbyte 0x4 0.--23. 1. "FB_DIV_FRAC,PLL feedback divider (fractional portion) Supports values of 0 to 0.999999940395. The total feedback divide value is (fb_div_int + fb_div_frac / (2^24)) 24'h000000 - 0 24'h000001 - .000000059605 (1/(2^24)) 24'h000002 - .000000119209.." line.long 0x8 "CFG_pll12_DIV_CTRL," bitfld.long 0x8 24.--26. "POST_DIV2,Secondary post divider. Supports values of 1-7" "0,1,2,3,4,5,6,7" bitfld.long 0x8 16.--18. "POST_DIV1,Primary post divider. To ensure correct operation post_div1 must always be programmed to a value equal to or greater that post_div2. Supports values of 1-7i Field values (Others are reserved): 3'b000 - Reserved (do not use) 3'b001 - Divide.." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 0.--5. 1. "REF_DIV,Reference clock pre-divider. Supports values of 1-63 6'b000000 - Reserved /(do not use/) 6'b000001 - Divide by 1 6'b000010 - Divide by 2 : 6'b111111 - Divide by 63" group.long 0xC040++0x7 line.long 0x0 "CFG_pll12_SS_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass the SS modulator. 1'b0 - Spread spectrum modulation is enabled 1'b1 - SSMOD is bypassed. No modulation of PLL frequency" "0,1" hexmask.long.byte 0x0 18.--25. 1. "WV_TBLE_MAXADDR,Wave table max address. Indicates the maximum number of address bits used to access the external wave table. These bits are not used if PLL_CFG_ssm_wvtbl = 0" bitfld.long 0x0 15. "RESET,SSM reset. When set to 1 the SSM modulator is in reset" "0,1" bitfld.long 0x0 4. "DOWNSPREAD_EN,Selects center spread or down spread clock variance 1'b0 - Center spread 1'b1 - Down spread" "0,1" bitfld.long 0x0 0. "WAVE_SEL,Wave pattern select External wave table should only be selected if PLL_CFG_ssm_wvtbl = 1 Field values (Others are reserved): 1'b0 - Use 128 point triangle wave table 1'b1 - Use external wave table" "0,1" line.long 0x4 "CFG_pll12_SS_SPREAD," hexmask.long.byte 0x4 16.--19. 1. "MOD_DIV,Input clock divider. This divider sets the modulation frequency. Supports divide values of 1-63" hexmask.long.byte 0x4 0.--4. 1. "SPREAD,Sets the spread modulation depth. The depth is spread*0.1% 5'b00000 - Reserved (don't use) 5'b00001 - 0.1% 5'b00010 - 0.2% : 5'b10000 - 1.6% : 5'b11111 - 3.1%" group.long 0xC060++0x3 line.long 0x0 "CFG_pll12_CAL_CTRL," bitfld.long 0x0 31. "CAL_EN,Calibration enable to actively adjust for input skew 1'b0 - Disabled. Static phase offset determined by analog matching only 1'b1 - Enabled. Static phase offset adjusted by phase sensing at input" "0,1" bitfld.long 0x0 20. "FAST_CAL,Fast calibration enabled 1'b0 - Normal operation 1'b1 - Used for initial calibration if initial value is not already known" "0,1" bitfld.long 0x0 16.--18. "CAL_CNT,Calibration loop programmable counter. Selects the number of PFD edges to wait after each calibration step defined by 2**cal_cnt" "0,1,2,3,4,5,6,7" bitfld.long 0x0 15. "CAL_BYP,Calibration bypass 1'b0 - Use the calibration output to set the phase correction 1'b1 - Use the cal_in input value to set the phase correction" "0,1" hexmask.long.word 0x0 0.--11. 1. "CAL_IN,Calibration input When cal_byp is 1'b0 this represents the initial condition for calibration. When cal_byp is 1'b1 this is the override value for calibration. Value is a signed integer with positive values delaying the faster path reset and.." rgroup.long 0xC064++0x3 line.long 0x0 "CFG_pll12_CAL_STAT," bitfld.long 0x0 31. "CAL_LOCK,Reserved for future use" "0,1" hexmask.long.byte 0x0 16.--19. 1. "LOCK_CNT,Reserved for future use" hexmask.long.word 0x0 0.--11. 1. "CAL_OUT,Output of the calibration block if cal_byp = 1'b0. If cal_byp = 1'b1 it is a buffer version of cal_in[11:0]. Can be used to read the phase calibration state to for later use as an override value to bypass skew calibration" group.long 0xC080++0x3 line.long 0x0 "CFG_pll12_HSDIV_CTRL0," bitfld.long 0x0 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x0 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x0 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x0 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" rgroup.long 0xF000++0x3 line.long 0x0 "CFG_pll15_PID," bitfld.long 0x0 30.--31. "SCHEME,PID follows new scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit - Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE,Module functional identifier" hexmask.long.byte 0x0 11.--15. 1. "MISC,Misc revision number" bitfld.long 0x0 8.--10. "MAJOR,Major revision number" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,custom revision number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number" rgroup.long 0xF008++0x3 line.long 0x0 "CFG_pll15_CFG," hexmask.long.word 0x0 16.--31. 1. "HSDIV_PRSNT,High Speed Divider Presence Each bit Indicates the presence of High Speed dividers 0-15. By definition HSDIV[4:0] are connected the PLL FOUTVCO output clock and HSDIV[15:5] are connected to the PLL FOUTPOSTDIV output clock" bitfld.long 0x0 11.--12. "SSM_TYPE,Spread spectrum module presence Field values (Others are reserved): 2'b00 - SSM is not present 2'b01 - SSM is present 2'b10 - Reserved 2'b11 - Reserved" "0,1,2,3" bitfld.long 0x0 8. "SSM_WVTBL,Spread spectrum wave table presence 1'b0 - SSM Wave table is not present 1'b1 - SSM Wave table is present" "0,1" bitfld.long 0x0 0.--1. "PLL_TYPE,Indicates PLL type Field values (Others are reserved): 2'b00 - Fractional PLL 2'b01 - FractionalF PLL 2'b10 - De-Skew PLL" "0,1,2,3" group.long 0xF010++0x7 line.long 0x0 "CFG_pll15_LOCKKEY0," hexmask.long 0x0 1.--31. 1. "KEY,Write the kick0 unlock value followed by the kick1 unlock value to unlock the write-protected Partition15 registers" rbitfld.long 0x0 0. "UNLOCKED,Unlock status. When set indicates that the proper unlock sequence has been performed and the partition is unlocked for writing." "0,1" line.long 0x4 "CFG_pll15_LOCKKEY1," hexmask.long 0x4 0.--31. 1. "LOCKKEY1_VAL,Write the kick1 unlock value after the kick0 unlock value to unlock the write-protected Partition15 registers" group.long 0xF020++0x3 line.long 0x0 "CFG_pll15_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass enable. This controls the glitch-free bypass mux. The bypass_en bit should be set prior tomaking any changes to the PLL settings. 1'b0 - Synchronously select PLL and associated HSDIV clock outputs 1'b1 - Synchronously select the.." "0,1" bitfld.long 0x0 16. "BYP_ON_LOCKLOSS,Bypass on loss of PLL lock. This bit controls the PLL bypass mux to automatically switch the clock source to the reference clock when the PLL losses lock. 1'b0 - Do not automatically switch to ref clock source on PLL lock loss 1'b1 -.." "0,1" bitfld.long 0x0 15. "PLL_EN,PLL enable 1'b0 - PLL is disabled 1'b1 - PLL is enabled" "0,1" bitfld.long 0x0 8. "INTL_BYP_EN,PLL internal bypass enable. This is an asynchronous mux which can produce glitches on the outputclocks during switching. 1'b0 - Output clocks are derived from the VCO clock 1'b1 - Output clocks are derived from the FREF reference clock" "0,1" bitfld.long 0x0 5. "CLK_4PH_EN,Enable 4-phase clock generator. This bit is ignored if clk_postdiv_en=0 1'b0 - 4-phase dividers disabled. FOUT1PHx and FOUTn clocks are held low. 1'b1 - 4-phase dividers enabled. FOUT1PH0/90/180/270 and FOUT2 FOUT3 FOUT4 clocks are enabled." "0,1" newline bitfld.long 0x0 4. "CLK_POSTDIV_EN,Post divide CLK enable 1'b0 - Post divide powered down. FOUTPOSTDIV and all auxiliary PLL clocks (4-ohase and synchronous divided clocks) are held low 1'b1 - Post divide enabled. FOUTPOSTDIV 4-phase and synchronous clocks are enabled." "0,1" bitfld.long 0x0 1. "DSM_EN,Delta-Sigma modulator enable 1'b0 - Delta-Sigma modulator is disabled (use integer divide mode) 1'b1 - Delta-Sigma modulator is enabled (use fractional divide mode)" "0,1" bitfld.long 0x0 0. "DAC_EN,Enable fractional noise canceling DAC This bit has no function (DAC is always disabled) in integer divide mode (when dsm_en=0) 1'b0 - Fractional NC DAC is disabled (for Test modes only) 1'b1 - Fractional NC DAC is enabled (ignored in integer.." "0,1" rgroup.long 0xF024++0x3 line.long 0x0 "CFG_pll15_STAT," bitfld.long 0x0 0. "LOCK,PLL lock status. Software should wait for lock to be asserted before clearing the PLL_CTRL_bypass_en bit 1'b0 - PLL is not locked 1'b1 - PLL is locked" "0,1" group.long 0xF030++0xB line.long 0x0 "CFG_pll15_FREQ_CTRL0," hexmask.long.word 0x0 0.--11. 1. "FB_DIV_INT,PLL feedback divider (integer portion) In Integer mode values of 16 - 3200 (dec) are supported. In Fractional mode values of 20 to 320 are supported. 12'h010 - Divide by 16 12'h011 - Divide by 17 : 12'h140 - Divide by 320 : 12'hC80 -.." line.long 0x4 "CFG_pll15_FREQ_CTRL1," hexmask.long.tbyte 0x4 0.--23. 1. "FB_DIV_FRAC,PLL feedback divider (fractional portion) Supports values of 0 to 0.999999940395. The total feedback divide value is (fb_div_int + fb_div_frac / (2^24)) 24'h000000 - 0 24'h000001 - .000000059605 (1/(2^24)) 24'h000002 - .000000119209.." line.long 0x8 "CFG_pll15_DIV_CTRL," bitfld.long 0x8 24.--26. "POST_DIV2,Secondary post divider. Supports values of 1-7" "0,1,2,3,4,5,6,7" bitfld.long 0x8 16.--18. "POST_DIV1,Primary post divider. To ensure correct operation post_div1 must always be programmed to a value equal to or greater that post_div2. Supports values of 1-7i Field values (Others are reserved): 3'b000 - Reserved (do not use) 3'b001 - Divide.." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 0.--5. 1. "REF_DIV,Reference clock pre-divider. Supports values of 1-63 6'b000000 - Reserved /(do not use/) 6'b000001 - Divide by 1 6'b000010 - Divide by 2 : 6'b111111 - Divide by 63" group.long 0xF040++0x7 line.long 0x0 "CFG_pll15_SS_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass the SS modulator. 1'b0 - Spread spectrum modulation is enabled 1'b1 - SSMOD is bypassed. No modulation of PLL frequency" "0,1" hexmask.long.byte 0x0 18.--25. 1. "WV_TBLE_MAXADDR,Wave table max address. Indicates the maximum number of address bits used to access the external wave table. These bits are not used if PLL_CFG_ssm_wvtbl = 0" bitfld.long 0x0 15. "RESET,SSM reset. When set to 1 the SSM modulator is in reset" "0,1" bitfld.long 0x0 4. "DOWNSPREAD_EN,Selects center spread or down spread clock variance 1'b0 - Center spread 1'b1 - Down spread" "0,1" bitfld.long 0x0 0. "WAVE_SEL,Wave pattern select External wave table should only be selected if PLL_CFG_ssm_wvtbl = 1 Field values (Others are reserved): 1'b0 - Use 128 point triangle wave table 1'b1 - Use external wave table" "0,1" line.long 0x4 "CFG_pll15_SS_SPREAD," hexmask.long.byte 0x4 16.--19. 1. "MOD_DIV,Input clock divider. This divider sets the modulation frequency. Supports divide values of 1-63" hexmask.long.byte 0x4 0.--4. 1. "SPREAD,Sets the spread modulation depth. The depth is spread*0.1% 5'b00000 - Reserved (don't use) 5'b00001 - 0.1% 5'b00010 - 0.2% : 5'b10000 - 1.6% : 5'b11111 - 3.1%" group.long 0xF060++0x3 line.long 0x0 "CFG_pll15_CAL_CTRL," bitfld.long 0x0 31. "CAL_EN,Calibration enable to actively adjust for input skew 1'b0 - Disabled. Static phase offset determined by analog matching only 1'b1 - Enabled. Static phase offset adjusted by phase sensing at input" "0,1" bitfld.long 0x0 20. "FAST_CAL,Fast calibration enabled 1'b0 - Normal operation 1'b1 - Used for initial calibration if initial value is not already known" "0,1" bitfld.long 0x0 16.--18. "CAL_CNT,Calibration loop programmable counter. Selects the number of PFD edges to wait after each calibration step defined by 2**cal_cnt" "0,1,2,3,4,5,6,7" bitfld.long 0x0 15. "CAL_BYP,Calibration bypass 1'b0 - Use the calibration output to set the phase correction 1'b1 - Use the cal_in input value to set the phase correction" "0,1" hexmask.long.word 0x0 0.--11. 1. "CAL_IN,Calibration input When cal_byp is 1'b0 this represents the initial condition for calibration. When cal_byp is 1'b1 this is the override value for calibration. Value is a signed integer with positive values delaying the faster path reset and.." rgroup.long 0xF064++0x3 line.long 0x0 "CFG_pll15_CAL_STAT," bitfld.long 0x0 31. "CAL_LOCK,Reserved for future use" "0,1" hexmask.long.byte 0x0 16.--19. 1. "LOCK_CNT,Reserved for future use" hexmask.long.word 0x0 0.--11. 1. "CAL_OUT,Output of the calibration block if cal_byp = 1'b0. If cal_byp = 1'b1 it is a buffer version of cal_in[11:0]. Can be used to read the phase calibration state to for later use as an override value to bypass skew calibration" group.long 0xF080++0xF line.long 0x0 "CFG_pll15_HSDIV_CTRL0," bitfld.long 0x0 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x0 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x0 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x0 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x4 "CFG_pll15_HSDIV_CTRL1," bitfld.long 0x4 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x4 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x4 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x4 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x8 "CFG_pll15_HSDIV_CTRL2," bitfld.long 0x8 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x8 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x8 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x8 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0xC "CFG_pll15_HSDIV_CTRL3," bitfld.long 0xC 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0xC 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0xC 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0xC 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" rgroup.long 0x10000++0x3 line.long 0x0 "CFG_pll16_PID," bitfld.long 0x0 30.--31. "SCHEME,PID follows new scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit - Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE,Module functional identifier" hexmask.long.byte 0x0 11.--15. 1. "MISC,Misc revision number" bitfld.long 0x0 8.--10. "MAJOR,Major revision number" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,custom revision number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number" rgroup.long 0x10008++0x3 line.long 0x0 "CFG_pll16_CFG," hexmask.long.word 0x0 16.--31. 1. "HSDIV_PRSNT,High Speed Divider Presence Each bit Indicates the presence of High Speed dividers 0-15. By definition HSDIV[4:0] are connected the PLL FOUTVCO output clock and HSDIV[15:5] are connected to the PLL FOUTPOSTDIV output clock" bitfld.long 0x0 11.--12. "SSM_TYPE,Spread spectrum module presence Field values (Others are reserved): 2'b00 - SSM is not present 2'b01 - SSM is present 2'b10 - Reserved 2'b11 - Reserved" "0,1,2,3" bitfld.long 0x0 8. "SSM_WVTBL,Spread spectrum wave table presence 1'b0 - SSM Wave table is not present 1'b1 - SSM Wave table is present" "0,1" bitfld.long 0x0 0.--1. "PLL_TYPE,Indicates PLL type Field values (Others are reserved): 2'b00 - Fractional PLL 2'b01 - FractionalF PLL 2'b10 - De-Skew PLL" "0,1,2,3" group.long 0x10010++0x7 line.long 0x0 "CFG_pll16_LOCKKEY0," hexmask.long 0x0 1.--31. 1. "KEY,Write the kick0 unlock value followed by the kick1 unlock value to unlock the write-protected Partition16 registers" rbitfld.long 0x0 0. "UNLOCKED,Unlock status. When set indicates that the proper unlock sequence has been performed and the partition is unlocked for writing." "0,1" line.long 0x4 "CFG_pll16_LOCKKEY1," hexmask.long 0x4 0.--31. 1. "LOCKKEY1_VAL,Write the kick1 unlock value after the kick0 unlock value to unlock the write-protected Partition16 registers" group.long 0x10020++0x3 line.long 0x0 "CFG_pll16_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass enable. This controls the glitch-free bypass mux. The bypass_en bit should be set prior tomaking any changes to the PLL settings. 1'b0 - Synchronously select PLL and associated HSDIV clock outputs 1'b1 - Synchronously select the.." "0,1" bitfld.long 0x0 16. "BYP_ON_LOCKLOSS,Bypass on loss of PLL lock. This bit controls the PLL bypass mux to automatically switch the clock source to the reference clock when the PLL losses lock. 1'b0 - Do not automatically switch to ref clock source on PLL lock loss 1'b1 -.." "0,1" bitfld.long 0x0 15. "PLL_EN,PLL enable 1'b0 - PLL is disabled 1'b1 - PLL is enabled" "0,1" bitfld.long 0x0 8. "INTL_BYP_EN,PLL internal bypass enable. This is an asynchronous mux which can produce glitches on the outputclocks during switching. 1'b0 - Output clocks are derived from the VCO clock 1'b1 - Output clocks are derived from the FREF reference clock" "0,1" bitfld.long 0x0 5. "CLK_4PH_EN,Enable 4-phase clock generator. This bit is ignored if clk_postdiv_en=0 1'b0 - 4-phase dividers disabled. FOUT1PHx and FOUTn clocks are held low. 1'b1 - 4-phase dividers enabled. FOUT1PH0/90/180/270 and FOUT2 FOUT3 FOUT4 clocks are enabled." "0,1" newline bitfld.long 0x0 4. "CLK_POSTDIV_EN,Post divide CLK enable 1'b0 - Post divide powered down. FOUTPOSTDIV and all auxiliary PLL clocks (4-ohase and synchronous divided clocks) are held low 1'b1 - Post divide enabled. FOUTPOSTDIV 4-phase and synchronous clocks are enabled." "0,1" bitfld.long 0x0 1. "DSM_EN,Delta-Sigma modulator enable 1'b0 - Delta-Sigma modulator is disabled (use integer divide mode) 1'b1 - Delta-Sigma modulator is enabled (use fractional divide mode)" "0,1" bitfld.long 0x0 0. "DAC_EN,Enable fractional noise canceling DAC This bit has no function (DAC is always disabled) in integer divide mode (when dsm_en=0) 1'b0 - Fractional NC DAC is disabled (for Test modes only) 1'b1 - Fractional NC DAC is enabled (ignored in integer.." "0,1" rgroup.long 0x10024++0x3 line.long 0x0 "CFG_pll16_STAT," bitfld.long 0x0 0. "LOCK,PLL lock status. Software should wait for lock to be asserted before clearing the PLL_CTRL_bypass_en bit 1'b0 - PLL is not locked 1'b1 - PLL is locked" "0,1" group.long 0x10030++0xB line.long 0x0 "CFG_pll16_FREQ_CTRL0," hexmask.long.word 0x0 0.--11. 1. "FB_DIV_INT,PLL feedback divider (integer portion) In Integer mode values of 16 - 3200 (dec) are supported. In Fractional mode values of 20 to 320 are supported. 12'h010 - Divide by 16 12'h011 - Divide by 17 : 12'h140 - Divide by 320 : 12'hC80 -.." line.long 0x4 "CFG_pll16_FREQ_CTRL1," hexmask.long.tbyte 0x4 0.--23. 1. "FB_DIV_FRAC,PLL feedback divider (fractional portion) Supports values of 0 to 0.999999940395. The total feedback divide value is (fb_div_int + fb_div_frac / (2^24)) 24'h000000 - 0 24'h000001 - .000000059605 (1/(2^24)) 24'h000002 - .000000119209.." line.long 0x8 "CFG_pll16_DIV_CTRL," bitfld.long 0x8 24.--26. "POST_DIV2,Secondary post divider. Supports values of 1-7" "0,1,2,3,4,5,6,7" bitfld.long 0x8 16.--18. "POST_DIV1,Primary post divider. To ensure correct operation post_div1 must always be programmed to a value equal to or greater that post_div2. Supports values of 1-7i Field values (Others are reserved): 3'b000 - Reserved (do not use) 3'b001 - Divide.." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 0.--5. 1. "REF_DIV,Reference clock pre-divider. Supports values of 1-63 6'b000000 - Reserved /(do not use/) 6'b000001 - Divide by 1 6'b000010 - Divide by 2 : 6'b111111 - Divide by 63" group.long 0x10040++0x7 line.long 0x0 "CFG_pll16_SS_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass the SS modulator. 1'b0 - Spread spectrum modulation is enabled 1'b1 - SSMOD is bypassed. No modulation of PLL frequency" "0,1" hexmask.long.byte 0x0 18.--25. 1. "WV_TBLE_MAXADDR,Wave table max address. Indicates the maximum number of address bits used to access the external wave table. These bits are not used if PLL_CFG_ssm_wvtbl = 0" bitfld.long 0x0 15. "RESET,SSM reset. When set to 1 the SSM modulator is in reset" "0,1" bitfld.long 0x0 4. "DOWNSPREAD_EN,Selects center spread or down spread clock variance 1'b0 - Center spread 1'b1 - Down spread" "0,1" bitfld.long 0x0 0. "WAVE_SEL,Wave pattern select External wave table should only be selected if PLL_CFG_ssm_wvtbl = 1 Field values (Others are reserved): 1'b0 - Use 128 point triangle wave table 1'b1 - Use external wave table" "0,1" line.long 0x4 "CFG_pll16_SS_SPREAD," hexmask.long.byte 0x4 16.--19. 1. "MOD_DIV,Input clock divider. This divider sets the modulation frequency. Supports divide values of 1-63" hexmask.long.byte 0x4 0.--4. 1. "SPREAD,Sets the spread modulation depth. The depth is spread*0.1% 5'b00000 - Reserved (don't use) 5'b00001 - 0.1% 5'b00010 - 0.2% : 5'b10000 - 1.6% : 5'b11111 - 3.1%" group.long 0x10060++0x3 line.long 0x0 "CFG_pll16_CAL_CTRL," bitfld.long 0x0 31. "CAL_EN,Calibration enable to actively adjust for input skew 1'b0 - Disabled. Static phase offset determined by analog matching only 1'b1 - Enabled. Static phase offset adjusted by phase sensing at input" "0,1" bitfld.long 0x0 20. "FAST_CAL,Fast calibration enabled 1'b0 - Normal operation 1'b1 - Used for initial calibration if initial value is not already known" "0,1" bitfld.long 0x0 16.--18. "CAL_CNT,Calibration loop programmable counter. Selects the number of PFD edges to wait after each calibration step defined by 2**cal_cnt" "0,1,2,3,4,5,6,7" bitfld.long 0x0 15. "CAL_BYP,Calibration bypass 1'b0 - Use the calibration output to set the phase correction 1'b1 - Use the cal_in input value to set the phase correction" "0,1" hexmask.long.word 0x0 0.--11. 1. "CAL_IN,Calibration input When cal_byp is 1'b0 this represents the initial condition for calibration. When cal_byp is 1'b1 this is the override value for calibration. Value is a signed integer with positive values delaying the faster path reset and.." rgroup.long 0x10064++0x3 line.long 0x0 "CFG_pll16_CAL_STAT," bitfld.long 0x0 31. "CAL_LOCK,Reserved for future use" "0,1" hexmask.long.byte 0x0 16.--19. 1. "LOCK_CNT,Reserved for future use" hexmask.long.word 0x0 0.--11. 1. "CAL_OUT,Output of the calibration block if cal_byp = 1'b0. If cal_byp = 1'b1 it is a buffer version of cal_in[11:0]. Can be used to read the phase calibration state to for later use as an override value to bypass skew calibration" group.long 0x10080++0x3 line.long 0x0 "CFG_pll16_HSDIV_CTRL0," bitfld.long 0x0 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x0 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x0 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x0 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" rgroup.long 0x11000++0x3 line.long 0x0 "CFG_pll17_PID," bitfld.long 0x0 30.--31. "SCHEME,PID follows new scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit - Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE,Module functional identifier" hexmask.long.byte 0x0 11.--15. 1. "MISC,Misc revision number" bitfld.long 0x0 8.--10. "MAJOR,Major revision number" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,custom revision number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number" rgroup.long 0x11008++0x3 line.long 0x0 "CFG_pll17_CFG," hexmask.long.word 0x0 16.--31. 1. "HSDIV_PRSNT,High Speed Divider Presence Each bit Indicates the presence of High Speed dividers 0-15. By definition HSDIV[4:0] are connected the PLL FOUTVCO output clock and HSDIV[15:5] are connected to the PLL FOUTPOSTDIV output clock" bitfld.long 0x0 11.--12. "SSM_TYPE,Spread spectrum module presence Field values (Others are reserved): 2'b00 - SSM is not present 2'b01 - SSM is present 2'b10 - Reserved 2'b11 - Reserved" "0,1,2,3" bitfld.long 0x0 8. "SSM_WVTBL,Spread spectrum wave table presence 1'b0 - SSM Wave table is not present 1'b1 - SSM Wave table is present" "0,1" bitfld.long 0x0 0.--1. "PLL_TYPE,Indicates PLL type Field values (Others are reserved): 2'b00 - Fractional PLL 2'b01 - FractionalF PLL 2'b10 - De-Skew PLL" "0,1,2,3" group.long 0x11010++0x7 line.long 0x0 "CFG_pll17_LOCKKEY0," hexmask.long 0x0 1.--31. 1. "KEY,Write the kick0 unlock value followed by the kick1 unlock value to unlock the write-protected Partition17 registers" rbitfld.long 0x0 0. "UNLOCKED,Unlock status. When set indicates that the proper unlock sequence has been performed and the partition is unlocked for writing." "0,1" line.long 0x4 "CFG_pll17_LOCKKEY1," hexmask.long 0x4 0.--31. 1. "LOCKKEY1_VAL,Write the kick1 unlock value after the kick0 unlock value to unlock the write-protected Partition17 registers" group.long 0x11020++0x3 line.long 0x0 "CFG_pll17_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass enable. This controls the glitch-free bypass mux. The bypass_en bit should be set prior tomaking any changes to the PLL settings. 1'b0 - Synchronously select PLL and associated HSDIV clock outputs 1'b1 - Synchronously select the.." "0,1" bitfld.long 0x0 16. "BYP_ON_LOCKLOSS,Bypass on loss of PLL lock. This bit controls the PLL bypass mux to automatically switch the clock source to the reference clock when the PLL losses lock. 1'b0 - Do not automatically switch to ref clock source on PLL lock loss 1'b1 -.." "0,1" bitfld.long 0x0 15. "PLL_EN,PLL enable 1'b0 - PLL is disabled 1'b1 - PLL is enabled" "0,1" bitfld.long 0x0 8. "INTL_BYP_EN,PLL internal bypass enable. This is an asynchronous mux which can produce glitches on the outputclocks during switching. 1'b0 - Output clocks are derived from the VCO clock 1'b1 - Output clocks are derived from the FREF reference clock" "0,1" bitfld.long 0x0 5. "CLK_4PH_EN,Enable 4-phase clock generator. This bit is ignored if clk_postdiv_en=0 1'b0 - 4-phase dividers disabled. FOUT1PHx and FOUTn clocks are held low. 1'b1 - 4-phase dividers enabled. FOUT1PH0/90/180/270 and FOUT2 FOUT3 FOUT4 clocks are enabled." "0,1" newline bitfld.long 0x0 4. "CLK_POSTDIV_EN,Post divide CLK enable 1'b0 - Post divide powered down. FOUTPOSTDIV and all auxiliary PLL clocks (4-ohase and synchronous divided clocks) are held low 1'b1 - Post divide enabled. FOUTPOSTDIV 4-phase and synchronous clocks are enabled." "0,1" bitfld.long 0x0 1. "DSM_EN,Delta-Sigma modulator enable 1'b0 - Delta-Sigma modulator is disabled (use integer divide mode) 1'b1 - Delta-Sigma modulator is enabled (use fractional divide mode)" "0,1" bitfld.long 0x0 0. "DAC_EN,Enable fractional noise canceling DAC This bit has no function (DAC is always disabled) in integer divide mode (when dsm_en=0) 1'b0 - Fractional NC DAC is disabled (for Test modes only) 1'b1 - Fractional NC DAC is enabled (ignored in integer.." "0,1" rgroup.long 0x11024++0x3 line.long 0x0 "CFG_pll17_STAT," bitfld.long 0x0 0. "LOCK,PLL lock status. Software should wait for lock to be asserted before clearing the PLL_CTRL_bypass_en bit 1'b0 - PLL is not locked 1'b1 - PLL is locked" "0,1" group.long 0x11030++0xB line.long 0x0 "CFG_pll17_FREQ_CTRL0," hexmask.long.word 0x0 0.--11. 1. "FB_DIV_INT,PLL feedback divider (integer portion) In Integer mode values of 16 - 3200 (dec) are supported. In Fractional mode values of 20 to 320 are supported. 12'h010 - Divide by 16 12'h011 - Divide by 17 : 12'h140 - Divide by 320 : 12'hC80 -.." line.long 0x4 "CFG_pll17_FREQ_CTRL1," hexmask.long.tbyte 0x4 0.--23. 1. "FB_DIV_FRAC,PLL feedback divider (fractional portion) Supports values of 0 to 0.999999940395. The total feedback divide value is (fb_div_int + fb_div_frac / (2^24)) 24'h000000 - 0 24'h000001 - .000000059605 (1/(2^24)) 24'h000002 - .000000119209.." line.long 0x8 "CFG_pll17_DIV_CTRL," bitfld.long 0x8 24.--26. "POST_DIV2,Secondary post divider. Supports values of 1-7" "0,1,2,3,4,5,6,7" bitfld.long 0x8 16.--18. "POST_DIV1,Primary post divider. To ensure correct operation post_div1 must always be programmed to a value equal to or greater that post_div2. Supports values of 1-7i Field values (Others are reserved): 3'b000 - Reserved (do not use) 3'b001 - Divide.." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 0.--5. 1. "REF_DIV,Reference clock pre-divider. Supports values of 1-63 6'b000000 - Reserved /(do not use/) 6'b000001 - Divide by 1 6'b000010 - Divide by 2 : 6'b111111 - Divide by 63" group.long 0x11040++0x7 line.long 0x0 "CFG_pll17_SS_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass the SS modulator. 1'b0 - Spread spectrum modulation is enabled 1'b1 - SSMOD is bypassed. No modulation of PLL frequency" "0,1" hexmask.long.byte 0x0 18.--25. 1. "WV_TBLE_MAXADDR,Wave table max address. Indicates the maximum number of address bits used to access the external wave table. These bits are not used if PLL_CFG_ssm_wvtbl = 0" bitfld.long 0x0 15. "RESET,SSM reset. When set to 1 the SSM modulator is in reset" "0,1" bitfld.long 0x0 4. "DOWNSPREAD_EN,Selects center spread or down spread clock variance 1'b0 - Center spread 1'b1 - Down spread" "0,1" bitfld.long 0x0 0. "WAVE_SEL,Wave pattern select External wave table should only be selected if PLL_CFG_ssm_wvtbl = 1 Field values (Others are reserved): 1'b0 - Use 128 point triangle wave table 1'b1 - Use external wave table" "0,1" line.long 0x4 "CFG_pll17_SS_SPREAD," hexmask.long.byte 0x4 16.--19. 1. "MOD_DIV,Input clock divider. This divider sets the modulation frequency. Supports divide values of 1-63" hexmask.long.byte 0x4 0.--4. 1. "SPREAD,Sets the spread modulation depth. The depth is spread*0.1% 5'b00000 - Reserved (don't use) 5'b00001 - 0.1% 5'b00010 - 0.2% : 5'b10000 - 1.6% : 5'b11111 - 3.1%" group.long 0x11060++0x3 line.long 0x0 "CFG_pll17_CAL_CTRL," bitfld.long 0x0 31. "CAL_EN,Calibration enable to actively adjust for input skew 1'b0 - Disabled. Static phase offset determined by analog matching only 1'b1 - Enabled. Static phase offset adjusted by phase sensing at input" "0,1" bitfld.long 0x0 20. "FAST_CAL,Fast calibration enabled 1'b0 - Normal operation 1'b1 - Used for initial calibration if initial value is not already known" "0,1" bitfld.long 0x0 16.--18. "CAL_CNT,Calibration loop programmable counter. Selects the number of PFD edges to wait after each calibration step defined by 2**cal_cnt" "0,1,2,3,4,5,6,7" bitfld.long 0x0 15. "CAL_BYP,Calibration bypass 1'b0 - Use the calibration output to set the phase correction 1'b1 - Use the cal_in input value to set the phase correction" "0,1" hexmask.long.word 0x0 0.--11. 1. "CAL_IN,Calibration input When cal_byp is 1'b0 this represents the initial condition for calibration. When cal_byp is 1'b1 this is the override value for calibration. Value is a signed integer with positive values delaying the faster path reset and.." rgroup.long 0x11064++0x3 line.long 0x0 "CFG_pll17_CAL_STAT," bitfld.long 0x0 31. "CAL_LOCK,Reserved for future use" "0,1" hexmask.long.byte 0x0 16.--19. 1. "LOCK_CNT,Reserved for future use" hexmask.long.word 0x0 0.--11. 1. "CAL_OUT,Output of the calibration block if cal_byp = 1'b0. If cal_byp = 1'b1 it is a buffer version of cal_in[11:0]. Can be used to read the phase calibration state to for later use as an override value to bypass skew calibration" group.long 0x11080++0x3 line.long 0x0 "CFG_pll17_HSDIV_CTRL0," bitfld.long 0x0 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x0 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x0 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x0 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" rgroup.long 0x12000++0x3 line.long 0x0 "CFG_pll18_PID," bitfld.long 0x0 30.--31. "SCHEME,PID follows new scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit - Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE,Module functional identifier" hexmask.long.byte 0x0 11.--15. 1. "MISC,Misc revision number" bitfld.long 0x0 8.--10. "MAJOR,Major revision number" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,custom revision number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number" rgroup.long 0x12008++0x3 line.long 0x0 "CFG_pll18_CFG," hexmask.long.word 0x0 16.--31. 1. "HSDIV_PRSNT,High Speed Divider Presence Each bit Indicates the presence of High Speed dividers 0-15. By definition HSDIV[4:0] are connected the PLL FOUTVCO output clock and HSDIV[15:5] are connected to the PLL FOUTPOSTDIV output clock" bitfld.long 0x0 11.--12. "SSM_TYPE,Spread spectrum module presence Field values (Others are reserved): 2'b00 - SSM is not present 2'b01 - SSM is present 2'b10 - Reserved 2'b11 - Reserved" "0,1,2,3" bitfld.long 0x0 8. "SSM_WVTBL,Spread spectrum wave table presence 1'b0 - SSM Wave table is not present 1'b1 - SSM Wave table is present" "0,1" bitfld.long 0x0 0.--1. "PLL_TYPE,Indicates PLL type Field values (Others are reserved): 2'b00 - Fractional PLL 2'b01 - FractionalF PLL 2'b10 - De-Skew PLL" "0,1,2,3" group.long 0x12010++0x7 line.long 0x0 "CFG_pll18_LOCKKEY0," hexmask.long 0x0 1.--31. 1. "KEY,Write the kick0 unlock value followed by the kick1 unlock value to unlock the write-protected Partition18 registers" rbitfld.long 0x0 0. "UNLOCKED,Unlock status. When set indicates that the proper unlock sequence has been performed and the partition is unlocked for writing." "0,1" line.long 0x4 "CFG_pll18_LOCKKEY1," hexmask.long 0x4 0.--31. 1. "LOCKKEY1_VAL,Write the kick1 unlock value after the kick0 unlock value to unlock the write-protected Partition18 registers" group.long 0x12020++0x3 line.long 0x0 "CFG_pll18_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass enable. This controls the glitch-free bypass mux. The bypass_en bit should be set prior tomaking any changes to the PLL settings. 1'b0 - Synchronously select PLL and associated HSDIV clock outputs 1'b1 - Synchronously select the.." "0,1" bitfld.long 0x0 16. "BYP_ON_LOCKLOSS,Bypass on loss of PLL lock. This bit controls the PLL bypass mux to automatically switch the clock source to the reference clock when the PLL losses lock. 1'b0 - Do not automatically switch to ref clock source on PLL lock loss 1'b1 -.." "0,1" bitfld.long 0x0 15. "PLL_EN,PLL enable 1'b0 - PLL is disabled 1'b1 - PLL is enabled" "0,1" bitfld.long 0x0 8. "INTL_BYP_EN,PLL internal bypass enable. This is an asynchronous mux which can produce glitches on the outputclocks during switching. 1'b0 - Output clocks are derived from the VCO clock 1'b1 - Output clocks are derived from the FREF reference clock" "0,1" bitfld.long 0x0 5. "CLK_4PH_EN,Enable 4-phase clock generator. This bit is ignored if clk_postdiv_en=0 1'b0 - 4-phase dividers disabled. FOUT1PHx and FOUTn clocks are held low. 1'b1 - 4-phase dividers enabled. FOUT1PH0/90/180/270 and FOUT2 FOUT3 FOUT4 clocks are enabled." "0,1" newline bitfld.long 0x0 4. "CLK_POSTDIV_EN,Post divide CLK enable 1'b0 - Post divide powered down. FOUTPOSTDIV and all auxiliary PLL clocks (4-ohase and synchronous divided clocks) are held low 1'b1 - Post divide enabled. FOUTPOSTDIV 4-phase and synchronous clocks are enabled." "0,1" bitfld.long 0x0 1. "DSM_EN,Delta-Sigma modulator enable 1'b0 - Delta-Sigma modulator is disabled (use integer divide mode) 1'b1 - Delta-Sigma modulator is enabled (use fractional divide mode)" "0,1" bitfld.long 0x0 0. "DAC_EN,Enable fractional noise canceling DAC This bit has no function (DAC is always disabled) in integer divide mode (when dsm_en=0) 1'b0 - Fractional NC DAC is disabled (for Test modes only) 1'b1 - Fractional NC DAC is enabled (ignored in integer.." "0,1" rgroup.long 0x12024++0x3 line.long 0x0 "CFG_pll18_STAT," bitfld.long 0x0 0. "LOCK,PLL lock status. Software should wait for lock to be asserted before clearing the PLL_CTRL_bypass_en bit 1'b0 - PLL is not locked 1'b1 - PLL is locked" "0,1" group.long 0x12030++0xB line.long 0x0 "CFG_pll18_FREQ_CTRL0," hexmask.long.word 0x0 0.--11. 1. "FB_DIV_INT,PLL feedback divider (integer portion) In Integer mode values of 16 - 3200 (dec) are supported. In Fractional mode values of 20 to 320 are supported. 12'h010 - Divide by 16 12'h011 - Divide by 17 : 12'h140 - Divide by 320 : 12'hC80 -.." line.long 0x4 "CFG_pll18_FREQ_CTRL1," hexmask.long.tbyte 0x4 0.--23. 1. "FB_DIV_FRAC,PLL feedback divider (fractional portion) Supports values of 0 to 0.999999940395. The total feedback divide value is (fb_div_int + fb_div_frac / (2^24)) 24'h000000 - 0 24'h000001 - .000000059605 (1/(2^24)) 24'h000002 - .000000119209.." line.long 0x8 "CFG_pll18_DIV_CTRL," bitfld.long 0x8 24.--26. "POST_DIV2,Secondary post divider. Supports values of 1-7" "0,1,2,3,4,5,6,7" bitfld.long 0x8 16.--18. "POST_DIV1,Primary post divider. To ensure correct operation post_div1 must always be programmed to a value equal to or greater that post_div2. Supports values of 1-7i Field values (Others are reserved): 3'b000 - Reserved (do not use) 3'b001 - Divide.." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 0.--5. 1. "REF_DIV,Reference clock pre-divider. Supports values of 1-63 6'b000000 - Reserved /(do not use/) 6'b000001 - Divide by 1 6'b000010 - Divide by 2 : 6'b111111 - Divide by 63" group.long 0x12040++0x7 line.long 0x0 "CFG_pll18_SS_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass the SS modulator. 1'b0 - Spread spectrum modulation is enabled 1'b1 - SSMOD is bypassed. No modulation of PLL frequency" "0,1" hexmask.long.byte 0x0 18.--25. 1. "WV_TBLE_MAXADDR,Wave table max address. Indicates the maximum number of address bits used to access the external wave table. These bits are not used if PLL_CFG_ssm_wvtbl = 0" bitfld.long 0x0 15. "RESET,SSM reset. When set to 1 the SSM modulator is in reset" "0,1" bitfld.long 0x0 4. "DOWNSPREAD_EN,Selects center spread or down spread clock variance 1'b0 - Center spread 1'b1 - Down spread" "0,1" bitfld.long 0x0 0. "WAVE_SEL,Wave pattern select External wave table should only be selected if PLL_CFG_ssm_wvtbl = 1 Field values (Others are reserved): 1'b0 - Use 128 point triangle wave table 1'b1 - Use external wave table" "0,1" line.long 0x4 "CFG_pll18_SS_SPREAD," hexmask.long.byte 0x4 16.--19. 1. "MOD_DIV,Input clock divider. This divider sets the modulation frequency. Supports divide values of 1-63" hexmask.long.byte 0x4 0.--4. 1. "SPREAD,Sets the spread modulation depth. The depth is spread*0.1% 5'b00000 - Reserved (don't use) 5'b00001 - 0.1% 5'b00010 - 0.2% : 5'b10000 - 1.6% : 5'b11111 - 3.1%" group.long 0x12060++0x3 line.long 0x0 "CFG_pll18_CAL_CTRL," bitfld.long 0x0 31. "CAL_EN,Calibration enable to actively adjust for input skew 1'b0 - Disabled. Static phase offset determined by analog matching only 1'b1 - Enabled. Static phase offset adjusted by phase sensing at input" "0,1" bitfld.long 0x0 20. "FAST_CAL,Fast calibration enabled 1'b0 - Normal operation 1'b1 - Used for initial calibration if initial value is not already known" "0,1" bitfld.long 0x0 16.--18. "CAL_CNT,Calibration loop programmable counter. Selects the number of PFD edges to wait after each calibration step defined by 2**cal_cnt" "0,1,2,3,4,5,6,7" bitfld.long 0x0 15. "CAL_BYP,Calibration bypass 1'b0 - Use the calibration output to set the phase correction 1'b1 - Use the cal_in input value to set the phase correction" "0,1" hexmask.long.word 0x0 0.--11. 1. "CAL_IN,Calibration input When cal_byp is 1'b0 this represents the initial condition for calibration. When cal_byp is 1'b1 this is the override value for calibration. Value is a signed integer with positive values delaying the faster path reset and.." rgroup.long 0x12064++0x3 line.long 0x0 "CFG_pll18_CAL_STAT," bitfld.long 0x0 31. "CAL_LOCK,Reserved for future use" "0,1" hexmask.long.byte 0x0 16.--19. 1. "LOCK_CNT,Reserved for future use" hexmask.long.word 0x0 0.--11. 1. "CAL_OUT,Output of the calibration block if cal_byp = 1'b0. If cal_byp = 1'b1 it is a buffer version of cal_in[11:0]. Can be used to read the phase calibration state to for later use as an override value to bypass skew calibration" group.long 0x12080++0x3 line.long 0x0 "CFG_pll18_HSDIV_CTRL0," bitfld.long 0x0 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x0 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x0 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x0 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" tree.end tree "PSC" base ad:0x0 tree "PSC0 (PSC0)" base ad:0x400000 rgroup.long 0x0++0x3 line.long 0x0 "VBUS_PID,The peripheral identification register is a constant register that contains the ID and ID revision number for that module. The PID stores version information used to identify the module. All bits within this register are read-only (writes have.." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release" bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" rgroup.long 0x10++0x7 line.long 0x0 "VBUS_GBLCTL,This register contains global control to PSC." hexmask.long.byte 0x0 8.--15. 1. "IO_ANA_CTL,General purpose IO/Analog PowerDown control. Directly drives io_ana_pdctl_po[7:0] outputs." line.long 0x4 "VBUS_GBLSTAT,This register shows the PSC global status." hexmask.long.word 0x4 16.--27. 1. "EF_SMRFLEX,Smart reflex class0 bits" bitfld.long 0x4 0. "OVRIDE,PSC Override Status" "0,1" wgroup.long 0x18++0x3 line.long 0x0 "VBUS_INTEVAL,This register has no storage. Read from this register returns 0." bitfld.long 0x0 19. "GOSET,GOSTAT Interrupt Set" "0,1" bitfld.long 0x0 18. "EPCSET,External Power Control Interrupt Set" "0,1" bitfld.long 0x0 17. "ERRSET,Combined Interrupt Set" "0,1" newline bitfld.long 0x0 2. "EPCEV,External Power Control Interrupt Set" "0,1" bitfld.long 0x0 1. "ERREV,Re_evaluate Error Interrupt" "0,1" bitfld.long 0x0 0. "ALLEV,Re_evaluate combined PSC interrupt" "0,1" rgroup.long 0x40++0x3 line.long 0x0 "VBUS_MERRPR,This register records pending error conditions for all modules. Each bit represents one module (index 0 for modules 0-31. index 1 for modules 32-63. etc.)." hexmask.long 0x0 0.--31. 1. "M,Records pending error conditions. Each bit n represents a module." group.long 0x50++0x3 line.long 0x0 "VBUS_MERRCR,This register has no storage. Read from this register returns 0. Each bit represents one module (index 0 for modules 0-31. index 1 for modules 32-63. etc.)." hexmask.long 0x0 0.--31. 1. "M,Write of 1 clears the corresponding MERRPR bit." rgroup.long 0x60++0x3 line.long 0x0 "VBUS_PERRPR,This register records pending error conditions for each power domain. Each bit represents one domain (index 0 for domains 0-31. index 1 for domains 32-63. etc.)." hexmask.long 0x0 0.--31. 1. "P,Power Domain n Error Condition. Each bit n represents a power domain." group.long 0x68++0x3 line.long 0x0 "VBUS_PERRCR,This register has no storage. Read from this register returns 0. Each bit represents one domain (index 0 for domains 0-31. index 1 for domains 32-63. etc.)." hexmask.long 0x0 0.--31. 1. "P,Write of 1 clears the corresponding PERRPR bit." rgroup.long 0x70++0x3 line.long 0x0 "VBUS_EPCPR,This register records pending external power control conditions. Each bit represents one domain (index 0 for domains 0-31. index 1 for domains 32-63. etc.)." hexmask.long 0x0 0.--31. 1. "EPC,External Power Control Intervention Request for Power Domain n" group.long 0x78++0x3 line.long 0x0 "VBUS_EPCCR,This register has no storage. Read from this register returns 0. Each bit represents one domain (index 0 for domains 0-31. index 1 for domains 32-63. etc.)." hexmask.long 0x0 0.--31. 1. "EPC,Write of 1 clears the corresponding EPCPR bit" rgroup.long 0x100++0x3 line.long 0x0 "VBUS_RAILSTAT,This register is a read-only and shows the current rail requestor whose request is being granted and the current value of the counter associated with this requestor." hexmask.long.byte 0x0 24.--28. 1. "RAILNUM,Indicates Current Rail Requestor being processed by GPSC" hexmask.long.byte 0x0 0.--7. 1. "RAILCNT,Indicates the current rail counter value" group.long 0x104++0x7 line.long 0x0 "VBUS_RAILCTL,This register is user programmable. It holds the counter values for rail counter. User can select one of the two counter values to be used for each power domain (see RAILSEL register)." hexmask.long.byte 0x0 8.--15. 1. "RAILCTR1,Rail Counter Value 1" hexmask.long.byte 0x0 0.--7. 1. "RAILCTR0,Rail Counter Value 0" line.long 0x4 "VBUS_RAILSEL,User can use this register to select the counter value (RAILCTL) for each power domain." hexmask.long 0x4 0.--31. 1. "P,Rail Counter Select for Power Domain" group.long 0x120++0x3 line.long 0x0 "VBUS_PTCMD,This is a pseudo-command register with no actual storage. Reads return 0. One bit for each power domain (index 0 for domains 0-31. index 1 for domains 32-63. etc.)." hexmask.long 0x0 0.--31. 1. "GO,Power Domain n GO Transition" rgroup.long 0x128++0x3 line.long 0x0 "VBUS_PTSTAT,This is a status register. One bit for each power domain (index 0 for domains 0-31. index 1 for domains 32-63. etc.)." hexmask.long 0x0 0.--31. 1. "GOSTAT,Power Domain n Transition Command Status" rgroup.long 0x200++0x3 line.long 0x0 "VBUS_PDSTAT,This is a status register. One register per power domain. Each register contains the status for the given power domain." bitfld.long 0x0 11. "EMUIHB,Emulation Alters Domain State" "0,1" bitfld.long 0x0 10. "PWRBAD,Power Bad error" "0,1" bitfld.long 0x0 9. "PORDONE,POR Done Input Status" "0,1" newline bitfld.long 0x0 8. "PORZ,PORz output actual status" "0,1" hexmask.long.byte 0x0 0.--4. 1. "STATE,Current Power Domain State" group.long 0x300++0x3 line.long 0x0 "VBUS_PDCTL,This is a control register. One register per power domain." bitfld.long 0x0 31. "FORCE,Force Bit" "0,1" bitfld.long 0x0 29. "PWRSW,Power shorting Switch Control" "0,1" bitfld.long 0x0 28. "ISO,Isolation Cell control" "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "WAKECNT,RAM wake count delay value" bitfld.long 0x0 12.--14. "PDMODE,Power Down mode" "0,1,2,3,4,5,6,7" bitfld.long 0x0 9. "EMUIHBIE,Emulation alters domain state" "0,1" newline bitfld.long 0x0 8. "EPCGOOD,External Power Control Power Good Indication" "0,1" bitfld.long 0x0 0. "NEXT,User_Desired Next Power Domain State" "0,1" rgroup.long 0x400++0x3 line.long 0x0 "VBUS_PDCFG,This is a status register. It shows PSC settings for easy debug." bitfld.long 0x0 3. "ICEPICK,Icepick support" "0,1" bitfld.long 0x0 1. "MEMSLPKWK,Memory sleep-wake domain" "0,1" bitfld.long 0x0 0. "ALWAYSON,Always on power domain" "0,1" rgroup.long 0x600++0x3 line.long 0x0 "VBUS_MDCFG,This is a constant register showing some PSC settings for easy debug. This register is read only." hexmask.long.byte 0x0 16.--20. 1. "PWRDOM,Indicates which power domain this module belongs to" bitfld.long 0x0 15. "AUTOONLY,0: This LPSC supports all modes 1: This LPSC supports Enable AutoSleep or AutoWake only" "0: This LPSC supports all modes,1: This LPSC supports Enable" bitfld.long 0x0 14. "RESETISO,0: This LPSC does not support Reset Isolation 1: This LPSC supports Reset Isolation" "0: This LPSC does not support Reset Isolation,1: This LPSC supports Reset Isolation" newline bitfld.long 0x0 13. "NEXTLOCK,0: MDCTL.NEXT field is writable 1: MDCTL.NEXT field is locked" "0: MDCTL,1: MDCTL" bitfld.long 0x0 12. "ASYNC,Async Lpsc" "0,1" bitfld.long 0x0 11. "ICEPICK,IcePick support" "0,1" newline bitfld.long 0x0 10. "PERMDIS,Permanently disable" "0,1" bitfld.long 0x0 9. "PLLHANDSHAKE,RTL parameter PLL_HANDSHAKE" "0,1" bitfld.long 0x0 6.--8. "NUMSCRDISBALE,Number of PWR_SCR_DISABLE interfaces required on LPSC" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 3.--5. "NUMCLKEN,Number of PWR_CLK_EN interfaces required on LPSC" "0,1,2,3,4,5,6,7" bitfld.long 0x0 0.--2. "NUMCLK,Number of PWR_CLKSTOP interfaces required on LPSC" "0,1,2,3,4,5,6,7" rgroup.long 0x800++0x3 line.long 0x0 "VBUS_MDSTAT,This register shows the status of each module. Requires one register per module on the device." bitfld.long 0x0 17. "EMUIHB,Emulation Alters Module State. Inhibits Module Inactive or Force Module Active." "0,1" bitfld.long 0x0 16. "EMURST,Emulation Alters Reset" "0,1" bitfld.long 0x0 12. "MCKOUT,Actual modclk output to module" "0,1" newline bitfld.long 0x0 11. "MRSTDONE,Module reset initialization done status" "0,1" bitfld.long 0x0 10. "MRSTZ,Module reset actual status" "0,1" bitfld.long 0x0 9. "LRSTDONE,Module local reset initialization done status" "0,1" newline bitfld.long 0x0 8. "LRSTZ,Module local reset actual status" "0,1" hexmask.long.byte 0x0 0.--5. 1. "STATE,These bits indicate the current module state" group.long 0xA00++0x3 line.long 0x0 "VBUS_MDCTL,This register provides specific control for the individual module. One register per module on the device." bitfld.long 0x0 31. "FORCE,Force Bit" "0,1" bitfld.long 0x0 12. "RESETISO,Reset Isolation" "0,1" bitfld.long 0x0 11. "BLKCHIP1RST,Block Chip_1_Reset" "0,1" newline bitfld.long 0x0 10. "EMUIHBIE,Emulation Alters Module State. Inhibits Module Inactive or Force Module Active." "0,1" bitfld.long 0x0 9. "EMURSTIE,Emulation Alter Reset Interrupt Enable" "0,1" bitfld.long 0x0 8. "LRSTZ,Module local reset control" "0,1" newline hexmask.long.byte 0x0 0.--4. 1. "NEXT,Module Next State" tree.end tree "PSC0_ECC_AGGR_0_REGS (PSC0_ECC_AGGR_0_REGS)" base ad:0x700400 rgroup.long 0x0++0x3 line.long 0x0 "REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "TABLE_PEND,Interrupt Pending Status for table_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "TABLE_ENABLE_SET,Interrupt Enable Set Register for table_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "TABLE_ENABLE_CLR,Interrupt Enable Clear Register for table_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "TABLE_PEND,Interrupt Pending Status for table_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "TABLE_ENABLE_SET,Interrupt Enable Set Register for table_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "TABLE_ENABLE_CLR,Interrupt Enable Clear Register for table_pend" "0,1" group.long 0x200++0xF line.long 0x0 "REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end base ad:0x0 tree "PSC0_FW_0" tree "PSC0_FW_0_FW (PSC0_FW_0_FW)" base ad:0x45020000 group.long 0x0++0xF line.long 0x0 "FW_REGS_dst_fwch_region_0_ch_0_control,The FW Region 0 Channel 0 Control Register defines the control fields for the target slv0.slv region 0 channel 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_dst_fwch_region_0_ch_0_permission_0,The FW Region 0 Channel 0 Permission 0 Register defines the permissions for the target slv0.slv region 0 channel 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_dst_fwch_region_0_ch_0_permission_1,The FW Region 0 Channel 0 Permission 1 Register defines the permissions for the target slv0.slv region 0 channel 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_dst_fwch_region_0_ch_0_permission_2,The FW Region 0 Channel 0 Permission 2 Register defines the permissions for the target slv0.slv region 0 channel 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" group.long 0x20++0xF line.long 0x0 "FW_REGS_dst_fwch_region_1_ch_0_control,The FW Region 1 Channel 0 Control Register defines the control fields for the target slv0.slv region 1 channel 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_dst_fwch_region_1_ch_0_permission_0,The FW Region 1 Channel 0 Permission 0 Register defines the permissions for the target slv0.slv region 1 channel 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_dst_fwch_region_1_ch_0_permission_1,The FW Region 1 Channel 0 Permission 1 Register defines the permissions for the target slv0.slv region 1 channel 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_dst_fwch_region_1_ch_0_permission_2,The FW Region 1 Channel 0 Permission 2 Register defines the permissions for the target slv0.slv region 1 channel 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" group.long 0x40++0xF line.long 0x0 "FW_REGS_dst_fwch_region_2_ch_0_control,The FW Region 2 Channel 0 Control Register defines the control fields for the target slv0.slv region 2 channel 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_dst_fwch_region_2_ch_0_permission_0,The FW Region 2 Channel 0 Permission 0 Register defines the permissions for the target slv0.slv region 2 channel 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_dst_fwch_region_2_ch_0_permission_1,The FW Region 2 Channel 0 Permission 1 Register defines the permissions for the target slv0.slv region 2 channel 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_dst_fwch_region_2_ch_0_permission_2,The FW Region 2 Channel 0 Permission 2 Register defines the permissions for the target slv0.slv region 2 channel 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" group.long 0x60++0xF line.long 0x0 "FW_REGS_dst_fwch_region_3_ch_0_control,The FW Region 3 Channel 0 Control Register defines the control fields for the target slv0.slv region 3 channel 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_dst_fwch_region_3_ch_0_permission_0,The FW Region 3 Channel 0 Permission 0 Register defines the permissions for the target slv0.slv region 3 channel 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_dst_fwch_region_3_ch_0_permission_1,The FW Region 3 Channel 0 Permission 1 Register defines the permissions for the target slv0.slv region 3 channel 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_dst_fwch_region_3_ch_0_permission_2,The FW Region 3 Channel 0 Permission 2 Register defines the permissions for the target slv0.slv region 3 channel 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" group.long 0x80++0xF line.long 0x0 "FW_REGS_dst_fwch_region_4_ch_0_control,The FW Region 4 Channel 0 Control Register defines the control fields for the target slv0.slv region 4 channel 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_dst_fwch_region_4_ch_0_permission_0,The FW Region 4 Channel 0 Permission 0 Register defines the permissions for the target slv0.slv region 4 channel 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_dst_fwch_region_4_ch_0_permission_1,The FW Region 4 Channel 0 Permission 1 Register defines the permissions for the target slv0.slv region 4 channel 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_dst_fwch_region_4_ch_0_permission_2,The FW Region 4 Channel 0 Permission 2 Register defines the permissions for the target slv0.slv region 4 channel 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" tree.end tree "PSC0_FW_0_GLB (PSC0_FW_0_GLB)" base ad:0x45B09000 rgroup.long 0x0++0x3 line.long 0x0 "GLB_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "GLB_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." group.long 0x20++0x3 line.long 0x0 "GLB_REGS_exception_logging_control,The Exception Logging Control Register controls the exception logging." bitfld.long 0x0 1. "DISABLE_PEND,Disables logging pending when set." "0,1" bitfld.long 0x0 0. "DISABLE_F,Disables logging when set." "0,1" rgroup.long 0x24++0x17 line.long 0x0 "GLB_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "GLB_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code." line.long 0x8 "GLB_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "GLB_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "GLB_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" newline bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "GLB_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x40++0x7 line.long 0x0 "GLB_REGS_exception_pend_set,The Exception Logging Pending Set Register allows to set the pend signal." bitfld.long 0x0 0. "PEND_SET,Write a 1 to set the exception pend signal." "0,1" line.long 0x4 "GLB_REGS_exception_pend_clear,The Exception Logging Pending Clear Register allows to clear the pend signal." bitfld.long 0x4 0. "PEND_CLR,Write a 1 to clear the exception pend signal." "0,1" tree.end tree.end tree.end tree "PSRAMECC0" base ad:0x0 tree "PSRAMECC0_ECC_AGGR (PSRAMECC0_ECC_AGGR)" base ad:0x700000 rgroup.long 0x0++0x3 line.long 0x0 "REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "SRAM_PEND,Interrupt Pending Status for sram_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "SRAM_ENABLE_SET,Interrupt Enable Set Register for sram_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "SRAM_ENABLE_CLR,Interrupt Enable Clear Register for sram_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "SRAM_PEND,Interrupt Pending Status for sram_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "SRAM_ENABLE_SET,Interrupt Enable Set Register for sram_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "SRAM_ENABLE_CLR,Interrupt Enable Clear Register for sram_pend" "0,1" group.long 0x200++0xF line.long 0x0 "REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end base ad:0x0 tree "PSRAMECC0_RAM (PSRAMECC0_RAM)" group.long 0x0++0x3 line.long 0x0 "RAM_RAM_REG,The RAM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end tree.end tree "PSRAMECC1" base ad:0x0 tree "PSRAMECC1_ECC_AGGR (PSRAMECC1_ECC_AGGR)" base ad:0x701000 rgroup.long 0x0++0x3 line.long 0x0 "REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "SRAM_PEND,Interrupt Pending Status for sram_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "SRAM_ENABLE_SET,Interrupt Enable Set Register for sram_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "SRAM_ENABLE_CLR,Interrupt Enable Clear Register for sram_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "SRAM_PEND,Interrupt Pending Status for sram_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "SRAM_ENABLE_SET,Interrupt Enable Set Register for sram_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "SRAM_ENABLE_CLR,Interrupt Enable Clear Register for sram_pend" "0,1" group.long 0x200++0xF line.long 0x0 "REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "PSRAMECC1_RAM (PSRAMECC1_RAM)" base ad:0x900000 group.long 0x0++0x3 line.long 0x0 "RAM_RAM_REG,The RAM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end tree.end tree "RTI" base ad:0x0 tree "RTI0_CFG (RTI0_CFG)" base ad:0xE000000 group.long 0x0++0x1B line.long 0x0 "CFG_GCTRL," hexmask.long.byte 0x0 16.--19. 1. "NTUSEL,These bits determine which NTU input signal is used as external timebase. There are up to four inputs supported with four valid selection combinations. Any invalid selection value written to the NTUSEL bit-field will result in a TIED LOW being.." bitfld.long 0x0 15. "COS,This bit determines if both counters are stopped when the device goes into debug mode or if they continue counting. User and privilege mode (read): 0 = counters are stopped while in debug mode 1 = counters are running while in debug mode.." "0: stop counters in debug mode,1: continue counting in debug mode" newline bitfld.long 0x0 1. "CNT1EN,The CNT1EN bit starts and stops the operation of counter block 1 (UC1 and FRC1). User and privilege mode (read): 0 = counters are stopped 1 = counters are running Privilege mode (write): 0 = stop counters 1 = start counters" "0: stop counters,1: start counters" bitfld.long 0x0 0. "CNT0EN,The CNT0EN bit starts and stops the operation of counter block 0 (UC0 and FRC0). User and privilege mode (read): 0 = counters are stopped 1 = counters are running Privilege mode (write): 0 = stop counters 1 = start counters" "0: stop counters,1: start counters" line.long 0x4 "CFG_TBCTRL," bitfld.long 0x4 1. "INC,This bit determines wether the Free Running Counter 0 is automatically incremented if a failing clock on the NTUx signal is detected. User and privilege mode (read): 0 = FRC0 will not be incremented 1 = FRC0 will be incremented Privilege mode.." "0: Do not increment FRC0 on failing external clock,1: Increment FRC0 on failing external clock" bitfld.long 0x4 0. "TBEXT,The Timebase External bit selects whether the Free Running Counter 0 is clocked by the internal Up Counter 0 or from the external signal NTUx. Since setting the TBEXT bit to 1 resets Up Counter 0 Free Running Counter 0 will not be incremented in.." "0: MUX is switched to internal UC0 clocking scheme,1: MUX is switched to external NTUx clocking scheme" line.long 0x8 "CFG_CAPCTRL," bitfld.long 0x8 1. "CAPCNTR1,This bit determines which external interrupt source triggers a capture event of both UC1 and FRC1. User and privilege mode (read): 0 = capture event is triggered by Capture Event Source 0 1 = capture event is triggered by Capture Event.." "0: enable capture event triggered by Capture Event..,1: enable capture event triggered by Capture Event.." bitfld.long 0x8 0. "CAPCNTR0,This bit determines which external interrupt source triggers a capture event of both UC0 and FRC0. User and privilege mode (read): 0 = capture event is triggered by Capture Event Source 0 1 = capture event is triggered by Capture Event.." "0: enable capture event triggered by Capture Event..,1: enable capture event triggered by Capture Event.." line.long 0xC "CFG_COMPCTRL," bitfld.long 0xC 12. "COMPSEL3,This bit determines the counter with which the compare value hold in compare register 3 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" bitfld.long 0xC 8. "COMPSEL2,This bit determines the counter with which the compare value hold in compare register 2 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" newline bitfld.long 0xC 4. "COMPSEL1,This bit determines the counter with which the compare value hold in compare register 1 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" bitfld.long 0xC 0. "COMPSEL0,This bit determines the counter with which the compare value hold in compare register 0 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" line.long 0x10 "CFG_FRC0," hexmask.long 0x10 0.--31. 1. "FRC0,This registers holds the current value of the Free Running Counter 0 and will be updated continuously. User and privilege mode (read): current value of the counter Privilege mode (write): The counter can be preset by writing to this register." line.long 0x14 "CFG_UC0," hexmask.long 0x14 0.--31. 1. "UC0,This registers holds the current value of the Up Counter 0 and prescales the RTI clock. It will be only updated by a previous read of Free Running Counter 0. This gives effectively a 64 bit read of both counters without having the problem of a.." line.long 0x18 "CFG_CPUC0," hexmask.long 0x18 0.--31. 1. "CPUC0,This registers holds the compare value which is compared with the Up Counter 0. When the compare matches Free Running counter 0 is incremented. The Up Counter is set to zero when the counter value matches the CPUC0 value. The value set in this.." rgroup.long 0x20++0x7 line.long 0x0 "CFG_CAFRC0," hexmask.long 0x0 0.--31. 1. "CAFRC0,This registers captures the current value of the Free Running Counter 0 when a event occurs controlled by the external capture control block. User and privilege mode (read): value of Free Running Counter 0 on a capture event" line.long 0x4 "CFG_CAUC0," hexmask.long 0x4 0.--31. 1. "CAUC0,This registers captures the current value of the Up Counter 0 when a event occurs controlled by the external capture control block. The read sequence has to be the same as with Up Counter 0 and Free Running Counter 0. So the RTICAFRC0 register.." group.long 0x30++0xB line.long 0x0 "CFG_FRC1," hexmask.long 0x0 0.--31. 1. "FRC1,This registers holds the current value of the Free Running Counter 1 and will be updated continuously. User and privilege mode (read): current value of the counter Privilege mode (write): the counter can be preset by writing to this register." line.long 0x4 "CFG_UC1," hexmask.long 0x4 0.--31. 1. "UC1,This registers holds the current value of the Up Counter 1 and prescales the RTI clock. It will be only updated by a previous read of Free Running Counter 1. This gives effectively a 64 bit read of both counters without having the problem of a.." line.long 0x8 "CFG_CPUC1," hexmask.long 0x8 0.--31. 1. "CPUC1,This registers holds the compare value which is compared with the Up Counter 1. When the compare matches Free Running Counter 1 is incremented. The Up Counter is set to zero when the counter value matches the CPUC1 value. The value set in this.." rgroup.long 0x40++0x7 line.long 0x0 "CFG_CAFRC1," hexmask.long 0x0 0.--31. 1. "CAFRC1,This registers captures the current value of the Free Running Counter 1 when a event occurs controlled by the external capture control block. User and privilege mode (read): value of Free Running Counter 1 on a capture event" line.long 0x4 "CFG_CAUC1," hexmask.long 0x4 0.--31. 1. "CAUC1,This registers captures the current value of the Up Counter 1 when a event occurs controlled by the external capture control block. The read sequence has to be the same as with Up Counter 1 and Free Running Counter 1. So the RTICAFRC1 register.." group.long 0x50++0x27 line.long 0x0 "CFG_COMP0," hexmask.long 0x0 0.--31. 1. "COMP0,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x4 "CFG_UDCP0," hexmask.long 0x4 0.--31. 1. "UDCP0,This registers holds a value which is added to the value in the compare 0 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x8 "CFG_COMP1," hexmask.long 0x8 0.--31. 1. "COMP1,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0xC "CFG_UDCP1," hexmask.long 0xC 0.--31. 1. "UDCP1,This registers holds a value which is added to the value in the compare 1 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x10 "CFG_COMP2," hexmask.long 0x10 0.--31. 1. "COMP2,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x14 "CFG_UDCP2," hexmask.long 0x14 0.--31. 1. "UDCP2,This registers holds a value which is added to the value in the compare 2 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x18 "CFG_COMP3," hexmask.long 0x18 0.--31. 1. "COMP3,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x1C "CFG_UDCP3," hexmask.long 0x1C 0.--31. 1. "UDCP3,This registers holds a value which is added to the value in the compare 3 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x20 "CFG_TBLCOMP," hexmask.long 0x20 0.--31. 1. "TBLCOMP,This value determines when the edge detection circuit starts monitoring the NTUx signal. It will be compared with Up Counter 0. User and privilege mode (read): current compare value Privilege mode (write when TBEXT = 0): the compare value is.." line.long 0x24 "CFG_TBHCOMP," hexmask.long 0x24 0.--31. 1. "TBHCOMP,This value determines when the edge detection circuit will stop monitoring the NTUx signal. It will be compared with Up Counter 0. RTITBHCOMP has to be less than RTICPUC0 since RTIUC0 will be reset when RTICPUC0 is reached. Example: The.." group.long 0x80++0xB line.long 0x0 "CFG_SETINT," bitfld.long 0x0 18. "SETOVL1INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 17. "SETOVL0INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 16. "SETTBINT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 11. "SETDMA3,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 10. "SETDMA2,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" bitfld.long 0x0 9. "SETDMA1,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 8. "SETDMA0,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" bitfld.long 0x0 3. "SETINT3,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 2. "SETINT2,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 1. "SETINT1,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 0. "SETINT0,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" line.long 0x4 "CFG_CLEARINT," bitfld.long 0x4 18. "CLEAROVL1INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 17. "CLEAROVL0INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 16. "CLEARTBINT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 11. "CLEARDMA3,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 10. "CLEARDMA2,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" bitfld.long 0x4 9. "CLEARDMA1,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 8. "CLEARDMA0,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" bitfld.long 0x4 3. "CLEARINT3,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 2. "CLEARINT2,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 1. "CLEARINT1,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 0. "CLEARINT0,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" line.long 0x8 "CFG_INTFLAG," bitfld.long 0x8 18. "OVL1INT,User and privilege mode (read): determines if an interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 17. "OVL0INT,User and privilege mode (read): determines if an interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 16. "TBINT,User and privilege mode (read): this flag is set when the TBEXT bit is cleared by detection of a missing external clockedge. It will not be set by clearing TBEXT by software. determines if an interrupt is pending 0 = no interrupt pending 1 =.." "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 3. "INT3,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 2. "INT2,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 1. "INT1,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 0. "INT0,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" group.long 0x90++0xF line.long 0x0 "CFG_DWDCTRL," hexmask.long 0x0 0.--31. 1. "DWDCTRL,User and priviledge mode (read): 0x5312ACED = DWD counter is disabled. This is the default value. 0xA98559DA = DWD counter is enabled Any other value = DWD counter state is unchanged (enabled or disabled) Priviledge mode (write): 0xA98559DA.." line.long 0x4 "CFG_DWDPRLD," hexmask.long.word 0x4 0.--11. 1. "DWDPRLD,User and priviledge mode (read): A read from this register in any CPU mode returns the current preload value. Priviledge mode (write): If the DWD is always enabled after reset is released: The DWD starts counting down from the reset value of.." line.long 0x8 "CFG_WDSTATUS," bitfld.long 0x8 5. "DWWD,This bit denotes whether the time-window defined by the windowed watchdog configuration has been violated or if a wrong key or key sequence was written to service the watchdog. User and priviledge mode (read): 0 = no time-window violation has.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 4. "END,This bit denotes whether the end-time defined by the windowed watchdog configuration has been violated. This bit is effectively a copy of the DWD ST status flag. User and priviledge mode (read): 0 = no end-time window violation has occurred. 1 =.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 3. "START,This bit denotes whether the start-time defined by the windowed watchdog configuration has been violated. This indicates that the WWD was serviced before the service window was opened. User and priviledge mode (read): 0 = no start-time window.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 2. "KEYST,This bit denotes a reset generated by a wrong key or a wrong key-sequence written to the RTIWDKEY register. User and priviledge mode (read): 0 = no wrong key or key-sequence written 1 = wrong key or key-sequence written to RTIWDKEY register.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 1. "DWDST,status flag and is maintained for compatibility reasons. User and priviledge mode (read): 0 = DWD timeout period not expired 1 = DWD timeout period has expired Priviledge mode (write): 0 = leaves the current value unchanged 1 = clears the bit.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 0. "AWDST,User and priviledge mode (read): 0 = AWD pin 0 > 1 threshold not exceeded 1 = AWD pin 0 > 1 threshold exceeded Priviledge mode (write): 0 = leaves the current value unchanged 1 = clears the bit to 0" "0: leaves the current value unchanged,1: clears the bit to 0" line.long 0xC "CFG_WDKEY," hexmask.long.word 0xC 0.--15. 1. "WDKEY,User and privilege mode reads are indeterminate. Privilege mode (write): A write of 0xE51A followed by 0xA35C in two separate write operations defines the Key Sequence and discharges the watchdog capacitor. This also causes the upper 12 bits of.." rgroup.long 0xA0++0x3 line.long 0x0 "CFG_DWDCNTR," hexmask.long 0x0 0.--24. 1. "DWDCNTR,The value of the DWDCNTR after a system reset is 0x002D_FFFF. When the DWD is enabled and the DWD counter starts counting down from this value with an RTICLK1 time base of 3MHz a watchdog reset will be generated in 1 second. User and.." group.long 0xA4++0x1B line.long 0x0 "CFG_WWDRXNCTRL," hexmask.long.byte 0x0 0.--3. 1. "WWDRXN,User and privilege mode (read) privileged mode (write): 0x5 = This is the default value. The windowed watchdog will cause a reset if the watchdog is serviced outside the time window defined by the configuration or if the watchdog is not.." line.long 0x4 "CFG_WWDSIZECTRL," hexmask.long 0x4 0.--31. 1. "WWDSIZE,User and privilege mode (read) privileged mode (write): Table 3. Windowed Watchdog Window Size Configuration Value written to WWDSIZE Window Size 0x00000005 100% (The functionality is the same as the standard time-out digital watchdog.).." line.long 0x8 "CFG_INTCLRENABLE," hexmask.long.byte 0x8 24.--27. 1. "INTCLRENABLE3,Enables the auto-clear functionality on the compare 3 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 3 interrupt is disabled. Any other value = Auto-clear for compare 3 interrupt is enabled. Privileged mode.." hexmask.long.byte 0x8 16.--19. 1. "INTCLRENABLE2,Enables the auto-clear functionality on the compare 2 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 2 interrupt is disabled. Any other value = Auto-clear for compare 2 interrupt is enabled. Privileged mode.." newline hexmask.long.byte 0x8 8.--11. 1. "INTCLRENABLE1,Enables the auto-clear functionality on the compare 1 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 1 interrupt is disabled. Any other value = Auto-clear for compare 1 interrupt is enabled. Privileged mode.." hexmask.long.byte 0x8 0.--3. 1. "INTCLRENABLE0,Enables the auto-clear functionality on the compare 0 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 0 interrupt is disabled. Any other value = Auto-clear for compare 0 interrupt is enabled. Privileged mode.." line.long 0xC "CFG_COMP0CLR," hexmask.long 0xC 0.--31. 1. "COMP0CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 0 interrupt or DMA request line is cleared. User and privilege.." line.long 0x10 "CFG_COMP1CLR," hexmask.long 0x10 0.--31. 1. "COMP1CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 1 interrupt or DMA request line is cleared. User and privilege.." line.long 0x14 "CFG_COMP2CLR," hexmask.long 0x14 0.--31. 1. "COMP2CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 2 interrupt or DMA request line is cleared. User and privilege.." line.long 0x18 "CFG_COMP3CLR," hexmask.long 0x18 0.--31. 1. "COMP3CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 3 interrupt or DMA request line is cleared. User and privilege.." tree.end tree "RTI1_CFG (RTI1_CFG)" base ad:0xE010000 group.long 0x0++0x1B line.long 0x0 "CFG_GCTRL," hexmask.long.byte 0x0 16.--19. 1. "NTUSEL,These bits determine which NTU input signal is used as external timebase. There are up to four inputs supported with four valid selection combinations. Any invalid selection value written to the NTUSEL bit-field will result in a TIED LOW being.." bitfld.long 0x0 15. "COS,This bit determines if both counters are stopped when the device goes into debug mode or if they continue counting. User and privilege mode (read): 0 = counters are stopped while in debug mode 1 = counters are running while in debug mode.." "0: stop counters in debug mode,1: continue counting in debug mode" newline bitfld.long 0x0 1. "CNT1EN,The CNT1EN bit starts and stops the operation of counter block 1 (UC1 and FRC1). User and privilege mode (read): 0 = counters are stopped 1 = counters are running Privilege mode (write): 0 = stop counters 1 = start counters" "0: stop counters,1: start counters" bitfld.long 0x0 0. "CNT0EN,The CNT0EN bit starts and stops the operation of counter block 0 (UC0 and FRC0). User and privilege mode (read): 0 = counters are stopped 1 = counters are running Privilege mode (write): 0 = stop counters 1 = start counters" "0: stop counters,1: start counters" line.long 0x4 "CFG_TBCTRL," bitfld.long 0x4 1. "INC,This bit determines wether the Free Running Counter 0 is automatically incremented if a failing clock on the NTUx signal is detected. User and privilege mode (read): 0 = FRC0 will not be incremented 1 = FRC0 will be incremented Privilege mode.." "0: Do not increment FRC0 on failing external clock,1: Increment FRC0 on failing external clock" bitfld.long 0x4 0. "TBEXT,The Timebase External bit selects whether the Free Running Counter 0 is clocked by the internal Up Counter 0 or from the external signal NTUx. Since setting the TBEXT bit to 1 resets Up Counter 0 Free Running Counter 0 will not be incremented in.." "0: MUX is switched to internal UC0 clocking scheme,1: MUX is switched to external NTUx clocking scheme" line.long 0x8 "CFG_CAPCTRL," bitfld.long 0x8 1. "CAPCNTR1,This bit determines which external interrupt source triggers a capture event of both UC1 and FRC1. User and privilege mode (read): 0 = capture event is triggered by Capture Event Source 0 1 = capture event is triggered by Capture Event.." "0: enable capture event triggered by Capture Event..,1: enable capture event triggered by Capture Event.." bitfld.long 0x8 0. "CAPCNTR0,This bit determines which external interrupt source triggers a capture event of both UC0 and FRC0. User and privilege mode (read): 0 = capture event is triggered by Capture Event Source 0 1 = capture event is triggered by Capture Event.." "0: enable capture event triggered by Capture Event..,1: enable capture event triggered by Capture Event.." line.long 0xC "CFG_COMPCTRL," bitfld.long 0xC 12. "COMPSEL3,This bit determines the counter with which the compare value hold in compare register 3 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" bitfld.long 0xC 8. "COMPSEL2,This bit determines the counter with which the compare value hold in compare register 2 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" newline bitfld.long 0xC 4. "COMPSEL1,This bit determines the counter with which the compare value hold in compare register 1 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" bitfld.long 0xC 0. "COMPSEL0,This bit determines the counter with which the compare value hold in compare register 0 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" line.long 0x10 "CFG_FRC0," hexmask.long 0x10 0.--31. 1. "FRC0,This registers holds the current value of the Free Running Counter 0 and will be updated continuously. User and privilege mode (read): current value of the counter Privilege mode (write): The counter can be preset by writing to this register." line.long 0x14 "CFG_UC0," hexmask.long 0x14 0.--31. 1. "UC0,This registers holds the current value of the Up Counter 0 and prescales the RTI clock. It will be only updated by a previous read of Free Running Counter 0. This gives effectively a 64 bit read of both counters without having the problem of a.." line.long 0x18 "CFG_CPUC0," hexmask.long 0x18 0.--31. 1. "CPUC0,This registers holds the compare value which is compared with the Up Counter 0. When the compare matches Free Running counter 0 is incremented. The Up Counter is set to zero when the counter value matches the CPUC0 value. The value set in this.." rgroup.long 0x20++0x7 line.long 0x0 "CFG_CAFRC0," hexmask.long 0x0 0.--31. 1. "CAFRC0,This registers captures the current value of the Free Running Counter 0 when a event occurs controlled by the external capture control block. User and privilege mode (read): value of Free Running Counter 0 on a capture event" line.long 0x4 "CFG_CAUC0," hexmask.long 0x4 0.--31. 1. "CAUC0,This registers captures the current value of the Up Counter 0 when a event occurs controlled by the external capture control block. The read sequence has to be the same as with Up Counter 0 and Free Running Counter 0. So the RTICAFRC0 register.." group.long 0x30++0xB line.long 0x0 "CFG_FRC1," hexmask.long 0x0 0.--31. 1. "FRC1,This registers holds the current value of the Free Running Counter 1 and will be updated continuously. User and privilege mode (read): current value of the counter Privilege mode (write): the counter can be preset by writing to this register." line.long 0x4 "CFG_UC1," hexmask.long 0x4 0.--31. 1. "UC1,This registers holds the current value of the Up Counter 1 and prescales the RTI clock. It will be only updated by a previous read of Free Running Counter 1. This gives effectively a 64 bit read of both counters without having the problem of a.." line.long 0x8 "CFG_CPUC1," hexmask.long 0x8 0.--31. 1. "CPUC1,This registers holds the compare value which is compared with the Up Counter 1. When the compare matches Free Running Counter 1 is incremented. The Up Counter is set to zero when the counter value matches the CPUC1 value. The value set in this.." rgroup.long 0x40++0x7 line.long 0x0 "CFG_CAFRC1," hexmask.long 0x0 0.--31. 1. "CAFRC1,This registers captures the current value of the Free Running Counter 1 when a event occurs controlled by the external capture control block. User and privilege mode (read): value of Free Running Counter 1 on a capture event" line.long 0x4 "CFG_CAUC1," hexmask.long 0x4 0.--31. 1. "CAUC1,This registers captures the current value of the Up Counter 1 when a event occurs controlled by the external capture control block. The read sequence has to be the same as with Up Counter 1 and Free Running Counter 1. So the RTICAFRC1 register.." group.long 0x50++0x27 line.long 0x0 "CFG_COMP0," hexmask.long 0x0 0.--31. 1. "COMP0,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x4 "CFG_UDCP0," hexmask.long 0x4 0.--31. 1. "UDCP0,This registers holds a value which is added to the value in the compare 0 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x8 "CFG_COMP1," hexmask.long 0x8 0.--31. 1. "COMP1,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0xC "CFG_UDCP1," hexmask.long 0xC 0.--31. 1. "UDCP1,This registers holds a value which is added to the value in the compare 1 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x10 "CFG_COMP2," hexmask.long 0x10 0.--31. 1. "COMP2,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x14 "CFG_UDCP2," hexmask.long 0x14 0.--31. 1. "UDCP2,This registers holds a value which is added to the value in the compare 2 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x18 "CFG_COMP3," hexmask.long 0x18 0.--31. 1. "COMP3,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x1C "CFG_UDCP3," hexmask.long 0x1C 0.--31. 1. "UDCP3,This registers holds a value which is added to the value in the compare 3 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x20 "CFG_TBLCOMP," hexmask.long 0x20 0.--31. 1. "TBLCOMP,This value determines when the edge detection circuit starts monitoring the NTUx signal. It will be compared with Up Counter 0. User and privilege mode (read): current compare value Privilege mode (write when TBEXT = 0): the compare value is.." line.long 0x24 "CFG_TBHCOMP," hexmask.long 0x24 0.--31. 1. "TBHCOMP,This value determines when the edge detection circuit will stop monitoring the NTUx signal. It will be compared with Up Counter 0. RTITBHCOMP has to be less than RTICPUC0 since RTIUC0 will be reset when RTICPUC0 is reached. Example: The.." group.long 0x80++0xB line.long 0x0 "CFG_SETINT," bitfld.long 0x0 18. "SETOVL1INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 17. "SETOVL0INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 16. "SETTBINT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 11. "SETDMA3,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 10. "SETDMA2,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" bitfld.long 0x0 9. "SETDMA1,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 8. "SETDMA0,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" bitfld.long 0x0 3. "SETINT3,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 2. "SETINT2,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 1. "SETINT1,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 0. "SETINT0,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" line.long 0x4 "CFG_CLEARINT," bitfld.long 0x4 18. "CLEAROVL1INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 17. "CLEAROVL0INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 16. "CLEARTBINT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 11. "CLEARDMA3,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 10. "CLEARDMA2,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" bitfld.long 0x4 9. "CLEARDMA1,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 8. "CLEARDMA0,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" bitfld.long 0x4 3. "CLEARINT3,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 2. "CLEARINT2,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 1. "CLEARINT1,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 0. "CLEARINT0,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" line.long 0x8 "CFG_INTFLAG," bitfld.long 0x8 18. "OVL1INT,User and privilege mode (read): determines if an interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 17. "OVL0INT,User and privilege mode (read): determines if an interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 16. "TBINT,User and privilege mode (read): this flag is set when the TBEXT bit is cleared by detection of a missing external clockedge. It will not be set by clearing TBEXT by software. determines if an interrupt is pending 0 = no interrupt pending 1 =.." "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 3. "INT3,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 2. "INT2,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 1. "INT1,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 0. "INT0,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" group.long 0x90++0xF line.long 0x0 "CFG_DWDCTRL," hexmask.long 0x0 0.--31. 1. "DWDCTRL,User and priviledge mode (read): 0x5312ACED = DWD counter is disabled. This is the default value. 0xA98559DA = DWD counter is enabled Any other value = DWD counter state is unchanged (enabled or disabled) Priviledge mode (write): 0xA98559DA.." line.long 0x4 "CFG_DWDPRLD," hexmask.long.word 0x4 0.--11. 1. "DWDPRLD,User and priviledge mode (read): A read from this register in any CPU mode returns the current preload value. Priviledge mode (write): If the DWD is always enabled after reset is released: The DWD starts counting down from the reset value of.." line.long 0x8 "CFG_WDSTATUS," bitfld.long 0x8 5. "DWWD,This bit denotes whether the time-window defined by the windowed watchdog configuration has been violated or if a wrong key or key sequence was written to service the watchdog. User and priviledge mode (read): 0 = no time-window violation has.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 4. "END,This bit denotes whether the end-time defined by the windowed watchdog configuration has been violated. This bit is effectively a copy of the DWD ST status flag. User and priviledge mode (read): 0 = no end-time window violation has occurred. 1 =.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 3. "START,This bit denotes whether the start-time defined by the windowed watchdog configuration has been violated. This indicates that the WWD was serviced before the service window was opened. User and priviledge mode (read): 0 = no start-time window.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 2. "KEYST,This bit denotes a reset generated by a wrong key or a wrong key-sequence written to the RTIWDKEY register. User and priviledge mode (read): 0 = no wrong key or key-sequence written 1 = wrong key or key-sequence written to RTIWDKEY register.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 1. "DWDST,status flag and is maintained for compatibility reasons. User and priviledge mode (read): 0 = DWD timeout period not expired 1 = DWD timeout period has expired Priviledge mode (write): 0 = leaves the current value unchanged 1 = clears the bit.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 0. "AWDST,User and priviledge mode (read): 0 = AWD pin 0 > 1 threshold not exceeded 1 = AWD pin 0 > 1 threshold exceeded Priviledge mode (write): 0 = leaves the current value unchanged 1 = clears the bit to 0" "0: leaves the current value unchanged,1: clears the bit to 0" line.long 0xC "CFG_WDKEY," hexmask.long.word 0xC 0.--15. 1. "WDKEY,User and privilege mode reads are indeterminate. Privilege mode (write): A write of 0xE51A followed by 0xA35C in two separate write operations defines the Key Sequence and discharges the watchdog capacitor. This also causes the upper 12 bits of.." rgroup.long 0xA0++0x3 line.long 0x0 "CFG_DWDCNTR," hexmask.long 0x0 0.--24. 1. "DWDCNTR,The value of the DWDCNTR after a system reset is 0x002D_FFFF. When the DWD is enabled and the DWD counter starts counting down from this value with an RTICLK1 time base of 3MHz a watchdog reset will be generated in 1 second. User and.." group.long 0xA4++0x1B line.long 0x0 "CFG_WWDRXNCTRL," hexmask.long.byte 0x0 0.--3. 1. "WWDRXN,User and privilege mode (read) privileged mode (write): 0x5 = This is the default value. The windowed watchdog will cause a reset if the watchdog is serviced outside the time window defined by the configuration or if the watchdog is not.." line.long 0x4 "CFG_WWDSIZECTRL," hexmask.long 0x4 0.--31. 1. "WWDSIZE,User and privilege mode (read) privileged mode (write): Table 3. Windowed Watchdog Window Size Configuration Value written to WWDSIZE Window Size 0x00000005 100% (The functionality is the same as the standard time-out digital watchdog.).." line.long 0x8 "CFG_INTCLRENABLE," hexmask.long.byte 0x8 24.--27. 1. "INTCLRENABLE3,Enables the auto-clear functionality on the compare 3 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 3 interrupt is disabled. Any other value = Auto-clear for compare 3 interrupt is enabled. Privileged mode.." hexmask.long.byte 0x8 16.--19. 1. "INTCLRENABLE2,Enables the auto-clear functionality on the compare 2 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 2 interrupt is disabled. Any other value = Auto-clear for compare 2 interrupt is enabled. Privileged mode.." newline hexmask.long.byte 0x8 8.--11. 1. "INTCLRENABLE1,Enables the auto-clear functionality on the compare 1 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 1 interrupt is disabled. Any other value = Auto-clear for compare 1 interrupt is enabled. Privileged mode.." hexmask.long.byte 0x8 0.--3. 1. "INTCLRENABLE0,Enables the auto-clear functionality on the compare 0 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 0 interrupt is disabled. Any other value = Auto-clear for compare 0 interrupt is enabled. Privileged mode.." line.long 0xC "CFG_COMP0CLR," hexmask.long 0xC 0.--31. 1. "COMP0CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 0 interrupt or DMA request line is cleared. User and privilege.." line.long 0x10 "CFG_COMP1CLR," hexmask.long 0x10 0.--31. 1. "COMP1CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 1 interrupt or DMA request line is cleared. User and privilege.." line.long 0x14 "CFG_COMP2CLR," hexmask.long 0x14 0.--31. 1. "COMP2CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 2 interrupt or DMA request line is cleared. User and privilege.." line.long 0x18 "CFG_COMP3CLR," hexmask.long 0x18 0.--31. 1. "COMP3CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 3 interrupt or DMA request line is cleared. User and privilege.." tree.end tree "RTI2_CFG (RTI2_CFG)" base ad:0xE020000 group.long 0x0++0x1B line.long 0x0 "CFG_GCTRL," hexmask.long.byte 0x0 16.--19. 1. "NTUSEL,These bits determine which NTU input signal is used as external timebase. There are up to four inputs supported with four valid selection combinations. Any invalid selection value written to the NTUSEL bit-field will result in a TIED LOW being.." bitfld.long 0x0 15. "COS,This bit determines if both counters are stopped when the device goes into debug mode or if they continue counting. User and privilege mode (read): 0 = counters are stopped while in debug mode 1 = counters are running while in debug mode.." "0: stop counters in debug mode,1: continue counting in debug mode" newline bitfld.long 0x0 1. "CNT1EN,The CNT1EN bit starts and stops the operation of counter block 1 (UC1 and FRC1). User and privilege mode (read): 0 = counters are stopped 1 = counters are running Privilege mode (write): 0 = stop counters 1 = start counters" "0: stop counters,1: start counters" bitfld.long 0x0 0. "CNT0EN,The CNT0EN bit starts and stops the operation of counter block 0 (UC0 and FRC0). User and privilege mode (read): 0 = counters are stopped 1 = counters are running Privilege mode (write): 0 = stop counters 1 = start counters" "0: stop counters,1: start counters" line.long 0x4 "CFG_TBCTRL," bitfld.long 0x4 1. "INC,This bit determines wether the Free Running Counter 0 is automatically incremented if a failing clock on the NTUx signal is detected. User and privilege mode (read): 0 = FRC0 will not be incremented 1 = FRC0 will be incremented Privilege mode.." "0: Do not increment FRC0 on failing external clock,1: Increment FRC0 on failing external clock" bitfld.long 0x4 0. "TBEXT,The Timebase External bit selects whether the Free Running Counter 0 is clocked by the internal Up Counter 0 or from the external signal NTUx. Since setting the TBEXT bit to 1 resets Up Counter 0 Free Running Counter 0 will not be incremented in.." "0: MUX is switched to internal UC0 clocking scheme,1: MUX is switched to external NTUx clocking scheme" line.long 0x8 "CFG_CAPCTRL," bitfld.long 0x8 1. "CAPCNTR1,This bit determines which external interrupt source triggers a capture event of both UC1 and FRC1. User and privilege mode (read): 0 = capture event is triggered by Capture Event Source 0 1 = capture event is triggered by Capture Event.." "0: enable capture event triggered by Capture Event..,1: enable capture event triggered by Capture Event.." bitfld.long 0x8 0. "CAPCNTR0,This bit determines which external interrupt source triggers a capture event of both UC0 and FRC0. User and privilege mode (read): 0 = capture event is triggered by Capture Event Source 0 1 = capture event is triggered by Capture Event.." "0: enable capture event triggered by Capture Event..,1: enable capture event triggered by Capture Event.." line.long 0xC "CFG_COMPCTRL," bitfld.long 0xC 12. "COMPSEL3,This bit determines the counter with which the compare value hold in compare register 3 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" bitfld.long 0xC 8. "COMPSEL2,This bit determines the counter with which the compare value hold in compare register 2 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" newline bitfld.long 0xC 4. "COMPSEL1,This bit determines the counter with which the compare value hold in compare register 1 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" bitfld.long 0xC 0. "COMPSEL0,This bit determines the counter with which the compare value hold in compare register 0 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" line.long 0x10 "CFG_FRC0," hexmask.long 0x10 0.--31. 1. "FRC0,This registers holds the current value of the Free Running Counter 0 and will be updated continuously. User and privilege mode (read): current value of the counter Privilege mode (write): The counter can be preset by writing to this register." line.long 0x14 "CFG_UC0," hexmask.long 0x14 0.--31. 1. "UC0,This registers holds the current value of the Up Counter 0 and prescales the RTI clock. It will be only updated by a previous read of Free Running Counter 0. This gives effectively a 64 bit read of both counters without having the problem of a.." line.long 0x18 "CFG_CPUC0," hexmask.long 0x18 0.--31. 1. "CPUC0,This registers holds the compare value which is compared with the Up Counter 0. When the compare matches Free Running counter 0 is incremented. The Up Counter is set to zero when the counter value matches the CPUC0 value. The value set in this.." rgroup.long 0x20++0x7 line.long 0x0 "CFG_CAFRC0," hexmask.long 0x0 0.--31. 1. "CAFRC0,This registers captures the current value of the Free Running Counter 0 when a event occurs controlled by the external capture control block. User and privilege mode (read): value of Free Running Counter 0 on a capture event" line.long 0x4 "CFG_CAUC0," hexmask.long 0x4 0.--31. 1. "CAUC0,This registers captures the current value of the Up Counter 0 when a event occurs controlled by the external capture control block. The read sequence has to be the same as with Up Counter 0 and Free Running Counter 0. So the RTICAFRC0 register.." group.long 0x30++0xB line.long 0x0 "CFG_FRC1," hexmask.long 0x0 0.--31. 1. "FRC1,This registers holds the current value of the Free Running Counter 1 and will be updated continuously. User and privilege mode (read): current value of the counter Privilege mode (write): the counter can be preset by writing to this register." line.long 0x4 "CFG_UC1," hexmask.long 0x4 0.--31. 1. "UC1,This registers holds the current value of the Up Counter 1 and prescales the RTI clock. It will be only updated by a previous read of Free Running Counter 1. This gives effectively a 64 bit read of both counters without having the problem of a.." line.long 0x8 "CFG_CPUC1," hexmask.long 0x8 0.--31. 1. "CPUC1,This registers holds the compare value which is compared with the Up Counter 1. When the compare matches Free Running Counter 1 is incremented. The Up Counter is set to zero when the counter value matches the CPUC1 value. The value set in this.." rgroup.long 0x40++0x7 line.long 0x0 "CFG_CAFRC1," hexmask.long 0x0 0.--31. 1. "CAFRC1,This registers captures the current value of the Free Running Counter 1 when a event occurs controlled by the external capture control block. User and privilege mode (read): value of Free Running Counter 1 on a capture event" line.long 0x4 "CFG_CAUC1," hexmask.long 0x4 0.--31. 1. "CAUC1,This registers captures the current value of the Up Counter 1 when a event occurs controlled by the external capture control block. The read sequence has to be the same as with Up Counter 1 and Free Running Counter 1. So the RTICAFRC1 register.." group.long 0x50++0x27 line.long 0x0 "CFG_COMP0," hexmask.long 0x0 0.--31. 1. "COMP0,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x4 "CFG_UDCP0," hexmask.long 0x4 0.--31. 1. "UDCP0,This registers holds a value which is added to the value in the compare 0 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x8 "CFG_COMP1," hexmask.long 0x8 0.--31. 1. "COMP1,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0xC "CFG_UDCP1," hexmask.long 0xC 0.--31. 1. "UDCP1,This registers holds a value which is added to the value in the compare 1 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x10 "CFG_COMP2," hexmask.long 0x10 0.--31. 1. "COMP2,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x14 "CFG_UDCP2," hexmask.long 0x14 0.--31. 1. "UDCP2,This registers holds a value which is added to the value in the compare 2 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x18 "CFG_COMP3," hexmask.long 0x18 0.--31. 1. "COMP3,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x1C "CFG_UDCP3," hexmask.long 0x1C 0.--31. 1. "UDCP3,This registers holds a value which is added to the value in the compare 3 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x20 "CFG_TBLCOMP," hexmask.long 0x20 0.--31. 1. "TBLCOMP,This value determines when the edge detection circuit starts monitoring the NTUx signal. It will be compared with Up Counter 0. User and privilege mode (read): current compare value Privilege mode (write when TBEXT = 0): the compare value is.." line.long 0x24 "CFG_TBHCOMP," hexmask.long 0x24 0.--31. 1. "TBHCOMP,This value determines when the edge detection circuit will stop monitoring the NTUx signal. It will be compared with Up Counter 0. RTITBHCOMP has to be less than RTICPUC0 since RTIUC0 will be reset when RTICPUC0 is reached. Example: The.." group.long 0x80++0xB line.long 0x0 "CFG_SETINT," bitfld.long 0x0 18. "SETOVL1INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 17. "SETOVL0INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 16. "SETTBINT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 11. "SETDMA3,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 10. "SETDMA2,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" bitfld.long 0x0 9. "SETDMA1,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 8. "SETDMA0,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" bitfld.long 0x0 3. "SETINT3,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 2. "SETINT2,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 1. "SETINT1,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 0. "SETINT0,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" line.long 0x4 "CFG_CLEARINT," bitfld.long 0x4 18. "CLEAROVL1INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 17. "CLEAROVL0INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 16. "CLEARTBINT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 11. "CLEARDMA3,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 10. "CLEARDMA2,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" bitfld.long 0x4 9. "CLEARDMA1,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 8. "CLEARDMA0,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" bitfld.long 0x4 3. "CLEARINT3,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 2. "CLEARINT2,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 1. "CLEARINT1,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 0. "CLEARINT0,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" line.long 0x8 "CFG_INTFLAG," bitfld.long 0x8 18. "OVL1INT,User and privilege mode (read): determines if an interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 17. "OVL0INT,User and privilege mode (read): determines if an interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 16. "TBINT,User and privilege mode (read): this flag is set when the TBEXT bit is cleared by detection of a missing external clockedge. It will not be set by clearing TBEXT by software. determines if an interrupt is pending 0 = no interrupt pending 1 =.." "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 3. "INT3,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 2. "INT2,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 1. "INT1,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 0. "INT0,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" group.long 0x90++0xF line.long 0x0 "CFG_DWDCTRL," hexmask.long 0x0 0.--31. 1. "DWDCTRL,User and priviledge mode (read): 0x5312ACED = DWD counter is disabled. This is the default value. 0xA98559DA = DWD counter is enabled Any other value = DWD counter state is unchanged (enabled or disabled) Priviledge mode (write): 0xA98559DA.." line.long 0x4 "CFG_DWDPRLD," hexmask.long.word 0x4 0.--11. 1. "DWDPRLD,User and priviledge mode (read): A read from this register in any CPU mode returns the current preload value. Priviledge mode (write): If the DWD is always enabled after reset is released: The DWD starts counting down from the reset value of.." line.long 0x8 "CFG_WDSTATUS," bitfld.long 0x8 5. "DWWD,This bit denotes whether the time-window defined by the windowed watchdog configuration has been violated or if a wrong key or key sequence was written to service the watchdog. User and priviledge mode (read): 0 = no time-window violation has.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 4. "END,This bit denotes whether the end-time defined by the windowed watchdog configuration has been violated. This bit is effectively a copy of the DWD ST status flag. User and priviledge mode (read): 0 = no end-time window violation has occurred. 1 =.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 3. "START,This bit denotes whether the start-time defined by the windowed watchdog configuration has been violated. This indicates that the WWD was serviced before the service window was opened. User and priviledge mode (read): 0 = no start-time window.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 2. "KEYST,This bit denotes a reset generated by a wrong key or a wrong key-sequence written to the RTIWDKEY register. User and priviledge mode (read): 0 = no wrong key or key-sequence written 1 = wrong key or key-sequence written to RTIWDKEY register.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 1. "DWDST,status flag and is maintained for compatibility reasons. User and priviledge mode (read): 0 = DWD timeout period not expired 1 = DWD timeout period has expired Priviledge mode (write): 0 = leaves the current value unchanged 1 = clears the bit.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 0. "AWDST,User and priviledge mode (read): 0 = AWD pin 0 > 1 threshold not exceeded 1 = AWD pin 0 > 1 threshold exceeded Priviledge mode (write): 0 = leaves the current value unchanged 1 = clears the bit to 0" "0: leaves the current value unchanged,1: clears the bit to 0" line.long 0xC "CFG_WDKEY," hexmask.long.word 0xC 0.--15. 1. "WDKEY,User and privilege mode reads are indeterminate. Privilege mode (write): A write of 0xE51A followed by 0xA35C in two separate write operations defines the Key Sequence and discharges the watchdog capacitor. This also causes the upper 12 bits of.." rgroup.long 0xA0++0x3 line.long 0x0 "CFG_DWDCNTR," hexmask.long 0x0 0.--24. 1. "DWDCNTR,The value of the DWDCNTR after a system reset is 0x002D_FFFF. When the DWD is enabled and the DWD counter starts counting down from this value with an RTICLK1 time base of 3MHz a watchdog reset will be generated in 1 second. User and.." group.long 0xA4++0x1B line.long 0x0 "CFG_WWDRXNCTRL," hexmask.long.byte 0x0 0.--3. 1. "WWDRXN,User and privilege mode (read) privileged mode (write): 0x5 = This is the default value. The windowed watchdog will cause a reset if the watchdog is serviced outside the time window defined by the configuration or if the watchdog is not.." line.long 0x4 "CFG_WWDSIZECTRL," hexmask.long 0x4 0.--31. 1. "WWDSIZE,User and privilege mode (read) privileged mode (write): Table 3. Windowed Watchdog Window Size Configuration Value written to WWDSIZE Window Size 0x00000005 100% (The functionality is the same as the standard time-out digital watchdog.).." line.long 0x8 "CFG_INTCLRENABLE," hexmask.long.byte 0x8 24.--27. 1. "INTCLRENABLE3,Enables the auto-clear functionality on the compare 3 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 3 interrupt is disabled. Any other value = Auto-clear for compare 3 interrupt is enabled. Privileged mode.." hexmask.long.byte 0x8 16.--19. 1. "INTCLRENABLE2,Enables the auto-clear functionality on the compare 2 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 2 interrupt is disabled. Any other value = Auto-clear for compare 2 interrupt is enabled. Privileged mode.." newline hexmask.long.byte 0x8 8.--11. 1. "INTCLRENABLE1,Enables the auto-clear functionality on the compare 1 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 1 interrupt is disabled. Any other value = Auto-clear for compare 1 interrupt is enabled. Privileged mode.." hexmask.long.byte 0x8 0.--3. 1. "INTCLRENABLE0,Enables the auto-clear functionality on the compare 0 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 0 interrupt is disabled. Any other value = Auto-clear for compare 0 interrupt is enabled. Privileged mode.." line.long 0xC "CFG_COMP0CLR," hexmask.long 0xC 0.--31. 1. "COMP0CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 0 interrupt or DMA request line is cleared. User and privilege.." line.long 0x10 "CFG_COMP1CLR," hexmask.long 0x10 0.--31. 1. "COMP1CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 1 interrupt or DMA request line is cleared. User and privilege.." line.long 0x14 "CFG_COMP2CLR," hexmask.long 0x14 0.--31. 1. "COMP2CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 2 interrupt or DMA request line is cleared. User and privilege.." line.long 0x18 "CFG_COMP3CLR," hexmask.long 0x18 0.--31. 1. "COMP3CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 3 interrupt or DMA request line is cleared. User and privilege.." tree.end tree "RTI3_CFG (RTI3_CFG)" base ad:0xE030000 group.long 0x0++0x1B line.long 0x0 "CFG_GCTRL," hexmask.long.byte 0x0 16.--19. 1. "NTUSEL,These bits determine which NTU input signal is used as external timebase. There are up to four inputs supported with four valid selection combinations. Any invalid selection value written to the NTUSEL bit-field will result in a TIED LOW being.." bitfld.long 0x0 15. "COS,This bit determines if both counters are stopped when the device goes into debug mode or if they continue counting. User and privilege mode (read): 0 = counters are stopped while in debug mode 1 = counters are running while in debug mode.." "0: stop counters in debug mode,1: continue counting in debug mode" newline bitfld.long 0x0 1. "CNT1EN,The CNT1EN bit starts and stops the operation of counter block 1 (UC1 and FRC1). User and privilege mode (read): 0 = counters are stopped 1 = counters are running Privilege mode (write): 0 = stop counters 1 = start counters" "0: stop counters,1: start counters" bitfld.long 0x0 0. "CNT0EN,The CNT0EN bit starts and stops the operation of counter block 0 (UC0 and FRC0). User and privilege mode (read): 0 = counters are stopped 1 = counters are running Privilege mode (write): 0 = stop counters 1 = start counters" "0: stop counters,1: start counters" line.long 0x4 "CFG_TBCTRL," bitfld.long 0x4 1. "INC,This bit determines wether the Free Running Counter 0 is automatically incremented if a failing clock on the NTUx signal is detected. User and privilege mode (read): 0 = FRC0 will not be incremented 1 = FRC0 will be incremented Privilege mode.." "0: Do not increment FRC0 on failing external clock,1: Increment FRC0 on failing external clock" bitfld.long 0x4 0. "TBEXT,The Timebase External bit selects whether the Free Running Counter 0 is clocked by the internal Up Counter 0 or from the external signal NTUx. Since setting the TBEXT bit to 1 resets Up Counter 0 Free Running Counter 0 will not be incremented in.." "0: MUX is switched to internal UC0 clocking scheme,1: MUX is switched to external NTUx clocking scheme" line.long 0x8 "CFG_CAPCTRL," bitfld.long 0x8 1. "CAPCNTR1,This bit determines which external interrupt source triggers a capture event of both UC1 and FRC1. User and privilege mode (read): 0 = capture event is triggered by Capture Event Source 0 1 = capture event is triggered by Capture Event.." "0: enable capture event triggered by Capture Event..,1: enable capture event triggered by Capture Event.." bitfld.long 0x8 0. "CAPCNTR0,This bit determines which external interrupt source triggers a capture event of both UC0 and FRC0. User and privilege mode (read): 0 = capture event is triggered by Capture Event Source 0 1 = capture event is triggered by Capture Event.." "0: enable capture event triggered by Capture Event..,1: enable capture event triggered by Capture Event.." line.long 0xC "CFG_COMPCTRL," bitfld.long 0xC 12. "COMPSEL3,This bit determines the counter with which the compare value hold in compare register 3 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" bitfld.long 0xC 8. "COMPSEL2,This bit determines the counter with which the compare value hold in compare register 2 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" newline bitfld.long 0xC 4. "COMPSEL1,This bit determines the counter with which the compare value hold in compare register 1 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" bitfld.long 0xC 0. "COMPSEL0,This bit determines the counter with which the compare value hold in compare register 0 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" line.long 0x10 "CFG_FRC0," hexmask.long 0x10 0.--31. 1. "FRC0,This registers holds the current value of the Free Running Counter 0 and will be updated continuously. User and privilege mode (read): current value of the counter Privilege mode (write): The counter can be preset by writing to this register." line.long 0x14 "CFG_UC0," hexmask.long 0x14 0.--31. 1. "UC0,This registers holds the current value of the Up Counter 0 and prescales the RTI clock. It will be only updated by a previous read of Free Running Counter 0. This gives effectively a 64 bit read of both counters without having the problem of a.." line.long 0x18 "CFG_CPUC0," hexmask.long 0x18 0.--31. 1. "CPUC0,This registers holds the compare value which is compared with the Up Counter 0. When the compare matches Free Running counter 0 is incremented. The Up Counter is set to zero when the counter value matches the CPUC0 value. The value set in this.." rgroup.long 0x20++0x7 line.long 0x0 "CFG_CAFRC0," hexmask.long 0x0 0.--31. 1. "CAFRC0,This registers captures the current value of the Free Running Counter 0 when a event occurs controlled by the external capture control block. User and privilege mode (read): value of Free Running Counter 0 on a capture event" line.long 0x4 "CFG_CAUC0," hexmask.long 0x4 0.--31. 1. "CAUC0,This registers captures the current value of the Up Counter 0 when a event occurs controlled by the external capture control block. The read sequence has to be the same as with Up Counter 0 and Free Running Counter 0. So the RTICAFRC0 register.." group.long 0x30++0xB line.long 0x0 "CFG_FRC1," hexmask.long 0x0 0.--31. 1. "FRC1,This registers holds the current value of the Free Running Counter 1 and will be updated continuously. User and privilege mode (read): current value of the counter Privilege mode (write): the counter can be preset by writing to this register." line.long 0x4 "CFG_UC1," hexmask.long 0x4 0.--31. 1. "UC1,This registers holds the current value of the Up Counter 1 and prescales the RTI clock. It will be only updated by a previous read of Free Running Counter 1. This gives effectively a 64 bit read of both counters without having the problem of a.." line.long 0x8 "CFG_CPUC1," hexmask.long 0x8 0.--31. 1. "CPUC1,This registers holds the compare value which is compared with the Up Counter 1. When the compare matches Free Running Counter 1 is incremented. The Up Counter is set to zero when the counter value matches the CPUC1 value. The value set in this.." rgroup.long 0x40++0x7 line.long 0x0 "CFG_CAFRC1," hexmask.long 0x0 0.--31. 1. "CAFRC1,This registers captures the current value of the Free Running Counter 1 when a event occurs controlled by the external capture control block. User and privilege mode (read): value of Free Running Counter 1 on a capture event" line.long 0x4 "CFG_CAUC1," hexmask.long 0x4 0.--31. 1. "CAUC1,This registers captures the current value of the Up Counter 1 when a event occurs controlled by the external capture control block. The read sequence has to be the same as with Up Counter 1 and Free Running Counter 1. So the RTICAFRC1 register.." group.long 0x50++0x27 line.long 0x0 "CFG_COMP0," hexmask.long 0x0 0.--31. 1. "COMP0,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x4 "CFG_UDCP0," hexmask.long 0x4 0.--31. 1. "UDCP0,This registers holds a value which is added to the value in the compare 0 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x8 "CFG_COMP1," hexmask.long 0x8 0.--31. 1. "COMP1,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0xC "CFG_UDCP1," hexmask.long 0xC 0.--31. 1. "UDCP1,This registers holds a value which is added to the value in the compare 1 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x10 "CFG_COMP2," hexmask.long 0x10 0.--31. 1. "COMP2,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x14 "CFG_UDCP2," hexmask.long 0x14 0.--31. 1. "UDCP2,This registers holds a value which is added to the value in the compare 2 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x18 "CFG_COMP3," hexmask.long 0x18 0.--31. 1. "COMP3,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x1C "CFG_UDCP3," hexmask.long 0x1C 0.--31. 1. "UDCP3,This registers holds a value which is added to the value in the compare 3 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x20 "CFG_TBLCOMP," hexmask.long 0x20 0.--31. 1. "TBLCOMP,This value determines when the edge detection circuit starts monitoring the NTUx signal. It will be compared with Up Counter 0. User and privilege mode (read): current compare value Privilege mode (write when TBEXT = 0): the compare value is.." line.long 0x24 "CFG_TBHCOMP," hexmask.long 0x24 0.--31. 1. "TBHCOMP,This value determines when the edge detection circuit will stop monitoring the NTUx signal. It will be compared with Up Counter 0. RTITBHCOMP has to be less than RTICPUC0 since RTIUC0 will be reset when RTICPUC0 is reached. Example: The.." group.long 0x80++0xB line.long 0x0 "CFG_SETINT," bitfld.long 0x0 18. "SETOVL1INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 17. "SETOVL0INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 16. "SETTBINT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 11. "SETDMA3,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 10. "SETDMA2,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" bitfld.long 0x0 9. "SETDMA1,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 8. "SETDMA0,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" bitfld.long 0x0 3. "SETINT3,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 2. "SETINT2,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 1. "SETINT1,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 0. "SETINT0,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" line.long 0x4 "CFG_CLEARINT," bitfld.long 0x4 18. "CLEAROVL1INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 17. "CLEAROVL0INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 16. "CLEARTBINT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 11. "CLEARDMA3,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 10. "CLEARDMA2,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" bitfld.long 0x4 9. "CLEARDMA1,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 8. "CLEARDMA0,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" bitfld.long 0x4 3. "CLEARINT3,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 2. "CLEARINT2,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 1. "CLEARINT1,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 0. "CLEARINT0,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" line.long 0x8 "CFG_INTFLAG," bitfld.long 0x8 18. "OVL1INT,User and privilege mode (read): determines if an interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 17. "OVL0INT,User and privilege mode (read): determines if an interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 16. "TBINT,User and privilege mode (read): this flag is set when the TBEXT bit is cleared by detection of a missing external clockedge. It will not be set by clearing TBEXT by software. determines if an interrupt is pending 0 = no interrupt pending 1 =.." "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 3. "INT3,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 2. "INT2,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 1. "INT1,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 0. "INT0,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" group.long 0x90++0xF line.long 0x0 "CFG_DWDCTRL," hexmask.long 0x0 0.--31. 1. "DWDCTRL,User and priviledge mode (read): 0x5312ACED = DWD counter is disabled. This is the default value. 0xA98559DA = DWD counter is enabled Any other value = DWD counter state is unchanged (enabled or disabled) Priviledge mode (write): 0xA98559DA.." line.long 0x4 "CFG_DWDPRLD," hexmask.long.word 0x4 0.--11. 1. "DWDPRLD,User and priviledge mode (read): A read from this register in any CPU mode returns the current preload value. Priviledge mode (write): If the DWD is always enabled after reset is released: The DWD starts counting down from the reset value of.." line.long 0x8 "CFG_WDSTATUS," bitfld.long 0x8 5. "DWWD,This bit denotes whether the time-window defined by the windowed watchdog configuration has been violated or if a wrong key or key sequence was written to service the watchdog. User and priviledge mode (read): 0 = no time-window violation has.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 4. "END,This bit denotes whether the end-time defined by the windowed watchdog configuration has been violated. This bit is effectively a copy of the DWD ST status flag. User and priviledge mode (read): 0 = no end-time window violation has occurred. 1 =.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 3. "START,This bit denotes whether the start-time defined by the windowed watchdog configuration has been violated. This indicates that the WWD was serviced before the service window was opened. User and priviledge mode (read): 0 = no start-time window.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 2. "KEYST,This bit denotes a reset generated by a wrong key or a wrong key-sequence written to the RTIWDKEY register. User and priviledge mode (read): 0 = no wrong key or key-sequence written 1 = wrong key or key-sequence written to RTIWDKEY register.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 1. "DWDST,status flag and is maintained for compatibility reasons. User and priviledge mode (read): 0 = DWD timeout period not expired 1 = DWD timeout period has expired Priviledge mode (write): 0 = leaves the current value unchanged 1 = clears the bit.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 0. "AWDST,User and priviledge mode (read): 0 = AWD pin 0 > 1 threshold not exceeded 1 = AWD pin 0 > 1 threshold exceeded Priviledge mode (write): 0 = leaves the current value unchanged 1 = clears the bit to 0" "0: leaves the current value unchanged,1: clears the bit to 0" line.long 0xC "CFG_WDKEY," hexmask.long.word 0xC 0.--15. 1. "WDKEY,User and privilege mode reads are indeterminate. Privilege mode (write): A write of 0xE51A followed by 0xA35C in two separate write operations defines the Key Sequence and discharges the watchdog capacitor. This also causes the upper 12 bits of.." rgroup.long 0xA0++0x3 line.long 0x0 "CFG_DWDCNTR," hexmask.long 0x0 0.--24. 1. "DWDCNTR,The value of the DWDCNTR after a system reset is 0x002D_FFFF. When the DWD is enabled and the DWD counter starts counting down from this value with an RTICLK1 time base of 3MHz a watchdog reset will be generated in 1 second. User and.." group.long 0xA4++0x1B line.long 0x0 "CFG_WWDRXNCTRL," hexmask.long.byte 0x0 0.--3. 1. "WWDRXN,User and privilege mode (read) privileged mode (write): 0x5 = This is the default value. The windowed watchdog will cause a reset if the watchdog is serviced outside the time window defined by the configuration or if the watchdog is not.." line.long 0x4 "CFG_WWDSIZECTRL," hexmask.long 0x4 0.--31. 1. "WWDSIZE,User and privilege mode (read) privileged mode (write): Table 3. Windowed Watchdog Window Size Configuration Value written to WWDSIZE Window Size 0x00000005 100% (The functionality is the same as the standard time-out digital watchdog.).." line.long 0x8 "CFG_INTCLRENABLE," hexmask.long.byte 0x8 24.--27. 1. "INTCLRENABLE3,Enables the auto-clear functionality on the compare 3 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 3 interrupt is disabled. Any other value = Auto-clear for compare 3 interrupt is enabled. Privileged mode.." hexmask.long.byte 0x8 16.--19. 1. "INTCLRENABLE2,Enables the auto-clear functionality on the compare 2 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 2 interrupt is disabled. Any other value = Auto-clear for compare 2 interrupt is enabled. Privileged mode.." newline hexmask.long.byte 0x8 8.--11. 1. "INTCLRENABLE1,Enables the auto-clear functionality on the compare 1 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 1 interrupt is disabled. Any other value = Auto-clear for compare 1 interrupt is enabled. Privileged mode.." hexmask.long.byte 0x8 0.--3. 1. "INTCLRENABLE0,Enables the auto-clear functionality on the compare 0 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 0 interrupt is disabled. Any other value = Auto-clear for compare 0 interrupt is enabled. Privileged mode.." line.long 0xC "CFG_COMP0CLR," hexmask.long 0xC 0.--31. 1. "COMP0CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 0 interrupt or DMA request line is cleared. User and privilege.." line.long 0x10 "CFG_COMP1CLR," hexmask.long 0x10 0.--31. 1. "COMP1CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 1 interrupt or DMA request line is cleared. User and privilege.." line.long 0x14 "CFG_COMP2CLR," hexmask.long 0x14 0.--31. 1. "COMP2CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 2 interrupt or DMA request line is cleared. User and privilege.." line.long 0x18 "CFG_COMP3CLR," hexmask.long 0x18 0.--31. 1. "COMP3CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 3 interrupt or DMA request line is cleared. User and privilege.." tree.end tree "RTI15_CFG (RTI15_CFG)" base ad:0xE0F0000 group.long 0x0++0x1B line.long 0x0 "CFG_GCTRL," hexmask.long.byte 0x0 16.--19. 1. "NTUSEL,These bits determine which NTU input signal is used as external timebase. There are up to four inputs supported with four valid selection combinations. Any invalid selection value written to the NTUSEL bit-field will result in a TIED LOW being.." bitfld.long 0x0 15. "COS,This bit determines if both counters are stopped when the device goes into debug mode or if they continue counting. User and privilege mode (read): 0 = counters are stopped while in debug mode 1 = counters are running while in debug mode.." "0: stop counters in debug mode,1: continue counting in debug mode" newline bitfld.long 0x0 1. "CNT1EN,The CNT1EN bit starts and stops the operation of counter block 1 (UC1 and FRC1). User and privilege mode (read): 0 = counters are stopped 1 = counters are running Privilege mode (write): 0 = stop counters 1 = start counters" "0: stop counters,1: start counters" bitfld.long 0x0 0. "CNT0EN,The CNT0EN bit starts and stops the operation of counter block 0 (UC0 and FRC0). User and privilege mode (read): 0 = counters are stopped 1 = counters are running Privilege mode (write): 0 = stop counters 1 = start counters" "0: stop counters,1: start counters" line.long 0x4 "CFG_TBCTRL," bitfld.long 0x4 1. "INC,This bit determines wether the Free Running Counter 0 is automatically incremented if a failing clock on the NTUx signal is detected. User and privilege mode (read): 0 = FRC0 will not be incremented 1 = FRC0 will be incremented Privilege mode.." "0: Do not increment FRC0 on failing external clock,1: Increment FRC0 on failing external clock" bitfld.long 0x4 0. "TBEXT,The Timebase External bit selects whether the Free Running Counter 0 is clocked by the internal Up Counter 0 or from the external signal NTUx. Since setting the TBEXT bit to 1 resets Up Counter 0 Free Running Counter 0 will not be incremented in.." "0: MUX is switched to internal UC0 clocking scheme,1: MUX is switched to external NTUx clocking scheme" line.long 0x8 "CFG_CAPCTRL," bitfld.long 0x8 1. "CAPCNTR1,This bit determines which external interrupt source triggers a capture event of both UC1 and FRC1. User and privilege mode (read): 0 = capture event is triggered by Capture Event Source 0 1 = capture event is triggered by Capture Event.." "0: enable capture event triggered by Capture Event..,1: enable capture event triggered by Capture Event.." bitfld.long 0x8 0. "CAPCNTR0,This bit determines which external interrupt source triggers a capture event of both UC0 and FRC0. User and privilege mode (read): 0 = capture event is triggered by Capture Event Source 0 1 = capture event is triggered by Capture Event.." "0: enable capture event triggered by Capture Event..,1: enable capture event triggered by Capture Event.." line.long 0xC "CFG_COMPCTRL," bitfld.long 0xC 12. "COMPSEL3,This bit determines the counter with which the compare value hold in compare register 3 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" bitfld.long 0xC 8. "COMPSEL2,This bit determines the counter with which the compare value hold in compare register 2 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" newline bitfld.long 0xC 4. "COMPSEL1,This bit determines the counter with which the compare value hold in compare register 1 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" bitfld.long 0xC 0. "COMPSEL0,This bit determines the counter with which the compare value hold in compare register 0 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" line.long 0x10 "CFG_FRC0," hexmask.long 0x10 0.--31. 1. "FRC0,This registers holds the current value of the Free Running Counter 0 and will be updated continuously. User and privilege mode (read): current value of the counter Privilege mode (write): The counter can be preset by writing to this register." line.long 0x14 "CFG_UC0," hexmask.long 0x14 0.--31. 1. "UC0,This registers holds the current value of the Up Counter 0 and prescales the RTI clock. It will be only updated by a previous read of Free Running Counter 0. This gives effectively a 64 bit read of both counters without having the problem of a.." line.long 0x18 "CFG_CPUC0," hexmask.long 0x18 0.--31. 1. "CPUC0,This registers holds the compare value which is compared with the Up Counter 0. When the compare matches Free Running counter 0 is incremented. The Up Counter is set to zero when the counter value matches the CPUC0 value. The value set in this.." rgroup.long 0x20++0x7 line.long 0x0 "CFG_CAFRC0," hexmask.long 0x0 0.--31. 1. "CAFRC0,This registers captures the current value of the Free Running Counter 0 when a event occurs controlled by the external capture control block. User and privilege mode (read): value of Free Running Counter 0 on a capture event" line.long 0x4 "CFG_CAUC0," hexmask.long 0x4 0.--31. 1. "CAUC0,This registers captures the current value of the Up Counter 0 when a event occurs controlled by the external capture control block. The read sequence has to be the same as with Up Counter 0 and Free Running Counter 0. So the RTICAFRC0 register.." group.long 0x30++0xB line.long 0x0 "CFG_FRC1," hexmask.long 0x0 0.--31. 1. "FRC1,This registers holds the current value of the Free Running Counter 1 and will be updated continuously. User and privilege mode (read): current value of the counter Privilege mode (write): the counter can be preset by writing to this register." line.long 0x4 "CFG_UC1," hexmask.long 0x4 0.--31. 1. "UC1,This registers holds the current value of the Up Counter 1 and prescales the RTI clock. It will be only updated by a previous read of Free Running Counter 1. This gives effectively a 64 bit read of both counters without having the problem of a.." line.long 0x8 "CFG_CPUC1," hexmask.long 0x8 0.--31. 1. "CPUC1,This registers holds the compare value which is compared with the Up Counter 1. When the compare matches Free Running Counter 1 is incremented. The Up Counter is set to zero when the counter value matches the CPUC1 value. The value set in this.." rgroup.long 0x40++0x7 line.long 0x0 "CFG_CAFRC1," hexmask.long 0x0 0.--31. 1. "CAFRC1,This registers captures the current value of the Free Running Counter 1 when a event occurs controlled by the external capture control block. User and privilege mode (read): value of Free Running Counter 1 on a capture event" line.long 0x4 "CFG_CAUC1," hexmask.long 0x4 0.--31. 1. "CAUC1,This registers captures the current value of the Up Counter 1 when a event occurs controlled by the external capture control block. The read sequence has to be the same as with Up Counter 1 and Free Running Counter 1. So the RTICAFRC1 register.." group.long 0x50++0x27 line.long 0x0 "CFG_COMP0," hexmask.long 0x0 0.--31. 1. "COMP0,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x4 "CFG_UDCP0," hexmask.long 0x4 0.--31. 1. "UDCP0,This registers holds a value which is added to the value in the compare 0 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x8 "CFG_COMP1," hexmask.long 0x8 0.--31. 1. "COMP1,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0xC "CFG_UDCP1," hexmask.long 0xC 0.--31. 1. "UDCP1,This registers holds a value which is added to the value in the compare 1 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x10 "CFG_COMP2," hexmask.long 0x10 0.--31. 1. "COMP2,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x14 "CFG_UDCP2," hexmask.long 0x14 0.--31. 1. "UDCP2,This registers holds a value which is added to the value in the compare 2 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x18 "CFG_COMP3," hexmask.long 0x18 0.--31. 1. "COMP3,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x1C "CFG_UDCP3," hexmask.long 0x1C 0.--31. 1. "UDCP3,This registers holds a value which is added to the value in the compare 3 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x20 "CFG_TBLCOMP," hexmask.long 0x20 0.--31. 1. "TBLCOMP,This value determines when the edge detection circuit starts monitoring the NTUx signal. It will be compared with Up Counter 0. User and privilege mode (read): current compare value Privilege mode (write when TBEXT = 0): the compare value is.." line.long 0x24 "CFG_TBHCOMP," hexmask.long 0x24 0.--31. 1. "TBHCOMP,This value determines when the edge detection circuit will stop monitoring the NTUx signal. It will be compared with Up Counter 0. RTITBHCOMP has to be less than RTICPUC0 since RTIUC0 will be reset when RTICPUC0 is reached. Example: The.." group.long 0x80++0xB line.long 0x0 "CFG_SETINT," bitfld.long 0x0 18. "SETOVL1INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 17. "SETOVL0INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 16. "SETTBINT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 11. "SETDMA3,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 10. "SETDMA2,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" bitfld.long 0x0 9. "SETDMA1,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 8. "SETDMA0,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" bitfld.long 0x0 3. "SETINT3,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 2. "SETINT2,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 1. "SETINT1,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 0. "SETINT0,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" line.long 0x4 "CFG_CLEARINT," bitfld.long 0x4 18. "CLEAROVL1INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 17. "CLEAROVL0INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 16. "CLEARTBINT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 11. "CLEARDMA3,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 10. "CLEARDMA2,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" bitfld.long 0x4 9. "CLEARDMA1,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 8. "CLEARDMA0,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" bitfld.long 0x4 3. "CLEARINT3,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 2. "CLEARINT2,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 1. "CLEARINT1,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 0. "CLEARINT0,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" line.long 0x8 "CFG_INTFLAG," bitfld.long 0x8 18. "OVL1INT,User and privilege mode (read): determines if an interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 17. "OVL0INT,User and privilege mode (read): determines if an interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 16. "TBINT,User and privilege mode (read): this flag is set when the TBEXT bit is cleared by detection of a missing external clockedge. It will not be set by clearing TBEXT by software. determines if an interrupt is pending 0 = no interrupt pending 1 =.." "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 3. "INT3,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 2. "INT2,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 1. "INT1,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 0. "INT0,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" group.long 0x90++0xF line.long 0x0 "CFG_DWDCTRL," hexmask.long 0x0 0.--31. 1. "DWDCTRL,User and priviledge mode (read): 0x5312ACED = DWD counter is disabled. This is the default value. 0xA98559DA = DWD counter is enabled Any other value = DWD counter state is unchanged (enabled or disabled) Priviledge mode (write): 0xA98559DA.." line.long 0x4 "CFG_DWDPRLD," hexmask.long.word 0x4 0.--11. 1. "DWDPRLD,User and priviledge mode (read): A read from this register in any CPU mode returns the current preload value. Priviledge mode (write): If the DWD is always enabled after reset is released: The DWD starts counting down from the reset value of.." line.long 0x8 "CFG_WDSTATUS," bitfld.long 0x8 5. "DWWD,This bit denotes whether the time-window defined by the windowed watchdog configuration has been violated or if a wrong key or key sequence was written to service the watchdog. User and priviledge mode (read): 0 = no time-window violation has.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 4. "END,This bit denotes whether the end-time defined by the windowed watchdog configuration has been violated. This bit is effectively a copy of the DWD ST status flag. User and priviledge mode (read): 0 = no end-time window violation has occurred. 1 =.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 3. "START,This bit denotes whether the start-time defined by the windowed watchdog configuration has been violated. This indicates that the WWD was serviced before the service window was opened. User and priviledge mode (read): 0 = no start-time window.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 2. "KEYST,This bit denotes a reset generated by a wrong key or a wrong key-sequence written to the RTIWDKEY register. User and priviledge mode (read): 0 = no wrong key or key-sequence written 1 = wrong key or key-sequence written to RTIWDKEY register.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 1. "DWDST,status flag and is maintained for compatibility reasons. User and priviledge mode (read): 0 = DWD timeout period not expired 1 = DWD timeout period has expired Priviledge mode (write): 0 = leaves the current value unchanged 1 = clears the bit.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 0. "AWDST,User and priviledge mode (read): 0 = AWD pin 0 > 1 threshold not exceeded 1 = AWD pin 0 > 1 threshold exceeded Priviledge mode (write): 0 = leaves the current value unchanged 1 = clears the bit to 0" "0: leaves the current value unchanged,1: clears the bit to 0" line.long 0xC "CFG_WDKEY," hexmask.long.word 0xC 0.--15. 1. "WDKEY,User and privilege mode reads are indeterminate. Privilege mode (write): A write of 0xE51A followed by 0xA35C in two separate write operations defines the Key Sequence and discharges the watchdog capacitor. This also causes the upper 12 bits of.." rgroup.long 0xA0++0x3 line.long 0x0 "CFG_DWDCNTR," hexmask.long 0x0 0.--24. 1. "DWDCNTR,The value of the DWDCNTR after a system reset is 0x002D_FFFF. When the DWD is enabled and the DWD counter starts counting down from this value with an RTICLK1 time base of 3MHz a watchdog reset will be generated in 1 second. User and.." group.long 0xA4++0x1B line.long 0x0 "CFG_WWDRXNCTRL," hexmask.long.byte 0x0 0.--3. 1. "WWDRXN,User and privilege mode (read) privileged mode (write): 0x5 = This is the default value. The windowed watchdog will cause a reset if the watchdog is serviced outside the time window defined by the configuration or if the watchdog is not.." line.long 0x4 "CFG_WWDSIZECTRL," hexmask.long 0x4 0.--31. 1. "WWDSIZE,User and privilege mode (read) privileged mode (write): Table 3. Windowed Watchdog Window Size Configuration Value written to WWDSIZE Window Size 0x00000005 100% (The functionality is the same as the standard time-out digital watchdog.).." line.long 0x8 "CFG_INTCLRENABLE," hexmask.long.byte 0x8 24.--27. 1. "INTCLRENABLE3,Enables the auto-clear functionality on the compare 3 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 3 interrupt is disabled. Any other value = Auto-clear for compare 3 interrupt is enabled. Privileged mode.." hexmask.long.byte 0x8 16.--19. 1. "INTCLRENABLE2,Enables the auto-clear functionality on the compare 2 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 2 interrupt is disabled. Any other value = Auto-clear for compare 2 interrupt is enabled. Privileged mode.." newline hexmask.long.byte 0x8 8.--11. 1. "INTCLRENABLE1,Enables the auto-clear functionality on the compare 1 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 1 interrupt is disabled. Any other value = Auto-clear for compare 1 interrupt is enabled. Privileged mode.." hexmask.long.byte 0x8 0.--3. 1. "INTCLRENABLE0,Enables the auto-clear functionality on the compare 0 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 0 interrupt is disabled. Any other value = Auto-clear for compare 0 interrupt is enabled. Privileged mode.." line.long 0xC "CFG_COMP0CLR," hexmask.long 0xC 0.--31. 1. "COMP0CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 0 interrupt or DMA request line is cleared. User and privilege.." line.long 0x10 "CFG_COMP1CLR," hexmask.long 0x10 0.--31. 1. "COMP1CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 1 interrupt or DMA request line is cleared. User and privilege.." line.long 0x14 "CFG_COMP2CLR," hexmask.long 0x14 0.--31. 1. "COMP2CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 2 interrupt or DMA request line is cleared. User and privilege.." line.long 0x18 "CFG_COMP3CLR," hexmask.long 0x18 0.--31. 1. "COMP3CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 3 interrupt or DMA request line is cleared. User and privilege.." tree.end tree.end tree "SA3_SS0" base ad:0x0 tree "SA3_SS0_DMSS_ECCAGGR_0_ECCAGGR_CFG (SA3_SS0_DMSS_ECCAGGR_0_ECCAGGR_CFG)" base ad:0x43702000 rgroup.long 0x0++0x3 line.long 0x0 "__ECCAGGR_CFG__REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "__ECCAGGR_CFG__REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "__ECCAGGR_CFG__REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "__ECCAGGR_CFG__REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0xB line.long 0x0 "__ECCAGGR_CFG__REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "__ECCAGGR_CFG__REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 31. "DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_BRIDGE_DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_BRIDGE_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_psilcfg_cfgstrm_bridge_dmss_hsm_psilss_psilcfg_cfgstrm_bridge_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 30. "DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_BRIDGE_DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_BRIDGE_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_pktdma_cfgstrm_bridge_dmss_hsm_psilss_pktdma_cfgstrm_bridge_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 29. "DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_SAFEG_DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_SAFEG_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_psilcfg_cfgstrm_safeg_dmss_hsm_psilss_psilcfg_cfgstrm_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 28. "DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_SAFEG_DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_SAFEG_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_pktdma_cfgstrm_safeg_dmss_hsm_psilss_pktdma_cfgstrm_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 27. "DMSS_HSM_PSILSS_PKTDMA_STRM_SAFEG_DMSS_HSM_PSILSS_PKTDMA_STRM_SAFEG_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_pktdma_strm_safeg_dmss_hsm_psilss_pktdma_strm_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 26. "DMSS_HSM_PSILSS_SAUL0_PSIL_SAFEG_DMSS_HSM_PSILSS_SAUL0_PSIL_SAFEG_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_saul0_psil_safeg_dmss_hsm_psilss_saul0_psil_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 25. "MSRAM_BUSECC_PEND,Interrupt Pending Status for msram_busecc_pend" "0,1" newline bitfld.long 0x4 24. "MSRAM_RAMECC0_PEND,Interrupt Pending Status for msram_ramecc0_pend" "0,1" newline bitfld.long 0x4 23. "CBASS_VD2GCLK_EDC_CTRL_CBASS_INT_VD2GBUSECC_BUSECC_PEND,Interrupt Pending Status for cbass_vd2gclk_edc_ctrl_cbass_int_vd2gbusecc_busecc_pend" "0,1" newline bitfld.long 0x4 22. "CBASS_SCR_SCR_DMSS_HSM_IPCSS_CBASS_SCR_SCR_EDC_CTRL_BUSECC_DMSS_HSM_IPCSS_CBASS_SCR_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for cbass_scr_scr_dmss_hsm_ipcss_cbass_scr_scr_edc_ctrl_busecc_dmss_hsm_ipcss_cbass_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 21. "CBASS_IPCSS_VBM_DST_M2M_BRIDGE_DMSS_HSM_IPCSS_CBASS_IPCSS_VBM_DST_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_DMSS_HSM_IPCSS_CBASS_IPCSS_VBM_DST_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 20. "SEC_PROXY_DMSS_HSM_IPCSS_SEC_PROXY_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sec_proxy_dmss_hsm_ipcss_sec_proxy_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 19. "SEC_PROXY_BUFRAM_RAMECC_PEND,Interrupt Pending Status for sec_proxy_bufram_ramecc_pend" "0,1" newline bitfld.long 0x4 18. "SEC_PROXY_STRAM_RAMECC_PEND,Interrupt Pending Status for sec_proxy_stram_ramecc_pend" "0,1" newline bitfld.long 0x4 17. "RINGACC_STRAM_RAMECC_PEND,Interrupt Pending Status for ringacc_stram_ramecc_pend" "0,1" newline bitfld.long 0x4 16. "RINGACC_DMSS_HSM_IPCSS_RINGACC_EDC_CTRL_BUSECC_1_PEND,Interrupt Pending Status for ringacc_dmss_hsm_ipcss_ringacc_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x4 15. "RINGACC_DMSS_HSM_IPCSS_RINGACC_EDC_CTRL_BUSECC_0_PEND,Interrupt Pending Status for ringacc_dmss_hsm_ipcss_ringacc_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x4 14. "MAP_RAMECC_PEND,Interrupt Pending Status for map_ramecc_pend" "0,1" newline bitfld.long 0x4 13. "SR_RAMECC_PEND,Interrupt Pending Status for sr_ramecc_pend" "0,1" newline bitfld.long 0x4 12. "DMSS_HSM_INTAGGR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_intaggr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 11. "DMSS_HSM_PKTDMA_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_pktdma_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 10. "PKTDMA_RNGOCC_RAMECC_PEND,Interrupt Pending Status for pktdma_rngocc_ramecc_pend" "0,1" newline bitfld.long 0x4 9. "PKTDMA_STS_RAMECC1_PEND,Interrupt Pending Status for pktdma_sts_ramecc1_pend" "0,1" newline bitfld.long 0x4 8. "PKTDMA_STS_RAMECC0_PEND,Interrupt Pending Status for pktdma_sts_ramecc0_pend" "0,1" newline bitfld.long 0x4 7. "PKTDMA_RPCF2_RAMECC_PEND,Interrupt Pending Status for pktdma_rpcf2_ramecc_pend" "0,1" newline bitfld.long 0x4 6. "PKTDMA_RPCF1_RAMECC_PEND,Interrupt Pending Status for pktdma_rpcf1_ramecc_pend" "0,1" newline bitfld.long 0x4 5. "PKTDMA_RPCF0_RAMECC_PEND,Interrupt Pending Status for pktdma_rpcf0_ramecc_pend" "0,1" newline bitfld.long 0x4 4. "PKTDMA_TPCF1_RAMECC_PEND,Interrupt Pending Status for pktdma_tpcf1_ramecc_pend" "0,1" newline bitfld.long 0x4 3. "PKTDMA_TPCF0_RAMECC_PEND,Interrupt Pending Status for pktdma_tpcf0_ramecc_pend" "0,1" newline bitfld.long 0x4 2. "PKTDMA_STATE_RAMECC_PEND,Interrupt Pending Status for pktdma_state_ramecc_pend" "0,1" newline bitfld.long 0x4 1. "PKTDMA_CFG_RAMECC_PEND,Interrupt Pending Status for pktdma_cfg_ramecc_pend" "0,1" newline bitfld.long 0x4 0. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" line.long 0x8 "__ECCAGGR_CFG__REGS_sec_status_reg1,Interrupt Status Register 1" bitfld.long 0x8 14. "DMSS_HSM_CFG_CBASS_VD2GCLK_EDC_CTRL_CBASS_INT_VD2GBUSECC_PEND,Interrupt Pending Status for dmss_hsm_cfg_cbass_vd2gclk_edc_ctrl_cbass_int_vd2gbusecc_pend" "0,1" newline bitfld.long 0x8 13. "DMSS_HSM_CFG_CBASS_SCR_SCR_DMSS_HSM_CFG_CBASS_SCR_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_cfg_cbass_scr_scr_dmss_hsm_cfg_cbass_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 12. "DMSS_HSM_CFG_CBASS_DMSS_CFG_P2P_BRIDGE_DMSS_CFG_BRIDGE_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_cfg_cbass_dmss_cfg_p2p_bridge_dmss_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x8 11. "DMSS_HSM_PSILSS_CBASS_ETL_DMSS_HSM_PSILSS_CBASS_ETL_VD2GCLK_EDC_CTRL_CBASS_INT_VD2GBUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_cbass_etl_dmss_hsm_psilss_cbass_etl_vd2gclk_edc_ctrl_cbass_int_vd2gbusecc_pend" "0,1" newline bitfld.long 0x8 10. "DMSS_HSM_PSILSS_CBASS_ETL_DMSS_HSM_PSILSS_CBASS_ETL_SCR3_SCR_DMSS_HSM_PSILSS_CBASS_ETL_SCR3_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x8 9. "DMSS_HSM_PSILSS_CBASS_RESP_DMSS_HSM_PSILSS_CBASS_RESP_SCR2_SCR_DMSS_HSM_PSILSS_CBASS_RESP_SCR2_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x8 8. "DMSS_HSM_PSILSS_CBASS_DATA_DMSS_HSM_PSILSS_CBASS_DATA_SCR1_SCR_DMSS_HSM_PSILSS_CBASS_DATA_SCR1_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x8 7. "DMSS_HSM_PSILSS_CFG_DMSS_HSM_PSILSS_CFG_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_cfg_dmss_hsm_psilss_cfg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 6. "DMSS_HSM_PSILSS_L2P_PSILCFG_CFGSTRM_DMSS_HSM_PSILSS_L2P_PSILCFG_CFGSTRM_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_l2p_psilcfg_cfgstrm_dmss_hsm_psilss_l2p_psilcfg_cfgstrm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 5. "DMSS_HSM_PSILSS_L2P_INTAGGR_MEVT_IN_DMSS_HSM_PSILSS_L2P_INTAGGR_MEVT_IN_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_l2p_intaggr_mevt_in_dmss_hsm_psilss_l2p_intaggr_mevt_in_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 4. "DMSS_HSM_PSILSS_L2P_INTAGGR_CEVT_DMSS_HSM_PSILSS_L2P_INTAGGR_CEVT_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_l2p_intaggr_cevt_dmss_hsm_psilss_l2p_intaggr_cevt_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 3. "DMSS_HSM_PSILSS_L2P_INTAGGR_EVT_DMSS_HSM_PSILSS_L2P_INTAGGR_EVT_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_l2p_intaggr_evt_dmss_hsm_psilss_l2p_intaggr_evt_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 2. "DMSS_HSM_PSILSS_L2P_PKTDMA_CFGSTRM_DMSS_HSM_PSILSS_L2P_PKTDMA_CFGSTRM_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_l2p_pktdma_cfgstrm_dmss_hsm_psilss_l2p_pktdma_cfgstrm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 1. "DMSS_HSM_PSILSS_L2P_PKTDMA_STRM_DMSS_HSM_PSILSS_L2P_PKTDMA_STRM_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_l2p_pktdma_strm_dmss_hsm_psilss_l2p_pktdma_strm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 0. "DMSS_HSM_PSILSS_L2P_SAUL0_PSIL_DMSS_HSM_PSILSS_L2P_SAUL0_PSIL_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_l2p_saul0_psil_dmss_hsm_psilss_l2p_saul0_psil_edc_ctrl_busecc_pend" "0,1" group.long 0x80++0x7 line.long 0x0 "__ECCAGGR_CFG__REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 31. "DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_BRIDGE_DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_BRIDGE_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_psilcfg_cfgstrm_bridge_dmss_hsm_psilss_psilcfg_cfgstrm_bridge_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 30. "DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_BRIDGE_DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_BRIDGE_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_pktdma_cfgstrm_bridge_dmss_hsm_psilss_pktdma_cfgstrm_bridge_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 29. "DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_SAFEG_DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_SAFEG_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_psilcfg_cfgstrm_safeg_dmss_hsm_psilss_psilcfg_cfgstrm_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 28. "DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_SAFEG_DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_SAFEG_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_pktdma_cfgstrm_safeg_dmss_hsm_psilss_pktdma_cfgstrm_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 27. "DMSS_HSM_PSILSS_PKTDMA_STRM_SAFEG_DMSS_HSM_PSILSS_PKTDMA_STRM_SAFEG_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_pktdma_strm_safeg_dmss_hsm_psilss_pktdma_strm_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 26. "DMSS_HSM_PSILSS_SAUL0_PSIL_SAFEG_DMSS_HSM_PSILSS_SAUL0_PSIL_SAFEG_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_saul0_psil_safeg_dmss_hsm_psilss_saul0_psil_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 25. "MSRAM_BUSECC_ENABLE_SET,Interrupt Enable Set Register for msram_busecc_pend" "0,1" newline bitfld.long 0x0 24. "MSRAM_RAMECC0_ENABLE_SET,Interrupt Enable Set Register for msram_ramecc0_pend" "0,1" newline bitfld.long 0x0 23. "CBASS_VD2GCLK_EDC_CTRL_CBASS_INT_VD2GBUSECC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for cbass_vd2gclk_edc_ctrl_cbass_int_vd2gbusecc_busecc_pend" "0,1" newline bitfld.long 0x0 22. "CBASS_SCR_SCR_DMSS_HSM_IPCSS_CBASS_SCR_SCR_EDC_CTRL_BUSECC_DMSS_HSM_IPCSS_CBASS_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 21. "CBASS_IPCSS_VBM_DST_M2M_BRIDGE_DMSS_HSM_IPCSS_CBASS_IPCSS_VBM_DST_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_DMSS_HSM_IPCSS_CBASS_IPCSS_VBM_DST_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 20. "SEC_PROXY_DMSS_HSM_IPCSS_SEC_PROXY_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sec_proxy_dmss_hsm_ipcss_sec_proxy_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 19. "SEC_PROXY_BUFRAM_RAMECC_ENABLE_SET,Interrupt Enable Set Register for sec_proxy_bufram_ramecc_pend" "0,1" newline bitfld.long 0x0 18. "SEC_PROXY_STRAM_RAMECC_ENABLE_SET,Interrupt Enable Set Register for sec_proxy_stram_ramecc_pend" "0,1" newline bitfld.long 0x0 17. "RINGACC_STRAM_RAMECC_ENABLE_SET,Interrupt Enable Set Register for ringacc_stram_ramecc_pend" "0,1" newline bitfld.long 0x0 16. "RINGACC_DMSS_HSM_IPCSS_RINGACC_EDC_CTRL_BUSECC_1_ENABLE_SET,Interrupt Enable Set Register for ringacc_dmss_hsm_ipcss_ringacc_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 15. "RINGACC_DMSS_HSM_IPCSS_RINGACC_EDC_CTRL_BUSECC_0_ENABLE_SET,Interrupt Enable Set Register for ringacc_dmss_hsm_ipcss_ringacc_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 14. "MAP_RAMECC_ENABLE_SET,Interrupt Enable Set Register for map_ramecc_pend" "0,1" newline bitfld.long 0x0 13. "SR_RAMECC_ENABLE_SET,Interrupt Enable Set Register for sr_ramecc_pend" "0,1" newline bitfld.long 0x0 12. "DMSS_HSM_INTAGGR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_intaggr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 11. "DMSS_HSM_PKTDMA_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_pktdma_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 10. "PKTDMA_RNGOCC_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_rngocc_ramecc_pend" "0,1" newline bitfld.long 0x0 9. "PKTDMA_STS_RAMECC1_ENABLE_SET,Interrupt Enable Set Register for pktdma_sts_ramecc1_pend" "0,1" newline bitfld.long 0x0 8. "PKTDMA_STS_RAMECC0_ENABLE_SET,Interrupt Enable Set Register for pktdma_sts_ramecc0_pend" "0,1" newline bitfld.long 0x0 7. "PKTDMA_RPCF2_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_rpcf2_ramecc_pend" "0,1" newline bitfld.long 0x0 6. "PKTDMA_RPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_rpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 5. "PKTDMA_RPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_rpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 4. "PKTDMA_TPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_tpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 3. "PKTDMA_TPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_tpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 2. "PKTDMA_STATE_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_state_ramecc_pend" "0,1" newline bitfld.long 0x0 1. "PKTDMA_CFG_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_cfg_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" line.long 0x4 "__ECCAGGR_CFG__REGS_sec_enable_set_reg1,Interrupt Enable Set Register 1" bitfld.long 0x4 14. "DMSS_HSM_CFG_CBASS_VD2GCLK_EDC_CTRL_CBASS_INT_VD2GBUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_cfg_cbass_vd2gclk_edc_ctrl_cbass_int_vd2gbusecc_pend" "0,1" newline bitfld.long 0x4 13. "DMSS_HSM_CFG_CBASS_SCR_SCR_DMSS_HSM_CFG_CBASS_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_cfg_cbass_scr_scr_dmss_hsm_cfg_cbass_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 12. "DMSS_HSM_CFG_CBASS_DMSS_CFG_P2P_BRIDGE_DMSS_CFG_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_cfg_cbass_dmss_cfg_p2p_bridge_dmss_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 11. "DMSS_HSM_PSILSS_CBASS_ETL_DMSS_HSM_PSILSS_CBASS_ETL_VD2GCLK_EDC_CTRL_CBASS_INT_VD2GBUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_cbass_etl_dmss_hsm_psilss_cbass_etl_vd2gclk_edc_ctrl_cbass_int_vd2gbusecc_pend" "0,1" newline bitfld.long 0x4 10. "DMSS_HSM_PSILSS_CBASS_ETL_DMSS_HSM_PSILSS_CBASS_ETL_SCR3_SCR_DMSS_HSM_PSILSS_CBASS_ETL_SCR3_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x4 9. "DMSS_HSM_PSILSS_CBASS_RESP_DMSS_HSM_PSILSS_CBASS_RESP_SCR2_SCR_DMSS_HSM_PSILSS_CBASS_RESP_SCR2_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x4 8. "DMSS_HSM_PSILSS_CBASS_DATA_DMSS_HSM_PSILSS_CBASS_DATA_SCR1_SCR_DMSS_HSM_PSILSS_CBASS_DATA_SCR1_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x4 7. "DMSS_HSM_PSILSS_CFG_DMSS_HSM_PSILSS_CFG_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_cfg_dmss_hsm_psilss_cfg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 6. "DMSS_HSM_PSILSS_L2P_PSILCFG_CFGSTRM_DMSS_HSM_PSILSS_L2P_PSILCFG_CFGSTRM_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_l2p_psilcfg_cfgstrm_dmss_hsm_psilss_l2p_psilcfg_cfgstrm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 5. "DMSS_HSM_PSILSS_L2P_INTAGGR_MEVT_IN_DMSS_HSM_PSILSS_L2P_INTAGGR_MEVT_IN_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_l2p_intaggr_mevt_in_dmss_hsm_psilss_l2p_intaggr_mevt_in_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 4. "DMSS_HSM_PSILSS_L2P_INTAGGR_CEVT_DMSS_HSM_PSILSS_L2P_INTAGGR_CEVT_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_l2p_intaggr_cevt_dmss_hsm_psilss_l2p_intaggr_cevt_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 3. "DMSS_HSM_PSILSS_L2P_INTAGGR_EVT_DMSS_HSM_PSILSS_L2P_INTAGGR_EVT_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_l2p_intaggr_evt_dmss_hsm_psilss_l2p_intaggr_evt_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 2. "DMSS_HSM_PSILSS_L2P_PKTDMA_CFGSTRM_DMSS_HSM_PSILSS_L2P_PKTDMA_CFGSTRM_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_l2p_pktdma_cfgstrm_dmss_hsm_psilss_l2p_pktdma_cfgstrm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 1. "DMSS_HSM_PSILSS_L2P_PKTDMA_STRM_DMSS_HSM_PSILSS_L2P_PKTDMA_STRM_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_l2p_pktdma_strm_dmss_hsm_psilss_l2p_pktdma_strm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 0. "DMSS_HSM_PSILSS_L2P_SAUL0_PSIL_DMSS_HSM_PSILSS_L2P_SAUL0_PSIL_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_l2p_saul0_psil_dmss_hsm_psilss_l2p_saul0_psil_edc_ctrl_busecc_pend" "0,1" group.long 0xC0++0x7 line.long 0x0 "__ECCAGGR_CFG__REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 31. "DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_BRIDGE_DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_BRIDGE_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_psilcfg_cfgstrm_bridge_dmss_hsm_psilss_psilcfg_cfgstrm_bridge_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 30. "DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_BRIDGE_DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_BRIDGE_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_pktdma_cfgstrm_bridge_dmss_hsm_psilss_pktdma_cfgstrm_bridge_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 29. "DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_SAFEG_DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_SAFEG_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_psilcfg_cfgstrm_safeg_dmss_hsm_psilss_psilcfg_cfgstrm_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 28. "DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_SAFEG_DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_SAFEG_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_pktdma_cfgstrm_safeg_dmss_hsm_psilss_pktdma_cfgstrm_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 27. "DMSS_HSM_PSILSS_PKTDMA_STRM_SAFEG_DMSS_HSM_PSILSS_PKTDMA_STRM_SAFEG_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_pktdma_strm_safeg_dmss_hsm_psilss_pktdma_strm_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 26. "DMSS_HSM_PSILSS_SAUL0_PSIL_SAFEG_DMSS_HSM_PSILSS_SAUL0_PSIL_SAFEG_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_saul0_psil_safeg_dmss_hsm_psilss_saul0_psil_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 25. "MSRAM_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for msram_busecc_pend" "0,1" newline bitfld.long 0x0 24. "MSRAM_RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for msram_ramecc0_pend" "0,1" newline bitfld.long 0x0 23. "CBASS_VD2GCLK_EDC_CTRL_CBASS_INT_VD2GBUSECC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for cbass_vd2gclk_edc_ctrl_cbass_int_vd2gbusecc_busecc_pend" "0,1" newline bitfld.long 0x0 22. "CBASS_SCR_SCR_DMSS_HSM_IPCSS_CBASS_SCR_SCR_EDC_CTRL_BUSECC_DMSS_HSM_IPCSS_CBASS_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 21. "CBASS_IPCSS_VBM_DST_M2M_BRIDGE_DMSS_HSM_IPCSS_CBASS_IPCSS_VBM_DST_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_DMSS_HSM_IPCSS_CBASS_IPCSS_VBM_DST_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 20. "SEC_PROXY_DMSS_HSM_IPCSS_SEC_PROXY_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sec_proxy_dmss_hsm_ipcss_sec_proxy_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 19. "SEC_PROXY_BUFRAM_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for sec_proxy_bufram_ramecc_pend" "0,1" newline bitfld.long 0x0 18. "SEC_PROXY_STRAM_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for sec_proxy_stram_ramecc_pend" "0,1" newline bitfld.long 0x0 17. "RINGACC_STRAM_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for ringacc_stram_ramecc_pend" "0,1" newline bitfld.long 0x0 16. "RINGACC_DMSS_HSM_IPCSS_RINGACC_EDC_CTRL_BUSECC_1_ENABLE_CLR,Interrupt Enable Clear Register for ringacc_dmss_hsm_ipcss_ringacc_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 15. "RINGACC_DMSS_HSM_IPCSS_RINGACC_EDC_CTRL_BUSECC_0_ENABLE_CLR,Interrupt Enable Clear Register for ringacc_dmss_hsm_ipcss_ringacc_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 14. "MAP_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for map_ramecc_pend" "0,1" newline bitfld.long 0x0 13. "SR_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for sr_ramecc_pend" "0,1" newline bitfld.long 0x0 12. "DMSS_HSM_INTAGGR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_intaggr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 11. "DMSS_HSM_PKTDMA_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_pktdma_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 10. "PKTDMA_RNGOCC_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_rngocc_ramecc_pend" "0,1" newline bitfld.long 0x0 9. "PKTDMA_STS_RAMECC1_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_sts_ramecc1_pend" "0,1" newline bitfld.long 0x0 8. "PKTDMA_STS_RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_sts_ramecc0_pend" "0,1" newline bitfld.long 0x0 7. "PKTDMA_RPCF2_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_rpcf2_ramecc_pend" "0,1" newline bitfld.long 0x0 6. "PKTDMA_RPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_rpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 5. "PKTDMA_RPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_rpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 4. "PKTDMA_TPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_tpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 3. "PKTDMA_TPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_tpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 2. "PKTDMA_STATE_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_state_ramecc_pend" "0,1" newline bitfld.long 0x0 1. "PKTDMA_CFG_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_cfg_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" line.long 0x4 "__ECCAGGR_CFG__REGS_sec_enable_clr_reg1,Interrupt Enable Clear Register 1" bitfld.long 0x4 14. "DMSS_HSM_CFG_CBASS_VD2GCLK_EDC_CTRL_CBASS_INT_VD2GBUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_cfg_cbass_vd2gclk_edc_ctrl_cbass_int_vd2gbusecc_pend" "0,1" newline bitfld.long 0x4 13. "DMSS_HSM_CFG_CBASS_SCR_SCR_DMSS_HSM_CFG_CBASS_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_cfg_cbass_scr_scr_dmss_hsm_cfg_cbass_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 12. "DMSS_HSM_CFG_CBASS_DMSS_CFG_P2P_BRIDGE_DMSS_CFG_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_cfg_cbass_dmss_cfg_p2p_bridge_dmss_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 11. "DMSS_HSM_PSILSS_CBASS_ETL_DMSS_HSM_PSILSS_CBASS_ETL_VD2GCLK_EDC_CTRL_CBASS_INT_VD2GBUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_cbass_etl_dmss_hsm_psilss_cbass_etl_vd2gclk_edc_ctrl_cbass_int_vd2gbusecc_pend" "0,1" newline bitfld.long 0x4 10. "DMSS_HSM_PSILSS_CBASS_ETL_DMSS_HSM_PSILSS_CBASS_ETL_SCR3_SCR_DMSS_HSM_PSILSS_CBASS_ETL_SCR3_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x4 9. "DMSS_HSM_PSILSS_CBASS_RESP_DMSS_HSM_PSILSS_CBASS_RESP_SCR2_SCR_DMSS_HSM_PSILSS_CBASS_RESP_SCR2_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x4 8. "DMSS_HSM_PSILSS_CBASS_DATA_DMSS_HSM_PSILSS_CBASS_DATA_SCR1_SCR_DMSS_HSM_PSILSS_CBASS_DATA_SCR1_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x4 7. "DMSS_HSM_PSILSS_CFG_DMSS_HSM_PSILSS_CFG_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_cfg_dmss_hsm_psilss_cfg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 6. "DMSS_HSM_PSILSS_L2P_PSILCFG_CFGSTRM_DMSS_HSM_PSILSS_L2P_PSILCFG_CFGSTRM_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_l2p_psilcfg_cfgstrm_dmss_hsm_psilss_l2p_psilcfg_cfgstrm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 5. "DMSS_HSM_PSILSS_L2P_INTAGGR_MEVT_IN_DMSS_HSM_PSILSS_L2P_INTAGGR_MEVT_IN_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_l2p_intaggr_mevt_in_dmss_hsm_psilss_l2p_intaggr_mevt_in_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 4. "DMSS_HSM_PSILSS_L2P_INTAGGR_CEVT_DMSS_HSM_PSILSS_L2P_INTAGGR_CEVT_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_l2p_intaggr_cevt_dmss_hsm_psilss_l2p_intaggr_cevt_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 3. "DMSS_HSM_PSILSS_L2P_INTAGGR_EVT_DMSS_HSM_PSILSS_L2P_INTAGGR_EVT_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_l2p_intaggr_evt_dmss_hsm_psilss_l2p_intaggr_evt_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 2. "DMSS_HSM_PSILSS_L2P_PKTDMA_CFGSTRM_DMSS_HSM_PSILSS_L2P_PKTDMA_CFGSTRM_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_l2p_pktdma_cfgstrm_dmss_hsm_psilss_l2p_pktdma_cfgstrm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 1. "DMSS_HSM_PSILSS_L2P_PKTDMA_STRM_DMSS_HSM_PSILSS_L2P_PKTDMA_STRM_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_l2p_pktdma_strm_dmss_hsm_psilss_l2p_pktdma_strm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 0. "DMSS_HSM_PSILSS_L2P_SAUL0_PSIL_DMSS_HSM_PSILSS_L2P_SAUL0_PSIL_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_l2p_saul0_psil_dmss_hsm_psilss_l2p_saul0_psil_edc_ctrl_busecc_pend" "0,1" group.long 0x13C++0xB line.long 0x0 "__ECCAGGR_CFG__REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "__ECCAGGR_CFG__REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 31. "DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_BRIDGE_DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_BRIDGE_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_psilcfg_cfgstrm_bridge_dmss_hsm_psilss_psilcfg_cfgstrm_bridge_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 30. "DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_BRIDGE_DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_BRIDGE_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_pktdma_cfgstrm_bridge_dmss_hsm_psilss_pktdma_cfgstrm_bridge_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 29. "DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_SAFEG_DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_SAFEG_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_psilcfg_cfgstrm_safeg_dmss_hsm_psilss_psilcfg_cfgstrm_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 28. "DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_SAFEG_DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_SAFEG_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_pktdma_cfgstrm_safeg_dmss_hsm_psilss_pktdma_cfgstrm_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 27. "DMSS_HSM_PSILSS_PKTDMA_STRM_SAFEG_DMSS_HSM_PSILSS_PKTDMA_STRM_SAFEG_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_pktdma_strm_safeg_dmss_hsm_psilss_pktdma_strm_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 26. "DMSS_HSM_PSILSS_SAUL0_PSIL_SAFEG_DMSS_HSM_PSILSS_SAUL0_PSIL_SAFEG_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_saul0_psil_safeg_dmss_hsm_psilss_saul0_psil_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 25. "MSRAM_BUSECC_PEND,Interrupt Pending Status for msram_busecc_pend" "0,1" newline bitfld.long 0x4 24. "MSRAM_RAMECC0_PEND,Interrupt Pending Status for msram_ramecc0_pend" "0,1" newline bitfld.long 0x4 23. "CBASS_VD2GCLK_EDC_CTRL_CBASS_INT_VD2GBUSECC_BUSECC_PEND,Interrupt Pending Status for cbass_vd2gclk_edc_ctrl_cbass_int_vd2gbusecc_busecc_pend" "0,1" newline bitfld.long 0x4 22. "CBASS_SCR_SCR_DMSS_HSM_IPCSS_CBASS_SCR_SCR_EDC_CTRL_BUSECC_DMSS_HSM_IPCSS_CBASS_SCR_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for cbass_scr_scr_dmss_hsm_ipcss_cbass_scr_scr_edc_ctrl_busecc_dmss_hsm_ipcss_cbass_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 21. "CBASS_IPCSS_VBM_DST_M2M_BRIDGE_DMSS_HSM_IPCSS_CBASS_IPCSS_VBM_DST_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_DMSS_HSM_IPCSS_CBASS_IPCSS_VBM_DST_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 20. "SEC_PROXY_DMSS_HSM_IPCSS_SEC_PROXY_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sec_proxy_dmss_hsm_ipcss_sec_proxy_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 19. "SEC_PROXY_BUFRAM_RAMECC_PEND,Interrupt Pending Status for sec_proxy_bufram_ramecc_pend" "0,1" newline bitfld.long 0x4 18. "SEC_PROXY_STRAM_RAMECC_PEND,Interrupt Pending Status for sec_proxy_stram_ramecc_pend" "0,1" newline bitfld.long 0x4 17. "RINGACC_STRAM_RAMECC_PEND,Interrupt Pending Status for ringacc_stram_ramecc_pend" "0,1" newline bitfld.long 0x4 16. "RINGACC_DMSS_HSM_IPCSS_RINGACC_EDC_CTRL_BUSECC_1_PEND,Interrupt Pending Status for ringacc_dmss_hsm_ipcss_ringacc_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x4 15. "RINGACC_DMSS_HSM_IPCSS_RINGACC_EDC_CTRL_BUSECC_0_PEND,Interrupt Pending Status for ringacc_dmss_hsm_ipcss_ringacc_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x4 14. "MAP_RAMECC_PEND,Interrupt Pending Status for map_ramecc_pend" "0,1" newline bitfld.long 0x4 13. "SR_RAMECC_PEND,Interrupt Pending Status for sr_ramecc_pend" "0,1" newline bitfld.long 0x4 12. "DMSS_HSM_INTAGGR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_intaggr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 11. "DMSS_HSM_PKTDMA_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_pktdma_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 10. "PKTDMA_RNGOCC_RAMECC_PEND,Interrupt Pending Status for pktdma_rngocc_ramecc_pend" "0,1" newline bitfld.long 0x4 9. "PKTDMA_STS_RAMECC1_PEND,Interrupt Pending Status for pktdma_sts_ramecc1_pend" "0,1" newline bitfld.long 0x4 8. "PKTDMA_STS_RAMECC0_PEND,Interrupt Pending Status for pktdma_sts_ramecc0_pend" "0,1" newline bitfld.long 0x4 7. "PKTDMA_RPCF2_RAMECC_PEND,Interrupt Pending Status for pktdma_rpcf2_ramecc_pend" "0,1" newline bitfld.long 0x4 6. "PKTDMA_RPCF1_RAMECC_PEND,Interrupt Pending Status for pktdma_rpcf1_ramecc_pend" "0,1" newline bitfld.long 0x4 5. "PKTDMA_RPCF0_RAMECC_PEND,Interrupt Pending Status for pktdma_rpcf0_ramecc_pend" "0,1" newline bitfld.long 0x4 4. "PKTDMA_TPCF1_RAMECC_PEND,Interrupt Pending Status for pktdma_tpcf1_ramecc_pend" "0,1" newline bitfld.long 0x4 3. "PKTDMA_TPCF0_RAMECC_PEND,Interrupt Pending Status for pktdma_tpcf0_ramecc_pend" "0,1" newline bitfld.long 0x4 2. "PKTDMA_STATE_RAMECC_PEND,Interrupt Pending Status for pktdma_state_ramecc_pend" "0,1" newline bitfld.long 0x4 1. "PKTDMA_CFG_RAMECC_PEND,Interrupt Pending Status for pktdma_cfg_ramecc_pend" "0,1" newline bitfld.long 0x4 0. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" line.long 0x8 "__ECCAGGR_CFG__REGS_ded_status_reg1,Interrupt Status Register 1" bitfld.long 0x8 14. "DMSS_HSM_CFG_CBASS_VD2GCLK_EDC_CTRL_CBASS_INT_VD2GBUSECC_PEND,Interrupt Pending Status for dmss_hsm_cfg_cbass_vd2gclk_edc_ctrl_cbass_int_vd2gbusecc_pend" "0,1" newline bitfld.long 0x8 13. "DMSS_HSM_CFG_CBASS_SCR_SCR_DMSS_HSM_CFG_CBASS_SCR_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_cfg_cbass_scr_scr_dmss_hsm_cfg_cbass_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 12. "DMSS_HSM_CFG_CBASS_DMSS_CFG_P2P_BRIDGE_DMSS_CFG_BRIDGE_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_cfg_cbass_dmss_cfg_p2p_bridge_dmss_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x8 11. "DMSS_HSM_PSILSS_CBASS_ETL_DMSS_HSM_PSILSS_CBASS_ETL_VD2GCLK_EDC_CTRL_CBASS_INT_VD2GBUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_cbass_etl_dmss_hsm_psilss_cbass_etl_vd2gclk_edc_ctrl_cbass_int_vd2gbusecc_pend" "0,1" newline bitfld.long 0x8 10. "DMSS_HSM_PSILSS_CBASS_ETL_DMSS_HSM_PSILSS_CBASS_ETL_SCR3_SCR_DMSS_HSM_PSILSS_CBASS_ETL_SCR3_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x8 9. "DMSS_HSM_PSILSS_CBASS_RESP_DMSS_HSM_PSILSS_CBASS_RESP_SCR2_SCR_DMSS_HSM_PSILSS_CBASS_RESP_SCR2_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x8 8. "DMSS_HSM_PSILSS_CBASS_DATA_DMSS_HSM_PSILSS_CBASS_DATA_SCR1_SCR_DMSS_HSM_PSILSS_CBASS_DATA_SCR1_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x8 7. "DMSS_HSM_PSILSS_CFG_DMSS_HSM_PSILSS_CFG_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_cfg_dmss_hsm_psilss_cfg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 6. "DMSS_HSM_PSILSS_L2P_PSILCFG_CFGSTRM_DMSS_HSM_PSILSS_L2P_PSILCFG_CFGSTRM_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_l2p_psilcfg_cfgstrm_dmss_hsm_psilss_l2p_psilcfg_cfgstrm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 5. "DMSS_HSM_PSILSS_L2P_INTAGGR_MEVT_IN_DMSS_HSM_PSILSS_L2P_INTAGGR_MEVT_IN_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_l2p_intaggr_mevt_in_dmss_hsm_psilss_l2p_intaggr_mevt_in_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 4. "DMSS_HSM_PSILSS_L2P_INTAGGR_CEVT_DMSS_HSM_PSILSS_L2P_INTAGGR_CEVT_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_l2p_intaggr_cevt_dmss_hsm_psilss_l2p_intaggr_cevt_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 3. "DMSS_HSM_PSILSS_L2P_INTAGGR_EVT_DMSS_HSM_PSILSS_L2P_INTAGGR_EVT_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_l2p_intaggr_evt_dmss_hsm_psilss_l2p_intaggr_evt_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 2. "DMSS_HSM_PSILSS_L2P_PKTDMA_CFGSTRM_DMSS_HSM_PSILSS_L2P_PKTDMA_CFGSTRM_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_l2p_pktdma_cfgstrm_dmss_hsm_psilss_l2p_pktdma_cfgstrm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 1. "DMSS_HSM_PSILSS_L2P_PKTDMA_STRM_DMSS_HSM_PSILSS_L2P_PKTDMA_STRM_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_l2p_pktdma_strm_dmss_hsm_psilss_l2p_pktdma_strm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x8 0. "DMSS_HSM_PSILSS_L2P_SAUL0_PSIL_DMSS_HSM_PSILSS_L2P_SAUL0_PSIL_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for dmss_hsm_psilss_l2p_saul0_psil_dmss_hsm_psilss_l2p_saul0_psil_edc_ctrl_busecc_pend" "0,1" group.long 0x180++0x7 line.long 0x0 "__ECCAGGR_CFG__REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 31. "DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_BRIDGE_DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_BRIDGE_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_psilcfg_cfgstrm_bridge_dmss_hsm_psilss_psilcfg_cfgstrm_bridge_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 30. "DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_BRIDGE_DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_BRIDGE_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_pktdma_cfgstrm_bridge_dmss_hsm_psilss_pktdma_cfgstrm_bridge_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 29. "DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_SAFEG_DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_SAFEG_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_psilcfg_cfgstrm_safeg_dmss_hsm_psilss_psilcfg_cfgstrm_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 28. "DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_SAFEG_DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_SAFEG_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_pktdma_cfgstrm_safeg_dmss_hsm_psilss_pktdma_cfgstrm_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 27. "DMSS_HSM_PSILSS_PKTDMA_STRM_SAFEG_DMSS_HSM_PSILSS_PKTDMA_STRM_SAFEG_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_pktdma_strm_safeg_dmss_hsm_psilss_pktdma_strm_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 26. "DMSS_HSM_PSILSS_SAUL0_PSIL_SAFEG_DMSS_HSM_PSILSS_SAUL0_PSIL_SAFEG_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_saul0_psil_safeg_dmss_hsm_psilss_saul0_psil_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 25. "MSRAM_BUSECC_ENABLE_SET,Interrupt Enable Set Register for msram_busecc_pend" "0,1" newline bitfld.long 0x0 24. "MSRAM_RAMECC0_ENABLE_SET,Interrupt Enable Set Register for msram_ramecc0_pend" "0,1" newline bitfld.long 0x0 23. "CBASS_VD2GCLK_EDC_CTRL_CBASS_INT_VD2GBUSECC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for cbass_vd2gclk_edc_ctrl_cbass_int_vd2gbusecc_busecc_pend" "0,1" newline bitfld.long 0x0 22. "CBASS_SCR_SCR_DMSS_HSM_IPCSS_CBASS_SCR_SCR_EDC_CTRL_BUSECC_DMSS_HSM_IPCSS_CBASS_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 21. "CBASS_IPCSS_VBM_DST_M2M_BRIDGE_DMSS_HSM_IPCSS_CBASS_IPCSS_VBM_DST_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_DMSS_HSM_IPCSS_CBASS_IPCSS_VBM_DST_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 20. "SEC_PROXY_DMSS_HSM_IPCSS_SEC_PROXY_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sec_proxy_dmss_hsm_ipcss_sec_proxy_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 19. "SEC_PROXY_BUFRAM_RAMECC_ENABLE_SET,Interrupt Enable Set Register for sec_proxy_bufram_ramecc_pend" "0,1" newline bitfld.long 0x0 18. "SEC_PROXY_STRAM_RAMECC_ENABLE_SET,Interrupt Enable Set Register for sec_proxy_stram_ramecc_pend" "0,1" newline bitfld.long 0x0 17. "RINGACC_STRAM_RAMECC_ENABLE_SET,Interrupt Enable Set Register for ringacc_stram_ramecc_pend" "0,1" newline bitfld.long 0x0 16. "RINGACC_DMSS_HSM_IPCSS_RINGACC_EDC_CTRL_BUSECC_1_ENABLE_SET,Interrupt Enable Set Register for ringacc_dmss_hsm_ipcss_ringacc_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 15. "RINGACC_DMSS_HSM_IPCSS_RINGACC_EDC_CTRL_BUSECC_0_ENABLE_SET,Interrupt Enable Set Register for ringacc_dmss_hsm_ipcss_ringacc_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 14. "MAP_RAMECC_ENABLE_SET,Interrupt Enable Set Register for map_ramecc_pend" "0,1" newline bitfld.long 0x0 13. "SR_RAMECC_ENABLE_SET,Interrupt Enable Set Register for sr_ramecc_pend" "0,1" newline bitfld.long 0x0 12. "DMSS_HSM_INTAGGR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_intaggr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 11. "DMSS_HSM_PKTDMA_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_pktdma_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 10. "PKTDMA_RNGOCC_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_rngocc_ramecc_pend" "0,1" newline bitfld.long 0x0 9. "PKTDMA_STS_RAMECC1_ENABLE_SET,Interrupt Enable Set Register for pktdma_sts_ramecc1_pend" "0,1" newline bitfld.long 0x0 8. "PKTDMA_STS_RAMECC0_ENABLE_SET,Interrupt Enable Set Register for pktdma_sts_ramecc0_pend" "0,1" newline bitfld.long 0x0 7. "PKTDMA_RPCF2_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_rpcf2_ramecc_pend" "0,1" newline bitfld.long 0x0 6. "PKTDMA_RPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_rpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 5. "PKTDMA_RPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_rpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 4. "PKTDMA_TPCF1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_tpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 3. "PKTDMA_TPCF0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_tpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 2. "PKTDMA_STATE_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_state_ramecc_pend" "0,1" newline bitfld.long 0x0 1. "PKTDMA_CFG_RAMECC_ENABLE_SET,Interrupt Enable Set Register for pktdma_cfg_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" line.long 0x4 "__ECCAGGR_CFG__REGS_ded_enable_set_reg1,Interrupt Enable Set Register 1" bitfld.long 0x4 14. "DMSS_HSM_CFG_CBASS_VD2GCLK_EDC_CTRL_CBASS_INT_VD2GBUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_cfg_cbass_vd2gclk_edc_ctrl_cbass_int_vd2gbusecc_pend" "0,1" newline bitfld.long 0x4 13. "DMSS_HSM_CFG_CBASS_SCR_SCR_DMSS_HSM_CFG_CBASS_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_cfg_cbass_scr_scr_dmss_hsm_cfg_cbass_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 12. "DMSS_HSM_CFG_CBASS_DMSS_CFG_P2P_BRIDGE_DMSS_CFG_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_cfg_cbass_dmss_cfg_p2p_bridge_dmss_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 11. "DMSS_HSM_PSILSS_CBASS_ETL_DMSS_HSM_PSILSS_CBASS_ETL_VD2GCLK_EDC_CTRL_CBASS_INT_VD2GBUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_cbass_etl_dmss_hsm_psilss_cbass_etl_vd2gclk_edc_ctrl_cbass_int_vd2gbusecc_pend" "0,1" newline bitfld.long 0x4 10. "DMSS_HSM_PSILSS_CBASS_ETL_DMSS_HSM_PSILSS_CBASS_ETL_SCR3_SCR_DMSS_HSM_PSILSS_CBASS_ETL_SCR3_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x4 9. "DMSS_HSM_PSILSS_CBASS_RESP_DMSS_HSM_PSILSS_CBASS_RESP_SCR2_SCR_DMSS_HSM_PSILSS_CBASS_RESP_SCR2_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x4 8. "DMSS_HSM_PSILSS_CBASS_DATA_DMSS_HSM_PSILSS_CBASS_DATA_SCR1_SCR_DMSS_HSM_PSILSS_CBASS_DATA_SCR1_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x4 7. "DMSS_HSM_PSILSS_CFG_DMSS_HSM_PSILSS_CFG_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_cfg_dmss_hsm_psilss_cfg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 6. "DMSS_HSM_PSILSS_L2P_PSILCFG_CFGSTRM_DMSS_HSM_PSILSS_L2P_PSILCFG_CFGSTRM_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_l2p_psilcfg_cfgstrm_dmss_hsm_psilss_l2p_psilcfg_cfgstrm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 5. "DMSS_HSM_PSILSS_L2P_INTAGGR_MEVT_IN_DMSS_HSM_PSILSS_L2P_INTAGGR_MEVT_IN_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_l2p_intaggr_mevt_in_dmss_hsm_psilss_l2p_intaggr_mevt_in_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 4. "DMSS_HSM_PSILSS_L2P_INTAGGR_CEVT_DMSS_HSM_PSILSS_L2P_INTAGGR_CEVT_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_l2p_intaggr_cevt_dmss_hsm_psilss_l2p_intaggr_cevt_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 3. "DMSS_HSM_PSILSS_L2P_INTAGGR_EVT_DMSS_HSM_PSILSS_L2P_INTAGGR_EVT_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_l2p_intaggr_evt_dmss_hsm_psilss_l2p_intaggr_evt_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 2. "DMSS_HSM_PSILSS_L2P_PKTDMA_CFGSTRM_DMSS_HSM_PSILSS_L2P_PKTDMA_CFGSTRM_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_l2p_pktdma_cfgstrm_dmss_hsm_psilss_l2p_pktdma_cfgstrm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 1. "DMSS_HSM_PSILSS_L2P_PKTDMA_STRM_DMSS_HSM_PSILSS_L2P_PKTDMA_STRM_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_l2p_pktdma_strm_dmss_hsm_psilss_l2p_pktdma_strm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 0. "DMSS_HSM_PSILSS_L2P_SAUL0_PSIL_DMSS_HSM_PSILSS_L2P_SAUL0_PSIL_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for dmss_hsm_psilss_l2p_saul0_psil_dmss_hsm_psilss_l2p_saul0_psil_edc_ctrl_busecc_pend" "0,1" group.long 0x1C0++0x7 line.long 0x0 "__ECCAGGR_CFG__REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 31. "DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_BRIDGE_DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_BRIDGE_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_psilcfg_cfgstrm_bridge_dmss_hsm_psilss_psilcfg_cfgstrm_bridge_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 30. "DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_BRIDGE_DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_BRIDGE_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_pktdma_cfgstrm_bridge_dmss_hsm_psilss_pktdma_cfgstrm_bridge_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 29. "DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_SAFEG_DMSS_HSM_PSILSS_PSILCFG_CFGSTRM_SAFEG_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_psilcfg_cfgstrm_safeg_dmss_hsm_psilss_psilcfg_cfgstrm_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 28. "DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_SAFEG_DMSS_HSM_PSILSS_PKTDMA_CFGSTRM_SAFEG_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_pktdma_cfgstrm_safeg_dmss_hsm_psilss_pktdma_cfgstrm_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 27. "DMSS_HSM_PSILSS_PKTDMA_STRM_SAFEG_DMSS_HSM_PSILSS_PKTDMA_STRM_SAFEG_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_pktdma_strm_safeg_dmss_hsm_psilss_pktdma_strm_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 26. "DMSS_HSM_PSILSS_SAUL0_PSIL_SAFEG_DMSS_HSM_PSILSS_SAUL0_PSIL_SAFEG_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_saul0_psil_safeg_dmss_hsm_psilss_saul0_psil_safeg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 25. "MSRAM_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for msram_busecc_pend" "0,1" newline bitfld.long 0x0 24. "MSRAM_RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for msram_ramecc0_pend" "0,1" newline bitfld.long 0x0 23. "CBASS_VD2GCLK_EDC_CTRL_CBASS_INT_VD2GBUSECC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for cbass_vd2gclk_edc_ctrl_cbass_int_vd2gbusecc_busecc_pend" "0,1" newline bitfld.long 0x0 22. "CBASS_SCR_SCR_DMSS_HSM_IPCSS_CBASS_SCR_SCR_EDC_CTRL_BUSECC_DMSS_HSM_IPCSS_CBASS_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 21. "CBASS_IPCSS_VBM_DST_M2M_BRIDGE_DMSS_HSM_IPCSS_CBASS_IPCSS_VBM_DST_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_DMSS_HSM_IPCSS_CBASS_IPCSS_VBM_DST_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 20. "SEC_PROXY_DMSS_HSM_IPCSS_SEC_PROXY_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sec_proxy_dmss_hsm_ipcss_sec_proxy_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 19. "SEC_PROXY_BUFRAM_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for sec_proxy_bufram_ramecc_pend" "0,1" newline bitfld.long 0x0 18. "SEC_PROXY_STRAM_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for sec_proxy_stram_ramecc_pend" "0,1" newline bitfld.long 0x0 17. "RINGACC_STRAM_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for ringacc_stram_ramecc_pend" "0,1" newline bitfld.long 0x0 16. "RINGACC_DMSS_HSM_IPCSS_RINGACC_EDC_CTRL_BUSECC_1_ENABLE_CLR,Interrupt Enable Clear Register for ringacc_dmss_hsm_ipcss_ringacc_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 15. "RINGACC_DMSS_HSM_IPCSS_RINGACC_EDC_CTRL_BUSECC_0_ENABLE_CLR,Interrupt Enable Clear Register for ringacc_dmss_hsm_ipcss_ringacc_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 14. "MAP_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for map_ramecc_pend" "0,1" newline bitfld.long 0x0 13. "SR_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for sr_ramecc_pend" "0,1" newline bitfld.long 0x0 12. "DMSS_HSM_INTAGGR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_intaggr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 11. "DMSS_HSM_PKTDMA_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_pktdma_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 10. "PKTDMA_RNGOCC_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_rngocc_ramecc_pend" "0,1" newline bitfld.long 0x0 9. "PKTDMA_STS_RAMECC1_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_sts_ramecc1_pend" "0,1" newline bitfld.long 0x0 8. "PKTDMA_STS_RAMECC0_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_sts_ramecc0_pend" "0,1" newline bitfld.long 0x0 7. "PKTDMA_RPCF2_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_rpcf2_ramecc_pend" "0,1" newline bitfld.long 0x0 6. "PKTDMA_RPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_rpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 5. "PKTDMA_RPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_rpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 4. "PKTDMA_TPCF1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_tpcf1_ramecc_pend" "0,1" newline bitfld.long 0x0 3. "PKTDMA_TPCF0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_tpcf0_ramecc_pend" "0,1" newline bitfld.long 0x0 2. "PKTDMA_STATE_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_state_ramecc_pend" "0,1" newline bitfld.long 0x0 1. "PKTDMA_CFG_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for pktdma_cfg_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" line.long 0x4 "__ECCAGGR_CFG__REGS_ded_enable_clr_reg1,Interrupt Enable Clear Register 1" bitfld.long 0x4 14. "DMSS_HSM_CFG_CBASS_VD2GCLK_EDC_CTRL_CBASS_INT_VD2GBUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_cfg_cbass_vd2gclk_edc_ctrl_cbass_int_vd2gbusecc_pend" "0,1" newline bitfld.long 0x4 13. "DMSS_HSM_CFG_CBASS_SCR_SCR_DMSS_HSM_CFG_CBASS_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_cfg_cbass_scr_scr_dmss_hsm_cfg_cbass_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 12. "DMSS_HSM_CFG_CBASS_DMSS_CFG_P2P_BRIDGE_DMSS_CFG_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_cfg_cbass_dmss_cfg_p2p_bridge_dmss_cfg_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 11. "DMSS_HSM_PSILSS_CBASS_ETL_DMSS_HSM_PSILSS_CBASS_ETL_VD2GCLK_EDC_CTRL_CBASS_INT_VD2GBUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_cbass_etl_dmss_hsm_psilss_cbass_etl_vd2gclk_edc_ctrl_cbass_int_vd2gbusecc_pend" "0,1" newline bitfld.long 0x4 10. "DMSS_HSM_PSILSS_CBASS_ETL_DMSS_HSM_PSILSS_CBASS_ETL_SCR3_SCR_DMSS_HSM_PSILSS_CBASS_ETL_SCR3_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x4 9. "DMSS_HSM_PSILSS_CBASS_RESP_DMSS_HSM_PSILSS_CBASS_RESP_SCR2_SCR_DMSS_HSM_PSILSS_CBASS_RESP_SCR2_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x4 8. "DMSS_HSM_PSILSS_CBASS_DATA_DMSS_HSM_PSILSS_CBASS_DATA_SCR1_SCR_DMSS_HSM_PSILSS_CBASS_DATA_SCR1_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x4 7. "DMSS_HSM_PSILSS_CFG_DMSS_HSM_PSILSS_CFG_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_cfg_dmss_hsm_psilss_cfg_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 6. "DMSS_HSM_PSILSS_L2P_PSILCFG_CFGSTRM_DMSS_HSM_PSILSS_L2P_PSILCFG_CFGSTRM_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_l2p_psilcfg_cfgstrm_dmss_hsm_psilss_l2p_psilcfg_cfgstrm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 5. "DMSS_HSM_PSILSS_L2P_INTAGGR_MEVT_IN_DMSS_HSM_PSILSS_L2P_INTAGGR_MEVT_IN_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_l2p_intaggr_mevt_in_dmss_hsm_psilss_l2p_intaggr_mevt_in_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 4. "DMSS_HSM_PSILSS_L2P_INTAGGR_CEVT_DMSS_HSM_PSILSS_L2P_INTAGGR_CEVT_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_l2p_intaggr_cevt_dmss_hsm_psilss_l2p_intaggr_cevt_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 3. "DMSS_HSM_PSILSS_L2P_INTAGGR_EVT_DMSS_HSM_PSILSS_L2P_INTAGGR_EVT_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_l2p_intaggr_evt_dmss_hsm_psilss_l2p_intaggr_evt_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 2. "DMSS_HSM_PSILSS_L2P_PKTDMA_CFGSTRM_DMSS_HSM_PSILSS_L2P_PKTDMA_CFGSTRM_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_l2p_pktdma_cfgstrm_dmss_hsm_psilss_l2p_pktdma_cfgstrm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 1. "DMSS_HSM_PSILSS_L2P_PKTDMA_STRM_DMSS_HSM_PSILSS_L2P_PKTDMA_STRM_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_l2p_pktdma_strm_dmss_hsm_psilss_l2p_pktdma_strm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 0. "DMSS_HSM_PSILSS_L2P_SAUL0_PSIL_DMSS_HSM_PSILSS_L2P_SAUL0_PSIL_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for dmss_hsm_psilss_l2p_saul0_psil_dmss_hsm_psilss_l2p_saul0_psil_edc_ctrl_busecc_pend" "0,1" group.long 0x200++0xF line.long 0x0 "__ECCAGGR_CFG__REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" newline bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "__ECCAGGR_CFG__REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" newline bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "__ECCAGGR_CFG__REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" newline bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "__ECCAGGR_CFG__REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" newline bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end base ad:0x0 tree "SA3_SS0_INTAGGR_0" tree "SA3_SS0_INTAGGR_0_INTAGGR_CFG (SA3_SS0_INTAGGR_0_INTAGGR_CFG)" base ad:0x44808000 rgroup.quad 0x0++0x17 line.quad 0x0 "INTAGGR__CFG__CFG_REVISION,The Revision Register contains the major and minor revisions for the module." hexmask.quad.word 0x0 16.--31. 1. "MODID,Module ID field" hexmask.quad.byte 0x0 11.--15. 1. "REVRTL,RTL revision. Will vary depending on release." bitfld.quad 0x0 8.--10. "REVMAJ,Major revision" "0,1,2,3,4,5,6,7" bitfld.quad 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.quad.byte 0x0 0.--5. 1. "REVMIN,Minor revision" line.quad 0x8 "INTAGGR__CFG__CFG_INTCAP,The IntCap Register contains information on virtual interrupts." hexmask.quad.word 0x8 16.--31. 1. "VINTR_CNT,Virtual interrupt register/pin count" hexmask.quad.word 0x8 0.--15. 1. "SEVT_CNT,Number of 'event to virt int' mapping registers" line.quad 0x10 "INTAGGR__CFG__CFG_AUXCAP,The AuxCap Register contains information on additional capabilities." hexmask.quad.word 0x10 48.--63. 1. "UNMAP_CNT,Number of multicast event registers. Not all registers in the range are necessarily valid." hexmask.quad.word 0x10 32.--47. 1. "MEVI_CNT,Number of multicast event registers" hexmask.quad.word 0x10 16.--31. 1. "LEVI_CNT,Local input events for local to global translation" hexmask.quad.word 0x10 0.--15. 1. "GEVI_CNT,Number of event counting registers" tree.end tree "SA3_SS0_INTAGGR_0_INTAGGR_CFG_GCNTCFG (SA3_SS0_INTAGGR_0_INTAGGR_CFG_GCNTCFG)" base ad:0x4480B000 group.quad 0x0++0x7 line.quad 0x0 "INTAGGR__CFG__GCNTCFG_map,The Global Event Mapping register controls the egress global event index for this event count. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "GEVIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." tree.end tree "SA3_SS0_INTAGGR_0_INTAGGR_CFG_GCNTRTI (SA3_SS0_INTAGGR_0_INTAGGR_CFG_GCNTRTI)" base ad:0x44820000 group.quad 0x0++0x7 line.quad 0x0 "INTAGGR__CFG__GCNTRTI_count,The ETL Count register is read by software to determine how many times the event message has been received. This register can be written to decrement the count by a specified amount to acknowledge that a count has been.." hexmask.quad.long 0x0 0.--31. 1. "CCNT,Current count. This field is incremented by the event count for each message received with this event on the Counted ETL Interface. On write this field will be decremented by the value written. Writing a value greater than the current count is.." tree.end tree "SA3_SS0_INTAGGR_0_INTAGGR_CFG_IMAP (SA3_SS0_INTAGGR_0_INTAGGR_CFG_IMAP)" base ad:0x44809000 group.quad 0x0++0x7 line.quad 0x0 "INTAGGR__CFG__IMAP_INTMAP,The Interrupt Mapping Register controls which of N virtual interrupt source outputs this channels physical interrupt sources will map onto." hexmask.quad.word 0x0 8.--16. 1. "REGNUM,Virtual interrupt status register number: this field specifies which of the potential virtual interrupt cause registers the event pending bit will appear in." hexmask.quad.byte 0x0 0.--5. 1. "BITNUM,Virtual interrupt cause register bit number: this field specifies which of the 64 bits in the specified virtual interrupt cause register the event pending bit will appear in." tree.end tree "SA3_SS0_INTAGGR_0_INTAGGR_CFG_INTR (SA3_SS0_INTAGGR_0_INTAGGR_CFG_INTR)" base ad:0x44810000 group.quad 0x0++0x27 line.quad 0x0 "INTAGGR__CFG__INTR_ENABLE_SET,The Interrupt Enable Set register is written by software to enable (i.e. unmask) specified bits to allow their current status to be considered in the generation of the corresponding level sensitive virtual interrupt output." hexmask.quad 0x0 0.--63. 1. "INTR_ENABLE,Interrupt enable set value. On writes set bits will cause corresponding bits in the internal interrupt enable register to be set. Reads will reflect back the current status of the internal interrupt enable register." line.quad 0x8 "INTAGGR__CFG__INTR_ENABLE_CLR,The Interrupt Enable Clear register is written by software to disable (i.e. mask) specified bits to disallow their current status from be considered in the generation of the corresponding level sensitive virtual interrupt.." hexmask.quad 0x8 0.--63. 1. "INTR_ENABLE,Interrupt enable clear value. On writes set bits will cause corresponding bits in the internal interrupt enable register to be cleared. Reads will reflect back the current status of the internal interrupt enable register." line.quad 0x10 "INTAGGR__CFG__INTR_STATUS_SET,The Interrupt Status register is read by software to determine the cause of an interrupt." hexmask.quad 0x10 0.--63. 1. "INTR_STATUS,Raw state (not enabled/masked) of bits in internal interrupt status register. Writing a 1 to any bit of this register will cause the corresponding raw status bit to be set" line.quad 0x18 "INTAGGR__CFG__INTR_STATUS,The Interrupt Status register is read by software to determine the cause of an interrupt." hexmask.quad 0x18 0.--63. 1. "INTR_STATUS,Raw state (not enabled/masked) of bits in internal interrupt status register. Writing a 1 to any bit of this register will cause the corresponding raw status bit to be cleared" line.quad 0x20 "INTAGGR__CFG__INTR_STATUS_MSKD,The Interrupt Masked Status register can be read by software to determine the cause of an interrupt." hexmask.quad 0x20 0.--63. 1. "INTR_STATUSM,Masked state of bits in internal interrupt status register. This value is the result of bitwise ANDing the interrupt enable and status registers" tree.end tree "SA3_SS0_INTAGGR_0_INTAGGR_CFG_MCAST (SA3_SS0_INTAGGR_0_INTAGGR_CFG_MCAST)" base ad:0x4480A000 group.quad 0x0++0x7 line.quad 0x0 "INTAGGR__CFG__MCAST_mcmap,This register determines how ingress global events from the ingress global event ETL are written out to the two egress global event ETL intefaces. The index of each of the two egress events is stored in this register. which is.." bitfld.quad 0x0 63. "IRQMODE1,IRQ Mode Flag 1. When set this register act like a mapper with bitnum in 37:32 and regnum in 46:38." "0,1" hexmask.quad.word 0x0 32.--47. 1. "GEVIDX1,Global event index 1. This field specifies the index of the outgoing global event on ETL 1. Set to 0xFFFF to disable." bitfld.quad 0x0 31. "IRQMODE0,IRQ Mode Flag 0. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "GEVIDX0,Global event index 0. This field specifies the index of the outgoing global event on ETL 0. Set to 0xFFFF to disable." tree.end tree "SA3_SS0_INTAGGR_0_INTAGGR_CFG_UNMAP (SA3_SS0_INTAGGR_0_INTAGGR_CFG_UNMAP)" base ad:0x44840000 group.quad 0x8000++0x7 line.quad 0x0 "INTAGGR__CFG__UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." group.quad 0x9000++0x7 line.quad 0x0 "INTAGGR__CFG__UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." group.quad 0xA000++0x7 line.quad 0x0 "INTAGGR__CFG__UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." group.quad 0xB000++0x7 line.quad 0x0 "INTAGGR__CFG__UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." group.quad 0xC000++0x7 line.quad 0x0 "INTAGGR__CFG__UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." group.quad 0xD000++0x7 line.quad 0x0 "INTAGGR__CFG__UNMAP_map,The Global Event Mapping register controls the egress global event index for this unmapped event. This register may also be optionally used to directly set an interrupt status bit by using the irqmode flag." bitfld.quad 0x0 31. "IRQMODE,IRQ Mode Flag. When set this register act like a mapper with bitnum in 5:0 and regnum in 14:6." "0,1" hexmask.quad.word 0x0 0.--15. 1. "UMAPIDX,Global event index. This field specifies the index of the outgoing global event. Set to 0xFFFF to disable." tree.end tree.end tree "SA3_SS0_PKTDMA_0" tree "SA3_SS0_PKTDMA_0_PKTDMA_CFG_GCFG (SA3_SS0_PKTDMA_0_PKTDMA_CFG_GCFG)" base ad:0x44910000 rgroup.long 0x0++0x3 line.long 0x0 "PKTDMA__CFG__GCFG_REVISION,The Revision Register contains the major and minor revisions for the module." hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID field" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "REVMAJ,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor revision" group.long 0x4++0x7 line.long 0x0 "PKTDMA__CFG__GCFG_PERF_CTRL,The performance control register contains fields which can be used to adjust the performance of the PKTDMA in the system." hexmask.long.word 0x0 0.--15. 1. "TIMEOUT_CNT,This feature is not currently supported" line.long 0x4 "PKTDMA__CFG__GCFG_EMU_CTRL,The emulation control register is used to control the behavior of the DMA when the emususp input is asserted." bitfld.long 0x4 1. "SOFT,Soft" "0,1" bitfld.long 0x4 0. "FREE,Free" "0,1" group.long 0x10++0x3 line.long 0x0 "PKTDMA__CFG__GCFG_PSIL_TO,The PSI-L proxy timeout register controls the timeout watchdog and reports timeout occurrances on PSI-L configuration transactions issued by the built in PSI-L proxy." bitfld.long 0x0 31. "TOUT,Timeout occurred. When set indicates that a timeout has occurred on a config access" "0,1" hexmask.long.word 0x0 0.--15. 1. "TOUT_CNT,Timeout period. Specifies how many cycles to wait before closing up a conifiguration read or write transaction and asserting the tout bit" group.long 0x20++0x7 line.long 0x0 "PKTDMA__CFG__GCFG_CAP0,The Capabilities Register 0 specifies which standard features this PKTDMA instance supports." line.long 0x4 "PKTDMA__CFG__GCFG_CAP1,The Capabilities Register 1 specifies which standard features this PKTDMA instance supports." rgroup.long 0x28++0xB line.long 0x0 "PKTDMA__CFG__GCFG_CAP2,The Capabilities Register 2 specifies how many resources this PKTDMA instance supports." hexmask.long.word 0x0 18.--26. 1. "RCHAN_CNT,Rx internal channel count" hexmask.long.word 0x0 0.--8. 1. "TCHAN_CNT,Tx internal channel count" line.long 0x4 "PKTDMA__CFG__GCFG_CAP3,The Capabilities Register 3 specifies how many resources this PKTDMA instance supports." hexmask.long.word 0x4 23.--31. 1. "UCHAN_CNT,Tx ultra high capacity internal channel count" hexmask.long.word 0x4 14.--22. 1. "HCHAN_CNT,Tx high capacity internal channel count" hexmask.long.word 0x4 0.--13. 1. "RFLOW_CNT,Rx flow table entry count" line.long 0x8 "PKTDMA__CFG__GCFG_CAP4,The Capabilities Register 4 specifies how many resources this PKTDMA instance supports." hexmask.long.word 0x8 0.--13. 1. "TFLOW_CNT,Tx flow table entry count" group.long 0x60++0x7 line.long 0x0 "PKTDMA__CFG__GCFG_PM0,This register enables or inhibits automatic clock gating to individual sub-blocks" bitfld.long 0x0 31. "NOGATE_RDU3,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 30. "NOGATE_RDU2,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 29. "NOGATE_RDU1,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 28. "NOGATE_RDU0,When set inhibits automatic gating of clock." "0,1" newline bitfld.long 0x0 27. "NOGATE_TDU3,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 26. "NOGATE_TDU2,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 25. "NOGATE_TDU1,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 24. "NOGATE_TDU0,When set inhibits automatic gating of clock." "0,1" newline hexmask.long.word 0x0 13.--23. 1. "NOGATE_RSVD4,Reserved PM signals." bitfld.long 0x0 12. "NOGATE_RDEC,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 9.--11. "NOGATE_RSVD3,Reserved PM signals." "0,1,2,3,4,5,6,7" bitfld.long 0x0 8. "NOGATE_SDEC,When set inhibits automatic gating of clock." "0,1" newline bitfld.long 0x0 5.--7. "NOGATE_RSVD2,Reserved PM signals." "0,1,2,3,4,5,6,7" bitfld.long 0x0 4. "NOGATE_WARB,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x0 1.--3. "NOGATE_RSVD1,Reserved PM signals." "0,1,2,3,4,5,6,7" bitfld.long 0x0 0. "NOGATE_CARB,When set inhibits automatic gating of clock." "0,1" line.long 0x4 "PKTDMA__CFG__GCFG_PM1,This register enables or inhibits automatic clock gating to individual sub-blocks" bitfld.long 0x4 31. "NOGATE_RSVD12,Reserved PM signals." "0,1" bitfld.long 0x4 30. "NOGATE_STATS,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 29. "NOGATE_PROXY,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 28. "NOGATE_RSVD11,Reserved PM signals." "0,1" newline bitfld.long 0x4 27. "NOGATE_P2P,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 26. "NOGATE_RSVD10,Reserved PM signals." "0,1" bitfld.long 0x4 25. "NOGATE_EHANDLER,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 24. "NOGATE_RINGOCC,When set inhibits automatic gating of clock." "0,1" newline bitfld.long 0x4 23. "NOGATE_RSVD9,Reserved PM signals." "0,1" bitfld.long 0x4 22. "NOGATE_TPCF,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 19.--21. "NOGATE_RSVD8,Reserved PM signals." "0,1,2,3,4,5,6,7" bitfld.long 0x4 18. "NOGATE_CFG,When set inhibits automatic gating of clock." "0,1" newline bitfld.long 0x4 16.--17. "NOGATE_RSVD7,Reserved PM signals." "0,1,2,3" bitfld.long 0x4 15. "NOGATE_RFLOWFW,When set inhibits automatic gating of clock." "0,1" bitfld.long 0x4 14. "NOGATE_RSVD6,Reserved PM signals." "0,1" bitfld.long 0x4 13. "NOGATE_RCU,When set inhibits automatic gating of clock." "0,1" newline bitfld.long 0x4 12. "NOGATE_TCU,When set inhibits automatic gating of clock." "0,1" hexmask.long.word 0x4 0.--11. 1. "NOGATE_RSVD5,Reserved PM signals." group.long 0x78++0x3 line.long 0x0 "PKTDMA__CFG__GCFG_DBGA,This register provides a writable address which allows debug information to be read from the Debug Data Register" bitfld.long 0x0 31. "DBG_EN,Debug enable" "0,1" hexmask.long.byte 0x0 8.--15. 1. "DBG_UNIT,Selects which unit to read debug information from" hexmask.long.byte 0x0 0.--7. 1. "DBG_ADDR,Selects offset within unit to access seperate debug registers" rgroup.long 0x7C++0x3 line.long 0x0 "PKTDMA__CFG__GCFG_DBGD,This register provides read only debug data" hexmask.long 0x0 0.--31. 1. "DBG_DATA,Provides debug information from various internal units. The value which is read back depends on which unit and register are selected in the Debug Address Register" group.long 0x88++0x3 line.long 0x0 "PKTDMA__CFG__GCFG_RFLOWFWSTAT,The Rx Flow FW Status Register 0 captures information about the thread/channel and received flow ID which failed a range check. Values in this register will remain persistent once an exception has been detected until the.." bitfld.long 0x0 31. "PEND,This bit is set whenever the Flow ID firewall detects a Flow ID is out of range for an incoming packet. Once this bit is set the remaining fields in this register will not be modified. SW is required to write this bit to 0 to allow another.." "0,1" hexmask.long.word 0x0 16.--29. 1. "FLOWID,This is the flow ID that was received on the trapped packet" hexmask.long.word 0x0 0.--8. 1. "CHANNEL,This is the channel number on which the trapped packet was received" tree.end tree "SA3_SS0_PKTDMA_0_PKTDMA_CFG_RCHAN (SA3_SS0_PKTDMA_0_PKTDMA_CFG_RCHAN)" base ad:0x44912000 group.long 0x0++0x3 line.long 0x0 "PKTDMA__CFG__RCHAN_RCFG,The Rx Channel Configuration Register is used to initialize static mode settings for the Rx DMA channel. This register may only be written when the channel is disabled (rx_enable in realtime control reg is 0)." bitfld.long 0x0 31. "RX_PAUSE_ON_ERR,Pause On Error: this field controls what the channel will do if an error or exception occurs during a data transfer. This field is encoded as follows: 0 = Channel will drop current work and move on 1 = Channel will pause and wait for SW.." "0: Channel will drop current work and move on,1: Channel will pause and wait for SW to.." hexmask.long.byte 0x0 16.--19. 1. "RX_CHAN_TYPE,Rx Channel Type: this field controls and / or indicates the functional channel type for this channel and the work passing mechanism that the channel uses for communicating with the Host. Available channel types are as follows: 2 = Channel.." newline bitfld.long 0x0 10.--11. "RX_BURST_SIZE,Specifies the nominal burst size and alignment for data transfers on this channel. 0 1 = 64 Bytes 2 = 128 Bytes All other values are reserved" "?,1: 64 Bytes,2: 128 Bytes All other values are reserved,?" group.long 0x64++0x7 line.long 0x0 "PKTDMA__CFG__RCHAN_RPRI_CTRL,The priority control register is used to control the priority of the transactions which the DMA generates on it's master interface." bitfld.long 0x0 28.--30. "PRIORITY,Rx Priority: This field contains the 3-bit value which will be output on the mem*_cpriority and mem*_cepriority outputs during all transactions for this channel." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 0.--3. 1. "ORDERID,Rx Order ID: This field contains the 4-bit value which will be output on the mem*_corderid output during all transactions for this channel." line.long 0x4 "PKTDMA__CFG__RCHAN_THRD_ID,The thread ID mapping register is used to pair the Rx DMA channel to a specific destination thread. All traffic generated from this channel will be sent with a thread_id on the PSI-L interface with the value from this register." hexmask.long.word 0x4 0.--15. 1. "THREAD_ID,Thread ID: This field contains the (up-to) 16-bit value which will be output on the strm_o_thread_id output during all transactions for this channel." group.long 0x80++0x3 line.long 0x0 "PKTDMA__CFG__RCHAN_RST_SCHED,The Rx Channel N Static Scheduler Configuration Register contains static configuration information which affects the conditions under which each channel will be given an opportunity to use the Tx DMA unit(s). The fields in.." bitfld.long 0x0 0.--1. "PRIORITY,Rx Scheduling Priority: These bits select which scheduling bin the channel will be placed in for bandwidth allocation of the Rx DMA units. This field is encoded as follows: 0 = High priority 1 = Medium - high priority 2 = Medium - low priority.." "0: High priority,1: Medium,2: Medium,3: Low priority Arbitration between bins is.." tree.end tree "SA3_SS0_PKTDMA_0_PKTDMA_CFG_RCHANRT (SA3_SS0_PKTDMA_0_PKTDMA_CFG_RCHANRT)" base ad:0x44914000 group.long 0x0++0x3 line.long 0x0 "PKTDMA__CFG__RCHANRT_RRT_CTL,The Rx Channel Realtime Control Register contains real-time control and status information for the Rx DMA channel. The fields in this register can safely be changed while the channel is in operation." bitfld.long 0x0 31. "RX_ENABLE,This field enables or disables the channel. Disabling a channel halts operation on the channel after the current block transfer is completed. Disabling a channel in the middle of a packet transfer may result in overflow conditions in the.." "0: channel is disabled,1: channel is enabled This field will be cleared by.." bitfld.long 0x0 30. "RX_TEARDOWN,This field indicates whether or not an Rx teardown operation is complete. This field should be cleared when a channel is initialized. This field will be set after a channel teardown is complete." "0,1" bitfld.long 0x0 29. "RX_PAUSE,Channel pause: Setting this bit will cause the channel to pause processing immediately." "0,1" newline bitfld.long 0x0 0. "RX_ERROR,Channel error: This bit will be set anytime an error has occurred on the channel. This bit is cleared when the channel is disabled and re-enabled." "0,1" rgroup.long 0x40++0x7 line.long 0x0 "PKTDMA__CFG__RCHANRT_RRT_STATUS0,The Status Register provides a read only view of channel status bits." bitfld.long 0x0 31. "RRING_PEND,The channel ring has a descriptor" "0,1" bitfld.long 0x0 30. "RXQ_PEND,The channel fifo is available" "0,1" bitfld.long 0x0 29. "PKTID_AVAIL,The channel has an available packet id" "0,1" newline bitfld.long 0x0 28. "PKTID_BUSY,There is an outstanding pktid for the channel" "0,1" bitfld.long 0x0 25. "BUSY,The channel is busy" "0,1" bitfld.long 0x0 24. "TRANSBUSY,The channel has an outstanding transaction" "0,1" newline bitfld.long 0x0 23. "IN_PACKET,The channel is currently in a packet" "0,1" bitfld.long 0x0 22. "OK,The channel is ready to be scheduled" "0,1" bitfld.long 0x0 21. "WAVAIL,The fifo for the channel has space to place a burst size entry" "0,1" newline bitfld.long 0x0 18. "TDOWN_MSG_PEND,A teardown message is pending" "0,1" bitfld.long 0x0 17. "RX_REQS,The channel is sending a schedule request" "0,1" bitfld.long 0x0 16. "ERR_EVENT_REQS,The channel is trying to schedule an error event" "0,1" line.long 0x4 "PKTDMA__CFG__RCHANRT_RRT_STATUS1,The Status Register provides a read only view of channel status bits." bitfld.long 0x4 31. "RX_REQS,The channel is sending a schedule request" "0,1" bitfld.long 0x4 25. "FIFO_PEND,The FIFO has enough data for a burst" "0,1" bitfld.long 0x4 24. "FIFO_BUSY,The fifo has data" "0,1" newline bitfld.long 0x4 7. "CHANNEL_OK,The channel is trying to schedule work" "0,1" bitfld.long 0x4 6. "CHANNEL_BUSY,The channel has active work" "0,1" bitfld.long 0x4 3. "IN_PACKET_ARRAY,The channel is in a packet" "0,1" group.long 0x80++0x3 line.long 0x0 "PKTDMA__CFG__RCHANRT_RRT_STDATA,The State Data Registers contain the current working state of the Rx DMA channel. These registers are provided so that the Host can determine the potential cause of an error or exception condition which was reported by the.." hexmask.long 0x0 0.--31. 1. "STATE_INFO," group.long 0x200++0x3F line.long 0x0 "PKTDMA__CFG__RCHANRT_RRT_PEER0,This register provides access to the remote peer's realtime register at 0x400." hexmask.long 0x0 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x4 "PKTDMA__CFG__RCHANRT_RRT_PEER1,This register provides access to the remote peer's realtime register at 0x401." hexmask.long 0x4 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x8 "PKTDMA__CFG__RCHANRT_RRT_PEER2,This register provides access to the remote peer's realtime register at 0x402." hexmask.long 0x8 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0xC "PKTDMA__CFG__RCHANRT_RRT_PEER3,This register provides access to the remote peer's realtime register at 0x403." hexmask.long 0xC 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x10 "PKTDMA__CFG__RCHANRT_RRT_PEER4,This register provides access to the remote peer's realtime register at 0x404." hexmask.long 0x10 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x14 "PKTDMA__CFG__RCHANRT_RRT_PEER5,This register provides access to the remote peer's realtime register at 0x405." hexmask.long 0x14 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x18 "PKTDMA__CFG__RCHANRT_RRT_PEER6,This register provides access to the remote peer's realtime register at 0x406." hexmask.long 0x18 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x1C "PKTDMA__CFG__RCHANRT_RRT_PEER7,This register provides access to the remote peer's realtime register at 0x407." hexmask.long 0x1C 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x20 "PKTDMA__CFG__RCHANRT_RRT_PEER8,This register provides access to the remote peer's realtime register at 0x408." hexmask.long 0x20 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x24 "PKTDMA__CFG__RCHANRT_RRT_PEER9,This register provides access to the remote peer's realtime register at 0x409." hexmask.long 0x24 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x28 "PKTDMA__CFG__RCHANRT_RRT_PEER10,This register provides access to the remote peer's realtime register at 0x40A." hexmask.long 0x28 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x2C "PKTDMA__CFG__RCHANRT_RRT_PEER11,This register provides access to the remote peer's realtime register at 0x40B." hexmask.long 0x2C 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x30 "PKTDMA__CFG__RCHANRT_RRT_PEER12,This register provides access to the remote peer's realtime register at 0x40C." hexmask.long 0x30 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x34 "PKTDMA__CFG__RCHANRT_RRT_PEER13,This register provides access to the remote peer's realtime register at 0x40D." hexmask.long 0x34 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x38 "PKTDMA__CFG__RCHANRT_RRT_PEER14,This register provides access to the remote peer's realtime register at 0x40E." hexmask.long 0x38 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x3C "PKTDMA__CFG__RCHANRT_RRT_PEER15,This register provides access to the remote peer's realtime register at 0x40F." hexmask.long 0x3C 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." group.long 0x400++0xB line.long 0x0 "PKTDMA__CFG__RCHANRT_RRT_PCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x0 0.--31. 1. "PCNT,Current completed packet count for the channel." line.long 0x4 "PKTDMA__CFG__RCHANRT_RRT_DCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x4 0.--31. 1. "DCNT,Current dropped packet count for the channel." line.long 0x8 "PKTDMA__CFG__RCHANRT_RRT_BCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x8 0.--31. 1. "BCNT,Current completed payload byte count for the channel." group.long 0x410++0x3 line.long 0x0 "PKTDMA__CFG__RCHANRT_RRT_SBCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x0 0.--31. 1. "SBCNT,Current started byte count for the channel." tree.end tree "SA3_SS0_PKTDMA_0_PKTDMA_CFG_RFLOW (SA3_SS0_PKTDMA_0_PKTDMA_CFG_RFLOW)" base ad:0x44911000 group.long 0x0++0x3 line.long 0x0 "PKTDMA__CFG__RFLOW_RFA,The Rx Flow N Configuration Register A contains static configuration information for the Rx DMA flow. The fields in this register can only be changed when all of the DMA channels that use this flow have been disabled. The fields.." bitfld.long 0x0 30. "RX_EINFO_PRESENT,Rx Extended Packet Info Block Present: This bit controls whether or not the Extended Packet Info Block will be present in the Rx Packet Descriptor. If this bit is clear the port DMA will clear the Extended Packet Info Present bit in.." "0,1" bitfld.long 0x0 29. "RX_PSINFO_PRESENT,Rx PS Words Present: This bit controls whether or not the Protocol Specific words will be present in the Rx Packet Descriptor. If this bit is clear the port DMA will set the PS word count to 0 in the PD and will drop any PS words.." "0,1" bitfld.long 0x0 28. "RX_ERROR_HANDLING,Rx Error Handling Mode: This bit controls the error handling mode for the flow and is only used when channel errors (i.e. descriptor starvation) occurs. 0 = Starvation errors result in dropping packet and incrementing dropped packet.." "0: Starvation errors result in dropping packet and..,1: Starvation errors result in the channel waiting.." newline hexmask.long.word 0x0 16.--24. 1. "RX_SOP_OFFSET,Rx Start of Packet Offset: This field specifies the number of bytes that are to be skipped in the SOP buffer before beginning to write the payload or protocol specific bytes(if they are in the sop buffer). This value must be less than the.." tree.end tree "SA3_SS0_PKTDMA_0_PKTDMA_CFG_RING (SA3_SS0_PKTDMA_0_PKTDMA_CFG_RING)" base ad:0x4491A000 group.long 0x40++0xB line.long 0x0 "PKTDMA__CFG__RING_BA_LO,The Ring Base Address Lo Register contains the 32 LSBs of the base address for the ring which is used to hand off pending work for the channel from the Host. The base address must be aligned to 0x8. A write to this register will.." hexmask.long 0x0 0.--31. 1. "ADDR_LO,Ring base address (LSBs)" line.long 0x4 "PKTDMA__CFG__RING_BA_HI,The Ring Base Address Hi Register contains the 16 MSBs of the base address for the ring which is used to hand off pending work for the channel from the Host. The base address must be aligned to 0x8. A write to this register will.." hexmask.long.byte 0x4 16.--19. 1. "ASEL,Ring base address select" hexmask.long.byte 0x4 0.--3. 1. "ADDR_HI,Ring base address (MSBs)" line.long 0x8 "PKTDMA__CFG__RING_SIZE,The Ring Size Register contains the element count for the ring which is used to hand off pending work for the channel from the Host. A write to this register will reset the associated ring to clear the occupancies and reset the.." bitfld.long 0x8 29.--31. "QMODE,Defines the mode for this ring or queue." "0,1,2,3,4,5,6,7" bitfld.long 0x8 24.--26. "RING_ELSIZE," "0,1,2,3,4,5,6,7" hexmask.long.word 0x8 0.--15. 1. "SIZE,Tx Ring element count. This field configures the size of the ring in elements." tree.end tree "SA3_SS0_PKTDMA_0_PKTDMA_CFG_RINGRT (SA3_SS0_PKTDMA_0_PKTDMA_CFG_RINGRT)" base ad:0x44940000 group.long 0x10++0x3 line.long 0x0 "PKTDMA__CFG__RINGRT_RT_FDB,The Ring N Doorbell Register is written by software to increment or decrement the number of entries on a Ring. One or more entries as specified by the entry_cnt field can be added to a ring with a single write operation." hexmask.long.byte 0x0 0.--7. 1. "ENTRY_CNT,Signed number of entries by which to increment the ring occupancy. For normal Tx Ring operation this value should be a positive number. This occ value for the ring is increased by this value each time the doorbell register is written (occ.." group.long 0x18++0x3 line.long 0x0 "PKTDMA__CFG__RINGRT_RT_FOCC,The Ring N Occupancy Register can be read by software to determine the total number of valid entries on a ring. The contents of each of these registers are unary ORed in order to create a pending signal for the ring which can.." hexmask.long.tbyte 0x0 0.--16. 1. "OCC,Total number of valid entries on the ring. This value is generally intended to be incremented by doorbell pokes from software and is decremented by the DMA engine as entries are completed." group.long 0x1010++0x3 line.long 0x0 "PKTDMA__CFG__RINGRT_RT_RDB,The Ring N Doorbell Register is written by software to increment or decrement the number of entries on a Ring. One or more entries as specified by the entry_cnt field can be added to a ring with a single write operation." bitfld.long 0x0 31. "TDOWN_ACK,This bit is set to 1 to ackowledge (and clear) the tdown_complete bit in the corresponding Ring N Occupancy Register. this bit is only valid on the reverse rings (rings consumed by the Host SW)" "0,1" hexmask.long.byte 0x0 0.--7. 1. "ENTRY_CNT,Signed number of entries by which to increment the ring occupancy. For normal Tx Ring operation this value should be a positive number. This occ value for the ring is increased by this value each time the doorbell register is written (occ.." group.long 0x1018++0x3 line.long 0x0 "PKTDMA__CFG__RINGRT_RT_ROCC,The Ring N Occupancy Register can be read by software to determine the total number of valid entries on a ring. The contents of each of these registers are unary ORed in order to create a pending signal for the ring which can.." bitfld.long 0x0 31. "TDOWN_COMPLETE,This bit when set indicates that a teardown is complete on the channel. This bit is cleared anytime the tdown_ack bit is written as a 1 in the corresponding Ring N Doorbell Register. This bit is only valid on the reverse rings (rings.." "0,1" hexmask.long.tbyte 0x0 0.--16. 1. "OCC,Total number of valid entries on the ring. This value is generally intended to be incremented by doorbell pokes from software and is decremented by the DMA engine as entries are completed." tree.end tree "SA3_SS0_PKTDMA_0_PKTDMA_CFG_TCHAN (SA3_SS0_PKTDMA_0_PKTDMA_CFG_TCHAN)" base ad:0x44913000 group.long 0x0++0x3 line.long 0x0 "PKTDMA__CFG__TCHAN_TCFG,The Tx Channel Configuration Register is used to initialize static mode settings for the Tx DMA channel. This register may only be written when the channel is disabled (tx_enable in realtime control reg is 0)." bitfld.long 0x0 31. "TX_PAUSE_ON_ERR,Pause On Error: this field controls what the channel will do if an error or exception occurs during a data transfer. This field is encoded as follows: 0 = Channel will drop current work and move on 1 = Channel will pause and wait for SW.." "0: Channel will drop current work and move on,1: Channel will pause and wait for SW to.." newline bitfld.long 0x0 30. "TX_FILT_EINFO,This field controls whether or not the DMA controller will pass the extended packet information fields (if present) from the descriptor to the back end application. This field is encoded as follows: 0=DMA controller will pass extended.." "0: DMA controller will pass extended packet info..,1: DMA controller will filter extended packet info.." newline bitfld.long 0x0 29. "TX_FILT_PSWORDS,This field controls whether or not the DMA controller will pass the protocol specific words (if present) from the descriptor to the back end application. This field is encoded as follows: 0=DMA controller will pass PS words if present in.." "0: DMA controller will pass PS words if present in..,1: DMA controller will filter PS words" newline hexmask.long.byte 0x0 16.--19. 1. "TX_CHAN_TYPE,Tx Channel Type: this field controls and / or indicates the functional channel type for this channel and the work passing mechanism that the channel uses for communicating with the Host. Available channel types are as follows: 2 = Channel.." newline bitfld.long 0x0 10.--11. "TX_BURST_SIZE,Specifies the nominal burst size and alignment for data transfers on this channel. 0 1 = 64 Bytes 2 = 128 Bytes All other values are reserved" "?,1: 64 Bytes,2: 128 Bytes All other values are reserved,?" newline bitfld.long 0x0 9. "TX_TDTYPE,Specifies whether or not the channel should immediately return a teardown completion response to the default completion queue or wait until a status message is returned from the remote PSI-L paired peripheral. 0 = return immediately once all.." "0: return immediately once all traffic is complete..,1: wait until remote peer sends back a completion.." newline bitfld.long 0x0 8. "TX_NOTDPKT,Specifies whether or not the channel should suppress sending the single data phase teardown packet when teardown is complete. 0 = TD packet is sent 1 = Suppress sending TD packet" "0: TD packet is sent,1: Suppress sending TD packet" group.long 0x64++0x7 line.long 0x0 "PKTDMA__CFG__TCHAN_TPRI_CTRL,The priority control register is used to control the priority of the transactions which the DMA generates on it's master interface." bitfld.long 0x0 28.--30. "PRIORITY,Tx Priority: This field contains the 3-bit value which will be output on the mem*_cpriority and mem_cepriority outputs during all transactions for this channel." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--3. 1. "ORDERID,Tx Order ID: This field contains the 4-bit value which will be output on the mem*_corderid output during all transactions for this channel." line.long 0x4 "PKTDMA__CFG__TCHAN_THRD_ID,The thread ID mapping register is used to pair the Tx DMA channel to a specific destination thread. All traffic generated from this channel will be sent with a thread_id on the PSI-L interface with the value from this register." hexmask.long.word 0x4 0.--15. 1. "THREAD_ID,Thread ID: This field contains the (up-to) 16-bit value which will be output on the strm_o_thread_id output during all transactions for this channel." group.long 0x70++0x3 line.long 0x0 "PKTDMA__CFG__TCHAN_TFIFO_DEPTH,The fifo depth register is used to specify how many FIFO data phases deep the Tx per channel FIFO will be for the channel. While the maximum depth of the Tx FIFO is set at design time. the FIFO depth can be artificially.." hexmask.long.byte 0x0 0.--7. 1. "FDEPTH,FIFO Depth: This field contains the number of Tx FIFO bytes which will be allowed to be stored for the channel. The minimum value is equal to the PSI-L interface data path width but must be greater than 32 bytes + the burst size the maximum.." group.long 0x80++0x3 line.long 0x0 "PKTDMA__CFG__TCHAN_TST_SCHED,The Tx Channel N Static Scheduler Configuration Register contains static configuration information which affects the conditions under which each channel will be given an opportunity to use the Tx DMA unit(s). The fields in.." bitfld.long 0x0 0.--1. "PRIORITY,Tx Scheduling Priority: These bits select which scheduling bin the channel will be placed in for bandwidth allocation of the Tx DMA units. This field is encoded as follows: 0 = High priority 1 = Medium - high priority 2 = Medium - low priority.." "0: High priority,1: Medium,2: Medium,3: Low priority Arbitration between bins is.." tree.end tree "SA3_SS0_PKTDMA_0_PKTDMA_CFG_TCHANRT (SA3_SS0_PKTDMA_0_PKTDMA_CFG_TCHANRT)" base ad:0x44918000 group.long 0x0++0x3 line.long 0x0 "PKTDMA__CFG__TCHANRT_TRT_CTL,The Tx Channel Realtime Control Register contains real-time control and status information for the Tx DMA channel. The fields in this register can safely be changed while the channel is in operation." bitfld.long 0x0 31. "TX_ENABLE,This field enables or disables the channel. Disabling a channel halts operation on the channel after the current block transfer is completed. Disabling a channel in the middle of a packet transfer may result in underflow conditions in the.." "0: channel is disabled,1: channel is enabled This field will be cleared by.." bitfld.long 0x0 30. "TX_TEARDOWN,Channel teardown: Setting this bit will request the channel to be torn down. This field will remain set after a channel teardown is complete." "0,1" bitfld.long 0x0 29. "TX_PAUSE,Channel pause: Setting this bit will cause the channel to pause processing immediately." "0,1" newline bitfld.long 0x0 0. "TX_ERROR,Channel error: This bit will be set anytime an error has occurred on the channel. This bit is cleared by writing back a 0." "0,1" rgroup.long 0x40++0x7 line.long 0x0 "PKTDMA__CFG__TCHANRT_TRT_STATUS0,The Status Register provides a read only view of channel status bits." bitfld.long 0x0 31. "TRING_PEND,The channel ring has a descriptor" "0,1" bitfld.long 0x0 30. "TXQ_PEND,The channel fifo is available" "0,1" bitfld.long 0x0 29. "PKTID_AVAIL,The channel has an available packet id" "0,1" newline bitfld.long 0x0 28. "PKTID_BUSY,There is an outstanding pktid for the channel" "0,1" bitfld.long 0x0 25. "BUSY,The channel is busy" "0,1" bitfld.long 0x0 24. "TRANSBUSY,The channel has an outstanding transaction" "0,1" newline bitfld.long 0x0 23. "IN_PACKET,The channel is currently in a packet" "0,1" bitfld.long 0x0 22. "OK,The channel is ready to be scheduled" "0,1" bitfld.long 0x0 21. "WAVAIL,The fifo for the channel has space to place a burst size entry" "0,1" newline bitfld.long 0x0 18. "TDOWN_MSG_PEND,A teardown message is pending" "0,1" bitfld.long 0x0 17. "TX_REQS,The channel is sending a schedule request" "0,1" bitfld.long 0x0 16. "ERR_EVENT_REQS,The channel is trying to schedule an error event" "0,1" line.long 0x4 "PKTDMA__CFG__TCHANRT_TRT_STATUS1,The Status Register provides a read only view of channel status bits." bitfld.long 0x4 31. "TX_REQS,The channel is sending a schedule request" "0,1" bitfld.long 0x4 26. "SOP_WAVAIL,The FIFO has space for the start of a packet" "0,1" bitfld.long 0x4 25. "MOP_WAVAIL,The FIFO has space for the middle of a packet" "0,1" newline bitfld.long 0x4 24. "WAVAIL,The fifo has space for a burst size" "0,1" bitfld.long 0x4 8. "TDNULL,The channel has met the conditions to attempt to teardown" "0,1" bitfld.long 0x4 7. "CHANNEL_OK,The channel is trying to schedule work" "0,1" newline bitfld.long 0x4 6. "CHANNEL_BUSY,The channel has active work" "0,1" bitfld.long 0x4 3. "IN_PACKET_ARRAY,The channel is in a packet" "0,1" group.long 0x80++0x3 line.long 0x0 "PKTDMA__CFG__TCHANRT_TRT_STDATA,The State Data Registers contain the current working state of the Tx DMA channel. These registers are provided so that the Host can determine the potential cause of an error or exception condition which was reported by the.." hexmask.long 0x0 0.--31. 1. "STATE_INFO," group.long 0x200++0x3F line.long 0x0 "PKTDMA__CFG__TCHANRT_TRT_PEER0,This register provides access to the remote peer's realtime register at 0x400." hexmask.long 0x0 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x4 "PKTDMA__CFG__TCHANRT_TRT_PEER1,This register provides access to the remote peer's realtime register at 0x401." hexmask.long 0x4 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x8 "PKTDMA__CFG__TCHANRT_TRT_PEER2,This register provides access to the remote peer's realtime register at 0x402." hexmask.long 0x8 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0xC "PKTDMA__CFG__TCHANRT_TRT_PEER3,This register provides access to the remote peer's realtime register at 0x403." hexmask.long 0xC 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x10 "PKTDMA__CFG__TCHANRT_TRT_PEER4,This register provides access to the remote peer's realtime register at 0x404." hexmask.long 0x10 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x14 "PKTDMA__CFG__TCHANRT_TRT_PEER5,This register provides access to the remote peer's realtime register at 0x405." hexmask.long 0x14 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x18 "PKTDMA__CFG__TCHANRT_TRT_PEER6,This register provides access to the remote peer's realtime register at 0x406." hexmask.long 0x18 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x1C "PKTDMA__CFG__TCHANRT_TRT_PEER7,This register provides access to the remote peer's realtime register at 0x407." hexmask.long 0x1C 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x20 "PKTDMA__CFG__TCHANRT_TRT_PEER8,This register provides access to the remote peer's realtime register at 0x408." hexmask.long 0x20 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x24 "PKTDMA__CFG__TCHANRT_TRT_PEER9,This register provides access to the remote peer's realtime register at 0x409." hexmask.long 0x24 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x28 "PKTDMA__CFG__TCHANRT_TRT_PEER10,This register provides access to the remote peer's realtime register at 0x40A." hexmask.long 0x28 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x2C "PKTDMA__CFG__TCHANRT_TRT_PEER11,This register provides access to the remote peer's realtime register at 0x40B." hexmask.long 0x2C 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x30 "PKTDMA__CFG__TCHANRT_TRT_PEER12,This register provides access to the remote peer's realtime register at 0x40C." hexmask.long 0x30 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x34 "PKTDMA__CFG__TCHANRT_TRT_PEER13,This register provides access to the remote peer's realtime register at 0x40D." hexmask.long 0x34 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x38 "PKTDMA__CFG__TCHANRT_TRT_PEER14,This register provides access to the remote peer's realtime register at 0x40E." hexmask.long 0x38 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." line.long 0x3C "PKTDMA__CFG__TCHANRT_TRT_PEER15,This register provides access to the remote peer's realtime register at 0x40F." hexmask.long 0x3C 0.--31. 1. "PEER_DATA,Peer realtime register data (varies by paired peer)." group.long 0x400++0x3 line.long 0x0 "PKTDMA__CFG__TCHANRT_TRT_PCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x0 0.--31. 1. "PCNT,Current completed packet count for the channel." group.long 0x408++0x3 line.long 0x0 "PKTDMA__CFG__TCHANRT_TRT_BCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x0 0.--31. 1. "BCNT,Current completed payload byte count for the channel." group.long 0x410++0x3 line.long 0x0 "PKTDMA__CFG__TCHANRT_TRT_SBCNT,The statistics registers are supplied to give software applications operational progress status for the channel." hexmask.long 0x0 0.--31. 1. "SBCNT,Current started byte count for the channel." tree.end tree.end tree "SA3_SS0_PSILCFG_0_PSILCFG_CFG_PROXY (SA3_SS0_PSILCFG_0_PSILCFG_CFG_PROXY)" base ad:0x44801000 rgroup.long 0x0++0x3 line.long 0x0 "PSILCFG__CFG__PROXY_REVISION,The Revision Register contains the major and minor revisions for the module." hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID field" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "REVMAJ,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor revision" group.long 0x10++0x3 line.long 0x0 "PSILCFG__CFG__PROXY_PSIL_TO,The PSI-L proxy timeout register controls the timeout watchdog and reports timeout occurrances on PSI-L configuration transactions issued by the built in PSI-L proxy." bitfld.long 0x0 31. "TOUT,Timeout occurred. When set indicates that a timeout has occurred on a config access. Once set this bit is persistent until manually cleared" "0,1" hexmask.long.word 0x0 0.--15. 1. "TOUT_CNT,Timeout period. Specifies how many cycles to wait before closing up a conifiguration read or write transaction and asserting the tout bit" group.long 0x100++0xB line.long 0x0 "PSILCFG__CFG__PROXY_PSIL_CMDA,The Command Register A contains the busy indicator. direction. and thread number for the configuration transaction." bitfld.long 0x0 31. "PROXY_BUSY,Indication that a configuration read or write is in progress" "0,1" bitfld.long 0x0 30. "PROXY_DIR,Direction of configuration transaction" "0,1" bitfld.long 0x0 29. "PROXY_TOUT,Indication that a timeout occurred. This bit should be written to 0 on each new transaction." "0,1" hexmask.long.word 0x0 0.--15. 1. "PROXY_THREAD_ID,Thread ID to which configuration read or write is being sent" line.long 0x4 "PSILCFG__CFG__PROXY_PSIL_CMDB,The Command Register B contains the byte enables and word address for the configuration transaction." hexmask.long.byte 0x4 28.--31. 1. "PROXY_BYTEN,Byte enables to use for configuration read or write" hexmask.long.word 0x4 0.--15. 1. "PROXY_ADDRESS,Word (32-bit) address within thread configuration space for transaction" line.long 0x8 "PSILCFG__CFG__PROXY_PSIL_WDATA,The Write Data Register contains the data which is to be written during the configuration transaction." hexmask.long 0x8 0.--31. 1. "PROXY_WDATA,Configuration data word to be written" group.long 0x140++0x3 line.long 0x0 "PSILCFG__CFG__PROXY_PSIL_RDATA,The Read Data Register contains the data which which was read back during the configuration transaction." hexmask.long 0x0 0.--31. 1. "PROXY_RDATA,Configuration data word that was read" tree.end tree "SA3_SS0_PSILSS_0_PSILSS_CFG_MMRS (SA3_SS0_PSILSS_0_PSILSS_CFG_MMRS)" base ad:0x44802000 rgroup.long 0x0++0x7 line.long 0x0 "PSILSS__CFG__MMRS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" line.long 0x4 "PSILSS__CFG__MMRS_config,The Config Register shows configured params." hexmask.long.word 0x4 0.--15. 1. "ENDPOINTS,Number of endpoints supported." group.long 0x10++0x3 line.long 0x0 "PSILSS__CFG__MMRS_event,The Event Register defines the event to produce for a link down event." hexmask.long.word 0x0 0.--15. 1. "EVT,The event to produce." rgroup.long 0x20++0x3 line.long 0x0 "PSILSS__CFG__MMRS_link,The Link Register shows the current status of the endpoint links." hexmask.long 0x0 0.--31. 1. "STATUS,The status of the endpoint links." group.long 0x40++0x3 line.long 0x0 "PSILSS__CFG__MMRS_down,The Link Down Register shows which links are down for the endpoints." hexmask.long 0x0 0.--31. 1. "STATUS,The down status of the endpoint links." tree.end base ad:0x0 tree "SA3_SS0_RINGACC_0" tree "SA3_SS0_RINGACC_0_IPCSS_RINGACC_CFG (SA3_SS0_RINGACC_0_IPCSS_RINGACC_CFG)" base ad:0x448C0000 group.long 0x40++0x13 line.long 0x0 "IPCSS__RINGACC_CFG__CFG_BA_LO,The Tx Ring Base Address Lo Register contains the 32 LSBs of the base address for the ring which is used to hand off pending work for the channel from the Host. The base address must be aligned to the element size of the.." hexmask.long 0x0 0.--31. 1. "ADDR_LO,Tx Ring base address (LSBs)" line.long 0x4 "IPCSS__RINGACC_CFG__CFG_BA_HI,The Tx Ring Base Address Hi Register contains the 16 MSBs of the base address for the ring which is used to hand off pending work for the channel from the Host. The base address must be aligned to the element size of the.." hexmask.long.word 0x4 0.--15. 1. "ADDR_HI,Tx Ring base address (MSBs)" line.long 0x8 "IPCSS__RINGACC_CFG__CFG_SIZE,The Tx Ring Size Register contains the element size and element counts for the ring which is used to hand off pending work for the channel from the Host. A write to this register will reset the associated ring to clear the.." bitfld.long 0x8 30.--31. "QMODE,Defines the mode for this ring or queue." "0,1,2,3" bitfld.long 0x8 24.--26. "ELSIZE,Ring element size. This field is encoded as follows: 0 = 4 bytes 1 = 8 bytes 2 = 16 bytes 3 = 32 bytes 4 = 64 bytes 5 = 128 bytes 6 = 256 bytes 7 = RESERVED" "0: 4 bytes,1: 8 bytes,2: 16 bytes,3: 32 bytes,4: 64 bytes,5: 128 bytes,6: 256 bytes,7: RESERVED" hexmask.long.tbyte 0x8 0.--19. 1. "SIZE,Tx Ring element count. This field configures the size of the ring in elements. For rings in CREDENTIALS or QM modes the size must be an even number." line.long 0xC "IPCSS__RINGACC_CFG__CFG_EVT,The Ring Event Register is an Output Event Steering 'OES' register that specifies the event number used to denote the occurrence of an up event [empty to not-empty] or a down event [non-empty to empty] for this ring." hexmask.long.word 0xC 0.--15. 1. "EVT,Defines the event for this ring or queue." line.long 0x10 "IPCSS__RINGACC_CFG__CFG_ORDERID,The Ring OrderID Register contains the bus orderid value for the ring memory access." bitfld.long 0x10 4. "REPLACE,Indicates to replace the bus orderid value for this ring or queue with the orderid MMR field. This allows control over the orderid value when it must be restricted due to the topology for QoS reasons. 0 = bypass and use the orderid from the.." "0: bypass and use the orderid from the source..,1: use the orderid MMR field value for the.." hexmask.long.byte 0x10 0.--3. 1. "ORDERID,Defines the bus orderid value for this ring or queue." tree.end tree "SA3_SS0_RINGACC_0_IPCSS_RINGACC_CFG_GCFG (SA3_SS0_RINGACC_0_IPCSS_RINGACC_CFG_GCFG)" base ad:0x44805000 rgroup.long 0x0++0x3 line.long 0x0 "IPCSS__RINGACC_CFG__GCFG_revision,The Revision Register contains the major and minor revisions for the module." hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID field" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "REVMAJ,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor revision" group.long 0x10++0x3 line.long 0x0 "IPCSS__RINGACC_CFG__GCFG_trace_ctl,Trace Control Register" bitfld.long 0x0 31. "EN,Trace enable 0 = disable 1 = enable." "0: disable,1: enable" bitfld.long 0x0 30. "ALL_QUEUES,Trace everything 0 = only the selected queue 1 = every queue." "0: only the selected queue,1: every queue" bitfld.long 0x0 29. "MSG,Trace message data 0 = include only the operation 1 = include message data." "0: include only the operation,1: include message data" hexmask.long.word 0x0 0.--15. 1. "QUEUE,Queue number when tracing a single queue." group.long 0x20++0x3 line.long 0x0 "IPCSS__RINGACC_CFG__GCFG_overflow,Overflow Queue Register" hexmask.long.word 0x0 0.--15. 1. "QUEUE,Queue to send overflow messages. A value of 0xffff will disable the overflow function." group.long 0x40++0x3 line.long 0x0 "IPCSS__RINGACC_CFG__GCFG_error_evt,The Error Event Register is an Output Event Steering 'OES' register that specifies the event number used to denote detection of a ring memory transaction bus error." hexmask.long.word 0x0 0.--15. 1. "EVT,Event to send when detecting a bus error." rgroup.long 0x44++0x3 line.long 0x0 "IPCSS__RINGACC_CFG__GCFG_error_log,Error Log Register. A read of this register will clear the pending error log event and allow a new error to be captured. It does not clear the contents of this register which are only valid while the error event is.." bitfld.long 0x0 31. "PUSH,Bus error was caused by a push. 0 = pop. 1 = push." "0: pop,1: push" hexmask.long.word 0x0 0.--15. 1. "QUEUE,Queue that received the bus error." tree.end tree "SA3_SS0_RINGACC_0_IPCSS_RINGACC_CFG_RT (SA3_SS0_RINGACC_0_IPCSS_RINGACC_CFG_RT)" base ad:0x44C00000 group.long 0x10++0x3 line.long 0x0 "IPCSS__RINGACC_CFG__RT_RT_DB,The Ring N Doorbell Register is written by software to increment or decrement the number of entries on a Ring. One or more entries as specified by the entry_cnt field can be added to a ring with a single write operation." hexmask.long.byte 0x0 0.--7. 1. "ENTRY_CNT,Signed number of entries by which to increment the ring occupancy. For normal Tx Ring operation this value should be a positive number. This occ value for the ring is increased by this value each time the doorbell register is written (occ.." group.long 0x18++0xF line.long 0x0 "IPCSS__RINGACC_CFG__RT_RT_OCC,The Ring N Occupancy Register can be read by software to determine the total number of valid entries on a ring. The contents of each of these registers are unary ORed in order to create a pending signal for the ring which.." hexmask.long.tbyte 0x0 0.--20. 1. "OCC,Total number of valid entries on the ring. This value is generally intended to be incremented by doorbell pokes from software and is decremented by the DMA engine as entries are completed." line.long 0x4 "IPCSS__RINGACC_CFG__RT_RT_INDX,The Ring N Current Index Register can be read by software for debug purposes to determine the current SW read index for the Ring for the channel." hexmask.long.tbyte 0x4 0.--19. 1. "INDX,Current SW owned read index for the ring. This value is initialized to 0 when the ring is set up and will be incremented by SW each time SW processes a ring entry. When the index is incremented to a value equal to the size field in the Ring Size.." line.long 0x8 "IPCSS__RINGACC_CFG__RT_RT_HWOCC,The Ring N Hardware Occupancy Register contains the early increment/decrement version of the the total number of valid entries on a ring. The contents of each of these registers are unary ORed in order to create a pending.." hexmask.long.tbyte 0x8 0.--20. 1. "OCC,Total number of valid entries on the ring. This value is generally intended to be incremented by doorbell pokes from software and is decremented by the DMA engine as entries are completed." line.long 0xC "IPCSS__RINGACC_CFG__RT_RT_HWINDX,The Ring N Current Index Register can be read by software for debug purposes to determine the current HW read index for the Ring for the channel." hexmask.long.tbyte 0xC 0.--19. 1. "INDX,Current HW owned read index for the ring. This value is initialized to 0 when the ring is set up and will be incremented by HW each time HW processes a ring entry. When the index is incremented to a value equal to the size field in the Ring Size.." tree.end tree.end tree "SA3_SS0_SA_UL" tree "SA3_SS0_SA_UL_0_ECC_AGGR (SA3_SS0_SA_UL_0_ECC_AGGR)" base ad:0x712000 rgroup.long 0x0++0x3 line.long 0x0 "ECC_REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECC_REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECC_REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECC_REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECC_REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 11. "AUTH_CTXRAM_BANK10PEND,Interrupt Pending Status for auth_ctxram_bank10pend" "0,1" bitfld.long 0x4 10. "AUTH_CTXRAM_BANK89PEND,Interrupt Pending Status for auth_ctxram_bank89pend" "0,1" bitfld.long 0x4 9. "AUTH_CTXRAM_BANK67PEND,Interrupt Pending Status for auth_ctxram_bank67pend" "0,1" newline bitfld.long 0x4 8. "AUTH_CTXRAM_BANK45PEND,Interrupt Pending Status for auth_ctxram_bank45pend" "0,1" bitfld.long 0x4 7. "AUTH_CTXRAM_BANK23PEND,Interrupt Pending Status for auth_ctxram_bank23pend" "0,1" bitfld.long 0x4 6. "AUTH_CTXRAM_BANK01PEND,Interrupt Pending Status for auth_ctxram_bank01pend" "0,1" newline bitfld.long 0x4 5. "ENCR_CTXRAM_BANK4PEND,Interrupt Pending Status for encr_ctxram_bank4pend" "0,1" bitfld.long 0x4 4. "ENCR_CTXRAM_BANK23PEND,Interrupt Pending Status for encr_ctxram_bank23pend" "0,1" bitfld.long 0x4 3. "ENCR_CTXRAM_BANK01PEND,Interrupt Pending Status for encr_ctxram_bank01pend" "0,1" newline bitfld.long 0x4 2. "PROG_RAMECCPEND,Interrupt Pending Status for prog_rameccpend" "0,1" bitfld.long 0x4 1. "PKTRAM1PEND,Interrupt Pending Status for pktram1pend" "0,1" bitfld.long 0x4 0. "PKTRAM0PEND,Interrupt Pending Status for pktram0pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECC_REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 11. "AUTH_CTXRAM_BANK10ENABLE_SET,Interrupt Enable Set Register for auth_ctxram_bank10pend" "0,1" bitfld.long 0x0 10. "AUTH_CTXRAM_BANK89ENABLE_SET,Interrupt Enable Set Register for auth_ctxram_bank89pend" "0,1" bitfld.long 0x0 9. "AUTH_CTXRAM_BANK67ENABLE_SET,Interrupt Enable Set Register for auth_ctxram_bank67pend" "0,1" newline bitfld.long 0x0 8. "AUTH_CTXRAM_BANK45ENABLE_SET,Interrupt Enable Set Register for auth_ctxram_bank45pend" "0,1" bitfld.long 0x0 7. "AUTH_CTXRAM_BANK23ENABLE_SET,Interrupt Enable Set Register for auth_ctxram_bank23pend" "0,1" bitfld.long 0x0 6. "AUTH_CTXRAM_BANK01ENABLE_SET,Interrupt Enable Set Register for auth_ctxram_bank01pend" "0,1" newline bitfld.long 0x0 5. "ENCR_CTXRAM_BANK4ENABLE_SET,Interrupt Enable Set Register for encr_ctxram_bank4pend" "0,1" bitfld.long 0x0 4. "ENCR_CTXRAM_BANK23ENABLE_SET,Interrupt Enable Set Register for encr_ctxram_bank23pend" "0,1" bitfld.long 0x0 3. "ENCR_CTXRAM_BANK01ENABLE_SET,Interrupt Enable Set Register for encr_ctxram_bank01pend" "0,1" newline bitfld.long 0x0 2. "PROG_RAMECCENABLE_SET,Interrupt Enable Set Register for prog_rameccpend" "0,1" bitfld.long 0x0 1. "PKTRAM1ENABLE_SET,Interrupt Enable Set Register for pktram1pend" "0,1" bitfld.long 0x0 0. "PKTRAM0ENABLE_SET,Interrupt Enable Set Register for pktram0pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECC_REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 11. "AUTH_CTXRAM_BANK10ENABLE_CLR,Interrupt Enable Clear Register for auth_ctxram_bank10pend" "0,1" bitfld.long 0x0 10. "AUTH_CTXRAM_BANK89ENABLE_CLR,Interrupt Enable Clear Register for auth_ctxram_bank89pend" "0,1" bitfld.long 0x0 9. "AUTH_CTXRAM_BANK67ENABLE_CLR,Interrupt Enable Clear Register for auth_ctxram_bank67pend" "0,1" newline bitfld.long 0x0 8. "AUTH_CTXRAM_BANK45ENABLE_CLR,Interrupt Enable Clear Register for auth_ctxram_bank45pend" "0,1" bitfld.long 0x0 7. "AUTH_CTXRAM_BANK23ENABLE_CLR,Interrupt Enable Clear Register for auth_ctxram_bank23pend" "0,1" bitfld.long 0x0 6. "AUTH_CTXRAM_BANK01ENABLE_CLR,Interrupt Enable Clear Register for auth_ctxram_bank01pend" "0,1" newline bitfld.long 0x0 5. "ENCR_CTXRAM_BANK4ENABLE_CLR,Interrupt Enable Clear Register for encr_ctxram_bank4pend" "0,1" bitfld.long 0x0 4. "ENCR_CTXRAM_BANK23ENABLE_CLR,Interrupt Enable Clear Register for encr_ctxram_bank23pend" "0,1" bitfld.long 0x0 3. "ENCR_CTXRAM_BANK01ENABLE_CLR,Interrupt Enable Clear Register for encr_ctxram_bank01pend" "0,1" newline bitfld.long 0x0 2. "PROG_RAMECCENABLE_CLR,Interrupt Enable Clear Register for prog_rameccpend" "0,1" bitfld.long 0x0 1. "PKTRAM1ENABLE_CLR,Interrupt Enable Clear Register for pktram1pend" "0,1" bitfld.long 0x0 0. "PKTRAM0ENABLE_CLR,Interrupt Enable Clear Register for pktram0pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECC_REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 11. "AUTH_CTXRAM_BANK10PEND,Interrupt Pending Status for auth_ctxram_bank10pend" "0,1" bitfld.long 0x4 10. "AUTH_CTXRAM_BANK89PEND,Interrupt Pending Status for auth_ctxram_bank89pend" "0,1" bitfld.long 0x4 9. "AUTH_CTXRAM_BANK67PEND,Interrupt Pending Status for auth_ctxram_bank67pend" "0,1" newline bitfld.long 0x4 8. "AUTH_CTXRAM_BANK45PEND,Interrupt Pending Status for auth_ctxram_bank45pend" "0,1" bitfld.long 0x4 7. "AUTH_CTXRAM_BANK23PEND,Interrupt Pending Status for auth_ctxram_bank23pend" "0,1" bitfld.long 0x4 6. "AUTH_CTXRAM_BANK01PEND,Interrupt Pending Status for auth_ctxram_bank01pend" "0,1" newline bitfld.long 0x4 5. "ENCR_CTXRAM_BANK4PEND,Interrupt Pending Status for encr_ctxram_bank4pend" "0,1" bitfld.long 0x4 4. "ENCR_CTXRAM_BANK23PEND,Interrupt Pending Status for encr_ctxram_bank23pend" "0,1" bitfld.long 0x4 3. "ENCR_CTXRAM_BANK01PEND,Interrupt Pending Status for encr_ctxram_bank01pend" "0,1" newline bitfld.long 0x4 2. "PROG_RAMECCPEND,Interrupt Pending Status for prog_rameccpend" "0,1" bitfld.long 0x4 1. "PKTRAM1PEND,Interrupt Pending Status for pktram1pend" "0,1" bitfld.long 0x4 0. "PKTRAM0PEND,Interrupt Pending Status for pktram0pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECC_REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 11. "AUTH_CTXRAM_BANK10ENABLE_SET,Interrupt Enable Set Register for auth_ctxram_bank10pend" "0,1" bitfld.long 0x0 10. "AUTH_CTXRAM_BANK89ENABLE_SET,Interrupt Enable Set Register for auth_ctxram_bank89pend" "0,1" bitfld.long 0x0 9. "AUTH_CTXRAM_BANK67ENABLE_SET,Interrupt Enable Set Register for auth_ctxram_bank67pend" "0,1" newline bitfld.long 0x0 8. "AUTH_CTXRAM_BANK45ENABLE_SET,Interrupt Enable Set Register for auth_ctxram_bank45pend" "0,1" bitfld.long 0x0 7. "AUTH_CTXRAM_BANK23ENABLE_SET,Interrupt Enable Set Register for auth_ctxram_bank23pend" "0,1" bitfld.long 0x0 6. "AUTH_CTXRAM_BANK01ENABLE_SET,Interrupt Enable Set Register for auth_ctxram_bank01pend" "0,1" newline bitfld.long 0x0 5. "ENCR_CTXRAM_BANK4ENABLE_SET,Interrupt Enable Set Register for encr_ctxram_bank4pend" "0,1" bitfld.long 0x0 4. "ENCR_CTXRAM_BANK23ENABLE_SET,Interrupt Enable Set Register for encr_ctxram_bank23pend" "0,1" bitfld.long 0x0 3. "ENCR_CTXRAM_BANK01ENABLE_SET,Interrupt Enable Set Register for encr_ctxram_bank01pend" "0,1" newline bitfld.long 0x0 2. "PROG_RAMECCENABLE_SET,Interrupt Enable Set Register for prog_rameccpend" "0,1" bitfld.long 0x0 1. "PKTRAM1ENABLE_SET,Interrupt Enable Set Register for pktram1pend" "0,1" bitfld.long 0x0 0. "PKTRAM0ENABLE_SET,Interrupt Enable Set Register for pktram0pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECC_REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 11. "AUTH_CTXRAM_BANK10ENABLE_CLR,Interrupt Enable Clear Register for auth_ctxram_bank10pend" "0,1" bitfld.long 0x0 10. "AUTH_CTXRAM_BANK89ENABLE_CLR,Interrupt Enable Clear Register for auth_ctxram_bank89pend" "0,1" bitfld.long 0x0 9. "AUTH_CTXRAM_BANK67ENABLE_CLR,Interrupt Enable Clear Register for auth_ctxram_bank67pend" "0,1" newline bitfld.long 0x0 8. "AUTH_CTXRAM_BANK45ENABLE_CLR,Interrupt Enable Clear Register for auth_ctxram_bank45pend" "0,1" bitfld.long 0x0 7. "AUTH_CTXRAM_BANK23ENABLE_CLR,Interrupt Enable Clear Register for auth_ctxram_bank23pend" "0,1" bitfld.long 0x0 6. "AUTH_CTXRAM_BANK01ENABLE_CLR,Interrupt Enable Clear Register for auth_ctxram_bank01pend" "0,1" newline bitfld.long 0x0 5. "ENCR_CTXRAM_BANK4ENABLE_CLR,Interrupt Enable Clear Register for encr_ctxram_bank4pend" "0,1" bitfld.long 0x0 4. "ENCR_CTXRAM_BANK23ENABLE_CLR,Interrupt Enable Clear Register for encr_ctxram_bank23pend" "0,1" bitfld.long 0x0 3. "ENCR_CTXRAM_BANK01ENABLE_CLR,Interrupt Enable Clear Register for encr_ctxram_bank01pend" "0,1" newline bitfld.long 0x0 2. "PROG_RAMECCENABLE_CLR,Interrupt Enable Clear Register for prog_rameccpend" "0,1" bitfld.long 0x0 1. "PKTRAM1ENABLE_CLR,Interrupt Enable Clear Register for pktram1pend" "0,1" bitfld.long 0x0 0. "PKTRAM0ENABLE_CLR,Interrupt Enable Clear Register for pktram0pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECC_REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECC_REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECC_REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECC_REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "SA3_SS0_SA_UL_0_EIP_29T2 (SA3_SS0_SA_UL_0_EIP_29T2)" base ad:0x40920000 group.long 0x0++0x1F line.long 0x0 "EIP_29T2_REGS_PKA_APTR,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0x0 0.--10. 1. "APTR,Please refer to eip29t2 HW Reference Manual for details" line.long 0x4 "EIP_29T2_REGS_PKA_BPTR,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0x4 0.--10. 1. "BPTR,Please refer to eip29t2 HW Reference Manual for details" line.long 0x8 "EIP_29T2_REGS_PKA_CPTR,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0x8 0.--10. 1. "CPTR,Please refer to eip29t2 HW Reference Manual for details" line.long 0xC "EIP_29T2_REGS_PKA_DPTR,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0xC 0.--10. 1. "DPTR,Please refer to eip29t2 HW Reference Manual for details" line.long 0x10 "EIP_29T2_REGS_PKA_ALENGTH,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0x10 0.--8. 1. "ALENGTH,Please refer to eip29t2 HW Reference Manual for details" line.long 0x14 "EIP_29T2_REGS_PKA_BLENGTH,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0x14 0.--8. 1. "BLENGTH,Please refer to eip29t2 HW Reference Manual for details" line.long 0x18 "EIP_29T2_REGS_PKA_SHIFT,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x18 0.--4. 1. "BITS_TO_SHIFT,Please refer to eip29t2 HW Reference Manual for details" line.long 0x1C "EIP_29T2_REGS_PKA_FUNCTION,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x1C 24. "STALL_RESULT,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x1C 15. "RUN,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x1C 12.--14. "SEQ_OP,Please refer to eip29t2 HW Reference Manual for details" "0,1,2,3,4,5,6,7" newline bitfld.long 0x1C 11. "COPY,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x1C 10. "COMPARE,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x1C 9. "MODULO,Please refer to eip29t2 HW Reference Manual for details" "0,1" newline bitfld.long 0x1C 8. "DIVIDE,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x1C 7. "LSHIFT,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x1C 6. "RSHIFT,Please refer to eip29t2 HW Reference Manual for details" "0,1" newline bitfld.long 0x1C 5. "SUBTRACT,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x1C 4. "ADD,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x1C 3. "MS_ONE,Please refer to eip29t2 HW Reference Manual for details" "0,1" newline bitfld.long 0x1C 1. "ADDSUB,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x1C 0. "MULTIPLY,Please refer to eip29t2 HW Reference Manual for details" "0,1" rgroup.long 0x20++0xB line.long 0x0 "EIP_29T2_REGS_PKA_COMPARE,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x0 2. "A_GREATER_THAN_B,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x0 1. "A_LESS_THAN_B,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x0 0. "A_EQUAL_B,Please refer to eip29t2 HW Reference Manual for details" "0,1" line.long 0x4 "EIP_29T2_REGS_PKA_MSW,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x4 15. "RESULT_IS_ZERO,Please refer to eip29t2 HW Reference Manual for details" "0,1" hexmask.long.word 0x4 0.--10. 1. "MSW_ADDRESS,Please refer to eip29t2 HW Reference Manual for details" line.long 0x8 "EIP_29T2_REGS_PKA_DIVMSW,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x8 15. "RESULT_IS_ZERO,Please refer to eip29t2 HW Reference Manual for details" "0,1" hexmask.long.word 0x8 0.--10. 1. "MSW_ADDRESS,Please refer to eip29t2 HW Reference Manual for details" group.long 0x40++0x7 line.long 0x0 "EIP_29T2_REGS_LNME1_STATUS,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x0 5. "STICKY_ZERO,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x0 4. "STICKY_OFLO,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x0 3. "RESULT_ZERO,Please refer to eip29t2 HW Reference Manual for details" "0,1" newline bitfld.long 0x0 2. "CMD_ERROR,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x0 1. "MMM_BUSY,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x0 0. "OVERFLOW,Please refer to eip29t2 HW Reference Manual for details" "0,1" line.long 0x4 "EIP_29T2_REGS_LNME1_CONTROL,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x4 2. "EXP_CMD,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x4 1. "MMMNEXT_CMD,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x4 0. "MMM_CMD,Please refer to eip29t2 HW Reference Manual for details" "0,1" group.long 0x60++0x17 line.long 0x0 "EIP_29T2_REGS_LNME1_NBASE,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0x0 16.--25. 1. "NYDIGITS,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0x0 1.--10. 1. "NBASE,Please refer to eip29t2 HW Reference Manual for details" rbitfld.long 0x0 0. "ZERO,Please refer to eip29t2 HW Reference Manual for details" "0,1" line.long 0x4 "EIP_29T2_REGS_LNME1_XBASE,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0x4 16.--25. 1. "XDIGITS,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0x4 1.--10. 1. "XBASE,Please refer to eip29t2 HW Reference Manual for details" rbitfld.long 0x4 0. "ZERO,Please refer to eip29t2 HW Reference Manual for details" "0,1" line.long 0x8 "EIP_29T2_REGS_LNME1_YBASE,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x8 16.--23. 1. "NPASSES,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0x8 1.--10. 1. "YBASE,Please refer to eip29t2 HW Reference Manual for details" rbitfld.long 0x8 0. "ZERO,Please refer to eip29t2 HW Reference Manual for details" "0,1" line.long 0xC "EIP_29T2_REGS_LNME1_BBASE,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0xC 16.--30. 1. "BCNTR,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0xC 1.--10. 1. "BBASE,Please refer to eip29t2 HW Reference Manual for details" rbitfld.long 0xC 0. "ZERO,Please refer to eip29t2 HW Reference Manual for details" "0,1" line.long 0x10 "EIP_29T2_REGS_LNME1_NACC,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x10 16.--20. 1. "EXPARRAY,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x10 8. "NACC_BUSY,Please refer to eip29t2 HW Reference Manual for details" "0,1" hexmask.long.byte 0x10 0.--7. 1. "NACC,Please refer to eip29t2 HW Reference Manual for details" line.long 0x14 "EIP_29T2_REGS_LNME1_NZERO,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x14 0.--7. 1. "NZERO,Please refer to eip29t2 HW Reference Manual for details" group.long 0x80++0xB line.long 0x0 "EIP_29T2_REGS_LNME0_STATUS,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x0 5. "STICKY_ZERO,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x0 4. "STICKY_OFLO,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x0 3. "RESULT_ZERO,Please refer to eip29t2 HW Reference Manual for details" "0,1" newline bitfld.long 0x0 2. "CMD_ERROR,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x0 1. "MMM_BUSY,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x0 0. "OVERFLOW,Please refer to eip29t2 HW Reference Manual for details" "0,1" line.long 0x4 "EIP_29T2_REGS_LNME0_CONTROL,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x4 5. "RESET_CMD,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x4 2. "EXP_CMD,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x4 1. "MMMNEXT_CMD,Please refer to eip29t2 HW Reference Manual for details" "0,1" newline bitfld.long 0x4 0. "MMM_CMD,Please refer to eip29t2 HW Reference Manual for details" "0,1" line.long 0x8 "EIP_29T2_REGS_LNME_DATAPATH,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x8 15. "LINKUP,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x8 8.--10. "BYPASS_1,Please refer to eip29t2 HW Reference Manual for details" "0,1,2,3,4,5,6,7" bitfld.long 0x8 0.--2. "BYPASS_0,Please refer to eip29t2 HW Reference Manual for details" "0,1,2,3,4,5,6,7" group.long 0x90++0xB line.long 0x0 "EIP_29T2_REGS_LNME_FAST_CTRL,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x0 31. "UPDATE,Please refer to eip29t2 HW Reference Manual for details" "0,1" hexmask.long.byte 0x0 26.--30. 1. "XOR_VALUE,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x0 21.--25. 1. "CMP_VALUE,Please refer to eip29t2 HW Reference Manual for details" newline hexmask.long.byte 0x0 16.--20. 1. "CMP_MASK,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0x0 1.--15. 1. "IGNORED,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x0 0. "XOR_CTRL,Please refer to eip29t2 HW Reference Manual for details" "0,1" line.long 0x4 "EIP_29T2_REGS_LNME_FAST_STRT,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x4 31. "REQUEST_SUB,Please refer to eip29t2 HW Reference Manual for details" "0,1" hexmask.long.byte 0x4 26.--30. 1. "ADDSUB_D,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x4 21.--25. 1. "ADDSUB_BC,Please refer to eip29t2 HW Reference Manual for details" newline hexmask.long.byte 0x4 16.--20. 1. "ADDSUB_A,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x4 2. "LNME1_REQUEST,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x4 1. "LNME0_REQUEST,Please refer to eip29t2 HW Reference Manual for details" "0,1" newline bitfld.long 0x4 0. "PKCP_REQUEST,Please refer to eip29t2 HW Reference Manual for details" "0,1" line.long 0x8 "EIP_29T2_REGS_LNME_FAST_MMM,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x8 31. "STICKY_1,Please refer to eip29t2 HW Reference Manual for details" "0,1" hexmask.long.byte 0x8 26.--30. 1. "RINDEX_1,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x8 21.--25. 1. "YINDEX_1,Please refer to eip29t2 HW Reference Manual for details" newline hexmask.long.byte 0x8 16.--20. 1. "XINDEX_1,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x8 15. "STICKY_0,Please refer to eip29t2 HW Reference Manual for details" "0,1" hexmask.long.byte 0x8 10.--14. 1. "RINDEX_0,Please refer to eip29t2 HW Reference Manual for details" newline hexmask.long.byte 0x8 5.--9. 1. "YINDEX_0,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x8 0.--4. 1. "XINDEX_0,Please refer to eip29t2 HW Reference Manual for details" group.long 0xA0++0x17 line.long 0x0 "EIP_29T2_REGS_LNME0_NBASE,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0x0 16.--25. 1. "NYDIGITS,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0x0 1.--10. 1. "NBASE,Please refer to eip29t2 HW Reference Manual for details" rbitfld.long 0x0 0. "ZERO,Please refer to eip29t2 HW Reference Manual for details" "0,1" line.long 0x4 "EIP_29T2_REGS_LNME0_XBASE,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0x4 16.--25. 1. "XDIGITS,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0x4 1.--10. 1. "XBASE,Please refer to eip29t2 HW Reference Manual for details" rbitfld.long 0x4 0. "ZERO,Please refer to eip29t2 HW Reference Manual for details" "0,1" line.long 0x8 "EIP_29T2_REGS_LNME0_YBASE,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x8 16.--23. 1. "NPASSES,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0x8 1.--10. 1. "YBASE,Please refer to eip29t2 HW Reference Manual for details" rbitfld.long 0x8 0. "ZERO,Please refer to eip29t2 HW Reference Manual for details" "0,1" line.long 0xC "EIP_29T2_REGS_LNME0_BBASE,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0xC 16.--30. 1. "BCNTR,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0xC 1.--10. 1. "BBASE,Please refer to eip29t2 HW Reference Manual for details" rbitfld.long 0xC 0. "ZERO,Please refer to eip29t2 HW Reference Manual for details" "0,1" line.long 0x10 "EIP_29T2_REGS_LNME0_NACC,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x10 16.--20. 1. "EXPARRAY,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x10 8. "NACC_BUSY,Please refer to eip29t2 HW Reference Manual for details" "0,1" hexmask.long.byte 0x10 0.--7. 1. "NACC,Please refer to eip29t2 HW Reference Manual for details" line.long 0x14 "EIP_29T2_REGS_LNME0_NZERO,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x14 0.--7. 1. "NZERO,Please refer to eip29t2 HW Reference Manual for details" group.long 0xC8++0x3 line.long 0x0 "EIP_29T2_REGS_PKA_SEQ_CTRL,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x0 31. "RESET,Please refer to eip29t2 HW Reference Manual for details" "0,1" hexmask.long.byte 0x0 8.--15. 1. "SEQ_STATUS,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x0 0.--7. 1. "SW_TRIGGERS,Please refer to eip29t2 HW Reference Manual for details" rgroup.long 0xF4++0xB line.long 0x0 "EIP_29T2_REGS_PKA_OPTIONS,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x0 24.--31. 1. "LNME_FIFO_DEPT,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x0 22.--23. "GF2M_CONFIG,Please refer to eip29t2 HW Reference Manual for details" "0,1,2,3" hexmask.long.byte 0x0 16.--21. 1. "LNME_PES,Please refer to eip29t2 HW Reference Manual for details" newline bitfld.long 0x0 14. "LNME_BYPASS,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x0 13. "ZEROIZATION,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x0 12. "MMM3A,Please refer to eip29t2 HW Reference Manual for details" "0,1" newline bitfld.long 0x0 11. "INTERRUPT_MASK,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x0 8.--10. "PROT_OPTION,Please refer to eip29t2 HW Reference Manual for details" "0,1,2,3,4,5,6,7" bitfld.long 0x0 7. "PROGRAM_RAM,Please refer to eip29t2 HW Reference Manual for details" "0,1" newline bitfld.long 0x0 5.--6. "SEQ_CONFIG,Please refer to eip29t2 HW Reference Manual for details" "0,1,2,3" bitfld.long 0x0 2.--4. "LNME_CONFIG,Please refer to eip29t2 HW Reference Manual for details" "0,1,2,3,4,5,6,7" bitfld.long 0x0 0.--1. "PKCP_CONFIG,Please refer to eip29t2 HW Reference Manual for details" "0,1,2,3" line.long 0x4 "EIP_29T2_REGS_PKA_SW_REV,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x4 28.--31. 1. "SW_CAPABILITIES,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x4 24.--27. 1. "SW_MAJOR_REV,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x4 20.--23. 1. "SW_MINOR_REV,Please refer to eip29t2 HW Reference Manual for details" newline hexmask.long.byte 0x4 16.--19. 1. "SW_PATCH_LEVEL,Please refer to eip29t2 HW Reference Manual for details" line.long 0x8 "EIP_29T2_REGS_PKA_REVISION,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x8 24.--27. 1. "HW_MAJOR_REV,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x8 20.--23. 1. "HW_MINOR_REV,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x8 16.--19. 1. "HW_PATCH_LEVEL,Please refer to eip29t2 HW Reference Manual for details" newline hexmask.long.byte 0x8 8.--15. 1. "EIP_NR_COMPL,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x8 0.--7. 1. "EIP_NR,Please refer to eip29t2 HW Reference Manual for details" group.long 0x400++0x47 line.long 0x0 "EIP_29T2_REGS_GF2M_OPERAND_A_0,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x0 0.--31. 1. "GF2M_OPERAND_A_0,Please refer to eip29t2 HW Reference Manual for details" line.long 0x4 "EIP_29T2_REGS_GF2M_OPERAND_A_1,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x4 0.--31. 1. "GF2M_OPERAND_A_1,Please refer to eip29t2 HW Reference Manual for details" line.long 0x8 "EIP_29T2_REGS_GF2M_OPERAND_A_2,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x8 0.--31. 1. "GF2M_OPERAND_A_2,Please refer to eip29t2 HW Reference Manual for details" line.long 0xC "EIP_29T2_REGS_GF2M_OPERAND_A_3,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0xC 0.--31. 1. "GF2M_OPERAND_A_3,Please refer to eip29t2 HW Reference Manual for details" line.long 0x10 "EIP_29T2_REGS_GF2M_OPERAND_A_4,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x10 0.--31. 1. "GF2M_OPERAND_A_4,Please refer to eip29t2 HW Reference Manual for details" line.long 0x14 "EIP_29T2_REGS_GF2M_OPERAND_A_5,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x14 0.--31. 1. "GF2M_OPERAND_A_5,Please refer to eip29t2 HW Reference Manual for details" line.long 0x18 "EIP_29T2_REGS_GF2M_OPERAND_A_6,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x18 0.--31. 1. "GF2M_OPERAND_A_6,Please refer to eip29t2 HW Reference Manual for details" line.long 0x1C "EIP_29T2_REGS_GF2M_OPERAND_A_7,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x1C 0.--31. 1. "GF2M_OPERAND_A_7,Please refer to eip29t2 HW Reference Manual for details" line.long 0x20 "EIP_29T2_REGS_GF2M_OPERAND_A_8,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x20 0.--31. 1. "GF2M_OPERAND_A_8,Please refer to eip29t2 HW Reference Manual for details" line.long 0x24 "EIP_29T2_REGS_GF2M_OPERAND_A_9,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x24 0.--31. 1. "GF2M_OPERAND_A_9,Please refer to eip29t2 HW Reference Manual for details" line.long 0x28 "EIP_29T2_REGS_GF2M_OPERAND_A_10,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x28 0.--31. 1. "GF2M_OPERAND_A_10,Please refer to eip29t2 HW Reference Manual for details" line.long 0x2C "EIP_29T2_REGS_GF2M_OPERAND_A_11,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x2C 0.--31. 1. "GF2M_OPERAND_A_11,Please refer to eip29t2 HW Reference Manual for details" line.long 0x30 "EIP_29T2_REGS_GF2M_OPERAND_A_12,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x30 0.--31. 1. "GF2M_OPERAND_A_12,Please refer to eip29t2 HW Reference Manual for details" line.long 0x34 "EIP_29T2_REGS_GF2M_OPERAND_A_13,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x34 0.--31. 1. "GF2M_OPERAND_A_13,Please refer to eip29t2 HW Reference Manual for details" line.long 0x38 "EIP_29T2_REGS_GF2M_OPERAND_A_14,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x38 0.--31. 1. "GF2M_OPERAND_A_14,Please refer to eip29t2 HW Reference Manual for details" line.long 0x3C "EIP_29T2_REGS_GF2M_OPERAND_A_15,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x3C 0.--31. 1. "GF2M_OPERAND_A_15,Please refer to eip29t2 HW Reference Manual for details" line.long 0x40 "EIP_29T2_REGS_GF2M_OPERAND_A_16,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x40 0.--31. 1. "GF2M_OPERAND_A_16,Please refer to eip29t2 HW Reference Manual for details" line.long 0x44 "EIP_29T2_REGS_GF2M_OPERAND_A_17,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x44 0.--27. 1. "OPERAND_A,Please refer to eip29t2 HW Reference Manual for details" group.long 0x480++0x47 line.long 0x0 "EIP_29T2_REGS_GF2M_OPERAND_B_0,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x0 0.--31. 1. "GF2M_OPERAND_B_0,Please refer to eip29t2 HW Reference Manual for details" line.long 0x4 "EIP_29T2_REGS_GF2M_OPERAND_B_1,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x4 0.--31. 1. "GF2M_OPERAND_B_1,Please refer to eip29t2 HW Reference Manual for details" line.long 0x8 "EIP_29T2_REGS_GF2M_OPERAND_B_2,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x8 0.--31. 1. "GF2M_OPERAND_B_2,Please refer to eip29t2 HW Reference Manual for details" line.long 0xC "EIP_29T2_REGS_GF2M_OPERAND_B_3,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0xC 0.--31. 1. "GF2M_OPERAND_B_3,Please refer to eip29t2 HW Reference Manual for details" line.long 0x10 "EIP_29T2_REGS_GF2M_OPERAND_B_4,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x10 0.--31. 1. "GF2M_OPERAND_B_4,Please refer to eip29t2 HW Reference Manual for details" line.long 0x14 "EIP_29T2_REGS_GF2M_OPERAND_B_5,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x14 0.--31. 1. "GF2M_OPERAND_B_5,Please refer to eip29t2 HW Reference Manual for details" line.long 0x18 "EIP_29T2_REGS_GF2M_OPERAND_B_6,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x18 0.--31. 1. "GF2M_OPERAND_B_6,Please refer to eip29t2 HW Reference Manual for details" line.long 0x1C "EIP_29T2_REGS_GF2M_OPERAND_B_7,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x1C 0.--31. 1. "GF2M_OPERAND_B_7,Please refer to eip29t2 HW Reference Manual for details" line.long 0x20 "EIP_29T2_REGS_GF2M_OPERAND_B_8,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x20 0.--31. 1. "GF2M_OPERAND_B_8,Please refer to eip29t2 HW Reference Manual for details" line.long 0x24 "EIP_29T2_REGS_GF2M_OPERAND_B_9,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x24 0.--31. 1. "GF2M_OPERAND_B_9,Please refer to eip29t2 HW Reference Manual for details" line.long 0x28 "EIP_29T2_REGS_GF2M_OPERAND_B_10,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x28 0.--31. 1. "GF2M_OPERAND_B_10,Please refer to eip29t2 HW Reference Manual for details" line.long 0x2C "EIP_29T2_REGS_GF2M_OPERAND_B_11,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x2C 0.--31. 1. "GF2M_OPERAND_B_11,Please refer to eip29t2 HW Reference Manual for details" line.long 0x30 "EIP_29T2_REGS_GF2M_OPERAND_B_12,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x30 0.--31. 1. "GF2M_OPERAND_B_12,Please refer to eip29t2 HW Reference Manual for details" line.long 0x34 "EIP_29T2_REGS_GF2M_OPERAND_B_13,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x34 0.--31. 1. "GF2M_OPERAND_B_13,Please refer to eip29t2 HW Reference Manual for details" line.long 0x38 "EIP_29T2_REGS_GF2M_OPERAND_B_14,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x38 0.--31. 1. "GF2M_OPERAND_B_14,Please refer to eip29t2 HW Reference Manual for details" line.long 0x3C "EIP_29T2_REGS_GF2M_OPERAND_B_15,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x3C 0.--31. 1. "GF2M_OPERAND_B_15,Please refer to eip29t2 HW Reference Manual for details" line.long 0x40 "EIP_29T2_REGS_GF2M_OPERAND_B_16,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x40 0.--31. 1. "GF2M_OPERAND_B_16,Please refer to eip29t2 HW Reference Manual for details" line.long 0x44 "EIP_29T2_REGS_GF2M_OPERAND_B_17,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x44 0.--27. 1. "OPERAND_B,Please refer to eip29t2 HW Reference Manual for details" group.long 0x500++0x47 line.long 0x0 "EIP_29T2_REGS_GF2M_OPERAND_C_0,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x0 0.--31. 1. "GF2M_OPERAND_C_0,Please refer to eip29t2 HW Reference Manual for details" line.long 0x4 "EIP_29T2_REGS_GF2M_OPERAND_C_1,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x4 0.--31. 1. "GF2M_OPERAND_C_1,Please refer to eip29t2 HW Reference Manual for details" line.long 0x8 "EIP_29T2_REGS_GF2M_OPERAND_C_2,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x8 0.--31. 1. "GF2M_OPERAND_C_2,Please refer to eip29t2 HW Reference Manual for details" line.long 0xC "EIP_29T2_REGS_GF2M_OPERAND_C_3,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0xC 0.--31. 1. "GF2M_OPERAND_C_3,Please refer to eip29t2 HW Reference Manual for details" line.long 0x10 "EIP_29T2_REGS_GF2M_OPERAND_C_4,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x10 0.--31. 1. "GF2M_OPERAND_C_4,Please refer to eip29t2 HW Reference Manual for details" line.long 0x14 "EIP_29T2_REGS_GF2M_OPERAND_C_5,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x14 0.--31. 1. "GF2M_OPERAND_C_5,Please refer to eip29t2 HW Reference Manual for details" line.long 0x18 "EIP_29T2_REGS_GF2M_OPERAND_C_6,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x18 0.--31. 1. "GF2M_OPERAND_C_6,Please refer to eip29t2 HW Reference Manual for details" line.long 0x1C "EIP_29T2_REGS_GF2M_OPERAND_C_7,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x1C 0.--31. 1. "GF2M_OPERAND_C_7,Please refer to eip29t2 HW Reference Manual for details" line.long 0x20 "EIP_29T2_REGS_GF2M_OPERAND_C_8,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x20 0.--31. 1. "GF2M_OPERAND_C_8,Please refer to eip29t2 HW Reference Manual for details" line.long 0x24 "EIP_29T2_REGS_GF2M_OPERAND_C_9,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x24 0.--31. 1. "GF2M_OPERAND_C_9,Please refer to eip29t2 HW Reference Manual for details" line.long 0x28 "EIP_29T2_REGS_GF2M_OPERAND_C_10,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x28 0.--31. 1. "GF2M_OPERAND_C_10,Please refer to eip29t2 HW Reference Manual for details" line.long 0x2C "EIP_29T2_REGS_GF2M_OPERAND_C_11,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x2C 0.--31. 1. "GF2M_OPERAND_C_11,Please refer to eip29t2 HW Reference Manual for details" line.long 0x30 "EIP_29T2_REGS_GF2M_OPERAND_C_12,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x30 0.--31. 1. "GF2M_OPERAND_C_12,Please refer to eip29t2 HW Reference Manual for details" line.long 0x34 "EIP_29T2_REGS_GF2M_OPERAND_C_13,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x34 0.--31. 1. "GF2M_OPERAND_C_13,Please refer to eip29t2 HW Reference Manual for details" line.long 0x38 "EIP_29T2_REGS_GF2M_OPERAND_C_14,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x38 0.--31. 1. "GF2M_OPERAND_C_14,Please refer to eip29t2 HW Reference Manual for details" line.long 0x3C "EIP_29T2_REGS_GF2M_OPERAND_C_15,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x3C 0.--31. 1. "GF2M_OPERAND_C_15,Please refer to eip29t2 HW Reference Manual for details" line.long 0x40 "EIP_29T2_REGS_GF2M_OPERAND_C_16,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x40 0.--31. 1. "GF2M_OPERAND_C_16,Please refer to eip29t2 HW Reference Manual for details" line.long 0x44 "EIP_29T2_REGS_GF2M_OPERAND_C_17,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x44 0.--27. 1. "OPERAND_C,Please refer to eip29t2 HW Reference Manual for details" group.long 0x580++0x47 line.long 0x0 "EIP_29T2_REGS_GF2M_OPERAND_D_0,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x0 0.--31. 1. "GF2M_OPERAND_D_0,Please refer to eip29t2 HW Reference Manual for details" line.long 0x4 "EIP_29T2_REGS_GF2M_OPERAND_D_1,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x4 0.--31. 1. "GF2M_OPERAND_D_1,Please refer to eip29t2 HW Reference Manual for details" line.long 0x8 "EIP_29T2_REGS_GF2M_OPERAND_D_2,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x8 0.--31. 1. "GF2M_OPERAND_D_2,Please refer to eip29t2 HW Reference Manual for details" line.long 0xC "EIP_29T2_REGS_GF2M_OPERAND_D_3,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0xC 0.--31. 1. "GF2M_OPERAND_D_3,Please refer to eip29t2 HW Reference Manual for details" line.long 0x10 "EIP_29T2_REGS_GF2M_OPERAND_D_4,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x10 0.--31. 1. "GF2M_OPERAND_D_4,Please refer to eip29t2 HW Reference Manual for details" line.long 0x14 "EIP_29T2_REGS_GF2M_OPERAND_D_5,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x14 0.--31. 1. "GF2M_OPERAND_D_5,Please refer to eip29t2 HW Reference Manual for details" line.long 0x18 "EIP_29T2_REGS_GF2M_OPERAND_D_6,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x18 0.--31. 1. "GF2M_OPERAND_D_6,Please refer to eip29t2 HW Reference Manual for details" line.long 0x1C "EIP_29T2_REGS_GF2M_OPERAND_D_7,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x1C 0.--31. 1. "GF2M_OPERAND_D_7,Please refer to eip29t2 HW Reference Manual for details" line.long 0x20 "EIP_29T2_REGS_GF2M_OPERAND_D_8,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x20 0.--31. 1. "GF2M_OPERAND_D_8,Please refer to eip29t2 HW Reference Manual for details" line.long 0x24 "EIP_29T2_REGS_GF2M_OPERAND_D_9,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x24 0.--31. 1. "GF2M_OPERAND_D_9,Please refer to eip29t2 HW Reference Manual for details" line.long 0x28 "EIP_29T2_REGS_GF2M_OPERAND_D_10,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x28 0.--31. 1. "GF2M_OPERAND_D_10,Please refer to eip29t2 HW Reference Manual for details" line.long 0x2C "EIP_29T2_REGS_GF2M_OPERAND_D_11,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x2C 0.--31. 1. "GF2M_OPERAND_D_11,Please refer to eip29t2 HW Reference Manual for details" line.long 0x30 "EIP_29T2_REGS_GF2M_OPERAND_D_12,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x30 0.--31. 1. "GF2M_OPERAND_D_12,Please refer to eip29t2 HW Reference Manual for details" line.long 0x34 "EIP_29T2_REGS_GF2M_OPERAND_D_13,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x34 0.--31. 1. "GF2M_OPERAND_D_13,Please refer to eip29t2 HW Reference Manual for details" line.long 0x38 "EIP_29T2_REGS_GF2M_OPERAND_D_14,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x38 0.--31. 1. "GF2M_OPERAND_D_14,Please refer to eip29t2 HW Reference Manual for details" line.long 0x3C "EIP_29T2_REGS_GF2M_OPERAND_D_15,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x3C 0.--31. 1. "GF2M_OPERAND_D_15,Please refer to eip29t2 HW Reference Manual for details" line.long 0x40 "EIP_29T2_REGS_GF2M_OPERAND_D_16,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x40 0.--31. 1. "GF2M_OPERAND_D_16,Please refer to eip29t2 HW Reference Manual for details" line.long 0x44 "EIP_29T2_REGS_GF2M_OPERAND_D_17,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x44 0.--27. 1. "OPERAND_D,Please refer to eip29t2 HW Reference Manual for details" group.long 0x600++0x47 line.long 0x0 "EIP_29T2_REGS_GF2M_POLYNOMIAL_0,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x0 0.--31. 1. "GF2M_POLYNOMIAL_0,Please refer to eip29t2 HW Reference Manual for details" line.long 0x4 "EIP_29T2_REGS_GF2M_POLYNOMIAL_1,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x4 0.--31. 1. "GF2M_POLYNOMIAL_1,Please refer to eip29t2 HW Reference Manual for details" line.long 0x8 "EIP_29T2_REGS_GF2M_POLYNOMIAL_2,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x8 0.--31. 1. "GF2M_POLYNOMIAL_2,Please refer to eip29t2 HW Reference Manual for details" line.long 0xC "EIP_29T2_REGS_GF2M_POLYNOMIAL_3,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0xC 0.--31. 1. "GF2M_POLYNOMIAL_3,Please refer to eip29t2 HW Reference Manual for details" line.long 0x10 "EIP_29T2_REGS_GF2M_POLYNOMIAL_4,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x10 0.--31. 1. "GF2M_POLYNOMIAL_4,Please refer to eip29t2 HW Reference Manual for details" line.long 0x14 "EIP_29T2_REGS_GF2M_POLYNOMIAL_5,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x14 0.--31. 1. "GF2M_POLYNOMIAL_5,Please refer to eip29t2 HW Reference Manual for details" line.long 0x18 "EIP_29T2_REGS_GF2M_POLYNOMIAL_6,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x18 0.--31. 1. "GF2M_POLYNOMIAL_6,Please refer to eip29t2 HW Reference Manual for details" line.long 0x1C "EIP_29T2_REGS_GF2M_POLYNOMIAL_7,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x1C 0.--31. 1. "GF2M_POLYNOMIAL_7,Please refer to eip29t2 HW Reference Manual for details" line.long 0x20 "EIP_29T2_REGS_GF2M_POLYNOMIAL_8,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x20 0.--31. 1. "GF2M_POLYNOMIAL_8,Please refer to eip29t2 HW Reference Manual for details" line.long 0x24 "EIP_29T2_REGS_GF2M_POLYNOMIAL_9,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x24 0.--31. 1. "GF2M_POLYNOMIAL_9,Please refer to eip29t2 HW Reference Manual for details" line.long 0x28 "EIP_29T2_REGS_GF2M_POLYNOMIAL_10,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x28 0.--31. 1. "GF2M_POLYNOMIAL_10,Please refer to eip29t2 HW Reference Manual for details" line.long 0x2C "EIP_29T2_REGS_GF2M_POLYNOMIAL_11,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x2C 0.--31. 1. "GF2M_POLYNOMIAL_11,Please refer to eip29t2 HW Reference Manual for details" line.long 0x30 "EIP_29T2_REGS_GF2M_POLYNOMIAL_12,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x30 0.--31. 1. "GF2M_POLYNOMIAL_12,Please refer to eip29t2 HW Reference Manual for details" line.long 0x34 "EIP_29T2_REGS_GF2M_POLYNOMIAL_13,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x34 0.--31. 1. "GF2M_POLYNOMIAL_13,Please refer to eip29t2 HW Reference Manual for details" line.long 0x38 "EIP_29T2_REGS_GF2M_POLYNOMIAL_14,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x38 0.--31. 1. "GF2M_POLYNOMIAL_14,Please refer to eip29t2 HW Reference Manual for details" line.long 0x3C "EIP_29T2_REGS_GF2M_POLYNOMIAL_15,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x3C 0.--31. 1. "GF2M_POLYNOMIAL_15,Please refer to eip29t2 HW Reference Manual for details" line.long 0x40 "EIP_29T2_REGS_GF2M_POLYNOMIAL_16,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x40 0.--31. 1. "GF2M_POLYNOMIAL_16,Please refer to eip29t2 HW Reference Manual for details" line.long 0x44 "EIP_29T2_REGS_GF2M_POLYNOMIAL_17,Please refer to eip29t2 HW Reference Manual for details" hexmask.long 0x44 0.--27. 1. "POLYNOMIAL,Please refer to eip29t2 HW Reference Manual for details" group.long 0x700++0x3 line.long 0x0 "EIP_29T2_REGS_GF2M_CMD,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x0 13.--14. "TGT,Please refer to eip29t2 HW Reference Manual for details" "0,1,2,3" bitfld.long 0x0 10.--11. "SRC1,Please refer to eip29t2 HW Reference Manual for details" "0,1,2,3" bitfld.long 0x0 7.--8. "SRC0,Please refer to eip29t2 HW Reference Manual for details" "0,1,2,3" newline bitfld.long 0x0 1.--3. "OPCODE,Please refer to eip29t2 HW Reference Manual for details" "0,1,2,3,4,5,6,7" bitfld.long 0x0 0. "CMD_SUBMIT_CMD_BUF_FULL,Please refer to eip29t2 HW Reference Manual for details" "0,1" rgroup.long 0x704++0x3 line.long 0x0 "EIP_29T2_REGS_GF2M_STAT,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x0 31. "BUSY,Please refer to eip29t2 HW Reference Manual for details" "0,1" hexmask.long.word 0x0 16.--25. 1. "SHIFT_VALUE,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x0 15. "CMD_ERR,Please refer to eip29t2 HW Reference Manual for details" "0,1" newline bitfld.long 0x0 5. "NO_MSB,Please refer to eip29t2 HW Reference Manual for details" "0,1" hexmask.long.byte 0x0 0.--4. 1. "MSB_PTR,Please refer to eip29t2 HW Reference Manual for details" group.long 0x708++0x3 line.long 0x0 "EIP_29T2_REGS_GF2M_FIELDSIZE,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x0 16.--17. "OP_SHIFT,Please refer to eip29t2 HW Reference Manual for details" "0,1,2,3" hexmask.long.byte 0x0 0.--7. 1. "FIELD_SIZE,Please refer to eip29t2 HW Reference Manual for details" rgroup.long 0x7F8++0x7 line.long 0x0 "EIP_29T2_REGS_GF2M_OPTIONS,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.word 0x0 16.--27. 1. "OPERAND_SIZE,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x0 4.--7. 1. "MUL_DEPTH,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x0 0.--3. 1. "OPERANDS,Please refer to eip29t2 HW Reference Manual for details" line.long 0x4 "EIP_29T2_REGS_GF2M_VERSION,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x4 24.--27. 1. "MAJOR_VERSION,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x4 20.--23. 1. "MINOR_VERSION,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x4 16.--19. 1. "PATCH_LEVEL,Please refer to eip29t2 HW Reference Manual for details" rgroup.long 0x1FE0++0x3 line.long 0x0 "EIP_29T2_REGS_PKA_REV,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x0 4.--7. 1. "REV_MAJOR,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x0 0.--3. 1. "REV_MINOR,Please refer to eip29t2 HW Reference Manual for details" group.long 0x1FE8++0x3 line.long 0x0 "EIP_29T2_REGS_PKA_CLK_CTRL,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x0 16.--22. 1. "CLK_EN_STATUS,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x0 8.--14. 1. "CLK_FORCE_OFF,Please refer to eip29t2 HW Reference Manual for details" hexmask.long.byte 0x0 0.--6. 1. "CLK_FORCE_ON,Please refer to eip29t2 HW Reference Manual for details" group.long 0x1FF0++0x3 line.long 0x0 "EIP_29T2_REGS_PKA_SYSCONFIG,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x0 4.--5. "IDLEMODE,Please refer to eip29t2 HW Reference Manual for details" "0,1,2,3" bitfld.long 0x0 1. "SOFTRESET,Please refer to eip29t2 HW Reference Manual for details" "0,1" rgroup.long 0x1FF4++0x3 line.long 0x0 "EIP_29T2_REGS_PKA_SYSSTATUS,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x0 0. "RESETDONE,Please refer to eip29t2 HW Reference Manual for details" "0,1" wgroup.long 0x1FF8++0x3 line.long 0x0 "EIP_29T2_REGS_PKA_IRQCLR,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x0 2. "GF2MIRQCLR,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x0 1. "LNMEIRQCLR,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x0 0. "PKAIRQCLR,Please refer to eip29t2 HW Reference Manual for details" "0,1" rgroup.long 0x1FF8++0x3 line.long 0x0 "EIP_29T2_REGS_PKA_IRQSTATUS,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x0 2. "GF2MIRQSTAT,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x0 1. "LNMEIRQSTAT,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x0 0. "PKAIRQSTAT,Please refer to eip29t2 HW Reference Manual for details" "0,1" group.long 0x1FFC++0x3 line.long 0x0 "EIP_29T2_REGS_PKA_IRQENABLE,Please refer to eip29t2 HW Reference Manual for details" bitfld.long 0x0 2. "GF2MIRQEN,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x0 1. "LNMEIRQEN,Please refer to eip29t2 HW Reference Manual for details" "0,1" bitfld.long 0x0 0. "PKAIRQEN,Please refer to eip29t2 HW Reference Manual for details" "0,1" tree.end tree "SA3_SS0_SA_UL_0_EIP_76 (SA3_SS0_SA_UL_0_EIP_76)" base ad:0x40910000 wgroup.long 0x0++0x3 line.long 0x0 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_INPUT_0,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x0 0.--31. 1. "TRNG_INPUT_0,Please refer to eip76d HW Reference Manual for details" rgroup.long 0x0++0x3 line.long 0x0 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_OUTPUT_0,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x0 0.--31. 1. "TRNG_OUTPUT_0,Please refer to eip76d HW Reference Manual for details" wgroup.long 0x4++0x3 line.long 0x0 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_INPUT_1,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x0 0.--31. 1. "TRNG_INPUT_1,Please refer to eip76d HW Reference Manual for details" rgroup.long 0x4++0x3 line.long 0x0 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_OUTPUT_1,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x0 0.--31. 1. "TRNG_OUTPUT_1,Please refer to eip76d HW Reference Manual for details" wgroup.long 0x8++0x3 line.long 0x0 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_INPUT_2,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x0 0.--31. 1. "TRNG_INPUT_2,Please refer to eip76d HW Reference Manual for details" rgroup.long 0x8++0x3 line.long 0x0 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_OUTPUT_2,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x0 0.--31. 1. "TRNG_OUTPUT_2,Please refer to eip76d HW Reference Manual for details" wgroup.long 0xC++0x3 line.long 0x0 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_INPUT_3,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x0 0.--31. 1. "TRNG_INPUT_3,Please refer to eip76d HW Reference Manual for details" rgroup.long 0xC++0x3 line.long 0x0 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_OUTPUT_3,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x0 0.--31. 1. "TRNG_OUTPUT_3,Please refer to eip76d HW Reference Manual for details" wgroup.long 0x10++0x3 line.long 0x0 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_INTACK,Please refer to eip76d HW Reference Manual for details" bitfld.long 0x0 31. "LOAD_THRESH,Please refer to eip76d HW Reference Manual for details" "0,1" hexmask.long.byte 0x0 24.--30. 1. "BLOCKS_THRESH,Please refer to eip76d HW Reference Manual for details" newline bitfld.long 0x0 15. "TEST_STUCK_OUT,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x0 14. "APROP_FAIL_ACK,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x0 13. "REPCNT_FAIL_ACK,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x0 12. "OPEN_READ_GATE2,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x0 10. "STUCK_OUT_ACK2,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x0 9. "STUCK_NRBG_ACK,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x0 8. "TEST_READY_ACK,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x0 7. "MONOBIT_FAIL_ACK,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x0 6. "POKER_FAIL_ACK,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x0 5. "LONG_RUN_FAIL_ACK,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x0 4. "RUN_FAIL_ACK,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x0 3. "NOISE_FAIL_ACK,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x0 2. "STUCK_OUT_ACK,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x0 1. "SHUTDOWN_OFLO_ACK,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x0 0. "READY_ACK,Please refer to eip76d HW Reference Manual for details" "0,1" wgroup.long 0x10++0x3 line.long 0x0 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_INTACK_secure_mode,Please refer to eip76d HW Reference Manual for details" hexmask.long.word 0x0 0.--14. 1. "READY,Please refer to eip76d HW Reference Manual for details" group.long 0x10++0x2F line.long 0x0 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_STATUS,Please refer to eip76d HW Reference Manual for details" rbitfld.long 0x0 31. "NEED_CLOCK,Please refer to eip76d HW Reference Manual for details" "0,1" hexmask.long.byte 0x0 24.--30. 1. "BLOCKS_THRESH,Please refer to eip76d HW Reference Manual for details" newline hexmask.long.byte 0x0 16.--23. 1. "BLOCKS_AVAILABLE,Please refer to eip76d HW Reference Manual for details" rbitfld.long 0x0 15. "TEST_STUCK_OUT,Please refer to eip76d HW Reference Manual for details" "0,1" newline rbitfld.long 0x0 14. "APROP_FAIL,Please refer to eip76d HW Reference Manual for details" "0,1" rbitfld.long 0x0 13. "REPCNT_FAIL,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x0 11.--12. "RESERVED,Please refer to eip76d HW Reference Manual for details" "0,1,2,3" rbitfld.long 0x0 10. "RESEED_AI,Please refer to eip76d HW Reference Manual for details" "0,1" newline rbitfld.long 0x0 9. "STUCK_NRBG,Please refer to eip76d HW Reference Manual for details" "0,1" rbitfld.long 0x0 8. "TEST_READY,Please refer to eip76d HW Reference Manual for details" "0,1" newline rbitfld.long 0x0 7. "MONOBIT_FAIL,Please refer to eip76d HW Reference Manual for details" "0,1" rbitfld.long 0x0 6. "POKER_FAIL,Please refer to eip76d HW Reference Manual for details" "0,1" newline rbitfld.long 0x0 5. "LONG_RUN_FAIL,Please refer to eip76d HW Reference Manual for details" "0,1" rbitfld.long 0x0 4. "RUN_FAIL,Please refer to eip76d HW Reference Manual for details" "0,1" newline rbitfld.long 0x0 3. "NOISE_FAIL,Please refer to eip76d HW Reference Manual for details" "0,1" rbitfld.long 0x0 2. "STUCK_OUT,Please refer to eip76d HW Reference Manual for details" "0,1" newline rbitfld.long 0x0 1. "SHUTDOWN_OFLO,Please refer to eip76d HW Reference Manual for details" "0,1" rbitfld.long 0x0 0. "READY,Please refer to eip76d HW Reference Manual for details" "0,1" line.long 0x4 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_CONTROL,Please refer to eip76d HW Reference Manual for details" hexmask.long.word 0x4 20.--31. 1. "DATA_BLOCKS,Please refer to eip76d HW Reference Manual for details" bitfld.long 0x4 18.--19. "RESERVED,Please refer to eip76d HW Reference Manual for details" "0,1,2,3" newline bitfld.long 0x4 17. "REQUEST_HOLD,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x4 16. "REQUEST_DATA,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x4 15. "RE_SEED,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x4 14. "APROP_FAIL_MASK,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x4 13. "REPCNT_FAIL_MASK,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x4 12. "DRBG_EN,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x4 11. "NO_WHITENING,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x4 10. "ENABLE_TRNG,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x4 9. "STUCK_NRBG_MASK,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x4 8. "TEST_MODE,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x4 7. "MONOBIT_FAIL_MASK,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x4 6. "POKER_FAIL_MASK,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x4 5. "LONG_RUN_FAIL_MASK,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x4 4. "RUN_FAIL_MASK,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x4 3. "NOISE_FAIL_MASK,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x4 2. "STUCK_OUT_MASK,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x4 1. "SHUTDOWN_OFLO_MASK,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x4 0. "READY_MASK,Please refer to eip76d HW Reference Manual for details" "0,1" line.long 0x8 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_CONFIG,Please refer to eip76d HW Reference Manual for details" hexmask.long.word 0x8 16.--31. 1. "SAMPLE_CYCLES,Please refer to eip76d HW Reference Manual for details" hexmask.long.byte 0x8 12.--15. 1. "READ_TIMEOUT,Please refer to eip76d HW Reference Manual for details" newline hexmask.long.byte 0x8 8.--11. 1. "SAMPLE_DIV,Please refer to eip76d HW Reference Manual for details" bitfld.long 0x8 6.--7. "SCALE,Please refer to eip76d HW Reference Manual for details" "0,1,2,3" newline bitfld.long 0x8 5. "USE_STARTUP_BITS,Please refer to eip76d HW Reference Manual for details" "0,1" hexmask.long.byte 0x8 0.--4. 1. "NOISE_BLOCKS,Please refer to eip76d HW Reference Manual for details" line.long 0xC "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_ALARMCNT,Please refer to eip76d HW Reference Manual for details" bitfld.long 0xC 30.--31. "RESERVED,Please refer to eip76d HW Reference Manual for details" "0,1,2,3" hexmask.long.byte 0xC 24.--29. 1. "SHUTDOWN_COUNT,Please refer to eip76d HW Reference Manual for details" newline bitfld.long 0xC 23. "SHUTDOWN_FATAL,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0xC 21.--22. "RESERVED,Please refer to eip76d HW Reference Manual for details" "0,1,2,3" newline hexmask.long.byte 0xC 16.--20. 1. "SHUTDOWN_THRESHOLD,Please refer to eip76d HW Reference Manual for details" bitfld.long 0xC 15. "STALL_RUN_POKER,Please refer to eip76d HW Reference Manual for details" "0,1" newline hexmask.long.byte 0xC 8.--14. 1. "RESERVED,Please refer to eip76d HW Reference Manual for details" hexmask.long.byte 0xC 0.--7. 1. "ALARM_THRESHOLD,Please refer to eip76d HW Reference Manual for details" line.long 0x10 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_FROENABLE,Please refer to eip76d HW Reference Manual for details" hexmask.long.byte 0x10 0.--7. 1. "TRNG_FROENABLE,Please refer to eip76d HW Reference Manual for details" line.long 0x14 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_FRODETUNE,Please refer to eip76d HW Reference Manual for details" hexmask.long.byte 0x14 0.--7. 1. "TRNG_FRODETUNE,Please refer to eip76d HW Reference Manual for details" line.long 0x18 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_ALARMMASK,Please refer to eip76d HW Reference Manual for details" hexmask.long.byte 0x18 0.--7. 1. "TRNG_ALARMMASK,Please refer to eip76d HW Reference Manual for details" line.long 0x1C "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_ALARMSTOP,Please refer to eip76d HW Reference Manual for details" hexmask.long.byte 0x1C 0.--7. 1. "TRNG_ALARMSTOP,Please refer to eip76d HW Reference Manual for details" line.long 0x20 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_RAW_L,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x20 0.--31. 1. "TRNG_RAW_L,Please refer to eip76d HW Reference Manual for details" line.long 0x24 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_RAW_H,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x24 0.--31. 1. "TRNG_RAW_H,Please refer to eip76d HW Reference Manual for details" line.long 0x28 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_SPB_TESTS,Please refer to eip76d HW Reference Manual for details" bitfld.long 0x28 31. "APROP_512_FAIL,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x28 30. "APROP_64_FAIL,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x28 29. "SHOW_VALUES,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x28 28. "SHOW_COUNTERS,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x28 25.--27. "RESERVED,Please refer to eip76d HW Reference Manual for details" "0,1,2,3,4,5,6,7" hexmask.long.word 0x28 16.--24. 1. "APROP_512_CUTOFF,Please refer to eip76d HW Reference Manual for details" newline bitfld.long 0x28 14.--15. "RESERVED,Please refer to eip76d HW Reference Manual for details" "0,1,2,3" hexmask.long.byte 0x28 8.--13. 1. "APROP_64_CUTOFF,Please refer to eip76d HW Reference Manual for details" newline bitfld.long 0x28 6.--7. "RESERVED,Please refer to eip76d HW Reference Manual for details" "0,1,2,3" hexmask.long.byte 0x28 0.--5. 1. "REPCNT_CUTOFF,Please refer to eip76d HW Reference Manual for details" line.long 0x2C "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_COUNT,Please refer to eip76d HW Reference Manual for details" bitfld.long 0x2C 30.--31. "RESERVED,Please refer to eip76d HW Reference Manual for details" "0,1,2,3" hexmask.long.byte 0x2C 24.--29. 1. "SAMPLE_CYC_EXT,Please refer to eip76d HW Reference Manual for details" newline bitfld.long 0x2C 21.--23. "RESERVED,Please refer to eip76d HW Reference Manual for details" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x2C 16.--20. 1. "NOISE_BLK_CNT,Please refer to eip76d HW Reference Manual for details" newline hexmask.long.word 0x2C 0.--15. 1. "SAMPLE_CYC_CNT,Please refer to eip76d HW Reference Manual for details" wgroup.long 0x40++0x2F line.long 0x0 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_PS_AI_0,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x0 0.--31. 1. "VECTOR,Please refer to eip76d HW Reference Manual for details" line.long 0x4 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_PS_AI_1,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x4 0.--31. 1. "VECTOR,Please refer to eip76d HW Reference Manual for details" line.long 0x8 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_PS_AI_2,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x8 0.--31. 1. "VECTOR,Please refer to eip76d HW Reference Manual for details" line.long 0xC "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_PS_AI_3,Please refer to eip76d HW Reference Manual for details" hexmask.long 0xC 0.--31. 1. "VECTOR,Please refer to eip76d HW Reference Manual for details" line.long 0x10 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_PS_AI_4,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x10 0.--31. 1. "VECTOR,Please refer to eip76d HW Reference Manual for details" line.long 0x14 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_PS_AI_5,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x14 0.--31. 1. "VECTOR,Please refer to eip76d HW Reference Manual for details" line.long 0x18 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_PS_AI_6,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x18 0.--31. 1. "VECTOR,Please refer to eip76d HW Reference Manual for details" line.long 0x1C "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_PS_AI_7,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x1C 0.--31. 1. "VECTOR,Please refer to eip76d HW Reference Manual for details" line.long 0x20 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_PS_AI_8,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x20 0.--31. 1. "VECTOR,Please refer to eip76d HW Reference Manual for details" line.long 0x24 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_PS_AI_9,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x24 0.--31. 1. "VECTOR,Please refer to eip76d HW Reference Manual for details" line.long 0x28 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_PS_AI_10,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x28 0.--31. 1. "VECTOR,Please refer to eip76d HW Reference Manual for details" line.long 0x2C "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_PS_AI_11,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x2C 0.--31. 1. "VECTOR,Please refer to eip76d HW Reference Manual for details" group.long 0x70++0xF line.long 0x0 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_TEST,Please refer to eip76d HW Reference Manual for details" bitfld.long 0x0 31. "TEST_IRQ,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x0 30. "FRO_TESTIN4,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x0 29. "FRO_TESTIN3,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x0 28. "FRO_TESTIN2_NOT,Please refer to eip76d HW Reference Manual for details" "0,1" newline hexmask.long.word 0x0 16.--27. 1. "TEST_PATTERN,Please refer to eip76d HW Reference Manual for details" bitfld.long 0x0 15. "RESERVED,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x0 14. "TEST_SPB,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x0 13. "TEST_NOISE,Please refer to eip76d HW Reference Manual for details" "0,1" newline hexmask.long.byte 0x0 8.--12. 1. "TEST_SELECT,Please refer to eip76d HW Reference Manual for details" bitfld.long 0x0 7. "TEST_SP_800_90,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x0 6. "TEST_AES_256,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x0 5. "TEST_KNOWN_NOISE,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x0 4. "CONT_POKER,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x0 3. "TEST_SHIFTREG,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x0 2. "TEST_PATT_DET,Please refer to eip76d HW Reference Manual for details" "0,1" bitfld.long 0x0 1. "TEST_PATT_FR,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x0 0. "TEST_EN_OUT,Please refer to eip76d HW Reference Manual for details" "0,1" line.long 0x4 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_BLOCKCNT,Please refer to eip76d HW Reference Manual for details" hexmask.long 0x4 4.--31. 1. "BLOCK_COUNT,Please refer to eip76d HW Reference Manual for details" hexmask.long.byte 0x4 0.--3. 1. "RESERVED,Please refer to eip76d HW Reference Manual for details" line.long 0x8 "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_OPTIONS,Please refer to eip76d HW Reference Manual for details" hexmask.long.byte 0x8 24.--31. 1. "DETUNE_COUNT,Please refer to eip76d HW Reference Manual for details" bitfld.long 0x8 23. "AUTO_DETUNE,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x8 22. "RESERVED,Please refer to eip76d HW Reference Manual for details" "0,1" rbitfld.long 0x8 21. "APROP_512,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x8 20. "RESERVED,Please refer to eip76d HW Reference Manual for details" "0,1" rbitfld.long 0x8 19. "DETUNING_OPTION,Please refer to eip76d HW Reference Manual for details" "0,1" newline rbitfld.long 0x8 17.--18. "CONDITIONER,Please refer to eip76d HW Reference Manual for details" "0,1,2,3" rbitfld.long 0x8 16. "PR_TEST,Please refer to eip76d HW Reference Manual for details" "0,1" newline bitfld.long 0x8 15. "RESERVED,Please refer to eip76d HW Reference Manual for details" "0,1" rbitfld.long 0x8 12.--14. "BUFFER_SIZE,Please refer to eip76d HW Reference Manual for details" "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x8 6.--11. 1. "NR_OF_FROS,Please refer to eip76d HW Reference Manual for details" bitfld.long 0x8 3.--5. "RESERVED,Please refer to eip76d HW Reference Manual for details" "0,1,2,3,4,5,6,7" newline rbitfld.long 0x8 0.--2. "POST_PROCESSOR,Please refer to eip76d HW Reference Manual for details" "0,1,2,3,4,5,6,7" line.long 0xC "EIP_76D_8_BCDF_EIP76_REGISTERS_TRNG_EIP_REV,Please refer to eip76d HW Reference Manual for details" hexmask.long.byte 0xC 28.--31. 1. "RESERVED,Please refer to eip76d HW Reference Manual for details" hexmask.long.byte 0xC 24.--27. 1. "MAJOR_HW_REVISION,Please refer to eip76d HW Reference Manual for details" newline hexmask.long.byte 0xC 20.--23. 1. "MINOR_HW_REVISION,Please refer to eip76d HW Reference Manual for details" hexmask.long.byte 0xC 16.--19. 1. "HW_PATCH_LEVEL,Please refer to eip76d HW Reference Manual for details" newline hexmask.long.byte 0xC 8.--15. 1. "COMPLEMENT_OF_BASIC_EIP_NUMBER,Please refer to eip76d HW Reference Manual for details" hexmask.long.byte 0xC 0.--7. 1. "BASIS_EIP_NUMBER,Please refer to eip76d HW Reference Manual for details" tree.end tree "SA3_SS0_SA_UL_0_MMRA (SA3_SS0_SA_UL_0_MMRA)" base ad:0x40901000 group.long 0x0++0x3 line.long 0x0 "MMRA_REGS_engine_enable,This register controls the enable of each crypto engine" bitfld.long 0x0 11. "CPPI_OUT_EN,cppi out enable" "0,1" bitfld.long 0x0 9. "CPPI_IN_EN,cppi in enable" "0,1" bitfld.long 0x0 7. "CTX_EN,ctxcach enable" "0,1" bitfld.long 0x0 4. "PKA_EN,pka enable" "0,1" bitfld.long 0x0 3. "TRNG_EN,trng enable" "0,1" newline bitfld.long 0x0 1. "AUTHSS_EN,authss enable" "0,1" bitfld.long 0x0 0. "ENCSS_EN,encss enable" "0,1" group.long 0x10++0x13 line.long 0x0 "MMRA_REGS_scptr_promote_low_range_l,This register contains bit 31:0 of the SCPTR lower limit for promotion check" hexmask.long 0x0 0.--31. 1. "BIT_31_0,The lower 32-bits of SCPTR lower limit" line.long 0x4 "MMRA_REGS_scptr_promote_low_range_h,This register contains bit 47:32 of the SCPTR lower limit for promotion check" hexmask.long.word 0x4 0.--15. 1. "BIT_47_32,The upper 16-bits of SCPTR lower limit" line.long 0x8 "MMRA_REGS_scptr_promote_hi_range_l,This register contains bit 31:0 of the SCPTR upper limit for promotion check" hexmask.long 0x8 0.--31. 1. "BIT_31_0,The lower 32-bits of SCPTR upper limit" line.long 0xC "MMRA_REGS_scptr_promote_hi_range_h,This register contains bit 47:32 of the SCPTR upper limit for promotion check" hexmask.long.word 0xC 0.--15. 1. "BIT_47_32,The upper 16-bits of SCPTR upper limit" line.long 0x10 "MMRA_REGS_exception_logging_control,The Exception Logging Control Register controls the exception logging." bitfld.long 0x10 1. "DISABLE_PEND,Disables logging pending when set." "0,1" bitfld.long 0x10 0. "DISABLE_LOG,Disables logging when set." "0,1" rgroup.long 0x24++0x17 line.long 0x0 "MMRA_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_LOG,Type." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID." line.long 0x4 "MMRA_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code." line.long 0x8 "MMRA_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,SCPTR lower 32 bits." line.long 0xC "MMRA_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,SCPTR upper 16 bits." line.long 0x10 "MMRA_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.byte 0x10 16.--23. 1. "PRIV_ID,Ingress Packet Priv ID attribute." bitfld.long 0x10 8.--9. "PRIV,Ingress Packet Priv attribute." "0,1,2,3" bitfld.long 0x10 7. "ALLOWNS,Ingress Packet AllowNS attribute." "0,1" bitfld.long 0x10 6. "DEMOTE,Ingress Packet Demote attribute." "0,1" bitfld.long 0x10 5. "PROMOTE,Ingress Packet Promote attribute." "0,1" newline bitfld.long 0x10 0. "SECURE,Ingress Packet Secure attribute." "0,1" line.long 0x14 "MMRA_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.byte 0x14 16.--23. 1. "PRIV_ID,Context Priv ID." bitfld.long 0x14 8.--9. "PRIV,Context Priv." "0,1,2,3" bitfld.long 0x14 7. "ALLOWNS,Context AllowNS." "0,1" bitfld.long 0x14 6. "DEMOTE,Context Demote." "0,1" bitfld.long 0x14 5. "PROMOTE,Context Promote." "0,1" newline bitfld.long 0x14 0. "SECURE,Context Secure." "0,1" group.long 0x40++0x7 line.long 0x0 "MMRA_REGS_exception_pend_set,The Exception Logging Pending Set Register allows to set the pend signal." bitfld.long 0x0 0. "PEND_SET,Write a 1 to set the exception pend signal." "0,1" line.long 0x4 "MMRA_REGS_exception_pend_clear,The Exception Logging Pending Clear Register allows to clear the pend signal." bitfld.long 0x4 0. "PEND_CLR,Write a 1 to clear the exception pend signal." "0,1" group.long 0x50++0x7 line.long 0x0 "MMRA_REGS_trng_intr_set,The TRNG Interrupt Set Register allows to set trng_intr output for testing purpose." bitfld.long 0x0 0. "TRNG_SET,Write a 1 to set the interrupt." "0,1" line.long 0x4 "MMRA_REGS_trng_intr_clear,The TRNG Interrupt Clear Register allows to clear the trng_intr output for testing purpose." bitfld.long 0x4 0. "TRNG_CLR,Write a 1 to clear the exception pend signal." "0,1" group.long 0x60++0x7 line.long 0x0 "MMRA_REGS_pka_intr_set,The PKA Interrupt Set Register allows to set pka_intr output for testing purpose." bitfld.long 0x0 0. "PKA_SET,Write a 1 to set the interrupt." "0,1" line.long 0x4 "MMRA_REGS_pka_intr_clear,The PKA Interrupt Clear Register allows to clear the pka_intr output for testing purpose." bitfld.long 0x4 0. "PKA_CLR,Write a 1 to clear the exception pend signal." "0,1" wgroup.long 0x100++0x2F line.long 0x0 "MMRA_REGS_kek_0,DKEK key is used as AES key only when Use_DKEK bit in the context is set to 1." hexmask.long 0x0 0.--31. 1. "KEYS,bit 31:0 of DKEK keys" line.long 0x4 "MMRA_REGS_kek_1,DKEK key is used as AES key only when Use_DKEK bit in the context is set to 1." hexmask.long 0x4 0.--31. 1. "KEYS,bit 63:32 of DKEK keys" line.long 0x8 "MMRA_REGS_kek_2,DKEK key is used as AES key only when Use_DKEK bit in the context is set to 1." hexmask.long 0x8 0.--31. 1. "KEYS,bit 95:64 of DKEK keys" line.long 0xC "MMRA_REGS_kek_3,DKEK key is used as AES key only when Use_DKEK bit in the context is set to 1." hexmask.long 0xC 0.--31. 1. "KEYS,bit 127:96 of DKEK keys" line.long 0x10 "MMRA_REGS_kek_4,DKEK key is used as AES key only when Use_DKEK bit in the context is set to 1." hexmask.long 0x10 0.--31. 1. "KEYS,bit 159:128 of DKEK keys" line.long 0x14 "MMRA_REGS_kek_5,DKEK key is used as AES key only when Use_DKEK bit in the context is set to 1." hexmask.long 0x14 0.--31. 1. "KEYS,bit 191:160 of DKEK keys" line.long 0x18 "MMRA_REGS_kek_6,DKEK key is used as AES key only when Use_DKEK bit in the context is set to 1." hexmask.long 0x18 0.--31. 1. "KEYS,bit 223:192 of DKEK keys" line.long 0x1C "MMRA_REGS_kek_7,DKEK key is used as AES key only when Use_DKEK bit in the context is set to 1." hexmask.long 0x1C 0.--31. 1. "KEYS,bit 255:224 of DKEK keys" line.long 0x20 "MMRA_REGS_kek_lock,This register can be written to lock and prevent further write access to kek_0 - kek_7 registers." bitfld.long 0x20 0. "LOCK,The lock bit is only writable once. Once set the kek registers cannot be reprogrammed without resetting the device" "0,1" line.long 0x24 "MMRA_REGS_dkek_privid,Only packet with privid matching any one of the programmed four privid values in this write-only register is allowed to use the encryption engine with D-KEK key. This feature is only enabled if the Use_DKEK bit in the context is set." hexmask.long.byte 0x24 24.--31. 1. "PRIVID3,slot3 of privid that is allowed to use D-KEK" hexmask.long.byte 0x24 16.--23. 1. "PRIVID2,slot2 of privid that is allowed to use D-KEK" hexmask.long.byte 0x24 8.--15. 1. "PRIVID1,slot1 of privid that is allowed to use D-KEK" hexmask.long.byte 0x24 0.--7. 1. "PRIVID0,slot0 of privid that is allowed to use D-KEK" line.long 0x28 "MMRA_REGS_dkek_priv,Only packet with priv matching any one of the programmed four priv values in this write-only register will be allowed to use the encryption engine with D-KEK key. This feature is only enabled if the Use_DKEK bit in the context is set." bitfld.long 0x28 24.--25. "PRIV3,slot3 of priv that is allowed to use D-KEK" "0,1,2,3" bitfld.long 0x28 16.--17. "PRIV2,slot2 of priv that is allowed to use D-KEK" "0,1,2,3" bitfld.long 0x28 8.--9. "PRIV1,slot1 of priv that is allowed to use D-KEK" "0,1,2,3" bitfld.long 0x28 0.--1. "PRIV0,slot0 of priv that is allowed to use D-KEK" "0,1,2,3" line.long 0x2C "MMRA_REGS_dkek_secure,Only packet with secure matching any one of the programmed four secure values in this write-only register will be allowed to use the encryption engine with D-KEK key. This feature is only enabled if the Use_DKEK bit in the context.." bitfld.long 0x2C 24. "SECURE3,slot3 of secure that is allowed to use D-KEK" "0,1" bitfld.long 0x2C 16. "SECURE2,slot2 of secure that is allowed to use D-KEK" "0,1" bitfld.long 0x2C 8. "SECURE1,slot1 of secure that is allowed to use D-KEK" "0,1" bitfld.long 0x2C 0. "SECURE0,slot0 of secure that is allowed to use D-KEK" "0,1" tree.end tree "SA3_SS0_SA_UL_0_REGS (SA3_SS0_SA_UL_0_REGS)" base ad:0x40900000 rgroup.long 0x0++0xB line.long 0x0 "MMRS_revision,Version and Identification Register" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL revision" newline bitfld.long 0x0 8.--10. "REVMAJ,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom revision" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor Revision" line.long 0x4 "MMRS_efuse_enable,The efuse_enable register contains the disable of the countermeasure/dpa feature. and the enable for the AES.SHA.SM3.SM4.PKA crypto cores in the device" bitfld.long 0x4 4. "DIS_CM,Disable for the countermeasure feature which is driven by Security Manager of the SMS IP. Value of 1 means feature is disabled." "0,1" hexmask.long.byte 0x4 0.--3. 1. "EFUSE_EN,Efuse crypto enable must be set high to enable crypto core bit3=sm3_sm4_en bit2=pka_en bit1=encr_drbg_en bit0=sha_en" line.long 0x8 "MMRS_engine_status,The engine_status register contains the enable and busy status for every crypto core" bitfld.long 0x8 27. "CPPI_OUT_PORT_BUSY,PSI output port busy status bit" "0,1" bitfld.long 0x8 25. "CPPI_IN_PORT_BUSY,PSI input port busy status bit" "0,1" bitfld.long 0x8 23. "CTXCACH_BUSY,ContextCache module busy status bit" "0,1" bitfld.long 0x8 20. "PKA_BUSY,PKA module busy status bit" "0,1" newline bitfld.long 0x8 19. "TRNG_BUSY,Random number generator module busy status bit" "0,1" bitfld.long 0x8 17. "AUTHSS_BUSY,Authentication module busy status bit" "0,1" bitfld.long 0x8 16. "ENCSS_BUSY,Encryption module busy status bit" "0,1" bitfld.long 0x8 11. "CPPI_OUT_PORT_EN,Enable indicator for the output streaming interface" "0,1" newline bitfld.long 0x8 9. "CPPI_IN_PORT_EN,Enable indicator for the input streaming interface" "0,1" bitfld.long 0x8 7. "CTXCACH_EN,Enable indicator for context cache engine" "0,1" bitfld.long 0x8 4. "PKA_EN,Enable indicator for PKA engine" "0,1" bitfld.long 0x8 3. "TRNG_EN,Enable indicator for TRNG engine" "0,1" newline bitfld.long 0x8 1. "AUTHSS_EN,Enable indicator for authentication engine" "0,1" bitfld.long 0x8 0. "ENCSS_EN,Enable indicator for encryption engine" "0,1" group.long 0x14++0x3 line.long 0x0 "MMRS_cppi_flowid,The flowid register is no longer used as the DMA software info word 2 must carry this information" hexmask.long.byte 0x0 0.--7. 1. "CPPI_FLOWID,cppi default flow id" group.long 0x1C++0x3 line.long 0x0 "MMRS_default_eng_id,The default_eng_id contains the first engine only if default engine id code is in the DMA software info word 0" hexmask.long.byte 0x0 0.--4. 1. "DEFAULT_ENG_ID,default engine id" group.long 0x100++0x3 line.long 0x0 "MMRS_ctxcach_ctrl,The ctxcach_ctrl contains some control and status of the context cache engine" rbitfld.long 0x0 31. "CTX_BUSY,context busy" "0,1" hexmask.long.byte 0x0 24.--30. 1. "CTX_CNT,context counts" bitfld.long 0x0 4. "CLR_STATS,clear stats" "0,1" bitfld.long 0x0 3. "CPPI_PORT_EN,enable cppi ctxcach port" "0,1" newline rbitfld.long 0x0 1. "CLR_CACHE_TABLE,clear cache table" "0,1" rbitfld.long 0x0 0. "AUTO_FETCH_EN,enable auto fetch" "0,1" group.long 0x108++0x3 line.long 0x0 "MMRS_ctxcach_scid,The ctxcach_scid register is no longer used as context operation is fully under hardware control" rbitfld.long 0x0 31. "SC_DONE,done bit indicator" "0,1" rbitfld.long 0x0 28.--30. "SC_ERRCODE,pass / error code result" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 20.--27. 1. "SC_RAMIDX,ram index result" bitfld.long 0x0 19. "GO,execute" "0,1" newline bitfld.long 0x0 17. "SC_TEAR,1:tear" "?,1: tear" rbitfld.long 0x0 16. "SC_FETCH_EVICT,always read 1:evict" "?,1: evict" hexmask.long.word 0x0 0.--15. 1. "SCID,SCID for mmr based evict" rgroup.long 0x10C++0x3 line.long 0x0 "MMRS_ctxcach_misscnt,The ctxcach_misscnt contains the number of how many misses that trigger context fetch" hexmask.long 0x0 0.--31. 1. "CTX_MISSCNT,cache miss counter" tree.end tree.end tree "SA3_SS0_SEC_PROXY" tree "SA3_SS0_SEC_PROXY_0_IPCSS_SEC_PROXY_CFG_MMRS (SA3_SS0_SEC_PROXY_0_IPCSS_SEC_PROXY_CFG_MMRS)" base ad:0x44804000 rgroup.long 0x0++0x7 line.long 0x0 "IPCSS__SEC_PROXY_CFG__MMRS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" line.long 0x4 "IPCSS__SEC_PROXY_CFG__MMRS_config,The Config Register shows configured params." hexmask.long.word 0x4 16.--31. 1. "MSG_SIZE,Supported message size in bytes." hexmask.long.word 0x4 0.--15. 1. "THREADS,Number of proxy threads supported." group.long 0x14++0x3 line.long 0x0 "IPCSS__SEC_PROXY_CFG__MMRS_glb_evt,The Global Event Register defines the event to send for a global error." hexmask.long.word 0x0 0.--15. 1. "ERR_EVENT,Global error event destination. 0xFFFF disables the event" tree.end tree "SA3_SS0_SEC_PROXY_0_IPCSS_SEC_PROXY_CFG_RT (SA3_SS0_SEC_PROXY_0_IPCSS_SEC_PROXY_CFG_RT)" base ad:0x44880000 group.long 0x0++0x7 line.long 0x0 "IPCSS__SEC_PROXY_CFG__RT_status,The Status Register gives status for proxy thread a." bitfld.long 0x0 31. "ERROR,Error detected on proxy thread. The error will also use the err_evt field to generate an error event which can generate an interrupt. While in error a proxy thread will not process any operations. Write a 0 to clear the error and reset the proxy.." "0,1" rbitfld.long 0x0 30. "DIR,Direction for the proxy thread. 0 = outbound write only. 1 = inbound read only." "0: outbound,1: inbound" hexmask.long.byte 0x0 16.--23. 1. "MAX_CNT,Max message count allowed for an outbound proxy thread." hexmask.long.byte 0x0 0.--7. 1. "CUR_CNT,Current message count for the proxy thread. For an inbound proxy this is the number of available messages. For an outbound proxy this is the number of free messages that can be written. This value will initialize itself to 0 if the THREAD[a]_CTL.." line.long 0x4 "IPCSS__SEC_PROXY_CFG__RT_thr,The Threshold Register controls the threshold for proxy thread a events." hexmask.long.byte 0x4 0.--7. 1. "THR_CNT,Threshold count that causes proxy thread events. For an outbound proxy this will be the number of free messages to cause an event. For an inbound proxy this will be the number of available messages to cause an event." tree.end tree "SA3_SS0_SEC_PROXY_0_IPCSS_SEC_PROXY_CFG_SCFG (SA3_SS0_SEC_PROXY_0_IPCSS_SEC_PROXY_CFG_SCFG)" base ad:0x44860000 group.long 0x0++0x13 line.long 0x0 "IPCSS__SEC_PROXY_CFG__SCFG_buffer_l,The Buffer Register defines the pointer for the external buffer." hexmask.long 0x0 0.--31. 1. "BASE_L,The base address for the external buffer lower 32 bits." line.long 0x4 "IPCSS__SEC_PROXY_CFG__SCFG_buffer_h,The Buffer Register defines the pointer for the external buffer." hexmask.long.word 0x4 0.--15. 1. "BASE_H,The base address for the external buffer upper 16 bits." line.long 0x8 "IPCSS__SEC_PROXY_CFG__SCFG_target_l,The Target Register defines the pointer for the external target." hexmask.long 0x8 0.--31. 1. "BASE_L,The base address for the external target lower 32 bits." line.long 0xC "IPCSS__SEC_PROXY_CFG__SCFG_target_h,The Target Register defines the pointer for the external target." hexmask.long.word 0xC 0.--15. 1. "BASE_H,The base address for the external target upper 16 bits." line.long 0x10 "IPCSS__SEC_PROXY_CFG__SCFG_ORDERID,The Buffer OrderID Register contains the bus orderid value for the buffer memory access." bitfld.long 0x10 4. "REPLACE,Indicates to replace the bus orderid value for the buffer access with the orderid MMR field. This allows control over the orderid value when it must be restricted due to the topology for QoS reasons. 0 = bypass and use the orderid from the source.." "0: bypass and use the orderid from the source..,1: use the orderid MMR field value for the.." hexmask.long.byte 0x10 0.--3. 1. "ORDERID,Defines the bus orderid value for the buffer access." group.long 0x1000++0xB line.long 0x0 "IPCSS__SEC_PROXY_CFG__SCFG_ctl,The Control Register defines controls for proxy thread a." bitfld.long 0x0 31. "DIR,Direction for the proxy thread. 0 = outbound write only. 1 = inbound read only." "0: outbound,1: inbound" hexmask.long.byte 0x0 16.--23. 1. "MAX_CNT,Max message count allowed for an outbound proxy thread. Is not used otherwise." hexmask.long.word 0x0 0.--15. 1. "QUEUE,Queue number in the target to use for the proxy thread. If the target base does not start at queue 0 then this is the relative queue number from that base queue." line.long 0x4 "IPCSS__SEC_PROXY_CFG__SCFG_evt_map,The Event Map Register defines the event numbers for proxy thread a." hexmask.long.word 0x4 16.--31. 1. "ERR_EVT,Event number for an error from the proxy thread." hexmask.long.word 0x4 0.--15. 1. "THR_EVT,Event number for a threshold event from the proxy thread." line.long 0x8 "IPCSS__SEC_PROXY_CFG__SCFG_dst,The Destination Register defines the destination proxy thread for outbound proxy thread a." hexmask.long.word 0x8 0.--15. 1. "THREAD,The proxy thread that is the destination of messages from this outbound proxy thread based on the queue numbers. This is ignored for inbound proxy threads." tree.end tree "SA3_SS0_SEC_PROXY_0_SEC_PROXY_SRC_TARGET_DATA (SA3_SS0_SEC_PROXY_0_SEC_PROXY_SRC_TARGET_DATA)" base ad:0x43600000 rgroup.long 0x0++0x3 line.long 0x0 "SEC_PROXY__SRC__TARGET_DATA_private,The Proxy Private register contains private information for the proxy thread a and should not be written. writes are ignored. Reads are allowed to know the source thread of the message." hexmask.long.word 0x0 0.--9. 1. "SRC_THR,Proxy source thread of message." group.long 0x4++0x3 line.long 0x0 "SEC_PROXY__SRC__TARGET_DATA_message,The Message Data for proxy thread a. The word with index b = 14 contains the completion final byte." hexmask.long 0x0 0.--31. 1. "DATA,Proxy Message Data" tree.end tree.end tree.end tree "SMS0" base ad:0x0 tree "SMS0_AESEIP38T_0_AES (SMS0_AESEIP38T_0_AES)" base ad:0x4423C000 group.long 0x0++0x9B line.long 0x0 "TIFS_AES38T_S_AES_KEY2_6," hexmask.long 0x0 0.--31. 1. "KEY,Key Data This register contains the 32-bit key data for the AES module. Initial key for XTS operations For a Host write operation these registers must be written with the 128 192 or 256-bit key for a subsequent AES operation. The key size equals.." line.long 0x4 "TIFS_AES38T_S_AES_KEY2_7," hexmask.long 0x4 0.--31. 1. "KEY,Key Data This register contains the 32-bit key data for the AES module. Initial key for XTS operations For a Host write operation these registers must be written with the 128 192 or 256-bit key for a subsequent AES operation. The key size equals.." line.long 0x8 "TIFS_AES38T_S_AES_KEY2_4," hexmask.long 0x8 0.--31. 1. "KEY,Key Data This register contains the 32-bit key data for the AES module. Initial key for XTS operations For a Host write operation these registers must be written with the 128 192 or 256-bit key for a subsequent AES operation. The key size equals.." line.long 0xC "TIFS_AES38T_S_AES_KEY2_5," hexmask.long 0xC 0.--31. 1. "KEY,Key Data This register contains the 32-bit key data for the AES module. Initial key for XTS operations For a Host write operation these registers must be written with the 128 192 or 256-bit key for a subsequent AES operation. The key size equals.." line.long 0x10 "TIFS_AES38T_S_AES_KEY2_2," hexmask.long 0x10 0.--31. 1. "KEY,Key Data This register contains the 32-bit key data for the AES module. Initial key for XTS operations For a Host write operation these registers must be written with the 128 192 or 256-bit key for a subsequent AES operation. The key size equals.." line.long 0x14 "TIFS_AES38T_S_AES_KEY2_3," hexmask.long 0x14 0.--31. 1. "KEY,Key Data This register contains the 32-bit key data for the AES module. Initial key for XTS operations For a Host write operation these registers must be written with the 128 192 or 256-bit key for a subsequent AES operation. The key size equals.." line.long 0x18 "TIFS_AES38T_S_AES_KEY2_0," hexmask.long 0x18 0.--31. 1. "KEY,Key Data This register contains the 32-bit key data for the AES module. Initial key for XTS operations For a Host write operation these registers must be written with the 128 192 or 256-bit key for a subsequent AES operation. The key size equals.." line.long 0x1C "TIFS_AES38T_S_AES_KEY2_1," hexmask.long 0x1C 0.--31. 1. "KEY,Key Data This register contains the 32-bit key data for the AES module. Initial key for XTS operations For a Host write operation these registers must be written with the 128 192 or 256-bit key for a subsequent AES operation. The key size equals.." line.long 0x20 "TIFS_AES38T_S_AES_KEY1_6," hexmask.long 0x20 0.--31. 1. "KEY,AES Key register. For a Host write operation these registers must be written with the 128 192 or 256-bit key for a subsequent AES operation. For a Host read operation these registers return all-zeroes. The Host will typically write these registers.." line.long 0x24 "TIFS_AES38T_S_AES_KEY1_7," hexmask.long 0x24 0.--31. 1. "KEY,AES Key register. For a Host write operation these registers must be written with the 128 192 or 256-bit key for a subsequent AES operation. For a Host read operation these registers return all-zeroes. The Host will typically write these registers.." line.long 0x28 "TIFS_AES38T_S_AES_KEY1_4," hexmask.long 0x28 0.--31. 1. "KEY,AES Key register. For a Host write operation these registers must be written with the 128 192 or 256-bit key for a subsequent AES operation. For a Host read operation these registers return all-zeroes. The Host will typically write these registers.." line.long 0x2C "TIFS_AES38T_S_AES_KEY1_5," hexmask.long 0x2C 0.--31. 1. "KEY,AES Key register. For a Host write operation these registers must be written with the 128 192 or 256-bit key for a subsequent AES operation. For a Host read operation these registers return all-zeroes. The Host will typically write these registers.." line.long 0x30 "TIFS_AES38T_S_AES_KEY1_2," hexmask.long 0x30 0.--31. 1. "KEY,AES Key register. For a Host write operation these registers must be written with the 128 192 or 256-bit key for a subsequent AES operation. For a Host read operation these registers return all-zeroes. The Host will typically write these registers.." line.long 0x34 "TIFS_AES38T_S_AES_KEY1_3," hexmask.long 0x34 0.--31. 1. "KEY,AES Key register. For a Host write operation these registers must be written with the 128 192 or 256-bit key for a subsequent AES operation. For a Host read operation these registers return all-zeroes. The Host will typically write these registers.." line.long 0x38 "TIFS_AES38T_S_AES_KEY1_0," hexmask.long 0x38 0.--31. 1. "KEY,AES Key register. For a Host write operation these registers must be written with the 128 192 or 256-bit key for a subsequent AES operation. For a Host read operation these registers return all-zeroes. The Host will typically write these registers.." line.long 0x3C "TIFS_AES38T_S_AES_KEY1_1," hexmask.long 0x3C 0.--31. 1. "KEY,AES Key register. For a Host write operation these registers must be written with the 128 192 or 256-bit key for a subsequent AES operation. For a Host read operation these registers return all-zeroes. The Host will typically write these registers.." line.long 0x40 "TIFS_AES38T_S_AES_IV_IN_0," hexmask.long 0x40 0.--31. 1. "DATA,For a Host write operation these registers must be written with the new 128-bit IV to be subsequently transferred to the AES Engine. For a Host read operation these registers contain the latest 128-bit IV output by the AES Engine. This value is.." line.long 0x44 "TIFS_AES38T_S_AES_IV_IN_1," hexmask.long 0x44 0.--31. 1. "DATA,For a Host write operation these registers must be written with the new 128-bit IV to be subsequently transferred to the AES Engine. For a Host read operation these registers contain the latest 128-bit IV output by the AES Engine. This value is.." line.long 0x48 "TIFS_AES38T_S_AES_IV_IN_2," hexmask.long 0x48 0.--31. 1. "DATA,For a Host write operation these registers must be written with the new 128-bit IV to be subsequently transferred to the AES Engine. For a Host read operation these registers contain the latest 128-bit IV output by the AES Engine. This value is.." line.long 0x4C "TIFS_AES38T_S_AES_IV_IN_3," hexmask.long 0x4C 0.--31. 1. "DATA,For a Host write operation these registers must be written with the new 128-bit IV to be subsequently transferred to the AES Engine. For a Host read operation these registers contain the latest 128-bit IV output by the AES Engine. This value is.." line.long 0x50 "TIFS_AES38T_S_AES_CTRL," bitfld.long 0x50 31. "CTXTRDY,Context Data Registers Ready Value Description 0 The context data registers are not ready to be overwritten. 1 The context data registers can be overwritten and the host is permitted to write the next context." "0,1" bitfld.long 0x50 30. "SVCTXTRDY,AES TAG/IV Block(s) Ready This bit is only asserted if the SAVE_CONTEXT bit is set to 1. This bit is mutual exclusive with the CTXTRDY bit. Value Description 0 AES authentication TAG and/or IV block(s) is/are not available. 1.." "0,1" newline bitfld.long 0x50 29. "SAVE_CONTEXT,TAG or Result IV Save If this bit is set the CONTEXT_OUT interrupt bit is set in the AES_IRQSTATUS register if the operation is finished and related signals are enabled. Value Description 0 No effect. 1 Indicates an.." "0,1" bitfld.long 0x50 22.--24. "CCM_M,Counter with CBC-MAC (CCM)Defines M which indicates the length of the authentication field for CCM operations; the authentication field length equals two times the sum of CCM-M plus one. The AES Engine always returns a 128-bit authentication field .." "0,1,2,3,4,5,6,7" newline bitfld.long 0x50 19.--21. "CCM_L,Indicates the width of the length field for CCM operations; the length field in bytes equals the value of CMM-L plus one. Supported values for L are: Value Description 0x0 width = 0 0x1 width = 2 0x2 reserved.." "0,1,2,3,4,5,6,7" bitfld.long 0x50 18. "CCM,AES-CCM Mode Enable Value Description 0 AES-CCM mode is not enabled. 1 AES-CCM mode enabled. This is a combined mode using AES for both authentication and encryption. No additional mode selection is required." "0,1" newline bitfld.long 0x50 16.--17. "GCM,AES-GCM Mode Enable This is a combined mode using the Galois field-multiplier GF(2^128) for authentication and AES-CTR mode for encryption; the bits specify the GCM mode. Value Description 0x0 No operation 0x1 GHASH with H loaded and.." "0,1,2,3" bitfld.long 0x50 15. "CBCMAC,AES-CBC MAC Enable The DIRECTION bit must be set to 1 for this mode. Value Description 0 AES-CBC MAC mode is not enabled. 1 AES-CBC MAC mode enabled." "0,1" newline bitfld.long 0x50 14. "F9,AES f9 Mode Enable The AES key size must be set to 128-bit for this mode. Value Description 0 f9 mode is not enabled 1 f9 mode is enabled." "0,1" bitfld.long 0x50 13. "F8,AES f8 Mode Enable The KEY_SIZE must be set to 128-bit for this mode. Value Description 0 AES f8 mode is not enabled. 1 AES f8 mode is enabled." "0,1" newline bitfld.long 0x50 11.--12. "XTS,AES-XTS Operation Enable The bits specify the XTS mode. Value Description 0x0 No operation 0x1 Previous/intermediate tweak value and j loaded (value is loaded via IV j is loaded via the AAD length register) 0x2 Key2 n and j.." "0,1,2,3" bitfld.long 0x50 10. "CFB,Full block AES cipher feedback mode (CFB128) Enable Value Description 0 AES-CFB mode is not enabled. 1 AES-CFB mode is enabled." "0,1" newline bitfld.long 0x50 9. "ICM,AES Integer Counter Mode (ICM) Enable This is a counter mode with a 16-bit wide counter. Value Description 0 AES-ICM mode is not enabled. 1 AES-ICM mode is enabled." "0,1" bitfld.long 0x50 7.--8. "CTR_WIDTH,AES-CTR Mode Counter Width Value Description 0x0 Counter is 32 bits 0x1 Counter is 64 bits 0x2 Counter is 96 bits 0x3 Counter is 128 bits" "0,1,2,3" newline bitfld.long 0x50 6. "CTR,Counter Mode This bit must also be set for GCM and CCM mode when encryption/decryption is required. Value Description 0 Counter mode is not enabled. 1 Counter mode is enabled." "0,1" bitfld.long 0x50 5. "MODE,ECB/CBC Mode Value Description 0 ECB mode 1 CBC mode" "0,1" newline bitfld.long 0x50 3.--4. "KEY_SIZE,Key Size Value Description 0x0 reserved 0x1 Key is 128 bits 0x2 Key is 192 bits 0x3 Key is 256 bits" "0,1,2,3" bitfld.long 0x50 2. "DIRECTION,Encryption/Decryption Selection If set to =1 an encrypt operation is performed. If set to 0 a decrypt operation is performed. DIRECTION Value Description 0 Decryption is selected. 1 Encryption is selected." "0,1" newline bitfld.long 0x50 1. "INPUT_READY,Input Ready Status Value Description 0 Input buffer is not empty. 1 Indicates that the 16-byte input buffer is empty and the host is permitted to write the next block of data." "0,1" bitfld.long 0x50 0. "OUTPUT_READY,Output Ready Status Value Description 0 No AES output block is available. 1 An AES output block is available for the host to retrieve." "0,1" line.long 0x54 "TIFS_AES38T_S_AES_C_LENGTH_0," hexmask.long 0x54 0.--31. 1. "LENGTH,Bits [60:0] of the crypto length registers (LSW and MSW) store the cryptographic data length in bytes for all modes. Once processing with this context is started this length decrements to zero. Data lengths up to (2^61 - 1) bytes are allowed. For.." line.long 0x58 "TIFS_AES38T_S_AES_C_LENGTH_1," hexmask.long 0x58 0.--31. 1. "LENGTH,Bits [60:0] of the crypto length registers (LSW and MSW) store the cryptographic data length in bytes for all modes. Once processing with this context is started this length decrements to zero. Data lengths up to (2^61 - 1) bytes are allowed. For.." line.long 0x5C "TIFS_AES38T_S_AES_AUTH_LENGTH," hexmask.long 0x5C 0.--31. 1. "AUTH,Bits [31:0] of the authentication length register store the authentication data length in bytes for combined modes only (GCM or CCM) Supported AAD-lengths for CCM are from 0 to (2^16 - 2^8) bytes. For GCM any value up to (2^32 - 1) bytes can be.." line.long 0x60 "TIFS_AES38T_S_AES_DATA_IN_OUT_0," hexmask.long 0x60 0.--31. 1. "DATA,The Data Input/Output Registers buffer the input/output data blocks to/from the AES Engine. Notice that the data input buffer (AES_DATA_IN_n) and data output buffer (AES_DATA_OUT_n) are mapped to the same address locations. Writes to these addresses.." line.long 0x64 "TIFS_AES38T_S_AES_DATA_IN_OUT_1," hexmask.long 0x64 0.--31. 1. "DATA,The Data Input/Output Registers buffer the input/output data blocks to/from the AES Engine. Notice that the data input buffer (AES_DATA_IN_n) and data output buffer (AES_DATA_OUT_n) are mapped to the same address locations. Writes to these addresses.." line.long 0x68 "TIFS_AES38T_S_AES_DATA_IN_OUT_2," hexmask.long 0x68 0.--31. 1. "DATA,The Data Input/Output Registers buffer the input/output data blocks to/from the AES Engine. Notice that the data input buffer (AES_DATA_IN_n) and data output buffer (AES_DATA_OUT_n) are mapped to the same address locations. Writes to these addresses.." line.long 0x6C "TIFS_AES38T_S_AES_DATA_IN_OUT_3," hexmask.long 0x6C 0.--31. 1. "DATA,The Data Input/Output Registers buffer the input/output data blocks to/from the AES Engine. Notice that the data input buffer (AES_DATA_IN_n) and data output buffer (AES_DATA_OUT_n) are mapped to the same address locations. Writes to these addresses.." line.long 0x70 "TIFS_AES38T_S_AES_TAG_OUT_0," hexmask.long 0x70 0.--31. 1. "HASH,Bits [31:0] of the AES TAG registers store the authentication value for the combined and authentication only modes. For a Host read operation these registers contain the last 128-bit TAG output of the AES Engine; the TAG is available until the next.." line.long 0x74 "TIFS_AES38T_S_AES_TAG_OUT_1," hexmask.long 0x74 0.--31. 1. "HASH,Bits [31:0] of the AES TAG registers store the authentication value for the combined and authentication only modes. For a Host read operation these registers contain the last 128-bit TAG output of the AES Engine; the TAG is available until the next.." line.long 0x78 "TIFS_AES38T_S_AES_TAG_OUT_2," hexmask.long 0x78 0.--31. 1. "HASH,Bits [31:0] of the AES TAG registers store the authentication value for the combined and authentication only modes. For a Host read operation these registers contain the last 128-bit TAG output of the AES Engine; the TAG is available until the next.." line.long 0x7C "TIFS_AES38T_S_AES_TAG_OUT_3," hexmask.long 0x7C 0.--31. 1. "HASH,Bits [31:0] of the AES TAG registers store the authentication value for the combined and authentication only modes. For a Host read operation these registers contain the last 128-bit TAG output of the AES Engine; the TAG is available until the next.." line.long 0x80 "TIFS_AES38T_S_AES_REV," hexmask.long 0x80 0.--31. 1. "REVISION,Revision number" line.long 0x84 "TIFS_AES38T_S_AES_SYSCONFIG," bitfld.long 0x84 12. "K3,If this bit is set to zero a regular cryptographic operation is performed. This bit may be set to one only if bit [4] of this register (direct_bus_en) and bit [11] of this register (key_enc) are cleared to zero. If this bit is one the K3 (see.." "0,1" bitfld.long 0x84 11. "KEYENC,If this bit is set to zero a regular cryptographic operation is performed. This bit may be set to one only if bit [4] of this register (direct_bus_en) is cleared to zero. If this bit is 1 the K1 key is used for the selected crypto operation. The.." "0: The selected encryption or decryption operation..,1: The CBC mode will be forced" newline bitfld.long 0x84 10. "KEKMODE,If this bit is zero the direct key is used directly for the selected cryptographic operation if it is selected by enabling bit [4] (direct_bus_en) of this register. If the direct key is not selected a regular operation is performed. This bit.." "0,1" bitfld.long 0x84 9. "MAP_CONTEXT_OUT_ON_DATA_OUT,If set to '1' the two context out requests (dma_req_context_out_en Bit [8] above and context_out interrupt enable Bit [3] of AES_IRQENABLE register) are mapped on the corresponding data output request bit. In this case the.." "0,1" newline bitfld.long 0x84 8. "DMA_REQ_CONTEXT_OUT_EN,DMA Request Context Out Enable If set to 1 the DMA context output request is enabled (for context data out for example TAG for authentication modes). Value Description 0 DMA disabled for context output request. 1.." "0,1" bitfld.long 0x84 7. "DMA_REQ_CONTEXT_IN_EN,DMA Request Context In Enable Value Description 0 DMA disabled for context input request. 1 DMA enabled for context input request." "0,1" newline bitfld.long 0x84 6. "DMA_REQ_DATA_OUT_EN,DMA Request Data Out Enable Value Description 0 DMA disabled for data output request. 1 DMA enabled for data output request." "0,1" bitfld.long 0x84 5. "DMA_REQ_DATA_IN_EN,DMA Request Data In Enable Value Description 0 DMA disabled for data input request. 1 DMA enabled for data input request." "0,1" newline bitfld.long 0x84 4. "DIRECTBUSEN,Direct Bus Enable Value Description 0 Use the key registers 1 Use the direct bus" "0,1" bitfld.long 0x84 2.--3. "SIDLE,Target Idle Mode Value Description 0x0 Force-idle mode 0x1 No-idle 0x2 Smart-idle 0x3 reserved" "0,1,2,3" newline bitfld.long 0x84 1. "SOFTRESET,Soft reset Value Description 0 No operation 1 Start soft reset sequence" "0,1" bitfld.long 0x84 0. "AUTOIDLE,If set to 1 the internal clocks are switched off when there is no processing to be done. This bit is only available on the sHIB." "0,1" line.long 0x88 "TIFS_AES38T_S_AES_SYSSTATUS," bitfld.long 0x88 0. "RESETDONE,Reset Done Value Description 0 Reset is not complete. 1 Reset is has completed." "0,1" line.long 0x8C "TIFS_AES38T_S_AES_IRQSTATUS," bitfld.long 0x8C 3. "CONTEXT_OUT,Context Output Interrupt Status Value Description 0 Authentication tag (and IV) interrupt(s) is/are not active. 1 Authentication tag (and IV) interrupt(s) is/are active and the interrupt output has been triggered." "0,1" bitfld.long 0x8C 2. "DATA_OUT,Data Out Interrupt Status Value Description 0 The data out interrupt is not active. 1 The data out interrupt is active and the interrupt output has been triggered." "0,1" newline bitfld.long 0x8C 1. "DATA_IN,Data In Interrupt Status Value Description 0 The data in interrupt is not active. 1 The data in interrupt is active and the interrupt output has been triggered." "0,1" bitfld.long 0x8C 0. "CONTEXT_IN,Context In Interrupt Status Value Description 0 The context in interrupt is not active. 1 The context in interrupt is active and the interrupt output has been triggered." "0,1" line.long 0x90 "TIFS_AES38T_S_AES_IRQENABLE," bitfld.long 0x90 3. "CONTEXT_OUT,Context Out Interrupt Enable Value Description 0 Authentication tag (and IV) interrupt(s) is/are disabled. 1 Authentication tag (and IV) interrupt(s) is/are enabled." "0,1" bitfld.long 0x90 2. "DATA_OUT,Data Out Interrupt Enable Value Description 0 The data out interrupt is disabled. 1 The data out interrupt is enabled." "0,1" newline bitfld.long 0x90 1. "DATA_IN,Data In Interrupt Enable Value Description 0 The data in interrupt is disabled. 1 The data in interrupt is enabled." "0,1" bitfld.long 0x90 0. "CONTEXT_IN,Context In Interrupt Enable Value Description 0 The context in interrupt is disabled. 1 The context in interrupt is enabled." "0,1" line.long 0x94 "TIFS_AES38T_S_AES_DIRTY_BITS," bitfld.long 0x94 3. "P_DIRTY,This bit is set to 1 by the module if any of the AES_P_* registers is written." "0,1" bitfld.long 0x94 2. "P_ACCESS,This bit is set to 1 by the module if any of the AES_P_* registers is read." "0,1" newline bitfld.long 0x94 1. "S_DIRTY,AES Dirty Bit This bit must be written to a 1 to clear. Value Description 0 No AES registers have been written. 1 Indicates when any of the AES_x registers have been written (except for the AES_DIRTYBITS register)." "0,1" bitfld.long 0x94 0. "S_ACCESS,AES Access Bit This bit must be written to a 1 to clear. Value Description 0 No AES registers have been read. 1 Indicates when any of the AES_x registers have been read (except for the AES_DIRTYBITS register)." "0,1" line.long 0x98 "TIFS_AES38T_S_AES_LOCKDOWN," bitfld.long 0x98 5. "LENGTH_LOCK,If set to 1 the pHIB length registers can not be written - this lock involves word address 0x54 up to 0x5C" "0,1" bitfld.long 0x98 4. "CONTROL_LOCK,If set to 1 the pHIB control register can not be written - this lock involves word address 0x50." "0,1" newline bitfld.long 0x98 3. "IV_LOCK,If set to 1 the pHIB IV registers cannot be written - this lock involves word addresses 0x40 up to 0x4C." "0,1" bitfld.long 0x98 2. "KEY3_LOCK,If set to 1 the pHIB key3 registers cannot be written - this lock involves word addresses 0x30 up to 0x3C." "0,1" newline bitfld.long 0x98 1. "KEY2_LOCK,If set to 1 the pHIB key2 registers cannot be written - this lock involves word addresses 0x20 up to 0x2C." "0,1" bitfld.long 0x98 0. "KEY_LOCK,If set to 1 the pHIB key registers cannot be written - this lock involves word addresses 0x00 up to 0x1C." "0,1" rgroup.long 0x9C++0x3 line.long 0x0 "TIFS_AES38T_Reserved_1," hexmask.long 0x0 0.--31. 1. "RESERVED_1," group.long 0xA4++0x3 line.long 0x0 "TIFS_AES38T_S_X_CONFIG,Extra config register to speed up AES core" bitfld.long 0x0 0. "SPEED_UP,If set to 1 it enables faster AES engine" "0,1" group.long 0x1000++0x93 line.long 0x0 "TIFS_AES38T_P_AES_KEY2_6," hexmask.long 0x0 0.--31. 1. "P_AES_KEY2_6," line.long 0x4 "TIFS_AES38T_P_AES_KEY2_7," hexmask.long 0x4 0.--31. 1. "P_AES_KEY2_7," line.long 0x8 "TIFS_AES38T_P_AES_KEY2_4," hexmask.long 0x8 0.--31. 1. "P_AES_KEY2_4," line.long 0xC "TIFS_AES38T_P_AES_KEY2_5," hexmask.long 0xC 0.--31. 1. "P_AES_KEY2_5," line.long 0x10 "TIFS_AES38T_P_AES_KEY2_2," hexmask.long 0x10 0.--31. 1. "P_AES_KEY2_2," line.long 0x14 "TIFS_AES38T_P_AES_KEY2_3," hexmask.long 0x14 0.--31. 1. "P_AES_KEY2_3," line.long 0x18 "TIFS_AES38T_P_AES_KEY2_0," hexmask.long 0x18 0.--31. 1. "P_AES_KEY2_0," line.long 0x1C "TIFS_AES38T_P_AES_KEY2_1," hexmask.long 0x1C 0.--31. 1. "P_AES_KEY2_1," line.long 0x20 "TIFS_AES38T_P_AES_KEY1_6," hexmask.long 0x20 0.--31. 1. "P_AES_KEY1_6," line.long 0x24 "TIFS_AES38T_P_AES_KEY1_7," hexmask.long 0x24 0.--31. 1. "P_AES_KEY1_7," line.long 0x28 "TIFS_AES38T_P_AES_KEY1_4," hexmask.long 0x28 0.--31. 1. "P_AES_KEY1_4," line.long 0x2C "TIFS_AES38T_P_AES_KEY1_5," hexmask.long 0x2C 0.--31. 1. "P_AES_KEY1_5," line.long 0x30 "TIFS_AES38T_P_AES_KEY1_2," hexmask.long 0x30 0.--31. 1. "P_AES_KEY1_2," line.long 0x34 "TIFS_AES38T_P_AES_KEY1_3," hexmask.long 0x34 0.--31. 1. "P_AES_KEY1_3," line.long 0x38 "TIFS_AES38T_P_AES_KEY1_0," hexmask.long 0x38 0.--31. 1. "P_AES_KEY1_0," line.long 0x3C "TIFS_AES38T_P_AES_KEY1_1," hexmask.long 0x3C 0.--31. 1. "P_AES_KEY1_1," line.long 0x40 "TIFS_AES38T_P_AES_IV_IN_0," hexmask.long 0x40 0.--31. 1. "P_AES_IV_IN_0," line.long 0x44 "TIFS_AES38T_P_AES_IV_IN_1," hexmask.long 0x44 0.--31. 1. "P_AES_IV_IN_1," line.long 0x48 "TIFS_AES38T_P_AES_IV_IN_2," hexmask.long 0x48 0.--31. 1. "P_AES_IV_IN_2," line.long 0x4C "TIFS_AES38T_P_AES_IV_IN_3," hexmask.long 0x4C 0.--31. 1. "P_AES_IV_IN_3," line.long 0x50 "TIFS_AES38T_P_AES_CTRL," hexmask.long 0x50 0.--31. 1. "P_AES_CTRL," line.long 0x54 "TIFS_AES38T_P_AES_C_LENGTH_0," hexmask.long 0x54 0.--31. 1. "P_AES_C_LENGTH_0," line.long 0x58 "TIFS_AES38T_P_AES_C_LENGTH_1," hexmask.long 0x58 0.--31. 1. "P_AES_C_LENGTH_1," line.long 0x5C "TIFS_AES38T_P_AES_AUTH_LENGTH," hexmask.long 0x5C 0.--31. 1. "P_AES_AUTH_LENGTH," line.long 0x60 "TIFS_AES38T_P_AES_DATA_IN_0," hexmask.long 0x60 0.--31. 1. "P_AES_DATA_IN_0," line.long 0x64 "TIFS_AES38T_P_AES_DATA_IN_1," hexmask.long 0x64 0.--31. 1. "P_AES_DATA_IN_1," line.long 0x68 "TIFS_AES38T_P_AES_DATA_IN_2," hexmask.long 0x68 0.--31. 1. "P_AES_DATA_IN_2," line.long 0x6C "TIFS_AES38T_P_AES_DATA_IN_3," hexmask.long 0x6C 0.--31. 1. "P_AES_DATA_IN_3," line.long 0x70 "TIFS_AES38T_P_AES_TAG_OUT_0," hexmask.long 0x70 0.--31. 1. "P_AES_TAG_OUT_0," line.long 0x74 "TIFS_AES38T_P_AES_TAG_OUT_1," hexmask.long 0x74 0.--31. 1. "P_AES_TAG_OUT_1," line.long 0x78 "TIFS_AES38T_P_AES_TAG_OUT_2," hexmask.long 0x78 0.--31. 1. "P_AES_TAG_OUT_2," line.long 0x7C "TIFS_AES38T_P_AES_TAG_OUT_3," hexmask.long 0x7C 0.--31. 1. "P_AES_TAG_OUT_3," line.long 0x80 "TIFS_AES38T_P_AES_REV," hexmask.long 0x80 0.--31. 1. "P_AES_REV," line.long 0x84 "TIFS_AES38T_P_AES_SYSCONFIG," hexmask.long 0x84 0.--31. 1. "P_AES_SYSCONFIG," line.long 0x88 "TIFS_AES38T_P_AES_SYSSTATUS," hexmask.long 0x88 0.--31. 1. "P_AES_SYSSTATUS," line.long 0x8C "TIFS_AES38T_P_AES_IRQSTATUS," hexmask.long 0x8C 0.--31. 1. "P_AES_IRQSTATUS," line.long 0x90 "TIFS_AES38T_P_AES_IRQENABLE," hexmask.long 0x90 0.--31. 1. "P_AES_IRQENABLE," rgroup.long 0x1094++0xB line.long 0x0 "TIFS_AES38T_Reserved_2," hexmask.long 0x0 0.--31. 1. "RESERVED_2," line.long 0x4 "TIFS_AES38T_Reserved_3," hexmask.long 0x4 0.--31. 1. "RESERVED_3," line.long 0x8 "TIFS_AES38T_Reserved_4," hexmask.long 0x8 0.--31. 1. "RESERVED_4," tree.end base ad:0x0 tree "SMS0_COMMON_0_TIFS" tree "SMS0_COMMON_0_TIFS_DMSS_HSM (SMS0_COMMON_0_TIFS_DMSS_HSM)" base ad:0x44800000 group.long 0x0++0x3 line.long 0x0 "TIFS_DMSS_HSM_RAM_REG,The RAM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end tree "SMS0_COMMON_0_TIFS_DMSS_HSM_ECC (SMS0_COMMON_0_TIFS_DMSS_HSM_ECC)" base ad:0x43702000 group.long 0x0++0x3 line.long 0x0 "TIFS_DMSS_HSM_ECC_REGS_RAM_REG,The RAM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end tree.end tree "SMS0_DMTIMER" tree "SMS0_DMTIMER_0_DMTIMER0 (SMS0_DMTIMER_0_DMTIMER0)" base ad:0x44133000 rgroup.long 0x0++0x3 line.long 0x0 "TIFS_DMTIMER0_TIDR," bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x10++0x3 line.long 0x0 "TIFS_DMTIMER0_TIOCP_CFG,This register controls the various parameters of the OCP interface" bitfld.long 0x0 2.--3. "IDLEMODE,Idle Mode" "0,1,2,3" bitfld.long 0x0 1. "EMUFREE,Emulation Mode" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset" "0,1" group.long 0x20++0x27 line.long 0x0 "TIFS_DMTIMER0_IRQ_EOI,Allows the generation of further pulses on the interrupt line. if an new interrupt event is pending. when using the pulsed output. Unused when using the level interrupt line" bitfld.long 0x0 0. "LINE_NUMBER,Idle Mode" "0,1" line.long 0x4 "TIFS_DMTIMER0_IRQSTATUS_RAW,Component interrupt request status." bitfld.long 0x4 2. "MAT_IT_FLAG,Match Interrupt" "0,1" bitfld.long 0x4 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x4 0. "TCAR_IT_FLAG,Capture Interrupt" "0,1" line.long 0x8 "TIFS_DMTIMER0_IRQSTATUS,Component interrupt request status." bitfld.long 0x8 2. "MAT_IT_FLAG,Match Interrupt" "0,1" bitfld.long 0x8 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x8 0. "TCAR_IT_FLAG,Capture Interrupt" "0,1" line.long 0xC "TIFS_DMTIMER0_IRQSTATUS_SET,Component interrupt request enable" bitfld.long 0xC 2. "MAT_IT_FLAG,Match Interrupt" "0,1" bitfld.long 0xC 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0xC 0. "TCAR_IT_FLAG,Capture Interrupt" "0,1" line.long 0x10 "TIFS_DMTIMER0_IRQSTATUS_CLR,Component interrupt request enable." bitfld.long 0x10 2. "MAT_IT_FLAG,Match Interrupt" "0,1" bitfld.long 0x10 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x10 0. "TCAR_IT_FLAG,Capture Interrupt" "0,1" line.long 0x14 "TIFS_DMTIMER0_IRQWAKEEN,Wakeup-enabled events taking place when module is idle shall generate an asynchronous wakeup" bitfld.long 0x14 2. "MAT_WUP_ENA,Match Wakeup Enable" "0,1" bitfld.long 0x14 1. "OVF_WUP_ENA,Overflow Wakeup Enable" "0,1" bitfld.long 0x14 0. "TCAR_WUP_ENA,Capture Wakeup Enable" "0,1" line.long 0x18 "TIFS_DMTIMER0_TCLR,This register controls optional features specific to the timer functionality" bitfld.long 0x18 14. "GPO_CFG,This field drives directly the PO_GPOCFG pin" "0,1" bitfld.long 0x18 13. "CAPT_MODE,Capture mode select bit; First/second" "0,1" bitfld.long 0x18 12. "PT,Pulse or Toggle select bit" "0,1" bitfld.long 0x18 10.--11. "TRG,Trigger Output Mode" "0,1,2,3" newline bitfld.long 0x18 8.--9. "TCM,Transition Capture Mode" "0,1,2,3" bitfld.long 0x18 7. "SCPWM,Pulse Width Modulation output pin default value" "0,1" bitfld.long 0x18 6. "CE,Compare Enable" "0,1" bitfld.long 0x18 5. "PRE,Prescaler Enable" "0,1" newline bitfld.long 0x18 2.--4. "PTV,Trigger Output Mode. The timer counter is prescaled with the value: 2^PTV" "0,1,2,3,4,5,6,7" bitfld.long 0x18 1. "AR,Auto-reload mode" "0,1" bitfld.long 0x18 0. "ST,Start/Stop timer control" "0,1" line.long 0x1C "TIFS_DMTIMER0_TCRR,This register holds the value of the internal counter" hexmask.long 0x1C 0.--31. 1. "TIMER_COUNTER,Timer Counter" line.long 0x20 "TIFS_DMTIMER0_TLDR,This register holds the timer's load value" hexmask.long 0x20 0.--31. 1. "LOAD_VALUE,Timer Counter" line.long 0x24 "TIFS_DMTIMER0_TTGR,This register triggers a counter reload of timer by writing any value in it" hexmask.long 0x24 0.--31. 1. "TTRG_VLAUE,The value of the trigger register. During reads it always return 0xFFFF_FFFF" rgroup.long 0x48++0x3 line.long 0x0 "TIFS_DMTIMER0_TWPS,This register contains the write posting bits for all writ-able functional registers" bitfld.long 0x0 9. "W_PEND_TOWR,Write pending for register TOWR" "0,1" bitfld.long 0x0 8. "W_PEND_TOCR,Write pending for register TOCR" "0,1" bitfld.long 0x0 7. "W_PEND_TCVR,Write pending for register TCVR" "0,1" bitfld.long 0x0 6. "W_PEND_TNIR,Write pending for register TNIR" "0,1" newline bitfld.long 0x0 5. "W_PEND_TPIR,Write pending for register TPIR" "0,1" bitfld.long 0x0 4. "W_PEND_TMAR,Write pending for register TMAR" "0,1" bitfld.long 0x0 3. "W_PEND_TTGR,Write pending for register TTGR" "0,1" bitfld.long 0x0 2. "W_PEND_TLDR,Write pending for register TLDR" "0,1" newline bitfld.long 0x0 1. "W_PEND_TCRR,Write pending for register TCRR" "0,1" bitfld.long 0x0 0. "W_PEND_TCLR,Write pending for register TCLR" "0,1" group.long 0x4C++0x3 line.long 0x0 "TIFS_DMTIMER0_TMAR,This register holds the match value to be compared with the counter's value" hexmask.long 0x0 0.--31. 1. "COMPARE_VLAUE,The value of the match register" rgroup.long 0x50++0x3 line.long 0x0 "TIFS_DMTIMER0_TCAR1,This register holds the value of the first counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE1,The value of first captured counter register" group.long 0x54++0x3 line.long 0x0 "TIFS_DMTIMER0_TSICR,Timer Synchronous Interface Control Register" bitfld.long 0x0 4. "READ_AFTER_IDLE,Select if the synchronization mechanism used for first TCRR read operation after IDLE state is active" "0,1" bitfld.long 0x0 3. "READ_MODE,Select posted/non-posted mode for read operation. This bit is not used when configured in posted mode" "0,1" bitfld.long 0x0 2. "POSTED,Reset value of POSTED depends on hardware integration module at design time. Software must read POSTED field to get the hardwar module configuration" "0,1" bitfld.long 0x0 1. "SFT,This bit reset all the functional part of teh module" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "TIFS_DMTIMER0_TCAR2,This register holds the value of the second counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE2,The value of second captured counter register" group.long 0x5C++0x13 line.long 0x0 "TIFS_DMTIMER0_TPIR,This register is used for 1ms tick generation." hexmask.long 0x0 0.--31. 1. "POSITIVE_INC_VALUE,The value of the positive increment" line.long 0x4 "TIFS_DMTIMER0_TNIR,This register is used for 1ms tick generation." hexmask.long 0x4 0.--31. 1. "NEGATIVE_INC_VALUE,The value of the negative increment" line.long 0x8 "TIFS_DMTIMER0_TCVR,This register is used for 1ms tick generation." hexmask.long 0x8 0.--31. 1. "COUNTER_VALUE,The value of CVR counter" line.long 0xC "TIFS_DMTIMER0_TOCR,This register is used to mask the tick interrupt for a selected number of ticks" hexmask.long.tbyte 0xC 0.--23. 1. "OVF_COUNTER_VALUE,The number of overflow events" line.long 0x10 "TIFS_DMTIMER0_TOWR,This register holds the number of masked overflow interrupts" hexmask.long.tbyte 0x10 0.--23. 1. "OVF_WRAPPING_VALUE,The number of masked interrupts" tree.end tree "SMS0_DMTIMER_1_DMTIMER1 (SMS0_DMTIMER_1_DMTIMER1)" base ad:0x44134000 rgroup.long 0x0++0x3 line.long 0x0 "TIFS_DMTIMER1_TIDR," bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x10++0x3 line.long 0x0 "TIFS_DMTIMER1_TIOCP_CFG,This register controls the various parameters of the OCP interface" bitfld.long 0x0 2.--3. "IDLEMODE,Idle Mode" "0,1,2,3" bitfld.long 0x0 1. "EMUFREE,Emulation Mode" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset" "0,1" group.long 0x20++0x27 line.long 0x0 "TIFS_DMTIMER1_IRQ_EOI,Allows the generation of further pulses on the interrupt line. if an new interrupt event is pending. when using the pulsed output. Unused when using the level interrupt line" bitfld.long 0x0 0. "LINE_NUMBER,Idle Mode" "0,1" line.long 0x4 "TIFS_DMTIMER1_IRQSTATUS_RAW,Component interrupt request status." bitfld.long 0x4 2. "MAT_IT_FLAG,Match Interrupt" "0,1" bitfld.long 0x4 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x4 0. "TCAR_IT_FLAG,Capture Interrupt" "0,1" line.long 0x8 "TIFS_DMTIMER1_IRQSTATUS,Component interrupt request status." bitfld.long 0x8 2. "MAT_IT_FLAG,Match Interrupt" "0,1" bitfld.long 0x8 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x8 0. "TCAR_IT_FLAG,Capture Interrupt" "0,1" line.long 0xC "TIFS_DMTIMER1_IRQSTATUS_SET,Component interrupt request enable" bitfld.long 0xC 2. "MAT_IT_FLAG,Match Interrupt" "0,1" bitfld.long 0xC 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0xC 0. "TCAR_IT_FLAG,Capture Interrupt" "0,1" line.long 0x10 "TIFS_DMTIMER1_IRQSTATUS_CLR,Component interrupt request enable." bitfld.long 0x10 2. "MAT_IT_FLAG,Match Interrupt" "0,1" bitfld.long 0x10 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x10 0. "TCAR_IT_FLAG,Capture Interrupt" "0,1" line.long 0x14 "TIFS_DMTIMER1_IRQWAKEEN,Wakeup-enabled events taking place when module is idle shall generate an asynchronous wakeup" bitfld.long 0x14 2. "MAT_WUP_ENA,Match Wakeup Enable" "0,1" bitfld.long 0x14 1. "OVF_WUP_ENA,Overflow Wakeup Enable" "0,1" bitfld.long 0x14 0. "TCAR_WUP_ENA,Capture Wakeup Enable" "0,1" line.long 0x18 "TIFS_DMTIMER1_TCLR,This register controls optional features specific to the timer functionality" bitfld.long 0x18 14. "GPO_CFG,This field drives directly the PO_GPOCFG pin" "0,1" bitfld.long 0x18 13. "CAPT_MODE,Capture mode select bit; First/second" "0,1" bitfld.long 0x18 12. "PT,Pulse or Toggle select bit" "0,1" bitfld.long 0x18 10.--11. "TRG,Trigger Output Mode" "0,1,2,3" newline bitfld.long 0x18 8.--9. "TCM,Transition Capture Mode" "0,1,2,3" bitfld.long 0x18 7. "SCPWM,Pulse Width Modulation output pin default value" "0,1" bitfld.long 0x18 6. "CE,Compare Enable" "0,1" bitfld.long 0x18 5. "PRE,Prescaler Enable" "0,1" newline bitfld.long 0x18 2.--4. "PTV,Trigger Output Mode. The timer counter is prescaled with the value: 2^PTV" "0,1,2,3,4,5,6,7" bitfld.long 0x18 1. "AR,Auto-reload mode" "0,1" bitfld.long 0x18 0. "ST,Start/Stop timer control" "0,1" line.long 0x1C "TIFS_DMTIMER1_TCRR,This register holds the value of the internal counter" hexmask.long 0x1C 0.--31. 1. "TIMER_COUNTER,Timer Counter" line.long 0x20 "TIFS_DMTIMER1_TLDR,This register holds the timer's load value" hexmask.long 0x20 0.--31. 1. "LOAD_VALUE,Timer Counter" line.long 0x24 "TIFS_DMTIMER1_TTGR,This register triggers a counter reload of timer by writing any value in it" hexmask.long 0x24 0.--31. 1. "TTRG_VLAUE,The value of the trigger register. During reads it always return 0xFFFF_FFFF" rgroup.long 0x48++0x3 line.long 0x0 "TIFS_DMTIMER1_TWPS,This register contains the write posting bits for all writ-able functional registers" bitfld.long 0x0 9. "W_PEND_TOWR,Write pending for register TOWR" "0,1" bitfld.long 0x0 8. "W_PEND_TOCR,Write pending for register TOCR" "0,1" bitfld.long 0x0 7. "W_PEND_TCVR,Write pending for register TCVR" "0,1" bitfld.long 0x0 6. "W_PEND_TNIR,Write pending for register TNIR" "0,1" newline bitfld.long 0x0 5. "W_PEND_TPIR,Write pending for register TPIR" "0,1" bitfld.long 0x0 4. "W_PEND_TMAR,Write pending for register TMAR" "0,1" bitfld.long 0x0 3. "W_PEND_TTGR,Write pending for register TTGR" "0,1" bitfld.long 0x0 2. "W_PEND_TLDR,Write pending for register TLDR" "0,1" newline bitfld.long 0x0 1. "W_PEND_TCRR,Write pending for register TCRR" "0,1" bitfld.long 0x0 0. "W_PEND_TCLR,Write pending for register TCLR" "0,1" group.long 0x4C++0x3 line.long 0x0 "TIFS_DMTIMER1_TMAR,This register holds the match value to be compared with the counter's value" hexmask.long 0x0 0.--31. 1. "COMPARE_VLAUE,The value of the match register" rgroup.long 0x50++0x3 line.long 0x0 "TIFS_DMTIMER1_TCAR1,This register holds the value of the first counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE1,The value of first captured counter register" group.long 0x54++0x3 line.long 0x0 "TIFS_DMTIMER1_TSICR,Timer Synchronous Interface Control Register" bitfld.long 0x0 4. "READ_AFTER_IDLE,Select if the synchronization mechanism used for first TCRR read operation after IDLE state is active" "0,1" bitfld.long 0x0 3. "READ_MODE,Select posted/non-posted mode for read operation. This bit is not used when configured in posted mode" "0,1" bitfld.long 0x0 2. "POSTED,Reset value of POSTED depends on hardware integration module at design time. Software must read POSTED field to get the hardwar module configuration" "0,1" bitfld.long 0x0 1. "SFT,This bit reset all the functional part of teh module" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "TIFS_DMTIMER1_TCAR2,This register holds the value of the second counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE2,The value of second captured counter register" group.long 0x5C++0x13 line.long 0x0 "TIFS_DMTIMER1_TPIR,This register is used for 1ms tick generation." hexmask.long 0x0 0.--31. 1. "POSITIVE_INC_VALUE,The value of the positive increment" line.long 0x4 "TIFS_DMTIMER1_TNIR,This register is used for 1ms tick generation." hexmask.long 0x4 0.--31. 1. "NEGATIVE_INC_VALUE,The value of the negative increment" line.long 0x8 "TIFS_DMTIMER1_TCVR,This register is used for 1ms tick generation." hexmask.long 0x8 0.--31. 1. "COUNTER_VALUE,The value of CVR counter" line.long 0xC "TIFS_DMTIMER1_TOCR,This register is used to mask the tick interrupt for a selected number of ticks" hexmask.long.tbyte 0xC 0.--23. 1. "OVF_COUNTER_VALUE,The number of overflow events" line.long 0x10 "TIFS_DMTIMER1_TOWR,This register holds the number of masked overflow interrupts" hexmask.long.tbyte 0x10 0.--23. 1. "OVF_WRAPPING_VALUE,The number of masked interrupts" tree.end tree "SMS0_DMTIMER_2_DMTIMER2 (SMS0_DMTIMER_2_DMTIMER2)" base ad:0x44238000 rgroup.long 0x0++0x3 line.long 0x0 "TIFS_DMTIMER2_TIDR," bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x10++0x3 line.long 0x0 "TIFS_DMTIMER2_TIOCP_CFG,This register controls the various parameters of the OCP interface" bitfld.long 0x0 2.--3. "IDLEMODE,Idle Mode" "0,1,2,3" bitfld.long 0x0 1. "EMUFREE,Emulation Mode" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset" "0,1" group.long 0x20++0x27 line.long 0x0 "TIFS_DMTIMER2_IRQ_EOI,Allows the generation of further pulses on the interrupt line. if an new interrupt event is pending. when using the pulsed output. Unused when using the level interrupt line" bitfld.long 0x0 0. "LINE_NUMBER,Idle Mode" "0,1" line.long 0x4 "TIFS_DMTIMER2_IRQSTATUS_RAW,Component interrupt request status." bitfld.long 0x4 2. "MAT_IT_FLAG,Match Interrupt" "0,1" bitfld.long 0x4 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x4 0. "TCAR_IT_FLAG,Capture Interrupt" "0,1" line.long 0x8 "TIFS_DMTIMER2_IRQSTATUS,Component interrupt request status." bitfld.long 0x8 2. "MAT_IT_FLAG,Match Interrupt" "0,1" bitfld.long 0x8 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x8 0. "TCAR_IT_FLAG,Capture Interrupt" "0,1" line.long 0xC "TIFS_DMTIMER2_IRQSTATUS_SET,Component interrupt request enable" bitfld.long 0xC 2. "MAT_IT_FLAG,Match Interrupt" "0,1" bitfld.long 0xC 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0xC 0. "TCAR_IT_FLAG,Capture Interrupt" "0,1" line.long 0x10 "TIFS_DMTIMER2_IRQSTATUS_CLR,Component interrupt request enable." bitfld.long 0x10 2. "MAT_IT_FLAG,Match Interrupt" "0,1" bitfld.long 0x10 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x10 0. "TCAR_IT_FLAG,Capture Interrupt" "0,1" line.long 0x14 "TIFS_DMTIMER2_IRQWAKEEN,Wakeup-enabled events taking place when module is idle shall generate an asynchronous wakeup" bitfld.long 0x14 2. "MAT_WUP_ENA,Match Wakeup Enable" "0,1" bitfld.long 0x14 1. "OVF_WUP_ENA,Overflow Wakeup Enable" "0,1" bitfld.long 0x14 0. "TCAR_WUP_ENA,Capture Wakeup Enable" "0,1" line.long 0x18 "TIFS_DMTIMER2_TCLR,This register controls optional features specific to the timer functionality" bitfld.long 0x18 14. "GPO_CFG,This field drives directly the PO_GPOCFG pin" "0,1" bitfld.long 0x18 13. "CAPT_MODE,Capture mode select bit; First/second" "0,1" bitfld.long 0x18 12. "PT,Pulse or Toggle select bit" "0,1" bitfld.long 0x18 10.--11. "TRG,Trigger Output Mode" "0,1,2,3" newline bitfld.long 0x18 8.--9. "TCM,Transition Capture Mode" "0,1,2,3" bitfld.long 0x18 7. "SCPWM,Pulse Width Modulation output pin default value" "0,1" bitfld.long 0x18 6. "CE,Compare Enable" "0,1" bitfld.long 0x18 5. "PRE,Prescaler Enable" "0,1" newline bitfld.long 0x18 2.--4. "PTV,Trigger Output Mode. The timer counter is prescaled with the value: 2^PTV" "0,1,2,3,4,5,6,7" bitfld.long 0x18 1. "AR,Auto-reload mode" "0,1" bitfld.long 0x18 0. "ST,Start/Stop timer control" "0,1" line.long 0x1C "TIFS_DMTIMER2_TCRR,This register holds the value of the internal counter" hexmask.long 0x1C 0.--31. 1. "TIMER_COUNTER,Timer Counter" line.long 0x20 "TIFS_DMTIMER2_TLDR,This register holds the timer's load value" hexmask.long 0x20 0.--31. 1. "LOAD_VALUE,Timer Counter" line.long 0x24 "TIFS_DMTIMER2_TTGR,This register triggers a counter reload of timer by writing any value in it" hexmask.long 0x24 0.--31. 1. "TTRG_VLAUE,The value of the trigger register. During reads it always return 0xFFFF_FFFF" rgroup.long 0x48++0x3 line.long 0x0 "TIFS_DMTIMER2_TWPS,This register contains the write posting bits for all writ-able functional registers" bitfld.long 0x0 9. "W_PEND_TOWR,Write pending for register TOWR" "0,1" bitfld.long 0x0 8. "W_PEND_TOCR,Write pending for register TOCR" "0,1" bitfld.long 0x0 7. "W_PEND_TCVR,Write pending for register TCVR" "0,1" bitfld.long 0x0 6. "W_PEND_TNIR,Write pending for register TNIR" "0,1" newline bitfld.long 0x0 5. "W_PEND_TPIR,Write pending for register TPIR" "0,1" bitfld.long 0x0 4. "W_PEND_TMAR,Write pending for register TMAR" "0,1" bitfld.long 0x0 3. "W_PEND_TTGR,Write pending for register TTGR" "0,1" bitfld.long 0x0 2. "W_PEND_TLDR,Write pending for register TLDR" "0,1" newline bitfld.long 0x0 1. "W_PEND_TCRR,Write pending for register TCRR" "0,1" bitfld.long 0x0 0. "W_PEND_TCLR,Write pending for register TCLR" "0,1" group.long 0x4C++0x3 line.long 0x0 "TIFS_DMTIMER2_TMAR,This register holds the match value to be compared with the counter's value" hexmask.long 0x0 0.--31. 1. "COMPARE_VLAUE,The value of the match register" rgroup.long 0x50++0x3 line.long 0x0 "TIFS_DMTIMER2_TCAR1,This register holds the value of the first counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE1,The value of first captured counter register" group.long 0x54++0x3 line.long 0x0 "TIFS_DMTIMER2_TSICR,Timer Synchronous Interface Control Register" bitfld.long 0x0 4. "READ_AFTER_IDLE,Select if the synchronization mechanism used for first TCRR read operation after IDLE state is active" "0,1" bitfld.long 0x0 3. "READ_MODE,Select posted/non-posted mode for read operation. This bit is not used when configured in posted mode" "0,1" bitfld.long 0x0 2. "POSTED,Reset value of POSTED depends on hardware integration module at design time. Software must read POSTED field to get the hardwar module configuration" "0,1" bitfld.long 0x0 1. "SFT,This bit reset all the functional part of teh module" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "TIFS_DMTIMER2_TCAR2,This register holds the value of the second counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE2,The value of second captured counter register" group.long 0x5C++0x13 line.long 0x0 "TIFS_DMTIMER2_TPIR,This register is used for 1ms tick generation." hexmask.long 0x0 0.--31. 1. "POSITIVE_INC_VALUE,The value of the positive increment" line.long 0x4 "TIFS_DMTIMER2_TNIR,This register is used for 1ms tick generation." hexmask.long 0x4 0.--31. 1. "NEGATIVE_INC_VALUE,The value of the negative increment" line.long 0x8 "TIFS_DMTIMER2_TCVR,This register is used for 1ms tick generation." hexmask.long 0x8 0.--31. 1. "COUNTER_VALUE,The value of CVR counter" line.long 0xC "TIFS_DMTIMER2_TOCR,This register is used to mask the tick interrupt for a selected number of ticks" hexmask.long.tbyte 0xC 0.--23. 1. "OVF_COUNTER_VALUE,The number of overflow events" line.long 0x10 "TIFS_DMTIMER2_TOWR,This register holds the number of masked overflow interrupts" hexmask.long.tbyte 0x10 0.--23. 1. "OVF_WRAPPING_VALUE,The number of masked interrupts" tree.end tree "SMS0_DMTIMER_3_DMTIMER3 (SMS0_DMTIMER_3_DMTIMER3)" base ad:0x44239000 rgroup.long 0x0++0x3 line.long 0x0 "TIFS_DMTIMER3_TIDR," bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x10++0x3 line.long 0x0 "TIFS_DMTIMER3_TIOCP_CFG,This register controls the various parameters of the OCP interface" bitfld.long 0x0 2.--3. "IDLEMODE,Idle Mode" "0,1,2,3" bitfld.long 0x0 1. "EMUFREE,Emulation Mode" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset" "0,1" group.long 0x20++0x27 line.long 0x0 "TIFS_DMTIMER3_IRQ_EOI,Allows the generation of further pulses on the interrupt line. if an new interrupt event is pending. when using the pulsed output. Unused when using the level interrupt line" bitfld.long 0x0 0. "LINE_NUMBER,Idle Mode" "0,1" line.long 0x4 "TIFS_DMTIMER3_IRQSTATUS_RAW,Component interrupt request status." bitfld.long 0x4 2. "MAT_IT_FLAG,Match Interrupt" "0,1" bitfld.long 0x4 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x4 0. "TCAR_IT_FLAG,Capture Interrupt" "0,1" line.long 0x8 "TIFS_DMTIMER3_IRQSTATUS,Component interrupt request status." bitfld.long 0x8 2. "MAT_IT_FLAG,Match Interrupt" "0,1" bitfld.long 0x8 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x8 0. "TCAR_IT_FLAG,Capture Interrupt" "0,1" line.long 0xC "TIFS_DMTIMER3_IRQSTATUS_SET,Component interrupt request enable" bitfld.long 0xC 2. "MAT_IT_FLAG,Match Interrupt" "0,1" bitfld.long 0xC 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0xC 0. "TCAR_IT_FLAG,Capture Interrupt" "0,1" line.long 0x10 "TIFS_DMTIMER3_IRQSTATUS_CLR,Component interrupt request enable." bitfld.long 0x10 2. "MAT_IT_FLAG,Match Interrupt" "0,1" bitfld.long 0x10 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x10 0. "TCAR_IT_FLAG,Capture Interrupt" "0,1" line.long 0x14 "TIFS_DMTIMER3_IRQWAKEEN,Wakeup-enabled events taking place when module is idle shall generate an asynchronous wakeup" bitfld.long 0x14 2. "MAT_WUP_ENA,Match Wakeup Enable" "0,1" bitfld.long 0x14 1. "OVF_WUP_ENA,Overflow Wakeup Enable" "0,1" bitfld.long 0x14 0. "TCAR_WUP_ENA,Capture Wakeup Enable" "0,1" line.long 0x18 "TIFS_DMTIMER3_TCLR,This register controls optional features specific to the timer functionality" bitfld.long 0x18 14. "GPO_CFG,This field drives directly the PO_GPOCFG pin" "0,1" bitfld.long 0x18 13. "CAPT_MODE,Capture mode select bit; First/second" "0,1" bitfld.long 0x18 12. "PT,Pulse or Toggle select bit" "0,1" bitfld.long 0x18 10.--11. "TRG,Trigger Output Mode" "0,1,2,3" newline bitfld.long 0x18 8.--9. "TCM,Transition Capture Mode" "0,1,2,3" bitfld.long 0x18 7. "SCPWM,Pulse Width Modulation output pin default value" "0,1" bitfld.long 0x18 6. "CE,Compare Enable" "0,1" bitfld.long 0x18 5. "PRE,Prescaler Enable" "0,1" newline bitfld.long 0x18 2.--4. "PTV,Trigger Output Mode. The timer counter is prescaled with the value: 2^PTV" "0,1,2,3,4,5,6,7" bitfld.long 0x18 1. "AR,Auto-reload mode" "0,1" bitfld.long 0x18 0. "ST,Start/Stop timer control" "0,1" line.long 0x1C "TIFS_DMTIMER3_TCRR,This register holds the value of the internal counter" hexmask.long 0x1C 0.--31. 1. "TIMER_COUNTER,Timer Counter" line.long 0x20 "TIFS_DMTIMER3_TLDR,This register holds the timer's load value" hexmask.long 0x20 0.--31. 1. "LOAD_VALUE,Timer Counter" line.long 0x24 "TIFS_DMTIMER3_TTGR,This register triggers a counter reload of timer by writing any value in it" hexmask.long 0x24 0.--31. 1. "TTRG_VLAUE,The value of the trigger register. During reads it always return 0xFFFF_FFFF" rgroup.long 0x48++0x3 line.long 0x0 "TIFS_DMTIMER3_TWPS,This register contains the write posting bits for all writ-able functional registers" bitfld.long 0x0 9. "W_PEND_TOWR,Write pending for register TOWR" "0,1" bitfld.long 0x0 8. "W_PEND_TOCR,Write pending for register TOCR" "0,1" bitfld.long 0x0 7. "W_PEND_TCVR,Write pending for register TCVR" "0,1" bitfld.long 0x0 6. "W_PEND_TNIR,Write pending for register TNIR" "0,1" newline bitfld.long 0x0 5. "W_PEND_TPIR,Write pending for register TPIR" "0,1" bitfld.long 0x0 4. "W_PEND_TMAR,Write pending for register TMAR" "0,1" bitfld.long 0x0 3. "W_PEND_TTGR,Write pending for register TTGR" "0,1" bitfld.long 0x0 2. "W_PEND_TLDR,Write pending for register TLDR" "0,1" newline bitfld.long 0x0 1. "W_PEND_TCRR,Write pending for register TCRR" "0,1" bitfld.long 0x0 0. "W_PEND_TCLR,Write pending for register TCLR" "0,1" group.long 0x4C++0x3 line.long 0x0 "TIFS_DMTIMER3_TMAR,This register holds the match value to be compared with the counter's value" hexmask.long 0x0 0.--31. 1. "COMPARE_VLAUE,The value of the match register" rgroup.long 0x50++0x3 line.long 0x0 "TIFS_DMTIMER3_TCAR1,This register holds the value of the first counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE1,The value of first captured counter register" group.long 0x54++0x3 line.long 0x0 "TIFS_DMTIMER3_TSICR,Timer Synchronous Interface Control Register" bitfld.long 0x0 4. "READ_AFTER_IDLE,Select if the synchronization mechanism used for first TCRR read operation after IDLE state is active" "0,1" bitfld.long 0x0 3. "READ_MODE,Select posted/non-posted mode for read operation. This bit is not used when configured in posted mode" "0,1" bitfld.long 0x0 2. "POSTED,Reset value of POSTED depends on hardware integration module at design time. Software must read POSTED field to get the hardwar module configuration" "0,1" bitfld.long 0x0 1. "SFT,This bit reset all the functional part of teh module" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "TIFS_DMTIMER3_TCAR2,This register holds the value of the second counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE2,The value of second captured counter register" group.long 0x5C++0x13 line.long 0x0 "TIFS_DMTIMER3_TPIR,This register is used for 1ms tick generation." hexmask.long 0x0 0.--31. 1. "POSITIVE_INC_VALUE,The value of the positive increment" line.long 0x4 "TIFS_DMTIMER3_TNIR,This register is used for 1ms tick generation." hexmask.long 0x4 0.--31. 1. "NEGATIVE_INC_VALUE,The value of the negative increment" line.long 0x8 "TIFS_DMTIMER3_TCVR,This register is used for 1ms tick generation." hexmask.long 0x8 0.--31. 1. "COUNTER_VALUE,The value of CVR counter" line.long 0xC "TIFS_DMTIMER3_TOCR,This register is used to mask the tick interrupt for a selected number of ticks" hexmask.long.tbyte 0xC 0.--23. 1. "OVF_COUNTER_VALUE,The number of overflow events" line.long 0x10 "TIFS_DMTIMER3_TOWR,This register holds the number of masked overflow interrupts" hexmask.long.tbyte 0x10 0.--23. 1. "OVF_WRAPPING_VALUE,The number of masked interrupts" tree.end tree.end tree "SMS0_HSM" tree "SMS0_HSM_CBASS_0" tree "SMS0_HSM_CBASS_0_HSM_CBASS_FW (SMS0_HSM_CBASS_0_HSM_CBASS_FW)" base ad:0x450A0000 group.long 0x400++0x1FF line.long 0x0 "HSM_CBASS_FW_REGS_sram0_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Isram0.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "HSM_CBASS_FW_REGS_sram0_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Isram0.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "HSM_CBASS_FW_REGS_sram0_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Isram0.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "HSM_CBASS_FW_REGS_sram0_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Isram0.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "HSM_CBASS_FW_REGS_sram0_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "HSM_CBASS_FW_REGS_sram0_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "HSM_CBASS_FW_REGS_sram0_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "HSM_CBASS_FW_REGS_sram0_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "HSM_CBASS_FW_REGS_sram0_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Isram0.slv region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "HSM_CBASS_FW_REGS_sram0_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Isram0.slv region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "HSM_CBASS_FW_REGS_sram0_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Isram0.slv region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "HSM_CBASS_FW_REGS_sram0_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Isram0.slv region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "HSM_CBASS_FW_REGS_sram0_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "HSM_CBASS_FW_REGS_sram0_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "HSM_CBASS_FW_REGS_sram0_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "HSM_CBASS_FW_REGS_sram0_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "HSM_CBASS_FW_REGS_sram0_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target Isram0.slv region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "HSM_CBASS_FW_REGS_sram0_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target Isram0.slv region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "HSM_CBASS_FW_REGS_sram0_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target Isram0.slv region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "HSM_CBASS_FW_REGS_sram0_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target Isram0.slv region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "HSM_CBASS_FW_REGS_sram0_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "HSM_CBASS_FW_REGS_sram0_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "HSM_CBASS_FW_REGS_sram0_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "HSM_CBASS_FW_REGS_sram0_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "HSM_CBASS_FW_REGS_sram0_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target Isram0.slv region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "HSM_CBASS_FW_REGS_sram0_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target Isram0.slv region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "HSM_CBASS_FW_REGS_sram0_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target Isram0.slv region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "HSM_CBASS_FW_REGS_sram0_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target Isram0.slv region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "HSM_CBASS_FW_REGS_sram0_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "HSM_CBASS_FW_REGS_sram0_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "HSM_CBASS_FW_REGS_sram0_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "HSM_CBASS_FW_REGS_sram0_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "HSM_CBASS_FW_REGS_sram0_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target Isram0.slv region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "HSM_CBASS_FW_REGS_sram0_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target Isram0.slv region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "HSM_CBASS_FW_REGS_sram0_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target Isram0.slv region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "HSM_CBASS_FW_REGS_sram0_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target Isram0.slv region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "HSM_CBASS_FW_REGS_sram0_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 4 firewall." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "HSM_CBASS_FW_REGS_sram0_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 4 firewall." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "HSM_CBASS_FW_REGS_sram0_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 4 firewall." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "HSM_CBASS_FW_REGS_sram0_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 4 firewall." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "HSM_CBASS_FW_REGS_sram0_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target Isram0.slv region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "HSM_CBASS_FW_REGS_sram0_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target Isram0.slv region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "HSM_CBASS_FW_REGS_sram0_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target Isram0.slv region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "HSM_CBASS_FW_REGS_sram0_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target Isram0.slv region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "HSM_CBASS_FW_REGS_sram0_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 5 firewall." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "HSM_CBASS_FW_REGS_sram0_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 5 firewall." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "HSM_CBASS_FW_REGS_sram0_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 5 firewall." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "HSM_CBASS_FW_REGS_sram0_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 5 firewall." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "HSM_CBASS_FW_REGS_sram0_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target Isram0.slv region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "HSM_CBASS_FW_REGS_sram0_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target Isram0.slv region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "HSM_CBASS_FW_REGS_sram0_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target Isram0.slv region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "HSM_CBASS_FW_REGS_sram0_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target Isram0.slv region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "HSM_CBASS_FW_REGS_sram0_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 6 firewall." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "HSM_CBASS_FW_REGS_sram0_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 6 firewall." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "HSM_CBASS_FW_REGS_sram0_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 6 firewall." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "HSM_CBASS_FW_REGS_sram0_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 6 firewall." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "HSM_CBASS_FW_REGS_sram0_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target Isram0.slv region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "HSM_CBASS_FW_REGS_sram0_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target Isram0.slv region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "HSM_CBASS_FW_REGS_sram0_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target Isram0.slv region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "HSM_CBASS_FW_REGS_sram0_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target Isram0.slv region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "HSM_CBASS_FW_REGS_sram0_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 7 firewall." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "HSM_CBASS_FW_REGS_sram0_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 7 firewall." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "HSM_CBASS_FW_REGS_sram0_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 7 firewall." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "HSM_CBASS_FW_REGS_sram0_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 7 firewall." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x100 "HSM_CBASS_FW_REGS_sram0_fw_region_8_control,The FW Region 8 Control Register defines the control fields for the target Isram0.slv region 8 firewall." bitfld.long 0x100 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x100 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x100 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x100 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x104 "HSM_CBASS_FW_REGS_sram0_fw_region_8_permission_0,The FW Region 8 Permission 0 Register defines the permissions for the target Isram0.slv region 8 firewall." hexmask.long.byte 0x104 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x104 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x104 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x104 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x104 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x104 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x104 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x104 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x104 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x104 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x104 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x104 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x104 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x104 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x104 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x108 "HSM_CBASS_FW_REGS_sram0_fw_region_8_permission_1,The FW Region 8 Permission 1 Register defines the permissions for the target Isram0.slv region 8 firewall." hexmask.long.byte 0x108 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x108 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x108 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x108 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x108 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x108 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x108 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x108 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x108 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x108 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x108 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x108 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x108 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x108 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x108 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10C "HSM_CBASS_FW_REGS_sram0_fw_region_8_permission_2,The FW Region 8 Permission 2 Register defines the permissions for the target Isram0.slv region 8 firewall." hexmask.long.byte 0x10C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x10C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x10C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x10C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x10C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x10C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x10C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x10C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x10C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x10C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x10C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x10C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x10C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x10C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x10C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x110 "HSM_CBASS_FW_REGS_sram0_fw_region_8_start_address_l,The FW Region 8 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 8 firewall." hexmask.long.tbyte 0x110 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x110 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x114 "HSM_CBASS_FW_REGS_sram0_fw_region_8_start_address_h,The FW Region 8 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 8 firewall." hexmask.long.word 0x114 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x118 "HSM_CBASS_FW_REGS_sram0_fw_region_8_end_address_l,The FW Region 8 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 8 firewall." hexmask.long.tbyte 0x118 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x118 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x11C "HSM_CBASS_FW_REGS_sram0_fw_region_8_end_address_h,The FW Region 8 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 8 firewall." hexmask.long.word 0x11C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x120 "HSM_CBASS_FW_REGS_sram0_fw_region_9_control,The FW Region 9 Control Register defines the control fields for the target Isram0.slv region 9 firewall." bitfld.long 0x120 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x120 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x120 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x120 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x124 "HSM_CBASS_FW_REGS_sram0_fw_region_9_permission_0,The FW Region 9 Permission 0 Register defines the permissions for the target Isram0.slv region 9 firewall." hexmask.long.byte 0x124 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x124 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x124 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x124 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x124 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x124 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x124 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x124 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x124 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x124 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x124 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x124 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x124 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x124 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x124 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x128 "HSM_CBASS_FW_REGS_sram0_fw_region_9_permission_1,The FW Region 9 Permission 1 Register defines the permissions for the target Isram0.slv region 9 firewall." hexmask.long.byte 0x128 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x128 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x128 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x128 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x128 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x128 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x128 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x128 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x128 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x128 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x128 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x128 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x128 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x128 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x128 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x12C "HSM_CBASS_FW_REGS_sram0_fw_region_9_permission_2,The FW Region 9 Permission 2 Register defines the permissions for the target Isram0.slv region 9 firewall." hexmask.long.byte 0x12C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x12C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x12C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x12C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x12C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x12C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x12C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x12C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x12C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x12C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x12C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x12C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x12C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x12C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x12C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x130 "HSM_CBASS_FW_REGS_sram0_fw_region_9_start_address_l,The FW Region 9 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 9 firewall." hexmask.long.tbyte 0x130 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x130 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x134 "HSM_CBASS_FW_REGS_sram0_fw_region_9_start_address_h,The FW Region 9 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 9 firewall." hexmask.long.word 0x134 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x138 "HSM_CBASS_FW_REGS_sram0_fw_region_9_end_address_l,The FW Region 9 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 9 firewall." hexmask.long.tbyte 0x138 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x138 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x13C "HSM_CBASS_FW_REGS_sram0_fw_region_9_end_address_h,The FW Region 9 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 9 firewall." hexmask.long.word 0x13C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x140 "HSM_CBASS_FW_REGS_sram0_fw_region_10_control,The FW Region 10 Control Register defines the control fields for the target Isram0.slv region 10 firewall." bitfld.long 0x140 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x140 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x140 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x140 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x144 "HSM_CBASS_FW_REGS_sram0_fw_region_10_permission_0,The FW Region 10 Permission 0 Register defines the permissions for the target Isram0.slv region 10 firewall." hexmask.long.byte 0x144 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x144 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x144 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x144 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x144 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x144 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x144 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x144 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x144 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x144 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x144 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x144 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x144 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x144 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x144 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x148 "HSM_CBASS_FW_REGS_sram0_fw_region_10_permission_1,The FW Region 10 Permission 1 Register defines the permissions for the target Isram0.slv region 10 firewall." hexmask.long.byte 0x148 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x148 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x148 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x148 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x148 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x148 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x148 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x148 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x148 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x148 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x148 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x148 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x148 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x148 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x148 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x14C "HSM_CBASS_FW_REGS_sram0_fw_region_10_permission_2,The FW Region 10 Permission 2 Register defines the permissions for the target Isram0.slv region 10 firewall." hexmask.long.byte 0x14C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x14C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x14C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x14C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x14C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x14C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x14C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x14C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x14C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x14C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x14C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x14C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x14C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x14C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x14C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x150 "HSM_CBASS_FW_REGS_sram0_fw_region_10_start_address_l,The FW Region 10 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 10 firewall." hexmask.long.tbyte 0x150 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x150 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x154 "HSM_CBASS_FW_REGS_sram0_fw_region_10_start_address_h,The FW Region 10 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 10 firewall." hexmask.long.word 0x154 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x158 "HSM_CBASS_FW_REGS_sram0_fw_region_10_end_address_l,The FW Region 10 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 10 firewall." hexmask.long.tbyte 0x158 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x158 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x15C "HSM_CBASS_FW_REGS_sram0_fw_region_10_end_address_h,The FW Region 10 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 10 firewall." hexmask.long.word 0x15C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x160 "HSM_CBASS_FW_REGS_sram0_fw_region_11_control,The FW Region 11 Control Register defines the control fields for the target Isram0.slv region 11 firewall." bitfld.long 0x160 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x160 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x160 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x160 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x164 "HSM_CBASS_FW_REGS_sram0_fw_region_11_permission_0,The FW Region 11 Permission 0 Register defines the permissions for the target Isram0.slv region 11 firewall." hexmask.long.byte 0x164 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x164 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x164 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x164 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x164 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x164 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x164 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x164 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x164 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x164 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x164 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x164 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x164 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x164 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x164 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x168 "HSM_CBASS_FW_REGS_sram0_fw_region_11_permission_1,The FW Region 11 Permission 1 Register defines the permissions for the target Isram0.slv region 11 firewall." hexmask.long.byte 0x168 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x168 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x168 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x168 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x168 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x168 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x168 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x168 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x168 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x168 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x168 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x168 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x168 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x168 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x168 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x16C "HSM_CBASS_FW_REGS_sram0_fw_region_11_permission_2,The FW Region 11 Permission 2 Register defines the permissions for the target Isram0.slv region 11 firewall." hexmask.long.byte 0x16C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x16C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x16C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x16C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x16C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x16C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x16C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x16C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x16C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x16C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x16C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x16C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x16C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x16C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x16C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x170 "HSM_CBASS_FW_REGS_sram0_fw_region_11_start_address_l,The FW Region 11 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 11 firewall." hexmask.long.tbyte 0x170 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x170 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x174 "HSM_CBASS_FW_REGS_sram0_fw_region_11_start_address_h,The FW Region 11 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 11 firewall." hexmask.long.word 0x174 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x178 "HSM_CBASS_FW_REGS_sram0_fw_region_11_end_address_l,The FW Region 11 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 11 firewall." hexmask.long.tbyte 0x178 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x178 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x17C "HSM_CBASS_FW_REGS_sram0_fw_region_11_end_address_h,The FW Region 11 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 11 firewall." hexmask.long.word 0x17C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x180 "HSM_CBASS_FW_REGS_sram0_fw_region_12_control,The FW Region 12 Control Register defines the control fields for the target Isram0.slv region 12 firewall." bitfld.long 0x180 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x180 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x180 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x180 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x184 "HSM_CBASS_FW_REGS_sram0_fw_region_12_permission_0,The FW Region 12 Permission 0 Register defines the permissions for the target Isram0.slv region 12 firewall." hexmask.long.byte 0x184 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x184 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x184 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x184 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x184 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x184 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x184 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x184 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x184 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x184 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x184 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x184 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x184 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x184 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x184 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x188 "HSM_CBASS_FW_REGS_sram0_fw_region_12_permission_1,The FW Region 12 Permission 1 Register defines the permissions for the target Isram0.slv region 12 firewall." hexmask.long.byte 0x188 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x188 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x188 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x188 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x188 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x188 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x188 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x188 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x188 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x188 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x188 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x188 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x188 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x188 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x188 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x18C "HSM_CBASS_FW_REGS_sram0_fw_region_12_permission_2,The FW Region 12 Permission 2 Register defines the permissions for the target Isram0.slv region 12 firewall." hexmask.long.byte 0x18C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x18C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x18C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x18C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x18C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x18C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x18C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x18C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x18C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x18C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x18C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x18C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x18C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x18C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x18C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x190 "HSM_CBASS_FW_REGS_sram0_fw_region_12_start_address_l,The FW Region 12 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 12 firewall." hexmask.long.tbyte 0x190 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x190 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x194 "HSM_CBASS_FW_REGS_sram0_fw_region_12_start_address_h,The FW Region 12 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 12 firewall." hexmask.long.word 0x194 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x198 "HSM_CBASS_FW_REGS_sram0_fw_region_12_end_address_l,The FW Region 12 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 12 firewall." hexmask.long.tbyte 0x198 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x198 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x19C "HSM_CBASS_FW_REGS_sram0_fw_region_12_end_address_h,The FW Region 12 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 12 firewall." hexmask.long.word 0x19C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1A0 "HSM_CBASS_FW_REGS_sram0_fw_region_13_control,The FW Region 13 Control Register defines the control fields for the target Isram0.slv region 13 firewall." bitfld.long 0x1A0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1A0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x1A0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x1A0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1A4 "HSM_CBASS_FW_REGS_sram0_fw_region_13_permission_0,The FW Region 13 Permission 0 Register defines the permissions for the target Isram0.slv region 13 firewall." hexmask.long.byte 0x1A4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1A4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1A4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1A4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1A4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1A4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1A4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1A4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1A4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1A4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1A8 "HSM_CBASS_FW_REGS_sram0_fw_region_13_permission_1,The FW Region 13 Permission 1 Register defines the permissions for the target Isram0.slv region 13 firewall." hexmask.long.byte 0x1A8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1A8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1A8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1A8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1A8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1A8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1A8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1A8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1A8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1A8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1AC "HSM_CBASS_FW_REGS_sram0_fw_region_13_permission_2,The FW Region 13 Permission 2 Register defines the permissions for the target Isram0.slv region 13 firewall." hexmask.long.byte 0x1AC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1AC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1AC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1AC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1AC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1AC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1AC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1AC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1AC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1AC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1AC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1AC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1AC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1AC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1AC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1B0 "HSM_CBASS_FW_REGS_sram0_fw_region_13_start_address_l,The FW Region 13 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 13 firewall." hexmask.long.tbyte 0x1B0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1B0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1B4 "HSM_CBASS_FW_REGS_sram0_fw_region_13_start_address_h,The FW Region 13 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 13 firewall." hexmask.long.word 0x1B4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1B8 "HSM_CBASS_FW_REGS_sram0_fw_region_13_end_address_l,The FW Region 13 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 13 firewall." hexmask.long.tbyte 0x1B8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1B8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1BC "HSM_CBASS_FW_REGS_sram0_fw_region_13_end_address_h,The FW Region 13 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 13 firewall." hexmask.long.word 0x1BC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1C0 "HSM_CBASS_FW_REGS_sram0_fw_region_14_control,The FW Region 14 Control Register defines the control fields for the target Isram0.slv region 14 firewall." bitfld.long 0x1C0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1C0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x1C0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x1C0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1C4 "HSM_CBASS_FW_REGS_sram0_fw_region_14_permission_0,The FW Region 14 Permission 0 Register defines the permissions for the target Isram0.slv region 14 firewall." hexmask.long.byte 0x1C4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1C4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1C4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1C4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1C4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1C4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1C4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1C4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1C4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1C4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1C8 "HSM_CBASS_FW_REGS_sram0_fw_region_14_permission_1,The FW Region 14 Permission 1 Register defines the permissions for the target Isram0.slv region 14 firewall." hexmask.long.byte 0x1C8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1C8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1C8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1C8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1C8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1C8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1C8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1C8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1C8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1C8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1CC "HSM_CBASS_FW_REGS_sram0_fw_region_14_permission_2,The FW Region 14 Permission 2 Register defines the permissions for the target Isram0.slv region 14 firewall." hexmask.long.byte 0x1CC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1CC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1CC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1CC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1CC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1CC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1CC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1CC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1CC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1CC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1CC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1CC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1CC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1CC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1CC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1D0 "HSM_CBASS_FW_REGS_sram0_fw_region_14_start_address_l,The FW Region 14 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 14 firewall." hexmask.long.tbyte 0x1D0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1D0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1D4 "HSM_CBASS_FW_REGS_sram0_fw_region_14_start_address_h,The FW Region 14 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 14 firewall." hexmask.long.word 0x1D4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1D8 "HSM_CBASS_FW_REGS_sram0_fw_region_14_end_address_l,The FW Region 14 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 14 firewall." hexmask.long.tbyte 0x1D8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1D8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1DC "HSM_CBASS_FW_REGS_sram0_fw_region_14_end_address_h,The FW Region 14 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 14 firewall." hexmask.long.word 0x1DC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1E0 "HSM_CBASS_FW_REGS_sram0_fw_region_15_control,The FW Region 15 Control Register defines the control fields for the target Isram0.slv region 15 firewall." bitfld.long 0x1E0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1E0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x1E0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x1E0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1E4 "HSM_CBASS_FW_REGS_sram0_fw_region_15_permission_0,The FW Region 15 Permission 0 Register defines the permissions for the target Isram0.slv region 15 firewall." hexmask.long.byte 0x1E4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1E4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1E4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1E4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1E4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1E4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1E4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1E4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1E4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1E4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1E8 "HSM_CBASS_FW_REGS_sram0_fw_region_15_permission_1,The FW Region 15 Permission 1 Register defines the permissions for the target Isram0.slv region 15 firewall." hexmask.long.byte 0x1E8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1E8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1E8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1E8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1E8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1E8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1E8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1E8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1E8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1E8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1EC "HSM_CBASS_FW_REGS_sram0_fw_region_15_permission_2,The FW Region 15 Permission 2 Register defines the permissions for the target Isram0.slv region 15 firewall." hexmask.long.byte 0x1EC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1EC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1EC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1EC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1EC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1EC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1EC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1EC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1EC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1EC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1EC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1EC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1EC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1EC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1EC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1F0 "HSM_CBASS_FW_REGS_sram0_fw_region_15_start_address_l,The FW Region 15 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 15 firewall." hexmask.long.tbyte 0x1F0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1F0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1F4 "HSM_CBASS_FW_REGS_sram0_fw_region_15_start_address_h,The FW Region 15 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 15 firewall." hexmask.long.word 0x1F4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1F8 "HSM_CBASS_FW_REGS_sram0_fw_region_15_end_address_l,The FW Region 15 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 15 firewall." hexmask.long.tbyte 0x1F8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1F8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1FC "HSM_CBASS_FW_REGS_sram0_fw_region_15_end_address_h,The FW Region 15 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 15 firewall." hexmask.long.word 0x1FC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x800++0xFF line.long 0x0 "HSM_CBASS_FW_REGS_sram1_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Isram1.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "HSM_CBASS_FW_REGS_sram1_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Isram1.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "HSM_CBASS_FW_REGS_sram1_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Isram1.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "HSM_CBASS_FW_REGS_sram1_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Isram1.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "HSM_CBASS_FW_REGS_sram1_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Isram1.slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "HSM_CBASS_FW_REGS_sram1_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Isram1.slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "HSM_CBASS_FW_REGS_sram1_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram1.slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "HSM_CBASS_FW_REGS_sram1_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Isram1.slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "HSM_CBASS_FW_REGS_sram1_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Isram1.slv region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "HSM_CBASS_FW_REGS_sram1_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Isram1.slv region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "HSM_CBASS_FW_REGS_sram1_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Isram1.slv region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "HSM_CBASS_FW_REGS_sram1_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Isram1.slv region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "HSM_CBASS_FW_REGS_sram1_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Isram1.slv region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "HSM_CBASS_FW_REGS_sram1_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Isram1.slv region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "HSM_CBASS_FW_REGS_sram1_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram1.slv region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "HSM_CBASS_FW_REGS_sram1_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Isram1.slv region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "HSM_CBASS_FW_REGS_sram1_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target Isram1.slv region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "HSM_CBASS_FW_REGS_sram1_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target Isram1.slv region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "HSM_CBASS_FW_REGS_sram1_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target Isram1.slv region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "HSM_CBASS_FW_REGS_sram1_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target Isram1.slv region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "HSM_CBASS_FW_REGS_sram1_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target Isram1.slv region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "HSM_CBASS_FW_REGS_sram1_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target Isram1.slv region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "HSM_CBASS_FW_REGS_sram1_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram1.slv region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "HSM_CBASS_FW_REGS_sram1_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target Isram1.slv region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "HSM_CBASS_FW_REGS_sram1_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target Isram1.slv region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "HSM_CBASS_FW_REGS_sram1_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target Isram1.slv region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "HSM_CBASS_FW_REGS_sram1_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target Isram1.slv region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "HSM_CBASS_FW_REGS_sram1_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target Isram1.slv region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "HSM_CBASS_FW_REGS_sram1_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target Isram1.slv region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "HSM_CBASS_FW_REGS_sram1_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target Isram1.slv region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "HSM_CBASS_FW_REGS_sram1_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram1.slv region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "HSM_CBASS_FW_REGS_sram1_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target Isram1.slv region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "HSM_CBASS_FW_REGS_sram1_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target Isram1.slv region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "HSM_CBASS_FW_REGS_sram1_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target Isram1.slv region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "HSM_CBASS_FW_REGS_sram1_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target Isram1.slv region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "HSM_CBASS_FW_REGS_sram1_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target Isram1.slv region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "HSM_CBASS_FW_REGS_sram1_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target Isram1.slv region 4 firewall." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "HSM_CBASS_FW_REGS_sram1_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target Isram1.slv region 4 firewall." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "HSM_CBASS_FW_REGS_sram1_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram1.slv region 4 firewall." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "HSM_CBASS_FW_REGS_sram1_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target Isram1.slv region 4 firewall." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "HSM_CBASS_FW_REGS_sram1_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target Isram1.slv region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "HSM_CBASS_FW_REGS_sram1_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target Isram1.slv region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "HSM_CBASS_FW_REGS_sram1_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target Isram1.slv region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "HSM_CBASS_FW_REGS_sram1_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target Isram1.slv region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "HSM_CBASS_FW_REGS_sram1_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target Isram1.slv region 5 firewall." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "HSM_CBASS_FW_REGS_sram1_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target Isram1.slv region 5 firewall." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "HSM_CBASS_FW_REGS_sram1_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram1.slv region 5 firewall." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "HSM_CBASS_FW_REGS_sram1_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target Isram1.slv region 5 firewall." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "HSM_CBASS_FW_REGS_sram1_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target Isram1.slv region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "HSM_CBASS_FW_REGS_sram1_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target Isram1.slv region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "HSM_CBASS_FW_REGS_sram1_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target Isram1.slv region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "HSM_CBASS_FW_REGS_sram1_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target Isram1.slv region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "HSM_CBASS_FW_REGS_sram1_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target Isram1.slv region 6 firewall." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "HSM_CBASS_FW_REGS_sram1_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target Isram1.slv region 6 firewall." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "HSM_CBASS_FW_REGS_sram1_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram1.slv region 6 firewall." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "HSM_CBASS_FW_REGS_sram1_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target Isram1.slv region 6 firewall." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "HSM_CBASS_FW_REGS_sram1_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target Isram1.slv region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "HSM_CBASS_FW_REGS_sram1_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target Isram1.slv region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "HSM_CBASS_FW_REGS_sram1_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target Isram1.slv region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "HSM_CBASS_FW_REGS_sram1_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target Isram1.slv region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "HSM_CBASS_FW_REGS_sram1_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target Isram1.slv region 7 firewall." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "HSM_CBASS_FW_REGS_sram1_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target Isram1.slv region 7 firewall." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "HSM_CBASS_FW_REGS_sram1_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram1.slv region 7 firewall." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "HSM_CBASS_FW_REGS_sram1_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target Isram1.slv region 7 firewall." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x8000++0x1F line.long 0x0 "HSM_CBASS_FW_REGS_Iwdt_s_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Iwdt.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "HSM_CBASS_FW_REGS_Iwdt_s_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Iwdt.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "HSM_CBASS_FW_REGS_Iwdt_s_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Iwdt.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "HSM_CBASS_FW_REGS_Iwdt_s_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Iwdt.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "HSM_CBASS_FW_REGS_Iwdt_s_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Iwdt.slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "HSM_CBASS_FW_REGS_Iwdt_s_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Iwdt.slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "HSM_CBASS_FW_REGS_Iwdt_s_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Iwdt.slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "HSM_CBASS_FW_REGS_Iwdt_s_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Iwdt.slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x8400++0x1F line.long 0x0 "HSM_CBASS_FW_REGS_Iwdt_ctrl_s_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Iwdt_ctrl.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "HSM_CBASS_FW_REGS_Iwdt_ctrl_s_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Iwdt_ctrl.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "HSM_CBASS_FW_REGS_Iwdt_ctrl_s_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Iwdt_ctrl.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "HSM_CBASS_FW_REGS_Iwdt_ctrl_s_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Iwdt_ctrl.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "HSM_CBASS_FW_REGS_Iwdt_ctrl_s_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Iwdt_ctrl.slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "HSM_CBASS_FW_REGS_Iwdt_ctrl_s_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Iwdt_ctrl.slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "HSM_CBASS_FW_REGS_Iwdt_ctrl_s_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Iwdt_ctrl.slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "HSM_CBASS_FW_REGS_Iwdt_ctrl_s_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Iwdt_ctrl.slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0xA000++0x1F line.long 0x0 "HSM_CBASS_FW_REGS_Irat_s_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Irat.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "HSM_CBASS_FW_REGS_Irat_s_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Irat.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "HSM_CBASS_FW_REGS_Irat_s_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Irat.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "HSM_CBASS_FW_REGS_Irat_s_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Irat.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "HSM_CBASS_FW_REGS_Irat_s_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Irat.slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "HSM_CBASS_FW_REGS_Irat_s_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Irat.slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "HSM_CBASS_FW_REGS_Irat_s_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Irat.slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "HSM_CBASS_FW_REGS_Irat_s_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Irat.slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0xC800++0x3F line.long 0x0 "HSM_CBASS_FW_REGS_Iecc_s_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Iecc.cfg region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "HSM_CBASS_FW_REGS_Iecc_s_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Iecc.cfg region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "HSM_CBASS_FW_REGS_Iecc_s_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Iecc.cfg region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "HSM_CBASS_FW_REGS_Iecc_s_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Iecc.cfg region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "HSM_CBASS_FW_REGS_Iecc_s_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Iecc.cfg region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "HSM_CBASS_FW_REGS_Iecc_s_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Iecc.cfg region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "HSM_CBASS_FW_REGS_Iecc_s_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Iecc.cfg region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "HSM_CBASS_FW_REGS_Iecc_s_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Iecc.cfg region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "HSM_CBASS_FW_REGS_Iecc_s_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Iecc.cfg region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "HSM_CBASS_FW_REGS_Iecc_s_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Iecc.cfg region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "HSM_CBASS_FW_REGS_Iecc_s_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Iecc.cfg region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "HSM_CBASS_FW_REGS_Iecc_s_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Iecc.cfg region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "HSM_CBASS_FW_REGS_Iecc_s_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Iecc.cfg region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "HSM_CBASS_FW_REGS_Iecc_s_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Iecc.cfg region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "HSM_CBASS_FW_REGS_Iecc_s_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Iecc.cfg region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "HSM_CBASS_FW_REGS_Iecc_s_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Iecc.cfg region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." tree.end tree "SMS0_HSM_CBASS_0_HSM_CBASS_GLB (SMS0_HSM_CBASS_0_HSM_CBASS_GLB)" base ad:0x45B00800 rgroup.long 0x0++0x3 line.long 0x0 "HSM_CBASS_GLB_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "HSM_CBASS_GLB_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." group.long 0x20++0x3 line.long 0x0 "HSM_CBASS_GLB_REGS_exception_logging_control,The Exception Logging Control Register controls the exception logging." bitfld.long 0x0 1. "DISABLE_PEND,Disables logging pending when set." "0,1" bitfld.long 0x0 0. "DISABLE_F,Disables logging when set." "0,1" rgroup.long 0x24++0x17 line.long 0x0 "HSM_CBASS_GLB_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "HSM_CBASS_GLB_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code." line.long 0x8 "HSM_CBASS_GLB_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "HSM_CBASS_GLB_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "HSM_CBASS_GLB_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" newline bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "HSM_CBASS_GLB_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x40++0x7 line.long 0x0 "HSM_CBASS_GLB_REGS_exception_pend_set,The Exception Logging Pending Set Register allows to set the pend signal." bitfld.long 0x0 0. "PEND_SET,Write a 1 to set the exception pend signal." "0,1" line.long 0x4 "HSM_CBASS_GLB_REGS_exception_pend_clear,The Exception Logging Pending Clear Register allows to clear the pend signal." bitfld.long 0x4 0. "PEND_CLR,Write a 1 to clear the exception pend signal." "0,1" tree.end tree "SMS0_HSM_CBASS_0_HSM_CBASS_ISC (SMS0_HSM_CBASS_0_HSM_CBASS_ISC)" base ad:0x4580A000 group.long 0x0++0x3 line.long 0x0 "HSM_CBASS_ISC_REGS_Iquasar_i_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Iquasar_i.mst region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x10++0x13 line.long 0x0 "HSM_CBASS_ISC_REGS_Iquasar_i_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Iquasar_i.mst region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "HSM_CBASS_ISC_REGS_Iquasar_i_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Iquasar_i.mst region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "HSM_CBASS_ISC_REGS_Iquasar_i_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Iquasar_i.mst region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "HSM_CBASS_ISC_REGS_Iquasar_i_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Iquasar_i.mst region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "HSM_CBASS_ISC_REGS_Iquasar_i_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Iquasar_i.mst region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x400++0x3 line.long 0x0 "HSM_CBASS_ISC_REGS_Iquasar_d_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Iquasar_d.mst region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x410++0x13 line.long 0x0 "HSM_CBASS_ISC_REGS_Iquasar_d_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Iquasar_d.mst region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "HSM_CBASS_ISC_REGS_Iquasar_d_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Iquasar_d.mst region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "HSM_CBASS_ISC_REGS_Iquasar_d_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Iquasar_d.mst region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "HSM_CBASS_ISC_REGS_Iquasar_d_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Iquasar_d.mst region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "HSM_CBASS_ISC_REGS_Iquasar_d_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Iquasar_d.mst region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x800++0x3 line.long 0x0 "HSM_CBASS_ISC_REGS_Iquasar_s_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Iquasar_s.mst region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x810++0x13 line.long 0x0 "HSM_CBASS_ISC_REGS_Iquasar_s_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Iquasar_s.mst region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "HSM_CBASS_ISC_REGS_Iquasar_s_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Iquasar_s.mst region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "HSM_CBASS_ISC_REGS_Iquasar_s_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Iquasar_s.mst region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "HSM_CBASS_ISC_REGS_Iquasar_s_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Iquasar_s.mst region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "HSM_CBASS_ISC_REGS_Iquasar_s_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Iquasar_s.mst region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." tree.end tree.end tree "SMS0_HSM_ECC_AGGR_0_HSM_ECC (SMS0_HSM_ECC_AGGR_0_HSM_ECC)" base ad:0x43701000 rgroup.long 0x0++0x3 line.long 0x0 "HSM_ECC_REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "HSM_ECC_REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "HSM_ECC_REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "HSM_ECC_REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "HSM_ECC_REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "HSM_ECC_REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 12. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" newline bitfld.long 0x4 11. "SMS_HSM_WWRTI_CM_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_hsm_wwrti_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 10. "SMS_HSM_CBASS_DMSC_SLV_P2P_BRIDGE_DMSC_SLV_BRIDGE_BUSECC_PEND,Interrupt Pending Status for sms_hsm_cbass_dmsc_slv_p2p_bridge_dmsc_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 9. "SMS_HSM_CBASS_CBASS_INT_DMSC_SCR_SMS_HSM_CBASS_CBASS_INT_DMSC_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_hsm_cbass_cbass_int_dmsc_scr_sms_hsm_cbass_cbass_int_dmsc_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 8. "SMS_HSM_CBASS_CBASS_DEFAULT_MMRS_SMS_HSM_CBASS_CBASS_DEFAULT_MMRS_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_hsm_cbass_cbass_default_mmrs_sms_hsm_cbass_cbass_default_mmrs_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 7. "SMS_HSM_RAT_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_hsm_rat_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 6. "SMS_HSM_CBASS_SMS_HSM_SCR_SCR_SMS_HSM_CBASS_SMS_HSM_SCR_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_hsm_cbass_sms_hsm_scr_scr_sms_hsm_cbass_sms_hsm_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 5. "SMS_HSM_CBASS_IECC_S_P2P_BRIDGE_IECC_S_BRIDGE_BUSECC_PEND,Interrupt Pending Status for sms_hsm_cbass_Iecc_s_p2p_bridge_Iecc_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 4. "SMS_HSM_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_PEND,Interrupt Pending Status for sms_hsm_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_pend" "0,1" newline bitfld.long 0x4 3. "ISRAM1_BUSECC_PEND,Interrupt Pending Status for Isram1_busecc_pend" "0,1" newline bitfld.long 0x4 2. "ISRAM0_BUSECC_PEND,Interrupt Pending Status for Isram0_busecc_pend" "0,1" newline bitfld.long 0x4 1. "ISRAM1_RAMECC_PEND,Interrupt Pending Status for Isram1_ramecc_pend" "0,1" newline bitfld.long 0x4 0. "ISRAM0_RAMECC_PEND,Interrupt Pending Status for Isram0_ramecc_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "HSM_ECC_REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 12. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" newline bitfld.long 0x0 11. "SMS_HSM_WWRTI_CM_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_hsm_wwrti_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 10. "SMS_HSM_CBASS_DMSC_SLV_P2P_BRIDGE_DMSC_SLV_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_hsm_cbass_dmsc_slv_p2p_bridge_dmsc_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 9. "SMS_HSM_CBASS_CBASS_INT_DMSC_SCR_SMS_HSM_CBASS_CBASS_INT_DMSC_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_hsm_cbass_cbass_int_dmsc_scr_sms_hsm_cbass_cbass_int_dmsc_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 8. "SMS_HSM_CBASS_CBASS_DEFAULT_MMRS_SMS_HSM_CBASS_CBASS_DEFAULT_MMRS_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_hsm_cbass_cbass_default_mmrs_sms_hsm_cbass_cbass_default_mmrs_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 7. "SMS_HSM_RAT_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_hsm_rat_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 6. "SMS_HSM_CBASS_SMS_HSM_SCR_SCR_SMS_HSM_CBASS_SMS_HSM_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_hsm_cbass_sms_hsm_scr_scr_sms_hsm_cbass_sms_hsm_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 5. "SMS_HSM_CBASS_IECC_S_P2P_BRIDGE_IECC_S_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_hsm_cbass_Iecc_s_p2p_bridge_Iecc_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 4. "SMS_HSM_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_hsm_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_pend" "0,1" newline bitfld.long 0x0 3. "ISRAM1_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isram1_busecc_pend" "0,1" newline bitfld.long 0x0 2. "ISRAM0_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isram0_busecc_pend" "0,1" newline bitfld.long 0x0 1. "ISRAM1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for Isram1_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "ISRAM0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for Isram0_ramecc_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "HSM_ECC_REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 12. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" newline bitfld.long 0x0 11. "SMS_HSM_WWRTI_CM_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_hsm_wwrti_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 10. "SMS_HSM_CBASS_DMSC_SLV_P2P_BRIDGE_DMSC_SLV_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_hsm_cbass_dmsc_slv_p2p_bridge_dmsc_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 9. "SMS_HSM_CBASS_CBASS_INT_DMSC_SCR_SMS_HSM_CBASS_CBASS_INT_DMSC_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_hsm_cbass_cbass_int_dmsc_scr_sms_hsm_cbass_cbass_int_dmsc_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 8. "SMS_HSM_CBASS_CBASS_DEFAULT_MMRS_SMS_HSM_CBASS_CBASS_DEFAULT_MMRS_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_hsm_cbass_cbass_default_mmrs_sms_hsm_cbass_cbass_default_mmrs_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 7. "SMS_HSM_RAT_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_hsm_rat_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 6. "SMS_HSM_CBASS_SMS_HSM_SCR_SCR_SMS_HSM_CBASS_SMS_HSM_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_hsm_cbass_sms_hsm_scr_scr_sms_hsm_cbass_sms_hsm_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 5. "SMS_HSM_CBASS_IECC_S_P2P_BRIDGE_IECC_S_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_hsm_cbass_Iecc_s_p2p_bridge_Iecc_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 4. "SMS_HSM_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_hsm_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_pend" "0,1" newline bitfld.long 0x0 3. "ISRAM1_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isram1_busecc_pend" "0,1" newline bitfld.long 0x0 2. "ISRAM0_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isram0_busecc_pend" "0,1" newline bitfld.long 0x0 1. "ISRAM1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for Isram1_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "ISRAM0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for Isram0_ramecc_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "HSM_ECC_REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "HSM_ECC_REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 12. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" newline bitfld.long 0x4 11. "SMS_HSM_WWRTI_CM_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_hsm_wwrti_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 10. "SMS_HSM_CBASS_DMSC_SLV_P2P_BRIDGE_DMSC_SLV_BRIDGE_BUSECC_PEND,Interrupt Pending Status for sms_hsm_cbass_dmsc_slv_p2p_bridge_dmsc_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 9. "SMS_HSM_CBASS_CBASS_INT_DMSC_SCR_SMS_HSM_CBASS_CBASS_INT_DMSC_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_hsm_cbass_cbass_int_dmsc_scr_sms_hsm_cbass_cbass_int_dmsc_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 8. "SMS_HSM_CBASS_CBASS_DEFAULT_MMRS_SMS_HSM_CBASS_CBASS_DEFAULT_MMRS_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_hsm_cbass_cbass_default_mmrs_sms_hsm_cbass_cbass_default_mmrs_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 7. "SMS_HSM_RAT_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_hsm_rat_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 6. "SMS_HSM_CBASS_SMS_HSM_SCR_SCR_SMS_HSM_CBASS_SMS_HSM_SCR_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_hsm_cbass_sms_hsm_scr_scr_sms_hsm_cbass_sms_hsm_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 5. "SMS_HSM_CBASS_IECC_S_P2P_BRIDGE_IECC_S_BRIDGE_BUSECC_PEND,Interrupt Pending Status for sms_hsm_cbass_Iecc_s_p2p_bridge_Iecc_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 4. "SMS_HSM_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_PEND,Interrupt Pending Status for sms_hsm_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_pend" "0,1" newline bitfld.long 0x4 3. "ISRAM1_BUSECC_PEND,Interrupt Pending Status for Isram1_busecc_pend" "0,1" newline bitfld.long 0x4 2. "ISRAM0_BUSECC_PEND,Interrupt Pending Status for Isram0_busecc_pend" "0,1" newline bitfld.long 0x4 1. "ISRAM1_RAMECC_PEND,Interrupt Pending Status for Isram1_ramecc_pend" "0,1" newline bitfld.long 0x4 0. "ISRAM0_RAMECC_PEND,Interrupt Pending Status for Isram0_ramecc_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "HSM_ECC_REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 12. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" newline bitfld.long 0x0 11. "SMS_HSM_WWRTI_CM_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_hsm_wwrti_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 10. "SMS_HSM_CBASS_DMSC_SLV_P2P_BRIDGE_DMSC_SLV_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_hsm_cbass_dmsc_slv_p2p_bridge_dmsc_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 9. "SMS_HSM_CBASS_CBASS_INT_DMSC_SCR_SMS_HSM_CBASS_CBASS_INT_DMSC_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_hsm_cbass_cbass_int_dmsc_scr_sms_hsm_cbass_cbass_int_dmsc_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 8. "SMS_HSM_CBASS_CBASS_DEFAULT_MMRS_SMS_HSM_CBASS_CBASS_DEFAULT_MMRS_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_hsm_cbass_cbass_default_mmrs_sms_hsm_cbass_cbass_default_mmrs_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 7. "SMS_HSM_RAT_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_hsm_rat_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 6. "SMS_HSM_CBASS_SMS_HSM_SCR_SCR_SMS_HSM_CBASS_SMS_HSM_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_hsm_cbass_sms_hsm_scr_scr_sms_hsm_cbass_sms_hsm_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 5. "SMS_HSM_CBASS_IECC_S_P2P_BRIDGE_IECC_S_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_hsm_cbass_Iecc_s_p2p_bridge_Iecc_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 4. "SMS_HSM_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_hsm_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_pend" "0,1" newline bitfld.long 0x0 3. "ISRAM1_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isram1_busecc_pend" "0,1" newline bitfld.long 0x0 2. "ISRAM0_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isram0_busecc_pend" "0,1" newline bitfld.long 0x0 1. "ISRAM1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for Isram1_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "ISRAM0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for Isram0_ramecc_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "HSM_ECC_REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 12. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" newline bitfld.long 0x0 11. "SMS_HSM_WWRTI_CM_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_hsm_wwrti_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 10. "SMS_HSM_CBASS_DMSC_SLV_P2P_BRIDGE_DMSC_SLV_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_hsm_cbass_dmsc_slv_p2p_bridge_dmsc_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 9. "SMS_HSM_CBASS_CBASS_INT_DMSC_SCR_SMS_HSM_CBASS_CBASS_INT_DMSC_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_hsm_cbass_cbass_int_dmsc_scr_sms_hsm_cbass_cbass_int_dmsc_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 8. "SMS_HSM_CBASS_CBASS_DEFAULT_MMRS_SMS_HSM_CBASS_CBASS_DEFAULT_MMRS_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_hsm_cbass_cbass_default_mmrs_sms_hsm_cbass_cbass_default_mmrs_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 7. "SMS_HSM_RAT_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_hsm_rat_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 6. "SMS_HSM_CBASS_SMS_HSM_SCR_SCR_SMS_HSM_CBASS_SMS_HSM_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_hsm_cbass_sms_hsm_scr_scr_sms_hsm_cbass_sms_hsm_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 5. "SMS_HSM_CBASS_IECC_S_P2P_BRIDGE_IECC_S_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_hsm_cbass_Iecc_s_p2p_bridge_Iecc_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 4. "SMS_HSM_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_hsm_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_pend" "0,1" newline bitfld.long 0x0 3. "ISRAM1_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isram1_busecc_pend" "0,1" newline bitfld.long 0x0 2. "ISRAM0_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isram0_busecc_pend" "0,1" newline bitfld.long 0x0 1. "ISRAM1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for Isram1_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "ISRAM0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for Isram0_ramecc_pend" "0,1" group.long 0x200++0xF line.long 0x0 "HSM_ECC_REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" newline bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "HSM_ECC_REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" newline bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "HSM_ECC_REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" newline bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "HSM_ECC_REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" newline bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end base ad:0x0 tree "SMS0_HSM_SRAM" tree "SMS0_HSM_SRAM_0" tree "SMS0_HSM_SRAM_0_HSM_SRAM0_0 (SMS0_HSM_SRAM_0_HSM_SRAM0_0)" base ad:0x43C00000 group.long 0x0++0x3 line.long 0x0 "HSM_SRAM0_0_RAM_REG,The RAM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end tree "SMS0_HSM_SRAM_0_HSM_SRAM0_1 (SMS0_HSM_SRAM_0_HSM_SRAM0_1)" base ad:0x43C20000 group.long 0x0++0x3 line.long 0x0 "HSM_SRAM0_1_RAM_REG,The RAM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end tree.end tree "SMS0_HSM_SRAM_1_HSM_SRAM1 (SMS0_HSM_SRAM_1_HSM_SRAM1)" base ad:0x43C30000 group.long 0x0++0x3 line.long 0x0 "HSM_SRAM1_RAM_REG,The RAM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end tree.end tree.end tree "SMS0_PWRCTRL_0_PWR (SMS0_PWRCTRL_0_PWR)" base ad:0x44130000 rgroup.long 0x0++0x3 line.long 0x0 "TIFS_PWR_MMR_PID," hexmask.long.word 0x0 16.--31. 1. "PID_MSB16," hexmask.long.byte 0x0 11.--15. 1. "PID_MISC," bitfld.long 0x0 8.--10. "PID_MAJOR," "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "PID_CUSTOM," "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "PID_MINOR," rgroup.long 0x8++0x3 line.long 0x0 "TIFS_PWR_MMR_REVISION," bitfld.long 0x0 30.--31. "REV_SCHEME,RTL version" "0,1,2,3" bitfld.long 0x0 28.--29. "REV_BU,RTL version" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "REV_FUNC,RTL version" hexmask.long.byte 0x0 11.--15. 1. "REV_RTL,RTL version" newline bitfld.long 0x0 8.--10. "REV_MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "REV_CUSTOM,Non custom (standard) revision" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REV_MINOR,Minor revision" group.long 0x20++0x7 line.long 0x0 "TIFS_PWR_MMR_LOCK0_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK0_KICK0,- KICK0 component" line.long 0x4 "TIFS_PWR_MMR_LOCK0_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK0_KICK1,- KICK1 component" rgroup.long 0x40++0x3 line.long 0x0 "TIFS_PWR_MMR_TIFS_RSVD1," hexmask.long 0x0 0.--31. 1. "TIFS_RSVD1_VAL," group.long 0x44++0x7 line.long 0x0 "TIFS_PWR_MMR_TIFS_RSVD2," hexmask.long 0x0 0.--31. 1. "TIFS_RSVD2_VAL," line.long 0x4 "TIFS_PWR_MMR_TIFS_RSVD3," hexmask.long 0x4 0.--31. 1. "TIFS_RSVD3_VAL," rgroup.long 0x4C++0x7 line.long 0x0 "TIFS_PWR_MMR_TIFS_RSVD4," hexmask.long 0x0 0.--31. 1. "TIFS_RSVD4_VAL," line.long 0x4 "TIFS_PWR_MMR_TIFS_RSVD5," hexmask.long 0x4 0.--31. 1. "TIFS_RSVD5_VAL," group.long 0x54++0x7 line.long 0x0 "TIFS_PWR_MMR_TIFS_RSVD6," hexmask.long 0x0 0.--31. 1. "TIFS_RSVD6_VAL," line.long 0x4 "TIFS_PWR_MMR_TIFS_RSVD7," hexmask.long 0x4 0.--31. 1. "TIFS_RSVD7_VAL," rgroup.long 0x5C++0x3 line.long 0x0 "TIFS_PWR_MMR_TIFS_RSVD8," hexmask.long 0x0 0.--31. 1. "TIFS_RSVD8_VAL," group.long 0x80++0x17 line.long 0x0 "TIFS_PWR_MMR_PMCTRL_SYS," bitfld.long 0x0 4. "TIFS_RSVD9_VAL," "0,1" bitfld.long 0x0 0.--2. "LPM_EN," "0,1,2,3,4,5,6,7" line.long 0x4 "TIFS_PWR_MMR_TIFS_RSVD10," rbitfld.long 0x4 25. "TIFS_RSVD10_VAL9," "0,1" bitfld.long 0x4 24. "TIFS_RSVD10_VAL8," "0,1" bitfld.long 0x4 16. "TIFS_RSVD10_VAL7," "0,1" rbitfld.long 0x4 9. "TIFS_RSVD10_VAL6," "0,1" newline bitfld.long 0x4 8. "TIFS_RSVD10_VAL5," "0,1" bitfld.long 0x4 6. "TIFS_RSVD10_VAL4," "0,1" rbitfld.long 0x4 5. "TIFS_RSVD10_VAL3," "0,1" bitfld.long 0x4 4. "TIFS_RSVD10_VAL2," "0,1" newline rbitfld.long 0x4 1. "TIFS_RSVD10_VAL1," "0,1" bitfld.long 0x4 0. "TIFS_RSVD10_VAL0," "0,1" line.long 0x8 "TIFS_PWR_MMR_TIFS_RSVD11," rbitfld.long 0x8 25. "TIFS_RSVD11_VAL9," "0,1" bitfld.long 0x8 24. "TIFS_RSVD11_VAL8," "0,1" bitfld.long 0x8 16. "TIFS_RSVD11_VAL7," "0,1" rbitfld.long 0x8 9. "TIFS_RSVD11_VAL6," "0,1" newline bitfld.long 0x8 8. "TIFS_RSVD11_VAL5," "0,1" bitfld.long 0x8 6. "TIFS_RSVD11_VAL4," "0,1" rbitfld.long 0x8 5. "TIFS_RSVD11_VAL3," "0,1" bitfld.long 0x8 4. "TIFS_RSVD11_VAL2," "0,1" newline rbitfld.long 0x8 1. "TIFS_RSVD11_VAL1," "0,1" bitfld.long 0x8 0. "TIFS_RSVD11_VAL0," "0,1" line.long 0xC "TIFS_PWR_MMR_TIFS_RSVD12," hexmask.long.byte 0xC 4.--7. 1. "TIFS_RSVD12_VAL4," bitfld.long 0xC 3. "TIFS_RSVD12_VAL3," "0,1" bitfld.long 0xC 2. "TIFS_RSVD12_VAL2," "0,1" bitfld.long 0xC 1. "TIFS_RSVD12_VAL1," "0,1" newline bitfld.long 0xC 0. "TIFS_RSVD12_VAL0," "0,1" line.long 0x10 "TIFS_PWR_MMR_PMCTRL_MOSC," bitfld.long 0x10 17. "OSC_CG_DISABLE," "0,1" hexmask.long.word 0x10 0.--11. 1. "MOSC_SETUP_TIME," line.long 0x14 "TIFS_PWR_MMR_PMCTRL_DMSC," bitfld.long 0x14 1. "MEM_RET_OFF," "0,1" bitfld.long 0x14 0. "MEM_DS_EN," "0,1" rgroup.long 0x98++0x3 line.long 0x0 "TIFS_PWR_MMR_PM_MISC_STATUS," bitfld.long 0x0 0.--1. "OSC_CG_STAT," "0,1,2,3" group.long 0x140++0x3 line.long 0x0 "TIFS_PWR_MMR_CPU_STCALIB," hexmask.long.tbyte 0x0 0.--23. 1. "CPU_STCALIB_TENMS," group.long 0x180++0xB line.long 0x0 "TIFS_PWR_MMR_TIFS_RSVD13," hexmask.long 0x0 0.--31. 1. "TIFS_RSVD13_VAL0," line.long 0x4 "TIFS_PWR_MMR_TIFS_RSVD14," hexmask.long 0x4 0.--31. 1. "TIFS_RSVD14_VAL0," line.long 0x8 "TIFS_PWR_MMR_TIFS_RSVD15," bitfld.long 0x8 4.--5. "TIFS_RSVD15_VAL2," "0,1,2,3" bitfld.long 0x8 2.--3. "TIFS_RSVD15_VAL1," "0,1,2,3" bitfld.long 0x8 0.--1. "TIFS_RSVD15_VAL0," "0,1,2,3" group.long 0x200++0x3 line.long 0x0 "TIFS_PWR_MMR_PM_DMTIMER_CTRL," bitfld.long 0x0 16. "DMTIMER01_CASCADE," "0,1" bitfld.long 0x0 4.--6. "DMTIMER1_CLK_SEL," "0,1,2,3,4,5,6,7" bitfld.long 0x0 0.--2. "DMTIMER0_CLK_SEL," "0,1,2,3,4,5,6,7" rgroup.long 0x300++0x3 line.long 0x0 "TIFS_PWR_MMR_PM_PERMISSON," bitfld.long 0x0 3. "PMIC_EN_STAT," "0,1" bitfld.long 0x0 2. "SAFETY_ACTIVE," "0,1" bitfld.long 0x0 1. "SECURITY_ACTIVE," "0,1" bitfld.long 0x0 0. "DEBUG_ACTIVE," "0,1" tree.end base ad:0x0 tree "SMS0_RAT" tree "SMS0_RAT_0_RAT (SMS0_RAT_0_RAT)" base ad:0x44200000 rgroup.long 0x0++0x7 line.long 0x0 "TIFS_RAT_MMRS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" line.long 0x4 "TIFS_RAT_MMRS_config,The Config Register contains the configuration values for the module." hexmask.long.byte 0x4 16.--23. 1. "ADDR_WIDTH,Number of address bits" hexmask.long.byte 0x4 8.--15. 1. "ADDRS,Number of addresses" hexmask.long.byte 0x4 0.--7. 1. "REGIONS,Number of regions" group.long 0x804++0x3 line.long 0x0 "TIFS_RAT_MMRS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." group.long 0x820++0x3 line.long 0x0 "TIFS_RAT_MMRS_exception_logging_control,The Exception Logging Control Register controls the exception logging." bitfld.long 0x0 1. "DISABLE_INTR,Disables logging interrupt when set." "0,1" bitfld.long 0x0 0. "DISABLE_F,Disables logging when set." "0,1" rgroup.long 0x824++0x17 line.long 0x0 "TIFS_RAT_MMRS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type. 4 = RAT." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "TIFS_RAT_MMRS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code. 1 = Boundary crossing error." line.long 0x8 "TIFS_RAT_MMRS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "TIFS_RAT_MMRS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 12 bits." line.long 0x10 "TIFS_RAT_MMRS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" newline bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "TIFS_RAT_MMRS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data. Reading this register will clear the error pending bit." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x840++0x13 line.long 0x0 "TIFS_RAT_MMRS_exception_pend_set,The Exception Logging Interrupt Pending Set Register allows to set the pend signal." bitfld.long 0x0 0. "PEND_SET,Write a 1 to set the exception pend signal." "0,1" line.long 0x4 "TIFS_RAT_MMRS_exception_pend_clear,The Exception Logging Interrupt Pending Clear Register allows to clear the pend signal." bitfld.long 0x4 0. "PEND_CLR,Write a 1 to clear the exception pend signal." "0,1" line.long 0x8 "TIFS_RAT_MMRS_exception_enable_set,The Exception Logging Interrupt Enable Set Register allows to set the interrupt enable signal." bitfld.long 0x8 0. "ENABLE_SET,Write a 1 to set the exception interrupt enable signal." "0,1" line.long 0xC "TIFS_RAT_MMRS_exception_enable_clear,The Exception Logging Interrupt Enable Clear Register allows to clear the interrupt enable signal." bitfld.long 0xC 0. "ENABLE_CLR,Write a 1 to clear the exception interrupt enable signal." "0,1" line.long 0x10 "TIFS_RAT_MMRS_eoi_reg,EOI Register" hexmask.long.word 0x10 0.--15. 1. "EOI_WR,EOI Register" group.long 0x20++0xF line.long 0x0 "TIFS_RAT_MMRS_ctrl,The Control for Region a" bitfld.long 0x0 31. "EN,Enable for the Region" "0,1" hexmask.long.byte 0x0 0.--5. 1. "SIZE,Size of the Region in Address Bits. 0 = 1 byte 1 = 2B 2 = 4B 3 = 8B etc. up to 32 = 4GB." line.long 0x4 "TIFS_RAT_MMRS_base,The Base Address for Region a. This is the source address for matching to a region." hexmask.long 0x4 0.--31. 1. "BASE,Base Address for the Region. It must be aligned to the programmed size." line.long 0x8 "TIFS_RAT_MMRS_trans_l,The Translated Lower Address Bits for Region a" hexmask.long 0x8 0.--31. 1. "LOWER,Translated Lower Address Bits for the Region. It must be aligned to the programmed size." line.long 0xC "TIFS_RAT_MMRS_trans_u,The Translated Upper Address Bits for Region a" hexmask.long.word 0xC 0.--15. 1. "UPPER,Translated Upper Address Bits for the Region" tree.end tree "SMS0_RAT_1_HSM_RAT_MMRS (SMS0_RAT_1_HSM_RAT_MMRS)" base ad:0x43A00000 rgroup.long 0x0++0x7 line.long 0x0 "HSM_RAT_MMRS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" line.long 0x4 "HSM_RAT_MMRS_config,The Config Register contains the configuration values for the module." hexmask.long.byte 0x4 16.--23. 1. "ADDR_WIDTH,Number of address bits" hexmask.long.byte 0x4 8.--15. 1. "ADDRS,Number of addresses" hexmask.long.byte 0x4 0.--7. 1. "REGIONS,Number of regions" group.long 0x804++0x3 line.long 0x0 "HSM_RAT_MMRS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." group.long 0x820++0x3 line.long 0x0 "HSM_RAT_MMRS_exception_logging_control,The Exception Logging Control Register controls the exception logging." bitfld.long 0x0 1. "DISABLE_INTR,Disables logging interrupt when set." "0,1" bitfld.long 0x0 0. "DISABLE_F,Disables logging when set." "0,1" rgroup.long 0x824++0x17 line.long 0x0 "HSM_RAT_MMRS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type. 4 = RAT." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "HSM_RAT_MMRS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code. 1 = Boundary crossing error." line.long 0x8 "HSM_RAT_MMRS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "HSM_RAT_MMRS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 12 bits." line.long 0x10 "HSM_RAT_MMRS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" newline bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "HSM_RAT_MMRS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data. Reading this register will clear the error pending bit." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x840++0x13 line.long 0x0 "HSM_RAT_MMRS_exception_pend_set,The Exception Logging Interrupt Pending Set Register allows to set the pend signal." bitfld.long 0x0 0. "PEND_SET,Write a 1 to set the exception pend signal." "0,1" line.long 0x4 "HSM_RAT_MMRS_exception_pend_clear,The Exception Logging Interrupt Pending Clear Register allows to clear the pend signal." bitfld.long 0x4 0. "PEND_CLR,Write a 1 to clear the exception pend signal." "0,1" line.long 0x8 "HSM_RAT_MMRS_exception_enable_set,The Exception Logging Interrupt Enable Set Register allows to set the interrupt enable signal." bitfld.long 0x8 0. "ENABLE_SET,Write a 1 to set the exception interrupt enable signal." "0,1" line.long 0xC "HSM_RAT_MMRS_exception_enable_clear,The Exception Logging Interrupt Enable Clear Register allows to clear the interrupt enable signal." bitfld.long 0xC 0. "ENABLE_CLR,Write a 1 to clear the exception interrupt enable signal." "0,1" line.long 0x10 "HSM_RAT_MMRS_eoi_reg,EOI Register" hexmask.long.word 0x10 0.--15. 1. "EOI_WR,EOI Register" group.long 0x20++0xF line.long 0x0 "HSM_RAT_MMRS_ctrl,The Control for Region a" bitfld.long 0x0 31. "EN,Enable for the Region" "0,1" hexmask.long.byte 0x0 0.--5. 1. "SIZE,Size of the Region in Address Bits. 0 = 1 byte 1 = 2B 2 = 4B 3 = 8B etc. up to 32 = 4GB." line.long 0x4 "HSM_RAT_MMRS_base,The Base Address for Region a. This is the source address for matching to a region." hexmask.long 0x4 0.--31. 1. "BASE,Base Address for the Region. It must be aligned to the programmed size." line.long 0x8 "HSM_RAT_MMRS_trans_l,The Translated Lower Address Bits for Region a" hexmask.long 0x8 0.--31. 1. "LOWER,Translated Lower Address Bits for the Region. It must be aligned to the programmed size." line.long 0xC "HSM_RAT_MMRS_trans_u,The Translated Upper Address Bits for Region a" hexmask.long.word 0xC 0.--15. 1. "UPPER,Translated Upper Address Bits for the Region" tree.end tree.end tree "SMS0_RTI" tree "SMS0_RTI_0_WDT_RTI (SMS0_RTI_0_WDT_RTI)" base ad:0x44135000 group.long 0x0++0x1B line.long 0x0 "TIFS_WDT_RTI_GCTRL," hexmask.long.byte 0x0 16.--19. 1. "NTUSEL,These bits determine which NTU input signal is used as external timebase. There are up to four inputs supported with four valid selection combinations. Any invalid selection value written to the NTUSEL bit-field will result in a TIED LOW being.." newline bitfld.long 0x0 15. "COS,This bit determines if both counters are stopped when the device goes into debug mode or if they continue counting. User and privilege mode (read): 0 = counters are stopped while in debug mode 1 = counters are running while in debug mode.." "0: stop counters in debug mode,1: continue counting in debug mode" newline bitfld.long 0x0 1. "CNT1EN,The CNT1EN bit starts and stops the operation of counter block 1 (UC1 and FRC1). User and privilege mode (read): 0 = counters are stopped 1 = counters are running Privilege mode (write): 0 = stop counters 1 = start counters" "0: stop counters,1: start counters" newline bitfld.long 0x0 0. "CNT0EN,The CNT0EN bit starts and stops the operation of counter block 0 (UC0 and FRC0). User and privilege mode (read): 0 = counters are stopped 1 = counters are running Privilege mode (write): 0 = stop counters 1 = start counters" "0: stop counters,1: start counters" line.long 0x4 "TIFS_WDT_RTI_TBCTRL," bitfld.long 0x4 1. "INC,This bit determines wether the Free Running Counter 0 is automatically incremented if a failing clock on the NTUx signal is detected. User and privilege mode (read): 0 = FRC0 will not be incremented 1 = FRC0 will be incremented Privilege mode.." "0: Do not increment FRC0 on failing external clock,1: Increment FRC0 on failing external clock" newline bitfld.long 0x4 0. "TBEXT,The Timebase External bit selects whether the Free Running Counter 0 is clocked by the internal Up Counter 0 or from the external signal NTUx. Since setting the TBEXT bit to 1 resets Up Counter 0 Free Running Counter 0 will not be incremented in.." "0: MUX is switched to internal UC0 clocking scheme,1: MUX is switched to external NTUx clocking scheme" line.long 0x8 "TIFS_WDT_RTI_CAPCTRL," bitfld.long 0x8 1. "CAPCNTR1,This bit determines which external interrupt source triggers a capture event of both UC1 and FRC1. User and privilege mode (read): 0 = capture event is triggered by Capture Event Source 0 1 = capture event is triggered by Capture Event.." "0: enable capture event triggered by Capture Event..,1: enable capture event triggered by Capture Event.." newline bitfld.long 0x8 0. "CAPCNTR0,This bit determines which external interrupt source triggers a capture event of both UC0 and FRC0. User and privilege mode (read): 0 = capture event is triggered by Capture Event Source 0 1 = capture event is triggered by Capture Event.." "0: enable capture event triggered by Capture Event..,1: enable capture event triggered by Capture Event.." line.long 0xC "TIFS_WDT_RTI_COMPCTRL," bitfld.long 0xC 12. "COMPSEL3,This bit determines the counter with which the compare value hold in compare register 3 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" newline bitfld.long 0xC 8. "COMPSEL2,This bit determines the counter with which the compare value hold in compare register 2 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" newline bitfld.long 0xC 4. "COMPSEL1,This bit determines the counter with which the compare value hold in compare register 1 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" newline bitfld.long 0xC 0. "COMPSEL0,This bit determines the counter with which the compare value hold in compare register 0 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" line.long 0x10 "TIFS_WDT_RTI_FRC0," hexmask.long 0x10 0.--31. 1. "FRC0,This registers holds the current value of the Free Running Counter 0 and will be updated continuously. User and privilege mode (read): current value of the counter Privilege mode (write): The counter can be preset by writing to this register." line.long 0x14 "TIFS_WDT_RTI_UC0," hexmask.long 0x14 0.--31. 1. "UC0,This registers holds the current value of the Up Counter 0 and prescales the RTI clock. It will be only updated by a previous read of Free Running Counter 0. This gives effectively a 64 bit read of both counters without having the problem of a.." line.long 0x18 "TIFS_WDT_RTI_CPUC0," hexmask.long 0x18 0.--31. 1. "CPUC0,This registers holds the compare value which is compared with the Up Counter 0. When the compare matches Free Running counter 0 is incremented. The Up Counter is set to zero when the counter value matches the CPUC0 value. The value set in this.." rgroup.long 0x20++0x7 line.long 0x0 "TIFS_WDT_RTI_CAFRC0," hexmask.long 0x0 0.--31. 1. "CAFRC0,This registers captures the current value of the Free Running Counter 0 when a event occurs controlled by the external capture control block. User and privilege mode (read): value of Free Running Counter 0 on a capture event" line.long 0x4 "TIFS_WDT_RTI_CAUC0," hexmask.long 0x4 0.--31. 1. "CAUC0,This registers captures the current value of the Up Counter 0 when a event occurs controlled by the external capture control block. The read sequence has to be the same as with Up Counter 0 and Free Running Counter 0. So the RTICAFRC0 register.." group.long 0x30++0xB line.long 0x0 "TIFS_WDT_RTI_FRC1," hexmask.long 0x0 0.--31. 1. "FRC1,This registers holds the current value of the Free Running Counter 1 and will be updated continuously. User and privilege mode (read): current value of the counter Privilege mode (write): the counter can be preset by writing to this register." line.long 0x4 "TIFS_WDT_RTI_UC1," hexmask.long 0x4 0.--31. 1. "UC1,This registers holds the current value of the Up Counter 1 and prescales the RTI clock. It will be only updated by a previous read of Free Running Counter 1. This gives effectively a 64 bit read of both counters without having the problem of a.." line.long 0x8 "TIFS_WDT_RTI_CPUC1," hexmask.long 0x8 0.--31. 1. "CPUC1,This registers holds the compare value which is compared with the Up Counter 1. When the compare matches Free Running Counter 1 is incremented. The Up Counter is set to zero when the counter value matches the CPUC1 value. The value set in this.." rgroup.long 0x40++0x7 line.long 0x0 "TIFS_WDT_RTI_CAFRC1," hexmask.long 0x0 0.--31. 1. "CAFRC1,This registers captures the current value of the Free Running Counter 1 when a event occurs controlled by the external capture control block. User and privilege mode (read): value of Free Running Counter 1 on a capture event" line.long 0x4 "TIFS_WDT_RTI_CAUC1," hexmask.long 0x4 0.--31. 1. "CAUC1,This registers captures the current value of the Up Counter 1 when a event occurs controlled by the external capture control block. The read sequence has to be the same as with Up Counter 1 and Free Running Counter 1. So the RTICAFRC1 register.." group.long 0x50++0x27 line.long 0x0 "TIFS_WDT_RTI_COMP0," hexmask.long 0x0 0.--31. 1. "COMP0,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x4 "TIFS_WDT_RTI_UDCP0," hexmask.long 0x4 0.--31. 1. "UDCP0,This registers holds a value which is added to the value in the compare 0 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x8 "TIFS_WDT_RTI_COMP1," hexmask.long 0x8 0.--31. 1. "COMP1,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0xC "TIFS_WDT_RTI_UDCP1," hexmask.long 0xC 0.--31. 1. "UDCP1,This registers holds a value which is added to the value in the compare 1 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x10 "TIFS_WDT_RTI_COMP2," hexmask.long 0x10 0.--31. 1. "COMP2,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x14 "TIFS_WDT_RTI_UDCP2," hexmask.long 0x14 0.--31. 1. "UDCP2,This registers holds a value which is added to the value in the compare 2 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x18 "TIFS_WDT_RTI_COMP3," hexmask.long 0x18 0.--31. 1. "COMP3,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x1C "TIFS_WDT_RTI_UDCP3," hexmask.long 0x1C 0.--31. 1. "UDCP3,This registers holds a value which is added to the value in the compare 3 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x20 "TIFS_WDT_RTI_TBLCOMP," hexmask.long 0x20 0.--31. 1. "TBLCOMP,This value determines when the edge detection circuit starts monitoring the NTUx signal. It will be compared with Up Counter 0. User and privilege mode (read): current compare value Privilege mode (write when TBEXT = 0): the compare value is.." line.long 0x24 "TIFS_WDT_RTI_TBHCOMP," hexmask.long 0x24 0.--31. 1. "TBHCOMP,This value determines when the edge detection circuit will stop monitoring the NTUx signal. It will be compared with Up Counter 0. RTITBHCOMP has to be less than RTICPUC0 since RTIUC0 will be reset when RTICPUC0 is reached. Example: The.." group.long 0x80++0xB line.long 0x0 "TIFS_WDT_RTI_SETINT," bitfld.long 0x0 18. "SETOVL1INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 17. "SETOVL0INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 16. "SETTBINT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 11. "SETDMA3,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 10. "SETDMA2,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 9. "SETDMA1,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 8. "SETDMA0,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 3. "SETINT3,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 2. "SETINT2,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 1. "SETINT1,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 0. "SETINT0,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" line.long 0x4 "TIFS_WDT_RTI_CLEARINT," bitfld.long 0x4 18. "CLEAROVL1INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 17. "CLEAROVL0INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 16. "CLEARTBINT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 11. "CLEARDMA3,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 10. "CLEARDMA2,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 9. "CLEARDMA1,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 8. "CLEARDMA0,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 3. "CLEARINT3,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 2. "CLEARINT2,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 1. "CLEARINT1,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 0. "CLEARINT0,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" line.long 0x8 "TIFS_WDT_RTI_INTFLAG," bitfld.long 0x8 18. "OVL1INT,User and privilege mode (read): determines if an interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 17. "OVL0INT,User and privilege mode (read): determines if an interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 16. "TBINT,User and privilege mode (read): this flag is set when the TBEXT bit is cleared by detection of a missing external clockedge. It will not be set by clearing TBEXT by software. determines if an interrupt is pending 0 = no interrupt pending 1 =.." "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 3. "INT3,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 2. "INT2,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 1. "INT1,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 0. "INT0,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" group.long 0x90++0xF line.long 0x0 "TIFS_WDT_RTI_DWDCTRL," hexmask.long 0x0 0.--31. 1. "DWDCTRL,User and priviledge mode (read): 0x5312ACED = DWD counter is disabled. This is the default value. 0xA98559DA = DWD counter is enabled Any other value = DWD counter state is unchanged (enabled or disabled) Priviledge mode (write): 0xA98559DA.." line.long 0x4 "TIFS_WDT_RTI_DWDPRLD," hexmask.long.word 0x4 0.--11. 1. "DWDPRLD,User and priviledge mode (read): A read from this register in any CPU mode returns the current preload value. Priviledge mode (write): If the DWD is always enabled after reset is released: The DWD starts counting down from the reset value of.." line.long 0x8 "TIFS_WDT_RTI_WDSTATUS," bitfld.long 0x8 5. "DWWD,This bit denotes whether the time-window defined by the windowed watchdog configuration has been violated or if a wrong key or key sequence was written to service the watchdog. User and priviledge mode (read): 0 = no time-window violation has.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 4. "END,This bit denotes whether the end-time defined by the windowed watchdog configuration has been violated. This bit is effectively a copy of the DWD ST status flag. User and priviledge mode (read): 0 = no end-time window violation has occurred. 1 =.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 3. "START,This bit denotes whether the start-time defined by the windowed watchdog configuration has been violated. This indicates that the WWD was serviced before the service window was opened. User and priviledge mode (read): 0 = no start-time window.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 2. "KEYST,This bit denotes a reset generated by a wrong key or a wrong key-sequence written to the RTIWDKEY register. User and priviledge mode (read): 0 = no wrong key or key-sequence written 1 = wrong key or key-sequence written to RTIWDKEY register.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 1. "DWDST,status flag and is maintained for compatibility reasons. User and priviledge mode (read): 0 = DWD timeout period not expired 1 = DWD timeout period has expired Priviledge mode (write): 0 = leaves the current value unchanged 1 = clears the bit.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 0. "AWDST,User and priviledge mode (read): 0 = AWD pin 0 > 1 threshold not exceeded 1 = AWD pin 0 > 1 threshold exceeded Priviledge mode (write): 0 = leaves the current value unchanged 1 = clears the bit to 0" "0: leaves the current value unchanged,1: clears the bit to 0" line.long 0xC "TIFS_WDT_RTI_WDKEY," hexmask.long.word 0xC 0.--15. 1. "WDKEY,User and privilege mode reads are indeterminate. Privilege mode (write): A write of 0xE51A followed by 0xA35C in two separate write operations defines the Key Sequence and discharges the watchdog capacitor. This also causes the upper 12 bits of.." rgroup.long 0xA0++0x3 line.long 0x0 "TIFS_WDT_RTI_DWDCNTR," hexmask.long 0x0 0.--24. 1. "DWDCNTR,The value of the DWDCNTR after a system reset is 0x002D_FFFF. When the DWD is enabled and the DWD counter starts counting down from this value with an RTICLK1 time base of 3MHz a watchdog reset will be generated in 1 second. User and.." group.long 0xA4++0x1B line.long 0x0 "TIFS_WDT_RTI_WWDRXNCTRL," hexmask.long.byte 0x0 0.--3. 1. "WWDRXN,User and privilege mode (read) privileged mode (write): 0x5 = This is the default value. The windowed watchdog will cause a reset if the watchdog is serviced outside the time window defined by the configuration or if the watchdog is not.." line.long 0x4 "TIFS_WDT_RTI_WWDSIZECTRL," hexmask.long 0x4 0.--31. 1. "WWDSIZE,User and privilege mode (read) privileged mode (write): Table 3. Windowed Watchdog Window Size Configuration Value written to WWDSIZE Window Size 0x00000005 100% (The functionality is the same as the standard time-out digital watchdog.).." line.long 0x8 "TIFS_WDT_RTI_INTCLRENABLE," hexmask.long.byte 0x8 24.--27. 1. "INTCLRENABLE3,Enables the auto-clear functionality on the compare 3 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 3 interrupt is disabled. Any other value = Auto-clear for compare 3 interrupt is enabled. Privileged mode.." newline hexmask.long.byte 0x8 16.--19. 1. "INTCLRENABLE2,Enables the auto-clear functionality on the compare 2 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 2 interrupt is disabled. Any other value = Auto-clear for compare 2 interrupt is enabled. Privileged mode.." newline hexmask.long.byte 0x8 8.--11. 1. "INTCLRENABLE1,Enables the auto-clear functionality on the compare 1 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 1 interrupt is disabled. Any other value = Auto-clear for compare 1 interrupt is enabled. Privileged mode.." newline hexmask.long.byte 0x8 0.--3. 1. "INTCLRENABLE0,Enables the auto-clear functionality on the compare 0 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 0 interrupt is disabled. Any other value = Auto-clear for compare 0 interrupt is enabled. Privileged mode.." line.long 0xC "TIFS_WDT_RTI_COMP0CLR," hexmask.long 0xC 0.--31. 1. "COMP0CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 0 interrupt or DMA request line is cleared. User and privilege.." line.long 0x10 "TIFS_WDT_RTI_COMP1CLR," hexmask.long 0x10 0.--31. 1. "COMP1CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 1 interrupt or DMA request line is cleared. User and privilege.." line.long 0x14 "TIFS_WDT_RTI_COMP2CLR," hexmask.long 0x14 0.--31. 1. "COMP2CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 2 interrupt or DMA request line is cleared. User and privilege.." line.long 0x18 "TIFS_WDT_RTI_COMP3CLR," hexmask.long 0x18 0.--31. 1. "COMP3CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 3 interrupt or DMA request line is cleared. User and privilege.." tree.end tree "SMS0_RTI_1_HSM_WDT_RTI (SMS0_RTI_1_HSM_WDT_RTI)" base ad:0x43935000 group.long 0x0++0x1B line.long 0x0 "HSM_WDT_RTI_GCTRL," hexmask.long.byte 0x0 16.--19. 1. "NTUSEL,These bits determine which NTU input signal is used as external timebase. There are up to four inputs supported with four valid selection combinations. Any invalid selection value written to the NTUSEL bit-field will result in a TIED LOW being.." newline bitfld.long 0x0 15. "COS,This bit determines if both counters are stopped when the device goes into debug mode or if they continue counting. User and privilege mode (read): 0 = counters are stopped while in debug mode 1 = counters are running while in debug mode.." "0: stop counters in debug mode,1: continue counting in debug mode" newline bitfld.long 0x0 1. "CNT1EN,The CNT1EN bit starts and stops the operation of counter block 1 (UC1 and FRC1). User and privilege mode (read): 0 = counters are stopped 1 = counters are running Privilege mode (write): 0 = stop counters 1 = start counters" "0: stop counters,1: start counters" newline bitfld.long 0x0 0. "CNT0EN,The CNT0EN bit starts and stops the operation of counter block 0 (UC0 and FRC0). User and privilege mode (read): 0 = counters are stopped 1 = counters are running Privilege mode (write): 0 = stop counters 1 = start counters" "0: stop counters,1: start counters" line.long 0x4 "HSM_WDT_RTI_TBCTRL," bitfld.long 0x4 1. "INC,This bit determines wether the Free Running Counter 0 is automatically incremented if a failing clock on the NTUx signal is detected. User and privilege mode (read): 0 = FRC0 will not be incremented 1 = FRC0 will be incremented Privilege mode.." "0: Do not increment FRC0 on failing external clock,1: Increment FRC0 on failing external clock" newline bitfld.long 0x4 0. "TBEXT,The Timebase External bit selects whether the Free Running Counter 0 is clocked by the internal Up Counter 0 or from the external signal NTUx. Since setting the TBEXT bit to 1 resets Up Counter 0 Free Running Counter 0 will not be incremented in.." "0: MUX is switched to internal UC0 clocking scheme,1: MUX is switched to external NTUx clocking scheme" line.long 0x8 "HSM_WDT_RTI_CAPCTRL," bitfld.long 0x8 1. "CAPCNTR1,This bit determines which external interrupt source triggers a capture event of both UC1 and FRC1. User and privilege mode (read): 0 = capture event is triggered by Capture Event Source 0 1 = capture event is triggered by Capture Event.." "0: enable capture event triggered by Capture Event..,1: enable capture event triggered by Capture Event.." newline bitfld.long 0x8 0. "CAPCNTR0,This bit determines which external interrupt source triggers a capture event of both UC0 and FRC0. User and privilege mode (read): 0 = capture event is triggered by Capture Event Source 0 1 = capture event is triggered by Capture Event.." "0: enable capture event triggered by Capture Event..,1: enable capture event triggered by Capture Event.." line.long 0xC "HSM_WDT_RTI_COMPCTRL," bitfld.long 0xC 12. "COMPSEL3,This bit determines the counter with which the compare value hold in compare register 3 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" newline bitfld.long 0xC 8. "COMPSEL2,This bit determines the counter with which the compare value hold in compare register 2 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" newline bitfld.long 0xC 4. "COMPSEL1,This bit determines the counter with which the compare value hold in compare register 1 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" newline bitfld.long 0xC 0. "COMPSEL0,This bit determines the counter with which the compare value hold in compare register 0 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" line.long 0x10 "HSM_WDT_RTI_FRC0," hexmask.long 0x10 0.--31. 1. "FRC0,This registers holds the current value of the Free Running Counter 0 and will be updated continuously. User and privilege mode (read): current value of the counter Privilege mode (write): The counter can be preset by writing to this register." line.long 0x14 "HSM_WDT_RTI_UC0," hexmask.long 0x14 0.--31. 1. "UC0,This registers holds the current value of the Up Counter 0 and prescales the RTI clock. It will be only updated by a previous read of Free Running Counter 0. This gives effectively a 64 bit read of both counters without having the problem of a.." line.long 0x18 "HSM_WDT_RTI_CPUC0," hexmask.long 0x18 0.--31. 1. "CPUC0,This registers holds the compare value which is compared with the Up Counter 0. When the compare matches Free Running counter 0 is incremented. The Up Counter is set to zero when the counter value matches the CPUC0 value. The value set in this.." rgroup.long 0x20++0x7 line.long 0x0 "HSM_WDT_RTI_CAFRC0," hexmask.long 0x0 0.--31. 1. "CAFRC0,This registers captures the current value of the Free Running Counter 0 when a event occurs controlled by the external capture control block. User and privilege mode (read): value of Free Running Counter 0 on a capture event" line.long 0x4 "HSM_WDT_RTI_CAUC0," hexmask.long 0x4 0.--31. 1. "CAUC0,This registers captures the current value of the Up Counter 0 when a event occurs controlled by the external capture control block. The read sequence has to be the same as with Up Counter 0 and Free Running Counter 0. So the RTICAFRC0 register.." group.long 0x30++0xB line.long 0x0 "HSM_WDT_RTI_FRC1," hexmask.long 0x0 0.--31. 1. "FRC1,This registers holds the current value of the Free Running Counter 1 and will be updated continuously. User and privilege mode (read): current value of the counter Privilege mode (write): the counter can be preset by writing to this register." line.long 0x4 "HSM_WDT_RTI_UC1," hexmask.long 0x4 0.--31. 1. "UC1,This registers holds the current value of the Up Counter 1 and prescales the RTI clock. It will be only updated by a previous read of Free Running Counter 1. This gives effectively a 64 bit read of both counters without having the problem of a.." line.long 0x8 "HSM_WDT_RTI_CPUC1," hexmask.long 0x8 0.--31. 1. "CPUC1,This registers holds the compare value which is compared with the Up Counter 1. When the compare matches Free Running Counter 1 is incremented. The Up Counter is set to zero when the counter value matches the CPUC1 value. The value set in this.." rgroup.long 0x40++0x7 line.long 0x0 "HSM_WDT_RTI_CAFRC1," hexmask.long 0x0 0.--31. 1. "CAFRC1,This registers captures the current value of the Free Running Counter 1 when a event occurs controlled by the external capture control block. User and privilege mode (read): value of Free Running Counter 1 on a capture event" line.long 0x4 "HSM_WDT_RTI_CAUC1," hexmask.long 0x4 0.--31. 1. "CAUC1,This registers captures the current value of the Up Counter 1 when a event occurs controlled by the external capture control block. The read sequence has to be the same as with Up Counter 1 and Free Running Counter 1. So the RTICAFRC1 register.." group.long 0x50++0x27 line.long 0x0 "HSM_WDT_RTI_COMP0," hexmask.long 0x0 0.--31. 1. "COMP0,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x4 "HSM_WDT_RTI_UDCP0," hexmask.long 0x4 0.--31. 1. "UDCP0,This registers holds a value which is added to the value in the compare 0 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x8 "HSM_WDT_RTI_COMP1," hexmask.long 0x8 0.--31. 1. "COMP1,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0xC "HSM_WDT_RTI_UDCP1," hexmask.long 0xC 0.--31. 1. "UDCP1,This registers holds a value which is added to the value in the compare 1 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x10 "HSM_WDT_RTI_COMP2," hexmask.long 0x10 0.--31. 1. "COMP2,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x14 "HSM_WDT_RTI_UDCP2," hexmask.long 0x14 0.--31. 1. "UDCP2,This registers holds a value which is added to the value in the compare 2 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x18 "HSM_WDT_RTI_COMP3," hexmask.long 0x18 0.--31. 1. "COMP3,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x1C "HSM_WDT_RTI_UDCP3," hexmask.long 0x1C 0.--31. 1. "UDCP3,This registers holds a value which is added to the value in the compare 3 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x20 "HSM_WDT_RTI_TBLCOMP," hexmask.long 0x20 0.--31. 1. "TBLCOMP,This value determines when the edge detection circuit starts monitoring the NTUx signal. It will be compared with Up Counter 0. User and privilege mode (read): current compare value Privilege mode (write when TBEXT = 0): the compare value is.." line.long 0x24 "HSM_WDT_RTI_TBHCOMP," hexmask.long 0x24 0.--31. 1. "TBHCOMP,This value determines when the edge detection circuit will stop monitoring the NTUx signal. It will be compared with Up Counter 0. RTITBHCOMP has to be less than RTICPUC0 since RTIUC0 will be reset when RTICPUC0 is reached. Example: The.." group.long 0x80++0xB line.long 0x0 "HSM_WDT_RTI_SETINT," bitfld.long 0x0 18. "SETOVL1INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 17. "SETOVL0INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 16. "SETTBINT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 11. "SETDMA3,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 10. "SETDMA2,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 9. "SETDMA1,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 8. "SETDMA0,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 3. "SETINT3,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 2. "SETINT2,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 1. "SETINT1,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 0. "SETINT0,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" line.long 0x4 "HSM_WDT_RTI_CLEARINT," bitfld.long 0x4 18. "CLEAROVL1INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 17. "CLEAROVL0INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 16. "CLEARTBINT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 11. "CLEARDMA3,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 10. "CLEARDMA2,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 9. "CLEARDMA1,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 8. "CLEARDMA0,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 3. "CLEARINT3,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 2. "CLEARINT2,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 1. "CLEARINT1,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 0. "CLEARINT0,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" line.long 0x8 "HSM_WDT_RTI_INTFLAG," bitfld.long 0x8 18. "OVL1INT,User and privilege mode (read): determines if an interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 17. "OVL0INT,User and privilege mode (read): determines if an interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 16. "TBINT,User and privilege mode (read): this flag is set when the TBEXT bit is cleared by detection of a missing external clockedge. It will not be set by clearing TBEXT by software. determines if an interrupt is pending 0 = no interrupt pending 1 =.." "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 3. "INT3,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 2. "INT2,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 1. "INT1,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 0. "INT0,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" group.long 0x90++0xF line.long 0x0 "HSM_WDT_RTI_DWDCTRL," hexmask.long 0x0 0.--31. 1. "DWDCTRL,User and priviledge mode (read): 0x5312ACED = DWD counter is disabled. This is the default value. 0xA98559DA = DWD counter is enabled Any other value = DWD counter state is unchanged (enabled or disabled) Priviledge mode (write): 0xA98559DA.." line.long 0x4 "HSM_WDT_RTI_DWDPRLD," hexmask.long.word 0x4 0.--11. 1. "DWDPRLD,User and priviledge mode (read): A read from this register in any CPU mode returns the current preload value. Priviledge mode (write): If the DWD is always enabled after reset is released: The DWD starts counting down from the reset value of.." line.long 0x8 "HSM_WDT_RTI_WDSTATUS," bitfld.long 0x8 5. "DWWD,This bit denotes whether the time-window defined by the windowed watchdog configuration has been violated or if a wrong key or key sequence was written to service the watchdog. User and priviledge mode (read): 0 = no time-window violation has.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 4. "END,This bit denotes whether the end-time defined by the windowed watchdog configuration has been violated. This bit is effectively a copy of the DWD ST status flag. User and priviledge mode (read): 0 = no end-time window violation has occurred. 1 =.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 3. "START,This bit denotes whether the start-time defined by the windowed watchdog configuration has been violated. This indicates that the WWD was serviced before the service window was opened. User and priviledge mode (read): 0 = no start-time window.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 2. "KEYST,This bit denotes a reset generated by a wrong key or a wrong key-sequence written to the RTIWDKEY register. User and priviledge mode (read): 0 = no wrong key or key-sequence written 1 = wrong key or key-sequence written to RTIWDKEY register.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 1. "DWDST,status flag and is maintained for compatibility reasons. User and priviledge mode (read): 0 = DWD timeout period not expired 1 = DWD timeout period has expired Priviledge mode (write): 0 = leaves the current value unchanged 1 = clears the bit.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 0. "AWDST,User and priviledge mode (read): 0 = AWD pin 0 > 1 threshold not exceeded 1 = AWD pin 0 > 1 threshold exceeded Priviledge mode (write): 0 = leaves the current value unchanged 1 = clears the bit to 0" "0: leaves the current value unchanged,1: clears the bit to 0" line.long 0xC "HSM_WDT_RTI_WDKEY," hexmask.long.word 0xC 0.--15. 1. "WDKEY,User and privilege mode reads are indeterminate. Privilege mode (write): A write of 0xE51A followed by 0xA35C in two separate write operations defines the Key Sequence and discharges the watchdog capacitor. This also causes the upper 12 bits of.." rgroup.long 0xA0++0x3 line.long 0x0 "HSM_WDT_RTI_DWDCNTR," hexmask.long 0x0 0.--24. 1. "DWDCNTR,The value of the DWDCNTR after a system reset is 0x002D_FFFF. When the DWD is enabled and the DWD counter starts counting down from this value with an RTICLK1 time base of 3MHz a watchdog reset will be generated in 1 second. User and.." group.long 0xA4++0x1B line.long 0x0 "HSM_WDT_RTI_WWDRXNCTRL," hexmask.long.byte 0x0 0.--3. 1. "WWDRXN,User and privilege mode (read) privileged mode (write): 0x5 = This is the default value. The windowed watchdog will cause a reset if the watchdog is serviced outside the time window defined by the configuration or if the watchdog is not.." line.long 0x4 "HSM_WDT_RTI_WWDSIZECTRL," hexmask.long 0x4 0.--31. 1. "WWDSIZE,User and privilege mode (read) privileged mode (write): Table 3. Windowed Watchdog Window Size Configuration Value written to WWDSIZE Window Size 0x00000005 100% (The functionality is the same as the standard time-out digital watchdog.).." line.long 0x8 "HSM_WDT_RTI_INTCLRENABLE," hexmask.long.byte 0x8 24.--27. 1. "INTCLRENABLE3,Enables the auto-clear functionality on the compare 3 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 3 interrupt is disabled. Any other value = Auto-clear for compare 3 interrupt is enabled. Privileged mode.." newline hexmask.long.byte 0x8 16.--19. 1. "INTCLRENABLE2,Enables the auto-clear functionality on the compare 2 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 2 interrupt is disabled. Any other value = Auto-clear for compare 2 interrupt is enabled. Privileged mode.." newline hexmask.long.byte 0x8 8.--11. 1. "INTCLRENABLE1,Enables the auto-clear functionality on the compare 1 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 1 interrupt is disabled. Any other value = Auto-clear for compare 1 interrupt is enabled. Privileged mode.." newline hexmask.long.byte 0x8 0.--3. 1. "INTCLRENABLE0,Enables the auto-clear functionality on the compare 0 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 0 interrupt is disabled. Any other value = Auto-clear for compare 0 interrupt is enabled. Privileged mode.." line.long 0xC "HSM_WDT_RTI_COMP0CLR," hexmask.long 0xC 0.--31. 1. "COMP0CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 0 interrupt or DMA request line is cleared. User and privilege.." line.long 0x10 "HSM_WDT_RTI_COMP1CLR," hexmask.long 0x10 0.--31. 1. "COMP1CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 1 interrupt or DMA request line is cleared. User and privilege.." line.long 0x14 "HSM_WDT_RTI_COMP2CLR," hexmask.long 0x14 0.--31. 1. "COMP2CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 2 interrupt or DMA request line is cleared. User and privilege.." line.long 0x18 "HSM_WDT_RTI_COMP3CLR," hexmask.long 0x18 0.--31. 1. "COMP3CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 3 interrupt or DMA request line is cleared. User and privilege.." tree.end tree.end tree "SMS0_SEC_MGR_0_SECMGR (SMS0_SEC_MGR_0_SECMGR)" base ad:0x44234000 rgroup.long 0x0++0x3 line.long 0x0 "TIFS_SECMGR_SEC_MGR_ID,This is the standard TI peripheral ID register that exists at address 0 in the peripheral space" bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish which ID numbering scheme is used." "0,1,2,3" bitfld.long 0x0 28.--29. "BU,BU identifier" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "FUNC,Module family." hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,RTL version. R of X.Y.R.Z" newline bitfld.long 0x0 8.--10. "MAJOR_REV,Major revision. X of X.Y.R.Z" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Special version number" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV,Minor revision. Y of X.Y.R.Z" rgroup.long 0x100++0x3 line.long 0x0 "TIFS_SECMGR_SYS_STATUS,The System Status Register contains status information on the state of the security system. This is the only register that must be read to determine the status of the entire system. It is a readonly register and some bit will be.." hexmask.long.byte 0x0 8.--11. 1. "HS_SUBTYPE,HS/EMU Sub-type. 0xA = Field Securable. Else = Security Enforced" hexmask.long.byte 0x0 0.--3. 1. "DEVICE_TYPE,Decoded device type" rgroup.long 0x150++0x3 line.long 0x0 "TIFS_SECMGR_FSM_STATUS,The FSM Status Register contains Secure FSM state machine information" bitfld.long 0x0 8.--9. "OVERRIDE_STATE,This is the override status" "0,1,2,3" hexmask.long.byte 0x0 0.--7. 1. "FSM_CURRENT_STATE,This is the state machine FSM current state variable" rgroup.long 0x200++0x3 line.long 0x0 "TIFS_SECMGR_EFUSE_STATUS,The EFUSE Status register contains status information on the state of the EFUSE scan chains. It is a read-only register with values from input ports." hexmask.long.byte 0x0 24.--28. 1. "SEC_EFUSE_ERROR,These bits reflect the value on the sec_efuse_error port" bitfld.long 0x0 16. "SEC_EFUSE_READY,These bits reflect the value on the sec_efuse_ready port" "0,1" rgroup.long 0x210++0x3 line.long 0x0 "TIFS_SECMGR_RESET_STATUS,The Reset Status Register provides visibility of resets within the system. These bits are read-only and will be cleared when a 1 is written to a given bit location. They will record the fact that a given reset occurred." bitfld.long 0x0 5. "CUST_EFUSE_RST,Captures reset events on port: sec_efc_fclrz" "0,1" bitfld.long 0x0 0. "POR,Captures reset events on port: por_rst_n" "0,1" rgroup.long 0x300++0x3 line.long 0x0 "TIFS_SECMGR_WRITE_ONCE_ONLY_STATUS,As a debug aid we need to be able to read the write-once only bits to know their state. This register makes all these write-once only flags visible in current state." bitfld.long 0x0 31. "MSV_ACCESS_CONTROL_LOCKED," "0,1" bitfld.long 0x0 30. "SWRV_ACCESS_CONTROL_LOCKED," "0,1" newline bitfld.long 0x0 29. "BMEK_ACCESS_CONTROL_LOCKED," "0,1" bitfld.long 0x0 28. "BMPK_PT2_ACCESS_CONTROL_LOCKED," "0,1" newline bitfld.long 0x0 27. "BMPK_PT1_ACCESS_CONTROL_LOCKED," "0,1" bitfld.long 0x0 26. "SMEK_ACCESS_CONTROL_LOCKED," "0,1" newline bitfld.long 0x0 25. "SMPK_PT2_ACCESS_CONTROL_LOCKED," "0,1" bitfld.long 0x0 24. "SMPK_PT1_ACCESS_CONTROL_LOCKED," "0,1" newline bitfld.long 0x0 19. "KEK_ACCESS_CONTROL_LOCKED," "0,1" bitfld.long 0x0 18. "TIMEK_ACCESS_CONTROL_LOCKED," "0,1" newline bitfld.long 0x0 17. "TIMPK_PT2_ACCESS_CONTROL_LOCKED," "0,1" bitfld.long 0x0 16. "TIMPK_PT1_ACCESS_CONTROL_LOCKED," "0,1" newline bitfld.long 0x0 14. "SEC_TRACE_ENABLE," "0,1" bitfld.long 0x0 13. "SEC_DEBUG_ENABLE," "0,1" newline bitfld.long 0x0 12. "SEC_EMU_ENABLE," "0,1" bitfld.long 0x0 11. "SMS_DBGEN," "0,1" newline bitfld.long 0x0 10. "SEC_OVERRIDE," "0,1" bitfld.long 0x0 9. "SEC_ROM_ACCESS," "0,1" newline bitfld.long 0x0 8. "FW_BYPASS_ACCESS_REG," "0,1" bitfld.long 0x0 5. "SEC_TEST_EN," "0,1" newline bitfld.long 0x0 4. "BSC_ENABLE," "0,1" bitfld.long 0x0 3. "CATSCAN_ENABLE," "0,1" newline bitfld.long 0x0 2. "DMLED_CORE," "0,1" bitfld.long 0x0 1. "SEC_EFUSE_RD_DISABLE," "0,1" newline bitfld.long 0x0 0. "SEC_EFUSE_WR_DISABLE," "0,1" rgroup.long 0x400++0x3 line.long 0x0 "TIFS_SECMGR_OVERRIDE_STATUS,This Register reflects the status of Override request." bitfld.long 0x0 2. "OVERRIDE_SEQ_COMPLETE," "0,1" bitfld.long 0x0 1. "SMS_OVERRIDE_IN_SCOPE," "0,1" newline bitfld.long 0x0 0. "OVERRIDE_ACTIVE," "0,1" rgroup.long 0x500++0x3 line.long 0x0 "TIFS_SECMGR_EFUSE_JTAG_DISABLE_STATUS,This Register reflects the status of efuse based JTAG disable feature. Once JTAG has been disabled via Efuse. there can be no debug and TI cannot do any RMA." hexmask.long.byte 0x0 0.--3. 1. "JTAG_DISABLE," rgroup.long 0x700++0x3 line.long 0x0 "TIFS_SECMGR_TI_MPK_PART1_STATUS_REG,This register echoes the TI MPK-Part1 value. the MPK value can be muted via MPK Access control register." hexmask.long 0x0 0.--31. 1. "TI_MPK,TI MP value as read from TI MPK Data Reg. This register is mere echo of Data Register" rgroup.long 0x750++0x3 line.long 0x0 "TIFS_SECMGR_TI_MPK_PART2_STATUS_REG,This register echoes the TI MPK-Part2 value. the MPK value can be muted via MPK Access control register." hexmask.long 0x0 0.--31. 1. "TI_MPK,TI MP value as read from TI MPK Data Reg. This register is mere echo of Data Register" rgroup.long 0x780++0x3 line.long 0x0 "TIFS_SECMGR_TI_MEK_ID_STATUS_REG,This register echoes the TI MEK ID value. this is used to ID the key used for MEK." hexmask.long 0x0 0.--31. 1. "TI_MEK_ID,TI MEK ID value as read from TI MEK ID data register this is mere echo of TI MEK ID Register." rgroup.long 0x800++0x3 line.long 0x0 "TIFS_SECMGR_SMPK_PART1_STATUS_REG,This register echoes the SMPK-Part1 value. the MPK value can be muted via MPK Access control register." hexmask.long 0x0 0.--31. 1. "SMPK,SMPK value as read from SMPK Data Register. This register is mere echo of SMPK Data register." rgroup.long 0x850++0x3 line.long 0x0 "TIFS_SECMGR_SMPK_PART2_STATUS_REG,This register echoes the SMPK-Part2 value. the MPK value can be muted via MPK Access control register." hexmask.long 0x0 0.--31. 1. "SMPK,SMPK value as read from SMPK Data Register. This register is mere echo of SMPK Data register." rgroup.long 0x880++0x3 line.long 0x0 "TIFS_SECMGR_SMEK_ID_STATUS_REG,This register echoes the SMEK ID value. this is used to ID the key used for SMEK." hexmask.long 0x0 0.--31. 1. "SMEK,SMEK ID value as read from SMEK ID data register this is mere echo of SMEK ID Register." rgroup.long 0x900++0x3 line.long 0x0 "TIFS_SECMGR_BMPK_PART1_STATUS_REG,This register echoes the BMPK-Part1 value. the MPK value can be muted via MPK Access control register." hexmask.long 0x0 0.--31. 1. "BMPK,BMPK value as read from BMPK Data Register. This register is mere echo of BMPK Data register." rgroup.long 0x950++0x3 line.long 0x0 "TIFS_SECMGR_BMPK_PART2_STATUS_REG,This register echoes the BMPK-Part2 value. the MPK value can be muted via MPK Access control register." hexmask.long 0x0 0.--31. 1. "BMPK,BMPK value as read from BMPK Data Register. This register is mere echo of BMPK Data register." rgroup.long 0x980++0x3 line.long 0x0 "TIFS_SECMGR_BMEK_ID_STATUS_REG,This register echoes the BMEK ID value. this is used to ID the key used for BMEK." hexmask.long 0x0 0.--31. 1. "BMEK,BMEK ID value as read from BMEK ID data register this is mere echo of BMEK ID Register." rgroup.long 0xD00++0x3 line.long 0x0 "TIFS_SECMGR_SWRV_STATUS_REG,This register echoes the SWRV value. the SWRV value can be muted via SWRV Access control register." hexmask.long 0x0 0.--31. 1. "SWRV,SWRV value as read from SWRV Data Register. This register is mere echo of SWRV Data register." rgroup.long 0xD50++0x3 line.long 0x0 "TIFS_SECMGR_MSV_STATUS_REG,This register echoes the MSV value. the MSV value can be muted via MSV Access control register." hexmask.long.tbyte 0x0 0.--23. 1. "MSV,MSV value as read from MSV Data Register. This register is mere echo of MSV Data register." group.long 0x1000++0x3 line.long 0x0 "TIFS_SECMGR_FIREWALL_BYPASS_CONTROL,This register controls the bypass feature for all SoC firewall. Once locked. the register cannot be changed till POR." hexmask.long.byte 0x0 24.--27. 1. "LOCK_REGISTER,Unlock code is 0xA if value is anything else the register locks once locked this register cannot be changed till POR." hexmask.long.byte 0x0 8.--11. 1. "SMS_FIREWALL_BYPASS,Writing code 0xA will put SMS firewall in bypass mode. Please refer to firewall spec for bypass mode operation." newline hexmask.long.byte 0x0 0.--3. 1. "SOC_FIREWALL_BYPASS,Writing code 0xA will put all SoC firewall in bypass mode excluding SMS. Please refer to firewall spec for bypass mode operation" group.long 0x1010++0x3 line.long 0x0 "TIFS_SECMGR_PVU_CONTROL,This register controls the security of PVU/IO-MMU module. Once locked. the register cannot be changed till POR." hexmask.long.byte 0x0 24.--27. 1. "LOCK_REGISTER,Unlock code is 0xA if value is anything else the register locks once locked this register cannot be changed till POR." hexmask.long.byte 0x0 0.--3. 1. "PVU_SEC_MODE_EN,Writing code 0xA allows PVC to operate in secure mode." group.long 0x1100++0x7 line.long 0x0 "TIFS_SECMGR_OVERRIDE_CNTL,Override sequence start register. writing 0xA start the override sequence as documented. This register can only be written once during each POR and the value is sticky." hexmask.long.byte 0x0 8.--11. 1. "SMS_IN_SCOPE,Writing code 0xA will put SMS also in in scope of override please refer to flow in previous section. This must be set along with override_sequence_start." hexmask.long.byte 0x0 0.--3. 1. "OVERRIDE_SEQUENCE_START,Override sequence start bit writing 0xA starts the operation" line.long 0x4 "TIFS_SECMGR_OVERRIDE_DELAY_LOOP,This register holds delay loop counter to allow SMS to enter WFI before SMS override is effeictive." hexmask.long 0x4 0.--31. 1. "SMS_OVERRIDE_DELAY_LOOP_CNT,SMS Delay loop counter override is effective when counter reaches Zero. This counter is running on PLL output clock hence ROM/SW must ensure delay based on system PLL SMS clock." group.long 0x1150++0x3 line.long 0x0 "TIFS_SECMGR_SRAM_ERASE,This register control the Erase function of SRAM and ROM access control." hexmask.long.byte 0x0 24.--31. 1. "SMS_ERASE_ASSERT_CYCLES,This MMR control the assertion time of SMS Erase signal. This is required as certain SRAM erase logic may have time requirement to keep signal asserted. Runs as same clock as Sec-mgr clock." hexmask.long.byte 0x0 16.--19. 1. "ERASE_SMS_SRAMS,Writing code 0xA will send signal to erase SMS SRAM this will erase all SMS SRAM including data and code SRAM. Care must be taken to ensure SMS Cortex-M4F is in not executing from SRAM when this signal is asserted." newline hexmask.long.byte 0x0 8.--15. 1. "SOC_ERASE_ASSERT_CYCLES,This MMR control the assertion time of SOC Erase signal. This is required as certain SRAM erase logic may have time requirement to keep signal asserted. Runs as same clock as Sec-mgr clock." hexmask.long.byte 0x0 0.--3. 1. "ERASE_SRAMS,Writing code 0xA will send signal to all SoC level SRAM to erase the RAM. This bit does not erase SMS internal SRAM." group.long 0x1180++0x3 line.long 0x0 "TIFS_SECMGR_SECROM_ACCESS_CNTL,This register controls the Erase function of SRAM and ROM access control." hexmask.long.byte 0x0 24.--27. 1. "LOCK_REGISTER,Unlock code is 0xA if value is anything else the register locks once locked this register cannot be changed till POR" hexmask.long.byte 0x0 0.--3. 1. "SEC_ROM_ENABLE,Writing code 0xA will enable access to secure ROM for all other value the secure ROM is disabled." group.long 0x1200++0x3 line.long 0x0 "TIFS_SECMGR_SMS_DEBUG_CNTL,This register controls the SMS Debug TAP. This register can be locked. This is pure SW managed register with NO initial value from Efuses." hexmask.long.byte 0x0 0.--3. 1. "SMS_DBGEN_ENABLE,Writing code 0xA will enable Debug for SMS. SW/ROM must be very careful using this. This is set for EMU mode." group.long 0x1210++0x3 line.long 0x0 "TIFS_SECMGR_SOC_SEC_DBG_CNTL,This register controls the SoC Debug TAP. This register can be locked. This is pure SW managed register with NO initial value from Efuses." hexmask.long.byte 0x0 16.--19. 1. "SEC_TRACE_ENABLE,Writing code 0xA will allow Trace for SoC. This assert Trace signals that are also controlled by SoC Debug/trace control register. Once set all security emulation are active. SW/ROM must be very careful using this." hexmask.long.byte 0x0 8.--11. 1. "SEC_EMU_ENABLE,Writing code 0xA will allow Secure Emulation for All SoC. Once set all security emulation are active. SW/ROM must be very careful using this." newline hexmask.long.byte 0x0 0.--3. 1. "SEC_DBG_ENABLE,Writing code 0xA will enable full Debug for SoC. This open complete SoC Debug TAPs except SMS." group.long 0x1220++0x3 line.long 0x0 "TIFS_SECMGR_DEBUGSS_DOM,This register controls the DebugSS DOM" hexmask.long.word 0x0 0.--10. 1. "DEBUGSS_SEC_CTL_DOM,DOM value as per DebugSS spec" group.long 0x1230++0x17 line.long 0x0 "TIFS_SECMGR_DEBUGSS_CNTL,This register controls DebugSS Internal Firewall. This register can be locked. Once locked. the register cannot be changed until POR" hexmask.long.byte 0x0 28.--31. 1. "DEBUGSS_AUX_FT3,Writing code 0xA will assert signal debugss_aux_ft_signals bit 3" hexmask.long.byte 0x0 24.--27. 1. "DEBUGSS_AUX_FT2,Writing code 0xA will assert signal debugss_aux_ft_signals bit 2" newline hexmask.long.byte 0x0 20.--23. 1. "DEBUGSS_AUX_FT1,Writing code 0xA will assert signal debugss_aux_ft_signals bit 1" hexmask.long.byte 0x0 16.--19. 1. "DEBUGSS_AUX_FT0,Writing code 0xA will assert signal debugss_aux_ft_signals bit 0" newline hexmask.long.byte 0x0 12.--15. 1. "DEBUGSS_SEC_VBUSM_FW_EN,Writing code 0xA will enable DebugSS internal VBUSM firewall interface else it is disabled" hexmask.long.byte 0x0 8.--11. 1. "DEBUGSS_SEC_AXIAP_FW_EN,Writing code 0xA will enable DebugSS internal AXI AP firewall interface else it is disabled" newline hexmask.long.byte 0x0 4.--7. 1. "DEBUGSS_APBAP_FW_EN,Writing code 0xA will enable DebugSS internal APB AP firewall interface else it is disabled" hexmask.long.byte 0x0 0.--3. 1. "DEBUGSS_JTAGAP_FW_EN,Writing code 0xA will enable DebugSS internal JTAG firewall interface else it is disabled" line.long 0x4 "TIFS_SECMGR_DEBUGSS_DBG_TAP_FW_EN,This register controls the DebugSS Debug Tap. This register can be locked. Once locked. the register cannot be changed till POR. This register gets NO initial value from Efuses" hexmask.long 0x4 0.--31. 1. "DEBUGSS_DBG_TAP_FW_EN,DebugSS Debug Tap Firewall Enable" line.long 0x8 "TIFS_SECMGR_DEBUGSS_TEST_TAP_FW_EN,This register controls the DebugSS Test Tap. This register can be locked. Once locked. the register cannot be changed till POR. This register gets NO initial value from Efuses" hexmask.long 0x8 0.--31. 1. "DEBUGSS_TEST_TAP_FW_EN,DebugSS Test Tap Firewall Enable" line.long 0xC "TIFS_SECMGR_DEBUGSS_PWR_FW_EN,This register controls the DebugSS Firewall Enable. This register can be locked. Once locked. the register cannot be changed till POR. This register gets NO initial value from Efuses" hexmask.long 0xC 0.--31. 1. "DEBUGSS_PWR_FW_EN,DebugSS Security Firewall Enable" line.long 0x10 "TIFS_SECMGR_DEBUGSS_CMX_FW_EN,This register controls the DebugSS Core Enable. This register can be locked. Once locked. the register cannot be changed till POR. This register gets NO initial value from Efuses" hexmask.long 0x10 0.--31. 1. "DEBUGSS_CMX_FW_EN,DebugSS Core Enable" line.long 0x14 "TIFS_SECMGR_DEBUGSS_AUX,This register controls the Debugss aux signals. This register can be locked. Once locked. the register cannot be changed till POR. This register gets NO initial value from Efuses." hexmask.long 0x14 0.--31. 1. "DEBUGSS_AUX,DebugSS aux reserved signals" group.long 0x1250++0x3 line.long 0x0 "TIFS_SECMGR_SOC_TRACE_CNTL,This register controls SoC Trace. This register can be locked. Once locked. the register cannot be changed till POR. This register gets NO initial value from Efuses." hexmask.long.byte 0x0 12.--15. 1. "SPNIDEN,Writing 0xA will enable spniden" hexmask.long.byte 0x0 8.--11. 1. "SPIDEN,Writing 0xA will enable spiden" newline hexmask.long.byte 0x0 4.--7. 1. "NIDEN,Writing 0xA will enable niden" hexmask.long.byte 0x0 0.--3. 1. "DBGEN,Writing 0xA will enable dbgen" group.long 0x1280++0x3 line.long 0x0 "TIFS_SECMGR_DFT_CNTL,This register controls the DFT access of the device. These bits can only be written once during each POR." hexmask.long.byte 0x0 20.--23. 1. "SEC_TEST_ENABLE,Control the use of Test Enable. Writing a 0xA will enable test" hexmask.long.byte 0x0 16.--19. 1. "BSC_ENABLE,Control the use of Boundary Scan Chain. Writing a 0xA will enable BSCAN" newline hexmask.long.byte 0x0 8.--11. 1. "CATSCAN_ENABLE,Control the use of the CatScan module. Writing a 0xA will enable CATSCAN" hexmask.long.byte 0x0 0.--3. 1. "DMLED_CORE_EN,Writing code 0xA will allow DMLED module to operate. Else DMLED mode is disabled." group.long 0x12A0++0x3 line.long 0x0 "TIFS_SECMGR_EFUSE_FROM_CNTL,This register controls the Efuse access of the device. These bits can only be written once during each POR. This is pure SW managed register with NO initial value from Efuses." hexmask.long.byte 0x0 24.--27. 1. "SECURITY_EFUSE_FROM_RD_ENABLE_BIT2,Customer General OTP Programmable FROM EFUSE Read Disable. 0xA - Reads allowed to Customer General OTP EFUSE FROM. Else - Reads not allowed to Customer General OTP EFUSE FROM." hexmask.long.byte 0x0 20.--23. 1. "SECURITY_EFUSE_FROM_RD_ENABLE_BIT1,Customer Key Material Programmable FROM EFUSE Read Disable. 0xA - Reads allowed to Customer Key Material EFUSE FROM. Else - Reads not allowed to Customer Key Material EFUSE FROM." newline hexmask.long.byte 0x0 16.--19. 1. "SECURITY_EFUSE_FROM_RD_ENABLE_BIT0,TI Key Material Programmable FROM EFUSE Read Disable. 0xA - Reads allowed to TI Key Material EFUSE FROM. Else - Reads not allowed to TI Key Material EFUSE FROM." hexmask.long.byte 0x0 8.--11. 1. "SECURITY_EFUSE_FROM_WR_ENABLE_BIT2,Customer General OTP Programmable FROM EFUSE Write Disable. 0xA - Writes allowed to Customer General OTP EFUSE FROM. Else - Writes not allowed to Customer General OTP EFUSE FROM." newline hexmask.long.byte 0x0 4.--7. 1. "SECURITY_EFUSE_FROM_WR_ENABLE_BIT1,Customer Key Material Programmable FROM EFUSE Write Disable. 0xA - Writes allowed to Customer Key Material EFUSE FROM. Else - Writes not allowed to Customer Key Material EFUSE FROM." hexmask.long.byte 0x0 0.--3. 1. "SECURITY_EFUSE_FROM_WR_ENABLE_BIT0,TI Key Material Programmable FROM EFUSE Write Disable. 0xA - Writes allowed to TI Key Material EFUSE FROM. Else - Writes not allowed to TI Key Material EFUSE FROM." group.long 0x1500++0x3 line.long 0x0 "TIFS_SECMGR_FAULT_TOLERANT_EFUSE_OPTS,This register holds the fault tolerant options that are sensitive from security standpoint. ROM defines these options. ROM can choose to use this option as single bit flag. however for security options fault tolerant.." hexmask.long.byte 0x0 28.--31. 1. "OPT7,If the value is 0xA then selected option is enabled. Else: Selected option is disabled. ROM code defines this option bit" hexmask.long.byte 0x0 24.--27. 1. "OPT6,If the value is 0xA then selected option is enabled. Else: Selected option is disabled. ROM code defines this option bit" newline hexmask.long.byte 0x0 20.--23. 1. "OPT5,If the value is 0xA then selected option is enabled. Else: Selected option is disabled. ROM code defines this option bit" hexmask.long.byte 0x0 16.--19. 1. "OPT4,If the value is 0xA then selected option is enabled. Else: Selected option is disabled. ROM code defines this option bit" newline hexmask.long.byte 0x0 12.--15. 1. "OPT3,If the value is 0xA then selected option is enabled. Else: Selected option is disabled. ROM code defines this option bit" hexmask.long.byte 0x0 8.--11. 1. "OPT2,If the value is 0xA then selected option is enabled. Else: Selected option is disabled. ROM code defines this option bit" newline hexmask.long.byte 0x0 4.--7. 1. "OPT1,If the value is 0xA then selected option is enabled. Else: Selected option is disabled. ROM code defines this option bit" hexmask.long.byte 0x0 0.--3. 1. "OPT0,If the value is 0xA then selected option is enabled. Else: Selected option is disabled. ROM code defines this option bit" group.long 0x1510++0x3 line.long 0x0 "TIFS_SECMGR_NON_FAULT_TOLERANT_EFUSE_OPTS,This register holds device config. these are non-fault tolerant. This register gets initial value from Security Efuse FROM." hexmask.long 0x0 0.--31. 1. "OPTS,This register holds device config data. ROM code defines these fields" rgroup.long 0x1600++0x3 line.long 0x0 "TIFS_SECMGR_FAULT_TOLERANT_HW_EFUSE_OPTS,This register control external signals that can be used to control various/misc security knobs at SoC. it is not defined by security Manager. This register gets initial value from Security Efuse FROM." hexmask.long.byte 0x0 28.--31. 1. "OPT7,If the value is 0xA then bit[7] of ft_hw_efuse_security_ctrl is set (asserted) else it remain clear (de-asserted). ROM/SW cannot change this config this is true HW config" hexmask.long.byte 0x0 24.--27. 1. "OPT6,If the value is 0xA then bit[6] of ft_hw_efuse_security_ctrl is set (asserted) else it remain clear (de-asserted). ROM/SW cannot change this config this is true HW config" newline hexmask.long.byte 0x0 20.--23. 1. "OPT5,If the value is 0xA then bit[5] of ft_hw_efuse_security_ctrl is set (asserted) else it remain clear (de-asserted). ROM/SW cannot change this config this is true HW config" hexmask.long.byte 0x0 16.--19. 1. "OPT4,If the value is 0xA then bit[4] of ft_hw_efuse_security_ctrl is set (asserted) else it remain clear (de-asserted). ROM/SW cannot change this config this is true HW config" newline hexmask.long.byte 0x0 12.--15. 1. "OPT3,If the value is 0xA then bit[3] of ft_hw_efuse_security_ctrl is set (asserted) else it remain clear (de-asserted). ROM/SW cannot change this config this is true HW config" hexmask.long.byte 0x0 8.--11. 1. "OPT2,If the value is 0xA then bit[2] of ft_hw_efuse_security_ctrl is set (asserted) else it remain clear (de-asserted). ROM/SW cannot change this config this is true HW config" newline hexmask.long.byte 0x0 4.--7. 1. "OPT1,If the value is 0xA then bit[1] of ft_hw_efuse_security_ctrl is set (asserted) else it remain clear (de-asserted). ROM/SW cannot change this config this is true HW config" hexmask.long.byte 0x0 0.--3. 1. "OPT0,If the value is 0xA then bit[0] of ft_hw_efuse_security_ctrl is set (asserted) else it remain clear (de-asserted). ROM/SW cannot change this config this is true HW config" rgroup.long 0x1610++0x3 line.long 0x0 "TIFS_SECMGR_NON_FAULT_TOLERANT_HW_EFUSE_OPTS,This register holds device config. these are non-fault tolerant. This register gets initial value from Security" hexmask.long 0x0 0.--31. 1. "OPTS,This register holds device config data. HW uses this to enable/disable security feature. This drives output signal nonft_hw_efuse_security_ctrl[31:0]. ROM/SW cannot change this config this is true HW config" group.long 0x1650++0x3 line.long 0x0 "TIFS_SECMGR_EXT_SEC_CNTL_SIG,This register holds device config. these are non-fault tolerant. This is pure SW managed register with NO initial value from Efuses." hexmask.long 0x0 0.--31. 1. "CNTL,This register holds device config data. SW/ROM can write this value that drives the external pins on IP. This drives nonft_hw_regs_security_ctrl[31:0]" group.long 0x1660++0x3 line.long 0x0 "TIFS_SECMGR_EXT_SEC_DATA_CNTL,These set of 4 registers hold the value to be driven on ext_security_data_signal[127:0]. security manager takes no action on this data signals. This is pure SW managed register with NO initial value from Efuses." hexmask.long 0x0 0.--31. 1. "DATA,These set of 4 registers drive the output signal nonft_hw_regs_security_data[127:0] security manager do not take any action based on value of this signal it is purely for SoC level security data." group.long 0x1700++0xB line.long 0x0 "TIFS_SECMGR_SEC_RAM_ACCESS_CNTL,This register controls access to the secure RAM. driving the secure_ram_read_access and secure_ram_write_access pins. Once locked. the register cannot be changed until warm reset or POR. This register gets NO initial value.." hexmask.long.byte 0x0 24.--27. 1. "LOCK_REGISTER,Unlock code is 0xA if value is anything else the register locks once locked this register cannot be changed until POR or warm reset" hexmask.long.byte 0x0 8.--11. 1. "WRITE_ACCESS,Writing code 0xA will make the secure RAM writeable" newline hexmask.long.byte 0x0 0.--3. 1. "READ_ACCESS,Writing code 0xA will make the secure RAM readable" line.long 0x4 "TIFS_SECMGR_SEC_RAM_INDEX_CNTL,This register controls the index for the secure RAM. driving the secure_ram_index pins. Once locked. the register cannot be changed until warm reset or POR. This register gets NO initial value from Efuses. This register.." hexmask.long.byte 0x4 24.--27. 1. "LOCK_REGISTER,Unlock code is 0xA if value is anything else the register locks once locked this register cannot be changed until POR or warm reset" hexmask.long.word 0x4 0.--15. 1. "INDEX,This drives the sec_ram_index output to the external secure RAM" line.long 0x8 "TIFS_SECMGR_SEC_RAM_MUXSEL_CNTL,This register controls the mux selection for the secure RAM. driving the secure_ram_mux_sel pin. Once locked. the register cannot be changed until warm reset or POR. This register gets NO initial value from Efuses. This.." hexmask.long.byte 0x8 24.--27. 1. "LOCK_REGISTER,Unlock code is 0xA if value is anything else the register locks once locked this register cannot be changed until POR or warm reset" hexmask.long.byte 0x8 0.--3. 1. "MUX_SEL,Writing code 0xA will make the sec_ram_mux_sel output go high" group.long 0x1800++0x3 line.long 0x0 "TIFS_SECMGR_TI_MPK_PT1_ACCESS_CNTL,This Register controls the access/permission of all TI MPK-Part1 Data Registers. If both Read and Write access are not selected. than all TI MPK-Part1 Data registers become invisible both in control and status section." hexmask.long.byte 0x0 24.--27. 1. "LOCK_CONFIG,Unlock code is 0xA. If value is anything else the register locks. Once locked this register cannot be changed til POR." hexmask.long.byte 0x0 16.--19. 1. "ECHO_TI_MPK,Writing code 0xA will echo TI MPK value in TI MPK read only Status registers." newline hexmask.long.byte 0x0 8.--11. 1. "TI_MPK_WR_ACCESS,0xA Write Access allowed. Else: No write access" hexmask.long.byte 0x0 0.--3. 1. "TI_MPK_R_ACCESS,0xA Read Access allowed. Else: No Read access." group.long 0x1810++0x3 line.long 0x0 "TIFS_SECMGR_TI_MPK_PT1_DATA_REG,This register hold the TI MPK-Part1 value. the TI MPK-Part1 access/permission is controlled TI MPK-Part1 Access control register." hexmask.long 0x0 0.--31. 1. "TI_MPK,TI MPK-Part1 value as read from Efuses." group.long 0x1850++0x3 line.long 0x0 "TIFS_SECMGR_TI_MPK_PT1_BCH,This register holds BCH value for TI MPK-Part1. This register gets initial value from Security Efuse FROM" hexmask.long 0x0 0.--31. 1. "BCH,TI MPK-Part1 BCH Register. Initial value is loaded by HW ROM reads Raw TI MPK-Part1 data and BCH register to carry out error correction. If the BCH register is Zero then ROM must ignore BCH check and treat the raw data as golden." group.long 0x1900++0x3 line.long 0x0 "TIFS_SECMGR_TI_MPK_PT2_ACCESS_CNTL,This Register controls the access/permission of all TI MPK-Part2 Data Registers. If both Read and Write access are not selected. than all TI MPK-Part2 Data registers become invisible both in control and status section." hexmask.long.byte 0x0 24.--27. 1. "LOCK_CONFIG,Unlock code is 0xA. If value is anything else the register locks. Once locked this register cannot be changed til POR." hexmask.long.byte 0x0 16.--19. 1. "ECHO_TI_MPK,Writing code 0xA will echo TI MPK value in TI MPK read only Status registers." newline hexmask.long.byte 0x0 8.--11. 1. "TI_MPK_WR_ACCESS,0xA Write Access allowed. Else: No write access" hexmask.long.byte 0x0 0.--3. 1. "TI_MPK_R_ACCESS,0xA Read Access allowed. Else: No Read access." group.long 0x1910++0x3 line.long 0x0 "TIFS_SECMGR_TI_MPK_PT2_DATA_REG,This register hold the TI MPK-Part2 value. the TI MPK-Part2 access/permission is controlled TI MPK-Part2 Access control register." hexmask.long 0x0 0.--31. 1. "TI_MPK,TI MPK-Part2 value as read from Efuses." group.long 0x1950++0x3 line.long 0x0 "TIFS_SECMGR_TI_MPK_PT2_BCH,This register holds BCH value for TI MPK-Part2. This register gets initial value from Security Efuse FROM" hexmask.long 0x0 0.--31. 1. "BCH,TI MPK-Part2 BCH Register. Initial value is loaded by HW ROM reads Raw TI MPK-Part2 data and BCH register to carry out error correction. If the BCH register is Zero then ROM must ignore BCH check and treat the raw data as golden." group.long 0x1A00++0x7 line.long 0x0 "TIFS_SECMGR_TI_MEK_ACCESS_CNTL,This Register controls the access/permission of all TI MEK Data Registers. If both Read and Write access are not selected. than all TI MEK Data registers become invisible." hexmask.long.byte 0x0 24.--27. 1. "LOCK_CONFIG,Unlock code is 0xA. If value is anything else the register locks once locked this register cannot be changed til POR" hexmask.long.byte 0x0 16.--19. 1. "ECHO_TI_MEK,Writing code 0xA will echo TI MEK ID value in status register this can used by public code to check the key used for Encryption. This must NOT be function of actual TI MEK value rather a mere index." newline hexmask.long.byte 0x0 8.--11. 1. "TI_MEK_WR_ACCESS,0xA Write Access allowed. Else: No write access" hexmask.long.byte 0x0 0.--3. 1. "TI_MEK_R_ACCESS,0xA Read Access allowed. Else: No Read access." line.long 0x4 "TIFS_SECMGR_TI_MEK_ID,TI MEK ID Data Register" hexmask.long 0x4 0.--31. 1. "TI_MEK_ID,TI MEK ID used by public code to check the key used for Encryption. This must NOT be function of actual TI MEK value rather a mere index. SW has full flexibility to use these 32-bits as desired to ID the TI MEK key." group.long 0x1A10++0x3 line.long 0x0 "TIFS_SECMGR_TI_MEK_DATA_REG,This register hold the TI MEK value. the TI MEK access/permission is controlled MEK Access control register." hexmask.long 0x0 0.--31. 1. "TI_MEK,TI MEK value as read from Efuses." group.long 0x1A50++0x3 line.long 0x0 "TIFS_SECMGR_TI_MEK_BCH,This register holds BCH value for TI MEK. This register gets initial value from Security Efuse FROM" hexmask.long 0x0 0.--31. 1. "BCH,TI MEK BCH Register. Initial value is loaded by HW ROM reads Raw TI MEK data and BCH register to carry out error correction. If the BCH register is Zero then ROM must ignore BCH check and treat the data as golden." group.long 0x1A80++0x7 line.long 0x0 "TIFS_SECMGR_TI_KEY_OPTS_PT1,This field is TI defined Keys options" hexmask.long.byte 0x0 28.--31. 1. "OPT7,If the value is 0xA option is active. Else option is de-activated" hexmask.long.byte 0x0 24.--27. 1. "OPT6,If the value is 0xA option is active. Else option is de-activated" newline hexmask.long.byte 0x0 20.--23. 1. "OPT5,If the value is 0xA option is active. Else option is de-activated" hexmask.long.byte 0x0 16.--19. 1. "OPT4,If the value is 0xA option is active. Else option is de-activated" newline hexmask.long.byte 0x0 12.--15. 1. "OPT3,If the value is 0xA option is active. Else option is de-activated" hexmask.long.byte 0x0 8.--11. 1. "OPT2,If the value is 0xA option is active. Else option is de-activated" newline hexmask.long.byte 0x0 4.--7. 1. "OPT1,If the value is 0xA option is active. Else option is de-activated" hexmask.long.byte 0x0 0.--3. 1. "OPT0,If the value is 0xA option is active. Else option is de-activated" line.long 0x4 "TIFS_SECMGR_TI_KEY_OPTS_PT2,This field is TI defined Keys options" hexmask.long.byte 0x4 28.--31. 1. "OPT7,If the value is 0xA option is active. Else option is de-activated" hexmask.long.byte 0x4 24.--27. 1. "OPT6,If the value is 0xA option is active. Else option is de-activated" newline hexmask.long.byte 0x4 20.--23. 1. "OPT5,If the value is 0xA option is active. Else option is de-activated" hexmask.long.byte 0x4 16.--19. 1. "OPT4,If the value is 0xA option is active. Else option is de-activated" newline hexmask.long.byte 0x4 12.--15. 1. "OPT3,If the value is 0xA option is active. Else option is de-activated" hexmask.long.byte 0x4 8.--11. 1. "OPT2,If the value is 0xA option is active. Else option is de-activated" newline hexmask.long.byte 0x4 4.--7. 1. "OPT1,If the value is 0xA option is active. Else option is de-activated" hexmask.long.byte 0x4 0.--3. 1. "OPT0,If the value is 0xA option is active. Else option is de-activated" group.long 0x1C00++0x3 line.long 0x0 "TIFS_SECMGR_KEK_ACCESS_CNTL,This Register controls the access/permission of all KEK Data Registers. If both Read and Write access are not selected. than all KEK Data registers become invisible." hexmask.long.byte 0x0 24.--27. 1. "LOCK_CONFIG,Unlock code is 0xA if value is anything else the register locks once locked this register cannot be changed til POR" hexmask.long.byte 0x0 16.--19. 1. "KEK_OVERRIDE_CONTROL,0xA Override KEK output to value from KEK override registers. Else KEK is as coming from KEK Efuses" newline hexmask.long.byte 0x0 8.--11. 1. "SWKEK_WA,0xA Write Access allowed to SW KEK register. Else No write access" hexmask.long.byte 0x0 0.--3. 1. "SWKEK_RA,0xA Write Access allowed to SW KEK register. Else No write access" group.long 0x1C10++0x3 line.long 0x0 "TIFS_SECMGR_SW_KEK_DATA_REG,These 8 registers register hold the KEK override value. This is pure SW managed register with NO initial value from Efuses" hexmask.long 0x0 0.--31. 1. "SW_KEK,SW defined KEK override value." rgroup.long 0x2000++0x3 line.long 0x0 "TIFS_SECMGR_CUST_KEY_COUNT,This register hold the number Keys that has been provisioned. this register must be written upfront during customer initial keys provisioning. This register must not be written in field else there can be security breach. This.." hexmask.long.word 0x0 16.--31. 1. "CUST_KEY_OPTS,Customer defined efuse bits." hexmask.long.word 0x0 0.--15. 1. "CUST_KEY_COUNT,16-bit for field double redundancy that is used to keep count of keys provisioned in device. 0 - No customer keys present the system will boot from TI keys. Customer key Count must be non-zero for HS/EMU device to transaction from.." rgroup.long 0x2010++0x3 line.long 0x0 "TIFS_SECMGR_CUST_KEY_REV,This register holds what key (TI Key. SMPK and BMPK) is active at this point. This register gets initial value from Security Efuse FROM." hexmask.long.word 0x0 16.--31. 1. "CUST_KEY_OPTS,Customer defined efuse bits." hexmask.long.word 0x0 0.--15. 1. "CUST_KEY_REVISION,16-bit for field double redundancy. 0 - Use TI keys as root-of-trust. Else use Customer keys (SMPK/BMPK). Customer key Revision must be non-zero for HS/EMU device to transaction from HS-FS/EMU-FS (Field Securable) to HS-SE/EMU-SE.." group.long 0x2100++0x3 line.long 0x0 "TIFS_SECMGR_CUST_MISC_DATA,This Register controls the access/permission of all Customer Misc Data Registers. If both Read and Write access are not selected. than all CUST MISC Data registers become invisible." hexmask.long.byte 0x0 24.--27. 1. "LOCK_CONFIG,Unlock code is 0xA if value is anything else the register locks once locked this register cannot be changed till POR." hexmask.long.byte 0x0 8.--11. 1. "CUST_MISC_WR_ACCESS,0xA Write Access allowed. Else: No write access" newline hexmask.long.byte 0x0 0.--3. 1. "CUST_MISC_R_ACCESS,0xA Read Access allowed. Else: No Read access." group.long 0x2110++0x3 line.long 0x0 "TIFS_SECMGR_CUST_MISC_DATA_REG,This register hold the CUST MISC value. the CUST MISC access/permission is controlled CUST MISC Access control register. This can be used by customer to store critical security flags/data." hexmask.long 0x0 0.--31. 1. "CUST_MISC,CUST MISC value. ROM/HW does no action based on value of this register." group.long 0x2200++0x3 line.long 0x0 "TIFS_SECMGR_SMPK_PT1_ACCESS_CNTL,This Register controls the access/permission of all SMPK-Part1 Data Registers. If both Read and Write access are not selected. than all SMPK Data registers become invisible." hexmask.long.byte 0x0 24.--27. 1. "LOCK_CONFIG,Unlock code is 0xA if value is anything else the register locks once locked this register cannot be changed till POR." hexmask.long.byte 0x0 16.--19. 1. "ECHO_SMPK,Writing code 0xA will echo SMPK value in SMPK read only Status registers." newline hexmask.long.byte 0x0 8.--11. 1. "SMPK_WR_ACCESS,0xA Write Access allowed. Else: No write access" hexmask.long.byte 0x0 0.--3. 1. "SMPK_R_ACCESS,0xA Read Access allowed. Else: No Read access." group.long 0x2210++0x3 line.long 0x0 "TIFS_SECMGR_SMPK_PT1_DATA_REG,This register hold the SMPK-Part1 value. the SMPK-Part1 access/permission is controlled SMPK-Part1 Access control register." hexmask.long 0x0 0.--31. 1. "SMPK,SMPK-Part1 value as read from Efuses" group.long 0x2250++0x3 line.long 0x0 "TIFS_SECMGR_SMPK_PT1_BCH,This register holds BCH value for SMPK-Part1. This register gets initial value from Security Efuse FROM" hexmask.long 0x0 0.--31. 1. "BCH,SMPK-Part1 BCH Register. Initial value is loaded by HW ROM reads Raw SMPK-Part1 data and BCH register to carry out error correction. If the BCH register is Zero then ROM must ignore BCH check and treat the data as golden" group.long 0x2300++0x3 line.long 0x0 "TIFS_SECMGR_SMPK_PT2_ACCESS_CNTL,This Register controls the access/permission of all SMPK-Part2 Data Registers. If both Read and Write access are not selected. than all SMPK-Part2 Data registers become invisible in both control and status sections." hexmask.long.byte 0x0 24.--27. 1. "LOCK_CONFIG,Unlock code is 0xA if value is anything else the register locks once locked this register cannot be changed till POR." hexmask.long.byte 0x0 16.--19. 1. "ECHO_SMPK,Writing code 0xA will echo SMPK value in SMPK read only Status registers." newline hexmask.long.byte 0x0 8.--11. 1. "SMPK_WR_ACCESS,0xA Write Access allowed. Else: No write access" hexmask.long.byte 0x0 0.--3. 1. "SMPK_R_ACCESS,0xA Read Access allowed. Else: No Read access." group.long 0x2310++0x3 line.long 0x0 "TIFS_SECMGR_SMPK_PT2_DATA_REG,This register hold the SMPK-Part2 value. the SMPK-Part2 access/permission is controlled SMPK-Part2 Access control register." hexmask.long 0x0 0.--31. 1. "SMPK,SMPK-Part2 value as read from Efuses" group.long 0x2350++0x3 line.long 0x0 "TIFS_SECMGR_SMPK_PT2_BCH,This register holds BCH value for SMPK-Part2. This register gets initial value from Security Efuse FROM" hexmask.long 0x0 0.--31. 1. "BCH,SMPK-Part2 BCH Register. Initial value is loaded by HW ROM reads Raw SMPK-Part2 data and BCH register to carry out error correction. If the BCH register is Zero then ROM must ignore BCH check and treat the data as golden" group.long 0x2400++0x7 line.long 0x0 "TIFS_SECMGR_SMEK_ACCESS_CNTL,This Register controls the access/permission of all SMEK Data Registers. If both Read and Write access are not selected. than all SMEK Data registers become invisible." hexmask.long.byte 0x0 24.--27. 1. "LOCK_CONFIG,Writing code 0xA lock the config once locked TI MPK access as set in this register cannot be changed till POR." hexmask.long.byte 0x0 16.--19. 1. "ECHO_SMEK_ID,Writing code 0xA will echo SMEK ID value in status register this can used by public code to check the key used for Encryption. This must NOT be function of actual SMEK value rather a mere index." newline hexmask.long.byte 0x0 8.--11. 1. "SMEK_WR_ACCESS,0xA Write Access allowed. Else: No write access" hexmask.long.byte 0x0 0.--3. 1. "SMEK_R_ACCESS,0xA Read Access allowed. Else: No Read access." line.long 0x4 "TIFS_SECMGR_SMEK_ID,SMEK ID Data Register" hexmask.long 0x4 0.--31. 1. "SMEK_ID,SMEK ID used by public code to check the key used for Encryption. This must NOT be function of actual SMEK value rather a mere index. SW has full flexibility to use these 32-bits as desired to ID the SMEK key." group.long 0x2410++0x3 line.long 0x0 "TIFS_SECMGR_SMEK_DATA_REG,This register hold the SMEK value. the SMEK access/permission is controlled MEK Access control register." hexmask.long 0x0 0.--31. 1. "SMEK,SMEK value as read from Efuses" group.long 0x2450++0x3 line.long 0x0 "TIFS_SECMGR_SMEK_BCH,This register holds BCH value for SMEK-BCH. This register gets initial value from Security Efuse FROM" hexmask.long 0x0 0.--31. 1. "BCH,SMEK BCH Register. Initial value is loaded by HW ROM reads Raw SMEK data and BCH register to carry out error correction. If the BCH register is Zero then ROM must ignore BCH check and treat the data as golden" group.long 0x2480++0x7 line.long 0x0 "TIFS_SECMGR_SKEY_OPTS_PT1,This field is Customer defined Keys options. This register is populated by ROM code. with NO initial from Efuses." hexmask.long.byte 0x0 28.--31. 1. "OPT7,If the value is 0xA option is active. Else option is deactivated" hexmask.long.byte 0x0 24.--27. 1. "OPT6,If the value is 0xA option is active. Else option is deactivated" newline hexmask.long.byte 0x0 20.--23. 1. "OPT5,If the value is 0xA option is active. Else option is deactivated" hexmask.long.byte 0x0 16.--19. 1. "OPT4,If the value is 0xA option is active. Else option is deactivated" newline hexmask.long.byte 0x0 12.--15. 1. "OPT3,If the value is 0xA option is active. Else option is deactivated" hexmask.long.byte 0x0 8.--11. 1. "OPT2,If the value is 0xA option is active. Else option is deactivated" newline hexmask.long.byte 0x0 4.--7. 1. "OPT1,If the value is 0xA option is active. Else option is deactivated" hexmask.long.byte 0x0 0.--3. 1. "OPT0,If the value is 0xA option is active. Else option is deactivated" line.long 0x4 "TIFS_SECMGR_SKEY_OPTS_PT2,This field is Customer defined Keys options. This register is populated by ROM code. with NO initial from Efuses." hexmask.long.byte 0x4 28.--31. 1. "OPT7,If the value is 0xA option is active. Else option is deactivated" hexmask.long.byte 0x4 24.--27. 1. "OPT6,If the value is 0xA option is active. Else option is deactivated" newline hexmask.long.byte 0x4 20.--23. 1. "OPT5,If the value is 0xA option is active. Else option is deactivated" hexmask.long.byte 0x4 16.--19. 1. "OPT4,If the value is 0xA option is active. Else option is deactivated" newline hexmask.long.byte 0x4 12.--15. 1. "OPT3,If the value is 0xA option is active. Else option is deactivated" hexmask.long.byte 0x4 8.--11. 1. "OPT2,If the value is 0xA option is active. Else option is deactivated" newline hexmask.long.byte 0x4 4.--7. 1. "OPT1,If the value is 0xA option is active. Else option is deactivated" hexmask.long.byte 0x4 0.--3. 1. "OPT0,If the value is 0xA option is active. Else option is deactivated" group.long 0x2500++0x3 line.long 0x0 "TIFS_SECMGR_BMPK_PT1_ACCESS_CNTL,This Register controls the access/permission of all BMPK-Part1 Data Registers. If both Read and Write access are not selected. than all BMPK-Part1 Data registers become invisible in both status and control sections." hexmask.long.byte 0x0 24.--27. 1. "LOCK_CONFIG,Unlock code is 0xA if value is anything else the register locks once locked this register cannot be changed till POR." hexmask.long.byte 0x0 16.--19. 1. "ECHO_BMPK,Writing code 0xA will echo BMPK value in BMPK read only Status registers" newline hexmask.long.byte 0x0 8.--11. 1. "BMPK_WR_ACCESS,0xA Write Access allowed. Else: No write access." hexmask.long.byte 0x0 0.--3. 1. "BMPK_R_ACCESS,0xA Read Access allowed. Else: No Read access." group.long 0x2510++0x3 line.long 0x0 "TIFS_SECMGR_BMPK_PT1_DATA_REG,This register hold the BMPK-Part1 value. the BMPK-Part1 access/permission is controlled BMPK-Part1 Access control register." hexmask.long 0x0 0.--31. 1. "BMPK,BMPK-Part1 value as read from Efuses" group.long 0x2550++0x3 line.long 0x0 "TIFS_SECMGR_BMPK_PT1_BCH,This register holds BCH value for BMPK-Part1. This register gets initial value from Security Efuse FROM" hexmask.long 0x0 0.--31. 1. "BCH,BMPK-Part1 BCH Register. Initial value is loaded by HW ROM reads Raw BMPK-Part1 data and BCH register to carry out error correction. If the BCH register is Zero then ROM must ignore BCH check and treat the data as golden" group.long 0x2600++0x3 line.long 0x0 "TIFS_SECMGR_BMPK_PT2_ACCESS_CNTL,This Register controls the access/permission of all BMPK-Part2 Data Registers. If both Read and Write access are not selected. than all BMPK-Part2 Data registers become invisible in both status and control sections." hexmask.long.byte 0x0 24.--27. 1. "LOCK_CONFIG,Unlock code is 0xA if value is anything else the register locks once locked this register cannot be changed till POR." hexmask.long.byte 0x0 16.--19. 1. "ECHO_BMPK,Writing code 0xA will echo BMPK value in BMPK read only Status registers" newline hexmask.long.byte 0x0 8.--11. 1. "BMPK_WR_ACCESS,0xA Write Access allowed. Else: No write access." hexmask.long.byte 0x0 0.--3. 1. "BMPK_R_ACCESS,0xA Read Access allowed. Else: No Read access." group.long 0x2610++0x3 line.long 0x0 "TIFS_SECMGR_BMPK_PT2_DATA_REG,This register hold the BMPK-Part2 value. the BMPK-Part2 access/permission is controlled BMPK-Part2 Access control register." hexmask.long 0x0 0.--31. 1. "BMPK,BMPK-Part2 value as read from Efuses" group.long 0x2650++0x3 line.long 0x0 "TIFS_SECMGR_BMPK_PT2_BCH,This register holds BCH value for BMPK-Part2. This register gets initial value from Security Efuse FROM" hexmask.long 0x0 0.--31. 1. "BCH,BMPK-Part2 BCH Register. Initial value is loaded by HW ROM reads Raw BMPK-Part2 data and BCH register to carry out error correction. If the BCH register is Zero then ROM must ignore BCH check and treat the data as golden" group.long 0x2700++0x7 line.long 0x0 "TIFS_SECMGR_BMEK_ACCESS_CNTL,This Register controls the access/permission of all BMEK Data Registers. If both Read and Write access are not selected. than all BMEK Data registers become invisible." hexmask.long.byte 0x0 24.--27. 1. "LOCK_CONFIG,Unlock code is 0xA if value is anything else the register locks once locked this register cannot be changed till POR." hexmask.long.byte 0x0 16.--19. 1. "ECHO_BMEK_ID,Writing code 0xA will echo BMEK ID value in status register this can used by public code to check the key used for Encryption. This must NOT be function of actual BMEK value rather a mere index." newline hexmask.long.byte 0x0 8.--11. 1. "BMEK_WR_ACCESS,0xA Write Access allowed. Else: No write access" hexmask.long.byte 0x0 0.--3. 1. "BMEK_R_ACCESS,0xA Read Access allowed. Else: No Read access." line.long 0x4 "TIFS_SECMGR_BMEK_ID,BMEK ID Data Register" hexmask.long 0x4 0.--31. 1. "BMEK_ID,BMEK ID used by public code to check the key used for Encryption. This must NOT be function of actual BMEK value rather a mere index. SW has full flexibility to use these 32-bits as desired to ID the BMEK key." group.long 0x2710++0x3 line.long 0x0 "TIFS_SECMGR_BMEK_DATA_REG,This register hold the BMEK value. the BMEK access/permission is controlled MEK Access control register." hexmask.long 0x0 0.--31. 1. "BMEK,BMEK value as read from Efuses" group.long 0x2750++0x3 line.long 0x0 "TIFS_SECMGR_BMEK_BCH,This register holds BCH value for BMEK-BCH. This register gets initial value from Security Efuse FROM" hexmask.long 0x0 0.--31. 1. "BCH,BMEK BCH Register. Initial value is loaded by HW ROM reads Raw BMEK data and BCH register to carry out error correction. If the BCH register is Zero then ROM must ignore BCH check and treat the raw data as golden" group.long 0x2780++0x7 line.long 0x0 "TIFS_SECMGR_BKEY_OPTS_PT1,This field is Customer defined Keys options. This register is populated by ROM code. with NO initial from Efuses." hexmask.long.byte 0x0 28.--31. 1. "OPT7,If the value is 0xA option is active. Else option is deactivated" hexmask.long.byte 0x0 24.--27. 1. "OPT6,If the value is 0xA option is active. Else option is deactivated" newline hexmask.long.byte 0x0 20.--23. 1. "OPT5,If the value is 0xA option is active. Else option is deactivated" hexmask.long.byte 0x0 16.--19. 1. "OPT4,If the value is 0xA option is active. Else option is deactivated" newline hexmask.long.byte 0x0 12.--15. 1. "OPT3,If the value is 0xA option is active. Else option is deactivated" hexmask.long.byte 0x0 8.--11. 1. "OPT2,If the value is 0xA option is active. Else option is deactivated" newline hexmask.long.byte 0x0 4.--7. 1. "OPT1,If the value is 0xA option is active. Else option is deactivated" hexmask.long.byte 0x0 0.--3. 1. "OPT0,If the value is 0xA option is active. Else option is deactivated" line.long 0x4 "TIFS_SECMGR_BKEY_OPTS_PT2,This field is Customer defined Keys options. This register is populated by ROM code. with NO initial from Efuses." hexmask.long.byte 0x4 28.--31. 1. "OPT7,If the value is 0xA option is active. Else option is deactivated" hexmask.long.byte 0x4 24.--27. 1. "OPT6,If the value is 0xA option is active. Else option is deactivated" newline hexmask.long.byte 0x4 20.--23. 1. "OPT5,If the value is 0xA option is active. Else option is deactivated" hexmask.long.byte 0x4 16.--19. 1. "OPT4,If the value is 0xA option is active. Else option is deactivated" newline hexmask.long.byte 0x4 12.--15. 1. "OPT3,If the value is 0xA option is active. Else option is deactivated" hexmask.long.byte 0x4 8.--11. 1. "OPT2,If the value is 0xA option is active. Else option is deactivated" newline hexmask.long.byte 0x4 4.--7. 1. "OPT1,If the value is 0xA option is active. Else option is deactivated" hexmask.long.byte 0x4 0.--3. 1. "OPT0,If the value is 0xA option is active. Else option is deactivated" group.long 0x2B00++0x3 line.long 0x0 "TIFS_SECMGR_SWRV_ACCESS_CNTL,This Register controls the access/permission of all SWRV Data Registers. If both Read and Write access are not selected. than all SWRV Data registers become invisible." hexmask.long.byte 0x0 24.--27. 1. "LOCK_CONFIG,Unlock code is 0xA if value is anything else the register locks once locked this register cannot be changed till POR" hexmask.long.byte 0x0 16.--19. 1. "ECHO_SWRV_ID,Writing code 0xA will echo SWRV ID value in status register this can used by public code to check the key used for Encryption. This must NOT be function of actual SWRV value rather a mere index." newline hexmask.long.byte 0x0 8.--11. 1. "SWRV_WR_ACCESS,0xA Write Access allowed. Else: No write access" hexmask.long.byte 0x0 0.--3. 1. "SWRV_R_ACCESS,0xA Read Access allowed. Else: No Read access." group.long 0x2B10++0x3 line.long 0x0 "TIFS_SECMGR_SWRV_DATA_REG,This register hold the SWRV value. the SWRV access/permission is controlled SWRV Access control register." hexmask.long 0x0 0.--31. 1. "SWRV,SWRV value as read from efuse. ROM/SW does triple redundancy on these bits." group.long 0x2B50++0x3 line.long 0x0 "TIFS_SECMGR_MSV_ACCESS_CNTL,This Register controls the access/permission of all MSV Data Registers. If both Read and Write access are not selected. than all MSV Data registers become invisible. This is pure SW managed register with NO initial value from.." hexmask.long.byte 0x0 24.--27. 1. "LOCK_CONFIG,Unlock code is 0xA if value is anything else the register locks once locked this register cannot be changed till POR" hexmask.long.byte 0x0 16.--19. 1. "ECHO_MSV_ID,Writing code 0xA will echo MSV ID value in status register this can used by public code to check the key used for Encryption. This must NOT be function of actual MSV value rather a mere index." newline hexmask.long.byte 0x0 8.--11. 1. "MSV_WR_ACCESS,0xA Write Access allowed. Else: No write access" hexmask.long.byte 0x0 0.--3. 1. "MSV_R_ACCESS,0xA Read Access allowed. Else: No Read access." group.long 0x2B60++0x3 line.long 0x0 "TIFS_SECMGR_MSV_DATA_REG,This registers hold the MSV value. the MSV access/permission is controlled MSV Access control register. This register gets initial value from Security Efuse FROM" hexmask.long.byte 0x0 24.--31. 1. "BCH,BCH value of MSV register[23:0]. If the BCH register is Zero then ROM must ignore BCH check and treat the raw data as golden" hexmask.long.tbyte 0x0 0.--23. 1. "MSV,MSV value. ROM/SW does BCH" rgroup.long 0x3000++0x3 line.long 0x0 "TIFS_SECMGR_OTP_VAL_REG,General purpose OTP is array of efuses that is defined by customer. ROM or HW takes no action based on values of these OTP. customer can use these OTP to create customer specific data. The amount of OTP bits are defined at time of.." hexmask.long 0x0 0.--31. 1. "OTP_DATA,OTP data as read from Efuses" tree.end tree "SMS0_SECCTRL_0_SEC (SMS0_SECCTRL_0_SEC)" base ad:0x44230000 rgroup.long 0x0++0x3 line.long 0x0 "TIFS_SEC_MMR_PID," hexmask.long.word 0x0 16.--31. 1. "PID_MSB16," hexmask.long.byte 0x0 11.--15. 1. "PID_MISC," bitfld.long 0x0 8.--10. "PID_MAJOR," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "PID_CUSTOM," "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "PID_MINOR," group.long 0x20++0x7 line.long 0x0 "TIFS_SEC_MMR_LOCK0_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK0_KICK0,- KICK0 component" line.long 0x4 "TIFS_SEC_MMR_LOCK0_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK0_KICK1,- KICK1 component" rgroup.long 0x100++0x7 line.long 0x0 "TIFS_SEC_MMR_SEC_ROM_START_ADDR," hexmask.long 0x0 0.--31. 1. "SEC_ROM_START_ADDR," line.long 0x4 "TIFS_SEC_MMR_SEC_ROM_END_ADDR," hexmask.long 0x4 0.--31. 1. "SEC_ROM_END_ADDR," group.long 0x200++0x3 line.long 0x0 "TIFS_SEC_MMR_SEC_ACTIVE," bitfld.long 0x0 0. "SECURITY_ACTIVE," "0,1" group.long 0x210++0x3 line.long 0x0 "TIFS_SEC_MMR_SEC_SOC_WARM_RESET," hexmask.long 0x0 0.--31. 1. "WARM_RESET_CODE," group.long 0x220++0x3 line.long 0x0 "TIFS_SEC_MMR_SEC_SOC_COLD_RESET," hexmask.long 0x0 0.--31. 1. "COLD_RESET_CODE," group.long 0x300++0x3 line.long 0x0 "TIFS_SEC_MMR_SEC_DMTIMER_CTRL," bitfld.long 0x0 16. "DMTIMER23_CASCADE," "0,1" bitfld.long 0x0 4.--6. "DMTIMER3_CLK_SEL," "0,1,2,3,4,5,6,7" bitfld.long 0x0 0.--2. "DMTIMER2_CLK_SEL," "0,1,2,3,4,5,6,7" rgroup.long 0x400++0x3 line.long 0x0 "TIFS_SEC_MMR_SEC_EMU_WAIT_IN_RESET_REQ," bitfld.long 0x0 0. "DBG_WAIT_N_RST," "0,1" group.long 0x420++0x3 line.long 0x0 "TIFS_SEC_MMR_SEC_SMS_TIFS_JUMP_MAGIC_NUM," hexmask.long 0x0 0.--31. 1. "JUMP_MAGIC_NUM," group.long 0x430++0x3 line.long 0x0 "TIFS_SEC_MMR_SEC_SMS_TIFS_JUMP_ADDRESS," hexmask.long 0x0 0.--31. 1. "JUMP_ADDRESS," rgroup.long 0x500++0x7 line.long 0x0 "TIFS_SEC_MMR_SEC_FW_EXP_LOWER," hexmask.long 0x0 0.--31. 1. "SEC_FW_EXP_LOW_VAL0," line.long 0x4 "TIFS_SEC_MMR_SEC_FW_EXP_UPPER," hexmask.long 0x4 0.--31. 1. "SEC_FW_EXT_UPPER_VAL0," rgroup.long 0x600++0x3 line.long 0x0 "TIFS_SEC_MMR_SEC_CTRL_OUT0_VAL," hexmask.long 0x0 0.--31. 1. "SEC_CTRL_OUT_VAL0," group.long 0x604++0x7 line.long 0x0 "TIFS_SEC_MMR_SEC_CTRL_OUT0," hexmask.long 0x0 0.--31. 1. "SEC_CTRL_OUT0," line.long 0x4 "TIFS_SEC_MMR_SEC_CTRL_OUT0_CLR," hexmask.long 0x4 0.--31. 1. "SEC_CTRL_OUT0_CLR," rgroup.long 0x60C++0x3 line.long 0x0 "TIFS_SEC_MMR_SEC_STS_IN0," hexmask.long 0x0 0.--31. 1. "SEC_STS_IN0," group.long 0x700++0xF line.long 0x0 "TIFS_SEC_MMR_SEC_DMTIMER_INTR_EXT_EN," bitfld.long 0x0 3. "DMTIMER_INTR_EXT_EN3," "0,1" bitfld.long 0x0 2. "DMTIMER_INTR_EXT_EN2," "0,1" bitfld.long 0x0 1. "DMTIMER_INTR_EXT_EN1," "0,1" newline bitfld.long 0x0 0. "DMTIMER_INTR_EXT_EN0," "0,1" line.long 0x4 "TIFS_SEC_MMR_SEC_WWDT_INTR_EXT_EN," bitfld.long 0x4 4. "WDT_INTR_EXT_EN4," "0,1" bitfld.long 0x4 3. "WDT_INTR_EXT_EN3," "0,1" bitfld.long 0x4 2. "WDT_INTR_EXT_EN2," "0,1" newline bitfld.long 0x4 1. "WDT_INTR_EXT_EN1," "0,1" bitfld.long 0x4 0. "WDT_INTR_EXT_EN0," "0,1" line.long 0x8 "TIFS_SEC_MMR_SEC_DEBUG_INTR_EXT_EN," bitfld.long 0x8 0. "DBG_AUTH_INTR_EXT_EN0," "0,1" line.long 0xC "TIFS_SEC_MMR_SEC_ECC_AGGR_INTR_EXT_EN," bitfld.long 0xC 0. "ECC_AGGR_INTR_EXT_EN0," "0,1" group.long 0x71C++0xF line.long 0x0 "TIFS_SEC_MMR_SEC_FW_EXCPT_EXT_EN," bitfld.long 0x0 8. "FW_INT_EXT_EN0," "0,1" bitfld.long 0x0 0. "FW_EXP_EXT_EN0," "0,1" line.long 0x4 "TIFS_SEC_MMR_SEC_AES_INTR_EXT_EN," bitfld.long 0x4 9. "AES_P_EVT_EXT_EN," "0,1" bitfld.long 0x4 8. "AES_S_EVT_EXT_EN," "0,1" bitfld.long 0x4 1. "AES_P_INTR_EXT_EN," "0,1" newline bitfld.long 0x4 0. "AES_S_INTR_EXT_EN," "0,1" line.long 0x8 "TIFS_SEC_MMR_SEC_RAT_INTR_EXT_EN," bitfld.long 0x8 0. "RAT_INTR_EXT_EN," "0,1" line.long 0xC "TIFS_SEC_MMR_SEC_IA_INTR_EXT_EN," bitfld.long 0xC 0. "IA_INTR_EXT_EN," "0,1" group.long 0x800++0x7 line.long 0x0 "TIFS_SEC_MMR_SEC_HSM_RESET," bitfld.long 0x0 1. "RESET_MASK," "0,1" bitfld.long 0x0 0. "RESET_RELEASE," "0,1" line.long 0x4 "TIFS_SEC_MMR_SEC_HSM_DEBUG," hexmask.long.byte 0x4 0.--3. 1. "DBGEN," group.long 0x900++0xF line.long 0x0 "TIFS_SEC_MMR_SEC_SPARE_REG0," hexmask.long 0x0 0.--31. 1. "SEC_SPARE0," line.long 0x4 "TIFS_SEC_MMR_SEC_SPARE_REG1," hexmask.long 0x4 0.--31. 1. "SEC_SPARE1," line.long 0x8 "TIFS_SEC_MMR_SEC_SPARE_REG2," hexmask.long 0x8 0.--31. 1. "SEC_SPARE2," line.long 0xC "TIFS_SEC_MMR_SEC_SPARE_REG3," hexmask.long 0xC 0.--31. 1. "SEC_SPARE3," tree.end base ad:0x0 tree "SMS0_TIFS" tree "SMS0_TIFS_CBASS_0" tree "SMS0_TIFS_CBASS_0_CBASS_FW (SMS0_TIFS_CBASS_0_CBASS_FW)" base ad:0x45080000 group.long 0x0++0x7 line.long 0x0 "TIFS_CBASS_FW_REGS_rom_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Irom.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "TIFS_CBASS_FW_REGS_rom_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Irom.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" group.long 0x10++0x17 line.long 0x0 "TIFS_CBASS_FW_REGS_rom_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Irom.slv region 0 firewall." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x4 "TIFS_CBASS_FW_REGS_rom_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Irom.slv region 0 firewall." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "TIFS_CBASS_FW_REGS_rom_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Irom.slv region 0 firewall." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xC "TIFS_CBASS_FW_REGS_rom_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Irom.slv region 0 firewall." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x10 "TIFS_CBASS_FW_REGS_rom_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Irom.slv region 1 firewall." bitfld.long 0x10 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x10 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x14 "TIFS_CBASS_FW_REGS_rom_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Irom.slv region 1 firewall." hexmask.long.byte 0x14 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x14 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x14 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x14 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x14 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x14 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x14 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x14 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x14 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x14 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x14 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x14 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x14 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x14 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x14 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x14 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x14 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" group.long 0x30++0xF line.long 0x0 "TIFS_CBASS_FW_REGS_rom_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Irom.slv region 1 firewall." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x4 "TIFS_CBASS_FW_REGS_rom_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Irom.slv region 1 firewall." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "TIFS_CBASS_FW_REGS_rom_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Irom.slv region 1 firewall." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xC "TIFS_CBASS_FW_REGS_rom_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Irom.slv region 1 firewall." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x400++0x1FF line.long 0x0 "TIFS_CBASS_FW_REGS_sram0_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Isram0.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "TIFS_CBASS_FW_REGS_sram0_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Isram0.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "TIFS_CBASS_FW_REGS_sram0_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Isram0.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "TIFS_CBASS_FW_REGS_sram0_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Isram0.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "TIFS_CBASS_FW_REGS_sram0_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "TIFS_CBASS_FW_REGS_sram0_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "TIFS_CBASS_FW_REGS_sram0_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "TIFS_CBASS_FW_REGS_sram0_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "TIFS_CBASS_FW_REGS_sram0_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Isram0.slv region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "TIFS_CBASS_FW_REGS_sram0_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Isram0.slv region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "TIFS_CBASS_FW_REGS_sram0_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Isram0.slv region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "TIFS_CBASS_FW_REGS_sram0_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Isram0.slv region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "TIFS_CBASS_FW_REGS_sram0_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "TIFS_CBASS_FW_REGS_sram0_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "TIFS_CBASS_FW_REGS_sram0_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "TIFS_CBASS_FW_REGS_sram0_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "TIFS_CBASS_FW_REGS_sram0_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target Isram0.slv region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "TIFS_CBASS_FW_REGS_sram0_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target Isram0.slv region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "TIFS_CBASS_FW_REGS_sram0_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target Isram0.slv region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "TIFS_CBASS_FW_REGS_sram0_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target Isram0.slv region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "TIFS_CBASS_FW_REGS_sram0_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "TIFS_CBASS_FW_REGS_sram0_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "TIFS_CBASS_FW_REGS_sram0_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "TIFS_CBASS_FW_REGS_sram0_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "TIFS_CBASS_FW_REGS_sram0_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target Isram0.slv region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "TIFS_CBASS_FW_REGS_sram0_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target Isram0.slv region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "TIFS_CBASS_FW_REGS_sram0_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target Isram0.slv region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "TIFS_CBASS_FW_REGS_sram0_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target Isram0.slv region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "TIFS_CBASS_FW_REGS_sram0_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "TIFS_CBASS_FW_REGS_sram0_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "TIFS_CBASS_FW_REGS_sram0_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "TIFS_CBASS_FW_REGS_sram0_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "TIFS_CBASS_FW_REGS_sram0_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target Isram0.slv region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "TIFS_CBASS_FW_REGS_sram0_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target Isram0.slv region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "TIFS_CBASS_FW_REGS_sram0_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target Isram0.slv region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "TIFS_CBASS_FW_REGS_sram0_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target Isram0.slv region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "TIFS_CBASS_FW_REGS_sram0_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 4 firewall." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "TIFS_CBASS_FW_REGS_sram0_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 4 firewall." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "TIFS_CBASS_FW_REGS_sram0_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 4 firewall." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "TIFS_CBASS_FW_REGS_sram0_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 4 firewall." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "TIFS_CBASS_FW_REGS_sram0_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target Isram0.slv region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "TIFS_CBASS_FW_REGS_sram0_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target Isram0.slv region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "TIFS_CBASS_FW_REGS_sram0_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target Isram0.slv region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "TIFS_CBASS_FW_REGS_sram0_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target Isram0.slv region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "TIFS_CBASS_FW_REGS_sram0_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 5 firewall." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "TIFS_CBASS_FW_REGS_sram0_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 5 firewall." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "TIFS_CBASS_FW_REGS_sram0_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 5 firewall." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "TIFS_CBASS_FW_REGS_sram0_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 5 firewall." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "TIFS_CBASS_FW_REGS_sram0_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target Isram0.slv region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "TIFS_CBASS_FW_REGS_sram0_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target Isram0.slv region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "TIFS_CBASS_FW_REGS_sram0_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target Isram0.slv region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "TIFS_CBASS_FW_REGS_sram0_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target Isram0.slv region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "TIFS_CBASS_FW_REGS_sram0_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 6 firewall." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "TIFS_CBASS_FW_REGS_sram0_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 6 firewall." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "TIFS_CBASS_FW_REGS_sram0_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 6 firewall." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "TIFS_CBASS_FW_REGS_sram0_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 6 firewall." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "TIFS_CBASS_FW_REGS_sram0_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target Isram0.slv region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "TIFS_CBASS_FW_REGS_sram0_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target Isram0.slv region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "TIFS_CBASS_FW_REGS_sram0_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target Isram0.slv region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "TIFS_CBASS_FW_REGS_sram0_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target Isram0.slv region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "TIFS_CBASS_FW_REGS_sram0_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 7 firewall." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "TIFS_CBASS_FW_REGS_sram0_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 7 firewall." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "TIFS_CBASS_FW_REGS_sram0_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 7 firewall." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "TIFS_CBASS_FW_REGS_sram0_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 7 firewall." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x100 "TIFS_CBASS_FW_REGS_sram0_fw_region_8_control,The FW Region 8 Control Register defines the control fields for the target Isram0.slv region 8 firewall." bitfld.long 0x100 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x100 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x100 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x100 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x104 "TIFS_CBASS_FW_REGS_sram0_fw_region_8_permission_0,The FW Region 8 Permission 0 Register defines the permissions for the target Isram0.slv region 8 firewall." hexmask.long.byte 0x104 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x104 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x104 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x104 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x104 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x104 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x104 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x104 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x104 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x104 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x104 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x104 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x104 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x104 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x104 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x108 "TIFS_CBASS_FW_REGS_sram0_fw_region_8_permission_1,The FW Region 8 Permission 1 Register defines the permissions for the target Isram0.slv region 8 firewall." hexmask.long.byte 0x108 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x108 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x108 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x108 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x108 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x108 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x108 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x108 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x108 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x108 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x108 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x108 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x108 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x108 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x108 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10C "TIFS_CBASS_FW_REGS_sram0_fw_region_8_permission_2,The FW Region 8 Permission 2 Register defines the permissions for the target Isram0.slv region 8 firewall." hexmask.long.byte 0x10C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x10C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x10C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x10C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x10C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x10C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x10C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x10C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x10C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x10C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x10C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x10C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x10C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x10C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x10C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x110 "TIFS_CBASS_FW_REGS_sram0_fw_region_8_start_address_l,The FW Region 8 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 8 firewall." hexmask.long.tbyte 0x110 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x110 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x114 "TIFS_CBASS_FW_REGS_sram0_fw_region_8_start_address_h,The FW Region 8 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 8 firewall." hexmask.long.word 0x114 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x118 "TIFS_CBASS_FW_REGS_sram0_fw_region_8_end_address_l,The FW Region 8 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 8 firewall." hexmask.long.tbyte 0x118 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x118 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x11C "TIFS_CBASS_FW_REGS_sram0_fw_region_8_end_address_h,The FW Region 8 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 8 firewall." hexmask.long.word 0x11C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x120 "TIFS_CBASS_FW_REGS_sram0_fw_region_9_control,The FW Region 9 Control Register defines the control fields for the target Isram0.slv region 9 firewall." bitfld.long 0x120 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x120 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x120 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x120 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x124 "TIFS_CBASS_FW_REGS_sram0_fw_region_9_permission_0,The FW Region 9 Permission 0 Register defines the permissions for the target Isram0.slv region 9 firewall." hexmask.long.byte 0x124 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x124 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x124 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x124 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x124 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x124 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x124 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x124 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x124 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x124 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x124 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x124 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x124 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x124 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x124 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x128 "TIFS_CBASS_FW_REGS_sram0_fw_region_9_permission_1,The FW Region 9 Permission 1 Register defines the permissions for the target Isram0.slv region 9 firewall." hexmask.long.byte 0x128 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x128 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x128 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x128 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x128 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x128 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x128 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x128 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x128 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x128 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x128 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x128 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x128 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x128 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x128 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x12C "TIFS_CBASS_FW_REGS_sram0_fw_region_9_permission_2,The FW Region 9 Permission 2 Register defines the permissions for the target Isram0.slv region 9 firewall." hexmask.long.byte 0x12C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x12C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x12C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x12C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x12C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x12C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x12C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x12C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x12C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x12C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x12C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x12C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x12C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x12C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x12C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x130 "TIFS_CBASS_FW_REGS_sram0_fw_region_9_start_address_l,The FW Region 9 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 9 firewall." hexmask.long.tbyte 0x130 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x130 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x134 "TIFS_CBASS_FW_REGS_sram0_fw_region_9_start_address_h,The FW Region 9 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 9 firewall." hexmask.long.word 0x134 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x138 "TIFS_CBASS_FW_REGS_sram0_fw_region_9_end_address_l,The FW Region 9 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 9 firewall." hexmask.long.tbyte 0x138 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x138 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x13C "TIFS_CBASS_FW_REGS_sram0_fw_region_9_end_address_h,The FW Region 9 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 9 firewall." hexmask.long.word 0x13C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x140 "TIFS_CBASS_FW_REGS_sram0_fw_region_10_control,The FW Region 10 Control Register defines the control fields for the target Isram0.slv region 10 firewall." bitfld.long 0x140 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x140 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x140 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x140 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x144 "TIFS_CBASS_FW_REGS_sram0_fw_region_10_permission_0,The FW Region 10 Permission 0 Register defines the permissions for the target Isram0.slv region 10 firewall." hexmask.long.byte 0x144 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x144 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x144 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x144 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x144 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x144 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x144 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x144 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x144 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x144 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x144 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x144 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x144 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x144 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x144 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x148 "TIFS_CBASS_FW_REGS_sram0_fw_region_10_permission_1,The FW Region 10 Permission 1 Register defines the permissions for the target Isram0.slv region 10 firewall." hexmask.long.byte 0x148 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x148 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x148 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x148 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x148 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x148 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x148 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x148 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x148 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x148 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x148 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x148 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x148 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x148 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x148 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x14C "TIFS_CBASS_FW_REGS_sram0_fw_region_10_permission_2,The FW Region 10 Permission 2 Register defines the permissions for the target Isram0.slv region 10 firewall." hexmask.long.byte 0x14C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x14C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x14C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x14C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x14C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x14C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x14C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x14C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x14C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x14C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x14C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x14C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x14C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x14C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x14C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x150 "TIFS_CBASS_FW_REGS_sram0_fw_region_10_start_address_l,The FW Region 10 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 10 firewall." hexmask.long.tbyte 0x150 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x150 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x154 "TIFS_CBASS_FW_REGS_sram0_fw_region_10_start_address_h,The FW Region 10 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 10 firewall." hexmask.long.word 0x154 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x158 "TIFS_CBASS_FW_REGS_sram0_fw_region_10_end_address_l,The FW Region 10 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 10 firewall." hexmask.long.tbyte 0x158 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x158 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x15C "TIFS_CBASS_FW_REGS_sram0_fw_region_10_end_address_h,The FW Region 10 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 10 firewall." hexmask.long.word 0x15C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x160 "TIFS_CBASS_FW_REGS_sram0_fw_region_11_control,The FW Region 11 Control Register defines the control fields for the target Isram0.slv region 11 firewall." bitfld.long 0x160 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x160 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x160 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x160 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x164 "TIFS_CBASS_FW_REGS_sram0_fw_region_11_permission_0,The FW Region 11 Permission 0 Register defines the permissions for the target Isram0.slv region 11 firewall." hexmask.long.byte 0x164 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x164 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x164 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x164 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x164 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x164 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x164 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x164 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x164 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x164 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x164 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x164 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x164 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x164 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x164 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x168 "TIFS_CBASS_FW_REGS_sram0_fw_region_11_permission_1,The FW Region 11 Permission 1 Register defines the permissions for the target Isram0.slv region 11 firewall." hexmask.long.byte 0x168 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x168 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x168 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x168 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x168 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x168 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x168 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x168 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x168 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x168 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x168 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x168 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x168 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x168 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x168 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x16C "TIFS_CBASS_FW_REGS_sram0_fw_region_11_permission_2,The FW Region 11 Permission 2 Register defines the permissions for the target Isram0.slv region 11 firewall." hexmask.long.byte 0x16C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x16C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x16C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x16C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x16C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x16C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x16C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x16C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x16C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x16C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x16C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x16C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x16C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x16C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x16C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x170 "TIFS_CBASS_FW_REGS_sram0_fw_region_11_start_address_l,The FW Region 11 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 11 firewall." hexmask.long.tbyte 0x170 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x170 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x174 "TIFS_CBASS_FW_REGS_sram0_fw_region_11_start_address_h,The FW Region 11 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 11 firewall." hexmask.long.word 0x174 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x178 "TIFS_CBASS_FW_REGS_sram0_fw_region_11_end_address_l,The FW Region 11 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 11 firewall." hexmask.long.tbyte 0x178 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x178 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x17C "TIFS_CBASS_FW_REGS_sram0_fw_region_11_end_address_h,The FW Region 11 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 11 firewall." hexmask.long.word 0x17C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x180 "TIFS_CBASS_FW_REGS_sram0_fw_region_12_control,The FW Region 12 Control Register defines the control fields for the target Isram0.slv region 12 firewall." bitfld.long 0x180 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x180 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x180 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x180 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x184 "TIFS_CBASS_FW_REGS_sram0_fw_region_12_permission_0,The FW Region 12 Permission 0 Register defines the permissions for the target Isram0.slv region 12 firewall." hexmask.long.byte 0x184 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x184 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x184 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x184 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x184 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x184 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x184 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x184 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x184 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x184 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x184 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x184 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x184 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x184 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x184 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x188 "TIFS_CBASS_FW_REGS_sram0_fw_region_12_permission_1,The FW Region 12 Permission 1 Register defines the permissions for the target Isram0.slv region 12 firewall." hexmask.long.byte 0x188 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x188 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x188 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x188 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x188 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x188 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x188 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x188 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x188 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x188 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x188 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x188 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x188 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x188 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x188 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x18C "TIFS_CBASS_FW_REGS_sram0_fw_region_12_permission_2,The FW Region 12 Permission 2 Register defines the permissions for the target Isram0.slv region 12 firewall." hexmask.long.byte 0x18C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x18C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x18C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x18C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x18C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x18C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x18C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x18C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x18C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x18C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x18C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x18C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x18C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x18C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x18C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x190 "TIFS_CBASS_FW_REGS_sram0_fw_region_12_start_address_l,The FW Region 12 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 12 firewall." hexmask.long.tbyte 0x190 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x190 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x194 "TIFS_CBASS_FW_REGS_sram0_fw_region_12_start_address_h,The FW Region 12 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 12 firewall." hexmask.long.word 0x194 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x198 "TIFS_CBASS_FW_REGS_sram0_fw_region_12_end_address_l,The FW Region 12 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 12 firewall." hexmask.long.tbyte 0x198 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x198 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x19C "TIFS_CBASS_FW_REGS_sram0_fw_region_12_end_address_h,The FW Region 12 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 12 firewall." hexmask.long.word 0x19C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1A0 "TIFS_CBASS_FW_REGS_sram0_fw_region_13_control,The FW Region 13 Control Register defines the control fields for the target Isram0.slv region 13 firewall." bitfld.long 0x1A0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1A0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x1A0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x1A0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1A4 "TIFS_CBASS_FW_REGS_sram0_fw_region_13_permission_0,The FW Region 13 Permission 0 Register defines the permissions for the target Isram0.slv region 13 firewall." hexmask.long.byte 0x1A4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1A4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1A4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1A4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1A4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1A4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1A4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1A4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1A4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1A4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1A8 "TIFS_CBASS_FW_REGS_sram0_fw_region_13_permission_1,The FW Region 13 Permission 1 Register defines the permissions for the target Isram0.slv region 13 firewall." hexmask.long.byte 0x1A8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1A8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1A8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1A8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1A8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1A8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1A8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1A8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1A8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1A8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1AC "TIFS_CBASS_FW_REGS_sram0_fw_region_13_permission_2,The FW Region 13 Permission 2 Register defines the permissions for the target Isram0.slv region 13 firewall." hexmask.long.byte 0x1AC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1AC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1AC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1AC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1AC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1AC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1AC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1AC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1AC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1AC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1AC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1AC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1AC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1AC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1AC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1B0 "TIFS_CBASS_FW_REGS_sram0_fw_region_13_start_address_l,The FW Region 13 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 13 firewall." hexmask.long.tbyte 0x1B0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1B0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1B4 "TIFS_CBASS_FW_REGS_sram0_fw_region_13_start_address_h,The FW Region 13 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 13 firewall." hexmask.long.word 0x1B4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1B8 "TIFS_CBASS_FW_REGS_sram0_fw_region_13_end_address_l,The FW Region 13 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 13 firewall." hexmask.long.tbyte 0x1B8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1B8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1BC "TIFS_CBASS_FW_REGS_sram0_fw_region_13_end_address_h,The FW Region 13 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 13 firewall." hexmask.long.word 0x1BC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1C0 "TIFS_CBASS_FW_REGS_sram0_fw_region_14_control,The FW Region 14 Control Register defines the control fields for the target Isram0.slv region 14 firewall." bitfld.long 0x1C0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1C0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x1C0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x1C0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1C4 "TIFS_CBASS_FW_REGS_sram0_fw_region_14_permission_0,The FW Region 14 Permission 0 Register defines the permissions for the target Isram0.slv region 14 firewall." hexmask.long.byte 0x1C4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1C4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1C4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1C4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1C4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1C4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1C4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1C4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1C4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1C4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1C8 "TIFS_CBASS_FW_REGS_sram0_fw_region_14_permission_1,The FW Region 14 Permission 1 Register defines the permissions for the target Isram0.slv region 14 firewall." hexmask.long.byte 0x1C8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1C8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1C8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1C8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1C8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1C8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1C8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1C8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1C8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1C8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1CC "TIFS_CBASS_FW_REGS_sram0_fw_region_14_permission_2,The FW Region 14 Permission 2 Register defines the permissions for the target Isram0.slv region 14 firewall." hexmask.long.byte 0x1CC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1CC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1CC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1CC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1CC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1CC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1CC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1CC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1CC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1CC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1CC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1CC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1CC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1CC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1CC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1D0 "TIFS_CBASS_FW_REGS_sram0_fw_region_14_start_address_l,The FW Region 14 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 14 firewall." hexmask.long.tbyte 0x1D0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1D0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1D4 "TIFS_CBASS_FW_REGS_sram0_fw_region_14_start_address_h,The FW Region 14 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 14 firewall." hexmask.long.word 0x1D4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1D8 "TIFS_CBASS_FW_REGS_sram0_fw_region_14_end_address_l,The FW Region 14 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 14 firewall." hexmask.long.tbyte 0x1D8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1D8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1DC "TIFS_CBASS_FW_REGS_sram0_fw_region_14_end_address_h,The FW Region 14 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 14 firewall." hexmask.long.word 0x1DC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1E0 "TIFS_CBASS_FW_REGS_sram0_fw_region_15_control,The FW Region 15 Control Register defines the control fields for the target Isram0.slv region 15 firewall." bitfld.long 0x1E0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1E0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x1E0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x1E0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1E4 "TIFS_CBASS_FW_REGS_sram0_fw_region_15_permission_0,The FW Region 15 Permission 0 Register defines the permissions for the target Isram0.slv region 15 firewall." hexmask.long.byte 0x1E4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1E4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1E4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1E4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1E4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1E4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1E4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1E4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1E4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1E4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1E8 "TIFS_CBASS_FW_REGS_sram0_fw_region_15_permission_1,The FW Region 15 Permission 1 Register defines the permissions for the target Isram0.slv region 15 firewall." hexmask.long.byte 0x1E8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1E8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1E8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1E8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1E8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1E8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1E8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1E8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1E8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1E8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1EC "TIFS_CBASS_FW_REGS_sram0_fw_region_15_permission_2,The FW Region 15 Permission 2 Register defines the permissions for the target Isram0.slv region 15 firewall." hexmask.long.byte 0x1EC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1EC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1EC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1EC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1EC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1EC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1EC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1EC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1EC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1EC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1EC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1EC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1EC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1EC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1EC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1F0 "TIFS_CBASS_FW_REGS_sram0_fw_region_15_start_address_l,The FW Region 15 Start Address Low Register defines the start address bits 31 to 0 for the target Isram0.slv region 15 firewall." hexmask.long.tbyte 0x1F0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1F0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1F4 "TIFS_CBASS_FW_REGS_sram0_fw_region_15_start_address_h,The FW Region 15 Start Address High Register defines the start address bits 47 to 32 for the target Isram0.slv region 15 firewall." hexmask.long.word 0x1F4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1F8 "TIFS_CBASS_FW_REGS_sram0_fw_region_15_end_address_l,The FW Region 15 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram0.slv region 15 firewall." hexmask.long.tbyte 0x1F8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1F8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1FC "TIFS_CBASS_FW_REGS_sram0_fw_region_15_end_address_h,The FW Region 15 End Address High Register defines the end address bits 47 to 32 to include for the target Isram0.slv region 15 firewall." hexmask.long.word 0x1FC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x800++0xFF line.long 0x0 "TIFS_CBASS_FW_REGS_sram1_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Isram1.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "TIFS_CBASS_FW_REGS_sram1_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Isram1.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "TIFS_CBASS_FW_REGS_sram1_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Isram1.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "TIFS_CBASS_FW_REGS_sram1_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Isram1.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "TIFS_CBASS_FW_REGS_sram1_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Isram1.slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "TIFS_CBASS_FW_REGS_sram1_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Isram1.slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "TIFS_CBASS_FW_REGS_sram1_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram1.slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "TIFS_CBASS_FW_REGS_sram1_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Isram1.slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "TIFS_CBASS_FW_REGS_sram1_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Isram1.slv region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "TIFS_CBASS_FW_REGS_sram1_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Isram1.slv region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "TIFS_CBASS_FW_REGS_sram1_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Isram1.slv region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "TIFS_CBASS_FW_REGS_sram1_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Isram1.slv region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "TIFS_CBASS_FW_REGS_sram1_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Isram1.slv region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "TIFS_CBASS_FW_REGS_sram1_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Isram1.slv region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "TIFS_CBASS_FW_REGS_sram1_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram1.slv region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "TIFS_CBASS_FW_REGS_sram1_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Isram1.slv region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "TIFS_CBASS_FW_REGS_sram1_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target Isram1.slv region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "TIFS_CBASS_FW_REGS_sram1_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target Isram1.slv region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "TIFS_CBASS_FW_REGS_sram1_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target Isram1.slv region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "TIFS_CBASS_FW_REGS_sram1_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target Isram1.slv region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "TIFS_CBASS_FW_REGS_sram1_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target Isram1.slv region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "TIFS_CBASS_FW_REGS_sram1_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target Isram1.slv region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "TIFS_CBASS_FW_REGS_sram1_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram1.slv region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "TIFS_CBASS_FW_REGS_sram1_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target Isram1.slv region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "TIFS_CBASS_FW_REGS_sram1_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target Isram1.slv region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "TIFS_CBASS_FW_REGS_sram1_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target Isram1.slv region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "TIFS_CBASS_FW_REGS_sram1_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target Isram1.slv region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "TIFS_CBASS_FW_REGS_sram1_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target Isram1.slv region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "TIFS_CBASS_FW_REGS_sram1_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target Isram1.slv region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "TIFS_CBASS_FW_REGS_sram1_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target Isram1.slv region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "TIFS_CBASS_FW_REGS_sram1_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram1.slv region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "TIFS_CBASS_FW_REGS_sram1_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target Isram1.slv region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "TIFS_CBASS_FW_REGS_sram1_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target Isram1.slv region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "TIFS_CBASS_FW_REGS_sram1_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target Isram1.slv region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "TIFS_CBASS_FW_REGS_sram1_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target Isram1.slv region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "TIFS_CBASS_FW_REGS_sram1_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target Isram1.slv region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "TIFS_CBASS_FW_REGS_sram1_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target Isram1.slv region 4 firewall." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "TIFS_CBASS_FW_REGS_sram1_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target Isram1.slv region 4 firewall." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "TIFS_CBASS_FW_REGS_sram1_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram1.slv region 4 firewall." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "TIFS_CBASS_FW_REGS_sram1_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target Isram1.slv region 4 firewall." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "TIFS_CBASS_FW_REGS_sram1_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target Isram1.slv region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "TIFS_CBASS_FW_REGS_sram1_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target Isram1.slv region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "TIFS_CBASS_FW_REGS_sram1_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target Isram1.slv region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "TIFS_CBASS_FW_REGS_sram1_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target Isram1.slv region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "TIFS_CBASS_FW_REGS_sram1_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target Isram1.slv region 5 firewall." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "TIFS_CBASS_FW_REGS_sram1_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target Isram1.slv region 5 firewall." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "TIFS_CBASS_FW_REGS_sram1_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram1.slv region 5 firewall." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "TIFS_CBASS_FW_REGS_sram1_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target Isram1.slv region 5 firewall." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "TIFS_CBASS_FW_REGS_sram1_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target Isram1.slv region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "TIFS_CBASS_FW_REGS_sram1_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target Isram1.slv region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "TIFS_CBASS_FW_REGS_sram1_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target Isram1.slv region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "TIFS_CBASS_FW_REGS_sram1_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target Isram1.slv region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "TIFS_CBASS_FW_REGS_sram1_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target Isram1.slv region 6 firewall." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "TIFS_CBASS_FW_REGS_sram1_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target Isram1.slv region 6 firewall." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "TIFS_CBASS_FW_REGS_sram1_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram1.slv region 6 firewall." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "TIFS_CBASS_FW_REGS_sram1_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target Isram1.slv region 6 firewall." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "TIFS_CBASS_FW_REGS_sram1_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target Isram1.slv region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "TIFS_CBASS_FW_REGS_sram1_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target Isram1.slv region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "TIFS_CBASS_FW_REGS_sram1_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target Isram1.slv region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "TIFS_CBASS_FW_REGS_sram1_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target Isram1.slv region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "TIFS_CBASS_FW_REGS_sram1_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target Isram1.slv region 7 firewall." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "TIFS_CBASS_FW_REGS_sram1_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target Isram1.slv region 7 firewall." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "TIFS_CBASS_FW_REGS_sram1_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target Isram1.slv region 7 firewall." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "TIFS_CBASS_FW_REGS_sram1_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target Isram1.slv region 7 firewall." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x4000++0x1F line.long 0x0 "TIFS_CBASS_FW_REGS_Ipcfg_s_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Ipcfg.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "TIFS_CBASS_FW_REGS_Ipcfg_s_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Ipcfg.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "TIFS_CBASS_FW_REGS_Ipcfg_s_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Ipcfg.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "TIFS_CBASS_FW_REGS_Ipcfg_s_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Ipcfg.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "TIFS_CBASS_FW_REGS_Ipcfg_s_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Ipcfg.slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "TIFS_CBASS_FW_REGS_Ipcfg_s_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Ipcfg.slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "TIFS_CBASS_FW_REGS_Ipcfg_s_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Ipcfg.slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "TIFS_CBASS_FW_REGS_Ipcfg_s_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Ipcfg.slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x6000++0x1F line.long 0x0 "TIFS_CBASS_FW_REGS_timer_cfg_vbp_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Itimer1.timer_cfg_vbp region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "TIFS_CBASS_FW_REGS_timer_cfg_vbp_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Itimer1.timer_cfg_vbp region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "TIFS_CBASS_FW_REGS_timer_cfg_vbp_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Itimer1.timer_cfg_vbp region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "TIFS_CBASS_FW_REGS_timer_cfg_vbp_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Itimer1.timer_cfg_vbp region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "TIFS_CBASS_FW_REGS_timer_cfg_vbp_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Itimer1.timer_cfg_vbp region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "TIFS_CBASS_FW_REGS_timer_cfg_vbp_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Itimer1.timer_cfg_vbp region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "TIFS_CBASS_FW_REGS_timer_cfg_vbp_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Itimer1.timer_cfg_vbp region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "TIFS_CBASS_FW_REGS_timer_cfg_vbp_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Itimer1.timer_cfg_vbp region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x6400++0x1F line.long 0x0 "TIFS_CBASS_FW_REGS_timer1_cfg_vbp_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Itimer2.timer_cfg_vbp region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "TIFS_CBASS_FW_REGS_timer1_cfg_vbp_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Itimer2.timer_cfg_vbp region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "TIFS_CBASS_FW_REGS_timer1_cfg_vbp_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Itimer2.timer_cfg_vbp region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "TIFS_CBASS_FW_REGS_timer1_cfg_vbp_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Itimer2.timer_cfg_vbp region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "TIFS_CBASS_FW_REGS_timer1_cfg_vbp_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Itimer2.timer_cfg_vbp region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "TIFS_CBASS_FW_REGS_timer1_cfg_vbp_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Itimer2.timer_cfg_vbp region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "TIFS_CBASS_FW_REGS_timer1_cfg_vbp_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Itimer2.timer_cfg_vbp region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "TIFS_CBASS_FW_REGS_timer1_cfg_vbp_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Itimer2.timer_cfg_vbp region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x8000++0x1F line.long 0x0 "TIFS_CBASS_FW_REGS_Iwdt_s_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Iwdt.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "TIFS_CBASS_FW_REGS_Iwdt_s_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Iwdt.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "TIFS_CBASS_FW_REGS_Iwdt_s_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Iwdt.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "TIFS_CBASS_FW_REGS_Iwdt_s_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Iwdt.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "TIFS_CBASS_FW_REGS_Iwdt_s_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Iwdt.slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "TIFS_CBASS_FW_REGS_Iwdt_s_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Iwdt.slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "TIFS_CBASS_FW_REGS_Iwdt_s_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Iwdt.slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "TIFS_CBASS_FW_REGS_Iwdt_s_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Iwdt.slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x8400++0x1F line.long 0x0 "TIFS_CBASS_FW_REGS_Iwdt_ctrl_s_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Iwdt_ctrl.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "TIFS_CBASS_FW_REGS_Iwdt_ctrl_s_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Iwdt_ctrl.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "TIFS_CBASS_FW_REGS_Iwdt_ctrl_s_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Iwdt_ctrl.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "TIFS_CBASS_FW_REGS_Iwdt_ctrl_s_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Iwdt_ctrl.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "TIFS_CBASS_FW_REGS_Iwdt_ctrl_s_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Iwdt_ctrl.slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "TIFS_CBASS_FW_REGS_Iwdt_ctrl_s_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Iwdt_ctrl.slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "TIFS_CBASS_FW_REGS_Iwdt_ctrl_s_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Iwdt_ctrl.slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "TIFS_CBASS_FW_REGS_Iwdt_ctrl_s_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Iwdt_ctrl.slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0xA000++0x1F line.long 0x0 "TIFS_CBASS_FW_REGS_Irat_s_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Irat.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "TIFS_CBASS_FW_REGS_Irat_s_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Irat.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "TIFS_CBASS_FW_REGS_Irat_s_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Irat.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "TIFS_CBASS_FW_REGS_Irat_s_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Irat.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "TIFS_CBASS_FW_REGS_Irat_s_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Irat.slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "TIFS_CBASS_FW_REGS_Irat_s_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Irat.slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "TIFS_CBASS_FW_REGS_Irat_s_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Irat.slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "TIFS_CBASS_FW_REGS_Irat_s_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Irat.slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0xC800++0x3F line.long 0x0 "TIFS_CBASS_FW_REGS_Iecc_s_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Iecc.cfg region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "TIFS_CBASS_FW_REGS_Iecc_s_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Iecc.cfg region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "TIFS_CBASS_FW_REGS_Iecc_s_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Iecc.cfg region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "TIFS_CBASS_FW_REGS_Iecc_s_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Iecc.cfg region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "TIFS_CBASS_FW_REGS_Iecc_s_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Iecc.cfg region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "TIFS_CBASS_FW_REGS_Iecc_s_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Iecc.cfg region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "TIFS_CBASS_FW_REGS_Iecc_s_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Iecc.cfg region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "TIFS_CBASS_FW_REGS_Iecc_s_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Iecc.cfg region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "TIFS_CBASS_FW_REGS_Iecc_s_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Iecc.cfg region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "TIFS_CBASS_FW_REGS_Iecc_s_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Iecc.cfg region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "TIFS_CBASS_FW_REGS_Iecc_s_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Iecc.cfg region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "TIFS_CBASS_FW_REGS_Iecc_s_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Iecc.cfg region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "TIFS_CBASS_FW_REGS_Iecc_s_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Iecc.cfg region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "TIFS_CBASS_FW_REGS_Iecc_s_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Iecc.cfg region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "TIFS_CBASS_FW_REGS_Iecc_s_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Iecc.cfg region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "TIFS_CBASS_FW_REGS_Iecc_s_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Iecc.cfg region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x10000++0x1F line.long 0x0 "TIFS_CBASS_FW_REGS_Isecdbg_s_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Isecdbg.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "TIFS_CBASS_FW_REGS_Isecdbg_s_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Isecdbg.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "TIFS_CBASS_FW_REGS_Isecdbg_s_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Isecdbg.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "TIFS_CBASS_FW_REGS_Isecdbg_s_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Isecdbg.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "TIFS_CBASS_FW_REGS_Isecdbg_s_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Isecdbg.slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "TIFS_CBASS_FW_REGS_Isecdbg_s_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Isecdbg.slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "TIFS_CBASS_FW_REGS_Isecdbg_s_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Isecdbg.slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "TIFS_CBASS_FW_REGS_Isecdbg_s_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Isecdbg.slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x10800++0x1F line.long 0x0 "TIFS_CBASS_FW_REGS_Idbg_auth_s_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Idbg_auth.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "TIFS_CBASS_FW_REGS_Idbg_auth_s_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Idbg_auth.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "TIFS_CBASS_FW_REGS_Idbg_auth_s_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Idbg_auth.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "TIFS_CBASS_FW_REGS_Idbg_auth_s_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Idbg_auth.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "TIFS_CBASS_FW_REGS_Idbg_auth_s_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Idbg_auth.slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "TIFS_CBASS_FW_REGS_Idbg_auth_s_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Idbg_auth.slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "TIFS_CBASS_FW_REGS_Idbg_auth_s_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Idbg_auth.slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "TIFS_CBASS_FW_REGS_Idbg_auth_s_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Idbg_auth.slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x11800++0x3F line.long 0x0 "TIFS_CBASS_FW_REGS_Iseckey_s_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Iseckey.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "TIFS_CBASS_FW_REGS_Iseckey_s_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Iseckey.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "TIFS_CBASS_FW_REGS_Iseckey_s_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Iseckey.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "TIFS_CBASS_FW_REGS_Iseckey_s_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Iseckey.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "TIFS_CBASS_FW_REGS_Iseckey_s_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Iseckey.slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "TIFS_CBASS_FW_REGS_Iseckey_s_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Iseckey.slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "TIFS_CBASS_FW_REGS_Iseckey_s_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Iseckey.slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "TIFS_CBASS_FW_REGS_Iseckey_s_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Iseckey.slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "TIFS_CBASS_FW_REGS_Iseckey_s_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Iseckey.slv region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "TIFS_CBASS_FW_REGS_Iseckey_s_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Iseckey.slv region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "TIFS_CBASS_FW_REGS_Iseckey_s_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Iseckey.slv region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "TIFS_CBASS_FW_REGS_Iseckey_s_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Iseckey.slv region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "TIFS_CBASS_FW_REGS_Iseckey_s_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Iseckey.slv region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "TIFS_CBASS_FW_REGS_Iseckey_s_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Iseckey.slv region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "TIFS_CBASS_FW_REGS_Iseckey_s_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Iseckey.slv region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "TIFS_CBASS_FW_REGS_Iseckey_s_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Iseckey.slv region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x14000++0x1F line.long 0x0 "TIFS_CBASS_FW_REGS_timer2_cfg_vbp_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Itimer3.timer_cfg_vbp region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "TIFS_CBASS_FW_REGS_timer2_cfg_vbp_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Itimer3.timer_cfg_vbp region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "TIFS_CBASS_FW_REGS_timer2_cfg_vbp_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Itimer3.timer_cfg_vbp region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "TIFS_CBASS_FW_REGS_timer2_cfg_vbp_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Itimer3.timer_cfg_vbp region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "TIFS_CBASS_FW_REGS_timer2_cfg_vbp_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Itimer3.timer_cfg_vbp region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "TIFS_CBASS_FW_REGS_timer2_cfg_vbp_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Itimer3.timer_cfg_vbp region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "TIFS_CBASS_FW_REGS_timer2_cfg_vbp_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Itimer3.timer_cfg_vbp region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "TIFS_CBASS_FW_REGS_timer2_cfg_vbp_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Itimer3.timer_cfg_vbp region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x14400++0x1F line.long 0x0 "TIFS_CBASS_FW_REGS_timer3_cfg_vbp_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Itimer4.timer_cfg_vbp region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "TIFS_CBASS_FW_REGS_timer3_cfg_vbp_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Itimer4.timer_cfg_vbp region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "TIFS_CBASS_FW_REGS_timer3_cfg_vbp_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Itimer4.timer_cfg_vbp region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "TIFS_CBASS_FW_REGS_timer3_cfg_vbp_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Itimer4.timer_cfg_vbp region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "TIFS_CBASS_FW_REGS_timer3_cfg_vbp_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Itimer4.timer_cfg_vbp region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "TIFS_CBASS_FW_REGS_timer3_cfg_vbp_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Itimer4.timer_cfg_vbp region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "TIFS_CBASS_FW_REGS_timer3_cfg_vbp_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Itimer4.timer_cfg_vbp region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "TIFS_CBASS_FW_REGS_timer3_cfg_vbp_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Itimer4.timer_cfg_vbp region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x16800++0x3F line.long 0x0 "TIFS_CBASS_FW_REGS_Iaes_s_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Iaes.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "TIFS_CBASS_FW_REGS_Iaes_s_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Iaes.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "TIFS_CBASS_FW_REGS_Iaes_s_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Iaes.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "TIFS_CBASS_FW_REGS_Iaes_s_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Iaes.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "TIFS_CBASS_FW_REGS_Iaes_s_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Iaes.slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "TIFS_CBASS_FW_REGS_Iaes_s_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Iaes.slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "TIFS_CBASS_FW_REGS_Iaes_s_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Iaes.slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "TIFS_CBASS_FW_REGS_Iaes_s_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Iaes.slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "TIFS_CBASS_FW_REGS_Iaes_s_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Iaes.slv region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "TIFS_CBASS_FW_REGS_Iaes_s_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Iaes.slv region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "TIFS_CBASS_FW_REGS_Iaes_s_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Iaes.slv region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "TIFS_CBASS_FW_REGS_Iaes_s_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Iaes.slv region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "TIFS_CBASS_FW_REGS_Iaes_s_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Iaes.slv region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "TIFS_CBASS_FW_REGS_Iaes_s_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Iaes.slv region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "TIFS_CBASS_FW_REGS_Iaes_s_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Iaes.slv region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "TIFS_CBASS_FW_REGS_Iaes_s_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Iaes.slv region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x1F800++0x2FF line.long 0x0 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target sms_dmss_hsm.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target sms_dmss_hsm.slv region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target sms_dmss_hsm.slv region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target sms_dmss_hsm.slv region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target sms_dmss_hsm.slv region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 4 firewall." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 4 firewall." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 4 firewall." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 4 firewall." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target sms_dmss_hsm.slv region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 5 firewall." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 5 firewall." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 5 firewall." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 5 firewall." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target sms_dmss_hsm.slv region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 6 firewall." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 6 firewall." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 6 firewall." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 6 firewall." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target sms_dmss_hsm.slv region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 7 firewall." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 7 firewall." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 7 firewall." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 7 firewall." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x100 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_8_control,The FW Region 8 Control Register defines the control fields for the target sms_dmss_hsm.slv region 8 firewall." bitfld.long 0x100 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x100 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x100 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x100 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x104 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_8_permission_0,The FW Region 8 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 8 firewall." hexmask.long.byte 0x104 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x104 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x104 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x104 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x104 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x104 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x104 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x104 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x104 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x104 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x104 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x104 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x104 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x104 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x104 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x108 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_8_permission_1,The FW Region 8 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 8 firewall." hexmask.long.byte 0x108 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x108 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x108 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x108 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x108 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x108 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x108 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x108 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x108 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x108 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x108 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x108 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x108 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x108 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x108 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_8_permission_2,The FW Region 8 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 8 firewall." hexmask.long.byte 0x10C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x10C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x10C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x10C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x10C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x10C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x10C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x10C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x10C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x10C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x10C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x10C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x10C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x10C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x10C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x110 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_8_start_address_l,The FW Region 8 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 8 firewall." hexmask.long.tbyte 0x110 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x110 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x114 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_8_start_address_h,The FW Region 8 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 8 firewall." hexmask.long.word 0x114 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x118 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_8_end_address_l,The FW Region 8 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 8 firewall." hexmask.long.tbyte 0x118 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x118 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x11C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_8_end_address_h,The FW Region 8 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 8 firewall." hexmask.long.word 0x11C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x120 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_9_control,The FW Region 9 Control Register defines the control fields for the target sms_dmss_hsm.slv region 9 firewall." bitfld.long 0x120 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x120 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x120 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x120 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x124 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_9_permission_0,The FW Region 9 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 9 firewall." hexmask.long.byte 0x124 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x124 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x124 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x124 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x124 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x124 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x124 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x124 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x124 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x124 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x124 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x124 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x124 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x124 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x124 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x128 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_9_permission_1,The FW Region 9 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 9 firewall." hexmask.long.byte 0x128 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x128 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x128 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x128 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x128 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x128 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x128 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x128 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x128 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x128 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x128 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x128 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x128 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x128 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x128 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x12C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_9_permission_2,The FW Region 9 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 9 firewall." hexmask.long.byte 0x12C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x12C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x12C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x12C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x12C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x12C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x12C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x12C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x12C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x12C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x12C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x12C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x12C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x12C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x12C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x130 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_9_start_address_l,The FW Region 9 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 9 firewall." hexmask.long.tbyte 0x130 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x130 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x134 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_9_start_address_h,The FW Region 9 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 9 firewall." hexmask.long.word 0x134 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x138 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_9_end_address_l,The FW Region 9 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 9 firewall." hexmask.long.tbyte 0x138 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x138 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x13C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_9_end_address_h,The FW Region 9 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 9 firewall." hexmask.long.word 0x13C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x140 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_10_control,The FW Region 10 Control Register defines the control fields for the target sms_dmss_hsm.slv region 10 firewall." bitfld.long 0x140 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x140 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x140 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x140 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x144 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_10_permission_0,The FW Region 10 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 10 firewall." hexmask.long.byte 0x144 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x144 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x144 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x144 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x144 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x144 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x144 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x144 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x144 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x144 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x144 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x144 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x144 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x144 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x144 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x148 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_10_permission_1,The FW Region 10 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 10 firewall." hexmask.long.byte 0x148 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x148 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x148 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x148 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x148 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x148 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x148 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x148 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x148 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x148 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x148 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x148 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x148 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x148 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x148 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x14C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_10_permission_2,The FW Region 10 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 10 firewall." hexmask.long.byte 0x14C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x14C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x14C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x14C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x14C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x14C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x14C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x14C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x14C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x14C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x14C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x14C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x14C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x14C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x14C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x150 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_10_start_address_l,The FW Region 10 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 10 firewall." hexmask.long.tbyte 0x150 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x150 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x154 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_10_start_address_h,The FW Region 10 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 10 firewall." hexmask.long.word 0x154 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x158 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_10_end_address_l,The FW Region 10 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 10 firewall." hexmask.long.tbyte 0x158 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x158 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x15C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_10_end_address_h,The FW Region 10 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 10 firewall." hexmask.long.word 0x15C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x160 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_11_control,The FW Region 11 Control Register defines the control fields for the target sms_dmss_hsm.slv region 11 firewall." bitfld.long 0x160 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x160 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x160 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x160 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x164 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_11_permission_0,The FW Region 11 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 11 firewall." hexmask.long.byte 0x164 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x164 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x164 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x164 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x164 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x164 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x164 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x164 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x164 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x164 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x164 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x164 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x164 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x164 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x164 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x168 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_11_permission_1,The FW Region 11 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 11 firewall." hexmask.long.byte 0x168 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x168 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x168 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x168 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x168 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x168 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x168 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x168 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x168 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x168 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x168 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x168 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x168 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x168 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x168 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x16C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_11_permission_2,The FW Region 11 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 11 firewall." hexmask.long.byte 0x16C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x16C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x16C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x16C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x16C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x16C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x16C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x16C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x16C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x16C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x16C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x16C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x16C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x16C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x16C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x170 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_11_start_address_l,The FW Region 11 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 11 firewall." hexmask.long.tbyte 0x170 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x170 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x174 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_11_start_address_h,The FW Region 11 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 11 firewall." hexmask.long.word 0x174 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x178 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_11_end_address_l,The FW Region 11 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 11 firewall." hexmask.long.tbyte 0x178 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x178 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x17C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_11_end_address_h,The FW Region 11 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 11 firewall." hexmask.long.word 0x17C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x180 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_12_control,The FW Region 12 Control Register defines the control fields for the target sms_dmss_hsm.slv region 12 firewall." bitfld.long 0x180 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x180 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x180 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x180 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x184 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_12_permission_0,The FW Region 12 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 12 firewall." hexmask.long.byte 0x184 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x184 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x184 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x184 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x184 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x184 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x184 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x184 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x184 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x184 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x184 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x184 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x184 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x184 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x184 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x188 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_12_permission_1,The FW Region 12 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 12 firewall." hexmask.long.byte 0x188 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x188 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x188 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x188 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x188 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x188 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x188 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x188 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x188 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x188 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x188 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x188 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x188 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x188 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x188 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x18C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_12_permission_2,The FW Region 12 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 12 firewall." hexmask.long.byte 0x18C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x18C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x18C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x18C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x18C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x18C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x18C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x18C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x18C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x18C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x18C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x18C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x18C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x18C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x18C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x190 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_12_start_address_l,The FW Region 12 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 12 firewall." hexmask.long.tbyte 0x190 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x190 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x194 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_12_start_address_h,The FW Region 12 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 12 firewall." hexmask.long.word 0x194 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x198 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_12_end_address_l,The FW Region 12 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 12 firewall." hexmask.long.tbyte 0x198 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x198 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x19C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_12_end_address_h,The FW Region 12 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 12 firewall." hexmask.long.word 0x19C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1A0 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_13_control,The FW Region 13 Control Register defines the control fields for the target sms_dmss_hsm.slv region 13 firewall." bitfld.long 0x1A0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1A0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x1A0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x1A0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1A4 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_13_permission_0,The FW Region 13 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 13 firewall." hexmask.long.byte 0x1A4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1A4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1A4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1A4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1A4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1A4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1A4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1A4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1A4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1A4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1A8 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_13_permission_1,The FW Region 13 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 13 firewall." hexmask.long.byte 0x1A8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1A8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1A8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1A8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1A8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1A8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1A8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1A8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1A8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1A8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1AC "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_13_permission_2,The FW Region 13 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 13 firewall." hexmask.long.byte 0x1AC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1AC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1AC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1AC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1AC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1AC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1AC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1AC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1AC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1AC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1AC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1AC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1AC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1AC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1AC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1B0 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_13_start_address_l,The FW Region 13 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 13 firewall." hexmask.long.tbyte 0x1B0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1B0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1B4 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_13_start_address_h,The FW Region 13 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 13 firewall." hexmask.long.word 0x1B4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1B8 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_13_end_address_l,The FW Region 13 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 13 firewall." hexmask.long.tbyte 0x1B8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1B8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1BC "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_13_end_address_h,The FW Region 13 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 13 firewall." hexmask.long.word 0x1BC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1C0 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_14_control,The FW Region 14 Control Register defines the control fields for the target sms_dmss_hsm.slv region 14 firewall." bitfld.long 0x1C0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1C0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x1C0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x1C0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1C4 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_14_permission_0,The FW Region 14 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 14 firewall." hexmask.long.byte 0x1C4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1C4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1C4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1C4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1C4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1C4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1C4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1C4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1C4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1C4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1C8 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_14_permission_1,The FW Region 14 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 14 firewall." hexmask.long.byte 0x1C8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1C8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1C8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1C8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1C8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1C8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1C8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1C8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1C8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1C8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1CC "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_14_permission_2,The FW Region 14 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 14 firewall." hexmask.long.byte 0x1CC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1CC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1CC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1CC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1CC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1CC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1CC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1CC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1CC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1CC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1CC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1CC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1CC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1CC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1CC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1D0 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_14_start_address_l,The FW Region 14 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 14 firewall." hexmask.long.tbyte 0x1D0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1D0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1D4 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_14_start_address_h,The FW Region 14 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 14 firewall." hexmask.long.word 0x1D4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1D8 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_14_end_address_l,The FW Region 14 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 14 firewall." hexmask.long.tbyte 0x1D8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1D8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1DC "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_14_end_address_h,The FW Region 14 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 14 firewall." hexmask.long.word 0x1DC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1E0 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_15_control,The FW Region 15 Control Register defines the control fields for the target sms_dmss_hsm.slv region 15 firewall." bitfld.long 0x1E0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1E0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x1E0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x1E0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1E4 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_15_permission_0,The FW Region 15 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 15 firewall." hexmask.long.byte 0x1E4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1E4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1E4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1E4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1E4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1E4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1E4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1E4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1E4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1E4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1E8 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_15_permission_1,The FW Region 15 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 15 firewall." hexmask.long.byte 0x1E8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1E8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1E8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1E8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1E8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1E8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1E8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1E8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1E8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1E8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1EC "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_15_permission_2,The FW Region 15 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 15 firewall." hexmask.long.byte 0x1EC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1EC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x1EC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x1EC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x1EC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1EC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x1EC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x1EC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x1EC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1EC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1EC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1EC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x1EC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x1EC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x1EC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1F0 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_15_start_address_l,The FW Region 15 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 15 firewall." hexmask.long.tbyte 0x1F0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1F0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1F4 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_15_start_address_h,The FW Region 15 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 15 firewall." hexmask.long.word 0x1F4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1F8 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_15_end_address_l,The FW Region 15 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 15 firewall." hexmask.long.tbyte 0x1F8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1F8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1FC "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_15_end_address_h,The FW Region 15 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 15 firewall." hexmask.long.word 0x1FC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x200 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_16_control,The FW Region 16 Control Register defines the control fields for the target sms_dmss_hsm.slv region 16 firewall." bitfld.long 0x200 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x200 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x200 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x200 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x204 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_16_permission_0,The FW Region 16 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 16 firewall." hexmask.long.byte 0x204 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x204 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x204 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x204 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x204 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x204 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x204 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x204 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x204 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x204 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x204 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x204 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x204 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x204 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x204 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x204 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x204 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x208 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_16_permission_1,The FW Region 16 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 16 firewall." hexmask.long.byte 0x208 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x208 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x208 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x208 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x208 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x208 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x208 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x208 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x208 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x208 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x208 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x208 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x208 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x208 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x208 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x208 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x208 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x20C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_16_permission_2,The FW Region 16 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 16 firewall." hexmask.long.byte 0x20C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x20C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x20C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x20C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x20C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x20C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x20C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x20C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x20C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x20C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x20C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x20C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x20C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x20C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x20C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x20C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x20C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x210 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_16_start_address_l,The FW Region 16 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 16 firewall." hexmask.long.tbyte 0x210 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x210 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x214 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_16_start_address_h,The FW Region 16 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 16 firewall." hexmask.long.word 0x214 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x218 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_16_end_address_l,The FW Region 16 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 16 firewall." hexmask.long.tbyte 0x218 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x218 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x21C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_16_end_address_h,The FW Region 16 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 16 firewall." hexmask.long.word 0x21C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x220 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_17_control,The FW Region 17 Control Register defines the control fields for the target sms_dmss_hsm.slv region 17 firewall." bitfld.long 0x220 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x220 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x220 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x220 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x224 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_17_permission_0,The FW Region 17 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 17 firewall." hexmask.long.byte 0x224 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x224 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x224 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x224 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x224 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x224 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x224 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x224 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x224 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x224 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x224 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x224 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x224 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x224 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x224 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x224 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x224 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x228 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_17_permission_1,The FW Region 17 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 17 firewall." hexmask.long.byte 0x228 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x228 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x228 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x228 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x228 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x228 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x228 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x228 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x228 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x228 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x228 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x228 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x228 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x228 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x228 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x228 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x228 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x22C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_17_permission_2,The FW Region 17 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 17 firewall." hexmask.long.byte 0x22C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x22C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x22C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x22C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x22C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x22C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x22C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x22C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x22C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x22C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x22C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x22C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x22C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x22C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x22C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x22C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x22C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x230 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_17_start_address_l,The FW Region 17 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 17 firewall." hexmask.long.tbyte 0x230 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x230 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x234 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_17_start_address_h,The FW Region 17 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 17 firewall." hexmask.long.word 0x234 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x238 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_17_end_address_l,The FW Region 17 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 17 firewall." hexmask.long.tbyte 0x238 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x238 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x23C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_17_end_address_h,The FW Region 17 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 17 firewall." hexmask.long.word 0x23C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x240 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_18_control,The FW Region 18 Control Register defines the control fields for the target sms_dmss_hsm.slv region 18 firewall." bitfld.long 0x240 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x240 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x240 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x240 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x244 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_18_permission_0,The FW Region 18 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 18 firewall." hexmask.long.byte 0x244 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x244 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x244 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x244 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x244 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x244 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x244 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x244 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x244 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x244 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x244 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x244 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x244 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x244 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x244 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x244 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x244 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x248 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_18_permission_1,The FW Region 18 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 18 firewall." hexmask.long.byte 0x248 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x248 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x248 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x248 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x248 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x248 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x248 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x248 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x248 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x248 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x248 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x248 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x248 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x248 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x248 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x248 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x248 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x24C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_18_permission_2,The FW Region 18 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 18 firewall." hexmask.long.byte 0x24C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x24C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x24C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x24C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x24C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x24C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x24C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x24C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x24C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x24C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x250 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_18_start_address_l,The FW Region 18 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 18 firewall." hexmask.long.tbyte 0x250 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x250 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x254 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_18_start_address_h,The FW Region 18 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 18 firewall." hexmask.long.word 0x254 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x258 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_18_end_address_l,The FW Region 18 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 18 firewall." hexmask.long.tbyte 0x258 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x258 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x25C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_18_end_address_h,The FW Region 18 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 18 firewall." hexmask.long.word 0x25C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x260 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_19_control,The FW Region 19 Control Register defines the control fields for the target sms_dmss_hsm.slv region 19 firewall." bitfld.long 0x260 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x260 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x260 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x260 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x264 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_19_permission_0,The FW Region 19 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 19 firewall." hexmask.long.byte 0x264 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x264 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x264 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x264 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x264 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x264 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x264 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x264 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x264 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x264 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x264 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x264 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x264 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x264 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x264 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x264 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x264 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x268 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_19_permission_1,The FW Region 19 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 19 firewall." hexmask.long.byte 0x268 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x268 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x268 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x268 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x268 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x268 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x268 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x268 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x268 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x268 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x268 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x268 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x268 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x268 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x268 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x268 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x268 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x26C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_19_permission_2,The FW Region 19 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 19 firewall." hexmask.long.byte 0x26C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x26C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x26C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x26C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x26C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x26C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x26C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x26C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x26C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x26C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x26C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x26C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x26C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x26C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x26C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x26C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x26C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x270 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_19_start_address_l,The FW Region 19 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 19 firewall." hexmask.long.tbyte 0x270 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x270 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x274 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_19_start_address_h,The FW Region 19 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 19 firewall." hexmask.long.word 0x274 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x278 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_19_end_address_l,The FW Region 19 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 19 firewall." hexmask.long.tbyte 0x278 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x278 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x27C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_19_end_address_h,The FW Region 19 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 19 firewall." hexmask.long.word 0x27C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x280 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_20_control,The FW Region 20 Control Register defines the control fields for the target sms_dmss_hsm.slv region 20 firewall." bitfld.long 0x280 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x280 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x280 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x280 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x284 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_20_permission_0,The FW Region 20 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 20 firewall." hexmask.long.byte 0x284 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x284 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x284 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x284 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x284 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x284 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x284 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x284 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x284 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x284 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x284 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x284 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x284 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x284 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x284 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x284 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x284 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x288 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_20_permission_1,The FW Region 20 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 20 firewall." hexmask.long.byte 0x288 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x288 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x288 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x288 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x288 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x288 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x288 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x288 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x288 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x288 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x288 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x288 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x288 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x288 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x288 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x288 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x288 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_20_permission_2,The FW Region 20 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 20 firewall." hexmask.long.byte 0x28C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x28C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x28C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x28C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x28C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x28C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x28C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x28C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x28C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x28C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x290 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_20_start_address_l,The FW Region 20 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 20 firewall." hexmask.long.tbyte 0x290 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x290 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x294 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_20_start_address_h,The FW Region 20 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 20 firewall." hexmask.long.word 0x294 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x298 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_20_end_address_l,The FW Region 20 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 20 firewall." hexmask.long.tbyte 0x298 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x298 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x29C "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_20_end_address_h,The FW Region 20 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 20 firewall." hexmask.long.word 0x29C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x2A0 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_21_control,The FW Region 21 Control Register defines the control fields for the target sms_dmss_hsm.slv region 21 firewall." bitfld.long 0x2A0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x2A0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x2A0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x2A0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x2A4 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_21_permission_0,The FW Region 21 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 21 firewall." hexmask.long.byte 0x2A4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2A4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2A4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2A4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2A4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2A4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2A4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2A4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2A4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2A4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2A4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2A4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2A4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2A4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2A4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2A4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2A4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2A8 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_21_permission_1,The FW Region 21 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 21 firewall." hexmask.long.byte 0x2A8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2A8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2A8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2A8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2A8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2A8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2A8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2A8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2A8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2A8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2A8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2A8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2A8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2A8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2A8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2A8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2A8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2AC "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_21_permission_2,The FW Region 21 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 21 firewall." hexmask.long.byte 0x2AC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2AC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2AC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2AC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2AC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2AC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2AC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2AC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2AC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2AC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2AC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2AC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2AC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2AC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2AC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2AC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2AC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2B0 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_21_start_address_l,The FW Region 21 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 21 firewall." hexmask.long.tbyte 0x2B0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x2B0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x2B4 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_21_start_address_h,The FW Region 21 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 21 firewall." hexmask.long.word 0x2B4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x2B8 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_21_end_address_l,The FW Region 21 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 21 firewall." hexmask.long.tbyte 0x2B8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x2B8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x2BC "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_21_end_address_h,The FW Region 21 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 21 firewall." hexmask.long.word 0x2BC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x2C0 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_22_control,The FW Region 22 Control Register defines the control fields for the target sms_dmss_hsm.slv region 22 firewall." bitfld.long 0x2C0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x2C0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x2C0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x2C0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x2C4 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_22_permission_0,The FW Region 22 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 22 firewall." hexmask.long.byte 0x2C4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2C4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2C4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2C4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2C4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2C4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2C4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2C4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2C4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2C4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C8 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_22_permission_1,The FW Region 22 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 22 firewall." hexmask.long.byte 0x2C8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2C8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2C8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2C8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2C8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2C8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2C8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2C8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2C8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2C8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2CC "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_22_permission_2,The FW Region 22 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 22 firewall." hexmask.long.byte 0x2CC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2CC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2CC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2CC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2CC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2CC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2CC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2CC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2CC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2CC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2CC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2CC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2CC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2CC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2CC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2CC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2CC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2D0 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_22_start_address_l,The FW Region 22 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 22 firewall." hexmask.long.tbyte 0x2D0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x2D0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x2D4 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_22_start_address_h,The FW Region 22 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 22 firewall." hexmask.long.word 0x2D4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x2D8 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_22_end_address_l,The FW Region 22 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 22 firewall." hexmask.long.tbyte 0x2D8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x2D8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x2DC "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_22_end_address_h,The FW Region 22 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 22 firewall." hexmask.long.word 0x2DC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x2E0 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_23_control,The FW Region 23 Control Register defines the control fields for the target sms_dmss_hsm.slv region 23 firewall." bitfld.long 0x2E0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x2E0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x2E0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x2E0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x2E4 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_23_permission_0,The FW Region 23 Permission 0 Register defines the permissions for the target sms_dmss_hsm.slv region 23 firewall." hexmask.long.byte 0x2E4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2E4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2E4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2E4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2E4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2E4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2E4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2E4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2E4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2E4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2E4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2E4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2E4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2E4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2E4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2E4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2E4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2E8 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_23_permission_1,The FW Region 23 Permission 1 Register defines the permissions for the target sms_dmss_hsm.slv region 23 firewall." hexmask.long.byte 0x2E8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2E8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2E8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2E8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2E8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2E8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2E8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2E8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2E8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2E8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2E8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2E8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2E8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2E8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2E8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2E8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2E8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2EC "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_23_permission_2,The FW Region 23 Permission 2 Register defines the permissions for the target sms_dmss_hsm.slv region 23 firewall." hexmask.long.byte 0x2EC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2EC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2EC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2EC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2EC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2EC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2EC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2EC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2EC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2EC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2EC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2EC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2EC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2EC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2EC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2EC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2EC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2F0 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_23_start_address_l,The FW Region 23 Start Address Low Register defines the start address bits 31 to 0 for the target sms_dmss_hsm.slv region 23 firewall." hexmask.long.tbyte 0x2F0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x2F0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x2F4 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_23_start_address_h,The FW Region 23 Start Address High Register defines the start address bits 47 to 32 for the target sms_dmss_hsm.slv region 23 firewall." hexmask.long.word 0x2F4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x2F8 "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_23_end_address_l,The FW Region 23 End Address Low Register defines the end address bits 31 to 0 to include for the target sms_dmss_hsm.slv region 23 firewall." hexmask.long.tbyte 0x2F8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x2F8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x2FC "TIFS_CBASS_FW_REGS_sms_dmss_hsm_fw_region_23_end_address_h,The FW Region 23 End Address High Register defines the end address bits 47 to 32 to include for the target sms_dmss_hsm.slv region 23 firewall." hexmask.long.word 0x2FC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x1FC00++0xFF line.long 0x0 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Ifwmgr_int.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Ifwmgr_int.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Ifwmgr_int.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Ifwmgr_int.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Ifwmgr_int.slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Ifwmgr_int.slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Ifwmgr_int.slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Ifwmgr_int.slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Ifwmgr_int.slv region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Ifwmgr_int.slv region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Ifwmgr_int.slv region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Ifwmgr_int.slv region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Ifwmgr_int.slv region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Ifwmgr_int.slv region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Ifwmgr_int.slv region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Ifwmgr_int.slv region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target Ifwmgr_int.slv region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target Ifwmgr_int.slv region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target Ifwmgr_int.slv region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target Ifwmgr_int.slv region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target Ifwmgr_int.slv region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target Ifwmgr_int.slv region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target Ifwmgr_int.slv region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target Ifwmgr_int.slv region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target Ifwmgr_int.slv region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target Ifwmgr_int.slv region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target Ifwmgr_int.slv region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target Ifwmgr_int.slv region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target Ifwmgr_int.slv region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target Ifwmgr_int.slv region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target Ifwmgr_int.slv region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target Ifwmgr_int.slv region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target Ifwmgr_int.slv region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target Ifwmgr_int.slv region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target Ifwmgr_int.slv region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target Ifwmgr_int.slv region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target Ifwmgr_int.slv region 4 firewall." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target Ifwmgr_int.slv region 4 firewall." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target Ifwmgr_int.slv region 4 firewall." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target Ifwmgr_int.slv region 4 firewall." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target Ifwmgr_int.slv region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target Ifwmgr_int.slv region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target Ifwmgr_int.slv region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target Ifwmgr_int.slv region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target Ifwmgr_int.slv region 5 firewall." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target Ifwmgr_int.slv region 5 firewall." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target Ifwmgr_int.slv region 5 firewall." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target Ifwmgr_int.slv region 5 firewall." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target Ifwmgr_int.slv region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target Ifwmgr_int.slv region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target Ifwmgr_int.slv region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target Ifwmgr_int.slv region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target Ifwmgr_int.slv region 6 firewall." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target Ifwmgr_int.slv region 6 firewall." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target Ifwmgr_int.slv region 6 firewall." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target Ifwmgr_int.slv region 6 firewall." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target Ifwmgr_int.slv region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" newline hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target Ifwmgr_int.slv region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target Ifwmgr_int.slv region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target Ifwmgr_int.slv region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" newline bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" newline bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" newline bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target Ifwmgr_int.slv region 7 firewall." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target Ifwmgr_int.slv region 7 firewall." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target Ifwmgr_int.slv region 7 firewall." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "TIFS_CBASS_FW_REGS_Ifwmgr_m_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target Ifwmgr_int.slv region 7 firewall." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." tree.end tree "SMS0_TIFS_CBASS_0_CBASS_GLB (SMS0_TIFS_CBASS_0_CBASS_GLB)" base ad:0x45B00000 rgroup.long 0x0++0x3 line.long 0x0 "TIFS_CBASS_GLB_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "TIFS_CBASS_GLB_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." group.long 0x20++0x3 line.long 0x0 "TIFS_CBASS_GLB_REGS_exception_logging_control,The Exception Logging Control Register controls the exception logging." bitfld.long 0x0 1. "DISABLE_PEND,Disables logging pending when set." "0,1" bitfld.long 0x0 0. "DISABLE_F,Disables logging when set." "0,1" rgroup.long 0x24++0x17 line.long 0x0 "TIFS_CBASS_GLB_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "TIFS_CBASS_GLB_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code." line.long 0x8 "TIFS_CBASS_GLB_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "TIFS_CBASS_GLB_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "TIFS_CBASS_GLB_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" newline bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "TIFS_CBASS_GLB_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x40++0x7 line.long 0x0 "TIFS_CBASS_GLB_REGS_exception_pend_set,The Exception Logging Pending Set Register allows to set the pend signal." bitfld.long 0x0 0. "PEND_SET,Write a 1 to set the exception pend signal." "0,1" line.long 0x4 "TIFS_CBASS_GLB_REGS_exception_pend_clear,The Exception Logging Pending Clear Register allows to clear the pend signal." bitfld.long 0x4 0. "PEND_CLR,Write a 1 to clear the exception pend signal." "0,1" tree.end tree "SMS0_TIFS_CBASS_0_CBASS_ISC (SMS0_TIFS_CBASS_0_CBASS_ISC)" base ad:0x45808000 group.long 0x0++0x3 line.long 0x0 "TIFS_CBASS_ISC_REGS_Iquasar_i_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Iquasar_i.mst region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x10++0x13 line.long 0x0 "TIFS_CBASS_ISC_REGS_Iquasar_i_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Iquasar_i.mst region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "TIFS_CBASS_ISC_REGS_Iquasar_i_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Iquasar_i.mst region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "TIFS_CBASS_ISC_REGS_Iquasar_i_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Iquasar_i.mst region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "TIFS_CBASS_ISC_REGS_Iquasar_i_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Iquasar_i.mst region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "TIFS_CBASS_ISC_REGS_Iquasar_i_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Iquasar_i.mst region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x400++0x3 line.long 0x0 "TIFS_CBASS_ISC_REGS_Iquasar_d_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Iquasar_d.mst region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x410++0x13 line.long 0x0 "TIFS_CBASS_ISC_REGS_Iquasar_d_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Iquasar_d.mst region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "TIFS_CBASS_ISC_REGS_Iquasar_d_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Iquasar_d.mst region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "TIFS_CBASS_ISC_REGS_Iquasar_d_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Iquasar_d.mst region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "TIFS_CBASS_ISC_REGS_Iquasar_d_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Iquasar_d.mst region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "TIFS_CBASS_ISC_REGS_Iquasar_d_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Iquasar_d.mst region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x800++0x3 line.long 0x0 "TIFS_CBASS_ISC_REGS_Iquasar_s_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Iquasar_s.mst region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x810++0x13 line.long 0x0 "TIFS_CBASS_ISC_REGS_Iquasar_s_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Iquasar_s.mst region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "TIFS_CBASS_ISC_REGS_Iquasar_s_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Iquasar_s.mst region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "TIFS_CBASS_ISC_REGS_Iquasar_s_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Iquasar_s.mst region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "TIFS_CBASS_ISC_REGS_Iquasar_s_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Iquasar_s.mst region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "TIFS_CBASS_ISC_REGS_Iquasar_s_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Iquasar_s.mst region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." tree.end tree.end tree "SMS0_TIFS_ECC_AGGR_0_ECC_AGGR (SMS0_TIFS_ECC_AGGR_0_ECC_AGGR)" base ad:0x43700000 rgroup.long 0x0++0x3 line.long 0x0 "TIFS_ECC_REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "TIFS_ECC_REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "TIFS_ECC_REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "TIFS_ECC_REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "TIFS_ECC_REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "TIFS_ECC_REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 20. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" newline bitfld.long 0x4 19. "SMS_TIFS_SEC_CM_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_tifs_sec_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 18. "SMS_TIFS_CM_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_tifs_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 17. "SMS_TIFS_WWRTI_CM_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_tifs_wwrti_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 16. "SMS_TIFS_CBASS_SMS_DMSS_HSM_P2P_BRIDGE_SMS_DMSS_HSM_BRIDGE_BUSECC_PEND,Interrupt Pending Status for sms_tifs_cbass_sms_dmss_hsm_p2p_bridge_sms_dmss_hsm_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 15. "SMS_FWMGR_CBASS_SMS_SCR_SCR_SMS_FWMGR_CBASS_SMS_SCR_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_fwmgr_cbass_sms_scr_scr_sms_fwmgr_cbass_sms_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 14. "SMS_TIFS_CBASS_DMSC_SLV_P2P_BRIDGE_DMSC_SLV_BRIDGE_BUSECC_PEND,Interrupt Pending Status for sms_tifs_cbass_dmsc_slv_p2p_bridge_dmsc_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 13. "SMS_TIFS_CBASS_CBASS_INT_DMSC_SCR_SMS_TIFS_CBASS_CBASS_INT_DMSC_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_tifs_cbass_cbass_int_dmsc_scr_sms_tifs_cbass_cbass_int_dmsc_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 12. "SMS_TIFS_CBASS_CBASS_DEFAULT_MMRS_SMS_TIFS_CBASS_CBASS_DEFAULT_MMRS_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_tifs_cbass_cbass_default_mmrs_sms_tifs_cbass_cbass_default_mmrs_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 11. "SMS_TIFS_RAT_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_tifs_rat_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 10. "SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_EDC_CTRL_BUSECC_1_PEND,Interrupt Pending Status for sms_tifs_cbass_sms_tifs_scr_scr_sms_tifs_cbass_sms_tifs_scr_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x4 9. "SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_EDC_CTRL_BUSECC_0_PEND,Interrupt Pending Status for sms_tifs_cbass_sms_tifs_scr_scr_sms_tifs_cbass_sms_tifs_scr_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x4 8. "SMS_TIFS_CBASS_IFWMGR_M_P2P_BRIDGE_IFWMGR_M_BRIDGE_BUSECC_PEND,Interrupt Pending Status for sms_tifs_cbass_Ifwmgr_m_p2p_bridge_Ifwmgr_m_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 7. "SMS_TIFS_CBASS_IECC_S_P2P_BRIDGE_IECC_S_BRIDGE_BUSECC_PEND,Interrupt Pending Status for sms_tifs_cbass_Iecc_s_p2p_bridge_Iecc_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 6. "SMS_TIFS_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_2_PEND,Interrupt Pending Status for sms_tifs_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_2_pend" "0,1" newline bitfld.long 0x4 5. "SMS_TIFS_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_1_PEND,Interrupt Pending Status for sms_tifs_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_1_pend" "0,1" newline bitfld.long 0x4 4. "SMS_TIFS_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_0_PEND,Interrupt Pending Status for sms_tifs_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_0_pend" "0,1" newline bitfld.long 0x4 3. "ISRAM1_BUSECC_PEND,Interrupt Pending Status for Isram1_busecc_pend" "0,1" newline bitfld.long 0x4 2. "ISRAM0_BUSECC_PEND,Interrupt Pending Status for Isram0_busecc_pend" "0,1" newline bitfld.long 0x4 1. "ISRAM1_RAMECC_PEND,Interrupt Pending Status for Isram1_ramecc_pend" "0,1" newline bitfld.long 0x4 0. "ISRAM0_RAMECC_PEND,Interrupt Pending Status for Isram0_ramecc_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "TIFS_ECC_REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 20. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" newline bitfld.long 0x0 19. "SMS_TIFS_SEC_CM_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_sec_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 18. "SMS_TIFS_CM_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 17. "SMS_TIFS_WWRTI_CM_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_wwrti_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 16. "SMS_TIFS_CBASS_SMS_DMSS_HSM_P2P_BRIDGE_SMS_DMSS_HSM_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_sms_dmss_hsm_p2p_bridge_sms_dmss_hsm_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 15. "SMS_FWMGR_CBASS_SMS_SCR_SCR_SMS_FWMGR_CBASS_SMS_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_fwmgr_cbass_sms_scr_scr_sms_fwmgr_cbass_sms_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 14. "SMS_TIFS_CBASS_DMSC_SLV_P2P_BRIDGE_DMSC_SLV_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_dmsc_slv_p2p_bridge_dmsc_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 13. "SMS_TIFS_CBASS_CBASS_INT_DMSC_SCR_SMS_TIFS_CBASS_CBASS_INT_DMSC_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_cbass_int_dmsc_scr_sms_tifs_cbass_cbass_int_dmsc_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 12. "SMS_TIFS_CBASS_CBASS_DEFAULT_MMRS_SMS_TIFS_CBASS_CBASS_DEFAULT_MMRS_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_cbass_default_mmrs_sms_tifs_cbass_cbass_default_mmrs_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 11. "SMS_TIFS_RAT_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_rat_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 10. "SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_EDC_CTRL_BUSECC_1_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_sms_tifs_scr_scr_sms_tifs_cbass_sms_tifs_scr_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 9. "SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_EDC_CTRL_BUSECC_0_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_sms_tifs_scr_scr_sms_tifs_cbass_sms_tifs_scr_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 8. "SMS_TIFS_CBASS_IFWMGR_M_P2P_BRIDGE_IFWMGR_M_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_Ifwmgr_m_p2p_bridge_Ifwmgr_m_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 7. "SMS_TIFS_CBASS_IECC_S_P2P_BRIDGE_IECC_S_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_Iecc_s_p2p_bridge_Iecc_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 6. "SMS_TIFS_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_2_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_2_pend" "0,1" newline bitfld.long 0x0 5. "SMS_TIFS_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_1_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_1_pend" "0,1" newline bitfld.long 0x0 4. "SMS_TIFS_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_0_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_0_pend" "0,1" newline bitfld.long 0x0 3. "ISRAM1_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isram1_busecc_pend" "0,1" newline bitfld.long 0x0 2. "ISRAM0_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isram0_busecc_pend" "0,1" newline bitfld.long 0x0 1. "ISRAM1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for Isram1_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "ISRAM0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for Isram0_ramecc_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "TIFS_ECC_REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 20. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" newline bitfld.long 0x0 19. "SMS_TIFS_SEC_CM_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_sec_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 18. "SMS_TIFS_CM_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 17. "SMS_TIFS_WWRTI_CM_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_wwrti_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 16. "SMS_TIFS_CBASS_SMS_DMSS_HSM_P2P_BRIDGE_SMS_DMSS_HSM_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_sms_dmss_hsm_p2p_bridge_sms_dmss_hsm_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 15. "SMS_FWMGR_CBASS_SMS_SCR_SCR_SMS_FWMGR_CBASS_SMS_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_fwmgr_cbass_sms_scr_scr_sms_fwmgr_cbass_sms_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 14. "SMS_TIFS_CBASS_DMSC_SLV_P2P_BRIDGE_DMSC_SLV_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_dmsc_slv_p2p_bridge_dmsc_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 13. "SMS_TIFS_CBASS_CBASS_INT_DMSC_SCR_SMS_TIFS_CBASS_CBASS_INT_DMSC_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_cbass_int_dmsc_scr_sms_tifs_cbass_cbass_int_dmsc_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 12. "SMS_TIFS_CBASS_CBASS_DEFAULT_MMRS_SMS_TIFS_CBASS_CBASS_DEFAULT_MMRS_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_cbass_default_mmrs_sms_tifs_cbass_cbass_default_mmrs_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 11. "SMS_TIFS_RAT_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_rat_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 10. "SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_EDC_CTRL_BUSECC_1_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_sms_tifs_scr_scr_sms_tifs_cbass_sms_tifs_scr_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 9. "SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_EDC_CTRL_BUSECC_0_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_sms_tifs_scr_scr_sms_tifs_cbass_sms_tifs_scr_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 8. "SMS_TIFS_CBASS_IFWMGR_M_P2P_BRIDGE_IFWMGR_M_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_Ifwmgr_m_p2p_bridge_Ifwmgr_m_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 7. "SMS_TIFS_CBASS_IECC_S_P2P_BRIDGE_IECC_S_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_Iecc_s_p2p_bridge_Iecc_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 6. "SMS_TIFS_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_2_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_2_pend" "0,1" newline bitfld.long 0x0 5. "SMS_TIFS_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_1_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_1_pend" "0,1" newline bitfld.long 0x0 4. "SMS_TIFS_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_0_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_0_pend" "0,1" newline bitfld.long 0x0 3. "ISRAM1_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isram1_busecc_pend" "0,1" newline bitfld.long 0x0 2. "ISRAM0_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isram0_busecc_pend" "0,1" newline bitfld.long 0x0 1. "ISRAM1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for Isram1_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "ISRAM0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for Isram0_ramecc_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "TIFS_ECC_REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "TIFS_ECC_REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 20. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" newline bitfld.long 0x4 19. "SMS_TIFS_SEC_CM_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_tifs_sec_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 18. "SMS_TIFS_CM_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_tifs_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 17. "SMS_TIFS_WWRTI_CM_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_tifs_wwrti_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 16. "SMS_TIFS_CBASS_SMS_DMSS_HSM_P2P_BRIDGE_SMS_DMSS_HSM_BRIDGE_BUSECC_PEND,Interrupt Pending Status for sms_tifs_cbass_sms_dmss_hsm_p2p_bridge_sms_dmss_hsm_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 15. "SMS_FWMGR_CBASS_SMS_SCR_SCR_SMS_FWMGR_CBASS_SMS_SCR_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_fwmgr_cbass_sms_scr_scr_sms_fwmgr_cbass_sms_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 14. "SMS_TIFS_CBASS_DMSC_SLV_P2P_BRIDGE_DMSC_SLV_BRIDGE_BUSECC_PEND,Interrupt Pending Status for sms_tifs_cbass_dmsc_slv_p2p_bridge_dmsc_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 13. "SMS_TIFS_CBASS_CBASS_INT_DMSC_SCR_SMS_TIFS_CBASS_CBASS_INT_DMSC_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_tifs_cbass_cbass_int_dmsc_scr_sms_tifs_cbass_cbass_int_dmsc_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 12. "SMS_TIFS_CBASS_CBASS_DEFAULT_MMRS_SMS_TIFS_CBASS_CBASS_DEFAULT_MMRS_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_tifs_cbass_cbass_default_mmrs_sms_tifs_cbass_cbass_default_mmrs_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 11. "SMS_TIFS_RAT_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for sms_tifs_rat_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 10. "SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_EDC_CTRL_BUSECC_1_PEND,Interrupt Pending Status for sms_tifs_cbass_sms_tifs_scr_scr_sms_tifs_cbass_sms_tifs_scr_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x4 9. "SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_EDC_CTRL_BUSECC_0_PEND,Interrupt Pending Status for sms_tifs_cbass_sms_tifs_scr_scr_sms_tifs_cbass_sms_tifs_scr_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x4 8. "SMS_TIFS_CBASS_IFWMGR_M_P2P_BRIDGE_IFWMGR_M_BRIDGE_BUSECC_PEND,Interrupt Pending Status for sms_tifs_cbass_Ifwmgr_m_p2p_bridge_Ifwmgr_m_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 7. "SMS_TIFS_CBASS_IECC_S_P2P_BRIDGE_IECC_S_BRIDGE_BUSECC_PEND,Interrupt Pending Status for sms_tifs_cbass_Iecc_s_p2p_bridge_Iecc_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 6. "SMS_TIFS_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_2_PEND,Interrupt Pending Status for sms_tifs_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_2_pend" "0,1" newline bitfld.long 0x4 5. "SMS_TIFS_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_1_PEND,Interrupt Pending Status for sms_tifs_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_1_pend" "0,1" newline bitfld.long 0x4 4. "SMS_TIFS_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_0_PEND,Interrupt Pending Status for sms_tifs_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_0_pend" "0,1" newline bitfld.long 0x4 3. "ISRAM1_BUSECC_PEND,Interrupt Pending Status for Isram1_busecc_pend" "0,1" newline bitfld.long 0x4 2. "ISRAM0_BUSECC_PEND,Interrupt Pending Status for Isram0_busecc_pend" "0,1" newline bitfld.long 0x4 1. "ISRAM1_RAMECC_PEND,Interrupt Pending Status for Isram1_ramecc_pend" "0,1" newline bitfld.long 0x4 0. "ISRAM0_RAMECC_PEND,Interrupt Pending Status for Isram0_ramecc_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "TIFS_ECC_REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 20. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" newline bitfld.long 0x0 19. "SMS_TIFS_SEC_CM_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_sec_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 18. "SMS_TIFS_CM_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 17. "SMS_TIFS_WWRTI_CM_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_wwrti_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 16. "SMS_TIFS_CBASS_SMS_DMSS_HSM_P2P_BRIDGE_SMS_DMSS_HSM_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_sms_dmss_hsm_p2p_bridge_sms_dmss_hsm_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 15. "SMS_FWMGR_CBASS_SMS_SCR_SCR_SMS_FWMGR_CBASS_SMS_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_fwmgr_cbass_sms_scr_scr_sms_fwmgr_cbass_sms_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 14. "SMS_TIFS_CBASS_DMSC_SLV_P2P_BRIDGE_DMSC_SLV_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_dmsc_slv_p2p_bridge_dmsc_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 13. "SMS_TIFS_CBASS_CBASS_INT_DMSC_SCR_SMS_TIFS_CBASS_CBASS_INT_DMSC_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_cbass_int_dmsc_scr_sms_tifs_cbass_cbass_int_dmsc_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 12. "SMS_TIFS_CBASS_CBASS_DEFAULT_MMRS_SMS_TIFS_CBASS_CBASS_DEFAULT_MMRS_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_cbass_default_mmrs_sms_tifs_cbass_cbass_default_mmrs_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 11. "SMS_TIFS_RAT_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_rat_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 10. "SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_EDC_CTRL_BUSECC_1_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_sms_tifs_scr_scr_sms_tifs_cbass_sms_tifs_scr_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 9. "SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_EDC_CTRL_BUSECC_0_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_sms_tifs_scr_scr_sms_tifs_cbass_sms_tifs_scr_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 8. "SMS_TIFS_CBASS_IFWMGR_M_P2P_BRIDGE_IFWMGR_M_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_Ifwmgr_m_p2p_bridge_Ifwmgr_m_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 7. "SMS_TIFS_CBASS_IECC_S_P2P_BRIDGE_IECC_S_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_Iecc_s_p2p_bridge_Iecc_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 6. "SMS_TIFS_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_2_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_2_pend" "0,1" newline bitfld.long 0x0 5. "SMS_TIFS_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_1_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_1_pend" "0,1" newline bitfld.long 0x0 4. "SMS_TIFS_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_0_ENABLE_SET,Interrupt Enable Set Register for sms_tifs_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_0_pend" "0,1" newline bitfld.long 0x0 3. "ISRAM1_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isram1_busecc_pend" "0,1" newline bitfld.long 0x0 2. "ISRAM0_BUSECC_ENABLE_SET,Interrupt Enable Set Register for Isram0_busecc_pend" "0,1" newline bitfld.long 0x0 1. "ISRAM1_RAMECC_ENABLE_SET,Interrupt Enable Set Register for Isram1_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "ISRAM0_RAMECC_ENABLE_SET,Interrupt Enable Set Register for Isram0_ramecc_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "TIFS_ECC_REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 20. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" newline bitfld.long 0x0 19. "SMS_TIFS_SEC_CM_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_sec_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 18. "SMS_TIFS_CM_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 17. "SMS_TIFS_WWRTI_CM_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_wwrti_cm_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 16. "SMS_TIFS_CBASS_SMS_DMSS_HSM_P2P_BRIDGE_SMS_DMSS_HSM_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_sms_dmss_hsm_p2p_bridge_sms_dmss_hsm_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 15. "SMS_FWMGR_CBASS_SMS_SCR_SCR_SMS_FWMGR_CBASS_SMS_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_fwmgr_cbass_sms_scr_scr_sms_fwmgr_cbass_sms_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 14. "SMS_TIFS_CBASS_DMSC_SLV_P2P_BRIDGE_DMSC_SLV_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_dmsc_slv_p2p_bridge_dmsc_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 13. "SMS_TIFS_CBASS_CBASS_INT_DMSC_SCR_SMS_TIFS_CBASS_CBASS_INT_DMSC_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_cbass_int_dmsc_scr_sms_tifs_cbass_cbass_int_dmsc_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 12. "SMS_TIFS_CBASS_CBASS_DEFAULT_MMRS_SMS_TIFS_CBASS_CBASS_DEFAULT_MMRS_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_cbass_default_mmrs_sms_tifs_cbass_cbass_default_mmrs_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 11. "SMS_TIFS_RAT_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_rat_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 10. "SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_EDC_CTRL_BUSECC_1_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_sms_tifs_scr_scr_sms_tifs_cbass_sms_tifs_scr_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 9. "SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_SMS_TIFS_CBASS_SMS_TIFS_SCR_SCR_EDC_CTRL_BUSECC_0_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_sms_tifs_scr_scr_sms_tifs_cbass_sms_tifs_scr_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 8. "SMS_TIFS_CBASS_IFWMGR_M_P2P_BRIDGE_IFWMGR_M_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_Ifwmgr_m_p2p_bridge_Ifwmgr_m_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 7. "SMS_TIFS_CBASS_IECC_S_P2P_BRIDGE_IECC_S_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_Iecc_s_p2p_bridge_Iecc_s_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 6. "SMS_TIFS_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_2_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_2_pend" "0,1" newline bitfld.long 0x0 5. "SMS_TIFS_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_1_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_1_pend" "0,1" newline bitfld.long 0x0 4. "SMS_TIFS_CBASS_VBUS_CLK_EDC_CTRL_CBASS_INT_VBUS_BUSECC_0_ENABLE_CLR,Interrupt Enable Clear Register for sms_tifs_cbass_vbus_clk_edc_ctrl_cbass_int_vbus_busecc_0_pend" "0,1" newline bitfld.long 0x0 3. "ISRAM1_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isram1_busecc_pend" "0,1" newline bitfld.long 0x0 2. "ISRAM0_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for Isram0_busecc_pend" "0,1" newline bitfld.long 0x0 1. "ISRAM1_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for Isram1_ramecc_pend" "0,1" newline bitfld.long 0x0 0. "ISRAM0_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for Isram0_ramecc_pend" "0,1" group.long 0x200++0xF line.long 0x0 "TIFS_ECC_REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" newline bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "TIFS_ECC_REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" newline bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "TIFS_ECC_REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" newline bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "TIFS_ECC_REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" newline bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end base ad:0x0 tree "SMS0_TIFS_SRAM" tree "SMS0_TIFS_SRAM_0_TIFS_SRAM0 (SMS0_TIFS_SRAM_0_TIFS_SRAM0)" base ad:0x44040000 group.long 0x0++0x3 line.long 0x0 "TIFS_SRAM0_RAM_REG,The RAM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end base ad:0x0 tree "SMS0_TIFS_SRAM_1" tree "SMS0_TIFS_SRAM_1_TIFS_SRAM1_0 (SMS0_TIFS_SRAM_1_TIFS_SRAM1_0)" base ad:0x44060000 group.long 0x0++0x3 line.long 0x0 "TIFS_SRAM1_0_RAM_REG,The RAM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end tree "SMS0_TIFS_SRAM_1_TIFS_SRAM1_1 (SMS0_TIFS_SRAM_1_TIFS_SRAM1_1)" base ad:0x44068000 group.long 0x0++0x3 line.long 0x0 "TIFS_SRAM1_1_RAM_REG,The RAM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end tree.end tree.end tree.end tree "SMS0_WDTCTRL" tree "SMS0_WDTCTRL_0_RTI (SMS0_WDTCTRL_0_RTI)" base ad:0x44135100 rgroup.long 0x0++0x3 line.long 0x0 "TIFS_RTI_MMR_PID," hexmask.long.word 0x0 16.--31. 1. "PID_MSB16," hexmask.long.byte 0x0 11.--15. 1. "PID_MISC," bitfld.long 0x0 8.--10. "PID_MAJOR," "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "PID_CUSTOM," "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "PID_MINOR," group.long 0x20++0x7 line.long 0x0 "TIFS_RTI_MMR_LOCK0_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK0_KICK0,- KICK0 component" line.long 0x4 "TIFS_RTI_MMR_LOCK0_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK0_KICK1,- KICK1 component" group.long 0x40++0x3 line.long 0x0 "TIFS_RTI_MMR_WWRTI_CTRL," bitfld.long 0x0 8.--10. "WWRTI_CLK_SEL," "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 4.--7. 1. "WWRTI_WARM_RESET," hexmask.long.byte 0x0 0.--3. 1. "WWRTI_COLD_RESET," group.long 0x50++0x3 line.long 0x0 "TIFS_RTI_MMR_WWRTI_CLOCK_CTRL," hexmask.long.byte 0x0 0.--3. 1. "WWRTI_CLK_CTRL," tree.end tree "SMS0_WDTCTRL_1_HSM_CTRL_MMR (SMS0_WDTCTRL_1_HSM_CTRL_MMR)" base ad:0x43936000 rgroup.long 0x0++0x3 line.long 0x0 "HSM_CTRL_MMR_PID," hexmask.long.word 0x0 16.--31. 1. "PID_MSB16," hexmask.long.byte 0x0 11.--15. 1. "PID_MISC," bitfld.long 0x0 8.--10. "PID_MAJOR," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "PID_CUSTOM," "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "PID_MINOR," group.long 0x20++0x7 line.long 0x0 "HSM_CTRL_MMR_LOCK0_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK0_KICK0,- KICK0 component" line.long 0x4 "HSM_CTRL_MMR_LOCK0_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK0_KICK1,- KICK1 component" group.long 0x40++0x3 line.long 0x0 "HSM_CTRL_MMR_WWRTI_CTRL," bitfld.long 0x0 8.--10. "WWRTI_CLK_SEL," "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 4.--7. 1. "WWRTI_WARM_RESET," hexmask.long.byte 0x0 0.--3. 1. "WWRTI_COLD_RESET," group.long 0x50++0x3 line.long 0x0 "HSM_CTRL_MMR_WWRTI_CLOCK_CTRL," hexmask.long.byte 0x0 0.--3. 1. "WWRTI_CLK_CTRL," group.long 0x704++0x3 line.long 0x0 "HSM_CTRL_MMR_SEC_WWDT_INTR_EXT_EN," bitfld.long 0x0 4. "WDT_INTR_EXT_EN4," "0,1" bitfld.long 0x0 3. "WDT_INTR_EXT_EN3," "0,1" bitfld.long 0x0 2. "WDT_INTR_EXT_EN2," "0,1" newline bitfld.long 0x0 1. "WDT_INTR_EXT_EN1," "0,1" bitfld.long 0x0 0. "WDT_INTR_EXT_EN0," "0,1" group.long 0x70C++0x3 line.long 0x0 "HSM_CTRL_MMR_SEC_ECC_AGGR_INTR_EXT_EN," bitfld.long 0x0 0. "ECC_AGGR_INTR_EXT_EN0," "0,1" group.long 0x71C++0x3 line.long 0x0 "HSM_CTRL_MMR_SEC_FW_EXCPT_EXT_EN," bitfld.long 0x0 8. "FW_INT_EXT_EN0," "0,1" bitfld.long 0x0 0. "FW_EXP_EXT_EN0," "0,1" group.long 0x724++0x3 line.long 0x0 "HSM_CTRL_MMR_SEC_RAT_INTR_EXT_EN," bitfld.long 0x0 0. "RAT_INTR_EXT_EN," "0,1" group.long 0x800++0x3 line.long 0x0 "HSM_CTRL_MMR_SEC_HSM_RESET," bitfld.long 0x0 1. "RESET_MASK," "0,1" tree.end tree.end tree.end tree "SPINLOCK0 (SPINLOCK0)" base ad:0x2A000000 rgroup.long 0x0++0x3 line.long 0x0 "REGS_SPLOCK_ID,This is the standard TI peripheral ID register that exists at address 0 in the peripheral space" bitfld.long 0x0 30.--31. "SCHEME,Used to distinguish which ID numbering scheme is used." "0,1,2,3" bitfld.long 0x0 28.--29. "BU,BU identifier" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "FUNCTION,Module family." hexmask.long.byte 0x0 11.--15. 1. "RTL_VER,RTL version. R of X.Y.R.Z" newline bitfld.long 0x0 8.--10. "MAJOR_REV,Major revision. X of X.Y.R.Z" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Special version number" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR_REV,Minor revision. Y of X.Y.R.Z" group.long 0x10++0x3 line.long 0x0 "REGS_SPLOCK_SYSCONFIG,Provides the SOFTRESET register for backwards compatibility with OMAP Spinlock" bitfld.long 0x0 1. "SOFT_RESET,Module Software Reset The bit is automatically reset by the hardware. During reads it always returns 0 It has the same effect as the hardware reset Writing a 0 has no effect. Writing a 1 will start a soft reset sequence and free all of the.." "0,1" rgroup.long 0x14++0x3 line.long 0x0 "REGS_SPLOCK_SYSTATUS,Provides information about the Spinlock module" hexmask.long.byte 0x0 24.--31. 1. "NUM_LOCKS,Module configuration parameter n the total number of spinlocks divided by 32. e.g. For 256 spin locks this will return the number 0x08" bitfld.long 0x0 7. "IN_USE7,In-Use flag 7 covering lock registers 224 - 255. If no lock registers are implemented in this range then this flag always reads as 0 Read 0 : All lock registers 224 - 255 are in the Not Taken state Read 1 : At least one of the lock registers 224.." "0: All lock registers 224,1: At least one of the lock registers 224" newline bitfld.long 0x0 6. "IN_USE6,In-Use flag 6 covering lock registers 192 - 223. If no lock registers are implemented in this range then this flag always reads as 0 Read 0 : All lock registers 192 - 223 are in the Not Taken state Read 1 : At least one of the lock registers 192.." "0: All lock registers 192,1: At least one of the lock registers 192" bitfld.long 0x0 5. "IN_USE5,In-Use flag 5 covering lock registers 160 - 191. If no lock registers are implemented in this range then this flag always reads as 0 Read 0 : All lock registers 160 - 191 are in the Not Taken state Read 1 : At least one of the lock registers 160.." "0: All lock registers 160,1: At least one of the lock registers 160" newline bitfld.long 0x0 4. "IN_USE4,In-Use flag 4 covering lock registers 128 - 159. If no lock registers are implemented in this range then this flag always reads as 0 Read 0 : All lock registers 128 - 159 are in the Not Taken state Read 1 : At least one of the lock registers 128.." "0: All lock registers 128,1: At least one of the lock registers 128" bitfld.long 0x0 3. "IN_USE3,In-Use flag 3 covering lock registers 96 - 127. If no lock registers are implemented in this range then this flag always reads as 0 Read 0 : All lock registers 96 - 127 are in the Not Taken state Read 1 : At least one of the lock registers 96 -.." "0: All lock registers 96,1: At least one of the lock registers 96" newline bitfld.long 0x0 2. "IN_USE2,In-Use flag 2 covering lock registers 64 - 95. If no lock registers are implemented in this range then this flag always reads as 0 Read 0 : All lock registers 64 - 95 are in the Not Taken state Read 1 : At least one of the lock registers 64 - 95.." "0: All lock registers 64,1: At least one of the lock registers 64" bitfld.long 0x0 1. "IN_USE1,In-Use flag 1 covering lock registers 32 - 63. If no lock registers are implemented in this range then this flag always reads as 0 Read 0 : All lock registers 32 - 63 are in the Not Taken state Read 1 : At least one of the lock registers 32 - 63.." "0: All lock registers 32,1: At least one of the lock registers 32" newline bitfld.long 0x0 0. "IN_USE0,In-Use flag 0 covering lock registers 0 - 31. If no lock registers are implemented in this range then this flag always reads as 0 Read 0 : All lock registers 0 - 31 are in the Not Taken state Read 1 : At least one of the lock registers 0 - 31.." "0: All lock registers 0,1: At least one of the lock registers 0" group.long 0x800++0x3 line.long 0x0 "REGS_LOCK,The Lock[a] register is read and written to perform lock and unlock operations on lock 'a'" bitfld.long 0x0 0. "TAKEN,Lock Status Read 0 : Lock was previously free. The reader now has been granted the lock. Read 1 : Lock was previously taken. The reader has not been granted the lock and must retry. Write 0 : Free the lock by setting TAKEN to zero. Write 1 : No.." "0: Free the lock by setting TAKEN to zero,1: No effect" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")) tree "STM0" base ad:0x0 tree "STM0_CTI_CSCTI (STM0_CTI_CSCTI)" base ad:0x73D201000 group.long 0x0++0x3 line.long 0x0 "CTI__CFG__CSCTI_CFG_CTICONTROL,The CTI Control Register enables the CTI. >" bitfld.long 0x0 0. "GLBEN,Enables or disables the ECT." "0,1" group.long 0x10++0x2F line.long 0x0 "CTI__CFG__CSCTI_CFG_CTIINTACK,The CTI Interrupt Acknowledge Register is write-only. Any bits written as a 1 cause the ctitrigout output signal to be acknowledged. The acknowledgement is cleared when MAPTRIGOUT is deactivated. This register is used when.." hexmask.long.byte 0x0 0.--7. 1. "INTACK,Acknowledges the corresponding ctitrigout output. There is one bit of the register for each ctitrigout output. When a 1 is written to a bit in this register the corresponding ctitrigout is acknowledged and is cleared when MAPTRIGOUT is LOW." line.long 0x4 "CTI__CFG__CSCTI_CFG_CTIAPPSET,The CTI Application Trigger Set Register is read/write. A write to this register causes a channel event to be raised. corresponding to the bit written to." hexmask.long.byte 0x4 0.--3. 1. "APPSET,Setting a bit HIGH generates a channel event for the selected channel. There is one bit of the register for each channel. Read : 0 = application trigger inactive (reset). 1 = application trigger active. Write : 0 = no effect. 1 = generate.." line.long 0x8 "CTI__CFG__CSCTI_CFG_CTIAPPCLEAR,The CTI Interrupt Acknowledge Register is write-only. A write to this register causes a channel event to be cleared. corresponding to the bit written to." hexmask.long.byte 0x8 0.--3. 1. "APPCLEAR,Clears corresponding bits in the CTIAPPSET register. There is one bit of the register for each channel. When a 1 is written to a bit in this register the corresponding application trigger is disabled in the CTIAPPSET register. Writing a 0 to.." line.long 0xC "CTI__CFG__CSCTI_CFG_CTIAPPPULSE,The CTI Application Pulse Register is write-only. A write to this register causes a channel event pulse. one cticlk period. to be generated. corresponding to the bit written to. The pulse external to the ECT can be.." hexmask.long.byte 0xC 0.--3. 1. "APPULSE,Setting a bit HIGH generates a channel event pulse for the selected channel. There is one bit of the register for each channel. When a 1 is written to a bit in this register a corresponding channel event pulse is generated for one cticlk.." line.long 0x10 "CTI__CFG__CSCTI_CFG_CTIINEN0,The CTI Trigger 0 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x10 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x14 "CTI__CFG__CSCTI_CFG_CTIINEN1,The CTI Trigger 1 to Channel Enable Register enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x14 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x18 "CTI__CFG__CSCTI_CFG_CTIINEN2,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x18 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x1C "CTI__CFG__CSCTI_CFG_CTIINEN3,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x20 "CTI__CFG__CSCTI_CFG_CTIINEN4,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x20 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x24 "CTI__CFG__CSCTI_CFG_CTIINEN5,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x24 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x28 "CTI__CFG__CSCTI_CFG_CTIINEN6,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x28 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." line.long 0x2C "CTI__CFG__CSCTI_CFG_CTIINEN7,The CTI Trigger to Channel Enable Register 0 enables the signalling of an event on CTM channels when the core issues a trigger. ctitrigin. to the CTI. Within this register there is one bit for each of the four channels.." hexmask.long.byte 0x2C 0.--3. 1. "TRIGINEN,Enables a cross trigger event to the corresponding channel when an ctitrigin is activated. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this register it enables the ctitrigin signal to generate.." group.long 0xA0++0x1F line.long 0x0 "CTI__CFG__CSCTI_CFG_CTIOUTEN0,The CTI Channel to Trigger 0 Enable Registers define which channels can generate a ctitrigout[0] output. Within this register there is one bit for each of the four channels implemented. This register affects the mapping from.." hexmask.long.byte 0x0 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x4 "CTI__CFG__CSCTI_CFG_CTIOUTEN1,The CTI Channel to Trigger 1 Enable Registers define which channels can generate a ctitrigout[1] output. Within this register there is one bit for each of the four channels implemented. This register affects the mapping from.." hexmask.long.byte 0x4 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[1] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x8 "CTI__CFG__CSCTI_CFG_CTIOUTEN2,The CTI Channel to Trigger 2 Enable Registers define which channels can generate a ctitrigout[2] output. Within this register there is one bit for each of the four channels implemented. This register affects the mapping from.." hexmask.long.byte 0x8 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[2] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0xC "CTI__CFG__CSCTI_CFG_CTIOUTEN3,The CTI Channel to Trigger 3 Enable Registers define which channels can generate a ctitrigout[3] output. Within this register there is one bit for each of the four channels implemented. This register affects the mapping from.." hexmask.long.byte 0xC 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[3] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x10 "CTI__CFG__CSCTI_CFG_CTIOUTEN4,The CTI Channel to Trigger 4 Enable Registers define which channels can generate a ctitrigout[4] output. Within this register there is one bit for each of the four channels implemented. This register affects the mapping from.." hexmask.long.byte 0x10 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[4] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x14 "CTI__CFG__CSCTI_CFG_CTIOUTEN5,The CTI Channel to Trigger 5 Enable Registers define which channels can generate a ctitrigout[5] output. Within this register there is one bit for each of the four channels implemented. This register affects the mapping from.." hexmask.long.byte 0x14 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[5] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x18 "CTI__CFG__CSCTI_CFG_CTIOUTEN6,The CTI Channel to Trigger 6 Enable Registers define which channels can generate a ctitrigout[6] output. Within this register there is one bit for each of the four channels implemented. This register affects the mapping from.." hexmask.long.byte 0x18 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[6] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." line.long 0x1C "CTI__CFG__CSCTI_CFG_CTIOUTEN7,The CTI Channel to Trigger 7 Enable Registers define which channels can generate a ctitrigout[7] output. Within this register there is one bit for each of the four channels implemented. This register affects the mapping from.." hexmask.long.byte 0x1C 0.--3. 1. "TRIGOUTEN,Changing the value of this bit from a 0 to a 1 enables a channel event for the corresponding channel to generate a ctitrigout[7] output. There is one bit of the field for each of the four channels. When a 1 is written to a bit in this.." rgroup.long 0x130++0xF line.long 0x0 "CTI__CFG__CSCTI_CFG_CTITRIGINSTATUS,The CTI Trigger In Status Register provides the status of the ctitrigin inputs." hexmask.long.byte 0x0 0.--7. 1. "TRIGINSTATUS,Shows the status of the ctitrigin inputs. 1 = ctitrigin is active. 0 = ctitrigin is inactive. Because the register provides a view of the raw ctitrigin inputs the reset value is unknown. There is one bit of the field for each trigger.." line.long 0x4 "CTI__CFG__CSCTI_CFG_CTITRIGOUTSTATUS,The CTI Trigger Out Status Register provides the status of the ctitrigout outputs." hexmask.long.byte 0x4 0.--7. 1. "TRIGOUTSTATUS,Shows the status of the ctitrigout outputs. 1 = ctitrigout is active. 0 = ctitrigout is inactive. There is one bit of the field for each trigger output." line.long 0x8 "CTI__CFG__CSCTI_CFG_CTICHINSTATUS,The CTI Channel In Status Register provides the status of the ctichin inputs." hexmask.long.byte 0x8 0.--3. 1. "CTICHINSTATUS,Shows the status of the ctichin inputs. 1 = ctichin is active. 0 = ctichin is inactive. Because the register provides a view of the raw ctichin inputs the reset value is unknown. There is one bit of the field for each channel input." line.long 0xC "CTI__CFG__CSCTI_CFG_CTICHOUTSTATUS,The CTI Channel Out Status Register provides the status of the CTI ctichout outputs." hexmask.long.byte 0xC 0.--3. 1. "CTICHOUTSTATUS,Shows the status of the ctichout outputs. 1 = ctichout is active. 0 = ctichout is inactive. There is one bit of the field for each channel output." group.long 0x140++0x7 line.long 0x0 "CTI__CFG__CSCTI_CFG_CTIGATE,The Gate Enable Register prevents the channels from propagating through the CTM to other CTIs. This enables local cross-triggering. for example for causing an interrupt when the ETM trigger occurs. It can be used effectively.." bitfld.long 0x0 3. "CTIGATEEN3,Enable CTICHOUT3. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 2. "CTIGATEEN2,Enable CTICHOUT2. Set to 0 to disable channel propagation." "0,1" newline bitfld.long 0x0 1. "CTIGATEEN1,Enable CTICHOUT1. Set to 0 to disable channel propagation." "0,1" bitfld.long 0x0 0. "CTIGATEEN0,Enable CTICHOUT0. Set to 0 to disable channel propagation." "0,1" line.long 0x4 "CTI__CFG__CSCTI_CFG_ASICCTL,Implementation-defined ASIC control. value written to the register is output on asicctl[7 : 0]." hexmask.long.byte 0x4 0.--7. 1. "ASICCTL,Implementation-defined ASIC control value written to the register is output on asicctl[7 : 0]. If external multiplexing of trigger signals is implemented then the number of multiplexed signals on each trigger must be reflected within the.." group.long 0xEDC++0xF line.long 0x0 "CTI__CFG__CSCTI_CFG_ITCHINACK,This register is a write-only register. It can be used to set the value of the CTCHINACK outputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHINACK,Set the value of the CTCHINACK outputs." line.long 0x4 "CTI__CFG__CSCTI_CFG_ITTRIGINACK,This register is a write-only register. It can be used to set the value of the CTTRIGINACK outputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGINACK,Set the value of the CTTRIGINACK outputs." line.long 0x8 "CTI__CFG__CSCTI_CFG_ITCHOUT,This register is a write-only register. It can be used to set the value of the CTCHOUT outputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHOUT,Set the value of the CTCHOUT outputs." line.long 0xC "CTI__CFG__CSCTI_CFG_ITTRIGOUT,This register is a write-only register. It can be used to set the value of the CTTRIGOUT outputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGOUT,Set the value of the CTTRIGOUT outputs." rgroup.long 0xEEC++0xF line.long 0x0 "CTI__CFG__CSCTI_CFG_ITCHOUTACK,This register is a read-only register. It can be used to read the values of the CTCHOUTACK inputs." hexmask.long.byte 0x0 0.--3. 1. "CTCHOUTACK,Read the values of the CTCHOUTACK inputs." line.long 0x4 "CTI__CFG__CSCTI_CFG_ITTRIGOUTACK,This register is a read-only register. It can be used to read the values of the CTTRIGOUTACK inputs." hexmask.long.byte 0x4 0.--7. 1. "CTTRIGOUTACK,Read the value of the CTTRIGOUTACK inputs." line.long 0x8 "CTI__CFG__CSCTI_CFG_ITCHIN,This register is a read-only register. It can be used to read the values of the CTCHIN inputs." hexmask.long.byte 0x8 0.--3. 1. "CTCHIN,Read the value of the CTCHIN inputs." line.long 0xC "CTI__CFG__CSCTI_CFG_ITTRIGIN,This register is a read-only register. It can be used to read the values of the CTTRIGIN inputs." hexmask.long.byte 0xC 0.--7. 1. "CTTRIGIN,Read the values of the CTTRIGIN inputs." group.long 0xF00++0x3 line.long 0x0 "CTI__CFG__CSCTI_CFG_ITCTRL,This register is used to enable topology detection. For more information see the CoreSight Architecture Specification. This register enables the component to switch from a functional mode. the default behavior. to integration.." bitfld.long 0x0 0. "INTEGRATION_MODE,Allows the component to switch from functional mode to integration mode or back." "0,1" group.long 0xFA0++0x7 line.long 0x0 "CTI__CFG__CSCTI_CFG_CLAIMSET,This is used in conjunction with Claim Tag Clear Register. CLAIMCLR. This register forms one half of the Claim Tag value. This location allows individual bits to be set. write. and returns the number of bits that can be set..." hexmask.long.byte 0x0 0.--3. 1. "CLAIMSET,This claim tag bit is implemented" line.long 0x4 "CTI__CFG__CSCTI_CFG_CLAIMCLR,This register is used in conjunction with Claim Tag Set Register. CLAIMSET. This register forms one half of the Claim Tag value. This location enables individual bits to be cleared. write. and returns the current Claim Tag.." hexmask.long.byte 0x4 0.--3. 1. "CLAIMCLR,The value present reflects the current setting of the Claim Tag." group.long 0xFB0++0x3 line.long 0x0 "CTI__CFG__CSCTI_CFG_LAR,This is used to enable write access to device registers. External accesses from a debugger (paddrdbg31 = 1) are not subject to the Lock Registers. A debugger does not have to unlock the component in order to write and modify the.." hexmask.long 0x0 0.--31. 1. "ACCESS_W,A write of 0xC5ACCE55 enables further write access to this device. A write of any value other than 0xC5ACCE55 will have the affect of removing write access." rgroup.long 0xFB4++0x7 line.long 0x0 "CTI__CFG__CSCTI_CFG_LSR,This indicates the status of the Lock control mechanism. This lock prevents accidental writes by code under debug. When locked. write access is blocked to all registers. except the Lock Access Register. External accesses from a.." bitfld.long 0x0 2. "LOCKTYPE,Indicates if the Lock Access Register (0xFB0) is implemented as 8-bit or 32-bit" "0,1" bitfld.long 0x0 1. "LOCKGRANT,Returns the current status of the Lock. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" newline bitfld.long 0x0 0. "LOCKEXIST,Indicates that a lock control mechanism exists for this device. This bit reads as 0 when read from an external debugger (paddrdbg31 = 1) since external debugger accesses are not subject to Lock Registers." "0,1" line.long 0x4 "CTI__CFG__CSCTI_CFG_AUTHSTATUS,Reports what functionality is currently permitted by the authentication interface." bitfld.long 0x4 6.--7. "SNID,Indicates the security level for secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 4.--5. "SID,Indicates the security level for secure invasive debug" "0,1,2,3" newline bitfld.long 0x4 2.--3. "NSNID,Indicates the security level for non-secure non-invasive debug" "0,1,2,3" bitfld.long 0x4 0.--1. "NSID,Indicates the security level for non-secure invasive debug" "0,1,2,3" rgroup.long 0xFC8++0xB line.long 0x0 "CTI__CFG__CSCTI_CFG_DEVID,This register indicates the capabilities of the CTI." hexmask.long.byte 0x0 16.--19. 1. "NUMCH,Number of ECT channels available." hexmask.long.byte 0x0 8.--15. 1. "NUMTRIG,Number of ECT triggers available." newline hexmask.long.byte 0x0 0.--4. 1. "EXTMUXNUM,Indicates the number of multiplexing available on Trigger Inputs and Trigger Outputs using asicctl. Default value of 5'b00000 indicating no multiplexing present. Reflects the value of the Verilog define EXTMUXNUM that the user must alter.." line.long 0x4 "CTI__CFG__CSCTI_CFG_DEVTYPE,It provides a debugger with information about the component when the Part Number field is not recognized. The debugger can then report this information." hexmask.long.byte 0x4 4.--7. 1. "SUB_TYPE,Sub-classification within the major category" hexmask.long.byte 0x4 0.--3. 1. "MAJOR_TYPE,Major classification grouping for this debug/trace component" line.long 0x8 "CTI__CFG__CSCTI_CFG_PERIPHID4,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the memory footprint indicator." hexmask.long.byte 0x8 4.--7. 1. "SIZE,This is a 4-bit value that indicates the total contiguous size of the memory window used by this component in powers of 2 from the standard 4KB. If a component only requires the standard 4KB then this should read as 0x0 4KB only for 8KB set to.." hexmask.long.byte 0x8 0.--3. 1. "DES_2,JEDEC continuation code indicating the designer of the component (along with the identity code)" rgroup.long 0xFE0++0x1F line.long 0x0 "CTI__CFG__CSCTI_CFG_PERIPHID0,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number." hexmask.long.byte 0x0 0.--7. 1. "PART_0,Bits [7 : 0] of the component's part number. This is selected by the designer of the component." line.long 0x4 "CTI__CFG__CSCTI_CFG_PERIPHID1,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number and part of the designer identity." hexmask.long.byte 0x4 4.--7. 1. "DES_0,Bits 3 : 0 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" hexmask.long.byte 0x4 0.--3. 1. "PART_1,Bits [11 : 8] of the component's part number. This is selected by the designer of the component." line.long 0x8 "CTI__CFG__CSCTI_CFG_PERIPHID2,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the product revision." hexmask.long.byte 0x8 4.--7. 1. "REVISION,The Revision field is an incremental value starting at 0x0 for the first design of this component. This only increases by 1 for both major and minor revisions and is simply used as a look-up to establish the exact major/minor revision." bitfld.long 0x8 3. "JEDEC,Always set. Indicates that a JEDEC assigned value is used" "0,1" newline bitfld.long 0x8 0.--2. "DES_1,Bits 6 : 4 of the JEDEC identity code indicating the designer of the component (along with the continuation code)" "?,?,?,?,?,?,6: 4 of the JEDEC identity code indicating the..,?" line.long 0xC "CTI__CFG__CSCTI_CFG_PERIPHID3,Part of the set of Peripheral Identification registers. Contains the RevAnd and Customer Modified fields." hexmask.long.byte 0xC 4.--7. 1. "REVAND,This field indicates minor errata fixes specific to this design for example metal fixes after implementation. In most cases this field is zero. It is recommended that component designers ensure this field can be changed by a metal fix if.." hexmask.long.byte 0xC 0.--3. 1. "CMOD,Where the component is reusable IP this value indicates if the customer has modified the behavior of the component. In most cases this field is zero." line.long 0x10 "CTI__CFG__CSCTI_CFG_COMPID0,Reserved Reserved Reserved A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x10 0.--7. 1. "PRMBL_0,Contains bits [7 : 0] of the component identification" line.long 0x14 "CTI__CFG__CSCTI_CFG_COMPID1,A component identification register. that indicates that the identification registers are present. This register also indicates the component class." hexmask.long.byte 0x14 4.--7. 1. "CLASS,Class of the component. E.g. ROM table CoreSight component etc. Constitutes bits [15 : 12] of the component identification." hexmask.long.byte 0x14 0.--3. 1. "PRMBL_1,Contains bits [11 : 8] of the component identification" line.long 0x18 "CTI__CFG__CSCTI_CFG_COMPID2,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x18 0.--7. 1. "PRMBL_2,Contains bits [23 : 16] of the component identification" line.long 0x1C "CTI__CFG__CSCTI_CFG_COMPID3,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x1C 0.--7. 1. "PRMBL_3,Contains bits [31 : 24] of the component identification" tree.end tree "STM0_CXSTM (STM0_CXSTM)" base ad:0x73D200000 wgroup.long 0xC04++0x7 line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMDMASTARTR,This write-only register is used to start a DMA transfer.<p/>A write of one when the DMA peripheral request interface is idle starts a DMA transfer. A write of zero has no effect. A write of one when.." bitfld.long 0x0 0. "START," "0,1" line.long 0x4 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMDMASTOPR,This write-only register is used to stop a DMA transfer.<p/>A write of one stops an active DMA transfer. A write of zero has no effect. A write of one when the DMA peripheral request interface is idle.." bitfld.long 0x4 0. "STOP," "0,1" rgroup.long 0xC0C++0x3 line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMDMASTATR,This read-only register is used to determine the status of the DMA peripheral request interface." bitfld.long 0x0 0. "STATUS," "0,1" group.long 0xC10++0x3 line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMDMACTLR,Controls the DMA transfer request mechanism." bitfld.long 0x0 2.--3. "SENS," "0,1,2,3" rgroup.long 0xCFC++0x3 line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMDMAIDR,This read-only register indicates the DMA features of the STM" hexmask.long.byte 0x0 8.--11. 1. "VENDSPEC," hexmask.long.byte 0x0 4.--7. 1. "CLASSREV," hexmask.long.byte 0x0 0.--3. 1. "CLASS," group.long 0xD00++0x3 line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMHEER,This read/write register is used to enable hardware events to generate trace.<p/>The register defined one bit per hardware event. Writing 1 enables the appropriate hardware event. writing 0 disables the.." hexmask.long 0x0 0.--31. 1. "HEE," group.long 0xD20++0x3 line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMHETER,This register is used to enable trigger generation on hardware events." hexmask.long 0x0 0.--31. 1. "HETE," group.long 0xD60++0xB line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMHEBSR,This register is used to select the Hardware Event bank" bitfld.long 0x0 0. "HEBS," "0,1" line.long 0x4 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMHEMCR,This register is used to control the primary functions of Hardware Event tracing." bitfld.long 0x4 7. "ATBTRIGEN," "0,1" bitfld.long 0x4 6. "TRIGCLEAR," "0,1" rbitfld.long 0x4 5. "TRIGSTATUS," "0,1" bitfld.long 0x4 4. "TRIGCTL," "0,1" newline rbitfld.long 0x4 2. "ERRDETECT," "0,1" bitfld.long 0x4 1. "COMPEN," "0,1" bitfld.long 0x4 0. "EN," "0,1" line.long 0x8 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMHEEXTMUXR,This register is used to control hardware event multiplexors external to the STM" hexmask.long.byte 0x8 0.--7. 1. "EXTMUX," rgroup.long 0xDF4++0xB line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMHEMASTR,Indicates the STPv2 master number of hardware event trace. This number is the master number presented in STPv2." hexmask.long.word 0x0 0.--15. 1. "MASTER," line.long 0x4 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMHEFEAT1R,Indicates the features of the STM." bitfld.long 0x4 28.--30. "HEEXTMUXSIZE," "0,1,2,3,4,5,6,7" hexmask.long.word 0x4 15.--23. 1. "NUMHE," bitfld.long 0x4 4.--5. "HECOMP," "0,1,2,3" bitfld.long 0x4 3. "HEMASTR," "0,1" newline bitfld.long 0x4 2. "HEERR," "0,1" bitfld.long 0x4 0. "HETER," "0,1" line.long 0x8 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMHEIDR,Indicates the features of hardware event tracing in the STM." hexmask.long.byte 0x8 8.--11. 1. "VENDSPEC," hexmask.long.byte 0x8 4.--7. 1. "CLASSREV," hexmask.long.byte 0x8 0.--3. 1. "CLASS," group.long 0xE00++0x3 line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMSPER,This read/write only register is used to enable the stimulus registers to generate trace.<p/>The register defines one bit per stimulus register. Writing 1 enables the appropriate stimulus port. writing 0.." hexmask.long 0x0 0.--31. 1. "SPE," group.long 0xE20++0x3 line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMSPTER,This register is used to enable trigger generation on writes to enabled stimulus port registers." hexmask.long 0x0 0.--31. 1. "SPTE," group.long 0xE60++0x13 line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMSPSCR,This register allows a debugger to program which stimulus ports the STMSPER and STMSPTER apply to." hexmask.long.word 0x0 20.--31. 1. "PORTSEL," bitfld.long 0x0 0.--1. "PORTCTL," "0,1,2,3" line.long 0x4 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMSPMSCR,This register allows a debugger to program which masters the STMSPSCR applies to." hexmask.long.byte 0x4 15.--22. 1. "MASTSEL," bitfld.long 0x4 0. "MASTCTL," "0,1" line.long 0x8 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMSPOVERRIDER,This register allows a debugger to override various features of the STM." hexmask.long.tbyte 0x8 15.--31. 1. "PORTSEL," bitfld.long 0x8 2. "OVERTS," "0,1" bitfld.long 0x8 0.--1. "OVERCTL," "0,1,2,3" line.long 0xC "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMSPMOVERRIDER,This register allows a debugger to choose which masters the STMSPOVERRIDERR applies to." hexmask.long.byte 0xC 15.--22. 1. "MASTSEL," bitfld.long 0xC 0. "MASTCTL," "0,1" line.long 0x10 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMSPTRIGCSR,This register is used to control the STM triggers caused by STMSPTER." bitfld.long 0x10 4. "ATBTRIGEN_DIR," "0,1" bitfld.long 0x10 3. "ATBTRIGEN_TE," "0,1" bitfld.long 0x10 2. "TRIGCLEAR," "0,1" rbitfld.long 0x10 1. "TRIGSTATUS," "0,1" newline bitfld.long 0x10 0. "TRIGCTL," "0,1" group.long 0xE80++0x3 line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMTCSR,Controls the STM settings." rbitfld.long 0x0 23. "BUSY," "0,1" hexmask.long.byte 0x0 16.--22. 1. "TRACEID," bitfld.long 0x0 5. "COMPEN," "0,1" rbitfld.long 0x0 2. "SYNCEN," "0,1" newline bitfld.long 0x0 1. "TSEN," "0,1" bitfld.long 0x0 0. "EN," "0,1" wgroup.long 0xE84++0x3 line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMTSSTIMR,This write-only register is used to force the next packet caused by a stimulus port write to have a timestamp output." bitfld.long 0x0 0. "FORCETS," "0,1" group.long 0xE8C++0xB line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMTSFREQR,This read-write register is used to indicate the frequency of the timestamp counter. The unit of measurement is increments per second. When the STPv2 protocol is used. this register contains the value output.." hexmask.long 0x0 0.--31. 1. "FREQ," line.long 0x4 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMSYNCR,This register controls the interval between synchronization packets. in terms of the number of bytes of trace generated.<p/>This register only provides a hint of the desired synchronization frequency..." bitfld.long 0x4 12. "MODE," "0,1" hexmask.long.word 0x4 3.--11. 1. "COUNT," line.long 0x8 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMAUXCR,Used for IMPLEMENTATION DEFINED STM controls." bitfld.long 0x8 7. "QHWEVOVERRIDE," "0,1" bitfld.long 0x8 2. "PRIORINVDIS," "0,1" bitfld.long 0x8 1. "ASYNCPE," "0,1" bitfld.long 0x8 0. "FIFOAF," "0,1" rgroup.long 0xEA0++0xB line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMFEAT1R,Indicates the features of the STM." bitfld.long 0x0 22.--23. "SWOEN," "0,1,2,3" bitfld.long 0x0 20.--21. "SYNCEN," "0,1,2,3" bitfld.long 0x0 18.--19. "HWTEN," "0,1,2,3" bitfld.long 0x0 16.--17. "TSPRESCALE," "0,1,2,3" newline bitfld.long 0x0 14.--15. "TRIGCTL," "0,1,2,3" hexmask.long.byte 0x0 10.--13. 1. "TRACEBUS," bitfld.long 0x0 8.--9. "SYNC," "0,1,2,3" bitfld.long 0x0 7. "FORCETS," "0,1" newline bitfld.long 0x0 6. "TSFREQ," "0,1" bitfld.long 0x0 4.--5. "TS," "0,1,2,3" hexmask.long.byte 0x0 0.--3. 1. "PROT," line.long 0x4 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMFEAT2R,Indicates the features of the STM." bitfld.long 0x4 16.--17. "SPTYPE," "0,1,2,3" hexmask.long.byte 0x4 12.--15. 1. "DSIZE," bitfld.long 0x4 9.--10. "SPTRTYPE," "0,1,2,3" bitfld.long 0x4 7.--8. "PRIVMASK," "0,1,2,3" newline bitfld.long 0x4 6. "SPOVERRIDE," "0,1" bitfld.long 0x4 4.--5. "SPCOMP," "0,1,2,3" bitfld.long 0x4 2. "SPER," "0,1" bitfld.long 0x4 0.--1. "SPTER," "0,1,2,3" line.long 0x8 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMFEAT3R,Indicates the features of the STM." hexmask.long.byte 0x8 0.--6. 1. "NUMMAST," wgroup.long 0xEE8++0x7 line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMITTRIGGER,Integration Test for Cross-Trigger Outputs Register" bitfld.long 0x0 3. "ASYNCOUT_W," "0,1" bitfld.long 0x0 2. "TRIGOUTHETE_W," "0,1" bitfld.long 0x0 1. "TRIGOUTSW_W," "0,1" bitfld.long 0x0 0. "TRIGOUTSPTE_W," "0,1" line.long 0x4 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMITATBDATA0,Controls the value of the ATDATAM output in integration mode:" bitfld.long 0x4 8. "ATDATAM63_W," "0,1" bitfld.long 0x4 7. "ATDATAM55_W," "0,1" bitfld.long 0x4 6. "ATDATAM47_W," "0,1" bitfld.long 0x4 5. "ATDATAM39_W," "0,1" newline bitfld.long 0x4 4. "ATDATAM31_W," "0,1" bitfld.long 0x4 3. "ATDATAM23_W," "0,1" bitfld.long 0x4 2. "ATDATAM15_W," "0,1" bitfld.long 0x4 1. "ATDATAM7_W," "0,1" newline bitfld.long 0x4 0. "ATDATAM0_W," "0,1" rgroup.long 0xEF0++0x3 line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMITATBCTR2,Returns the value of the ATREADYM and AFVALIDM inputs in integration mode." bitfld.long 0x0 1. "AFVALIDM_R," "0,1" bitfld.long 0x0 0. "ATREADYM_R," "0,1" wgroup.long 0xEF4++0x7 line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMITATBID,Controls the value of the ATIDM output in integration mode." hexmask.long.byte 0x0 0.--6. 1. "ATIDM_W," line.long 0x4 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMITATBCTR0,Controls the value of the ATVALIDM. AFREADYM. and ATBYTESM outputs in integration mode." bitfld.long 0x4 8.--10. "ATBYTESM_W," "0,1,2,3,4,5,6,7" bitfld.long 0x4 1. "AFREADYM_W," "0,1" bitfld.long 0x4 0. "ATVALIDM_W," "0,1" group.long 0xF00++0x3 line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMITCTRL,Used to enable topology detection. See the CoreSight Architecture Specification for more information. This register enables the component to switch between functional mode and integration mode. The default.." bitfld.long 0x0 0. "IME," "0,1" rgroup.long 0xFA0++0x7 line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMCLAIMSET,This is used in conjunction with Claim Tag Clear Register. STMCLAIMCLR. This register forms one half of the Claim Tag value. This location allows individual bits to be set. write. and returns the number of.." hexmask.long.byte 0x0 0.--3. 1. "SET," line.long 0x4 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMCLAIMCLR,This register is used in conjunction with Claim Tag Set Register. STMCLAIMSET. This register forms one half of the Claim Tag value. This location enables individual bits to be cleared. write. and returns.." hexmask.long.byte 0x4 0.--3. 1. "CLR," wgroup.long 0xFB0++0x3 line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMLAR,Enables write access to device registers." hexmask.long 0x0 0.--31. 1. "KEY," rgroup.long 0xFB4++0xB line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMLSR,Indicates the status of the lock control mechanism. This lock prevents accidental writes by code under debug. The lock mechanism does not impact accesses to the extended stimulus port registers. This register.." bitfld.long 0x0 2. "NTT," "0,1" bitfld.long 0x0 1. "SLK," "0,1" bitfld.long 0x0 0. "SLI," "0,1" line.long 0x4 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMAUTHSTATUS,Reports the required security level and current status of the authentication interface." bitfld.long 0x4 6.--7. "SNID," "0,1,2,3" bitfld.long 0x4 4.--5. "SID," "0,1,2,3" bitfld.long 0x4 2.--3. "NSNID," "0,1,2,3" bitfld.long 0x4 0.--1. "NSID," "0,1,2,3" line.long 0x8 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMDEVARCH,Indicates the architect and architecture of the STM. For the STM-500. the architect is ARM. and the architecture is STMv1.1" hexmask.long.word 0x8 21.--31. 1. "ARCHITECT," bitfld.long 0x8 20. "PRESENT," "0,1" hexmask.long.byte 0x8 16.--19. 1. "REVISION," hexmask.long.word 0x8 0.--14. 1. "ARCHID," rgroup.long 0xFC8++0xB line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMDEVID,Indicates the capabilities of the CoreSight STM." hexmask.long.tbyte 0x0 0.--16. 1. "NUMSP," line.long 0x4 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMDEVTYPE,Provides a debugger with information about the component when the part number is not recognized. The debugger can then report this information." hexmask.long.byte 0x4 4.--7. 1. "SUB," hexmask.long.byte 0x4 0.--3. 1. "MAJOR," line.long 0x8 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMPIDR4,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the memory footprint indicator." hexmask.long.byte 0x8 4.--7. 1. "SIZE," hexmask.long.byte 0x8 0.--3. 1. "DES_2," group.long 0xFD4++0xB line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMPIDR5,Reserved" line.long 0x4 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMPIDR6,Reserved" line.long 0x8 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMPIDR7,Reserved" rgroup.long 0xFE0++0x1F line.long 0x0 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMPIDR0,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number." hexmask.long.byte 0x0 0.--7. 1. "PART_0," line.long 0x4 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMPIDR1,Part of the set of Peripheral Identification registers. Contains part of the designer specific part number and part of the designer identity." hexmask.long.byte 0x4 4.--7. 1. "DES_0," hexmask.long.byte 0x4 0.--3. 1. "PART_1," line.long 0x8 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMPIDR2,Part of the set of Peripheral Identification registers. Contains part of the designer identity and the product revision." hexmask.long.byte 0x8 4.--7. 1. "REVISION," bitfld.long 0x8 3. "JEDEC," "0,1" bitfld.long 0x8 0.--2. "DES_1," "0,1,2,3,4,5,6,7" line.long 0xC "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMPIDR3,Part of the set of Peripheral Identification registers. Contains the RevAnd and Customer_Modified bit fields." hexmask.long.byte 0xC 4.--7. 1. "REVAND," hexmask.long.byte 0xC 0.--3. 1. "CMOD," line.long 0x10 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMCIDR0,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x10 0.--7. 1. "PRMBL_0," line.long 0x14 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMCIDR1,A component identification register. that indicates that the identification registers are present. This register also indicates the component class." hexmask.long.byte 0x14 4.--7. 1. "CLASS," hexmask.long.byte 0x14 0.--3. 1. "PRMBL_1," line.long 0x18 "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMCIDR2,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x18 0.--7. 1. "PRMBL_2," line.long 0x1C "VBUSP2APB_WRAP__CXSTM_CFG__STM_REGS_STMCIDR3,A component identification register. that indicates that the identification registers are present." hexmask.long.byte 0x1C 0.--7. 1. "PRMBL_3," tree.end tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "TIMER" base ad:0x0 tree "TIMER0_CFG (TIMER0_CFG)" base ad:0x2400000 rgroup.long 0x0++0x3 line.long 0x0 "CFG_TIDR," bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x10++0x3 line.long 0x0 "CFG_TIOCP_CFG,This register controls the various parameters of the OCP interface" bitfld.long 0x0 2.--3. "IDLEMODE,Idle Mode" "0,1,2,3" bitfld.long 0x0 1. "EMUFREE,Emulation Mode" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset" "0,1" group.long 0x20++0x27 line.long 0x0 "CFG_IRQ_EOI,Allows the generation of further pulses on the interrupt line. if an new interrupt event is pending. when using the pulsed output. Unused when using the level interrupt line" bitfld.long 0x0 0. "LINE_NUMBER,Idle Mode" "0,1" line.long 0x4 "CFG_IRQSTATUS_RAW,Component interrupt request status." bitfld.long 0x4 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x4 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x4 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x8 "CFG_IRQSTATUS,Component interrupt request status." bitfld.long 0x8 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x8 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x8 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0xC "CFG_IRQSTATUS_SET,Component interrupt request enable" bitfld.long 0xC 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0xC 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0xC 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x10 "CFG_IRQSTATUS_CLR,Component interrupt request enable." bitfld.long 0x10 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x10 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x10 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x14 "CFG_IRQWAKEEN,Wakeup-enabled events taking place when module is idle shall generate an asynchronous wakeup" bitfld.long 0x14 2. "MAT_WUP_ENA,Match Wakeup Enable" "0,1" bitfld.long 0x14 1. "OVF_WUP_ENA,Overflow Wakeup Enable" "0,1" bitfld.long 0x14 0. "TCAR_WUP_ENA,Capture Wakeup Enable" "0,1" line.long 0x18 "CFG_TCLR,This register controls optional features specific to the timer functionality" bitfld.long 0x18 14. "GPO_CFG,This field drives directly the timer_gpocfg port" "0,1" bitfld.long 0x18 13. "CAPT_MODE,Capture mode select bit; First/second" "0,1" bitfld.long 0x18 12. "PT,Pulse or Toggle select bit" "0,1" bitfld.long 0x18 10.--11. "TRG,Trigger Output Mode" "0,1,2,3" bitfld.long 0x18 8.--9. "TCM,Transition Capture Mode" "0,1,2,3" newline bitfld.long 0x18 7. "SCPWM,Pulse Width Modulation output pin default value" "0,1" bitfld.long 0x18 6. "CE,Compare Enable" "0,1" bitfld.long 0x18 5. "PRE,Prescaler Enable" "0,1" bitfld.long 0x18 2.--4. "PTV,Trigger Output Mode. The timer counter is prescaled with the value: 2^PTV" "0,1,2,3,4,5,6,7" bitfld.long 0x18 1. "AR,Auto-reload mode" "0,1" newline bitfld.long 0x18 0. "ST,Start/Stop timer control" "0,1" line.long 0x1C "CFG_TCRR,This register holds the value of the internal counter" hexmask.long 0x1C 0.--31. 1. "TIMER_COUNTER,Timer Counter" line.long 0x20 "CFG_TLDR,This register holds the timer's load value" hexmask.long 0x20 0.--31. 1. "LOAD_VALUE,Timer Counter" line.long 0x24 "CFG_TTGR,This register triggers a counter reload of timer by writing any value in it" hexmask.long 0x24 0.--31. 1. "TTRG_VLAUE,The value of the trigger register. During reads it always return 0xFFFF_FFFF" rgroup.long 0x48++0x3 line.long 0x0 "CFG_TWPS,This register contains the write posting bits for all writ-able functional registers" bitfld.long 0x0 9. "W_PEND_TOWR,Write pending for register TOWR" "0,1" bitfld.long 0x0 8. "W_PEND_TOCR,Write pending for register TOCR" "0,1" bitfld.long 0x0 7. "W_PEND_TCVR,Write pending for register TCVR" "0,1" bitfld.long 0x0 6. "W_PEND_TNIR,Write pending for register TNIR" "0,1" bitfld.long 0x0 5. "W_PEND_TPIR,Write pending for register TPIR" "0,1" newline bitfld.long 0x0 4. "W_PEND_TMAR,Write pending for register TMAR" "0,1" bitfld.long 0x0 3. "W_PEND_TTGR,Write pending for register TTGR" "0,1" bitfld.long 0x0 2. "W_PEND_TLDR,Write pending for register TLDR" "0,1" bitfld.long 0x0 1. "W_PEND_TCRR,Write pending for register TCRR" "0,1" bitfld.long 0x0 0. "W_PEND_TCLR,Write pending for register TCLR" "0,1" group.long 0x4C++0x3 line.long 0x0 "CFG_TMAR,This register holds the match value to be compared with the counter's value" hexmask.long 0x0 0.--31. 1. "COMPARE_VLAUE,The value of the match register" rgroup.long 0x50++0x3 line.long 0x0 "CFG_TCAR1,This register holds the value of the first counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE1,The value of first captured counter register" group.long 0x54++0x3 line.long 0x0 "CFG_TSICR,Timer Synchronous Interface Control Register" bitfld.long 0x0 4. "READ_AFTER_IDLE,Select if the synchronization mechanism used for first TCRR read operation after IDLE state is active" "0,1" bitfld.long 0x0 3. "READ_MODE,Select posted/non-posted mode for read operation. This bit is not used when configured in posted mode" "0,1" bitfld.long 0x0 2. "POSTED,Reset value of POSTED depends on hardware integration module at design time. Software must read POSTED field to get the hardwar module configuration" "0,1" bitfld.long 0x0 1. "SFT,This bit reset all the functional part of teh module" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "CFG_TCAR2,This register holds the value of the second counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE2,The value of second captured counter register" group.long 0x5C++0x13 line.long 0x0 "CFG_TPIR,This register is used for 1ms tick generation." hexmask.long 0x0 0.--31. 1. "POSITIVE_INC_VALUE,The value of the positive increment" line.long 0x4 "CFG_TNIR,This register is used for 1ms tick generation." hexmask.long 0x4 0.--31. 1. "NEGATIVE_INC_VALUE,The value of the negative increment" line.long 0x8 "CFG_TCVR,This register is used for 1ms tick generation." hexmask.long 0x8 0.--31. 1. "COUNTER_VALUE,The value of CVR counter" line.long 0xC "CFG_TOCR,This register is used to mask the tick interrupt for a selected number of ticks" hexmask.long.tbyte 0xC 0.--23. 1. "OVF_COUNTER_VALUE,The number of overflow events" line.long 0x10 "CFG_TOWR,This register holds the number of masked overflow interrupts" hexmask.long.tbyte 0x10 0.--23. 1. "OVF_WRAPPING_VALUE,The number of masked interrupts" tree.end tree "TIMER1_CFG (TIMER1_CFG)" base ad:0x2410000 rgroup.long 0x0++0x3 line.long 0x0 "CFG_TIDR," bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x10++0x3 line.long 0x0 "CFG_TIOCP_CFG,This register controls the various parameters of the OCP interface" bitfld.long 0x0 2.--3. "IDLEMODE,Idle Mode" "0,1,2,3" bitfld.long 0x0 1. "EMUFREE,Emulation Mode" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset" "0,1" group.long 0x20++0x27 line.long 0x0 "CFG_IRQ_EOI,Allows the generation of further pulses on the interrupt line. if an new interrupt event is pending. when using the pulsed output. Unused when using the level interrupt line" bitfld.long 0x0 0. "LINE_NUMBER,Idle Mode" "0,1" line.long 0x4 "CFG_IRQSTATUS_RAW,Component interrupt request status." bitfld.long 0x4 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x4 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x4 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x8 "CFG_IRQSTATUS,Component interrupt request status." bitfld.long 0x8 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x8 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x8 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0xC "CFG_IRQSTATUS_SET,Component interrupt request enable" bitfld.long 0xC 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0xC 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0xC 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x10 "CFG_IRQSTATUS_CLR,Component interrupt request enable." bitfld.long 0x10 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x10 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x10 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x14 "CFG_IRQWAKEEN,Wakeup-enabled events taking place when module is idle shall generate an asynchronous wakeup" bitfld.long 0x14 2. "MAT_WUP_ENA,Match Wakeup Enable" "0,1" bitfld.long 0x14 1. "OVF_WUP_ENA,Overflow Wakeup Enable" "0,1" bitfld.long 0x14 0. "TCAR_WUP_ENA,Capture Wakeup Enable" "0,1" line.long 0x18 "CFG_TCLR,This register controls optional features specific to the timer functionality" bitfld.long 0x18 14. "GPO_CFG,This field drives directly the timer_gpocfg port" "0,1" bitfld.long 0x18 13. "CAPT_MODE,Capture mode select bit; First/second" "0,1" bitfld.long 0x18 12. "PT,Pulse or Toggle select bit" "0,1" bitfld.long 0x18 10.--11. "TRG,Trigger Output Mode" "0,1,2,3" bitfld.long 0x18 8.--9. "TCM,Transition Capture Mode" "0,1,2,3" newline bitfld.long 0x18 7. "SCPWM,Pulse Width Modulation output pin default value" "0,1" bitfld.long 0x18 6. "CE,Compare Enable" "0,1" bitfld.long 0x18 5. "PRE,Prescaler Enable" "0,1" bitfld.long 0x18 2.--4. "PTV,Trigger Output Mode. The timer counter is prescaled with the value: 2^PTV" "0,1,2,3,4,5,6,7" bitfld.long 0x18 1. "AR,Auto-reload mode" "0,1" newline bitfld.long 0x18 0. "ST,Start/Stop timer control" "0,1" line.long 0x1C "CFG_TCRR,This register holds the value of the internal counter" hexmask.long 0x1C 0.--31. 1. "TIMER_COUNTER,Timer Counter" line.long 0x20 "CFG_TLDR,This register holds the timer's load value" hexmask.long 0x20 0.--31. 1. "LOAD_VALUE,Timer Counter" line.long 0x24 "CFG_TTGR,This register triggers a counter reload of timer by writing any value in it" hexmask.long 0x24 0.--31. 1. "TTRG_VLAUE,The value of the trigger register. During reads it always return 0xFFFF_FFFF" rgroup.long 0x48++0x3 line.long 0x0 "CFG_TWPS,This register contains the write posting bits for all writ-able functional registers" bitfld.long 0x0 9. "W_PEND_TOWR,Write pending for register TOWR" "0,1" bitfld.long 0x0 8. "W_PEND_TOCR,Write pending for register TOCR" "0,1" bitfld.long 0x0 7. "W_PEND_TCVR,Write pending for register TCVR" "0,1" bitfld.long 0x0 6. "W_PEND_TNIR,Write pending for register TNIR" "0,1" bitfld.long 0x0 5. "W_PEND_TPIR,Write pending for register TPIR" "0,1" newline bitfld.long 0x0 4. "W_PEND_TMAR,Write pending for register TMAR" "0,1" bitfld.long 0x0 3. "W_PEND_TTGR,Write pending for register TTGR" "0,1" bitfld.long 0x0 2. "W_PEND_TLDR,Write pending for register TLDR" "0,1" bitfld.long 0x0 1. "W_PEND_TCRR,Write pending for register TCRR" "0,1" bitfld.long 0x0 0. "W_PEND_TCLR,Write pending for register TCLR" "0,1" group.long 0x4C++0x3 line.long 0x0 "CFG_TMAR,This register holds the match value to be compared with the counter's value" hexmask.long 0x0 0.--31. 1. "COMPARE_VLAUE,The value of the match register" rgroup.long 0x50++0x3 line.long 0x0 "CFG_TCAR1,This register holds the value of the first counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE1,The value of first captured counter register" group.long 0x54++0x3 line.long 0x0 "CFG_TSICR,Timer Synchronous Interface Control Register" bitfld.long 0x0 4. "READ_AFTER_IDLE,Select if the synchronization mechanism used for first TCRR read operation after IDLE state is active" "0,1" bitfld.long 0x0 3. "READ_MODE,Select posted/non-posted mode for read operation. This bit is not used when configured in posted mode" "0,1" bitfld.long 0x0 2. "POSTED,Reset value of POSTED depends on hardware integration module at design time. Software must read POSTED field to get the hardwar module configuration" "0,1" bitfld.long 0x0 1. "SFT,This bit reset all the functional part of teh module" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "CFG_TCAR2,This register holds the value of the second counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE2,The value of second captured counter register" group.long 0x5C++0x13 line.long 0x0 "CFG_TPIR,This register is used for 1ms tick generation." hexmask.long 0x0 0.--31. 1. "POSITIVE_INC_VALUE,The value of the positive increment" line.long 0x4 "CFG_TNIR,This register is used for 1ms tick generation." hexmask.long 0x4 0.--31. 1. "NEGATIVE_INC_VALUE,The value of the negative increment" line.long 0x8 "CFG_TCVR,This register is used for 1ms tick generation." hexmask.long 0x8 0.--31. 1. "COUNTER_VALUE,The value of CVR counter" line.long 0xC "CFG_TOCR,This register is used to mask the tick interrupt for a selected number of ticks" hexmask.long.tbyte 0xC 0.--23. 1. "OVF_COUNTER_VALUE,The number of overflow events" line.long 0x10 "CFG_TOWR,This register holds the number of masked overflow interrupts" hexmask.long.tbyte 0x10 0.--23. 1. "OVF_WRAPPING_VALUE,The number of masked interrupts" tree.end tree "TIMER2_CFG (TIMER2_CFG)" base ad:0x2420000 rgroup.long 0x0++0x3 line.long 0x0 "CFG_TIDR," bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x10++0x3 line.long 0x0 "CFG_TIOCP_CFG,This register controls the various parameters of the OCP interface" bitfld.long 0x0 2.--3. "IDLEMODE,Idle Mode" "0,1,2,3" bitfld.long 0x0 1. "EMUFREE,Emulation Mode" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset" "0,1" group.long 0x20++0x27 line.long 0x0 "CFG_IRQ_EOI,Allows the generation of further pulses on the interrupt line. if an new interrupt event is pending. when using the pulsed output. Unused when using the level interrupt line" bitfld.long 0x0 0. "LINE_NUMBER,Idle Mode" "0,1" line.long 0x4 "CFG_IRQSTATUS_RAW,Component interrupt request status." bitfld.long 0x4 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x4 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x4 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x8 "CFG_IRQSTATUS,Component interrupt request status." bitfld.long 0x8 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x8 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x8 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0xC "CFG_IRQSTATUS_SET,Component interrupt request enable" bitfld.long 0xC 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0xC 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0xC 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x10 "CFG_IRQSTATUS_CLR,Component interrupt request enable." bitfld.long 0x10 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x10 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x10 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x14 "CFG_IRQWAKEEN,Wakeup-enabled events taking place when module is idle shall generate an asynchronous wakeup" bitfld.long 0x14 2. "MAT_WUP_ENA,Match Wakeup Enable" "0,1" bitfld.long 0x14 1. "OVF_WUP_ENA,Overflow Wakeup Enable" "0,1" bitfld.long 0x14 0. "TCAR_WUP_ENA,Capture Wakeup Enable" "0,1" line.long 0x18 "CFG_TCLR,This register controls optional features specific to the timer functionality" bitfld.long 0x18 14. "GPO_CFG,This field drives directly the timer_gpocfg port" "0,1" bitfld.long 0x18 13. "CAPT_MODE,Capture mode select bit; First/second" "0,1" bitfld.long 0x18 12. "PT,Pulse or Toggle select bit" "0,1" bitfld.long 0x18 10.--11. "TRG,Trigger Output Mode" "0,1,2,3" bitfld.long 0x18 8.--9. "TCM,Transition Capture Mode" "0,1,2,3" newline bitfld.long 0x18 7. "SCPWM,Pulse Width Modulation output pin default value" "0,1" bitfld.long 0x18 6. "CE,Compare Enable" "0,1" bitfld.long 0x18 5. "PRE,Prescaler Enable" "0,1" bitfld.long 0x18 2.--4. "PTV,Trigger Output Mode. The timer counter is prescaled with the value: 2^PTV" "0,1,2,3,4,5,6,7" bitfld.long 0x18 1. "AR,Auto-reload mode" "0,1" newline bitfld.long 0x18 0. "ST,Start/Stop timer control" "0,1" line.long 0x1C "CFG_TCRR,This register holds the value of the internal counter" hexmask.long 0x1C 0.--31. 1. "TIMER_COUNTER,Timer Counter" line.long 0x20 "CFG_TLDR,This register holds the timer's load value" hexmask.long 0x20 0.--31. 1. "LOAD_VALUE,Timer Counter" line.long 0x24 "CFG_TTGR,This register triggers a counter reload of timer by writing any value in it" hexmask.long 0x24 0.--31. 1. "TTRG_VLAUE,The value of the trigger register. During reads it always return 0xFFFF_FFFF" rgroup.long 0x48++0x3 line.long 0x0 "CFG_TWPS,This register contains the write posting bits for all writ-able functional registers" bitfld.long 0x0 9. "W_PEND_TOWR,Write pending for register TOWR" "0,1" bitfld.long 0x0 8. "W_PEND_TOCR,Write pending for register TOCR" "0,1" bitfld.long 0x0 7. "W_PEND_TCVR,Write pending for register TCVR" "0,1" bitfld.long 0x0 6. "W_PEND_TNIR,Write pending for register TNIR" "0,1" bitfld.long 0x0 5. "W_PEND_TPIR,Write pending for register TPIR" "0,1" newline bitfld.long 0x0 4. "W_PEND_TMAR,Write pending for register TMAR" "0,1" bitfld.long 0x0 3. "W_PEND_TTGR,Write pending for register TTGR" "0,1" bitfld.long 0x0 2. "W_PEND_TLDR,Write pending for register TLDR" "0,1" bitfld.long 0x0 1. "W_PEND_TCRR,Write pending for register TCRR" "0,1" bitfld.long 0x0 0. "W_PEND_TCLR,Write pending for register TCLR" "0,1" group.long 0x4C++0x3 line.long 0x0 "CFG_TMAR,This register holds the match value to be compared with the counter's value" hexmask.long 0x0 0.--31. 1. "COMPARE_VLAUE,The value of the match register" rgroup.long 0x50++0x3 line.long 0x0 "CFG_TCAR1,This register holds the value of the first counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE1,The value of first captured counter register" group.long 0x54++0x3 line.long 0x0 "CFG_TSICR,Timer Synchronous Interface Control Register" bitfld.long 0x0 4. "READ_AFTER_IDLE,Select if the synchronization mechanism used for first TCRR read operation after IDLE state is active" "0,1" bitfld.long 0x0 3. "READ_MODE,Select posted/non-posted mode for read operation. This bit is not used when configured in posted mode" "0,1" bitfld.long 0x0 2. "POSTED,Reset value of POSTED depends on hardware integration module at design time. Software must read POSTED field to get the hardwar module configuration" "0,1" bitfld.long 0x0 1. "SFT,This bit reset all the functional part of teh module" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "CFG_TCAR2,This register holds the value of the second counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE2,The value of second captured counter register" group.long 0x5C++0x13 line.long 0x0 "CFG_TPIR,This register is used for 1ms tick generation." hexmask.long 0x0 0.--31. 1. "POSITIVE_INC_VALUE,The value of the positive increment" line.long 0x4 "CFG_TNIR,This register is used for 1ms tick generation." hexmask.long 0x4 0.--31. 1. "NEGATIVE_INC_VALUE,The value of the negative increment" line.long 0x8 "CFG_TCVR,This register is used for 1ms tick generation." hexmask.long 0x8 0.--31. 1. "COUNTER_VALUE,The value of CVR counter" line.long 0xC "CFG_TOCR,This register is used to mask the tick interrupt for a selected number of ticks" hexmask.long.tbyte 0xC 0.--23. 1. "OVF_COUNTER_VALUE,The number of overflow events" line.long 0x10 "CFG_TOWR,This register holds the number of masked overflow interrupts" hexmask.long.tbyte 0x10 0.--23. 1. "OVF_WRAPPING_VALUE,The number of masked interrupts" tree.end tree "TIMER3_CFG (TIMER3_CFG)" base ad:0x2430000 rgroup.long 0x0++0x3 line.long 0x0 "CFG_TIDR," bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x10++0x3 line.long 0x0 "CFG_TIOCP_CFG,This register controls the various parameters of the OCP interface" bitfld.long 0x0 2.--3. "IDLEMODE,Idle Mode" "0,1,2,3" bitfld.long 0x0 1. "EMUFREE,Emulation Mode" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset" "0,1" group.long 0x20++0x27 line.long 0x0 "CFG_IRQ_EOI,Allows the generation of further pulses on the interrupt line. if an new interrupt event is pending. when using the pulsed output. Unused when using the level interrupt line" bitfld.long 0x0 0. "LINE_NUMBER,Idle Mode" "0,1" line.long 0x4 "CFG_IRQSTATUS_RAW,Component interrupt request status." bitfld.long 0x4 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x4 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x4 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x8 "CFG_IRQSTATUS,Component interrupt request status." bitfld.long 0x8 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x8 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x8 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0xC "CFG_IRQSTATUS_SET,Component interrupt request enable" bitfld.long 0xC 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0xC 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0xC 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x10 "CFG_IRQSTATUS_CLR,Component interrupt request enable." bitfld.long 0x10 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x10 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x10 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x14 "CFG_IRQWAKEEN,Wakeup-enabled events taking place when module is idle shall generate an asynchronous wakeup" bitfld.long 0x14 2. "MAT_WUP_ENA,Match Wakeup Enable" "0,1" bitfld.long 0x14 1. "OVF_WUP_ENA,Overflow Wakeup Enable" "0,1" bitfld.long 0x14 0. "TCAR_WUP_ENA,Capture Wakeup Enable" "0,1" line.long 0x18 "CFG_TCLR,This register controls optional features specific to the timer functionality" bitfld.long 0x18 14. "GPO_CFG,This field drives directly the timer_gpocfg port" "0,1" bitfld.long 0x18 13. "CAPT_MODE,Capture mode select bit; First/second" "0,1" bitfld.long 0x18 12. "PT,Pulse or Toggle select bit" "0,1" bitfld.long 0x18 10.--11. "TRG,Trigger Output Mode" "0,1,2,3" bitfld.long 0x18 8.--9. "TCM,Transition Capture Mode" "0,1,2,3" newline bitfld.long 0x18 7. "SCPWM,Pulse Width Modulation output pin default value" "0,1" bitfld.long 0x18 6. "CE,Compare Enable" "0,1" bitfld.long 0x18 5. "PRE,Prescaler Enable" "0,1" bitfld.long 0x18 2.--4. "PTV,Trigger Output Mode. The timer counter is prescaled with the value: 2^PTV" "0,1,2,3,4,5,6,7" bitfld.long 0x18 1. "AR,Auto-reload mode" "0,1" newline bitfld.long 0x18 0. "ST,Start/Stop timer control" "0,1" line.long 0x1C "CFG_TCRR,This register holds the value of the internal counter" hexmask.long 0x1C 0.--31. 1. "TIMER_COUNTER,Timer Counter" line.long 0x20 "CFG_TLDR,This register holds the timer's load value" hexmask.long 0x20 0.--31. 1. "LOAD_VALUE,Timer Counter" line.long 0x24 "CFG_TTGR,This register triggers a counter reload of timer by writing any value in it" hexmask.long 0x24 0.--31. 1. "TTRG_VLAUE,The value of the trigger register. During reads it always return 0xFFFF_FFFF" rgroup.long 0x48++0x3 line.long 0x0 "CFG_TWPS,This register contains the write posting bits for all writ-able functional registers" bitfld.long 0x0 9. "W_PEND_TOWR,Write pending for register TOWR" "0,1" bitfld.long 0x0 8. "W_PEND_TOCR,Write pending for register TOCR" "0,1" bitfld.long 0x0 7. "W_PEND_TCVR,Write pending for register TCVR" "0,1" bitfld.long 0x0 6. "W_PEND_TNIR,Write pending for register TNIR" "0,1" bitfld.long 0x0 5. "W_PEND_TPIR,Write pending for register TPIR" "0,1" newline bitfld.long 0x0 4. "W_PEND_TMAR,Write pending for register TMAR" "0,1" bitfld.long 0x0 3. "W_PEND_TTGR,Write pending for register TTGR" "0,1" bitfld.long 0x0 2. "W_PEND_TLDR,Write pending for register TLDR" "0,1" bitfld.long 0x0 1. "W_PEND_TCRR,Write pending for register TCRR" "0,1" bitfld.long 0x0 0. "W_PEND_TCLR,Write pending for register TCLR" "0,1" group.long 0x4C++0x3 line.long 0x0 "CFG_TMAR,This register holds the match value to be compared with the counter's value" hexmask.long 0x0 0.--31. 1. "COMPARE_VLAUE,The value of the match register" rgroup.long 0x50++0x3 line.long 0x0 "CFG_TCAR1,This register holds the value of the first counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE1,The value of first captured counter register" group.long 0x54++0x3 line.long 0x0 "CFG_TSICR,Timer Synchronous Interface Control Register" bitfld.long 0x0 4. "READ_AFTER_IDLE,Select if the synchronization mechanism used for first TCRR read operation after IDLE state is active" "0,1" bitfld.long 0x0 3. "READ_MODE,Select posted/non-posted mode for read operation. This bit is not used when configured in posted mode" "0,1" bitfld.long 0x0 2. "POSTED,Reset value of POSTED depends on hardware integration module at design time. Software must read POSTED field to get the hardwar module configuration" "0,1" bitfld.long 0x0 1. "SFT,This bit reset all the functional part of teh module" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "CFG_TCAR2,This register holds the value of the second counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE2,The value of second captured counter register" group.long 0x5C++0x13 line.long 0x0 "CFG_TPIR,This register is used for 1ms tick generation." hexmask.long 0x0 0.--31. 1. "POSITIVE_INC_VALUE,The value of the positive increment" line.long 0x4 "CFG_TNIR,This register is used for 1ms tick generation." hexmask.long 0x4 0.--31. 1. "NEGATIVE_INC_VALUE,The value of the negative increment" line.long 0x8 "CFG_TCVR,This register is used for 1ms tick generation." hexmask.long 0x8 0.--31. 1. "COUNTER_VALUE,The value of CVR counter" line.long 0xC "CFG_TOCR,This register is used to mask the tick interrupt for a selected number of ticks" hexmask.long.tbyte 0xC 0.--23. 1. "OVF_COUNTER_VALUE,The number of overflow events" line.long 0x10 "CFG_TOWR,This register holds the number of masked overflow interrupts" hexmask.long.tbyte 0x10 0.--23. 1. "OVF_WRAPPING_VALUE,The number of masked interrupts" tree.end tree "TIMER4_CFG (TIMER4_CFG)" base ad:0x2440000 rgroup.long 0x0++0x3 line.long 0x0 "CFG_TIDR," bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x10++0x3 line.long 0x0 "CFG_TIOCP_CFG,This register controls the various parameters of the OCP interface" bitfld.long 0x0 2.--3. "IDLEMODE,Idle Mode" "0,1,2,3" bitfld.long 0x0 1. "EMUFREE,Emulation Mode" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset" "0,1" group.long 0x20++0x27 line.long 0x0 "CFG_IRQ_EOI,Allows the generation of further pulses on the interrupt line. if an new interrupt event is pending. when using the pulsed output. Unused when using the level interrupt line" bitfld.long 0x0 0. "LINE_NUMBER,Idle Mode" "0,1" line.long 0x4 "CFG_IRQSTATUS_RAW,Component interrupt request status." bitfld.long 0x4 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x4 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x4 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x8 "CFG_IRQSTATUS,Component interrupt request status." bitfld.long 0x8 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x8 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x8 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0xC "CFG_IRQSTATUS_SET,Component interrupt request enable" bitfld.long 0xC 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0xC 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0xC 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x10 "CFG_IRQSTATUS_CLR,Component interrupt request enable." bitfld.long 0x10 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x10 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x10 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x14 "CFG_IRQWAKEEN,Wakeup-enabled events taking place when module is idle shall generate an asynchronous wakeup" bitfld.long 0x14 2. "MAT_WUP_ENA,Match Wakeup Enable" "0,1" bitfld.long 0x14 1. "OVF_WUP_ENA,Overflow Wakeup Enable" "0,1" bitfld.long 0x14 0. "TCAR_WUP_ENA,Capture Wakeup Enable" "0,1" line.long 0x18 "CFG_TCLR,This register controls optional features specific to the timer functionality" bitfld.long 0x18 14. "GPO_CFG,This field drives directly the timer_gpocfg port" "0,1" bitfld.long 0x18 13. "CAPT_MODE,Capture mode select bit; First/second" "0,1" bitfld.long 0x18 12. "PT,Pulse or Toggle select bit" "0,1" bitfld.long 0x18 10.--11. "TRG,Trigger Output Mode" "0,1,2,3" bitfld.long 0x18 8.--9. "TCM,Transition Capture Mode" "0,1,2,3" newline bitfld.long 0x18 7. "SCPWM,Pulse Width Modulation output pin default value" "0,1" bitfld.long 0x18 6. "CE,Compare Enable" "0,1" bitfld.long 0x18 5. "PRE,Prescaler Enable" "0,1" bitfld.long 0x18 2.--4. "PTV,Trigger Output Mode. The timer counter is prescaled with the value: 2^PTV" "0,1,2,3,4,5,6,7" bitfld.long 0x18 1. "AR,Auto-reload mode" "0,1" newline bitfld.long 0x18 0. "ST,Start/Stop timer control" "0,1" line.long 0x1C "CFG_TCRR,This register holds the value of the internal counter" hexmask.long 0x1C 0.--31. 1. "TIMER_COUNTER,Timer Counter" line.long 0x20 "CFG_TLDR,This register holds the timer's load value" hexmask.long 0x20 0.--31. 1. "LOAD_VALUE,Timer Counter" line.long 0x24 "CFG_TTGR,This register triggers a counter reload of timer by writing any value in it" hexmask.long 0x24 0.--31. 1. "TTRG_VLAUE,The value of the trigger register. During reads it always return 0xFFFF_FFFF" rgroup.long 0x48++0x3 line.long 0x0 "CFG_TWPS,This register contains the write posting bits for all writ-able functional registers" bitfld.long 0x0 9. "W_PEND_TOWR,Write pending for register TOWR" "0,1" bitfld.long 0x0 8. "W_PEND_TOCR,Write pending for register TOCR" "0,1" bitfld.long 0x0 7. "W_PEND_TCVR,Write pending for register TCVR" "0,1" bitfld.long 0x0 6. "W_PEND_TNIR,Write pending for register TNIR" "0,1" bitfld.long 0x0 5. "W_PEND_TPIR,Write pending for register TPIR" "0,1" newline bitfld.long 0x0 4. "W_PEND_TMAR,Write pending for register TMAR" "0,1" bitfld.long 0x0 3. "W_PEND_TTGR,Write pending for register TTGR" "0,1" bitfld.long 0x0 2. "W_PEND_TLDR,Write pending for register TLDR" "0,1" bitfld.long 0x0 1. "W_PEND_TCRR,Write pending for register TCRR" "0,1" bitfld.long 0x0 0. "W_PEND_TCLR,Write pending for register TCLR" "0,1" group.long 0x4C++0x3 line.long 0x0 "CFG_TMAR,This register holds the match value to be compared with the counter's value" hexmask.long 0x0 0.--31. 1. "COMPARE_VLAUE,The value of the match register" rgroup.long 0x50++0x3 line.long 0x0 "CFG_TCAR1,This register holds the value of the first counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE1,The value of first captured counter register" group.long 0x54++0x3 line.long 0x0 "CFG_TSICR,Timer Synchronous Interface Control Register" bitfld.long 0x0 4. "READ_AFTER_IDLE,Select if the synchronization mechanism used for first TCRR read operation after IDLE state is active" "0,1" bitfld.long 0x0 3. "READ_MODE,Select posted/non-posted mode for read operation. This bit is not used when configured in posted mode" "0,1" bitfld.long 0x0 2. "POSTED,Reset value of POSTED depends on hardware integration module at design time. Software must read POSTED field to get the hardwar module configuration" "0,1" bitfld.long 0x0 1. "SFT,This bit reset all the functional part of teh module" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "CFG_TCAR2,This register holds the value of the second counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE2,The value of second captured counter register" group.long 0x5C++0x13 line.long 0x0 "CFG_TPIR,This register is used for 1ms tick generation." hexmask.long 0x0 0.--31. 1. "POSITIVE_INC_VALUE,The value of the positive increment" line.long 0x4 "CFG_TNIR,This register is used for 1ms tick generation." hexmask.long 0x4 0.--31. 1. "NEGATIVE_INC_VALUE,The value of the negative increment" line.long 0x8 "CFG_TCVR,This register is used for 1ms tick generation." hexmask.long 0x8 0.--31. 1. "COUNTER_VALUE,The value of CVR counter" line.long 0xC "CFG_TOCR,This register is used to mask the tick interrupt for a selected number of ticks" hexmask.long.tbyte 0xC 0.--23. 1. "OVF_COUNTER_VALUE,The number of overflow events" line.long 0x10 "CFG_TOWR,This register holds the number of masked overflow interrupts" hexmask.long.tbyte 0x10 0.--23. 1. "OVF_WRAPPING_VALUE,The number of masked interrupts" tree.end tree "TIMER5_CFG (TIMER5_CFG)" base ad:0x2450000 rgroup.long 0x0++0x3 line.long 0x0 "CFG_TIDR," bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x10++0x3 line.long 0x0 "CFG_TIOCP_CFG,This register controls the various parameters of the OCP interface" bitfld.long 0x0 2.--3. "IDLEMODE,Idle Mode" "0,1,2,3" bitfld.long 0x0 1. "EMUFREE,Emulation Mode" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset" "0,1" group.long 0x20++0x27 line.long 0x0 "CFG_IRQ_EOI,Allows the generation of further pulses on the interrupt line. if an new interrupt event is pending. when using the pulsed output. Unused when using the level interrupt line" bitfld.long 0x0 0. "LINE_NUMBER,Idle Mode" "0,1" line.long 0x4 "CFG_IRQSTATUS_RAW,Component interrupt request status." bitfld.long 0x4 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x4 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x4 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x8 "CFG_IRQSTATUS,Component interrupt request status." bitfld.long 0x8 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x8 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x8 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0xC "CFG_IRQSTATUS_SET,Component interrupt request enable" bitfld.long 0xC 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0xC 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0xC 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x10 "CFG_IRQSTATUS_CLR,Component interrupt request enable." bitfld.long 0x10 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x10 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x10 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x14 "CFG_IRQWAKEEN,Wakeup-enabled events taking place when module is idle shall generate an asynchronous wakeup" bitfld.long 0x14 2. "MAT_WUP_ENA,Match Wakeup Enable" "0,1" bitfld.long 0x14 1. "OVF_WUP_ENA,Overflow Wakeup Enable" "0,1" bitfld.long 0x14 0. "TCAR_WUP_ENA,Capture Wakeup Enable" "0,1" line.long 0x18 "CFG_TCLR,This register controls optional features specific to the timer functionality" bitfld.long 0x18 14. "GPO_CFG,This field drives directly the timer_gpocfg port" "0,1" bitfld.long 0x18 13. "CAPT_MODE,Capture mode select bit; First/second" "0,1" bitfld.long 0x18 12. "PT,Pulse or Toggle select bit" "0,1" bitfld.long 0x18 10.--11. "TRG,Trigger Output Mode" "0,1,2,3" bitfld.long 0x18 8.--9. "TCM,Transition Capture Mode" "0,1,2,3" newline bitfld.long 0x18 7. "SCPWM,Pulse Width Modulation output pin default value" "0,1" bitfld.long 0x18 6. "CE,Compare Enable" "0,1" bitfld.long 0x18 5. "PRE,Prescaler Enable" "0,1" bitfld.long 0x18 2.--4. "PTV,Trigger Output Mode. The timer counter is prescaled with the value: 2^PTV" "0,1,2,3,4,5,6,7" bitfld.long 0x18 1. "AR,Auto-reload mode" "0,1" newline bitfld.long 0x18 0. "ST,Start/Stop timer control" "0,1" line.long 0x1C "CFG_TCRR,This register holds the value of the internal counter" hexmask.long 0x1C 0.--31. 1. "TIMER_COUNTER,Timer Counter" line.long 0x20 "CFG_TLDR,This register holds the timer's load value" hexmask.long 0x20 0.--31. 1. "LOAD_VALUE,Timer Counter" line.long 0x24 "CFG_TTGR,This register triggers a counter reload of timer by writing any value in it" hexmask.long 0x24 0.--31. 1. "TTRG_VLAUE,The value of the trigger register. During reads it always return 0xFFFF_FFFF" rgroup.long 0x48++0x3 line.long 0x0 "CFG_TWPS,This register contains the write posting bits for all writ-able functional registers" bitfld.long 0x0 9. "W_PEND_TOWR,Write pending for register TOWR" "0,1" bitfld.long 0x0 8. "W_PEND_TOCR,Write pending for register TOCR" "0,1" bitfld.long 0x0 7. "W_PEND_TCVR,Write pending for register TCVR" "0,1" bitfld.long 0x0 6. "W_PEND_TNIR,Write pending for register TNIR" "0,1" bitfld.long 0x0 5. "W_PEND_TPIR,Write pending for register TPIR" "0,1" newline bitfld.long 0x0 4. "W_PEND_TMAR,Write pending for register TMAR" "0,1" bitfld.long 0x0 3. "W_PEND_TTGR,Write pending for register TTGR" "0,1" bitfld.long 0x0 2. "W_PEND_TLDR,Write pending for register TLDR" "0,1" bitfld.long 0x0 1. "W_PEND_TCRR,Write pending for register TCRR" "0,1" bitfld.long 0x0 0. "W_PEND_TCLR,Write pending for register TCLR" "0,1" group.long 0x4C++0x3 line.long 0x0 "CFG_TMAR,This register holds the match value to be compared with the counter's value" hexmask.long 0x0 0.--31. 1. "COMPARE_VLAUE,The value of the match register" rgroup.long 0x50++0x3 line.long 0x0 "CFG_TCAR1,This register holds the value of the first counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE1,The value of first captured counter register" group.long 0x54++0x3 line.long 0x0 "CFG_TSICR,Timer Synchronous Interface Control Register" bitfld.long 0x0 4. "READ_AFTER_IDLE,Select if the synchronization mechanism used for first TCRR read operation after IDLE state is active" "0,1" bitfld.long 0x0 3. "READ_MODE,Select posted/non-posted mode for read operation. This bit is not used when configured in posted mode" "0,1" bitfld.long 0x0 2. "POSTED,Reset value of POSTED depends on hardware integration module at design time. Software must read POSTED field to get the hardwar module configuration" "0,1" bitfld.long 0x0 1. "SFT,This bit reset all the functional part of teh module" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "CFG_TCAR2,This register holds the value of the second counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE2,The value of second captured counter register" group.long 0x5C++0x13 line.long 0x0 "CFG_TPIR,This register is used for 1ms tick generation." hexmask.long 0x0 0.--31. 1. "POSITIVE_INC_VALUE,The value of the positive increment" line.long 0x4 "CFG_TNIR,This register is used for 1ms tick generation." hexmask.long 0x4 0.--31. 1. "NEGATIVE_INC_VALUE,The value of the negative increment" line.long 0x8 "CFG_TCVR,This register is used for 1ms tick generation." hexmask.long 0x8 0.--31. 1. "COUNTER_VALUE,The value of CVR counter" line.long 0xC "CFG_TOCR,This register is used to mask the tick interrupt for a selected number of ticks" hexmask.long.tbyte 0xC 0.--23. 1. "OVF_COUNTER_VALUE,The number of overflow events" line.long 0x10 "CFG_TOWR,This register holds the number of masked overflow interrupts" hexmask.long.tbyte 0x10 0.--23. 1. "OVF_WRAPPING_VALUE,The number of masked interrupts" tree.end tree "TIMER6_CFG (TIMER6_CFG)" base ad:0x2460000 rgroup.long 0x0++0x3 line.long 0x0 "CFG_TIDR," bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x10++0x3 line.long 0x0 "CFG_TIOCP_CFG,This register controls the various parameters of the OCP interface" bitfld.long 0x0 2.--3. "IDLEMODE,Idle Mode" "0,1,2,3" bitfld.long 0x0 1. "EMUFREE,Emulation Mode" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset" "0,1" group.long 0x20++0x27 line.long 0x0 "CFG_IRQ_EOI,Allows the generation of further pulses on the interrupt line. if an new interrupt event is pending. when using the pulsed output. Unused when using the level interrupt line" bitfld.long 0x0 0. "LINE_NUMBER,Idle Mode" "0,1" line.long 0x4 "CFG_IRQSTATUS_RAW,Component interrupt request status." bitfld.long 0x4 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x4 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x4 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x8 "CFG_IRQSTATUS,Component interrupt request status." bitfld.long 0x8 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x8 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x8 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0xC "CFG_IRQSTATUS_SET,Component interrupt request enable" bitfld.long 0xC 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0xC 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0xC 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x10 "CFG_IRQSTATUS_CLR,Component interrupt request enable." bitfld.long 0x10 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x10 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x10 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x14 "CFG_IRQWAKEEN,Wakeup-enabled events taking place when module is idle shall generate an asynchronous wakeup" bitfld.long 0x14 2. "MAT_WUP_ENA,Match Wakeup Enable" "0,1" bitfld.long 0x14 1. "OVF_WUP_ENA,Overflow Wakeup Enable" "0,1" bitfld.long 0x14 0. "TCAR_WUP_ENA,Capture Wakeup Enable" "0,1" line.long 0x18 "CFG_TCLR,This register controls optional features specific to the timer functionality" bitfld.long 0x18 14. "GPO_CFG,This field drives directly the timer_gpocfg port" "0,1" bitfld.long 0x18 13. "CAPT_MODE,Capture mode select bit; First/second" "0,1" bitfld.long 0x18 12. "PT,Pulse or Toggle select bit" "0,1" bitfld.long 0x18 10.--11. "TRG,Trigger Output Mode" "0,1,2,3" bitfld.long 0x18 8.--9. "TCM,Transition Capture Mode" "0,1,2,3" newline bitfld.long 0x18 7. "SCPWM,Pulse Width Modulation output pin default value" "0,1" bitfld.long 0x18 6. "CE,Compare Enable" "0,1" bitfld.long 0x18 5. "PRE,Prescaler Enable" "0,1" bitfld.long 0x18 2.--4. "PTV,Trigger Output Mode. The timer counter is prescaled with the value: 2^PTV" "0,1,2,3,4,5,6,7" bitfld.long 0x18 1. "AR,Auto-reload mode" "0,1" newline bitfld.long 0x18 0. "ST,Start/Stop timer control" "0,1" line.long 0x1C "CFG_TCRR,This register holds the value of the internal counter" hexmask.long 0x1C 0.--31. 1. "TIMER_COUNTER,Timer Counter" line.long 0x20 "CFG_TLDR,This register holds the timer's load value" hexmask.long 0x20 0.--31. 1. "LOAD_VALUE,Timer Counter" line.long 0x24 "CFG_TTGR,This register triggers a counter reload of timer by writing any value in it" hexmask.long 0x24 0.--31. 1. "TTRG_VLAUE,The value of the trigger register. During reads it always return 0xFFFF_FFFF" rgroup.long 0x48++0x3 line.long 0x0 "CFG_TWPS,This register contains the write posting bits for all writ-able functional registers" bitfld.long 0x0 9. "W_PEND_TOWR,Write pending for register TOWR" "0,1" bitfld.long 0x0 8. "W_PEND_TOCR,Write pending for register TOCR" "0,1" bitfld.long 0x0 7. "W_PEND_TCVR,Write pending for register TCVR" "0,1" bitfld.long 0x0 6. "W_PEND_TNIR,Write pending for register TNIR" "0,1" bitfld.long 0x0 5. "W_PEND_TPIR,Write pending for register TPIR" "0,1" newline bitfld.long 0x0 4. "W_PEND_TMAR,Write pending for register TMAR" "0,1" bitfld.long 0x0 3. "W_PEND_TTGR,Write pending for register TTGR" "0,1" bitfld.long 0x0 2. "W_PEND_TLDR,Write pending for register TLDR" "0,1" bitfld.long 0x0 1. "W_PEND_TCRR,Write pending for register TCRR" "0,1" bitfld.long 0x0 0. "W_PEND_TCLR,Write pending for register TCLR" "0,1" group.long 0x4C++0x3 line.long 0x0 "CFG_TMAR,This register holds the match value to be compared with the counter's value" hexmask.long 0x0 0.--31. 1. "COMPARE_VLAUE,The value of the match register" rgroup.long 0x50++0x3 line.long 0x0 "CFG_TCAR1,This register holds the value of the first counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE1,The value of first captured counter register" group.long 0x54++0x3 line.long 0x0 "CFG_TSICR,Timer Synchronous Interface Control Register" bitfld.long 0x0 4. "READ_AFTER_IDLE,Select if the synchronization mechanism used for first TCRR read operation after IDLE state is active" "0,1" bitfld.long 0x0 3. "READ_MODE,Select posted/non-posted mode for read operation. This bit is not used when configured in posted mode" "0,1" bitfld.long 0x0 2. "POSTED,Reset value of POSTED depends on hardware integration module at design time. Software must read POSTED field to get the hardwar module configuration" "0,1" bitfld.long 0x0 1. "SFT,This bit reset all the functional part of teh module" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "CFG_TCAR2,This register holds the value of the second counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE2,The value of second captured counter register" group.long 0x5C++0x13 line.long 0x0 "CFG_TPIR,This register is used for 1ms tick generation." hexmask.long 0x0 0.--31. 1. "POSITIVE_INC_VALUE,The value of the positive increment" line.long 0x4 "CFG_TNIR,This register is used for 1ms tick generation." hexmask.long 0x4 0.--31. 1. "NEGATIVE_INC_VALUE,The value of the negative increment" line.long 0x8 "CFG_TCVR,This register is used for 1ms tick generation." hexmask.long 0x8 0.--31. 1. "COUNTER_VALUE,The value of CVR counter" line.long 0xC "CFG_TOCR,This register is used to mask the tick interrupt for a selected number of ticks" hexmask.long.tbyte 0xC 0.--23. 1. "OVF_COUNTER_VALUE,The number of overflow events" line.long 0x10 "CFG_TOWR,This register holds the number of masked overflow interrupts" hexmask.long.tbyte 0x10 0.--23. 1. "OVF_WRAPPING_VALUE,The number of masked interrupts" tree.end tree "TIMER7_CFG (TIMER7_CFG)" base ad:0x2470000 rgroup.long 0x0++0x3 line.long 0x0 "CFG_TIDR," bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x10++0x3 line.long 0x0 "CFG_TIOCP_CFG,This register controls the various parameters of the OCP interface" bitfld.long 0x0 2.--3. "IDLEMODE,Idle Mode" "0,1,2,3" bitfld.long 0x0 1. "EMUFREE,Emulation Mode" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset" "0,1" group.long 0x20++0x27 line.long 0x0 "CFG_IRQ_EOI,Allows the generation of further pulses on the interrupt line. if an new interrupt event is pending. when using the pulsed output. Unused when using the level interrupt line" bitfld.long 0x0 0. "LINE_NUMBER,Idle Mode" "0,1" line.long 0x4 "CFG_IRQSTATUS_RAW,Component interrupt request status." bitfld.long 0x4 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x4 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x4 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x8 "CFG_IRQSTATUS,Component interrupt request status." bitfld.long 0x8 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x8 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x8 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0xC "CFG_IRQSTATUS_SET,Component interrupt request enable" bitfld.long 0xC 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0xC 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0xC 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x10 "CFG_IRQSTATUS_CLR,Component interrupt request enable." bitfld.long 0x10 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x10 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x10 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x14 "CFG_IRQWAKEEN,Wakeup-enabled events taking place when module is idle shall generate an asynchronous wakeup" bitfld.long 0x14 2. "MAT_WUP_ENA,Match Wakeup Enable" "0,1" bitfld.long 0x14 1. "OVF_WUP_ENA,Overflow Wakeup Enable" "0,1" bitfld.long 0x14 0. "TCAR_WUP_ENA,Capture Wakeup Enable" "0,1" line.long 0x18 "CFG_TCLR,This register controls optional features specific to the timer functionality" bitfld.long 0x18 14. "GPO_CFG,This field drives directly the timer_gpocfg port" "0,1" bitfld.long 0x18 13. "CAPT_MODE,Capture mode select bit; First/second" "0,1" bitfld.long 0x18 12. "PT,Pulse or Toggle select bit" "0,1" bitfld.long 0x18 10.--11. "TRG,Trigger Output Mode" "0,1,2,3" bitfld.long 0x18 8.--9. "TCM,Transition Capture Mode" "0,1,2,3" newline bitfld.long 0x18 7. "SCPWM,Pulse Width Modulation output pin default value" "0,1" bitfld.long 0x18 6. "CE,Compare Enable" "0,1" bitfld.long 0x18 5. "PRE,Prescaler Enable" "0,1" bitfld.long 0x18 2.--4. "PTV,Trigger Output Mode. The timer counter is prescaled with the value: 2^PTV" "0,1,2,3,4,5,6,7" bitfld.long 0x18 1. "AR,Auto-reload mode" "0,1" newline bitfld.long 0x18 0. "ST,Start/Stop timer control" "0,1" line.long 0x1C "CFG_TCRR,This register holds the value of the internal counter" hexmask.long 0x1C 0.--31. 1. "TIMER_COUNTER,Timer Counter" line.long 0x20 "CFG_TLDR,This register holds the timer's load value" hexmask.long 0x20 0.--31. 1. "LOAD_VALUE,Timer Counter" line.long 0x24 "CFG_TTGR,This register triggers a counter reload of timer by writing any value in it" hexmask.long 0x24 0.--31. 1. "TTRG_VLAUE,The value of the trigger register. During reads it always return 0xFFFF_FFFF" rgroup.long 0x48++0x3 line.long 0x0 "CFG_TWPS,This register contains the write posting bits for all writ-able functional registers" bitfld.long 0x0 9. "W_PEND_TOWR,Write pending for register TOWR" "0,1" bitfld.long 0x0 8. "W_PEND_TOCR,Write pending for register TOCR" "0,1" bitfld.long 0x0 7. "W_PEND_TCVR,Write pending for register TCVR" "0,1" bitfld.long 0x0 6. "W_PEND_TNIR,Write pending for register TNIR" "0,1" bitfld.long 0x0 5. "W_PEND_TPIR,Write pending for register TPIR" "0,1" newline bitfld.long 0x0 4. "W_PEND_TMAR,Write pending for register TMAR" "0,1" bitfld.long 0x0 3. "W_PEND_TTGR,Write pending for register TTGR" "0,1" bitfld.long 0x0 2. "W_PEND_TLDR,Write pending for register TLDR" "0,1" bitfld.long 0x0 1. "W_PEND_TCRR,Write pending for register TCRR" "0,1" bitfld.long 0x0 0. "W_PEND_TCLR,Write pending for register TCLR" "0,1" group.long 0x4C++0x3 line.long 0x0 "CFG_TMAR,This register holds the match value to be compared with the counter's value" hexmask.long 0x0 0.--31. 1. "COMPARE_VLAUE,The value of the match register" rgroup.long 0x50++0x3 line.long 0x0 "CFG_TCAR1,This register holds the value of the first counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE1,The value of first captured counter register" group.long 0x54++0x3 line.long 0x0 "CFG_TSICR,Timer Synchronous Interface Control Register" bitfld.long 0x0 4. "READ_AFTER_IDLE,Select if the synchronization mechanism used for first TCRR read operation after IDLE state is active" "0,1" bitfld.long 0x0 3. "READ_MODE,Select posted/non-posted mode for read operation. This bit is not used when configured in posted mode" "0,1" bitfld.long 0x0 2. "POSTED,Reset value of POSTED depends on hardware integration module at design time. Software must read POSTED field to get the hardwar module configuration" "0,1" bitfld.long 0x0 1. "SFT,This bit reset all the functional part of teh module" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "CFG_TCAR2,This register holds the value of the second counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE2,The value of second captured counter register" group.long 0x5C++0x13 line.long 0x0 "CFG_TPIR,This register is used for 1ms tick generation." hexmask.long 0x0 0.--31. 1. "POSITIVE_INC_VALUE,The value of the positive increment" line.long 0x4 "CFG_TNIR,This register is used for 1ms tick generation." hexmask.long 0x4 0.--31. 1. "NEGATIVE_INC_VALUE,The value of the negative increment" line.long 0x8 "CFG_TCVR,This register is used for 1ms tick generation." hexmask.long 0x8 0.--31. 1. "COUNTER_VALUE,The value of CVR counter" line.long 0xC "CFG_TOCR,This register is used to mask the tick interrupt for a selected number of ticks" hexmask.long.tbyte 0xC 0.--23. 1. "OVF_COUNTER_VALUE,The number of overflow events" line.long 0x10 "CFG_TOWR,This register holds the number of masked overflow interrupts" hexmask.long.tbyte 0x10 0.--23. 1. "OVF_WRAPPING_VALUE,The number of masked interrupts" tree.end tree.end tree "TIMESYNC_EVENT_INTROUTER0_INTR_ROUTER_CFG (TIMESYNC_EVENT_INTROUTER0_INTR_ROUTER_CFG)" base ad:0xA40000 rgroup.long 0x0++0x3 line.long 0x0 "INTR_ROUTER_CFG_PID,Identification register" bitfld.long 0x0 30.--31. "SCHEME,scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION,function" hexmask.long.byte 0x0 11.--15. 1. "RTLVER,rtl version" bitfld.long 0x0 8.--10. "MAJREV,major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,custom id" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINREV,minor version" group.long 0x4++0x3 line.long 0x0 "INTR_ROUTER_CFG_INTR_MUXCNTL,Interrupt mux control register" bitfld.long 0x0 16. "INT_ENABLE,interrupt output enable for interrupt N" "0,1" hexmask.long.byte 0x0 0.--4. 1. "MUX_CNTL,Mux control for interrupt N" tree.end tree "UART" base ad:0x0 tree "UART0 (UART0)" base ad:0x2800000 group.long 0x0++0x3 line.long 0x0 "MEM_DLL,Divisor Latches Low Register" hexmask.long.byte 0x0 0.--7. 1. "CLOCK_LSB,Used to store the 8-bit LSB divisor value" rgroup.long 0x0++0x3 line.long 0x0 "MEM_RHR,The receiver section consists of the receiver holding register (RHR) and the receiver shift register. The RHR is actually a 64-byte FIFO. The receiver shift register receives serial data from RX input. The data is converted to parallel data and.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "RHR,Receive holding register" group.long 0x0++0x7 line.long 0x0 "MEM_THR,The transmitter section consists of the transmit holding register (THR) and the transmit shift register. The transmit holding register is actually a 64-byte FIFO. The LH writes data to the THR. The data is placed into the transmit shift register.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "THR,TRANSMIT HOLDING REGISTER" line.long 0x4 "MEM_DLH,Divisor Latches High Register" hexmask.long.byte 0x4 0.--7. 1. "CLOCK_MSB,Used to store the 8-bit MSB divisor value" group.long 0x4++0x3 line.long 0x0 "MEM_IER_CIR,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are 6 types of interrupt in these modes. TX status. status FIFO interrupt. RX overrun. last byte in RX FIFO. THR interrupt and RHR interrupt and they.." bitfld.long 0x0 6.--7. "NOT_USED2," "0,1,2,3" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "NOT_USED1," "0,1" newline bitfld.long 0x0 3. "RX_OVERRUN_IT," "0,1" newline bitfld.long 0x0 2. "RX_STOP_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" group.long 0x4++0x3 line.long 0x0 "MEM_IER_IRDA,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are 8 types of interrupt in these modes. received EOF. LSR interrupt. TX status. status FIFO interrupt. RX overrun. last byte in RX FIFO. THR.." bitfld.long 0x0 7. "EOF_IT," "0,1" newline bitfld.long 0x0 6. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "STS_FIFO_TRIG_IT," "0,1" newline bitfld.long 0x0 3. "RX_OVERRUN_IT," "0,1" newline bitfld.long 0x0 2. "LAST_RX_BYTE_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" group.long 0x4++0x7 line.long 0x0 "MEM_IER_UART,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are seven types of interrupt in this mode: receiver error. RHR interrupt. THR interrupt. XOFF received and CTS*/RTS* change of state from low to.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "CTS_IT," "0,1" newline bitfld.long 0x0 6. "RTS_IT," "0,1" newline bitfld.long 0x0 5. "XOFF_IT," "0,1" newline bitfld.long 0x0 4. "SLEEP_MODE," "0,1" newline bitfld.long 0x0 3. "MODEM_STS_IT," "0,1" newline bitfld.long 0x0 2. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" line.long 0x4 "MEM_EFR,Enhanced Feature Register" bitfld.long 0x4 7. "AUTO_CTS_EN,Auto-CTS enable bit. 0: Normal operation. 1: Auto-CTS flow control is enabled i.e. transmission is halted when the CTS* pin is high (inactive)." "0: Normal operation,1: Auto-CTS flow control is enabled i" newline bitfld.long 0x4 6. "AUTO_RTS_EN,Auto-RTS enable bit. 0: Normal operation. 1: Auto- RTS flow control is enabled i.e. RTS* pin goes high (inactive) when the receiver FIFO HALT trigger level TCR[3:0] is reached and goes low (active) when the receiver FIFO RESTORE.." "0: Normal operation,1: Auto- RTS flow control is enabled i" newline bitfld.long 0x4 5. "SPECIAL_CHAR_DETECT,0: Normal operation. 1: Special character detect enable. Received data is compared with XOFF2 data. If a match occurs the received data is transferred to RX FIFO and IIR bit 4 is set to 1 to indicate a special character has been.." "0: Normal operation,1: Special character detect enable" newline bitfld.long 0x4 4. "ENHANCED_EN,Enhanced functions write enable bit. 0: Disables writing to IER bits 4-7 FCR bits 4-5 and MCR bits 5-7. 1: Enables writing to IER bits 4-7 FCR bits 4-5 and MCR bits 5-7." "0: Disables writing to IER bits 4-7,1: Enables writing to IER bits 4-7" newline hexmask.long.byte 0x4 0.--3. 1. "SW_FLOW_CONTROL,Combinations of Software flow control can be selected by programming bit 3 - bit 0. See Software Flow Control Options" group.long 0x8++0x3 line.long 0x0 "MEM_FCR,Notes:" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 6.--7. "RX_FIFO_TRIG,Sets the trigger level for the RX FIFO: If SCR[7] = 0 and TLR[7:4] = 0000: 00: 8 characters 01: 16 characters 10: 56 characters 11: 60 characters If SCR[7] = 0 and TLR[7:4] != 0000 RX_FIFO_TRIG is not considered. If SCR[7]=1 .." "0: 8 characters,1: 16 characters,?,?" newline bitfld.long 0x0 4.--5. "TX_FIFO_TRIG,Sets the trigger level for the TX FIFO: If SCR[6] = 0 and TLR[3:0] = 0000: 00: 8 spaces 01: 16 spaces 10: 32 spaces 11: 56 spaces If SCR[6] = 0 and TLR[3:0] != 0000 TX_FIFO_TRIG is not considered. If SCR[6]=1 TX_FIFO_TRIG is 2 LSB of.." "0: 8 spaces,1: 16 spaces,?,?" newline bitfld.long 0x0 3. "DMA_MODE,This register is considered if SCR[0] = 0." "0,1" newline bitfld.long 0x0 2. "TX_FIFO_CLEAR," "0,1" newline bitfld.long 0x0 1. "RX_FIFO_CLEAR," "0,1" newline bitfld.long 0x0 0. "FIFO_EN," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_CIR,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 3. "RX_OE_IT," "0,1" newline bitfld.long 0x0 2. "RX_STOP_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_IRDA,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." bitfld.long 0x0 7. "EOF_IT," "0,1" newline bitfld.long 0x0 6. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "STS_FIFO_IT," "0,1" newline bitfld.long 0x0 3. "RX_OE_IT," "0,1" newline bitfld.long 0x0 2. "RX_FIFO_LAST_BYTE_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_UART,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 6.--7. "FCR_MIRROR,Mirror the contents of FCR[0] on both bits." "0,1,2,3" newline hexmask.long.byte 0x0 1.--5. 1. "IT_TYPE," newline bitfld.long 0x0 0. "IT_PENDING," "0,1" group.long 0xC++0x7 line.long 0x0 "MEM_LCR,LCR[6:0] define parameters of the transmission and reception." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "DIV_EN," "0,1" newline bitfld.long 0x0 6. "BREAK_EN,Break control bit." "0,1" newline bitfld.long 0x0 5. "PARITY_TYPE2,Selects the forced parity format [if LCR[3] = 1]. If LCR[5] = 1 and LCR[4] = 0 the parity bit is forced to 1 in the transmitted and received data. If LCR[5] = 1 and LCR[4] = 1 the parity bit is forced to 0 in the transmitted and received.." "0,1" newline bitfld.long 0x0 4. "PARITY_TYPE1," "0,1" newline bitfld.long 0x0 3. "PARITY_EN," "0,1" newline bitfld.long 0x0 2. "NB_STOP,Specifies the number of stop bits:" "0,1" newline bitfld.long 0x0 0.--1. "CHAR_LENGTH,Specifies the word length to be transmitted or received." "0,1,2,3" line.long 0x4 "MEM_MCR,MCR[3:0] controls the interface with the modem. data set or peripheral device that is emulating the modem." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline rbitfld.long 0x4 7. "RESERVED," "0,1" newline bitfld.long 0x4 6. "TCR_TLR," "0,1" newline bitfld.long 0x4 5. "XON_EN," "0,1" newline bitfld.long 0x4 4. "LOOPBACK_EN," "0,1" newline bitfld.long 0x4 3. "CD_STS_CH," "0,1" newline bitfld.long 0x4 2. "RI_STS_CH," "0,1" newline bitfld.long 0x4 1. "RTS,In loop back controls MSR[4]. If auto-RTS is enabled the RTS* output is controlled by hardware flow control." "0,1" newline bitfld.long 0x4 0. "DTR," "0,1" group.long 0x10++0x3 line.long 0x0 "MEM_XON1_ADDR1,XON1/ADDR1 Register" hexmask.long.byte 0x0 0.--7. 1. "XON_WORD1,Used to store the 8-bit XON1 character in UART modes and ADDR1 address 1 for IrDA modes." rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_CIR," bitfld.long 0x0 7. "THR_EMPTY," "0,1" newline bitfld.long 0x0 6. "RESERVED," "0,1" newline bitfld.long 0x0 5. "RX_STOP,The RX_STOP is generated based on the value set in the BOF Length register (EBLR). It is cleared on a single read of the LSR register" "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_IRDA," bitfld.long 0x0 7. "THR_EMPTY," "0,1" newline bitfld.long 0x0 6. "STS_FIFO_FULL," "0,1" newline bitfld.long 0x0 5. "RX_LAST_BYTE," "0,1" newline bitfld.long 0x0 4. "FRAME_TOO_LONG," "0,1" newline bitfld.long 0x0 3. "ABORT," "0,1" newline bitfld.long 0x0 2. "CRC," "0,1" newline bitfld.long 0x0 1. "STS_FIFO_E," "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_UART," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "RX_FIFO_STS," "0,1" newline bitfld.long 0x0 6. "TX_SR_E," "0,1" newline bitfld.long 0x0 5. "TX_FIFO_E," "0,1" newline bitfld.long 0x0 4. "RX_BI," "0,1" newline bitfld.long 0x0 3. "RX_FE," "0,1" newline bitfld.long 0x0 2. "RX_PE," "0,1" newline bitfld.long 0x0 1. "RX_OE," "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" group.long 0x14++0x3 line.long 0x0 "MEM_XON2_ADDR2,XON2/ADDR2 Register" hexmask.long.byte 0x0 0.--7. 1. "XON_WORD2,Used to store the 8-bit XON2 character in UART modes and ADDR2 address 2 for IrDA modes." rgroup.long 0x18++0x3 line.long 0x0 "MEM_MSR,This register provides information about the current state of the control lines from the modem. data set or peripheral device to the LH. It also indicates when a control input from the modem changes state." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "NCD_STS,This bit is the complement of the DCD* input. In loop-back mode it is equivalent to MCR[3]" "0,1" newline bitfld.long 0x0 6. "NRI_STS,This bit is the complement of the RI* input. In loop-back mode it is equivalent to MCR[2]" "0,1" newline bitfld.long 0x0 5. "NDSR_STS,This bit is the complement of the DSR* input. In loop-back mode it is equivalent to MCR[0]" "0,1" newline bitfld.long 0x0 4. "NCTS_STS,This bit is the complement of the CTS* input. In loop-back mode it is equivalent to MCR[1]" "0,1" newline bitfld.long 0x0 3. "DCD_STS,Indicates that DCD* input [or MCR[3] in loop back] has changed. Cleared on a read." "0,1" newline bitfld.long 0x0 2. "RI_STS,Indicates that RI* input [or MCR[2] in loop back] has changed state from low to high. Cleared on a read." "0,1" newline bitfld.long 0x0 1. "DSR_STS," "0,1" newline bitfld.long 0x0 0. "CTS_STS," "0,1" group.long 0x18++0x3 line.long 0x0 "MEM_TCR,Transmission Control Register" hexmask.long.byte 0x0 4.--7. 1. "RX_FIFO_TRIG_START,RX FIFO trigger level to RESTORE transmission (0 - 60)" newline hexmask.long.byte 0x0 0.--3. 1. "RX_FIFO_TRIG_HALT,RX FIFO trigger level to HALT transmission (0 - 60)" group.long 0x18++0x7 line.long 0x0 "MEM_XOFF1,XOFF1 Register" hexmask.long.byte 0x0 0.--7. 1. "XOFF_WORD1,Used to store the 8-bit XOFF1 character in used in UART modes." line.long 0x4 "MEM_SPR,This read/write register does not control the module in anyway. It is intended as a scratchpad register to be used by the programmer to hold temporary data." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "SPR_WORD,Scratchpad register" group.long 0x1C++0x3 line.long 0x0 "MEM_TLR,Trigger Level Register" hexmask.long.byte 0x0 4.--7. 1. "RX_FIFO_TRIG_DMA,Receive FIFO trigger level" newline hexmask.long.byte 0x0 0.--3. 1. "TX_FIFO_TRIG_DMA,Transmit FIFO trigger level" group.long 0x1C++0xB line.long 0x0 "MEM_XOFF2,XOFF2 Register" hexmask.long.byte 0x0 0.--7. 1. "XOFF_WORD2,Used to store the 8-bit XOFF2 character in used in UART modes." line.long 0x4 "MEM_MDR1,The mode of operation can be programmed by writing to MDR1[2:0] and therefore the MDR1 must be programmed on start-up after configuration of the configuration registers (DLL. DLH. LCR). The value of MDR1[2:0] must not be changed again during.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline bitfld.long 0x4 7. "FRAME_END_MODE,IrDA mode only." "0,1" newline bitfld.long 0x4 6. "SIP_MODE,MIR/FIR modes only." "0,1" newline bitfld.long 0x4 5. "SCT,Store and control the transmission" "0,1" newline bitfld.long 0x4 4. "SET_TXIR,Used to configure the infrared transceiver." "0,1" newline bitfld.long 0x4 3. "IR_SLEEP," "0,1" newline bitfld.long 0x4 0.--2. "MODE_SELECT," "0,1,2,3,4,5,6,7" line.long 0x8 "MEM_MDR2,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline bitfld.long 0x8 7. "SET_TXIR_ALT,Provide alternate functionnality for MDR1[4] [SET_TXIR]" "0,1" newline bitfld.long 0x8 6. "IRRXINVERT,Only for IR mode [IRDA & CIR]Invert RX pin inside the module before the voting or sampling system logic of the infra red block. This will not affect the RX path in UART Modem modes." "0,1" newline bitfld.long 0x8 4.--5. "CIR_PULSE_MODE,CIR Pulse modulation definition. It defines high level of the pulse width associated with a digit:" "0,1,2,3" newline bitfld.long 0x8 3. "UART_PULSE,UART mode only. Used to allow pulse shaping in UART mode." "0,1" newline bitfld.long 0x8 1.--2. "STS_FIFO_TRIG,Only for IR-IRDA mode. Frame Status FIFO Threshold select:" "0,1,2,3" newline rbitfld.long 0x8 0. "IRTX_UNDERRUN,IRDA Transmission status interrupt.When the IIR[5] interrupt occurs the meaning of the interrupt is :" "0,1" rgroup.long 0x28++0x3 line.long 0x0 "MEM_SFLSR,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 5.--7. "RESERVED5," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 4. "OE_ERROR," "0,1" newline bitfld.long 0x0 3. "FRAME_TOO_LONG_ERROR," "0,1" newline bitfld.long 0x0 2. "ABORT_DETECT," "0,1" newline bitfld.long 0x0 1. "CRC_ERROR," "0,1" newline bitfld.long 0x0 0. "RESERVED0," "0,1" group.long 0x28++0x3 line.long 0x0 "MEM_TXFLL,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "TXFLL,LSB register used to specify the frame length" rgroup.long 0x2C++0x3 line.long 0x0 "MEM_RESUME,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "RESUME,Dummy read to restart the TX or RX" group.long 0x2C++0x7 line.long 0x0 "MEM_TXFLH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline rbitfld.long 0x0 5.--7. "RESERVED," "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--4. 1. "TXFLH,MSB register used to specify the frame length" line.long 0x4 "MEM_RXFLL,IrDA modes only." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "RXFLL,LSB register used to specify the frame length in reception" rgroup.long 0x30++0x3 line.long 0x0 "MEM_SFREGL,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "SFREGL,LSB part of the frame length" group.long 0x34++0x3 line.long 0x0 "MEM_RXFLH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 4.--7. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "RXFLH,MSB register used to specify the frame length in reception" rgroup.long 0x34++0x3 line.long 0x0 "MEM_SFREGH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 4.--7. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "SFREGH,MSB part of the frame length" group.long 0x38++0x3 line.long 0x0 "MEM_BLR,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "STS_FIFO_RESET,Status FIFO reset. This bit is self-clearing" "0,1" newline bitfld.long 0x0 6. "XBOF_TYPE,SIR xBOF select." "0,1" newline hexmask.long.byte 0x0 0.--5. 1. "RESERVED," rgroup.long 0x38++0x3 line.long 0x0 "MEM_UASR,UART Autobauding Status Register" bitfld.long 0x0 6.--7. "PARITY_TYPE,00 => No Parity identified. 01 => Parity space. 10 => Even Parity. 11 => Odd Parity" "0: No Parity identified,1: Parity space,?,?" newline bitfld.long 0x0 5. "BIT_BY_CHAR,0 => 7 bits character identified. 1 => 8 bits character identified" "0: 7 bits character identified,1: 8 bits character identified" newline hexmask.long.byte 0x0 0.--4. 1. "SPEED,Used to report the speed identified. 00000 => No speed identified. 00001 => 115200 bauds. 00010 => 57600 bauds. 00011 => 38400 bauds. 00100 => 28800 bauds. 00101 => 19200 bauds. 00110 => 14400 bauds. 00111 => 9600 bauds. 01000 => 4800 bauds. 01001.." group.long 0x3C++0xF line.long 0x0 "MEM_ACREG,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "PULSE_TYPE,SIR pulse width select:" "0,1" newline bitfld.long 0x0 6. "SD_MOD,Primary output used to configure transceivers. Connected to the SD/MODE input pin of IrDA transceivers." "0,1" newline bitfld.long 0x0 5. "DIS_IR_RX," "0,1" newline bitfld.long 0x0 4. "DIS_TX_UNDERRUN,It is recommended to disable TX FIFO underrun capability by masking corresponding underrun interrupt. When disabling underrun by setting ACREG[4]=1 garbage data is sent over TX line." "0,1" newline bitfld.long 0x0 3. "SEND_SIP,MIR/FIR Modes only.Send Serial Infrared Interaction Pulse [SIP] If this bit is set during a MIR/FIR transmission the SIP will be send at the end of it.This bit automatically gets cleared at the end of the SIP transmission." "0,1" newline bitfld.long 0x0 2. "SCTX_EN,Store and controlled TX start. When MDR1[5] = 1 and the LH writes 1 to this bit the TX state machine starts frame transmission. This bit is self-clearing." "0,1" newline bitfld.long 0x0 1. "ABORT_EN,Frame Abort. The LH can intentionally abort transmission of a frame by writing 1 to this bit. Neither the end flag nor the CRC bits are appended to the frame. If transmit FIFO is not empty and MDR1[5]=1 UART IrDA will start a new transfer.." "0,1" newline bitfld.long 0x0 0. "EOT_EN,EOT [end of transmission] bit. The LH writes 1 to this bit just before it writes the last byte to the TX FIFO in set-EOT bit frame closing method. This bit automatically gets cleared when the LH writes to the THR [TX FIFO]." "0,1" line.long 0x4 "MEM_SCR,Note: Bit 4 enables the wake-up interrupt. but this interrupt is not mapped into the IIR register. Therefore. when an interrupt occurs and there is no interrupt pending in the IIR register. the SSR[1] bit must be checked. To clear the wake-up.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline bitfld.long 0x4 7. "RX_TRIG_GRANU1," "0,1" newline bitfld.long 0x4 6. "TX_TRIG_GRANU1," "0,1" newline bitfld.long 0x4 5. "DSR_IT," "0,1" newline bitfld.long 0x4 4. "RX_CTS_DSR_WAKE_UP_ENABLE," "0,1" newline bitfld.long 0x4 3. "TX_EMPTY_CTL_IT," "0,1" newline bitfld.long 0x4 1.--2. "DMA_MODE_2,Used to specify the DMA mode valid if SCR[0] = 1" "0,1,2,3" newline bitfld.long 0x4 0. "DMA_MODE_CTL," "0,1" line.long 0x8 "MEM_SSR,Note: Bit 1 is reset only when SCR[4] is reset to 0." hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x8 3.--7. 1. "RESERVED," newline bitfld.long 0x8 2. "DMA_COUNTER_RST," "0,1" newline rbitfld.long 0x8 1. "RX_CTS_DSR_WAKE_UP_STS," "0,1" newline rbitfld.long 0x8 0. "TX_FIFO_FULL," "0,1" line.long 0xC "MEM_EBLR,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED," newline hexmask.long.byte 0xC 0.--7. 1. "EBLR,IR-IRDA mode: This register allows to define up to 176 xBOFs the maximum required by IrDA specification. IR-CIR mode: This register specifies the number of consecutive zeros to be received before generating the RX_STOP interrupt [IIR[2]]. 0x00:.." rgroup.long 0x50++0x3 line.long 0x0 "MEM_MVR,The reset value is fixed by hardware and corresponds to the RTL revision of this module. A reset has no effect on the value returned" bitfld.long 0x0 30.--31. "SCHEME,Scheme revision number of module" "0,1,2,3" newline bitfld.long 0x0 28.--29. "RESERVED," "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "FUNC,Function revision number of module" newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Rtl revision number of module" newline bitfld.long 0x0 8.--10. "MAJOR,Major revision number of the module." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom revision number of the module." "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number of the module." group.long 0x54++0x3 line.long 0x0 "MEM_SYSC,The auto idle bit controls a power saving technique to reduce the logic power consumption of the OCP interface. That is to say when the feature is enabled. the clock will be gated off until an OCP command for this device has been detected. When.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline rbitfld.long 0x0 5.--7. "RESERVED," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 3.--4. "IDLEMODE,POWER MANAGEMENT REQ/ACK CONTROL REF: OCP DESIGN GUIDELINES VERSION 1.1" "0,1,2,3" newline bitfld.long 0x0 2. "ENAWAKEUP,WAKE UP FEATURE CONTROL" "0,1" newline bitfld.long 0x0 1. "SOFTRESET,Software reset. Set this bit to 1 to trigger a module reset. This bit is automatically reset by the hardware. During reads it always returns a 0." "0,1" newline bitfld.long 0x0 0. "AUTOIDLE,Internal OCP clock gating strategy" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "MEM_SYSS," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 1.--7. 1. "RESERVED," newline bitfld.long 0x0 0. "RESETDONE,Internal Reset Monitoring" "0,1" group.long 0x5C++0x7 line.long 0x0 "MEM_WER,The UART wakeup enable register is used to mask and unmask a UART event that would subsequently notify the system. The events are any activity in the logic that could cause an interrupt and/ or an activity that would require the system to wakeup." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "EVENT_7_TX_WAKEUP_EN," "0,1" newline bitfld.long 0x0 6. "EVENT_6_RECEIVER_LINE_STATUS_INTERRUPT," "0,1" newline bitfld.long 0x0 5. "EVENT_5_RHR_INTERRUPT," "0,1" newline bitfld.long 0x0 4. "EVENT_4_RX_ACTIVITY," "0,1" newline bitfld.long 0x0 3. "EVENT_3_DCD_CD_ACTIVITY," "0,1" newline bitfld.long 0x0 2. "EVENT_2_RI_ACTIVITY," "0,1" newline bitfld.long 0x0 1. "EVENT_1_DSR_ACTIVITY," "0,1" newline bitfld.long 0x0 0. "EVENT_0_CTS_ACTIVITY," "0,1" line.long 0x4 "MEM_CFPS,Since the Consumer IR works at modulation rates of 30 56.8 KHz. the 48 MHz clock must be pre scaled before the clock can drive the IR logic. This register sets the divisor rate to give a range to accommodate the remote control requirements in.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "CFPS,System clock frequency prescaler at [12x multiple]. Examples for CFPS values are given in the table below. Target Freq [KHz] CFPS [decimal] Actual Freq[KHz] 30 133 30.08 32.75 122 32.79 36 111 36.04 36.7 109 36.69 38* 105 38.1.." rgroup.long 0x64++0x7 line.long 0x0 "MEM_RXFIFO_LVL,Level of the RX FIFO" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED24," newline hexmask.long.byte 0x0 0.--7. 1. "RXFIFO_LVL," line.long 0x4 "MEM_TXFIFO_LVL,Level of the TX FIFO" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED24," newline hexmask.long.byte 0x4 0.--7. 1. "TXFIFO_LVL," group.long 0x6C++0xB line.long 0x0 "MEM_IER2,Enables RX/TX FIFOs empty corresponding interrupts." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED1," newline hexmask.long.byte 0x0 3.--7. 1. "RESERVED," newline bitfld.long 0x0 2. "RHR_IT_DIS," "0,1" newline bitfld.long 0x0 1. "EN_TXFIFO_EMPTY,Enables[1]/DISABLES[00 EN_TXFIFO_EMPTY interrupt." "0,1" newline bitfld.long 0x0 0. "EN_RXFIFO_EMPTY,Enables[1]/disables[0] EN_RXFIFO_EMPTY interrupt." "0,1" line.long 0x4 "MEM_ISR2,Status of RX/TX FIFOs empty corresponding interrupts." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED1," newline hexmask.long.byte 0x4 2.--7. 1. "RESERVED," newline bitfld.long 0x4 1. "TXFIFO_EMPTY_STS,TXFIFO interrupt pending" "0,1" newline bitfld.long 0x4 0. "RXFIFO_EMPTY_STS,RXFIFO interrupt pending" "0,1" line.long 0x8 "MEM_FREQ_SEL,Sample per bit value selector" hexmask.long.byte 0x8 0.--7. 1. "FREQ_SEL,Sets the sample per bit if non default frequency is used. MDR3[1] must be set to 1 after this value is set. Must be equal or higher then 6." rgroup.long 0x78++0x7 line.long 0x0 "MEM_ABAUD_1ST_CHAR,Unused" hexmask.long 0x0 0.--31. 1. "RESERVED," line.long 0x4 "MEM_BAUD_2ND_CHAR,Unused" hexmask.long 0x4 0.--31. 1. "RESERVED," group.long 0x80++0x23 line.long 0x0 "MEM_MDR3,Mode definition register 3." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED2," newline bitfld.long 0x0 4. "DIR_EN,RS-485 External Transceiver Direction Enable" "0,1" newline bitfld.long 0x0 3. "DIR_POL,RS-485 External Transceiver Direction Polarity. 0 => TX: RTS=0 RX: RTS=1. 1 => TX: RTS=1 RX: RTS=0" "0: TX: RTS=0,1: TX: RTS=1" newline bitfld.long 0x0 2. "SET_DMA_TX_THRESHOLD,Enable to set different TX DMA threshold then 64-trigger [usage of new register TX_DNA_THRESHOLD]" "0,1" newline bitfld.long 0x0 1. "NONDEFAULT_FREQ,Enables[1]/Disables[0] using NONDEFAULT fclk frequencies" "0,1" newline bitfld.long 0x0 0. "DISABLE_CIR_RX_DEMOD,Disables[1]/Enables[0] CIR RX demodulation" "0,1" line.long 0x4 "MEM_TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level." hexmask.long.byte 0x4 0.--5. 1. "TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level." line.long 0x8 "MEM_MDR4,Mode definition register 4" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED1," newline rbitfld.long 0x8 7. "RESERVED," "0,1" newline bitfld.long 0x8 6. "MODE9,9-bit character length. When '1' overrides character length setting in LCR" "0,1" newline bitfld.long 0x8 3.--5. "FREQ_SEL_H,Upper 3 bits of FREQ_SEL register for higher division values as required for example for FI/Di in ISO7816 mode" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 0.--2. "MODE,New modes [when set overrides MDR1 modes]" "0,1,2,3,4,5,6,7" line.long 0xC "MEM_EFR2,Enhanced Features Register 2" hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED1," newline bitfld.long 0xC 7. "BROADCAST,Enables broadcast address matching in multi-drop address match mode" "0,1" newline bitfld.long 0xC 6. "TIMEOUT_BEHAVE,Specifies how timeout is measured" "0,1" newline bitfld.long 0xC 5. "C8,Value for ISO 7816 C8 pin for software control" "0,1" newline bitfld.long 0xC 4. "C4,Value for ISO 7816 C4 pin for software control" "0,1" newline bitfld.long 0xC 3. "C2,Value for ISO 7816 reset pin [software controllable]" "0,1" newline bitfld.long 0xC 2. "MULTIDROP,Enables parity Multi-drop mode [overrides LCR[5..3]] when '1'" "0,1" newline bitfld.long 0xC 1. "RHR_OVERRUN,RHR Overrun behaviour when buffer full" "0,1" newline bitfld.long 0xC 0. "ENDIAN,Endianness" "0,1" line.long 0x10 "MEM_ECR,Enhanced Control register" hexmask.long.tbyte 0x10 8.--31. 1. "RESERVED1," newline rbitfld.long 0x10 6.--7. "RESERVED," "0,1,2,3" newline bitfld.long 0x10 5. "CLEAR_TX_PE,Write 1 to clear parity error from the Transmitter to allow it to continue to try sending data [ISO7816 transmit only]" "0,1" newline bitfld.long 0x10 4. "TX_EN,Enables/Disables the transmitter" "0,1" newline bitfld.long 0x10 3. "RX_EN,Enables/Disables the receiver" "0,1" newline bitfld.long 0x10 2. "TX_RST,Writing '1' resets the transmitter" "0,1" newline bitfld.long 0x10 1. "RX_RST,Writing '1' resets the receiver" "0,1" newline bitfld.long 0x10 0. "A_MULTIDROP,In multi-drop mode when written with the value '1' causes the next byte written into THR to be transmitted with the parity bit set signaling an address" "0,1" line.long 0x14 "MEM_TIMEGUARD,Timeguard" hexmask.long.tbyte 0x14 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x14 0.--7. 1. "TIMEGUARD,Specifies the amount of idle baud clocks [transmitter bit period] to insert between transmitted bytes useful when comunicating with slower devices" line.long 0x18 "MEM_TIMEOUTL,Timeout lower byte" hexmask.long.tbyte 0x18 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x18 0.--7. 1. "TIMEOUT_L,Custom timeout period in baud clocks to override the internal value when different from 0. [Lower byte of the 16 bit value]" line.long 0x1C "MEM_TIMEOUTH,Timeout higher byte" hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x1C 0.--7. 1. "TIMEOUT_H,Custom timeout period in baud clocks to override the internal value when different from 0. [Higher byte of the 16 bit value]" line.long 0x20 "MEM_SCCR,Smartcard (ISO7816) mode Control Register" hexmask.long.tbyte 0x20 8.--31. 1. "RESERVED1," newline bitfld.long 0x20 7. "DSNACK,Applies Max_Iteration to receiver aswell - when maximum number of NACKs have been returned the receiver will accept the data regardless of error. The data will be loaded into the receiver FIFO and PE will be set when reading it." "0,1" newline bitfld.long 0x20 6. "INACK,Inhibit NACK when receiving even if an error is received. The data will be loaded into the receiver FIFO and PE will be set when reading it." "0,1" newline rbitfld.long 0x20 3.--5. "RESERVED," "0,1,2,3,4,5,6,7" newline bitfld.long 0x20 0.--2. "MAX_ITERATION,Number of times to repeat transmitted character if the receiver did not acknowledge. If not acknowledged after the max value is reached the USART transmitter will set parity error stop and not continue until it is cleared." "0,1,2,3,4,5,6,7" rgroup.long 0xA4++0x3 line.long 0x0 "MEM_ERHR,Extended Receive Holding Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--8. 1. "ERHR,Extended Receive Holding Register - allows accessing the full 9bit RHR" group.long 0xA4++0xF line.long 0x0 "MEM_ETHR,Extended Transmit Holding Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--8. 1. "ETHR,Extended Transmit Holding Register - allows writing the full 9bit RHR" line.long 0x4 "MEM_MAR,Multidrop Address Register" hexmask.long.byte 0x4 0.--7. 1. "ADDRESS,Multidrop match address value" line.long 0x8 "MEM_MMR,Multidrop Mask Register" hexmask.long.byte 0x8 0.--7. 1. "MASK,Address match masking value ? writing a 0 to a bit means that the corresponding address bit will be ignored in matching" line.long 0xC "MEM_MBR,Multidrop Broadcast Address Register" hexmask.long.byte 0xC 0.--7. 1. "BROADCAST_ADDRESS,Broadcast address for address matching" tree.end tree "UART1 (UART1)" base ad:0x2810000 group.long 0x0++0x3 line.long 0x0 "MEM_DLL,Divisor Latches Low Register" hexmask.long.byte 0x0 0.--7. 1. "CLOCK_LSB,Used to store the 8-bit LSB divisor value" rgroup.long 0x0++0x3 line.long 0x0 "MEM_RHR,The receiver section consists of the receiver holding register (RHR) and the receiver shift register. The RHR is actually a 64-byte FIFO. The receiver shift register receives serial data from RX input. The data is converted to parallel data and.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "RHR,Receive holding register" group.long 0x0++0x7 line.long 0x0 "MEM_THR,The transmitter section consists of the transmit holding register (THR) and the transmit shift register. The transmit holding register is actually a 64-byte FIFO. The LH writes data to the THR. The data is placed into the transmit shift register.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "THR,TRANSMIT HOLDING REGISTER" line.long 0x4 "MEM_DLH,Divisor Latches High Register" hexmask.long.byte 0x4 0.--7. 1. "CLOCK_MSB,Used to store the 8-bit MSB divisor value" group.long 0x4++0x3 line.long 0x0 "MEM_IER_CIR,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are 6 types of interrupt in these modes. TX status. status FIFO interrupt. RX overrun. last byte in RX FIFO. THR interrupt and RHR interrupt and they.." bitfld.long 0x0 6.--7. "NOT_USED2," "0,1,2,3" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "NOT_USED1," "0,1" newline bitfld.long 0x0 3. "RX_OVERRUN_IT," "0,1" newline bitfld.long 0x0 2. "RX_STOP_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" group.long 0x4++0x3 line.long 0x0 "MEM_IER_IRDA,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are 8 types of interrupt in these modes. received EOF. LSR interrupt. TX status. status FIFO interrupt. RX overrun. last byte in RX FIFO. THR.." bitfld.long 0x0 7. "EOF_IT," "0,1" newline bitfld.long 0x0 6. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "STS_FIFO_TRIG_IT," "0,1" newline bitfld.long 0x0 3. "RX_OVERRUN_IT," "0,1" newline bitfld.long 0x0 2. "LAST_RX_BYTE_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" group.long 0x4++0x7 line.long 0x0 "MEM_IER_UART,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are seven types of interrupt in this mode: receiver error. RHR interrupt. THR interrupt. XOFF received and CTS*/RTS* change of state from low to.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "CTS_IT," "0,1" newline bitfld.long 0x0 6. "RTS_IT," "0,1" newline bitfld.long 0x0 5. "XOFF_IT," "0,1" newline bitfld.long 0x0 4. "SLEEP_MODE," "0,1" newline bitfld.long 0x0 3. "MODEM_STS_IT," "0,1" newline bitfld.long 0x0 2. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" line.long 0x4 "MEM_EFR,Enhanced Feature Register" bitfld.long 0x4 7. "AUTO_CTS_EN,Auto-CTS enable bit. 0: Normal operation. 1: Auto-CTS flow control is enabled i.e. transmission is halted when the CTS* pin is high (inactive)." "0: Normal operation,1: Auto-CTS flow control is enabled i" newline bitfld.long 0x4 6. "AUTO_RTS_EN,Auto-RTS enable bit. 0: Normal operation. 1: Auto- RTS flow control is enabled i.e. RTS* pin goes high (inactive) when the receiver FIFO HALT trigger level TCR[3:0] is reached and goes low (active) when the receiver FIFO RESTORE.." "0: Normal operation,1: Auto- RTS flow control is enabled i" newline bitfld.long 0x4 5. "SPECIAL_CHAR_DETECT,0: Normal operation. 1: Special character detect enable. Received data is compared with XOFF2 data. If a match occurs the received data is transferred to RX FIFO and IIR bit 4 is set to 1 to indicate a special character has been.." "0: Normal operation,1: Special character detect enable" newline bitfld.long 0x4 4. "ENHANCED_EN,Enhanced functions write enable bit. 0: Disables writing to IER bits 4-7 FCR bits 4-5 and MCR bits 5-7. 1: Enables writing to IER bits 4-7 FCR bits 4-5 and MCR bits 5-7." "0: Disables writing to IER bits 4-7,1: Enables writing to IER bits 4-7" newline hexmask.long.byte 0x4 0.--3. 1. "SW_FLOW_CONTROL,Combinations of Software flow control can be selected by programming bit 3 - bit 0. See Software Flow Control Options" group.long 0x8++0x3 line.long 0x0 "MEM_FCR,Notes:" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 6.--7. "RX_FIFO_TRIG,Sets the trigger level for the RX FIFO: If SCR[7] = 0 and TLR[7:4] = 0000: 00: 8 characters 01: 16 characters 10: 56 characters 11: 60 characters If SCR[7] = 0 and TLR[7:4] != 0000 RX_FIFO_TRIG is not considered. If SCR[7]=1 .." "0: 8 characters,1: 16 characters,?,?" newline bitfld.long 0x0 4.--5. "TX_FIFO_TRIG,Sets the trigger level for the TX FIFO: If SCR[6] = 0 and TLR[3:0] = 0000: 00: 8 spaces 01: 16 spaces 10: 32 spaces 11: 56 spaces If SCR[6] = 0 and TLR[3:0] != 0000 TX_FIFO_TRIG is not considered. If SCR[6]=1 TX_FIFO_TRIG is 2 LSB of.." "0: 8 spaces,1: 16 spaces,?,?" newline bitfld.long 0x0 3. "DMA_MODE,This register is considered if SCR[0] = 0." "0,1" newline bitfld.long 0x0 2. "TX_FIFO_CLEAR," "0,1" newline bitfld.long 0x0 1. "RX_FIFO_CLEAR," "0,1" newline bitfld.long 0x0 0. "FIFO_EN," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_CIR,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 3. "RX_OE_IT," "0,1" newline bitfld.long 0x0 2. "RX_STOP_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_IRDA,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." bitfld.long 0x0 7. "EOF_IT," "0,1" newline bitfld.long 0x0 6. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "STS_FIFO_IT," "0,1" newline bitfld.long 0x0 3. "RX_OE_IT," "0,1" newline bitfld.long 0x0 2. "RX_FIFO_LAST_BYTE_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_UART,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 6.--7. "FCR_MIRROR,Mirror the contents of FCR[0] on both bits." "0,1,2,3" newline hexmask.long.byte 0x0 1.--5. 1. "IT_TYPE," newline bitfld.long 0x0 0. "IT_PENDING," "0,1" group.long 0xC++0x7 line.long 0x0 "MEM_LCR,LCR[6:0] define parameters of the transmission and reception." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "DIV_EN," "0,1" newline bitfld.long 0x0 6. "BREAK_EN,Break control bit." "0,1" newline bitfld.long 0x0 5. "PARITY_TYPE2,Selects the forced parity format [if LCR[3] = 1]. If LCR[5] = 1 and LCR[4] = 0 the parity bit is forced to 1 in the transmitted and received data. If LCR[5] = 1 and LCR[4] = 1 the parity bit is forced to 0 in the transmitted and received.." "0,1" newline bitfld.long 0x0 4. "PARITY_TYPE1," "0,1" newline bitfld.long 0x0 3. "PARITY_EN," "0,1" newline bitfld.long 0x0 2. "NB_STOP,Specifies the number of stop bits:" "0,1" newline bitfld.long 0x0 0.--1. "CHAR_LENGTH,Specifies the word length to be transmitted or received." "0,1,2,3" line.long 0x4 "MEM_MCR,MCR[3:0] controls the interface with the modem. data set or peripheral device that is emulating the modem." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline rbitfld.long 0x4 7. "RESERVED," "0,1" newline bitfld.long 0x4 6. "TCR_TLR," "0,1" newline bitfld.long 0x4 5. "XON_EN," "0,1" newline bitfld.long 0x4 4. "LOOPBACK_EN," "0,1" newline bitfld.long 0x4 3. "CD_STS_CH," "0,1" newline bitfld.long 0x4 2. "RI_STS_CH," "0,1" newline bitfld.long 0x4 1. "RTS,In loop back controls MSR[4]. If auto-RTS is enabled the RTS* output is controlled by hardware flow control." "0,1" newline bitfld.long 0x4 0. "DTR," "0,1" group.long 0x10++0x3 line.long 0x0 "MEM_XON1_ADDR1,XON1/ADDR1 Register" hexmask.long.byte 0x0 0.--7. 1. "XON_WORD1,Used to store the 8-bit XON1 character in UART modes and ADDR1 address 1 for IrDA modes." rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_CIR," bitfld.long 0x0 7. "THR_EMPTY," "0,1" newline bitfld.long 0x0 6. "RESERVED," "0,1" newline bitfld.long 0x0 5. "RX_STOP,The RX_STOP is generated based on the value set in the BOF Length register (EBLR). It is cleared on a single read of the LSR register" "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_IRDA," bitfld.long 0x0 7. "THR_EMPTY," "0,1" newline bitfld.long 0x0 6. "STS_FIFO_FULL," "0,1" newline bitfld.long 0x0 5. "RX_LAST_BYTE," "0,1" newline bitfld.long 0x0 4. "FRAME_TOO_LONG," "0,1" newline bitfld.long 0x0 3. "ABORT," "0,1" newline bitfld.long 0x0 2. "CRC," "0,1" newline bitfld.long 0x0 1. "STS_FIFO_E," "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_UART," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "RX_FIFO_STS," "0,1" newline bitfld.long 0x0 6. "TX_SR_E," "0,1" newline bitfld.long 0x0 5. "TX_FIFO_E," "0,1" newline bitfld.long 0x0 4. "RX_BI," "0,1" newline bitfld.long 0x0 3. "RX_FE," "0,1" newline bitfld.long 0x0 2. "RX_PE," "0,1" newline bitfld.long 0x0 1. "RX_OE," "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" group.long 0x14++0x3 line.long 0x0 "MEM_XON2_ADDR2,XON2/ADDR2 Register" hexmask.long.byte 0x0 0.--7. 1. "XON_WORD2,Used to store the 8-bit XON2 character in UART modes and ADDR2 address 2 for IrDA modes." rgroup.long 0x18++0x3 line.long 0x0 "MEM_MSR,This register provides information about the current state of the control lines from the modem. data set or peripheral device to the LH. It also indicates when a control input from the modem changes state." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "NCD_STS,This bit is the complement of the DCD* input. In loop-back mode it is equivalent to MCR[3]" "0,1" newline bitfld.long 0x0 6. "NRI_STS,This bit is the complement of the RI* input. In loop-back mode it is equivalent to MCR[2]" "0,1" newline bitfld.long 0x0 5. "NDSR_STS,This bit is the complement of the DSR* input. In loop-back mode it is equivalent to MCR[0]" "0,1" newline bitfld.long 0x0 4. "NCTS_STS,This bit is the complement of the CTS* input. In loop-back mode it is equivalent to MCR[1]" "0,1" newline bitfld.long 0x0 3. "DCD_STS,Indicates that DCD* input [or MCR[3] in loop back] has changed. Cleared on a read." "0,1" newline bitfld.long 0x0 2. "RI_STS,Indicates that RI* input [or MCR[2] in loop back] has changed state from low to high. Cleared on a read." "0,1" newline bitfld.long 0x0 1. "DSR_STS," "0,1" newline bitfld.long 0x0 0. "CTS_STS," "0,1" group.long 0x18++0x3 line.long 0x0 "MEM_TCR,Transmission Control Register" hexmask.long.byte 0x0 4.--7. 1. "RX_FIFO_TRIG_START,RX FIFO trigger level to RESTORE transmission (0 - 60)" newline hexmask.long.byte 0x0 0.--3. 1. "RX_FIFO_TRIG_HALT,RX FIFO trigger level to HALT transmission (0 - 60)" group.long 0x18++0x7 line.long 0x0 "MEM_XOFF1,XOFF1 Register" hexmask.long.byte 0x0 0.--7. 1. "XOFF_WORD1,Used to store the 8-bit XOFF1 character in used in UART modes." line.long 0x4 "MEM_SPR,This read/write register does not control the module in anyway. It is intended as a scratchpad register to be used by the programmer to hold temporary data." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "SPR_WORD,Scratchpad register" group.long 0x1C++0x3 line.long 0x0 "MEM_TLR,Trigger Level Register" hexmask.long.byte 0x0 4.--7. 1. "RX_FIFO_TRIG_DMA,Receive FIFO trigger level" newline hexmask.long.byte 0x0 0.--3. 1. "TX_FIFO_TRIG_DMA,Transmit FIFO trigger level" group.long 0x1C++0xB line.long 0x0 "MEM_XOFF2,XOFF2 Register" hexmask.long.byte 0x0 0.--7. 1. "XOFF_WORD2,Used to store the 8-bit XOFF2 character in used in UART modes." line.long 0x4 "MEM_MDR1,The mode of operation can be programmed by writing to MDR1[2:0] and therefore the MDR1 must be programmed on start-up after configuration of the configuration registers (DLL. DLH. LCR). The value of MDR1[2:0] must not be changed again during.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline bitfld.long 0x4 7. "FRAME_END_MODE,IrDA mode only." "0,1" newline bitfld.long 0x4 6. "SIP_MODE,MIR/FIR modes only." "0,1" newline bitfld.long 0x4 5. "SCT,Store and control the transmission" "0,1" newline bitfld.long 0x4 4. "SET_TXIR,Used to configure the infrared transceiver." "0,1" newline bitfld.long 0x4 3. "IR_SLEEP," "0,1" newline bitfld.long 0x4 0.--2. "MODE_SELECT," "0,1,2,3,4,5,6,7" line.long 0x8 "MEM_MDR2,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline bitfld.long 0x8 7. "SET_TXIR_ALT,Provide alternate functionnality for MDR1[4] [SET_TXIR]" "0,1" newline bitfld.long 0x8 6. "IRRXINVERT,Only for IR mode [IRDA & CIR]Invert RX pin inside the module before the voting or sampling system logic of the infra red block. This will not affect the RX path in UART Modem modes." "0,1" newline bitfld.long 0x8 4.--5. "CIR_PULSE_MODE,CIR Pulse modulation definition. It defines high level of the pulse width associated with a digit:" "0,1,2,3" newline bitfld.long 0x8 3. "UART_PULSE,UART mode only. Used to allow pulse shaping in UART mode." "0,1" newline bitfld.long 0x8 1.--2. "STS_FIFO_TRIG,Only for IR-IRDA mode. Frame Status FIFO Threshold select:" "0,1,2,3" newline rbitfld.long 0x8 0. "IRTX_UNDERRUN,IRDA Transmission status interrupt.When the IIR[5] interrupt occurs the meaning of the interrupt is :" "0,1" rgroup.long 0x28++0x3 line.long 0x0 "MEM_SFLSR,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 5.--7. "RESERVED5," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 4. "OE_ERROR," "0,1" newline bitfld.long 0x0 3. "FRAME_TOO_LONG_ERROR," "0,1" newline bitfld.long 0x0 2. "ABORT_DETECT," "0,1" newline bitfld.long 0x0 1. "CRC_ERROR," "0,1" newline bitfld.long 0x0 0. "RESERVED0," "0,1" group.long 0x28++0x3 line.long 0x0 "MEM_TXFLL,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "TXFLL,LSB register used to specify the frame length" rgroup.long 0x2C++0x3 line.long 0x0 "MEM_RESUME,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "RESUME,Dummy read to restart the TX or RX" group.long 0x2C++0x7 line.long 0x0 "MEM_TXFLH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline rbitfld.long 0x0 5.--7. "RESERVED," "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--4. 1. "TXFLH,MSB register used to specify the frame length" line.long 0x4 "MEM_RXFLL,IrDA modes only." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "RXFLL,LSB register used to specify the frame length in reception" rgroup.long 0x30++0x3 line.long 0x0 "MEM_SFREGL,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "SFREGL,LSB part of the frame length" group.long 0x34++0x3 line.long 0x0 "MEM_RXFLH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 4.--7. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "RXFLH,MSB register used to specify the frame length in reception" rgroup.long 0x34++0x3 line.long 0x0 "MEM_SFREGH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 4.--7. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "SFREGH,MSB part of the frame length" group.long 0x38++0x3 line.long 0x0 "MEM_BLR,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "STS_FIFO_RESET,Status FIFO reset. This bit is self-clearing" "0,1" newline bitfld.long 0x0 6. "XBOF_TYPE,SIR xBOF select." "0,1" newline hexmask.long.byte 0x0 0.--5. 1. "RESERVED," rgroup.long 0x38++0x3 line.long 0x0 "MEM_UASR,UART Autobauding Status Register" bitfld.long 0x0 6.--7. "PARITY_TYPE,00 => No Parity identified. 01 => Parity space. 10 => Even Parity. 11 => Odd Parity" "0: No Parity identified,1: Parity space,?,?" newline bitfld.long 0x0 5. "BIT_BY_CHAR,0 => 7 bits character identified. 1 => 8 bits character identified" "0: 7 bits character identified,1: 8 bits character identified" newline hexmask.long.byte 0x0 0.--4. 1. "SPEED,Used to report the speed identified. 00000 => No speed identified. 00001 => 115200 bauds. 00010 => 57600 bauds. 00011 => 38400 bauds. 00100 => 28800 bauds. 00101 => 19200 bauds. 00110 => 14400 bauds. 00111 => 9600 bauds. 01000 => 4800 bauds. 01001.." group.long 0x3C++0xF line.long 0x0 "MEM_ACREG,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "PULSE_TYPE,SIR pulse width select:" "0,1" newline bitfld.long 0x0 6. "SD_MOD,Primary output used to configure transceivers. Connected to the SD/MODE input pin of IrDA transceivers." "0,1" newline bitfld.long 0x0 5. "DIS_IR_RX," "0,1" newline bitfld.long 0x0 4. "DIS_TX_UNDERRUN,It is recommended to disable TX FIFO underrun capability by masking corresponding underrun interrupt. When disabling underrun by setting ACREG[4]=1 garbage data is sent over TX line." "0,1" newline bitfld.long 0x0 3. "SEND_SIP,MIR/FIR Modes only.Send Serial Infrared Interaction Pulse [SIP] If this bit is set during a MIR/FIR transmission the SIP will be send at the end of it.This bit automatically gets cleared at the end of the SIP transmission." "0,1" newline bitfld.long 0x0 2. "SCTX_EN,Store and controlled TX start. When MDR1[5] = 1 and the LH writes 1 to this bit the TX state machine starts frame transmission. This bit is self-clearing." "0,1" newline bitfld.long 0x0 1. "ABORT_EN,Frame Abort. The LH can intentionally abort transmission of a frame by writing 1 to this bit. Neither the end flag nor the CRC bits are appended to the frame. If transmit FIFO is not empty and MDR1[5]=1 UART IrDA will start a new transfer.." "0,1" newline bitfld.long 0x0 0. "EOT_EN,EOT [end of transmission] bit. The LH writes 1 to this bit just before it writes the last byte to the TX FIFO in set-EOT bit frame closing method. This bit automatically gets cleared when the LH writes to the THR [TX FIFO]." "0,1" line.long 0x4 "MEM_SCR,Note: Bit 4 enables the wake-up interrupt. but this interrupt is not mapped into the IIR register. Therefore. when an interrupt occurs and there is no interrupt pending in the IIR register. the SSR[1] bit must be checked. To clear the wake-up.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline bitfld.long 0x4 7. "RX_TRIG_GRANU1," "0,1" newline bitfld.long 0x4 6. "TX_TRIG_GRANU1," "0,1" newline bitfld.long 0x4 5. "DSR_IT," "0,1" newline bitfld.long 0x4 4. "RX_CTS_DSR_WAKE_UP_ENABLE," "0,1" newline bitfld.long 0x4 3. "TX_EMPTY_CTL_IT," "0,1" newline bitfld.long 0x4 1.--2. "DMA_MODE_2,Used to specify the DMA mode valid if SCR[0] = 1" "0,1,2,3" newline bitfld.long 0x4 0. "DMA_MODE_CTL," "0,1" line.long 0x8 "MEM_SSR,Note: Bit 1 is reset only when SCR[4] is reset to 0." hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x8 3.--7. 1. "RESERVED," newline bitfld.long 0x8 2. "DMA_COUNTER_RST," "0,1" newline rbitfld.long 0x8 1. "RX_CTS_DSR_WAKE_UP_STS," "0,1" newline rbitfld.long 0x8 0. "TX_FIFO_FULL," "0,1" line.long 0xC "MEM_EBLR,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED," newline hexmask.long.byte 0xC 0.--7. 1. "EBLR,IR-IRDA mode: This register allows to define up to 176 xBOFs the maximum required by IrDA specification. IR-CIR mode: This register specifies the number of consecutive zeros to be received before generating the RX_STOP interrupt [IIR[2]]. 0x00:.." rgroup.long 0x50++0x3 line.long 0x0 "MEM_MVR,The reset value is fixed by hardware and corresponds to the RTL revision of this module. A reset has no effect on the value returned" bitfld.long 0x0 30.--31. "SCHEME,Scheme revision number of module" "0,1,2,3" newline bitfld.long 0x0 28.--29. "RESERVED," "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "FUNC,Function revision number of module" newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Rtl revision number of module" newline bitfld.long 0x0 8.--10. "MAJOR,Major revision number of the module." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom revision number of the module." "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number of the module." group.long 0x54++0x3 line.long 0x0 "MEM_SYSC,The auto idle bit controls a power saving technique to reduce the logic power consumption of the OCP interface. That is to say when the feature is enabled. the clock will be gated off until an OCP command for this device has been detected. When.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline rbitfld.long 0x0 5.--7. "RESERVED," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 3.--4. "IDLEMODE,POWER MANAGEMENT REQ/ACK CONTROL REF: OCP DESIGN GUIDELINES VERSION 1.1" "0,1,2,3" newline bitfld.long 0x0 2. "ENAWAKEUP,WAKE UP FEATURE CONTROL" "0,1" newline bitfld.long 0x0 1. "SOFTRESET,Software reset. Set this bit to 1 to trigger a module reset. This bit is automatically reset by the hardware. During reads it always returns a 0." "0,1" newline bitfld.long 0x0 0. "AUTOIDLE,Internal OCP clock gating strategy" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "MEM_SYSS," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 1.--7. 1. "RESERVED," newline bitfld.long 0x0 0. "RESETDONE,Internal Reset Monitoring" "0,1" group.long 0x5C++0x7 line.long 0x0 "MEM_WER,The UART wakeup enable register is used to mask and unmask a UART event that would subsequently notify the system. The events are any activity in the logic that could cause an interrupt and/ or an activity that would require the system to wakeup." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "EVENT_7_TX_WAKEUP_EN," "0,1" newline bitfld.long 0x0 6. "EVENT_6_RECEIVER_LINE_STATUS_INTERRUPT," "0,1" newline bitfld.long 0x0 5. "EVENT_5_RHR_INTERRUPT," "0,1" newline bitfld.long 0x0 4. "EVENT_4_RX_ACTIVITY," "0,1" newline bitfld.long 0x0 3. "EVENT_3_DCD_CD_ACTIVITY," "0,1" newline bitfld.long 0x0 2. "EVENT_2_RI_ACTIVITY," "0,1" newline bitfld.long 0x0 1. "EVENT_1_DSR_ACTIVITY," "0,1" newline bitfld.long 0x0 0. "EVENT_0_CTS_ACTIVITY," "0,1" line.long 0x4 "MEM_CFPS,Since the Consumer IR works at modulation rates of 30 56.8 KHz. the 48 MHz clock must be pre scaled before the clock can drive the IR logic. This register sets the divisor rate to give a range to accommodate the remote control requirements in.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "CFPS,System clock frequency prescaler at [12x multiple]. Examples for CFPS values are given in the table below. Target Freq [KHz] CFPS [decimal] Actual Freq[KHz] 30 133 30.08 32.75 122 32.79 36 111 36.04 36.7 109 36.69 38* 105 38.1.." rgroup.long 0x64++0x7 line.long 0x0 "MEM_RXFIFO_LVL,Level of the RX FIFO" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED24," newline hexmask.long.byte 0x0 0.--7. 1. "RXFIFO_LVL," line.long 0x4 "MEM_TXFIFO_LVL,Level of the TX FIFO" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED24," newline hexmask.long.byte 0x4 0.--7. 1. "TXFIFO_LVL," group.long 0x6C++0xB line.long 0x0 "MEM_IER2,Enables RX/TX FIFOs empty corresponding interrupts." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED1," newline hexmask.long.byte 0x0 3.--7. 1. "RESERVED," newline bitfld.long 0x0 2. "RHR_IT_DIS," "0,1" newline bitfld.long 0x0 1. "EN_TXFIFO_EMPTY,Enables[1]/DISABLES[00 EN_TXFIFO_EMPTY interrupt." "0,1" newline bitfld.long 0x0 0. "EN_RXFIFO_EMPTY,Enables[1]/disables[0] EN_RXFIFO_EMPTY interrupt." "0,1" line.long 0x4 "MEM_ISR2,Status of RX/TX FIFOs empty corresponding interrupts." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED1," newline hexmask.long.byte 0x4 2.--7. 1. "RESERVED," newline bitfld.long 0x4 1. "TXFIFO_EMPTY_STS,TXFIFO interrupt pending" "0,1" newline bitfld.long 0x4 0. "RXFIFO_EMPTY_STS,RXFIFO interrupt pending" "0,1" line.long 0x8 "MEM_FREQ_SEL,Sample per bit value selector" hexmask.long.byte 0x8 0.--7. 1. "FREQ_SEL,Sets the sample per bit if non default frequency is used. MDR3[1] must be set to 1 after this value is set. Must be equal or higher then 6." rgroup.long 0x78++0x7 line.long 0x0 "MEM_ABAUD_1ST_CHAR,Unused" hexmask.long 0x0 0.--31. 1. "RESERVED," line.long 0x4 "MEM_BAUD_2ND_CHAR,Unused" hexmask.long 0x4 0.--31. 1. "RESERVED," group.long 0x80++0x23 line.long 0x0 "MEM_MDR3,Mode definition register 3." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED2," newline bitfld.long 0x0 4. "DIR_EN,RS-485 External Transceiver Direction Enable" "0,1" newline bitfld.long 0x0 3. "DIR_POL,RS-485 External Transceiver Direction Polarity. 0 => TX: RTS=0 RX: RTS=1. 1 => TX: RTS=1 RX: RTS=0" "0: TX: RTS=0,1: TX: RTS=1" newline bitfld.long 0x0 2. "SET_DMA_TX_THRESHOLD,Enable to set different TX DMA threshold then 64-trigger [usage of new register TX_DNA_THRESHOLD]" "0,1" newline bitfld.long 0x0 1. "NONDEFAULT_FREQ,Enables[1]/Disables[0] using NONDEFAULT fclk frequencies" "0,1" newline bitfld.long 0x0 0. "DISABLE_CIR_RX_DEMOD,Disables[1]/Enables[0] CIR RX demodulation" "0,1" line.long 0x4 "MEM_TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level." hexmask.long.byte 0x4 0.--5. 1. "TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level." line.long 0x8 "MEM_MDR4,Mode definition register 4" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED1," newline rbitfld.long 0x8 7. "RESERVED," "0,1" newline bitfld.long 0x8 6. "MODE9,9-bit character length. When '1' overrides character length setting in LCR" "0,1" newline bitfld.long 0x8 3.--5. "FREQ_SEL_H,Upper 3 bits of FREQ_SEL register for higher division values as required for example for FI/Di in ISO7816 mode" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 0.--2. "MODE,New modes [when set overrides MDR1 modes]" "0,1,2,3,4,5,6,7" line.long 0xC "MEM_EFR2,Enhanced Features Register 2" hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED1," newline bitfld.long 0xC 7. "BROADCAST,Enables broadcast address matching in multi-drop address match mode" "0,1" newline bitfld.long 0xC 6. "TIMEOUT_BEHAVE,Specifies how timeout is measured" "0,1" newline bitfld.long 0xC 5. "C8,Value for ISO 7816 C8 pin for software control" "0,1" newline bitfld.long 0xC 4. "C4,Value for ISO 7816 C4 pin for software control" "0,1" newline bitfld.long 0xC 3. "C2,Value for ISO 7816 reset pin [software controllable]" "0,1" newline bitfld.long 0xC 2. "MULTIDROP,Enables parity Multi-drop mode [overrides LCR[5..3]] when '1'" "0,1" newline bitfld.long 0xC 1. "RHR_OVERRUN,RHR Overrun behaviour when buffer full" "0,1" newline bitfld.long 0xC 0. "ENDIAN,Endianness" "0,1" line.long 0x10 "MEM_ECR,Enhanced Control register" hexmask.long.tbyte 0x10 8.--31. 1. "RESERVED1," newline rbitfld.long 0x10 6.--7. "RESERVED," "0,1,2,3" newline bitfld.long 0x10 5. "CLEAR_TX_PE,Write 1 to clear parity error from the Transmitter to allow it to continue to try sending data [ISO7816 transmit only]" "0,1" newline bitfld.long 0x10 4. "TX_EN,Enables/Disables the transmitter" "0,1" newline bitfld.long 0x10 3. "RX_EN,Enables/Disables the receiver" "0,1" newline bitfld.long 0x10 2. "TX_RST,Writing '1' resets the transmitter" "0,1" newline bitfld.long 0x10 1. "RX_RST,Writing '1' resets the receiver" "0,1" newline bitfld.long 0x10 0. "A_MULTIDROP,In multi-drop mode when written with the value '1' causes the next byte written into THR to be transmitted with the parity bit set signaling an address" "0,1" line.long 0x14 "MEM_TIMEGUARD,Timeguard" hexmask.long.tbyte 0x14 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x14 0.--7. 1. "TIMEGUARD,Specifies the amount of idle baud clocks [transmitter bit period] to insert between transmitted bytes useful when comunicating with slower devices" line.long 0x18 "MEM_TIMEOUTL,Timeout lower byte" hexmask.long.tbyte 0x18 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x18 0.--7. 1. "TIMEOUT_L,Custom timeout period in baud clocks to override the internal value when different from 0. [Lower byte of the 16 bit value]" line.long 0x1C "MEM_TIMEOUTH,Timeout higher byte" hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x1C 0.--7. 1. "TIMEOUT_H,Custom timeout period in baud clocks to override the internal value when different from 0. [Higher byte of the 16 bit value]" line.long 0x20 "MEM_SCCR,Smartcard (ISO7816) mode Control Register" hexmask.long.tbyte 0x20 8.--31. 1. "RESERVED1," newline bitfld.long 0x20 7. "DSNACK,Applies Max_Iteration to receiver aswell - when maximum number of NACKs have been returned the receiver will accept the data regardless of error. The data will be loaded into the receiver FIFO and PE will be set when reading it." "0,1" newline bitfld.long 0x20 6. "INACK,Inhibit NACK when receiving even if an error is received. The data will be loaded into the receiver FIFO and PE will be set when reading it." "0,1" newline rbitfld.long 0x20 3.--5. "RESERVED," "0,1,2,3,4,5,6,7" newline bitfld.long 0x20 0.--2. "MAX_ITERATION,Number of times to repeat transmitted character if the receiver did not acknowledge. If not acknowledged after the max value is reached the USART transmitter will set parity error stop and not continue until it is cleared." "0,1,2,3,4,5,6,7" rgroup.long 0xA4++0x3 line.long 0x0 "MEM_ERHR,Extended Receive Holding Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--8. 1. "ERHR,Extended Receive Holding Register - allows accessing the full 9bit RHR" group.long 0xA4++0xF line.long 0x0 "MEM_ETHR,Extended Transmit Holding Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--8. 1. "ETHR,Extended Transmit Holding Register - allows writing the full 9bit RHR" line.long 0x4 "MEM_MAR,Multidrop Address Register" hexmask.long.byte 0x4 0.--7. 1. "ADDRESS,Multidrop match address value" line.long 0x8 "MEM_MMR,Multidrop Mask Register" hexmask.long.byte 0x8 0.--7. 1. "MASK,Address match masking value ? writing a 0 to a bit means that the corresponding address bit will be ignored in matching" line.long 0xC "MEM_MBR,Multidrop Broadcast Address Register" hexmask.long.byte 0xC 0.--7. 1. "BROADCAST_ADDRESS,Broadcast address for address matching" tree.end tree "UART2 (UART2)" base ad:0x2820000 group.long 0x0++0x3 line.long 0x0 "MEM_DLL,Divisor Latches Low Register" hexmask.long.byte 0x0 0.--7. 1. "CLOCK_LSB,Used to store the 8-bit LSB divisor value" rgroup.long 0x0++0x3 line.long 0x0 "MEM_RHR,The receiver section consists of the receiver holding register (RHR) and the receiver shift register. The RHR is actually a 64-byte FIFO. The receiver shift register receives serial data from RX input. The data is converted to parallel data and.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "RHR,Receive holding register" group.long 0x0++0x7 line.long 0x0 "MEM_THR,The transmitter section consists of the transmit holding register (THR) and the transmit shift register. The transmit holding register is actually a 64-byte FIFO. The LH writes data to the THR. The data is placed into the transmit shift register.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "THR,TRANSMIT HOLDING REGISTER" line.long 0x4 "MEM_DLH,Divisor Latches High Register" hexmask.long.byte 0x4 0.--7. 1. "CLOCK_MSB,Used to store the 8-bit MSB divisor value" group.long 0x4++0x3 line.long 0x0 "MEM_IER_CIR,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are 6 types of interrupt in these modes. TX status. status FIFO interrupt. RX overrun. last byte in RX FIFO. THR interrupt and RHR interrupt and they.." bitfld.long 0x0 6.--7. "NOT_USED2," "0,1,2,3" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "NOT_USED1," "0,1" newline bitfld.long 0x0 3. "RX_OVERRUN_IT," "0,1" newline bitfld.long 0x0 2. "RX_STOP_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" group.long 0x4++0x3 line.long 0x0 "MEM_IER_IRDA,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are 8 types of interrupt in these modes. received EOF. LSR interrupt. TX status. status FIFO interrupt. RX overrun. last byte in RX FIFO. THR.." bitfld.long 0x0 7. "EOF_IT," "0,1" newline bitfld.long 0x0 6. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "STS_FIFO_TRIG_IT," "0,1" newline bitfld.long 0x0 3. "RX_OVERRUN_IT," "0,1" newline bitfld.long 0x0 2. "LAST_RX_BYTE_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" group.long 0x4++0x7 line.long 0x0 "MEM_IER_UART,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are seven types of interrupt in this mode: receiver error. RHR interrupt. THR interrupt. XOFF received and CTS*/RTS* change of state from low to.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "CTS_IT," "0,1" newline bitfld.long 0x0 6. "RTS_IT," "0,1" newline bitfld.long 0x0 5. "XOFF_IT," "0,1" newline bitfld.long 0x0 4. "SLEEP_MODE," "0,1" newline bitfld.long 0x0 3. "MODEM_STS_IT," "0,1" newline bitfld.long 0x0 2. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" line.long 0x4 "MEM_EFR,Enhanced Feature Register" bitfld.long 0x4 7. "AUTO_CTS_EN,Auto-CTS enable bit. 0: Normal operation. 1: Auto-CTS flow control is enabled i.e. transmission is halted when the CTS* pin is high (inactive)." "0: Normal operation,1: Auto-CTS flow control is enabled i" newline bitfld.long 0x4 6. "AUTO_RTS_EN,Auto-RTS enable bit. 0: Normal operation. 1: Auto- RTS flow control is enabled i.e. RTS* pin goes high (inactive) when the receiver FIFO HALT trigger level TCR[3:0] is reached and goes low (active) when the receiver FIFO RESTORE.." "0: Normal operation,1: Auto- RTS flow control is enabled i" newline bitfld.long 0x4 5. "SPECIAL_CHAR_DETECT,0: Normal operation. 1: Special character detect enable. Received data is compared with XOFF2 data. If a match occurs the received data is transferred to RX FIFO and IIR bit 4 is set to 1 to indicate a special character has been.." "0: Normal operation,1: Special character detect enable" newline bitfld.long 0x4 4. "ENHANCED_EN,Enhanced functions write enable bit. 0: Disables writing to IER bits 4-7 FCR bits 4-5 and MCR bits 5-7. 1: Enables writing to IER bits 4-7 FCR bits 4-5 and MCR bits 5-7." "0: Disables writing to IER bits 4-7,1: Enables writing to IER bits 4-7" newline hexmask.long.byte 0x4 0.--3. 1. "SW_FLOW_CONTROL,Combinations of Software flow control can be selected by programming bit 3 - bit 0. See Software Flow Control Options" group.long 0x8++0x3 line.long 0x0 "MEM_FCR,Notes:" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 6.--7. "RX_FIFO_TRIG,Sets the trigger level for the RX FIFO: If SCR[7] = 0 and TLR[7:4] = 0000: 00: 8 characters 01: 16 characters 10: 56 characters 11: 60 characters If SCR[7] = 0 and TLR[7:4] != 0000 RX_FIFO_TRIG is not considered. If SCR[7]=1 .." "0: 8 characters,1: 16 characters,?,?" newline bitfld.long 0x0 4.--5. "TX_FIFO_TRIG,Sets the trigger level for the TX FIFO: If SCR[6] = 0 and TLR[3:0] = 0000: 00: 8 spaces 01: 16 spaces 10: 32 spaces 11: 56 spaces If SCR[6] = 0 and TLR[3:0] != 0000 TX_FIFO_TRIG is not considered. If SCR[6]=1 TX_FIFO_TRIG is 2 LSB of.." "0: 8 spaces,1: 16 spaces,?,?" newline bitfld.long 0x0 3. "DMA_MODE,This register is considered if SCR[0] = 0." "0,1" newline bitfld.long 0x0 2. "TX_FIFO_CLEAR," "0,1" newline bitfld.long 0x0 1. "RX_FIFO_CLEAR," "0,1" newline bitfld.long 0x0 0. "FIFO_EN," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_CIR,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 3. "RX_OE_IT," "0,1" newline bitfld.long 0x0 2. "RX_STOP_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_IRDA,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." bitfld.long 0x0 7. "EOF_IT," "0,1" newline bitfld.long 0x0 6. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "STS_FIFO_IT," "0,1" newline bitfld.long 0x0 3. "RX_OE_IT," "0,1" newline bitfld.long 0x0 2. "RX_FIFO_LAST_BYTE_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_UART,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 6.--7. "FCR_MIRROR,Mirror the contents of FCR[0] on both bits." "0,1,2,3" newline hexmask.long.byte 0x0 1.--5. 1. "IT_TYPE," newline bitfld.long 0x0 0. "IT_PENDING," "0,1" group.long 0xC++0x7 line.long 0x0 "MEM_LCR,LCR[6:0] define parameters of the transmission and reception." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "DIV_EN," "0,1" newline bitfld.long 0x0 6. "BREAK_EN,Break control bit." "0,1" newline bitfld.long 0x0 5. "PARITY_TYPE2,Selects the forced parity format [if LCR[3] = 1]. If LCR[5] = 1 and LCR[4] = 0 the parity bit is forced to 1 in the transmitted and received data. If LCR[5] = 1 and LCR[4] = 1 the parity bit is forced to 0 in the transmitted and received.." "0,1" newline bitfld.long 0x0 4. "PARITY_TYPE1," "0,1" newline bitfld.long 0x0 3. "PARITY_EN," "0,1" newline bitfld.long 0x0 2. "NB_STOP,Specifies the number of stop bits:" "0,1" newline bitfld.long 0x0 0.--1. "CHAR_LENGTH,Specifies the word length to be transmitted or received." "0,1,2,3" line.long 0x4 "MEM_MCR,MCR[3:0] controls the interface with the modem. data set or peripheral device that is emulating the modem." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline rbitfld.long 0x4 7. "RESERVED," "0,1" newline bitfld.long 0x4 6. "TCR_TLR," "0,1" newline bitfld.long 0x4 5. "XON_EN," "0,1" newline bitfld.long 0x4 4. "LOOPBACK_EN," "0,1" newline bitfld.long 0x4 3. "CD_STS_CH," "0,1" newline bitfld.long 0x4 2. "RI_STS_CH," "0,1" newline bitfld.long 0x4 1. "RTS,In loop back controls MSR[4]. If auto-RTS is enabled the RTS* output is controlled by hardware flow control." "0,1" newline bitfld.long 0x4 0. "DTR," "0,1" group.long 0x10++0x3 line.long 0x0 "MEM_XON1_ADDR1,XON1/ADDR1 Register" hexmask.long.byte 0x0 0.--7. 1. "XON_WORD1,Used to store the 8-bit XON1 character in UART modes and ADDR1 address 1 for IrDA modes." rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_CIR," bitfld.long 0x0 7. "THR_EMPTY," "0,1" newline bitfld.long 0x0 6. "RESERVED," "0,1" newline bitfld.long 0x0 5. "RX_STOP,The RX_STOP is generated based on the value set in the BOF Length register (EBLR). It is cleared on a single read of the LSR register" "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_IRDA," bitfld.long 0x0 7. "THR_EMPTY," "0,1" newline bitfld.long 0x0 6. "STS_FIFO_FULL," "0,1" newline bitfld.long 0x0 5. "RX_LAST_BYTE," "0,1" newline bitfld.long 0x0 4. "FRAME_TOO_LONG," "0,1" newline bitfld.long 0x0 3. "ABORT," "0,1" newline bitfld.long 0x0 2. "CRC," "0,1" newline bitfld.long 0x0 1. "STS_FIFO_E," "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_UART," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "RX_FIFO_STS," "0,1" newline bitfld.long 0x0 6. "TX_SR_E," "0,1" newline bitfld.long 0x0 5. "TX_FIFO_E," "0,1" newline bitfld.long 0x0 4. "RX_BI," "0,1" newline bitfld.long 0x0 3. "RX_FE," "0,1" newline bitfld.long 0x0 2. "RX_PE," "0,1" newline bitfld.long 0x0 1. "RX_OE," "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" group.long 0x14++0x3 line.long 0x0 "MEM_XON2_ADDR2,XON2/ADDR2 Register" hexmask.long.byte 0x0 0.--7. 1. "XON_WORD2,Used to store the 8-bit XON2 character in UART modes and ADDR2 address 2 for IrDA modes." rgroup.long 0x18++0x3 line.long 0x0 "MEM_MSR,This register provides information about the current state of the control lines from the modem. data set or peripheral device to the LH. It also indicates when a control input from the modem changes state." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "NCD_STS,This bit is the complement of the DCD* input. In loop-back mode it is equivalent to MCR[3]" "0,1" newline bitfld.long 0x0 6. "NRI_STS,This bit is the complement of the RI* input. In loop-back mode it is equivalent to MCR[2]" "0,1" newline bitfld.long 0x0 5. "NDSR_STS,This bit is the complement of the DSR* input. In loop-back mode it is equivalent to MCR[0]" "0,1" newline bitfld.long 0x0 4. "NCTS_STS,This bit is the complement of the CTS* input. In loop-back mode it is equivalent to MCR[1]" "0,1" newline bitfld.long 0x0 3. "DCD_STS,Indicates that DCD* input [or MCR[3] in loop back] has changed. Cleared on a read." "0,1" newline bitfld.long 0x0 2. "RI_STS,Indicates that RI* input [or MCR[2] in loop back] has changed state from low to high. Cleared on a read." "0,1" newline bitfld.long 0x0 1. "DSR_STS," "0,1" newline bitfld.long 0x0 0. "CTS_STS," "0,1" group.long 0x18++0x3 line.long 0x0 "MEM_TCR,Transmission Control Register" hexmask.long.byte 0x0 4.--7. 1. "RX_FIFO_TRIG_START,RX FIFO trigger level to RESTORE transmission (0 - 60)" newline hexmask.long.byte 0x0 0.--3. 1. "RX_FIFO_TRIG_HALT,RX FIFO trigger level to HALT transmission (0 - 60)" group.long 0x18++0x7 line.long 0x0 "MEM_XOFF1,XOFF1 Register" hexmask.long.byte 0x0 0.--7. 1. "XOFF_WORD1,Used to store the 8-bit XOFF1 character in used in UART modes." line.long 0x4 "MEM_SPR,This read/write register does not control the module in anyway. It is intended as a scratchpad register to be used by the programmer to hold temporary data." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "SPR_WORD,Scratchpad register" group.long 0x1C++0x3 line.long 0x0 "MEM_TLR,Trigger Level Register" hexmask.long.byte 0x0 4.--7. 1. "RX_FIFO_TRIG_DMA,Receive FIFO trigger level" newline hexmask.long.byte 0x0 0.--3. 1. "TX_FIFO_TRIG_DMA,Transmit FIFO trigger level" group.long 0x1C++0xB line.long 0x0 "MEM_XOFF2,XOFF2 Register" hexmask.long.byte 0x0 0.--7. 1. "XOFF_WORD2,Used to store the 8-bit XOFF2 character in used in UART modes." line.long 0x4 "MEM_MDR1,The mode of operation can be programmed by writing to MDR1[2:0] and therefore the MDR1 must be programmed on start-up after configuration of the configuration registers (DLL. DLH. LCR). The value of MDR1[2:0] must not be changed again during.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline bitfld.long 0x4 7. "FRAME_END_MODE,IrDA mode only." "0,1" newline bitfld.long 0x4 6. "SIP_MODE,MIR/FIR modes only." "0,1" newline bitfld.long 0x4 5. "SCT,Store and control the transmission" "0,1" newline bitfld.long 0x4 4. "SET_TXIR,Used to configure the infrared transceiver." "0,1" newline bitfld.long 0x4 3. "IR_SLEEP," "0,1" newline bitfld.long 0x4 0.--2. "MODE_SELECT," "0,1,2,3,4,5,6,7" line.long 0x8 "MEM_MDR2,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline bitfld.long 0x8 7. "SET_TXIR_ALT,Provide alternate functionnality for MDR1[4] [SET_TXIR]" "0,1" newline bitfld.long 0x8 6. "IRRXINVERT,Only for IR mode [IRDA & CIR]Invert RX pin inside the module before the voting or sampling system logic of the infra red block. This will not affect the RX path in UART Modem modes." "0,1" newline bitfld.long 0x8 4.--5. "CIR_PULSE_MODE,CIR Pulse modulation definition. It defines high level of the pulse width associated with a digit:" "0,1,2,3" newline bitfld.long 0x8 3. "UART_PULSE,UART mode only. Used to allow pulse shaping in UART mode." "0,1" newline bitfld.long 0x8 1.--2. "STS_FIFO_TRIG,Only for IR-IRDA mode. Frame Status FIFO Threshold select:" "0,1,2,3" newline rbitfld.long 0x8 0. "IRTX_UNDERRUN,IRDA Transmission status interrupt.When the IIR[5] interrupt occurs the meaning of the interrupt is :" "0,1" rgroup.long 0x28++0x3 line.long 0x0 "MEM_SFLSR,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 5.--7. "RESERVED5," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 4. "OE_ERROR," "0,1" newline bitfld.long 0x0 3. "FRAME_TOO_LONG_ERROR," "0,1" newline bitfld.long 0x0 2. "ABORT_DETECT," "0,1" newline bitfld.long 0x0 1. "CRC_ERROR," "0,1" newline bitfld.long 0x0 0. "RESERVED0," "0,1" group.long 0x28++0x3 line.long 0x0 "MEM_TXFLL,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "TXFLL,LSB register used to specify the frame length" rgroup.long 0x2C++0x3 line.long 0x0 "MEM_RESUME,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "RESUME,Dummy read to restart the TX or RX" group.long 0x2C++0x7 line.long 0x0 "MEM_TXFLH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline rbitfld.long 0x0 5.--7. "RESERVED," "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--4. 1. "TXFLH,MSB register used to specify the frame length" line.long 0x4 "MEM_RXFLL,IrDA modes only." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "RXFLL,LSB register used to specify the frame length in reception" rgroup.long 0x30++0x3 line.long 0x0 "MEM_SFREGL,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "SFREGL,LSB part of the frame length" group.long 0x34++0x3 line.long 0x0 "MEM_RXFLH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 4.--7. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "RXFLH,MSB register used to specify the frame length in reception" rgroup.long 0x34++0x3 line.long 0x0 "MEM_SFREGH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 4.--7. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "SFREGH,MSB part of the frame length" group.long 0x38++0x3 line.long 0x0 "MEM_BLR,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "STS_FIFO_RESET,Status FIFO reset. This bit is self-clearing" "0,1" newline bitfld.long 0x0 6. "XBOF_TYPE,SIR xBOF select." "0,1" newline hexmask.long.byte 0x0 0.--5. 1. "RESERVED," rgroup.long 0x38++0x3 line.long 0x0 "MEM_UASR,UART Autobauding Status Register" bitfld.long 0x0 6.--7. "PARITY_TYPE,00 => No Parity identified. 01 => Parity space. 10 => Even Parity. 11 => Odd Parity" "0: No Parity identified,1: Parity space,?,?" newline bitfld.long 0x0 5. "BIT_BY_CHAR,0 => 7 bits character identified. 1 => 8 bits character identified" "0: 7 bits character identified,1: 8 bits character identified" newline hexmask.long.byte 0x0 0.--4. 1. "SPEED,Used to report the speed identified. 00000 => No speed identified. 00001 => 115200 bauds. 00010 => 57600 bauds. 00011 => 38400 bauds. 00100 => 28800 bauds. 00101 => 19200 bauds. 00110 => 14400 bauds. 00111 => 9600 bauds. 01000 => 4800 bauds. 01001.." group.long 0x3C++0xF line.long 0x0 "MEM_ACREG,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "PULSE_TYPE,SIR pulse width select:" "0,1" newline bitfld.long 0x0 6. "SD_MOD,Primary output used to configure transceivers. Connected to the SD/MODE input pin of IrDA transceivers." "0,1" newline bitfld.long 0x0 5. "DIS_IR_RX," "0,1" newline bitfld.long 0x0 4. "DIS_TX_UNDERRUN,It is recommended to disable TX FIFO underrun capability by masking corresponding underrun interrupt. When disabling underrun by setting ACREG[4]=1 garbage data is sent over TX line." "0,1" newline bitfld.long 0x0 3. "SEND_SIP,MIR/FIR Modes only.Send Serial Infrared Interaction Pulse [SIP] If this bit is set during a MIR/FIR transmission the SIP will be send at the end of it.This bit automatically gets cleared at the end of the SIP transmission." "0,1" newline bitfld.long 0x0 2. "SCTX_EN,Store and controlled TX start. When MDR1[5] = 1 and the LH writes 1 to this bit the TX state machine starts frame transmission. This bit is self-clearing." "0,1" newline bitfld.long 0x0 1. "ABORT_EN,Frame Abort. The LH can intentionally abort transmission of a frame by writing 1 to this bit. Neither the end flag nor the CRC bits are appended to the frame. If transmit FIFO is not empty and MDR1[5]=1 UART IrDA will start a new transfer.." "0,1" newline bitfld.long 0x0 0. "EOT_EN,EOT [end of transmission] bit. The LH writes 1 to this bit just before it writes the last byte to the TX FIFO in set-EOT bit frame closing method. This bit automatically gets cleared when the LH writes to the THR [TX FIFO]." "0,1" line.long 0x4 "MEM_SCR,Note: Bit 4 enables the wake-up interrupt. but this interrupt is not mapped into the IIR register. Therefore. when an interrupt occurs and there is no interrupt pending in the IIR register. the SSR[1] bit must be checked. To clear the wake-up.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline bitfld.long 0x4 7. "RX_TRIG_GRANU1," "0,1" newline bitfld.long 0x4 6. "TX_TRIG_GRANU1," "0,1" newline bitfld.long 0x4 5. "DSR_IT," "0,1" newline bitfld.long 0x4 4. "RX_CTS_DSR_WAKE_UP_ENABLE," "0,1" newline bitfld.long 0x4 3. "TX_EMPTY_CTL_IT," "0,1" newline bitfld.long 0x4 1.--2. "DMA_MODE_2,Used to specify the DMA mode valid if SCR[0] = 1" "0,1,2,3" newline bitfld.long 0x4 0. "DMA_MODE_CTL," "0,1" line.long 0x8 "MEM_SSR,Note: Bit 1 is reset only when SCR[4] is reset to 0." hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x8 3.--7. 1. "RESERVED," newline bitfld.long 0x8 2. "DMA_COUNTER_RST," "0,1" newline rbitfld.long 0x8 1. "RX_CTS_DSR_WAKE_UP_STS," "0,1" newline rbitfld.long 0x8 0. "TX_FIFO_FULL," "0,1" line.long 0xC "MEM_EBLR,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED," newline hexmask.long.byte 0xC 0.--7. 1. "EBLR,IR-IRDA mode: This register allows to define up to 176 xBOFs the maximum required by IrDA specification. IR-CIR mode: This register specifies the number of consecutive zeros to be received before generating the RX_STOP interrupt [IIR[2]]. 0x00:.." rgroup.long 0x50++0x3 line.long 0x0 "MEM_MVR,The reset value is fixed by hardware and corresponds to the RTL revision of this module. A reset has no effect on the value returned" bitfld.long 0x0 30.--31. "SCHEME,Scheme revision number of module" "0,1,2,3" newline bitfld.long 0x0 28.--29. "RESERVED," "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "FUNC,Function revision number of module" newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Rtl revision number of module" newline bitfld.long 0x0 8.--10. "MAJOR,Major revision number of the module." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom revision number of the module." "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number of the module." group.long 0x54++0x3 line.long 0x0 "MEM_SYSC,The auto idle bit controls a power saving technique to reduce the logic power consumption of the OCP interface. That is to say when the feature is enabled. the clock will be gated off until an OCP command for this device has been detected. When.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline rbitfld.long 0x0 5.--7. "RESERVED," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 3.--4. "IDLEMODE,POWER MANAGEMENT REQ/ACK CONTROL REF: OCP DESIGN GUIDELINES VERSION 1.1" "0,1,2,3" newline bitfld.long 0x0 2. "ENAWAKEUP,WAKE UP FEATURE CONTROL" "0,1" newline bitfld.long 0x0 1. "SOFTRESET,Software reset. Set this bit to 1 to trigger a module reset. This bit is automatically reset by the hardware. During reads it always returns a 0." "0,1" newline bitfld.long 0x0 0. "AUTOIDLE,Internal OCP clock gating strategy" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "MEM_SYSS," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 1.--7. 1. "RESERVED," newline bitfld.long 0x0 0. "RESETDONE,Internal Reset Monitoring" "0,1" group.long 0x5C++0x7 line.long 0x0 "MEM_WER,The UART wakeup enable register is used to mask and unmask a UART event that would subsequently notify the system. The events are any activity in the logic that could cause an interrupt and/ or an activity that would require the system to wakeup." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "EVENT_7_TX_WAKEUP_EN," "0,1" newline bitfld.long 0x0 6. "EVENT_6_RECEIVER_LINE_STATUS_INTERRUPT," "0,1" newline bitfld.long 0x0 5. "EVENT_5_RHR_INTERRUPT," "0,1" newline bitfld.long 0x0 4. "EVENT_4_RX_ACTIVITY," "0,1" newline bitfld.long 0x0 3. "EVENT_3_DCD_CD_ACTIVITY," "0,1" newline bitfld.long 0x0 2. "EVENT_2_RI_ACTIVITY," "0,1" newline bitfld.long 0x0 1. "EVENT_1_DSR_ACTIVITY," "0,1" newline bitfld.long 0x0 0. "EVENT_0_CTS_ACTIVITY," "0,1" line.long 0x4 "MEM_CFPS,Since the Consumer IR works at modulation rates of 30 56.8 KHz. the 48 MHz clock must be pre scaled before the clock can drive the IR logic. This register sets the divisor rate to give a range to accommodate the remote control requirements in.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "CFPS,System clock frequency prescaler at [12x multiple]. Examples for CFPS values are given in the table below. Target Freq [KHz] CFPS [decimal] Actual Freq[KHz] 30 133 30.08 32.75 122 32.79 36 111 36.04 36.7 109 36.69 38* 105 38.1.." rgroup.long 0x64++0x7 line.long 0x0 "MEM_RXFIFO_LVL,Level of the RX FIFO" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED24," newline hexmask.long.byte 0x0 0.--7. 1. "RXFIFO_LVL," line.long 0x4 "MEM_TXFIFO_LVL,Level of the TX FIFO" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED24," newline hexmask.long.byte 0x4 0.--7. 1. "TXFIFO_LVL," group.long 0x6C++0xB line.long 0x0 "MEM_IER2,Enables RX/TX FIFOs empty corresponding interrupts." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED1," newline hexmask.long.byte 0x0 3.--7. 1. "RESERVED," newline bitfld.long 0x0 2. "RHR_IT_DIS," "0,1" newline bitfld.long 0x0 1. "EN_TXFIFO_EMPTY,Enables[1]/DISABLES[00 EN_TXFIFO_EMPTY interrupt." "0,1" newline bitfld.long 0x0 0. "EN_RXFIFO_EMPTY,Enables[1]/disables[0] EN_RXFIFO_EMPTY interrupt." "0,1" line.long 0x4 "MEM_ISR2,Status of RX/TX FIFOs empty corresponding interrupts." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED1," newline hexmask.long.byte 0x4 2.--7. 1. "RESERVED," newline bitfld.long 0x4 1. "TXFIFO_EMPTY_STS,TXFIFO interrupt pending" "0,1" newline bitfld.long 0x4 0. "RXFIFO_EMPTY_STS,RXFIFO interrupt pending" "0,1" line.long 0x8 "MEM_FREQ_SEL,Sample per bit value selector" hexmask.long.byte 0x8 0.--7. 1. "FREQ_SEL,Sets the sample per bit if non default frequency is used. MDR3[1] must be set to 1 after this value is set. Must be equal or higher then 6." rgroup.long 0x78++0x7 line.long 0x0 "MEM_ABAUD_1ST_CHAR,Unused" hexmask.long 0x0 0.--31. 1. "RESERVED," line.long 0x4 "MEM_BAUD_2ND_CHAR,Unused" hexmask.long 0x4 0.--31. 1. "RESERVED," group.long 0x80++0x23 line.long 0x0 "MEM_MDR3,Mode definition register 3." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED2," newline bitfld.long 0x0 4. "DIR_EN,RS-485 External Transceiver Direction Enable" "0,1" newline bitfld.long 0x0 3. "DIR_POL,RS-485 External Transceiver Direction Polarity. 0 => TX: RTS=0 RX: RTS=1. 1 => TX: RTS=1 RX: RTS=0" "0: TX: RTS=0,1: TX: RTS=1" newline bitfld.long 0x0 2. "SET_DMA_TX_THRESHOLD,Enable to set different TX DMA threshold then 64-trigger [usage of new register TX_DNA_THRESHOLD]" "0,1" newline bitfld.long 0x0 1. "NONDEFAULT_FREQ,Enables[1]/Disables[0] using NONDEFAULT fclk frequencies" "0,1" newline bitfld.long 0x0 0. "DISABLE_CIR_RX_DEMOD,Disables[1]/Enables[0] CIR RX demodulation" "0,1" line.long 0x4 "MEM_TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level." hexmask.long.byte 0x4 0.--5. 1. "TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level." line.long 0x8 "MEM_MDR4,Mode definition register 4" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED1," newline rbitfld.long 0x8 7. "RESERVED," "0,1" newline bitfld.long 0x8 6. "MODE9,9-bit character length. When '1' overrides character length setting in LCR" "0,1" newline bitfld.long 0x8 3.--5. "FREQ_SEL_H,Upper 3 bits of FREQ_SEL register for higher division values as required for example for FI/Di in ISO7816 mode" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 0.--2. "MODE,New modes [when set overrides MDR1 modes]" "0,1,2,3,4,5,6,7" line.long 0xC "MEM_EFR2,Enhanced Features Register 2" hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED1," newline bitfld.long 0xC 7. "BROADCAST,Enables broadcast address matching in multi-drop address match mode" "0,1" newline bitfld.long 0xC 6. "TIMEOUT_BEHAVE,Specifies how timeout is measured" "0,1" newline bitfld.long 0xC 5. "C8,Value for ISO 7816 C8 pin for software control" "0,1" newline bitfld.long 0xC 4. "C4,Value for ISO 7816 C4 pin for software control" "0,1" newline bitfld.long 0xC 3. "C2,Value for ISO 7816 reset pin [software controllable]" "0,1" newline bitfld.long 0xC 2. "MULTIDROP,Enables parity Multi-drop mode [overrides LCR[5..3]] when '1'" "0,1" newline bitfld.long 0xC 1. "RHR_OVERRUN,RHR Overrun behaviour when buffer full" "0,1" newline bitfld.long 0xC 0. "ENDIAN,Endianness" "0,1" line.long 0x10 "MEM_ECR,Enhanced Control register" hexmask.long.tbyte 0x10 8.--31. 1. "RESERVED1," newline rbitfld.long 0x10 6.--7. "RESERVED," "0,1,2,3" newline bitfld.long 0x10 5. "CLEAR_TX_PE,Write 1 to clear parity error from the Transmitter to allow it to continue to try sending data [ISO7816 transmit only]" "0,1" newline bitfld.long 0x10 4. "TX_EN,Enables/Disables the transmitter" "0,1" newline bitfld.long 0x10 3. "RX_EN,Enables/Disables the receiver" "0,1" newline bitfld.long 0x10 2. "TX_RST,Writing '1' resets the transmitter" "0,1" newline bitfld.long 0x10 1. "RX_RST,Writing '1' resets the receiver" "0,1" newline bitfld.long 0x10 0. "A_MULTIDROP,In multi-drop mode when written with the value '1' causes the next byte written into THR to be transmitted with the parity bit set signaling an address" "0,1" line.long 0x14 "MEM_TIMEGUARD,Timeguard" hexmask.long.tbyte 0x14 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x14 0.--7. 1. "TIMEGUARD,Specifies the amount of idle baud clocks [transmitter bit period] to insert between transmitted bytes useful when comunicating with slower devices" line.long 0x18 "MEM_TIMEOUTL,Timeout lower byte" hexmask.long.tbyte 0x18 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x18 0.--7. 1. "TIMEOUT_L,Custom timeout period in baud clocks to override the internal value when different from 0. [Lower byte of the 16 bit value]" line.long 0x1C "MEM_TIMEOUTH,Timeout higher byte" hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x1C 0.--7. 1. "TIMEOUT_H,Custom timeout period in baud clocks to override the internal value when different from 0. [Higher byte of the 16 bit value]" line.long 0x20 "MEM_SCCR,Smartcard (ISO7816) mode Control Register" hexmask.long.tbyte 0x20 8.--31. 1. "RESERVED1," newline bitfld.long 0x20 7. "DSNACK,Applies Max_Iteration to receiver aswell - when maximum number of NACKs have been returned the receiver will accept the data regardless of error. The data will be loaded into the receiver FIFO and PE will be set when reading it." "0,1" newline bitfld.long 0x20 6. "INACK,Inhibit NACK when receiving even if an error is received. The data will be loaded into the receiver FIFO and PE will be set when reading it." "0,1" newline rbitfld.long 0x20 3.--5. "RESERVED," "0,1,2,3,4,5,6,7" newline bitfld.long 0x20 0.--2. "MAX_ITERATION,Number of times to repeat transmitted character if the receiver did not acknowledge. If not acknowledged after the max value is reached the USART transmitter will set parity error stop and not continue until it is cleared." "0,1,2,3,4,5,6,7" rgroup.long 0xA4++0x3 line.long 0x0 "MEM_ERHR,Extended Receive Holding Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--8. 1. "ERHR,Extended Receive Holding Register - allows accessing the full 9bit RHR" group.long 0xA4++0xF line.long 0x0 "MEM_ETHR,Extended Transmit Holding Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--8. 1. "ETHR,Extended Transmit Holding Register - allows writing the full 9bit RHR" line.long 0x4 "MEM_MAR,Multidrop Address Register" hexmask.long.byte 0x4 0.--7. 1. "ADDRESS,Multidrop match address value" line.long 0x8 "MEM_MMR,Multidrop Mask Register" hexmask.long.byte 0x8 0.--7. 1. "MASK,Address match masking value ? writing a 0 to a bit means that the corresponding address bit will be ignored in matching" line.long 0xC "MEM_MBR,Multidrop Broadcast Address Register" hexmask.long.byte 0xC 0.--7. 1. "BROADCAST_ADDRESS,Broadcast address for address matching" tree.end tree "UART3 (UART3)" base ad:0x2830000 group.long 0x0++0x3 line.long 0x0 "MEM_DLL,Divisor Latches Low Register" hexmask.long.byte 0x0 0.--7. 1. "CLOCK_LSB,Used to store the 8-bit LSB divisor value" rgroup.long 0x0++0x3 line.long 0x0 "MEM_RHR,The receiver section consists of the receiver holding register (RHR) and the receiver shift register. The RHR is actually a 64-byte FIFO. The receiver shift register receives serial data from RX input. The data is converted to parallel data and.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "RHR,Receive holding register" group.long 0x0++0x7 line.long 0x0 "MEM_THR,The transmitter section consists of the transmit holding register (THR) and the transmit shift register. The transmit holding register is actually a 64-byte FIFO. The LH writes data to the THR. The data is placed into the transmit shift register.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "THR,TRANSMIT HOLDING REGISTER" line.long 0x4 "MEM_DLH,Divisor Latches High Register" hexmask.long.byte 0x4 0.--7. 1. "CLOCK_MSB,Used to store the 8-bit MSB divisor value" group.long 0x4++0x3 line.long 0x0 "MEM_IER_CIR,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are 6 types of interrupt in these modes. TX status. status FIFO interrupt. RX overrun. last byte in RX FIFO. THR interrupt and RHR interrupt and they.." bitfld.long 0x0 6.--7. "NOT_USED2," "0,1,2,3" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "NOT_USED1," "0,1" newline bitfld.long 0x0 3. "RX_OVERRUN_IT," "0,1" newline bitfld.long 0x0 2. "RX_STOP_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" group.long 0x4++0x3 line.long 0x0 "MEM_IER_IRDA,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are 8 types of interrupt in these modes. received EOF. LSR interrupt. TX status. status FIFO interrupt. RX overrun. last byte in RX FIFO. THR.." bitfld.long 0x0 7. "EOF_IT," "0,1" newline bitfld.long 0x0 6. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "STS_FIFO_TRIG_IT," "0,1" newline bitfld.long 0x0 3. "RX_OVERRUN_IT," "0,1" newline bitfld.long 0x0 2. "LAST_RX_BYTE_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" group.long 0x4++0x7 line.long 0x0 "MEM_IER_UART,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are seven types of interrupt in this mode: receiver error. RHR interrupt. THR interrupt. XOFF received and CTS*/RTS* change of state from low to.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "CTS_IT," "0,1" newline bitfld.long 0x0 6. "RTS_IT," "0,1" newline bitfld.long 0x0 5. "XOFF_IT," "0,1" newline bitfld.long 0x0 4. "SLEEP_MODE," "0,1" newline bitfld.long 0x0 3. "MODEM_STS_IT," "0,1" newline bitfld.long 0x0 2. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" line.long 0x4 "MEM_EFR,Enhanced Feature Register" bitfld.long 0x4 7. "AUTO_CTS_EN,Auto-CTS enable bit. 0: Normal operation. 1: Auto-CTS flow control is enabled i.e. transmission is halted when the CTS* pin is high (inactive)." "0: Normal operation,1: Auto-CTS flow control is enabled i" newline bitfld.long 0x4 6. "AUTO_RTS_EN,Auto-RTS enable bit. 0: Normal operation. 1: Auto- RTS flow control is enabled i.e. RTS* pin goes high (inactive) when the receiver FIFO HALT trigger level TCR[3:0] is reached and goes low (active) when the receiver FIFO RESTORE.." "0: Normal operation,1: Auto- RTS flow control is enabled i" newline bitfld.long 0x4 5. "SPECIAL_CHAR_DETECT,0: Normal operation. 1: Special character detect enable. Received data is compared with XOFF2 data. If a match occurs the received data is transferred to RX FIFO and IIR bit 4 is set to 1 to indicate a special character has been.." "0: Normal operation,1: Special character detect enable" newline bitfld.long 0x4 4. "ENHANCED_EN,Enhanced functions write enable bit. 0: Disables writing to IER bits 4-7 FCR bits 4-5 and MCR bits 5-7. 1: Enables writing to IER bits 4-7 FCR bits 4-5 and MCR bits 5-7." "0: Disables writing to IER bits 4-7,1: Enables writing to IER bits 4-7" newline hexmask.long.byte 0x4 0.--3. 1. "SW_FLOW_CONTROL,Combinations of Software flow control can be selected by programming bit 3 - bit 0. See Software Flow Control Options" group.long 0x8++0x3 line.long 0x0 "MEM_FCR,Notes:" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 6.--7. "RX_FIFO_TRIG,Sets the trigger level for the RX FIFO: If SCR[7] = 0 and TLR[7:4] = 0000: 00: 8 characters 01: 16 characters 10: 56 characters 11: 60 characters If SCR[7] = 0 and TLR[7:4] != 0000 RX_FIFO_TRIG is not considered. If SCR[7]=1 .." "0: 8 characters,1: 16 characters,?,?" newline bitfld.long 0x0 4.--5. "TX_FIFO_TRIG,Sets the trigger level for the TX FIFO: If SCR[6] = 0 and TLR[3:0] = 0000: 00: 8 spaces 01: 16 spaces 10: 32 spaces 11: 56 spaces If SCR[6] = 0 and TLR[3:0] != 0000 TX_FIFO_TRIG is not considered. If SCR[6]=1 TX_FIFO_TRIG is 2 LSB of.." "0: 8 spaces,1: 16 spaces,?,?" newline bitfld.long 0x0 3. "DMA_MODE,This register is considered if SCR[0] = 0." "0,1" newline bitfld.long 0x0 2. "TX_FIFO_CLEAR," "0,1" newline bitfld.long 0x0 1. "RX_FIFO_CLEAR," "0,1" newline bitfld.long 0x0 0. "FIFO_EN," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_CIR,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 3. "RX_OE_IT," "0,1" newline bitfld.long 0x0 2. "RX_STOP_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_IRDA,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." bitfld.long 0x0 7. "EOF_IT," "0,1" newline bitfld.long 0x0 6. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "STS_FIFO_IT," "0,1" newline bitfld.long 0x0 3. "RX_OE_IT," "0,1" newline bitfld.long 0x0 2. "RX_FIFO_LAST_BYTE_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_UART,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 6.--7. "FCR_MIRROR,Mirror the contents of FCR[0] on both bits." "0,1,2,3" newline hexmask.long.byte 0x0 1.--5. 1. "IT_TYPE," newline bitfld.long 0x0 0. "IT_PENDING," "0,1" group.long 0xC++0x7 line.long 0x0 "MEM_LCR,LCR[6:0] define parameters of the transmission and reception." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "DIV_EN," "0,1" newline bitfld.long 0x0 6. "BREAK_EN,Break control bit." "0,1" newline bitfld.long 0x0 5. "PARITY_TYPE2,Selects the forced parity format [if LCR[3] = 1]. If LCR[5] = 1 and LCR[4] = 0 the parity bit is forced to 1 in the transmitted and received data. If LCR[5] = 1 and LCR[4] = 1 the parity bit is forced to 0 in the transmitted and received.." "0,1" newline bitfld.long 0x0 4. "PARITY_TYPE1," "0,1" newline bitfld.long 0x0 3. "PARITY_EN," "0,1" newline bitfld.long 0x0 2. "NB_STOP,Specifies the number of stop bits:" "0,1" newline bitfld.long 0x0 0.--1. "CHAR_LENGTH,Specifies the word length to be transmitted or received." "0,1,2,3" line.long 0x4 "MEM_MCR,MCR[3:0] controls the interface with the modem. data set or peripheral device that is emulating the modem." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline rbitfld.long 0x4 7. "RESERVED," "0,1" newline bitfld.long 0x4 6. "TCR_TLR," "0,1" newline bitfld.long 0x4 5. "XON_EN," "0,1" newline bitfld.long 0x4 4. "LOOPBACK_EN," "0,1" newline bitfld.long 0x4 3. "CD_STS_CH," "0,1" newline bitfld.long 0x4 2. "RI_STS_CH," "0,1" newline bitfld.long 0x4 1. "RTS,In loop back controls MSR[4]. If auto-RTS is enabled the RTS* output is controlled by hardware flow control." "0,1" newline bitfld.long 0x4 0. "DTR," "0,1" group.long 0x10++0x3 line.long 0x0 "MEM_XON1_ADDR1,XON1/ADDR1 Register" hexmask.long.byte 0x0 0.--7. 1. "XON_WORD1,Used to store the 8-bit XON1 character in UART modes and ADDR1 address 1 for IrDA modes." rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_CIR," bitfld.long 0x0 7. "THR_EMPTY," "0,1" newline bitfld.long 0x0 6. "RESERVED," "0,1" newline bitfld.long 0x0 5. "RX_STOP,The RX_STOP is generated based on the value set in the BOF Length register (EBLR). It is cleared on a single read of the LSR register" "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_IRDA," bitfld.long 0x0 7. "THR_EMPTY," "0,1" newline bitfld.long 0x0 6. "STS_FIFO_FULL," "0,1" newline bitfld.long 0x0 5. "RX_LAST_BYTE," "0,1" newline bitfld.long 0x0 4. "FRAME_TOO_LONG," "0,1" newline bitfld.long 0x0 3. "ABORT," "0,1" newline bitfld.long 0x0 2. "CRC," "0,1" newline bitfld.long 0x0 1. "STS_FIFO_E," "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_UART," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "RX_FIFO_STS," "0,1" newline bitfld.long 0x0 6. "TX_SR_E," "0,1" newline bitfld.long 0x0 5. "TX_FIFO_E," "0,1" newline bitfld.long 0x0 4. "RX_BI," "0,1" newline bitfld.long 0x0 3. "RX_FE," "0,1" newline bitfld.long 0x0 2. "RX_PE," "0,1" newline bitfld.long 0x0 1. "RX_OE," "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" group.long 0x14++0x3 line.long 0x0 "MEM_XON2_ADDR2,XON2/ADDR2 Register" hexmask.long.byte 0x0 0.--7. 1. "XON_WORD2,Used to store the 8-bit XON2 character in UART modes and ADDR2 address 2 for IrDA modes." rgroup.long 0x18++0x3 line.long 0x0 "MEM_MSR,This register provides information about the current state of the control lines from the modem. data set or peripheral device to the LH. It also indicates when a control input from the modem changes state." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "NCD_STS,This bit is the complement of the DCD* input. In loop-back mode it is equivalent to MCR[3]" "0,1" newline bitfld.long 0x0 6. "NRI_STS,This bit is the complement of the RI* input. In loop-back mode it is equivalent to MCR[2]" "0,1" newline bitfld.long 0x0 5. "NDSR_STS,This bit is the complement of the DSR* input. In loop-back mode it is equivalent to MCR[0]" "0,1" newline bitfld.long 0x0 4. "NCTS_STS,This bit is the complement of the CTS* input. In loop-back mode it is equivalent to MCR[1]" "0,1" newline bitfld.long 0x0 3. "DCD_STS,Indicates that DCD* input [or MCR[3] in loop back] has changed. Cleared on a read." "0,1" newline bitfld.long 0x0 2. "RI_STS,Indicates that RI* input [or MCR[2] in loop back] has changed state from low to high. Cleared on a read." "0,1" newline bitfld.long 0x0 1. "DSR_STS," "0,1" newline bitfld.long 0x0 0. "CTS_STS," "0,1" group.long 0x18++0x3 line.long 0x0 "MEM_TCR,Transmission Control Register" hexmask.long.byte 0x0 4.--7. 1. "RX_FIFO_TRIG_START,RX FIFO trigger level to RESTORE transmission (0 - 60)" newline hexmask.long.byte 0x0 0.--3. 1. "RX_FIFO_TRIG_HALT,RX FIFO trigger level to HALT transmission (0 - 60)" group.long 0x18++0x7 line.long 0x0 "MEM_XOFF1,XOFF1 Register" hexmask.long.byte 0x0 0.--7. 1. "XOFF_WORD1,Used to store the 8-bit XOFF1 character in used in UART modes." line.long 0x4 "MEM_SPR,This read/write register does not control the module in anyway. It is intended as a scratchpad register to be used by the programmer to hold temporary data." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "SPR_WORD,Scratchpad register" group.long 0x1C++0x3 line.long 0x0 "MEM_TLR,Trigger Level Register" hexmask.long.byte 0x0 4.--7. 1. "RX_FIFO_TRIG_DMA,Receive FIFO trigger level" newline hexmask.long.byte 0x0 0.--3. 1. "TX_FIFO_TRIG_DMA,Transmit FIFO trigger level" group.long 0x1C++0xB line.long 0x0 "MEM_XOFF2,XOFF2 Register" hexmask.long.byte 0x0 0.--7. 1. "XOFF_WORD2,Used to store the 8-bit XOFF2 character in used in UART modes." line.long 0x4 "MEM_MDR1,The mode of operation can be programmed by writing to MDR1[2:0] and therefore the MDR1 must be programmed on start-up after configuration of the configuration registers (DLL. DLH. LCR). The value of MDR1[2:0] must not be changed again during.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline bitfld.long 0x4 7. "FRAME_END_MODE,IrDA mode only." "0,1" newline bitfld.long 0x4 6. "SIP_MODE,MIR/FIR modes only." "0,1" newline bitfld.long 0x4 5. "SCT,Store and control the transmission" "0,1" newline bitfld.long 0x4 4. "SET_TXIR,Used to configure the infrared transceiver." "0,1" newline bitfld.long 0x4 3. "IR_SLEEP," "0,1" newline bitfld.long 0x4 0.--2. "MODE_SELECT," "0,1,2,3,4,5,6,7" line.long 0x8 "MEM_MDR2,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline bitfld.long 0x8 7. "SET_TXIR_ALT,Provide alternate functionnality for MDR1[4] [SET_TXIR]" "0,1" newline bitfld.long 0x8 6. "IRRXINVERT,Only for IR mode [IRDA & CIR]Invert RX pin inside the module before the voting or sampling system logic of the infra red block. This will not affect the RX path in UART Modem modes." "0,1" newline bitfld.long 0x8 4.--5. "CIR_PULSE_MODE,CIR Pulse modulation definition. It defines high level of the pulse width associated with a digit:" "0,1,2,3" newline bitfld.long 0x8 3. "UART_PULSE,UART mode only. Used to allow pulse shaping in UART mode." "0,1" newline bitfld.long 0x8 1.--2. "STS_FIFO_TRIG,Only for IR-IRDA mode. Frame Status FIFO Threshold select:" "0,1,2,3" newline rbitfld.long 0x8 0. "IRTX_UNDERRUN,IRDA Transmission status interrupt.When the IIR[5] interrupt occurs the meaning of the interrupt is :" "0,1" rgroup.long 0x28++0x3 line.long 0x0 "MEM_SFLSR,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 5.--7. "RESERVED5," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 4. "OE_ERROR," "0,1" newline bitfld.long 0x0 3. "FRAME_TOO_LONG_ERROR," "0,1" newline bitfld.long 0x0 2. "ABORT_DETECT," "0,1" newline bitfld.long 0x0 1. "CRC_ERROR," "0,1" newline bitfld.long 0x0 0. "RESERVED0," "0,1" group.long 0x28++0x3 line.long 0x0 "MEM_TXFLL,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "TXFLL,LSB register used to specify the frame length" rgroup.long 0x2C++0x3 line.long 0x0 "MEM_RESUME,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "RESUME,Dummy read to restart the TX or RX" group.long 0x2C++0x7 line.long 0x0 "MEM_TXFLH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline rbitfld.long 0x0 5.--7. "RESERVED," "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--4. 1. "TXFLH,MSB register used to specify the frame length" line.long 0x4 "MEM_RXFLL,IrDA modes only." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "RXFLL,LSB register used to specify the frame length in reception" rgroup.long 0x30++0x3 line.long 0x0 "MEM_SFREGL,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "SFREGL,LSB part of the frame length" group.long 0x34++0x3 line.long 0x0 "MEM_RXFLH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 4.--7. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "RXFLH,MSB register used to specify the frame length in reception" rgroup.long 0x34++0x3 line.long 0x0 "MEM_SFREGH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 4.--7. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "SFREGH,MSB part of the frame length" group.long 0x38++0x3 line.long 0x0 "MEM_BLR,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "STS_FIFO_RESET,Status FIFO reset. This bit is self-clearing" "0,1" newline bitfld.long 0x0 6. "XBOF_TYPE,SIR xBOF select." "0,1" newline hexmask.long.byte 0x0 0.--5. 1. "RESERVED," rgroup.long 0x38++0x3 line.long 0x0 "MEM_UASR,UART Autobauding Status Register" bitfld.long 0x0 6.--7. "PARITY_TYPE,00 => No Parity identified. 01 => Parity space. 10 => Even Parity. 11 => Odd Parity" "0: No Parity identified,1: Parity space,?,?" newline bitfld.long 0x0 5. "BIT_BY_CHAR,0 => 7 bits character identified. 1 => 8 bits character identified" "0: 7 bits character identified,1: 8 bits character identified" newline hexmask.long.byte 0x0 0.--4. 1. "SPEED,Used to report the speed identified. 00000 => No speed identified. 00001 => 115200 bauds. 00010 => 57600 bauds. 00011 => 38400 bauds. 00100 => 28800 bauds. 00101 => 19200 bauds. 00110 => 14400 bauds. 00111 => 9600 bauds. 01000 => 4800 bauds. 01001.." group.long 0x3C++0xF line.long 0x0 "MEM_ACREG,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "PULSE_TYPE,SIR pulse width select:" "0,1" newline bitfld.long 0x0 6. "SD_MOD,Primary output used to configure transceivers. Connected to the SD/MODE input pin of IrDA transceivers." "0,1" newline bitfld.long 0x0 5. "DIS_IR_RX," "0,1" newline bitfld.long 0x0 4. "DIS_TX_UNDERRUN,It is recommended to disable TX FIFO underrun capability by masking corresponding underrun interrupt. When disabling underrun by setting ACREG[4]=1 garbage data is sent over TX line." "0,1" newline bitfld.long 0x0 3. "SEND_SIP,MIR/FIR Modes only.Send Serial Infrared Interaction Pulse [SIP] If this bit is set during a MIR/FIR transmission the SIP will be send at the end of it.This bit automatically gets cleared at the end of the SIP transmission." "0,1" newline bitfld.long 0x0 2. "SCTX_EN,Store and controlled TX start. When MDR1[5] = 1 and the LH writes 1 to this bit the TX state machine starts frame transmission. This bit is self-clearing." "0,1" newline bitfld.long 0x0 1. "ABORT_EN,Frame Abort. The LH can intentionally abort transmission of a frame by writing 1 to this bit. Neither the end flag nor the CRC bits are appended to the frame. If transmit FIFO is not empty and MDR1[5]=1 UART IrDA will start a new transfer.." "0,1" newline bitfld.long 0x0 0. "EOT_EN,EOT [end of transmission] bit. The LH writes 1 to this bit just before it writes the last byte to the TX FIFO in set-EOT bit frame closing method. This bit automatically gets cleared when the LH writes to the THR [TX FIFO]." "0,1" line.long 0x4 "MEM_SCR,Note: Bit 4 enables the wake-up interrupt. but this interrupt is not mapped into the IIR register. Therefore. when an interrupt occurs and there is no interrupt pending in the IIR register. the SSR[1] bit must be checked. To clear the wake-up.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline bitfld.long 0x4 7. "RX_TRIG_GRANU1," "0,1" newline bitfld.long 0x4 6. "TX_TRIG_GRANU1," "0,1" newline bitfld.long 0x4 5. "DSR_IT," "0,1" newline bitfld.long 0x4 4. "RX_CTS_DSR_WAKE_UP_ENABLE," "0,1" newline bitfld.long 0x4 3. "TX_EMPTY_CTL_IT," "0,1" newline bitfld.long 0x4 1.--2. "DMA_MODE_2,Used to specify the DMA mode valid if SCR[0] = 1" "0,1,2,3" newline bitfld.long 0x4 0. "DMA_MODE_CTL," "0,1" line.long 0x8 "MEM_SSR,Note: Bit 1 is reset only when SCR[4] is reset to 0." hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x8 3.--7. 1. "RESERVED," newline bitfld.long 0x8 2. "DMA_COUNTER_RST," "0,1" newline rbitfld.long 0x8 1. "RX_CTS_DSR_WAKE_UP_STS," "0,1" newline rbitfld.long 0x8 0. "TX_FIFO_FULL," "0,1" line.long 0xC "MEM_EBLR,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED," newline hexmask.long.byte 0xC 0.--7. 1. "EBLR,IR-IRDA mode: This register allows to define up to 176 xBOFs the maximum required by IrDA specification. IR-CIR mode: This register specifies the number of consecutive zeros to be received before generating the RX_STOP interrupt [IIR[2]]. 0x00:.." rgroup.long 0x50++0x3 line.long 0x0 "MEM_MVR,The reset value is fixed by hardware and corresponds to the RTL revision of this module. A reset has no effect on the value returned" bitfld.long 0x0 30.--31. "SCHEME,Scheme revision number of module" "0,1,2,3" newline bitfld.long 0x0 28.--29. "RESERVED," "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "FUNC,Function revision number of module" newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Rtl revision number of module" newline bitfld.long 0x0 8.--10. "MAJOR,Major revision number of the module." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom revision number of the module." "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number of the module." group.long 0x54++0x3 line.long 0x0 "MEM_SYSC,The auto idle bit controls a power saving technique to reduce the logic power consumption of the OCP interface. That is to say when the feature is enabled. the clock will be gated off until an OCP command for this device has been detected. When.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline rbitfld.long 0x0 5.--7. "RESERVED," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 3.--4. "IDLEMODE,POWER MANAGEMENT REQ/ACK CONTROL REF: OCP DESIGN GUIDELINES VERSION 1.1" "0,1,2,3" newline bitfld.long 0x0 2. "ENAWAKEUP,WAKE UP FEATURE CONTROL" "0,1" newline bitfld.long 0x0 1. "SOFTRESET,Software reset. Set this bit to 1 to trigger a module reset. This bit is automatically reset by the hardware. During reads it always returns a 0." "0,1" newline bitfld.long 0x0 0. "AUTOIDLE,Internal OCP clock gating strategy" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "MEM_SYSS," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 1.--7. 1. "RESERVED," newline bitfld.long 0x0 0. "RESETDONE,Internal Reset Monitoring" "0,1" group.long 0x5C++0x7 line.long 0x0 "MEM_WER,The UART wakeup enable register is used to mask and unmask a UART event that would subsequently notify the system. The events are any activity in the logic that could cause an interrupt and/ or an activity that would require the system to wakeup." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "EVENT_7_TX_WAKEUP_EN," "0,1" newline bitfld.long 0x0 6. "EVENT_6_RECEIVER_LINE_STATUS_INTERRUPT," "0,1" newline bitfld.long 0x0 5. "EVENT_5_RHR_INTERRUPT," "0,1" newline bitfld.long 0x0 4. "EVENT_4_RX_ACTIVITY," "0,1" newline bitfld.long 0x0 3. "EVENT_3_DCD_CD_ACTIVITY," "0,1" newline bitfld.long 0x0 2. "EVENT_2_RI_ACTIVITY," "0,1" newline bitfld.long 0x0 1. "EVENT_1_DSR_ACTIVITY," "0,1" newline bitfld.long 0x0 0. "EVENT_0_CTS_ACTIVITY," "0,1" line.long 0x4 "MEM_CFPS,Since the Consumer IR works at modulation rates of 30 56.8 KHz. the 48 MHz clock must be pre scaled before the clock can drive the IR logic. This register sets the divisor rate to give a range to accommodate the remote control requirements in.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "CFPS,System clock frequency prescaler at [12x multiple]. Examples for CFPS values are given in the table below. Target Freq [KHz] CFPS [decimal] Actual Freq[KHz] 30 133 30.08 32.75 122 32.79 36 111 36.04 36.7 109 36.69 38* 105 38.1.." rgroup.long 0x64++0x7 line.long 0x0 "MEM_RXFIFO_LVL,Level of the RX FIFO" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED24," newline hexmask.long.byte 0x0 0.--7. 1. "RXFIFO_LVL," line.long 0x4 "MEM_TXFIFO_LVL,Level of the TX FIFO" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED24," newline hexmask.long.byte 0x4 0.--7. 1. "TXFIFO_LVL," group.long 0x6C++0xB line.long 0x0 "MEM_IER2,Enables RX/TX FIFOs empty corresponding interrupts." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED1," newline hexmask.long.byte 0x0 3.--7. 1. "RESERVED," newline bitfld.long 0x0 2. "RHR_IT_DIS," "0,1" newline bitfld.long 0x0 1. "EN_TXFIFO_EMPTY,Enables[1]/DISABLES[00 EN_TXFIFO_EMPTY interrupt." "0,1" newline bitfld.long 0x0 0. "EN_RXFIFO_EMPTY,Enables[1]/disables[0] EN_RXFIFO_EMPTY interrupt." "0,1" line.long 0x4 "MEM_ISR2,Status of RX/TX FIFOs empty corresponding interrupts." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED1," newline hexmask.long.byte 0x4 2.--7. 1. "RESERVED," newline bitfld.long 0x4 1. "TXFIFO_EMPTY_STS,TXFIFO interrupt pending" "0,1" newline bitfld.long 0x4 0. "RXFIFO_EMPTY_STS,RXFIFO interrupt pending" "0,1" line.long 0x8 "MEM_FREQ_SEL,Sample per bit value selector" hexmask.long.byte 0x8 0.--7. 1. "FREQ_SEL,Sets the sample per bit if non default frequency is used. MDR3[1] must be set to 1 after this value is set. Must be equal or higher then 6." rgroup.long 0x78++0x7 line.long 0x0 "MEM_ABAUD_1ST_CHAR,Unused" hexmask.long 0x0 0.--31. 1. "RESERVED," line.long 0x4 "MEM_BAUD_2ND_CHAR,Unused" hexmask.long 0x4 0.--31. 1. "RESERVED," group.long 0x80++0x23 line.long 0x0 "MEM_MDR3,Mode definition register 3." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED2," newline bitfld.long 0x0 4. "DIR_EN,RS-485 External Transceiver Direction Enable" "0,1" newline bitfld.long 0x0 3. "DIR_POL,RS-485 External Transceiver Direction Polarity. 0 => TX: RTS=0 RX: RTS=1. 1 => TX: RTS=1 RX: RTS=0" "0: TX: RTS=0,1: TX: RTS=1" newline bitfld.long 0x0 2. "SET_DMA_TX_THRESHOLD,Enable to set different TX DMA threshold then 64-trigger [usage of new register TX_DNA_THRESHOLD]" "0,1" newline bitfld.long 0x0 1. "NONDEFAULT_FREQ,Enables[1]/Disables[0] using NONDEFAULT fclk frequencies" "0,1" newline bitfld.long 0x0 0. "DISABLE_CIR_RX_DEMOD,Disables[1]/Enables[0] CIR RX demodulation" "0,1" line.long 0x4 "MEM_TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level." hexmask.long.byte 0x4 0.--5. 1. "TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level." line.long 0x8 "MEM_MDR4,Mode definition register 4" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED1," newline rbitfld.long 0x8 7. "RESERVED," "0,1" newline bitfld.long 0x8 6. "MODE9,9-bit character length. When '1' overrides character length setting in LCR" "0,1" newline bitfld.long 0x8 3.--5. "FREQ_SEL_H,Upper 3 bits of FREQ_SEL register for higher division values as required for example for FI/Di in ISO7816 mode" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 0.--2. "MODE,New modes [when set overrides MDR1 modes]" "0,1,2,3,4,5,6,7" line.long 0xC "MEM_EFR2,Enhanced Features Register 2" hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED1," newline bitfld.long 0xC 7. "BROADCAST,Enables broadcast address matching in multi-drop address match mode" "0,1" newline bitfld.long 0xC 6. "TIMEOUT_BEHAVE,Specifies how timeout is measured" "0,1" newline bitfld.long 0xC 5. "C8,Value for ISO 7816 C8 pin for software control" "0,1" newline bitfld.long 0xC 4. "C4,Value for ISO 7816 C4 pin for software control" "0,1" newline bitfld.long 0xC 3. "C2,Value for ISO 7816 reset pin [software controllable]" "0,1" newline bitfld.long 0xC 2. "MULTIDROP,Enables parity Multi-drop mode [overrides LCR[5..3]] when '1'" "0,1" newline bitfld.long 0xC 1. "RHR_OVERRUN,RHR Overrun behaviour when buffer full" "0,1" newline bitfld.long 0xC 0. "ENDIAN,Endianness" "0,1" line.long 0x10 "MEM_ECR,Enhanced Control register" hexmask.long.tbyte 0x10 8.--31. 1. "RESERVED1," newline rbitfld.long 0x10 6.--7. "RESERVED," "0,1,2,3" newline bitfld.long 0x10 5. "CLEAR_TX_PE,Write 1 to clear parity error from the Transmitter to allow it to continue to try sending data [ISO7816 transmit only]" "0,1" newline bitfld.long 0x10 4. "TX_EN,Enables/Disables the transmitter" "0,1" newline bitfld.long 0x10 3. "RX_EN,Enables/Disables the receiver" "0,1" newline bitfld.long 0x10 2. "TX_RST,Writing '1' resets the transmitter" "0,1" newline bitfld.long 0x10 1. "RX_RST,Writing '1' resets the receiver" "0,1" newline bitfld.long 0x10 0. "A_MULTIDROP,In multi-drop mode when written with the value '1' causes the next byte written into THR to be transmitted with the parity bit set signaling an address" "0,1" line.long 0x14 "MEM_TIMEGUARD,Timeguard" hexmask.long.tbyte 0x14 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x14 0.--7. 1. "TIMEGUARD,Specifies the amount of idle baud clocks [transmitter bit period] to insert between transmitted bytes useful when comunicating with slower devices" line.long 0x18 "MEM_TIMEOUTL,Timeout lower byte" hexmask.long.tbyte 0x18 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x18 0.--7. 1. "TIMEOUT_L,Custom timeout period in baud clocks to override the internal value when different from 0. [Lower byte of the 16 bit value]" line.long 0x1C "MEM_TIMEOUTH,Timeout higher byte" hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x1C 0.--7. 1. "TIMEOUT_H,Custom timeout period in baud clocks to override the internal value when different from 0. [Higher byte of the 16 bit value]" line.long 0x20 "MEM_SCCR,Smartcard (ISO7816) mode Control Register" hexmask.long.tbyte 0x20 8.--31. 1. "RESERVED1," newline bitfld.long 0x20 7. "DSNACK,Applies Max_Iteration to receiver aswell - when maximum number of NACKs have been returned the receiver will accept the data regardless of error. The data will be loaded into the receiver FIFO and PE will be set when reading it." "0,1" newline bitfld.long 0x20 6. "INACK,Inhibit NACK when receiving even if an error is received. The data will be loaded into the receiver FIFO and PE will be set when reading it." "0,1" newline rbitfld.long 0x20 3.--5. "RESERVED," "0,1,2,3,4,5,6,7" newline bitfld.long 0x20 0.--2. "MAX_ITERATION,Number of times to repeat transmitted character if the receiver did not acknowledge. If not acknowledged after the max value is reached the USART transmitter will set parity error stop and not continue until it is cleared." "0,1,2,3,4,5,6,7" rgroup.long 0xA4++0x3 line.long 0x0 "MEM_ERHR,Extended Receive Holding Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--8. 1. "ERHR,Extended Receive Holding Register - allows accessing the full 9bit RHR" group.long 0xA4++0xF line.long 0x0 "MEM_ETHR,Extended Transmit Holding Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--8. 1. "ETHR,Extended Transmit Holding Register - allows writing the full 9bit RHR" line.long 0x4 "MEM_MAR,Multidrop Address Register" hexmask.long.byte 0x4 0.--7. 1. "ADDRESS,Multidrop match address value" line.long 0x8 "MEM_MMR,Multidrop Mask Register" hexmask.long.byte 0x8 0.--7. 1. "MASK,Address match masking value ? writing a 0 to a bit means that the corresponding address bit will be ignored in matching" line.long 0xC "MEM_MBR,Multidrop Broadcast Address Register" hexmask.long.byte 0xC 0.--7. 1. "BROADCAST_ADDRESS,Broadcast address for address matching" tree.end tree "UART4 (UART4)" base ad:0x2840000 group.long 0x0++0x3 line.long 0x0 "MEM_DLL,Divisor Latches Low Register" hexmask.long.byte 0x0 0.--7. 1. "CLOCK_LSB,Used to store the 8-bit LSB divisor value" rgroup.long 0x0++0x3 line.long 0x0 "MEM_RHR,The receiver section consists of the receiver holding register (RHR) and the receiver shift register. The RHR is actually a 64-byte FIFO. The receiver shift register receives serial data from RX input. The data is converted to parallel data and.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "RHR,Receive holding register" group.long 0x0++0x7 line.long 0x0 "MEM_THR,The transmitter section consists of the transmit holding register (THR) and the transmit shift register. The transmit holding register is actually a 64-byte FIFO. The LH writes data to the THR. The data is placed into the transmit shift register.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "THR,TRANSMIT HOLDING REGISTER" line.long 0x4 "MEM_DLH,Divisor Latches High Register" hexmask.long.byte 0x4 0.--7. 1. "CLOCK_MSB,Used to store the 8-bit MSB divisor value" group.long 0x4++0x3 line.long 0x0 "MEM_IER_CIR,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are 6 types of interrupt in these modes. TX status. status FIFO interrupt. RX overrun. last byte in RX FIFO. THR interrupt and RHR interrupt and they.." bitfld.long 0x0 6.--7. "NOT_USED2," "0,1,2,3" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "NOT_USED1," "0,1" newline bitfld.long 0x0 3. "RX_OVERRUN_IT," "0,1" newline bitfld.long 0x0 2. "RX_STOP_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" group.long 0x4++0x3 line.long 0x0 "MEM_IER_IRDA,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are 8 types of interrupt in these modes. received EOF. LSR interrupt. TX status. status FIFO interrupt. RX overrun. last byte in RX FIFO. THR.." bitfld.long 0x0 7. "EOF_IT," "0,1" newline bitfld.long 0x0 6. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "STS_FIFO_TRIG_IT," "0,1" newline bitfld.long 0x0 3. "RX_OVERRUN_IT," "0,1" newline bitfld.long 0x0 2. "LAST_RX_BYTE_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" group.long 0x4++0x7 line.long 0x0 "MEM_IER_UART,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are seven types of interrupt in this mode: receiver error. RHR interrupt. THR interrupt. XOFF received and CTS*/RTS* change of state from low to.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "CTS_IT," "0,1" newline bitfld.long 0x0 6. "RTS_IT," "0,1" newline bitfld.long 0x0 5. "XOFF_IT," "0,1" newline bitfld.long 0x0 4. "SLEEP_MODE," "0,1" newline bitfld.long 0x0 3. "MODEM_STS_IT," "0,1" newline bitfld.long 0x0 2. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" line.long 0x4 "MEM_EFR,Enhanced Feature Register" bitfld.long 0x4 7. "AUTO_CTS_EN,Auto-CTS enable bit. 0: Normal operation. 1: Auto-CTS flow control is enabled i.e. transmission is halted when the CTS* pin is high (inactive)." "0: Normal operation,1: Auto-CTS flow control is enabled i" newline bitfld.long 0x4 6. "AUTO_RTS_EN,Auto-RTS enable bit. 0: Normal operation. 1: Auto- RTS flow control is enabled i.e. RTS* pin goes high (inactive) when the receiver FIFO HALT trigger level TCR[3:0] is reached and goes low (active) when the receiver FIFO RESTORE.." "0: Normal operation,1: Auto- RTS flow control is enabled i" newline bitfld.long 0x4 5. "SPECIAL_CHAR_DETECT,0: Normal operation. 1: Special character detect enable. Received data is compared with XOFF2 data. If a match occurs the received data is transferred to RX FIFO and IIR bit 4 is set to 1 to indicate a special character has been.." "0: Normal operation,1: Special character detect enable" newline bitfld.long 0x4 4. "ENHANCED_EN,Enhanced functions write enable bit. 0: Disables writing to IER bits 4-7 FCR bits 4-5 and MCR bits 5-7. 1: Enables writing to IER bits 4-7 FCR bits 4-5 and MCR bits 5-7." "0: Disables writing to IER bits 4-7,1: Enables writing to IER bits 4-7" newline hexmask.long.byte 0x4 0.--3. 1. "SW_FLOW_CONTROL,Combinations of Software flow control can be selected by programming bit 3 - bit 0. See Software Flow Control Options" group.long 0x8++0x3 line.long 0x0 "MEM_FCR,Notes:" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 6.--7. "RX_FIFO_TRIG,Sets the trigger level for the RX FIFO: If SCR[7] = 0 and TLR[7:4] = 0000: 00: 8 characters 01: 16 characters 10: 56 characters 11: 60 characters If SCR[7] = 0 and TLR[7:4] != 0000 RX_FIFO_TRIG is not considered. If SCR[7]=1 .." "0: 8 characters,1: 16 characters,?,?" newline bitfld.long 0x0 4.--5. "TX_FIFO_TRIG,Sets the trigger level for the TX FIFO: If SCR[6] = 0 and TLR[3:0] = 0000: 00: 8 spaces 01: 16 spaces 10: 32 spaces 11: 56 spaces If SCR[6] = 0 and TLR[3:0] != 0000 TX_FIFO_TRIG is not considered. If SCR[6]=1 TX_FIFO_TRIG is 2 LSB of.." "0: 8 spaces,1: 16 spaces,?,?" newline bitfld.long 0x0 3. "DMA_MODE,This register is considered if SCR[0] = 0." "0,1" newline bitfld.long 0x0 2. "TX_FIFO_CLEAR," "0,1" newline bitfld.long 0x0 1. "RX_FIFO_CLEAR," "0,1" newline bitfld.long 0x0 0. "FIFO_EN," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_CIR,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 3. "RX_OE_IT," "0,1" newline bitfld.long 0x0 2. "RX_STOP_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_IRDA,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." bitfld.long 0x0 7. "EOF_IT," "0,1" newline bitfld.long 0x0 6. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "STS_FIFO_IT," "0,1" newline bitfld.long 0x0 3. "RX_OE_IT," "0,1" newline bitfld.long 0x0 2. "RX_FIFO_LAST_BYTE_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_UART,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 6.--7. "FCR_MIRROR,Mirror the contents of FCR[0] on both bits." "0,1,2,3" newline hexmask.long.byte 0x0 1.--5. 1. "IT_TYPE," newline bitfld.long 0x0 0. "IT_PENDING," "0,1" group.long 0xC++0x7 line.long 0x0 "MEM_LCR,LCR[6:0] define parameters of the transmission and reception." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "DIV_EN," "0,1" newline bitfld.long 0x0 6. "BREAK_EN,Break control bit." "0,1" newline bitfld.long 0x0 5. "PARITY_TYPE2,Selects the forced parity format [if LCR[3] = 1]. If LCR[5] = 1 and LCR[4] = 0 the parity bit is forced to 1 in the transmitted and received data. If LCR[5] = 1 and LCR[4] = 1 the parity bit is forced to 0 in the transmitted and received.." "0,1" newline bitfld.long 0x0 4. "PARITY_TYPE1," "0,1" newline bitfld.long 0x0 3. "PARITY_EN," "0,1" newline bitfld.long 0x0 2. "NB_STOP,Specifies the number of stop bits:" "0,1" newline bitfld.long 0x0 0.--1. "CHAR_LENGTH,Specifies the word length to be transmitted or received." "0,1,2,3" line.long 0x4 "MEM_MCR,MCR[3:0] controls the interface with the modem. data set or peripheral device that is emulating the modem." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline rbitfld.long 0x4 7. "RESERVED," "0,1" newline bitfld.long 0x4 6. "TCR_TLR," "0,1" newline bitfld.long 0x4 5. "XON_EN," "0,1" newline bitfld.long 0x4 4. "LOOPBACK_EN," "0,1" newline bitfld.long 0x4 3. "CD_STS_CH," "0,1" newline bitfld.long 0x4 2. "RI_STS_CH," "0,1" newline bitfld.long 0x4 1. "RTS,In loop back controls MSR[4]. If auto-RTS is enabled the RTS* output is controlled by hardware flow control." "0,1" newline bitfld.long 0x4 0. "DTR," "0,1" group.long 0x10++0x3 line.long 0x0 "MEM_XON1_ADDR1,XON1/ADDR1 Register" hexmask.long.byte 0x0 0.--7. 1. "XON_WORD1,Used to store the 8-bit XON1 character in UART modes and ADDR1 address 1 for IrDA modes." rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_CIR," bitfld.long 0x0 7. "THR_EMPTY," "0,1" newline bitfld.long 0x0 6. "RESERVED," "0,1" newline bitfld.long 0x0 5. "RX_STOP,The RX_STOP is generated based on the value set in the BOF Length register (EBLR). It is cleared on a single read of the LSR register" "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_IRDA," bitfld.long 0x0 7. "THR_EMPTY," "0,1" newline bitfld.long 0x0 6. "STS_FIFO_FULL," "0,1" newline bitfld.long 0x0 5. "RX_LAST_BYTE," "0,1" newline bitfld.long 0x0 4. "FRAME_TOO_LONG," "0,1" newline bitfld.long 0x0 3. "ABORT," "0,1" newline bitfld.long 0x0 2. "CRC," "0,1" newline bitfld.long 0x0 1. "STS_FIFO_E," "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_UART," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "RX_FIFO_STS," "0,1" newline bitfld.long 0x0 6. "TX_SR_E," "0,1" newline bitfld.long 0x0 5. "TX_FIFO_E," "0,1" newline bitfld.long 0x0 4. "RX_BI," "0,1" newline bitfld.long 0x0 3. "RX_FE," "0,1" newline bitfld.long 0x0 2. "RX_PE," "0,1" newline bitfld.long 0x0 1. "RX_OE," "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" group.long 0x14++0x3 line.long 0x0 "MEM_XON2_ADDR2,XON2/ADDR2 Register" hexmask.long.byte 0x0 0.--7. 1. "XON_WORD2,Used to store the 8-bit XON2 character in UART modes and ADDR2 address 2 for IrDA modes." rgroup.long 0x18++0x3 line.long 0x0 "MEM_MSR,This register provides information about the current state of the control lines from the modem. data set or peripheral device to the LH. It also indicates when a control input from the modem changes state." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "NCD_STS,This bit is the complement of the DCD* input. In loop-back mode it is equivalent to MCR[3]" "0,1" newline bitfld.long 0x0 6. "NRI_STS,This bit is the complement of the RI* input. In loop-back mode it is equivalent to MCR[2]" "0,1" newline bitfld.long 0x0 5. "NDSR_STS,This bit is the complement of the DSR* input. In loop-back mode it is equivalent to MCR[0]" "0,1" newline bitfld.long 0x0 4. "NCTS_STS,This bit is the complement of the CTS* input. In loop-back mode it is equivalent to MCR[1]" "0,1" newline bitfld.long 0x0 3. "DCD_STS,Indicates that DCD* input [or MCR[3] in loop back] has changed. Cleared on a read." "0,1" newline bitfld.long 0x0 2. "RI_STS,Indicates that RI* input [or MCR[2] in loop back] has changed state from low to high. Cleared on a read." "0,1" newline bitfld.long 0x0 1. "DSR_STS," "0,1" newline bitfld.long 0x0 0. "CTS_STS," "0,1" group.long 0x18++0x3 line.long 0x0 "MEM_TCR,Transmission Control Register" hexmask.long.byte 0x0 4.--7. 1. "RX_FIFO_TRIG_START,RX FIFO trigger level to RESTORE transmission (0 - 60)" newline hexmask.long.byte 0x0 0.--3. 1. "RX_FIFO_TRIG_HALT,RX FIFO trigger level to HALT transmission (0 - 60)" group.long 0x18++0x7 line.long 0x0 "MEM_XOFF1,XOFF1 Register" hexmask.long.byte 0x0 0.--7. 1. "XOFF_WORD1,Used to store the 8-bit XOFF1 character in used in UART modes." line.long 0x4 "MEM_SPR,This read/write register does not control the module in anyway. It is intended as a scratchpad register to be used by the programmer to hold temporary data." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "SPR_WORD,Scratchpad register" group.long 0x1C++0x3 line.long 0x0 "MEM_TLR,Trigger Level Register" hexmask.long.byte 0x0 4.--7. 1. "RX_FIFO_TRIG_DMA,Receive FIFO trigger level" newline hexmask.long.byte 0x0 0.--3. 1. "TX_FIFO_TRIG_DMA,Transmit FIFO trigger level" group.long 0x1C++0xB line.long 0x0 "MEM_XOFF2,XOFF2 Register" hexmask.long.byte 0x0 0.--7. 1. "XOFF_WORD2,Used to store the 8-bit XOFF2 character in used in UART modes." line.long 0x4 "MEM_MDR1,The mode of operation can be programmed by writing to MDR1[2:0] and therefore the MDR1 must be programmed on start-up after configuration of the configuration registers (DLL. DLH. LCR). The value of MDR1[2:0] must not be changed again during.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline bitfld.long 0x4 7. "FRAME_END_MODE,IrDA mode only." "0,1" newline bitfld.long 0x4 6. "SIP_MODE,MIR/FIR modes only." "0,1" newline bitfld.long 0x4 5. "SCT,Store and control the transmission" "0,1" newline bitfld.long 0x4 4. "SET_TXIR,Used to configure the infrared transceiver." "0,1" newline bitfld.long 0x4 3. "IR_SLEEP," "0,1" newline bitfld.long 0x4 0.--2. "MODE_SELECT," "0,1,2,3,4,5,6,7" line.long 0x8 "MEM_MDR2,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline bitfld.long 0x8 7. "SET_TXIR_ALT,Provide alternate functionnality for MDR1[4] [SET_TXIR]" "0,1" newline bitfld.long 0x8 6. "IRRXINVERT,Only for IR mode [IRDA & CIR]Invert RX pin inside the module before the voting or sampling system logic of the infra red block. This will not affect the RX path in UART Modem modes." "0,1" newline bitfld.long 0x8 4.--5. "CIR_PULSE_MODE,CIR Pulse modulation definition. It defines high level of the pulse width associated with a digit:" "0,1,2,3" newline bitfld.long 0x8 3. "UART_PULSE,UART mode only. Used to allow pulse shaping in UART mode." "0,1" newline bitfld.long 0x8 1.--2. "STS_FIFO_TRIG,Only for IR-IRDA mode. Frame Status FIFO Threshold select:" "0,1,2,3" newline rbitfld.long 0x8 0. "IRTX_UNDERRUN,IRDA Transmission status interrupt.When the IIR[5] interrupt occurs the meaning of the interrupt is :" "0,1" rgroup.long 0x28++0x3 line.long 0x0 "MEM_SFLSR,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 5.--7. "RESERVED5," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 4. "OE_ERROR," "0,1" newline bitfld.long 0x0 3. "FRAME_TOO_LONG_ERROR," "0,1" newline bitfld.long 0x0 2. "ABORT_DETECT," "0,1" newline bitfld.long 0x0 1. "CRC_ERROR," "0,1" newline bitfld.long 0x0 0. "RESERVED0," "0,1" group.long 0x28++0x3 line.long 0x0 "MEM_TXFLL,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "TXFLL,LSB register used to specify the frame length" rgroup.long 0x2C++0x3 line.long 0x0 "MEM_RESUME,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "RESUME,Dummy read to restart the TX or RX" group.long 0x2C++0x7 line.long 0x0 "MEM_TXFLH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline rbitfld.long 0x0 5.--7. "RESERVED," "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--4. 1. "TXFLH,MSB register used to specify the frame length" line.long 0x4 "MEM_RXFLL,IrDA modes only." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "RXFLL,LSB register used to specify the frame length in reception" rgroup.long 0x30++0x3 line.long 0x0 "MEM_SFREGL,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "SFREGL,LSB part of the frame length" group.long 0x34++0x3 line.long 0x0 "MEM_RXFLH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 4.--7. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "RXFLH,MSB register used to specify the frame length in reception" rgroup.long 0x34++0x3 line.long 0x0 "MEM_SFREGH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 4.--7. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "SFREGH,MSB part of the frame length" group.long 0x38++0x3 line.long 0x0 "MEM_BLR,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "STS_FIFO_RESET,Status FIFO reset. This bit is self-clearing" "0,1" newline bitfld.long 0x0 6. "XBOF_TYPE,SIR xBOF select." "0,1" newline hexmask.long.byte 0x0 0.--5. 1. "RESERVED," rgroup.long 0x38++0x3 line.long 0x0 "MEM_UASR,UART Autobauding Status Register" bitfld.long 0x0 6.--7. "PARITY_TYPE,00 => No Parity identified. 01 => Parity space. 10 => Even Parity. 11 => Odd Parity" "0: No Parity identified,1: Parity space,?,?" newline bitfld.long 0x0 5. "BIT_BY_CHAR,0 => 7 bits character identified. 1 => 8 bits character identified" "0: 7 bits character identified,1: 8 bits character identified" newline hexmask.long.byte 0x0 0.--4. 1. "SPEED,Used to report the speed identified. 00000 => No speed identified. 00001 => 115200 bauds. 00010 => 57600 bauds. 00011 => 38400 bauds. 00100 => 28800 bauds. 00101 => 19200 bauds. 00110 => 14400 bauds. 00111 => 9600 bauds. 01000 => 4800 bauds. 01001.." group.long 0x3C++0xF line.long 0x0 "MEM_ACREG,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "PULSE_TYPE,SIR pulse width select:" "0,1" newline bitfld.long 0x0 6. "SD_MOD,Primary output used to configure transceivers. Connected to the SD/MODE input pin of IrDA transceivers." "0,1" newline bitfld.long 0x0 5. "DIS_IR_RX," "0,1" newline bitfld.long 0x0 4. "DIS_TX_UNDERRUN,It is recommended to disable TX FIFO underrun capability by masking corresponding underrun interrupt. When disabling underrun by setting ACREG[4]=1 garbage data is sent over TX line." "0,1" newline bitfld.long 0x0 3. "SEND_SIP,MIR/FIR Modes only.Send Serial Infrared Interaction Pulse [SIP] If this bit is set during a MIR/FIR transmission the SIP will be send at the end of it.This bit automatically gets cleared at the end of the SIP transmission." "0,1" newline bitfld.long 0x0 2. "SCTX_EN,Store and controlled TX start. When MDR1[5] = 1 and the LH writes 1 to this bit the TX state machine starts frame transmission. This bit is self-clearing." "0,1" newline bitfld.long 0x0 1. "ABORT_EN,Frame Abort. The LH can intentionally abort transmission of a frame by writing 1 to this bit. Neither the end flag nor the CRC bits are appended to the frame. If transmit FIFO is not empty and MDR1[5]=1 UART IrDA will start a new transfer.." "0,1" newline bitfld.long 0x0 0. "EOT_EN,EOT [end of transmission] bit. The LH writes 1 to this bit just before it writes the last byte to the TX FIFO in set-EOT bit frame closing method. This bit automatically gets cleared when the LH writes to the THR [TX FIFO]." "0,1" line.long 0x4 "MEM_SCR,Note: Bit 4 enables the wake-up interrupt. but this interrupt is not mapped into the IIR register. Therefore. when an interrupt occurs and there is no interrupt pending in the IIR register. the SSR[1] bit must be checked. To clear the wake-up.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline bitfld.long 0x4 7. "RX_TRIG_GRANU1," "0,1" newline bitfld.long 0x4 6. "TX_TRIG_GRANU1," "0,1" newline bitfld.long 0x4 5. "DSR_IT," "0,1" newline bitfld.long 0x4 4. "RX_CTS_DSR_WAKE_UP_ENABLE," "0,1" newline bitfld.long 0x4 3. "TX_EMPTY_CTL_IT," "0,1" newline bitfld.long 0x4 1.--2. "DMA_MODE_2,Used to specify the DMA mode valid if SCR[0] = 1" "0,1,2,3" newline bitfld.long 0x4 0. "DMA_MODE_CTL," "0,1" line.long 0x8 "MEM_SSR,Note: Bit 1 is reset only when SCR[4] is reset to 0." hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x8 3.--7. 1. "RESERVED," newline bitfld.long 0x8 2. "DMA_COUNTER_RST," "0,1" newline rbitfld.long 0x8 1. "RX_CTS_DSR_WAKE_UP_STS," "0,1" newline rbitfld.long 0x8 0. "TX_FIFO_FULL," "0,1" line.long 0xC "MEM_EBLR,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED," newline hexmask.long.byte 0xC 0.--7. 1. "EBLR,IR-IRDA mode: This register allows to define up to 176 xBOFs the maximum required by IrDA specification. IR-CIR mode: This register specifies the number of consecutive zeros to be received before generating the RX_STOP interrupt [IIR[2]]. 0x00:.." rgroup.long 0x50++0x3 line.long 0x0 "MEM_MVR,The reset value is fixed by hardware and corresponds to the RTL revision of this module. A reset has no effect on the value returned" bitfld.long 0x0 30.--31. "SCHEME,Scheme revision number of module" "0,1,2,3" newline bitfld.long 0x0 28.--29. "RESERVED," "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "FUNC,Function revision number of module" newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Rtl revision number of module" newline bitfld.long 0x0 8.--10. "MAJOR,Major revision number of the module." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom revision number of the module." "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number of the module." group.long 0x54++0x3 line.long 0x0 "MEM_SYSC,The auto idle bit controls a power saving technique to reduce the logic power consumption of the OCP interface. That is to say when the feature is enabled. the clock will be gated off until an OCP command for this device has been detected. When.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline rbitfld.long 0x0 5.--7. "RESERVED," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 3.--4. "IDLEMODE,POWER MANAGEMENT REQ/ACK CONTROL REF: OCP DESIGN GUIDELINES VERSION 1.1" "0,1,2,3" newline bitfld.long 0x0 2. "ENAWAKEUP,WAKE UP FEATURE CONTROL" "0,1" newline bitfld.long 0x0 1. "SOFTRESET,Software reset. Set this bit to 1 to trigger a module reset. This bit is automatically reset by the hardware. During reads it always returns a 0." "0,1" newline bitfld.long 0x0 0. "AUTOIDLE,Internal OCP clock gating strategy" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "MEM_SYSS," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 1.--7. 1. "RESERVED," newline bitfld.long 0x0 0. "RESETDONE,Internal Reset Monitoring" "0,1" group.long 0x5C++0x7 line.long 0x0 "MEM_WER,The UART wakeup enable register is used to mask and unmask a UART event that would subsequently notify the system. The events are any activity in the logic that could cause an interrupt and/ or an activity that would require the system to wakeup." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "EVENT_7_TX_WAKEUP_EN," "0,1" newline bitfld.long 0x0 6. "EVENT_6_RECEIVER_LINE_STATUS_INTERRUPT," "0,1" newline bitfld.long 0x0 5. "EVENT_5_RHR_INTERRUPT," "0,1" newline bitfld.long 0x0 4. "EVENT_4_RX_ACTIVITY," "0,1" newline bitfld.long 0x0 3. "EVENT_3_DCD_CD_ACTIVITY," "0,1" newline bitfld.long 0x0 2. "EVENT_2_RI_ACTIVITY," "0,1" newline bitfld.long 0x0 1. "EVENT_1_DSR_ACTIVITY," "0,1" newline bitfld.long 0x0 0. "EVENT_0_CTS_ACTIVITY," "0,1" line.long 0x4 "MEM_CFPS,Since the Consumer IR works at modulation rates of 30 56.8 KHz. the 48 MHz clock must be pre scaled before the clock can drive the IR logic. This register sets the divisor rate to give a range to accommodate the remote control requirements in.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "CFPS,System clock frequency prescaler at [12x multiple]. Examples for CFPS values are given in the table below. Target Freq [KHz] CFPS [decimal] Actual Freq[KHz] 30 133 30.08 32.75 122 32.79 36 111 36.04 36.7 109 36.69 38* 105 38.1.." rgroup.long 0x64++0x7 line.long 0x0 "MEM_RXFIFO_LVL,Level of the RX FIFO" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED24," newline hexmask.long.byte 0x0 0.--7. 1. "RXFIFO_LVL," line.long 0x4 "MEM_TXFIFO_LVL,Level of the TX FIFO" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED24," newline hexmask.long.byte 0x4 0.--7. 1. "TXFIFO_LVL," group.long 0x6C++0xB line.long 0x0 "MEM_IER2,Enables RX/TX FIFOs empty corresponding interrupts." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED1," newline hexmask.long.byte 0x0 3.--7. 1. "RESERVED," newline bitfld.long 0x0 2. "RHR_IT_DIS," "0,1" newline bitfld.long 0x0 1. "EN_TXFIFO_EMPTY,Enables[1]/DISABLES[00 EN_TXFIFO_EMPTY interrupt." "0,1" newline bitfld.long 0x0 0. "EN_RXFIFO_EMPTY,Enables[1]/disables[0] EN_RXFIFO_EMPTY interrupt." "0,1" line.long 0x4 "MEM_ISR2,Status of RX/TX FIFOs empty corresponding interrupts." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED1," newline hexmask.long.byte 0x4 2.--7. 1. "RESERVED," newline bitfld.long 0x4 1. "TXFIFO_EMPTY_STS,TXFIFO interrupt pending" "0,1" newline bitfld.long 0x4 0. "RXFIFO_EMPTY_STS,RXFIFO interrupt pending" "0,1" line.long 0x8 "MEM_FREQ_SEL,Sample per bit value selector" hexmask.long.byte 0x8 0.--7. 1. "FREQ_SEL,Sets the sample per bit if non default frequency is used. MDR3[1] must be set to 1 after this value is set. Must be equal or higher then 6." rgroup.long 0x78++0x7 line.long 0x0 "MEM_ABAUD_1ST_CHAR,Unused" hexmask.long 0x0 0.--31. 1. "RESERVED," line.long 0x4 "MEM_BAUD_2ND_CHAR,Unused" hexmask.long 0x4 0.--31. 1. "RESERVED," group.long 0x80++0x23 line.long 0x0 "MEM_MDR3,Mode definition register 3." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED2," newline bitfld.long 0x0 4. "DIR_EN,RS-485 External Transceiver Direction Enable" "0,1" newline bitfld.long 0x0 3. "DIR_POL,RS-485 External Transceiver Direction Polarity. 0 => TX: RTS=0 RX: RTS=1. 1 => TX: RTS=1 RX: RTS=0" "0: TX: RTS=0,1: TX: RTS=1" newline bitfld.long 0x0 2. "SET_DMA_TX_THRESHOLD,Enable to set different TX DMA threshold then 64-trigger [usage of new register TX_DNA_THRESHOLD]" "0,1" newline bitfld.long 0x0 1. "NONDEFAULT_FREQ,Enables[1]/Disables[0] using NONDEFAULT fclk frequencies" "0,1" newline bitfld.long 0x0 0. "DISABLE_CIR_RX_DEMOD,Disables[1]/Enables[0] CIR RX demodulation" "0,1" line.long 0x4 "MEM_TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level." hexmask.long.byte 0x4 0.--5. 1. "TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level." line.long 0x8 "MEM_MDR4,Mode definition register 4" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED1," newline rbitfld.long 0x8 7. "RESERVED," "0,1" newline bitfld.long 0x8 6. "MODE9,9-bit character length. When '1' overrides character length setting in LCR" "0,1" newline bitfld.long 0x8 3.--5. "FREQ_SEL_H,Upper 3 bits of FREQ_SEL register for higher division values as required for example for FI/Di in ISO7816 mode" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 0.--2. "MODE,New modes [when set overrides MDR1 modes]" "0,1,2,3,4,5,6,7" line.long 0xC "MEM_EFR2,Enhanced Features Register 2" hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED1," newline bitfld.long 0xC 7. "BROADCAST,Enables broadcast address matching in multi-drop address match mode" "0,1" newline bitfld.long 0xC 6. "TIMEOUT_BEHAVE,Specifies how timeout is measured" "0,1" newline bitfld.long 0xC 5. "C8,Value for ISO 7816 C8 pin for software control" "0,1" newline bitfld.long 0xC 4. "C4,Value for ISO 7816 C4 pin for software control" "0,1" newline bitfld.long 0xC 3. "C2,Value for ISO 7816 reset pin [software controllable]" "0,1" newline bitfld.long 0xC 2. "MULTIDROP,Enables parity Multi-drop mode [overrides LCR[5..3]] when '1'" "0,1" newline bitfld.long 0xC 1. "RHR_OVERRUN,RHR Overrun behaviour when buffer full" "0,1" newline bitfld.long 0xC 0. "ENDIAN,Endianness" "0,1" line.long 0x10 "MEM_ECR,Enhanced Control register" hexmask.long.tbyte 0x10 8.--31. 1. "RESERVED1," newline rbitfld.long 0x10 6.--7. "RESERVED," "0,1,2,3" newline bitfld.long 0x10 5. "CLEAR_TX_PE,Write 1 to clear parity error from the Transmitter to allow it to continue to try sending data [ISO7816 transmit only]" "0,1" newline bitfld.long 0x10 4. "TX_EN,Enables/Disables the transmitter" "0,1" newline bitfld.long 0x10 3. "RX_EN,Enables/Disables the receiver" "0,1" newline bitfld.long 0x10 2. "TX_RST,Writing '1' resets the transmitter" "0,1" newline bitfld.long 0x10 1. "RX_RST,Writing '1' resets the receiver" "0,1" newline bitfld.long 0x10 0. "A_MULTIDROP,In multi-drop mode when written with the value '1' causes the next byte written into THR to be transmitted with the parity bit set signaling an address" "0,1" line.long 0x14 "MEM_TIMEGUARD,Timeguard" hexmask.long.tbyte 0x14 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x14 0.--7. 1. "TIMEGUARD,Specifies the amount of idle baud clocks [transmitter bit period] to insert between transmitted bytes useful when comunicating with slower devices" line.long 0x18 "MEM_TIMEOUTL,Timeout lower byte" hexmask.long.tbyte 0x18 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x18 0.--7. 1. "TIMEOUT_L,Custom timeout period in baud clocks to override the internal value when different from 0. [Lower byte of the 16 bit value]" line.long 0x1C "MEM_TIMEOUTH,Timeout higher byte" hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x1C 0.--7. 1. "TIMEOUT_H,Custom timeout period in baud clocks to override the internal value when different from 0. [Higher byte of the 16 bit value]" line.long 0x20 "MEM_SCCR,Smartcard (ISO7816) mode Control Register" hexmask.long.tbyte 0x20 8.--31. 1. "RESERVED1," newline bitfld.long 0x20 7. "DSNACK,Applies Max_Iteration to receiver aswell - when maximum number of NACKs have been returned the receiver will accept the data regardless of error. The data will be loaded into the receiver FIFO and PE will be set when reading it." "0,1" newline bitfld.long 0x20 6. "INACK,Inhibit NACK when receiving even if an error is received. The data will be loaded into the receiver FIFO and PE will be set when reading it." "0,1" newline rbitfld.long 0x20 3.--5. "RESERVED," "0,1,2,3,4,5,6,7" newline bitfld.long 0x20 0.--2. "MAX_ITERATION,Number of times to repeat transmitted character if the receiver did not acknowledge. If not acknowledged after the max value is reached the USART transmitter will set parity error stop and not continue until it is cleared." "0,1,2,3,4,5,6,7" rgroup.long 0xA4++0x3 line.long 0x0 "MEM_ERHR,Extended Receive Holding Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--8. 1. "ERHR,Extended Receive Holding Register - allows accessing the full 9bit RHR" group.long 0xA4++0xF line.long 0x0 "MEM_ETHR,Extended Transmit Holding Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--8. 1. "ETHR,Extended Transmit Holding Register - allows writing the full 9bit RHR" line.long 0x4 "MEM_MAR,Multidrop Address Register" hexmask.long.byte 0x4 0.--7. 1. "ADDRESS,Multidrop match address value" line.long 0x8 "MEM_MMR,Multidrop Mask Register" hexmask.long.byte 0x8 0.--7. 1. "MASK,Address match masking value ? writing a 0 to a bit means that the corresponding address bit will be ignored in matching" line.long 0xC "MEM_MBR,Multidrop Broadcast Address Register" hexmask.long.byte 0xC 0.--7. 1. "BROADCAST_ADDRESS,Broadcast address for address matching" tree.end tree "UART5 (UART5)" base ad:0x2850000 group.long 0x0++0x3 line.long 0x0 "MEM_DLL,Divisor Latches Low Register" hexmask.long.byte 0x0 0.--7. 1. "CLOCK_LSB,Used to store the 8-bit LSB divisor value" rgroup.long 0x0++0x3 line.long 0x0 "MEM_RHR,The receiver section consists of the receiver holding register (RHR) and the receiver shift register. The RHR is actually a 64-byte FIFO. The receiver shift register receives serial data from RX input. The data is converted to parallel data and.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "RHR,Receive holding register" group.long 0x0++0x7 line.long 0x0 "MEM_THR,The transmitter section consists of the transmit holding register (THR) and the transmit shift register. The transmit holding register is actually a 64-byte FIFO. The LH writes data to the THR. The data is placed into the transmit shift register.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "THR,TRANSMIT HOLDING REGISTER" line.long 0x4 "MEM_DLH,Divisor Latches High Register" hexmask.long.byte 0x4 0.--7. 1. "CLOCK_MSB,Used to store the 8-bit MSB divisor value" group.long 0x4++0x3 line.long 0x0 "MEM_IER_CIR,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are 6 types of interrupt in these modes. TX status. status FIFO interrupt. RX overrun. last byte in RX FIFO. THR interrupt and RHR interrupt and they.." bitfld.long 0x0 6.--7. "NOT_USED2," "0,1,2,3" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "NOT_USED1," "0,1" newline bitfld.long 0x0 3. "RX_OVERRUN_IT," "0,1" newline bitfld.long 0x0 2. "RX_STOP_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" group.long 0x4++0x3 line.long 0x0 "MEM_IER_IRDA,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are 8 types of interrupt in these modes. received EOF. LSR interrupt. TX status. status FIFO interrupt. RX overrun. last byte in RX FIFO. THR.." bitfld.long 0x0 7. "EOF_IT," "0,1" newline bitfld.long 0x0 6. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "STS_FIFO_TRIG_IT," "0,1" newline bitfld.long 0x0 3. "RX_OVERRUN_IT," "0,1" newline bitfld.long 0x0 2. "LAST_RX_BYTE_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" group.long 0x4++0x7 line.long 0x0 "MEM_IER_UART,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are seven types of interrupt in this mode: receiver error. RHR interrupt. THR interrupt. XOFF received and CTS*/RTS* change of state from low to.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "CTS_IT," "0,1" newline bitfld.long 0x0 6. "RTS_IT," "0,1" newline bitfld.long 0x0 5. "XOFF_IT," "0,1" newline bitfld.long 0x0 4. "SLEEP_MODE," "0,1" newline bitfld.long 0x0 3. "MODEM_STS_IT," "0,1" newline bitfld.long 0x0 2. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" line.long 0x4 "MEM_EFR,Enhanced Feature Register" bitfld.long 0x4 7. "AUTO_CTS_EN,Auto-CTS enable bit. 0: Normal operation. 1: Auto-CTS flow control is enabled i.e. transmission is halted when the CTS* pin is high (inactive)." "0: Normal operation,1: Auto-CTS flow control is enabled i" newline bitfld.long 0x4 6. "AUTO_RTS_EN,Auto-RTS enable bit. 0: Normal operation. 1: Auto- RTS flow control is enabled i.e. RTS* pin goes high (inactive) when the receiver FIFO HALT trigger level TCR[3:0] is reached and goes low (active) when the receiver FIFO RESTORE.." "0: Normal operation,1: Auto- RTS flow control is enabled i" newline bitfld.long 0x4 5. "SPECIAL_CHAR_DETECT,0: Normal operation. 1: Special character detect enable. Received data is compared with XOFF2 data. If a match occurs the received data is transferred to RX FIFO and IIR bit 4 is set to 1 to indicate a special character has been.." "0: Normal operation,1: Special character detect enable" newline bitfld.long 0x4 4. "ENHANCED_EN,Enhanced functions write enable bit. 0: Disables writing to IER bits 4-7 FCR bits 4-5 and MCR bits 5-7. 1: Enables writing to IER bits 4-7 FCR bits 4-5 and MCR bits 5-7." "0: Disables writing to IER bits 4-7,1: Enables writing to IER bits 4-7" newline hexmask.long.byte 0x4 0.--3. 1. "SW_FLOW_CONTROL,Combinations of Software flow control can be selected by programming bit 3 - bit 0. See Software Flow Control Options" group.long 0x8++0x3 line.long 0x0 "MEM_FCR,Notes:" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 6.--7. "RX_FIFO_TRIG,Sets the trigger level for the RX FIFO: If SCR[7] = 0 and TLR[7:4] = 0000: 00: 8 characters 01: 16 characters 10: 56 characters 11: 60 characters If SCR[7] = 0 and TLR[7:4] != 0000 RX_FIFO_TRIG is not considered. If SCR[7]=1 .." "0: 8 characters,1: 16 characters,?,?" newline bitfld.long 0x0 4.--5. "TX_FIFO_TRIG,Sets the trigger level for the TX FIFO: If SCR[6] = 0 and TLR[3:0] = 0000: 00: 8 spaces 01: 16 spaces 10: 32 spaces 11: 56 spaces If SCR[6] = 0 and TLR[3:0] != 0000 TX_FIFO_TRIG is not considered. If SCR[6]=1 TX_FIFO_TRIG is 2 LSB of.." "0: 8 spaces,1: 16 spaces,?,?" newline bitfld.long 0x0 3. "DMA_MODE,This register is considered if SCR[0] = 0." "0,1" newline bitfld.long 0x0 2. "TX_FIFO_CLEAR," "0,1" newline bitfld.long 0x0 1. "RX_FIFO_CLEAR," "0,1" newline bitfld.long 0x0 0. "FIFO_EN," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_CIR,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 3. "RX_OE_IT," "0,1" newline bitfld.long 0x0 2. "RX_STOP_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_IRDA,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." bitfld.long 0x0 7. "EOF_IT," "0,1" newline bitfld.long 0x0 6. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "STS_FIFO_IT," "0,1" newline bitfld.long 0x0 3. "RX_OE_IT," "0,1" newline bitfld.long 0x0 2. "RX_FIFO_LAST_BYTE_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_UART,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 6.--7. "FCR_MIRROR,Mirror the contents of FCR[0] on both bits." "0,1,2,3" newline hexmask.long.byte 0x0 1.--5. 1. "IT_TYPE," newline bitfld.long 0x0 0. "IT_PENDING," "0,1" group.long 0xC++0x7 line.long 0x0 "MEM_LCR,LCR[6:0] define parameters of the transmission and reception." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "DIV_EN," "0,1" newline bitfld.long 0x0 6. "BREAK_EN,Break control bit." "0,1" newline bitfld.long 0x0 5. "PARITY_TYPE2,Selects the forced parity format [if LCR[3] = 1]. If LCR[5] = 1 and LCR[4] = 0 the parity bit is forced to 1 in the transmitted and received data. If LCR[5] = 1 and LCR[4] = 1 the parity bit is forced to 0 in the transmitted and received.." "0,1" newline bitfld.long 0x0 4. "PARITY_TYPE1," "0,1" newline bitfld.long 0x0 3. "PARITY_EN," "0,1" newline bitfld.long 0x0 2. "NB_STOP,Specifies the number of stop bits:" "0,1" newline bitfld.long 0x0 0.--1. "CHAR_LENGTH,Specifies the word length to be transmitted or received." "0,1,2,3" line.long 0x4 "MEM_MCR,MCR[3:0] controls the interface with the modem. data set or peripheral device that is emulating the modem." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline rbitfld.long 0x4 7. "RESERVED," "0,1" newline bitfld.long 0x4 6. "TCR_TLR," "0,1" newline bitfld.long 0x4 5. "XON_EN," "0,1" newline bitfld.long 0x4 4. "LOOPBACK_EN," "0,1" newline bitfld.long 0x4 3. "CD_STS_CH," "0,1" newline bitfld.long 0x4 2. "RI_STS_CH," "0,1" newline bitfld.long 0x4 1. "RTS,In loop back controls MSR[4]. If auto-RTS is enabled the RTS* output is controlled by hardware flow control." "0,1" newline bitfld.long 0x4 0. "DTR," "0,1" group.long 0x10++0x3 line.long 0x0 "MEM_XON1_ADDR1,XON1/ADDR1 Register" hexmask.long.byte 0x0 0.--7. 1. "XON_WORD1,Used to store the 8-bit XON1 character in UART modes and ADDR1 address 1 for IrDA modes." rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_CIR," bitfld.long 0x0 7. "THR_EMPTY," "0,1" newline bitfld.long 0x0 6. "RESERVED," "0,1" newline bitfld.long 0x0 5. "RX_STOP,The RX_STOP is generated based on the value set in the BOF Length register (EBLR). It is cleared on a single read of the LSR register" "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_IRDA," bitfld.long 0x0 7. "THR_EMPTY," "0,1" newline bitfld.long 0x0 6. "STS_FIFO_FULL," "0,1" newline bitfld.long 0x0 5. "RX_LAST_BYTE," "0,1" newline bitfld.long 0x0 4. "FRAME_TOO_LONG," "0,1" newline bitfld.long 0x0 3. "ABORT," "0,1" newline bitfld.long 0x0 2. "CRC," "0,1" newline bitfld.long 0x0 1. "STS_FIFO_E," "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_UART," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "RX_FIFO_STS," "0,1" newline bitfld.long 0x0 6. "TX_SR_E," "0,1" newline bitfld.long 0x0 5. "TX_FIFO_E," "0,1" newline bitfld.long 0x0 4. "RX_BI," "0,1" newline bitfld.long 0x0 3. "RX_FE," "0,1" newline bitfld.long 0x0 2. "RX_PE," "0,1" newline bitfld.long 0x0 1. "RX_OE," "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" group.long 0x14++0x3 line.long 0x0 "MEM_XON2_ADDR2,XON2/ADDR2 Register" hexmask.long.byte 0x0 0.--7. 1. "XON_WORD2,Used to store the 8-bit XON2 character in UART modes and ADDR2 address 2 for IrDA modes." rgroup.long 0x18++0x3 line.long 0x0 "MEM_MSR,This register provides information about the current state of the control lines from the modem. data set or peripheral device to the LH. It also indicates when a control input from the modem changes state." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "NCD_STS,This bit is the complement of the DCD* input. In loop-back mode it is equivalent to MCR[3]" "0,1" newline bitfld.long 0x0 6. "NRI_STS,This bit is the complement of the RI* input. In loop-back mode it is equivalent to MCR[2]" "0,1" newline bitfld.long 0x0 5. "NDSR_STS,This bit is the complement of the DSR* input. In loop-back mode it is equivalent to MCR[0]" "0,1" newline bitfld.long 0x0 4. "NCTS_STS,This bit is the complement of the CTS* input. In loop-back mode it is equivalent to MCR[1]" "0,1" newline bitfld.long 0x0 3. "DCD_STS,Indicates that DCD* input [or MCR[3] in loop back] has changed. Cleared on a read." "0,1" newline bitfld.long 0x0 2. "RI_STS,Indicates that RI* input [or MCR[2] in loop back] has changed state from low to high. Cleared on a read." "0,1" newline bitfld.long 0x0 1. "DSR_STS," "0,1" newline bitfld.long 0x0 0. "CTS_STS," "0,1" group.long 0x18++0x3 line.long 0x0 "MEM_TCR,Transmission Control Register" hexmask.long.byte 0x0 4.--7. 1. "RX_FIFO_TRIG_START,RX FIFO trigger level to RESTORE transmission (0 - 60)" newline hexmask.long.byte 0x0 0.--3. 1. "RX_FIFO_TRIG_HALT,RX FIFO trigger level to HALT transmission (0 - 60)" group.long 0x18++0x7 line.long 0x0 "MEM_XOFF1,XOFF1 Register" hexmask.long.byte 0x0 0.--7. 1. "XOFF_WORD1,Used to store the 8-bit XOFF1 character in used in UART modes." line.long 0x4 "MEM_SPR,This read/write register does not control the module in anyway. It is intended as a scratchpad register to be used by the programmer to hold temporary data." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "SPR_WORD,Scratchpad register" group.long 0x1C++0x3 line.long 0x0 "MEM_TLR,Trigger Level Register" hexmask.long.byte 0x0 4.--7. 1. "RX_FIFO_TRIG_DMA,Receive FIFO trigger level" newline hexmask.long.byte 0x0 0.--3. 1. "TX_FIFO_TRIG_DMA,Transmit FIFO trigger level" group.long 0x1C++0xB line.long 0x0 "MEM_XOFF2,XOFF2 Register" hexmask.long.byte 0x0 0.--7. 1. "XOFF_WORD2,Used to store the 8-bit XOFF2 character in used in UART modes." line.long 0x4 "MEM_MDR1,The mode of operation can be programmed by writing to MDR1[2:0] and therefore the MDR1 must be programmed on start-up after configuration of the configuration registers (DLL. DLH. LCR). The value of MDR1[2:0] must not be changed again during.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline bitfld.long 0x4 7. "FRAME_END_MODE,IrDA mode only." "0,1" newline bitfld.long 0x4 6. "SIP_MODE,MIR/FIR modes only." "0,1" newline bitfld.long 0x4 5. "SCT,Store and control the transmission" "0,1" newline bitfld.long 0x4 4. "SET_TXIR,Used to configure the infrared transceiver." "0,1" newline bitfld.long 0x4 3. "IR_SLEEP," "0,1" newline bitfld.long 0x4 0.--2. "MODE_SELECT," "0,1,2,3,4,5,6,7" line.long 0x8 "MEM_MDR2,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline bitfld.long 0x8 7. "SET_TXIR_ALT,Provide alternate functionnality for MDR1[4] [SET_TXIR]" "0,1" newline bitfld.long 0x8 6. "IRRXINVERT,Only for IR mode [IRDA & CIR]Invert RX pin inside the module before the voting or sampling system logic of the infra red block. This will not affect the RX path in UART Modem modes." "0,1" newline bitfld.long 0x8 4.--5. "CIR_PULSE_MODE,CIR Pulse modulation definition. It defines high level of the pulse width associated with a digit:" "0,1,2,3" newline bitfld.long 0x8 3. "UART_PULSE,UART mode only. Used to allow pulse shaping in UART mode." "0,1" newline bitfld.long 0x8 1.--2. "STS_FIFO_TRIG,Only for IR-IRDA mode. Frame Status FIFO Threshold select:" "0,1,2,3" newline rbitfld.long 0x8 0. "IRTX_UNDERRUN,IRDA Transmission status interrupt.When the IIR[5] interrupt occurs the meaning of the interrupt is :" "0,1" rgroup.long 0x28++0x3 line.long 0x0 "MEM_SFLSR,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 5.--7. "RESERVED5," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 4. "OE_ERROR," "0,1" newline bitfld.long 0x0 3. "FRAME_TOO_LONG_ERROR," "0,1" newline bitfld.long 0x0 2. "ABORT_DETECT," "0,1" newline bitfld.long 0x0 1. "CRC_ERROR," "0,1" newline bitfld.long 0x0 0. "RESERVED0," "0,1" group.long 0x28++0x3 line.long 0x0 "MEM_TXFLL,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "TXFLL,LSB register used to specify the frame length" rgroup.long 0x2C++0x3 line.long 0x0 "MEM_RESUME,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "RESUME,Dummy read to restart the TX or RX" group.long 0x2C++0x7 line.long 0x0 "MEM_TXFLH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline rbitfld.long 0x0 5.--7. "RESERVED," "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--4. 1. "TXFLH,MSB register used to specify the frame length" line.long 0x4 "MEM_RXFLL,IrDA modes only." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "RXFLL,LSB register used to specify the frame length in reception" rgroup.long 0x30++0x3 line.long 0x0 "MEM_SFREGL,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "SFREGL,LSB part of the frame length" group.long 0x34++0x3 line.long 0x0 "MEM_RXFLH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 4.--7. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "RXFLH,MSB register used to specify the frame length in reception" rgroup.long 0x34++0x3 line.long 0x0 "MEM_SFREGH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 4.--7. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "SFREGH,MSB part of the frame length" group.long 0x38++0x3 line.long 0x0 "MEM_BLR,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "STS_FIFO_RESET,Status FIFO reset. This bit is self-clearing" "0,1" newline bitfld.long 0x0 6. "XBOF_TYPE,SIR xBOF select." "0,1" newline hexmask.long.byte 0x0 0.--5. 1. "RESERVED," rgroup.long 0x38++0x3 line.long 0x0 "MEM_UASR,UART Autobauding Status Register" bitfld.long 0x0 6.--7. "PARITY_TYPE,00 => No Parity identified. 01 => Parity space. 10 => Even Parity. 11 => Odd Parity" "0: No Parity identified,1: Parity space,?,?" newline bitfld.long 0x0 5. "BIT_BY_CHAR,0 => 7 bits character identified. 1 => 8 bits character identified" "0: 7 bits character identified,1: 8 bits character identified" newline hexmask.long.byte 0x0 0.--4. 1. "SPEED,Used to report the speed identified. 00000 => No speed identified. 00001 => 115200 bauds. 00010 => 57600 bauds. 00011 => 38400 bauds. 00100 => 28800 bauds. 00101 => 19200 bauds. 00110 => 14400 bauds. 00111 => 9600 bauds. 01000 => 4800 bauds. 01001.." group.long 0x3C++0xF line.long 0x0 "MEM_ACREG,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "PULSE_TYPE,SIR pulse width select:" "0,1" newline bitfld.long 0x0 6. "SD_MOD,Primary output used to configure transceivers. Connected to the SD/MODE input pin of IrDA transceivers." "0,1" newline bitfld.long 0x0 5. "DIS_IR_RX," "0,1" newline bitfld.long 0x0 4. "DIS_TX_UNDERRUN,It is recommended to disable TX FIFO underrun capability by masking corresponding underrun interrupt. When disabling underrun by setting ACREG[4]=1 garbage data is sent over TX line." "0,1" newline bitfld.long 0x0 3. "SEND_SIP,MIR/FIR Modes only.Send Serial Infrared Interaction Pulse [SIP] If this bit is set during a MIR/FIR transmission the SIP will be send at the end of it.This bit automatically gets cleared at the end of the SIP transmission." "0,1" newline bitfld.long 0x0 2. "SCTX_EN,Store and controlled TX start. When MDR1[5] = 1 and the LH writes 1 to this bit the TX state machine starts frame transmission. This bit is self-clearing." "0,1" newline bitfld.long 0x0 1. "ABORT_EN,Frame Abort. The LH can intentionally abort transmission of a frame by writing 1 to this bit. Neither the end flag nor the CRC bits are appended to the frame. If transmit FIFO is not empty and MDR1[5]=1 UART IrDA will start a new transfer.." "0,1" newline bitfld.long 0x0 0. "EOT_EN,EOT [end of transmission] bit. The LH writes 1 to this bit just before it writes the last byte to the TX FIFO in set-EOT bit frame closing method. This bit automatically gets cleared when the LH writes to the THR [TX FIFO]." "0,1" line.long 0x4 "MEM_SCR,Note: Bit 4 enables the wake-up interrupt. but this interrupt is not mapped into the IIR register. Therefore. when an interrupt occurs and there is no interrupt pending in the IIR register. the SSR[1] bit must be checked. To clear the wake-up.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline bitfld.long 0x4 7. "RX_TRIG_GRANU1," "0,1" newline bitfld.long 0x4 6. "TX_TRIG_GRANU1," "0,1" newline bitfld.long 0x4 5. "DSR_IT," "0,1" newline bitfld.long 0x4 4. "RX_CTS_DSR_WAKE_UP_ENABLE," "0,1" newline bitfld.long 0x4 3. "TX_EMPTY_CTL_IT," "0,1" newline bitfld.long 0x4 1.--2. "DMA_MODE_2,Used to specify the DMA mode valid if SCR[0] = 1" "0,1,2,3" newline bitfld.long 0x4 0. "DMA_MODE_CTL," "0,1" line.long 0x8 "MEM_SSR,Note: Bit 1 is reset only when SCR[4] is reset to 0." hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x8 3.--7. 1. "RESERVED," newline bitfld.long 0x8 2. "DMA_COUNTER_RST," "0,1" newline rbitfld.long 0x8 1. "RX_CTS_DSR_WAKE_UP_STS," "0,1" newline rbitfld.long 0x8 0. "TX_FIFO_FULL," "0,1" line.long 0xC "MEM_EBLR,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED," newline hexmask.long.byte 0xC 0.--7. 1. "EBLR,IR-IRDA mode: This register allows to define up to 176 xBOFs the maximum required by IrDA specification. IR-CIR mode: This register specifies the number of consecutive zeros to be received before generating the RX_STOP interrupt [IIR[2]]. 0x00:.." rgroup.long 0x50++0x3 line.long 0x0 "MEM_MVR,The reset value is fixed by hardware and corresponds to the RTL revision of this module. A reset has no effect on the value returned" bitfld.long 0x0 30.--31. "SCHEME,Scheme revision number of module" "0,1,2,3" newline bitfld.long 0x0 28.--29. "RESERVED," "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "FUNC,Function revision number of module" newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Rtl revision number of module" newline bitfld.long 0x0 8.--10. "MAJOR,Major revision number of the module." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom revision number of the module." "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number of the module." group.long 0x54++0x3 line.long 0x0 "MEM_SYSC,The auto idle bit controls a power saving technique to reduce the logic power consumption of the OCP interface. That is to say when the feature is enabled. the clock will be gated off until an OCP command for this device has been detected. When.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline rbitfld.long 0x0 5.--7. "RESERVED," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 3.--4. "IDLEMODE,POWER MANAGEMENT REQ/ACK CONTROL REF: OCP DESIGN GUIDELINES VERSION 1.1" "0,1,2,3" newline bitfld.long 0x0 2. "ENAWAKEUP,WAKE UP FEATURE CONTROL" "0,1" newline bitfld.long 0x0 1. "SOFTRESET,Software reset. Set this bit to 1 to trigger a module reset. This bit is automatically reset by the hardware. During reads it always returns a 0." "0,1" newline bitfld.long 0x0 0. "AUTOIDLE,Internal OCP clock gating strategy" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "MEM_SYSS," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 1.--7. 1. "RESERVED," newline bitfld.long 0x0 0. "RESETDONE,Internal Reset Monitoring" "0,1" group.long 0x5C++0x7 line.long 0x0 "MEM_WER,The UART wakeup enable register is used to mask and unmask a UART event that would subsequently notify the system. The events are any activity in the logic that could cause an interrupt and/ or an activity that would require the system to wakeup." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "EVENT_7_TX_WAKEUP_EN," "0,1" newline bitfld.long 0x0 6. "EVENT_6_RECEIVER_LINE_STATUS_INTERRUPT," "0,1" newline bitfld.long 0x0 5. "EVENT_5_RHR_INTERRUPT," "0,1" newline bitfld.long 0x0 4. "EVENT_4_RX_ACTIVITY," "0,1" newline bitfld.long 0x0 3. "EVENT_3_DCD_CD_ACTIVITY," "0,1" newline bitfld.long 0x0 2. "EVENT_2_RI_ACTIVITY," "0,1" newline bitfld.long 0x0 1. "EVENT_1_DSR_ACTIVITY," "0,1" newline bitfld.long 0x0 0. "EVENT_0_CTS_ACTIVITY," "0,1" line.long 0x4 "MEM_CFPS,Since the Consumer IR works at modulation rates of 30 56.8 KHz. the 48 MHz clock must be pre scaled before the clock can drive the IR logic. This register sets the divisor rate to give a range to accommodate the remote control requirements in.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "CFPS,System clock frequency prescaler at [12x multiple]. Examples for CFPS values are given in the table below. Target Freq [KHz] CFPS [decimal] Actual Freq[KHz] 30 133 30.08 32.75 122 32.79 36 111 36.04 36.7 109 36.69 38* 105 38.1.." rgroup.long 0x64++0x7 line.long 0x0 "MEM_RXFIFO_LVL,Level of the RX FIFO" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED24," newline hexmask.long.byte 0x0 0.--7. 1. "RXFIFO_LVL," line.long 0x4 "MEM_TXFIFO_LVL,Level of the TX FIFO" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED24," newline hexmask.long.byte 0x4 0.--7. 1. "TXFIFO_LVL," group.long 0x6C++0xB line.long 0x0 "MEM_IER2,Enables RX/TX FIFOs empty corresponding interrupts." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED1," newline hexmask.long.byte 0x0 3.--7. 1. "RESERVED," newline bitfld.long 0x0 2. "RHR_IT_DIS," "0,1" newline bitfld.long 0x0 1. "EN_TXFIFO_EMPTY,Enables[1]/DISABLES[00 EN_TXFIFO_EMPTY interrupt." "0,1" newline bitfld.long 0x0 0. "EN_RXFIFO_EMPTY,Enables[1]/disables[0] EN_RXFIFO_EMPTY interrupt." "0,1" line.long 0x4 "MEM_ISR2,Status of RX/TX FIFOs empty corresponding interrupts." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED1," newline hexmask.long.byte 0x4 2.--7. 1. "RESERVED," newline bitfld.long 0x4 1. "TXFIFO_EMPTY_STS,TXFIFO interrupt pending" "0,1" newline bitfld.long 0x4 0. "RXFIFO_EMPTY_STS,RXFIFO interrupt pending" "0,1" line.long 0x8 "MEM_FREQ_SEL,Sample per bit value selector" hexmask.long.byte 0x8 0.--7. 1. "FREQ_SEL,Sets the sample per bit if non default frequency is used. MDR3[1] must be set to 1 after this value is set. Must be equal or higher then 6." rgroup.long 0x78++0x7 line.long 0x0 "MEM_ABAUD_1ST_CHAR,Unused" hexmask.long 0x0 0.--31. 1. "RESERVED," line.long 0x4 "MEM_BAUD_2ND_CHAR,Unused" hexmask.long 0x4 0.--31. 1. "RESERVED," group.long 0x80++0x23 line.long 0x0 "MEM_MDR3,Mode definition register 3." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED2," newline bitfld.long 0x0 4. "DIR_EN,RS-485 External Transceiver Direction Enable" "0,1" newline bitfld.long 0x0 3. "DIR_POL,RS-485 External Transceiver Direction Polarity. 0 => TX: RTS=0 RX: RTS=1. 1 => TX: RTS=1 RX: RTS=0" "0: TX: RTS=0,1: TX: RTS=1" newline bitfld.long 0x0 2. "SET_DMA_TX_THRESHOLD,Enable to set different TX DMA threshold then 64-trigger [usage of new register TX_DNA_THRESHOLD]" "0,1" newline bitfld.long 0x0 1. "NONDEFAULT_FREQ,Enables[1]/Disables[0] using NONDEFAULT fclk frequencies" "0,1" newline bitfld.long 0x0 0. "DISABLE_CIR_RX_DEMOD,Disables[1]/Enables[0] CIR RX demodulation" "0,1" line.long 0x4 "MEM_TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level." hexmask.long.byte 0x4 0.--5. 1. "TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level." line.long 0x8 "MEM_MDR4,Mode definition register 4" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED1," newline rbitfld.long 0x8 7. "RESERVED," "0,1" newline bitfld.long 0x8 6. "MODE9,9-bit character length. When '1' overrides character length setting in LCR" "0,1" newline bitfld.long 0x8 3.--5. "FREQ_SEL_H,Upper 3 bits of FREQ_SEL register for higher division values as required for example for FI/Di in ISO7816 mode" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 0.--2. "MODE,New modes [when set overrides MDR1 modes]" "0,1,2,3,4,5,6,7" line.long 0xC "MEM_EFR2,Enhanced Features Register 2" hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED1," newline bitfld.long 0xC 7. "BROADCAST,Enables broadcast address matching in multi-drop address match mode" "0,1" newline bitfld.long 0xC 6. "TIMEOUT_BEHAVE,Specifies how timeout is measured" "0,1" newline bitfld.long 0xC 5. "C8,Value for ISO 7816 C8 pin for software control" "0,1" newline bitfld.long 0xC 4. "C4,Value for ISO 7816 C4 pin for software control" "0,1" newline bitfld.long 0xC 3. "C2,Value for ISO 7816 reset pin [software controllable]" "0,1" newline bitfld.long 0xC 2. "MULTIDROP,Enables parity Multi-drop mode [overrides LCR[5..3]] when '1'" "0,1" newline bitfld.long 0xC 1. "RHR_OVERRUN,RHR Overrun behaviour when buffer full" "0,1" newline bitfld.long 0xC 0. "ENDIAN,Endianness" "0,1" line.long 0x10 "MEM_ECR,Enhanced Control register" hexmask.long.tbyte 0x10 8.--31. 1. "RESERVED1," newline rbitfld.long 0x10 6.--7. "RESERVED," "0,1,2,3" newline bitfld.long 0x10 5. "CLEAR_TX_PE,Write 1 to clear parity error from the Transmitter to allow it to continue to try sending data [ISO7816 transmit only]" "0,1" newline bitfld.long 0x10 4. "TX_EN,Enables/Disables the transmitter" "0,1" newline bitfld.long 0x10 3. "RX_EN,Enables/Disables the receiver" "0,1" newline bitfld.long 0x10 2. "TX_RST,Writing '1' resets the transmitter" "0,1" newline bitfld.long 0x10 1. "RX_RST,Writing '1' resets the receiver" "0,1" newline bitfld.long 0x10 0. "A_MULTIDROP,In multi-drop mode when written with the value '1' causes the next byte written into THR to be transmitted with the parity bit set signaling an address" "0,1" line.long 0x14 "MEM_TIMEGUARD,Timeguard" hexmask.long.tbyte 0x14 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x14 0.--7. 1. "TIMEGUARD,Specifies the amount of idle baud clocks [transmitter bit period] to insert between transmitted bytes useful when comunicating with slower devices" line.long 0x18 "MEM_TIMEOUTL,Timeout lower byte" hexmask.long.tbyte 0x18 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x18 0.--7. 1. "TIMEOUT_L,Custom timeout period in baud clocks to override the internal value when different from 0. [Lower byte of the 16 bit value]" line.long 0x1C "MEM_TIMEOUTH,Timeout higher byte" hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x1C 0.--7. 1. "TIMEOUT_H,Custom timeout period in baud clocks to override the internal value when different from 0. [Higher byte of the 16 bit value]" line.long 0x20 "MEM_SCCR,Smartcard (ISO7816) mode Control Register" hexmask.long.tbyte 0x20 8.--31. 1. "RESERVED1," newline bitfld.long 0x20 7. "DSNACK,Applies Max_Iteration to receiver aswell - when maximum number of NACKs have been returned the receiver will accept the data regardless of error. The data will be loaded into the receiver FIFO and PE will be set when reading it." "0,1" newline bitfld.long 0x20 6. "INACK,Inhibit NACK when receiving even if an error is received. The data will be loaded into the receiver FIFO and PE will be set when reading it." "0,1" newline rbitfld.long 0x20 3.--5. "RESERVED," "0,1,2,3,4,5,6,7" newline bitfld.long 0x20 0.--2. "MAX_ITERATION,Number of times to repeat transmitted character if the receiver did not acknowledge. If not acknowledged after the max value is reached the USART transmitter will set parity error stop and not continue until it is cleared." "0,1,2,3,4,5,6,7" rgroup.long 0xA4++0x3 line.long 0x0 "MEM_ERHR,Extended Receive Holding Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--8. 1. "ERHR,Extended Receive Holding Register - allows accessing the full 9bit RHR" group.long 0xA4++0xF line.long 0x0 "MEM_ETHR,Extended Transmit Holding Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--8. 1. "ETHR,Extended Transmit Holding Register - allows writing the full 9bit RHR" line.long 0x4 "MEM_MAR,Multidrop Address Register" hexmask.long.byte 0x4 0.--7. 1. "ADDRESS,Multidrop match address value" line.long 0x8 "MEM_MMR,Multidrop Mask Register" hexmask.long.byte 0x8 0.--7. 1. "MASK,Address match masking value ? writing a 0 to a bit means that the corresponding address bit will be ignored in matching" line.long 0xC "MEM_MBR,Multidrop Broadcast Address Register" hexmask.long.byte 0xC 0.--7. 1. "BROADCAST_ADDRESS,Broadcast address for address matching" tree.end tree "UART6 (UART6)" base ad:0x2860000 group.long 0x0++0x3 line.long 0x0 "MEM_DLL,Divisor Latches Low Register" hexmask.long.byte 0x0 0.--7. 1. "CLOCK_LSB,Used to store the 8-bit LSB divisor value" rgroup.long 0x0++0x3 line.long 0x0 "MEM_RHR,The receiver section consists of the receiver holding register (RHR) and the receiver shift register. The RHR is actually a 64-byte FIFO. The receiver shift register receives serial data from RX input. The data is converted to parallel data and.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "RHR,Receive holding register" group.long 0x0++0x7 line.long 0x0 "MEM_THR,The transmitter section consists of the transmit holding register (THR) and the transmit shift register. The transmit holding register is actually a 64-byte FIFO. The LH writes data to the THR. The data is placed into the transmit shift register.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "THR,TRANSMIT HOLDING REGISTER" line.long 0x4 "MEM_DLH,Divisor Latches High Register" hexmask.long.byte 0x4 0.--7. 1. "CLOCK_MSB,Used to store the 8-bit MSB divisor value" group.long 0x4++0x3 line.long 0x0 "MEM_IER_CIR,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are 6 types of interrupt in these modes. TX status. status FIFO interrupt. RX overrun. last byte in RX FIFO. THR interrupt and RHR interrupt and they.." bitfld.long 0x0 6.--7. "NOT_USED2," "0,1,2,3" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "NOT_USED1," "0,1" newline bitfld.long 0x0 3. "RX_OVERRUN_IT," "0,1" newline bitfld.long 0x0 2. "RX_STOP_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" group.long 0x4++0x3 line.long 0x0 "MEM_IER_IRDA,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are 8 types of interrupt in these modes. received EOF. LSR interrupt. TX status. status FIFO interrupt. RX overrun. last byte in RX FIFO. THR.." bitfld.long 0x0 7. "EOF_IT," "0,1" newline bitfld.long 0x0 6. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "STS_FIFO_TRIG_IT," "0,1" newline bitfld.long 0x0 3. "RX_OVERRUN_IT," "0,1" newline bitfld.long 0x0 2. "LAST_RX_BYTE_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" group.long 0x4++0x7 line.long 0x0 "MEM_IER_UART,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are seven types of interrupt in this mode: receiver error. RHR interrupt. THR interrupt. XOFF received and CTS*/RTS* change of state from low to.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "CTS_IT," "0,1" newline bitfld.long 0x0 6. "RTS_IT," "0,1" newline bitfld.long 0x0 5. "XOFF_IT," "0,1" newline bitfld.long 0x0 4. "SLEEP_MODE," "0,1" newline bitfld.long 0x0 3. "MODEM_STS_IT," "0,1" newline bitfld.long 0x0 2. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" line.long 0x4 "MEM_EFR,Enhanced Feature Register" bitfld.long 0x4 7. "AUTO_CTS_EN,Auto-CTS enable bit. 0: Normal operation. 1: Auto-CTS flow control is enabled i.e. transmission is halted when the CTS* pin is high (inactive)." "0: Normal operation,1: Auto-CTS flow control is enabled i" newline bitfld.long 0x4 6. "AUTO_RTS_EN,Auto-RTS enable bit. 0: Normal operation. 1: Auto- RTS flow control is enabled i.e. RTS* pin goes high (inactive) when the receiver FIFO HALT trigger level TCR[3:0] is reached and goes low (active) when the receiver FIFO RESTORE.." "0: Normal operation,1: Auto- RTS flow control is enabled i" newline bitfld.long 0x4 5. "SPECIAL_CHAR_DETECT,0: Normal operation. 1: Special character detect enable. Received data is compared with XOFF2 data. If a match occurs the received data is transferred to RX FIFO and IIR bit 4 is set to 1 to indicate a special character has been.." "0: Normal operation,1: Special character detect enable" newline bitfld.long 0x4 4. "ENHANCED_EN,Enhanced functions write enable bit. 0: Disables writing to IER bits 4-7 FCR bits 4-5 and MCR bits 5-7. 1: Enables writing to IER bits 4-7 FCR bits 4-5 and MCR bits 5-7." "0: Disables writing to IER bits 4-7,1: Enables writing to IER bits 4-7" newline hexmask.long.byte 0x4 0.--3. 1. "SW_FLOW_CONTROL,Combinations of Software flow control can be selected by programming bit 3 - bit 0. See Software Flow Control Options" group.long 0x8++0x3 line.long 0x0 "MEM_FCR,Notes:" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 6.--7. "RX_FIFO_TRIG,Sets the trigger level for the RX FIFO: If SCR[7] = 0 and TLR[7:4] = 0000: 00: 8 characters 01: 16 characters 10: 56 characters 11: 60 characters If SCR[7] = 0 and TLR[7:4] != 0000 RX_FIFO_TRIG is not considered. If SCR[7]=1 .." "0: 8 characters,1: 16 characters,?,?" newline bitfld.long 0x0 4.--5. "TX_FIFO_TRIG,Sets the trigger level for the TX FIFO: If SCR[6] = 0 and TLR[3:0] = 0000: 00: 8 spaces 01: 16 spaces 10: 32 spaces 11: 56 spaces If SCR[6] = 0 and TLR[3:0] != 0000 TX_FIFO_TRIG is not considered. If SCR[6]=1 TX_FIFO_TRIG is 2 LSB of.." "0: 8 spaces,1: 16 spaces,?,?" newline bitfld.long 0x0 3. "DMA_MODE,This register is considered if SCR[0] = 0." "0,1" newline bitfld.long 0x0 2. "TX_FIFO_CLEAR," "0,1" newline bitfld.long 0x0 1. "RX_FIFO_CLEAR," "0,1" newline bitfld.long 0x0 0. "FIFO_EN," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_CIR,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 3. "RX_OE_IT," "0,1" newline bitfld.long 0x0 2. "RX_STOP_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_IRDA,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." bitfld.long 0x0 7. "EOF_IT," "0,1" newline bitfld.long 0x0 6. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "STS_FIFO_IT," "0,1" newline bitfld.long 0x0 3. "RX_OE_IT," "0,1" newline bitfld.long 0x0 2. "RX_FIFO_LAST_BYTE_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_UART,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 6.--7. "FCR_MIRROR,Mirror the contents of FCR[0] on both bits." "0,1,2,3" newline hexmask.long.byte 0x0 1.--5. 1. "IT_TYPE," newline bitfld.long 0x0 0. "IT_PENDING," "0,1" group.long 0xC++0x7 line.long 0x0 "MEM_LCR,LCR[6:0] define parameters of the transmission and reception." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "DIV_EN," "0,1" newline bitfld.long 0x0 6. "BREAK_EN,Break control bit." "0,1" newline bitfld.long 0x0 5. "PARITY_TYPE2,Selects the forced parity format [if LCR[3] = 1]. If LCR[5] = 1 and LCR[4] = 0 the parity bit is forced to 1 in the transmitted and received data. If LCR[5] = 1 and LCR[4] = 1 the parity bit is forced to 0 in the transmitted and received.." "0,1" newline bitfld.long 0x0 4. "PARITY_TYPE1," "0,1" newline bitfld.long 0x0 3. "PARITY_EN," "0,1" newline bitfld.long 0x0 2. "NB_STOP,Specifies the number of stop bits:" "0,1" newline bitfld.long 0x0 0.--1. "CHAR_LENGTH,Specifies the word length to be transmitted or received." "0,1,2,3" line.long 0x4 "MEM_MCR,MCR[3:0] controls the interface with the modem. data set or peripheral device that is emulating the modem." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline rbitfld.long 0x4 7. "RESERVED," "0,1" newline bitfld.long 0x4 6. "TCR_TLR," "0,1" newline bitfld.long 0x4 5. "XON_EN," "0,1" newline bitfld.long 0x4 4. "LOOPBACK_EN," "0,1" newline bitfld.long 0x4 3. "CD_STS_CH," "0,1" newline bitfld.long 0x4 2. "RI_STS_CH," "0,1" newline bitfld.long 0x4 1. "RTS,In loop back controls MSR[4]. If auto-RTS is enabled the RTS* output is controlled by hardware flow control." "0,1" newline bitfld.long 0x4 0. "DTR," "0,1" group.long 0x10++0x3 line.long 0x0 "MEM_XON1_ADDR1,XON1/ADDR1 Register" hexmask.long.byte 0x0 0.--7. 1. "XON_WORD1,Used to store the 8-bit XON1 character in UART modes and ADDR1 address 1 for IrDA modes." rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_CIR," bitfld.long 0x0 7. "THR_EMPTY," "0,1" newline bitfld.long 0x0 6. "RESERVED," "0,1" newline bitfld.long 0x0 5. "RX_STOP,The RX_STOP is generated based on the value set in the BOF Length register (EBLR). It is cleared on a single read of the LSR register" "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_IRDA," bitfld.long 0x0 7. "THR_EMPTY," "0,1" newline bitfld.long 0x0 6. "STS_FIFO_FULL," "0,1" newline bitfld.long 0x0 5. "RX_LAST_BYTE," "0,1" newline bitfld.long 0x0 4. "FRAME_TOO_LONG," "0,1" newline bitfld.long 0x0 3. "ABORT," "0,1" newline bitfld.long 0x0 2. "CRC," "0,1" newline bitfld.long 0x0 1. "STS_FIFO_E," "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_UART," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "RX_FIFO_STS," "0,1" newline bitfld.long 0x0 6. "TX_SR_E," "0,1" newline bitfld.long 0x0 5. "TX_FIFO_E," "0,1" newline bitfld.long 0x0 4. "RX_BI," "0,1" newline bitfld.long 0x0 3. "RX_FE," "0,1" newline bitfld.long 0x0 2. "RX_PE," "0,1" newline bitfld.long 0x0 1. "RX_OE," "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" group.long 0x14++0x3 line.long 0x0 "MEM_XON2_ADDR2,XON2/ADDR2 Register" hexmask.long.byte 0x0 0.--7. 1. "XON_WORD2,Used to store the 8-bit XON2 character in UART modes and ADDR2 address 2 for IrDA modes." rgroup.long 0x18++0x3 line.long 0x0 "MEM_MSR,This register provides information about the current state of the control lines from the modem. data set or peripheral device to the LH. It also indicates when a control input from the modem changes state." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "NCD_STS,This bit is the complement of the DCD* input. In loop-back mode it is equivalent to MCR[3]" "0,1" newline bitfld.long 0x0 6. "NRI_STS,This bit is the complement of the RI* input. In loop-back mode it is equivalent to MCR[2]" "0,1" newline bitfld.long 0x0 5. "NDSR_STS,This bit is the complement of the DSR* input. In loop-back mode it is equivalent to MCR[0]" "0,1" newline bitfld.long 0x0 4. "NCTS_STS,This bit is the complement of the CTS* input. In loop-back mode it is equivalent to MCR[1]" "0,1" newline bitfld.long 0x0 3. "DCD_STS,Indicates that DCD* input [or MCR[3] in loop back] has changed. Cleared on a read." "0,1" newline bitfld.long 0x0 2. "RI_STS,Indicates that RI* input [or MCR[2] in loop back] has changed state from low to high. Cleared on a read." "0,1" newline bitfld.long 0x0 1. "DSR_STS," "0,1" newline bitfld.long 0x0 0. "CTS_STS," "0,1" group.long 0x18++0x3 line.long 0x0 "MEM_TCR,Transmission Control Register" hexmask.long.byte 0x0 4.--7. 1. "RX_FIFO_TRIG_START,RX FIFO trigger level to RESTORE transmission (0 - 60)" newline hexmask.long.byte 0x0 0.--3. 1. "RX_FIFO_TRIG_HALT,RX FIFO trigger level to HALT transmission (0 - 60)" group.long 0x18++0x7 line.long 0x0 "MEM_XOFF1,XOFF1 Register" hexmask.long.byte 0x0 0.--7. 1. "XOFF_WORD1,Used to store the 8-bit XOFF1 character in used in UART modes." line.long 0x4 "MEM_SPR,This read/write register does not control the module in anyway. It is intended as a scratchpad register to be used by the programmer to hold temporary data." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "SPR_WORD,Scratchpad register" group.long 0x1C++0x3 line.long 0x0 "MEM_TLR,Trigger Level Register" hexmask.long.byte 0x0 4.--7. 1. "RX_FIFO_TRIG_DMA,Receive FIFO trigger level" newline hexmask.long.byte 0x0 0.--3. 1. "TX_FIFO_TRIG_DMA,Transmit FIFO trigger level" group.long 0x1C++0xB line.long 0x0 "MEM_XOFF2,XOFF2 Register" hexmask.long.byte 0x0 0.--7. 1. "XOFF_WORD2,Used to store the 8-bit XOFF2 character in used in UART modes." line.long 0x4 "MEM_MDR1,The mode of operation can be programmed by writing to MDR1[2:0] and therefore the MDR1 must be programmed on start-up after configuration of the configuration registers (DLL. DLH. LCR). The value of MDR1[2:0] must not be changed again during.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline bitfld.long 0x4 7. "FRAME_END_MODE,IrDA mode only." "0,1" newline bitfld.long 0x4 6. "SIP_MODE,MIR/FIR modes only." "0,1" newline bitfld.long 0x4 5. "SCT,Store and control the transmission" "0,1" newline bitfld.long 0x4 4. "SET_TXIR,Used to configure the infrared transceiver." "0,1" newline bitfld.long 0x4 3. "IR_SLEEP," "0,1" newline bitfld.long 0x4 0.--2. "MODE_SELECT," "0,1,2,3,4,5,6,7" line.long 0x8 "MEM_MDR2,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline bitfld.long 0x8 7. "SET_TXIR_ALT,Provide alternate functionnality for MDR1[4] [SET_TXIR]" "0,1" newline bitfld.long 0x8 6. "IRRXINVERT,Only for IR mode [IRDA & CIR]Invert RX pin inside the module before the voting or sampling system logic of the infra red block. This will not affect the RX path in UART Modem modes." "0,1" newline bitfld.long 0x8 4.--5. "CIR_PULSE_MODE,CIR Pulse modulation definition. It defines high level of the pulse width associated with a digit:" "0,1,2,3" newline bitfld.long 0x8 3. "UART_PULSE,UART mode only. Used to allow pulse shaping in UART mode." "0,1" newline bitfld.long 0x8 1.--2. "STS_FIFO_TRIG,Only for IR-IRDA mode. Frame Status FIFO Threshold select:" "0,1,2,3" newline rbitfld.long 0x8 0. "IRTX_UNDERRUN,IRDA Transmission status interrupt.When the IIR[5] interrupt occurs the meaning of the interrupt is :" "0,1" rgroup.long 0x28++0x3 line.long 0x0 "MEM_SFLSR,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 5.--7. "RESERVED5," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 4. "OE_ERROR," "0,1" newline bitfld.long 0x0 3. "FRAME_TOO_LONG_ERROR," "0,1" newline bitfld.long 0x0 2. "ABORT_DETECT," "0,1" newline bitfld.long 0x0 1. "CRC_ERROR," "0,1" newline bitfld.long 0x0 0. "RESERVED0," "0,1" group.long 0x28++0x3 line.long 0x0 "MEM_TXFLL,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "TXFLL,LSB register used to specify the frame length" rgroup.long 0x2C++0x3 line.long 0x0 "MEM_RESUME,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "RESUME,Dummy read to restart the TX or RX" group.long 0x2C++0x7 line.long 0x0 "MEM_TXFLH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline rbitfld.long 0x0 5.--7. "RESERVED," "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--4. 1. "TXFLH,MSB register used to specify the frame length" line.long 0x4 "MEM_RXFLL,IrDA modes only." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "RXFLL,LSB register used to specify the frame length in reception" rgroup.long 0x30++0x3 line.long 0x0 "MEM_SFREGL,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "SFREGL,LSB part of the frame length" group.long 0x34++0x3 line.long 0x0 "MEM_RXFLH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 4.--7. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "RXFLH,MSB register used to specify the frame length in reception" rgroup.long 0x34++0x3 line.long 0x0 "MEM_SFREGH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 4.--7. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "SFREGH,MSB part of the frame length" group.long 0x38++0x3 line.long 0x0 "MEM_BLR,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "STS_FIFO_RESET,Status FIFO reset. This bit is self-clearing" "0,1" newline bitfld.long 0x0 6. "XBOF_TYPE,SIR xBOF select." "0,1" newline hexmask.long.byte 0x0 0.--5. 1. "RESERVED," rgroup.long 0x38++0x3 line.long 0x0 "MEM_UASR,UART Autobauding Status Register" bitfld.long 0x0 6.--7. "PARITY_TYPE,00 => No Parity identified. 01 => Parity space. 10 => Even Parity. 11 => Odd Parity" "0: No Parity identified,1: Parity space,?,?" newline bitfld.long 0x0 5. "BIT_BY_CHAR,0 => 7 bits character identified. 1 => 8 bits character identified" "0: 7 bits character identified,1: 8 bits character identified" newline hexmask.long.byte 0x0 0.--4. 1. "SPEED,Used to report the speed identified. 00000 => No speed identified. 00001 => 115200 bauds. 00010 => 57600 bauds. 00011 => 38400 bauds. 00100 => 28800 bauds. 00101 => 19200 bauds. 00110 => 14400 bauds. 00111 => 9600 bauds. 01000 => 4800 bauds. 01001.." group.long 0x3C++0xF line.long 0x0 "MEM_ACREG,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "PULSE_TYPE,SIR pulse width select:" "0,1" newline bitfld.long 0x0 6. "SD_MOD,Primary output used to configure transceivers. Connected to the SD/MODE input pin of IrDA transceivers." "0,1" newline bitfld.long 0x0 5. "DIS_IR_RX," "0,1" newline bitfld.long 0x0 4. "DIS_TX_UNDERRUN,It is recommended to disable TX FIFO underrun capability by masking corresponding underrun interrupt. When disabling underrun by setting ACREG[4]=1 garbage data is sent over TX line." "0,1" newline bitfld.long 0x0 3. "SEND_SIP,MIR/FIR Modes only.Send Serial Infrared Interaction Pulse [SIP] If this bit is set during a MIR/FIR transmission the SIP will be send at the end of it.This bit automatically gets cleared at the end of the SIP transmission." "0,1" newline bitfld.long 0x0 2. "SCTX_EN,Store and controlled TX start. When MDR1[5] = 1 and the LH writes 1 to this bit the TX state machine starts frame transmission. This bit is self-clearing." "0,1" newline bitfld.long 0x0 1. "ABORT_EN,Frame Abort. The LH can intentionally abort transmission of a frame by writing 1 to this bit. Neither the end flag nor the CRC bits are appended to the frame. If transmit FIFO is not empty and MDR1[5]=1 UART IrDA will start a new transfer.." "0,1" newline bitfld.long 0x0 0. "EOT_EN,EOT [end of transmission] bit. The LH writes 1 to this bit just before it writes the last byte to the TX FIFO in set-EOT bit frame closing method. This bit automatically gets cleared when the LH writes to the THR [TX FIFO]." "0,1" line.long 0x4 "MEM_SCR,Note: Bit 4 enables the wake-up interrupt. but this interrupt is not mapped into the IIR register. Therefore. when an interrupt occurs and there is no interrupt pending in the IIR register. the SSR[1] bit must be checked. To clear the wake-up.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline bitfld.long 0x4 7. "RX_TRIG_GRANU1," "0,1" newline bitfld.long 0x4 6. "TX_TRIG_GRANU1," "0,1" newline bitfld.long 0x4 5. "DSR_IT," "0,1" newline bitfld.long 0x4 4. "RX_CTS_DSR_WAKE_UP_ENABLE," "0,1" newline bitfld.long 0x4 3. "TX_EMPTY_CTL_IT," "0,1" newline bitfld.long 0x4 1.--2. "DMA_MODE_2,Used to specify the DMA mode valid if SCR[0] = 1" "0,1,2,3" newline bitfld.long 0x4 0. "DMA_MODE_CTL," "0,1" line.long 0x8 "MEM_SSR,Note: Bit 1 is reset only when SCR[4] is reset to 0." hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x8 3.--7. 1. "RESERVED," newline bitfld.long 0x8 2. "DMA_COUNTER_RST," "0,1" newline rbitfld.long 0x8 1. "RX_CTS_DSR_WAKE_UP_STS," "0,1" newline rbitfld.long 0x8 0. "TX_FIFO_FULL," "0,1" line.long 0xC "MEM_EBLR,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED," newline hexmask.long.byte 0xC 0.--7. 1. "EBLR,IR-IRDA mode: This register allows to define up to 176 xBOFs the maximum required by IrDA specification. IR-CIR mode: This register specifies the number of consecutive zeros to be received before generating the RX_STOP interrupt [IIR[2]]. 0x00:.." rgroup.long 0x50++0x3 line.long 0x0 "MEM_MVR,The reset value is fixed by hardware and corresponds to the RTL revision of this module. A reset has no effect on the value returned" bitfld.long 0x0 30.--31. "SCHEME,Scheme revision number of module" "0,1,2,3" newline bitfld.long 0x0 28.--29. "RESERVED," "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "FUNC,Function revision number of module" newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Rtl revision number of module" newline bitfld.long 0x0 8.--10. "MAJOR,Major revision number of the module." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom revision number of the module." "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number of the module." group.long 0x54++0x3 line.long 0x0 "MEM_SYSC,The auto idle bit controls a power saving technique to reduce the logic power consumption of the OCP interface. That is to say when the feature is enabled. the clock will be gated off until an OCP command for this device has been detected. When.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline rbitfld.long 0x0 5.--7. "RESERVED," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 3.--4. "IDLEMODE,POWER MANAGEMENT REQ/ACK CONTROL REF: OCP DESIGN GUIDELINES VERSION 1.1" "0,1,2,3" newline bitfld.long 0x0 2. "ENAWAKEUP,WAKE UP FEATURE CONTROL" "0,1" newline bitfld.long 0x0 1. "SOFTRESET,Software reset. Set this bit to 1 to trigger a module reset. This bit is automatically reset by the hardware. During reads it always returns a 0." "0,1" newline bitfld.long 0x0 0. "AUTOIDLE,Internal OCP clock gating strategy" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "MEM_SYSS," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 1.--7. 1. "RESERVED," newline bitfld.long 0x0 0. "RESETDONE,Internal Reset Monitoring" "0,1" group.long 0x5C++0x7 line.long 0x0 "MEM_WER,The UART wakeup enable register is used to mask and unmask a UART event that would subsequently notify the system. The events are any activity in the logic that could cause an interrupt and/ or an activity that would require the system to wakeup." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "EVENT_7_TX_WAKEUP_EN," "0,1" newline bitfld.long 0x0 6. "EVENT_6_RECEIVER_LINE_STATUS_INTERRUPT," "0,1" newline bitfld.long 0x0 5. "EVENT_5_RHR_INTERRUPT," "0,1" newline bitfld.long 0x0 4. "EVENT_4_RX_ACTIVITY," "0,1" newline bitfld.long 0x0 3. "EVENT_3_DCD_CD_ACTIVITY," "0,1" newline bitfld.long 0x0 2. "EVENT_2_RI_ACTIVITY," "0,1" newline bitfld.long 0x0 1. "EVENT_1_DSR_ACTIVITY," "0,1" newline bitfld.long 0x0 0. "EVENT_0_CTS_ACTIVITY," "0,1" line.long 0x4 "MEM_CFPS,Since the Consumer IR works at modulation rates of 30 56.8 KHz. the 48 MHz clock must be pre scaled before the clock can drive the IR logic. This register sets the divisor rate to give a range to accommodate the remote control requirements in.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "CFPS,System clock frequency prescaler at [12x multiple]. Examples for CFPS values are given in the table below. Target Freq [KHz] CFPS [decimal] Actual Freq[KHz] 30 133 30.08 32.75 122 32.79 36 111 36.04 36.7 109 36.69 38* 105 38.1.." rgroup.long 0x64++0x7 line.long 0x0 "MEM_RXFIFO_LVL,Level of the RX FIFO" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED24," newline hexmask.long.byte 0x0 0.--7. 1. "RXFIFO_LVL," line.long 0x4 "MEM_TXFIFO_LVL,Level of the TX FIFO" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED24," newline hexmask.long.byte 0x4 0.--7. 1. "TXFIFO_LVL," group.long 0x6C++0xB line.long 0x0 "MEM_IER2,Enables RX/TX FIFOs empty corresponding interrupts." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED1," newline hexmask.long.byte 0x0 3.--7. 1. "RESERVED," newline bitfld.long 0x0 2. "RHR_IT_DIS," "0,1" newline bitfld.long 0x0 1. "EN_TXFIFO_EMPTY,Enables[1]/DISABLES[00 EN_TXFIFO_EMPTY interrupt." "0,1" newline bitfld.long 0x0 0. "EN_RXFIFO_EMPTY,Enables[1]/disables[0] EN_RXFIFO_EMPTY interrupt." "0,1" line.long 0x4 "MEM_ISR2,Status of RX/TX FIFOs empty corresponding interrupts." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED1," newline hexmask.long.byte 0x4 2.--7. 1. "RESERVED," newline bitfld.long 0x4 1. "TXFIFO_EMPTY_STS,TXFIFO interrupt pending" "0,1" newline bitfld.long 0x4 0. "RXFIFO_EMPTY_STS,RXFIFO interrupt pending" "0,1" line.long 0x8 "MEM_FREQ_SEL,Sample per bit value selector" hexmask.long.byte 0x8 0.--7. 1. "FREQ_SEL,Sets the sample per bit if non default frequency is used. MDR3[1] must be set to 1 after this value is set. Must be equal or higher then 6." rgroup.long 0x78++0x7 line.long 0x0 "MEM_ABAUD_1ST_CHAR,Unused" hexmask.long 0x0 0.--31. 1. "RESERVED," line.long 0x4 "MEM_BAUD_2ND_CHAR,Unused" hexmask.long 0x4 0.--31. 1. "RESERVED," group.long 0x80++0x23 line.long 0x0 "MEM_MDR3,Mode definition register 3." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED2," newline bitfld.long 0x0 4. "DIR_EN,RS-485 External Transceiver Direction Enable" "0,1" newline bitfld.long 0x0 3. "DIR_POL,RS-485 External Transceiver Direction Polarity. 0 => TX: RTS=0 RX: RTS=1. 1 => TX: RTS=1 RX: RTS=0" "0: TX: RTS=0,1: TX: RTS=1" newline bitfld.long 0x0 2. "SET_DMA_TX_THRESHOLD,Enable to set different TX DMA threshold then 64-trigger [usage of new register TX_DNA_THRESHOLD]" "0,1" newline bitfld.long 0x0 1. "NONDEFAULT_FREQ,Enables[1]/Disables[0] using NONDEFAULT fclk frequencies" "0,1" newline bitfld.long 0x0 0. "DISABLE_CIR_RX_DEMOD,Disables[1]/Enables[0] CIR RX demodulation" "0,1" line.long 0x4 "MEM_TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level." hexmask.long.byte 0x4 0.--5. 1. "TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level." line.long 0x8 "MEM_MDR4,Mode definition register 4" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED1," newline rbitfld.long 0x8 7. "RESERVED," "0,1" newline bitfld.long 0x8 6. "MODE9,9-bit character length. When '1' overrides character length setting in LCR" "0,1" newline bitfld.long 0x8 3.--5. "FREQ_SEL_H,Upper 3 bits of FREQ_SEL register for higher division values as required for example for FI/Di in ISO7816 mode" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 0.--2. "MODE,New modes [when set overrides MDR1 modes]" "0,1,2,3,4,5,6,7" line.long 0xC "MEM_EFR2,Enhanced Features Register 2" hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED1," newline bitfld.long 0xC 7. "BROADCAST,Enables broadcast address matching in multi-drop address match mode" "0,1" newline bitfld.long 0xC 6. "TIMEOUT_BEHAVE,Specifies how timeout is measured" "0,1" newline bitfld.long 0xC 5. "C8,Value for ISO 7816 C8 pin for software control" "0,1" newline bitfld.long 0xC 4. "C4,Value for ISO 7816 C4 pin for software control" "0,1" newline bitfld.long 0xC 3. "C2,Value for ISO 7816 reset pin [software controllable]" "0,1" newline bitfld.long 0xC 2. "MULTIDROP,Enables parity Multi-drop mode [overrides LCR[5..3]] when '1'" "0,1" newline bitfld.long 0xC 1. "RHR_OVERRUN,RHR Overrun behaviour when buffer full" "0,1" newline bitfld.long 0xC 0. "ENDIAN,Endianness" "0,1" line.long 0x10 "MEM_ECR,Enhanced Control register" hexmask.long.tbyte 0x10 8.--31. 1. "RESERVED1," newline rbitfld.long 0x10 6.--7. "RESERVED," "0,1,2,3" newline bitfld.long 0x10 5. "CLEAR_TX_PE,Write 1 to clear parity error from the Transmitter to allow it to continue to try sending data [ISO7816 transmit only]" "0,1" newline bitfld.long 0x10 4. "TX_EN,Enables/Disables the transmitter" "0,1" newline bitfld.long 0x10 3. "RX_EN,Enables/Disables the receiver" "0,1" newline bitfld.long 0x10 2. "TX_RST,Writing '1' resets the transmitter" "0,1" newline bitfld.long 0x10 1. "RX_RST,Writing '1' resets the receiver" "0,1" newline bitfld.long 0x10 0. "A_MULTIDROP,In multi-drop mode when written with the value '1' causes the next byte written into THR to be transmitted with the parity bit set signaling an address" "0,1" line.long 0x14 "MEM_TIMEGUARD,Timeguard" hexmask.long.tbyte 0x14 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x14 0.--7. 1. "TIMEGUARD,Specifies the amount of idle baud clocks [transmitter bit period] to insert between transmitted bytes useful when comunicating with slower devices" line.long 0x18 "MEM_TIMEOUTL,Timeout lower byte" hexmask.long.tbyte 0x18 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x18 0.--7. 1. "TIMEOUT_L,Custom timeout period in baud clocks to override the internal value when different from 0. [Lower byte of the 16 bit value]" line.long 0x1C "MEM_TIMEOUTH,Timeout higher byte" hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x1C 0.--7. 1. "TIMEOUT_H,Custom timeout period in baud clocks to override the internal value when different from 0. [Higher byte of the 16 bit value]" line.long 0x20 "MEM_SCCR,Smartcard (ISO7816) mode Control Register" hexmask.long.tbyte 0x20 8.--31. 1. "RESERVED1," newline bitfld.long 0x20 7. "DSNACK,Applies Max_Iteration to receiver aswell - when maximum number of NACKs have been returned the receiver will accept the data regardless of error. The data will be loaded into the receiver FIFO and PE will be set when reading it." "0,1" newline bitfld.long 0x20 6. "INACK,Inhibit NACK when receiving even if an error is received. The data will be loaded into the receiver FIFO and PE will be set when reading it." "0,1" newline rbitfld.long 0x20 3.--5. "RESERVED," "0,1,2,3,4,5,6,7" newline bitfld.long 0x20 0.--2. "MAX_ITERATION,Number of times to repeat transmitted character if the receiver did not acknowledge. If not acknowledged after the max value is reached the USART transmitter will set parity error stop and not continue until it is cleared." "0,1,2,3,4,5,6,7" rgroup.long 0xA4++0x3 line.long 0x0 "MEM_ERHR,Extended Receive Holding Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--8. 1. "ERHR,Extended Receive Holding Register - allows accessing the full 9bit RHR" group.long 0xA4++0xF line.long 0x0 "MEM_ETHR,Extended Transmit Holding Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--8. 1. "ETHR,Extended Transmit Holding Register - allows writing the full 9bit RHR" line.long 0x4 "MEM_MAR,Multidrop Address Register" hexmask.long.byte 0x4 0.--7. 1. "ADDRESS,Multidrop match address value" line.long 0x8 "MEM_MMR,Multidrop Mask Register" hexmask.long.byte 0x8 0.--7. 1. "MASK,Address match masking value ? writing a 0 to a bit means that the corresponding address bit will be ignored in matching" line.long 0xC "MEM_MBR,Multidrop Broadcast Address Register" hexmask.long.byte 0xC 0.--7. 1. "BROADCAST_ADDRESS,Broadcast address for address matching" tree.end tree.end tree "USB0" base ad:0x0 tree "USB0_DEBUG_TRACE_MMR_TRACE_VBUSP_USB2SS_DEBUG_TRACE (USB0_DEBUG_TRACE_MMR_TRACE_VBUSP_USB2SS_DEBUG_TRACE)" base ad:0xF080000 group.long 0x80++0x3 line.long 0x0 "DEBUG_TRACE_MMR__TRACE_VBUSP__USB2SS_DEBUG_TRACE_TRACE_CTRL,Debug trace control register" hexmask.long 0x0 4.--31. 1. "RSVD,Reserved bits" bitfld.long 0x0 3. "EN_OUT_EP14,Debug trace enable for OUT Endpoint 14" "0,1" bitfld.long 0x0 2. "EN_OUT_EP15,Debug trace enable for OUT Endpoint 15" "0,1" bitfld.long 0x0 1. "EN_IN_EP14,Debug trace enable for IN Endpoint 14" "0,1" newline bitfld.long 0x0 0. "EN_IN_EP15,Debug trace enable for IN Endpoint 15" "0,1" group.long 0x0++0x3F line.long 0x0 "DEBUG_TRACE_MMR__TRACE_VBUSP__USB2SS_DEBUG_TRACE_TRB0_W0,TRB0 Word 0. Please refer to Controller programming guide for more details on these fields." bitfld.long 0x0 30.--31. "RSVD2,Reserved bits" "0,1,2,3" hexmask.long.word 0x0 14.--29. 1. "SID,Stream ID / SOF Number" bitfld.long 0x0 12.--13. "RSVD1,Reserved bits" "0,1,2,3" bitfld.long 0x0 11. "IOC,Interrupt on Complete" "0,1" newline bitfld.long 0x0 10. "ISP_IMI,Interrupt on Short Packet / Interrupt on Missed ISOC" "0,1" hexmask.long.byte 0x0 4.--9. 1. "TRBCTL,Indicates the type of TRB" bitfld.long 0x0 3. "CSP,Continue on Short Packet" "0,1" bitfld.long 0x0 2. "CHN,Chain buffers" "0,1" newline bitfld.long 0x0 1. "LST,Indicates this is the last TRB in a list" "0,1" bitfld.long 0x0 0. "HWO,Hardware Owner of Descriptor" "0,1" line.long 0x4 "DEBUG_TRACE_MMR__TRACE_VBUSP__USB2SS_DEBUG_TRACE_TRB0_W1,TRB0 Word 1. Please refer to Controller programming guide for more details on these fields." hexmask.long.byte 0x4 28.--31. 1. "TRBSTS,Packet Count M1" bitfld.long 0x4 27. "RSVD2,Reserved bits" "0,1" bitfld.long 0x4 26. "SPR,Short packet received/Reserved bits" "0,1" bitfld.long 0x4 24.--25. "PCM1,Packet Count M1" "0,1,2,3" newline hexmask.long.tbyte 0x4 0.--22. 1. "BUFSIZ,Buffer Size" line.long 0x8 "DEBUG_TRACE_MMR__TRACE_VBUSP__USB2SS_DEBUG_TRACE_TRB0_W2,TRB0 Word 2. Please refer to Controller programming guide for more details on these fields." hexmask.long 0x8 0.--31. 1. "BPTRH,Buffer Pointer High" line.long 0xC "DEBUG_TRACE_MMR__TRACE_VBUSP__USB2SS_DEBUG_TRACE_TRB0_W3,TRB0 Word 3. Please refer to Controller programming guide for more details on these fields." hexmask.long 0xC 0.--31. 1. "BPTRL,Buffer Pointer Low" line.long 0x10 "DEBUG_TRACE_MMR__TRACE_VBUSP__USB2SS_DEBUG_TRACE_TRB1_W0,TRB1 Word 0. Please refer to Controller programming guide for more details on these fields." bitfld.long 0x10 30.--31. "RSVD2,Reserved bits" "0,1,2,3" hexmask.long.word 0x10 14.--29. 1. "SID,Stream ID / SOF Number" bitfld.long 0x10 12.--13. "RSVD1,Reserved bits" "0,1,2,3" bitfld.long 0x10 11. "IOC,Interrupt on Complete" "0,1" newline bitfld.long 0x10 10. "ISP_IMI,Interrupt on Short Packet / Interrupt on Missed ISOC" "0,1" hexmask.long.byte 0x10 4.--9. 1. "TRBCTL,Indicates the type of TRB" bitfld.long 0x10 3. "CSP,Continue on Short Packet" "0,1" bitfld.long 0x10 2. "CHN,Chain buffers" "0,1" newline bitfld.long 0x10 1. "LST,Indicates this is the last TRB in a list" "0,1" bitfld.long 0x10 0. "HWO,Hardware Owner of Descriptor" "0,1" line.long 0x14 "DEBUG_TRACE_MMR__TRACE_VBUSP__USB2SS_DEBUG_TRACE_TRB1_W1,TRB1 Word 1. Please refer to Controller programming guide for more details on these fields." hexmask.long.byte 0x14 28.--31. 1. "TRBSTS,Packet Count M1" bitfld.long 0x14 27. "RSVD2,Reserved bits" "0,1" bitfld.long 0x14 26. "SPR,Short packet received/Reserved bits" "0,1" bitfld.long 0x14 24.--25. "PCM1,Packet Count M1" "0,1,2,3" newline hexmask.long.tbyte 0x14 0.--22. 1. "BUFSIZ,Buffer Size" line.long 0x18 "DEBUG_TRACE_MMR__TRACE_VBUSP__USB2SS_DEBUG_TRACE_TRB1_W2,TRB1 Word 2. Please refer to Controller programming guide for more details on these fields." hexmask.long 0x18 0.--31. 1. "BPTRH,Buffer Pointer High" line.long 0x1C "DEBUG_TRACE_MMR__TRACE_VBUSP__USB2SS_DEBUG_TRACE_TRB1_W3,TRB1 Word 3. Please refer to Controller programming guide for more details on these fields." hexmask.long 0x1C 0.--31. 1. "BPTRL,Buffer Pointer Low" line.long 0x20 "DEBUG_TRACE_MMR__TRACE_VBUSP__USB2SS_DEBUG_TRACE_TRB2_W0,TRB2 Word 0. Please refer to Controller programming guide for more details on these fields." bitfld.long 0x20 30.--31. "RSVD2,Reserved bits" "0,1,2,3" hexmask.long.word 0x20 14.--29. 1. "SID,Stream ID / SOF Number" bitfld.long 0x20 12.--13. "RSVD1,Reserved bits" "0,1,2,3" bitfld.long 0x20 11. "IOC,Interrupt on Complete" "0,1" newline bitfld.long 0x20 10. "ISP_IMI,Interrupt on Short Packet / Interrupt on Missed ISOC" "0,1" hexmask.long.byte 0x20 4.--9. 1. "TRBCTL,Indicates the type of TRB" bitfld.long 0x20 3. "CSP,Continue on Short Packet" "0,1" bitfld.long 0x20 2. "CHN,Chain buffers" "0,1" newline bitfld.long 0x20 1. "LST,Indicates this is the last TRB in a list" "0,1" bitfld.long 0x20 0. "HWO,Hardware Owner of Descriptor" "0,1" line.long 0x24 "DEBUG_TRACE_MMR__TRACE_VBUSP__USB2SS_DEBUG_TRACE_TRB2_W1,TRB2 Word 1. Please refer to Controller programming guide for more details on these fields." hexmask.long.byte 0x24 28.--31. 1. "TRBSTS,Packet Count M1" bitfld.long 0x24 27. "RSVD2,Reserved bits" "0,1" bitfld.long 0x24 26. "SPR,Short packet received/Reserved bits" "0,1" bitfld.long 0x24 24.--25. "PCM1,Packet Count M1" "0,1,2,3" newline hexmask.long.tbyte 0x24 0.--22. 1. "BUFSIZ,Buffer Size" line.long 0x28 "DEBUG_TRACE_MMR__TRACE_VBUSP__USB2SS_DEBUG_TRACE_TRB2_W2,TRB2 Word 2. Please refer to Controller programming guide for more details on these fields." hexmask.long 0x28 0.--31. 1. "BPTRH,Buffer Pointer High" line.long 0x2C "DEBUG_TRACE_MMR__TRACE_VBUSP__USB2SS_DEBUG_TRACE_TRB2_W3,TRB2 Word 3. Please refer to Controller programming guide for more details on these fields." hexmask.long 0x2C 0.--31. 1. "BPTRL,Buffer Pointer Low" line.long 0x30 "DEBUG_TRACE_MMR__TRACE_VBUSP__USB2SS_DEBUG_TRACE_TRB3_W0,TRB3 Word 0. Please refer to Controller programming guide for more details on these fields." bitfld.long 0x30 30.--31. "RSVD2,Reserved bits" "0,1,2,3" hexmask.long.word 0x30 14.--29. 1. "SID,Stream ID / SOF Number" bitfld.long 0x30 12.--13. "RSVD1,Reserved bits" "0,1,2,3" bitfld.long 0x30 11. "IOC,Interrupt on Complete" "0,1" newline bitfld.long 0x30 10. "ISP_IMI,Interrupt on Short Packet / Interrupt on Missed ISOC" "0,1" hexmask.long.byte 0x30 4.--9. 1. "TRBCTL,Indicates the type of TRB" bitfld.long 0x30 3. "CSP,Continue on Short Packet" "0,1" bitfld.long 0x30 2. "CHN,Chain buffers" "0,1" newline bitfld.long 0x30 1. "LST,Indicates this is the last TRB in a list" "0,1" bitfld.long 0x30 0. "HWO,Hardware Owner of Descriptor" "0,1" line.long 0x34 "DEBUG_TRACE_MMR__TRACE_VBUSP__USB2SS_DEBUG_TRACE_TRB3_W1,TRB3 Word 1. Please refer to Controller programming guide for more details on these fields." hexmask.long.byte 0x34 28.--31. 1. "TRBSTS,Packet Count M1" bitfld.long 0x34 27. "RSVD2,Reserved bits" "0,1" bitfld.long 0x34 26. "SPR,Short packet received/Reserved bits" "0,1" bitfld.long 0x34 24.--25. "PCM1,Packet Count M1" "0,1,2,3" newline hexmask.long.tbyte 0x34 0.--22. 1. "BUFSIZ,Buffer Size" line.long 0x38 "DEBUG_TRACE_MMR__TRACE_VBUSP__USB2SS_DEBUG_TRACE_TRB3_W2,TRB3 Word 2. Please refer to Controller programming guide for more details on these fields." hexmask.long 0x38 0.--31. 1. "BPTRH,Buffer Pointer High" line.long 0x3C "DEBUG_TRACE_MMR__TRACE_VBUSP__USB2SS_DEBUG_TRACE_TRB3_W3,TRB3 Word 3. Please refer to Controller programming guide for more details on these fields." hexmask.long 0x3C 0.--31. 1. "BPTRL,Buffer Pointer Low" tree.end tree "USB0_ECC_AGGR (USB0_ECC_AGGR)" base ad:0xF980000 rgroup.long 0x0++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECC_AGGR__CFG__REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR__CFG__REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 1. "MEM_CTRL_RAM0_PEND,Interrupt Pending Status for mem_ctrl_ram0_pend" "0,1" bitfld.long 0x4 0. "RAMECC_PEND,Interrupt Pending Status for ramecc_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 1. "MEM_CTRL_RAM0_ENABLE_SET,Interrupt Enable Set Register for mem_ctrl_ram0_pend" "0,1" bitfld.long 0x0 0. "RAMECC_ENABLE_SET,Interrupt Enable Set Register for ramecc_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 1. "MEM_CTRL_RAM0_ENABLE_CLR,Interrupt Enable Clear Register for mem_ctrl_ram0_pend" "0,1" bitfld.long 0x0 0. "RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for ramecc_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECC_AGGR__CFG__REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR__CFG__REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 1. "MEM_CTRL_RAM0_PEND,Interrupt Pending Status for mem_ctrl_ram0_pend" "0,1" bitfld.long 0x4 0. "RAMECC_PEND,Interrupt Pending Status for ramecc_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 1. "MEM_CTRL_RAM0_ENABLE_SET,Interrupt Enable Set Register for mem_ctrl_ram0_pend" "0,1" bitfld.long 0x0 0. "RAMECC_ENABLE_SET,Interrupt Enable Set Register for ramecc_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 1. "MEM_CTRL_RAM0_ENABLE_CLR,Interrupt Enable Clear Register for mem_ctrl_ram0_pend" "0,1" bitfld.long 0x0 0. "RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for ramecc_pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECC_AGGR__CFG__REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECC_AGGR__CFG__REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECC_AGGR__CFG__REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECC_AGGR__CFG__REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "USB0_MMR_MMRVBP_USB2SS_CFG (USB0_MMR_MMRVBP_USB2SS_CFG)" base ad:0xF900000 rgroup.long 0x0++0x3 line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_REVISION,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0xB line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_OVERCURRENT_CONTROL,This register contains bits for indicating overcurrent condition on VBUS to Controller" hexmask.long.word 0x0 17.--31. 1. "RSVD3,Reserved bits" newline bitfld.long 0x0 16. "OVERCURRENT_N,Overcurrent indicator to the Controller" "0,1" newline hexmask.long.byte 0x0 9.--15. 1. "RSVD2,Reserved bits" newline bitfld.long 0x0 8. "OVERCURRENT_SEL,Overcurrent MMR select. Has to be written before setting pwrup_rst_n bit. 1 - overcurrent MMR bit is used 0 - port_overcurrent_n input is used" "0,1" newline hexmask.long.byte 0x0 0.--7. 1. "RSVD1,Reserved bits" line.long 0x4 "MMR__MMRVBP__USB2SS_CFG_PHY_CONFIG,Wrapper register containing static settings. All bits in this register directly drive the USB2 PHY inputs. Please refer to USB2 PHY user guide for more information." hexmask.long 0x4 5.--31. 1. "RESERVED,Reserved bits" newline bitfld.long 0x4 3.--4. "RESERVED,Reserved bits" "0,1,2,3" newline bitfld.long 0x4 1.--2. "VBUS_SEL,This register directly drives the vbus_sel[1:0] input to the PHY. VBUS select - 00: VBUS = 5.25V/3.3V 01: VBUS/3 external divider is active so VBUS could be upto 11V." "0: VBUS = 5,1: VBUS/3 external divider is active,?,?" newline bitfld.long 0x4 0. "LANE_REVERSE,This register directly drives the lane_reverse input to USB2 PHY. Lane reverse selection. When set this bit indicates that D+ and D- lines have to be swapped." "0,1" line.long 0x8 "MMR__MMRVBP__USB2SS_CFG_PHY_TEST,Register containing PLL bypass select. BIST control and status" hexmask.long.word 0x8 18.--31. 1. "RESERVED,Reserved bits" newline bitfld.long 0x8 17. "BIST_MODE,Set for bist mode. This is used for overriding PHY ports for BIST." "0,1" newline hexmask.long.byte 0x8 9.--16. 1. "BIST_ERROR_COUNT,Number of bytes that have errors while running BIST. The count resets when bist_on is set." newline rbitfld.long 0x8 8. "BIST_ERROR,If set this bit indicates that BIST completed with error." "0,1" newline rbitfld.long 0x8 7. "BIST_COMPLETE,If set this bit indicates that the BIST operation is completed." "0,1" newline bitfld.long 0x8 6. "BIST_ON,Setting this bit starts the BIST operation." "0,1" newline bitfld.long 0x8 5. "BIST_MODE_EN,BIST Mode Enable. 0 = BIST not enabled 1 = BIST enabled" "0: BIST not enabled,1: BIST enabled" newline hexmask.long.byte 0x8 1.--4. 1. "BIST_MODE_SEL,BIST Mode Selection. bist_mode_sel[3]: 0 = 8-bit interface 1 = 16-bit interface; bist_mode_sel[2]: 0 = error injection disabled 1 = error injection enabled; bist_mode_sel[1]: 0 = device mode 1 = host mode; bist_mode_sel[0]: 0 = High.." newline bitfld.long 0x8 0. "RESERVED,Reserved bits" "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_CORE_STAT,Register containing miscellaneous status bits from the core" hexmask.long.tbyte 0x0 15.--31. 1. "RSVD1,Reserved bits" newline bitfld.long 0x0 14. "HUB_VBUS_CTRL,Indicates whether core is asking for VBUS to be turned on in host mode." "0,1" newline bitfld.long 0x0 12.--13. "OPERATIONAL_MODE,Indicates current operational mode of Controller. This directly reflects the value programmed into GCTL.PRTCAPDIR Controller register. 2'b01 - Host 2'b10 - Device." "0,1,2,3" newline hexmask.long.word 0x0 0.--11. 1. "HOST_CURRENT_BELT,Indicates minimum of all received device BELT values and the BELT value set by the Set Latency Tolerance Value command." group.long 0x18++0x7 line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_HOST_VBUS_CTRL,Register containing software bit for overriding drive VBUS" bitfld.long 0x0 1. "DRV_VBUS_OVERRIDE,Setting this bit enables drive VBUS override. Drive VBUS output reflects drv_vbus_override_val field value." "0,1" newline bitfld.long 0x0 0. "DRV_VBUS_OVERRIDE_VAL,Drive VBUS output override value." "0,1" line.long 0x4 "MMR__MMRVBP__USB2SS_CFG_MODE_CONTROL,Register containing software bit for indicating DRD mode is determined" bitfld.long 0x4 0. "MODE_VALID,For DRD applications software sets this bit when the role is determined based on connect event and ID value from GPIO. Software clears this bit when a disconnect event happens and role is no longer valid. Software can also set this once.." "0,1" group.long 0x30++0xB line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_WAKEUP_CONFIG,Register containing low power mode wakeup enables" hexmask.long 0x0 4.--31. 1. "RSVD1,Reserved bits" newline bitfld.long 0x0 3. "OVERCURRENT_WAKEUP_EN,overcurrent event wakeup enable" "0,1" newline bitfld.long 0x0 2. "LINESTATE_WAKEUP_EN,linestate event wakeup enable" "0,1" newline bitfld.long 0x0 1. "SESSVALID_WAKEUP_EN,SESSVALID event wakeup enable" "0,1" newline bitfld.long 0x0 0. "VBUSVALID_WAKEUP_EN,VBUSVALID event wakeup enable" "0,1" line.long 0x4 "MMR__MMRVBP__USB2SS_CFG_WAKEUP_STAT,Register containing low power mode status bits. The status bits are set when the corresponding wakeup event happens and the corresponding enable in WAKEUP_CONFIG MMR is set. In addition. these bits are only set if.." hexmask.long.tbyte 0x4 15.--31. 1. "RSVD1,Reserved bits" newline rbitfld.long 0x4 14. "OVERCURRENT_N_WAKEUP_CURRENT,overcurrent_n current value during wakeup event" "0,1" newline rbitfld.long 0x4 13. "OVERCURRENT_N_WAKEUP_PREV,overcurrent_n previous value during wakeup event" "0,1" newline rbitfld.long 0x4 11.--12. "LINESTATE_WAKEUP_CURRENT,Linestate current value during wakeup event" "0,1,2,3" newline rbitfld.long 0x4 9.--10. "LINESTATE_WAKEUP_PREV,Linestate previous value during wakeup event" "0,1,2,3" newline rbitfld.long 0x4 8. "SESSVALID_WAKEUP_CURRENT,SESSVALID current value during wakeup event" "0,1" newline rbitfld.long 0x4 7. "SESSVALID_WAKEUP_PREV,SESSVALID previous value during wakeup event" "0,1" newline rbitfld.long 0x4 6. "VBUSVALID_WAKEUP_CURRENT,VBUSVALID current value during wakeup event" "0,1" newline rbitfld.long 0x4 5. "VBUSVALID_WAKEUP_PREV,VBUSVALID previous value during wakeup event" "0,1" newline rbitfld.long 0x4 4. "OVERCURRENT_N_WAKEUP_STAT,overcurrent_n event wakeup status. This is only looking for change on port_overcurrent_n input and does not include overcurrent MMR. This is because wakeup is required only for a port event and for any software write to happen .." "0,1" newline rbitfld.long 0x4 3. "LINESTATE_WAKEUP_STAT,linestate event wakeup status" "0,1" newline rbitfld.long 0x4 2. "SESSVALID_WAKEUP_STAT,SESSVALID event wakeup status" "0,1" newline rbitfld.long 0x4 1. "VBUSVALID_WAKEUP_STAT,VBUSVALID event wakeup status" "0,1" newline bitfld.long 0x4 0. "WAKEUP_STAT_CLEAR,Clears all the *_wakeup_stat bits in this register" "0,1" line.long 0x8 "MMR__MMRVBP__USB2SS_CFG_OVERRIDE_CONFIG,Register containing various overrides" bitfld.long 0x8 31. "PHY_HVM_EN,Enable PHY HVM overrides." "0,1" newline bitfld.long 0x8 15.--16. "XCVRSEL_HVM_OVERRIDE_VAL,Override value for PHY xcvr input. The value in this field is applied to PHY xcvrsel input if phy_hvm_en bit in this register is set." "0,1,2,3" newline bitfld.long 0x8 14. "TERMSEL_HVM_OVERRIDE_VAL,Override value for PHY termsel input. The value in this field is applied to PHY termsel input if phy_hvm_en bit in this register is set." "0,1" newline bitfld.long 0x8 12.--13. "OPMODE_HVM_OVERRIDE_VAL,Override value for PHY opmode input. The value in this field is applied to PHY opmode input if phy_hvm_en bit in this register is set." "0,1,2,3" newline bitfld.long 0x8 11. "DMPULLDOWN_HVM_OVERRIDE_VAL,Override value for PHY dmpulldown input. The value in this field is applied to PHY dmpulldown input if phy_hvm_en bit in this register is set." "0,1" newline bitfld.long 0x8 10. "DPPULLDOWN_HVM_OVERRIDE_VAL,Override value for PHY dppulldown input. The value in this field is applied to PHY dppulldown input if phy_hvm_en bit in this register is set." "0,1" newline bitfld.long 0x8 7. "SUSPEND_OVERRIDE_VAL,Suspend override value. 0 - suspendm is asserted and clockstop idle term indicates idle 1 - suspendm is deasserted and clockstop idle term indicates non-idle." "0,1" newline bitfld.long 0x8 6. "SUSPEND_OVERRIDE_SEL,Suspend override selector. This has to be set to override utmi_suspend_n from Controller that goes to clockstop idle. This does not affect suspend going to PHY. Only purpose of this is to ease clockstop interface DV." "0,1" newline bitfld.long 0x8 5. "TXBITSTUFFEN_OVERRIDE_VAL,TXBITSTUFFENABLE override value" "0,1" newline bitfld.long 0x8 4. "TXBITSTUFFEN_OVERRIDE_SEL,TXBITSTUFFENABLE override selector. This has to be set to override TXBITSTUFFENABLE to PHY." "0,1" newline bitfld.long 0x8 3. "SESSVALID_OVERRIDE_VAL,SESSVALID override value. 1 - Session is valid 0 - Session is not valid" "0,1" newline bitfld.long 0x8 2. "SESSVALID_OVERRIDE_SEL,SESSVALID override selector. This has to be set to override sessvalid from PHY to Controller." "0,1" newline bitfld.long 0x8 1. "VBUSVALID_OVERRIDE_VAL,VBUSVALID override value. 1 - VBUS is valid 0 - VBUS is not valid" "0,1" newline bitfld.long 0x8 0. "VBUSVALID_OVERRIDE_SEL,VBUSVALID override selector. This has to be set to override vbusvalid from PHY to Controller." "0,1" group.long 0x430++0x13 line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_IRQ_MISC_STATUS_RAW,The IRQ_STATUS_RAW_MISC register allows the usbss interrupt sources to be manually set when writing a 1 to a specific bit. Write 0: No action Write 1: Set event Read 0: No event pending Read 1: Event pending" hexmask.long.word 0x0 23.--31. 1. "RESERVED,Reserved bits" newline bitfld.long 0x0 22. "VBUSVALID_CHANGE,Set when VBUSVALID changes state" "0,1" newline bitfld.long 0x0 21. "RESERVED,Reserved bits" "0,1" newline bitfld.long 0x0 20. "SESSVALID_CHANGE,Set when SESSVALID changes state" "0,1" newline hexmask.long.tbyte 0x0 0.--19. 1. "RESERVED,Reserved bits" line.long 0x4 "MMR__MMRVBP__USB2SS_CFG_IRQ_MISC_STATUS,The IRQ_STATUS_MISC register allows the usbss interrupt sources to be manually cleared when writing a 1 to a specific bit. Write 0: No action Write 1: Clear event Read 0: No event pending Read 1: Event pending" hexmask.long.word 0x4 23.--31. 1. "RESERVED,Reserved bits" newline bitfld.long 0x4 22. "VBUSVALID_CHANGE,Set when VBUSVALID changes state" "0,1" newline bitfld.long 0x4 21. "RESERVED,Reserved bits" "0,1" newline bitfld.long 0x4 20. "SESSVALID_CHANGE,Set when SESSVALID changes state" "0,1" newline hexmask.long.tbyte 0x4 0.--19. 1. "RESERVED,Reserved bits" line.long 0x8 "MMR__MMRVBP__USB2SS_CFG_IRQ_MISC_ENABLE_SET,The IRQ_ENABLE_SET_MISC register allows the usbss interrupt sources to be manually enabled when writing a 1 to a specific bit. Write 0: No action Write 1: Enable event Read 0: Event is disabled Read 1: Event.." hexmask.long.word 0x8 23.--31. 1. "RESERVED,Reserved bits" newline bitfld.long 0x8 22. "VBUSVALID_CHANGE,Event enable" "0,1" newline bitfld.long 0x8 21. "RESERVED,Reserved bits" "0,1" newline bitfld.long 0x8 20. "SESSVALID_CHANGE,Event enable" "0,1" newline hexmask.long.tbyte 0x8 0.--19. 1. "RESERVED,Reserved bits" line.long 0xC "MMR__MMRVBP__USB2SS_CFG_IRQ_MISC_ENABLE_CLR,The IRQ_ENABLE_CLR_MISC register allows the usbss interrupt sources to be manually disabled when writing a 1 to a specific bit. Write 0: No action Write 1: Disable event Read 0: Event is disabled Read 1: Event.." hexmask.long.word 0xC 23.--31. 1. "RESERVED,Reserved bits" newline bitfld.long 0xC 22. "VBUSVALID_CHANGE,Event enable" "0,1" newline bitfld.long 0xC 21. "RESERVED,Reserved bits" "0,1" newline bitfld.long 0xC 20. "SESSVALID_CHANGE,Event enable" "0,1" newline hexmask.long.tbyte 0xC 0.--19. 1. "RESERVED,Reserved bits" line.long 0x10 "MMR__MMRVBP__USB2SS_CFG_IRQ_MISC_EOI,EOI vector for re-triggering interrupts" bitfld.long 0x10 0. "EOI_VECTOR,EOI vector for misc interrupt. Has to be written to 0 after ISR services misc interrupt." "0,1" group.long 0x490++0x3 line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_INTR_TEST,Register for overriding various Controller interrupts for easy activation during DV. NOTE: This is only for internal purposes and should NOT be used during functional operation." bitfld.long 0x0 8. "HOST_SYSTEM_ERR_TEST,Test for host system error interrupt. Set 1 to cause host_system_error_intr to trigger and clear this bit to clear the interrupt condition." "0,1" newline hexmask.long.byte 0x0 0.--7. 1. "IRQ_TEST,Test for irq interrupts from core. Each bit sets corresponding irq_intr bit. Set 1 to each bit based on whether that interrupt needs to trigger and clear the bit in ISR to clear interrupt condition." group.long 0x614++0x7 line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_VBUS_FILTER,The vbus comparator signals may be filtered by controlling these register values." hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED,Reserved bits" newline bitfld.long 0x0 8. "SESSVALID_BYPASS,0= use filter 1= bypass filter" "0: use filter,1: bypass filter" newline bitfld.long 0x0 6.--7. "SESSVALID_THRESH,00= 1us 01= 100us 10= 5ms 11= 50ms. 4 utmi_clk latency for sessvalid" "0: 1us,1: 100us,?,?" newline bitfld.long 0x0 3.--5. "RESERVED,Reserved bits" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2. "VBUSVALID_BYPASS,0= use filter 1= bypass filter for vbusvalid" "0: use filter,1: bypass filter for vbusvalid" newline bitfld.long 0x0 0.--1. "VBUSVALID_THRESH,00= 1us 01= 100us 10= 5ms 11= 50ms. 4 utmi_clk latency for vbusvalid" "0: 1us,1: 100us,?,?" line.long 0x4 "MMR__MMRVBP__USB2SS_CFG_VBUS_STAT,Status bits of VBUS detected signals after filter." hexmask.long 0x4 3.--31. 1. "RESERVED,Reserved bits" newline rbitfld.long 0x4 2. "SESSVALID,Filtered SESSVALID" "0,1" newline bitfld.long 0x4 1. "RESERVED,Reserved bits" "0,1" newline rbitfld.long 0x4 0. "VBUSVALID,Filtered VBUSVALID" "0,1" group.long 0x708++0x3 line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_DEBUG_CFG,Configuration of debug data for observation. 0x0 or 0x7 = debug outputs are tied low. 0x1 = debug outputs are UTMI interface signals. 0x2 = debug outputs are Controller debug[31:0] output 0x3 = debug outputs are.." bitfld.long 0x0 0.--2. "SEL,selection of observed local signals" "0,1,2,3,4,5,6,7" rgroup.long 0x70C++0x3 line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_DEBUG_DATA,Debug data" hexmask.long 0x0 0.--31. 1. "VAL,tmp" group.long 0x714++0x3 line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_HOST_HUB_CTRL,The HOST_HUB_CTRL Register is a collection of various input signals that control the xHC controllers Host or Hub interfaces. These signals are used regardless if a Host or Hub is implemented or not." hexmask.long.tbyte 0x0 10.--31. 1. "RSVD3,Reserved bits" newline hexmask.long.byte 0x0 6.--9. 1. "BUS_FILTER_BYPASS,Bus Filter Bypass bit [0]: bypass the filter for vbusvalid bit bit [2]: bypass the filter for sessvalid" newline bitfld.long 0x0 5. "HUB_PORT_PERM_ATTACH,Indicates if the device attached to a downstream port is permanently attached or not. Bit 6 is the USB2 port and bit 7 is the SS port. 0 - Not permanently attached 1 - Permanently attached" "0,1" newline rbitfld.long 0x0 2.--4. "RSVD2,Reserved bits" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 1. "HOST_PORT_POWER_CONTROL_PRESENT,This port defines the bit [3] of Capability Parameters (HCCPARAMS). Change the PPC value through the pin Port Power Control (PPC). This indicates whether the host controller implementation includes port power control. 0 -.." "0,1" newline rbitfld.long 0x0 0. "RSVD1,Reserved bits" "0,1" tree.end tree "USB0_PHY2 (USB0_PHY2)" base ad:0xF908000 group.long 0x0++0x4F line.long 0x0 "PHY2_AFE_TX_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x0 7. "TX_ANA_REG0,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x0 2.--6. 1. "BF_6_2,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x0 1. "BF_1,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x0 0. "BF_0,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x4 "PHY2_AFE_TX_REG1,HS TX trimming" bitfld.long 0x4 7. "TX_ANA_REG1,0 SCALE1 VALUE IS 0 1 SCALE1 VALUE IS 0.5" "0,1" hexmask.long.byte 0x4 1.--6. 1. "BF_6_1,000000 BOOST CODE VALUE IS 0 000001 BOOST CODE VALUE IS 1 000010 BOOST CODE VALUE IS 2 00011 BOOST CODE VALUE IS 3 000100 BOOST CODE VALUE IS 4 000101 BOOST CODE VALUE IS 5 000110 BOOST CODE VALUE IS 6 000111 BOOST CODE VALUE IS 7 001000.." bitfld.long 0x4 0. "BF_0,0 Default BOOST CODE = 8 1 BOOST CODE can be controlled by BITS [6:1]." "0,1" line.long 0x8 "PHY2_AFE_TX_REG2,HS TX trimming" bitfld.long 0x8 7. "TX_ANA_REG2,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 6. "BF_6,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x8 1.--5. 1. "BF_5_1,00000 DEEMP CODE VALUE IS 0 00001 DEEMP CODE VALUE IS 1 00010 DEEMP CODE VALUE IS 2 00011 DEEMP CODE VALUE IS 3 00100 DEEMP CODE VALUE IS 4 00101 DEEMP CODE VALUE IS 5 00110 DEEMP CODE VALUE IS 6 00111 DEEMP CODE VALUE IS 7 01000 DEEMP.." newline bitfld.long 0x8 0. "BF_0,0 Default DEEMP CODE = 8 1 DEEMP CODE can be controlled by BITS 5:1." "0,1" line.long 0xC "PHY2_AFE_TX_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0xC 5.--7. "TX_ANA_REG3,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC 1.--4. 1. "BF_4_1,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0xC 0. "BF_0,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x10 "PHY2_AFE_TX_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x10 7. "TX_ANA_REG4,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 6. "BF_6,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 5. "BF_5,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline hexmask.long.byte 0x10 1.--4. 1. "BF_4_1,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x10 0. "BF_0,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x14 "PHY2_AFE_TX_REG5,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x14 7. "AFE_TX_REG5,UNUSED" "0,1" hexmask.long.byte 0x14 1.--6. 1. "BF_6_1,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x14 0. "BF_0,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x18 "PHY2_AFE_TX_REG6,LSTX rise time trimming" hexmask.long.byte 0x18 0.--7. 1. "TX_ANA_REG6,Bit 7 = unused. Bbits 6:3= 0000 Typical LSTx rise time = 375ns 0001 Typical LSTx rise time =215ns 0010 Typical LSTx rise time =215ns 0011 Typical LSTx rise time =150ns 0100 Typical LSTx rise time =215ns 0101 Typical LSTx rise time.." line.long 0x1C "PHY2_AFE_TX_REG7,FSTX rise time trimming" hexmask.long.byte 0x1C 0.--7. 1. "TX_ANA_REG7,Bits 7:5= reserved. Bits 4:1= 0000 Typical FSTx rise time = 16.6ns 0001 Typical FSTx rise time =16.1ns 0010 Typical FSTx rise time =15.6ns 0011 Typical FSTx rise time =15.2ns 0100 Typical FSTx rise time =14.7ns 0101 Typical FSTx rise.." line.long 0x20 "PHY2_AFE_TX_REG8,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x20 0.--7. 1. "TX_ANA_REG8,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x24 "PHY2_AFE_TX_REG9,Register AFE_TX_REG9" hexmask.long.byte 0x24 0.--7. 1. "TX_ANA_REG9,Bits 7:4= 0000 Typical LSTx fall time = 450ns 0001 Typical LSTx fall time = 225ns 0010 Typical LSTx fall time =150ns 0011 Typical LSTx fall time =225ns 0100 Typical LSTx fall time =150ns 0101 Typical LSTx fall time =150ns 0110 Typical.." line.long 0x28 "PHY2_AFE_TX_REG10,FSTX fall time trimming" hexmask.long.byte 0x28 0.--7. 1. "TX_ANA_REG10,Bits 7:5= reserved. Bits 4:1= 0000 Typical FSTx fall time = 16.6ns 0001 Typical FSTx fall time =16.1ns 0010 Typical FSTx fall time =15.6ns 0011 Typical FSTx fall time =15.2ns 0100 Typical FSTx fall time =14.7ns 0101 Typical FSTx fall.." line.long 0x2C "PHY2_AFE_TX_REG11,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x2C 0.--7. 1. "TX_ANA_REG11,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x30 "PHY2_AFE_TX_REG12,Register AFE_TX_REG12" bitfld.long 0x30 7. "TX_ANA_REG12,unused" "0,1" bitfld.long 0x30 6. "BF_6,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 5. "BF_5,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x30 4. "BF_4,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 3. "BF_3,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 2. "BF_2,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x30 0.--1. "BF_1_0,00- SCALE2 set to 0 01- SCALE2 set to 1 10- SCALE2 set to 1 11- SCALE2 set to 2" "0,1,2,3" line.long 0x34 "PHY2_AFE_RX_REG0,Trim the squelch threshold" hexmask.long.byte 0x34 0.--7. 1. "RX_ANA_REG0,Bits 7:6= reserved. Bits 5:0= 000000 keep squelch threshold at default value 100000 increade squelch threshold by 5mv 110000 increade squelch threshold by 10mv 111000 increade squelch threshold by 15mv 000001 reduce squelch threshold by.." line.long 0x38 "PHY2_AFE_RX_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x38 0.--7. 1. "RX_ANA_REG1,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x3C "PHY2_AFE_RX_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x3C 0.--7. 1. "RX_ANA_REG2,reerved" line.long 0x40 "PHY2_AFE_RX_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x40 0.--7. 1. "RX_ANA_REG3,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x44 "PHY2_AFE_RX_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x44 0.--7. 1. "RX_ANA_REG4,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x48 "PHY2_AFE_RX_REG5,Single ended receivers threshold trimming" hexmask.long.byte 0x48 0.--7. 1. "RX_ANA_REG5,Bits 7:3= reserved. Bits 2:1= 01 Switching thresholds for single ended receivers increased by 100mV 10 Switching thresholds for single ended receivers reduced by 100mV. Bit 0= 0 Default Switching Thresholds for Single ended receivers 1 SERx.." line.long 0x4C "PHY2_AFE_RX_REG6,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x4C 0.--7. 1. "RX_ANA_REG6,This is a reserved register or field. It should not be written or read and the value should be ignored." rgroup.long 0x50++0xF line.long 0x0 "PHY2_AFE_TX_REG13,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x0 0.--7. 1. "TX_ANA_REG13,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x4 "PHY2_AFE_TX_REG14,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x4 0.--7. 1. "TX_ANA_REG14,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x8 "PHY2_AFE_RX_REG7,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x8 0.--7. 1. "RX_ANA_REG7,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0xC "PHY2_AFE_RX_REG8,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0xC 0.--7. 1. "RX_ANA_REG8,This is a reserved register or field. It should not be written or read and the value should be ignored." group.long 0x60++0x7 line.long 0x0 "PHY2_AFE_UNUSED_REG0,AFE_UNUSED_REG0" hexmask.long.byte 0x0 0.--7. 1. "AFE_UNUSED_REG0,unused" line.long 0x4 "PHY2_AFE_UNUSED_REG1,AFE_UNUSED_REG1" hexmask.long.byte 0x4 0.--7. 1. "AFE_UNUSED_REG1,unused" group.long 0x80++0x47 line.long 0x0 "PHY2_AFE_BG_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x0 0.--7. 1. "BG_ANA_REG0,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x4 "PHY2_AFE_BG_REG1,BG bias current trimming" hexmask.long.byte 0x4 0.--7. 1. "BG_ANA_REG1,Bits 7:6= 00- PLL charge pump bias current 5uA 01- PLL charge pump bias current 4uA 10- PLL charge pump bias current 6uA 11- PLL charge pump bias current 5uA. Bits 5:4= 00- PLL DAC bias bias current bias current 5uA 01- PLL DAC bias bias.." line.long 0x8 "PHY2_AFE_BG_REG2,BG bias current trimming" hexmask.long.byte 0x8 0.--7. 1. "BG_ANA_REG2,Bits 7:5= 000 High speed receiver bias 5uA 100 High speed receiver bias 1uA 001 High speed receiver bias 4uA 010 High speed receiver bias 6uA 101 High speed receiver bias 2uA. Bits 4:2= 000 Trasmission Envelope Detector bias current 5uA .." line.long 0xC "PHY2_AFE_BG_REG3,Register AFE_BG_REG3" hexmask.long.byte 0xC 0.--7. 1. "BG_ANA_REG3,Bits 7:6= reserved Bits 5:4= 00 [Default] BG_OK_CORE Generated Internally 01 BG_OK_CORE Generated Internally 10 Force BG_OK_CORE =0 11 Force BG_OK_CORE =1. Bits 3:0=0000 Invalid state 0001 Higher start sense voltage weaker start-up pull.." line.long 0x10 "PHY2_AFE_CALIB_REG0,Calibration resistance trimming" hexmask.long.byte 0x10 0.--7. 1. "CALIB_ANA_REG0,Bits 5:0= 000000 Calibrate termination resistor to default value 000001 Calibrate termination resistor by -%5 to default value 000011 Calibrate termination resistor by -%10 to default value 000111 Calibrate termination resistor by - %15.." line.long 0x14 "PHY2_AFE_BC_REG0,register AFE_BC_REG0" hexmask.long.byte 0x14 0.--7. 1. "BC_ANA_REG0,Bit 0= 0 Battery_charging_DAC_RES_CALIB CODE CANNOT BE CONTROLLED BY ANALOG TEST BITS 1 Battery_charging_DAC_RES_CALIB CODE CAN BE CONTROLLED BY ANALOG TEST BITS. Bits 5:1= 00000 Battery_charging_DAC_RES_CALIB CODE FORCED TO 0 00001.." line.long 0x18 "PHY2_AFE_BC_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x18 0.--7. 1. "BC_ANA_REG1,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x1C "PHY2_AFE_BC_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x1C 0.--7. 1. "BC_ANA_REG2,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x20 "PHY2_AFE_BC_REG3,Register AFE_BC_REG3" hexmask.long.byte 0x20 0.--7. 1. "BC_ANA_REG3,Bit 0= 0 Do not overdrive SESS_VLD comparator enable signal 1 Overdrive SESS_VLD comparator enable signal. Bit 1= 0 SESS_VLD comparator disabled 1 SESS_VLD comparator enabled. Bit 2= 0 Do not overdrive VBUS_VLD comparator enable signal 1.." line.long 0x24 "PHY2_AFE_BC_REG4,Register AFE_BC_REG4" hexmask.long.byte 0x24 0.--7. 1. "BC_ANA_REG4,Bits 2:0= reserved. Bit 3= 0- VBUS_VLD comparator output low 1- VBUS_VLD comparator output high. Bit 4= 0- Do not overdrive VBUS_VLD comparator output 1- Overdrive VBUS_VLD comparator output. Bit 5= 0- SESS_VLD comparator output low 1-.." line.long 0x28 "PHY2_AFE_BC_REG5,Register AFE_BC_REG5" hexmask.long.byte 0x28 0.--7. 1. "BC_ANA_REG5,Bit 0= 0- Do not overdrive ID comparator output 1- Overdrive ID comparator output. Bit 1= 0 Do not overdrive VBUS_DIV signal 1- Overdrive VBUS_DIV signal. Bit 2= 0- VBUS_DIV signal low 1- VBUS_DIV signal high. Bits 7:3= reserved." line.long 0x2C "PHY2_AFE_BC_REG6,Register AFE_BC_REG6" hexmask.long.byte 0x2C 0.--7. 1. "BC_ANA_REG6,register AFE_BC_REG6" line.long 0x30 "PHY2_AFE_PLL_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x30 0.--7. 1. "AFE_PLL_REG0,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x34 "PHY2_AFE_PLL_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x34 0.--7. 1. "AFE_PLL_REG1,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x38 "PHY2_AFE_PLL_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x38 0.--7. 1. "AFE_PLL_REG2,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x3C "PHY2_AFE_PLL_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x3C 0.--7. 1. "AFE_PLL_REG3,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x40 "PHY2_AFE_PLL_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x40 0.--7. 1. "AFE_PLL_REG4,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x44 "PHY2_AFE_PLL_REG5,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x44 0.--7. 1. "AFE_PLL_REG5,This is a reserved register or field. It should not be written or read and the value should be ignored." rgroup.long 0xC8++0xF line.long 0x0 "PHY2_AFE_BG_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x0 0.--7. 1. "BG_ANA_REG4,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x4 "PHY2_AFE_CALIB_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x4 0.--7. 1. "CALIB_ANA_REG1,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x8 "PHY2_AFE_BC_REG7,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x8 0.--7. 1. "BC_ANA_REG7,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0xC "PHY2_AFE_PLL_REG6,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0xC 0.--7. 1. "PLL_ANA_REG6,This is a reserved register or field. It should not be written or read and the value should be ignored." group.long 0xD8++0x7 line.long 0x0 "PHY2_AFE_UNUSED_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x0 0.--7. 1. "UNUSED,unused" line.long 0x4 "PHY2_AFE_UNUSED_REG3,AFE_UNUSED_REG3" hexmask.long.byte 0x4 0.--7. 1. "UNUSED,unused" group.long 0x100++0x43 line.long 0x0 "PHY2_PLL_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x0 0.--7. 1. "INITIAL_WAIT_TIME,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x4 "PHY2_PLL_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x4 3.--7. 1. "RST_FDBK_DIV_DELAY_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x4 2. "RST_FDBK_DIV_DELAY_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4 1. "FBDIV_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x4 0. "INITIAL_WAIT_TIME_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x8 "PHY2_PLL_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x8 7. "UNUSED,UNUSED" "0,1" bitfld.long 0x8 6. "VCO_SETTLING_TIME_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x8 0.--5. 1. "VCO_SETTLING_TIME,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0xC "PHY2_PLL_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0xC 0.--7. 1. "FBDIV_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x10 "PHY2_PLL_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x10 7. "UNUSED,UNUSED" "0,1" bitfld.long 0x10 6. "PLL_LOCK_TIME_15,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 5. "PD_PFD_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x10 4. "PD_PFD_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 3. "PLL_LOCK_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 2. "PLL_LOCK_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x10 1. "COARSEDONE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 0. "COARSEDONE_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x14 "PHY2_PLL_REG5,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x14 7. "STARTLOOP_EN_4_0,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 6. "STARTLOOP_EN_5,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 5. "STARTLOOP_5,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline hexmask.long.byte 0x14 0.--4. 1. "STARTLOOP_4_0,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x18 "PHY2_PLL_REG6,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x18 7. "UNUSED,unused" "0,1" bitfld.long 0x18 6. "COARSE_CODE_SEL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 5. "LSB_ERROR_0P5,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x18 4. "BIG_JUMP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 3. "VCO_CNT_WINDOW_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 2. "VCO_CNT_WINDOW_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x18 1. "RST_FDBK_DIV_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 0. "RST_FDBK_DIV_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x1C "PHY2_PLL_REG7,refclock selection" bitfld.long 0x1C 5.--7. "UNUSED,unused" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x1C 1.--4. 1. "REFCLK_SEL,0000 Refclock selection for 9.6 MHz 0001 Refclock selection for 10 MHz 0010 Refclock selection for 12 MHz 0011 Refclock selection for 19.2 MHz 0100 Refclock selection for 20 MHz 0101 Refclock selection for 24 MHz 0110 Refclock selection.." bitfld.long 0x1C 0. "REFCLK_SEL_EN,0 PLLREFSEL Value not taken from PLL_REG7[4:1] 1 PLLREFSEL Value taken from PLL_REG7[4:1]." "0,1" line.long 0x20 "PHY2_PLL_REG8,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x20 0.--7. 1. "COARSE_CODE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x24 "PHY2_PLL_REG9,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x24 7. "COARSE_CODE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x24 6. "V2I_CODE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x24 0.--5. 1. "V2I_CODE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x28 "PHY2_PLL_REG10,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x28 7. "UNUSED,unused" "0,1" hexmask.long.byte 0x28 2.--6. 1. "IPDIV_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x28 1. "IPDIV_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x28 0. "COARSE_CODE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x2C "PHY2_PLL_REG11,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x2C 7. "PLL_STANDBY,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 6. "PLL_STANDBY_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 5. "PLL_PD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x2C 4. "PLL_PD_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 3. "PLL_PSO_DEL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 2. "PLL_PSO_DEL_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x2C 1. "PLL_PSO,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 0. "PLL_PSO_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x30 "PHY2_PLL_REG12,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x30 6.--7. "UNUSED,unused" "0,1,2,3" bitfld.long 0x30 5. "PLL_LDO_REF_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 4. "PLL_LDO_REF_EN_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x30 3. "PLL_LDO_CORE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 2. "PLL_LDO_CORE_EN_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 1. "PLL_PD_ANA,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x30 0. "PLL_PD_ANA_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x34 "PHY2_PLL_REG13,PLL clockon test mode" bitfld.long 0x34 7. "PLL_CLKON,0 pll clock is not always running 1 pll clock is always running." "0,1" hexmask.long.byte 0x34 1.--6. 1. "PLL_LDO_REF_CORE,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x34 0. "PLL_LDO_REF_CORE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x38 "PHY2_PLL_REG14,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x38 5.--7. "PLL_LDO_CNT_THRESHOLD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3,4,5,6,7" bitfld.long 0x38 4. "PLL_LDO_CNT_THRESHOLD_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 1.--3. "PLL_LDO_ISO_CNT_THRESHOLD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3,4,5,6,7" newline bitfld.long 0x38 0. "PLL_LDO_ISO_CNT_THRESHOLD_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x3C "PHY2_PLL_UNUSED_REG0,unused" hexmask.long.byte 0x3C 0.--7. 1. "UNUSED,UNUSED" line.long 0x40 "PHY2_PLL_UNUSED_REG1,unused" hexmask.long.byte 0x40 0.--7. 1. "UNUSED,UNUSED" rgroup.long 0x144++0xB line.long 0x0 "PHY2_PLL_REG15,Coarse_code values" bitfld.long 0x0 7. "PLL_LOCK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 6. "COARSEDONE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 5. "VCO_CNT_WIN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x0 4. "RST_FDBK_DIV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 3. "UNUSED,UNUSED" "0,1" bitfld.long 0x0 2. "PD_PFD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x0 1. "STARTLOOP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 0. "COARSE_CODE_8,0 MSB of coarse_code for PLL VCO." "0,1" line.long 0x4 "PHY2_PLL_REG16,Coarse_code values" hexmask.long.byte 0x4 0.--7. 1. "COARSE_CODE,01011010 8 LSBs of coarse code for PLL VCO" line.long 0x8 "PHY2_PLL_UNUSED_REG2,unused" hexmask.long.byte 0x8 0.--7. 1. "UNUSED,UNUSED" group.long 0x180++0x33 line.long 0x0 "PHY2_CALIB_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x0 7. "CALIB_CLK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 6. "CALIB_CLK_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 5. "COMP_OUT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline hexmask.long.byte 0x0 1.--4. 1. "INIT_WAIT_OVR,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x0 0. "INIT_WAIT_OVR_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x4 "PHY2_CALIB_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x4 7. "UNUSED,unused" "0,1" hexmask.long.byte 0x4 1.--6. 1. "CALIB_CODE,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x4 0. "CALIB_CODE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x8 "PHY2_BC_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x8 4.--7. 1. "UNUSED,UNUSED" bitfld.long 0x8 3. "ADP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 2. "ADP_EN_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x8 1. "ID_PULLUP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 0. "ID_PULLUP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0xC "PHY2_BC_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0xC 7. "ADP_SOURCE_I_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 6. "ADP_SOURCE_I_EN_CTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 5. "ADP_SINK_I_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0xC 4. "ADP_SINK_I_EN_CTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 3. "ADP_SENSE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 2. "ADP_SENSE_EN_CTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0xC 1. "ADP_PROBE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 0. "ADP_PROBE_EN_CTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x10 "PHY2_BC_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x10 7. "IDM_SINK_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 6. "IDM_SINK_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 5. "IDP_SINK_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x10 4. "IDP_SINK_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 3. "IDP_SRC_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 2. "IDP_SRC_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x10 1. "BC_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 0. "BC_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x14 "PHY2_BC_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x14 7. "DM_VDAT_REF_COMP_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 6. "DM_VDAT_REF_COMP_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 5. "DP_VDAT_REF_COMP_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x14 4. "DP_VDAT_REF_COMP_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 3. "VDP_SRC_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 2. "VDP_SRC_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x14 1. "VDM_SRC_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 0. "VDM_SRC_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x18 "PHY2_BC_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x18 7. "RID_A_REF_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 6. "RID_A_REF_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 5. "RID_FLOAT_REF_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x18 4. "RID_FLOAT_REF_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 3. "RID_NONFLOAT_COMP_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 2. "RID_NONFLOAT_COMP_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x18 1. "RID_FLOAT_COMP_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 0. "RID_FLOAT_COMP_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x1C "PHY2_BC_REG5,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x1C 7. "RID_B_C_COMP_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 6. "RID_B_C_COMP_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 5. "RID_A_COMP_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x1C 4. "RID_A_COMP_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 3. "RID_C_REF_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 2. "RID_C_REF_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x1C 1. "RID_B_REF_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 0. "RID_B_REF_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x20 "PHY2_BC_REG6,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x20 3.--7. 1. "BC_DELAY_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x20 2. "BC_DELAY_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 1. "DM_VLGC_COMP_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x20 0. "DM_VLGC_COMP_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x24 "PHY2_BC_REG7,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x24 7. "RID_NONFLOAT_SRC_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x24 6. "RID_NONFLOAT_SRC_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x24 5. "RID_FLOAT_SRC_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x24 4. "RID_FLOAT_SRC_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x24 3. "RESET_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x24 2. "DM_CURRENT_SRC_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x24 1. "DM_CURRENT_SRC_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x24 0. "UNUSED,unused" "0,1" line.long 0x28 "PHY2_TED_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x28 7. "CALIB_CODE_UP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x28 5.--6. "DELAY_VALUE,Delay is 8us" "0,1,2,3" bitfld.long 0x28 4. "DELAY_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x28 3. "CALIB_DONE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x28 2. "CALIIB_DONE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x28 1. "COMP_OUT_DOWN_INV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x28 0. "COMP_OUT_UP_INV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x2C "PHY2_TED_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x2C 4.--7. 1. "CALIB_CODE_DOWN,This is a reserved register or field. It should not be written or read and the value should be ignored." hexmask.long.byte 0x2C 0.--3. 1. "CALIB_CODE_UP,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x30 "PHY2_TED_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x30 5.--7. "UNUSED,unused" "0,1,2,3,4,5,6,7" bitfld.long 0x30 4. "CALIB_MODE_DN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 3. "CALIB_MODE_DN_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x30 2. "CALIB_MODE_UP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 1. "CALIB_MODE_UP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 0. "CALIB_CODE_DN_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" rgroup.long 0x1B4++0x23 line.long 0x0 "PHY2_CALIB_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x0 4.--7. 1. "UNUSED,unused" bitfld.long 0x0 3. "CALIB_CMP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 2. "CALIB_PD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x0 1. "CALIB_CLOCK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 0. "CALIB_DONE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x4 "PHY2_CALIB_REG3,Resistor calibration code" bitfld.long 0x4 5.--7. "UNUSED,unused" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4 0.--4. 1. "BG_UNIT_RES_CALIB,Resistor calibration code from the calibration block" line.long 0x8 "PHY2_BC_REG8,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x8 7. "DCD_COMP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 6. "ADP_SENSE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 5. "ADP_PROBE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x8 4. "BVALID,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 3. "VBUSVALID,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 2. "IDDIG,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x8 0.--1. "UNUSED,unused" "0,1,2,3" line.long 0xC "PHY2_BC_REG9,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0xC 7. "O_DM_VDAT_REF_COMP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 6. "O_DP_VDAT_REF_COMP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 5. "O_VDM_SRC_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0xC 4. "O_VDP_SRC_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 3. "O_IDM_SINK_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 2. "O_IDP_SINK_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0xC 1. "O_IDP_SRC_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 0. "O_BC_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x10 "PHY2_BC_REG10,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x10 7. "O_RID_B_C_COMP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 6. "O_RID_A_COMP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 5. "O_RID_C_REF_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x10 4. "O_RID_B_REF_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 3. "O_RID_A_REF_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 2. "O_RID_FLOAT_REF_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x10 1. "O_RID_NONFLOAT_SRC_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 0. "O_RID_FLOAT_SRC_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x14 "PHY2_BC_REG11,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x14 7. "O_IDM_SRC_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 6. "I_AFE_RXDP_ANA,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 5. "I_AFE_RXDM_ANA,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x14 4. "I_RID_B_C_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 3. "I_RID_A_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 2. "I_DM_VDAT_REF_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x14 1. "I_DP_VDAT_REF_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 0. "O_DM_VLGC_COMP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x18 "PHY2_BC_REG12,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x18 7. "RID_GND_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 6. "RID_FLOAT_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 5. "RID_C_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x18 4. "RID_B_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 3. "RID_A_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 2. "DM_VLGC_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x18 1. "DM_VDAT_REF_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 0. "DP_VDAT_REF_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x1C "PHY2_TED_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x1C 4.--7. 1. "CALIB_CODE_DOWN,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x1C 3. "COMPARATOR_DOWN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 2. "CALIB_DONE_DOWN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x1C 0.--1. "UNUSED,UNUSED" "0,1,2,3" line.long 0x20 "PHY2_TED_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x20 4.--7. 1. "CALIB_CODE_UP,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x20 3. "COMPARATOR_UP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 2. "CALIB_DONE_UP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x20 0.--1. "UNUSED,UNUSED" "0,1,2,3" group.long 0x1D8++0x17 line.long 0x0 "PHY2_DIG_UNUSED_REG0,UNUSED" bitfld.long 0x0 7. "GLITCH_FILTER_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x0 0.--6. 1. "UNUSED,UNUSED" line.long 0x4 "PHY2_DIG_UNUSED_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x4 3.--7. 1. "UNUSED,UNUSED" bitfld.long 0x4 1.--2. "THRESHOLD_OVR_VALUE_MSB,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x4 0. "THRESHOLD_OVR_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x8 "PHY2_DIG_UNUSED_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x8 0.--7. 1. "THRESHOLD_OVR_VALUE_LSB,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0xC "PHY2_DIG_UNUSED_REG3,UNUSED" hexmask.long.byte 0xC 0.--7. 1. "UNUSED,UNUSED" line.long 0x10 "PHY2_INTERRUPT_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x10 7. "IRSR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 6. "ISR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x10 0.--5. 1. "UNUSED,UNUSED" line.long 0x14 "PHY2_INTERRUPT_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x14 1.--7. 1. "UNUSED,UNUSED" bitfld.long 0x14 0. "IMR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" group.long 0x200++0x33 line.long 0x0 "PHY2_RX_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x0 5.--7. "FSLS_NO_EOP_TIMEOUT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3,4,5,6,7" bitfld.long 0x0 4. "FSLS_TIMEOUT_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 3. "HS_SYNC_DET_BITS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x0 1.--2. "FS_EOP_SE0_THRESHOLD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x0 0. "FS_EOP_SE0_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x4 "PHY2_RX_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x4 2.--7. 1. "LS_EOP_SE0_THRESHOLD,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x4 1. "LS_EOP_SE0_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4 0. "FS_NO_EOP_TIMEOUT_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x8 "PHY2_TX_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x8 4.--7. 1. "UNUSED,unused" bitfld.long 0x8 3. "FS_PREAMBLE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 1.--2. "SOF_EXTENSION,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" newline bitfld.long 0x8 0. "SOF_EXTENSION_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0xC "PHY2_TX_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0xC 0.--7. 1. "PREAMBLE_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x10 "PHY2_CDR_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x10 6.--7. "UNUSED,unused" "0,1,2,3" bitfld.long 0x10 4.--5. "PLL_CLKDIV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x10 3. "PLL_CLKDIV_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x10 1.--2. "SQUELCH_DELAY,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x10 0. "SQUELCH_DELAY_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x14 "PHY2_CDR_REG1,dynamic calib controls" bitfld.long 0x14 7. "UNUSED,unused" "0,1" bitfld.long 0x14 6. "CALIB_COMP_OUT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 3.--5. "CALIB_SPC_THRESHOLD,000 The time interval between succesive calibrations is 0us 001 The time interval between succesive calibrations is 1us 010 The time interval between succesive calibrations is 2us 011 The time interval between succesive.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x14 2. "CALIB_SPC_THRESHOLD_EN,0 The time interval between succesive calibrations is taken as 5us by default 1 The time interval between succesive calibrations is taken from CDR_REG1[5:3]" "0,1" bitfld.long 0x14 1. "CALIB_ITERATION,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 0. "DYNAMIC_CALIB_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x18 "PHY2_CDR_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x18 7. "UNUSED,unused" "0,1" bitfld.long 0x18 6. "HSRX_EN_DEL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 5. "HSRX_EN_DEL_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x18 4. "HSRX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 3. "HSRX_EN_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 2. "CALIB_CLOCK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x18 1. "CALIB_CLOCK_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 0. "CALIB_OUT_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x1C "PHY2_CDR_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x1C 7. "CALIB_ACTIVE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 6. "CALIB_DONE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x1C 0.--5. 1. "CALIB_CODE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x20 "PHY2_CDR_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x20 7. "CLK_GATE_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 6. "CLK_GATE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 5. "CLK_GATE_SQ_MASK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x20 3.--4. "LATENCY_THRESHOLD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x20 2. "LATENCY_THRESHOLD_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 1. "DECISION_ERROR_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x20 0. "FILTER_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x24 "PHY2_CDR_REG5,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x24 3.--7. 1. "UNUSED,unused" bitfld.long 0x24 2. "SAMPLE_5X_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x24 1. "SMALL_PULSE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x24 0. "SMALL_PULSE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x28 "PHY2_CDR_REG6,unused" hexmask.long.byte 0x28 0.--7. 1. "UNUSED,unused" line.long 0x2C "PHY2_CDR_REG7,unused" hexmask.long.byte 0x2C 0.--7. 1. "UNUSED,unused" line.long 0x30 "PHY2_CDR_REG8,unused" hexmask.long.byte 0x30 0.--7. 1. "UNUSED,unused" rgroup.long 0x234++0x33 line.long 0x0 "PHY2_RX_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x0 7. "EB_ERROR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 6. "CDR_ERROR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 5. "SYNC_DETECTED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x0 4. "EOP_DETECTED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 3. "HS_EOP_CONDITION,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 2. "NORMAL_EOP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x0 1. "ALIGNMENT_ERROR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 0. "NO_EOP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x4 "PHY2_RX_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x4 7. "HS_EOP_DETECTED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4 6. "SE0_VALIDATED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4 5. "LSFS_EOP_DETECTED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x4 4. "BIT_UNSTUFF_ERROR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4 1.--3. "RX_STATE_BITUNSTUFF,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3,4,5,6,7" bitfld.long 0x4 0. "START_FLAG,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x8 "PHY2_RX_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x8 7. "RXACTIVE_REG,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 6. "DEASSERT_RXACTIVE_REG,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x8 0.--5. 1. "UNUSED,unused" line.long 0xC "PHY2_RX_REG5,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0xC 0.--7. 1. "SIE_CNT_UPPER,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x10 "PHY2_RX_REG6,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x10 0.--7. 1. "PHY_CNT_UPPER,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x14 "PHY2_RX_REG7,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x14 4.--7. 1. "PHY_CNT_LOWER,This is a reserved register or field. It should not be written or read and the value should be ignored." hexmask.long.byte 0x14 0.--3. 1. "SIE_CNT_LOWER,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x18 "PHY2_TX_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x18 4.--7. 1. "TX_HS_STATE,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x18 3. "EOP_TRANSMITTED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 2. "HS_BITSTUFF_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x18 1. "RESUME_EOP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 0. "REMOTE_WAKEUP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x1C "PHY2_TX_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x1C 4.--7. 1. "TX_LSFS_STATE,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x1C 1.--3. "PD_STATE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3,4,5,6,7" bitfld.long 0x1C 0. "PREAMBLE_SENT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x20 "PHY2_TX_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x20 2.--7. 1. "UNUSED,unused" bitfld.long 0x20 1. "LSFS_BITSTUFF_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 0. "LS_KEEP_ALIVE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x24 "PHY2_CDR_REG9,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x24 3.--7. 1. "UNUSED,UNUSED" bitfld.long 0x24 2. "I_ANA_COMP_OUT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x24 1. "SAMPLER_CALIB_DONE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x24 0. "ANA_CALIB_ACTIVE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x28 "PHY2_CDR_REG10,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x28 6.--7. "UNUSED,unused" "0,1,2,3" hexmask.long.byte 0x28 0.--5. 1. "CALIB_CODE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x2C "PHY2_CDR_REG11,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x2C 4.--7. 1. "SMALL_PULSE,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x2C 3. "O_HSRX_REC_DICISION_ERROR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 2. "O_ANA_CLK_GATE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x2C 1. "RECEIVE_START,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 0. "I_ANA_TED_SQUELCH,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x30 "PHY2_CDR_RE12,unused" hexmask.long.byte 0x30 0.--7. 1. "UNUSED,unused" group.long 0x268++0xF line.long 0x0 "PHY2_DIG_TXRX_UNUSED_REG0,UNUSED" hexmask.long.byte 0x0 0.--7. 1. "UNUSED,UNUSED" line.long 0x4 "PHY2_DIG_TXRX_UNUSED_REG1,UNUSED" hexmask.long.byte 0x4 0.--7. 1. "UNUSED,UNUSED" line.long 0x8 "PHY2_DIG_TXRX_UNUSED_REG2,UNUSED" hexmask.long.byte 0x8 0.--7. 1. "UNUSED,UNUSED" line.long 0xC "PHY2_DIG_TXRX_UNUSED_REG3,UNUSED" hexmask.long.byte 0xC 0.--7. 1. "UNUSED,UNUSED" group.long 0x280++0x8B line.long 0x0 "PHY2_UTMI_REG0,register UTMI_REG0" bitfld.long 0x0 6.--7. "LOOPBACK_SEL,00 Loopback mode selection = 00 : Reserved 01 Loopback mode selection = 01 : LS 10 Loopback mode selection = 10 : FS 11 Loopback mode selection = 11 : HS" "0: Reserved,1: LS,?,?" bitfld.long 0x0 5. "LOOPBACK_EN,0 Loopback mode selection is taken from primary input port-loopback[1:0] 1 Loopback mode selection is taken from UTMI_REG0[7:6]." "0,1" hexmask.long.byte 0x0 1.--4. 1. "BIST_MODE_SEL,0 BIST for 8 bit 1 BIST for 16 bit 0 Error injection disabled 1 Error injection enabled 0 BIST for device mode 1 BIST for host mode 0 BIST for HS mode 1 BIST for FS mode." newline bitfld.long 0x0 0. "BIST_EN,0 BIST control signals taken from primary input BIST related ports 1 BIST signals taken from UTMI REG0[4:1] UTMI_REG1[7:6] UTMI_REG5[7:6]" "0,1" line.long 0x4 "PHY2_UTMI_REG1,bist error injection. soft resets" bitfld.long 0x4 6.--7. "BIST_ERR,00 Introduce error on first packet bist error injection = 00 01 Introduce error on second packet bist error injection = 01 10 Introduce error on third packet bist error injection = 10 11 Introduce error on last packet bist error injection.." "0,1,2,3" bitfld.long 0x4 5. "BIST_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4 4. "TX_LSFS_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x4 3. "TX_HS_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4 2. "CLKDIV_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4 1. "CALIB_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x4 0. "PHY_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x8 "PHY2_UTMI_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x8 7. "RX_CNTRL_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 6. "SHIFT_REG_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 5. "BITUNSTUFF_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x8 4. "NRZI_DEC_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 3. "EOP_DET_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 2. "SYNC_DET_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x8 1. "LSFS_DLL_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 0. "RX_HS_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0xC "PHY2_UTMI_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0xC 7. "HS_RX_ERR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 6. "LS_LINESTATE_FIL_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0xC 1.--5. 1. "FS_LINESTATE_FIL_CNT,This is a reserved register or field. It should not be written or read and the value should be ignored." newline bitfld.long 0xC 0. "FS_LINESTATE_FIL_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x10 "PHY2_UTMI_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x10 0.--7. 1. "LS_LINESTATE_FIL_CNT,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x14 "PHY2_UTMI_REG5,BIST. hsrx data" bitfld.long 0x14 7. "BIST_MODE_EN,0 BIST mode en is taken from primary input port- bist_mode_en 1 bist_mode_en is turned on." "0,1" bitfld.long 0x14 6. "BIST_ON,0 BIST on is taken from primary input port- bist_on 1 bist_on is enabled." "0,1" bitfld.long 0x14 5. "HSTX_BOOST_DEAMP_OFF,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x14 4. "HSTX_BOOST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 3. "HS_SAMP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 2. "HS_SAMP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x14 1. "HSRX,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 0. "HSRX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x18 "PHY2_UTMI_REG6,vbusvalid control. hs drive en threshold" bitfld.long 0x18 7. "VBUSVALID_CNTRL,0 vbusvalid comparator is not enabled in L3 device Powered Off state 1 vbusvalid comparator is enabled in L3 device Powered Off state" "0,1" bitfld.long 0x18 6. "VBUSVALID_L3_DEV_EN,0 Vbusvalid comparator output comes on vbusvalid primary output port 1 Sessvalid comparator output comes on vbusvalid primary output port." "0,1" hexmask.long.byte 0x18 1.--5. 1. "HS_DRVEN_THRESHOLD,This is a reserved register or field. It should not be written or read and the value should be ignored." newline bitfld.long 0x18 0. "HS_DRVEN_TH_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x1C "PHY2_UTMI_REG7,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x1C 7. "HSTX_BC_MODE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 6. "HSTX_BC_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 5. "HSTX_CHIRP_MODE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x1C 4. "HSTX_CHIRP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 3. "HSTX_EN_DEL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 2. "HSTX_EN_DEL_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x1C 1. "HSTX,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 0. "HSTX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x20 "PHY2_UTMI_REG8,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x20 7. "HS_TERM,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 6. "HS_TERM_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 5. "HSTX_DATA,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x20 4. "HSTX_DATA_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 3. "HSTX_DRV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 2. "HSTX_DRV_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x20 1. "HSTX_PREDRV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 0. "HSTX_PREDRV_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x24 "PHY2_UTMI_REG9,hs delay values" bitfld.long 0x24 7. "CLKOFF_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x24 4.--6. "SDC_SPACE,000- The time between successive resistor calibration is 0ms 001- The time between successive resistor calibration is 500ms 010- The time between successive resistor calibration is 1000ms 011- The time between successive resistor calibration.." "0,1,2,3,4,5,6,7" bitfld.long 0x24 3. "SDC_SPACE_EN,0- The time between successive resistor calibration taken as 1s by default 1- The time between successive resistor calibration taken from UTMI_REG9[6:4]." "0,1" newline bitfld.long 0x24 1.--2. "HSTX_EN_DEL_TH,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x24 0. "HSTX_EN_DEL_TH_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x28 "PHY2_UTMI_REG10,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x28 7. "PLL_CLKON,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x28 6. "PLL_CLKON_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x28 5. "BG_PD_BG_OK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x28 4. "BG_PD_BG_OK_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x28 3. "LSFS_SERX,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x28 2. "LSFS_SERX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x28 1. "LSFS_RX,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x28 0. "LSFS_RX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x2C "PHY2_UTMI_REG11,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x2C 7. "CLEAN_LINESTATE_SERX_MASK_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 6. "SERX_MASK_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 4.--5. "SERX_MASK_THRESHOLD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" newline bitfld.long 0x2C 3. "LSFS_TX,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 2. "LSFS_TX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 1. "FSLS_EDGESEL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x2C 0. "FSLS_EDGESEL_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x30 "PHY2_UTMI_REG12,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x30 6.--7. "SERX_BIAS_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x30 5. "FSLS_TX_DATA,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 4. "FSLS_TX_DATA_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x30 3. "FSLS_TX_SE0,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 2. "FSLS_TX_SE0_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 1. "FSLS_TX_DRV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x30 0. "FSLS_TX_DRV_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x34 "PHY2_UTMI_REG13,serial mode" bitfld.long 0x34 7. "FSLS_SERIALMODE_PULLUP2,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x34 6. "FSLS_SERIALMODE_PULLUP2_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x34 5. "DM_PULLDOWN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x34 4. "DM_PULLDOWN_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x34 3. "DP_PULLDOWN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x34 2. "DP_PULLDOWN_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x34 1. "LANE_REVERSE,0- Polarity inversion of DP/DM is not done 1- Polarity inversion of DP/DM is done" "0,1" bitfld.long 0x34 0. "LANE_REVERSE_EN,0- Lane Reverse Value is taken from primary input portlane_reverse 1- Lane Reverse Value taken from UTMI_REG13[1]" "0,1" line.long 0x38 "PHY2_UTMI_REG14,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x38 7. "DM_PULLUP2,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 6. "DM_PULLUP2_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 5. "DP_PULLUP2,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x38 4. "DP_PULLUP2_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 3. "DM_PULLUP1,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 2. "DM_PULLUP1_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x38 1. "DP_PULLUP1,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 0. "DP_PULLUP1_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x3C "PHY2_UTMI_REG15,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x3C 6.--7. "TXVALID_GATE_THRESHOLD_FS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x3C 4.--5. "TXVALID_GATE_THRESHOLD_HS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x3C 3. "TED_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x3C 2. "TED_EN_CNT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x3C 1. "ED_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x3C 0. "ED_EN_CNT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x40 "PHY2_UTMI_REG16,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x40 0.--7. 1. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x44 "PHY2_UTMI_REG17,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x44 6.--7. "SQUELCH_COUNT_IDLE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x44 5. "SQUELCH_COUNT_IDLE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x44 1.--4. 1. "TX_SQ_CNT,This is a reserved register or field. It should not be written or read and the value should be ignored." newline bitfld.long 0x44 0. "TX_SQ_CNT_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x48 "PHY2_UTMI_REG18,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x48 7. "SLEEP_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x48 6. "SLEEP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x48 5. "BIST_POWERUP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x48 4. "BIST_POWERUP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x48 3. "POWERUP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x48 2. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x48 1. "CLIPPER_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x48 0. "CLIPPER_EN_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x4C "PHY2_UTMI_REG19,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x4C 1.--7. 1. "UNUSED,unused" bitfld.long 0x4C 0. "TED_SW_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x50 "PHY2_UTMI_REG20,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x50 7. "HOSTDISCON_RST_REG,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x50 6. "HOSTDISCON_RST_REG_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x50 1.--5. 1. "CALIB_RST_DT,This is a reserved register or field. It should not be written or read and the value should be ignored." newline bitfld.long 0x50 0. "CALIB_RST_DT_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x54 "PHY2_UTMI_REG21,Register UTMI_REG21" bitfld.long 0x54 7. "CALIB_TRIGER_POSEDGE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x54 6. "AUTO_CAL_ENABLE,0- Dynamic resistor calibration is disabled 1- Dynamic resistor calibration is enabled" "0,1" bitfld.long 0x54 5. "ABSVALID,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x54 4. "ABSVALID_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x54 3. "VBUSVALID,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x54 2. "VBUSVALID_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x54 1. "SUSPENDM,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x54 0. "SUSPENDM_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x58 "PHY2_UTMI_REG22,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x58 0.--7. 1. "BCCALIB_OFFSET,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x5C "PHY2_UTMI_REG23,hscalib code offset" hexmask.long.byte 0x5C 0.--7. 1. "HSCALIB_OFFSET,Bit 0= 0- Final resistor calibration code going to HSTX is not offsetted 1- Offset given by bits [6:2] is considered for computation of final resistor code going to HSTX. Bit 1= 0- ADD the offset given in bits [6:2] to the resistor.." line.long 0x60 "PHY2_UTMI_REG24,fscalib code offset" hexmask.long.byte 0x60 0.--7. 1. "FSCALIB_OFFSET,Bit 0= 0- Final resistor calibration code going to FSTX is not offsetted 1- Offset given by bits [6:2] is used for computation of final resistor code going to FSTX. Bit 1= 0- ADD the offset given in bits [6:2] to the Resistor calibration.." line.long 0x64 "PHY2_UTMI_REG25,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x64 7. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x64 0.--6. 1. "HSCALIB,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x68 "PHY2_UTMI_REG26,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x68 7. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x68 0.--6. 1. "FSCALIB,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x6C "PHY2_UTMI_REG27,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x6C 7. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x6C 0.--6. 1. "BCCALIB,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x70 "PHY2_UTMI_REG28,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x70 7. "CDR_EB_WR_RESET,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x70 1.--6. 1. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x70 0. "SERX_EN_CNTRL_OPMODE01,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x74 "PHY2_UTMI_REG29,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x74 6.--7. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x74 5. "PLL_STANDALONE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x74 4. "PLL_STANDALONE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline hexmask.long.byte 0x74 0.--3. 1. "SPARE_OUT,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x78 "PHY2_UTMI_REG30,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x78 7. "UNUSED,unused" "0,1" bitfld.long 0x78 6. "PLL_480_CLOCK_GATE_OVR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x78 5. "SCAN_ATS_HS_CLOCK_GATE_OVR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x78 4. "VCO_PLL_CLOCK_GATE_OVR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x78 3. "DIG_DIV_REFCLOCK_GATE_OVR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x78 2. "FB_CLOCK_GATE_OVR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x78 1. "ANA_DIV_REFCLOCK_GATE_OVR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x78 0. "HS_CLOCK_GATE_OVR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x7C "PHY2_UTMI_UNUSED_REG0,unused" hexmask.long.byte 0x7C 0.--7. 1. "UNUSED,unused" line.long 0x80 "PHY2_UTMI_UNUSED_REG1,unused" hexmask.long.byte 0x80 0.--7. 1. "UNUSED,unused" line.long 0x84 "PHY2_UTMI_UNUSED_REG2,unused" hexmask.long.byte 0x84 0.--7. 1. "UNUSED,unused" line.long 0x88 "PHY2_UTMI_UNUSED_REG3,unused" hexmask.long.byte 0x88 0.--7. 1. "UNUSED,unused" rgroup.long 0x30C++0x7B line.long 0x0 "PHY2_UTMI_REG31,bist" hexmask.long.byte 0x0 2.--7. 1. "UNUSED,UNUSED" bitfld.long 0x0 1. "BIST_ERROR,0- BIST resulted in no Error 1- BIST resulted in Error" "0,1" bitfld.long 0x0 0. "BIST_COMPLETE,0- BIST is Not complete 1- BIST is Complete" "0,1" line.long 0x4 "PHY2_UTMI_REG32,bist error count" hexmask.long.byte 0x4 0.--7. 1. "BIST_ERR_COUNT,00000000 Number of bytes that resulted in error while running BIST" line.long 0x8 "PHY2_UTMI_REG33,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x8 7. "BG_POWERGOOD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 6. "AFE_HSRX_DIFF_DATA,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 5. "HSRX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x8 4. "HSRX_SAMPLER_ENABLE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 3. "CHIRP_MODE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 2. "HSTX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x8 1. "HSTX_EN_DELAYED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 0. "HSTX_BOOST_DEAMP_OFF,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0xC "PHY2_UTMI_REG34,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0xC 7. "O_DPRPU1_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 6. "O_DMRPU1_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 5. "O_DPRPU2_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0xC 4. "O_DMRPU2_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 3. "O_DPRPD_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 2. "O_DMRPD_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0xC 1. "O_OTGC_ID_PULLUP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 0. "O_FS_EDGE_SEL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x10 "PHY2_UTMI_REG35,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x10 7. "I_AFE_LSFSRX_ANA,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 6. "O_LSFSTX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 5. "O_LSFSDRV_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x10 4. "O_LSFS_DDI,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 3. "O_ASSERT_SEZERO,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 2. "O_LSFSRX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x10 1. "O_SERX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 0. "O_SERX_BIAS_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x14 "PHY2_UTMI_REG36,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x14 7. "O_PLL_PSO,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 6. "O_PLL_PSO_DELAY,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 5. "O_PLL_PD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline hexmask.long.byte 0x14 0.--4. 1. "O_PLL_IPDIV,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x18 "PHY2_UTMI_REG37,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x18 0.--7. 1. "O_PLL_FBDIV_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x1C "PHY2_UTMI_REG38,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x1C 7. "O_PLL_STANDBY,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 6. "O_PLL_LDO_CORE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 5. "O_PLL_LDO_REF_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x1C 4. "O_AFE_SUSPENDM,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 3. "O_OTGC_VBUSVALID_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 2. "O_OTGC_ABSVALID_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x1C 1. "O_AFE_CLIPPER_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 0. "O_PLL_LDO_ISOLATION_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x20 "PHY2_UTMI_REG39,unused" hexmask.long.byte 0x20 0.--7. 1. "UNUSED,unused" line.long 0x24 "PHY2_UTMI_REG40,unused" hexmask.long.byte 0x24 0.--7. 1. "UNUSED,unused" line.long 0x28 "PHY2_UTMI_REG41,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x28 7. "I_TED_SQUELCH_ANA,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x28 6. "I_USB2_RESCAL_CALIB_DONE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x28 0.--5. 1. "HS_CALIB_CODE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x2C "PHY2_UTMI_REG42,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x2C 7. "HS_SOF,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 6. "ALL_CALIB_DONE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x2C 0.--5. 1. "FS_CALIB_CODE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x30 "PHY2_UTMI_REG43,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x30 7. "LS_MODE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 6. "FS_MODE_PRE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x30 0.--5. 1. "BC_CALIB_CODE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x34 "PHY2_UTMI_REG44,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x34 7. "RSTN_REFCLOCK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x34 6. "RSTN_HS_CLOCK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x34 5. "RSTN_HS_TX_CLOCK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x34 4. "RSTN_BYTE_CLOCK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x34 3. "RSTN_SIECLOCK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x34 2. "RSTN_CLKDIV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x34 1. "RSTN_CALIB_CLKDIV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x34 0. "UDC_RSTN_CDR_ASYNC,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x38 "PHY2_UTMI_REG45,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x38 7. "UDC_CALIB_RSTN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 6. "UDC_APB_RSTN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 5. "O_RSTN_CDR_ASYNC,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x38 4. "O_PLL_CALIB_RSTN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 3. "BIST_MODE_RSTN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 2. "O_USB2_CALIB_RSTN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x38 1. "UDC_BC_CALIB_RSTN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 0. "GLOBAL_RESETN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x3C "PHY2_UTMI_REG46,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x3C 7. "UNUSED,unused" "0,1" bitfld.long 0x3C 6. "RECOVERY_CNT_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x3C 4.--5. "CLEAN_LINESTATE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" newline hexmask.long.byte 0x3C 0.--3. 1. "BC_STATE_MACHINE_STATUS,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x40 "PHY2_UTMI_REG47,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x40 7. "FILTER_CNT_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x40 5.--6. "HOST_OPMODE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x40 3.--4. "DEV_OPMODE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" newline bitfld.long 0x40 2. "I_DED_ANA,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x40 1. "HS_HOSTDISCONNECT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x40 0. "LSFS_HOSTDISCONNECT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x44 "PHY2_UTMI_REG48,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x44 6.--7. "BIST_TX_STATE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" hexmask.long.byte 0x44 0.--5. 1. "DATA_CNT_TX,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x48 "PHY2_UTMI_REG49,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x48 6.--7. "BIST_RX_STATE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" hexmask.long.byte 0x48 0.--5. 1. "DATA_CNT_RX,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x4C "PHY2_UTMI_REG50,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x4C 4.--7. 1. "BIST_TOP_STATE,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x4C 3. "INC_DATA_CNT_TX,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4C 2. "INC_DATA_CNT_RX,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x4C 1. "O_BG_PD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4C 0. "O_BG_PD_BG_OK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x50 "PHY2_UTMI_REG51,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x50 6.--7. "POWERDOWN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x50 5. "RESET,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x50 4. "SUSPENDM,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x50 3. "TERMSELECT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x50 2. "DATABUS16_8,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x50 1. "DPPULLDOWN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x50 0. "DMPULLDOWN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x54 "PHY2_UTMI_REG52,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x54 7. "LANE_REVERSE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x54 6. "TXBITSTUFFENABLE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x54 5. "TXBITSTUFFENABLEH,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x54 3.--4. "XCVRSELECT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x54 1.--2. "LINESTATE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x54 0. "HOSTDISCONNECT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x58 "PHY2_UTMI_REG53,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x58 7. "FSLSSERIALMODE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x58 6. "TX_ENABLE_N,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x58 5. "TX_DAT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x58 4. "TX_SE0,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x58 3. "SLEEPM,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x58 2. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x58 0.--1. "OPMODE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" line.long 0x5C "PHY2_UTMI_REG54,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x5C 7. "RX_DP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x5C 6. "RX_DM,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x5C 5. "RX_RCV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline hexmask.long.byte 0x5C 0.--4. 1. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x60 "PHY2_UTMI_REG55,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x60 7. "TXVALIDH,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x60 6. "TXVALID,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x60 5. "TXREADY,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x60 4. "RXVALIDH,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x60 3. "RXVALID,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x60 2. "RXACTIVE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x60 1. "RXERROR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x60 0. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x64 "PHY2_UTMI_REG56,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x64 0.--7. 1. "DATAIN_UPPER,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x68 "PHY2_UTMI_REG57,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x68 0.--7. 1. "DATAIN_LOWER,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x6C "PHY2_UTMI_REG58,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x6C 0.--7. 1. "DATAOUT_UPPER,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x70 "PHY2_UTMI_REG59,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x70 0.--7. 1. "DATAOUT_LOWER,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x74 "PHY2_UTMI_UNUSED_REG6,UNUSED" hexmask.long.byte 0x74 0.--7. 1. "UNUSED,unused" line.long 0x78 "PHY2_UTMI_UNUSED_REG7,UNUSED" hexmask.long.byte 0x78 0.--7. 1. "UNUSED,unused" tree.end base ad:0x0 tree "USB0_VBP2AHB_WRAP_CONTROLLER" tree "USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_CAP (USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_CAP)" base ad:0x31000000 rgroup.long 0x0++0x1F line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_CAP_CAPLENGTH,Capability Registers Length" hexmask.long.word 0x0 16.--31. 1. "HCIVERSION,HC Interface Version Number [HCIVERSION]" hexmask.long.byte 0x0 0.--7. 1. "CAPLENGTH,Capability Registers Length [CAPLENGTH]" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_CAP_HCSPARAMS1,Structural Parameters 1 Register" hexmask.long.byte 0x4 24.--31. 1. "MAXPORTS,Number of Ports [MaxPorts] - Number of ports implemented is defined by the parameter [DWC_USB3_HOST_NUM_U2_ROOT_PORTS + DWC_USB3_HOST_NUM_U3_ROOT_PORTS] - Number of ports enabled is controlled by the controller input signals.." hexmask.long.word 0x4 8.--18. 1. "MAXINTRS,Number of Interrupters [MaxIntrs] Defined by the configurable parameter DWC_USB3_HOST_NUM_INTERRUPTER_SUPT" newline hexmask.long.byte 0x4 0.--7. 1. "MAXSLOTS,Number of device slots [MaxSlots] Defined by configurable parameter DWC_USB3_NUM_DEVICE_SUPT" line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_CAP_HCSPARAMS2,Structural Parameters 2 Register" hexmask.long.byte 0x8 27.--31. 1. "MAXSCRATCHPADBUFS,Max Scratchpad Bufs Lo The value is calculated based on chosen configuration parameter values. Possible values are 1-4." bitfld.long 0x8 26. "SPR,Scratchpad Restore [SPR]" "0,1" newline hexmask.long.byte 0x8 21.--25. 1. "MAXSCRATCHPADBUFS_HI,Max Scratchpad Bufs HI The controller automatically updates this field." hexmask.long.byte 0x8 4.--7. 1. "ERSTMAX,Event Ring Segment Table Max [ERST Max]" newline hexmask.long.byte 0x8 0.--3. 1. "IST,Isochronous Scheduling Threshold [IST]" line.long 0xC "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_CAP_HCSPARAMS3,Structural Parameters 3 Register" hexmask.long.word 0xC 16.--31. 1. "U2_DEVICE_EXIT_LAT,U2 Device Exit Latency" hexmask.long.byte 0xC 0.--7. 1. "U1_DEVICE_EXIT_LAT,U1 Device Exit Latency" line.long 0x10 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_CAP_HCCPARAMS1,Capability Parameters 1 Register" hexmask.long.word 0x10 16.--31. 1. "XECP,xHCI Extended Capabilities Pointer [xECP] Based on configuration controller automatically updates it. Refer to <workspace>/src/DWC_usb3_params.v for details on DWC_USB3_HC_XECP." hexmask.long.byte 0x10 12.--15. 1. "MAXPSASIZE,Maximum Primary Stream Array Size [MaxPSASize] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." newline bitfld.long 0x10 11. "CFC,Contiguous Frame ID Capability [CFC]" "0,1" bitfld.long 0x10 10. "SEC,Stopped EDLTA Capability [SEC] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x10 9. "SPC,Short Packet Capability [SPC] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x10 8. "PAE,Parse All Event Data [PAE] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x10 7. "NSS,No Secondary SID Support [NSS] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x10 6. "LTC,Latency Tolerance Messaging Capability [LTC] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x10 5. "LHRC,Light HC Reset Capability For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x10 4. "PIND,Port Indicators [PIND] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x10 3. "PPC,Port Power Control For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x10 2. "CSZ,Context Size [CSZ] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x10 1. "BNC,BW Negotiation Capability [BNC] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x10 0. "AC64,64-bit Addressing Capability [AC64] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" line.long 0x14 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_CAP_DBOFF,Doorbell Offset Register" hexmask.long 0x14 2.--31. 1. "DOORBELL_ARRAY_OFFSET,Doorbell Array Offset - RO Based on configuration the controller automatically updates it. For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB].." line.long 0x18 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_CAP_RTSOFF,Runtime Register Space Offset Register" hexmask.long 0x18 5.--31. 1. "RUNTIME_REG_SPACE_OFFSET,Runtime Register Space Offset Based on configuration the controller automatically updates it. For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB].." line.long 0x1C "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_CAP_HCCPARAMS2,Host Controller Capability Parameters 2" bitfld.long 0x1C 5. "CIC,Configuration Information Capability [CIC] For a description of this standard USB register field see the eXtensible Host Controller I nterface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x1C 4. "LEC,Large ESIT Payload Capability [LEC] For a description of this standard USB register field see the eXtensible Host Controller I nterface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x1C 3. "CTC,Compliance Transition Capability [CTC] For a description of this standard USB register field see the eXtensible Host Controller I nterface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x1C 2. "FSC,Force Save Context Capability [FSC] For a description of this standard USB register field see the eXtensible Host Controller I nterface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x1C 1. "CMC,Configure Endpoint Command Max Exit Latency Too Large Capability [CMC] For a description of this standard USB register field see the eXtensible Host Controller I nterface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x1C 0. "U3C,U3 Entry Capability [U3C] For a description of this standard USB register field see the eXtensible Host Controller I nterface for Universal Serial Bus [USB] Specification 3.0." "0,1" tree.end tree "USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_DB (USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_DB)" base ad:0x31000560 group.long 0x0++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DB_DB,Doorbell Register Bit Field Definitions" hexmask.long.word 0x0 16.--31. 1. "DB_STREAM_ID,DB_STREAM_ID For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." hexmask.long.byte 0x0 0.--7. 1. "DB_TARGET,DB_TARGET For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." tree.end tree "USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_DEBUG (USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_DEBUG)" base ad:0x3100D800 group.long 0x0++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEBUG_U3RHBDBG,U3 Root Hub Debug Register" hexmask.long 0x0 4.--31. 1. "RESERVED_1,Reserved_1" bitfld.long 0x0 3. "TPCFG_TOUT_CTRL,tpcfg_tout_ctrl This bit controls the USB 3.0 port configuration timeout duration. - 1: The port configuration timeout counter resets when the link is not in U0. - 0: The port configuration timeout counter does not reset if the link.." "0: The port configuration timeout counter does not..,1: The port configuration timeout counter resets.." newline rbitfld.long 0x0 0.--2. "RESERVED_0_2,Reserved_0_2" "0,1,2,3,4,5,6,7" tree.end tree "USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_DEBUG_RAM0 (USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_DEBUG_RAM0)" base ad:0x31040000 group.long 0x0++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEBUG_RAM0_RAM0,RAM0 memory region accessible through config interface for debug purpose only." hexmask.long 0x0 0.--31. 1. "MEM,Memory location" tree.end tree "USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_DEV (USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_DEV)" base ad:0x3100C700 group.long 0x0++0x17 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_DCFG,Device Configuration Register." bitfld.long 0x0 23. "IGNSTRMPP,IgnoreStreamPP This bit only affects stream-capable bulk endpoints. When this bit is set to '0' and the controller receives a Data Packet with the Packet Pending [PP] bit set to 0 for OUT endpoints or it receives an ACK with the NumP field.." "0,1" newline bitfld.long 0x0 22. "LPMCAP,LPM Capable The application uses this bit to control the LPM capabilities of the DWC_usb3 controller. If the controller operates as a non-LPM-capable device it cannot respond to LPM transactions. - 1'b0: LPM capability is not enabled. - 1'b1:.." "0: LPM capability is not enabled,1: LPM capability is enabled" newline hexmask.long.byte 0x0 17.--21. 1. "NUMP,Number of Receive Buffers. This bit indicates the number of receive buffers to be reported in the ACK TP. The DWC_usb3 controller uses this field for non-control endpoints if GRXTHRCFG.UsbRxPktCntSel is set to '0'. The application can program.." newline hexmask.long.byte 0x0 12.--16. 1. "INTRNUM,Interrupt number Indicates interrupt/EventQ number on which non-endpoint-specific device-related interrupts [see DEVT] are generated." newline hexmask.long.byte 0x0 3.--9. 1. "DEVADDR,Device Address. The application must perform the following: - Program this field after every SetAddress request. - Reset this field to zero after USB reset." newline bitfld.long 0x0 0.--2. "DEVSPD,Device Speed. Indicates the speed at which the application requires the controller to connect or the maximum speed the application can support. However the actual bus speed is determined only after the chirp sequence is completed and is.." "0: High-speed [USB 2,1: Full-speed [USB 2,?,?,4: SuperSpeed [USB 3,?,?,?" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_DCTL,Device Control Register" bitfld.long 0x4 31. "RUN_STOP,Run/Stop The software writes 1 to this bit to start the device controller operation. To stop the device controller operation the software must remove any active transfers and write 0 to this bit. When the controller is stopped it sets the.." "0,1" newline bitfld.long 0x4 30. "CSFTRST,Core Soft Reset Resets the all clock domains as follows: - This bit clears the interrupts and all the CSRs except GSTS GSNPSID GGPIO GUID GUSB2PHYCFGn registers GUSB3PIPECTLn registers DCFG DCTL DEVTEN and DSTS registers. - All module.." "0,1" newline bitfld.long 0x4 29. "RESERVED,Reserved1" "0,1" newline hexmask.long.byte 0x4 24.--28. 1. "HIRDTHRES,HIRD Threshold [HIRD_Thres] The controller asserts output signals utmi_l1_suspend_n and utmi_sleep_n [see LPM Interface Signals table in the Databook] on the basis of this signal: The controller asserts utmi_l1_suspend_n to put the PHY into.." newline hexmask.long.byte 0x4 20.--23. 1. "LPM_NYET_THRES,LPM NYET Threshold When LPM Errata is enabled: Bits [23:20]: LPM NYET Response Threshold [LPM_NYET_thres] Handshake response to LPM token specified by device application. Response depends on DCFG.LPMCap. - DCFG.LPMCap is 1'b0 - The.." newline bitfld.long 0x4 19. "KEEPCONNECT,Keep Connect When '1' this bit enables the save and restore programming model by preventing the controller from disconnecting from the host when DCTL.RunStop is set to '0'. It also enables the Hibernation Request Event to be generated.." "0,1" newline bitfld.long 0x4 18. "L1HIBERNATIONEN,L1HibernationEn When this bit is set along with KeepConnect the device controller generates a Hibernation Request Event if L1 is enabled and the HIRD value in the LPM token is larger than the threshold programmed in DCTL.HIRD_Thres." "0,1" newline bitfld.long 0x4 17. "CRS,Controller Restore State [CRS] This command is similar to the USBCMD.CRS bit in host mode and initiates the restore process. When software sets this bit to '1' the controller immediately sets DSTS.RSS to '1'. When the controller has finished the.." "0,1" newline bitfld.long 0x4 16. "CSS,Controller Save State [CSS] This command is similar to the USBCMD.CSS bit in host mode and initiates the save process. When software sets this bit to '1' the controller immediately sets DSTS.SSS to '1'. When the controller has finished the save.." "0,1" newline bitfld.long 0x4 12. "INITU2ENA,Initiate U2 Enable - 1'b0: May not initiate U2 [default] - 1'b1: May initiate U2 On USB reset hardware clears this bit to 0. Software sets this bit after receiving SetFeature[U2_ENABLE] and clears this bit when ClearFeature[U2_ENABLE] is.." "0: May not initiate U2 [default],1: May initiate U2 On USB reset" newline bitfld.long 0x4 11. "ACCEPTU2ENA,Accept U2 Enable - 1'b0: Reject U2 except when Force_LinkPM_Accept bit is set [default] - 1'b1: Controller accepts transition to U2 state if nothing is pending on the application side. On USB reset hardware clears this bit to 0. Software.." "0: Reject U2 except when Force_LinkPM_Accept bit is..,1: Controller accepts transition to U2 state if.." newline bitfld.long 0x4 10. "INITU1ENA,Initiate U1 Enable - 1'b0: May not initiate U1 [default]. - 1'b1: May initiate U1. On USB reset hardware clears this bit to 0. Software sets this bit after receiving SetFeature[U1_ENABLE] and clears this bit when ClearFeature[U1_ENABLE].." "0: May not initiate U1 [default],1: May initiate U1" newline bitfld.long 0x4 9. "ACCEPTU1ENA,Accept U1 Enable - 1'b0: Controller rejects U1 except when Force_LinkPM_Accept bit is set [default] - 1'b1: Controller accepts transition to U1 state if nothing is pending on the application side. On USB reset hardware clears this bit to.." "0: Controller rejects U1 except when..,1: Controller accepts transition to U1 state if.." newline hexmask.long.byte 0x4 5.--8. 1. "ULSTCHNGREQ,ULSTCHNGREQ Software writes this field to issue a USB/Link state change request. A change in this field indicates a new request to the controller. If software wants to issue the same request back-to-back it must write a 0 to this field.." newline hexmask.long.byte 0x4 1.--4. 1. "TSTCTL,Test Control - 4'b000: Test mode disabled - 4'b001: Test_J mode - 4'b010: Test_K mode - 4'b011: Test_SE0_NAK mode - 4'b100: Test_Packet mode - 4'b101: Test_Force_Enable - Others: Reserved" line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_DEVTEN,Device Event Enable Register" rbitfld.long 0x8 16. "ECCERREN,ECC Error Enable. If this bit is set to 1 the controller reports an ECC error to the software when an uncorrectable ECC occurs internally." "0,1" newline bitfld.long 0x8 14. "L1WKUPEVTEN,L1 Resume Detected Event Enable. Note: If GUCTL1[DEV_DECOUPLE_L1L2_EVT] is enabled then this bit is for L1 Resume Detected Event Enable." "0,1" newline bitfld.long 0x8 12. "VENDEVTSTRCVDEN,Vendor Device Test LMP Received Event [VndrDevTstRcvedEn]" "0,1" newline bitfld.long 0x8 9. "ERRTICERREVTEN,Erratic Error Event Enable" "0,1" newline bitfld.long 0x8 8. "L1SUSPEN,L1 Suspend Event Enable Note: Only if GUCTL1[DEV_DECOUPLE_L1L2_EVT] is enabled this bit is for L1 Suspend Event Enable." "0,1" newline bitfld.long 0x8 7. "SOFTEVTEN,Start of [u]frame" "0,1" newline bitfld.long 0x8 6. "U3L2L1SUSPEN,U3/L2 or U3/L2L1 Suspend Event Enable. Note: - If GUCTL1[DEV_DECOUPLE_L1L2_EVT] is enabled then this bit is for U3/L2 Suspend Event Enable. - If GUCTL1[DEV_DECOUPLE_L1L2_EVT] is not enabled then this bit is for U3/L2L1 Suspend Event.." "0,1" newline bitfld.long 0x8 5. "HIBERNATIONREQEVTEN,This bit enables/disables the generation of the Hibernation Request Event." "0,1" newline bitfld.long 0x8 4. "WKUPEVTEN,U3/L2 or U3/L2L1 Resume Detected Event Enable. Note: - If GUCTL1[DEV_DECOUPLE_L1L2_EVT] is enabled then this bit is for U3/L2 Resume Detected Event Enable. - If GUCTL1[DEV_DECOUPLE_L1L2_EVT] is not enabled then this bit is for U3/L2L1.." "0,1" newline bitfld.long 0x8 3. "ULSTCNGEN,USB/Link State Change Event Enable" "0,1" newline bitfld.long 0x8 2. "CONNECTDONEEVTEN,Connection Done Enable" "0,1" newline bitfld.long 0x8 1. "USBRSTEVTEN,USB Reset Enable" "0,1" newline bitfld.long 0x8 0. "DISSCONNEVTEN,Disconnect Detected Event Enable" "0,1" line.long 0xC "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_DSTS,Device Status Register" rbitfld.long 0xC 29. "DCNRD,Device Controller Not Ready The bit indicates that the controller is in the process of completing the state transitions after exiting from hibernation. To complete the state transitions it takes 256 bus clock cycles from the time.." "0,1" newline bitfld.long 0xC 28. "SRE,Save Restore Error. Currently not supported." "0,1" newline rbitfld.long 0xC 25. "RSS,RSS Restore State Status This bit is similar to the USBSTS.RSS in host mode. When the controller finishes the restore process it completes the command by setting DSTS.RSS to '0'." "0,1" newline rbitfld.long 0xC 24. "SSS,SSS Save State Status This bit is similar to the USBSTS.SSS in host mode. When the controller has finished the save process it completes the command by setting DSTS.SSS to '0'." "0,1" newline rbitfld.long 0xC 23. "COREIDLE,Core Idle The bit indicates that the controller finished transferring all RxFIFO data to system memory writing out all completed descriptors and all Event Counts are zero. Note: While testing for Reset values mask out the read value." "0,1" newline rbitfld.long 0xC 22. "DEVCTRLHLT,Device Controller Halted This bit is set to 0 when the Run/Stop bit in the DCTL register is set to 1. The controller sets this bit to 1 when after SW sets Run/Stop to 0 the controller is idle and the lower layer finishes the disconnect.." "0,1" newline hexmask.long.byte 0xC 18.--21. 1. "USBLNKST,USBLNKST. USB/Link State In SS mode: LTSSM State - 4'h0: U0 - 4'h1: U1 - 4'h2: U2 - 4'h3: U3 - 4'h4: SS_DIS - 4'h5: RX_DET - 4'h6: SS_INACT - 4'h7: POLL - 4'h8: RECOV - 4'h9: HRESET - 4'ha: CMPLY - 4'hb: LPBK - 4'hf: Resume/Reset.." newline rbitfld.long 0xC 17. "RXFIFOEMPTY,RxFIFO Empty." "0,1" newline hexmask.long.word 0xC 3.--16. 1. "SOFFN,Frame/Microframe Number of the Received SOF. When the controller is operating at SuperSpeed - [16:3] indicates the uframe/ITP number When the controller is operating at high-speed - [16:6] indicates the frame number - [5:3] indicates the.." newline rbitfld.long 0xC 0.--2. "CONNECTSPD,Connected Speed [ConnectSpd] Indicates the speed at which the DWC_usb3 controller has come up after speed detection through a chirp sequence. - 3'b100: SuperSpeed [PHY clock is running at 125 or 250 MHz] - 3'b000: High-speed [PHY clock is.." "0: High-speed [PHY clock is running at 30 or 60 MHz],1: Full-speed [PHY clock is running at 30 or 60..,?,?,4: SuperSpeed [PHY clock is running at 125 or 250..,?,?,?" line.long 0x10 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_DGCMDPAR,Device Generic Command Parameter Register" hexmask.long 0x10 0.--31. 1. "PARAMETER,PARAMETER" line.long 0x14 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_DGCMD,Device Generic Command Register" hexmask.long.byte 0x14 12.--15. 1. "CMDSTATUS,Command Status - 1: CmdErr: Indicates that the device controller encountered an error while processing the command. - 0: Indicates command success" newline bitfld.long 0x14 10. "CMDACT,Command Active The software sets this bit to 1 to enable the device controller to execute the generic command. The device controller sets this bit to 0 after executing the command." "0,1" newline bitfld.long 0x14 8. "CMDIOC,Command Interrupt on Complete When this bit is set the device controller issues a Generic Command Completion event after executing the command. Note that this interrupt is mapped to DCFG.IntrNum. Note: This field must not set to '1' if the.." "0,1" newline hexmask.long.byte 0x14 0.--7. 1. "CMDTYP,CMDTYP Generic Command Type Specifies the type of generic command the software driver is requesting the controller to perform. - 02h: Set Periodic Parameters - 04h: Set Scratchpad Buffer Array Address Lo - 05h: Set Scratchpad Buffer Array.." group.long 0x20++0x7 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_DALEPENA,Device Active USB Endpoint Enable Register." hexmask.long 0x0 0.--31. 1. "USBACTEP,USBACTEP USB Active Endpoints [USBActEP] This field indicates if a USB endpoint is active in the current configuration and interface. It applies to USB IN endpoints 0.15 and OUT endpoints 0.15 with one bit for each of the 32 possible.." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_Rsvd,Reserved" group.long 0x100++0xF line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_DEPCMDPAR2,Device Physical Endpoint-n Command Parameter 2 Register (DEPCMDPAR2n)" hexmask.long 0x0 0.--31. 1. "PARAMETER,PARAMETER" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_DEPCMDPAR1,Device Physical Endpoint-n Command Parameter 1 Register (DEPCMDPAR1n)" hexmask.long 0x4 0.--31. 1. "PARAMETER,PARAMETER" line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_DEPCMDPAR0,Device Physical Endpoint-n Command Parameter 0 Register (DEPCMDPAR0n)" hexmask.long 0x8 0.--31. 1. "PARAMETER,PARAMETER" line.long 0xC "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_DEPCMD,Device Physical Endpoint-n Command Register" hexmask.long.word 0xC 16.--31. 1. "COMMANDPARAM,Command Parameters or Event Parameters Command Parameters [CommandParam] when this register is written: For Start Transfer command: - [31:16]: StreamID. The USB StreamID assigned to this transfer For Start Transfer command applied to an.." newline hexmask.long.byte 0xC 12.--15. 1. "CMDSTATUS,Command Completion Status [CmdStatus] Additional information about the completion of this command is available in this field. The information is in the same format as bits 15:12 of the Endpoint Command Complete event see Device Endpoint-n.." newline bitfld.long 0xC 11. "HIPRI_FORCERM,HighPriority/ForceRM [HiPri_ForceRM] - HighPriority: Only valid for Start Transfer command - ForceRM: Only valid for End Transfer command - ClearPendIN: Only valid for Clear Stall command . Software sets this bit to clear any pending IN.." "0,1" newline bitfld.long 0xC 10. "CMDACT,Command Active [CmdAct] Software sets this bit to 1 to enable the device endpoint controller to execute the generic command. The device controller sets this bit to 0 when the CmdStatus field is valid and the endpoint is ready to accept another.." "0,1" newline bitfld.long 0xC 8. "CMDIOC,CMDIOC Command Interrupt on Complete [CmdIOC] When this bit is set the device controller issues a generic Endpoint Command Complete event after executing the command. Note that this interrupt is mapped to DEPCFG.IntrNum. When the DEPCFG.." "0,1" newline hexmask.long.byte 0xC 0.--3. 1. "CMDTYP,Command Type Specifies the type of command the software driver is requesting the controller to perform. - 00h: Reserved - 01h: Set Endpoint Configuration - -64 or 96-bit Parameter - 02h: Set Endpoint Transfer Resource Configuration - 32-bit.." group.long 0x300++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_DEV_IMOD,Device Interrupt Moderation Register (DEV_IMOD)" hexmask.long.word 0x0 16.--31. 1. "DEVICE_IMODC,Interrupt Moderation Down Counter Loaded with the DEVICE_IMODI value whenever the hardware interrupt[n] line is de-asserted from the asserted state counts down to 0 and stops. The interrupt[n] is signaled whenever this counter is 0 .." newline hexmask.long.word 0x0 0.--15. 1. "DEVICE_IMODI,Moderation Interval [DEVICE_IMODI] This field holds the minimum inter-interrupt interval between events. The interval is specified in terms of 250ns increments. A value of 0 disables the interrupt throttling logic and interrupts are.." tree.end tree "USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_EXTCAP (USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_EXTCAP)" base ad:0x31000960 group.long 0x0++0x7 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_EXTCAP_USBLEGSUP,USBLEGSUP" bitfld.long 0x0 24. "HC_OS_OWNED,HC_OS_OWNED SEMAPHORE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x0 16. "HC_BIOS_OWNED,HC_BIOS_OWNED SEMAPHORE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" hexmask.long.byte 0x0 8.--15. 1. "NEXT_CAPABILITY_POINTER,NEXT_CAPABILITY_POINTER For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." newline hexmask.long.byte 0x0 0.--7. 1. "CAPABILITY_ID,CAPABILITY_ID set_register_field_attribute DWC_usb3_map/DWC_usb3_block_HC_Extended_Capability_Register/USBLEGSUP/CAPABILITY_ID RegisterResetValue 0x1 For a description of this standard USB register field see the eXtensible Host Controller.." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_EXTCAP_USBLEGCTLSTS,USBLEGCTLSTS" bitfld.long 0x4 31. "SMI_ON_BAR,SMI_ON_BAR For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x4 30. "SMI_ON_PCI,SMI_ON_PCI COMMAND For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x4 29. "SMI_ON_OS,SMI_ON_OS OWNERSHIP CHANGE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline rbitfld.long 0x4 20. "SMI_ON_HOST,SMI_ON_HOST SYSTEM ERROR For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" rbitfld.long 0x4 16. "SMI_ON_EVENT,SMI_ON_EVENT INTERRUPT For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x4 15. "SMI_ON_BAR_E,SMI_ON_BAR ENABLE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x4 14. "SMI_ON_PCI_E,SMI_ON_PCI COMMAND ENABLE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x4 13. "SMI_ON_OS_E,SMI_ON_OS OWNERSHIP ENABLE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x4 4. "SMI_ON_HOST_E,SMI_ON_HOST SYSTEM ERROR ENABLE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x4 0. "USB_SMI_ENABLE,USB_SMI_ENABLE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" tree.end tree "USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_GBL (USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_GBL)" base ad:0x3100C100 group.long 0x0++0x1F line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GSBUSCFG0,Global SoC Bus Configuration Register 0" hexmask.long.byte 0x0 28.--31. 1. "DATRDREQINFO,DATRDREQINFO AHB-prot/AXI-cache/OCP-ReqInfo for Data Read [DatRdReqInfo] Input to BUS-GM." newline hexmask.long.byte 0x0 24.--27. 1. "DESRDREQINFO,DESRDREQINFO AHB-prot/AXI-cache/OCP-ReqInfo for Descriptor Read [DesRdReqInfo]. Input to BUS-GM." newline hexmask.long.byte 0x0 20.--23. 1. "DATWRREQINFO,DATWRREQINFO AHB-prot/AXI-cache/OCP-ReqInfo for Data Write [DatWrReqInfo]. Input to BUS-GM." newline hexmask.long.byte 0x0 16.--19. 1. "DESWRREQINFO,DESWRREQINFO AHB-prot/AXI-cache/OCP-ReqInfo for Descriptor Write [DesWrReqInfo] Input to BUS-GM." newline hexmask.long.byte 0x0 12.--15. 1. "RESERVED,Reserved for future use" newline bitfld.long 0x0 11. "DATBIGEND,Data Access is Big Endian This bit controls the endian mode for data accesses. - Little-endian [default]. - Big-endian. In big-endian mode DMA access [both read and write] for packet data a Byte Invariant Big-Endian mode [see.." "0,1" newline bitfld.long 0x0 10. "DESBIGEND,Descriptor Access is Big Endian This bit controls the endian mode for descriptor accesses. - Little-endian [default] - Big-endian In big-endian mode DMA access [both read and write] for descriptors uses a Byte Invariant Big-Endian mode.." "0,1" newline bitfld.long 0x0 7. "INCR256BRSTENA,INCR256 Burst Type Enable Input to BUS-GM. For the AHB/AXI configuration if software set this bit to 1 the AHB/AXI initiator uses INCR to do the 256-beat burst." "0,1" newline bitfld.long 0x0 6. "INCR128BRSTENA,INCR128 Burst Type Enable Input to BUS-GM. For the AHB/AXI configuration if software set this bit to 1 the AHB/AXI initiator uses INCR to do the 128-beat burst." "0,1" newline bitfld.long 0x0 5. "INCR64BRSTENA,INCR64 Burst Type Enable - Input to BUS-GM. For the AHB/AXI configuration if software set this bit to 1 the AHB/AXI initiator uses INCR to do the 64-beat burst." "0,1" newline bitfld.long 0x0 4. "INCR32BRSTENA,INCR32 Burst Type Enable Input to BUS-GM. For the AHB/AXI configuration if software set this bit to 1 the AHB/AXI initiator uses INCR to do the 32-beat burst." "0,1" newline bitfld.long 0x0 3. "INCR16BRSTENA,INCR16 Burst Type Enable Input to BUS-GM. For the AHB/AXI configuration if software set this bit to '1' the AHB/AXI initiator uses INCR to do the 16-beat burst." "0,1" newline bitfld.long 0x0 2. "INCR8BRSTENA,INCR8 Burst Type Enable Input to BUS-GM. For the AHB/AXI configuration if software set this bit to 1 the AHB/AXI initiator uses INCR to do the 8-beat burst." "0,1" newline bitfld.long 0x0 1. "INCR4BRSTENA,INCR4 Burst Type Enable Input to BUS-GM. For the AXI configuration when this bit is enabled the controller is allowed to do bursts of beat length 1 2 and 4. It is highly recommended that this bit is enabled to prevent descriptor reads.." "0,1" newline bitfld.long 0x0 0. "INCRBRSTENA,Undefined Length INCR Burst Type Enable [INCRBrstEna] Input to BUS-GM. This bit determines the set of burst lengths the initiator interface uses. It works in conjunction with the GSBUSCFG0[7:1] enables [INCR256/128/64/32/16/8/4]. 0: INCRX.." "0: INCRX burst mode HBURST [for AHB configurations]..,1: INCR [undefined length] burst mode" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GSBUSCFG1,Global SoC Bus Configuration Register 1" bitfld.long 0x4 12. "EN1KPAGE,1k Page Boundary Enable By default [this bit is disabled] the AXI breaks transfers at the 4k page boundary. When this bit is enabled the AXI initiator [DMA data] breaks transfers at the 1k page boundary." "0,1" newline hexmask.long.byte 0x4 8.--11. 1. "PIPETRANSLIMIT,AXI Pipelined Transfers Burst Request Limit The field controls the number of outstanding pipelined transfer requests the AXI initiator pushes to the AXI target. When the AXI initiator reaches this limit it does not make any more.." line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXTHRCFG,Global Tx Threshold Control Register" bitfld.long 0x8 29. "USBTXPKTCNTSEL,USB Transmit Packet Count Enable This field enables/disables the USB transmission multi-packet thresholding: - 0: USB transmission multi-packet thresholding is disabled. the controller can start transmission on the USB after the entire.." "0: USB transmission multi-packet thresholding is..,1: USB transmission multi-packet thresholding is.." newline hexmask.long.byte 0x8 24.--27. 1. "USBTXPKTCNT,USB Transmit Packet Count This field specifies the number of packets that must be in the TXFIFO before the controller can start transmission for the corresponding USB transaction [burst]. This field is only valid when the USB Transmit Packet.." newline hexmask.long.byte 0x8 16.--23. 1. "USBMAXTXBURSTSIZE,USB Maximum TX Burst Size When UsbTxPktCntSel is one this field specifies the Maximum Bulk OUT burst the controller can do. When the system bus is slower than the USB TX FIFO can underrun during a long burst. User can program a.." newline bitfld.long 0x8 15. "RESERVED,Reserved_15" "0,1" newline bitfld.long 0x8 14. "RESERVED,Reserved1[Rsvd/Rs] Register field must write only 0 by the application. The read value must be treated as X [unknown]." "0,1" newline bitfld.long 0x8 11.--13. "RESERVED,Reserved [Rsvd/Rs] The register field must write only 0 by the application. The read value must be treated as X [unknown]." "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x8 0.--10. 1. "RESERVED,Reserved for future use" line.long 0xC "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GRXTHRCFG,Global Rx Threshold Control Register" bitfld.long 0xC 29. "USBRXPKTCNTSEL,USB Receive Packet Count Enable This field enables/disables the USB reception multi-packet thresholding: - 0: The controller can only start reception on the USB when the RX FIFO has space for at least one packet. - 1: The controller can.." "0: The controller can only start reception on the..,1: The controller can only start reception on the.." newline hexmask.long.byte 0xC 24.--27. 1. "USBRXPKTCNT,USB Receive Packet Count In host mode this field specifies the space [in terms of the number of packets] that must be available in the RX FIFO before the controller can start the corresponding USB RX transaction [burst]. In device mode .." newline hexmask.long.byte 0xC 19.--23. 1. "USBMAXRXBURSTSIZE,USB Maximum Receive Burst Size In host mode this field specifies the Maximum Bulk IN burst the DWC_usb3 controller can perform. When the system bus is slower than the USB RX FIFO can overrun during a long burst. You can program a.." newline hexmask.long.word 0xC 0.--12. 1. "RESVISOCOUTSPC,Space reserved in Rx FIFO for ISOC OUT In host mode this field is not applicable and must be programmed to 0. In device mode this value represents the amount of space to be reserved for ISOC OUT packets. The value to be programmed.." line.long 0x10 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GCTL,Global Core Control Register" hexmask.long.word 0x10 19.--31. 1. "PWRDNSCALE,Power Down Scale [PwrDnScale] The USB3 suspend_clk input replaces pipe3_rx_pclk as a clock source to a small part of the USB3 controller that operates when the SS PHY is in its lowest power [P3] state and therefore does not provide a clock." newline bitfld.long 0x10 18. "MASTERFILTBYPASS,Initiator Filter Bypass When this bit is set to 1'b1 irrespective of the parameter DWC_USB3_EN_BUS_FILTERS chosen all the filters in the DWC_usb3_filter module are bypassed. The double synchronizers to mac_clk preceding the filters.." "0,1" newline bitfld.long 0x10 17. "BYPSSETADDR,Bypass SetAddress in Device Mode. When BYPSSETADDR bit is set the device controller uses the value in the DCFG[DevAddr] bits directly for comparing the device address in the tokens. For simulation you can use this feature to avoid.." "0,1" newline bitfld.long 0x10 16. "U2RSTECN,U2RSTECN If the SuperSpeed connection fails during POLL or LMP exchange the device connects at non-SS mode. If this bit is set then device attempts three more times to connect at SS even if it previously failed to operate in SS mode. For.." "0,1" newline bitfld.long 0x10 14.--15. "FRMSCLDWN,FRMSCLDWN This field scales down device view of a SOF/USOF/ITP duration. For SS/HS mode: - Value of 2'h3 implements interval to be 15.625 us - Value of 2'h2 implements interval to be 31.25 us - Value of 2'h1 implements interval to be 62.5.." "0,1,2,3" newline bitfld.long 0x10 12.--13. "PRTCAPDIR,PRTCAPDIR: Port Capability Direction [PrtCapDir] - 2'b01: for Host configurations - 2'b10: for Device configurations Note: For static Host-only/Device-only applications use DRD Host or DRD Device mode. The combination of GCTL.PrtCapDir=2'b11.." "?,1: for Host configurations,2: for Device configurations Note: For static..,?" newline bitfld.long 0x10 11. "CORESOFTRESET,Core Soft Reset [CoreSoftReset] - 1'b0 - No soft reset - 1'b1 - Soft reset to controller Clears the interrupts and all the CSRs except the following registers: - GCTL - GUCTL - GSTS - GSNPSID - GGPIO - GUID - GUSB2PHYCFGn registers.." "0,1" newline bitfld.long 0x10 10. "SOFITPSYNC,SOFITPSYNC If this bit is set to '0' operating in host mode the controller keeps the UTMI/ULPI PHY on the first port in a non-suspended state whenever there is a SuperSpeed port that is not in Rx.Detect SS.Disable and U3. If this bit is.." "0,1" newline bitfld.long 0x10 9. "U1U2TIMERSCALE,Disable U1/U2 timer Scaledown [U1U2TimerScale]. If set to '1' along with GCTL[5:4] [ScaleDown] = 2'bX1 disables the scale down of U1/U2 inactive timer values. This is for simulation mode only." "0,1" newline bitfld.long 0x10 8. "DEBUGATTACH,Debug Attach When this bit is set - SS Link proceeds directly to the Polling link state [after RUN/STOP in the DCTL register is asserted] without checking remote termination. - Link LFPS polling timeout is infinite. - Polling timeout.." "0,1" newline bitfld.long 0x10 6.--7. "RAMCLKSEL,RAM Clock Select [RAMClkSel] - 2'b00: bus clock - 2'b01: pipe clock [Only used in device mode] - 2'b10: In device mode pipe/2 clock.In Host mode controller switches ram_clk between pipe/2 clock mac2_clk and bus_clk based on the status of.." "0: bus clock,1: pipe clock [Only used in device mode],2: In device mode,3: In device mode" newline bitfld.long 0x10 4.--5. "SCALEDOWN,Scale-Down Mode [ScaleDown] When Scale-Down mode is enabled for simulation the controller uses scaled-down timing values resulting in faster simulations. When Scale-Down mode is disabled actual timing values are used. This is required for.." "0: Disables all scale-downs,1: Enables scaled down SS timing and repeat values..,2: No TxEq training sequences are sent,3: Enables bit 0 and bit 1 scale-down timing values" newline bitfld.long 0x10 3. "DISSCRAMBLE,Disable Scrambling [DisScramble] Transmit request to Link Partner on next transition to Recovery or Polling." "0,1" newline bitfld.long 0x10 2. "U2EXIT_LFPS,U2EXIT_LFPS If this bit is - 0: the link treats 248ns LFPS as a valid U2 exit. - 1: the link waits for 8us of LFPS before it detects a valid U2 exit. This bit is added to improve interoperability with a third-party host/device.." "0: the link treats 248ns LFPS as a valid U2 exit,1: the link waits for 8us of LFPS before it detects.." newline rbitfld.long 0x10 1. "GBLHIBERNATIONEN,GblHibernationEn This bit enables hibernation at the global level. If hibernation is not enabled through this bit the PMU immediately accepts the D0->D3 and D3->D0 power state change requests but does not save or restore any.." "0,1" newline bitfld.long 0x10 0. "DSBLCLKGTNG,Disable Clock Gating [DsblClkGtng] This bit is set to 1 and the controller is in Low Power mode internal clock gating is disabled. You can set this bit to 1'b1 after Power On Reset." "0,1" line.long 0x14 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GPMSTS,Global Power Management Status Register" hexmask.long.byte 0x14 28.--31. 1. "PORTSEL,Global Power Management Status Register PortSel This field selects the port number." newline hexmask.long.byte 0x14 12.--16. 1. "U3WAKEUP,U3Wakeup This field gives the following USB 3.0 port wakeup conditions: - Bit [12]: Overcurrent Detected - Bit [13]: Resume Detected - Bit [14]: Connect Detected - Bit [15]: Disconnect Detected - Bit [16]: Last Connection State" newline hexmask.long.word 0x14 0.--9. 1. "U2WAKEUP,U2Wakeup This field indicates the following USB 2.0 port wakeup conditions: - Bit [0]: Overcurrent Detected - Bit [1]: Resume Detected - Bit [2]: Connect Detected - Bit [3]: Disconnect Detected - Bit [4]: Last Connection State - Bit [5]:.." line.long 0x18 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GSTS,Global Status Register" hexmask.long.word 0x18 20.--31. 1. "CBELT,Current BELT Value In Host mode this field indicates the minimum value of all received device BELT values and the BELT value that is set by the Set Latency Tolerance Value command." newline rbitfld.long 0x18 11. "SSIC_IP,This field is not used." "0,1" newline rbitfld.long 0x18 10. "OTG_IP,This field is not used." "0,1" newline rbitfld.long 0x18 9. "BC_IP,Battery Charger Interrupt Pending This field indicates that there is a pending interrupt pertaining to BC in BCEVT register." "0,1" newline rbitfld.long 0x18 8. "ADP_IP,This field is not used." "0,1" newline rbitfld.long 0x18 7. "HOST_IP,Host Interrupt Pending: This field indicates that there is a pending interrupt pertaining to xHC in the Host event queue." "0,1" newline rbitfld.long 0x18 6. "DEVICE_IP,Device Interrupt Pending This field indicates that there is a pending interrupt pertaining to peripheral [device] operation in the Device event queue." "0,1" newline bitfld.long 0x18 5. "CSRTIMEOUT,CSR Timeout When this bit is 1'b1 it indicates that the software performed a write or read to a controller register that could not be completed within DWC_USB3_CSR_ACCESS_TIMEOUT bus clock cycles [default: h1FFFF]." "0,1" newline bitfld.long 0x18 4. "BUSERRADDRVLD,Bus Error Address Valid [BusErrAddrVld] Indicates that the GBUSERRADDR register is valid and reports the first bus address that encounters a bus error. Note: Only supported in AHB and AXI configurations." "0,1" newline rbitfld.long 0x18 0.--1. "CURMOD,Current Mode of Operation [CurMod] Indicates the current mode of operation: - 2'b00: Device mode - 2'b01: Host mode" "0: Device mode,1: Host mode,?,?" line.long 0x1C "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GUCTL1,Global User Control Register 1" bitfld.long 0x1C 31. "DEV_DECOUPLE_L1L2_EVT,DEV_DECOUPLE_L1L2_EVT - 0: Default behavior no change in device events L1/L2U3 events are not decoupled [old behavior of v2.90a and before] - 1: Feature enabled L1 and L2 events are separated when operating in 2.0 mode. Separate.." "0: Default behavior,1: Feature enabled" newline bitfld.long 0x1C 30. "DS_RXDET_MAX_TOUT_CTRL,DS_RXDET_MAX_TOUT_CTRL This bit is used to control the tRxDetectTimeoutDFP timer for the SuperSpeed link. - 0: Default behavior. 12ms is used as tRxDetectTimeoutDFP. - 1: 120ms is used as the tRxDetectTimeoutDFP. This bit is.." "0: Default behavior,1: 120ms is used as the tRxDetectTimeoutDFP" newline bitfld.long 0x1C 29. "FILTER_SE0_FSLS_EOP,FILTER_SE0_FSLS_EOP - 0: Default behavior no change in Linestate check for SE0 detection in FS/LS - 1: Feature enabled FS/LS SE0 is filtered for 2 clocks for detecting EOP This bit is applicable for FS/LS operation. If this.." "0: Default behavior,1: Feature enabled" newline bitfld.long 0x1C 28. "TX_IPGAP_LINECHECK_DIS,TX_IPGAP_LINECHECK_DIS - 0: Default behavior no change in Linestate check - 1: Feature enabled 2.0 MAC disables Linestate check during HS transmit This bit is applicable for HS operation of u2mac. If this feature is enabled .." "0: Default behavior,1: Feature enabled" newline bitfld.long 0x1C 27. "DEV_TRB_OUT_SPR_IND,DEV_TRB_OUT_SPR_IND - 0: Default behavior no change in TRB status dword - 1: Feature enabled OUT TRB status indicates Short Packet This bit is applicable for device mode only [and ignored in host mode]. If the device application.." "0: Default behavior,1: Feature enabled" newline bitfld.long 0x1C 26. "DEV_FORCE_20_CLK_FOR_30_CLK,DEV_FORCE_20_CLK_FOR_30_CLK - 0: Default behavior Uses 3.0 clock when operating in 2.0 mode - 1: Feature enabled This bit is applicable [and to be set] for device mode [DCFG.Speed != SS] only. In the 3.0 device controller .." "0: Default behavior,1: Feature enabled This bit is applicable [and to.." newline bitfld.long 0x1C 25. "P3_IN_U2,P3_IN_U2 - 0: Default behavior When SuperSpeed link is in U2 PowerState P2 is attempted on the PIPE Interface. - 1: When SuperSpeed link is in U2 PowerState P3 is attempted if GUSB3PIPECTL[17] is set. Setting this bit enables P3 Power State.." "0: Default behavior,1: When SuperSpeed link is in U2" newline bitfld.long 0x1C 24. "DEV_L1_EXIT_BY_HW,DEV_L1_EXIT_BY_HW - 0: Default behavior disables device L1 hardware exit logic - 1: feature enabled This bit is applicable for device mode [2.0] only. This field enables device controller sending remote wakeup for L1 if the device.." "0: Default behavior,1: feature enabled This bit is applicable for.." newline bitfld.long 0x1C 21.--23. "IP_GAP_ADD_ON,This register field is used to add on to the default inter packet gap setting in the USB 2.0 MAC. This should be programmed to a non zero value only in case where you need to increase the default inter packet delay calculations in the USB.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x1C 20. "DEV_LSP_TAIL_LOCK_DIS,DEV_LSP_TAIL_LOCK_DIS - 0: Default behavior enables device lsp lock logic for tail TRB update - 1: Fix disabled This is a bug fix for STAR 9000716195 that affects the CSP mode for OUT endpoints in device mode. The issue is that.." "0: Default behavior,1: Fix disabled This is a bug fix for STAR.." newline bitfld.long 0x1C 19. "NAK_PER_ENH_FS,NAK_PER_ENH_FS - 1: Enables performance enhancement for FS async endpoints in the presence of NAKs - 0: Enhancement not applied If a periodic endpoint is present and if a bulk endpoint which is also active is being NAKed by the device .." "0: Enhancement not applied If a periodic endpoint..,1: Enables performance enhancement for FS async.." newline bitfld.long 0x1C 18. "NAK_PER_ENH_HS,NAK_PER_ENH_HS - 1: Enables performance enhancement for HS async endpoints in the presence of NAKs - 0: Enhancement not applied If a periodic endpoint is present and if a bulk endpoint which is also active is being NAKed by the device .." "0: Enhancement not applied If a periodic endpoint..,1: Enables performance enhancement for HS async.." newline bitfld.long 0x1C 17. "PARKMODE_DISABLE_SS,PARKMODE_DISABLE_SS This bit is used only in host mode and is for debug purpose only. When this bit is set to '1' all SS bus instances in park mode are disabled." "0,1" newline bitfld.long 0x1C 16. "PARKMODE_DISABLE_HS,PARKMODE_DISABLE_HS This bit is used only in host mode. When this bit is set to '1' all HS bus instances park mode are disabled. To improve performance in park mode the xHCI scheduler queues in three requests of 4 packets each for.." "0,1" newline bitfld.long 0x1C 15. "PARKMODE_DISABLE_FSLS,PARKMODE_DISABLE_FSLS This bit is used only in host mode and is for debug purpose only. When this bit is set to '1' all FS/LS bus instances in park mode disabled." "0,1" newline rbitfld.long 0x1C 12. "DISUSB2REFCLKGTNG,Disable ref_clk gating for 2.0 PHY [DisUSB2RefClkGtng] If ref_clk gating is disabled then the ref_clk input cannot be turned off to the USB 2.0 PHY and controller. This is independent of the GCTL[DisClkGtng] setting. - 1'b0: ref_clk.." "0: ref_clk gating enabled for USB 2,1: ref_clk gating disabled for USB 2" newline rbitfld.long 0x1C 11. "DISREFCLKGTNG,Disable ref_clk gating [DisRefClkGtng] If the ref_clk gating is disabled then input ref_clk cannot be turned off to SSPHY and controller. This is independent of GCTL[DisClkGtng] setting. - 1'b0: ref_clk gating Enabled for SSPHY - 1'b1:.." "0: ref_clk gating Enabled for SSPHY,1: ref_clk gating Disabled for SSPHY" newline bitfld.long 0x1C 10. "RESUME_OPMODE_HS_HOST,RESUME_OPMODE_HS_HOST This bit is used only in host mode and is for USB 2.0 opmode behavior in HS Resume. - When this bit is set to '1' the UTMI/ULPI opmode will be changed to normal along with HS terminations after EOR. This.." "0,1" newline bitfld.long 0x1C 9. "DEV_HS_NYET_BULK_SPR,DEV_HS_NYET_BULK_SPR - 0: Default behavior no change in device response - 1: Feature enabled HS bulk OUT short packet gets NYET response This bit is applicable for device mode only [and ignored in host mode] to be used in 2.0.." "0: Default behavior,1: Feature enabled" newline bitfld.long 0x1C 8. "L1_SUSP_THRLD_EN_FOR_HOST,L1_SUSP_THRLD_EN_FOR_HOST This bit is used only in host mode. The host controller asserts the utmi_l1_suspend_n and utmi_sleep_n output signals [see LPM Interface Signals table in the Databook] as follows: The controller.." "0,1" newline hexmask.long.byte 0x1C 4.--7. 1. "L1_SUSP_THRLD_FOR_HOST,L1_SUSP_THRLD_FOR_HOST This field is effective only when the L1_SUSP_THRLD_EN_FOR_HOST bit is set to 1. For more details refer to the description of the L1_SUSP_THRLD_EN_FOR_HOST bit." newline bitfld.long 0x1C 3. "HC_ERRATA_ENABLE,Host ELD Enable [HELDEn] When this bit is set to 1 it enables the Exit Latency Delta [ELD] support defined in the xHCI 1.0 Errata. This bit is used only in the host mode. This bit has to be set to 1 in Host mode." "0,1" newline bitfld.long 0x1C 2. "HC_PARCHK_DISABLE,Host Parameter Check Disable [HParChkDisable] When this bit is set to '0' [by default] the xHC checks that the input slot/EP context fields comply to the xHCI Specification. Upon detection of a parameter error during command.." "0,1" newline bitfld.long 0x1C 1. "OVRLD_L1_SUSP_COM,OVRLD_L1_SUSP_COM If this bit is set the utmi_l1_suspend_com_n is overloaded with the utmi_sleep_n signal. This bit is usually set if the PHY stops the port clock during L1 sleep condition. Note: The recommended connection for the.." "0,1" newline bitfld.long 0x1C 0. "LOA_FILTER_EN,LOA_FILTER_EN If this bit is set the USB 2.0 port babble is checked at least three consecutive times before the port is disabled. This prevents false triggering of the babble condition when using low quality cables. Note: This bit is.." "0,1" rgroup.long 0x20++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GSNPSID,Global Synopsys ID Register" hexmask.long 0x0 0.--31. 1. "SYNOPSYSID,Synopsys ID - SynopsysID[31:16] indicates Core Identification Number. 0x5533 is ASCII for U3 [DWC_usb3]. - SynopsysID[15:0] indicates the release number. Current Release is 3.30a. Software uses this register to configure release-specific.." group.long 0x24++0xB line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GGPIO,Global General Purpose Input/Output Register" hexmask.long.word 0x0 16.--31. 1. "GPO,General Purpose Output The value of this field is driven out on the gp_out[15:0] output port." newline hexmask.long.word 0x0 0.--15. 1. "GPI,General Purpose Input The read value of this field reflects the gp_in[15:0] input signal value. Note: Register bit-bash test should not check for reset value of this field since its not predictable. depends on the gp_in port." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GUID,Global User ID Register" hexmask.long 0x4 0.--31. 1. "USERID,USERID Application-programmable ID field." line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GUCTL,Global User Control Register:" hexmask.long.word 0x8 22.--31. 1. "REFCLKPER,REFCLKPER This field indicates in terms of nano seconds the period of ref_clk. The default value of this register is set to 'h8 [8ns/125 MHz]. This field needs to be updated during power-on initialization if GCTL.SOFITPSYNC or.." newline bitfld.long 0x8 21. "NOEXTRDL,No Extra Delay Between SOF and the First Packet[NoExtrDl] Some HS devices misbehave when the host sends a packet immediately after a SOF. However adding an extra delay between a SOF and the first packet can reduce the USB data rate and.." "0: Host waits for 2 microseconds after a SOF before..,1: Host doesn't wait after a SOF before it sends.." newline bitfld.long 0x8 17. "SPRSCTRLTRANSEN,Sparse Control Transaction Enable Some devices are slow in responding to Control transfers. Scheduling multiple transactions in one microframe/frame can cause these devices to misbehave. If this bit is set to 1'b1 the host controller.." "0,1" newline bitfld.long 0x8 16. "RESBWHSEPS,Reserving 85% Bandwidth for HS Periodic EPs [ResBwHSEPS] By default HC reserves 800f the bandwidth for periodic EPs. If this bit is set the bandwidth is relaxed to 85% to accommodate two high speed high bandwidth ISOC EPs. USB 2.0.." "0,1" newline bitfld.long 0x8 14. "USBHSTINAUTORETRYEN,Host IN Auto Retry [USBHstInAutoRetryEn] When set this field enables the Auto Retry feature. For IN transfers [non-isochronous] that encounter data packets with CRC errors or internal overrun scenarios the auto retry feature causes.." "0: Auto Retry Disabled,1: Auto Retry Enabled Note: When enabling Auto.." newline bitfld.long 0x8 13. "ENOVERLAPCHK,Enable Check for LFPS Overlap During Remote Ux Exit: If this bit is set to - 1'b1: The SuperSpeed link when exiting U1/U2/U3 waits for either the remote link LFPS or TS1/TS2 training symbols before it confirms that the LFPS handshake is.." "0: When the link exists U1/U2/U3 because of a..,1: The SuperSpeed link when exiting U1/U2/U3 waits.." newline bitfld.long 0x8 12. "EXTCAPSUPPTEN,External Extended Capability Support Enable [ExtCapSuptEN] When set this field enables extended capabilities to be implemented outside the controller. When the ExtCapSupEN is set and the Debug Capability is enabled the Next Capability.." "0,1" newline bitfld.long 0x8 11. "INSRTEXTRFSBODI,Insert Extra Delay Between FS Bulk OUT Transactions [InsrtExtrFSBODl]. Some FS devices are slow to receive Bulk OUT data and can get stuck when there are consecutive Bulk OUT transactions with short inter-transaction delays. This bit is.." "0: Host doesn't insert extra delay between..,1: Host inserts about 12us extra delay between.." newline bitfld.long 0x8 9.--10. "DTCT,Device Timeout Coarse Tuning [DTCT] This field is a Host mode parameter which determines how long the host waits for a response from device before considering a timeout. The controller first checks the DTCT value. If it is 0 then the timeout.." "0: 0 usec -> use DTFT value instead,1: 500 usec,2: 1,3: 6" newline hexmask.long.word 0x8 0.--8. 1. "DTFT,Device Timeout Fine Tuning [DTFT] This field is a Host mode parameter which determines how long the host waits for a response from device before considering a timeout. For the DTFT field to take effect DTCT must be set to 2'b00. The DTFT value.." rgroup.long 0x30++0x7 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GBUSERRADDRLO,Gobal SoC Bus Error Address Register - Low" hexmask.long 0x0 0.--31. 1. "BUSERRADDR,Bus Address - Low [BusAddrLo] This register contains the lower 32 bits of the first bus address that encountered a SoC bus error. It is valid when the GSTS.BusErrAddrVld field is 1. It can only be cleared by resetting the controller. Note:.." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GBUSERRADDRHI,Gobal SoC Bus Error Address Register - High" hexmask.long 0x4 0.--31. 1. "BUSERRADDR,Bus Address - High [BusAddrHi] This register contains the higher 32 bits of the first bus address that encountered a SoC bus error. It is valid when the GSTS.BusErrAddrVld field is 1. It can only be cleared by resetting the controller. Note:.." group.long 0x38++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GPRTBIMAPLO,Global SS Port to Bus Instance Mapping Register - Low" hexmask.long.byte 0x0 28.--31. 1. "BINUM8,BINUM8: SS USB Instance Number for Port 8. Application-programmable ID field." newline hexmask.long.byte 0x0 24.--27. 1. "BINUM7,BINUM7: SS USB Instance Number for Port 7. Application-programmable ID field." newline hexmask.long.byte 0x0 20.--23. 1. "BINUM6,BINUM6: SS USB Instance Number for Port 6. Application-programmable ID field." newline hexmask.long.byte 0x0 16.--19. 1. "BINUM5,BINUM5: SS USB Instance Number for Port 5. Application-programmable ID field." newline hexmask.long.byte 0x0 12.--15. 1. "BINUM4,BINUM4: SS USB Instance Number for Port 4. Application-programmable ID field." newline hexmask.long.byte 0x0 8.--11. 1. "BINUM3,BINUM3: SS USB Instance Number for Port 3. Application-programmable ID field." newline hexmask.long.byte 0x0 4.--7. 1. "BINUM2,BINUM2: SS USB Instance Number for Port 2. Application-programmable ID field." newline hexmask.long.byte 0x0 0.--3. 1. "BINUM1,BINUM1: SS USB Instance Number for Port 1. Application-programmable ID field." rgroup.long 0x3C++0x23 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GPRTBIMAPHI,Global SS Port to Bus Instance Mapping Register - High" hexmask.long.byte 0x0 24.--27. 1. "BINUM15,BINUM15: SS USB Instance Number for Port 15. Application-programmable ID field." newline hexmask.long.byte 0x0 20.--23. 1. "BINUM14,BINUM14: SS USB Instance Number for Port 14. Application-programmable ID field." newline hexmask.long.byte 0x0 16.--19. 1. "BINUM13,BINUM13: SS USB Instance Number for Port 13. Application-programmable ID field." newline hexmask.long.byte 0x0 12.--15. 1. "BINUM12,BINUM12: SS USB Instance Number for Port 12. Application-programmable ID field." newline hexmask.long.byte 0x0 8.--11. 1. "BINUM11,BINUM11: SS USB Instance Number for Port 11. Application-programmable ID field." newline hexmask.long.byte 0x0 4.--7. 1. "BINUM10,BINUM10: SS USB Instance Number for Port 10. Application-programmable ID field." newline hexmask.long.byte 0x0 0.--3. 1. "BINUM9,BINUM9: SS USB Instance Number for Port 9. Application-programmable ID field." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GHWPARAMS0,Global Hardware Parameters Register 0" hexmask.long.byte 0x4 24.--31. 1. "GHWPARAMS0_31_24,DWC_USB3_AWIDTH" newline hexmask.long.byte 0x4 16.--23. 1. "GHWPARAMS0_23_16,DWC_USB3_SDWIDTH" newline hexmask.long.byte 0x4 8.--15. 1. "GHWPARAMS0_15_8,DWC_USB3_MDWIDTH" newline bitfld.long 0x4 6.--7. "GHWPARAMS0_7_6,DWC_USB3_SBUS_TYPE" "0,1,2,3" newline bitfld.long 0x4 3.--5. "GHWPARAMS0_5_3,DWC_USB3_MBUS_TYPE" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 0.--2. "GHWPARAMS0_2_0,DWC_USB3_MODE" "0,1,2,3,4,5,6,7" line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GHWPARAMS1,Global Hardware Parameters Register 1" bitfld.long 0x8 31. "GHWPARAMS1_31,DWC_USB3_EN_DBC" "0,1" newline bitfld.long 0x8 30. "GHWPARAMS1_30,DWC_USB3_RM_OPT_FEATURES" "0,1" newline bitfld.long 0x8 29. "GHWPARAMS1_29,Reserved1" "0,1" newline bitfld.long 0x8 28. "GHWPARAMS1_28,DWC_USB3_RAM_BUS_CLKS_SYNC" "0,1" newline bitfld.long 0x8 27. "GHWPARAMS1_27,DWC_USB3_MAC_RAM_CLKS_SYNC" "0,1" newline bitfld.long 0x8 26. "GHWPARAMS1_26,DWC_USB3_MAC_PHY_CLKS_SYNC" "0,1" newline bitfld.long 0x8 24.--25. "GHWPARAMS1_25_24,DWC_USB3_EN_PWROPT" "0,1,2,3" newline bitfld.long 0x8 23. "GHWPARAMS1_23,DWC_USB3_SPRAM_TYP" "0,1" newline bitfld.long 0x8 21.--22. "GHWPARAMS1_22_21,DWC_USB3_NUM_RAMS" "0,1,2,3" newline hexmask.long.byte 0x8 15.--20. 1. "GHWPARAMS1_20_15,DWC_USB3_DEVICE_NUM_INT For details on DWC_USB3_DEVICE_NUM_INT refer to <workspace>/src/DWC_usb3_params.v file." newline bitfld.long 0x8 12.--14. "GHWPARAMS1_14_12,DWC_USB3_ASPACEWIDTH" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 9.--11. "GHWPARAMS1_11_9,DWC_USB3_REQINFOWIDTH" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 6.--8. "GHWPARAMS1_8_6,DWC_USB3_DATAINFOWIDTH" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 3.--5. "GHWPARAMS1_5_3,DWC_USB3_BURSTWIDTH-1" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 0.--2. "GHWPARAMS1_2_0,DWC_USB3_IDWIDTH-1" "0,1,2,3,4,5,6,7" line.long 0xC "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GHWPARAMS2,Global Hardware Parameters Register 2" hexmask.long 0xC 0.--31. 1. "GHWPARAMS2_31_0,DWC_USB3_USERID" line.long 0x10 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GHWPARAMS3,Global Hardware Parameters Register 3" hexmask.long.byte 0x10 23.--30. 1. "GHWPARAMS3_30_23,DWC_USB3_CACHE_TOTAL_XFER_RESOURCES" newline hexmask.long.byte 0x10 18.--22. 1. "GHWPARAMS3_22_18,DWC_USB3_NUM_IN_EPS" newline hexmask.long.byte 0x10 12.--17. 1. "GHWPARAMS3_17_12,DWC_USB3_NUM_EPS" newline bitfld.long 0x10 11. "GHWPARAMS3_11,DWC_USB3_ULPI_CARKIT" "0,1" newline bitfld.long 0x10 10. "GHWPARAMS3_10,DWC_USB3_VENDOR_CTL_INTERFACE" "0,1" newline bitfld.long 0x10 6.--7. "GHWPARAMS3_7_6,DWC_USB3_HSPHY_DWIDTH" "0,1,2,3" newline bitfld.long 0x10 4.--5. "GHWPARAMS3_5_4,DWC_USB3_FSPHY_INTERFACE" "0,1,2,3" newline bitfld.long 0x10 2.--3. "GHWPARAMS3_3_2,DWC_USB3_HSPHY_INTERFACE" "0,1,2,3" newline bitfld.long 0x10 0.--1. "GHWPARAMS3_1_0,DWC_USB3_SSPHY_INTERFACE" "0,1,2,3" line.long 0x14 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GHWPARAMS4,Global Hardware Parameters Register 4" hexmask.long.byte 0x14 28.--31. 1. "GHWPARAMS4_31_28,DWC_USB3_BMU_LSP_DEPTH" newline hexmask.long.byte 0x14 24.--27. 1. "GHWPARAMS4_27_24,DWC_USB3_BMU_PTL_DEPTH-1" newline bitfld.long 0x14 23. "GHWPARAMS4_23,DWC_USB3_EN_ISOC_SUPT" "0,1" newline bitfld.long 0x14 21. "GHWPARAMS4_21,DWC_USB3_EXT_BUFF_CONTROL" "0,1" newline hexmask.long.byte 0x14 17.--20. 1. "GHWPARAMS4_20_17,DWC_USB3_NUM_SS_USB_INSTANCES" newline hexmask.long.byte 0x14 13.--16. 1. "GHWPARAMS4_16_13,DWC_USB3_HIBER_SCRATCHBUFS Number of external scratchpad buffers the controller requires to save its internal state in the device mode. Each buffer is assumed to be 4KB. The scratchpad buffer array must have this many buffer pointers." newline hexmask.long.byte 0x14 0.--5. 1. "GHWPARAMS4_5_0,DWC_USB3_CACHE_TRBS_PER_TRANSFER" line.long 0x18 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GHWPARAMS5,Global Hardware Parameters Register 5" hexmask.long.byte 0x18 22.--27. 1. "GHWPARAMS5_27_22,DWC_USB3_DFQ_FIFO_DEPTH" newline hexmask.long.byte 0x18 16.--21. 1. "GHWPARAMS5_21_16,DWC_USB3_DWQ_FIFO_DEPTH" newline hexmask.long.byte 0x18 10.--15. 1. "GHWPARAMS5_15_10,DWC_USB3_TXQ_FIFO_DEPTH" newline hexmask.long.byte 0x18 4.--9. 1. "GHWPARAMS5_9_4,DWC_USB3_RXQ_FIFO_DEPTH" newline hexmask.long.byte 0x18 0.--3. 1. "GHWPARAMS5_3_0,DWC_USB3_BMU_BUSGM_DEPTH" line.long 0x1C "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GHWPARAMS6,Global Hardware Parameters Register 6" hexmask.long.word 0x1C 16.--31. 1. "GHWPARAMS6_31_16,DWC_USB3_RAM0_DEPTH" newline bitfld.long 0x1C 15. "BUSFLTRSSUPPORT,DWC_USB3_EN_BUS_FILTERS" "0,1" newline bitfld.long 0x1C 14. "BCSUPPORT,DWC_USB3_EN_BC" "0,1" newline bitfld.long 0x1C 12. "ADPSUPPORT,DWC_USB3_EN_ADP" "0,1" newline bitfld.long 0x1C 7. "GHWPARAMS6_7,DWC_USB3_EN_FPGA" "0,1" newline bitfld.long 0x1C 6. "GHWPARAMS6_6,DWC_USB3_EN_DBG_PORTS" "0,1" newline hexmask.long.byte 0x1C 0.--5. 1. "GHWPARAMS6_5_0,DWC_USB3_PSQ_FIFO_DEPTH" line.long 0x20 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GHWPARAMS7,Global Hardware Parameters Register 7" hexmask.long.word 0x20 16.--31. 1. "GHWPARAMS7_31_16,DWC_USB3_RAM2_DEPTH" newline hexmask.long.word 0x20 0.--15. 1. "GHWPARAMS7_15_0,DWC_USB3_RAM1_DEPTH" group.long 0x60++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GDBGFIFOSPACE,Global Debug Queue/FIFO Space Available Register" hexmask.long.word 0x0 16.--31. 1. "SPACE_AVAILABLE,SPACE_AVAILABLE" newline hexmask.long.word 0x0 0.--8. 1. "FIFO_QUEUE_SELECT,FIFO/Queue Select [or] Port-Select - FIFO/Queue Select[8:5] indicates the FIFO/Queue Type - FIFO/Queue Select[4:0] indicates the FIFO/Queue Number For example 9'b0_0010_0001 refers to RxFIFO_1 and 9'b0_0101_1110 refers to TxReqQ_30." rgroup.long 0x64++0xB line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GDBGLTSSM,Global Debug LTSSM Register" bitfld.long 0x0 30. "RXELECIDLE,RxElecidle For description of RxElecIdle see table 5-4 Status Interface Signals of the PIPE3 Specification." "0,1" newline bitfld.long 0x0 26. "LTDBTIMEOUT,LTDB Timeout [LTDBTimeout]" "0,1" newline hexmask.long.byte 0x0 22.--25. 1. "LTDBLINKSTATE,LTDB Link State [LTDBLinkState]" newline hexmask.long.byte 0x0 18.--21. 1. "LTDBSUBSTATE,LTDB Sub-State [LTDBSubState]" newline bitfld.long 0x0 17. "ELASTICBUFFERMODE,Elastic Buffer Mode [ElasticBufferMode] For field definition refer to Table 5-3 of the PIPE3 specification." "0,1" newline bitfld.long 0x0 16. "TXELECLDLE,Tx Elec Idle [TxElecIdle] For field definition refer to Table 5-3 of the PIPE3 specification." "0,1" newline bitfld.long 0x0 15. "RXPOLARITY,Rx Polarity [RxPolarity] For field definition refer to Table 5-3 of the PIPE3 specification." "0,1" newline bitfld.long 0x0 14. "TXDETRXLOOPBACK,Tx Detect Rx/Loopback [TxDetRxLoopback] For field definition refer to Table 5-3 of the PIPE3 specification." "0,1" newline bitfld.long 0x0 11.--13. "LTDBPHYCMDSTATE,LTSSM PHY command State [LTDBPhyCmdState] - 000: PHY_IDLE [PHY command state is in IDLE. No PHY request pending] - 001: PHY_DET [Request to start Receiver detection] - 010: PHY_DET_3 [Wait for Phy_Status [Receiver detection]] - 011:.." "0: PHY_IDLE [PHY command state is in IDLE,1: PHY_DET [Request to start Receiver detection],?,?,?,?,?,?" newline bitfld.long 0x0 9.--10. "POWERDOWN,POWERDOWN [PowerDown] For field definition refer to Table 5-3 of the PIPE3 specification." "0,1,2,3" newline bitfld.long 0x0 8. "RXEQTRAIN,RxEq Train For field definition refer to Table 5-3 of the PIPE3 specification." "0,1" newline bitfld.long 0x0 6.--7. "TXDEEMPHASIS,TXDEEMPHASIS [TxDeemphasis] For field definition refer to Table 5-3 of the PIPE3 specification." "0,1,2,3" newline bitfld.long 0x0 3.--5. "LTDBCLKSTATE,LTSSM Clock State [LTDBClkState] In multi-port host configuration the port number is defined by Port-Select[3:0] field in the GDBGFIFOSPACE register. Note: GDBGLTSSM register is not applicable for USB 2.0-only mode. - 000: CLK_NORM.." "0: CLK_NORM [PHY is in non-P3 state and PCLK is..,1: CLK_TO_P3 [P3 entry request to PHY],?,?,?,?,?,?" newline bitfld.long 0x0 2. "TXSWING,Tx Swing [TxSwing] For field definition refer to Table 5-3 of the PIPE3 specification." "0,1" newline bitfld.long 0x0 1. "RXTERMINATION,Rx Termination [RxTermination] For details on DWC_USB3_PIPE_RXTERM_RESET_VAL refer to <workspace>/src/DWC_usb3_params.v" "0,1" newline bitfld.long 0x0 0. "TXONESZEROS,Tx Ones/Zeros [TxOnesZeros] For field definition refer to Table 5-3 of the PIPE3 specification." "0,1" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GDBGLNMCC,Global Debug LNMCC Register" hexmask.long.word 0x4 0.--8. 1. "LNMCC_BERC,This field indicates the bit error rate information for the port selected in the GDBGFIFOSPACE.PortSelect field. This field is for debug purposes only." line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GDBGBMU,Global Debug BMU Register" hexmask.long.tbyte 0x8 8.--31. 1. "BMU_BCU,BMU_BCU Debug information" newline hexmask.long.byte 0x8 4.--7. 1. "BMU_DCU,BMU_DCU Debug information" newline hexmask.long.byte 0x8 0.--3. 1. "BMU_CCU,BMU_CCU Debug information" group.long 0x70++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GDBGLSPMUX_HST,Global Debug LSP MUX Register - Host" hexmask.long.byte 0x0 16.--23. 1. "LOGIC_ANALYZER_TRACE,logic_analyzer_trace Port MUX Select Currently only bits[21:16] are used. For details on how the mux controls the debug traces refer to the assign logic_analyzer_trace = code section in the DWC_usb3.v file. A value of 6'h3F drives.." newline hexmask.long.word 0x0 0.--13. 1. "HOSTSELECT,Device LSP Select Selects the LSP debug information presented in the GDBGLSP register in host mode." rgroup.long 0x74++0xB line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GDBGLSP,Global Debug LSP Register" hexmask.long 0x0 0.--31. 1. "LSPDEBUG,LSP Debug Information" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GDBGEPINFO0,Global Debug Endpoint Information Register 0" hexmask.long 0x4 0.--31. 1. "EPDEBUG,Endpoint Debug Information bits[31:0]" line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GDBGEPINFO1,Global Debug Endpoint Information Register 1" hexmask.long 0x8 0.--31. 1. "EPDEBUG,Endpoint Debug Information bits[63:32]" group.long 0x80++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GPRTBIMAP_HSLO,Global High-Speed Port to Bus Instance Mapping Register - Low" hexmask.long.byte 0x0 28.--31. 1. "BINUM8,BINUM8: HS USB Instance Number for Port 8. Application-programmable ID field." newline hexmask.long.byte 0x0 24.--27. 1. "BINUM7,BINUM7: HS USB Instance Number for Port 7. Application-programmable ID field." newline hexmask.long.byte 0x0 20.--23. 1. "BINUM6,BINUM6 USB Instance Number for Port 6. Application-programmable ID field." newline hexmask.long.byte 0x0 16.--19. 1. "BINUM5,BINUM5: HS USB Instance Number for Port 5. Application-programmable ID field." newline hexmask.long.byte 0x0 12.--15. 1. "BINUM4,BINUM4: HS USB Instance Number for Port 4. Application-programmable ID field." newline hexmask.long.byte 0x0 8.--11. 1. "BINUM3,BINUM3: HS USB Instance Number for Port 3. Application-programmable ID field." newline hexmask.long.byte 0x0 4.--7. 1. "BINUM2,BINUM2: HS USB Instance Number for Port 2. Application-programmable ID field." newline hexmask.long.byte 0x0 0.--3. 1. "BINUM1,BINUM1: HS USB Instance Number for Port 1. Application-programmable ID field." rgroup.long 0x84++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GPRTBIMAP_HSHI,Global High-Speed Port to Bus Instance Mapping Register - High" hexmask.long.byte 0x0 24.--27. 1. "BINUM15,BINUM15: HS USB Instance Number for Port 15. Application-programmable ID field." newline hexmask.long.byte 0x0 20.--23. 1. "BINUM14,BINUM14: HS USB Instance Number for Port 14. Application-programmable ID field." newline hexmask.long.byte 0x0 16.--19. 1. "BINUM13,BINUM13: HS USB Instance Number for Port 13. Application-programmable ID field." newline hexmask.long.byte 0x0 12.--15. 1. "BINUM12,BINUM12: HS USB Instance Number for Port 12. SApplication-programmable ID field." newline hexmask.long.byte 0x0 8.--11. 1. "BINUM11,BINUM11: HS USB Instance Number for 11. Application-programmable ID field." newline hexmask.long.byte 0x0 4.--7. 1. "BINUM10,BINUM10: HS USB Instance Number for Port 10. Application-programmable ID field." newline hexmask.long.byte 0x0 0.--3. 1. "BINUM9,BINUM9: HS USB Instance Number for Port 9. Application-programmable ID field." group.long 0x88++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GPRTBIMAP_FSLO,Global Full-Speed Port to Bus Instance Mapping Register - Low" hexmask.long.byte 0x0 28.--31. 1. "BINUM8,BINUM8: FS USB Instance Number for Port 8. Application-programmable ID field." newline hexmask.long.byte 0x0 24.--27. 1. "BINUM7,BINUM7: FS USB Instance Number for Port 7. Application-programmable ID field." newline hexmask.long.byte 0x0 20.--23. 1. "BINUM6,BINUM6: FS USB Instance Number for Port 6. Application-programmable ID field." newline hexmask.long.byte 0x0 16.--19. 1. "BINUM5,BINUM5: FS USB Instance Number for Port 5. Application-programmable ID field." newline hexmask.long.byte 0x0 12.--15. 1. "BINUM4,BINUM4: FS USB Instance Number for Port 4. Application-programmable ID field." newline hexmask.long.byte 0x0 8.--11. 1. "BINUM3,BINUM3: FS USB Instance Number for Port 3. Application-programmable ID field." newline hexmask.long.byte 0x0 4.--7. 1. "BINUM2,BINUM2: FS USB Instance Number for Port 2. Application-programmable ID field." newline hexmask.long.byte 0x0 0.--3. 1. "BINUM1,BINUM1: FS USB Instance Number for Port 1. Application-programmable ID field." rgroup.long 0x8C++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GPRTBIMAP_FSHI,Global Full-Speed Port to Bus Instance Mapping Register - High" hexmask.long.byte 0x0 24.--27. 1. "BINUM15,BINUM15: FS USB Instance Number for Port 15. Application-programmable ID field" newline hexmask.long.byte 0x0 20.--23. 1. "BINUM14,BINUM14: FS USB Instance Number for Port 14. Application-programmable ID field" newline hexmask.long.byte 0x0 16.--19. 1. "BINUM13,BINUM13: FS USB Instance Number for Port 13. Application-programmable ID field" newline hexmask.long.byte 0x0 12.--15. 1. "BINUM12,BINUM12: FS USB Instance Number for Port 12. Application-programmable ID field" newline hexmask.long.byte 0x0 8.--11. 1. "BINUM11,BINUM11: FS USB Instance Number for Port 11. Application-programmable ID field" newline hexmask.long.byte 0x0 4.--7. 1. "BINUM10,BINUM10: FS USB Instance Number for Port 10. Application-programmable ID field" newline hexmask.long.byte 0x0 0.--3. 1. "BINUM9,BINUM9: FS USB Instance Number for Port 9. Application-programmable ID field." group.long 0x94++0xB line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_Reserved_94,Future Reserved Register at offset 0x94" hexmask.long 0x0 0.--31. 1. "RESERVED,Future use Register field" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_Reserved_98,Future Reserved Register at offset 0x98" hexmask.long 0x4 0.--31. 1. "RESERVED,Field for future use" line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GUCTL2,Global User Control Register 2:" hexmask.long.byte 0x8 19.--25. 1. "EN_HP_PM_TIMER,This register field is used to set new HP and PM timers. - To enable PM timer set GUCTL2[19] bit as 1. - To enable HP timer set GUCTL2[20] bit as 1. Default value of HP timer is 4us when HP PM timer is not enabled. when new HP timer is.." newline hexmask.long.byte 0x8 15.--18. 1. "NOLOWPWRDUR,No Low Power Duration [NOLOWPWRDUR] This bit is applicable for device mode only and is ignored in host mode. After starting a transfer on a SS ISOC endpoint the application must program these bits to prevent the device to lose frame.." newline bitfld.long 0x8 14. "RST_ACTBITLATER,Enable clearing of the command active bit for the ENDXFER command after the command execution is completed. This bit is valid in device mode only." "0,1" newline bitfld.long 0x8 13. "RESERVED,Reserved for future use" "0,1" newline bitfld.long 0x8 12. "ENABLEEPCACHEEVICT,Enable Evicting Endpoint cache after Flow Control for bulk endpoints. In 3.00a release a performance enhancement was done to keep the non-stream capable bulk IN endpoint in cache after flow control. Setting this bit will disable this.." "0,1" newline bitfld.long 0x8 11. "DISABLECFC,Disable xHCI Errata Feature Contiguous Frame ID Capability This field controls the xHCI Errata feature Contiguous FrameID capability. When set the xHCI HCCPARAMS1 bit 11 will be set to 0 indicating that CFC is not supported. Disable this.." "0,1" newline hexmask.long.byte 0x8 5.--10. 1. "RXPINGDURATION,Recieve Ping Maximum Duration This field is relevant to Host mode and controls the maximum duration of received LFPS to be treated as a Ping LFPS. The Max duration of the Ping LFPS is controlled by programming this value and is in terms.." newline hexmask.long.byte 0x8 0.--4. 1. "TXPINGDURATION,Transmit Ping Maximum Duration This field is relevant to Device mode and controls the maximum duration for which the controller should instruct the PHY to transmit a Ping LFPS. The duration of the Ping LFPS is controlled by programming.." rgroup.long 0x500++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GHWPARAMS8,Global Hardware Parameters Register 8" hexmask.long 0x0 0.--31. 1. "GHWPARAMS8_32_0,DWC_USB3_DCACHE_DEPTH_INFO" group.long 0x50C++0x7 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GUCTL3,Global User Control Register 3" bitfld.long 0x0 16. "SCH_PING_EARLY,Enable SuperSpeed Ping Transaction Packet scheduling early in the microframe. This bit is valid in Host mode only." "0,1" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOPRIDEV,Global Device TX FIFO DMA Priority Register" hexmask.long.word 0x4 0.--15. 1. "GTXFIFOPRIDEV,Device TxFIFO priority" group.long 0x518++0x7 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOPRIHST,Global Host TX FIFO DMA Priority Register" bitfld.long 0x0 0.--2. "GTXFIFOPRIHST,Host TxFIFO priority" "0,1,2,3,4,5,6,7" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GRXFIFOPRIHST,Global Host RX FIFO DMA Priority Register" bitfld.long 0x4 0.--2. "GRXFIFOPRIHST,Host RxFIFO priority" "0,1,2,3,4,5,6,7" group.long 0x524++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GDMAHLRATIO,Global Host FIFO DMA High-Low Priority Ratio Register" hexmask.long.byte 0x0 8.--12. 1. "HSTRXFIFO,Host RXFIFO DMA High-Low Priority" newline hexmask.long.byte 0x0 0.--4. 1. "HSTTXFIFO,Host TXFIFO DMA High-Low Priority" group.long 0x530++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GFLADJ,Global Frame Length Adjustment Register" bitfld.long 0x0 31. "GFLADJ_REFCLK_240MHZDECR_PLS1,GFLADJ_REFCLK_240MHZDECR_PLS1 This field indicates that the decrement value that the controller applies for each ref_clk must be GFLADJ_REFCLK_240MHZ_DECR and GFLADJ_REFCLK_240MHZ_DECR +1 alternatively on each ref_clk." "0,1" newline hexmask.long.byte 0x0 24.--30. 1. "GFLADJ_REFCLK_240MHZ_DECR,This field indicates the decrement value that the controller applies for each ref_clk in order to derive a frame timer in terms of a 240-MHz clock. This field must be programmed to a non-zero value only if.." newline bitfld.long 0x0 23. "GFLADJ_REFCLK_LPM_SEL,This bit enables the functionality of running SOF/ITP counters on the ref_clk. This bit must not be set to '1' if GCTL.SOFITPSYNC bit is set to '1'. Similarly if GFLADJ_REFCLK_LPM_SEL set to '1' GCTL.SOFITPSYNC must not be set.." "0,1" newline bitfld.long 0x0 22. "RESERVED,Reserved for future use" "0,1" newline hexmask.long.word 0x0 8.--21. 1. "GFLADJ_REFCLK_FLADJ,This field indicates the frame length adjustment to be applied when SOF/ITP counter is running on the ref_clk. This register value is used to adjust the ITP interval when GCTL[SOFITPSYNC] is set to '1'. SOF and ITP interval when.." newline bitfld.long 0x0 7. "GFLADJ_30MHZ_SDBND_SEL,GFLADJ_30MHZ_SDBND_SEL This field selects whether to use the input signal fladj_30mhz_reg or the GFLADJ.GFLADJ_30MHZ to adjust the frame length for the SOF/ITP. When this bit is set to - 1 the controller uses the register field.." "0,1" newline bitfld.long 0x0 6. "RESERVED,Reserved for future use" "0,1" newline hexmask.long.byte 0x0 0.--5. 1. "GFLADJ_30MHZ,GFLADJ_30MHZ This field indicates the value that is used for frame length adjustment instead of considering from the sideband input signal fladj_30mhz_reg. This enables post-silicon frame length adjustment in case the input signal.." group.long 0x100++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GUSB2PHYCFG,Global USB2 PHY Configuration Register" bitfld.long 0x0 31. "PHYSOFTRST,UTMI PHY Soft Reset [PHYSoftRst] Causes the usb2phy_reset signal to be asserted to reset a UTMI PHY. Not applicable to ULPI because ULPI PHYs are reset via their FunctionControl.Reset register and the controller automatically writes to this.." "0,1" newline bitfld.long 0x0 30. "U2_FREECLK_EXISTS,U2_FREECLK_EXISTS Specifies whether your USB 2.0 PHY provides a free-running PHY clock which is active when the clock control input is active. If your USB 2.0 PHY provides a free-running PHY clock it must be connected to the.." "0: USB 2,1: USB 2" newline bitfld.long 0x0 29. "ULPI_LPM_WITH_OPMODE_CHK,ULPI_LPM_WITH_OPMODE_CHK Support the LPM over ULPI without NOPID token to the ULPI PHY. If this bit is set the ULPI PHY is expected to qualify the EXT PID with OPMODE=2'b00 for LPM and not treat it as a NOPID. Check with your.." "0: A NOPID is sent before sending an EXTPID for LPM,1: An EXTPID is sent without previously sending a.." newline rbitfld.long 0x0 27.--28. "HSIC_CON_WIDTH_ADJ,HSIC_CON_WIDTH_ADJ This bit is used in the HSIC device mode of operation. By default the connect duration for the HSIC device controller is thrice the strobe period. You can change this duration to 4 5 or 6 times the strobe period.." "0,1,2,3" newline rbitfld.long 0x0 26. "INV_SEL_HSIC,INV_SEL_HSIC The application driver uses this bit to control the HSIC enable/disable function. When set to '1' this bit overrides and functionally inverts the if_select_hsic input signal. If {INV_SEL_HSIC if_select_hsic} is: - 00: HSIC.." "0: HSIC Capability is disabled,1: HSIC Capability is enabled" newline bitfld.long 0x0 25. "OVRD_FSLS_DISC_TIME,Overriding the FS/LS disconnect time to 32us. - If this value is 0 the FS/LS disconnect time is set to 2.5us as per the USB specification. - If this value is non-0 the disconnect detection time is set to 32us. Normally this.." "0,1" newline bitfld.long 0x0 22.--24. "LSTRD,LS Turnaround Time [LSTRDTIM] This field indicates the value of the Rx-to-Tx packet gap for LS devices. The encoding is as follows: - 0: 2 bit times - 1: 2.5 bit times - 2: 3 bit times - 3: 3.5 bit times - 4: 4 bit times - 5: 4.5 bit times.." "0: 2 bit times,1: 2,2: 3 bit times,3: 3,4: 4 bit times,5: 4,6: 5 bit times,7: 5" newline bitfld.long 0x0 19.--21. "LSIPD,LS Inter-Packet Time [LSIPD] This field indicates the value of Tx-to-Tx packet gap for LS devices. The encoding is as follows: - 0: 2 bit times - 1: 2.5 bit times - 2: 3 bit times - 3: 3.5 bit times - 4: 4 bit times - 5: 4.5 bit times - 6:.." "0: 2 bit times,1: 2,2: 3 bit times,3: 3,4: 4 bit times,5: 4,6: 5 bit times,7: 5" newline bitfld.long 0x0 18. "ULPIEXTVBUSINDIACTOR,ULPI External VBUS Indicator [ULPIExtVbusIndicator] Indicates the ULPI PHY VBUS over-current indicator. - 1'b0: PHY uses an internal VBUS valid comparator. - 1'b1: PHY uses an external VBUS valid comparator. Valid only when RTL.." "0: PHY uses an internal VBUS valid comparator,1: PHY uses an external VBUS valid comparator" newline bitfld.long 0x0 17. "ULPIEXTVBUSDRV,ULPI External VBUS Drive [ULPIExtVbusDrv] Selects supply source to drive 5V on VBUS in the ULPI PHY. - 1'b0: PHY drives VBUS with internal charge pump [default]. - 1'b1: PHY drives VBUS with an external supply. [Only when RTL parameter.." "0: PHY drives VBUS with internal charge pump..,1: PHY drives VBUS with an external supply" newline bitfld.long 0x0 15. "ULPIAUTORES,ULPI Auto Resume [ULPIAutoRes] Sets the AutoResume bit in Interface Control register on the ULPI PHY. - 1'b0: PHY does not use the AutoResume feature. - 1'b1: PHY uses the AutoResume feature. Valid only when RTL parameter.." "0: PHY does not use the AutoResume feature,1: PHY uses the AutoResume feature" newline hexmask.long.byte 0x0 10.--13. 1. "USBTRDTIM,USB 2.0 Turnaround Time [USBTrdTim] Sets the turnaround time in PHY clocks. Specifies the response time for a MAC request to the Packet FIFO Controller [PFC] to fetch data from the DFIFO [SPRAM]. The following are the required values for the.." newline bitfld.long 0x0 9. "XCVRDLY,Transceiver Delay: Enables a delay between the assertion of the UTMI/ULPI Transceiver Select signal [for HS] and the assertion of the TxValid signal during a HS Chirp. When this bit is set to 1 a delay [of approximately 2.5 us] is introduced.." "0,1" newline bitfld.long 0x0 8. "ENBLSLPM,Enable utmi_sleep_n and utmi_l1_suspend_n [EnblSlpM] The application uses this bit to control utmi_sleep_n and utmi_l1_suspend_n assertion to the PHY in the L1 state. - 1'b0: utmi_sleep_n and utmi_l1_suspend_n assertion from the controller is.." "0: utmi_sleep_n and utmi_l1_suspend_n assertion..,1: utmi_sleep_n and utmi_l1_suspend_n assertion.." newline bitfld.long 0x0 7. "PHYSEL,USB 2.0 High-Speed PHY or USB 1.1 Full-Speed Serial Transceiver Select The application uses this bit to select a high-speed PHY or a full-speed transceiver. - 1'b0: USB 2.0 high-speed UTMI+ or ULPI PHY. This bit is always 0 with Write Only.." "0: USB 2,1: USB 1" newline bitfld.long 0x0 6. "SUSPENDUSB20,Suspend USB2.0 HS/FS/LS PHY [SusPHY] When set USB2.0 PHY enters Suspend mode if Suspend conditions are valid. For DRD configurations it is recommended that this bit is set to 0 during coreConsultant configuration. If it is set to 1 then.." "0,1" newline rbitfld.long 0x0 5. "FSINTF,Full-Speed Serial Interface Select [FSIntf] The application uses this bit to select a unidirectional or bidirectional USB 1.1 full-speed serial transceiver interface. - 1'b0: 6-pin unidirectional full-speed serial interface. This bit is set to 0.." "0: 6-pin unidirectional full-speed serial interface,1: 3-pin bidirectional full-speed serial interface" newline rbitfld.long 0x0 4. "ULPI_UTMI_SEL,ULPI or UTMI+ Select [ULPI_UTMI_Sel] The application uses this bit to select a UTMI+ or ULPI Interface. - 1'b0: UTMI+ Interface - 1'b1: ULPI Interface This bit is writable only if UTMI+ and ULPI is specified for High-Speed PHY.." "0: UTMI+ Interface,1: ULPI Interface This bit is writable only if.." newline bitfld.long 0x0 3. "PHYIF,PHY Interface [PHYIf] If UTMI+ is selected the application uses this bit to configure the controller to support a UTMI+ PHY with an 8- or 16-bit interface. - 1'b0: 8 bits - 1'b1: 16 bits ULPI Mode: 1'b0 Note: - All the enabled 2.0 ports must.." "0: 8 bits,1: 16 bits ULPI Mode: 1'b0 Note:" newline bitfld.long 0x0 0.--2. "TOUTCAL,HS/FS Timeout Calibration [TOutCal] The number of PHY clocks as indicated by the application in this field is multiplied by a bit-time factor. this factor is added to the high-speed/full-speed interpacket timeout duration in the controller to.." "0,1,2,3,4,5,6,7" group.long 0x140++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GUSB2I2CCTL,Reserved Register" hexmask.long 0x0 0.--31. 1. "RESERVED,Reserved for future use" rgroup.long 0x180++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GUSB2PHYACC_ULPI,Global USB 2.0 ULPI PHY Vendor Control Register" bitfld.long 0x0 26. "DISUIPIDRVR,DISUIPIDRVR" "0,1" newline bitfld.long 0x0 25. "NEWREGREQ,New Register Request The application sets this bit for a new vendor control access. Setting this bit to 1 asserts the utmi_vcontrolload_n [1'b0] on the UTMI interface." "0,1" newline bitfld.long 0x0 24. "VSTSDONE,VSTSDONE" "0,1" newline bitfld.long 0x0 23. "VSTSBSY,VSTSBSY" "0,1" newline bitfld.long 0x0 22. "REGWR,Register Write The application sets this bit for register writes and clears it for register reads. Note: This bit is applicable for ULPI register read/write access only." "0,1" newline hexmask.long.byte 0x0 16.--21. 1. "REGADDR,Register Address The 6-bit PHY register address for immediate PHY Register Set access. Set to 6'h2F for Extended PHY Register Set access. Note: These bits are applicable for ULPI only." newline hexmask.long.byte 0x0 8.--15. 1. "EXTREGADDR,EXTREGADDR" newline hexmask.long.byte 0x0 0.--7. 1. "REGDATA,REGDATA" group.long 0x1C0++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GUSB3PIPECTL,Global USB 3.0 PIPE Control Register" bitfld.long 0x0 31. "PHYSOFTRST,USB3 PHY Soft Reset After setting this bit to '1' the software needs to clear this bit. For more information refer to Figure Software Resets and PHY Clock Sequencing and Requirements in the Databook." "0,1" newline bitfld.long 0x0 30. "HSTPRTCMPL,HstPrtCmpl This feature tests the PIPE PHY compliance patterns without having to have a test fixture on the USB 3.0 cable. This bit enables placing the SS port link into a compliance state. By default this bit must be set to 1'b0. In.." "0,1" newline bitfld.long 0x0 29. "U2P3OK,P3 OK for SSInactive [SSIP3ok] - 0: During link state SS.Inactive put PHY in P2 [Default] - 1: During link state SS.Inactive put PHY in P3." "0: During link state SS,1: During link state SS" newline bitfld.long 0x0 28. "DISRXDETP3,Disabled receiver detection in P3 [DisRxDetP3] - 0: If PHY is in P3 and controller needs to perform receiver detection The controller performs receiver detection in P3. [Default] - 1: If PHY is in P3 and controller needs to perform receiver.." "0: If PHY is in P3 and controller needs to perform..,1: If PHY is in P3 and controller needs to perform.." newline bitfld.long 0x0 27. "UX_EXIT_IN_PX,Ux Exit in Px [Ux_exit_in_Px] - 0: The controller does U1/U2/U3 exit in PHY power state P0 [default behavior]. - 1: The controller does U1/U2/U3 exit in PHY power state P1/P2/P3 respectively. Note: This bit is used by third-party SS.." "0: The controller does U1/U2/U3 exit in PHY power..,1: The controller does U1/U2/U3 exit in PHY power.." newline bitfld.long 0x0 26. "PING_ENHANCEMENT_EN,Ping Enhancement Enable [ping_enhancement_en] When set the Downstream port U1 ping receive timeout becomes 500 ms instead of 300 ms. Minimum Ping.LFPS receive duration is 8 ns [one mac3_clk]. This field is valid for the downstream.." "0,1" newline bitfld.long 0x0 25. "U1U2EXITFAIL_TO_RECOV,U1U2exitfail to Recovery [u1u2exitfail_to_recov] When set and U1/U2 LFPS handshake fails the LTSSM transitions from U1/U2 to Recovery instead of SS Inactive. If Recovery fails then the LTSSM can enter SS.Inactive. This is an.." "0,1" newline bitfld.long 0x0 24. "REQUEST_P1P2P3,Always Request P1/P2/P3 for U1/U2/U3 [request_p1p2p3] When set the controller always requests PHY power change from P0 to P1/P2/P3 during U0 to U1/U2/U3 transition. If this bit is 0 and immediate Ux exit [remotely initiated or locally.." "0,1" newline bitfld.long 0x0 23. "STARTRXDETU3RXDET,Start Receiver Detection in U3/Rx.Detect [StartRxdetU3RxDet] If DWC_USB3_GUSB3PIPECTL_INIT[22] is set and the link is in either U3 or Rx.Detect state the controller starts receiver detection on the rising edge of this bit. This can.." "0,1" newline bitfld.long 0x0 22. "DISRXDETU3RXDET,Disable Receiver Detection in U3/Rx.Det When set the controller does not handle receiver detection in either U3 or Rx.Detect states. DWC_USB3_GUSB3PIPECTL_INIT[23] must be used to start receiver detection manually. This bit can only be.." "0,1" newline bitfld.long 0x0 19.--21. "DELAYP1P2P3,Delay P1P2P3 Delay P0 to P1/P2/P3 request when entering U1/U2/U3 until [DWC_USB3_GUSB3PIPECTL_INIT[21:19]*8] 8B10B error occurs or Pipe3_RxValid drops to 0. DWC_USB3_GUSB3PIPECTL_INIT[18] must be 1 to enable this functionality." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 18. "DELAYP1TRANS,Delay PHY power change from P0 to P1/P2/P3 when link state changing from U0 to U1/U2/U3 respectively. - 1'b1: When entering U1/U2/U3 delay the transition to P1/P2/P3 until the pipe3 signals Pipe3_RxElecIdle is 1 and pipe3_RxValid is 0 -.." "0: When entering U1/U2/U3,1: When entering U1/U2/U3" newline bitfld.long 0x0 17. "SUSPENDENABLE,Suspend USB3.0 SS PHY [Suspend_en] When set and if Suspend conditions are valid the USB 3.0 PHY enters Suspend mode. For DRD configurations it is recommended that this bit is set to '0' during coreConsultant configuration. If it is set.." "0,1" newline rbitfld.long 0x0 15.--16. "DATWIDTH,PIPE Data Width [DatWidth] - 2'b00: 32 bits - 2'b01: 16 bits One clock after reset these bits receive the value seen on the pipe3_DataBusWidth. The simulation testbench uses the coreConsultant parameter to configure the VIP. These bits in the.." "0: 32 bits,1: 16 bits One clock after reset,?,?" newline bitfld.long 0x0 14. "ABORTRXDETINU2,Abort Rx Detect in U2 [AbortRxDetInU2] When set and the link state is U2 the controller will abort receiver detection if it receives U2 exit LFPS from the remote link partner. This bit is for the downstream port only. Note: This bit is.." "0,1" newline bitfld.long 0x0 13. "SKIPRXDET,Skip Rx Detect: When set the controller skips Rx Detection if pipe3_RxElecIdle is low. Skip is defined as waiting for the appropriate timeout then repeating the operation." "0,1" newline bitfld.long 0x0 12. "LFPSP0ALGN,LFPS P0 Align: When set - The controller deasserts LFPS transmission on the clock edge that it requests Phy power state 0 when exiting U1 U2 or U3 low power states. Otherwise LFPS transmission is asserted one clock earlier. - The.." "0,1" newline bitfld.long 0x0 11. "P3P2TRANOK,P3 P2 Transitions OK [P3P2TranOK] When set the controller transitions directly from Phy power state P2 to P3 or from state P3 to P2. When not set P0 is always entered as an intermediate state during transitions between P2 and P3 as defined.." "0,1" newline bitfld.long 0x0 10. "P3EXSIGP2,P3 Exit Signal in P2 [P3ExSigP2] When this bit is set the controller always changes the PHY power state to P2 before attempting a U3 exit handshake. This bit is used only for some non-Synopsys PHYs that cannot do LFPS in P3. Note: This bit.." "0,1" newline bitfld.long 0x0 9. "LFPSFILTER,LFPS Filter [LFPSFilt] When set filter LFPS reception with pipe3_RxValid in PHY power state P0 that is ignore LFPS reception from the PHY unless both pipe3_Rxelecidle and pipe3_RxValid are deasserted." "0,1" newline bitfld.long 0x0 8. "RX_DETECT_TO_POLLING_LFPS_CONTROL,RX_DETECT to Polling.LFPS Control - 1'b0 [Default]: Enables a 400us delay to start Polling LFPS after RX_DETECT. This allows VCM offset to settle to a proper level. - 1'b1: Disables the 400us delay to start Polling.." "?,1: Disables the 400us delay to start Polling LFPS.." newline bitfld.long 0x0 7. "SSICEN,This field is not used." "0,1" newline bitfld.long 0x0 6. "TX_SWING,Tx Swing [TxSwing] Refer to the PIPE3 specification." "0,1" newline bitfld.long 0x0 3.--5. "TX_MARGIN,Tx Margin[2:0] [TxMargin] Refer to Table 5-3 of the PIPE3 Specification." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 1.--2. "SS_TX_DE_EMPHASIS,Tx Deemphasis [TxDeemphasis] The value driven to the PHY is controlled by the LTSSM during USB3 Compliance mode. [Refer to Table 5-3 of the PIPE3 specification.]" "0,1,2,3" newline bitfld.long 0x0 0. "ELASTIC_BUFFER_MODE,Elastic Buffer Mode [ElasticBufferMode] [Refer to Table 5-3 of the PIPE3 specification.]" "0,1" group.long 0x200++0x3F line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOSIZ0,Global Transmit FIFO Size Register" hexmask.long.word 0x0 16.--31. 1. "TXFSTADDR_N,Transmit FIFOn RAM Start Address This field contains the memory start address for TxFIFOn in MDWIDTH-bit words." newline hexmask.long.word 0x0 0.--15. 1. "TXFDEP_N,TxFIFO Depth This field contains the depth of TxFIFOn in MDWIDTH-bit words. - Minimum value: 32 - Maximum value: 32 768 For more information see Integrating the Controller chapter in the User Guide." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOSIZ1,Register GTXFIFOSIZ 1" hexmask.long.word 0x4 16.--31. 1. "TXFSTADDR_N,Transmit FIFOn RAM Start Address This field contains the memory start address for TxFIFOn in MDWIDTH-bit words." newline hexmask.long.word 0x4 0.--15. 1. "TXFDEP_N,TXFDEP_N" line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOSIZ2,Transmit FIFOn RAM Start Address" hexmask.long.word 0x8 16.--31. 1. "TXFSTADDR_N,Transmit FIFOn RAM Start Address This field contains the memory start address for TxFIFOn in MDWIDTH-bit words." newline hexmask.long.word 0x8 0.--15. 1. "TXFDEP_N,TxFIFO Depth This field contains the depth of TxFIFOn in MDWIDTH-bit words. - Minimum value: 32 - Maximum value: 32 768 For more information see Integrating the Controller chapter in the User Guide." line.long 0xC "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOSIZ3,Register GTXFIFOSIZ 3" hexmask.long.word 0xC 16.--31. 1. "TXFSTADDR_N,Transmit FIFOn RAM Start Address This field contains the memory start address for TxFIFOn in MDWIDTH-bit words." newline hexmask.long.word 0xC 0.--15. 1. "TXFDEP_N,TXFDEP_N: TxFIFO Depth [TxFDep_n] This field contains the depth of TxFIFOn in MDWIDTH-bit words. - Minimum value: 32 - Maximum value: 32 768 For more information see Integrating the Controller chapter in the User Guide." line.long 0x10 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOSIZ4,Register GTXFIFOSIZ 4" hexmask.long.word 0x10 16.--31. 1. "TXFSTADDR_N,TXFSTADDR_N" newline hexmask.long.word 0x10 0.--15. 1. "TXFDEP_N,TXFDEP_N: TxFIFO Depth [TxFDep_n] This field contains the depth of TxFIFOn in MDWIDTH-bit words. - Minimum value: 32 - Maximum value: 32 768 For more information see Integrating the Controller chapter in the User Guide." line.long 0x14 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOSIZ5,Register GTXFIFOSIZ 5" hexmask.long.word 0x14 16.--31. 1. "TXFSTADDR_N,Transmit FIFOn RAM Start Address" newline hexmask.long.word 0x14 0.--15. 1. "TXFDEP_N,TxFIFO Depth This field contains the depth of TxFIFOn in MDWIDTH-bit words. - Minimum value: 32 - Maximum value: 32 768 For more information see Integrating the Controller chapter in the User Guide." line.long 0x18 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOSIZ6,Register GTXFIFOSIZ 6" hexmask.long.word 0x18 16.--31. 1. "TXFSTADDR_N,Transmit FIFOn RAM Start Address This field contains the memory start address for TxFIFOn in MDWIDTH-bit words." newline hexmask.long.word 0x18 0.--15. 1. "TXFDEP_N,TxFIFO Depth This field contains the depth of TxFIFOn in MDWIDTH-bit words. - Minimum value: 32 - Maximum value: 32 768 For more information see Integrating the Controller chapter in the User Guide." line.long 0x1C "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOSIZ7,Register GTXFIFOSIZ 7" hexmask.long.word 0x1C 16.--31. 1. "TXFSTADDR_N,Transmit FIFOn RAM Start Address This field contains the memory start address for TxFIFOn in MDWIDTH-bit words." newline hexmask.long.word 0x1C 0.--15. 1. "TXFDEP_N,TXFDEP_N This field contains the depth of TxFIFOn in MDWIDTH-bit words. - Minimum value: 32 - Maximum value: 32 768 For more information see Integrating the Controller chapter in the User Guide." line.long 0x20 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOSIZ8,Register GTXFIFOSIZ 8" hexmask.long.word 0x20 16.--31. 1. "TXFSTADDR_N,Transmit FIFOn RAM Start Address This field contains the memory start address for TxFIFOn in MDWIDTH-bit words." newline hexmask.long.word 0x20 0.--15. 1. "TXFDEP_N,TxFIFO Depth This field contains the depth of TxFIFOn in MDWIDTH-bit words. - Minimum value: 32 - Maximum value: 32 768 For more information see Integrating the Controller chapter in the User Guide." line.long 0x24 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOSIZ9,Register GTXFIFOSIZ 9" hexmask.long.word 0x24 16.--31. 1. "TXFSTADDR_N,Transmit FIFOn RAM Start Address This field contains the memory start address for TxFIFOn in MDWIDTH-bit words." newline hexmask.long.word 0x24 0.--15. 1. "TXFDEP_N,TxFIFO Depth This field contains the depth of TxFIFOn in MDWIDTH-bit words. - Minimum value: 32 - Maximum value: 32 768 For more information see Integrating the Controller chapter in the User Guide." line.long 0x28 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOSIZ10,GTXFIFOSIZ 10" hexmask.long.word 0x28 16.--31. 1. "TXFSTADDR_N,Transmit FIFOn RAM Start Address This field contains the memory start address for TxFIFOn in MDWIDTH-bit words." newline hexmask.long.word 0x28 0.--15. 1. "TXFDEP_N,TXFDEP_N: TxFIFO Depth [TxFDep_n] This field contains the depth of TxFIFOn in MDWIDTH-bit words. - Minimum value: 32 - Maximum value: 32 768 For more information see Integrating the Controller chapter in the User Guide." line.long 0x2C "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOSIZ11,Register GTXFIFOSIZ 11" hexmask.long.word 0x2C 16.--31. 1. "TXFSTADDR_N,Transmit FIFOn RAM Start Address This field contains the memory start address for TxFIFOn in MDWIDTH-bit words." newline hexmask.long.word 0x2C 0.--15. 1. "TXFDEP_N,TxFIFO Depth This field contains the depth of TxFIFOn in MDWIDTH-bit words. - Minimum value: 32 - Maximum value: 32 768 For more information see Integrating the Controller chapter in the User Guide." line.long 0x30 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOSIZ12,GTXFIFOSIZ 12" hexmask.long.word 0x30 16.--31. 1. "TXFSTADDR_N,Transmit FIFOn RAM Start Address This field contains the memory start address for TxFIFOn in MDWIDTH-bit words." newline hexmask.long.word 0x30 0.--15. 1. "TXFDEP_N,TxFIFO Depth This field contains the depth of TxFIFOn in MDWIDTH-bit words. - Minimum value: 32 - Maximum value: 32 768 For more information see Integrating the Controller chapter in the User Guide." line.long 0x34 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOSIZ13,Register GTXFIFOSIZ 13" hexmask.long.word 0x34 16.--31. 1. "TXFSTADDR_N,Transmit FIFOn RAM Start Address This field contains the memory start address for TxFIFOn in MDWIDTH-bit words." newline hexmask.long.word 0x34 0.--15. 1. "TXFDEP_N,TXFDEP_N" line.long 0x38 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOSIZ14,Register GTXFIFOSIZ 14" hexmask.long.word 0x38 16.--31. 1. "TXFSTADDR_N,Transmit FIFOn RAM Start Address This field contains the memory start address for TxFIFOn in MDWIDTH-bit words." newline hexmask.long.word 0x38 0.--15. 1. "TXFDEP_N,TXFDEP_N" line.long 0x3C "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOSIZ15,Register GTXFIFOSIZ 15" hexmask.long.word 0x3C 16.--31. 1. "TXFSTADDR_N,TXFSTADDR_N" newline hexmask.long.word 0x3C 0.--15. 1. "TXFDEP_N,TXFDEP_N" group.long 0x280++0xB line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GRXFIFOSIZ0,Global Receive FIFO Size Register" hexmask.long.word 0x0 16.--31. 1. "RXFSTADDR_N,RxFIFOn RAM Start Address [RxFStAddr_n] This field contains the memory start address for RxFIFOn in MDWIDTH-bit words." newline hexmask.long.word 0x0 0.--15. 1. "RXFDEP_N,RxFIFO Depth [RxFDep_n] This field contains the depth of RxFIFOn in MDWIDTH-bit words. - Minimum value: 32 - Maximum value: 16 384" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GRXFIFOSIZ1,Register" hexmask.long.word 0x4 16.--31. 1. "RXFSTADDR_N,RXFSTADDR_N" newline hexmask.long.word 0x4 0.--15. 1. "RXFDEP_N,RxFIFO Depth This field contains the depth of RxFIFOn in MDWIDTH-bit words. - Minimum value: 32 - Maximum value: 16 384" line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GRXFIFOSIZ2,Register" hexmask.long.word 0x8 16.--31. 1. "RXFSTADDR_N,RAM Start Address This field contains the memory start address for RxFIFOn in MDWIDTH-bit words." newline hexmask.long.word 0x8 0.--15. 1. "RXFDEP_N,RxFIFO Depth This field contains the depth of RxFIFOn in MDWIDTH-bit words. - Minimum value: 32 - Maximum value: 16 384" group.long 0x300++0xF line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GEVNTADRLO,Global Event Buffer Address (Low) Register" hexmask.long 0x0 0.--31. 1. "EVNTADRLO,Event Buffer Address [EvntAdrLo] Holds the lower 32 bits of start address of the external memory for the Event Buffer. During operation hardware does not update this address." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GEVNTADRHI,Global Event Buffer Address (High) Register" hexmask.long 0x4 0.--31. 1. "EVNTADRHI,Event Buffer Address [EvntAdrHi] Holds the higher 32 bits of start address of the external memory for the Event Buffer. During operation hardware does not update this address." line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GEVNTSIZ,Global Event Buffer Size Register" bitfld.long 0x8 31. "EVNTINTRPTMASK,Event Interrupt Mask [EvntIntMask]. When set to '1' this prevents the interrupt from being generated. However even when the mask is set the events are queued." "0,1" newline hexmask.long.word 0x8 0.--15. 1. "EVENTSIZ,Event Buffer Size in bytes [EVNTSiz] Holds the size of the Event Buffer in bytes. must be a multiple of four. This is programmed by software once during initialization. The minimum size of the event buffer is 32 bytes." line.long 0xC "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GEVNTCOUNT,Global Event Buffer Count Register" bitfld.long 0xC 31. "EVNT_HANDLER_BUSY,Event Handler Busy Device software event handler busy indication. The controller sets this bit when the interrupt line is asserted due to pending events. Software clears this bit [with 1'b1] when it has finished processing the events.." "0,1" newline hexmask.long.word 0xC 0.--15. 1. "EVNTCOUNT,Event Count [EVNTCount] When read returns the number of valid events in the Event Buffer [in bytes]. When written hardware decrements the count by the value written. When Interrupt moderation is enabled [that is DEVICE_IMODI!= 0] the.." group.long 0x540++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GUSB2RHBCTL,Global USB 2.0 Root Hub Control Register" hexmask.long.byte 0x0 0.--3. 1. "OVRD_L1TIMEOUT,Overriding the driver programmed L1TIMEOUT value. If this value is 0 the L1 Timeout value is taken from the xHCI PORTHLPMC register. If this value is non-0 then this will override the L1 Timeout value programmed in the xHCI PORTHLPMC.." tree.end tree "USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_INTR (USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_INTR)" base ad:0x31000460 group.long 0x0++0x1F line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_INTR_IMAN,Interrupter Management Register Bit Definitions" bitfld.long 0x0 1. "IE,IE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x0 0. "IP,IP Interrupt Pending For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_INTR_IMOD,Interrupter Moderation Register" hexmask.long.word 0x4 16.--31. 1. "IMODC,Interrupt Moderation Counter [IMODC] - RW. Default = undefined. Down counter. Loaded with the IMODI value whenever IP is cleared to '0' counts down to '0' and stops. The associated interrupt is signaled whenever this counter is '0' the.." hexmask.long.word 0x4 0.--15. 1. "IMODI,Interrupt Moderation Interval [IMODI] - RW. Default = '4000' [~1ms]. Minimum inter-interrupt interval. The interval is specified in 250ns increments. A value of '0' disables interrupt throttling logic and interrupts is generated immediately if.." line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_INTR_ERSTSZ,Event Ring Segment Table Size Register Bit Definitions" hexmask.long.word 0x8 0.--15. 1. "ERS_TABLE_SIZE,ERS_TABLE_SIZE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." line.long 0xC "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_INTR_RsvdP,RsvdP" line.long 0x10 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_INTR_ERSTBA_LO,ERSTBA_LO" hexmask.long 0x10 6.--31. 1. "ERS_TABLE_BAR,ERS_TABLE_BAR" line.long 0x14 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_INTR_ERSTBA_HI,ERSTBA_HI" hexmask.long 0x14 0.--31. 1. "ERS_TABLE_BAR,ERS_TABLE_BAR For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." line.long 0x18 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_INTR_ERDP_LO,ERDP_LO" hexmask.long 0x18 4.--31. 1. "ERD_PNTR,ERD_PNTR For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." bitfld.long 0x18 3. "EHB,HC OS Owned SemaphoreERS_TABLE_SIZEHC BIOS Owned Semaphore USB SMI Enable SMI on Host System Error Enable - SMI on OS Ownership Enable - SMI on PCI Command Enable - SMI on BAR Enable - SMI on Event Interrupt - SMI on Host System Error - SMI.." "0,1" bitfld.long 0x18 0.--2. "DESI,DESI - For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1,2,3,4,5,6,7" line.long 0x1C "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_INTR_ERDP_HI,ERDP_HI" hexmask.long 0x1C 0.--31. 1. "ERD_PNTR,ERD_PNTR For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." tree.end tree "USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_LINK (USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_LINK)" base ad:0x3100D000 group.long 0x0++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_LINK_LU1LFPSRXTIM,U1/U2 LFPS Rx Timer Register" hexmask.long.byte 0x0 8.--15. 1. "U1U2_LFPS_EXIT_RX_CLK,Programmable U1U2 LFPS EXIT RX CLKS - Applicable to Remote Partner initiated Ux exit: Time to recognize valid Ux exit request from the remote partner. - This field is encoded as the pipe clk [8ns] count for the LFPS. -- 1: 8ns.." hexmask.long.byte 0x0 0.--7. 1. "U1U2_EXIT_RSP_RX_CLK,Programmable U1U2 EXIT RESP RX CLKS - Applicable to locally initiated Ux exit: Minimum LFPS reception from remote to consider Ux exit handshake is successful. - This field is encoded as the pipe clk [8ns] count for the LFPS. -- 1:.." group.long 0x20++0xB line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_LINK_LINK_SETTINGS,Link Setting Register" bitfld.long 0x0 28.--30. "U1_RESID_TIMER_US,Programmable U1 MIN RESIDENCY TIMER This field specifies U1 MIN RESIDENCY TIMER value in us. Set to 0 to disable the timer." "0,1,2,3,4,5,6,7" bitfld.long 0x0 24.--26. "PM_LC_TIMER_US,Programmable PM_LC_TIMER This field specifies PM_LC_TIMER value in us." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 20.--23. 1. "PM_ENTRY_TIMER_US,Programmable PM_ENTRY_TIMER This field specifies PM_ENTRY_TIMER value in us." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_LINK_LLUCTL,Link User Control Register" bitfld.long 0x4 29. "SUPPORT_P4_PG,PHY P4 Power gate mode [PG] is enabled. Set this bit if the PHY supports PG mode in P4. This bit is used only for Synopsys PHY." "0,1" bitfld.long 0x4 28. "SUPPORT_P4,Support PHY P3.CPM and P4 Power States. When this bit is set the controller puts the PHY in P3.CPM or P4 in certain states. This bit is used only for Synopsys PHY." "0,1" newline bitfld.long 0x4 23. "DISRXDET_LTSSM_TIMER_OVRRD,DisRxDet_LTSSM_Timer_Ovrrd. When DisRxDetU3RxDet is asserted in Polling or U1 the timeout expires immediately." "0,1" bitfld.long 0x4 12. "U2P3CPMOK,P3CPM OK for U2/SSInactive [U2P3CPMok] - 0: During link state U2/SS.Inactive put PHY in P2 [Default] - 1: During link state U2/SS.Inactive put PHY in P3CPM. Note: For a port if both GUCTL1[25]=1 and LUCTL[12]=1 LUCTL[12]=1 takes priority." "0: During link state U2/SS,1: During link state U2/SS" newline bitfld.long 0x4 11. "EN_RESET_PIPE_AFTER_PHY_MUX,en_reset_pipe_after_phy_mux. The controller issues USB 3.0 PHY reset after DisRxDetU3RxDet is de-asserted." "0,1" bitfld.long 0x4 7. "MASK_PIPE_RESET,Mask pipe reset. If this bit is set controller blocks pipe_reset_n from going to the PHY when DisRxDetU3RxDet=1." "0,1" newline bitfld.long 0x4 5. "NO_UX_EXIT_P0_TRANS,no_ux_exit_p0_trans. Link LTSSM detects Ux_exit LFPS when P0 transition is on-going by default. If this bit is set Link LTSSM may miss Ux_exit LFPS when P0 transition is happening." "0,1" line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_LINK_LPTMDPDELAY,Link Datapath Delay Register" hexmask.long.word 0x8 10.--21. 1. "P3CPMP4_RESIDENCY,p3cpmp4 residency timer value. Minimum number of suspend_clk periods that the controller needs to stay in P3.CPM or P4 before exiting P3.CPM or P4. This field is used only for Synopsys PHY." tree.end tree "USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_OPER (USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_OPER)" base ad:0x31000020 group.long 0x0++0x7 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_OPER_USBCMD,USB Command Register" bitfld.long 0x0 13. "CME,CEM Enable For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x0 11. "EU3S,EU3S For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x0 10. "EWE,EWE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x0 9. "CRS,Controller Restore State This command is similar to the USBCMD.CRS bit in host mode and initiates the restore process. When software sets this bit to '1' the controller immediately sets DSTS.RSS to '1'. When the controller has finished the restore.." "0,1" newline bitfld.long 0x0 8. "CSS,Controller Save State This command is similar to the USBCMD.CSS bit in host mode and initiates the save process. When software sets this bit to '1' the controller immediately sets DSTS.SSS to '1'. When the controller has finished the save process .." "0,1" bitfld.long 0x0 7. "LHCRST,Light Host Controller Reset For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0. The following bits reset the internal logic of the host controller." "0,1" newline bitfld.long 0x0 3. "HSEE,HSEE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x0 2. "INTE,INTE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x0 1. "HCRST,HCRST The following bits reset the internal logic of the host controller. Under soft reset some CSR accesses may fail [Timeout]. - HCRST - LHCRST Bit Bash register testing is not recommended." "0,1" bitfld.long 0x0 0. "R_S,R_S For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0. Due to side-effects this reguster field is not recommended for Bit-Bash testing." "0,1" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_OPER_USBSTS,USB Status Register Bit Definitions" rbitfld.long 0x4 12. "HCE,Host Controller Error [HCE] - RO Default = 0. '0' = No internal xHC error conditions exist and '1' = Internal xHC error condition. This flag must be set to indicate that an internal error condition has been detected which requires software to.." "0: No internal xHC error conditions exist and,1: Internal xHC error condition" rbitfld.long 0x4 11. "CNR,Controller Not Ready [CNR] - RO Default = '1'. '0' = Ready and '1' = Not Ready. Software must not write to thes Doorbell or Operational register of the xHC other than the USBSTS register until CNR = '0'. This flag is set by the xHC after a.." "0: Ready and,1: Not Ready" newline bitfld.long 0x4 10. "SRE,Save/Restore Error This bit is currently not supported." "0,1" rbitfld.long 0x4 9. "RSS,Restore State Status This bit is similar to the USBSTS.RSS in host mode. When the controller has finished the restore process it completes the command by setting DSTS.RSS to '0'." "0,1" newline rbitfld.long 0x4 8. "SSS,Save State Status This bit is similar to the USBSTS.SSS in host mode. When the controller has finished the save process it completes the command by setting DSTS.SSS to '0'." "0,1" bitfld.long 0x4 4. "PCD,Reset Value for PCD" "0,1" newline bitfld.long 0x4 3. "EINT,Reset Value for EINT" "0,1" bitfld.long 0x4 2. "HSE,HSE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0.." "0,1" newline rbitfld.long 0x4 0. "HCH,HCH For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" rgroup.long 0x8++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_OPER_PAGESIZE,Page Size Register Bit Definitions" hexmask.long.word 0x0 0.--15. 1. "PAGE_SIZE,PAGE_SIZE" group.long 0x14++0x7 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_OPER_DNCTRL,Device Notification Register Bit Definitions" hexmask.long.word 0x0 0.--15. 1. "N0_N15,N0_N15 For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_OPER_CRCR_LO,CRCR_LO" hexmask.long 0x4 6.--31. 1. "CMD_RING_PNTR,CMD_RING_PNTR For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." rbitfld.long 0x4 3. "CRR,CRR For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x4 2. "CA,CA For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x4 1. "CS,CS For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x4 0. "RCS,RCS For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" wgroup.long 0x1C++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_OPER_CRCR_HI,CRCR_HI" hexmask.long 0x0 0.--31. 1. "CMD_RING_PNTR,COMMAND_RING_POINTER Reading this field always returns '0'. For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." group.long 0x30++0xB line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_OPER_DCBAAP_LO,DCBAAP_LO" hexmask.long 0x0 6.--31. 1. "DEVICE_CONTEXT_BAAP,DEVICE_CONTEXT_BAAP For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_OPER_DCBAAP_HI,DCBAAP_HI" hexmask.long 0x4 0.--31. 1. "DEVICE_CONTEXT_BAAP,DEVICE_CONTEXT_BAAP" line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_OPER_CONFIG,Configure Register Bit Definitions" bitfld.long 0x8 9. "CIE,Configuration Information Enable For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x8 8. "U3E,U3 Entry Enable For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline hexmask.long.byte 0x8 0.--7. 1. "MAXSLOTSEN,MAXSLOTSEN For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." tree.end tree "USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_PORT (USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_PORT)" base ad:0x31000420 group.long 0x0++0xF line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_PORT_PORTSC_20,Port Status and Control Register Bit Definitions" bitfld.long 0x0 31. "RESERVED,Reserved For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0. Programming this field with random data will cause side effect i.e. Register Access.." "0,1" rbitfld.long 0x0 30. "DR,Reset Value For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x0 27. "WOE,WOE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x0 26. "WDE,WDE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x0 25. "WCE,WCE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" rbitfld.long 0x0 24. "CAS,Cold Attach Status For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x0 23. "RESERVED,Reserved For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x0 22. "PLC,PLC For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x0 21. "PRC,PRC For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0. Programming this field with random data will cause side effect. Bit Bash register testing is.." "0,1" newline bitfld.long 0x0 20. "OCC,OCC For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x0 19. "RESERVED,WRC For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x0 18. "PEC,PEC For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x0 17. "CSC,CSC For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x0 16. "LWS,LWS For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x0 14.--15. "PIC,PIC For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1,2,3" newline hexmask.long.byte 0x0 10.--13. 1. "PORTSPEED,PORTSPEED For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." bitfld.long 0x0 9. "PP,PP For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" hexmask.long.byte 0x0 5.--8. 1. "PLS,PLS For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." newline bitfld.long 0x0 4. "PR,PR set_register_field_attribute DWC_usb3_map/DWC_usb3_block_Host_Cntrl_Port_Reg_Set/PORTSC_20_REGS/PORTSC_20/PR VolatileMemory 1 Programming this field with random data will cause side effect. Bit Bash register testing is not recommended." "0,1" rbitfld.long 0x0 3. "OCA,OCA For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x0 1. "PED,PED For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline rbitfld.long 0x0 0. "CCS,CCS For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_PORT_PORTPMSC_20,USB3 Port Power Management Status and Control Register Bit Definitions" hexmask.long.byte 0x4 28.--31. 1. "PRTTSTCTRL,Port Test Control For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." bitfld.long 0x4 16. "HLE,Port Test Control For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" hexmask.long.byte 0x4 8.--15. 1. "L1DSLOT,L1DSLOT For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." newline hexmask.long.byte 0x4 4.--7. 1. "HIRD,Host Initiated Resume Duration [HIRD] - RW. Default = '0'. System software sets this field to indicate to the recipient device how long the xHC will drive resume if it [the xHC] initiates an exit from L1. The HIRD value is encoded as follows:.." bitfld.long 0x4 3. "RWE,RWE Port Test Control For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" rbitfld.long 0x4 0.--2. "L1S,L1 Status [L1S] - RO. Default = 0. This field is used by software to determine whether an L1-based suspend request [LMP transaction] was successful specifically: Value Meaning 0 Invalid - This field is ignored by software. - 1 Success - Port.." "0,1,2,3,4,5,6,7" line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_PORT_PORTLI_20,Port Link Info Register" line.long 0xC "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_PORT_PORTHLPMC_20,USB2 Port Hardware LPM Control Register Bit Definitions" hexmask.long.tbyte 0xC 14.--31. 1. "RESERVED,Reserved For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." hexmask.long.byte 0xC 10.--13. 1. "HIRDD,PORTHLPMC_20 HIRDD" hexmask.long.byte 0xC 2.--9. 1. "L1_TIMEOUT,PORTHLPMC_20 L1_TIMEOUT. For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." newline bitfld.long 0xC 0.--1. "HIRDM,Host Initiated Resume Duration Mode [HIRDM] - RWS. Default = 0h. Indicates which HIRD value must be used. The following are permissible values: Value Description 0 Initiate L1 using HIRD only on timeout." "0,1,2,3" group.long 0x14++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_PORT_PORTPMSC_30,USB3 Port Power Management Status and Control Register Bit Definitions" bitfld.long 0x0 16. "FLA,FLA For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" hexmask.long.byte 0x0 8.--15. 1. "U2_TIMEOUT,U2_TIMEOUT For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." hexmask.long.byte 0x0 0.--7. 1. "U1_TIMEOUT,U1_TIMEOUT For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." rgroup.long 0x18++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_PORT_PORTLI_30,Port Link Info Register" hexmask.long.word 0x0 0.--15. 1. "LINK_ERROR_COUNT,LINK_ERROR_COUNT For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." group.long 0x1C++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_PORT_PORTHLPMC_30,USB2 Port Hardware LPM Control Register Bit Definitions" hexmask.long 0x0 0.--31. 1. "RESERVED,Reserved For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." tree.end tree "USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_RUNTIME (USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_RUNTIME)" base ad:0x31000440 rgroup.long 0x0++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_RUNTIME_MFINDEX,Microframe Index Register Bit Definitions" hexmask.long.word 0x0 0.--13. 1. "MICROFRAME_INDEX,MICROFRAME_INDEX For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." group.long 0x4++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_RUNTIME_RsvdZ,RsvdZ" tree.end tree "USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_SUPPRTCAP2 (USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_SUPPRTCAP2)" base ad:0x31000970 rgroup.long 0x0++0xF line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_SUPPRTCAP2_SUPTPRT2_DW0,SUPTPRT2_DW0" hexmask.long.byte 0x0 24.--31. 1. "MAJOR_REVISION,MAJOR_REVISION" newline hexmask.long.byte 0x0 16.--23. 1. "MINOR_REVISION,MINOR_REVISION" newline hexmask.long.byte 0x0 8.--15. 1. "NEXT_CAPABILITY_POINTER,NEXT_CAPABILITY_POINTER" newline hexmask.long.byte 0x0 0.--7. 1. "CAPABILITY_ID,CAPABILITY_ID For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_SUPPRTCAP2_SUPTPRT2_DW1,Register SUPTPRT2_DW1" hexmask.long 0x4 0.--31. 1. "NAME_STRING,NAME_STRING For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_SUPPRTCAP2_SUPTPRT2_DW2,xHCI Supported Protocol Capability_ Data Word 2" hexmask.long.byte 0x8 28.--31. 1. "PSIC,PSIC" newline bitfld.long 0x8 25.--27. "MHD,Hub Depth For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 20. "BLC,BESL LPM Capability. When this bit is set to: - 1: The ports described by this xHCI Supported Protocol Capability applies BESL timing to the BESL and BESLD fields of the PORTPMSC and PORTHLPMC registers. - 0: The ports described by this xHCI.." "0: The ports described by this xHCI Supported..,1: The ports described by this xHCI Supported.." newline bitfld.long 0x8 19. "HLC,Compatible Port Offset. Compatible Port Count Refer to Table 7-3 in the Databook." "0,1" newline bitfld.long 0x8 18. "IHI,IHI" "0,1" newline bitfld.long 0x8 17. "HSO,HSO" "0,1" newline hexmask.long.byte 0x8 8.--15. 1. "COMPATIBLE_PORT_COUNT,COMPATIBLE_PORT_COUNT For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." newline hexmask.long.byte 0x8 0.--7. 1. "COMPATIBLE_PORT_OFFSET,COMPATIBLE_PORT_OFFSET For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." line.long 0xC "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_SUPPRTCAP2_SUPTPRT2_DW3,Register SUPTPRT2_DW3" hexmask.long.byte 0xC 0.--4. 1. "PROTCL_SLT_TY,Protocol Slot Type" tree.end tree "USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_SUPPRTCAP3 (USB0_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_SUPPRTCAP3)" base ad:0x31000980 rgroup.long 0x0++0xF line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_SUPPRTCAP3_SUPTPRT3_DW0,Register SUPTPRT3_DW0" hexmask.long.byte 0x0 24.--31. 1. "MAJOR_REVISION,MAJOR_REVISION For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." hexmask.long.byte 0x0 16.--23. 1. "MINOR_REVISION,MINOR_REVISION For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." newline hexmask.long.byte 0x0 8.--15. 1. "NEXT_CAPABILITY_POINTER,NEXT_CAPABILITY_POINTER For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." hexmask.long.byte 0x0 0.--7. 1. "CAPABILITY_ID,CAPABILITY_ID For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_SUPPRTCAP3_SUPTPRT3_DW1,Register SUPTPRT3_DW1" hexmask.long 0x4 0.--31. 1. "NAME_STRING,NAME_STRING For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_SUPPRTCAP3_SUPTPRT3_DW2,SUPTPRT3_DW2" hexmask.long.byte 0x8 28.--31. 1. "PSIC,PSIC" bitfld.long 0x8 25.--27. "MHD,Hub Depth For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x8 8.--15. 1. "COMPATIBLE_PORT_COUNT,COMPATIBLE_PORT_COUNT For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." hexmask.long.byte 0x8 0.--7. 1. "COMPATIBLE_PORT_OFFSET,COMPATIBLE_PORT_OFFSET For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." line.long 0xC "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_SUPPRTCAP3_SUPTPRT3_DW3,SUPTPRT3_DW3" hexmask.long.byte 0xC 0.--4. 1. "PROTCL_SLT_TY,Protocol Slot Type" tree.end tree.end tree.end tree "USB1" base ad:0x0 tree "USB1_DEBUG_TRACE_MMR_TRACE_VBUSP_USB2SS_DEBUG_TRACE (USB1_DEBUG_TRACE_MMR_TRACE_VBUSP_USB2SS_DEBUG_TRACE)" base ad:0xF090000 group.long 0x80++0x3 line.long 0x0 "DEBUG_TRACE_MMR__TRACE_VBUSP__USB2SS_DEBUG_TRACE_TRACE_CTRL,Debug trace control register" hexmask.long 0x0 4.--31. 1. "RSVD,Reserved bits" bitfld.long 0x0 3. "EN_OUT_EP14,Debug trace enable for OUT Endpoint 14" "0,1" bitfld.long 0x0 2. "EN_OUT_EP15,Debug trace enable for OUT Endpoint 15" "0,1" bitfld.long 0x0 1. "EN_IN_EP14,Debug trace enable for IN Endpoint 14" "0,1" bitfld.long 0x0 0. "EN_IN_EP15,Debug trace enable for IN Endpoint 15" "0,1" tree.end tree "USB1_ECC_AGGR (USB1_ECC_AGGR)" base ad:0xF9A0000 rgroup.long 0x0++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "ECC_AGGR__CFG__REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR__CFG__REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 1. "MEM_CTRL_RAM0_PEND,Interrupt Pending Status for mem_ctrl_ram0_pend" "0,1" bitfld.long 0x4 0. "RAMECC_PEND,Interrupt Pending Status for ramecc_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 1. "MEM_CTRL_RAM0_ENABLE_SET,Interrupt Enable Set Register for mem_ctrl_ram0_pend" "0,1" bitfld.long 0x0 0. "RAMECC_ENABLE_SET,Interrupt Enable Set Register for ramecc_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 1. "MEM_CTRL_RAM0_ENABLE_CLR,Interrupt Enable Clear Register for mem_ctrl_ram0_pend" "0,1" bitfld.long 0x0 0. "RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for ramecc_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "ECC_AGGR__CFG__REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "ECC_AGGR__CFG__REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 1. "MEM_CTRL_RAM0_PEND,Interrupt Pending Status for mem_ctrl_ram0_pend" "0,1" bitfld.long 0x4 0. "RAMECC_PEND,Interrupt Pending Status for ramecc_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 1. "MEM_CTRL_RAM0_ENABLE_SET,Interrupt Enable Set Register for mem_ctrl_ram0_pend" "0,1" bitfld.long 0x0 0. "RAMECC_ENABLE_SET,Interrupt Enable Set Register for ramecc_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "ECC_AGGR__CFG__REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 1. "MEM_CTRL_RAM0_ENABLE_CLR,Interrupt Enable Clear Register for mem_ctrl_ram0_pend" "0,1" bitfld.long 0x0 0. "RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for ramecc_pend" "0,1" group.long 0x200++0xF line.long 0x0 "ECC_AGGR__CFG__REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "ECC_AGGR__CFG__REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "ECC_AGGR__CFG__REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "ECC_AGGR__CFG__REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "USB1_MMR_MMRVBP_USB2SS_CFG (USB1_MMR_MMRVBP_USB2SS_CFG)" base ad:0xF910000 rgroup.long 0x0++0x3 line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_REVISION,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0xB line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_OVERCURRENT_CONTROL,This register contains bits for indicating overcurrent condition on VBUS to Controller" hexmask.long.word 0x0 17.--31. 1. "RSVD3,Reserved bits" newline bitfld.long 0x0 16. "OVERCURRENT_N,Overcurrent indicator to the Controller" "0,1" newline hexmask.long.byte 0x0 9.--15. 1. "RSVD2,Reserved bits" newline bitfld.long 0x0 8. "OVERCURRENT_SEL,Overcurrent MMR select. Has to be written before setting pwrup_rst_n bit. 1 - overcurrent MMR bit is used 0 - port_overcurrent_n input is used" "0,1" newline hexmask.long.byte 0x0 0.--7. 1. "RSVD1,Reserved bits" line.long 0x4 "MMR__MMRVBP__USB2SS_CFG_PHY_CONFIG,Wrapper register containing static settings. All bits in this register directly drive the USB2 PHY inputs. Please refer to USB2 PHY user guide for more information." hexmask.long 0x4 5.--31. 1. "RESERVED,Reserved bits" newline bitfld.long 0x4 3.--4. "RESERVED,Reserved bits" "0,1,2,3" newline bitfld.long 0x4 1.--2. "VBUS_SEL,This register directly drives the vbus_sel[1:0] input to the PHY. VBUS select - 00: VBUS = 5.25V/3.3V 01: VBUS/3 external divider is active so VBUS could be upto 11V." "0: VBUS = 5,1: VBUS/3 external divider is active,?,?" newline bitfld.long 0x4 0. "LANE_REVERSE,This register directly drives the lane_reverse input to USB2 PHY. Lane reverse selection. When set this bit indicates that D+ and D- lines have to be swapped." "0,1" line.long 0x8 "MMR__MMRVBP__USB2SS_CFG_PHY_TEST,Register containing PLL bypass select. BIST control and status" hexmask.long.word 0x8 18.--31. 1. "RESERVED,Reserved bits" newline bitfld.long 0x8 17. "BIST_MODE,Set for bist mode. This is used for overriding PHY ports for BIST." "0,1" newline hexmask.long.byte 0x8 9.--16. 1. "BIST_ERROR_COUNT,Number of bytes that have errors while running BIST. The count resets when bist_on is set." newline rbitfld.long 0x8 8. "BIST_ERROR,If set this bit indicates that BIST completed with error." "0,1" newline rbitfld.long 0x8 7. "BIST_COMPLETE,If set this bit indicates that the BIST operation is completed." "0,1" newline bitfld.long 0x8 6. "BIST_ON,Setting this bit starts the BIST operation." "0,1" newline bitfld.long 0x8 5. "BIST_MODE_EN,BIST Mode Enable. 0 = BIST not enabled 1 = BIST enabled" "0: BIST not enabled,1: BIST enabled" newline hexmask.long.byte 0x8 1.--4. 1. "BIST_MODE_SEL,BIST Mode Selection. bist_mode_sel[3]: 0 = 8-bit interface 1 = 16-bit interface; bist_mode_sel[2]: 0 = error injection disabled 1 = error injection enabled; bist_mode_sel[1]: 0 = device mode 1 = host mode; bist_mode_sel[0]: 0 = High.." newline bitfld.long 0x8 0. "RESERVED,Reserved bits" "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_CORE_STAT,Register containing miscellaneous status bits from the core" hexmask.long.tbyte 0x0 15.--31. 1. "RSVD1,Reserved bits" newline bitfld.long 0x0 14. "HUB_VBUS_CTRL,Indicates whether core is asking for VBUS to be turned on in host mode." "0,1" newline bitfld.long 0x0 12.--13. "OPERATIONAL_MODE,Indicates current operational mode of Controller. This directly reflects the value programmed into GCTL.PRTCAPDIR Controller register. 2'b01 - Host 2'b10 - Device." "0,1,2,3" newline hexmask.long.word 0x0 0.--11. 1. "HOST_CURRENT_BELT,Indicates minimum of all received device BELT values and the BELT value set by the Set Latency Tolerance Value command." group.long 0x18++0x7 line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_HOST_VBUS_CTRL,Register containing software bit for overriding drive VBUS" bitfld.long 0x0 1. "DRV_VBUS_OVERRIDE,Setting this bit enables drive VBUS override. Drive VBUS output reflects drv_vbus_override_val field value." "0,1" newline bitfld.long 0x0 0. "DRV_VBUS_OVERRIDE_VAL,Drive VBUS output override value." "0,1" line.long 0x4 "MMR__MMRVBP__USB2SS_CFG_MODE_CONTROL,Register containing software bit for indicating DRD mode is determined" bitfld.long 0x4 0. "MODE_VALID,For DRD applications software sets this bit when the role is determined based on connect event and ID value from GPIO. Software clears this bit when a disconnect event happens and role is no longer valid. Software can also set this once.." "0,1" group.long 0x30++0xB line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_WAKEUP_CONFIG,Register containing low power mode wakeup enables" hexmask.long 0x0 4.--31. 1. "RSVD1,Reserved bits" newline bitfld.long 0x0 3. "OVERCURRENT_WAKEUP_EN,overcurrent event wakeup enable" "0,1" newline bitfld.long 0x0 2. "LINESTATE_WAKEUP_EN,linestate event wakeup enable" "0,1" newline bitfld.long 0x0 1. "SESSVALID_WAKEUP_EN,SESSVALID event wakeup enable" "0,1" newline bitfld.long 0x0 0. "VBUSVALID_WAKEUP_EN,VBUSVALID event wakeup enable" "0,1" line.long 0x4 "MMR__MMRVBP__USB2SS_CFG_WAKEUP_STAT,Register containing low power mode status bits. The status bits are set when the corresponding wakeup event happens and the corresponding enable in WAKEUP_CONFIG MMR is set. In addition. these bits are only set if.." hexmask.long.tbyte 0x4 15.--31. 1. "RSVD1,Reserved bits" newline rbitfld.long 0x4 14. "OVERCURRENT_N_WAKEUP_CURRENT,overcurrent_n current value during wakeup event" "0,1" newline rbitfld.long 0x4 13. "OVERCURRENT_N_WAKEUP_PREV,overcurrent_n previous value during wakeup event" "0,1" newline rbitfld.long 0x4 11.--12. "LINESTATE_WAKEUP_CURRENT,Linestate current value during wakeup event" "0,1,2,3" newline rbitfld.long 0x4 9.--10. "LINESTATE_WAKEUP_PREV,Linestate previous value during wakeup event" "0,1,2,3" newline rbitfld.long 0x4 8. "SESSVALID_WAKEUP_CURRENT,SESSVALID current value during wakeup event" "0,1" newline rbitfld.long 0x4 7. "SESSVALID_WAKEUP_PREV,SESSVALID previous value during wakeup event" "0,1" newline rbitfld.long 0x4 6. "VBUSVALID_WAKEUP_CURRENT,VBUSVALID current value during wakeup event" "0,1" newline rbitfld.long 0x4 5. "VBUSVALID_WAKEUP_PREV,VBUSVALID previous value during wakeup event" "0,1" newline rbitfld.long 0x4 4. "OVERCURRENT_N_WAKEUP_STAT,overcurrent_n event wakeup status. This is only looking for change on port_overcurrent_n input and does not include overcurrent MMR. This is because wakeup is required only for a port event and for any software write to happen .." "0,1" newline rbitfld.long 0x4 3. "LINESTATE_WAKEUP_STAT,linestate event wakeup status" "0,1" newline rbitfld.long 0x4 2. "SESSVALID_WAKEUP_STAT,SESSVALID event wakeup status" "0,1" newline rbitfld.long 0x4 1. "VBUSVALID_WAKEUP_STAT,VBUSVALID event wakeup status" "0,1" newline bitfld.long 0x4 0. "WAKEUP_STAT_CLEAR,Clears all the *_wakeup_stat bits in this register" "0,1" line.long 0x8 "MMR__MMRVBP__USB2SS_CFG_OVERRIDE_CONFIG,Register containing various overrides" bitfld.long 0x8 31. "PHY_HVM_EN,Enable PHY HVM overrides." "0,1" newline bitfld.long 0x8 15.--16. "XCVRSEL_HVM_OVERRIDE_VAL,Override value for PHY xcvr input. The value in this field is applied to PHY xcvrsel input if phy_hvm_en bit in this register is set." "0,1,2,3" newline bitfld.long 0x8 14. "TERMSEL_HVM_OVERRIDE_VAL,Override value for PHY termsel input. The value in this field is applied to PHY termsel input if phy_hvm_en bit in this register is set." "0,1" newline bitfld.long 0x8 12.--13. "OPMODE_HVM_OVERRIDE_VAL,Override value for PHY opmode input. The value in this field is applied to PHY opmode input if phy_hvm_en bit in this register is set." "0,1,2,3" newline bitfld.long 0x8 11. "DMPULLDOWN_HVM_OVERRIDE_VAL,Override value for PHY dmpulldown input. The value in this field is applied to PHY dmpulldown input if phy_hvm_en bit in this register is set." "0,1" newline bitfld.long 0x8 10. "DPPULLDOWN_HVM_OVERRIDE_VAL,Override value for PHY dppulldown input. The value in this field is applied to PHY dppulldown input if phy_hvm_en bit in this register is set." "0,1" newline bitfld.long 0x8 7. "SUSPEND_OVERRIDE_VAL,Suspend override value. 0 - suspendm is asserted and clockstop idle term indicates idle 1 - suspendm is deasserted and clockstop idle term indicates non-idle." "0,1" newline bitfld.long 0x8 6. "SUSPEND_OVERRIDE_SEL,Suspend override selector. This has to be set to override utmi_suspend_n from Controller that goes to clockstop idle. This does not affect suspend going to PHY. Only purpose of this is to ease clockstop interface DV." "0,1" newline bitfld.long 0x8 5. "TXBITSTUFFEN_OVERRIDE_VAL,TXBITSTUFFENABLE override value" "0,1" newline bitfld.long 0x8 4. "TXBITSTUFFEN_OVERRIDE_SEL,TXBITSTUFFENABLE override selector. This has to be set to override TXBITSTUFFENABLE to PHY." "0,1" newline bitfld.long 0x8 3. "SESSVALID_OVERRIDE_VAL,SESSVALID override value. 1 - Session is valid 0 - Session is not valid" "0,1" newline bitfld.long 0x8 2. "SESSVALID_OVERRIDE_SEL,SESSVALID override selector. This has to be set to override sessvalid from PHY to Controller." "0,1" newline bitfld.long 0x8 1. "VBUSVALID_OVERRIDE_VAL,VBUSVALID override value. 1 - VBUS is valid 0 - VBUS is not valid" "0,1" newline bitfld.long 0x8 0. "VBUSVALID_OVERRIDE_SEL,VBUSVALID override selector. This has to be set to override vbusvalid from PHY to Controller." "0,1" group.long 0x430++0x13 line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_IRQ_MISC_STATUS_RAW,The IRQ_STATUS_RAW_MISC register allows the usbss interrupt sources to be manually set when writing a 1 to a specific bit. Write 0: No action Write 1: Set event Read 0: No event pending Read 1: Event pending" hexmask.long.word 0x0 23.--31. 1. "RESERVED,Reserved bits" newline bitfld.long 0x0 22. "VBUSVALID_CHANGE,Set when VBUSVALID changes state" "0,1" newline bitfld.long 0x0 21. "RESERVED,Reserved bits" "0,1" newline bitfld.long 0x0 20. "SESSVALID_CHANGE,Set when SESSVALID changes state" "0,1" newline hexmask.long.tbyte 0x0 0.--19. 1. "RESERVED,Reserved bits" line.long 0x4 "MMR__MMRVBP__USB2SS_CFG_IRQ_MISC_STATUS,The IRQ_STATUS_MISC register allows the usbss interrupt sources to be manually cleared when writing a 1 to a specific bit. Write 0: No action Write 1: Clear event Read 0: No event pending Read 1: Event pending" hexmask.long.word 0x4 23.--31. 1. "RESERVED,Reserved bits" newline bitfld.long 0x4 22. "VBUSVALID_CHANGE,Set when VBUSVALID changes state" "0,1" newline bitfld.long 0x4 21. "RESERVED,Reserved bits" "0,1" newline bitfld.long 0x4 20. "SESSVALID_CHANGE,Set when SESSVALID changes state" "0,1" newline hexmask.long.tbyte 0x4 0.--19. 1. "RESERVED,Reserved bits" line.long 0x8 "MMR__MMRVBP__USB2SS_CFG_IRQ_MISC_ENABLE_SET,The IRQ_ENABLE_SET_MISC register allows the usbss interrupt sources to be manually enabled when writing a 1 to a specific bit. Write 0: No action Write 1: Enable event Read 0: Event is disabled Read 1: Event.." hexmask.long.word 0x8 23.--31. 1. "RESERVED,Reserved bits" newline bitfld.long 0x8 22. "VBUSVALID_CHANGE,Event enable" "0,1" newline bitfld.long 0x8 21. "RESERVED,Reserved bits" "0,1" newline bitfld.long 0x8 20. "SESSVALID_CHANGE,Event enable" "0,1" newline hexmask.long.tbyte 0x8 0.--19. 1. "RESERVED,Reserved bits" line.long 0xC "MMR__MMRVBP__USB2SS_CFG_IRQ_MISC_ENABLE_CLR,The IRQ_ENABLE_CLR_MISC register allows the usbss interrupt sources to be manually disabled when writing a 1 to a specific bit. Write 0: No action Write 1: Disable event Read 0: Event is disabled Read 1: Event.." hexmask.long.word 0xC 23.--31. 1. "RESERVED,Reserved bits" newline bitfld.long 0xC 22. "VBUSVALID_CHANGE,Event enable" "0,1" newline bitfld.long 0xC 21. "RESERVED,Reserved bits" "0,1" newline bitfld.long 0xC 20. "SESSVALID_CHANGE,Event enable" "0,1" newline hexmask.long.tbyte 0xC 0.--19. 1. "RESERVED,Reserved bits" line.long 0x10 "MMR__MMRVBP__USB2SS_CFG_IRQ_MISC_EOI,EOI vector for re-triggering interrupts" bitfld.long 0x10 0. "EOI_VECTOR,EOI vector for misc interrupt. Has to be written to 0 after ISR services misc interrupt." "0,1" group.long 0x490++0x3 line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_INTR_TEST,Register for overriding various Controller interrupts for easy activation during DV. NOTE: This is only for internal purposes and should NOT be used during functional operation." bitfld.long 0x0 8. "HOST_SYSTEM_ERR_TEST,Test for host system error interrupt. Set 1 to cause host_system_error_intr to trigger and clear this bit to clear the interrupt condition." "0,1" newline hexmask.long.byte 0x0 0.--7. 1. "IRQ_TEST,Test for irq interrupts from core. Each bit sets corresponding irq_intr bit. Set 1 to each bit based on whether that interrupt needs to trigger and clear the bit in ISR to clear interrupt condition." group.long 0x614++0x7 line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_VBUS_FILTER,The vbus comparator signals may be filtered by controlling these register values." hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED,Reserved bits" newline bitfld.long 0x0 8. "SESSVALID_BYPASS,0= use filter 1= bypass filter" "0: use filter,1: bypass filter" newline bitfld.long 0x0 6.--7. "SESSVALID_THRESH,00= 1us 01= 100us 10= 5ms 11= 50ms. 4 utmi_clk latency for sessvalid" "0: 1us,1: 100us,?,?" newline bitfld.long 0x0 3.--5. "RESERVED,Reserved bits" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 2. "VBUSVALID_BYPASS,0= use filter 1= bypass filter for vbusvalid" "0: use filter,1: bypass filter for vbusvalid" newline bitfld.long 0x0 0.--1. "VBUSVALID_THRESH,00= 1us 01= 100us 10= 5ms 11= 50ms. 4 utmi_clk latency for vbusvalid" "0: 1us,1: 100us,?,?" line.long 0x4 "MMR__MMRVBP__USB2SS_CFG_VBUS_STAT,Status bits of VBUS detected signals after filter." hexmask.long 0x4 3.--31. 1. "RESERVED,Reserved bits" newline rbitfld.long 0x4 2. "SESSVALID,Filtered SESSVALID" "0,1" newline bitfld.long 0x4 1. "RESERVED,Reserved bits" "0,1" newline rbitfld.long 0x4 0. "VBUSVALID,Filtered VBUSVALID" "0,1" group.long 0x708++0x3 line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_DEBUG_CFG,Configuration of debug data for observation. 0x0 or 0x7 = debug outputs are tied low. 0x1 = debug outputs are UTMI interface signals. 0x2 = debug outputs are Controller debug[31:0] output 0x3 = debug outputs are.." bitfld.long 0x0 0.--2. "SEL,selection of observed local signals" "0,1,2,3,4,5,6,7" rgroup.long 0x70C++0x3 line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_DEBUG_DATA,Debug data" hexmask.long 0x0 0.--31. 1. "VAL,tmp" group.long 0x714++0x3 line.long 0x0 "MMR__MMRVBP__USB2SS_CFG_HOST_HUB_CTRL,The HOST_HUB_CTRL Register is a collection of various input signals that control the xHC controllers Host or Hub interfaces. These signals are used regardless if a Host or Hub is implemented or not." hexmask.long.tbyte 0x0 10.--31. 1. "RSVD3,Reserved bits" newline hexmask.long.byte 0x0 6.--9. 1. "BUS_FILTER_BYPASS,Bus Filter Bypass bit [0]: bypass the filter for vbusvalid bit bit [2]: bypass the filter for sessvalid" newline bitfld.long 0x0 5. "HUB_PORT_PERM_ATTACH,Indicates if the device attached to a downstream port is permanently attached or not. Bit 6 is the USB2 port and bit 7 is the SS port. 0 - Not permanently attached 1 - Permanently attached" "0,1" newline rbitfld.long 0x0 2.--4. "RSVD2,Reserved bits" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 1. "HOST_PORT_POWER_CONTROL_PRESENT,This port defines the bit [3] of Capability Parameters (HCCPARAMS). Change the PPC value through the pin Port Power Control (PPC). This indicates whether the host controller implementation includes port power control. 0 -.." "0,1" newline rbitfld.long 0x0 0. "RSVD1,Reserved bits" "0,1" tree.end tree "USB1_PHY2 (USB1_PHY2)" base ad:0xF918000 group.long 0x0++0x4F line.long 0x0 "PHY2_AFE_TX_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x0 7. "TX_ANA_REG0,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x0 2.--6. 1. "BF_6_2,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x0 1. "BF_1,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x0 0. "BF_0,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x4 "PHY2_AFE_TX_REG1,HS TX trimming" bitfld.long 0x4 7. "TX_ANA_REG1,0 SCALE1 VALUE IS 0 1 SCALE1 VALUE IS 0.5" "0,1" hexmask.long.byte 0x4 1.--6. 1. "BF_6_1,000000 BOOST CODE VALUE IS 0 000001 BOOST CODE VALUE IS 1 000010 BOOST CODE VALUE IS 2 00011 BOOST CODE VALUE IS 3 000100 BOOST CODE VALUE IS 4 000101 BOOST CODE VALUE IS 5 000110 BOOST CODE VALUE IS 6 000111 BOOST CODE VALUE IS 7 001000.." bitfld.long 0x4 0. "BF_0,0 Default BOOST CODE = 8 1 BOOST CODE can be controlled by BITS [6:1]." "0,1" line.long 0x8 "PHY2_AFE_TX_REG2,HS TX trimming" bitfld.long 0x8 7. "TX_ANA_REG2,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 6. "BF_6,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x8 1.--5. 1. "BF_5_1,00000 DEEMP CODE VALUE IS 0 00001 DEEMP CODE VALUE IS 1 00010 DEEMP CODE VALUE IS 2 00011 DEEMP CODE VALUE IS 3 00100 DEEMP CODE VALUE IS 4 00101 DEEMP CODE VALUE IS 5 00110 DEEMP CODE VALUE IS 6 00111 DEEMP CODE VALUE IS 7 01000 DEEMP.." newline bitfld.long 0x8 0. "BF_0,0 Default DEEMP CODE = 8 1 DEEMP CODE can be controlled by BITS 5:1." "0,1" line.long 0xC "PHY2_AFE_TX_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0xC 5.--7. "TX_ANA_REG3,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3,4,5,6,7" hexmask.long.byte 0xC 1.--4. 1. "BF_4_1,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0xC 0. "BF_0,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x10 "PHY2_AFE_TX_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x10 7. "TX_ANA_REG4,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 6. "BF_6,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 5. "BF_5,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline hexmask.long.byte 0x10 1.--4. 1. "BF_4_1,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x10 0. "BF_0,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x14 "PHY2_AFE_TX_REG5,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x14 7. "AFE_TX_REG5,UNUSED" "0,1" hexmask.long.byte 0x14 1.--6. 1. "BF_6_1,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x14 0. "BF_0,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x18 "PHY2_AFE_TX_REG6,LSTX rise time trimming" hexmask.long.byte 0x18 0.--7. 1. "TX_ANA_REG6,Bit 7 = unused. Bbits 6:3= 0000 Typical LSTx rise time = 375ns 0001 Typical LSTx rise time =215ns 0010 Typical LSTx rise time =215ns 0011 Typical LSTx rise time =150ns 0100 Typical LSTx rise time =215ns 0101 Typical LSTx rise time.." line.long 0x1C "PHY2_AFE_TX_REG7,FSTX rise time trimming" hexmask.long.byte 0x1C 0.--7. 1. "TX_ANA_REG7,Bits 7:5= reserved. Bits 4:1= 0000 Typical FSTx rise time = 16.6ns 0001 Typical FSTx rise time =16.1ns 0010 Typical FSTx rise time =15.6ns 0011 Typical FSTx rise time =15.2ns 0100 Typical FSTx rise time =14.7ns 0101 Typical FSTx rise.." line.long 0x20 "PHY2_AFE_TX_REG8,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x20 0.--7. 1. "TX_ANA_REG8,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x24 "PHY2_AFE_TX_REG9,Register AFE_TX_REG9" hexmask.long.byte 0x24 0.--7. 1. "TX_ANA_REG9,Bits 7:4= 0000 Typical LSTx fall time = 450ns 0001 Typical LSTx fall time = 225ns 0010 Typical LSTx fall time =150ns 0011 Typical LSTx fall time =225ns 0100 Typical LSTx fall time =150ns 0101 Typical LSTx fall time =150ns 0110 Typical.." line.long 0x28 "PHY2_AFE_TX_REG10,FSTX fall time trimming" hexmask.long.byte 0x28 0.--7. 1. "TX_ANA_REG10,Bits 7:5= reserved. Bits 4:1= 0000 Typical FSTx fall time = 16.6ns 0001 Typical FSTx fall time =16.1ns 0010 Typical FSTx fall time =15.6ns 0011 Typical FSTx fall time =15.2ns 0100 Typical FSTx fall time =14.7ns 0101 Typical FSTx fall.." line.long 0x2C "PHY2_AFE_TX_REG11,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x2C 0.--7. 1. "TX_ANA_REG11,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x30 "PHY2_AFE_TX_REG12,Register AFE_TX_REG12" bitfld.long 0x30 7. "TX_ANA_REG12,unused" "0,1" bitfld.long 0x30 6. "BF_6,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 5. "BF_5,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x30 4. "BF_4,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 3. "BF_3,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 2. "BF_2,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x30 0.--1. "BF_1_0,00- SCALE2 set to 0 01- SCALE2 set to 1 10- SCALE2 set to 1 11- SCALE2 set to 2" "0,1,2,3" line.long 0x34 "PHY2_AFE_RX_REG0,Trim the squelch threshold" hexmask.long.byte 0x34 0.--7. 1. "RX_ANA_REG0,Bits 7:6= reserved. Bits 5:0= 000000 keep squelch threshold at default value 100000 increade squelch threshold by 5mv 110000 increade squelch threshold by 10mv 111000 increade squelch threshold by 15mv 000001 reduce squelch threshold by.." line.long 0x38 "PHY2_AFE_RX_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x38 0.--7. 1. "RX_ANA_REG1,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x3C "PHY2_AFE_RX_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x3C 0.--7. 1. "RX_ANA_REG2,reerved" line.long 0x40 "PHY2_AFE_RX_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x40 0.--7. 1. "RX_ANA_REG3,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x44 "PHY2_AFE_RX_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x44 0.--7. 1. "RX_ANA_REG4,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x48 "PHY2_AFE_RX_REG5,Single ended receivers threshold trimming" hexmask.long.byte 0x48 0.--7. 1. "RX_ANA_REG5,Bits 7:3= reserved. Bits 2:1= 01 Switching thresholds for single ended receivers increased by 100mV 10 Switching thresholds for single ended receivers reduced by 100mV. Bit 0= 0 Default Switching Thresholds for Single ended receivers 1 SERx.." line.long 0x4C "PHY2_AFE_RX_REG6,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x4C 0.--7. 1. "RX_ANA_REG6,This is a reserved register or field. It should not be written or read and the value should be ignored." rgroup.long 0x50++0xF line.long 0x0 "PHY2_AFE_TX_REG13,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x0 0.--7. 1. "TX_ANA_REG13,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x4 "PHY2_AFE_TX_REG14,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x4 0.--7. 1. "TX_ANA_REG14,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x8 "PHY2_AFE_RX_REG7,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x8 0.--7. 1. "RX_ANA_REG7,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0xC "PHY2_AFE_RX_REG8,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0xC 0.--7. 1. "RX_ANA_REG8,This is a reserved register or field. It should not be written or read and the value should be ignored." group.long 0x60++0x7 line.long 0x0 "PHY2_AFE_UNUSED_REG0,AFE_UNUSED_REG0" hexmask.long.byte 0x0 0.--7. 1. "AFE_UNUSED_REG0,unused" line.long 0x4 "PHY2_AFE_UNUSED_REG1,AFE_UNUSED_REG1" hexmask.long.byte 0x4 0.--7. 1. "AFE_UNUSED_REG1,unused" group.long 0x80++0x47 line.long 0x0 "PHY2_AFE_BG_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x0 0.--7. 1. "BG_ANA_REG0,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x4 "PHY2_AFE_BG_REG1,BG bias current trimming" hexmask.long.byte 0x4 0.--7. 1. "BG_ANA_REG1,Bits 7:6= 00- PLL charge pump bias current 5uA 01- PLL charge pump bias current 4uA 10- PLL charge pump bias current 6uA 11- PLL charge pump bias current 5uA. Bits 5:4= 00- PLL DAC bias bias current bias current 5uA 01- PLL DAC bias bias.." line.long 0x8 "PHY2_AFE_BG_REG2,BG bias current trimming" hexmask.long.byte 0x8 0.--7. 1. "BG_ANA_REG2,Bits 7:5= 000 High speed receiver bias 5uA 100 High speed receiver bias 1uA 001 High speed receiver bias 4uA 010 High speed receiver bias 6uA 101 High speed receiver bias 2uA. Bits 4:2= 000 Trasmission Envelope Detector bias current 5uA .." line.long 0xC "PHY2_AFE_BG_REG3,Register AFE_BG_REG3" hexmask.long.byte 0xC 0.--7. 1. "BG_ANA_REG3,Bits 7:6= reserved Bits 5:4= 00 [Default] BG_OK_CORE Generated Internally 01 BG_OK_CORE Generated Internally 10 Force BG_OK_CORE =0 11 Force BG_OK_CORE =1. Bits 3:0=0000 Invalid state 0001 Higher start sense voltage weaker start-up pull.." line.long 0x10 "PHY2_AFE_CALIB_REG0,Calibration resistance trimming" hexmask.long.byte 0x10 0.--7. 1. "CALIB_ANA_REG0,Bits 5:0= 000000 Calibrate termination resistor to default value 000001 Calibrate termination resistor by -%5 to default value 000011 Calibrate termination resistor by -%10 to default value 000111 Calibrate termination resistor by - %15.." line.long 0x14 "PHY2_AFE_BC_REG0,register AFE_BC_REG0" hexmask.long.byte 0x14 0.--7. 1. "BC_ANA_REG0,Bit 0= 0 Battery_charging_DAC_RES_CALIB CODE CANNOT BE CONTROLLED BY ANALOG TEST BITS 1 Battery_charging_DAC_RES_CALIB CODE CAN BE CONTROLLED BY ANALOG TEST BITS. Bits 5:1= 00000 Battery_charging_DAC_RES_CALIB CODE FORCED TO 0 00001.." line.long 0x18 "PHY2_AFE_BC_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x18 0.--7. 1. "BC_ANA_REG1,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x1C "PHY2_AFE_BC_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x1C 0.--7. 1. "BC_ANA_REG2,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x20 "PHY2_AFE_BC_REG3,Register AFE_BC_REG3" hexmask.long.byte 0x20 0.--7. 1. "BC_ANA_REG3,Bit 0= 0 Do not overdrive SESS_VLD comparator enable signal 1 Overdrive SESS_VLD comparator enable signal. Bit 1= 0 SESS_VLD comparator disabled 1 SESS_VLD comparator enabled. Bit 2= 0 Do not overdrive VBUS_VLD comparator enable signal 1.." line.long 0x24 "PHY2_AFE_BC_REG4,Register AFE_BC_REG4" hexmask.long.byte 0x24 0.--7. 1. "BC_ANA_REG4,Bits 2:0= reserved. Bit 3= 0- VBUS_VLD comparator output low 1- VBUS_VLD comparator output high. Bit 4= 0- Do not overdrive VBUS_VLD comparator output 1- Overdrive VBUS_VLD comparator output. Bit 5= 0- SESS_VLD comparator output low 1-.." line.long 0x28 "PHY2_AFE_BC_REG5,Register AFE_BC_REG5" hexmask.long.byte 0x28 0.--7. 1. "BC_ANA_REG5,Bit 0= 0- Do not overdrive ID comparator output 1- Overdrive ID comparator output. Bit 1= 0 Do not overdrive VBUS_DIV signal 1- Overdrive VBUS_DIV signal. Bit 2= 0- VBUS_DIV signal low 1- VBUS_DIV signal high. Bits 7:3= reserved." line.long 0x2C "PHY2_AFE_BC_REG6,Register AFE_BC_REG6" hexmask.long.byte 0x2C 0.--7. 1. "BC_ANA_REG6,register AFE_BC_REG6" line.long 0x30 "PHY2_AFE_PLL_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x30 0.--7. 1. "AFE_PLL_REG0,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x34 "PHY2_AFE_PLL_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x34 0.--7. 1. "AFE_PLL_REG1,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x38 "PHY2_AFE_PLL_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x38 0.--7. 1. "AFE_PLL_REG2,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x3C "PHY2_AFE_PLL_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x3C 0.--7. 1. "AFE_PLL_REG3,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x40 "PHY2_AFE_PLL_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x40 0.--7. 1. "AFE_PLL_REG4,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x44 "PHY2_AFE_PLL_REG5,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x44 0.--7. 1. "AFE_PLL_REG5,This is a reserved register or field. It should not be written or read and the value should be ignored." rgroup.long 0xC8++0xF line.long 0x0 "PHY2_AFE_BG_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x0 0.--7. 1. "BG_ANA_REG4,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x4 "PHY2_AFE_CALIB_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x4 0.--7. 1. "CALIB_ANA_REG1,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x8 "PHY2_AFE_BC_REG7,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x8 0.--7. 1. "BC_ANA_REG7,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0xC "PHY2_AFE_PLL_REG6,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0xC 0.--7. 1. "PLL_ANA_REG6,This is a reserved register or field. It should not be written or read and the value should be ignored." group.long 0xD8++0x7 line.long 0x0 "PHY2_AFE_UNUSED_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x0 0.--7. 1. "UNUSED,unused" line.long 0x4 "PHY2_AFE_UNUSED_REG3,AFE_UNUSED_REG3" hexmask.long.byte 0x4 0.--7. 1. "UNUSED,unused" group.long 0x100++0x43 line.long 0x0 "PHY2_PLL_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x0 0.--7. 1. "INITIAL_WAIT_TIME,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x4 "PHY2_PLL_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x4 3.--7. 1. "RST_FDBK_DIV_DELAY_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x4 2. "RST_FDBK_DIV_DELAY_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4 1. "FBDIV_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x4 0. "INITIAL_WAIT_TIME_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x8 "PHY2_PLL_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x8 7. "UNUSED,UNUSED" "0,1" bitfld.long 0x8 6. "VCO_SETTLING_TIME_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x8 0.--5. 1. "VCO_SETTLING_TIME,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0xC "PHY2_PLL_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0xC 0.--7. 1. "FBDIV_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x10 "PHY2_PLL_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x10 7. "UNUSED,UNUSED" "0,1" bitfld.long 0x10 6. "PLL_LOCK_TIME_15,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 5. "PD_PFD_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x10 4. "PD_PFD_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 3. "PLL_LOCK_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 2. "PLL_LOCK_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x10 1. "COARSEDONE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 0. "COARSEDONE_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x14 "PHY2_PLL_REG5,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x14 7. "STARTLOOP_EN_4_0,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 6. "STARTLOOP_EN_5,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 5. "STARTLOOP_5,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline hexmask.long.byte 0x14 0.--4. 1. "STARTLOOP_4_0,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x18 "PHY2_PLL_REG6,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x18 7. "UNUSED,unused" "0,1" bitfld.long 0x18 6. "COARSE_CODE_SEL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 5. "LSB_ERROR_0P5,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x18 4. "BIG_JUMP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 3. "VCO_CNT_WINDOW_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 2. "VCO_CNT_WINDOW_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x18 1. "RST_FDBK_DIV_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 0. "RST_FDBK_DIV_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x1C "PHY2_PLL_REG7,refclock selection" bitfld.long 0x1C 5.--7. "UNUSED,unused" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x1C 1.--4. 1. "REFCLK_SEL,0000 Refclock selection for 9.6 MHz 0001 Refclock selection for 10 MHz 0010 Refclock selection for 12 MHz 0011 Refclock selection for 19.2 MHz 0100 Refclock selection for 20 MHz 0101 Refclock selection for 24 MHz 0110 Refclock selection.." bitfld.long 0x1C 0. "REFCLK_SEL_EN,0 PLLREFSEL Value not taken from PLL_REG7[4:1] 1 PLLREFSEL Value taken from PLL_REG7[4:1]." "0,1" line.long 0x20 "PHY2_PLL_REG8,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x20 0.--7. 1. "COARSE_CODE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x24 "PHY2_PLL_REG9,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x24 7. "COARSE_CODE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x24 6. "V2I_CODE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x24 0.--5. 1. "V2I_CODE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x28 "PHY2_PLL_REG10,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x28 7. "UNUSED,unused" "0,1" hexmask.long.byte 0x28 2.--6. 1. "IPDIV_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x28 1. "IPDIV_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x28 0. "COARSE_CODE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x2C "PHY2_PLL_REG11,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x2C 7. "PLL_STANDBY,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 6. "PLL_STANDBY_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 5. "PLL_PD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x2C 4. "PLL_PD_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 3. "PLL_PSO_DEL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 2. "PLL_PSO_DEL_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x2C 1. "PLL_PSO,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 0. "PLL_PSO_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x30 "PHY2_PLL_REG12,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x30 6.--7. "UNUSED,unused" "0,1,2,3" bitfld.long 0x30 5. "PLL_LDO_REF_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 4. "PLL_LDO_REF_EN_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x30 3. "PLL_LDO_CORE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 2. "PLL_LDO_CORE_EN_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 1. "PLL_PD_ANA,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x30 0. "PLL_PD_ANA_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x34 "PHY2_PLL_REG13,PLL clockon test mode" bitfld.long 0x34 7. "PLL_CLKON,0 pll clock is not always running 1 pll clock is always running." "0,1" hexmask.long.byte 0x34 1.--6. 1. "PLL_LDO_REF_CORE,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x34 0. "PLL_LDO_REF_CORE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x38 "PHY2_PLL_REG14,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x38 5.--7. "PLL_LDO_CNT_THRESHOLD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3,4,5,6,7" bitfld.long 0x38 4. "PLL_LDO_CNT_THRESHOLD_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 1.--3. "PLL_LDO_ISO_CNT_THRESHOLD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3,4,5,6,7" newline bitfld.long 0x38 0. "PLL_LDO_ISO_CNT_THRESHOLD_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x3C "PHY2_PLL_UNUSED_REG0,unused" hexmask.long.byte 0x3C 0.--7. 1. "UNUSED,UNUSED" line.long 0x40 "PHY2_PLL_UNUSED_REG1,unused" hexmask.long.byte 0x40 0.--7. 1. "UNUSED,UNUSED" rgroup.long 0x144++0xB line.long 0x0 "PHY2_PLL_REG15,Coarse_code values" bitfld.long 0x0 7. "PLL_LOCK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 6. "COARSEDONE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 5. "VCO_CNT_WIN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x0 4. "RST_FDBK_DIV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 3. "UNUSED,UNUSED" "0,1" bitfld.long 0x0 2. "PD_PFD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x0 1. "STARTLOOP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 0. "COARSE_CODE_8,0 MSB of coarse_code for PLL VCO." "0,1" line.long 0x4 "PHY2_PLL_REG16,Coarse_code values" hexmask.long.byte 0x4 0.--7. 1. "COARSE_CODE,01011010 8 LSBs of coarse code for PLL VCO" line.long 0x8 "PHY2_PLL_UNUSED_REG2,unused" hexmask.long.byte 0x8 0.--7. 1. "UNUSED,UNUSED" group.long 0x180++0x33 line.long 0x0 "PHY2_CALIB_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x0 7. "CALIB_CLK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 6. "CALIB_CLK_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 5. "COMP_OUT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline hexmask.long.byte 0x0 1.--4. 1. "INIT_WAIT_OVR,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x0 0. "INIT_WAIT_OVR_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x4 "PHY2_CALIB_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x4 7. "UNUSED,unused" "0,1" hexmask.long.byte 0x4 1.--6. 1. "CALIB_CODE,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x4 0. "CALIB_CODE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x8 "PHY2_BC_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x8 4.--7. 1. "UNUSED,UNUSED" bitfld.long 0x8 3. "ADP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 2. "ADP_EN_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x8 1. "ID_PULLUP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 0. "ID_PULLUP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0xC "PHY2_BC_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0xC 7. "ADP_SOURCE_I_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 6. "ADP_SOURCE_I_EN_CTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 5. "ADP_SINK_I_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0xC 4. "ADP_SINK_I_EN_CTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 3. "ADP_SENSE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 2. "ADP_SENSE_EN_CTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0xC 1. "ADP_PROBE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 0. "ADP_PROBE_EN_CTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x10 "PHY2_BC_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x10 7. "IDM_SINK_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 6. "IDM_SINK_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 5. "IDP_SINK_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x10 4. "IDP_SINK_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 3. "IDP_SRC_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 2. "IDP_SRC_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x10 1. "BC_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 0. "BC_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x14 "PHY2_BC_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x14 7. "DM_VDAT_REF_COMP_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 6. "DM_VDAT_REF_COMP_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 5. "DP_VDAT_REF_COMP_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x14 4. "DP_VDAT_REF_COMP_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 3. "VDP_SRC_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 2. "VDP_SRC_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x14 1. "VDM_SRC_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 0. "VDM_SRC_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x18 "PHY2_BC_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x18 7. "RID_A_REF_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 6. "RID_A_REF_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 5. "RID_FLOAT_REF_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x18 4. "RID_FLOAT_REF_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 3. "RID_NONFLOAT_COMP_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 2. "RID_NONFLOAT_COMP_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x18 1. "RID_FLOAT_COMP_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 0. "RID_FLOAT_COMP_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x1C "PHY2_BC_REG5,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x1C 7. "RID_B_C_COMP_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 6. "RID_B_C_COMP_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 5. "RID_A_COMP_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x1C 4. "RID_A_COMP_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 3. "RID_C_REF_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 2. "RID_C_REF_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x1C 1. "RID_B_REF_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 0. "RID_B_REF_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x20 "PHY2_BC_REG6,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x20 3.--7. 1. "BC_DELAY_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x20 2. "BC_DELAY_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 1. "DM_VLGC_COMP_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x20 0. "DM_VLGC_COMP_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x24 "PHY2_BC_REG7,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x24 7. "RID_NONFLOAT_SRC_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x24 6. "RID_NONFLOAT_SRC_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x24 5. "RID_FLOAT_SRC_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x24 4. "RID_FLOAT_SRC_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x24 3. "RESET_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x24 2. "DM_CURRENT_SRC_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x24 1. "DM_CURRENT_SRC_EN_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x24 0. "UNUSED,unused" "0,1" line.long 0x28 "PHY2_TED_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x28 7. "CALIB_CODE_UP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x28 5.--6. "DELAY_VALUE,Delay is 8us" "0,1,2,3" bitfld.long 0x28 4. "DELAY_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x28 3. "CALIB_DONE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x28 2. "CALIIB_DONE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x28 1. "COMP_OUT_DOWN_INV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x28 0. "COMP_OUT_UP_INV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x2C "PHY2_TED_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x2C 4.--7. 1. "CALIB_CODE_DOWN,This is a reserved register or field. It should not be written or read and the value should be ignored." hexmask.long.byte 0x2C 0.--3. 1. "CALIB_CODE_UP,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x30 "PHY2_TED_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x30 5.--7. "UNUSED,unused" "0,1,2,3,4,5,6,7" bitfld.long 0x30 4. "CALIB_MODE_DN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 3. "CALIB_MODE_DN_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x30 2. "CALIB_MODE_UP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 1. "CALIB_MODE_UP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 0. "CALIB_CODE_DN_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" rgroup.long 0x1B4++0x23 line.long 0x0 "PHY2_CALIB_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x0 4.--7. 1. "UNUSED,unused" bitfld.long 0x0 3. "CALIB_CMP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 2. "CALIB_PD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x0 1. "CALIB_CLOCK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 0. "CALIB_DONE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x4 "PHY2_CALIB_REG3,Resistor calibration code" bitfld.long 0x4 5.--7. "UNUSED,unused" "0,1,2,3,4,5,6,7" hexmask.long.byte 0x4 0.--4. 1. "BG_UNIT_RES_CALIB,Resistor calibration code from the calibration block" line.long 0x8 "PHY2_BC_REG8,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x8 7. "DCD_COMP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 6. "ADP_SENSE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 5. "ADP_PROBE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x8 4. "BVALID,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 3. "VBUSVALID,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 2. "IDDIG,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x8 0.--1. "UNUSED,unused" "0,1,2,3" line.long 0xC "PHY2_BC_REG9,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0xC 7. "O_DM_VDAT_REF_COMP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 6. "O_DP_VDAT_REF_COMP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 5. "O_VDM_SRC_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0xC 4. "O_VDP_SRC_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 3. "O_IDM_SINK_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 2. "O_IDP_SINK_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0xC 1. "O_IDP_SRC_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 0. "O_BC_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x10 "PHY2_BC_REG10,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x10 7. "O_RID_B_C_COMP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 6. "O_RID_A_COMP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 5. "O_RID_C_REF_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x10 4. "O_RID_B_REF_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 3. "O_RID_A_REF_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 2. "O_RID_FLOAT_REF_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x10 1. "O_RID_NONFLOAT_SRC_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 0. "O_RID_FLOAT_SRC_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x14 "PHY2_BC_REG11,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x14 7. "O_IDM_SRC_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 6. "I_AFE_RXDP_ANA,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 5. "I_AFE_RXDM_ANA,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x14 4. "I_RID_B_C_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 3. "I_RID_A_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 2. "I_DM_VDAT_REF_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x14 1. "I_DP_VDAT_REF_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 0. "O_DM_VLGC_COMP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x18 "PHY2_BC_REG12,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x18 7. "RID_GND_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 6. "RID_FLOAT_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 5. "RID_C_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x18 4. "RID_B_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 3. "RID_A_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 2. "DM_VLGC_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x18 1. "DM_VDAT_REF_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 0. "DP_VDAT_REF_COMP_STS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x1C "PHY2_TED_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x1C 4.--7. 1. "CALIB_CODE_DOWN,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x1C 3. "COMPARATOR_DOWN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 2. "CALIB_DONE_DOWN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x1C 0.--1. "UNUSED,UNUSED" "0,1,2,3" line.long 0x20 "PHY2_TED_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x20 4.--7. 1. "CALIB_CODE_UP,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x20 3. "COMPARATOR_UP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 2. "CALIB_DONE_UP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x20 0.--1. "UNUSED,UNUSED" "0,1,2,3" group.long 0x1D8++0x17 line.long 0x0 "PHY2_DIG_UNUSED_REG0,UNUSED" bitfld.long 0x0 7. "GLITCH_FILTER_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x0 0.--6. 1. "UNUSED,UNUSED" line.long 0x4 "PHY2_DIG_UNUSED_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x4 3.--7. 1. "UNUSED,UNUSED" bitfld.long 0x4 1.--2. "THRESHOLD_OVR_VALUE_MSB,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x4 0. "THRESHOLD_OVR_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x8 "PHY2_DIG_UNUSED_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x8 0.--7. 1. "THRESHOLD_OVR_VALUE_LSB,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0xC "PHY2_DIG_UNUSED_REG3,UNUSED" hexmask.long.byte 0xC 0.--7. 1. "UNUSED,UNUSED" line.long 0x10 "PHY2_INTERRUPT_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x10 7. "IRSR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 6. "ISR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x10 0.--5. 1. "UNUSED,UNUSED" line.long 0x14 "PHY2_INTERRUPT_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x14 1.--7. 1. "UNUSED,UNUSED" bitfld.long 0x14 0. "IMR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" group.long 0x200++0x33 line.long 0x0 "PHY2_RX_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x0 5.--7. "FSLS_NO_EOP_TIMEOUT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3,4,5,6,7" bitfld.long 0x0 4. "FSLS_TIMEOUT_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 3. "HS_SYNC_DET_BITS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x0 1.--2. "FS_EOP_SE0_THRESHOLD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x0 0. "FS_EOP_SE0_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x4 "PHY2_RX_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x4 2.--7. 1. "LS_EOP_SE0_THRESHOLD,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x4 1. "LS_EOP_SE0_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4 0. "FS_NO_EOP_TIMEOUT_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x8 "PHY2_TX_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x8 4.--7. 1. "UNUSED,unused" bitfld.long 0x8 3. "FS_PREAMBLE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 1.--2. "SOF_EXTENSION,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" newline bitfld.long 0x8 0. "SOF_EXTENSION_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0xC "PHY2_TX_REG1,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0xC 0.--7. 1. "PREAMBLE_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x10 "PHY2_CDR_REG0,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x10 6.--7. "UNUSED,unused" "0,1,2,3" bitfld.long 0x10 4.--5. "PLL_CLKDIV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x10 3. "PLL_CLKDIV_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x10 1.--2. "SQUELCH_DELAY,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x10 0. "SQUELCH_DELAY_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x14 "PHY2_CDR_REG1,dynamic calib controls" bitfld.long 0x14 7. "UNUSED,unused" "0,1" bitfld.long 0x14 6. "CALIB_COMP_OUT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 3.--5. "CALIB_SPC_THRESHOLD,000 The time interval between succesive calibrations is 0us 001 The time interval between succesive calibrations is 1us 010 The time interval between succesive calibrations is 2us 011 The time interval between succesive.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x14 2. "CALIB_SPC_THRESHOLD_EN,0 The time interval between succesive calibrations is taken as 5us by default 1 The time interval between succesive calibrations is taken from CDR_REG1[5:3]" "0,1" bitfld.long 0x14 1. "CALIB_ITERATION,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 0. "DYNAMIC_CALIB_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x18 "PHY2_CDR_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x18 7. "UNUSED,unused" "0,1" bitfld.long 0x18 6. "HSRX_EN_DEL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 5. "HSRX_EN_DEL_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x18 4. "HSRX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 3. "HSRX_EN_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 2. "CALIB_CLOCK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x18 1. "CALIB_CLOCK_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 0. "CALIB_OUT_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x1C "PHY2_CDR_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x1C 7. "CALIB_ACTIVE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 6. "CALIB_DONE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x1C 0.--5. 1. "CALIB_CODE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x20 "PHY2_CDR_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x20 7. "CLK_GATE_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 6. "CLK_GATE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 5. "CLK_GATE_SQ_MASK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x20 3.--4. "LATENCY_THRESHOLD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x20 2. "LATENCY_THRESHOLD_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 1. "DECISION_ERROR_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x20 0. "FILTER_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x24 "PHY2_CDR_REG5,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x24 3.--7. 1. "UNUSED,unused" bitfld.long 0x24 2. "SAMPLE_5X_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x24 1. "SMALL_PULSE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x24 0. "SMALL_PULSE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x28 "PHY2_CDR_REG6,unused" hexmask.long.byte 0x28 0.--7. 1. "UNUSED,unused" line.long 0x2C "PHY2_CDR_REG7,unused" hexmask.long.byte 0x2C 0.--7. 1. "UNUSED,unused" line.long 0x30 "PHY2_CDR_REG8,unused" hexmask.long.byte 0x30 0.--7. 1. "UNUSED,unused" rgroup.long 0x234++0x33 line.long 0x0 "PHY2_RX_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x0 7. "EB_ERROR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 6. "CDR_ERROR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 5. "SYNC_DETECTED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x0 4. "EOP_DETECTED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 3. "HS_EOP_CONDITION,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 2. "NORMAL_EOP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x0 1. "ALIGNMENT_ERROR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x0 0. "NO_EOP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x4 "PHY2_RX_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x4 7. "HS_EOP_DETECTED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4 6. "SE0_VALIDATED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4 5. "LSFS_EOP_DETECTED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x4 4. "BIT_UNSTUFF_ERROR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4 1.--3. "RX_STATE_BITUNSTUFF,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3,4,5,6,7" bitfld.long 0x4 0. "START_FLAG,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x8 "PHY2_RX_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x8 7. "RXACTIVE_REG,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 6. "DEASSERT_RXACTIVE_REG,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x8 0.--5. 1. "UNUSED,unused" line.long 0xC "PHY2_RX_REG5,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0xC 0.--7. 1. "SIE_CNT_UPPER,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x10 "PHY2_RX_REG6,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x10 0.--7. 1. "PHY_CNT_UPPER,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x14 "PHY2_RX_REG7,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x14 4.--7. 1. "PHY_CNT_LOWER,This is a reserved register or field. It should not be written or read and the value should be ignored." hexmask.long.byte 0x14 0.--3. 1. "SIE_CNT_LOWER,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x18 "PHY2_TX_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x18 4.--7. 1. "TX_HS_STATE,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x18 3. "EOP_TRANSMITTED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 2. "HS_BITSTUFF_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x18 1. "RESUME_EOP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x18 0. "REMOTE_WAKEUP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x1C "PHY2_TX_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x1C 4.--7. 1. "TX_LSFS_STATE,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x1C 1.--3. "PD_STATE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3,4,5,6,7" bitfld.long 0x1C 0. "PREAMBLE_SENT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x20 "PHY2_TX_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x20 2.--7. 1. "UNUSED,unused" bitfld.long 0x20 1. "LSFS_BITSTUFF_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 0. "LS_KEEP_ALIVE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x24 "PHY2_CDR_REG9,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x24 3.--7. 1. "UNUSED,UNUSED" bitfld.long 0x24 2. "I_ANA_COMP_OUT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x24 1. "SAMPLER_CALIB_DONE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x24 0. "ANA_CALIB_ACTIVE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x28 "PHY2_CDR_REG10,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x28 6.--7. "UNUSED,unused" "0,1,2,3" hexmask.long.byte 0x28 0.--5. 1. "CALIB_CODE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x2C "PHY2_CDR_REG11,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x2C 4.--7. 1. "SMALL_PULSE,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x2C 3. "O_HSRX_REC_DICISION_ERROR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 2. "O_ANA_CLK_GATE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x2C 1. "RECEIVE_START,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 0. "I_ANA_TED_SQUELCH,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x30 "PHY2_CDR_RE12,unused" hexmask.long.byte 0x30 0.--7. 1. "UNUSED,unused" group.long 0x268++0xF line.long 0x0 "PHY2_DIG_TXRX_UNUSED_REG0,UNUSED" hexmask.long.byte 0x0 0.--7. 1. "UNUSED,UNUSED" line.long 0x4 "PHY2_DIG_TXRX_UNUSED_REG1,UNUSED" hexmask.long.byte 0x4 0.--7. 1. "UNUSED,UNUSED" line.long 0x8 "PHY2_DIG_TXRX_UNUSED_REG2,UNUSED" hexmask.long.byte 0x8 0.--7. 1. "UNUSED,UNUSED" line.long 0xC "PHY2_DIG_TXRX_UNUSED_REG3,UNUSED" hexmask.long.byte 0xC 0.--7. 1. "UNUSED,UNUSED" group.long 0x280++0x8B line.long 0x0 "PHY2_UTMI_REG0,register UTMI_REG0" bitfld.long 0x0 6.--7. "LOOPBACK_SEL,00 Loopback mode selection = 00 : Reserved 01 Loopback mode selection = 01 : LS 10 Loopback mode selection = 10 : FS 11 Loopback mode selection = 11 : HS" "0: Reserved,1: LS,?,?" bitfld.long 0x0 5. "LOOPBACK_EN,0 Loopback mode selection is taken from primary input port-loopback[1:0] 1 Loopback mode selection is taken from UTMI_REG0[7:6]." "0,1" hexmask.long.byte 0x0 1.--4. 1. "BIST_MODE_SEL,0 BIST for 8 bit 1 BIST for 16 bit 0 Error injection disabled 1 Error injection enabled 0 BIST for device mode 1 BIST for host mode 0 BIST for HS mode 1 BIST for FS mode." newline bitfld.long 0x0 0. "BIST_EN,0 BIST control signals taken from primary input BIST related ports 1 BIST signals taken from UTMI REG0[4:1] UTMI_REG1[7:6] UTMI_REG5[7:6]" "0,1" line.long 0x4 "PHY2_UTMI_REG1,bist error injection. soft resets" bitfld.long 0x4 6.--7. "BIST_ERR,00 Introduce error on first packet bist error injection = 00 01 Introduce error on second packet bist error injection = 01 10 Introduce error on third packet bist error injection = 10 11 Introduce error on last packet bist error injection.." "0,1,2,3" bitfld.long 0x4 5. "BIST_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4 4. "TX_LSFS_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x4 3. "TX_HS_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4 2. "CLKDIV_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4 1. "CALIB_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x4 0. "PHY_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x8 "PHY2_UTMI_REG2,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x8 7. "RX_CNTRL_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 6. "SHIFT_REG_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 5. "BITUNSTUFF_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x8 4. "NRZI_DEC_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 3. "EOP_DET_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 2. "SYNC_DET_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x8 1. "LSFS_DLL_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 0. "RX_HS_SOFT_RST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0xC "PHY2_UTMI_REG3,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0xC 7. "HS_RX_ERR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 6. "LS_LINESTATE_FIL_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0xC 1.--5. 1. "FS_LINESTATE_FIL_CNT,This is a reserved register or field. It should not be written or read and the value should be ignored." newline bitfld.long 0xC 0. "FS_LINESTATE_FIL_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x10 "PHY2_UTMI_REG4,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x10 0.--7. 1. "LS_LINESTATE_FIL_CNT,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x14 "PHY2_UTMI_REG5,BIST. hsrx data" bitfld.long 0x14 7. "BIST_MODE_EN,0 BIST mode en is taken from primary input port- bist_mode_en 1 bist_mode_en is turned on." "0,1" bitfld.long 0x14 6. "BIST_ON,0 BIST on is taken from primary input port- bist_on 1 bist_on is enabled." "0,1" bitfld.long 0x14 5. "HSTX_BOOST_DEAMP_OFF,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x14 4. "HSTX_BOOST,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 3. "HS_SAMP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 2. "HS_SAMP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x14 1. "HSRX,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 0. "HSRX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x18 "PHY2_UTMI_REG6,vbusvalid control. hs drive en threshold" bitfld.long 0x18 7. "VBUSVALID_CNTRL,0 vbusvalid comparator is not enabled in L3 device Powered Off state 1 vbusvalid comparator is enabled in L3 device Powered Off state" "0,1" bitfld.long 0x18 6. "VBUSVALID_L3_DEV_EN,0 Vbusvalid comparator output comes on vbusvalid primary output port 1 Sessvalid comparator output comes on vbusvalid primary output port." "0,1" hexmask.long.byte 0x18 1.--5. 1. "HS_DRVEN_THRESHOLD,This is a reserved register or field. It should not be written or read and the value should be ignored." newline bitfld.long 0x18 0. "HS_DRVEN_TH_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x1C "PHY2_UTMI_REG7,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x1C 7. "HSTX_BC_MODE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 6. "HSTX_BC_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 5. "HSTX_CHIRP_MODE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x1C 4. "HSTX_CHIRP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 3. "HSTX_EN_DEL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 2. "HSTX_EN_DEL_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x1C 1. "HSTX,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 0. "HSTX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x20 "PHY2_UTMI_REG8,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x20 7. "HS_TERM,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 6. "HS_TERM_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 5. "HSTX_DATA,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x20 4. "HSTX_DATA_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 3. "HSTX_DRV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 2. "HSTX_DRV_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x20 1. "HSTX_PREDRV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x20 0. "HSTX_PREDRV_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x24 "PHY2_UTMI_REG9,hs delay values" bitfld.long 0x24 7. "CLKOFF_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x24 4.--6. "SDC_SPACE,000- The time between successive resistor calibration is 0ms 001- The time between successive resistor calibration is 500ms 010- The time between successive resistor calibration is 1000ms 011- The time between successive resistor calibration.." "0,1,2,3,4,5,6,7" bitfld.long 0x24 3. "SDC_SPACE_EN,0- The time between successive resistor calibration taken as 1s by default 1- The time between successive resistor calibration taken from UTMI_REG9[6:4]." "0,1" newline bitfld.long 0x24 1.--2. "HSTX_EN_DEL_TH,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x24 0. "HSTX_EN_DEL_TH_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x28 "PHY2_UTMI_REG10,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x28 7. "PLL_CLKON,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x28 6. "PLL_CLKON_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x28 5. "BG_PD_BG_OK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x28 4. "BG_PD_BG_OK_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x28 3. "LSFS_SERX,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x28 2. "LSFS_SERX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x28 1. "LSFS_RX,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x28 0. "LSFS_RX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x2C "PHY2_UTMI_REG11,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x2C 7. "CLEAN_LINESTATE_SERX_MASK_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 6. "SERX_MASK_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 4.--5. "SERX_MASK_THRESHOLD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" newline bitfld.long 0x2C 3. "LSFS_TX,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 2. "LSFS_TX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 1. "FSLS_EDGESEL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x2C 0. "FSLS_EDGESEL_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x30 "PHY2_UTMI_REG12,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x30 6.--7. "SERX_BIAS_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x30 5. "FSLS_TX_DATA,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 4. "FSLS_TX_DATA_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x30 3. "FSLS_TX_SE0,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 2. "FSLS_TX_SE0_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 1. "FSLS_TX_DRV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x30 0. "FSLS_TX_DRV_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x34 "PHY2_UTMI_REG13,serial mode" bitfld.long 0x34 7. "FSLS_SERIALMODE_PULLUP2,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x34 6. "FSLS_SERIALMODE_PULLUP2_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x34 5. "DM_PULLDOWN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x34 4. "DM_PULLDOWN_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x34 3. "DP_PULLDOWN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x34 2. "DP_PULLDOWN_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x34 1. "LANE_REVERSE,0- Polarity inversion of DP/DM is not done 1- Polarity inversion of DP/DM is done" "0,1" bitfld.long 0x34 0. "LANE_REVERSE_EN,0- Lane Reverse Value is taken from primary input portlane_reverse 1- Lane Reverse Value taken from UTMI_REG13[1]" "0,1" line.long 0x38 "PHY2_UTMI_REG14,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x38 7. "DM_PULLUP2,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 6. "DM_PULLUP2_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 5. "DP_PULLUP2,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x38 4. "DP_PULLUP2_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 3. "DM_PULLUP1,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 2. "DM_PULLUP1_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x38 1. "DP_PULLUP1,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 0. "DP_PULLUP1_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x3C "PHY2_UTMI_REG15,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x3C 6.--7. "TXVALID_GATE_THRESHOLD_FS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x3C 4.--5. "TXVALID_GATE_THRESHOLD_HS,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x3C 3. "TED_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x3C 2. "TED_EN_CNT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x3C 1. "ED_EN_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x3C 0. "ED_EN_CNT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x40 "PHY2_UTMI_REG16,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x40 0.--7. 1. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x44 "PHY2_UTMI_REG17,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x44 6.--7. "SQUELCH_COUNT_IDLE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x44 5. "SQUELCH_COUNT_IDLE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x44 1.--4. 1. "TX_SQ_CNT,This is a reserved register or field. It should not be written or read and the value should be ignored." newline bitfld.long 0x44 0. "TX_SQ_CNT_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x48 "PHY2_UTMI_REG18,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x48 7. "SLEEP_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x48 6. "SLEEP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x48 5. "BIST_POWERUP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x48 4. "BIST_POWERUP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x48 3. "POWERUP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x48 2. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x48 1. "CLIPPER_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x48 0. "CLIPPER_EN_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x4C "PHY2_UTMI_REG19,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x4C 1.--7. 1. "UNUSED,unused" bitfld.long 0x4C 0. "TED_SW_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x50 "PHY2_UTMI_REG20,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x50 7. "HOSTDISCON_RST_REG,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x50 6. "HOSTDISCON_RST_REG_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x50 1.--5. 1. "CALIB_RST_DT,This is a reserved register or field. It should not be written or read and the value should be ignored." newline bitfld.long 0x50 0. "CALIB_RST_DT_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x54 "PHY2_UTMI_REG21,Register UTMI_REG21" bitfld.long 0x54 7. "CALIB_TRIGER_POSEDGE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x54 6. "AUTO_CAL_ENABLE,0- Dynamic resistor calibration is disabled 1- Dynamic resistor calibration is enabled" "0,1" bitfld.long 0x54 5. "ABSVALID,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x54 4. "ABSVALID_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x54 3. "VBUSVALID,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x54 2. "VBUSVALID_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x54 1. "SUSPENDM,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x54 0. "SUSPENDM_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x58 "PHY2_UTMI_REG22,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x58 0.--7. 1. "BCCALIB_OFFSET,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x5C "PHY2_UTMI_REG23,hscalib code offset" hexmask.long.byte 0x5C 0.--7. 1. "HSCALIB_OFFSET,Bit 0= 0- Final resistor calibration code going to HSTX is not offsetted 1- Offset given by bits [6:2] is considered for computation of final resistor code going to HSTX. Bit 1= 0- ADD the offset given in bits [6:2] to the resistor.." line.long 0x60 "PHY2_UTMI_REG24,fscalib code offset" hexmask.long.byte 0x60 0.--7. 1. "FSCALIB_OFFSET,Bit 0= 0- Final resistor calibration code going to FSTX is not offsetted 1- Offset given by bits [6:2] is used for computation of final resistor code going to FSTX. Bit 1= 0- ADD the offset given in bits [6:2] to the Resistor calibration.." line.long 0x64 "PHY2_UTMI_REG25,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x64 7. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x64 0.--6. 1. "HSCALIB,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x68 "PHY2_UTMI_REG26,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x68 7. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x68 0.--6. 1. "FSCALIB,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x6C "PHY2_UTMI_REG27,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x6C 7. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x6C 0.--6. 1. "BCCALIB,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x70 "PHY2_UTMI_REG28,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x70 7. "CDR_EB_WR_RESET,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x70 1.--6. 1. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x70 0. "SERX_EN_CNTRL_OPMODE01,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x74 "PHY2_UTMI_REG29,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x74 6.--7. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x74 5. "PLL_STANDALONE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x74 4. "PLL_STANDALONE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline hexmask.long.byte 0x74 0.--3. 1. "SPARE_OUT,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x78 "PHY2_UTMI_REG30,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x78 7. "UNUSED,unused" "0,1" bitfld.long 0x78 6. "PLL_480_CLOCK_GATE_OVR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x78 5. "SCAN_ATS_HS_CLOCK_GATE_OVR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x78 4. "VCO_PLL_CLOCK_GATE_OVR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x78 3. "DIG_DIV_REFCLOCK_GATE_OVR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x78 2. "FB_CLOCK_GATE_OVR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x78 1. "ANA_DIV_REFCLOCK_GATE_OVR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x78 0. "HS_CLOCK_GATE_OVR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x7C "PHY2_UTMI_UNUSED_REG0,unused" hexmask.long.byte 0x7C 0.--7. 1. "UNUSED,unused" line.long 0x80 "PHY2_UTMI_UNUSED_REG1,unused" hexmask.long.byte 0x80 0.--7. 1. "UNUSED,unused" line.long 0x84 "PHY2_UTMI_UNUSED_REG2,unused" hexmask.long.byte 0x84 0.--7. 1. "UNUSED,unused" line.long 0x88 "PHY2_UTMI_UNUSED_REG3,unused" hexmask.long.byte 0x88 0.--7. 1. "UNUSED,unused" rgroup.long 0x30C++0x7B line.long 0x0 "PHY2_UTMI_REG31,bist" hexmask.long.byte 0x0 2.--7. 1. "UNUSED,UNUSED" bitfld.long 0x0 1. "BIST_ERROR,0- BIST resulted in no Error 1- BIST resulted in Error" "0,1" bitfld.long 0x0 0. "BIST_COMPLETE,0- BIST is Not complete 1- BIST is Complete" "0,1" line.long 0x4 "PHY2_UTMI_REG32,bist error count" hexmask.long.byte 0x4 0.--7. 1. "BIST_ERR_COUNT,00000000 Number of bytes that resulted in error while running BIST" line.long 0x8 "PHY2_UTMI_REG33,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x8 7. "BG_POWERGOOD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 6. "AFE_HSRX_DIFF_DATA,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 5. "HSRX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x8 4. "HSRX_SAMPLER_ENABLE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 3. "CHIRP_MODE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 2. "HSTX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x8 1. "HSTX_EN_DELAYED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x8 0. "HSTX_BOOST_DEAMP_OFF,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0xC "PHY2_UTMI_REG34,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0xC 7. "O_DPRPU1_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 6. "O_DMRPU1_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 5. "O_DPRPU2_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0xC 4. "O_DMRPU2_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 3. "O_DPRPD_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 2. "O_DMRPD_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0xC 1. "O_OTGC_ID_PULLUP_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0xC 0. "O_FS_EDGE_SEL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x10 "PHY2_UTMI_REG35,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x10 7. "I_AFE_LSFSRX_ANA,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 6. "O_LSFSTX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 5. "O_LSFSDRV_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x10 4. "O_LSFS_DDI,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 3. "O_ASSERT_SEZERO,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 2. "O_LSFSRX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x10 1. "O_SERX_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x10 0. "O_SERX_BIAS_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x14 "PHY2_UTMI_REG36,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x14 7. "O_PLL_PSO,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 6. "O_PLL_PSO_DELAY,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x14 5. "O_PLL_PD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline hexmask.long.byte 0x14 0.--4. 1. "O_PLL_IPDIV,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x18 "PHY2_UTMI_REG37,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x18 0.--7. 1. "O_PLL_FBDIV_VALUE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x1C "PHY2_UTMI_REG38,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x1C 7. "O_PLL_STANDBY,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 6. "O_PLL_LDO_CORE_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 5. "O_PLL_LDO_REF_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x1C 4. "O_AFE_SUSPENDM,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 3. "O_OTGC_VBUSVALID_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 2. "O_OTGC_ABSVALID_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x1C 1. "O_AFE_CLIPPER_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x1C 0. "O_PLL_LDO_ISOLATION_CNTRL,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x20 "PHY2_UTMI_REG39,unused" hexmask.long.byte 0x20 0.--7. 1. "UNUSED,unused" line.long 0x24 "PHY2_UTMI_REG40,unused" hexmask.long.byte 0x24 0.--7. 1. "UNUSED,unused" line.long 0x28 "PHY2_UTMI_REG41,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x28 7. "I_TED_SQUELCH_ANA,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x28 6. "I_USB2_RESCAL_CALIB_DONE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x28 0.--5. 1. "HS_CALIB_CODE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x2C "PHY2_UTMI_REG42,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x2C 7. "HS_SOF,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x2C 6. "ALL_CALIB_DONE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x2C 0.--5. 1. "FS_CALIB_CODE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x30 "PHY2_UTMI_REG43,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x30 7. "LS_MODE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x30 6. "FS_MODE_PRE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" hexmask.long.byte 0x30 0.--5. 1. "BC_CALIB_CODE,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x34 "PHY2_UTMI_REG44,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x34 7. "RSTN_REFCLOCK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x34 6. "RSTN_HS_CLOCK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x34 5. "RSTN_HS_TX_CLOCK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x34 4. "RSTN_BYTE_CLOCK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x34 3. "RSTN_SIECLOCK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x34 2. "RSTN_CLKDIV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x34 1. "RSTN_CALIB_CLKDIV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x34 0. "UDC_RSTN_CDR_ASYNC,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x38 "PHY2_UTMI_REG45,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x38 7. "UDC_CALIB_RSTN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 6. "UDC_APB_RSTN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 5. "O_RSTN_CDR_ASYNC,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x38 4. "O_PLL_CALIB_RSTN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 3. "BIST_MODE_RSTN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 2. "O_USB2_CALIB_RSTN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x38 1. "UDC_BC_CALIB_RSTN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x38 0. "GLOBAL_RESETN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x3C "PHY2_UTMI_REG46,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x3C 7. "UNUSED,unused" "0,1" bitfld.long 0x3C 6. "RECOVERY_CNT_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x3C 4.--5. "CLEAN_LINESTATE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" newline hexmask.long.byte 0x3C 0.--3. 1. "BC_STATE_MACHINE_STATUS,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x40 "PHY2_UTMI_REG47,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x40 7. "FILTER_CNT_EN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x40 5.--6. "HOST_OPMODE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x40 3.--4. "DEV_OPMODE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" newline bitfld.long 0x40 2. "I_DED_ANA,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x40 1. "HS_HOSTDISCONNECT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x40 0. "LSFS_HOSTDISCONNECT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x44 "PHY2_UTMI_REG48,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x44 6.--7. "BIST_TX_STATE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" hexmask.long.byte 0x44 0.--5. 1. "DATA_CNT_TX,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x48 "PHY2_UTMI_REG49,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x48 6.--7. "BIST_RX_STATE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" hexmask.long.byte 0x48 0.--5. 1. "DATA_CNT_RX,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x4C "PHY2_UTMI_REG50,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x4C 4.--7. 1. "BIST_TOP_STATE,This is a reserved register or field. It should not be written or read and the value should be ignored." bitfld.long 0x4C 3. "INC_DATA_CNT_TX,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4C 2. "INC_DATA_CNT_RX,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x4C 1. "O_BG_PD,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x4C 0. "O_BG_PD_BG_OK,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x50 "PHY2_UTMI_REG51,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x50 6.--7. "POWERDOWN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x50 5. "RESET,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x50 4. "SUSPENDM,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x50 3. "TERMSELECT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x50 2. "DATABUS16_8,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x50 1. "DPPULLDOWN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x50 0. "DMPULLDOWN,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x54 "PHY2_UTMI_REG52,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x54 7. "LANE_REVERSE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x54 6. "TXBITSTUFFENABLE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x54 5. "TXBITSTUFFENABLEH,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x54 3.--4. "XCVRSELECT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x54 1.--2. "LINESTATE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" bitfld.long 0x54 0. "HOSTDISCONNECT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x58 "PHY2_UTMI_REG53,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x58 7. "FSLSSERIALMODE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x58 6. "TX_ENABLE_N,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x58 5. "TX_DAT,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x58 4. "TX_SE0,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x58 3. "SLEEPM,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x58 2. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x58 0.--1. "OPMODE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1,2,3" line.long 0x5C "PHY2_UTMI_REG54,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x5C 7. "RX_DP,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x5C 6. "RX_DM,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x5C 5. "RX_RCV,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline hexmask.long.byte 0x5C 0.--4. 1. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x60 "PHY2_UTMI_REG55,This is a reserved register or field. It should not be written or read. and the value should be ignored." bitfld.long 0x60 7. "TXVALIDH,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x60 6. "TXVALID,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x60 5. "TXREADY,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x60 4. "RXVALIDH,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x60 3. "RXVALID,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x60 2. "RXACTIVE,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" newline bitfld.long 0x60 1. "RXERROR,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" bitfld.long 0x60 0. "UNUSED,This is a reserved register or field. It should not be written or read and the value should be ignored." "0,1" line.long 0x64 "PHY2_UTMI_REG56,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x64 0.--7. 1. "DATAIN_UPPER,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x68 "PHY2_UTMI_REG57,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x68 0.--7. 1. "DATAIN_LOWER,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x6C "PHY2_UTMI_REG58,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x6C 0.--7. 1. "DATAOUT_UPPER,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x70 "PHY2_UTMI_REG59,This is a reserved register or field. It should not be written or read. and the value should be ignored." hexmask.long.byte 0x70 0.--7. 1. "DATAOUT_LOWER,This is a reserved register or field. It should not be written or read and the value should be ignored." line.long 0x74 "PHY2_UTMI_UNUSED_REG6,UNUSED" hexmask.long.byte 0x74 0.--7. 1. "UNUSED,unused" line.long 0x78 "PHY2_UTMI_UNUSED_REG7,UNUSED" hexmask.long.byte 0x78 0.--7. 1. "UNUSED,unused" tree.end base ad:0x0 tree "USB1_VBP2AHB_WRAP_CONTROLLER" tree "USB1_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_CAP (USB1_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_CAP)" base ad:0x31100000 rgroup.long 0x0++0x1F line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_CAP_CAPLENGTH,Capability Registers Length" hexmask.long.word 0x0 16.--31. 1. "HCIVERSION,HC Interface Version Number [HCIVERSION]" hexmask.long.byte 0x0 0.--7. 1. "CAPLENGTH,Capability Registers Length [CAPLENGTH]" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_CAP_HCSPARAMS1,Structural Parameters 1 Register" hexmask.long.byte 0x4 24.--31. 1. "MAXPORTS,Number of Ports [MaxPorts] - Number of ports implemented is defined by the parameter [DWC_USB3_HOST_NUM_U2_ROOT_PORTS + DWC_USB3_HOST_NUM_U3_ROOT_PORTS] - Number of ports enabled is controlled by the controller input signals.." hexmask.long.word 0x4 8.--18. 1. "MAXINTRS,Number of Interrupters [MaxIntrs] Defined by the configurable parameter DWC_USB3_HOST_NUM_INTERRUPTER_SUPT" newline hexmask.long.byte 0x4 0.--7. 1. "MAXSLOTS,Number of device slots [MaxSlots] Defined by configurable parameter DWC_USB3_NUM_DEVICE_SUPT" line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_CAP_HCSPARAMS2,Structural Parameters 2 Register" hexmask.long.byte 0x8 27.--31. 1. "MAXSCRATCHPADBUFS,Max Scratchpad Bufs Lo The value is calculated based on chosen configuration parameter values. Possible values are 1-4." bitfld.long 0x8 26. "SPR,Scratchpad Restore [SPR]" "0,1" newline hexmask.long.byte 0x8 21.--25. 1. "MAXSCRATCHPADBUFS_HI,Max Scratchpad Bufs HI The controller automatically updates this field." hexmask.long.byte 0x8 4.--7. 1. "ERSTMAX,Event Ring Segment Table Max [ERST Max]" newline hexmask.long.byte 0x8 0.--3. 1. "IST,Isochronous Scheduling Threshold [IST]" line.long 0xC "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_CAP_HCSPARAMS3,Structural Parameters 3 Register" hexmask.long.word 0xC 16.--31. 1. "U2_DEVICE_EXIT_LAT,U2 Device Exit Latency" hexmask.long.byte 0xC 0.--7. 1. "U1_DEVICE_EXIT_LAT,U1 Device Exit Latency" line.long 0x10 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_CAP_HCCPARAMS1,Capability Parameters 1 Register" hexmask.long.word 0x10 16.--31. 1. "XECP,xHCI Extended Capabilities Pointer [xECP] Based on configuration controller automatically updates it. Refer to <workspace>/src/DWC_usb3_params.v for details on DWC_USB3_HC_XECP." hexmask.long.byte 0x10 12.--15. 1. "MAXPSASIZE,Maximum Primary Stream Array Size [MaxPSASize] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." newline bitfld.long 0x10 11. "CFC,Contiguous Frame ID Capability [CFC]" "0,1" bitfld.long 0x10 10. "SEC,Stopped EDLTA Capability [SEC] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x10 9. "SPC,Short Packet Capability [SPC] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x10 8. "PAE,Parse All Event Data [PAE] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x10 7. "NSS,No Secondary SID Support [NSS] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x10 6. "LTC,Latency Tolerance Messaging Capability [LTC] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x10 5. "LHRC,Light HC Reset Capability For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x10 4. "PIND,Port Indicators [PIND] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x10 3. "PPC,Port Power Control For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x10 2. "CSZ,Context Size [CSZ] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x10 1. "BNC,BW Negotiation Capability [BNC] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x10 0. "AC64,64-bit Addressing Capability [AC64] For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" line.long 0x14 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_CAP_DBOFF,Doorbell Offset Register" hexmask.long 0x14 2.--31. 1. "DOORBELL_ARRAY_OFFSET,Doorbell Array Offset - RO Based on configuration the controller automatically updates it. For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB].." line.long 0x18 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_CAP_RTSOFF,Runtime Register Space Offset Register" hexmask.long 0x18 5.--31. 1. "RUNTIME_REG_SPACE_OFFSET,Runtime Register Space Offset Based on configuration the controller automatically updates it. For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB].." line.long 0x1C "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_CAP_HCCPARAMS2,Host Controller Capability Parameters 2" bitfld.long 0x1C 5. "CIC,Configuration Information Capability [CIC] For a description of this standard USB register field see the eXtensible Host Controller I nterface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x1C 4. "LEC,Large ESIT Payload Capability [LEC] For a description of this standard USB register field see the eXtensible Host Controller I nterface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x1C 3. "CTC,Compliance Transition Capability [CTC] For a description of this standard USB register field see the eXtensible Host Controller I nterface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x1C 2. "FSC,Force Save Context Capability [FSC] For a description of this standard USB register field see the eXtensible Host Controller I nterface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x1C 1. "CMC,Configure Endpoint Command Max Exit Latency Too Large Capability [CMC] For a description of this standard USB register field see the eXtensible Host Controller I nterface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x1C 0. "U3C,U3 Entry Capability [U3C] For a description of this standard USB register field see the eXtensible Host Controller I nterface for Universal Serial Bus [USB] Specification 3.0." "0,1" tree.end tree "USB1_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_DEBUG_RAM0 (USB1_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_DEBUG_RAM0)" base ad:0x31140000 group.long 0x0++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEBUG_RAM0_RAM0,RAM0 memory region accessible through config interface for debug purpose only." hexmask.long 0x0 0.--31. 1. "MEM,Memory location" tree.end tree "USB1_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_DEV (USB1_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_DEV)" base ad:0x3110C700 group.long 0x0++0x17 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_DCFG,Device Configuration Register." bitfld.long 0x0 23. "IGNSTRMPP,IgnoreStreamPP This bit only affects stream-capable bulk endpoints. When this bit is set to '0' and the controller receives a Data Packet with the Packet Pending [PP] bit set to 0 for OUT endpoints or it receives an ACK with the NumP field.." "0,1" newline bitfld.long 0x0 22. "LPMCAP,LPM Capable The application uses this bit to control the LPM capabilities of the DWC_usb3 controller. If the controller operates as a non-LPM-capable device it cannot respond to LPM transactions. - 1'b0: LPM capability is not enabled. - 1'b1:.." "0: LPM capability is not enabled,1: LPM capability is enabled" newline hexmask.long.byte 0x0 17.--21. 1. "NUMP,Number of Receive Buffers. This bit indicates the number of receive buffers to be reported in the ACK TP. The DWC_usb3 controller uses this field for non-control endpoints if GRXTHRCFG.UsbRxPktCntSel is set to '0'. The application can program.." newline hexmask.long.byte 0x0 12.--16. 1. "INTRNUM,Interrupt number Indicates interrupt/EventQ number on which non-endpoint-specific device-related interrupts [see DEVT] are generated." newline hexmask.long.byte 0x0 3.--9. 1. "DEVADDR,Device Address. The application must perform the following: - Program this field after every SetAddress request. - Reset this field to zero after USB reset." newline bitfld.long 0x0 0.--2. "DEVSPD,Device Speed. Indicates the speed at which the application requires the controller to connect or the maximum speed the application can support. However the actual bus speed is determined only after the chirp sequence is completed and is.." "0: High-speed [USB 2,1: Full-speed [USB 2,?,?,4: SuperSpeed [USB 3,?,?,?" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_DCTL,Device Control Register" bitfld.long 0x4 31. "RUN_STOP,Run/Stop The software writes 1 to this bit to start the device controller operation. To stop the device controller operation the software must remove any active transfers and write 0 to this bit. When the controller is stopped it sets the.." "0,1" newline bitfld.long 0x4 30. "CSFTRST,Core Soft Reset Resets the all clock domains as follows: - This bit clears the interrupts and all the CSRs except GSTS GSNPSID GGPIO GUID GUSB2PHYCFGn registers GUSB3PIPECTLn registers DCFG DCTL DEVTEN and DSTS registers. - All module.." "0,1" newline bitfld.long 0x4 29. "RESERVED,Reserved1" "0,1" newline hexmask.long.byte 0x4 24.--28. 1. "HIRDTHRES,HIRD Threshold [HIRD_Thres] The controller asserts output signals utmi_l1_suspend_n and utmi_sleep_n [see LPM Interface Signals table in the Databook] on the basis of this signal: The controller asserts utmi_l1_suspend_n to put the PHY into.." newline hexmask.long.byte 0x4 20.--23. 1. "LPM_NYET_THRES,LPM NYET Threshold When LPM Errata is enabled: Bits [23:20]: LPM NYET Response Threshold [LPM_NYET_thres] Handshake response to LPM token specified by device application. Response depends on DCFG.LPMCap. - DCFG.LPMCap is 1'b0 - The.." newline bitfld.long 0x4 19. "KEEPCONNECT,Keep Connect When '1' this bit enables the save and restore programming model by preventing the controller from disconnecting from the host when DCTL.RunStop is set to '0'. It also enables the Hibernation Request Event to be generated.." "0,1" newline bitfld.long 0x4 18. "L1HIBERNATIONEN,L1HibernationEn When this bit is set along with KeepConnect the device controller generates a Hibernation Request Event if L1 is enabled and the HIRD value in the LPM token is larger than the threshold programmed in DCTL.HIRD_Thres." "0,1" newline bitfld.long 0x4 17. "CRS,Controller Restore State [CRS] This command is similar to the USBCMD.CRS bit in host mode and initiates the restore process. When software sets this bit to '1' the controller immediately sets DSTS.RSS to '1'. When the controller has finished the.." "0,1" newline bitfld.long 0x4 16. "CSS,Controller Save State [CSS] This command is similar to the USBCMD.CSS bit in host mode and initiates the save process. When software sets this bit to '1' the controller immediately sets DSTS.SSS to '1'. When the controller has finished the save.." "0,1" newline bitfld.long 0x4 12. "INITU2ENA,Initiate U2 Enable - 1'b0: May not initiate U2 [default] - 1'b1: May initiate U2 On USB reset hardware clears this bit to 0. Software sets this bit after receiving SetFeature[U2_ENABLE] and clears this bit when ClearFeature[U2_ENABLE] is.." "0: May not initiate U2 [default],1: May initiate U2 On USB reset" newline bitfld.long 0x4 11. "ACCEPTU2ENA,Accept U2 Enable - 1'b0: Reject U2 except when Force_LinkPM_Accept bit is set [default] - 1'b1: Controller accepts transition to U2 state if nothing is pending on the application side. On USB reset hardware clears this bit to 0. Software.." "0: Reject U2 except when Force_LinkPM_Accept bit is..,1: Controller accepts transition to U2 state if.." newline bitfld.long 0x4 10. "INITU1ENA,Initiate U1 Enable - 1'b0: May not initiate U1 [default]. - 1'b1: May initiate U1. On USB reset hardware clears this bit to 0. Software sets this bit after receiving SetFeature[U1_ENABLE] and clears this bit when ClearFeature[U1_ENABLE].." "0: May not initiate U1 [default],1: May initiate U1" newline bitfld.long 0x4 9. "ACCEPTU1ENA,Accept U1 Enable - 1'b0: Controller rejects U1 except when Force_LinkPM_Accept bit is set [default] - 1'b1: Controller accepts transition to U1 state if nothing is pending on the application side. On USB reset hardware clears this bit to.." "0: Controller rejects U1 except when..,1: Controller accepts transition to U1 state if.." newline hexmask.long.byte 0x4 5.--8. 1. "ULSTCHNGREQ,ULSTCHNGREQ Software writes this field to issue a USB/Link state change request. A change in this field indicates a new request to the controller. If software wants to issue the same request back-to-back it must write a 0 to this field.." newline hexmask.long.byte 0x4 1.--4. 1. "TSTCTL,Test Control - 4'b000: Test mode disabled - 4'b001: Test_J mode - 4'b010: Test_K mode - 4'b011: Test_SE0_NAK mode - 4'b100: Test_Packet mode - 4'b101: Test_Force_Enable - Others: Reserved" line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_DEVTEN,Device Event Enable Register" rbitfld.long 0x8 16. "ECCERREN,ECC Error Enable. If this bit is set to 1 the controller reports an ECC error to the software when an uncorrectable ECC occurs internally." "0,1" newline bitfld.long 0x8 14. "L1WKUPEVTEN,L1 Resume Detected Event Enable. Note: If GUCTL1[DEV_DECOUPLE_L1L2_EVT] is enabled then this bit is for L1 Resume Detected Event Enable." "0,1" newline bitfld.long 0x8 12. "VENDEVTSTRCVDEN,Vendor Device Test LMP Received Event [VndrDevTstRcvedEn]" "0,1" newline bitfld.long 0x8 9. "ERRTICERREVTEN,Erratic Error Event Enable" "0,1" newline bitfld.long 0x8 8. "L1SUSPEN,L1 Suspend Event Enable Note: Only if GUCTL1[DEV_DECOUPLE_L1L2_EVT] is enabled this bit is for L1 Suspend Event Enable." "0,1" newline bitfld.long 0x8 7. "SOFTEVTEN,Start of [u]frame" "0,1" newline bitfld.long 0x8 6. "U3L2L1SUSPEN,U3/L2 or U3/L2L1 Suspend Event Enable. Note: - If GUCTL1[DEV_DECOUPLE_L1L2_EVT] is enabled then this bit is for U3/L2 Suspend Event Enable. - If GUCTL1[DEV_DECOUPLE_L1L2_EVT] is not enabled then this bit is for U3/L2L1 Suspend Event.." "0,1" newline bitfld.long 0x8 5. "HIBERNATIONREQEVTEN,This bit enables/disables the generation of the Hibernation Request Event." "0,1" newline bitfld.long 0x8 4. "WKUPEVTEN,U3/L2 or U3/L2L1 Resume Detected Event Enable. Note: - If GUCTL1[DEV_DECOUPLE_L1L2_EVT] is enabled then this bit is for U3/L2 Resume Detected Event Enable. - If GUCTL1[DEV_DECOUPLE_L1L2_EVT] is not enabled then this bit is for U3/L2L1.." "0,1" newline bitfld.long 0x8 3. "ULSTCNGEN,USB/Link State Change Event Enable" "0,1" newline bitfld.long 0x8 2. "CONNECTDONEEVTEN,Connection Done Enable" "0,1" newline bitfld.long 0x8 1. "USBRSTEVTEN,USB Reset Enable" "0,1" newline bitfld.long 0x8 0. "DISSCONNEVTEN,Disconnect Detected Event Enable" "0,1" line.long 0xC "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_DSTS,Device Status Register" rbitfld.long 0xC 29. "DCNRD,Device Controller Not Ready The bit indicates that the controller is in the process of completing the state transitions after exiting from hibernation. To complete the state transitions it takes 256 bus clock cycles from the time.." "0,1" newline bitfld.long 0xC 28. "SRE,Save Restore Error. Currently not supported." "0,1" newline rbitfld.long 0xC 25. "RSS,RSS Restore State Status This bit is similar to the USBSTS.RSS in host mode. When the controller finishes the restore process it completes the command by setting DSTS.RSS to '0'." "0,1" newline rbitfld.long 0xC 24. "SSS,SSS Save State Status This bit is similar to the USBSTS.SSS in host mode. When the controller has finished the save process it completes the command by setting DSTS.SSS to '0'." "0,1" newline rbitfld.long 0xC 23. "COREIDLE,Core Idle The bit indicates that the controller finished transferring all RxFIFO data to system memory writing out all completed descriptors and all Event Counts are zero. Note: While testing for Reset values mask out the read value." "0,1" newline rbitfld.long 0xC 22. "DEVCTRLHLT,Device Controller Halted This bit is set to 0 when the Run/Stop bit in the DCTL register is set to 1. The controller sets this bit to 1 when after SW sets Run/Stop to 0 the controller is idle and the lower layer finishes the disconnect.." "0,1" newline hexmask.long.byte 0xC 18.--21. 1. "USBLNKST,USBLNKST. USB/Link State In SS mode: LTSSM State - 4'h0: U0 - 4'h1: U1 - 4'h2: U2 - 4'h3: U3 - 4'h4: SS_DIS - 4'h5: RX_DET - 4'h6: SS_INACT - 4'h7: POLL - 4'h8: RECOV - 4'h9: HRESET - 4'ha: CMPLY - 4'hb: LPBK - 4'hf: Resume/Reset.." newline rbitfld.long 0xC 17. "RXFIFOEMPTY,RxFIFO Empty." "0,1" newline hexmask.long.word 0xC 3.--16. 1. "SOFFN,Frame/Microframe Number of the Received SOF. When the controller is operating at SuperSpeed - [16:3] indicates the uframe/ITP number When the controller is operating at high-speed - [16:6] indicates the frame number - [5:3] indicates the.." newline rbitfld.long 0xC 0.--2. "CONNECTSPD,Connected Speed [ConnectSpd] Indicates the speed at which the DWC_usb3 controller has come up after speed detection through a chirp sequence. - 3'b100: SuperSpeed [PHY clock is running at 125 or 250 MHz] - 3'b000: High-speed [PHY clock is.." "0: High-speed [PHY clock is running at 30 or 60 MHz],1: Full-speed [PHY clock is running at 30 or 60..,?,?,4: SuperSpeed [PHY clock is running at 125 or 250..,?,?,?" line.long 0x10 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_DGCMDPAR,Device Generic Command Parameter Register" hexmask.long 0x10 0.--31. 1. "PARAMETER,PARAMETER" line.long 0x14 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_DGCMD,Device Generic Command Register" hexmask.long.byte 0x14 12.--15. 1. "CMDSTATUS,Command Status - 1: CmdErr: Indicates that the device controller encountered an error while processing the command. - 0: Indicates command success" newline bitfld.long 0x14 10. "CMDACT,Command Active The software sets this bit to 1 to enable the device controller to execute the generic command. The device controller sets this bit to 0 after executing the command." "0,1" newline bitfld.long 0x14 8. "CMDIOC,Command Interrupt on Complete When this bit is set the device controller issues a Generic Command Completion event after executing the command. Note that this interrupt is mapped to DCFG.IntrNum. Note: This field must not set to '1' if the.." "0,1" newline hexmask.long.byte 0x14 0.--7. 1. "CMDTYP,CMDTYP Generic Command Type Specifies the type of generic command the software driver is requesting the controller to perform. - 02h: Set Periodic Parameters - 04h: Set Scratchpad Buffer Array Address Lo - 05h: Set Scratchpad Buffer Array.." group.long 0x20++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_DEV_DALEPENA,Device Active USB Endpoint Enable Register." hexmask.long 0x0 0.--31. 1. "USBACTEP,USBACTEP USB Active Endpoints [USBActEP] This field indicates if a USB endpoint is active in the current configuration and interface. It applies to USB IN endpoints 0.15 and OUT endpoints 0.15 with one bit for each of the 32 possible.." tree.end tree "USB1_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_EXTCAP (USB1_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_EXTCAP)" base ad:0x31100960 group.long 0x0++0x7 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_EXTCAP_USBLEGSUP,USBLEGSUP" bitfld.long 0x0 24. "HC_OS_OWNED,HC_OS_OWNED SEMAPHORE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x0 16. "HC_BIOS_OWNED,HC_BIOS_OWNED SEMAPHORE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" hexmask.long.byte 0x0 8.--15. 1. "NEXT_CAPABILITY_POINTER,NEXT_CAPABILITY_POINTER For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." newline hexmask.long.byte 0x0 0.--7. 1. "CAPABILITY_ID,CAPABILITY_ID set_register_field_attribute DWC_usb3_map/DWC_usb3_block_HC_Extended_Capability_Register/USBLEGSUP/CAPABILITY_ID RegisterResetValue 0x1 For a description of this standard USB register field see the eXtensible Host Controller.." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_EXTCAP_USBLEGCTLSTS,USBLEGCTLSTS" bitfld.long 0x4 31. "SMI_ON_BAR,SMI_ON_BAR For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x4 30. "SMI_ON_PCI,SMI_ON_PCI COMMAND For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x4 29. "SMI_ON_OS,SMI_ON_OS OWNERSHIP CHANGE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline rbitfld.long 0x4 20. "SMI_ON_HOST,SMI_ON_HOST SYSTEM ERROR For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" rbitfld.long 0x4 16. "SMI_ON_EVENT,SMI_ON_EVENT INTERRUPT For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x4 15. "SMI_ON_BAR_E,SMI_ON_BAR ENABLE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x4 14. "SMI_ON_PCI_E,SMI_ON_PCI COMMAND ENABLE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x4 13. "SMI_ON_OS_E,SMI_ON_OS OWNERSHIP ENABLE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x4 4. "SMI_ON_HOST_E,SMI_ON_HOST SYSTEM ERROR ENABLE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x4 0. "USB_SMI_ENABLE,USB_SMI_ENABLE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" tree.end tree "USB1_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_GBL (USB1_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_GBL)" base ad:0x3110C100 group.long 0x0++0x1F line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GSBUSCFG0,Global SoC Bus Configuration Register 0" hexmask.long.byte 0x0 28.--31. 1. "DATRDREQINFO,DATRDREQINFO AHB-prot/AXI-cache/OCP-ReqInfo for Data Read [DatRdReqInfo] Input to BUS-GM." newline hexmask.long.byte 0x0 24.--27. 1. "DESRDREQINFO,DESRDREQINFO AHB-prot/AXI-cache/OCP-ReqInfo for Descriptor Read [DesRdReqInfo]. Input to BUS-GM." newline hexmask.long.byte 0x0 20.--23. 1. "DATWRREQINFO,DATWRREQINFO AHB-prot/AXI-cache/OCP-ReqInfo for Data Write [DatWrReqInfo]. Input to BUS-GM." newline hexmask.long.byte 0x0 16.--19. 1. "DESWRREQINFO,DESWRREQINFO AHB-prot/AXI-cache/OCP-ReqInfo for Descriptor Write [DesWrReqInfo] Input to BUS-GM." newline hexmask.long.byte 0x0 12.--15. 1. "RESERVED,Reserved for future use" newline bitfld.long 0x0 11. "DATBIGEND,Data Access is Big Endian This bit controls the endian mode for data accesses. - Little-endian [default]. - Big-endian. In big-endian mode DMA access [both read and write] for packet data a Byte Invariant Big-Endian mode [see.." "0,1" newline bitfld.long 0x0 10. "DESBIGEND,Descriptor Access is Big Endian This bit controls the endian mode for descriptor accesses. - Little-endian [default] - Big-endian In big-endian mode DMA access [both read and write] for descriptors uses a Byte Invariant Big-Endian mode.." "0,1" newline bitfld.long 0x0 7. "INCR256BRSTENA,INCR256 Burst Type Enable Input to BUS-GM. For the AHB/AXI configuration if software set this bit to 1 the AHB/AXI initiator uses INCR to do the 256-beat burst." "0,1" newline bitfld.long 0x0 6. "INCR128BRSTENA,INCR128 Burst Type Enable Input to BUS-GM. For the AHB/AXI configuration if software set this bit to 1 the AHB/AXI initiator uses INCR to do the 128-beat burst." "0,1" newline bitfld.long 0x0 5. "INCR64BRSTENA,INCR64 Burst Type Enable - Input to BUS-GM. For the AHB/AXI configuration if software set this bit to 1 the AHB/AXI initiator uses INCR to do the 64-beat burst." "0,1" newline bitfld.long 0x0 4. "INCR32BRSTENA,INCR32 Burst Type Enable Input to BUS-GM. For the AHB/AXI configuration if software set this bit to 1 the AHB/AXI initiator uses INCR to do the 32-beat burst." "0,1" newline bitfld.long 0x0 3. "INCR16BRSTENA,INCR16 Burst Type Enable Input to BUS-GM. For the AHB/AXI configuration if software set this bit to '1' the AHB/AXI initiator uses INCR to do the 16-beat burst." "0,1" newline bitfld.long 0x0 2. "INCR8BRSTENA,INCR8 Burst Type Enable Input to BUS-GM. For the AHB/AXI configuration if software set this bit to 1 the AHB/AXI initiator uses INCR to do the 8-beat burst." "0,1" newline bitfld.long 0x0 1. "INCR4BRSTENA,INCR4 Burst Type Enable Input to BUS-GM. For the AXI configuration when this bit is enabled the controller is allowed to do bursts of beat length 1 2 and 4. It is highly recommended that this bit is enabled to prevent descriptor reads.." "0,1" newline bitfld.long 0x0 0. "INCRBRSTENA,Undefined Length INCR Burst Type Enable [INCRBrstEna] Input to BUS-GM. This bit determines the set of burst lengths the initiator interface uses. It works in conjunction with the GSBUSCFG0[7:1] enables [INCR256/128/64/32/16/8/4]. 0: INCRX.." "0: INCRX burst mode HBURST [for AHB configurations]..,1: INCR [undefined length] burst mode" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GSBUSCFG1,Global SoC Bus Configuration Register 1" bitfld.long 0x4 12. "EN1KPAGE,1k Page Boundary Enable By default [this bit is disabled] the AXI breaks transfers at the 4k page boundary. When this bit is enabled the AXI initiator [DMA data] breaks transfers at the 1k page boundary." "0,1" newline hexmask.long.byte 0x4 8.--11. 1. "PIPETRANSLIMIT,AXI Pipelined Transfers Burst Request Limit The field controls the number of outstanding pipelined transfer requests the AXI initiator pushes to the AXI target. When the AXI initiator reaches this limit it does not make any more.." line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXTHRCFG,Global Tx Threshold Control Register" bitfld.long 0x8 29. "USBTXPKTCNTSEL,USB Transmit Packet Count Enable This field enables/disables the USB transmission multi-packet thresholding: - 0: USB transmission multi-packet thresholding is disabled. the controller can start transmission on the USB after the entire.." "0: USB transmission multi-packet thresholding is..,1: USB transmission multi-packet thresholding is.." newline hexmask.long.byte 0x8 24.--27. 1. "USBTXPKTCNT,USB Transmit Packet Count This field specifies the number of packets that must be in the TXFIFO before the controller can start transmission for the corresponding USB transaction [burst]. This field is only valid when the USB Transmit Packet.." newline hexmask.long.byte 0x8 16.--23. 1. "USBMAXTXBURSTSIZE,USB Maximum TX Burst Size When UsbTxPktCntSel is one this field specifies the Maximum Bulk OUT burst the controller can do. When the system bus is slower than the USB TX FIFO can underrun during a long burst. User can program a.." newline bitfld.long 0x8 15. "RESERVED,Reserved_15" "0,1" newline bitfld.long 0x8 14. "RESERVED,Reserved1[Rsvd/Rs] Register field must write only 0 by the application. The read value must be treated as X [unknown]." "0,1" newline bitfld.long 0x8 11.--13. "RESERVED,Reserved [Rsvd/Rs] The register field must write only 0 by the application. The read value must be treated as X [unknown]." "0,1,2,3,4,5,6,7" newline hexmask.long.word 0x8 0.--10. 1. "RESERVED,Reserved for future use" line.long 0xC "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GRXTHRCFG,Global Rx Threshold Control Register" bitfld.long 0xC 29. "USBRXPKTCNTSEL,USB Receive Packet Count Enable This field enables/disables the USB reception multi-packet thresholding: - 0: The controller can only start reception on the USB when the RX FIFO has space for at least one packet. - 1: The controller can.." "0: The controller can only start reception on the..,1: The controller can only start reception on the.." newline hexmask.long.byte 0xC 24.--27. 1. "USBRXPKTCNT,USB Receive Packet Count In host mode this field specifies the space [in terms of the number of packets] that must be available in the RX FIFO before the controller can start the corresponding USB RX transaction [burst]. In device mode .." newline hexmask.long.byte 0xC 19.--23. 1. "USBMAXRXBURSTSIZE,USB Maximum Receive Burst Size In host mode this field specifies the Maximum Bulk IN burst the DWC_usb3 controller can perform. When the system bus is slower than the USB RX FIFO can overrun during a long burst. You can program a.." newline hexmask.long.word 0xC 0.--12. 1. "RESVISOCOUTSPC,Space reserved in Rx FIFO for ISOC OUT In host mode this field is not applicable and must be programmed to 0. In device mode this value represents the amount of space to be reserved for ISOC OUT packets. The value to be programmed.." line.long 0x10 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GCTL,Global Core Control Register" hexmask.long.word 0x10 19.--31. 1. "PWRDNSCALE,Power Down Scale [PwrDnScale] The USB3 suspend_clk input replaces pipe3_rx_pclk as a clock source to a small part of the USB3 controller that operates when the SS PHY is in its lowest power [P3] state and therefore does not provide a clock." newline bitfld.long 0x10 18. "MASTERFILTBYPASS,Initiator Filter Bypass When this bit is set to 1'b1 irrespective of the parameter DWC_USB3_EN_BUS_FILTERS chosen all the filters in the DWC_usb3_filter module are bypassed. The double synchronizers to mac_clk preceding the filters.." "0,1" newline bitfld.long 0x10 17. "BYPSSETADDR,Bypass SetAddress in Device Mode. When BYPSSETADDR bit is set the device controller uses the value in the DCFG[DevAddr] bits directly for comparing the device address in the tokens. For simulation you can use this feature to avoid.." "0,1" newline bitfld.long 0x10 16. "U2RSTECN,U2RSTECN If the SuperSpeed connection fails during POLL or LMP exchange the device connects at non-SS mode. If this bit is set then device attempts three more times to connect at SS even if it previously failed to operate in SS mode. For.." "0,1" newline bitfld.long 0x10 14.--15. "FRMSCLDWN,FRMSCLDWN This field scales down device view of a SOF/USOF/ITP duration. For SS/HS mode: - Value of 2'h3 implements interval to be 15.625 us - Value of 2'h2 implements interval to be 31.25 us - Value of 2'h1 implements interval to be 62.5.." "0,1,2,3" newline bitfld.long 0x10 12.--13. "PRTCAPDIR,PRTCAPDIR: Port Capability Direction [PrtCapDir] - 2'b01: for Host configurations - 2'b10: for Device configurations Note: For static Host-only/Device-only applications use DRD Host or DRD Device mode. The combination of GCTL.PrtCapDir=2'b11.." "?,1: for Host configurations,2: for Device configurations Note: For static..,?" newline bitfld.long 0x10 11. "CORESOFTRESET,Core Soft Reset [CoreSoftReset] - 1'b0 - No soft reset - 1'b1 - Soft reset to controller Clears the interrupts and all the CSRs except the following registers: - GCTL - GUCTL - GSTS - GSNPSID - GGPIO - GUID - GUSB2PHYCFGn registers.." "0,1" newline bitfld.long 0x10 10. "SOFITPSYNC,SOFITPSYNC If this bit is set to '0' operating in host mode the controller keeps the UTMI/ULPI PHY on the first port in a non-suspended state whenever there is a SuperSpeed port that is not in Rx.Detect SS.Disable and U3. If this bit is.." "0,1" newline bitfld.long 0x10 9. "U1U2TIMERSCALE,Disable U1/U2 timer Scaledown [U1U2TimerScale]. If set to '1' along with GCTL[5:4] [ScaleDown] = 2'bX1 disables the scale down of U1/U2 inactive timer values. This is for simulation mode only." "0,1" newline bitfld.long 0x10 8. "DEBUGATTACH,Debug Attach When this bit is set - SS Link proceeds directly to the Polling link state [after RUN/STOP in the DCTL register is asserted] without checking remote termination. - Link LFPS polling timeout is infinite. - Polling timeout.." "0,1" newline bitfld.long 0x10 6.--7. "RAMCLKSEL,RAM Clock Select [RAMClkSel] - 2'b00: bus clock - 2'b01: pipe clock [Only used in device mode] - 2'b10: In device mode pipe/2 clock.In Host mode controller switches ram_clk between pipe/2 clock mac2_clk and bus_clk based on the status of.." "0: bus clock,1: pipe clock [Only used in device mode],2: In device mode,3: In device mode" newline bitfld.long 0x10 4.--5. "SCALEDOWN,Scale-Down Mode [ScaleDown] When Scale-Down mode is enabled for simulation the controller uses scaled-down timing values resulting in faster simulations. When Scale-Down mode is disabled actual timing values are used. This is required for.." "0: Disables all scale-downs,1: Enables scaled down SS timing and repeat values..,2: No TxEq training sequences are sent,3: Enables bit 0 and bit 1 scale-down timing values" newline bitfld.long 0x10 3. "DISSCRAMBLE,Disable Scrambling [DisScramble] Transmit request to Link Partner on next transition to Recovery or Polling." "0,1" newline bitfld.long 0x10 2. "U2EXIT_LFPS,U2EXIT_LFPS If this bit is - 0: the link treats 248ns LFPS as a valid U2 exit. - 1: the link waits for 8us of LFPS before it detects a valid U2 exit. This bit is added to improve interoperability with a third-party host/device.." "0: the link treats 248ns LFPS as a valid U2 exit,1: the link waits for 8us of LFPS before it detects.." newline rbitfld.long 0x10 1. "GBLHIBERNATIONEN,GblHibernationEn This bit enables hibernation at the global level. If hibernation is not enabled through this bit the PMU immediately accepts the D0->D3 and D3->D0 power state change requests but does not save or restore any.." "0,1" newline bitfld.long 0x10 0. "DSBLCLKGTNG,Disable Clock Gating [DsblClkGtng] This bit is set to 1 and the controller is in Low Power mode internal clock gating is disabled. You can set this bit to 1'b1 after Power On Reset." "0,1" line.long 0x14 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GPMSTS,Global Power Management Status Register" hexmask.long.byte 0x14 28.--31. 1. "PORTSEL,Global Power Management Status Register PortSel This field selects the port number." newline hexmask.long.byte 0x14 12.--16. 1. "U3WAKEUP,U3Wakeup This field gives the following USB 3.0 port wakeup conditions: - Bit [12]: Overcurrent Detected - Bit [13]: Resume Detected - Bit [14]: Connect Detected - Bit [15]: Disconnect Detected - Bit [16]: Last Connection State" newline hexmask.long.word 0x14 0.--9. 1. "U2WAKEUP,U2Wakeup This field indicates the following USB 2.0 port wakeup conditions: - Bit [0]: Overcurrent Detected - Bit [1]: Resume Detected - Bit [2]: Connect Detected - Bit [3]: Disconnect Detected - Bit [4]: Last Connection State - Bit [5]:.." line.long 0x18 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GSTS,Global Status Register" hexmask.long.word 0x18 20.--31. 1. "CBELT,Current BELT Value In Host mode this field indicates the minimum value of all received device BELT values and the BELT value that is set by the Set Latency Tolerance Value command." newline rbitfld.long 0x18 11. "SSIC_IP,This field is not used." "0,1" newline rbitfld.long 0x18 10. "OTG_IP,This field is not used." "0,1" newline rbitfld.long 0x18 9. "BC_IP,Battery Charger Interrupt Pending This field indicates that there is a pending interrupt pertaining to BC in BCEVT register." "0,1" newline rbitfld.long 0x18 8. "ADP_IP,This field is not used." "0,1" newline rbitfld.long 0x18 7. "HOST_IP,Host Interrupt Pending: This field indicates that there is a pending interrupt pertaining to xHC in the Host event queue." "0,1" newline rbitfld.long 0x18 6. "DEVICE_IP,Device Interrupt Pending This field indicates that there is a pending interrupt pertaining to peripheral [device] operation in the Device event queue." "0,1" newline bitfld.long 0x18 5. "CSRTIMEOUT,CSR Timeout When this bit is 1'b1 it indicates that the software performed a write or read to a controller register that could not be completed within DWC_USB3_CSR_ACCESS_TIMEOUT bus clock cycles [default: h1FFFF]." "0,1" newline bitfld.long 0x18 4. "BUSERRADDRVLD,Bus Error Address Valid [BusErrAddrVld] Indicates that the GBUSERRADDR register is valid and reports the first bus address that encounters a bus error. Note: Only supported in AHB and AXI configurations." "0,1" newline rbitfld.long 0x18 0.--1. "CURMOD,Current Mode of Operation [CurMod] Indicates the current mode of operation: - 2'b00: Device mode - 2'b01: Host mode" "0: Device mode,1: Host mode,?,?" line.long 0x1C "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GUCTL1,Global User Control Register 1" bitfld.long 0x1C 31. "DEV_DECOUPLE_L1L2_EVT,DEV_DECOUPLE_L1L2_EVT - 0: Default behavior no change in device events L1/L2U3 events are not decoupled [old behavior of v2.90a and before] - 1: Feature enabled L1 and L2 events are separated when operating in 2.0 mode. Separate.." "0: Default behavior,1: Feature enabled" newline bitfld.long 0x1C 30. "DS_RXDET_MAX_TOUT_CTRL,DS_RXDET_MAX_TOUT_CTRL This bit is used to control the tRxDetectTimeoutDFP timer for the SuperSpeed link. - 0: Default behavior. 12ms is used as tRxDetectTimeoutDFP. - 1: 120ms is used as the tRxDetectTimeoutDFP. This bit is.." "0: Default behavior,1: 120ms is used as the tRxDetectTimeoutDFP" newline bitfld.long 0x1C 29. "FILTER_SE0_FSLS_EOP,FILTER_SE0_FSLS_EOP - 0: Default behavior no change in Linestate check for SE0 detection in FS/LS - 1: Feature enabled FS/LS SE0 is filtered for 2 clocks for detecting EOP This bit is applicable for FS/LS operation. If this.." "0: Default behavior,1: Feature enabled" newline bitfld.long 0x1C 28. "TX_IPGAP_LINECHECK_DIS,TX_IPGAP_LINECHECK_DIS - 0: Default behavior no change in Linestate check - 1: Feature enabled 2.0 MAC disables Linestate check during HS transmit This bit is applicable for HS operation of u2mac. If this feature is enabled .." "0: Default behavior,1: Feature enabled" newline bitfld.long 0x1C 27. "DEV_TRB_OUT_SPR_IND,DEV_TRB_OUT_SPR_IND - 0: Default behavior no change in TRB status dword - 1: Feature enabled OUT TRB status indicates Short Packet This bit is applicable for device mode only [and ignored in host mode]. If the device application.." "0: Default behavior,1: Feature enabled" newline bitfld.long 0x1C 26. "DEV_FORCE_20_CLK_FOR_30_CLK,DEV_FORCE_20_CLK_FOR_30_CLK - 0: Default behavior Uses 3.0 clock when operating in 2.0 mode - 1: Feature enabled This bit is applicable [and to be set] for device mode [DCFG.Speed != SS] only. In the 3.0 device controller .." "0: Default behavior,1: Feature enabled This bit is applicable [and to.." newline bitfld.long 0x1C 25. "P3_IN_U2,P3_IN_U2 - 0: Default behavior When SuperSpeed link is in U2 PowerState P2 is attempted on the PIPE Interface. - 1: When SuperSpeed link is in U2 PowerState P3 is attempted if GUSB3PIPECTL[17] is set. Setting this bit enables P3 Power State.." "0: Default behavior,1: When SuperSpeed link is in U2" newline bitfld.long 0x1C 24. "DEV_L1_EXIT_BY_HW,DEV_L1_EXIT_BY_HW - 0: Default behavior disables device L1 hardware exit logic - 1: feature enabled This bit is applicable for device mode [2.0] only. This field enables device controller sending remote wakeup for L1 if the device.." "0: Default behavior,1: feature enabled This bit is applicable for.." newline bitfld.long 0x1C 21.--23. "IP_GAP_ADD_ON,This register field is used to add on to the default inter packet gap setting in the USB 2.0 MAC. This should be programmed to a non zero value only in case where you need to increase the default inter packet delay calculations in the USB.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x1C 20. "DEV_LSP_TAIL_LOCK_DIS,DEV_LSP_TAIL_LOCK_DIS - 0: Default behavior enables device lsp lock logic for tail TRB update - 1: Fix disabled This is a bug fix for STAR 9000716195 that affects the CSP mode for OUT endpoints in device mode. The issue is that.." "0: Default behavior,1: Fix disabled This is a bug fix for STAR.." newline bitfld.long 0x1C 19. "NAK_PER_ENH_FS,NAK_PER_ENH_FS - 1: Enables performance enhancement for FS async endpoints in the presence of NAKs - 0: Enhancement not applied If a periodic endpoint is present and if a bulk endpoint which is also active is being NAKed by the device .." "0: Enhancement not applied If a periodic endpoint..,1: Enables performance enhancement for FS async.." newline bitfld.long 0x1C 18. "NAK_PER_ENH_HS,NAK_PER_ENH_HS - 1: Enables performance enhancement for HS async endpoints in the presence of NAKs - 0: Enhancement not applied If a periodic endpoint is present and if a bulk endpoint which is also active is being NAKed by the device .." "0: Enhancement not applied If a periodic endpoint..,1: Enables performance enhancement for HS async.." newline bitfld.long 0x1C 17. "PARKMODE_DISABLE_SS,PARKMODE_DISABLE_SS This bit is used only in host mode and is for debug purpose only. When this bit is set to '1' all SS bus instances in park mode are disabled." "0,1" newline bitfld.long 0x1C 16. "PARKMODE_DISABLE_HS,PARKMODE_DISABLE_HS This bit is used only in host mode. When this bit is set to '1' all HS bus instances park mode are disabled. To improve performance in park mode the xHCI scheduler queues in three requests of 4 packets each for.." "0,1" newline bitfld.long 0x1C 15. "PARKMODE_DISABLE_FSLS,PARKMODE_DISABLE_FSLS This bit is used only in host mode and is for debug purpose only. When this bit is set to '1' all FS/LS bus instances in park mode disabled." "0,1" newline rbitfld.long 0x1C 12. "DISUSB2REFCLKGTNG,Disable ref_clk gating for 2.0 PHY [DisUSB2RefClkGtng] If ref_clk gating is disabled then the ref_clk input cannot be turned off to the USB 2.0 PHY and controller. This is independent of the GCTL[DisClkGtng] setting. - 1'b0: ref_clk.." "0: ref_clk gating enabled for USB 2,1: ref_clk gating disabled for USB 2" newline rbitfld.long 0x1C 11. "DISREFCLKGTNG,Disable ref_clk gating [DisRefClkGtng] If the ref_clk gating is disabled then input ref_clk cannot be turned off to SSPHY and controller. This is independent of GCTL[DisClkGtng] setting. - 1'b0: ref_clk gating Enabled for SSPHY - 1'b1:.." "0: ref_clk gating Enabled for SSPHY,1: ref_clk gating Disabled for SSPHY" newline bitfld.long 0x1C 10. "RESUME_OPMODE_HS_HOST,RESUME_OPMODE_HS_HOST This bit is used only in host mode and is for USB 2.0 opmode behavior in HS Resume. - When this bit is set to '1' the UTMI/ULPI opmode will be changed to normal along with HS terminations after EOR. This.." "0,1" newline bitfld.long 0x1C 9. "DEV_HS_NYET_BULK_SPR,DEV_HS_NYET_BULK_SPR - 0: Default behavior no change in device response - 1: Feature enabled HS bulk OUT short packet gets NYET response This bit is applicable for device mode only [and ignored in host mode] to be used in 2.0.." "0: Default behavior,1: Feature enabled" newline bitfld.long 0x1C 8. "L1_SUSP_THRLD_EN_FOR_HOST,L1_SUSP_THRLD_EN_FOR_HOST This bit is used only in host mode. The host controller asserts the utmi_l1_suspend_n and utmi_sleep_n output signals [see LPM Interface Signals table in the Databook] as follows: The controller.." "0,1" newline hexmask.long.byte 0x1C 4.--7. 1. "L1_SUSP_THRLD_FOR_HOST,L1_SUSP_THRLD_FOR_HOST This field is effective only when the L1_SUSP_THRLD_EN_FOR_HOST bit is set to 1. For more details refer to the description of the L1_SUSP_THRLD_EN_FOR_HOST bit." newline bitfld.long 0x1C 3. "HC_ERRATA_ENABLE,Host ELD Enable [HELDEn] When this bit is set to 1 it enables the Exit Latency Delta [ELD] support defined in the xHCI 1.0 Errata. This bit is used only in the host mode. This bit has to be set to 1 in Host mode." "0,1" newline bitfld.long 0x1C 2. "HC_PARCHK_DISABLE,Host Parameter Check Disable [HParChkDisable] When this bit is set to '0' [by default] the xHC checks that the input slot/EP context fields comply to the xHCI Specification. Upon detection of a parameter error during command.." "0,1" newline bitfld.long 0x1C 1. "OVRLD_L1_SUSP_COM,OVRLD_L1_SUSP_COM If this bit is set the utmi_l1_suspend_com_n is overloaded with the utmi_sleep_n signal. This bit is usually set if the PHY stops the port clock during L1 sleep condition. Note: The recommended connection for the.." "0,1" newline bitfld.long 0x1C 0. "LOA_FILTER_EN,LOA_FILTER_EN If this bit is set the USB 2.0 port babble is checked at least three consecutive times before the port is disabled. This prevents false triggering of the babble condition when using low quality cables. Note: This bit is.." "0,1" rgroup.long 0x20++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GSNPSID,Global Synopsys ID Register" hexmask.long 0x0 0.--31. 1. "SYNOPSYSID,Synopsys ID - SynopsysID[31:16] indicates Core Identification Number. 0x5533 is ASCII for U3 [DWC_usb3]. - SynopsysID[15:0] indicates the release number. Current Release is 3.30a. Software uses this register to configure release-specific.." group.long 0x24++0xB line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GGPIO,Global General Purpose Input/Output Register" hexmask.long.word 0x0 16.--31. 1. "GPO,General Purpose Output The value of this field is driven out on the gp_out[15:0] output port." newline hexmask.long.word 0x0 0.--15. 1. "GPI,General Purpose Input The read value of this field reflects the gp_in[15:0] input signal value. Note: Register bit-bash test should not check for reset value of this field since its not predictable. depends on the gp_in port." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GUID,Global User ID Register" hexmask.long 0x4 0.--31. 1. "USERID,USERID Application-programmable ID field." line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GUCTL,Global User Control Register:" hexmask.long.word 0x8 22.--31. 1. "REFCLKPER,REFCLKPER This field indicates in terms of nano seconds the period of ref_clk. The default value of this register is set to 'h8 [8ns/125 MHz]. This field needs to be updated during power-on initialization if GCTL.SOFITPSYNC or.." newline bitfld.long 0x8 21. "NOEXTRDL,No Extra Delay Between SOF and the First Packet[NoExtrDl] Some HS devices misbehave when the host sends a packet immediately after a SOF. However adding an extra delay between a SOF and the first packet can reduce the USB data rate and.." "0: Host waits for 2 microseconds after a SOF before..,1: Host doesn't wait after a SOF before it sends.." newline bitfld.long 0x8 17. "SPRSCTRLTRANSEN,Sparse Control Transaction Enable Some devices are slow in responding to Control transfers. Scheduling multiple transactions in one microframe/frame can cause these devices to misbehave. If this bit is set to 1'b1 the host controller.." "0,1" newline bitfld.long 0x8 16. "RESBWHSEPS,Reserving 85% Bandwidth for HS Periodic EPs [ResBwHSEPS] By default HC reserves 800f the bandwidth for periodic EPs. If this bit is set the bandwidth is relaxed to 85% to accommodate two high speed high bandwidth ISOC EPs. USB 2.0.." "0,1" newline bitfld.long 0x8 14. "USBHSTINAUTORETRYEN,Host IN Auto Retry [USBHstInAutoRetryEn] When set this field enables the Auto Retry feature. For IN transfers [non-isochronous] that encounter data packets with CRC errors or internal overrun scenarios the auto retry feature causes.." "0: Auto Retry Disabled,1: Auto Retry Enabled Note: When enabling Auto.." newline bitfld.long 0x8 13. "ENOVERLAPCHK,Enable Check for LFPS Overlap During Remote Ux Exit: If this bit is set to - 1'b1: The SuperSpeed link when exiting U1/U2/U3 waits for either the remote link LFPS or TS1/TS2 training symbols before it confirms that the LFPS handshake is.." "0: When the link exists U1/U2/U3 because of a..,1: The SuperSpeed link when exiting U1/U2/U3 waits.." newline bitfld.long 0x8 12. "EXTCAPSUPPTEN,External Extended Capability Support Enable [ExtCapSuptEN] When set this field enables extended capabilities to be implemented outside the controller. When the ExtCapSupEN is set and the Debug Capability is enabled the Next Capability.." "0,1" newline bitfld.long 0x8 11. "INSRTEXTRFSBODI,Insert Extra Delay Between FS Bulk OUT Transactions [InsrtExtrFSBODl]. Some FS devices are slow to receive Bulk OUT data and can get stuck when there are consecutive Bulk OUT transactions with short inter-transaction delays. This bit is.." "0: Host doesn't insert extra delay between..,1: Host inserts about 12us extra delay between.." newline bitfld.long 0x8 9.--10. "DTCT,Device Timeout Coarse Tuning [DTCT] This field is a Host mode parameter which determines how long the host waits for a response from device before considering a timeout. The controller first checks the DTCT value. If it is 0 then the timeout.." "0: 0 usec -> use DTFT value instead,1: 500 usec,2: 1,3: 6" newline hexmask.long.word 0x8 0.--8. 1. "DTFT,Device Timeout Fine Tuning [DTFT] This field is a Host mode parameter which determines how long the host waits for a response from device before considering a timeout. For the DTFT field to take effect DTCT must be set to 2'b00. The DTFT value.." rgroup.long 0x30++0x7 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GBUSERRADDRLO,Gobal SoC Bus Error Address Register - Low" hexmask.long 0x0 0.--31. 1. "BUSERRADDR,Bus Address - Low [BusAddrLo] This register contains the lower 32 bits of the first bus address that encountered a SoC bus error. It is valid when the GSTS.BusErrAddrVld field is 1. It can only be cleared by resetting the controller. Note:.." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GBUSERRADDRHI,Gobal SoC Bus Error Address Register - High" hexmask.long 0x4 0.--31. 1. "BUSERRADDR,Bus Address - High [BusAddrHi] This register contains the higher 32 bits of the first bus address that encountered a SoC bus error. It is valid when the GSTS.BusErrAddrVld field is 1. It can only be cleared by resetting the controller. Note:.." group.long 0x38++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GPRTBIMAPLO,Global SS Port to Bus Instance Mapping Register - Low" hexmask.long.byte 0x0 28.--31. 1. "BINUM8,BINUM8: SS USB Instance Number for Port 8. Application-programmable ID field." newline hexmask.long.byte 0x0 24.--27. 1. "BINUM7,BINUM7: SS USB Instance Number for Port 7. Application-programmable ID field." newline hexmask.long.byte 0x0 20.--23. 1. "BINUM6,BINUM6: SS USB Instance Number for Port 6. Application-programmable ID field." newline hexmask.long.byte 0x0 16.--19. 1. "BINUM5,BINUM5: SS USB Instance Number for Port 5. Application-programmable ID field." newline hexmask.long.byte 0x0 12.--15. 1. "BINUM4,BINUM4: SS USB Instance Number for Port 4. Application-programmable ID field." newline hexmask.long.byte 0x0 8.--11. 1. "BINUM3,BINUM3: SS USB Instance Number for Port 3. Application-programmable ID field." newline hexmask.long.byte 0x0 4.--7. 1. "BINUM2,BINUM2: SS USB Instance Number for Port 2. Application-programmable ID field." newline hexmask.long.byte 0x0 0.--3. 1. "BINUM1,BINUM1: SS USB Instance Number for Port 1. Application-programmable ID field." rgroup.long 0x3C++0x23 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GPRTBIMAPHI,Global SS Port to Bus Instance Mapping Register - High" hexmask.long.byte 0x0 24.--27. 1. "BINUM15,BINUM15: SS USB Instance Number for Port 15. Application-programmable ID field." newline hexmask.long.byte 0x0 20.--23. 1. "BINUM14,BINUM14: SS USB Instance Number for Port 14. Application-programmable ID field." newline hexmask.long.byte 0x0 16.--19. 1. "BINUM13,BINUM13: SS USB Instance Number for Port 13. Application-programmable ID field." newline hexmask.long.byte 0x0 12.--15. 1. "BINUM12,BINUM12: SS USB Instance Number for Port 12. Application-programmable ID field." newline hexmask.long.byte 0x0 8.--11. 1. "BINUM11,BINUM11: SS USB Instance Number for Port 11. Application-programmable ID field." newline hexmask.long.byte 0x0 4.--7. 1. "BINUM10,BINUM10: SS USB Instance Number for Port 10. Application-programmable ID field." newline hexmask.long.byte 0x0 0.--3. 1. "BINUM9,BINUM9: SS USB Instance Number for Port 9. Application-programmable ID field." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GHWPARAMS0,Global Hardware Parameters Register 0" hexmask.long.byte 0x4 24.--31. 1. "GHWPARAMS0_31_24,DWC_USB3_AWIDTH" newline hexmask.long.byte 0x4 16.--23. 1. "GHWPARAMS0_23_16,DWC_USB3_SDWIDTH" newline hexmask.long.byte 0x4 8.--15. 1. "GHWPARAMS0_15_8,DWC_USB3_MDWIDTH" newline bitfld.long 0x4 6.--7. "GHWPARAMS0_7_6,DWC_USB3_SBUS_TYPE" "0,1,2,3" newline bitfld.long 0x4 3.--5. "GHWPARAMS0_5_3,DWC_USB3_MBUS_TYPE" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 0.--2. "GHWPARAMS0_2_0,DWC_USB3_MODE" "0,1,2,3,4,5,6,7" line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GHWPARAMS1,Global Hardware Parameters Register 1" bitfld.long 0x8 31. "GHWPARAMS1_31,DWC_USB3_EN_DBC" "0,1" newline bitfld.long 0x8 30. "GHWPARAMS1_30,DWC_USB3_RM_OPT_FEATURES" "0,1" newline bitfld.long 0x8 29. "GHWPARAMS1_29,Reserved1" "0,1" newline bitfld.long 0x8 28. "GHWPARAMS1_28,DWC_USB3_RAM_BUS_CLKS_SYNC" "0,1" newline bitfld.long 0x8 27. "GHWPARAMS1_27,DWC_USB3_MAC_RAM_CLKS_SYNC" "0,1" newline bitfld.long 0x8 26. "GHWPARAMS1_26,DWC_USB3_MAC_PHY_CLKS_SYNC" "0,1" newline bitfld.long 0x8 24.--25. "GHWPARAMS1_25_24,DWC_USB3_EN_PWROPT" "0,1,2,3" newline bitfld.long 0x8 23. "GHWPARAMS1_23,DWC_USB3_SPRAM_TYP" "0,1" newline bitfld.long 0x8 21.--22. "GHWPARAMS1_22_21,DWC_USB3_NUM_RAMS" "0,1,2,3" newline hexmask.long.byte 0x8 15.--20. 1. "GHWPARAMS1_20_15,DWC_USB3_DEVICE_NUM_INT For details on DWC_USB3_DEVICE_NUM_INT refer to <workspace>/src/DWC_usb3_params.v file." newline bitfld.long 0x8 12.--14. "GHWPARAMS1_14_12,DWC_USB3_ASPACEWIDTH" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 9.--11. "GHWPARAMS1_11_9,DWC_USB3_REQINFOWIDTH" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 6.--8. "GHWPARAMS1_8_6,DWC_USB3_DATAINFOWIDTH" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 3.--5. "GHWPARAMS1_5_3,DWC_USB3_BURSTWIDTH-1" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 0.--2. "GHWPARAMS1_2_0,DWC_USB3_IDWIDTH-1" "0,1,2,3,4,5,6,7" line.long 0xC "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GHWPARAMS2,Global Hardware Parameters Register 2" hexmask.long 0xC 0.--31. 1. "GHWPARAMS2_31_0,DWC_USB3_USERID" line.long 0x10 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GHWPARAMS3,Global Hardware Parameters Register 3" hexmask.long.byte 0x10 23.--30. 1. "GHWPARAMS3_30_23,DWC_USB3_CACHE_TOTAL_XFER_RESOURCES" newline hexmask.long.byte 0x10 18.--22. 1. "GHWPARAMS3_22_18,DWC_USB3_NUM_IN_EPS" newline hexmask.long.byte 0x10 12.--17. 1. "GHWPARAMS3_17_12,DWC_USB3_NUM_EPS" newline bitfld.long 0x10 11. "GHWPARAMS3_11,DWC_USB3_ULPI_CARKIT" "0,1" newline bitfld.long 0x10 10. "GHWPARAMS3_10,DWC_USB3_VENDOR_CTL_INTERFACE" "0,1" newline bitfld.long 0x10 6.--7. "GHWPARAMS3_7_6,DWC_USB3_HSPHY_DWIDTH" "0,1,2,3" newline bitfld.long 0x10 4.--5. "GHWPARAMS3_5_4,DWC_USB3_FSPHY_INTERFACE" "0,1,2,3" newline bitfld.long 0x10 2.--3. "GHWPARAMS3_3_2,DWC_USB3_HSPHY_INTERFACE" "0,1,2,3" newline bitfld.long 0x10 0.--1. "GHWPARAMS3_1_0,DWC_USB3_SSPHY_INTERFACE" "0,1,2,3" line.long 0x14 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GHWPARAMS4,Global Hardware Parameters Register 4" hexmask.long.byte 0x14 28.--31. 1. "GHWPARAMS4_31_28,DWC_USB3_BMU_LSP_DEPTH" newline hexmask.long.byte 0x14 24.--27. 1. "GHWPARAMS4_27_24,DWC_USB3_BMU_PTL_DEPTH-1" newline bitfld.long 0x14 23. "GHWPARAMS4_23,DWC_USB3_EN_ISOC_SUPT" "0,1" newline bitfld.long 0x14 21. "GHWPARAMS4_21,DWC_USB3_EXT_BUFF_CONTROL" "0,1" newline hexmask.long.byte 0x14 17.--20. 1. "GHWPARAMS4_20_17,DWC_USB3_NUM_SS_USB_INSTANCES" newline hexmask.long.byte 0x14 13.--16. 1. "GHWPARAMS4_16_13,DWC_USB3_HIBER_SCRATCHBUFS Number of external scratchpad buffers the controller requires to save its internal state in the device mode. Each buffer is assumed to be 4KB. The scratchpad buffer array must have this many buffer pointers." newline hexmask.long.byte 0x14 0.--5. 1. "GHWPARAMS4_5_0,DWC_USB3_CACHE_TRBS_PER_TRANSFER" line.long 0x18 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GHWPARAMS5,Global Hardware Parameters Register 5" hexmask.long.byte 0x18 22.--27. 1. "GHWPARAMS5_27_22,DWC_USB3_DFQ_FIFO_DEPTH" newline hexmask.long.byte 0x18 16.--21. 1. "GHWPARAMS5_21_16,DWC_USB3_DWQ_FIFO_DEPTH" newline hexmask.long.byte 0x18 10.--15. 1. "GHWPARAMS5_15_10,DWC_USB3_TXQ_FIFO_DEPTH" newline hexmask.long.byte 0x18 4.--9. 1. "GHWPARAMS5_9_4,DWC_USB3_RXQ_FIFO_DEPTH" newline hexmask.long.byte 0x18 0.--3. 1. "GHWPARAMS5_3_0,DWC_USB3_BMU_BUSGM_DEPTH" line.long 0x1C "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GHWPARAMS6,Global Hardware Parameters Register 6" hexmask.long.word 0x1C 16.--31. 1. "GHWPARAMS6_31_16,DWC_USB3_RAM0_DEPTH" newline bitfld.long 0x1C 15. "BUSFLTRSSUPPORT,DWC_USB3_EN_BUS_FILTERS" "0,1" newline bitfld.long 0x1C 14. "BCSUPPORT,DWC_USB3_EN_BC" "0,1" newline bitfld.long 0x1C 12. "ADPSUPPORT,DWC_USB3_EN_ADP" "0,1" newline bitfld.long 0x1C 7. "GHWPARAMS6_7,DWC_USB3_EN_FPGA" "0,1" newline bitfld.long 0x1C 6. "GHWPARAMS6_6,DWC_USB3_EN_DBG_PORTS" "0,1" newline hexmask.long.byte 0x1C 0.--5. 1. "GHWPARAMS6_5_0,DWC_USB3_PSQ_FIFO_DEPTH" line.long 0x20 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GHWPARAMS7,Global Hardware Parameters Register 7" hexmask.long.word 0x20 16.--31. 1. "GHWPARAMS7_31_16,DWC_USB3_RAM2_DEPTH" newline hexmask.long.word 0x20 0.--15. 1. "GHWPARAMS7_15_0,DWC_USB3_RAM1_DEPTH" group.long 0x60++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GDBGFIFOSPACE,Global Debug Queue/FIFO Space Available Register" hexmask.long.word 0x0 16.--31. 1. "SPACE_AVAILABLE,SPACE_AVAILABLE" newline hexmask.long.word 0x0 0.--8. 1. "FIFO_QUEUE_SELECT,FIFO/Queue Select [or] Port-Select - FIFO/Queue Select[8:5] indicates the FIFO/Queue Type - FIFO/Queue Select[4:0] indicates the FIFO/Queue Number For example 9'b0_0010_0001 refers to RxFIFO_1 and 9'b0_0101_1110 refers to TxReqQ_30." rgroup.long 0x64++0xB line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GDBGLTSSM,Global Debug LTSSM Register" bitfld.long 0x0 30. "RXELECIDLE,RxElecidle For description of RxElecIdle see table 5-4 Status Interface Signals of the PIPE3 Specification." "0,1" newline bitfld.long 0x0 26. "LTDBTIMEOUT,LTDB Timeout [LTDBTimeout]" "0,1" newline hexmask.long.byte 0x0 22.--25. 1. "LTDBLINKSTATE,LTDB Link State [LTDBLinkState]" newline hexmask.long.byte 0x0 18.--21. 1. "LTDBSUBSTATE,LTDB Sub-State [LTDBSubState]" newline bitfld.long 0x0 17. "ELASTICBUFFERMODE,Elastic Buffer Mode [ElasticBufferMode] For field definition refer to Table 5-3 of the PIPE3 specification." "0,1" newline bitfld.long 0x0 16. "TXELECLDLE,Tx Elec Idle [TxElecIdle] For field definition refer to Table 5-3 of the PIPE3 specification." "0,1" newline bitfld.long 0x0 15. "RXPOLARITY,Rx Polarity [RxPolarity] For field definition refer to Table 5-3 of the PIPE3 specification." "0,1" newline bitfld.long 0x0 14. "TXDETRXLOOPBACK,Tx Detect Rx/Loopback [TxDetRxLoopback] For field definition refer to Table 5-3 of the PIPE3 specification." "0,1" newline bitfld.long 0x0 11.--13. "LTDBPHYCMDSTATE,LTSSM PHY command State [LTDBPhyCmdState] - 000: PHY_IDLE [PHY command state is in IDLE. No PHY request pending] - 001: PHY_DET [Request to start Receiver detection] - 010: PHY_DET_3 [Wait for Phy_Status [Receiver detection]] - 011:.." "0: PHY_IDLE [PHY command state is in IDLE,1: PHY_DET [Request to start Receiver detection],?,?,?,?,?,?" newline bitfld.long 0x0 9.--10. "POWERDOWN,POWERDOWN [PowerDown] For field definition refer to Table 5-3 of the PIPE3 specification." "0,1,2,3" newline bitfld.long 0x0 8. "RXEQTRAIN,RxEq Train For field definition refer to Table 5-3 of the PIPE3 specification." "0,1" newline bitfld.long 0x0 6.--7. "TXDEEMPHASIS,TXDEEMPHASIS [TxDeemphasis] For field definition refer to Table 5-3 of the PIPE3 specification." "0,1,2,3" newline bitfld.long 0x0 3.--5. "LTDBCLKSTATE,LTSSM Clock State [LTDBClkState] In multi-port host configuration the port number is defined by Port-Select[3:0] field in the GDBGFIFOSPACE register. Note: GDBGLTSSM register is not applicable for USB 2.0-only mode. - 000: CLK_NORM.." "0: CLK_NORM [PHY is in non-P3 state and PCLK is..,1: CLK_TO_P3 [P3 entry request to PHY],?,?,?,?,?,?" newline bitfld.long 0x0 2. "TXSWING,Tx Swing [TxSwing] For field definition refer to Table 5-3 of the PIPE3 specification." "0,1" newline bitfld.long 0x0 1. "RXTERMINATION,Rx Termination [RxTermination] For details on DWC_USB3_PIPE_RXTERM_RESET_VAL refer to <workspace>/src/DWC_usb3_params.v" "0,1" newline bitfld.long 0x0 0. "TXONESZEROS,Tx Ones/Zeros [TxOnesZeros] For field definition refer to Table 5-3 of the PIPE3 specification." "0,1" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GDBGLNMCC,Global Debug LNMCC Register" hexmask.long.word 0x4 0.--8. 1. "LNMCC_BERC,This field indicates the bit error rate information for the port selected in the GDBGFIFOSPACE.PortSelect field. This field is for debug purposes only." line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GDBGBMU,Global Debug BMU Register" hexmask.long.tbyte 0x8 8.--31. 1. "BMU_BCU,BMU_BCU Debug information" newline hexmask.long.byte 0x8 4.--7. 1. "BMU_DCU,BMU_DCU Debug information" newline hexmask.long.byte 0x8 0.--3. 1. "BMU_CCU,BMU_CCU Debug information" group.long 0x70++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GDBGLSPMUX_HST,Global Debug LSP MUX Register - Host" hexmask.long.byte 0x0 16.--23. 1. "LOGIC_ANALYZER_TRACE,logic_analyzer_trace Port MUX Select Currently only bits[21:16] are used. For details on how the mux controls the debug traces refer to the assign logic_analyzer_trace = code section in the DWC_usb3.v file. A value of 6'h3F drives.." newline hexmask.long.word 0x0 0.--13. 1. "HOSTSELECT,Device LSP Select Selects the LSP debug information presented in the GDBGLSP register in host mode." rgroup.long 0x74++0xB line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GDBGLSP,Global Debug LSP Register" hexmask.long 0x0 0.--31. 1. "LSPDEBUG,LSP Debug Information" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GDBGEPINFO0,Global Debug Endpoint Information Register 0" hexmask.long 0x4 0.--31. 1. "EPDEBUG,Endpoint Debug Information bits[31:0]" line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GDBGEPINFO1,Global Debug Endpoint Information Register 1" hexmask.long 0x8 0.--31. 1. "EPDEBUG,Endpoint Debug Information bits[63:32]" group.long 0x80++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GPRTBIMAP_HSLO,Global High-Speed Port to Bus Instance Mapping Register - Low" hexmask.long.byte 0x0 28.--31. 1. "BINUM8,BINUM8: HS USB Instance Number for Port 8. Application-programmable ID field." newline hexmask.long.byte 0x0 24.--27. 1. "BINUM7,BINUM7: HS USB Instance Number for Port 7. Application-programmable ID field." newline hexmask.long.byte 0x0 20.--23. 1. "BINUM6,BINUM6 USB Instance Number for Port 6. Application-programmable ID field." newline hexmask.long.byte 0x0 16.--19. 1. "BINUM5,BINUM5: HS USB Instance Number for Port 5. Application-programmable ID field." newline hexmask.long.byte 0x0 12.--15. 1. "BINUM4,BINUM4: HS USB Instance Number for Port 4. Application-programmable ID field." newline hexmask.long.byte 0x0 8.--11. 1. "BINUM3,BINUM3: HS USB Instance Number for Port 3. Application-programmable ID field." newline hexmask.long.byte 0x0 4.--7. 1. "BINUM2,BINUM2: HS USB Instance Number for Port 2. Application-programmable ID field." newline hexmask.long.byte 0x0 0.--3. 1. "BINUM1,BINUM1: HS USB Instance Number for Port 1. Application-programmable ID field." rgroup.long 0x84++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GPRTBIMAP_HSHI,Global High-Speed Port to Bus Instance Mapping Register - High" hexmask.long.byte 0x0 24.--27. 1. "BINUM15,BINUM15: HS USB Instance Number for Port 15. Application-programmable ID field." newline hexmask.long.byte 0x0 20.--23. 1. "BINUM14,BINUM14: HS USB Instance Number for Port 14. Application-programmable ID field." newline hexmask.long.byte 0x0 16.--19. 1. "BINUM13,BINUM13: HS USB Instance Number for Port 13. Application-programmable ID field." newline hexmask.long.byte 0x0 12.--15. 1. "BINUM12,BINUM12: HS USB Instance Number for Port 12. SApplication-programmable ID field." newline hexmask.long.byte 0x0 8.--11. 1. "BINUM11,BINUM11: HS USB Instance Number for 11. Application-programmable ID field." newline hexmask.long.byte 0x0 4.--7. 1. "BINUM10,BINUM10: HS USB Instance Number for Port 10. Application-programmable ID field." newline hexmask.long.byte 0x0 0.--3. 1. "BINUM9,BINUM9: HS USB Instance Number for Port 9. Application-programmable ID field." group.long 0x88++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GPRTBIMAP_FSLO,Global Full-Speed Port to Bus Instance Mapping Register - Low" hexmask.long.byte 0x0 28.--31. 1. "BINUM8,BINUM8: FS USB Instance Number for Port 8. Application-programmable ID field." newline hexmask.long.byte 0x0 24.--27. 1. "BINUM7,BINUM7: FS USB Instance Number for Port 7. Application-programmable ID field." newline hexmask.long.byte 0x0 20.--23. 1. "BINUM6,BINUM6: FS USB Instance Number for Port 6. Application-programmable ID field." newline hexmask.long.byte 0x0 16.--19. 1. "BINUM5,BINUM5: FS USB Instance Number for Port 5. Application-programmable ID field." newline hexmask.long.byte 0x0 12.--15. 1. "BINUM4,BINUM4: FS USB Instance Number for Port 4. Application-programmable ID field." newline hexmask.long.byte 0x0 8.--11. 1. "BINUM3,BINUM3: FS USB Instance Number for Port 3. Application-programmable ID field." newline hexmask.long.byte 0x0 4.--7. 1. "BINUM2,BINUM2: FS USB Instance Number for Port 2. Application-programmable ID field." newline hexmask.long.byte 0x0 0.--3. 1. "BINUM1,BINUM1: FS USB Instance Number for Port 1. Application-programmable ID field." rgroup.long 0x8C++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GPRTBIMAP_FSHI,Global Full-Speed Port to Bus Instance Mapping Register - High" hexmask.long.byte 0x0 24.--27. 1. "BINUM15,BINUM15: FS USB Instance Number for Port 15. Application-programmable ID field" newline hexmask.long.byte 0x0 20.--23. 1. "BINUM14,BINUM14: FS USB Instance Number for Port 14. Application-programmable ID field" newline hexmask.long.byte 0x0 16.--19. 1. "BINUM13,BINUM13: FS USB Instance Number for Port 13. Application-programmable ID field" newline hexmask.long.byte 0x0 12.--15. 1. "BINUM12,BINUM12: FS USB Instance Number for Port 12. Application-programmable ID field" newline hexmask.long.byte 0x0 8.--11. 1. "BINUM11,BINUM11: FS USB Instance Number for Port 11. Application-programmable ID field" newline hexmask.long.byte 0x0 4.--7. 1. "BINUM10,BINUM10: FS USB Instance Number for Port 10. Application-programmable ID field" newline hexmask.long.byte 0x0 0.--3. 1. "BINUM9,BINUM9: FS USB Instance Number for Port 9. Application-programmable ID field." group.long 0x94++0xB line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_Reserved_94,Future Reserved Register at offset 0x94" hexmask.long 0x0 0.--31. 1. "RESERVED,Future use Register field" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_Reserved_98,Future Reserved Register at offset 0x98" hexmask.long 0x4 0.--31. 1. "RESERVED,Field for future use" line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GUCTL2,Global User Control Register 2:" hexmask.long.byte 0x8 19.--25. 1. "EN_HP_PM_TIMER,This register field is used to set new HP and PM timers. - To enable PM timer set GUCTL2[19] bit as 1. - To enable HP timer set GUCTL2[20] bit as 1. Default value of HP timer is 4us when HP PM timer is not enabled. when new HP timer is.." newline hexmask.long.byte 0x8 15.--18. 1. "NOLOWPWRDUR,No Low Power Duration [NOLOWPWRDUR] This bit is applicable for device mode only and is ignored in host mode. After starting a transfer on a SS ISOC endpoint the application must program these bits to prevent the device to lose frame.." newline bitfld.long 0x8 14. "RST_ACTBITLATER,Enable clearing of the command active bit for the ENDXFER command after the command execution is completed. This bit is valid in device mode only." "0,1" newline bitfld.long 0x8 13. "RESERVED,Reserved for future use" "0,1" newline bitfld.long 0x8 12. "ENABLEEPCACHEEVICT,Enable Evicting Endpoint cache after Flow Control for bulk endpoints. In 3.00a release a performance enhancement was done to keep the non-stream capable bulk IN endpoint in cache after flow control. Setting this bit will disable this.." "0,1" newline bitfld.long 0x8 11. "DISABLECFC,Disable xHCI Errata Feature Contiguous Frame ID Capability This field controls the xHCI Errata feature Contiguous FrameID capability. When set the xHCI HCCPARAMS1 bit 11 will be set to 0 indicating that CFC is not supported. Disable this.." "0,1" newline hexmask.long.byte 0x8 5.--10. 1. "RXPINGDURATION,Recieve Ping Maximum Duration This field is relevant to Host mode and controls the maximum duration of received LFPS to be treated as a Ping LFPS. The Max duration of the Ping LFPS is controlled by programming this value and is in terms.." newline hexmask.long.byte 0x8 0.--4. 1. "TXPINGDURATION,Transmit Ping Maximum Duration This field is relevant to Device mode and controls the maximum duration for which the controller should instruct the PHY to transmit a Ping LFPS. The duration of the Ping LFPS is controlled by programming.." rgroup.long 0x500++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GHWPARAMS8,Global Hardware Parameters Register 8" hexmask.long 0x0 0.--31. 1. "GHWPARAMS8_32_0,DWC_USB3_DCACHE_DEPTH_INFO" group.long 0x50C++0x7 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GUCTL3,Global User Control Register 3" bitfld.long 0x0 16. "SCH_PING_EARLY,Enable SuperSpeed Ping Transaction Packet scheduling early in the microframe. This bit is valid in Host mode only." "0,1" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOPRIDEV,Global Device TX FIFO DMA Priority Register" hexmask.long.word 0x4 0.--15. 1. "GTXFIFOPRIDEV,Device TxFIFO priority" group.long 0x518++0x7 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GTXFIFOPRIHST,Global Host TX FIFO DMA Priority Register" bitfld.long 0x0 0.--2. "GTXFIFOPRIHST,Host TxFIFO priority" "0,1,2,3,4,5,6,7" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GRXFIFOPRIHST,Global Host RX FIFO DMA Priority Register" bitfld.long 0x4 0.--2. "GRXFIFOPRIHST,Host RxFIFO priority" "0,1,2,3,4,5,6,7" group.long 0x524++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GDMAHLRATIO,Global Host FIFO DMA High-Low Priority Ratio Register" hexmask.long.byte 0x0 8.--12. 1. "HSTRXFIFO,Host RXFIFO DMA High-Low Priority" newline hexmask.long.byte 0x0 0.--4. 1. "HSTTXFIFO,Host TXFIFO DMA High-Low Priority" group.long 0x530++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_GBL_GFLADJ,Global Frame Length Adjustment Register" bitfld.long 0x0 31. "GFLADJ_REFCLK_240MHZDECR_PLS1,GFLADJ_REFCLK_240MHZDECR_PLS1 This field indicates that the decrement value that the controller applies for each ref_clk must be GFLADJ_REFCLK_240MHZ_DECR and GFLADJ_REFCLK_240MHZ_DECR +1 alternatively on each ref_clk." "0,1" newline hexmask.long.byte 0x0 24.--30. 1. "GFLADJ_REFCLK_240MHZ_DECR,This field indicates the decrement value that the controller applies for each ref_clk in order to derive a frame timer in terms of a 240-MHz clock. This field must be programmed to a non-zero value only if.." newline bitfld.long 0x0 23. "GFLADJ_REFCLK_LPM_SEL,This bit enables the functionality of running SOF/ITP counters on the ref_clk. This bit must not be set to '1' if GCTL.SOFITPSYNC bit is set to '1'. Similarly if GFLADJ_REFCLK_LPM_SEL set to '1' GCTL.SOFITPSYNC must not be set.." "0,1" newline bitfld.long 0x0 22. "RESERVED,Reserved for future use" "0,1" newline hexmask.long.word 0x0 8.--21. 1. "GFLADJ_REFCLK_FLADJ,This field indicates the frame length adjustment to be applied when SOF/ITP counter is running on the ref_clk. This register value is used to adjust the ITP interval when GCTL[SOFITPSYNC] is set to '1'. SOF and ITP interval when.." newline bitfld.long 0x0 7. "GFLADJ_30MHZ_SDBND_SEL,GFLADJ_30MHZ_SDBND_SEL This field selects whether to use the input signal fladj_30mhz_reg or the GFLADJ.GFLADJ_30MHZ to adjust the frame length for the SOF/ITP. When this bit is set to - 1 the controller uses the register field.." "0,1" newline bitfld.long 0x0 6. "RESERVED,Reserved for future use" "0,1" newline hexmask.long.byte 0x0 0.--5. 1. "GFLADJ_30MHZ,GFLADJ_30MHZ This field indicates the value that is used for frame length adjustment instead of considering from the sideband input signal fladj_30mhz_reg. This enables post-silicon frame length adjustment in case the input signal.." tree.end tree "USB1_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_OPER (USB1_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_OPER)" base ad:0x31100020 group.long 0x0++0x7 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_OPER_USBCMD,USB Command Register" bitfld.long 0x0 13. "CME,CEM Enable For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x0 11. "EU3S,EU3S For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x0 10. "EWE,EWE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x0 9. "CRS,Controller Restore State This command is similar to the USBCMD.CRS bit in host mode and initiates the restore process. When software sets this bit to '1' the controller immediately sets DSTS.RSS to '1'. When the controller has finished the restore.." "0,1" newline bitfld.long 0x0 8. "CSS,Controller Save State This command is similar to the USBCMD.CSS bit in host mode and initiates the save process. When software sets this bit to '1' the controller immediately sets DSTS.SSS to '1'. When the controller has finished the save process .." "0,1" bitfld.long 0x0 7. "LHCRST,Light Host Controller Reset For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0. The following bits reset the internal logic of the host controller." "0,1" newline bitfld.long 0x0 3. "HSEE,HSEE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x0 2. "INTE,INTE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x0 1. "HCRST,HCRST The following bits reset the internal logic of the host controller. Under soft reset some CSR accesses may fail [Timeout]. - HCRST - LHCRST Bit Bash register testing is not recommended." "0,1" bitfld.long 0x0 0. "R_S,R_S For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0. Due to side-effects this reguster field is not recommended for Bit-Bash testing." "0,1" line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_OPER_USBSTS,USB Status Register Bit Definitions" rbitfld.long 0x4 12. "HCE,Host Controller Error [HCE] - RO Default = 0. '0' = No internal xHC error conditions exist and '1' = Internal xHC error condition. This flag must be set to indicate that an internal error condition has been detected which requires software to.." "0: No internal xHC error conditions exist and,1: Internal xHC error condition" rbitfld.long 0x4 11. "CNR,Controller Not Ready [CNR] - RO Default = '1'. '0' = Ready and '1' = Not Ready. Software must not write to thes Doorbell or Operational register of the xHC other than the USBSTS register until CNR = '0'. This flag is set by the xHC after a.." "0: Ready and,1: Not Ready" newline bitfld.long 0x4 10. "SRE,Save/Restore Error This bit is currently not supported." "0,1" rbitfld.long 0x4 9. "RSS,Restore State Status This bit is similar to the USBSTS.RSS in host mode. When the controller has finished the restore process it completes the command by setting DSTS.RSS to '0'." "0,1" newline rbitfld.long 0x4 8. "SSS,Save State Status This bit is similar to the USBSTS.SSS in host mode. When the controller has finished the save process it completes the command by setting DSTS.SSS to '0'." "0,1" bitfld.long 0x4 4. "PCD,Reset Value for PCD" "0,1" newline bitfld.long 0x4 3. "EINT,Reset Value for EINT" "0,1" bitfld.long 0x4 2. "HSE,HSE For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0.." "0,1" newline rbitfld.long 0x4 0. "HCH,HCH For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" rgroup.long 0x8++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_OPER_PAGESIZE,Page Size Register Bit Definitions" hexmask.long.word 0x0 0.--15. 1. "PAGE_SIZE,PAGE_SIZE" group.long 0x14++0x7 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_OPER_DNCTRL,Device Notification Register Bit Definitions" hexmask.long.word 0x0 0.--15. 1. "N0_N15,N0_N15 For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_OPER_CRCR_LO,CRCR_LO" hexmask.long 0x4 6.--31. 1. "CMD_RING_PNTR,CMD_RING_PNTR For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." rbitfld.long 0x4 3. "CRR,CRR For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x4 2. "CA,CA For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x4 1. "CS,CS For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline bitfld.long 0x4 0. "RCS,RCS For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" wgroup.long 0x1C++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_OPER_CRCR_HI,CRCR_HI" hexmask.long 0x0 0.--31. 1. "CMD_RING_PNTR,COMMAND_RING_POINTER Reading this field always returns '0'. For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." group.long 0x30++0xB line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_OPER_DCBAAP_LO,DCBAAP_LO" hexmask.long 0x0 6.--31. 1. "DEVICE_CONTEXT_BAAP,DEVICE_CONTEXT_BAAP For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_OPER_DCBAAP_HI,DCBAAP_HI" hexmask.long 0x4 0.--31. 1. "DEVICE_CONTEXT_BAAP,DEVICE_CONTEXT_BAAP" line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_OPER_CONFIG,Configure Register Bit Definitions" bitfld.long 0x8 9. "CIE,Configuration Information Enable For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" bitfld.long 0x8 8. "U3E,U3 Entry Enable For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1" newline hexmask.long.byte 0x8 0.--7. 1. "MAXSLOTSEN,MAXSLOTSEN For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." tree.end tree "USB1_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_RUNTIME (USB1_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_RUNTIME)" base ad:0x31100440 rgroup.long 0x0++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_RUNTIME_MFINDEX,Microframe Index Register Bit Definitions" hexmask.long.word 0x0 0.--13. 1. "MICROFRAME_INDEX,MICROFRAME_INDEX For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." group.long 0x4++0x3 line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_RUNTIME_RsvdZ,RsvdZ" tree.end tree "USB1_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_SUPPRTCAP2 (USB1_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_SUPPRTCAP2)" base ad:0x31100970 rgroup.long 0x0++0xF line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_SUPPRTCAP2_SUPTPRT2_DW0,SUPTPRT2_DW0" hexmask.long.byte 0x0 24.--31. 1. "MAJOR_REVISION,MAJOR_REVISION" newline hexmask.long.byte 0x0 16.--23. 1. "MINOR_REVISION,MINOR_REVISION" newline hexmask.long.byte 0x0 8.--15. 1. "NEXT_CAPABILITY_POINTER,NEXT_CAPABILITY_POINTER" newline hexmask.long.byte 0x0 0.--7. 1. "CAPABILITY_ID,CAPABILITY_ID For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_SUPPRTCAP2_SUPTPRT2_DW1,Register SUPTPRT2_DW1" hexmask.long 0x4 0.--31. 1. "NAME_STRING,NAME_STRING For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_SUPPRTCAP2_SUPTPRT2_DW2,xHCI Supported Protocol Capability_ Data Word 2" hexmask.long.byte 0x8 28.--31. 1. "PSIC,PSIC" newline bitfld.long 0x8 25.--27. "MHD,Hub Depth For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 20. "BLC,BESL LPM Capability. When this bit is set to: - 1: The ports described by this xHCI Supported Protocol Capability applies BESL timing to the BESL and BESLD fields of the PORTPMSC and PORTHLPMC registers. - 0: The ports described by this xHCI.." "0: The ports described by this xHCI Supported..,1: The ports described by this xHCI Supported.." newline bitfld.long 0x8 19. "HLC,Compatible Port Offset. Compatible Port Count Refer to Table 7-3 in the Databook." "0,1" newline bitfld.long 0x8 18. "IHI,IHI" "0,1" newline bitfld.long 0x8 17. "HSO,HSO" "0,1" newline hexmask.long.byte 0x8 8.--15. 1. "COMPATIBLE_PORT_COUNT,COMPATIBLE_PORT_COUNT For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." newline hexmask.long.byte 0x8 0.--7. 1. "COMPATIBLE_PORT_OFFSET,COMPATIBLE_PORT_OFFSET For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." line.long 0xC "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_SUPPRTCAP2_SUPTPRT2_DW3,Register SUPTPRT2_DW3" hexmask.long.byte 0xC 0.--4. 1. "PROTCL_SLT_TY,Protocol Slot Type" tree.end tree "USB1_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_SUPPRTCAP3 (USB1_VBP2AHB_WRAP_CONTROLLER_VBP_USB3_CORE_SUPPRTCAP3)" base ad:0x31100980 rgroup.long 0x0++0xF line.long 0x0 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_SUPPRTCAP3_SUPTPRT3_DW0,Register SUPTPRT3_DW0" hexmask.long.byte 0x0 24.--31. 1. "MAJOR_REVISION,MAJOR_REVISION For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." hexmask.long.byte 0x0 16.--23. 1. "MINOR_REVISION,MINOR_REVISION For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." newline hexmask.long.byte 0x0 8.--15. 1. "NEXT_CAPABILITY_POINTER,NEXT_CAPABILITY_POINTER For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." hexmask.long.byte 0x0 0.--7. 1. "CAPABILITY_ID,CAPABILITY_ID For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." line.long 0x4 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_SUPPRTCAP3_SUPTPRT3_DW1,Register SUPTPRT3_DW1" hexmask.long 0x4 0.--31. 1. "NAME_STRING,NAME_STRING For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." line.long 0x8 "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_SUPPRTCAP3_SUPTPRT3_DW2,SUPTPRT3_DW2" hexmask.long.byte 0x8 28.--31. 1. "PSIC,PSIC" bitfld.long 0x8 25.--27. "MHD,Hub Depth For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x8 8.--15. 1. "COMPATIBLE_PORT_COUNT,COMPATIBLE_PORT_COUNT For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." hexmask.long.byte 0x8 0.--7. 1. "COMPATIBLE_PORT_OFFSET,COMPATIBLE_PORT_OFFSET For a description of this standard USB register field see the eXtensible Host Controller Interface for Universal Serial Bus [USB] Specification 3.0." line.long 0xC "VBP2AHB_WRAP__CONTROLLER_VBP__USB3_CORE_SUPPRTCAP3_SUPTPRT3_DW3,SUPTPRT3_DW3" hexmask.long.byte 0xC 0.--4. 1. "PROTCL_SLT_TY,Protocol Slot Type" tree.end tree.end tree.end endif tree "WKUP" base ad:0x0 sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "WKUP_PSC0 (WKUP_PSC0)" base ad:0x4000000 rgroup.long 0x0++0x3 line.long 0x0 "VBUS_PID,The peripheral identification register is a constant register that contains the ID and ID revision number for that module. The PID stores version information used to identify the module. All bits within this register are read-only (writes have.." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release" bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" rgroup.long 0x10++0x7 line.long 0x0 "VBUS_GBLCTL,This register contains global control to PSC." hexmask.long.byte 0x0 8.--15. 1. "IO_ANA_CTL,General purpose IO/Analog PowerDown control. Directly drives io_ana_pdctl_po[7:0] outputs." line.long 0x4 "VBUS_GBLSTAT,This register shows the PSC global status." hexmask.long.word 0x4 16.--27. 1. "EF_SMRFLEX,Smart reflex class0 bits" bitfld.long 0x4 0. "OVRIDE,PSC Override Status" "0,1" wgroup.long 0x18++0x3 line.long 0x0 "VBUS_INTEVAL,This register has no storage. Read from this register returns 0." bitfld.long 0x0 19. "GOSET,GOSTAT Interrupt Set" "0,1" bitfld.long 0x0 18. "EPCSET,External Power Control Interrupt Set" "0,1" bitfld.long 0x0 17. "ERRSET,Combined Interrupt Set" "0,1" newline bitfld.long 0x0 2. "EPCEV,External Power Control Interrupt Set" "0,1" bitfld.long 0x0 1. "ERREV,Re_evaluate Error Interrupt" "0,1" bitfld.long 0x0 0. "ALLEV,Re_evaluate combined PSC interrupt" "0,1" rgroup.long 0x40++0x3 line.long 0x0 "VBUS_MERRPR,This register records pending error conditions for all modules. Each bit represents one module (index 0 for modules 0-31. index 1 for modules 32-63. etc.)." hexmask.long 0x0 0.--31. 1. "M,Records pending error conditions. Each bit n represents a module." group.long 0x50++0x3 line.long 0x0 "VBUS_MERRCR,This register has no storage. Read from this register returns 0. Each bit represents one module (index 0 for modules 0-31. index 1 for modules 32-63. etc.)." hexmask.long 0x0 0.--31. 1. "M,Write of 1 clears the corresponding MERRPR bit." rgroup.long 0x60++0x3 line.long 0x0 "VBUS_PERRPR,This register records pending error conditions for each power domain. Each bit represents one domain (index 0 for domains 0-31. index 1 for domains 32-63. etc.)." hexmask.long 0x0 0.--31. 1. "P,Power Domain n Error Condition. Each bit n represents a power domain." group.long 0x68++0x3 line.long 0x0 "VBUS_PERRCR,This register has no storage. Read from this register returns 0. Each bit represents one domain (index 0 for domains 0-31. index 1 for domains 32-63. etc.)." hexmask.long 0x0 0.--31. 1. "P,Write of 1 clears the corresponding PERRPR bit." rgroup.long 0x70++0x3 line.long 0x0 "VBUS_EPCPR,This register records pending external power control conditions. Each bit represents one domain (index 0 for domains 0-31. index 1 for domains 32-63. etc.)." hexmask.long 0x0 0.--31. 1. "EPC,External Power Control Intervention Request for Power Domain n" group.long 0x78++0x3 line.long 0x0 "VBUS_EPCCR,This register has no storage. Read from this register returns 0. Each bit represents one domain (index 0 for domains 0-31. index 1 for domains 32-63. etc.)." hexmask.long 0x0 0.--31. 1. "EPC,Write of 1 clears the corresponding EPCPR bit" rgroup.long 0x100++0x3 line.long 0x0 "VBUS_RAILSTAT,This register is a read-only and shows the current rail requestor whose request is being granted and the current value of the counter associated with this requestor." hexmask.long.byte 0x0 24.--28. 1. "RAILNUM,Indicates Current Rail Requestor being processed by GPSC" hexmask.long.byte 0x0 0.--7. 1. "RAILCNT,Indicates the current rail counter value" group.long 0x104++0x7 line.long 0x0 "VBUS_RAILCTL,This register is user programmable. It holds the counter values for rail counter. User can select one of the two counter values to be used for each power domain (see RAILSEL register)." hexmask.long.byte 0x0 8.--15. 1. "RAILCTR1,Rail Counter Value 1" hexmask.long.byte 0x0 0.--7. 1. "RAILCTR0,Rail Counter Value 0" line.long 0x4 "VBUS_RAILSEL,User can use this register to select the counter value (RAILCTL) for each power domain." hexmask.long 0x4 0.--31. 1. "P,Rail Counter Select for Power Domain" group.long 0x120++0x3 line.long 0x0 "VBUS_PTCMD,This is a pseudo-command register with no actual storage. Reads return 0. One bit for each power domain (index 0 for domains 0-31. index 1 for domains 32-63. etc.)." hexmask.long 0x0 0.--31. 1. "GO,Power Domain n GO Transition" rgroup.long 0x128++0x3 line.long 0x0 "VBUS_PTSTAT,This is a status register. One bit for each power domain (index 0 for domains 0-31. index 1 for domains 32-63. etc.)." hexmask.long 0x0 0.--31. 1. "GOSTAT,Power Domain n Transition Command Status" rgroup.long 0x200++0x3 line.long 0x0 "VBUS_PDSTAT,This is a status register. One register per power domain. Each register contains the status for the given power domain." bitfld.long 0x0 11. "EMUIHB,Emulation Alters Domain State" "0,1" bitfld.long 0x0 10. "PWRBAD,Power Bad error" "0,1" bitfld.long 0x0 9. "PORDONE,POR Done Input Status" "0,1" newline bitfld.long 0x0 8. "PORZ,PORz output actual status" "0,1" hexmask.long.byte 0x0 0.--4. 1. "STATE,Current Power Domain State" group.long 0x300++0x3 line.long 0x0 "VBUS_PDCTL,This is a control register. One register per power domain." bitfld.long 0x0 31. "FORCE,Force Bit" "0,1" bitfld.long 0x0 29. "PWRSW,Power shorting Switch Control" "0,1" bitfld.long 0x0 28. "ISO,Isolation Cell control" "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "WAKECNT,RAM wake count delay value" bitfld.long 0x0 12.--14. "PDMODE,Power Down mode" "0,1,2,3,4,5,6,7" bitfld.long 0x0 9. "EMUIHBIE,Emulation alters domain state" "0,1" newline bitfld.long 0x0 8. "EPCGOOD,External Power Control Power Good Indication" "0,1" bitfld.long 0x0 0. "NEXT,User_Desired Next Power Domain State" "0,1" rgroup.long 0x400++0x3 line.long 0x0 "VBUS_PDCFG,This is a status register. It shows PSC settings for easy debug." bitfld.long 0x0 3. "ICEPICK,Icepick support" "0,1" bitfld.long 0x0 1. "MEMSLPKWK,Memory sleep-wake domain" "0,1" bitfld.long 0x0 0. "ALWAYSON,Always on power domain" "0,1" rgroup.long 0x600++0x3 line.long 0x0 "VBUS_MDCFG,This is a constant register showing some PSC settings for easy debug. This register is read only." hexmask.long.byte 0x0 16.--20. 1. "PWRDOM,Indicates which power domain this module belongs to" bitfld.long 0x0 15. "AUTOONLY,0: This LPSC supports all modes 1: This LPSC supports Enable AutoSleep or AutoWake only" "0: This LPSC supports all modes,1: This LPSC supports Enable" bitfld.long 0x0 14. "RESETISO,0: This LPSC does not support Reset Isolation 1: This LPSC supports Reset Isolation" "0: This LPSC does not support Reset Isolation,1: This LPSC supports Reset Isolation" newline bitfld.long 0x0 13. "NEXTLOCK,0: MDCTL.NEXT field is writable 1: MDCTL.NEXT field is locked" "0: MDCTL,1: MDCTL" bitfld.long 0x0 12. "ASYNC,Async Lpsc" "0,1" bitfld.long 0x0 11. "ICEPICK,IcePick support" "0,1" newline bitfld.long 0x0 10. "PERMDIS,Permanently disable" "0,1" bitfld.long 0x0 9. "PLLHANDSHAKE,RTL parameter PLL_HANDSHAKE" "0,1" bitfld.long 0x0 6.--8. "NUMSCRDISBALE,Number of PWR_SCR_DISABLE interfaces required on LPSC" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 3.--5. "NUMCLKEN,Number of PWR_CLK_EN interfaces required on LPSC" "0,1,2,3,4,5,6,7" bitfld.long 0x0 0.--2. "NUMCLK,Number of PWR_CLKSTOP interfaces required on LPSC" "0,1,2,3,4,5,6,7" rgroup.long 0x800++0x3 line.long 0x0 "VBUS_MDSTAT,This register shows the status of each module. Requires one register per module on the device." bitfld.long 0x0 17. "EMUIHB,Emulation Alters Module State. Inhibits Module Inactive or Force Module Active." "0,1" bitfld.long 0x0 16. "EMURST,Emulation Alters Reset" "0,1" bitfld.long 0x0 12. "MCKOUT,Actual modclk output to module" "0,1" newline bitfld.long 0x0 11. "MRSTDONE,Module reset initialization done status" "0,1" bitfld.long 0x0 10. "MRSTZ,Module reset actual status" "0,1" bitfld.long 0x0 9. "LRSTDONE,Module local reset initialization done status" "0,1" newline bitfld.long 0x0 8. "LRSTZ,Module local reset actual status" "0,1" hexmask.long.byte 0x0 0.--5. 1. "STATE,These bits indicate the current module state" group.long 0xA00++0x3 line.long 0x0 "VBUS_MDCTL,This register provides specific control for the individual module. One register per module on the device." bitfld.long 0x0 31. "FORCE,Force Bit" "0,1" bitfld.long 0x0 12. "RESETISO,Reset Isolation" "0,1" bitfld.long 0x0 11. "BLKCHIP1RST,Block Chip_1_Reset" "0,1" newline bitfld.long 0x0 10. "EMUIHBIE,Emulation Alters Module State. Inhibits Module Inactive or Force Module Active." "0,1" bitfld.long 0x0 9. "EMURSTIE,Emulation Alter Reset Interrupt Enable" "0,1" bitfld.long 0x0 8. "LRSTZ,Module local reset control" "0,1" newline hexmask.long.byte 0x0 0.--4. 1. "NEXT,Module Next State" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "WKUP_PLL0_CFG (WKUP_PLL0_CFG)" base ad:0x4040000 rgroup.long 0x0++0x3 line.long 0x0 "CFG_pll0_PID," bitfld.long 0x0 30.--31. "SCHEME,PID follows new scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit - Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE,Module functional identifier" hexmask.long.byte 0x0 11.--15. 1. "MISC,Misc revision number" bitfld.long 0x0 8.--10. "MAJOR,Major revision number" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,custom revision number" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number" rgroup.long 0x8++0x3 line.long 0x0 "CFG_pll0_CFG," hexmask.long.word 0x0 16.--31. 1. "HSDIV_PRSNT,High Speed Divider Presence Each bit Indicates the presence of High Speed dividers 0-15. By definition HSDIV[4:0] are connected the PLL FOUTVCO output clock and HSDIV[15:5] are connected to the PLL FOUTPOSTDIV output clock" bitfld.long 0x0 11.--12. "SSM_TYPE,Spread spectrum module presence Field values (Others are reserved): 2'b00 - SSM is not present 2'b01 - SSM is present 2'b10 - Reserved 2'b11 - Reserved" "0,1,2,3" bitfld.long 0x0 8. "SSM_WVTBL,Spread spectrum wave table presence 1'b0 - SSM Wave table is not present 1'b1 - SSM Wave table is present" "0,1" bitfld.long 0x0 0.--1. "PLL_TYPE,Indicates PLL type Field values (Others are reserved): 2'b00 - Fractional PLL 2'b01 - FractionalF PLL 2'b10 - De-Skew PLL" "0,1,2,3" group.long 0x10++0x7 line.long 0x0 "CFG_pll0_LOCKKEY0," hexmask.long 0x0 1.--31. 1. "KEY,Write the kick0 unlock value followed by the kick1 unlock value to unlock the write-protected Partition0 registers" rbitfld.long 0x0 0. "UNLOCKED,Unlock status. When set indicates that the proper unlock sequence has been performed and the partition is unlocked for writing." "0,1" line.long 0x4 "CFG_pll0_LOCKKEY1," hexmask.long 0x4 0.--31. 1. "LOCKKEY1_VAL,Write the kick1 unlock value after the kick0 unlock value to unlock the write-protected Partition0 registers" group.long 0x20++0x3 line.long 0x0 "CFG_pll0_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass enable. This controls the glitch-free bypass mux. The bypass_en bit should be set prior tomaking any changes to the PLL settings. 1'b0 - Synchronously select PLL and associated HSDIV clock outputs 1'b1 - Synchronously select the.." "0,1" bitfld.long 0x0 16. "BYP_ON_LOCKLOSS,Bypass on loss of PLL lock. This bit controls the PLL bypass mux to automatically switch the clock source to the reference clock when the PLL losses lock. 1'b0 - Do not automatically switch to ref clock source on PLL lock loss 1'b1 -.." "0,1" bitfld.long 0x0 15. "PLL_EN,PLL enable 1'b0 - PLL is disabled 1'b1 - PLL is enabled" "0,1" bitfld.long 0x0 8. "INTL_BYP_EN,PLL internal bypass enable. This is an asynchronous mux which can produce glitches on the outputclocks during switching. 1'b0 - Output clocks are derived from the VCO clock 1'b1 - Output clocks are derived from the FREF reference clock" "0,1" bitfld.long 0x0 5. "CLK_4PH_EN,Enable 4-phase clock generator. This bit is ignored if clk_postdiv_en=0 1'b0 - 4-phase dividers disabled. FOUT1PHx and FOUTn clocks are held low. 1'b1 - 4-phase dividers enabled. FOUT1PH0/90/180/270 and FOUT2 FOUT3 FOUT4 clocks are enabled." "0,1" newline bitfld.long 0x0 4. "CLK_POSTDIV_EN,Post divide CLK enable 1'b0 - Post divide powered down. FOUTPOSTDIV and all auxiliary PLL clocks (4-ohase and synchronous divided clocks) are held low 1'b1 - Post divide enabled. FOUTPOSTDIV 4-phase and synchronous clocks are enabled." "0,1" bitfld.long 0x0 1. "DSM_EN,Delta-Sigma modulator enable 1'b0 - Delta-Sigma modulator is disabled (use integer divide mode) 1'b1 - Delta-Sigma modulator is enabled (use fractional divide mode)" "0,1" bitfld.long 0x0 0. "DAC_EN,Enable fractional noise canceling DAC This bit has no function (DAC is always disabled) in integer divide mode (when dsm_en=0) 1'b0 - Fractional NC DAC is disabled (for Test modes only) 1'b1 - Fractional NC DAC is enabled (ignored in integer.." "0,1" rgroup.long 0x24++0x3 line.long 0x0 "CFG_pll0_STAT," bitfld.long 0x0 0. "LOCK,PLL lock status. Software should wait for lock to be asserted before clearing the PLL_CTRL_bypass_en bit 1'b0 - PLL is not locked 1'b1 - PLL is locked" "0,1" group.long 0x30++0xB line.long 0x0 "CFG_pll0_FREQ_CTRL0," hexmask.long.word 0x0 0.--11. 1. "FB_DIV_INT,PLL feedback divider (integer portion) In Integer mode values of 16 - 3200 (dec) are supported. In Fractional mode values of 20 to 320 are supported. 12'h010 - Divide by 16 12'h011 - Divide by 17 : 12'h140 - Divide by 320 : 12'hC80 -.." line.long 0x4 "CFG_pll0_FREQ_CTRL1," hexmask.long.tbyte 0x4 0.--23. 1. "FB_DIV_FRAC,PLL feedback divider (fractional portion) Supports values of 0 to 0.999999940395. The total feedback divide value is (fb_div_int + fb_div_frac / (2^24)) 24'h000000 - 0 24'h000001 - .000000059605 (1/(2^24)) 24'h000002 - .000000119209.." line.long 0x8 "CFG_pll0_DIV_CTRL," bitfld.long 0x8 24.--26. "POST_DIV2,Secondary post divider. Supports values of 1-7" "0,1,2,3,4,5,6,7" bitfld.long 0x8 16.--18. "POST_DIV1,Primary post divider. To ensure correct operation post_div1 must always be programmed to a value equal to or greater that post_div2. Supports values of 1-7i Field values (Others are reserved): 3'b000 - Reserved (do not use) 3'b001 - Divide.." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x8 0.--5. 1. "REF_DIV,Reference clock pre-divider. Supports values of 1-63 6'b000000 - Reserved /(do not use/) 6'b000001 - Divide by 1 6'b000010 - Divide by 2 : 6'b111111 - Divide by 63" group.long 0x40++0x7 line.long 0x0 "CFG_pll0_SS_CTRL," bitfld.long 0x0 31. "BYPASS_EN,Bypass the SS modulator. 1'b0 - Spread spectrum modulation is enabled 1'b1 - SSMOD is bypassed. No modulation of PLL frequency" "0,1" hexmask.long.byte 0x0 18.--25. 1. "WV_TBLE_MAXADDR,Wave table max address. Indicates the maximum number of address bits used to access the external wave table. These bits are not used if PLL_CFG_ssm_wvtbl = 0" bitfld.long 0x0 15. "RESET,SSM reset. When set to 1 the SSM modulator is in reset" "0,1" bitfld.long 0x0 4. "DOWNSPREAD_EN,Selects center spread or down spread clock variance 1'b0 - Center spread 1'b1 - Down spread" "0,1" bitfld.long 0x0 0. "WAVE_SEL,Wave pattern select External wave table should only be selected if PLL_CFG_ssm_wvtbl = 1 Field values (Others are reserved): 1'b0 - Use 128 point triangle wave table 1'b1 - Use external wave table" "0,1" line.long 0x4 "CFG_pll0_SS_SPREAD," hexmask.long.byte 0x4 16.--19. 1. "MOD_DIV,Input clock divider. This divider sets the modulation frequency. Supports divide values of 1-63" hexmask.long.byte 0x4 0.--4. 1. "SPREAD,Sets the spread modulation depth. The depth is spread*0.1% 5'b00000 - Reserved (don't use) 5'b00001 - 0.1% 5'b00010 - 0.2% : 5'b10000 - 1.6% : 5'b11111 - 3.1%" group.long 0x60++0x3 line.long 0x0 "CFG_pll0_CAL_CTRL," bitfld.long 0x0 31. "CAL_EN,Calibration enable to actively adjust for input skew 1'b0 - Disabled. Static phase offset determined by analog matching only 1'b1 - Enabled. Static phase offset adjusted by phase sensing at input" "0,1" bitfld.long 0x0 20. "FAST_CAL,Fast calibration enabled 1'b0 - Normal operation 1'b1 - Used for initial calibration if initial value is not already known" "0,1" bitfld.long 0x0 16.--18. "CAL_CNT,Calibration loop programmable counter. Selects the number of PFD edges to wait after each calibration step defined by 2**cal_cnt" "0,1,2,3,4,5,6,7" bitfld.long 0x0 15. "CAL_BYP,Calibration bypass 1'b0 - Use the calibration output to set the phase correction 1'b1 - Use the cal_in input value to set the phase correction" "0,1" hexmask.long.word 0x0 0.--11. 1. "CAL_IN,Calibration input When cal_byp is 1'b0 this represents the initial condition for calibration. When cal_byp is 1'b1 this is the override value for calibration. Value is a signed integer with positive values delaying the faster path reset and.." rgroup.long 0x64++0x3 line.long 0x0 "CFG_pll0_CAL_STAT," bitfld.long 0x0 31. "CAL_LOCK,Reserved for future use" "0,1" hexmask.long.byte 0x0 16.--19. 1. "LOCK_CNT,Reserved for future use" hexmask.long.word 0x0 0.--11. 1. "CAL_OUT,Output of the calibration block if cal_byp = 1'b0. If cal_byp = 1'b1 it is a buffer version of cal_in[11:0]. Can be used to read the phase calibration state to for later use as an override value to bypass skew calibration" group.long 0x80++0x1B line.long 0x0 "CFG_pll0_HSDIV_CTRL0," bitfld.long 0x0 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x0 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x0 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x0 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x4 "CFG_pll0_HSDIV_CTRL1," bitfld.long 0x4 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x4 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x4 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x4 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x8 "CFG_pll0_HSDIV_CTRL2," bitfld.long 0x8 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x8 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x8 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x8 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0xC "CFG_pll0_HSDIV_CTRL3," bitfld.long 0xC 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0xC 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0xC 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0xC 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x10 "CFG_pll0_HSDIV_CTRL4," bitfld.long 0x10 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x10 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x10 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x10 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x14 "CFG_pll0_HSDIV_CTRL5," bitfld.long 0x14 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x14 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x14 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x14 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" line.long 0x18 "CFG_pll0_HSDIV_CTRL6," bitfld.long 0x18 31. "RESET,SSM reset. When set to 1 the SSM modulator is in resetl" "0,1" bitfld.long 0x18 15. "CLKOUT_EN,CLKOUT1 enable 1'b0 - Synchronously disable CLKOUT1 1'b1 - Synchronously enable CLKOUT1" "0,1" bitfld.long 0x18 8. "SYNC_DIS,Disable divider synchronization logic 0 - Changes to DIV value synchronized to prevent glitches 1 - Changes are asynchronous" "0,1" hexmask.long.byte 0x18 0.--6. 1. "HSDIV,CLKOUT0 divider value (HSDIV1+1) Allowed values are 0-127" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "WKUP_ESM0_CFG (WKUP_ESM0_CFG)" base ad:0x4100000 rgroup.long 0x0++0x7 line.long 0x0 "CFG_PID,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" line.long 0x4 "CFG_INFO,The Info Register gives the configuration Inforrmation of this ESM." bitfld.long 0x4 31. "LAST_RESET,Indicates the Source of the last Reset" "0,1" hexmask.long.byte 0x4 8.--15. 1. "PULSE_GROUPS,Number of Pulse Error Groups" hexmask.long.byte 0x4 0.--7. 1. "GROUPS,Total number of Error Groups" group.long 0x8++0x3 line.long 0x0 "CFG_EN,The Global Enable Register has the initiator interrupt mask" hexmask.long.byte 0x0 0.--3. 1. "KEY,Global Enable" wgroup.long 0xC++0x3 line.long 0x0 "CFG_SFT_RST,The Global Soft Reset Register controls the global clear for raw status and enables" hexmask.long.byte 0x0 0.--3. 1. "KEY,Global Soft Reset" group.long 0x10++0xF line.long 0x0 "CFG_ERR_RAW,Raw Status/Set Register for Configuration Errors" bitfld.long 0x0 0.--2. "STS,This is the raw status for config errors" "0,1,2,3,4,5,6,7" line.long 0x4 "CFG_ERR_STS,Config Error Enable and Clear Register" bitfld.long 0x4 0.--2. "MSK,This is the masked status/clear for config errors" "0,1,2,3,4,5,6,7" line.long 0x8 "CFG_ERR_EN_SET,Config Error Enable Set Register" bitfld.long 0x8 0.--2. "MSK,This is the mask enable set for config errors" "0,1,2,3,4,5,6,7" line.long 0xC "CFG_ERR_EN_CLR,Config Error Interrupt Enabled Clear register" bitfld.long 0xC 0.--2. "MSK,This is the mask enable clear for config errors" "0,1,2,3,4,5,6,7" rgroup.long 0x20++0xF line.long 0x0 "CFG_LOW_PRI,Shows which is the highest priority outstanding low priority interrupt" hexmask.long.word 0x0 16.--31. 1. "PLS,This is the highest priority outstanding low priority pulse interrupt" hexmask.long.word 0x0 0.--15. 1. "LVL,This is the highest priority outstanding low priority level interrupt" line.long 0x4 "CFG_HI_PRI,Shows which is the highest priority outstanding high priority interrupt" hexmask.long.word 0x4 16.--31. 1. "PLS,This is the highest priority outstanding high priority pulse interrupt" hexmask.long.word 0x4 0.--15. 1. "LVL,This is the highest priority outstanding high priority level interrupt" line.long 0x8 "CFG_LOW,Shows which groups have oustanding low priority interrupts" hexmask.long 0x8 0.--31. 1. "STS,This is the raw status for config errors" line.long 0xC "CFG_HI,Shows which groups have oustanding high priority interrupts" hexmask.long 0xC 0.--31. 1. "STS,This is the raw status for config errors" wgroup.long 0x30++0x3 line.long 0x0 "CFG_EOI,End of Interrupt Register" hexmask.long.word 0x0 0.--10. 1. "KEY,This is the interrupt being serviced" group.long 0x40++0x3 line.long 0x0 "CFG_PIN_CTRL,This register controls the error_pin_n output" hexmask.long.byte 0x0 4.--7. 1. "PWM_EN,PWM enable" hexmask.long.byte 0x0 0.--3. 1. "KEY,Pin Control Key" rgroup.long 0x44++0x7 line.long 0x0 "CFG_PIN_STS,This register reflects the status of the error_pin_n output" bitfld.long 0x0 0. "VAL,Value of the error_pin_n" "0,1" line.long 0x4 "CFG_PIN_CNTR,This register shows the current value of the error pin counter" hexmask.long.tbyte 0x4 0.--23. 1. "COUNT,Current Counter Value" group.long 0x4C++0x3 line.long 0x0 "CFG_PIN_CNTR_PRE,This register contains the value that is loaded in to the Error Counter" hexmask.long.tbyte 0x0 0.--23. 1. "COUNT,Counter Pre-Load Value" rgroup.long 0x50++0x3 line.long 0x0 "CFG_PWMH_PIN_CNTR,This register shows the current value of the error pin PWM high counter" hexmask.long.tbyte 0x0 0.--23. 1. "COUNT,Current Counter Value" group.long 0x54++0x3 line.long 0x0 "CFG_PWMH_PIN_CNTR_PRE,This register contains the value that is loaded in to the Error PWM High Counter" hexmask.long.tbyte 0x0 0.--23. 1. "COUNT,Counter Pre-Load Value" rgroup.long 0x58++0x3 line.long 0x0 "CFG_PWML_PIN_CNTR,This register shows the current value of the error pin PWM low counter" hexmask.long.tbyte 0x0 0.--23. 1. "COUNT,Current Counter Value" group.long 0x5C++0x3 line.long 0x0 "CFG_PWML_PIN_CNTR_PRE,This register contains the value that is loaded in to the Error PWM Low Counter" hexmask.long.tbyte 0x0 0.--23. 1. "COUNT,Counter Pre-Load Value" group.long 0x400++0x1B line.long 0x0 "CFG_RAW,Raw Status/Set Register for Group A Errors" hexmask.long 0x0 0.--31. 1. "STS,This is the raw status/set for errors Group A" line.long 0x4 "CFG_STS,Error Enable and Clear Register" hexmask.long 0x4 0.--31. 1. "MSK,This is the masked status/clear for errors in Group A" line.long 0x8 "CFG_INTR_EN_SET,Level Error Enable Set Register" hexmask.long 0x8 0.--31. 1. "MSK,This is the mask enable set for errors in Group A" line.long 0xC "CFG_INTR_EN_CLR,Level Error Interrupt Enabled Clear register" hexmask.long 0xC 0.--31. 1. "MSK,This is the mask enable clear for errors in Group A" line.long 0x10 "CFG_INT_PRIO,Level Error Interrupt Enabled Clear register" hexmask.long 0x10 0.--31. 1. "MSK,This is interrupt priority for errors in Group A" line.long 0x14 "CFG_PIN_EN_SET,Level Error Interrupt Enabled Clear register" hexmask.long 0x14 0.--31. 1. "MSK,This is the error pin influence enable set for errors in Group A" line.long 0x18 "CFG_PIN_EN_CLR,Level Error Interrupt Enabled Clear register" hexmask.long 0x18 0.--31. 1. "MSK,This is the error pin influence enable clear for errors in Group A" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "WKUP_MCU_GPIOMUX_INTROUTER0_INTR_ROUTER_CFG (WKUP_MCU_GPIOMUX_INTROUTER0_INTR_ROUTER_CFG)" base ad:0x4210000 rgroup.long 0x0++0x3 line.long 0x0 "INTR_ROUTER_CFG_PID,Identification register" bitfld.long 0x0 30.--31. "SCHEME,scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNCTION,function" hexmask.long.byte 0x0 11.--15. 1. "RTLVER,rtl version" bitfld.long 0x0 8.--10. "MAJREV,major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,custom id" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINREV,minor version" group.long 0x4++0x3 line.long 0x0 "INTR_ROUTER_CFG_INTR_MUXCNTL,Interrupt mux control register" bitfld.long 0x0 16. "INT_ENABLE,interrupt output enable for interrupt N" "0,1" hexmask.long.byte 0x0 0.--4. 1. "MUX_CNTL,Mux control for interrupt N" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "WKUP_RTI0_CFG (WKUP_RTI0_CFG)" base ad:0x2B000000 group.long 0x0++0x1B line.long 0x0 "CFG_GCTRL," hexmask.long.byte 0x0 16.--19. 1. "NTUSEL,These bits determine which NTU input signal is used as external timebase. There are up to four inputs supported with four valid selection combinations. Any invalid selection value written to the NTUSEL bit-field will result in a TIED LOW being.." bitfld.long 0x0 15. "COS,This bit determines if both counters are stopped when the device goes into debug mode or if they continue counting. User and privilege mode (read): 0 = counters are stopped while in debug mode 1 = counters are running while in debug mode.." "0: stop counters in debug mode,1: continue counting in debug mode" newline bitfld.long 0x0 1. "CNT1EN,The CNT1EN bit starts and stops the operation of counter block 1 (UC1 and FRC1). User and privilege mode (read): 0 = counters are stopped 1 = counters are running Privilege mode (write): 0 = stop counters 1 = start counters" "0: stop counters,1: start counters" bitfld.long 0x0 0. "CNT0EN,The CNT0EN bit starts and stops the operation of counter block 0 (UC0 and FRC0). User and privilege mode (read): 0 = counters are stopped 1 = counters are running Privilege mode (write): 0 = stop counters 1 = start counters" "0: stop counters,1: start counters" line.long 0x4 "CFG_TBCTRL," bitfld.long 0x4 1. "INC,This bit determines wether the Free Running Counter 0 is automatically incremented if a failing clock on the NTUx signal is detected. User and privilege mode (read): 0 = FRC0 will not be incremented 1 = FRC0 will be incremented Privilege mode.." "0: Do not increment FRC0 on failing external clock,1: Increment FRC0 on failing external clock" bitfld.long 0x4 0. "TBEXT,The Timebase External bit selects whether the Free Running Counter 0 is clocked by the internal Up Counter 0 or from the external signal NTUx. Since setting the TBEXT bit to 1 resets Up Counter 0 Free Running Counter 0 will not be incremented in.." "0: MUX is switched to internal UC0 clocking scheme,1: MUX is switched to external NTUx clocking scheme" line.long 0x8 "CFG_CAPCTRL," bitfld.long 0x8 1. "CAPCNTR1,This bit determines which external interrupt source triggers a capture event of both UC1 and FRC1. User and privilege mode (read): 0 = capture event is triggered by Capture Event Source 0 1 = capture event is triggered by Capture Event.." "0: enable capture event triggered by Capture Event..,1: enable capture event triggered by Capture Event.." bitfld.long 0x8 0. "CAPCNTR0,This bit determines which external interrupt source triggers a capture event of both UC0 and FRC0. User and privilege mode (read): 0 = capture event is triggered by Capture Event Source 0 1 = capture event is triggered by Capture Event.." "0: enable capture event triggered by Capture Event..,1: enable capture event triggered by Capture Event.." line.long 0xC "CFG_COMPCTRL," bitfld.long 0xC 12. "COMPSEL3,This bit determines the counter with which the compare value hold in compare register 3 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" bitfld.long 0xC 8. "COMPSEL2,This bit determines the counter with which the compare value hold in compare register 2 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" newline bitfld.long 0xC 4. "COMPSEL1,This bit determines the counter with which the compare value hold in compare register 1 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" bitfld.long 0xC 0. "COMPSEL0,This bit determines the counter with which the compare value hold in compare register 0 is compared. User and privilege mode (read): 0 = value will be compared with FRC 0 1 = value will be compared with FRC 1 Privilege mode (write): 0 =.." "0: enable compare with FRC 0,1: enable compare with FRC 1" line.long 0x10 "CFG_FRC0," hexmask.long 0x10 0.--31. 1. "FRC0,This registers holds the current value of the Free Running Counter 0 and will be updated continuously. User and privilege mode (read): current value of the counter Privilege mode (write): The counter can be preset by writing to this register." line.long 0x14 "CFG_UC0," hexmask.long 0x14 0.--31. 1. "UC0,This registers holds the current value of the Up Counter 0 and prescales the RTI clock. It will be only updated by a previous read of Free Running Counter 0. This gives effectively a 64 bit read of both counters without having the problem of a.." line.long 0x18 "CFG_CPUC0," hexmask.long 0x18 0.--31. 1. "CPUC0,This registers holds the compare value which is compared with the Up Counter 0. When the compare matches Free Running counter 0 is incremented. The Up Counter is set to zero when the counter value matches the CPUC0 value. The value set in this.." rgroup.long 0x20++0x7 line.long 0x0 "CFG_CAFRC0," hexmask.long 0x0 0.--31. 1. "CAFRC0,This registers captures the current value of the Free Running Counter 0 when a event occurs controlled by the external capture control block. User and privilege mode (read): value of Free Running Counter 0 on a capture event" line.long 0x4 "CFG_CAUC0," hexmask.long 0x4 0.--31. 1. "CAUC0,This registers captures the current value of the Up Counter 0 when a event occurs controlled by the external capture control block. The read sequence has to be the same as with Up Counter 0 and Free Running Counter 0. So the RTICAFRC0 register.." group.long 0x30++0xB line.long 0x0 "CFG_FRC1," hexmask.long 0x0 0.--31. 1. "FRC1,This registers holds the current value of the Free Running Counter 1 and will be updated continuously. User and privilege mode (read): current value of the counter Privilege mode (write): the counter can be preset by writing to this register." line.long 0x4 "CFG_UC1," hexmask.long 0x4 0.--31. 1. "UC1,This registers holds the current value of the Up Counter 1 and prescales the RTI clock. It will be only updated by a previous read of Free Running Counter 1. This gives effectively a 64 bit read of both counters without having the problem of a.." line.long 0x8 "CFG_CPUC1," hexmask.long 0x8 0.--31. 1. "CPUC1,This registers holds the compare value which is compared with the Up Counter 1. When the compare matches Free Running Counter 1 is incremented. The Up Counter is set to zero when the counter value matches the CPUC1 value. The value set in this.." rgroup.long 0x40++0x7 line.long 0x0 "CFG_CAFRC1," hexmask.long 0x0 0.--31. 1. "CAFRC1,This registers captures the current value of the Free Running Counter 1 when a event occurs controlled by the external capture control block. User and privilege mode (read): value of Free Running Counter 1 on a capture event" line.long 0x4 "CFG_CAUC1," hexmask.long 0x4 0.--31. 1. "CAUC1,This registers captures the current value of the Up Counter 1 when a event occurs controlled by the external capture control block. The read sequence has to be the same as with Up Counter 1 and Free Running Counter 1. So the RTICAFRC1 register.." group.long 0x50++0x27 line.long 0x0 "CFG_COMP0," hexmask.long 0x0 0.--31. 1. "COMP0,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x4 "CFG_UDCP0," hexmask.long 0x4 0.--31. 1. "UDCP0,This registers holds a value which is added to the value in the compare 0 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x8 "CFG_COMP1," hexmask.long 0x8 0.--31. 1. "COMP1,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0xC "CFG_UDCP1," hexmask.long 0xC 0.--31. 1. "UDCP1,This registers holds a value which is added to the value in the compare 1 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x10 "CFG_COMP2," hexmask.long 0x10 0.--31. 1. "COMP2,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x14 "CFG_UDCP2," hexmask.long 0x14 0.--31. 1. "UDCP2,This registers holds a value which is added to the value in the compare 2 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x18 "CFG_COMP3," hexmask.long 0x18 0.--31. 1. "COMP3,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value an interrupt is flagged. With this register it is also possible to initiate a.." line.long 0x1C "CFG_UDCP3," hexmask.long 0x1C 0.--31. 1. "UDCP3,This registers holds a value which is added to the value in the compare 3 register each time a compare matches. This gives the possibility to generate periodic interrupts without software intervention. User and privilege mode (read): value to.." line.long 0x20 "CFG_TBLCOMP," hexmask.long 0x20 0.--31. 1. "TBLCOMP,This value determines when the edge detection circuit starts monitoring the NTUx signal. It will be compared with Up Counter 0. User and privilege mode (read): current compare value Privilege mode (write when TBEXT = 0): the compare value is.." line.long 0x24 "CFG_TBHCOMP," hexmask.long 0x24 0.--31. 1. "TBHCOMP,This value determines when the edge detection circuit will stop monitoring the NTUx signal. It will be compared with Up Counter 0. RTITBHCOMP has to be less than RTICPUC0 since RTIUC0 will be reset when RTICPUC0 is reached. Example: The.." group.long 0x80++0xB line.long 0x0 "CFG_SETINT," bitfld.long 0x0 18. "SETOVL1INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 17. "SETOVL0INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 16. "SETTBINT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 11. "SETDMA3,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 10. "SETDMA2,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" bitfld.long 0x0 9. "SETDMA1,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" newline bitfld.long 0x0 8. "SETDMA0,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable DMA request" "0: leaves the corresponding bit unchanged,1: enable DMA request" bitfld.long 0x0 3. "SETINT3,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 2. "SETINT2,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" bitfld.long 0x0 1. "SETINT1,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" newline bitfld.long 0x0 0. "SETINT0,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = enable interrupt" "0: leaves the corresponding bit unchanged,1: enable interrupt" line.long 0x4 "CFG_CLEARINT," bitfld.long 0x4 18. "CLEAROVL1INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 17. "CLEAROVL0INT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 16. "CLEARTBINT,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 11. "CLEARDMA3,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 10. "CLEARDMA2,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" bitfld.long 0x4 9. "CLEARDMA1,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" newline bitfld.long 0x4 8. "CLEARDMA0,User and privilege mode (read): 0 = DMA request is disabled 1 = DMA request is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable DMA request" "0: leaves the corresponding bit unchanged,1: disable DMA request" bitfld.long 0x4 3. "CLEARINT3,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 2. "CLEARINT2,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" bitfld.long 0x4 1. "CLEARINT1,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" newline bitfld.long 0x4 0. "CLEARINT0,User and privilege mode (read): 0 = interrupt is disabled 1 = interrupt is enabled Privilege mode (write): 0 = leaves the corresponding bit unchanged 1 = disable interrupt" "0: leaves the corresponding bit unchanged,1: disable interrupt" line.long 0x8 "CFG_INTFLAG," bitfld.long 0x8 18. "OVL1INT,User and privilege mode (read): determines if an interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 17. "OVL0INT,User and privilege mode (read): determines if an interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 16. "TBINT,User and privilege mode (read): this flag is set when the TBEXT bit is cleared by detection of a missing external clockedge. It will not be set by clearing TBEXT by software. determines if an interrupt is pending 0 = no interrupt pending 1 =.." "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 3. "INT3,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 2. "INT2,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" bitfld.long 0x8 1. "INT1,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" newline bitfld.long 0x8 0. "INT0,User and privilege mode (read): determines if a interrupt is pending 0 = no interrupt pending 1 = interrupt pending Privilege mode (write): 0 = leaves the bit unchanged 1 = set the bit to 0" "0: leaves the bit unchanged,1: set the bit to 0" group.long 0x90++0xF line.long 0x0 "CFG_DWDCTRL," hexmask.long 0x0 0.--31. 1. "DWDCTRL,User and priviledge mode (read): 0x5312ACED = DWD counter is disabled. This is the default value. 0xA98559DA = DWD counter is enabled Any other value = DWD counter state is unchanged (enabled or disabled) Priviledge mode (write): 0xA98559DA.." line.long 0x4 "CFG_DWDPRLD," hexmask.long.word 0x4 0.--11. 1. "DWDPRLD,User and priviledge mode (read): A read from this register in any CPU mode returns the current preload value. Priviledge mode (write): If the DWD is always enabled after reset is released: The DWD starts counting down from the reset value of.." line.long 0x8 "CFG_WDSTATUS," bitfld.long 0x8 5. "DWWD,This bit denotes whether the time-window defined by the windowed watchdog configuration has been violated or if a wrong key or key sequence was written to service the watchdog. User and priviledge mode (read): 0 = no time-window violation has.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 4. "END,This bit denotes whether the end-time defined by the windowed watchdog configuration has been violated. This bit is effectively a copy of the DWD ST status flag. User and priviledge mode (read): 0 = no end-time window violation has occurred. 1 =.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 3. "START,This bit denotes whether the start-time defined by the windowed watchdog configuration has been violated. This indicates that the WWD was serviced before the service window was opened. User and priviledge mode (read): 0 = no start-time window.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 2. "KEYST,This bit denotes a reset generated by a wrong key or a wrong key-sequence written to the RTIWDKEY register. User and priviledge mode (read): 0 = no wrong key or key-sequence written 1 = wrong key or key-sequence written to RTIWDKEY register.." "0: leaves the current value unchanged,1: clears the bit to 0" newline bitfld.long 0x8 1. "DWDST,status flag and is maintained for compatibility reasons. User and priviledge mode (read): 0 = DWD timeout period not expired 1 = DWD timeout period has expired Priviledge mode (write): 0 = leaves the current value unchanged 1 = clears the bit.." "0: leaves the current value unchanged,1: clears the bit to 0" bitfld.long 0x8 0. "AWDST,User and priviledge mode (read): 0 = AWD pin 0 > 1 threshold not exceeded 1 = AWD pin 0 > 1 threshold exceeded Priviledge mode (write): 0 = leaves the current value unchanged 1 = clears the bit to 0" "0: leaves the current value unchanged,1: clears the bit to 0" line.long 0xC "CFG_WDKEY," hexmask.long.word 0xC 0.--15. 1. "WDKEY,User and privilege mode reads are indeterminate. Privilege mode (write): A write of 0xE51A followed by 0xA35C in two separate write operations defines the Key Sequence and discharges the watchdog capacitor. This also causes the upper 12 bits of.." rgroup.long 0xA0++0x3 line.long 0x0 "CFG_DWDCNTR," hexmask.long 0x0 0.--24. 1. "DWDCNTR,The value of the DWDCNTR after a system reset is 0x002D_FFFF. When the DWD is enabled and the DWD counter starts counting down from this value with an RTICLK1 time base of 3MHz a watchdog reset will be generated in 1 second. User and.." group.long 0xA4++0x1B line.long 0x0 "CFG_WWDRXNCTRL," hexmask.long.byte 0x0 0.--3. 1. "WWDRXN,User and privilege mode (read) privileged mode (write): 0x5 = This is the default value. The windowed watchdog will cause a reset if the watchdog is serviced outside the time window defined by the configuration or if the watchdog is not.." line.long 0x4 "CFG_WWDSIZECTRL," hexmask.long 0x4 0.--31. 1. "WWDSIZE,User and privilege mode (read) privileged mode (write): Table 3. Windowed Watchdog Window Size Configuration Value written to WWDSIZE Window Size 0x00000005 100% (The functionality is the same as the standard time-out digital watchdog.).." line.long 0x8 "CFG_INTCLRENABLE," hexmask.long.byte 0x8 24.--27. 1. "INTCLRENABLE3,Enables the auto-clear functionality on the compare 3 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 3 interrupt is disabled. Any other value = Auto-clear for compare 3 interrupt is enabled. Privileged mode.." hexmask.long.byte 0x8 16.--19. 1. "INTCLRENABLE2,Enables the auto-clear functionality on the compare 2 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 2 interrupt is disabled. Any other value = Auto-clear for compare 2 interrupt is enabled. Privileged mode.." newline hexmask.long.byte 0x8 8.--11. 1. "INTCLRENABLE1,Enables the auto-clear functionality on the compare 1 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 1 interrupt is disabled. Any other value = Auto-clear for compare 1 interrupt is enabled. Privileged mode.." hexmask.long.byte 0x8 0.--3. 1. "INTCLRENABLE0,Enables the auto-clear functionality on the compare 0 interrupt. User and Privileged mode (read): 0x5 = Auto-clear for compare 0 interrupt is disabled. Any other value = Auto-clear for compare 0 interrupt is enabled. Privileged mode.." line.long 0xC "CFG_COMP0CLR," hexmask.long 0xC 0.--31. 1. "COMP0CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 0 interrupt or DMA request line is cleared. User and privilege.." line.long 0x10 "CFG_COMP1CLR," hexmask.long 0x10 0.--31. 1. "COMP1CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 1 interrupt or DMA request line is cleared. User and privilege.." line.long 0x14 "CFG_COMP2CLR," hexmask.long 0x14 0.--31. 1. "COMP2CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 2 interrupt or DMA request line is cleared. User and privilege.." line.long 0x18 "CFG_COMP3CLR," hexmask.long 0x18 0.--31. 1. "COMP3CLR,This registers holds a compare value which is compared with the counter selected in the compare control logic. If the Free Running Counter matches the compare value the compare 3 interrupt or DMA request line is cleared. User and privilege.." tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "WKUP_TIMER0_CFG (WKUP_TIMER0_CFG)" base ad:0x2B100000 rgroup.long 0x0++0x3 line.long 0x0 "CFG_TIDR," bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x10++0x3 line.long 0x0 "CFG_TIOCP_CFG,This register controls the various parameters of the OCP interface" bitfld.long 0x0 2.--3. "IDLEMODE,Idle Mode" "0,1,2,3" bitfld.long 0x0 1. "EMUFREE,Emulation Mode" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset" "0,1" group.long 0x20++0x27 line.long 0x0 "CFG_IRQ_EOI,Allows the generation of further pulses on the interrupt line. if an new interrupt event is pending. when using the pulsed output. Unused when using the level interrupt line" bitfld.long 0x0 0. "LINE_NUMBER,Idle Mode" "0,1" line.long 0x4 "CFG_IRQSTATUS_RAW,Component interrupt request status." bitfld.long 0x4 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x4 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x4 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x8 "CFG_IRQSTATUS,Component interrupt request status." bitfld.long 0x8 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x8 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x8 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0xC "CFG_IRQSTATUS_SET,Component interrupt request enable" bitfld.long 0xC 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0xC 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0xC 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x10 "CFG_IRQSTATUS_CLR,Component interrupt request enable." bitfld.long 0x10 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x10 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x10 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x14 "CFG_IRQWAKEEN,Wakeup-enabled events taking place when module is idle shall generate an asynchronous wakeup" bitfld.long 0x14 2. "MAT_WUP_ENA,Match Wakeup Enable" "0,1" bitfld.long 0x14 1. "OVF_WUP_ENA,Overflow Wakeup Enable" "0,1" bitfld.long 0x14 0. "TCAR_WUP_ENA,Capture Wakeup Enable" "0,1" line.long 0x18 "CFG_TCLR,This register controls optional features specific to the timer functionality" bitfld.long 0x18 14. "GPO_CFG,This field drives directly the timer_gpocfg port" "0,1" bitfld.long 0x18 13. "CAPT_MODE,Capture mode select bit; First/second" "0,1" bitfld.long 0x18 12. "PT,Pulse or Toggle select bit" "0,1" bitfld.long 0x18 10.--11. "TRG,Trigger Output Mode" "0,1,2,3" bitfld.long 0x18 8.--9. "TCM,Transition Capture Mode" "0,1,2,3" newline bitfld.long 0x18 7. "SCPWM,Pulse Width Modulation output pin default value" "0,1" bitfld.long 0x18 6. "CE,Compare Enable" "0,1" bitfld.long 0x18 5. "PRE,Prescaler Enable" "0,1" bitfld.long 0x18 2.--4. "PTV,Trigger Output Mode. The timer counter is prescaled with the value: 2^PTV" "0,1,2,3,4,5,6,7" bitfld.long 0x18 1. "AR,Auto-reload mode" "0,1" newline bitfld.long 0x18 0. "ST,Start/Stop timer control" "0,1" line.long 0x1C "CFG_TCRR,This register holds the value of the internal counter" hexmask.long 0x1C 0.--31. 1. "TIMER_COUNTER,Timer Counter" line.long 0x20 "CFG_TLDR,This register holds the timer's load value" hexmask.long 0x20 0.--31. 1. "LOAD_VALUE,Timer Counter" line.long 0x24 "CFG_TTGR,This register triggers a counter reload of timer by writing any value in it" hexmask.long 0x24 0.--31. 1. "TTRG_VLAUE,The value of the trigger register. During reads it always return 0xFFFF_FFFF" rgroup.long 0x48++0x3 line.long 0x0 "CFG_TWPS,This register contains the write posting bits for all writ-able functional registers" bitfld.long 0x0 9. "W_PEND_TOWR,Write pending for register TOWR" "0,1" bitfld.long 0x0 8. "W_PEND_TOCR,Write pending for register TOCR" "0,1" bitfld.long 0x0 7. "W_PEND_TCVR,Write pending for register TCVR" "0,1" bitfld.long 0x0 6. "W_PEND_TNIR,Write pending for register TNIR" "0,1" bitfld.long 0x0 5. "W_PEND_TPIR,Write pending for register TPIR" "0,1" newline bitfld.long 0x0 4. "W_PEND_TMAR,Write pending for register TMAR" "0,1" bitfld.long 0x0 3. "W_PEND_TTGR,Write pending for register TTGR" "0,1" bitfld.long 0x0 2. "W_PEND_TLDR,Write pending for register TLDR" "0,1" bitfld.long 0x0 1. "W_PEND_TCRR,Write pending for register TCRR" "0,1" bitfld.long 0x0 0. "W_PEND_TCLR,Write pending for register TCLR" "0,1" group.long 0x4C++0x3 line.long 0x0 "CFG_TMAR,This register holds the match value to be compared with the counter's value" hexmask.long 0x0 0.--31. 1. "COMPARE_VLAUE,The value of the match register" rgroup.long 0x50++0x3 line.long 0x0 "CFG_TCAR1,This register holds the value of the first counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE1,The value of first captured counter register" group.long 0x54++0x3 line.long 0x0 "CFG_TSICR,Timer Synchronous Interface Control Register" bitfld.long 0x0 4. "READ_AFTER_IDLE,Select if the synchronization mechanism used for first TCRR read operation after IDLE state is active" "0,1" bitfld.long 0x0 3. "READ_MODE,Select posted/non-posted mode for read operation. This bit is not used when configured in posted mode" "0,1" bitfld.long 0x0 2. "POSTED,Reset value of POSTED depends on hardware integration module at design time. Software must read POSTED field to get the hardwar module configuration" "0,1" bitfld.long 0x0 1. "SFT,This bit reset all the functional part of teh module" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "CFG_TCAR2,This register holds the value of the second counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE2,The value of second captured counter register" group.long 0x5C++0x13 line.long 0x0 "CFG_TPIR,This register is used for 1ms tick generation." hexmask.long 0x0 0.--31. 1. "POSITIVE_INC_VALUE,The value of the positive increment" line.long 0x4 "CFG_TNIR,This register is used for 1ms tick generation." hexmask.long 0x4 0.--31. 1. "NEGATIVE_INC_VALUE,The value of the negative increment" line.long 0x8 "CFG_TCVR,This register is used for 1ms tick generation." hexmask.long 0x8 0.--31. 1. "COUNTER_VALUE,The value of CVR counter" line.long 0xC "CFG_TOCR,This register is used to mask the tick interrupt for a selected number of ticks" hexmask.long.tbyte 0xC 0.--23. 1. "OVF_COUNTER_VALUE,The number of overflow events" line.long 0x10 "CFG_TOWR,This register holds the number of masked overflow interrupts" hexmask.long.tbyte 0x10 0.--23. 1. "OVF_WRAPPING_VALUE,The number of masked interrupts" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "WKUP_TIMER1_CFG (WKUP_TIMER1_CFG)" base ad:0x2B110000 rgroup.long 0x0++0x3 line.long 0x0 "CFG_TIDR," bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x10++0x3 line.long 0x0 "CFG_TIOCP_CFG,This register controls the various parameters of the OCP interface" bitfld.long 0x0 2.--3. "IDLEMODE,Idle Mode" "0,1,2,3" bitfld.long 0x0 1. "EMUFREE,Emulation Mode" "0,1" bitfld.long 0x0 0. "SOFTRESET,Software reset" "0,1" group.long 0x20++0x27 line.long 0x0 "CFG_IRQ_EOI,Allows the generation of further pulses on the interrupt line. if an new interrupt event is pending. when using the pulsed output. Unused when using the level interrupt line" bitfld.long 0x0 0. "LINE_NUMBER,Idle Mode" "0,1" line.long 0x4 "CFG_IRQSTATUS_RAW,Component interrupt request status." bitfld.long 0x4 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x4 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x4 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x8 "CFG_IRQSTATUS,Component interrupt request status." bitfld.long 0x8 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x8 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x8 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0xC "CFG_IRQSTATUS_SET,Component interrupt request enable" bitfld.long 0xC 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0xC 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0xC 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x10 "CFG_IRQSTATUS_CLR,Component interrupt request enable." bitfld.long 0x10 2. "TCAR_IT_FLAG,Capture Interrupt" "0,1" bitfld.long 0x10 1. "OVF_IT_FLAG,Overflow Interrupt" "0,1" bitfld.long 0x10 0. "MAT_IT_FLAG,Match Interrupt" "0,1" line.long 0x14 "CFG_IRQWAKEEN,Wakeup-enabled events taking place when module is idle shall generate an asynchronous wakeup" bitfld.long 0x14 2. "MAT_WUP_ENA,Match Wakeup Enable" "0,1" bitfld.long 0x14 1. "OVF_WUP_ENA,Overflow Wakeup Enable" "0,1" bitfld.long 0x14 0. "TCAR_WUP_ENA,Capture Wakeup Enable" "0,1" line.long 0x18 "CFG_TCLR,This register controls optional features specific to the timer functionality" bitfld.long 0x18 14. "GPO_CFG,This field drives directly the timer_gpocfg port" "0,1" bitfld.long 0x18 13. "CAPT_MODE,Capture mode select bit; First/second" "0,1" bitfld.long 0x18 12. "PT,Pulse or Toggle select bit" "0,1" bitfld.long 0x18 10.--11. "TRG,Trigger Output Mode" "0,1,2,3" bitfld.long 0x18 8.--9. "TCM,Transition Capture Mode" "0,1,2,3" newline bitfld.long 0x18 7. "SCPWM,Pulse Width Modulation output pin default value" "0,1" bitfld.long 0x18 6. "CE,Compare Enable" "0,1" bitfld.long 0x18 5. "PRE,Prescaler Enable" "0,1" bitfld.long 0x18 2.--4. "PTV,Trigger Output Mode. The timer counter is prescaled with the value: 2^PTV" "0,1,2,3,4,5,6,7" bitfld.long 0x18 1. "AR,Auto-reload mode" "0,1" newline bitfld.long 0x18 0. "ST,Start/Stop timer control" "0,1" line.long 0x1C "CFG_TCRR,This register holds the value of the internal counter" hexmask.long 0x1C 0.--31. 1. "TIMER_COUNTER,Timer Counter" line.long 0x20 "CFG_TLDR,This register holds the timer's load value" hexmask.long 0x20 0.--31. 1. "LOAD_VALUE,Timer Counter" line.long 0x24 "CFG_TTGR,This register triggers a counter reload of timer by writing any value in it" hexmask.long 0x24 0.--31. 1. "TTRG_VLAUE,The value of the trigger register. During reads it always return 0xFFFF_FFFF" rgroup.long 0x48++0x3 line.long 0x0 "CFG_TWPS,This register contains the write posting bits for all writ-able functional registers" bitfld.long 0x0 9. "W_PEND_TOWR,Write pending for register TOWR" "0,1" bitfld.long 0x0 8. "W_PEND_TOCR,Write pending for register TOCR" "0,1" bitfld.long 0x0 7. "W_PEND_TCVR,Write pending for register TCVR" "0,1" bitfld.long 0x0 6. "W_PEND_TNIR,Write pending for register TNIR" "0,1" bitfld.long 0x0 5. "W_PEND_TPIR,Write pending for register TPIR" "0,1" newline bitfld.long 0x0 4. "W_PEND_TMAR,Write pending for register TMAR" "0,1" bitfld.long 0x0 3. "W_PEND_TTGR,Write pending for register TTGR" "0,1" bitfld.long 0x0 2. "W_PEND_TLDR,Write pending for register TLDR" "0,1" bitfld.long 0x0 1. "W_PEND_TCRR,Write pending for register TCRR" "0,1" bitfld.long 0x0 0. "W_PEND_TCLR,Write pending for register TCLR" "0,1" group.long 0x4C++0x3 line.long 0x0 "CFG_TMAR,This register holds the match value to be compared with the counter's value" hexmask.long 0x0 0.--31. 1. "COMPARE_VLAUE,The value of the match register" rgroup.long 0x50++0x3 line.long 0x0 "CFG_TCAR1,This register holds the value of the first counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE1,The value of first captured counter register" group.long 0x54++0x3 line.long 0x0 "CFG_TSICR,Timer Synchronous Interface Control Register" bitfld.long 0x0 4. "READ_AFTER_IDLE,Select if the synchronization mechanism used for first TCRR read operation after IDLE state is active" "0,1" bitfld.long 0x0 3. "READ_MODE,Select posted/non-posted mode for read operation. This bit is not used when configured in posted mode" "0,1" bitfld.long 0x0 2. "POSTED,Reset value of POSTED depends on hardware integration module at design time. Software must read POSTED field to get the hardwar module configuration" "0,1" bitfld.long 0x0 1. "SFT,This bit reset all the functional part of teh module" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "CFG_TCAR2,This register holds the value of the second counter register capture" hexmask.long 0x0 0.--31. 1. "CAPTURE_VALUE2,The value of second captured counter register" group.long 0x5C++0x13 line.long 0x0 "CFG_TPIR,This register is used for 1ms tick generation." hexmask.long 0x0 0.--31. 1. "POSITIVE_INC_VALUE,The value of the positive increment" line.long 0x4 "CFG_TNIR,This register is used for 1ms tick generation." hexmask.long 0x4 0.--31. 1. "NEGATIVE_INC_VALUE,The value of the negative increment" line.long 0x8 "CFG_TCVR,This register is used for 1ms tick generation." hexmask.long 0x8 0.--31. 1. "COUNTER_VALUE,The value of CVR counter" line.long 0xC "CFG_TOCR,This register is used to mask the tick interrupt for a selected number of ticks" hexmask.long.tbyte 0xC 0.--23. 1. "OVF_COUNTER_VALUE,The number of overflow events" line.long 0x10 "CFG_TOWR,This register holds the number of masked overflow interrupts" hexmask.long.tbyte 0x10 0.--23. 1. "OVF_WRAPPING_VALUE,The number of masked interrupts" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "WKUP_I2C0_CFG (WKUP_I2C0_CFG)" base ad:0x2B200000 rgroup.long 0x0++0x7 line.long 0x0 "CFG_I2C_REVNB_LO,Revision Number register (Low)" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL version This field changes on bug fix and resets to" bitfld.long 0x0 8.--10. "MAJOR,Major Revision This field changes when there is a major feature change This field does not change due to bug fix or minor feature change" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Indicates a special version for a particular device Consequence of use may avoid use of standard Chip Support Library [CSL] / Drivers 0 if non-custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor Revision This field changes when features are scaled up or down This field does not change due to bug fix or major feature change" line.long 0x4 "CFG_I2C_REVNB_HI,Revision Number register (High)" bitfld.long 0x4 14.--15. "SCHEME,Used to distinguish between old Scheme and current Spare bit to encode future schemes" "0,1,2,3" bitfld.long 0x4 12.--13. "RESERVED,Reads return 0x1" "0,1,2,3" hexmask.long.word 0x4 0.--11. 1. "FUNC,Function: Indicates a software compatible module family" group.long 0x10++0x3 line.long 0x0 "CFG_I2C_SYSC,System Configuration register" bitfld.long 0x0 8.--9. "CLKACTIVITY,Clock Activity selection bits" "0,1,2,3" bitfld.long 0x0 5.--7. "RESERVED,Reads return 0" "0,1,2,3,4,5,6,7" bitfld.long 0x0 3.--4. "IDLEMODE,Idle Mode selection bits" "0,1,2,3" bitfld.long 0x0 2. "ENAWAKEUP,Enable Wakeup control bit" "0,1" newline bitfld.long 0x0 1. "SRST,SoftReset bit" "0,1" bitfld.long 0x0 0. "AUTOIDLE,Autoidle bit" "0,1" wgroup.long 0x20++0x3 line.long 0x0 "CFG_I2C_EOI,End Of Interrupt number specification" bitfld.long 0x0 0. "LINE_NUMBER,Software End Of Interrupt [EOI] control Write number of interrupt output" "0,1" group.long 0x24++0x2B line.long 0x0 "CFG_I2C_IRQSTATUS_RAW,Per-event raw interrupt status vector" bitfld.long 0x0 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x0 14. "XDR,Transmit draining IRQ status" "0,1" bitfld.long 0x0 13. "RDR,Receive draining IRQ status" "0,1" rbitfld.long 0x0 12. "BB,Bus busy statusWriting into this bit has no effect" "0,1" newline bitfld.long 0x0 11. "ROVR,Receive overrun statusWriting into this bit has no effect" "0,1" bitfld.long 0x0 10. "XUDF,Transmit underflow statusWriting into this bit has no effect" "0,1" bitfld.long 0x0 9. "AAS,Address recognized as target IRQ status" "0,1" bitfld.long 0x0 8. "BF,Bus Free IRQ status" "0,1" newline bitfld.long 0x0 7. "AERR,Access Error IRQ status" "0,1" bitfld.long 0x0 6. "STC,Start Condition IRQ status" "0,1" bitfld.long 0x0 5. "GC,General call IRQ status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x0 4. "XRDY,Transmit data ready IRQ status Set to '1' by core when transmitter and when new data is requested When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" newline bitfld.long 0x0 3. "RRDY,Receive data ready IRQ status Set to '1' by core when receiver mode a new data is able to be read When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x0 2. "ARDY,Register access ready IRQ status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x0 1. "NACK,No acknowledgement IRQ status Bit is set when No Acknowledge has been received an interrupt is signaled to MPUSS Write '1' to clear this bit" "0,1" bitfld.long 0x0 0. "AL,Arbitration lost IRQ status This bit is automatically set by the hardware when it loses the Arbitration in controller transmit mode an interrupt is signaled to MPUSS During reads it always returns 0" "0,1" line.long 0x4 "CFG_I2C_IRQSTATUS,Per-event enabled interrupt status vector" bitfld.long 0x4 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x4 14. "XDR,Transmit draining IRQ enabled status" "0,1" bitfld.long 0x4 13. "RDR,Receive draining IRQ enabled status" "0,1" rbitfld.long 0x4 12. "BB,Bus busy enabled statusWriting into this bit has no effect" "0,1" newline bitfld.long 0x4 11. "ROVR,Receive overrun enabled statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 10. "XUDF,Transmit underflow enabled statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 9. "AAS,Address recognized as target IRQ enabled status" "0,1" bitfld.long 0x4 8. "BF,Bus Free IRQ enabled status" "0,1" newline bitfld.long 0x4 7. "AERR,Access Error IRQ enabled status" "0,1" bitfld.long 0x4 6. "STC,Start Condition IRQ enabled status" "0,1" bitfld.long 0x4 5. "GC,General call IRQ enabled status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 4. "XRDY,Transmit data ready IRQ enabled status Set to '1' by core when transmitter and when new data is requested When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" newline bitfld.long 0x4 3. "RRDY,Receive data ready IRQ enabled status Set to '1' by core when receiver mode a new data is able to be read When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 2. "ARDY,Register access ready IRQ enabled status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 1. "NACK,No acknowledgement IRQ enabled status Bit is set when No Acknowledge has been received an interrupt is signaled to MPUSS Write '1' to clear this bit" "0,1" bitfld.long 0x4 0. "AL,Arbitration lost IRQ enabled status This bit is automatically set by the hardware when it loses the Arbitration in controller transmit mode an interrupt is signaled to MPUSS During reads it always returns 0" "0,1" line.long 0x8 "CFG_I2C_IRQENABLE_SET,Per-event interrupt enable bit vector." bitfld.long 0x8 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x8 14. "XDR_IE,Transmit Draining interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]" "0,1" bitfld.long 0x8 13. "RDR_IE,Receive Draining interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]" "0,1" bitfld.long 0x8 11. "ROVR,Receive overrun enable set" "0,1" newline bitfld.long 0x8 10. "XUDF,Transmit underflow enable set" "0,1" bitfld.long 0x8 9. "ASS_IE,Addressed as Target interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]" "0,1" bitfld.long 0x8 8. "BF_IE,Bus Free interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]" "0,1" bitfld.long 0x8 7. "AERR_IE,Access Error interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]" "0,1" newline bitfld.long 0x8 6. "STC_IE,Start Condition interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]" "0,1" bitfld.long 0x8 5. "GC_IE,General call Interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]" "0,1" bitfld.long 0x8 4. "XRDY_IE,Transmit data ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]" "0,1" bitfld.long 0x8 3. "RRDY_IE,Receive data ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]" "0,1" newline bitfld.long 0x8 2. "ARDY_IE,Register access ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]" "0,1" bitfld.long 0x8 1. "NACK_IE,No acknowledgement interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]" "0,1" bitfld.long 0x8 0. "AL_IE,Arbitration lost interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]" "0,1" line.long 0xC "CFG_I2C_IRQENABLE_CLR,Per-event interrupt clear bit vector." bitfld.long 0xC 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0xC 14. "XDR_IE,Transmit Draining interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]" "0,1" bitfld.long 0xC 13. "RDR_IE,Receive Draining interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]" "0,1" bitfld.long 0xC 11. "ROVR,Receive overrun enable clear" "0,1" newline bitfld.long 0xC 10. "XUDF,Transmit underflow enable clear" "0,1" bitfld.long 0xC 9. "ASS_IE,Addressed as Target interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]" "0,1" bitfld.long 0xC 8. "BF_IE,Bus Free interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]" "0,1" bitfld.long 0xC 7. "AERR_IE,Access Error interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]" "0,1" newline bitfld.long 0xC 6. "STC_IE,Start Condition interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]" "0,1" bitfld.long 0xC 5. "GC_IE,General call Interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]" "0,1" bitfld.long 0xC 4. "XRDY_IE,Transmit data ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]" "0,1" bitfld.long 0xC 3. "RRDY_IE,Receive data ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]" "0,1" newline bitfld.long 0xC 2. "ARDY_IE,Register access ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]" "0,1" bitfld.long 0xC 1. "NACK_IE,No acknowledgement interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]" "0,1" bitfld.long 0xC 0. "AL_IE,Arbitration lost interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]" "0,1" line.long 0x10 "CFG_I2C_WE,I2C wakeup enable vector (legacy)." bitfld.long 0x10 14. "XDR,Transmit Draining wakeup set" "0,1" bitfld.long 0x10 13. "RDR,Receive Draining wakeup set" "0,1" bitfld.long 0x10 11. "ROVR,Receive overrun wakeup set" "0,1" bitfld.long 0x10 10. "XUDF,Transmit underflow wakeup set" "0,1" newline bitfld.long 0x10 9. "AAS,Address as target IRQ wakeup set" "0,1" bitfld.long 0x10 8. "BF,Bus Free IRQ wakeup set" "0,1" bitfld.long 0x10 6. "STC,Start Condition IRQ wakeup set" "0,1" bitfld.long 0x10 5. "GC,General call IRQ wakeup set" "0,1" newline bitfld.long 0x10 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "0,1" bitfld.long 0x10 2. "ARDY,Register access ready IRQ wakeup set" "0,1" bitfld.long 0x10 1. "NACK,No acknowledgment IRQ wakeup set" "0,1" bitfld.long 0x10 0. "AL,Arbitration lost IRQ wakeup set" "0,1" line.long 0x14 "CFG_I2C_DMARXENABLE_SET,Per-event DMA RX enable set." bitfld.long 0x14 0. "DMARX_ENABLE_SET,Receive DMA channel enable set" "0,1" line.long 0x18 "CFG_I2C_DMATXENABLE_SET,Per-event DMA TX enable set." bitfld.long 0x18 0. "DMATX_ENABLE_SET,Transmit DMA channel enable set" "0,1" line.long 0x1C "CFG_I2C_DMARXENABLE_CLR,Per-event DMA RX enable clear." bitfld.long 0x1C 0. "DMARX_ENABLE_CLEAR,Receive DMA channel enable clear" "0,1" line.long 0x20 "CFG_I2C_DMATXENABLE_CLR,Per-event DMA TX enable clear." bitfld.long 0x20 0. "DMATX_ENABLE_CLEAR,Transmit DMA channel enable clear" "0,1" line.long 0x24 "CFG_I2C_DMARXWAKE_EN,Per-event DMA RX wakeup enable." bitfld.long 0x24 14. "XDR,Transmit Draining wakeup set" "0,1" bitfld.long 0x24 13. "RDR,Receive Draining wakeup set" "0,1" bitfld.long 0x24 11. "ROVR,Receive overrun wakeup set" "0,1" bitfld.long 0x24 10. "XUDF,Transmit underflow wakeup set" "0,1" newline bitfld.long 0x24 9. "AAS,Address as target IRQ wakeup set" "0,1" bitfld.long 0x24 8. "BF,Bus Free IRQ wakeup set" "0,1" bitfld.long 0x24 6. "STC,Start Condition IRQ wakeup set" "0,1" bitfld.long 0x24 5. "GC,General call IRQ wakeup set" "0,1" newline bitfld.long 0x24 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "0,1" bitfld.long 0x24 2. "ARDY,Register access ready IRQ wakeup set" "0,1" bitfld.long 0x24 1. "NACK,No acknowledgment IRQ wakeup set" "0,1" bitfld.long 0x24 0. "AL,Arbitration lost IRQ wakeup set" "0,1" line.long 0x28 "CFG_I2C_DMATXWAKE_EN,Per-event DMA TX wakeup enable." bitfld.long 0x28 14. "XDR,Transmit Draining wakeup set" "0,1" bitfld.long 0x28 13. "RDR,Receive Draining wakeup set" "0,1" bitfld.long 0x28 11. "ROVR,Receive overrun wakeup set" "0,1" bitfld.long 0x28 10. "XUDF,Transmit underflow wakeup set" "0,1" newline bitfld.long 0x28 9. "AAS,Address as target IRQ wakeup set" "0,1" bitfld.long 0x28 8. "BF,Bus Free IRQ wakeup set" "0,1" bitfld.long 0x28 6. "STC,Start Condition IRQ wakeup set" "0,1" bitfld.long 0x28 5. "GC,General call IRQ wakeup set" "0,1" newline bitfld.long 0x28 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "0,1" bitfld.long 0x28 2. "ARDY,Register access ready IRQ wakeup set" "0,1" bitfld.long 0x28 1. "NACK,No acknowledgment IRQ wakeup set" "0,1" bitfld.long 0x28 0. "AL,Arbitration lost IRQ wakeup set" "0,1" group.long 0x84++0x7 line.long 0x0 "CFG_I2C_IE,I2C interrupt enable vector (legacy)." bitfld.long 0x0 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x0 14. "XDR_IE,Transmit Draining interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]" "0,1" bitfld.long 0x0 13. "RDR_IE,Receive Draining interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]" "0,1" bitfld.long 0x0 11. "ROVR,Receive overrun enable set" "0,1" newline bitfld.long 0x0 10. "XUDF,Transmit underflow enable set" "0,1" bitfld.long 0x0 9. "ASS_IE,Addressed as Target interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]" "0,1" bitfld.long 0x0 8. "BF_IE,Bus Free interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]" "0,1" bitfld.long 0x0 7. "AERR_IE,Access Error interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]" "0,1" newline bitfld.long 0x0 6. "STC_IE,Start Condition interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]" "0,1" bitfld.long 0x0 5. "GC_IE,General call Interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]" "0,1" bitfld.long 0x0 4. "XRDY_IE,Transmit data ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]" "0,1" bitfld.long 0x0 3. "RRDY_IE,Receive data ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]" "0,1" newline bitfld.long 0x0 2. "ARDY_IE,Register access ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]" "0,1" bitfld.long 0x0 1. "NACK_IE,No acknowledgement interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]" "0,1" bitfld.long 0x0 0. "AL_IE,Arbitration lost interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]" "0,1" line.long 0x4 "CFG_I2C_STAT,I2C interrupt status vector (legacy)." bitfld.long 0x4 15. "RESERVED,Write 0s for future compatibility Read returns 0" "0,1" bitfld.long 0x4 14. "XDR,Transmit draining IRQ status" "0,1" bitfld.long 0x4 13. "RDR,Receive draining IRQ status" "0,1" rbitfld.long 0x4 12. "BB,Bus busy statusWriting into this bit has no effect" "0,1" newline bitfld.long 0x4 11. "ROVR,Receive overrun statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 10. "XUDF,Transmit underflow statusWriting into this bit has no effect" "0,1" bitfld.long 0x4 9. "AAS,Address recognized as target IRQ status" "0,1" bitfld.long 0x4 8. "BF,Bus Free IRQ status" "0,1" newline bitfld.long 0x4 7. "AERR,Access Error IRQ status" "0,1" bitfld.long 0x4 6. "STC,Start Condition IRQ status" "0,1" bitfld.long 0x4 5. "GC,General call IRQ status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 4. "XRDY,Transmit data ready IRQ status Set to '1' by core when transmitter and when new data is requested When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" newline bitfld.long 0x4 3. "RRDY,Receive data ready IRQ status Set to '1' by core when receiver mode a new data is able to be read When set to '1' by core an interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 2. "ARDY,Register access ready IRQ status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear" "0,1" bitfld.long 0x4 1. "NACK,No acknowledgement IRQ status Bit is set when No Acknowledge has been received an interrupt is signaled to MPUSS Write '1' to clear this bit" "0,1" bitfld.long 0x4 0. "AL,Arbitration lost IRQ status This bit is automatically set by the hardware when it loses the Arbitration in controller transmit mode an interrupt is signaled to MPUSS During reads it always returns 0" "0,1" rgroup.long 0x90++0x3 line.long 0x0 "CFG_I2C_SYSS,System Status register" bitfld.long 0x0 0. "RDONE,Reset done bit" "0,1" group.long 0x94++0xB line.long 0x0 "CFG_I2C_BUF,Buffer Configuration register" bitfld.long 0x0 15. "RDMA_EN,Receive DMA channel enable" "0,1" bitfld.long 0x0 14. "RXFIFO_CLR,Receive FIFO clear" "0,1" hexmask.long.byte 0x0 8.--13. 1. "RXTRSH,Threshold value for FIFO buffer in RX mode" bitfld.long 0x0 7. "XDMA_EN,Transmit DMA channel enable" "0,1" newline bitfld.long 0x0 6. "TXFIFO_CLR,Transmit FIFO clear" "0,1" hexmask.long.byte 0x0 0.--5. 1. "TXTRSH,Threshold value for FIFO buffer in TX mode" line.long 0x4 "CFG_I2C_CNT,Data counter register" hexmask.long.word 0x4 0.--15. 1. "DCOUNT,Data count" line.long 0x8 "CFG_I2C_DATA,Data access register" hexmask.long.byte 0x8 0.--7. 1. "DATA,Transmit/Receive data FIFO endpoint" group.long 0xA4++0x1B line.long 0x0 "CFG_I2C_CON,I2C configuration register." bitfld.long 0x0 15. "I2C_EN,I2C module enable" "0,1" bitfld.long 0x0 12.--13. "OPMODE,Operation mode selection" "0,1,2,3" bitfld.long 0x0 11. "STB,Start byte mode [controller mode only]" "0,1" bitfld.long 0x0 10. "MST,Controller/target mode" "0,1" newline bitfld.long 0x0 9. "TRX,Transmitter/Receiver mode [controller mode only]" "0,1" bitfld.long 0x0 8. "XSA,Expand Target address" "0,1" bitfld.long 0x0 7. "XOA0,Expand Own address 0" "0,1" bitfld.long 0x0 6. "XOA1,Expand Own address 1" "0,1" newline bitfld.long 0x0 5. "XOA2,Expand Own address 2" "0,1" bitfld.long 0x0 4. "XOA3,Expand Own address 3" "0,1" bitfld.long 0x0 1. "STP,Stop condition [controller mode only]" "0,1" bitfld.long 0x0 0. "STT,Start condition [controller mode only]" "0,1" line.long 0x4 "CFG_I2C_OA,Own address register" bitfld.long 0x4 13.--15. "MCODE,Controller Code" "0,1,2,3,4,5,6,7" hexmask.long.word 0x4 0.--9. 1. "OA,Own address" line.long 0x8 "CFG_I2C_SA,Target address register" hexmask.long.word 0x8 0.--9. 1. "SA,Target address" line.long 0xC "CFG_I2C_PSC,I2C Clock Prescaler Register" hexmask.long.byte 0xC 0.--7. 1. "PSC,Fast/Standard mode prescale sampling clock divider value 0x0: Divide by 1 0x1: Divide by 2 0xFF: Divide by 256" line.long 0x10 "CFG_I2C_SCLL,I2C SCL Low Time Register." hexmask.long.byte 0x10 8.--15. 1. "HSSCLL,High Speed mode SCL low time" hexmask.long.byte 0x10 0.--7. 1. "SCLL,Fast/Standard mode SCL low time" line.long 0x14 "CFG_I2C_SCLH,I2C SCL High Time Register." hexmask.long.byte 0x14 8.--15. 1. "HSSCLH,High Speed mode SCL high time" hexmask.long.byte 0x14 0.--7. 1. "SCLH,Fast/Standard mode SCL high time" line.long 0x18 "CFG_I2C_SYSTEST,I2C System Test Register." bitfld.long 0x18 15. "ST_EN,System test enable" "0,1" bitfld.long 0x18 14. "FREE,Free running mode [on breakpoint]" "0,1" bitfld.long 0x18 12.--13. "TMODE,Test mode select" "0,1,2,3" bitfld.long 0x18 11. "SSB,Set status bits" "0,1" newline rbitfld.long 0x18 8. "SCL_I_FUNC,SCL line input value [functional mode]" "0,1" rbitfld.long 0x18 7. "SCL_O_FUNC,SCL line output value [functional mode]" "0,1" rbitfld.long 0x18 6. "SDA_I_FUNC,SDA line input value [functional mode]" "0,1" rbitfld.long 0x18 5. "SDA_O_FUNC,SDA line output value [functional mode]" "0,1" newline bitfld.long 0x18 4. "SCCB_E_O,SCCB_E line sense output value" "0,1" rbitfld.long 0x18 3. "SCL_I,SCL line sense input value" "0,1" bitfld.long 0x18 2. "SCL_O,SCL line drive output value" "0,1" rbitfld.long 0x18 1. "SDA_I,SDA line sense input value" "0,1" newline bitfld.long 0x18 0. "SDA_O,SDA line drive output value" "0,1" rgroup.long 0xC0++0x3 line.long 0x0 "CFG_I2C_BUFSTAT,I2C Buffer Status Register." bitfld.long 0x0 14.--15. "FIFODEPTH,Internal FIFO buffers depth" "0,1,2,3" hexmask.long.byte 0x0 8.--13. 1. "RXSTAT,RX Buffer Status" hexmask.long.byte 0x0 0.--5. 1. "TXSTAT,TX Buffer Status" group.long 0xC4++0xB line.long 0x0 "CFG_I2C_OA1,I2C Own Address 1 Register" hexmask.long.word 0x0 0.--9. 1. "OA1,Own address 1" line.long 0x4 "CFG_I2C_OA2,I2C Own Address 2" hexmask.long.word 0x4 0.--9. 1. "OA2,Own address 2" line.long 0x8 "CFG_I2C_OA3,I2C Own Address 3 Register" hexmask.long.word 0x8 0.--9. 1. "OA3,Own address 3" rgroup.long 0xD0++0x3 line.long 0x0 "CFG_I2C_ACTOA,I2C Active Own Address Register." bitfld.long 0x0 3. "OA3_ACT,Own Address 3 active" "0,1" bitfld.long 0x0 2. "OA2_ACT,Own Address 2 active" "0,1" bitfld.long 0x0 1. "OA1_ACT,Own Address 1 active" "0,1" bitfld.long 0x0 0. "OA0_ACT,Own Address 0 active" "0,1" group.long 0xD4++0x3 line.long 0x0 "CFG_I2C_SBLOCK,I2C Clock Blocking Enable Register." bitfld.long 0x0 3. "OA3_EN,Enable I2C Clock Blocking for Own Address 3" "0,1" bitfld.long 0x0 2. "OA2_EN,Enable I2C Clock Blocking for Own Address 2" "0,1" bitfld.long 0x0 1. "OA1_EN,Enable I2C Clock Blocking for Own Address 1" "0,1" bitfld.long 0x0 0. "OA0_EN,Enable I2C Clock Blocking for Own Address 0" "0,1" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "WKUP_UART0 (WKUP_UART0)" base ad:0x2B300000 group.long 0x0++0x3 line.long 0x0 "MEM_DLL,Divisor Latches Low Register" hexmask.long.byte 0x0 0.--7. 1. "CLOCK_LSB,Used to store the 8-bit LSB divisor value" rgroup.long 0x0++0x3 line.long 0x0 "MEM_RHR,The receiver section consists of the receiver holding register (RHR) and the receiver shift register. The RHR is actually a 64-byte FIFO. The receiver shift register receives serial data from RX input. The data is converted to parallel data and.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "RHR,Receive holding register" group.long 0x0++0x7 line.long 0x0 "MEM_THR,The transmitter section consists of the transmit holding register (THR) and the transmit shift register. The transmit holding register is actually a 64-byte FIFO. The LH writes data to the THR. The data is placed into the transmit shift register.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "THR,TRANSMIT HOLDING REGISTER" line.long 0x4 "MEM_DLH,Divisor Latches High Register" hexmask.long.byte 0x4 0.--7. 1. "CLOCK_MSB,Used to store the 8-bit MSB divisor value" group.long 0x4++0x3 line.long 0x0 "MEM_IER_CIR,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are 6 types of interrupt in these modes. TX status. status FIFO interrupt. RX overrun. last byte in RX FIFO. THR interrupt and RHR interrupt and they.." bitfld.long 0x0 6.--7. "NOT_USED2," "0,1,2,3" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "NOT_USED1," "0,1" newline bitfld.long 0x0 3. "RX_OVERRUN_IT," "0,1" newline bitfld.long 0x0 2. "RX_STOP_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" group.long 0x4++0x3 line.long 0x0 "MEM_IER_IRDA,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are 8 types of interrupt in these modes. received EOF. LSR interrupt. TX status. status FIFO interrupt. RX overrun. last byte in RX FIFO. THR.." bitfld.long 0x0 7. "EOF_IT," "0,1" newline bitfld.long 0x0 6. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "STS_FIFO_TRIG_IT," "0,1" newline bitfld.long 0x0 3. "RX_OVERRUN_IT," "0,1" newline bitfld.long 0x0 2. "LAST_RX_BYTE_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" group.long 0x4++0x7 line.long 0x0 "MEM_IER_UART,The interrupt enable register (IER) can be programmed to enable/disable any interrupt. There are seven types of interrupt in this mode: receiver error. RHR interrupt. THR interrupt. XOFF received and CTS*/RTS* change of state from low to.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "CTS_IT," "0,1" newline bitfld.long 0x0 6. "RTS_IT," "0,1" newline bitfld.long 0x0 5. "XOFF_IT," "0,1" newline bitfld.long 0x0 4. "SLEEP_MODE," "0,1" newline bitfld.long 0x0 3. "MODEM_STS_IT," "0,1" newline bitfld.long 0x0 2. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" line.long 0x4 "MEM_EFR,Enhanced Feature Register" bitfld.long 0x4 7. "AUTO_CTS_EN,Auto-CTS enable bit. 0: Normal operation. 1: Auto-CTS flow control is enabled i.e. transmission is halted when the CTS* pin is high (inactive)." "0: Normal operation,1: Auto-CTS flow control is enabled i" newline bitfld.long 0x4 6. "AUTO_RTS_EN,Auto-RTS enable bit. 0: Normal operation. 1: Auto- RTS flow control is enabled i.e. RTS* pin goes high (inactive) when the receiver FIFO HALT trigger level TCR[3:0] is reached and goes low (active) when the receiver FIFO RESTORE.." "0: Normal operation,1: Auto- RTS flow control is enabled i" newline bitfld.long 0x4 5. "SPECIAL_CHAR_DETECT,0: Normal operation. 1: Special character detect enable. Received data is compared with XOFF2 data. If a match occurs the received data is transferred to RX FIFO and IIR bit 4 is set to 1 to indicate a special character has been.." "0: Normal operation,1: Special character detect enable" newline bitfld.long 0x4 4. "ENHANCED_EN,Enhanced functions write enable bit. 0: Disables writing to IER bits 4-7 FCR bits 4-5 and MCR bits 5-7. 1: Enables writing to IER bits 4-7 FCR bits 4-5 and MCR bits 5-7." "0: Disables writing to IER bits 4-7,1: Enables writing to IER bits 4-7" newline hexmask.long.byte 0x4 0.--3. 1. "SW_FLOW_CONTROL,Combinations of Software flow control can be selected by programming bit 3 - bit 0. See Software Flow Control Options" group.long 0x8++0x3 line.long 0x0 "MEM_FCR,Notes:" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 6.--7. "RX_FIFO_TRIG,Sets the trigger level for the RX FIFO: If SCR[7] = 0 and TLR[7:4] = 0000: 00: 8 characters 01: 16 characters 10: 56 characters 11: 60 characters If SCR[7] = 0 and TLR[7:4] != 0000 RX_FIFO_TRIG is not considered. If SCR[7]=1 .." "0: 8 characters,1: 16 characters,?,?" newline bitfld.long 0x0 4.--5. "TX_FIFO_TRIG,Sets the trigger level for the TX FIFO: If SCR[6] = 0 and TLR[3:0] = 0000: 00: 8 spaces 01: 16 spaces 10: 32 spaces 11: 56 spaces If SCR[6] = 0 and TLR[3:0] != 0000 TX_FIFO_TRIG is not considered. If SCR[6]=1 TX_FIFO_TRIG is 2 LSB of.." "0: 8 spaces,1: 16 spaces,?,?" newline bitfld.long 0x0 3. "DMA_MODE,This register is considered if SCR[0] = 0." "0,1" newline bitfld.long 0x0 2. "TX_FIFO_CLEAR," "0,1" newline bitfld.long 0x0 1. "RX_FIFO_CLEAR," "0,1" newline bitfld.long 0x0 0. "FIFO_EN," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_CIR,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 3. "RX_OE_IT," "0,1" newline bitfld.long 0x0 2. "RX_STOP_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_IRDA,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." bitfld.long 0x0 7. "EOF_IT," "0,1" newline bitfld.long 0x0 6. "LINE_STS_IT," "0,1" newline bitfld.long 0x0 5. "TX_STATUS_IT," "0,1" newline bitfld.long 0x0 4. "STS_FIFO_IT," "0,1" newline bitfld.long 0x0 3. "RX_OE_IT," "0,1" newline bitfld.long 0x0 2. "RX_FIFO_LAST_BYTE_IT," "0,1" newline bitfld.long 0x0 1. "THR_IT," "0,1" newline bitfld.long 0x0 0. "RHR_IT," "0,1" rgroup.long 0x8++0x3 line.long 0x0 "MEM_IIR_UART,The IIR is a read-only register. which provides the source of the interrupt in a prioritized manner." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 6.--7. "FCR_MIRROR,Mirror the contents of FCR[0] on both bits." "0,1,2,3" newline hexmask.long.byte 0x0 1.--5. 1. "IT_TYPE," newline bitfld.long 0x0 0. "IT_PENDING," "0,1" group.long 0xC++0x7 line.long 0x0 "MEM_LCR,LCR[6:0] define parameters of the transmission and reception." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "DIV_EN," "0,1" newline bitfld.long 0x0 6. "BREAK_EN,Break control bit." "0,1" newline bitfld.long 0x0 5. "PARITY_TYPE2,Selects the forced parity format [if LCR[3] = 1]. If LCR[5] = 1 and LCR[4] = 0 the parity bit is forced to 1 in the transmitted and received data. If LCR[5] = 1 and LCR[4] = 1 the parity bit is forced to 0 in the transmitted and received.." "0,1" newline bitfld.long 0x0 4. "PARITY_TYPE1," "0,1" newline bitfld.long 0x0 3. "PARITY_EN," "0,1" newline bitfld.long 0x0 2. "NB_STOP,Specifies the number of stop bits:" "0,1" newline bitfld.long 0x0 0.--1. "CHAR_LENGTH,Specifies the word length to be transmitted or received." "0,1,2,3" line.long 0x4 "MEM_MCR,MCR[3:0] controls the interface with the modem. data set or peripheral device that is emulating the modem." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline rbitfld.long 0x4 7. "RESERVED," "0,1" newline bitfld.long 0x4 6. "TCR_TLR," "0,1" newline bitfld.long 0x4 5. "XON_EN," "0,1" newline bitfld.long 0x4 4. "LOOPBACK_EN," "0,1" newline bitfld.long 0x4 3. "CD_STS_CH," "0,1" newline bitfld.long 0x4 2. "RI_STS_CH," "0,1" newline bitfld.long 0x4 1. "RTS,In loop back controls MSR[4]. If auto-RTS is enabled the RTS* output is controlled by hardware flow control." "0,1" newline bitfld.long 0x4 0. "DTR," "0,1" group.long 0x10++0x3 line.long 0x0 "MEM_XON1_ADDR1,XON1/ADDR1 Register" hexmask.long.byte 0x0 0.--7. 1. "XON_WORD1,Used to store the 8-bit XON1 character in UART modes and ADDR1 address 1 for IrDA modes." rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_CIR," bitfld.long 0x0 7. "THR_EMPTY," "0,1" newline bitfld.long 0x0 6. "RESERVED," "0,1" newline bitfld.long 0x0 5. "RX_STOP,The RX_STOP is generated based on the value set in the BOF Length register (EBLR). It is cleared on a single read of the LSR register" "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_IRDA," bitfld.long 0x0 7. "THR_EMPTY," "0,1" newline bitfld.long 0x0 6. "STS_FIFO_FULL," "0,1" newline bitfld.long 0x0 5. "RX_LAST_BYTE," "0,1" newline bitfld.long 0x0 4. "FRAME_TOO_LONG," "0,1" newline bitfld.long 0x0 3. "ABORT," "0,1" newline bitfld.long 0x0 2. "CRC," "0,1" newline bitfld.long 0x0 1. "STS_FIFO_E," "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" rgroup.long 0x14++0x3 line.long 0x0 "MEM_LSR_UART," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "RX_FIFO_STS," "0,1" newline bitfld.long 0x0 6. "TX_SR_E," "0,1" newline bitfld.long 0x0 5. "TX_FIFO_E," "0,1" newline bitfld.long 0x0 4. "RX_BI," "0,1" newline bitfld.long 0x0 3. "RX_FE," "0,1" newline bitfld.long 0x0 2. "RX_PE," "0,1" newline bitfld.long 0x0 1. "RX_OE," "0,1" newline bitfld.long 0x0 0. "RX_FIFO_E," "0,1" group.long 0x14++0x3 line.long 0x0 "MEM_XON2_ADDR2,XON2/ADDR2 Register" hexmask.long.byte 0x0 0.--7. 1. "XON_WORD2,Used to store the 8-bit XON2 character in UART modes and ADDR2 address 2 for IrDA modes." rgroup.long 0x18++0x3 line.long 0x0 "MEM_MSR,This register provides information about the current state of the control lines from the modem. data set or peripheral device to the LH. It also indicates when a control input from the modem changes state." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "NCD_STS,This bit is the complement of the DCD* input. In loop-back mode it is equivalent to MCR[3]" "0,1" newline bitfld.long 0x0 6. "NRI_STS,This bit is the complement of the RI* input. In loop-back mode it is equivalent to MCR[2]" "0,1" newline bitfld.long 0x0 5. "NDSR_STS,This bit is the complement of the DSR* input. In loop-back mode it is equivalent to MCR[0]" "0,1" newline bitfld.long 0x0 4. "NCTS_STS,This bit is the complement of the CTS* input. In loop-back mode it is equivalent to MCR[1]" "0,1" newline bitfld.long 0x0 3. "DCD_STS,Indicates that DCD* input [or MCR[3] in loop back] has changed. Cleared on a read." "0,1" newline bitfld.long 0x0 2. "RI_STS,Indicates that RI* input [or MCR[2] in loop back] has changed state from low to high. Cleared on a read." "0,1" newline bitfld.long 0x0 1. "DSR_STS," "0,1" newline bitfld.long 0x0 0. "CTS_STS," "0,1" group.long 0x18++0x3 line.long 0x0 "MEM_TCR,Transmission Control Register" hexmask.long.byte 0x0 4.--7. 1. "RX_FIFO_TRIG_START,RX FIFO trigger level to RESTORE transmission (0 - 60)" newline hexmask.long.byte 0x0 0.--3. 1. "RX_FIFO_TRIG_HALT,RX FIFO trigger level to HALT transmission (0 - 60)" group.long 0x18++0x7 line.long 0x0 "MEM_XOFF1,XOFF1 Register" hexmask.long.byte 0x0 0.--7. 1. "XOFF_WORD1,Used to store the 8-bit XOFF1 character in used in UART modes." line.long 0x4 "MEM_SPR,This read/write register does not control the module in anyway. It is intended as a scratchpad register to be used by the programmer to hold temporary data." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "SPR_WORD,Scratchpad register" group.long 0x1C++0x3 line.long 0x0 "MEM_TLR,Trigger Level Register" hexmask.long.byte 0x0 4.--7. 1. "RX_FIFO_TRIG_DMA,Receive FIFO trigger level" newline hexmask.long.byte 0x0 0.--3. 1. "TX_FIFO_TRIG_DMA,Transmit FIFO trigger level" group.long 0x1C++0xB line.long 0x0 "MEM_XOFF2,XOFF2 Register" hexmask.long.byte 0x0 0.--7. 1. "XOFF_WORD2,Used to store the 8-bit XOFF2 character in used in UART modes." line.long 0x4 "MEM_MDR1,The mode of operation can be programmed by writing to MDR1[2:0] and therefore the MDR1 must be programmed on start-up after configuration of the configuration registers (DLL. DLH. LCR). The value of MDR1[2:0] must not be changed again during.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline bitfld.long 0x4 7. "FRAME_END_MODE,IrDA mode only." "0,1" newline bitfld.long 0x4 6. "SIP_MODE,MIR/FIR modes only." "0,1" newline bitfld.long 0x4 5. "SCT,Store and control the transmission" "0,1" newline bitfld.long 0x4 4. "SET_TXIR,Used to configure the infrared transceiver." "0,1" newline bitfld.long 0x4 3. "IR_SLEEP," "0,1" newline bitfld.long 0x4 0.--2. "MODE_SELECT," "0,1,2,3,4,5,6,7" line.long 0x8 "MEM_MDR2,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline bitfld.long 0x8 7. "SET_TXIR_ALT,Provide alternate functionnality for MDR1[4] [SET_TXIR]" "0,1" newline bitfld.long 0x8 6. "IRRXINVERT,Only for IR mode [IRDA & CIR]Invert RX pin inside the module before the voting or sampling system logic of the infra red block. This will not affect the RX path in UART Modem modes." "0,1" newline bitfld.long 0x8 4.--5. "CIR_PULSE_MODE,CIR Pulse modulation definition. It defines high level of the pulse width associated with a digit:" "0,1,2,3" newline bitfld.long 0x8 3. "UART_PULSE,UART mode only. Used to allow pulse shaping in UART mode." "0,1" newline bitfld.long 0x8 1.--2. "STS_FIFO_TRIG,Only for IR-IRDA mode. Frame Status FIFO Threshold select:" "0,1,2,3" newline rbitfld.long 0x8 0. "IRTX_UNDERRUN,IRDA Transmission status interrupt.When the IIR[5] interrupt occurs the meaning of the interrupt is :" "0,1" rgroup.long 0x28++0x3 line.long 0x0 "MEM_SFLSR,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 5.--7. "RESERVED5," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 4. "OE_ERROR," "0,1" newline bitfld.long 0x0 3. "FRAME_TOO_LONG_ERROR," "0,1" newline bitfld.long 0x0 2. "ABORT_DETECT," "0,1" newline bitfld.long 0x0 1. "CRC_ERROR," "0,1" newline bitfld.long 0x0 0. "RESERVED0," "0,1" group.long 0x28++0x3 line.long 0x0 "MEM_TXFLL,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "TXFLL,LSB register used to specify the frame length" rgroup.long 0x2C++0x3 line.long 0x0 "MEM_RESUME,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "RESUME,Dummy read to restart the TX or RX" group.long 0x2C++0x7 line.long 0x0 "MEM_TXFLH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline rbitfld.long 0x0 5.--7. "RESERVED," "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--4. 1. "TXFLH,MSB register used to specify the frame length" line.long 0x4 "MEM_RXFLL,IrDA modes only." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "RXFLL,LSB register used to specify the frame length in reception" rgroup.long 0x30++0x3 line.long 0x0 "MEM_SFREGL,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--7. 1. "SFREGL,LSB part of the frame length" group.long 0x34++0x3 line.long 0x0 "MEM_RXFLH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 4.--7. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "RXFLH,MSB register used to specify the frame length in reception" rgroup.long 0x34++0x3 line.long 0x0 "MEM_SFREGH,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 4.--7. 1. "RESERVED," newline hexmask.long.byte 0x0 0.--3. 1. "SFREGH,MSB part of the frame length" group.long 0x38++0x3 line.long 0x0 "MEM_BLR,IrDA modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "STS_FIFO_RESET,Status FIFO reset. This bit is self-clearing" "0,1" newline bitfld.long 0x0 6. "XBOF_TYPE,SIR xBOF select." "0,1" newline hexmask.long.byte 0x0 0.--5. 1. "RESERVED," rgroup.long 0x38++0x3 line.long 0x0 "MEM_UASR,UART Autobauding Status Register" bitfld.long 0x0 6.--7. "PARITY_TYPE,00 => No Parity identified. 01 => Parity space. 10 => Even Parity. 11 => Odd Parity" "0: No Parity identified,1: Parity space,?,?" newline bitfld.long 0x0 5. "BIT_BY_CHAR,0 => 7 bits character identified. 1 => 8 bits character identified" "0: 7 bits character identified,1: 8 bits character identified" newline hexmask.long.byte 0x0 0.--4. 1. "SPEED,Used to report the speed identified. 00000 => No speed identified. 00001 => 115200 bauds. 00010 => 57600 bauds. 00011 => 38400 bauds. 00100 => 28800 bauds. 00101 => 19200 bauds. 00110 => 14400 bauds. 00111 => 9600 bauds. 01000 => 4800 bauds. 01001.." group.long 0x3C++0xF line.long 0x0 "MEM_ACREG,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "PULSE_TYPE,SIR pulse width select:" "0,1" newline bitfld.long 0x0 6. "SD_MOD,Primary output used to configure transceivers. Connected to the SD/MODE input pin of IrDA transceivers." "0,1" newline bitfld.long 0x0 5. "DIS_IR_RX," "0,1" newline bitfld.long 0x0 4. "DIS_TX_UNDERRUN,It is recommended to disable TX FIFO underrun capability by masking corresponding underrun interrupt. When disabling underrun by setting ACREG[4]=1 garbage data is sent over TX line." "0,1" newline bitfld.long 0x0 3. "SEND_SIP,MIR/FIR Modes only.Send Serial Infrared Interaction Pulse [SIP] If this bit is set during a MIR/FIR transmission the SIP will be send at the end of it.This bit automatically gets cleared at the end of the SIP transmission." "0,1" newline bitfld.long 0x0 2. "SCTX_EN,Store and controlled TX start. When MDR1[5] = 1 and the LH writes 1 to this bit the TX state machine starts frame transmission. This bit is self-clearing." "0,1" newline bitfld.long 0x0 1. "ABORT_EN,Frame Abort. The LH can intentionally abort transmission of a frame by writing 1 to this bit. Neither the end flag nor the CRC bits are appended to the frame. If transmit FIFO is not empty and MDR1[5]=1 UART IrDA will start a new transfer.." "0,1" newline bitfld.long 0x0 0. "EOT_EN,EOT [end of transmission] bit. The LH writes 1 to this bit just before it writes the last byte to the TX FIFO in set-EOT bit frame closing method. This bit automatically gets cleared when the LH writes to the THR [TX FIFO]." "0,1" line.long 0x4 "MEM_SCR,Note: Bit 4 enables the wake-up interrupt. but this interrupt is not mapped into the IIR register. Therefore. when an interrupt occurs and there is no interrupt pending in the IIR register. the SSR[1] bit must be checked. To clear the wake-up.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline bitfld.long 0x4 7. "RX_TRIG_GRANU1," "0,1" newline bitfld.long 0x4 6. "TX_TRIG_GRANU1," "0,1" newline bitfld.long 0x4 5. "DSR_IT," "0,1" newline bitfld.long 0x4 4. "RX_CTS_DSR_WAKE_UP_ENABLE," "0,1" newline bitfld.long 0x4 3. "TX_EMPTY_CTL_IT," "0,1" newline bitfld.long 0x4 1.--2. "DMA_MODE_2,Used to specify the DMA mode valid if SCR[0] = 1" "0,1,2,3" newline bitfld.long 0x4 0. "DMA_MODE_CTL," "0,1" line.long 0x8 "MEM_SSR,Note: Bit 1 is reset only when SCR[4] is reset to 0." hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x8 3.--7. 1. "RESERVED," newline bitfld.long 0x8 2. "DMA_COUNTER_RST," "0,1" newline rbitfld.long 0x8 1. "RX_CTS_DSR_WAKE_UP_STS," "0,1" newline rbitfld.long 0x8 0. "TX_FIFO_FULL," "0,1" line.long 0xC "MEM_EBLR,IR-IrDA and IR-CIR modes only." hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED," newline hexmask.long.byte 0xC 0.--7. 1. "EBLR,IR-IRDA mode: This register allows to define up to 176 xBOFs the maximum required by IrDA specification. IR-CIR mode: This register specifies the number of consecutive zeros to be received before generating the RX_STOP interrupt [IIR[2]]. 0x00:.." rgroup.long 0x50++0x3 line.long 0x0 "MEM_MVR,The reset value is fixed by hardware and corresponds to the RTL revision of this module. A reset has no effect on the value returned" bitfld.long 0x0 30.--31. "SCHEME,Scheme revision number of module" "0,1,2,3" newline bitfld.long 0x0 28.--29. "RESERVED," "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "FUNC,Function revision number of module" newline hexmask.long.byte 0x0 11.--15. 1. "RTL,Rtl revision number of module" newline bitfld.long 0x0 8.--10. "MAJOR,Major revision number of the module." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom revision number of the module." "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision number of the module." group.long 0x54++0x3 line.long 0x0 "MEM_SYSC,The auto idle bit controls a power saving technique to reduce the logic power consumption of the OCP interface. That is to say when the feature is enabled. the clock will be gated off until an OCP command for this device has been detected. When.." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline rbitfld.long 0x0 5.--7. "RESERVED," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 3.--4. "IDLEMODE,POWER MANAGEMENT REQ/ACK CONTROL REF: OCP DESIGN GUIDELINES VERSION 1.1" "0,1,2,3" newline bitfld.long 0x0 2. "ENAWAKEUP,WAKE UP FEATURE CONTROL" "0,1" newline bitfld.long 0x0 1. "SOFTRESET,Software reset. Set this bit to 1 to trigger a module reset. This bit is automatically reset by the hardware. During reads it always returns a 0." "0,1" newline bitfld.long 0x0 0. "AUTOIDLE,Internal OCP clock gating strategy" "0,1" rgroup.long 0x58++0x3 line.long 0x0 "MEM_SYSS," hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x0 1.--7. 1. "RESERVED," newline bitfld.long 0x0 0. "RESETDONE,Internal Reset Monitoring" "0,1" group.long 0x5C++0x7 line.long 0x0 "MEM_WER,The UART wakeup enable register is used to mask and unmask a UART event that would subsequently notify the system. The events are any activity in the logic that could cause an interrupt and/ or an activity that would require the system to wakeup." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED," newline bitfld.long 0x0 7. "EVENT_7_TX_WAKEUP_EN," "0,1" newline bitfld.long 0x0 6. "EVENT_6_RECEIVER_LINE_STATUS_INTERRUPT," "0,1" newline bitfld.long 0x0 5. "EVENT_5_RHR_INTERRUPT," "0,1" newline bitfld.long 0x0 4. "EVENT_4_RX_ACTIVITY," "0,1" newline bitfld.long 0x0 3. "EVENT_3_DCD_CD_ACTIVITY," "0,1" newline bitfld.long 0x0 2. "EVENT_2_RI_ACTIVITY," "0,1" newline bitfld.long 0x0 1. "EVENT_1_DSR_ACTIVITY," "0,1" newline bitfld.long 0x0 0. "EVENT_0_CTS_ACTIVITY," "0,1" line.long 0x4 "MEM_CFPS,Since the Consumer IR works at modulation rates of 30 56.8 KHz. the 48 MHz clock must be pre scaled before the clock can drive the IR logic. This register sets the divisor rate to give a range to accommodate the remote control requirements in.." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x4 0.--7. 1. "CFPS,System clock frequency prescaler at [12x multiple]. Examples for CFPS values are given in the table below. Target Freq [KHz] CFPS [decimal] Actual Freq[KHz] 30 133 30.08 32.75 122 32.79 36 111 36.04 36.7 109 36.69 38* 105 38.1.." rgroup.long 0x64++0x7 line.long 0x0 "MEM_RXFIFO_LVL,Level of the RX FIFO" hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED24," newline hexmask.long.byte 0x0 0.--7. 1. "RXFIFO_LVL," line.long 0x4 "MEM_TXFIFO_LVL,Level of the TX FIFO" hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED24," newline hexmask.long.byte 0x4 0.--7. 1. "TXFIFO_LVL," group.long 0x6C++0xB line.long 0x0 "MEM_IER2,Enables RX/TX FIFOs empty corresponding interrupts." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED1," newline hexmask.long.byte 0x0 3.--7. 1. "RESERVED," newline bitfld.long 0x0 2. "RHR_IT_DIS," "0,1" newline bitfld.long 0x0 1. "EN_TXFIFO_EMPTY,Enables[1]/DISABLES[00 EN_TXFIFO_EMPTY interrupt." "0,1" newline bitfld.long 0x0 0. "EN_RXFIFO_EMPTY,Enables[1]/disables[0] EN_RXFIFO_EMPTY interrupt." "0,1" line.long 0x4 "MEM_ISR2,Status of RX/TX FIFOs empty corresponding interrupts." hexmask.long.tbyte 0x4 8.--31. 1. "RESERVED1," newline hexmask.long.byte 0x4 2.--7. 1. "RESERVED," newline bitfld.long 0x4 1. "TXFIFO_EMPTY_STS,TXFIFO interrupt pending" "0,1" newline bitfld.long 0x4 0. "RXFIFO_EMPTY_STS,RXFIFO interrupt pending" "0,1" line.long 0x8 "MEM_FREQ_SEL,Sample per bit value selector" hexmask.long.byte 0x8 0.--7. 1. "FREQ_SEL,Sets the sample per bit if non default frequency is used. MDR3[1] must be set to 1 after this value is set. Must be equal or higher then 6." rgroup.long 0x78++0x7 line.long 0x0 "MEM_ABAUD_1ST_CHAR,Unused" hexmask.long 0x0 0.--31. 1. "RESERVED," line.long 0x4 "MEM_BAUD_2ND_CHAR,Unused" hexmask.long 0x4 0.--31. 1. "RESERVED," group.long 0x80++0x23 line.long 0x0 "MEM_MDR3,Mode definition register 3." hexmask.long.tbyte 0x0 8.--31. 1. "RESERVED2," newline bitfld.long 0x0 4. "DIR_EN,RS-485 External Transceiver Direction Enable" "0,1" newline bitfld.long 0x0 3. "DIR_POL,RS-485 External Transceiver Direction Polarity. 0 => TX: RTS=0 RX: RTS=1. 1 => TX: RTS=1 RX: RTS=0" "0: TX: RTS=0,1: TX: RTS=1" newline bitfld.long 0x0 2. "SET_DMA_TX_THRESHOLD,Enable to set different TX DMA threshold then 64-trigger [usage of new register TX_DNA_THRESHOLD]" "0,1" newline bitfld.long 0x0 1. "NONDEFAULT_FREQ,Enables[1]/Disables[0] using NONDEFAULT fclk frequencies" "0,1" newline bitfld.long 0x0 0. "DISABLE_CIR_RX_DEMOD,Disables[1]/Enables[0] CIR RX demodulation" "0,1" line.long 0x4 "MEM_TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level." hexmask.long.byte 0x4 0.--5. 1. "TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level." line.long 0x8 "MEM_MDR4,Mode definition register 4" hexmask.long.tbyte 0x8 8.--31. 1. "RESERVED1," newline rbitfld.long 0x8 7. "RESERVED," "0,1" newline bitfld.long 0x8 6. "MODE9,9-bit character length. When '1' overrides character length setting in LCR" "0,1" newline bitfld.long 0x8 3.--5. "FREQ_SEL_H,Upper 3 bits of FREQ_SEL register for higher division values as required for example for FI/Di in ISO7816 mode" "0,1,2,3,4,5,6,7" newline bitfld.long 0x8 0.--2. "MODE,New modes [when set overrides MDR1 modes]" "0,1,2,3,4,5,6,7" line.long 0xC "MEM_EFR2,Enhanced Features Register 2" hexmask.long.tbyte 0xC 8.--31. 1. "RESERVED1," newline bitfld.long 0xC 7. "BROADCAST,Enables broadcast address matching in multi-drop address match mode" "0,1" newline bitfld.long 0xC 6. "TIMEOUT_BEHAVE,Specifies how timeout is measured" "0,1" newline bitfld.long 0xC 5. "C8,Value for ISO 7816 C8 pin for software control" "0,1" newline bitfld.long 0xC 4. "C4,Value for ISO 7816 C4 pin for software control" "0,1" newline bitfld.long 0xC 3. "C2,Value for ISO 7816 reset pin [software controllable]" "0,1" newline bitfld.long 0xC 2. "MULTIDROP,Enables parity Multi-drop mode [overrides LCR[5..3]] when '1'" "0,1" newline bitfld.long 0xC 1. "RHR_OVERRUN,RHR Overrun behaviour when buffer full" "0,1" newline bitfld.long 0xC 0. "ENDIAN,Endianness" "0,1" line.long 0x10 "MEM_ECR,Enhanced Control register" hexmask.long.tbyte 0x10 8.--31. 1. "RESERVED1," newline rbitfld.long 0x10 6.--7. "RESERVED," "0,1,2,3" newline bitfld.long 0x10 5. "CLEAR_TX_PE,Write 1 to clear parity error from the Transmitter to allow it to continue to try sending data [ISO7816 transmit only]" "0,1" newline bitfld.long 0x10 4. "TX_EN,Enables/Disables the transmitter" "0,1" newline bitfld.long 0x10 3. "RX_EN,Enables/Disables the receiver" "0,1" newline bitfld.long 0x10 2. "TX_RST,Writing '1' resets the transmitter" "0,1" newline bitfld.long 0x10 1. "RX_RST,Writing '1' resets the receiver" "0,1" newline bitfld.long 0x10 0. "A_MULTIDROP,In multi-drop mode when written with the value '1' causes the next byte written into THR to be transmitted with the parity bit set signaling an address" "0,1" line.long 0x14 "MEM_TIMEGUARD,Timeguard" hexmask.long.tbyte 0x14 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x14 0.--7. 1. "TIMEGUARD,Specifies the amount of idle baud clocks [transmitter bit period] to insert between transmitted bytes useful when comunicating with slower devices" line.long 0x18 "MEM_TIMEOUTL,Timeout lower byte" hexmask.long.tbyte 0x18 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x18 0.--7. 1. "TIMEOUT_L,Custom timeout period in baud clocks to override the internal value when different from 0. [Lower byte of the 16 bit value]" line.long 0x1C "MEM_TIMEOUTH,Timeout higher byte" hexmask.long.tbyte 0x1C 8.--31. 1. "RESERVED," newline hexmask.long.byte 0x1C 0.--7. 1. "TIMEOUT_H,Custom timeout period in baud clocks to override the internal value when different from 0. [Higher byte of the 16 bit value]" line.long 0x20 "MEM_SCCR,Smartcard (ISO7816) mode Control Register" hexmask.long.tbyte 0x20 8.--31. 1. "RESERVED1," newline bitfld.long 0x20 7. "DSNACK,Applies Max_Iteration to receiver aswell - when maximum number of NACKs have been returned the receiver will accept the data regardless of error. The data will be loaded into the receiver FIFO and PE will be set when reading it." "0,1" newline bitfld.long 0x20 6. "INACK,Inhibit NACK when receiving even if an error is received. The data will be loaded into the receiver FIFO and PE will be set when reading it." "0,1" newline rbitfld.long 0x20 3.--5. "RESERVED," "0,1,2,3,4,5,6,7" newline bitfld.long 0x20 0.--2. "MAX_ITERATION,Number of times to repeat transmitted character if the receiver did not acknowledge. If not acknowledged after the max value is reached the USART transmitter will set parity error stop and not continue until it is cleared." "0,1,2,3,4,5,6,7" rgroup.long 0xA4++0x3 line.long 0x0 "MEM_ERHR,Extended Receive Holding Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--8. 1. "ERHR,Extended Receive Holding Register - allows accessing the full 9bit RHR" group.long 0xA4++0xF line.long 0x0 "MEM_ETHR,Extended Transmit Holding Register" hexmask.long.tbyte 0x0 9.--31. 1. "RESERVED," newline hexmask.long.word 0x0 0.--8. 1. "ETHR,Extended Transmit Holding Register - allows writing the full 9bit RHR" line.long 0x4 "MEM_MAR,Multidrop Address Register" hexmask.long.byte 0x4 0.--7. 1. "ADDRESS,Multidrop match address value" line.long 0x8 "MEM_MMR,Multidrop Mask Register" hexmask.long.byte 0x8 0.--7. 1. "MASK,Address match masking value ? writing a 0 to a bit means that the corresponding address bit will be ignored in matching" line.long 0xC "MEM_MBR,Multidrop Broadcast Address Register" hexmask.long.byte 0xC 0.--7. 1. "BROADCAST_ADDRESS,Broadcast address for address matching" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "WKUP_PBIST0 (WKUP_PBIST0)" base ad:0x2B500000 group.long 0x0++0x7F line.long 0x0 "MEM_RF0L," hexmask.long 0x0 0.--31. 1. "RF0L,Register Files / Instruction Registers RF0 lower (RF0L)" line.long 0x4 "MEM_RF1L," hexmask.long 0x4 0.--31. 1. "RF1L,Register Files / Instruction Registers RF1 lower (RF1L)" line.long 0x8 "MEM_RF2L," hexmask.long 0x8 0.--31. 1. "RF2L,Register Files / Instruction Registers RF2 lower (RF2L)" line.long 0xC "MEM_RF3L," hexmask.long 0xC 0.--31. 1. "RF3L,Register Files / Instruction Registers RF3 lower (RF3L)" line.long 0x10 "MEM_RF4L," hexmask.long 0x10 0.--31. 1. "RF4L,Register Files / Instruction Registers RF4 lower (RF4L)" line.long 0x14 "MEM_RF5L," hexmask.long 0x14 0.--31. 1. "RF5L,Register Files / Instruction Registers RF5 lower (RF5L)" line.long 0x18 "MEM_RF6L," hexmask.long 0x18 0.--31. 1. "RF6L,Register Files / Instruction Registers RF6 lower (RF6L)" line.long 0x1C "MEM_RF7L," hexmask.long 0x1C 0.--31. 1. "RF7L,Register Files / Instruction Registers RF7 lower (RF7L)" line.long 0x20 "MEM_RF8L," hexmask.long 0x20 0.--31. 1. "RF8L,Register Files / Instruction Registers RF8 lower (RF8L)" line.long 0x24 "MEM_RF9L," hexmask.long 0x24 0.--31. 1. "RF9L,Register Files / Instruction Registers RF9 lower (RF9L)" line.long 0x28 "MEM_RF10L," hexmask.long 0x28 0.--31. 1. "RF10L,Register Files / Instruction Registers RF10 lower (RF10L)" line.long 0x2C "MEM_RF11L," hexmask.long 0x2C 0.--31. 1. "RF11L,Register Files / Instruction Registers RF11 lower (RF11L)" line.long 0x30 "MEM_RF12L," hexmask.long 0x30 0.--31. 1. "RF12L,Register Files / Instruction Registers RF12 lower (RF12L)" line.long 0x34 "MEM_RF13L," hexmask.long 0x34 0.--31. 1. "RF13L,Register Files / Instruction Registers RF13 lower (RF13L)" line.long 0x38 "MEM_RF14L," hexmask.long 0x38 0.--31. 1. "RF14L,Register Files / Instruction Registers RF14 lower (RF14L)" line.long 0x3C "MEM_RF15L," hexmask.long 0x3C 0.--31. 1. "RF15L,Register Files / Instruction Registers RF15 lower (RF15L)" line.long 0x40 "MEM_RF0U," hexmask.long 0x40 0.--31. 1. "RF0U,Register Files / Instruction Registers RF0 upper (RF0U)" line.long 0x44 "MEM_RF1U," hexmask.long 0x44 0.--31. 1. "RF1U,Register Files / Instruction Registers RF1 upper (RF1U)" line.long 0x48 "MEM_RF2U," hexmask.long 0x48 0.--31. 1. "RF2U,Register Files / Instruction Registers RF2 upper (RF2U)" line.long 0x4C "MEM_RF3U," hexmask.long 0x4C 0.--31. 1. "RF3U,Register Files / Instruction Registers RF3 upper (RF3U)" line.long 0x50 "MEM_RF4U," hexmask.long 0x50 0.--31. 1. "RF4U,Register Files / Instruction Registers RF4 upper (RF4U)" line.long 0x54 "MEM_RF5U," hexmask.long 0x54 0.--31. 1. "RF5U,Register Files / Instruction Registers RF5 upper (RF5U)" line.long 0x58 "MEM_RF6U," hexmask.long 0x58 0.--31. 1. "RF6U,Register Files / Instruction Registers RF6 upper (RF6U)" line.long 0x5C "MEM_RF7U," hexmask.long 0x5C 0.--31. 1. "RF7U,Register Files / Instruction Registers RF7 upper (RF7U)" line.long 0x60 "MEM_RF8U," hexmask.long 0x60 0.--31. 1. "RF8U,Register Files / Instruction Registers RF8 upper (RF8U)" line.long 0x64 "MEM_RF9U," hexmask.long 0x64 0.--31. 1. "RF9U,Register Files / Instruction Registers RF9 upper (RF9U)" line.long 0x68 "MEM_RF10U," hexmask.long 0x68 0.--31. 1. "RF10U,Register Files / Instruction Registers RF10 upper (RF10U)" line.long 0x6C "MEM_RF11U," hexmask.long 0x6C 0.--31. 1. "RF11U,Register Files / Instruction Registers RF11 upper (RF11U)" line.long 0x70 "MEM_RF12U," hexmask.long 0x70 0.--31. 1. "RF12U,Register Files / Instruction Registers RF12 upper (RF12U)" line.long 0x74 "MEM_RF13U," hexmask.long 0x74 0.--31. 1. "RF13U,Register Files / Instruction Registers RF13 upper (RF13U)" line.long 0x78 "MEM_RF14U," hexmask.long 0x78 0.--31. 1. "RF14U,Register Files / Instruction Registers RF14 upper (RF14U)" line.long 0x7C "MEM_RF15U," hexmask.long 0x7C 0.--31. 1. "RF15U,Register Files / Instruction Registers RF15 upper (RF15U)" group.long 0x100++0x27 line.long 0x0 "MEM_A0," hexmask.long.word 0x0 0.--15. 1. "A0,Variable Address Register 0 (A0)" line.long 0x4 "MEM_A1," hexmask.long.word 0x4 0.--15. 1. "A1,Variable Address Register 1 (A1)" line.long 0x8 "MEM_A2," hexmask.long.word 0x8 0.--15. 1. "A2,Variable Address Register 2 (A2)" line.long 0xC "MEM_A3," hexmask.long.word 0xC 0.--15. 1. "A3,Variable Address Register 3 (A3)" line.long 0x10 "MEM_L0," hexmask.long.word 0x10 0.--15. 1. "L0,Variable Loop Count Register 0 (L0)" line.long 0x14 "MEM_L1," hexmask.long.word 0x14 0.--15. 1. "L1,Variable Loop Count Register 1 (L1)" line.long 0x18 "MEM_L2," hexmask.long.word 0x18 0.--15. 1. "L2,Variable Loop Count Register 2 (L2)" line.long 0x1C "MEM_L3," hexmask.long.word 0x1C 0.--15. 1. "L3,Variable Loop Count Register 3 (L3)" line.long 0x20 "MEM_D," hexmask.long.word 0x20 16.--31. 1. "D1,DD1 Data Register Upper 16 (D1)" hexmask.long.word 0x20 0.--15. 1. "D0,DD0 Data Register Lower 16 (D0)" line.long 0x24 "MEM_E," hexmask.long.word 0x24 16.--31. 1. "E1,EE1 Data Register Upper 16 (E1)" hexmask.long.word 0x24 0.--15. 1. "E0,EE0 Data Register Lower 16 (E0)" group.long 0x130++0x3F line.long 0x0 "MEM_CA0," hexmask.long.word 0x0 0.--15. 1. "CA0,Constant Address Register 0 (CA0)" line.long 0x4 "MEM_CA1," hexmask.long.word 0x4 0.--15. 1. "CA1,Constant Address Register 1 (CA1)" line.long 0x8 "MEM_CA2," hexmask.long.word 0x8 0.--15. 1. "CA2,Constant Address Register 2 (CA2)" line.long 0xC "MEM_CA3," hexmask.long.word 0xC 0.--15. 1. "CA3,Constant Address Register 3 (CA3)" line.long 0x10 "MEM_CL0," hexmask.long.word 0x10 0.--15. 1. "CL0,Constant Loop Count Register 0 (CL0)" line.long 0x14 "MEM_CL1," hexmask.long.word 0x14 0.--15. 1. "CL1,Constant Loop Count Register 1 (CL1)" line.long 0x18 "MEM_CL2," hexmask.long.word 0x18 0.--15. 1. "CL2,Constant Loop Count Register 2 (CL2)" line.long 0x1C "MEM_CL3," hexmask.long.word 0x1C 0.--15. 1. "CL3,Constant Loop Count Register 3 (CL3)" line.long 0x20 "MEM_I0," hexmask.long.word 0x20 0.--15. 1. "I0,Constant Increment Register 0 (I0)" line.long 0x24 "MEM_I1," hexmask.long.word 0x24 0.--15. 1. "I0,Constant Increment Register 1 (I1)" line.long 0x28 "MEM_I2," hexmask.long.word 0x28 0.--15. 1. "I0,Constant Increment Register 2 (I2)" line.long 0x2C "MEM_I3," hexmask.long.word 0x2C 0.--15. 1. "I0,Constant Increment Register 3 (I3)" line.long 0x30 "MEM_RAMT," hexmask.long.byte 0x30 24.--31. 1. "RGS,RAM Group Select RGS" hexmask.long.byte 0x30 16.--23. 1. "RDS,Return Data select RDS" hexmask.long.byte 0x30 8.--15. 1. "DWR,Data Width Register DWR" hexmask.long.byte 0x30 2.--5. 1. "PLS,Pipeline Latency Select" bitfld.long 0x30 0.--1. "RLS,RAM Latency Select" "0,1,2,3" line.long 0x34 "MEM_DLR," hexmask.long.byte 0x34 16.--23. 1. "BRP,Datalogger 2 (BRP)" bitfld.long 0x34 10. "DLR1_RTM,Retention testing mode" "0,1" bitfld.long 0x34 9. "DLR1_GNG,GO / NO-GO testing mode" "0,1" bitfld.long 0x34 8. "DLR1_MISR,MISR testing mode (mainly for ROM testing)" "0,1" bitfld.long 0x34 7. "DLR0_TSM,Time stamp mode" "0,1" newline bitfld.long 0x34 6. "DLR0_CFMM,Column Fail Masking mode" "0,1" bitfld.long 0x34 5. "DLR0_ECAM,Emulation cache access mode" "0,1" bitfld.long 0x34 4. "DLR0_CAM,Config access mode" "0,1" bitfld.long 0x34 3. "DLR0_TCK,TCK Gated mode" "0,1" bitfld.long 0x34 2. "DLR0_ROM,ROM-based testing mode" "0,1" newline bitfld.long 0x34 1. "DLR0_IDDQ,IDDQ testing mode" "0,1" bitfld.long 0x34 0. "DLR0_DCM,Distributed Compare mode" "0,1" line.long 0x38 "MEM_CMS," hexmask.long.byte 0x38 0.--3. 1. "CMS,Clock Mux Select (CMS)" line.long 0x3C "MEM_STR," bitfld.long 0x3C 4. "CHK,Check MISR mode" "0,1" bitfld.long 0x3C 3. "STEP,Step / Step for emulation mode" "0,1" bitfld.long 0x3C 2. "STOP,Stop" "0,1" bitfld.long 0x3C 1. "RES,Resume / Emulation read" "0,1" bitfld.long 0x3C 0. "START,Start / Time Stamp mode restart" "0,1" group.quad 0x170++0x7 line.quad 0x0 "MEM_SCR," hexmask.quad.byte 0x0 56.--63. 1. "SCR7,Address Scrambling Register 7" hexmask.quad.byte 0x0 48.--55. 1. "SCR6,Address Scrambling Register 6" hexmask.quad.byte 0x0 40.--47. 1. "SCR5,Address Scrambling Register 5" hexmask.quad.byte 0x0 32.--39. 1. "SCR4,Address Scrambling Register 4" hexmask.quad.byte 0x0 24.--31. 1. "SCR3,Address Scrambling Register 3" newline hexmask.quad.byte 0x0 16.--23. 1. "SCR2,Address Scrambling Register 2" hexmask.quad.byte 0x0 8.--15. 1. "SCR1,Address Scrambling Register 1" hexmask.quad.byte 0x0 0.--7. 1. "SCR0,Address Scrambling Register 0" group.long 0x178++0x13 line.long 0x0 "MEM_CSR," hexmask.long.byte 0x0 24.--31. 1. "CSR3,Chip Select 3 (CSR3)" hexmask.long.byte 0x0 16.--23. 1. "CSR2,Chip Select 2 (CSR2)" hexmask.long.byte 0x0 8.--15. 1. "CSR1,Chip Select 1(CSR1)" hexmask.long.byte 0x0 0.--7. 1. "CSR0,Chip Select 0 (CSR0)" line.long 0x4 "MEM_FDLY," hexmask.long.byte 0x4 0.--7. 1. "FDLY,Fail Delay (FDLY)" line.long 0x8 "MEM_PACT," bitfld.long 0x8 0. "PACT,PBIST Activate (PACT)" "0,1" line.long 0xC "MEM_PID," hexmask.long.byte 0xC 0.--4. 1. "PID,PBIST ID" line.long 0x10 "MEM_OVER," bitfld.long 0x10 3. "ALGO,PBIST Override Algorithm Override" "0,1" bitfld.long 0x10 2. "MM,PBIST Override Multiple Memory" "0,1" bitfld.long 0x10 1. "READ,PBIST Override READ Override" "0,1" bitfld.long 0x10 0. "RINFO,PBIST Override RINFO Override" "0,1" rgroup.quad 0x190++0x17 line.quad 0x0 "MEM_FSRF," bitfld.quad 0x0 32. "FRSF1,Fail Status Fail - Port 1 (FSRF1)" "0,1" bitfld.quad 0x0 0. "FRSF0,Fail Status Fail - Port 0 (FSRF0)" "0,1" line.quad 0x8 "MEM_FSRC," hexmask.quad.byte 0x8 32.--35. 1. "FSRC1,Fail Status Count - Port 1 (FSRC1)" hexmask.quad.byte 0x8 0.--3. 1. "FSRC0,Fail Status Count - Port 0 (FSRC0)" line.quad 0x10 "MEM_FSRA," hexmask.quad.word 0x10 32.--47. 1. "FSRA1,Fail Status Address - Port 1 (FSRA1)" hexmask.quad.word 0x10 0.--15. 1. "FSRA0,Fail Status Address - Port 0 (FSRA0)" rgroup.long 0x1A8++0x3 line.long 0x0 "MEM_FSRDL0," hexmask.long 0x0 0.--31. 1. "FSRDL0,Fail Status Data - Port 0 (FSRDL0)" rgroup.long 0x1B0++0xF line.long 0x0 "MEM_FSRDL1," hexmask.long 0x0 0.--31. 1. "FSRDL1,Fail Status Data - Port 1 (FSRDL1)" line.long 0x4 "MEM_MARGIN_MODE," bitfld.long 0x4 2.--3. "PBIST_DFT_READ,pbist_dft_read[1:0]" "0,1,2,3" bitfld.long 0x4 0.--1. "PBIST_DFT_WRITE,pbist_dft_write[1:0]" "0,1,2,3" line.long 0x8 "MEM_WRENZ," bitfld.long 0x8 0.--1. "WRENZ,pbist_ram_wrenz[1:0]" "0,1,2,3" line.long 0xC "MEM_PAGE_PGS," bitfld.long 0xC 0.--1. "PGS,pbist_ram_pgs[1:0]" "0,1,2,3" group.long 0x1C0++0x7 line.long 0x0 "MEM_ROM," bitfld.long 0x0 0.--1. "ROM,ROM Mask (ROM)" "0,1,2,3" line.long 0x4 "MEM_ALGO," hexmask.long.byte 0x4 24.--31. 1. "ALGO_3,ROM Algorithm Mask 3 (ALGO 3)" hexmask.long.byte 0x4 16.--23. 1. "ALGO_2,ROM Algorithm Mask 2 (ALGO 2)" hexmask.long.byte 0x4 8.--15. 1. "ALGO_1,ROM Algorithm Mask 1 (ALGO 1)" hexmask.long.byte 0x4 0.--7. 1. "ALGO_0,ROM Algorithm Mask 0 (ALGO 0)" group.quad 0x1C8++0x7 line.quad 0x0 "MEM_RINFO," hexmask.quad.byte 0x0 56.--63. 1. "U3,RAM Info Mask Upper 3 (RINFOU3)" hexmask.quad.byte 0x0 48.--55. 1. "U2,RAM Info Mask Upper 2 (RINFOU2)" hexmask.quad.byte 0x0 40.--47. 1. "U1,RAM Info Mask Upper 1 (RINFOU1)" hexmask.quad.byte 0x0 32.--39. 1. "U0,RAM Info Mask Upper 0 (RINFOU0)" hexmask.quad.byte 0x0 24.--31. 1. "L3,RAM Info Mask Lower 3 (RINFOL3)" newline hexmask.quad.byte 0x0 16.--23. 1. "L2,RAM Info Mask Lower 2 (RINFOL2)" hexmask.quad.byte 0x0 8.--15. 1. "L1,RAM Info Mask Lower 1 (RINFOL1)" hexmask.quad.byte 0x0 0.--7. 1. "L0,RAM Info Mask Lower 0 (RINFOL0)" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "WKUP_PBIST1 (WKUP_PBIST1)" base ad:0x2B510000 group.long 0x0++0x7F line.long 0x0 "MEM_RF0L," hexmask.long 0x0 0.--31. 1. "RF0L,Register Files / Instruction Registers RF0 lower (RF0L)" line.long 0x4 "MEM_RF1L," hexmask.long 0x4 0.--31. 1. "RF1L,Register Files / Instruction Registers RF1 lower (RF1L)" line.long 0x8 "MEM_RF2L," hexmask.long 0x8 0.--31. 1. "RF2L,Register Files / Instruction Registers RF2 lower (RF2L)" line.long 0xC "MEM_RF3L," hexmask.long 0xC 0.--31. 1. "RF3L,Register Files / Instruction Registers RF3 lower (RF3L)" line.long 0x10 "MEM_RF4L," hexmask.long 0x10 0.--31. 1. "RF4L,Register Files / Instruction Registers RF4 lower (RF4L)" line.long 0x14 "MEM_RF5L," hexmask.long 0x14 0.--31. 1. "RF5L,Register Files / Instruction Registers RF5 lower (RF5L)" line.long 0x18 "MEM_RF6L," hexmask.long 0x18 0.--31. 1. "RF6L,Register Files / Instruction Registers RF6 lower (RF6L)" line.long 0x1C "MEM_RF7L," hexmask.long 0x1C 0.--31. 1. "RF7L,Register Files / Instruction Registers RF7 lower (RF7L)" line.long 0x20 "MEM_RF8L," hexmask.long 0x20 0.--31. 1. "RF8L,Register Files / Instruction Registers RF8 lower (RF8L)" line.long 0x24 "MEM_RF9L," hexmask.long 0x24 0.--31. 1. "RF9L,Register Files / Instruction Registers RF9 lower (RF9L)" line.long 0x28 "MEM_RF10L," hexmask.long 0x28 0.--31. 1. "RF10L,Register Files / Instruction Registers RF10 lower (RF10L)" line.long 0x2C "MEM_RF11L," hexmask.long 0x2C 0.--31. 1. "RF11L,Register Files / Instruction Registers RF11 lower (RF11L)" line.long 0x30 "MEM_RF12L," hexmask.long 0x30 0.--31. 1. "RF12L,Register Files / Instruction Registers RF12 lower (RF12L)" line.long 0x34 "MEM_RF13L," hexmask.long 0x34 0.--31. 1. "RF13L,Register Files / Instruction Registers RF13 lower (RF13L)" line.long 0x38 "MEM_RF14L," hexmask.long 0x38 0.--31. 1. "RF14L,Register Files / Instruction Registers RF14 lower (RF14L)" line.long 0x3C "MEM_RF15L," hexmask.long 0x3C 0.--31. 1. "RF15L,Register Files / Instruction Registers RF15 lower (RF15L)" line.long 0x40 "MEM_RF0U," hexmask.long 0x40 0.--31. 1. "RF0U,Register Files / Instruction Registers RF0 upper (RF0U)" line.long 0x44 "MEM_RF1U," hexmask.long 0x44 0.--31. 1. "RF1U,Register Files / Instruction Registers RF1 upper (RF1U)" line.long 0x48 "MEM_RF2U," hexmask.long 0x48 0.--31. 1. "RF2U,Register Files / Instruction Registers RF2 upper (RF2U)" line.long 0x4C "MEM_RF3U," hexmask.long 0x4C 0.--31. 1. "RF3U,Register Files / Instruction Registers RF3 upper (RF3U)" line.long 0x50 "MEM_RF4U," hexmask.long 0x50 0.--31. 1. "RF4U,Register Files / Instruction Registers RF4 upper (RF4U)" line.long 0x54 "MEM_RF5U," hexmask.long 0x54 0.--31. 1. "RF5U,Register Files / Instruction Registers RF5 upper (RF5U)" line.long 0x58 "MEM_RF6U," hexmask.long 0x58 0.--31. 1. "RF6U,Register Files / Instruction Registers RF6 upper (RF6U)" line.long 0x5C "MEM_RF7U," hexmask.long 0x5C 0.--31. 1. "RF7U,Register Files / Instruction Registers RF7 upper (RF7U)" line.long 0x60 "MEM_RF8U," hexmask.long 0x60 0.--31. 1. "RF8U,Register Files / Instruction Registers RF8 upper (RF8U)" line.long 0x64 "MEM_RF9U," hexmask.long 0x64 0.--31. 1. "RF9U,Register Files / Instruction Registers RF9 upper (RF9U)" line.long 0x68 "MEM_RF10U," hexmask.long 0x68 0.--31. 1. "RF10U,Register Files / Instruction Registers RF10 upper (RF10U)" line.long 0x6C "MEM_RF11U," hexmask.long 0x6C 0.--31. 1. "RF11U,Register Files / Instruction Registers RF11 upper (RF11U)" line.long 0x70 "MEM_RF12U," hexmask.long 0x70 0.--31. 1. "RF12U,Register Files / Instruction Registers RF12 upper (RF12U)" line.long 0x74 "MEM_RF13U," hexmask.long 0x74 0.--31. 1. "RF13U,Register Files / Instruction Registers RF13 upper (RF13U)" line.long 0x78 "MEM_RF14U," hexmask.long 0x78 0.--31. 1. "RF14U,Register Files / Instruction Registers RF14 upper (RF14U)" line.long 0x7C "MEM_RF15U," hexmask.long 0x7C 0.--31. 1. "RF15U,Register Files / Instruction Registers RF15 upper (RF15U)" group.long 0x100++0x27 line.long 0x0 "MEM_A0," hexmask.long.word 0x0 0.--15. 1. "A0,Variable Address Register 0 (A0)" line.long 0x4 "MEM_A1," hexmask.long.word 0x4 0.--15. 1. "A1,Variable Address Register 1 (A1)" line.long 0x8 "MEM_A2," hexmask.long.word 0x8 0.--15. 1. "A2,Variable Address Register 2 (A2)" line.long 0xC "MEM_A3," hexmask.long.word 0xC 0.--15. 1. "A3,Variable Address Register 3 (A3)" line.long 0x10 "MEM_L0," hexmask.long.word 0x10 0.--15. 1. "L0,Variable Loop Count Register 0 (L0)" line.long 0x14 "MEM_L1," hexmask.long.word 0x14 0.--15. 1. "L1,Variable Loop Count Register 1 (L1)" line.long 0x18 "MEM_L2," hexmask.long.word 0x18 0.--15. 1. "L2,Variable Loop Count Register 2 (L2)" line.long 0x1C "MEM_L3," hexmask.long.word 0x1C 0.--15. 1. "L3,Variable Loop Count Register 3 (L3)" line.long 0x20 "MEM_D," hexmask.long.word 0x20 16.--31. 1. "D1,DD1 Data Register Upper 16 (D1)" hexmask.long.word 0x20 0.--15. 1. "D0,DD0 Data Register Lower 16 (D0)" line.long 0x24 "MEM_E," hexmask.long.word 0x24 16.--31. 1. "E1,EE1 Data Register Upper 16 (E1)" hexmask.long.word 0x24 0.--15. 1. "E0,EE0 Data Register Lower 16 (E0)" group.long 0x130++0x3F line.long 0x0 "MEM_CA0," hexmask.long.word 0x0 0.--15. 1. "CA0,Constant Address Register 0 (CA0)" line.long 0x4 "MEM_CA1," hexmask.long.word 0x4 0.--15. 1. "CA1,Constant Address Register 1 (CA1)" line.long 0x8 "MEM_CA2," hexmask.long.word 0x8 0.--15. 1. "CA2,Constant Address Register 2 (CA2)" line.long 0xC "MEM_CA3," hexmask.long.word 0xC 0.--15. 1. "CA3,Constant Address Register 3 (CA3)" line.long 0x10 "MEM_CL0," hexmask.long.word 0x10 0.--15. 1. "CL0,Constant Loop Count Register 0 (CL0)" line.long 0x14 "MEM_CL1," hexmask.long.word 0x14 0.--15. 1. "CL1,Constant Loop Count Register 1 (CL1)" line.long 0x18 "MEM_CL2," hexmask.long.word 0x18 0.--15. 1. "CL2,Constant Loop Count Register 2 (CL2)" line.long 0x1C "MEM_CL3," hexmask.long.word 0x1C 0.--15. 1. "CL3,Constant Loop Count Register 3 (CL3)" line.long 0x20 "MEM_I0," hexmask.long.word 0x20 0.--15. 1. "I0,Constant Increment Register 0 (I0)" line.long 0x24 "MEM_I1," hexmask.long.word 0x24 0.--15. 1. "I0,Constant Increment Register 1 (I1)" line.long 0x28 "MEM_I2," hexmask.long.word 0x28 0.--15. 1. "I0,Constant Increment Register 2 (I2)" line.long 0x2C "MEM_I3," hexmask.long.word 0x2C 0.--15. 1. "I0,Constant Increment Register 3 (I3)" line.long 0x30 "MEM_RAMT," hexmask.long.byte 0x30 24.--31. 1. "RGS,RAM Group Select RGS" hexmask.long.byte 0x30 16.--23. 1. "RDS,Return Data select RDS" hexmask.long.byte 0x30 8.--15. 1. "DWR,Data Width Register DWR" hexmask.long.byte 0x30 2.--5. 1. "PLS,Pipeline Latency Select" bitfld.long 0x30 0.--1. "RLS,RAM Latency Select" "0,1,2,3" line.long 0x34 "MEM_DLR," hexmask.long.byte 0x34 16.--23. 1. "BRP,Datalogger 2 (BRP)" bitfld.long 0x34 10. "DLR1_RTM,Retention testing mode" "0,1" bitfld.long 0x34 9. "DLR1_GNG,GO / NO-GO testing mode" "0,1" bitfld.long 0x34 8. "DLR1_MISR,MISR testing mode (mainly for ROM testing)" "0,1" bitfld.long 0x34 7. "DLR0_TSM,Time stamp mode" "0,1" newline bitfld.long 0x34 6. "DLR0_CFMM,Column Fail Masking mode" "0,1" bitfld.long 0x34 5. "DLR0_ECAM,Emulation cache access mode" "0,1" bitfld.long 0x34 4. "DLR0_CAM,Config access mode" "0,1" bitfld.long 0x34 3. "DLR0_TCK,TCK Gated mode" "0,1" bitfld.long 0x34 2. "DLR0_ROM,ROM-based testing mode" "0,1" newline bitfld.long 0x34 1. "DLR0_IDDQ,IDDQ testing mode" "0,1" bitfld.long 0x34 0. "DLR0_DCM,Distributed Compare mode" "0,1" line.long 0x38 "MEM_CMS," hexmask.long.byte 0x38 0.--3. 1. "CMS,Clock Mux Select (CMS)" line.long 0x3C "MEM_STR," bitfld.long 0x3C 4. "CHK,Check MISR mode" "0,1" bitfld.long 0x3C 3. "STEP,Step / Step for emulation mode" "0,1" bitfld.long 0x3C 2. "STOP,Stop" "0,1" bitfld.long 0x3C 1. "RES,Resume / Emulation read" "0,1" bitfld.long 0x3C 0. "START,Start / Time Stamp mode restart" "0,1" group.quad 0x170++0x7 line.quad 0x0 "MEM_SCR," hexmask.quad.byte 0x0 56.--63. 1. "SCR7,Address Scrambling Register 7" hexmask.quad.byte 0x0 48.--55. 1. "SCR6,Address Scrambling Register 6" hexmask.quad.byte 0x0 40.--47. 1. "SCR5,Address Scrambling Register 5" hexmask.quad.byte 0x0 32.--39. 1. "SCR4,Address Scrambling Register 4" hexmask.quad.byte 0x0 24.--31. 1. "SCR3,Address Scrambling Register 3" newline hexmask.quad.byte 0x0 16.--23. 1. "SCR2,Address Scrambling Register 2" hexmask.quad.byte 0x0 8.--15. 1. "SCR1,Address Scrambling Register 1" hexmask.quad.byte 0x0 0.--7. 1. "SCR0,Address Scrambling Register 0" group.long 0x178++0x13 line.long 0x0 "MEM_CSR," hexmask.long.byte 0x0 24.--31. 1. "CSR3,Chip Select 3 (CSR3)" hexmask.long.byte 0x0 16.--23. 1. "CSR2,Chip Select 2 (CSR2)" hexmask.long.byte 0x0 8.--15. 1. "CSR1,Chip Select 1(CSR1)" hexmask.long.byte 0x0 0.--7. 1. "CSR0,Chip Select 0 (CSR0)" line.long 0x4 "MEM_FDLY," hexmask.long.byte 0x4 0.--7. 1. "FDLY,Fail Delay (FDLY)" line.long 0x8 "MEM_PACT," bitfld.long 0x8 0. "PACT,PBIST Activate (PACT)" "0,1" line.long 0xC "MEM_PID," hexmask.long.byte 0xC 0.--4. 1. "PID,PBIST ID" line.long 0x10 "MEM_OVER," bitfld.long 0x10 3. "ALGO,PBIST Override Algorithm Override" "0,1" bitfld.long 0x10 2. "MM,PBIST Override Multiple Memory" "0,1" bitfld.long 0x10 1. "READ,PBIST Override READ Override" "0,1" bitfld.long 0x10 0. "RINFO,PBIST Override RINFO Override" "0,1" rgroup.quad 0x190++0x17 line.quad 0x0 "MEM_FSRF," bitfld.quad 0x0 32. "FRSF1,Fail Status Fail - Port 1 (FSRF1)" "0,1" bitfld.quad 0x0 0. "FRSF0,Fail Status Fail - Port 0 (FSRF0)" "0,1" line.quad 0x8 "MEM_FSRC," hexmask.quad.byte 0x8 32.--35. 1. "FSRC1,Fail Status Count - Port 1 (FSRC1)" hexmask.quad.byte 0x8 0.--3. 1. "FSRC0,Fail Status Count - Port 0 (FSRC0)" line.quad 0x10 "MEM_FSRA," hexmask.quad.word 0x10 32.--47. 1. "FSRA1,Fail Status Address - Port 1 (FSRA1)" hexmask.quad.word 0x10 0.--15. 1. "FSRA0,Fail Status Address - Port 0 (FSRA0)" rgroup.long 0x1A8++0x3 line.long 0x0 "MEM_FSRDL0," hexmask.long 0x0 0.--31. 1. "FSRDL0,Fail Status Data - Port 0 (FSRDL0)" rgroup.long 0x1B0++0xF line.long 0x0 "MEM_FSRDL1," hexmask.long 0x0 0.--31. 1. "FSRDL1,Fail Status Data - Port 1 (FSRDL1)" line.long 0x4 "MEM_MARGIN_MODE," bitfld.long 0x4 2.--3. "PBIST_DFT_READ,pbist_dft_read[1:0]" "0,1,2,3" bitfld.long 0x4 0.--1. "PBIST_DFT_WRITE,pbist_dft_write[1:0]" "0,1,2,3" line.long 0x8 "MEM_WRENZ," bitfld.long 0x8 0.--1. "WRENZ,pbist_ram_wrenz[1:0]" "0,1,2,3" line.long 0xC "MEM_PAGE_PGS," bitfld.long 0xC 0.--1. "PGS,pbist_ram_pgs[1:0]" "0,1,2,3" group.long 0x1C0++0x7 line.long 0x0 "MEM_ROM," bitfld.long 0x0 0.--1. "ROM,ROM Mask (ROM)" "0,1,2,3" line.long 0x4 "MEM_ALGO," hexmask.long.byte 0x4 24.--31. 1. "ALGO_3,ROM Algorithm Mask 3 (ALGO 3)" hexmask.long.byte 0x4 16.--23. 1. "ALGO_2,ROM Algorithm Mask 2 (ALGO 2)" hexmask.long.byte 0x4 8.--15. 1. "ALGO_1,ROM Algorithm Mask 1 (ALGO 1)" hexmask.long.byte 0x4 0.--7. 1. "ALGO_0,ROM Algorithm Mask 0 (ALGO 0)" group.quad 0x1C8++0x7 line.quad 0x0 "MEM_RINFO," hexmask.quad.byte 0x0 56.--63. 1. "U3,RAM Info Mask Upper 3 (RINFOU3)" hexmask.quad.byte 0x0 48.--55. 1. "U2,RAM Info Mask Upper 2 (RINFOU2)" hexmask.quad.byte 0x0 40.--47. 1. "U1,RAM Info Mask Upper 1 (RINFOU1)" hexmask.quad.byte 0x0 32.--39. 1. "U0,RAM Info Mask Upper 0 (RINFOU0)" hexmask.quad.byte 0x0 24.--31. 1. "L3,RAM Info Mask Lower 3 (RINFOL3)" newline hexmask.quad.byte 0x0 16.--23. 1. "L2,RAM Info Mask Lower 2 (RINFOL2)" hexmask.quad.byte 0x0 8.--15. 1. "L1,RAM Info Mask Lower 1 (RINFOL1)" hexmask.quad.byte 0x0 0.--7. 1. "L0,RAM Info Mask Lower 0 (RINFOL0)" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "WKUP_CTRL_MMR0_CFG0 (WKUP_CTRL_MMR0_CFG0)" base ad:0x43000000 rgroup.long 0x0++0x3 line.long 0x0 "CFG0_PID," hexmask.long.word 0x0 16.--31. 1. "PID_MSB16," newline hexmask.long.byte 0x0 11.--15. 1. "PID_MISC," newline bitfld.long 0x0 8.--10. "PID_MAJOR," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "PID_CUSTOM," "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "PID_MINOR," rgroup.long 0x8++0x3 line.long 0x0 "CFG0_MMR_CFG1," bitfld.long 0x0 31. "MMR_CFG1_PROXY_EN,Proxy addressing activated" "0,1" newline hexmask.long.byte 0x0 0.--7. 1. "MMR_CFG1_PARTITIONS,Indicates present partitions" rgroup.long 0x14++0x7 line.long 0x0 "CFG0_JTAGID," hexmask.long.byte 0x0 28.--31. 1. "JTAGID_VARIANT,Used to indicate new PGs" newline hexmask.long.word 0x0 12.--27. 1. "JTAGID_PARTNO,Part number for boundary scan" newline hexmask.long.word 0x0 1.--11. 1. "JTAGID_MFG,Indicates manufacturer" newline bitfld.long 0x0 0. "JTAGID_LSB,Always 1" "0,1" line.long 0x4 "CFG0_JTAG_USER_ID," hexmask.long 0x4 0.--31. 1. "JTAG_USER_ID_USERCODE,Device information" group.long 0x30++0x3 line.long 0x0 "CFG0_MAIN_DEVSTAT," hexmask.long.word 0x0 0.--15. 1. "MAIN_DEVSTAT_BOOTMODE,Specifies the device Primary and Backup boot media." rgroup.long 0x34++0x3 line.long 0x0 "CFG0_MAIN_BOOTCFG," hexmask.long.word 0x0 0.--15. 1. "MAIN_BOOTCFG_BOOTMODE,Specifies the device Primary and Backup boot media as latched at PORz" group.long 0x44++0x3 line.long 0x0 "CFG0_BOOT_PROGRESS," hexmask.long 0x0 0.--31. 1. "BOOT_PROGRESS_PROGRESS,Written by ROM to indicate boot progression. Values and their meaning are determined by the ROM." rgroup.long 0x60++0xF line.long 0x0 "CFG0_DEVICE_FEATURE0," bitfld.long 0x0 16. "DEVICE_FEATURE0_R5FSS0_CORE0,Main R5FSS CPU0 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x0 3. "DEVICE_FEATURE0_MPU_CLUSTER0_CORE3,MPU Cluster0 Core 3 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x0 2. "DEVICE_FEATURE0_MPU_CLUSTER0_CORE2,MPU Cluster0 Core 2 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x0 1. "DEVICE_FEATURE0_MPU_CLUSTER0_CORE1,MPU Cluster0 Core 1 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x0 0. "DEVICE_FEATURE0_MPU_CLUSTER0_CORE0,MPU Cluster0 Core 0 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" line.long 0x4 "CFG0_DEVICE_FEATURE1," bitfld.long 0x4 23. "DEVICE_FEATURE1_ATL_EN,ATL Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 17. "DEVICE_FEATURE1_C7X_1_CORE_EN,C7x1 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 16. "DEVICE_FEATURE1_C7X_CORE_EN,C7x0 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 15. "DEVICE_FEATURE1_GPU_ASTC_EN,GPU Adaptive Scalable Texture Compression Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 12. "DEVICE_FEATURE1_GPU_EN,GPU Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 7. "DEVICE_FEATURE1_VID_ENCODER_AVC_DECODE_EN,Video CODEC HEVC decode feature Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 6. "DEVICE_FEATURE1_VID_ENCODER_AVC_ENCODE_EN,Video CODEC HEVC encode feature Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 5. "DEVICE_FEATURE1_VID_ENCODER_HEVC_DECODE_EN,Video CODEC AVC decode feature Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 4. "DEVICE_FEATURE1_VID_ENCODER_HEVC_ENCODE_EN,Video CODEC AVC encode feature Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 3. "DEVICE_FEATURE1_VID_ENCODER_EN,Video CODEC Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 2. "DEVICE_FEATURE1_JPEG_ENC_EN,JPEG Encoder Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 0. "DEVICE_FEATURE1_VPAC0_EN,VPAC0 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" line.long 0x8 "CFG0_DEVICE_FEATURE2," bitfld.long 0x8 17. "DEVICE_FEATURE2_MAIN_SRAM4M_1,Availability of Main SRAM 4M Bank 1 Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x8 16. "DEVICE_FEATURE2_MAIN_SRAM4M_0,Availability of Main SRAM 4M Bank 0 Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x8 11. "DEVICE_FEATURE2_CRYPTO_SM_EN,SA3SS Crypto Module SM2 SM3 SM4 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x8 10. "DEVICE_FEATURE2_CRYPTO_PKA_EN,SA3SS Crypto Module PKA Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x8 9. "DEVICE_FEATURE2_CRYPTO_ENCR_EN,SA3SS Crypto Module AES/3DES/DBRG Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x8 8. "DEVICE_FEATURE2_CRYPTO_SHA_EN,SA3SS Crypto Module SHA/MD5 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x8 7. "DEVICE_FEATURE2_AES_AUTH_EN,AES authentication availability in FlashSS and SMS Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x8 0. "DEVICE_FEATURE2_MCAN_FD_MODE,FD mode availability (applies to all MCAN instances) Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" line.long 0xC "CFG0_DEVICE_FEATURE3," bitfld.long 0xC 5. "DEVICE_FEATURE3_VPAC_FEATURE_DIS1,VPAC Feature 1 In-Availablity Field values (others are reserved): 1'b0 - AVAILABLE 1'b1 - NOT_AVAILABLE" "0,1" newline bitfld.long 0xC 4. "DEVICE_FEATURE3_VPAC_FEATURE_DIS0,VPAC Feature 0 In-Availablity Field values (others are reserved): 1'b0 - AVAILABLE 1'b1 - NOT_AVAILABLE" "0,1" newline bitfld.long 0xC 1. "DEVICE_FEATURE3_MMA_PRESENT_1,C7x1 MMA Feature Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0xC 0. "DEVICE_FEATURE3_MMA_PRESENT,C7x0 MMA Feature Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" rgroup.long 0x78++0x3 line.long 0x0 "CFG0_DEVICE_FEATURE6," bitfld.long 0x0 5. "DEVICE_FEATURE6_SA3_UL,SA3SS domain security accelerator availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" group.long 0x200++0x7 line.long 0x0 "CFG0_MAC_ID0," hexmask.long 0x0 0.--31. 1. "MAC_ID0_MACID_LO,32 lsbs of MAC address" line.long 0x4 "CFG0_MAC_ID1," hexmask.long.word 0x4 0.--15. 1. "MAC_ID1_MACID_HI,16 msbs of MAC address" group.long 0x210++0x7 line.long 0x0 "CFG0_PCI_DEVICE_ID0," hexmask.long 0x0 0.--31. 1. "PCI_DEVICE_ID0_ID0,ROM writes 32-bit Value from Customer OTP to Here" line.long 0x4 "CFG0_PCI_DEVICE_ID1," hexmask.long 0x4 0.--31. 1. "PCI_DEVICE_ID1_ID1,ROM writes 32-bit Value from Customer OTP to Here" group.long 0x220++0x7 line.long 0x0 "CFG0_USB_DEVICE_ID0," hexmask.long 0x0 0.--31. 1. "USB_DEVICE_ID0_ID0,ROM writes 32-bit Value from Customer OTP to Here" line.long 0x4 "CFG0_USB_DEVICE_ID1," hexmask.long 0x4 0.--31. 1. "USB_DEVICE_ID1_ID1,ROM writes 32-bit Value from Customer OTP to Here" rgroup.long 0x230++0xF line.long 0x0 "CFG0_GP_SW0," hexmask.long 0x0 0.--31. 1. "GP_SW0_VAL,general purpose value" line.long 0x4 "CFG0_GP_SW1," hexmask.long 0x4 0.--31. 1. "GP_SW1_VAL,general purpose value" line.long 0x8 "CFG0_GP_SW2," hexmask.long 0x8 0.--31. 1. "GP_SW2_VAL,general purpose value" line.long 0xC "CFG0_GP_SW3," hexmask.long.byte 0xC 0.--3. 1. "GP_SW3_VAL,general purpose value" rgroup.long 0x270++0x3 line.long 0x0 "CFG0_CBA_ERR_STAT," bitfld.long 0x0 31. "CBA_ERR_STAT_DBG_CBA_ERR,Access Error from Main Debug CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 25. "CBA_ERR_STAT_WKUP_DM_CBA_ERR,Access Error from Wkup Device Manager CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 24. "CBA_ERR_STAT_WKUP_SAFE_CBA_ERR,Access Error from Wkup Safe CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 20. "CBA_ERR_STAT_MCU_CBA_ERR,Access Error from MCU CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 16. "CBA_ERR_STAT_MAIN_AUDIO_CBA_ERR,Access Error from Main Audio CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 15. "CBA_ERR_STAT_MAIN_RT_DATA_CBA_ERR,Access Error from Main RT DATA CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 14. "CBA_ERR_STAT_MAIN_RT_CFG_CBA_ERR,Access Error from Main RT CFG CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 13. "CBA_ERR_STAT_MAIN_IPCSS_CBA_ERR,Access Error from Main IPCSS CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 12. "CBA_ERR_STAT_MAIN_MCASP_CBA_ERR,Access Error from Main McASP CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 11. "CBA_ERR_STAT_MAIN_MISC_PERI_CBA_ERR,Access Errror from Main Misc. Peripheral CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 5. "CBA_ERR_STAT_MAIN_FW_CBA_ERR,Access Error from Main Firewall CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 4. "CBA_ERR_STAT_MAIN_DATA_CBA_ERR,Access Error from Main Data CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 3. "CBA_ERR_STAT_MAIN_CENTRAL_CBA_ERR,Access Error from Main Central CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 0. "CBA_ERR_STAT_MAIN_INFRA_CBA_ERR,Access Error from Main Infrastructure CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" rgroup.long 0x280++0x3 line.long 0x0 "CFG0_ACCESS_ERR_STAT," bitfld.long 0x0 9. "ACCESS_ERR_STAT_ACCESS_ERR_IN9,Access Error Detected in MCU PadCfg MMR Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 8. "ACCESS_ERR_STAT_ACCESS_ERR_IN8,Access Error Detected in MCU Ctrl MMR Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 4. "ACCESS_ERR_STAT_ACCESS_ERR_IN4,Access Error Detected in MAIN PadCfg MMR Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 3. "ACCESS_ERR_STAT_ACCESS_ERR_IN3,Access Error Detected in MAIN Ctrl MMR Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 0. "ACCESS_ERR_STAT_ACCESS_ERR_IN0,Access Error Detected in WKUP Ctrl MMR Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" group.long 0x1008++0x1B line.long 0x0 "CFG0_LOCK0_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK0_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK0_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK0_KICK1,- KICK1 component" line.long 0x8 "CFG0_intr_raw_status," bitfld.long 0x8 3. "PROXY_ERR,Proxy0 access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 2. "KICK_ERR,Kick access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 1. "ADDR_ERR,Addressing violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 0. "PROT_ERR,Protection violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" line.long 0xC "CFG0_intr_enabled_status_clear," bitfld.long 0xC 3. "ENABLED_PROXY_ERR,Proxy0 access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 2. "ENABLED_KICK_ERR,Kick access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 1. "ENABLED_ADDR_ERR,Addressing violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 0. "ENABLED_PROT_ERR,Protection violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" line.long 0x10 "CFG0_intr_enable," bitfld.long 0x10 3. "PROXY_ERR_EN,Proxy0 access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 2. "KICK_ERR_EN,Kick access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 1. "ADDR_ERR_EN,Addressing violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 0. "PROT_ERR_EN,Protection violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" line.long 0x14 "CFG0_intr_enable_clear," bitfld.long 0x14 3. "PROXY_ERR_EN_CLR,Proxy0 access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x14 2. "KICK_ERR_EN_CLR,Kick access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x14 1. "ADDR_ERR_EN_CLR,Addressing violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x14 0. "PROT_ERR_EN_CLR,Protection violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" line.long 0x18 "CFG0_eoi," hexmask.long.byte 0x18 0.--7. 1. "EOI_VECTOR,EOI vector value. Write this with interrupt distribution value in the chip." rgroup.long 0x1024++0xB line.long 0x0 "CFG0_fault_address," hexmask.long 0x0 0.--31. 1. "FAULT_ADDR,Fault Address." line.long 0x4 "CFG0_fault_type_status," bitfld.long 0x4 6. "FAULT_NS,Non-secure access." "0,1" newline hexmask.long.byte 0x4 0.--5. 1. "FAULT_TYPE,Fault Type 10_0000 = Supervisor read fault - priv = 1 dir = 1 dtype != 1 01_0000 = Supervisor write fault - priv = 1 dir = 0 00_1000 = Supervisor execute fault - priv = 1 dir = 1 dtype = 1 00_0100 = User read fault - priv = 0 dir.." line.long 0x8 "CFG0_fault_attr_status," hexmask.long.word 0x8 20.--31. 1. "FAULT_XID,XID." newline hexmask.long.word 0x8 8.--19. 1. "FAULT_ROUTEID,Route ID." newline hexmask.long.byte 0x8 0.--7. 1. "FAULT_PRIVID,Privilege ID." wgroup.long 0x1030++0x3 line.long 0x0 "CFG0_fault_clear," bitfld.long 0x0 0. "FAULT_CLR,Fault clear. Writing a 1 clears the current fault. Writing a 0 has no effect." "0,1" rgroup.long 0x1100++0x1B line.long 0x0 "CFG0_CLAIMREG_P0_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P0_R0_READONLY,Claim bits for Partition 0" line.long 0x4 "CFG0_CLAIMREG_P0_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P0_R1_READONLY,Claim bits for Partition 0" line.long 0x8 "CFG0_CLAIMREG_P0_R2_READONLY," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P0_R2_READONLY,Claim bits for Partition 0" line.long 0xC "CFG0_CLAIMREG_P0_R3_READONLY," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P0_R3_READONLY,Claim bits for Partition 0" line.long 0x10 "CFG0_CLAIMREG_P0_R4_READONLY," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P0_R4_READONLY,Claim bits for Partition 0" line.long 0x14 "CFG0_CLAIMREG_P0_R5_READONLY," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P0_R5_READONLY,Claim bits for Partition 0" line.long 0x18 "CFG0_CLAIMREG_P0_R6_READONLY," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P0_R6_READONLY,Claim bits for Partition 0" rgroup.long 0x2000++0x3 line.long 0x0 "CFG0_PID_PROXY," hexmask.long.word 0x0 16.--31. 1. "PID_MSB16_PROXY," newline hexmask.long.byte 0x0 11.--15. 1. "PID_MISC_PROXY," newline bitfld.long 0x0 8.--10. "PID_MAJOR_PROXY," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "PID_CUSTOM_PROXY," "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "PID_MINOR_PROXY," rgroup.long 0x2008++0x3 line.long 0x0 "CFG0_MMR_CFG1_PROXY," bitfld.long 0x0 31. "MMR_CFG1_PROXY_EN_PROXY,Proxy addressing activated" "0,1" newline hexmask.long.byte 0x0 0.--7. 1. "MMR_CFG1_PARTITIONS_PROXY,Indicates present partitions" rgroup.long 0x2014++0x7 line.long 0x0 "CFG0_JTAGID_PROXY," hexmask.long.byte 0x0 28.--31. 1. "JTAGID_VARIANT_PROXY,Used to indicate new PGs" newline hexmask.long.word 0x0 12.--27. 1. "JTAGID_PARTNO_PROXY,Part number for boundary scan" newline hexmask.long.word 0x0 1.--11. 1. "JTAGID_MFG_PROXY,Indicates manufacturer" newline bitfld.long 0x0 0. "JTAGID_LSB_PROXY,Always 1" "0,1" line.long 0x4 "CFG0_JTAG_USER_ID_PROXY," hexmask.long 0x4 0.--31. 1. "JTAG_USER_ID_USERCODE_PROXY,Device information" group.long 0x2030++0x3 line.long 0x0 "CFG0_MAIN_DEVSTAT_PROXY," hexmask.long.word 0x0 0.--15. 1. "MAIN_DEVSTAT_BOOTMODE_PROXY,Specifies the device Primary and Backup boot media." rgroup.long 0x2034++0x3 line.long 0x0 "CFG0_MAIN_BOOTCFG_PROXY," hexmask.long.word 0x0 0.--15. 1. "MAIN_BOOTCFG_BOOTMODE_PROXY,Specifies the device Primary and Backup boot media as latched at PORz" group.long 0x2044++0x3 line.long 0x0 "CFG0_BOOT_PROGRESS_PROXY," hexmask.long 0x0 0.--31. 1. "BOOT_PROGRESS_PROGRESS_PROXY,Written by ROM to indicate boot progression. Values and their meaning are determined by the ROM." rgroup.long 0x2060++0xF line.long 0x0 "CFG0_DEVICE_FEATURE0_PROXY," bitfld.long 0x0 16. "DEVICE_FEATURE0_R5FSS0_CORE0_PROXY,Main R5FSS CPU0 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x0 3. "DEVICE_FEATURE0_MPU_CLUSTER0_CORE3_PROXY,MPU Cluster0 Core 3 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x0 2. "DEVICE_FEATURE0_MPU_CLUSTER0_CORE2_PROXY,MPU Cluster0 Core 2 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x0 1. "DEVICE_FEATURE0_MPU_CLUSTER0_CORE1_PROXY,MPU Cluster0 Core 1 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x0 0. "DEVICE_FEATURE0_MPU_CLUSTER0_CORE0_PROXY,MPU Cluster0 Core 0 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" line.long 0x4 "CFG0_DEVICE_FEATURE1_PROXY," bitfld.long 0x4 23. "DEVICE_FEATURE1_ATL_EN_PROXY,ATL Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 17. "DEVICE_FEATURE1_C7X_1_CORE_EN_PROXY,C7x1 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 16. "DEVICE_FEATURE1_C7X_CORE_EN_PROXY,C7x0 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 15. "DEVICE_FEATURE1_GPU_ASTC_EN_PROXY,GPU Adaptive Scalable Texture Compression Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 12. "DEVICE_FEATURE1_GPU_EN_PROXY,GPU Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 7. "DEVICE_FEATURE1_VID_ENCODER_AVC_DECODE_EN_PROXY,Video CODEC HEVC decode feature Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 6. "DEVICE_FEATURE1_VID_ENCODER_AVC_ENCODE_EN_PROXY,Video CODEC HEVC encode feature Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 5. "DEVICE_FEATURE1_VID_ENCODER_HEVC_DECODE_EN_PROXY,Video CODEC AVC decode feature Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 4. "DEVICE_FEATURE1_VID_ENCODER_HEVC_ENCODE_EN_PROXY,Video CODEC AVC encode feature Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 3. "DEVICE_FEATURE1_VID_ENCODER_EN_PROXY,Video CODEC Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 2. "DEVICE_FEATURE1_JPEG_ENC_EN_PROXY,JPEG Encoder Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x4 0. "DEVICE_FEATURE1_VPAC0_EN_PROXY,VPAC0 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" line.long 0x8 "CFG0_DEVICE_FEATURE2_PROXY," bitfld.long 0x8 17. "DEVICE_FEATURE2_MAIN_SRAM4M_1_PROXY,Availability of Main SRAM 4M Bank 1 Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x8 16. "DEVICE_FEATURE2_MAIN_SRAM4M_0_PROXY,Availability of Main SRAM 4M Bank 0 Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x8 11. "DEVICE_FEATURE2_CRYPTO_SM_EN_PROXY,SA3SS Crypto Module SM2 SM3 SM4 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x8 10. "DEVICE_FEATURE2_CRYPTO_PKA_EN_PROXY,SA3SS Crypto Module PKA Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x8 9. "DEVICE_FEATURE2_CRYPTO_ENCR_EN_PROXY,SA3SS Crypto Module AES/3DES/DBRG Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x8 8. "DEVICE_FEATURE2_CRYPTO_SHA_EN_PROXY,SA3SS Crypto Module SHA/MD5 Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x8 7. "DEVICE_FEATURE2_AES_AUTH_EN_PROXY,AES authentication availability in FlashSS and SMS Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0x8 0. "DEVICE_FEATURE2_MCAN_FD_MODE_PROXY,FD mode availability (applies to all MCAN instances) Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" line.long 0xC "CFG0_DEVICE_FEATURE3_PROXY," bitfld.long 0xC 5. "DEVICE_FEATURE3_VPAC_FEATURE_DIS1_PROXY,VPAC Feature 1 In-Availablity Field values (others are reserved): 1'b0 - AVAILABLE 1'b1 - NOT_AVAILABLE" "0,1" newline bitfld.long 0xC 4. "DEVICE_FEATURE3_VPAC_FEATURE_DIS0_PROXY,VPAC Feature 0 In-Availablity Field values (others are reserved): 1'b0 - AVAILABLE 1'b1 - NOT_AVAILABLE" "0,1" newline bitfld.long 0xC 1. "DEVICE_FEATURE3_MMA_PRESENT_1_PROXY,C7x1 MMA Feature Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" newline bitfld.long 0xC 0. "DEVICE_FEATURE3_MMA_PRESENT_PROXY,C7x0 MMA Feature Availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" rgroup.long 0x2078++0x3 line.long 0x0 "CFG0_DEVICE_FEATURE6_PROXY," bitfld.long 0x0 5. "DEVICE_FEATURE6_SA3_UL_PROXY,SA3SS domain security accelerator availability Field values (others are reserved): 1'b0 - NOT_AVAILABLE 1'b1 - AVAILABLE" "0,1" group.long 0x2200++0x7 line.long 0x0 "CFG0_MAC_ID0_PROXY," hexmask.long 0x0 0.--31. 1. "MAC_ID0_MACID_LO_PROXY,32 lsbs of MAC address" line.long 0x4 "CFG0_MAC_ID1_PROXY," hexmask.long.word 0x4 0.--15. 1. "MAC_ID1_MACID_HI_PROXY,16 msbs of MAC address" group.long 0x2210++0x7 line.long 0x0 "CFG0_PCI_DEVICE_ID0_PROXY," hexmask.long 0x0 0.--31. 1. "PCI_DEVICE_ID0_ID0_PROXY,ROM writes 32-bit Value from Customer OTP to Here" line.long 0x4 "CFG0_PCI_DEVICE_ID1_PROXY," hexmask.long 0x4 0.--31. 1. "PCI_DEVICE_ID1_ID1_PROXY,ROM writes 32-bit Value from Customer OTP to Here" group.long 0x2220++0x7 line.long 0x0 "CFG0_USB_DEVICE_ID0_PROXY," hexmask.long 0x0 0.--31. 1. "USB_DEVICE_ID0_ID0_PROXY,ROM writes 32-bit Value from Customer OTP to Here" line.long 0x4 "CFG0_USB_DEVICE_ID1_PROXY," hexmask.long 0x4 0.--31. 1. "USB_DEVICE_ID1_ID1_PROXY,ROM writes 32-bit Value from Customer OTP to Here" rgroup.long 0x2230++0xF line.long 0x0 "CFG0_GP_SW0_PROXY," hexmask.long 0x0 0.--31. 1. "GP_SW0_VAL_PROXY,general purpose value" line.long 0x4 "CFG0_GP_SW1_PROXY," hexmask.long 0x4 0.--31. 1. "GP_SW1_VAL_PROXY,general purpose value" line.long 0x8 "CFG0_GP_SW2_PROXY," hexmask.long 0x8 0.--31. 1. "GP_SW2_VAL_PROXY,general purpose value" line.long 0xC "CFG0_GP_SW3_PROXY," hexmask.long.byte 0xC 0.--3. 1. "GP_SW3_VAL_PROXY,general purpose value" rgroup.long 0x2270++0x3 line.long 0x0 "CFG0_CBA_ERR_STAT_PROXY," bitfld.long 0x0 31. "CBA_ERR_STAT_DBG_CBA_ERR_PROXY,Access Error from Main Debug CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 25. "CBA_ERR_STAT_WKUP_DM_CBA_ERR_PROXY,Access Error from Wkup Device Manager CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 24. "CBA_ERR_STAT_WKUP_SAFE_CBA_ERR_PROXY,Access Error from Wkup Safe CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 20. "CBA_ERR_STAT_MCU_CBA_ERR_PROXY,Access Error from MCU CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 16. "CBA_ERR_STAT_MAIN_AUDIO_CBA_ERR_PROXY,Access Error from Main Audio CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 15. "CBA_ERR_STAT_MAIN_RT_DATA_CBA_ERR_PROXY,Access Error from Main RT DATA CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 14. "CBA_ERR_STAT_MAIN_RT_CFG_CBA_ERR_PROXY,Access Error from Main RT CFG CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 13. "CBA_ERR_STAT_MAIN_IPCSS_CBA_ERR_PROXY,Access Error from Main IPCSS CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 12. "CBA_ERR_STAT_MAIN_MCASP_CBA_ERR_PROXY,Access Error from Main McASP CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 11. "CBA_ERR_STAT_MAIN_MISC_PERI_CBA_ERR_PROXY,Access Errror from Main Misc. Peripheral CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 5. "CBA_ERR_STAT_MAIN_FW_CBA_ERR_PROXY,Access Error from Main Firewall CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 4. "CBA_ERR_STAT_MAIN_DATA_CBA_ERR_PROXY,Access Error from Main Data CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 3. "CBA_ERR_STAT_MAIN_CENTRAL_CBA_ERR_PROXY,Access Error from Main Central CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 0. "CBA_ERR_STAT_MAIN_INFRA_CBA_ERR_PROXY,Access Error from Main Infrastructure CBASS Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" rgroup.long 0x2280++0x3 line.long 0x0 "CFG0_ACCESS_ERR_STAT_PROXY," bitfld.long 0x0 9. "ACCESS_ERR_STAT_ACCESS_ERR_IN9_PROXY,Access Error Detected in MCU PadCfg MMR Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 8. "ACCESS_ERR_STAT_ACCESS_ERR_IN8_PROXY,Access Error Detected in MCU Ctrl MMR Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 4. "ACCESS_ERR_STAT_ACCESS_ERR_IN4_PROXY,Access Error Detected in MAIN PadCfg MMR Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 3. "ACCESS_ERR_STAT_ACCESS_ERR_IN3_PROXY,Access Error Detected in MAIN Ctrl MMR Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 0. "ACCESS_ERR_STAT_ACCESS_ERR_IN0_PROXY,Access Error Detected in WKUP Ctrl MMR Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" group.long 0x3008++0x1B line.long 0x0 "CFG0_LOCK0_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK0_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK0_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK0_KICK1_PROXY,- KICK1 component" line.long 0x8 "CFG0_intr_raw_status_PROXY," bitfld.long 0x8 3. "PROXY_ERR_PROXY,Proxy0 access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 2. "KICK_ERR_PROXY,Kick access violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 1. "ADDR_ERR_PROXY,Addressing violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 0. "PROT_ERR_PROXY,Protection violation error. Raw status is read. Write a 1 to set the status. Writing a 0 has no effect." "0,1" line.long 0xC "CFG0_intr_enabled_status_clear_PROXY," bitfld.long 0xC 3. "ENABLED_PROXY_ERR_PROXY,Proxy0 access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 2. "ENABLED_KICK_ERR_PROXY,Kick access violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 1. "ENABLED_ADDR_ERR_PROXY,Addressing violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 0. "ENABLED_PROT_ERR_PROXY,Protection violation error. Enabled status is read. Write a 1 to clear the status. Writing a 0 has no effect." "0,1" line.long 0x10 "CFG0_intr_enable_PROXY," bitfld.long 0x10 3. "PROXY_ERR_EN_PROXY,Proxy0 access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 2. "KICK_ERR_EN_PROXY,Kick access violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 1. "ADDR_ERR_EN_PROXY,Addressing violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 0. "PROT_ERR_EN_PROXY,Protection violation error enable. Write a 1 to set the enable. Writing a 0 has no effect." "0,1" line.long 0x14 "CFG0_intr_enable_clear_PROXY," bitfld.long 0x14 3. "PROXY_ERR_EN_CLR_PROXY,Proxy0 access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x14 2. "KICK_ERR_EN_CLR_PROXY,Kick access violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x14 1. "ADDR_ERR_EN_CLR_PROXY,Addressing violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" newline bitfld.long 0x14 0. "PROT_ERR_EN_CLR_PROXY,Protection violation error enable clear. Write a 1 to clear the enable. Writing a 0 has no effect." "0,1" line.long 0x18 "CFG0_eoi_PROXY," hexmask.long.byte 0x18 0.--7. 1. "EOI_VECTOR_PROXY,EOI vector value. Write this with interrupt distribution value in the chip." rgroup.long 0x3024++0xB line.long 0x0 "CFG0_fault_address_PROXY," hexmask.long 0x0 0.--31. 1. "FAULT_ADDR_PROXY,Fault Address." line.long 0x4 "CFG0_fault_type_status_PROXY," bitfld.long 0x4 6. "FAULT_NS_PROXY,Non-secure access." "0,1" newline hexmask.long.byte 0x4 0.--5. 1. "FAULT_TYPE_PROXY,Fault Type 10_0000 = Supervisor read fault - priv = 1 dir = 1 dtype != 1 01_0000 = Supervisor write fault - priv = 1 dir = 0 00_1000 = Supervisor execute fault - priv = 1 dir = 1 dtype = 1 00_0100 = User read fault - priv =.." line.long 0x8 "CFG0_fault_attr_status_PROXY," hexmask.long.word 0x8 20.--31. 1. "FAULT_XID_PROXY,XID." newline hexmask.long.word 0x8 8.--19. 1. "FAULT_ROUTEID_PROXY,Route ID." newline hexmask.long.byte 0x8 0.--7. 1. "FAULT_PRIVID_PROXY,Privilege ID." wgroup.long 0x3030++0x3 line.long 0x0 "CFG0_fault_clear_PROXY," bitfld.long 0x0 0. "FAULT_CLR_PROXY,Fault clear. Writing a 1 clears the current fault. Writing a 0 has no effect." "0,1" group.long 0x3100++0x1B line.long 0x0 "CFG0_CLAIMREG_P0_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P0_R0,Claim bits for Partition 0" line.long 0x4 "CFG0_CLAIMREG_P0_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P0_R1,Claim bits for Partition 0" line.long 0x8 "CFG0_CLAIMREG_P0_R2," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P0_R2,Claim bits for Partition 0" line.long 0xC "CFG0_CLAIMREG_P0_R3," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P0_R3,Claim bits for Partition 0" line.long 0x10 "CFG0_CLAIMREG_P0_R4," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P0_R4,Claim bits for Partition 0" line.long 0x14 "CFG0_CLAIMREG_P0_R5," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P0_R5,Claim bits for Partition 0" line.long 0x18 "CFG0_CLAIMREG_P0_R6," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P0_R6,Claim bits for Partition 0" group.long 0x4008++0x3 line.long 0x0 "CFG0_USB0_PHY_CTRL," bitfld.long 0x0 31. "USB0_PHY_CTRL_CORE_VOLTAGE,Selects the USB PHY Core Voltage Option: 0.85V or 0.75/0.80V Field values (others are reserved): 1'b0 - V_0P85 1'b1 - V_0P75_0P80" "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "USB0_PHY_CTRL_PLL_REF_SEL,Indicates the frequency of the REF_CLOCK input used by the USB PLL. This value should be set to match the frequency of the USB0 input clock as selected by the USB0_CLKSEL register Field values (others are reserved): 4'b0000 -.." group.long 0x4018++0x3 line.long 0x0 "CFG0_USB1_PHY_CTRL," bitfld.long 0x0 31. "USB1_PHY_CTRL_CORE_VOLTAGE,Selects the USB PHY Core Voltage Option: 0.85V or 0.75/0.80V Field values (others are reserved): 1'b0 - V_0P85 1'b1 - V_0P75_0P80" "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "USB1_PHY_CTRL_PLL_REF_SEL,Indicates the frequency of the REF_CLOCK input used by the USB PLL. This value should be set to match the frequency of the USB1 input clock as selected by the USB1_CLKSEL register Field values (others are reserved): 4'b0000 -.." group.long 0x4070++0x3 line.long 0x0 "CFG0_PCIE0_CTRL," bitfld.long 0x0 7. "PCIE0_CTRL_MODE_SEL,Selects the operating mode Field values (others are reserved): 1'b0 - ENDPOINT 1'b1 - ROOT_COMPLEX" "0,1" newline bitfld.long 0x0 0.--1. "PCIE0_CTRL_GENERATION_SEL,Configures the PCIe generation support in the PCIe capabilities linked-list Field values (others are reserved): 2'b00 - GEN1 2'b01 - GEN2 2'b10 - GEN3" "0,1,2,3" group.long 0x41B4++0xB line.long 0x0 "CFG0_SDIO0_CTRL," hexmask.long.byte 0x0 0.--4. 1. "SDIO0_CTRL_DRV_STR,Selects the SDIO drive strength Note: Values other than the reset value may invalidate the datasheet timing parameters and therefore should not be used.. Default is an efuse trimmed value trimmed to aproximately 40 Ohms. Expected.." line.long 0x4 "CFG0_SDIO1_CTRL," hexmask.long.byte 0x4 0.--4. 1. "SDIO1_CTRL_DRV_STR,Selects the SDIO drive strength Note: Values other than the reset value may invalidate the datasheet timing parameters and therefore should not be used.. Default is an efuse trimmed value trimmed to aproximately 40 Ohms. Expected.." line.long 0x8 "CFG0_SDIO2_CTRL," hexmask.long.byte 0x8 0.--4. 1. "SDIO2_CTRL_DRV_STR,Selects the SDIO drive strength Note: Values other than the reset value may invalidate the datasheet timing parameters and therefore should not be used.. Default is an efuse trimmed value trimmed to aproximately 40 Ohms. Expected.." group.long 0x4204++0x3 line.long 0x0 "CFG0_WKUP_TIMER1_CTRL," bitfld.long 0x0 8. "WKUP_TIMER1_CTRL_CASCADE_EN,Activates cascading of TIMER1 to TIMER0 Field values (others are reserved): 1'b0 - CASCADE_DEACTIVATED 1'b1 - CASCADE_ACTIVATED" "0,1" group.long 0x42E0++0x3 line.long 0x0 "CFG0_WKUP_I2C0_CTRL," bitfld.long 0x0 0. "WKUP_I2C0_CTRL_HS_MCS_EN,HS Mode controller current source activate. When set activates the current-source pull-up on the SCL output. Only one controller on the I2C bus should activate SCL current sourcing. Field values (others are reserved): 1'b0 -.." "0,1" rgroup.long 0x45C0++0x3 line.long 0x0 "CFG0_GPU_PWR_REQ," bitfld.long 0x0 16. "GPU_PWR_REQ_REQ,Power control request. This bit is set by the GPU to request a Power Management event to the PM processor. This will generate a gpu0_pwr_req interrupt. The interrupt is cleared only when the GPU clears its pwrctrl_gpu_req output. Field.." "0,1" newline bitfld.long 0x0 12. "GPU_PWR_REQ_TYPE,GPU request type. Field values (others are reserved): 1'b0 - POWER_DOWN_REQ 1'b1 - POWER_UP_REQ" "0,1" newline bitfld.long 0x0 8.--10. "GPU_PWR_REQ_DOMAIN,GPU request mask. Indicates GPU domain to which the power event applies. For mapping refer to GPU RGX_CR_POWER_EVENT register." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--7. 1. "GPU_PWR_REQ_GPU_MASK,GPU request mask. One bit per GPU indicating to which GPUs the power event applies. Mask bits are indexed by GPU_ID" group.long 0x45C4++0x3 line.long 0x0 "CFG0_GPU_PWR_ACK," bitfld.long 0x0 16. "GPU_PWR_ACK_ABORT,Power control exit. This bit is set by the PM processor to that the GPU power control request could not be completed. The bit is cleared to 0 when gpu0_pwr_req goes low. Field values (others are reserved): 1'b0 - CLEARED 1'b1 -.." "0,1" newline bitfld.long 0x0 0. "GPU_PWR_ACK_COMPLETE,Power control complete. This bit is set by the PM processor to indicate sucessful completion of the GPU power control request. The bit is cleared to 0 when gpu0_pwr_req goes low. Field values (others are reserved): 1'b0 - CLEARED.." "0,1" rgroup.long 0x4610++0x3 line.long 0x0 "CFG0_TOG_STAT," bitfld.long 0x0 15. "TOG_STAT_SLV_TOG_STAT,Error Status of Target Timeout Gaskets Field values (others are reserved): 1'b0 - NONE 1'b1 - MCU_TIMEOUT0 (mcu2dm)" "0,1" newline bitfld.long 0x0 0.--1. "TOG_STAT_MST_TOG_STAT,Error Status of Target Timeout Gaskets Field values (others are reserved): 2'b00 - NONE 2'b01 - WKUP_TIMEOUT1 (dm2mcu) undefined - undefined 2'b10 - WKUP_TIMEOUT0 (dm2ws) undefined - undefined 2'b11 - (both WKUP_TIMEOUT1 and.." "0,1,2,3" group.long 0x5008++0x7 line.long 0x0 "CFG0_LOCK1_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK1_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK1_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK1_KICK1,- KICK1 component" rgroup.long 0x5100++0x3B line.long 0x0 "CFG0_CLAIMREG_P1_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P1_R0_READONLY,Claim bits for Partition 1" line.long 0x4 "CFG0_CLAIMREG_P1_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P1_R1_READONLY,Claim bits for Partition 1" line.long 0x8 "CFG0_CLAIMREG_P1_R2_READONLY," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P1_R2_READONLY,Claim bits for Partition 1" line.long 0xC "CFG0_CLAIMREG_P1_R3_READONLY," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P1_R3_READONLY,Claim bits for Partition 1" line.long 0x10 "CFG0_CLAIMREG_P1_R4_READONLY," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P1_R4_READONLY,Claim bits for Partition 1" line.long 0x14 "CFG0_CLAIMREG_P1_R5_READONLY," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P1_R5_READONLY,Claim bits for Partition 1" line.long 0x18 "CFG0_CLAIMREG_P1_R6_READONLY," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P1_R6_READONLY,Claim bits for Partition 1" line.long 0x1C "CFG0_CLAIMREG_P1_R7_READONLY," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P1_R7_READONLY,Claim bits for Partition 1" line.long 0x20 "CFG0_CLAIMREG_P1_R8_READONLY," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P1_R8_READONLY,Claim bits for Partition 1" line.long 0x24 "CFG0_CLAIMREG_P1_R9_READONLY," hexmask.long 0x24 0.--31. 1. "CLAIMREG_P1_R9_READONLY,Claim bits for Partition 1" line.long 0x28 "CFG0_CLAIMREG_P1_R10_READONLY," hexmask.long 0x28 0.--31. 1. "CLAIMREG_P1_R10_READONLY,Claim bits for Partition 1" line.long 0x2C "CFG0_CLAIMREG_P1_R11_READONLY," hexmask.long 0x2C 0.--31. 1. "CLAIMREG_P1_R11_READONLY,Claim bits for Partition 1" line.long 0x30 "CFG0_CLAIMREG_P1_R12_READONLY," hexmask.long 0x30 0.--31. 1. "CLAIMREG_P1_R12_READONLY,Claim bits for Partition 1" line.long 0x34 "CFG0_CLAIMREG_P1_R13_READONLY," hexmask.long 0x34 0.--31. 1. "CLAIMREG_P1_R13_READONLY,Claim bits for Partition 1" line.long 0x38 "CFG0_CLAIMREG_P1_R14_READONLY," hexmask.long 0x38 0.--31. 1. "CLAIMREG_P1_R14_READONLY,Claim bits for Partition 1" group.long 0x6008++0x3 line.long 0x0 "CFG0_USB0_PHY_CTRL_PROXY," bitfld.long 0x0 31. "USB0_PHY_CTRL_CORE_VOLTAGE_PROXY,Selects the USB PHY Core Voltage Option: 0.85V or 0.75/0.80V Field values (others are reserved): 1'b0 - V_0P85 1'b1 - V_0P75_0P80" "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "USB0_PHY_CTRL_PLL_REF_SEL_PROXY,Indicates the frequency of the REF_CLOCK input used by the USB PLL. This value should be set to match the frequency of the USB0 input clock as selected by the USB0_CLKSEL register Field values (others are reserved):.." group.long 0x6018++0x3 line.long 0x0 "CFG0_USB1_PHY_CTRL_PROXY," bitfld.long 0x0 31. "USB1_PHY_CTRL_CORE_VOLTAGE_PROXY,Selects the USB PHY Core Voltage Option: 0.85V or 0.75/0.80V Field values (others are reserved): 1'b0 - V_0P85 1'b1 - V_0P75_0P80" "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "USB1_PHY_CTRL_PLL_REF_SEL_PROXY,Indicates the frequency of the REF_CLOCK input used by the USB PLL. This value should be set to match the frequency of the USB1 input clock as selected by the USB1_CLKSEL register Field values (others are reserved):.." group.long 0x6070++0x3 line.long 0x0 "CFG0_PCIE0_CTRL_PROXY," bitfld.long 0x0 7. "PCIE0_CTRL_MODE_SEL_PROXY,Selects the operating mode Field values (others are reserved): 1'b0 - ENDPOINT 1'b1 - ROOT_COMPLEX" "0,1" newline bitfld.long 0x0 0.--1. "PCIE0_CTRL_GENERATION_SEL_PROXY,Configures the PCIe generation support in the PCIe capabilities linked-list Field values (others are reserved): 2'b00 - GEN1 2'b01 - GEN2 2'b10 - GEN3" "0,1,2,3" group.long 0x61B4++0xB line.long 0x0 "CFG0_SDIO0_CTRL_PROXY," hexmask.long.byte 0x0 0.--4. 1. "SDIO0_CTRL_DRV_STR_PROXY,Selects the SDIO drive strength Note: Values other than the reset value may invalidate the datasheet timing parameters and therefore should not be used.. Default is an efuse trimmed value trimmed to aproximately 40 Ohms." line.long 0x4 "CFG0_SDIO1_CTRL_PROXY," hexmask.long.byte 0x4 0.--4. 1. "SDIO1_CTRL_DRV_STR_PROXY,Selects the SDIO drive strength Note: Values other than the reset value may invalidate the datasheet timing parameters and therefore should not be used.. Default is an efuse trimmed value trimmed to aproximately 40 Ohms." line.long 0x8 "CFG0_SDIO2_CTRL_PROXY," hexmask.long.byte 0x8 0.--4. 1. "SDIO2_CTRL_DRV_STR_PROXY,Selects the SDIO drive strength Note: Values other than the reset value may invalidate the datasheet timing parameters and therefore should not be used.. Default is an efuse trimmed value trimmed to aproximately 40 Ohms." group.long 0x6204++0x3 line.long 0x0 "CFG0_WKUP_TIMER1_CTRL_PROXY," bitfld.long 0x0 8. "WKUP_TIMER1_CTRL_CASCADE_EN_PROXY,Activates cascading of TIMER1 to TIMER0 Field values (others are reserved): 1'b0 - CASCADE_DEACTIVATED 1'b1 - CASCADE_ACTIVATED" "0,1" group.long 0x62E0++0x3 line.long 0x0 "CFG0_WKUP_I2C0_CTRL_PROXY," bitfld.long 0x0 0. "WKUP_I2C0_CTRL_HS_MCS_EN_PROXY,HS Mode controller current source activate. When set activates the current-source pull-up on the SCL output. Only one controller on the I2C bus should activate SCL current sourcing. Field values (others are reserved):.." "0,1" rgroup.long 0x65C0++0x3 line.long 0x0 "CFG0_GPU_PWR_REQ_PROXY," bitfld.long 0x0 16. "GPU_PWR_REQ_REQ_PROXY,Power control request. This bit is set by the GPU to request a Power Management event to the PM processor. This will generate a gpu0_pwr_req interrupt. The interrupt is cleared only when the GPU clears its pwrctrl_gpu_req output." "0,1" newline bitfld.long 0x0 12. "GPU_PWR_REQ_TYPE_PROXY,GPU request type. Field values (others are reserved): 1'b0 - POWER_DOWN_REQ 1'b1 - POWER_UP_REQ" "0,1" newline bitfld.long 0x0 8.--10. "GPU_PWR_REQ_DOMAIN_PROXY,GPU request mask. Indicates GPU domain to which the power event applies. For mapping refer to GPU RGX_CR_POWER_EVENT register." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x0 0.--7. 1. "GPU_PWR_REQ_GPU_MASK_PROXY,GPU request mask. One bit per GPU indicating to which GPUs the power event applies. Mask bits are indexed by GPU_ID" group.long 0x65C4++0x3 line.long 0x0 "CFG0_GPU_PWR_ACK_PROXY," bitfld.long 0x0 16. "GPU_PWR_ACK_ABORT_PROXY,Power control exit. This bit is set by the PM processor to that the GPU power control request could not be completed. The bit is cleared to 0 when gpu0_pwr_req goes low. Field values (others are reserved): 1'b0 - CLEARED 1'b1 -.." "0,1" newline bitfld.long 0x0 0. "GPU_PWR_ACK_COMPLETE_PROXY,Power control complete. This bit is set by the PM processor to indicate sucessful completion of the GPU power control request. The bit is cleared to 0 when gpu0_pwr_req goes low. Field values (others are reserved): 1'b0 -.." "0,1" rgroup.long 0x6610++0x3 line.long 0x0 "CFG0_TOG_STAT_PROXY," bitfld.long 0x0 15. "TOG_STAT_SLV_TOG_STAT_PROXY,Error Status of Target Timeout Gaskets Field values (others are reserved): 1'b0 - NONE 1'b1 - MCU_TIMEOUT0 (mcu2dm)" "0,1" newline bitfld.long 0x0 0.--1. "TOG_STAT_MST_TOG_STAT_PROXY,Error Status of Target Timeout Gaskets Field values (others are reserved): 2'b00 - NONE 2'b01 - WKUP_TIMEOUT1 (dm2mcu) undefined - undefined 2'b10 - WKUP_TIMEOUT0 (dm2ws) undefined - undefined 2'b11 - (both WKUP_TIMEOUT1 and.." "0,1,2,3" group.long 0x7008++0x7 line.long 0x0 "CFG0_LOCK1_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK1_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK1_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK1_KICK1_PROXY,- KICK1 component" group.long 0x7100++0x3B line.long 0x0 "CFG0_CLAIMREG_P1_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P1_R0,Claim bits for Partition 1" line.long 0x4 "CFG0_CLAIMREG_P1_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P1_R1,Claim bits for Partition 1" line.long 0x8 "CFG0_CLAIMREG_P1_R2," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P1_R2,Claim bits for Partition 1" line.long 0xC "CFG0_CLAIMREG_P1_R3," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P1_R3,Claim bits for Partition 1" line.long 0x10 "CFG0_CLAIMREG_P1_R4," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P1_R4,Claim bits for Partition 1" line.long 0x14 "CFG0_CLAIMREG_P1_R5," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P1_R5,Claim bits for Partition 1" line.long 0x18 "CFG0_CLAIMREG_P1_R6," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P1_R6,Claim bits for Partition 1" line.long 0x1C "CFG0_CLAIMREG_P1_R7," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P1_R7,Claim bits for Partition 1" line.long 0x20 "CFG0_CLAIMREG_P1_R8," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P1_R8,Claim bits for Partition 1" line.long 0x24 "CFG0_CLAIMREG_P1_R9," hexmask.long 0x24 0.--31. 1. "CLAIMREG_P1_R9,Claim bits for Partition 1" line.long 0x28 "CFG0_CLAIMREG_P1_R10," hexmask.long 0x28 0.--31. 1. "CLAIMREG_P1_R10,Claim bits for Partition 1" line.long 0x2C "CFG0_CLAIMREG_P1_R11," hexmask.long 0x2C 0.--31. 1. "CLAIMREG_P1_R11,Claim bits for Partition 1" line.long 0x30 "CFG0_CLAIMREG_P1_R12," hexmask.long 0x30 0.--31. 1. "CLAIMREG_P1_R12,Claim bits for Partition 1" line.long 0x34 "CFG0_CLAIMREG_P1_R13," hexmask.long 0x34 0.--31. 1. "CLAIMREG_P1_R13,Claim bits for Partition 1" line.long 0x38 "CFG0_CLAIMREG_P1_R14," hexmask.long 0x38 0.--31. 1. "CLAIMREG_P1_R14,Claim bits for Partition 1" group.long 0x8010++0x3 line.long 0x0 "CFG0_WKUP_CLKSEL," bitfld.long 0x0 0. "WKUP_CLKSEL_CLK_SEL,Selects Clock Source for Wakeup Domain (Device Manager and Peripherals) Field values (others are reserved): 1'b0 - CPU_MAIN_PLL15_HSDIV2_CLKOUT__PERIPHERALS_ MAIN_PLL15_HSDIV0_CLKOUT undefined - undefined 1'b1 -.." "0,1" group.long 0x8020++0x3 line.long 0x0 "CFG0_CLKOUT_CTRL," bitfld.long 0x0 24. "CLKOUT_CTRL_OUT_MUX_SEL,WKUP CLKOUT (Pin) pin output mux selection. HFOSC0_CLK is a direct output from the HFOSC0 Field values (others are reserved): 1'b0 - CLK_DIV_OUT 1'b1 - HFOSC0_CLK (clk_sel must be DRIVE_LOW)" "0,1" newline bitfld.long 0x0 0.--2. "CLKOUT_CTRL_WKUP_CLKOUT_SEL,Controls WKUP CLKOUT MUX for WKUP_CLKOUT0 Pin Field values (others are reserved): undefined - undefined 3'b000 - DRIVE_LOW 3'b001 - LFOSC0_CLKOUT 3'b010 - MAIN_PLL0_HSDIV2_CLKOUT 3'b011 - MAIN_PLL1_HSDIV2_CLKOUT 3'b100 -.." "0,1,2,3,4,5,6,7" group.long 0x8030++0x3 line.long 0x0 "CFG0_WKUP_GTC_CLKSEL," bitfld.long 0x0 0.--2. "WKUP_GTC_CLKSEL_CLK_SEL,Selects the GTC timebase clock source Field values (others are reserved): 3'b000 - MAIN_PLL2_HSDIV5_CLKOUT 3'b001 - MAIN_PLL0_HSDIV6_CLKOUT 3'b010 - CP_GEMAC_CPTS0_RFT_CLK (Pin) 3'b011 - Reserved '0' 3'b100 - MCU_EXT_REFCLK0 (Pin).." "0,1,2,3,4,5,6,7" group.long 0x803C++0x3 line.long 0x0 "CFG0_EFUSE_CLKSEL," bitfld.long 0x0 0. "EFUSE_CLKSEL_CLK_SEL,Selects the clock source Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - MAIN_SYSCLK0/16" "0,1" group.long 0x80D0++0x3 line.long 0x0 "CFG0_DDR32SS_PMCTRL," bitfld.long 0x0 31. "DDR32SS_PMCTRL_DATA_RET_LD,Controls latching of the retention value Field values (others are reserved): 1'b0 - LATCH_CLOSED 1'b1 - LATCH_OPEN" "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "DDR32SS_PMCTRL_DATA_RETENTION,DDR32SS Retention: This is a fault tolerant bit field 0x06 Asserts DDRSS 'data_retention' which will Hi-Z most of the phy output pins except for CKE/RESET# All others (Default 0) : data_retention is deasserted for.." group.long 0x8190++0x7 line.long 0x0 "CFG0_USB0_CLKSEL," bitfld.long 0x0 0. "USB0_CLKSEL_REFCLK_SEL,Selects the clock source for the USB0 ref_clk. Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - MAIN_PLL0_HSDIV8_CLKOUT" "0,1" line.long 0x4 "CFG0_USB1_CLKSEL," bitfld.long 0x4 0. "USB1_CLKSEL_REFCLK_SEL,Selects the clock source for the USB1 ref_clk. Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - MAIN_PLL0_HSDIV8_CLKOUT" "0,1" group.long 0x81B0++0x7 line.long 0x0 "CFG0_WKUP_TIMER0_CLKSEL," bitfld.long 0x0 0.--2. "WKUP_TIMER0_CLKSEL_CLK_SEL,Timer functional clock input select mux control Field values (others are reserved): 3'b000 - HFOSC0_CLKOUT 3'b001 - DM_CLK/2 undefined - undefined 3'b010 - CLK_12M_RC 3'b011 - MCU_PLL0_HSDIV5_CLKOUT 3'b100 - MCU_EXT_REFCLK0.." "0,1,2,3,4,5,6,7" line.long 0x4 "CFG0_WKUP_TIMER1_CLKSEL," bitfld.long 0x4 0.--2. "WKUP_TIMER1_CLKSEL_CLK_SEL,Timer functional clock input select mux control Field values (others are reserved): 3'b000 - HFOSC0_CLKOUT 3'b001 - DM_CLK/2 undefined - undefined 3'b010 - CLK_12M_RC 3'b011 - MCU_PLL0_HSDIV5_CLKOUT 3'b100 - MCU_EXT_REFCLK0.." "0,1,2,3,4,5,6,7" group.long 0x8340++0x3 line.long 0x0 "CFG0_WKUP_WWD0_CTRL," hexmask.long.byte 0x0 0.--3. 1. "WKUP_WWD0_CTRL_WWD_STOP,Controls Clocks to the WWD Watchdog Counter Field values (others are reserved): 4'b0000 - WWD Counter Running 4'b1010 - WWD Counter Stopped" group.long 0x8380++0x3 line.long 0x0 "CFG0_WKUP_WWD0_CLKSEL," bitfld.long 0x0 31. "WKUP_WWD0_CLKSEL_WRTLOCK,When set locks WKUP_WWD0_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" newline bitfld.long 0x0 0.--1. "WKUP_WWD0_CLKSEL_CLK_SEL,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K" "0,1,2,3" group.long 0x8600++0x3 line.long 0x0 "CFG0_WKUP_RTC_CLKSEL," bitfld.long 0x0 0. "WKUP_RTC_CLKSEL_CLK_SEL,Selects the source of the RTC functional clock Field values (others are reserved): 1'b0 - DEVICE_CLKOUT_32K 1'b1 - CLK_32K_RC" "0,1" group.long 0x9008++0x7 line.long 0x0 "CFG0_LOCK2_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK2_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK2_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK2_KICK1,- KICK1 component" rgroup.long 0x9100++0x33 line.long 0x0 "CFG0_CLAIMREG_P2_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P2_R0_READONLY,Claim bits for Partition 2" line.long 0x4 "CFG0_CLAIMREG_P2_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P2_R1_READONLY,Claim bits for Partition 2" line.long 0x8 "CFG0_CLAIMREG_P2_R2_READONLY," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P2_R2_READONLY,Claim bits for Partition 2" line.long 0xC "CFG0_CLAIMREG_P2_R3_READONLY," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P2_R3_READONLY,Claim bits for Partition 2" line.long 0x10 "CFG0_CLAIMREG_P2_R4_READONLY," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P2_R4_READONLY,Claim bits for Partition 2" line.long 0x14 "CFG0_CLAIMREG_P2_R5_READONLY," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P2_R5_READONLY,Claim bits for Partition 2" line.long 0x18 "CFG0_CLAIMREG_P2_R6_READONLY," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P2_R6_READONLY,Claim bits for Partition 2" line.long 0x1C "CFG0_CLAIMREG_P2_R7_READONLY," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P2_R7_READONLY,Claim bits for Partition 2" line.long 0x20 "CFG0_CLAIMREG_P2_R8_READONLY," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P2_R8_READONLY,Claim bits for Partition 2" line.long 0x24 "CFG0_CLAIMREG_P2_R9_READONLY," hexmask.long 0x24 0.--31. 1. "CLAIMREG_P2_R9_READONLY,Claim bits for Partition 2" line.long 0x28 "CFG0_CLAIMREG_P2_R10_READONLY," hexmask.long 0x28 0.--31. 1. "CLAIMREG_P2_R10_READONLY,Claim bits for Partition 2" line.long 0x2C "CFG0_CLAIMREG_P2_R11_READONLY," hexmask.long 0x2C 0.--31. 1. "CLAIMREG_P2_R11_READONLY,Claim bits for Partition 2" line.long 0x30 "CFG0_CLAIMREG_P2_R12_READONLY," hexmask.long 0x30 0.--31. 1. "CLAIMREG_P2_R12_READONLY,Claim bits for Partition 2" group.long 0xA010++0x3 line.long 0x0 "CFG0_WKUP_CLKSEL_PROXY," bitfld.long 0x0 0. "WKUP_CLKSEL_CLK_SEL_PROXY,Selects Clock Source for Wakeup Domain (Device Manager and Peripherals) Field values (others are reserved): 1'b0 - CPU_MAIN_PLL15_HSDIV2_CLKOUT__PERIPHERALS_ MAIN_PLL15_HSDIV0_CLKOUT undefined - undefined 1'b1 -.." "0,1" group.long 0xA020++0x3 line.long 0x0 "CFG0_CLKOUT_CTRL_PROXY," bitfld.long 0x0 24. "CLKOUT_CTRL_OUT_MUX_SEL_PROXY,WKUP CLKOUT (Pin) pin output mux selection. HFOSC0_CLK is a direct output from the HFOSC0 Field values (others are reserved): 1'b0 - CLK_DIV_OUT 1'b1 - HFOSC0_CLK (clk_sel must be DRIVE_LOW)" "0,1" newline bitfld.long 0x0 0.--2. "CLKOUT_CTRL_WKUP_CLKOUT_SEL_PROXY,Controls WKUP CLKOUT MUX for WKUP_CLKOUT0 Pin Field values (others are reserved): undefined - undefined 3'b000 - DRIVE_LOW 3'b001 - LFOSC0_CLKOUT 3'b010 - MAIN_PLL0_HSDIV2_CLKOUT 3'b011 - MAIN_PLL1_HSDIV2_CLKOUT 3'b100 -.." "0,1,2,3,4,5,6,7" group.long 0xA030++0x3 line.long 0x0 "CFG0_WKUP_GTC_CLKSEL_PROXY," bitfld.long 0x0 0.--2. "WKUP_GTC_CLKSEL_CLK_SEL_PROXY,Selects the GTC timebase clock source Field values (others are reserved): 3'b000 - MAIN_PLL2_HSDIV5_CLKOUT 3'b001 - MAIN_PLL0_HSDIV6_CLKOUT 3'b010 - CP_GEMAC_CPTS0_RFT_CLK (Pin) 3'b011 - Reserved '0' 3'b100 - MCU_EXT_REFCLK0.." "0,1,2,3,4,5,6,7" group.long 0xA03C++0x3 line.long 0x0 "CFG0_EFUSE_CLKSEL_PROXY," bitfld.long 0x0 0. "EFUSE_CLKSEL_CLK_SEL_PROXY,Selects the clock source Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - MAIN_SYSCLK0/16" "0,1" group.long 0xA0D0++0x3 line.long 0x0 "CFG0_DDR32SS_PMCTRL_PROXY," bitfld.long 0x0 31. "DDR32SS_PMCTRL_DATA_RET_LD_PROXY,Controls latching of the retention value Field values (others are reserved): 1'b0 - LATCH_CLOSED 1'b1 - LATCH_OPEN" "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "DDR32SS_PMCTRL_DATA_RETENTION_PROXY,DDR32SS Retention: This is a fault tolerant bit field 0x06 Asserts DDRSS 'data_retention' which will Hi-Z most of the phy output pins except for CKE/RESET# All others (Default 0) : data_retention is.." group.long 0xA190++0x7 line.long 0x0 "CFG0_USB0_CLKSEL_PROXY," bitfld.long 0x0 0. "USB0_CLKSEL_REFCLK_SEL_PROXY,Selects the clock source for the USB0 ref_clk. Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - MAIN_PLL0_HSDIV8_CLKOUT" "0,1" line.long 0x4 "CFG0_USB1_CLKSEL_PROXY," bitfld.long 0x4 0. "USB1_CLKSEL_REFCLK_SEL_PROXY,Selects the clock source for the USB1 ref_clk. Field values (others are reserved): 1'b0 - HFOSC0_CLKOUT 1'b1 - MAIN_PLL0_HSDIV8_CLKOUT" "0,1" group.long 0xA1B0++0x7 line.long 0x0 "CFG0_WKUP_TIMER0_CLKSEL_PROXY," bitfld.long 0x0 0.--2. "WKUP_TIMER0_CLKSEL_CLK_SEL_PROXY,Timer functional clock input select mux control Field values (others are reserved): 3'b000 - HFOSC0_CLKOUT 3'b001 - DM_CLK/2 undefined - undefined 3'b010 - CLK_12M_RC 3'b011 - MCU_PLL0_HSDIV5_CLKOUT 3'b100 -.." "0,1,2,3,4,5,6,7" line.long 0x4 "CFG0_WKUP_TIMER1_CLKSEL_PROXY," bitfld.long 0x4 0.--2. "WKUP_TIMER1_CLKSEL_CLK_SEL_PROXY,Timer functional clock input select mux control Field values (others are reserved): 3'b000 - HFOSC0_CLKOUT 3'b001 - DM_CLK/2 undefined - undefined 3'b010 - CLK_12M_RC 3'b011 - MCU_PLL0_HSDIV5_CLKOUT 3'b100 -.." "0,1,2,3,4,5,6,7" group.long 0xA340++0x3 line.long 0x0 "CFG0_WKUP_WWD0_CTRL_PROXY," hexmask.long.byte 0x0 0.--3. 1. "WKUP_WWD0_CTRL_WWD_STOP_PROXY,Controls Clocks to the WWD Watchdog Counter Field values (others are reserved): 4'b0000 - WWD Counter Running 4'b1010 - WWD Counter Stopped" group.long 0xA380++0x3 line.long 0x0 "CFG0_WKUP_WWD0_CLKSEL_PROXY," bitfld.long 0x0 31. "WKUP_WWD0_CLKSEL_WRTLOCK_PROXY,When set locks WKUP_WWD0_CLKSEL from further writes until the next module reset. Field values (others are reserved): 1'b0 - UNLOCKED 1'b1 - LOCKED" "0,1" newline bitfld.long 0x0 0.--1. "WKUP_WWD0_CLKSEL_CLK_SEL_PROXY,Windowed watchdog timer functional clock input select mux control Field values (others are reserved): 2'b00 - HFOSC0_CLKOUT 2'b01 - DEVICE_CLKOUT_32K 2'b10 - CLK_12M_RC 2'b11 - CLK_32K" "0,1,2,3" group.long 0xA600++0x3 line.long 0x0 "CFG0_WKUP_RTC_CLKSEL_PROXY," bitfld.long 0x0 0. "WKUP_RTC_CLKSEL_CLK_SEL_PROXY,Selects the source of the RTC functional clock Field values (others are reserved): 1'b0 - DEVICE_CLKOUT_32K 1'b1 - CLK_32K_RC" "0,1" group.long 0xB008++0x7 line.long 0x0 "CFG0_LOCK2_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK2_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK2_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK2_KICK1_PROXY,- KICK1 component" group.long 0xB100++0x33 line.long 0x0 "CFG0_CLAIMREG_P2_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P2_R0,Claim bits for Partition 2" line.long 0x4 "CFG0_CLAIMREG_P2_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P2_R1,Claim bits for Partition 2" line.long 0x8 "CFG0_CLAIMREG_P2_R2," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P2_R2,Claim bits for Partition 2" line.long 0xC "CFG0_CLAIMREG_P2_R3," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P2_R3,Claim bits for Partition 2" line.long 0x10 "CFG0_CLAIMREG_P2_R4," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P2_R4,Claim bits for Partition 2" line.long 0x14 "CFG0_CLAIMREG_P2_R5," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P2_R5,Claim bits for Partition 2" line.long 0x18 "CFG0_CLAIMREG_P2_R6," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P2_R6,Claim bits for Partition 2" line.long 0x1C "CFG0_CLAIMREG_P2_R7," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P2_R7,Claim bits for Partition 2" line.long 0x20 "CFG0_CLAIMREG_P2_R8," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P2_R8,Claim bits for Partition 2" line.long 0x24 "CFG0_CLAIMREG_P2_R9," hexmask.long 0x24 0.--31. 1. "CLAIMREG_P2_R9,Claim bits for Partition 2" line.long 0x28 "CFG0_CLAIMREG_P2_R10," hexmask.long 0x28 0.--31. 1. "CLAIMREG_P2_R10,Claim bits for Partition 2" line.long 0x2C "CFG0_CLAIMREG_P2_R11," hexmask.long 0x2C 0.--31. 1. "CLAIMREG_P2_R11,Claim bits for Partition 2" line.long 0x30 "CFG0_CLAIMREG_P2_R12," hexmask.long 0x30 0.--31. 1. "CLAIMREG_P2_R12,Claim bits for Partition 2" rgroup.long 0xC2C0++0x7 line.long 0x0 "CFG0_POST_STAT," bitfld.long 0x0 17. "POST_STAT_FPOST_PLL_LOCK_TIMEOUT,Differentiates between Fast POST and Slow POST. Fast POST is initiated after the PLL locks using the settings in the POST_CFG MMR. Otherwise if the PLL lock times out Slow POST is initated at the PLL reference clock.." "0,1" newline bitfld.long 0x0 16. "POST_STAT_FPOST_PLL_LOCKLOSS,Indicates that POST exited with a PLL Lockloss Error Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - EXITED_ON_LOCK_LOSS" "0,1" newline bitfld.long 0x0 15. "POST_STAT_POST_PBIST_FAIL,POST PBIST failed Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - FAIL" "0,1" newline bitfld.long 0x0 9. "POST_STAT_POST_PBIST_TIMEOUT,POST PBIST timed out Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - TIMEOUT" "0,1" newline bitfld.long 0x0 8. "POST_STAT_POST_PBIST_DONE,POST PBIST done Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DONE" "0,1" line.long 0x4 "CFG0_POST_CFG," bitfld.long 0x4 31. "POST_CFG_FAST_POST_EN,Activate Fast POST mode Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" newline bitfld.long 0x4 28.--30. "POST_CFG_POST_DIV2,Fast POST PLL secondary post-divider value must be less than or equal to post_div1. Field values (others are reserved): 3'b000 - UNSUPPORTED 3'b001 - DIV1 3'b010 - DIV2 3'b011 - DIV3 3'b100 - DIV4 3'b101 - DIV5 3'b110 - DIV6 3'b111 -.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 24.--26. "POST_CFG_POST_DIV1,Fast POST PLL primary post-divider value must be greater than or equal to post_div2. Field values (others are reserved): 3'b000 - UNSUPPORTED 3'b001 - DIV1 3'b010 - DIV2 3'b011 - DIV3 3'b100 - DIV4 3'b101 - DIV5 3'b110 - DIV6 3'b111.." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x4 16.--21. 1. "POST_CFG_REF_DIV,Fast POST PLL reference clock pre-divider value. Field values (others are reserved): 6'b000000 - UNSUPPORTED 6'b000001 - DIV1 6'b000010 - DIV2 6'b000011 - DIV3 6'b000100 - DIV4 6'b000101 - DIV5 6'b000110 - DIV6 6'b000111 - DIV7.." newline hexmask.long.word 0x4 0.--11. 1. "POST_CFG_FB_DIV_INT,Fast POST PLL feedback divider (integer portion) value. In Integer mode values of 16 - 3200 (decimal) are supported." rgroup.long 0xC320++0x3 line.long 0x0 "CFG0_FUSE_CRC_STAT," bitfld.long 0x0 7. "FUSE_CRC_STAT_CRC_ERR_7,Indicates eFuse CRC error on chain 7 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 6. "FUSE_CRC_STAT_CRC_ERR_6,Indicates eFuse CRC error on chain 6 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 5. "FUSE_CRC_STAT_CRC_ERR_5,Indicates eFuse CRC error on chain 5 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 4. "FUSE_CRC_STAT_CRC_ERR_4,Indicates eFuse CRC error on chain 4 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 3. "FUSE_CRC_STAT_CRC_ERR_3,Indicates eFuse CRC error on chain 3 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 2. "FUSE_CRC_STAT_CRC_ERR_2,Indicates eFuse CRC error on chain 2 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 1. "FUSE_CRC_STAT_CRC_ERR_1,Indicates eFuse CRC error on chain 1 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" rgroup.long 0xC340++0x3 line.long 0x0 "CFG0_FUSE_CTRL_STAT," bitfld.long 0x0 7. "FUSE_CTRL_STAT_AUTOLOAD_ERR_7,Autoload Error Status Chain 7 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 6. "FUSE_CTRL_STAT_AUTOLOAD_ERR_6,Autoload Error Status Chain 6 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 5. "FUSE_CTRL_STAT_AUTOLOAD_ERR_5,Autoload Error Status Chain 5 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 4. "FUSE_CTRL_STAT_AUTOLOAD_ERR_4,Autoload Error Status Chain 4 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 3. "FUSE_CTRL_STAT_AUTOLOAD_ERR_3,Autoload Error Status Chain 3 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 2. "FUSE_CTRL_STAT_AUTOLOAD_ERR_2,Autoload Error Status Chain 2 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 1. "FUSE_CTRL_STAT_AUTOLOAD_ERR_1,Autoload Error Status Chain 1 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 0. "FUSE_CTRL_STAT_AUTOLOAD_ERR_0,Autoload Error Status Chain 0 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" group.long 0xC400++0x3 line.long 0x0 "CFG0_PBIST_EN," bitfld.long 0x0 15. "PBIST_EN_CSI_TX0,Activates PBIST Access to CSI-TX0 Memories Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" newline bitfld.long 0x0 11. "PBIST_EN_DSS0,Activates PBIST Access to DSS0 Memories Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" newline bitfld.long 0x0 8. "PBIST_EN_PCIE0,Activates PBIST Access to PCIE0 Memories Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" newline bitfld.long 0x0 5. "PBIST_EN_USB1,Activates PBIST Access to USB1 Memories Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" newline bitfld.long 0x0 4. "PBIST_EN_USB0,Activates PBIST Access to USB0 Memories Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" newline bitfld.long 0x0 2. "PBIST_EN_EMMC2,Activates PBIST Access to MMC2 Memories Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" newline bitfld.long 0x0 1. "PBIST_EN_EMMC1,Activates PBIST Access to MMC1 Memories Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" newline bitfld.long 0x0 0. "PBIST_EN_EMMC0,Activates PBIST Access to MMC0 Memories Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" group.long 0xD008++0x7 line.long 0x0 "CFG0_LOCK3_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK3_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK3_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK3_KICK1,- KICK1 component" rgroup.long 0xD100++0x23 line.long 0x0 "CFG0_CLAIMREG_P3_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P3_R0_READONLY,Claim bits for Partition 3" line.long 0x4 "CFG0_CLAIMREG_P3_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P3_R1_READONLY,Claim bits for Partition 3" line.long 0x8 "CFG0_CLAIMREG_P3_R2_READONLY," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P3_R2_READONLY,Claim bits for Partition 3" line.long 0xC "CFG0_CLAIMREG_P3_R3_READONLY," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P3_R3_READONLY,Claim bits for Partition 3" line.long 0x10 "CFG0_CLAIMREG_P3_R4_READONLY," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P3_R4_READONLY,Claim bits for Partition 3" line.long 0x14 "CFG0_CLAIMREG_P3_R5_READONLY," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P3_R5_READONLY,Claim bits for Partition 3" line.long 0x18 "CFG0_CLAIMREG_P3_R6_READONLY," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P3_R6_READONLY,Claim bits for Partition 3" line.long 0x1C "CFG0_CLAIMREG_P3_R7_READONLY," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P3_R7_READONLY,Claim bits for Partition 3" line.long 0x20 "CFG0_CLAIMREG_P3_R8_READONLY," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P3_R8_READONLY,Claim bits for Partition 3" rgroup.long 0xE2C0++0x7 line.long 0x0 "CFG0_POST_STAT_PROXY," bitfld.long 0x0 17. "POST_STAT_FPOST_PLL_LOCK_TIMEOUT_PROXY,Differentiates between Fast POST and Slow POST. Fast POST is initiated after the PLL locks using the settings in the POST_CFG MMR. Otherwise if the PLL lock times out Slow POST is initated at the PLL reference.." "0,1" newline bitfld.long 0x0 16. "POST_STAT_FPOST_PLL_LOCKLOSS_PROXY,Indicates that POST exited with a PLL Lockloss Error Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - EXITED_ON_LOCK_LOSS" "0,1" newline bitfld.long 0x0 15. "POST_STAT_POST_PBIST_FAIL_PROXY,POST PBIST failed Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - FAIL" "0,1" newline bitfld.long 0x0 9. "POST_STAT_POST_PBIST_TIMEOUT_PROXY,POST PBIST timed out Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - TIMEOUT" "0,1" newline bitfld.long 0x0 8. "POST_STAT_POST_PBIST_DONE_PROXY,POST PBIST done Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DONE" "0,1" line.long 0x4 "CFG0_POST_CFG_PROXY," bitfld.long 0x4 31. "POST_CFG_FAST_POST_EN_PROXY,Activate Fast POST mode Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" newline bitfld.long 0x4 28.--30. "POST_CFG_POST_DIV2_PROXY,Fast POST PLL secondary post-divider value must be less than or equal to post_div1. Field values (others are reserved): 3'b000 - UNSUPPORTED 3'b001 - DIV1 3'b010 - DIV2 3'b011 - DIV3 3'b100 - DIV4 3'b101 - DIV5 3'b110 - DIV6.." "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 24.--26. "POST_CFG_POST_DIV1_PROXY,Fast POST PLL primary post-divider value must be greater than or equal to post_div2. Field values (others are reserved): 3'b000 - UNSUPPORTED 3'b001 - DIV1 3'b010 - DIV2 3'b011 - DIV3 3'b100 - DIV4 3'b101 - DIV5 3'b110 - DIV6.." "0,1,2,3,4,5,6,7" newline hexmask.long.byte 0x4 16.--21. 1. "POST_CFG_REF_DIV_PROXY,Fast POST PLL reference clock pre-divider value. Field values (others are reserved): 6'b000000 - UNSUPPORTED 6'b000001 - DIV1 6'b000010 - DIV2 6'b000011 - DIV3 6'b000100 - DIV4 6'b000101 - DIV5 6'b000110 - DIV6 6'b000111 - DIV7.." newline hexmask.long.word 0x4 0.--11. 1. "POST_CFG_FB_DIV_INT_PROXY,Fast POST PLL feedback divider (integer portion) value. In Integer mode values of 16 - 3200 (decimal) are supported." rgroup.long 0xE320++0x3 line.long 0x0 "CFG0_FUSE_CRC_STAT_PROXY," bitfld.long 0x0 7. "FUSE_CRC_STAT_CRC_ERR_7_PROXY,Indicates eFuse CRC error on chain 7 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 6. "FUSE_CRC_STAT_CRC_ERR_6_PROXY,Indicates eFuse CRC error on chain 6 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 5. "FUSE_CRC_STAT_CRC_ERR_5_PROXY,Indicates eFuse CRC error on chain 5 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 4. "FUSE_CRC_STAT_CRC_ERR_4_PROXY,Indicates eFuse CRC error on chain 4 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 3. "FUSE_CRC_STAT_CRC_ERR_3_PROXY,Indicates eFuse CRC error on chain 3 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 2. "FUSE_CRC_STAT_CRC_ERR_2_PROXY,Indicates eFuse CRC error on chain 2 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 1. "FUSE_CRC_STAT_CRC_ERR_1_PROXY,Indicates eFuse CRC error on chain 1 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" rgroup.long 0xE340++0x3 line.long 0x0 "CFG0_FUSE_CTRL_STAT_PROXY," bitfld.long 0x0 7. "FUSE_CTRL_STAT_AUTOLOAD_ERR_7_PROXY,Autoload Error Status Chain 7 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 6. "FUSE_CTRL_STAT_AUTOLOAD_ERR_6_PROXY,Autoload Error Status Chain 6 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 5. "FUSE_CTRL_STAT_AUTOLOAD_ERR_5_PROXY,Autoload Error Status Chain 5 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 4. "FUSE_CTRL_STAT_AUTOLOAD_ERR_4_PROXY,Autoload Error Status Chain 4 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 3. "FUSE_CTRL_STAT_AUTOLOAD_ERR_3_PROXY,Autoload Error Status Chain 3 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 2. "FUSE_CTRL_STAT_AUTOLOAD_ERR_2_PROXY,Autoload Error Status Chain 2 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 1. "FUSE_CTRL_STAT_AUTOLOAD_ERR_1_PROXY,Autoload Error Status Chain 1 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" newline bitfld.long 0x0 0. "FUSE_CTRL_STAT_AUTOLOAD_ERR_0_PROXY,Autoload Error Status Chain 0 Field values (others are reserved): 1'b0 - NO_ERROR 1'b1 - ERROR" "0,1" group.long 0xE400++0x3 line.long 0x0 "CFG0_PBIST_EN_PROXY," bitfld.long 0x0 15. "PBIST_EN_CSI_TX0_PROXY,Activates PBIST Access to CSI-TX0 Memories Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" newline bitfld.long 0x0 11. "PBIST_EN_DSS0_PROXY,Activates PBIST Access to DSS0 Memories Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" newline bitfld.long 0x0 8. "PBIST_EN_PCIE0_PROXY,Activates PBIST Access to PCIE0 Memories Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" newline bitfld.long 0x0 5. "PBIST_EN_USB1_PROXY,Activates PBIST Access to USB1 Memories Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" newline bitfld.long 0x0 4. "PBIST_EN_USB0_PROXY,Activates PBIST Access to USB0 Memories Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" newline bitfld.long 0x0 2. "PBIST_EN_EMMC2_PROXY,Activates PBIST Access to MMC2 Memories Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" newline bitfld.long 0x0 1. "PBIST_EN_EMMC1_PROXY,Activates PBIST Access to MMC1 Memories Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" newline bitfld.long 0x0 0. "PBIST_EN_EMMC0_PROXY,Activates PBIST Access to MMC0 Memories Field values (others are reserved): 1'b0 - DEACTIVATE 1'b1 - ACTIVATE" "0,1" group.long 0xF008++0x7 line.long 0x0 "CFG0_LOCK3_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK3_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK3_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK3_KICK1_PROXY,- KICK1 component" group.long 0xF100++0x23 line.long 0x0 "CFG0_CLAIMREG_P3_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P3_R0,Claim bits for Partition 3" line.long 0x4 "CFG0_CLAIMREG_P3_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P3_R1,Claim bits for Partition 3" line.long 0x8 "CFG0_CLAIMREG_P3_R2," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P3_R2,Claim bits for Partition 3" line.long 0xC "CFG0_CLAIMREG_P3_R3," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P3_R3,Claim bits for Partition 3" line.long 0x10 "CFG0_CLAIMREG_P3_R4," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P3_R4,Claim bits for Partition 3" line.long 0x14 "CFG0_CLAIMREG_P3_R5," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P3_R5,Claim bits for Partition 3" line.long 0x18 "CFG0_CLAIMREG_P3_R6," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P3_R6,Claim bits for Partition 3" line.long 0x1C "CFG0_CLAIMREG_P3_R7," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P3_R7,Claim bits for Partition 3" line.long 0x20 "CFG0_CLAIMREG_P3_R8," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P3_R8,Claim bits for Partition 3" group.long 0x11008++0x7 line.long 0x0 "CFG0_LOCK4_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK4_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK4_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK4_KICK1,- KICK1 component" rgroup.long 0x11100++0x23 line.long 0x0 "CFG0_CLAIMREG_P4_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P4_R0_READONLY,Claim bits for Partition 4" line.long 0x4 "CFG0_CLAIMREG_P4_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P4_R1_READONLY,Claim bits for Partition 4" line.long 0x8 "CFG0_CLAIMREG_P4_R2_READONLY," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P4_R2_READONLY,Claim bits for Partition 4" line.long 0xC "CFG0_CLAIMREG_P4_R3_READONLY," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P4_R3_READONLY,Claim bits for Partition 4" line.long 0x10 "CFG0_CLAIMREG_P4_R4_READONLY," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P4_R4_READONLY,Claim bits for Partition 4" line.long 0x14 "CFG0_CLAIMREG_P4_R5_READONLY," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P4_R5_READONLY,Claim bits for Partition 4" line.long 0x18 "CFG0_CLAIMREG_P4_R6_READONLY," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P4_R6_READONLY,Claim bits for Partition 4" line.long 0x1C "CFG0_CLAIMREG_P4_R7_READONLY," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P4_R7_READONLY,Claim bits for Partition 4" line.long 0x20 "CFG0_CLAIMREG_P4_R8_READONLY," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P4_R8_READONLY,Claim bits for Partition 4" group.long 0x13008++0x7 line.long 0x0 "CFG0_LOCK4_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK4_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK4_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK4_KICK1_PROXY,- KICK1 component" group.long 0x13100++0x23 line.long 0x0 "CFG0_CLAIMREG_P4_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P4_R0,Claim bits for Partition 4" line.long 0x4 "CFG0_CLAIMREG_P4_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P4_R1,Claim bits for Partition 4" line.long 0x8 "CFG0_CLAIMREG_P4_R2," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P4_R2,Claim bits for Partition 4" line.long 0xC "CFG0_CLAIMREG_P4_R3," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P4_R3,Claim bits for Partition 4" line.long 0x10 "CFG0_CLAIMREG_P4_R4," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P4_R4,Claim bits for Partition 4" line.long 0x14 "CFG0_CLAIMREG_P4_R5," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P4_R5,Claim bits for Partition 4" line.long 0x18 "CFG0_CLAIMREG_P4_R6," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P4_R6,Claim bits for Partition 4" line.long 0x1C "CFG0_CLAIMREG_P4_R7," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P4_R7,Claim bits for Partition 4" line.long 0x20 "CFG0_CLAIMREG_P4_R8," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P4_R8,Claim bits for Partition 4" group.long 0x14000++0x3 line.long 0x0 "CFG0_CHNG_DDR4_FSP_REQ," bitfld.long 0x0 8. "CHNG_DDR4_FSP_REQ_REQ,Initiate FSP frequency change Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 0.--1. "CHNG_DDR4_FSP_REQ_REQ_TYPE,Frequency request type - Desired Frequency Set Point after switch. Field values (others are reserved): 2'b00 - FSP0 2'b01 - FSP1 2'b10 - FSP2 2'b11 - FSP3" "0,1,2,3" rgroup.long 0x14004++0x3 line.long 0x0 "CFG0_CHNG_DDR4_FSP_ACK," bitfld.long 0x0 7. "CHNG_DDR4_FSP_ACK_ACK,Frequency change acknowledge. This bit is only valid when CHNG_DDR4_FSP_REQ_req is active Indication from the DDR Controller that the Frequency Set Point change operation is complete Field values (others are reserved): 1'b0 -.." "0,1" newline bitfld.long 0x0 0. "CHNG_DDR4_FSP_ACK_ERROR,Frequency change error This bit is only valid when CHNG_DDR4_FSP_REQ_req is active. Field values (others are reserved): 1'b0 - SUCCESS 1'b1 - ERROR" "0,1" rgroup.long 0x14080++0x3 line.long 0x0 "CFG0_DDR4_FSP_CLKCHNG_REQ," bitfld.long 0x0 7. "DDR4_FSP_CLKCHNG_REQ_REQ,DDR Controller FSP clock change request Indicates that the DDR controller needs the DDR clock changed to the frequency set point indicated by the req_type field. This bit is cleared when the DDR4_FSP_CLKCHNG_ACK_ack bit is set." "0,1" newline bitfld.long 0x0 0.--1. "DDR4_FSP_CLKCHNG_REQ_REQ_TYPE,Frequency request type - Desired Frequency Set Point after switch. Field values (others are reserved): 2'b00 - FSP0 2'b01 - FSP1 2'b10 - FSP2 2'b11 - FSP3" "0,1,2,3" group.long 0x140C0++0x3 line.long 0x0 "CFG0_DDR4_FSP_CLKCHNG_ACK," bitfld.long 0x0 0. "DDR4_FSP_CLKCHNG_ACK_ACK,DDR FSP clock change ackowledge This bit should be set once the DDR clock has been sucessfully changed to the value requested by DDR4_FSP_CLKCHNG_REQ_req_type. Setting this bit will clear the DDR4_FSP_CLKCHNG_REQ_req bit and the.." "0,1" group.long 0x15008++0x7 line.long 0x0 "CFG0_LOCK5_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK5_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK5_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK5_KICK1,- KICK1 component" rgroup.long 0x15100++0x7 line.long 0x0 "CFG0_CLAIMREG_P5_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P5_R0_READONLY,Claim bits for Partition 5" line.long 0x4 "CFG0_CLAIMREG_P5_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P5_R1_READONLY,Claim bits for Partition 5" group.long 0x16000++0x3 line.long 0x0 "CFG0_CHNG_DDR4_FSP_REQ_PROXY," bitfld.long 0x0 8. "CHNG_DDR4_FSP_REQ_REQ_PROXY,Initiate FSP frequency change Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline bitfld.long 0x0 0.--1. "CHNG_DDR4_FSP_REQ_REQ_TYPE_PROXY,Frequency request type - Desired Frequency Set Point after switch. Field values (others are reserved): 2'b00 - FSP0 2'b01 - FSP1 2'b10 - FSP2 2'b11 - FSP3" "0,1,2,3" rgroup.long 0x16004++0x3 line.long 0x0 "CFG0_CHNG_DDR4_FSP_ACK_PROXY," bitfld.long 0x0 7. "CHNG_DDR4_FSP_ACK_ACK_PROXY,Frequency change acknowledge. This bit is only valid when CHNG_DDR4_FSP_REQ_req is active Indication from the DDR Controller that the Frequency Set Point change operation is complete Field values (others are reserved): 1'b0 -.." "0,1" newline bitfld.long 0x0 0. "CHNG_DDR4_FSP_ACK_ERROR_PROXY,Frequency change error This bit is only valid when CHNG_DDR4_FSP_REQ_req is active. Field values (others are reserved): 1'b0 - SUCCESS 1'b1 - ERROR" "0,1" rgroup.long 0x16080++0x3 line.long 0x0 "CFG0_DDR4_FSP_CLKCHNG_REQ_PROXY," bitfld.long 0x0 7. "DDR4_FSP_CLKCHNG_REQ_REQ_PROXY,DDR Controller FSP clock change request Indicates that the DDR controller needs the DDR clock changed to the frequency set point indicated by the req_type field. This bit is cleared when the DDR4_FSP_CLKCHNG_ACK_ack bit is.." "0,1" newline bitfld.long 0x0 0.--1. "DDR4_FSP_CLKCHNG_REQ_REQ_TYPE_PROXY,Frequency request type - Desired Frequency Set Point after switch. Field values (others are reserved): 2'b00 - FSP0 2'b01 - FSP1 2'b10 - FSP2 2'b11 - FSP3" "0,1,2,3" group.long 0x160C0++0x3 line.long 0x0 "CFG0_DDR4_FSP_CLKCHNG_ACK_PROXY," bitfld.long 0x0 0. "DDR4_FSP_CLKCHNG_ACK_ACK_PROXY,DDR FSP clock change ackowledge This bit should be set once the DDR clock has been sucessfully changed to the value requested by DDR4_FSP_CLKCHNG_REQ_req_type. Setting this bit will clear the DDR4_FSP_CLKCHNG_REQ_req bit.." "0,1" group.long 0x17008++0x7 line.long 0x0 "CFG0_LOCK5_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK5_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK5_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK5_KICK1_PROXY,- KICK1 component" group.long 0x17100++0x7 line.long 0x0 "CFG0_CLAIMREG_P5_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P5_R0,Claim bits for Partition 5" line.long 0x4 "CFG0_CLAIMREG_P5_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P5_R1,Claim bits for Partition 5" group.long 0x18040++0x1F line.long 0x0 "CFG0_FW_CTRL_OUT0," hexmask.long 0x0 0.--31. 1. "FW_CTRL_OUT0_FW_CTRL_OUT0,Unused" line.long 0x4 "CFG0_FW_CTRL_OUT0_SET," line.long 0x8 "CFG0_FW_CTRL_OUT0_CLR," line.long 0xC "CFG0_FW_STS_IN0," line.long 0x10 "CFG0_FW_CTRL_OUT1," line.long 0x14 "CFG0_FW_CTRL_OUT1_SET," line.long 0x18 "CFG0_FW_CTRL_OUT1_CLR," line.long 0x1C "CFG0_FW_STS_IN1," group.long 0x18080++0xB line.long 0x0 "CFG0_PMCTRL_SYS," bitfld.long 0x0 5. "PMCTRL_SYS_PMIC_EN_WE,Unused Field - Value is Don't Care" "0,1" newline bitfld.long 0x0 4. "PMCTRL_SYS_PMIC_EN,Controls state of PMIC_LPM_EN_OUT when LPM_EN[2:0] is 000" "0,1" newline bitfld.long 0x0 3. "PMCTRL_SYS_LPM_EN_WE,Unused Field - Value is Don't Care" "0,1" newline bitfld.long 0x0 0.--2. "PMCTRL_SYS_LPM_EN,Controls whether PMIC_LPM_EN_OUT is driven by the pmic_en bit or by deep sleep logic. Field values (others are reserved): 3'b000 - PMIC_LPM_EN_OUT controlled by pmic_en bit. 3'b101 - PMIC_LPM_EN_OUT controlled by DeepSleep Logic" "0,1,2,3,4,5,6,7" line.long 0x4 "CFG0_PMCTRL_IO_0," rbitfld.long 0x4 25. "PMCTRL_IO_0_IO_ISO_STATUS_0,IO ISO Status. Read 0: IO isolation not active. Read 1: IO isolation active. Reflects value of DM input port io_isoack coming back from IO pad ring." "0: IO isolation not active,1: IO isolation active" newline bitfld.long 0x4 24. "PMCTRL_IO_0_IO_ISO_CTRL_0,IO ISO control. Writing this bit to 1 will kick off IO isolation." "0,1" newline bitfld.long 0x4 16. "PMCTRL_IO_0_GLOBAL_WUEN_0,Global IO wakeup activate. This is a gating condition to all individual IO WUEN coming from control module. Gating is done in the Spinner logic. 0:All individual IO WUEN are gated in the Spinner logic (override to 0). 1: All.." "0: All individual IO WUEN are gated in the Spinner..,1: All individual IO WUEN from control module are.." newline rbitfld.long 0x4 9. "PMCTRL_IO_0_WUCLK_STATUS_0,Reflects value of DM input port io_wuclkack coming back from IO pad ring." "0,1" newline bitfld.long 0x4 8. "PMCTRL_IO_0_WUCLK_CTRL_0,Direct control on WUCLKIN signal to IO pad ring.0:WUCLKIN signal is driven to 0.IO wakeup daisy chain is functional as well as IO whose wakeup feature is activated. 1:WUCLKIN signal is driven to 1. IO wakeup daisy chain is.." "0: WUCLKIN signal is driven to 0,1: WUCLKIN signal is driven to 1" newline bitfld.long 0x4 6. "PMCTRL_IO_0_ISOBYPASS_OVR_0,This MMR bit drives directly DM output port io_isobypassundefined." "0,1" newline rbitfld.long 0x4 5. "PMCTRL_IO_0_IO_ON_STATUS_0,Gives the functional status of the IO ring. Read 0: Part or all of the Ios are not in the ON state that is are in isolation state. Read 1: All Ios are in the ON state. io_on_status = assign 1 if (io_iso == 0 & io_isoack==0 &.." "0: Part or all of the Ios are not in the ON state..,1: All Ios are in the ON state" newline bitfld.long 0x4 4. "PMCTRL_IO_0_ISOOVR_EXTEND_0,This drives the SOC chain ISO-OVERRIDE global control. This bit drives directly the DM output port io_isoovrundefined. At the SOC level it is used to activate when 1 or gate-off when 0 the individual ISOOR for each IO. This.." "0,1" newline rbitfld.long 0x4 1. "PMCTRL_IO_0_ISOCLK_STATUS_0,Reflects value of DM input port io_isoclkack coming back from IO pad ring." "0,1" newline bitfld.long 0x4 0. "PMCTRL_IO_0_ISOCLK_OVRD_0,Override control on ISOCLKIN signal to IO pad ring. When not overridden this signal is controlled by hardware only. 0 ISOCLKIN signal is not override. 1 ISOCLKIN signal is overridden to active value ('1')." "0,1" line.long 0x8 "CFG0_PMCTRL_IO_1," rbitfld.long 0x8 25. "PMCTRL_IO_1_IO_ISO_STATUS_1,IO ISO Status. Read 0: IO isolation not active. Read 1: IO isolation active. Reflects value of DM input port io_isoack coming back from IO pad ring." "0: IO isolation not active,1: IO isolation active" newline bitfld.long 0x8 24. "PMCTRL_IO_1_IO_ISO_CTRL_1,IO ISO control. Writing this bit to 1 will kick off IO isolation." "0,1" newline bitfld.long 0x8 16. "PMCTRL_IO_1_GLOBAL_WUEN_1,Global IO wakeup activate. This is a gating condition to all individual IO WUEN coming from control module. Gating is done in the Spinner logic. 0:All individual IO WUEN are gated in the Spinner logic (override to 0). 1: All.." "0: All individual IO WUEN are gated in the Spinner..,1: All individual IO WUEN from control module are.." newline rbitfld.long 0x8 9. "PMCTRL_IO_1_WUCLK_STATUS_1,Reflects value of DM input port io_wuclkack coming back from IO pad ring." "0,1" newline bitfld.long 0x8 8. "PMCTRL_IO_1_WUCLK_CTRL_1,Direct control on WUCLKIN signal to IO pad ring.0:WUCLKIN signal is driven to 0.IO wakeup daisy chain is functional as well as IO whose wakeup feature is activated. 1:WUCLKIN signal is driven to 1. IO wakeup daisy chain is.." "0: WUCLKIN signal is driven to 0,1: WUCLKIN signal is driven to 1" newline bitfld.long 0x8 6. "PMCTRL_IO_1_ISOBYPASS_OVR_1,This MMR bit drives directly DM output port io_isobypassundefined." "0,1" newline rbitfld.long 0x8 5. "PMCTRL_IO_1_IO_ON_STATUS_1,Gives the functional status of the IO ring. Read 0: Part or all of the Ios are not in the ON state that is are in isolation state. Read 1: All Ios are in the ON state. io_on_status = assign 1 if (io_iso == 0 & io_isoack==0 &.." "0: Part or all of the Ios are not in the ON state..,1: All Ios are in the ON state" newline bitfld.long 0x8 4. "PMCTRL_IO_1_ISOOVR_EXTEND_1,This drives the SOC chain ISO-OVERRIDE global control. This bit drives directly the DM output port io_isoovrundefined. At the SOC level it is used to activate when 1 or gate-off when 0 the individual ISOOR for each IO. This.." "0,1" newline rbitfld.long 0x8 1. "PMCTRL_IO_1_ISOCLK_STATUS_1,Reflects value of DM input port io_isoclkack coming back from IO pad ring." "0,1" newline bitfld.long 0x8 0. "PMCTRL_IO_1_ISOCLK_OVRD_1,Override control on ISOCLKIN signal to IO pad ring. When not overridden this signal is controlled by hardware only. 0 ISOCLKIN signal is not override. 1 ISOCLKIN signal is overridden to active value ('1')." "0,1" group.long 0x18090++0x3 line.long 0x0 "CFG0_PMCTRL_MOSC," bitfld.long 0x0 31. "PMCTRL_MOSC_OSC_CG_ON_WFI,To clock gate the main HFOSC DM sets this bit then enters the WFI state at which time the HFOSC will be gated. Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline hexmask.long.tbyte 0x0 0.--19. 1. "PMCTRL_MOSC_SETUP_TIME,Number of HFOSC clock cycles before HFOSC clock is ungated to the SOC (allows the HFOSC time to stabilize after starting up before the SOC is clocked)." rgroup.long 0x18098++0x3 line.long 0x0 "CFG0_PM_MISC_STATUS," bitfld.long 0x0 0.--1. "PM_MISC_STATUS_OSC_CG_STAT,HFOSC Clock Gating State Field values (others are reserved): 2'b00 - HFOSC_OFF 2'b01 - HFOSC_OFF2ON (transition state) 2'b10 - HFOSC_ON2OFF (transition state) 2'b11 - HFOSC_ON" "0,1,2,3" group.long 0x1809C++0x3 line.long 0x0 "CFG0_PMCTRL_IO_GLB," bitfld.long 0x0 0.--1. "PMCTRL_IO_GLB_DSEN_QUALIFIED,Bit 0 puts WKUP Domain IOs in Deepsleep. Bit 1 Puts Main Domain IOs in Deepsleep. Field values (others are reserved): 2'b00 - IO_ACTIVE_ALL 2'b01 - IO_DEEPSLEEP_WKUP 2'b10 - IO_DEEPSLEEP_MAIN 2'b11 - IO_DEEPSLEEP_MAIN_AND_WKUP" "0,1,2,3" rgroup.long 0x180A0++0x3 line.long 0x0 "CFG0_PM_PERMISSION," bitfld.long 0x0 2. "PM_PERMISSION_MCU_SAFETY_ACTIVE,Read Only - Reads return a 1 when MCU RST_MAGIC_WORD is non-zero. When 1 indicates that the MCU is blocking reset and also deep sleep entry. Field values (others are reserved): 1'b0 - DS_ALLOW 1'b1 - DS_BLOCK" "0,1" newline bitfld.long 0x0 1. "PM_PERMISSION_SECURITY_ACTIVE,Read Only - Reads return the value of SMS security active. When 1 indicates that SMS is blocking deep sleep entry. Field values (others are reserved): 1'b0 - DS_ALLOW 1'b1 - DS_BLOCK" "0,1" newline bitfld.long 0x0 0. "PM_PERMISSION_DEBUG_ACTIVE,Read Only - Returns a 1 when Debug is blocking deep sleep entry. Field values (others are reserved): 1'b0 - DS_ALLOW 1'b1 - DS_BLOCK" "0,1" group.long 0x18160++0x3 line.long 0x0 "CFG0_DEEPSLEEP_CTRL," bitfld.long 0x0 8. "DEEPSLEEP_CTRL_FORCE_DS_MAIN,Force all MAIN IOs into deepsleep mode when set Field values (others are reserved): 1'b0 - IO_ACTIVE 1'b1 - IO_DEEPSLEEP" "0,1" newline bitfld.long 0x0 0. "DEEPSLEEP_CTRL_FORCE_DS_WKUP,Force all WKUP IOs into deepsleep mode when set Field values (others are reserved): 1'b0 - IO_ACTIVE 1'b1 - IO_DEEPSLEEP" "0,1" group.long 0x18170++0x3 line.long 0x0 "CFG0_RST_CTRL," bitfld.long 0x0 18. "RST_CTRL_MAIN_RESET_ISO_DONE_Z,Blocks Main Domain Warm Reset. Field values (others are reserved): 1'b0 - PROPOGATE 1'b1 - BLOCK" "0,1" newline bitfld.long 0x0 17. "RST_CTRL_MAIN_ESM_ERROR_RST_EN_Z,Block Reset of Main by ESM Field values (others are reserved): 1'b0 - PROPOGATE 1'b1 - BLOCK" "0,1" newline bitfld.long 0x0 16. "RST_CTRL_SMS_COLD_RESET_EN_Z,Block Reset of Main by SMS Field values (others are reserved): 1'b0 - PROPOGATE 1'b1 - BLOCK" "0,1" newline hexmask.long.byte 0x0 4.--7. 1. "RST_CTRL_SW_MAIN_POR,Causes MAIN Domain Power On Reset. This is a fault tolerant bitfield. Automatically resets to 4'b1111 after write. Field values (others are reserved): 4'b0110 - FORCE_RESET 4'b1111 - INACTIVE" newline hexmask.long.byte 0x0 0.--3. 1. "RST_CTRL_SW_MAIN_WARMRST,Causes MAIN Domain Warm Reset. This is a fault tolerant bitfield. Automatically resets to 4'b1111 after write. Field values (others are reserved): 4'b0110 - FORCE_RESET 4'b1111 - INACTIVE" rgroup.long 0x18174++0xB line.long 0x0 "CFG0_RST_STAT," bitfld.long 0x0 0. "RST_STAT_MCU_RESET_ISO_DONE_Z,Indicates MCU Domain is in Reset Isolation When Active (Low) Field values (others are reserved): 1'b0 - ISOLATION 1'b1 - PASS_THROUGH" "0,1" line.long 0x4 "CFG0_RST_SRC," bitfld.long 0x4 31. "RST_SRC_SAFETY_ERROR,Reset Caused by MCU ESM Error. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 30. "RST_SRC_MAIN_ESM_ERROR,Reset Caused by Main ESM Error. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 25. "RST_SRC_SW_MAIN_POR_FROM_MAIN,Software Main Power On Reset From CTRL_MMR0. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 24. "RST_SRC_SW_MAIN_POR_FROM_MCU,Software Main Power On Reset From MCU_CTRL_MMR0. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 22. "RST_SRC_DM_WDT_RST,Watchdog Initiated Reset. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 21. "RST_SRC_SW_MAIN_WARMRST_FROM_MAIN,Software Main Warm Reset From CTRL_MMR0. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 20. "RST_SRC_SW_MAIN_WARMRST_FROM_MCU,Software Main Warm Reset From MCU_CTRL_MMR0. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 16. "RST_SRC_SW_MCU_WARMRST,Software Warm Reset. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 13. "RST_SRC_WARM_OUT_RST,SMS Warm Reset. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 12. "RST_SRC_COLD_OUT_RST,SMS Cold Reset. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 8. "RST_SRC_DEBUG_RST,Debug Subsystem Initiated Reset. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 4. "RST_SRC_THERMAL_RST,Thermal Reset. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 2. "RST_SRC_MAIN_RESET_REQ,Main Reset Pin. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 0. "RST_SRC_MCU_RESET_PIN,Rest Caused by MCU Reset Pin. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" line.long 0x8 "CFG0_RST_MAGIC_WORD," hexmask.long 0x8 0.--31. 1. "RST_MAGIC_WORD_MCU_MAGIC_WORD,Magic Word Indicating Status of MCU Subsystem Boot" group.long 0x18180++0x3 line.long 0x0 "CFG0_WKUP0_EN," hexmask.long 0x0 0.--31. 1. "WKUP0_EN_WKUPEN,Activates Wakeup from on-chip sources. In addition to values listed any OR combination of the values is also valid. Field values (others are reserved): 32'h00000001 - WKUP_I2C0 32'h00000002 - WKUP_USART0 32'h00000004 - MCU_GPIO0.." group.long 0x18280++0x7 line.long 0x0 "CFG0_CLKGATE_CTRL0," bitfld.long 0x0 31. "CLKGATE_CTRL0_MAIN_SMS_NOGATE,MAIN domain SMS auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 29. "CLKGATE_CTRL0_MAIN_SA3SS_NOGATE,MAIN domain SA3SS auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 28. "CLKGATE_CTRL0_MAIN_DBG_CBA_NOGATE,MAIN domain Debug CBASS auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 26. "CLKGATE_CTRL0_MAIN_R5F_0_NOGATE,MAIN domain R5FSS auto clock gate on idle deactivate Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 25. "CLKGATE_CTRL0_MCU_FW_CBASS_NOGATE,MCU domain FW CBASS auto clock gate on idle deactivate Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 24. "CLKGATE_CTRL0_MAIN_RT_FW_NOGATE,MAIN domain RT FW CBASS auto clock gate on idle deactivate Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 23. "CLKGATE_CTRL0_MAIN_RT_DATA_NOGATE,MAIN domain RT DATA CBASS auto clock gate on idle deactivate Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 22. "CLKGATE_CTRL0_MAIN_RT_CFG_NOGATE,MAIN domain RT CFG CBASS auto clock gate on idle deactivate Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 20. "CLKGATE_CTRL0_MAIN_PDMA3_NOGATE,MAIN domain PDMA3 auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 19. "CLKGATE_CTRL0_MAIN_PDMA2_NOGATE,MAIN domain PDMA2 auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 18. "CLKGATE_CTRL0_MAIN_PDMA1_NOGATE,MAIN domain PDMA1 auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 17. "CLKGATE_CTRL0_MAIN_PDMA0_NOGATE,MAIN domain PDMA0 auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 16. "CLKGATE_CTRL0_MAIN_DMSS_NOGATE,MAIN domain DMSS auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 15. "CLKGATE_CTRL0_MAIN_GIC500_NOGATE,MAIN MPUSS0 GIC500 auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 14. "CLKGATE_CTRL0_MAIN_AUDIO_CBA_NOGATE,MAIN domain Infrastructure bus (AUDIO) auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 13. "CLKGATE_CTRL0_MAIN_IPCSS_CBA_NOGATE,MAIN domain Infrastructure CBASS auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 12. "CLKGATE_CTRL0_MAIN_MCASP_CBA_NOGATE,MAIN domain Infrastructure bus (McASP) auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 11. "CLKGATE_CTRL0_MAIN_MISC_PERI_CBA_NOGATE,MAIN domain Infrastructure bus (Misc Peripehal) auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 10. "CLKGATE_CTRL0_MAIN_MPU_0_DBG_NOGATE,MAIN MPUSS0 Debug Port auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 9. "CLKGATE_CTRL0_MAIN_MPU_0_CFG_NOGATE,MAIN MPUSS0 Configuration Port auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 8. "CLKGATE_CTRL0_MAIN_MPU_0_ACP_NOGATE,MAIN MPUSS0 ACP auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 7. "CLKGATE_CTRL0_MAIN_MPU_0_NOGATE,MAIN MPUSS0 auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 5. "CLKGATE_CTRL0_MAIN_FW_CBA_NOGATE,MAIN domain data bus auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 4. "CLKGATE_CTRL0_MAIN_DATA_CBA_NOGATE,MAIN domain data bus auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 3. "CLKGATE_CTRL0_MAIN_CENTRAL_CBA_NOGATE,WKUP domain Infrastructure ECC aggregator auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 2. "CLKGATE_CTRL0_WKUP_DM_PWR_NOGATE,WKUP domain Device Manager auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 1. "CLKGATE_CTRL0_WKUP_DM_CBA_NOGATE,WKUP domain device manager CBA auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 0. "CLKGATE_CTRL0_MAIN_INFRA_CBA_NOGATE,MAIN domain Infrastructure bus auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" line.long 0x4 "CFG0_CLKGATE_CTRL1," bitfld.long 0x4 24. "CLKGATE_CTRL1_RAM0_NOGATE,MAIN SRAM auto clockgate on idle deactivate Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x4 19. "CLKGATE_CTRL1_CSITX0_NOGATE,VPAC0 auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x4 15. "CLKGATE_CTRL1_VPAC0_NOGATE,VPAC0 auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x4 12. "CLKGATE_CTRL1_C7X_1_NOGATE,C7x_1 auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x4 11. "CLKGATE_CTRL1_C7X_NOGATE,C7x auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x4 7. "CLKGATE_CTRL1_JPEG_ENC_NOGATE,JPEG Encoder auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x4 3. "CLKGATE_CTRL1_VIDEO_CODEC_NOGATE,VIDEO CODEC auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x4 0. "CLKGATE_CTRL1_DMSS_CSI_NOGATE,DMSS_CSI auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" group.long 0x18300++0x3 line.long 0x0 "CFG0_CANUART_WAKE_CTRL," hexmask.long 0x0 1.--31. 1. "CANUART_WAKE_CTRL_MW,CANUART IO magic word. The lower 23 bits determine if the device enters CANUART IO isolation when mw_load_en is set. If the lower 23 bits match the ACTIVATE value (0x5AAAAA) then CANUART IO Isolation is entered any other value.." newline bitfld.long 0x0 0. "CANUART_WAKE_CTRL_MW_LOAD_EN,Magic word load activate Setting this bit loads and locks the mw field for CANUART IO isolation. If the mw field matches ACTIVATE CANUART IO Isolation is initiated. Field values (others are reserved): 1'b0 - UNLOCK 1'b1 -.." "0,1" rgroup.long 0x18308++0x7 line.long 0x0 "CFG0_CANUART_WAKE_STAT0," hexmask.long 0x0 1.--31. 1. "CANUART_WAKE_STAT0_MW_STAT,CANUART magic word status Indicates the latched value of the mw field." newline bitfld.long 0x0 0. "CANUART_WAKE_STAT0_MW_LOAD_STAT,Magic word load status. Indicates the latched value of the mw_load_en bit" "0,1" line.long 0x4 "CFG0_CANUART_WAKE_STAT1," bitfld.long 0x4 0. "CANUART_WAKE_STAT1_CANUART_IO_MODE,Indicates if CANUART IO wakeup mode is activated. Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVATED" "0,1" group.long 0x18310++0x3 line.long 0x0 "CFG0_CANUART_WAKE_OFF_MODE," hexmask.long 0x0 0.--31. 1. "CANUART_WAKE_OFF_MODE_MW,magic word" rgroup.long 0x18318++0x3 line.long 0x0 "CFG0_CANUART_WAKE_OFF_MODE_STAT," hexmask.long 0x0 0.--31. 1. "CANUART_WAKE_OFF_MODE_STAT_MW,returned magic word" group.long 0x18320++0x3 line.long 0x0 "CFG0_CANUART_WAKE_RESUME_KEY," hexmask.long 0x0 0.--31. 1. "KEYVAL,key value" rgroup.long 0x18340++0x3 line.long 0x0 "CFG0_CANUART_WAKE_RESUME_KEY_STAT," hexmask.long 0x0 0.--31. 1. "KEYVAL,returned key value" rgroup.long 0x18400++0x3 line.long 0x0 "CFG0_WFI_STATUS," bitfld.long 0x0 12. "WFI_STATUS_MPUSS0_CPU3_WFI,WFI status of MPUSS0 CPU3 (only valid when CPU is out of reset) Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - WFI_ACTIVE" "0,1" newline bitfld.long 0x0 11. "WFI_STATUS_MPUSS0_CPU2_WFI,WFI status of MPUSS0 CPU2 (only valid when CPU is out of reset) Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - WFI_ACTIVE" "0,1" newline bitfld.long 0x0 10. "WFI_STATUS_MPUSS0_CPU1_WFI,WFI status of MPUSS0 CPU1 (only valid when CPU is out of reset) Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - WFI_ACTIVE" "0,1" newline bitfld.long 0x0 9. "WFI_STATUS_MPUSS0_CPU0_WFI,WFI status of MPUSS0 CPU0 (only valid when CPU is out of reset) Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - WFI_ACTIVE" "0,1" newline bitfld.long 0x0 5. "WFI_STATUS_MAIN_R5F_0_WFI,WFI status of MAIN Cortex R5F (only valid when CPU is out of reset) Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - WFI_ACTIVE" "0,1" newline bitfld.long 0x0 4. "WFI_STATUS_MCU_R5F_WFI,WFI status of MCU Cortex R5F (only valid when CPU is out of reset) Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - WFI_ACTIVE" "0,1" newline bitfld.long 0x0 3. "WFI_STATUS_SMS_CPU1_WFI,WFI status of SMS Cortex M4F1 (only valid when CPU is out of reset) Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - WFI_ACTIVE" "0,1" newline bitfld.long 0x0 2. "WFI_STATUS_SMS_CPU0_WFI,WFI status of SMS Cortex M4F0 (only valid when CPU is out of reset) Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - WFI_ACTIVE" "0,1" newline bitfld.long 0x0 0. "WFI_STATUS_WKUP_R5F_WFI,WFI status of Device Manager Cortex R5F (only valid when CPU is out of reset) Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - WFI_ACTIVE" "0,1" group.long 0x18410++0x3 line.long 0x0 "CFG0_SLEEP_STATUS," bitfld.long 0x0 31. "SLEEP_STATUS_EXITED_SLEEP,Captures disable/gating of HFOSC. Allows DM to confirm after the WFI instruction to determine whether or not HFOSC clocks were actually gated (a pending event may cancel the sleep sequence early). Field values (others are.." "0,1" newline bitfld.long 0x0 28. "SLEEP_STATUS_MAIN_DS,Captures DS_MAIN por_pdoff assertion so that after deepsleep exit software can differentiate between a regular power on reset and a main power on reset due to deepsleep exit. Write 1 to Clear this bit. Field values (others are.." "0,1" newline rbitfld.long 0x0 8. "SLEEP_STATUS_MAIN_RESETSTATZ,Reflects the status of the main domain reset (active low) Field values (others are reserved): 1'b0 - ASSERTED 1'b1 - DEASSERTED" "0,1" group.long 0x18418++0x3 line.long 0x0 "CFG0_DS_MAGIC_WORD," hexmask.long 0x0 0.--31. 1. "DS_MAGIC_WORD_DS_MAGIC_WORD,Magic Word Indicating State of Deep Sleep" group.long 0x18420++0x3 line.long 0x0 "CFG0_DS_MAIN," hexmask.long.byte 0x0 0.--3. 1. "DS_MAIN_POR_PDOFF,Signal Puts main SMS DebugSS and MainIP Power Domains into Power Off state and asserts Main Power On Reset. Field values (others are reserved): 4'b0110 - Off 4'b1111 - On" group.long 0x18440++0x3 line.long 0x0 "CFG0_DS_DM_RESET," hexmask.long.byte 0x0 0.--3. 1. "DS_DM_RESET_MASK,Signal used to mask main domain resets from Device Manager / Wakeup and MCU Ips Field values (others are reserved): 4'b0110 - Masked 4'b1111 - UnMasked" group.long 0x18460++0x7 line.long 0x0 "CFG0_DS_USB0_RESET," hexmask.long.byte 0x0 0.--3. 1. "DS_USB0_RESET_MASK,Signal used to block reset to the USBSS0 Field values (others are reserved): 4'b0110 - Masked 4'b1111 - UnMasked" line.long 0x4 "CFG0_DS_USB1_RESET," hexmask.long.byte 0x4 0.--3. 1. "DS_USB1_RESET_MASK,Signal used to block reset to the USBSS1 Field values (others are reserved): 4'b0110 - Masked 4'b1111 - UnMasked" group.long 0x18480++0x3 line.long 0x0 "CFG0_DM_CLKSTOP_EN," bitfld.long 0x0 17. "DM_CLKSTOP_EN_EN_17,WKUP DMTIMER1 Participation in Clockstop Req Group Field values (others are reserved): 1'b0 - NOT_PARTICIPATING 1'b1 - PARTICIPATING" "0,1" newline bitfld.long 0x0 16. "DM_CLKSTOP_EN_EN_16,WKUP DMTIMER0 Participation in Clockstop Req Group Field values (others are reserved): 1'b0 - NOT_PARTICIPATING 1'b1 - PARTICIPATING" "0,1" newline bitfld.long 0x0 3. "DM_CLKSTOP_EN_EN_3,WKUP UART0 Participation in Clockstop Req Group Field values (others are reserved): 1'b0 - NOT_PARTICIPATING 1'b1 - PARTICIPATING" "0,1" newline bitfld.long 0x0 0. "DM_CLKSTOP_EN_EN_0,WKUP I2C0 Participation in Clockstop Req Group Field values (others are reserved): 1'b0 - NOT_PARTICIPATING 1'b1 - PARTICIPATING" "0,1" rgroup.long 0x18490++0x3 line.long 0x0 "CFG0_DM_CLKSTOP_ACK," bitfld.long 0x0 17. "DM_CLKSTOP_ACK_ACK_17,WKUP DMTIMER1 Clockstop Ack Status Field values (others are reserved): 1'b0 - NACK 1'b1 - ACK" "0,1" newline bitfld.long 0x0 16. "DM_CLKSTOP_ACK_ACK_16,WKUP DMTIMER0 Clockstop Ack Status Field values (others are reserved): 1'b0 - NACK 1'b1 - ACK" "0,1" newline bitfld.long 0x0 3. "DM_CLKSTOP_ACK_ACK_3,WKUP UART0 Clockstop Ack Status Field values (others are reserved): 1'b0 - NACK 1'b1 - ACK" "0,1" newline bitfld.long 0x0 0. "DM_CLKSTOP_ACK_ACK_0,WKUP I2C0 Clockstop Ack Status Field values (others are reserved): 1'b0 - NACK 1'b1 - ACK" "0,1" group.long 0x184A0++0x3 line.long 0x0 "CFG0_DM_GRP_CLKSTOP_REQ," bitfld.long 0x0 0. "DM_GRP_CLKSTOP_REQ_REQ,Controls Assertion of Clockstop Request to IPs participating in Clockstop Req Group Field values (others are reserved): 1'b0 - DEASSERT_REQ 1'b1 - ASSERT_REQ" "0,1" rgroup.long 0x184A4++0x3 line.long 0x0 "CFG0_DM_GRP_CLKSTOP_ACK," bitfld.long 0x0 0. "DM_GRP_CLKSTOP_ACK_ACK,Status of IPs Participating in Clockstop Ack Group. If DM_CLKSTOP_EN is 0 (no IPs participating) this bit always reads 1. If one or more participating peripherals is returning NACK this bit reads PENDING. Field values (others.." "0,1" rgroup.long 0x18500++0x3 line.long 0x0 "CFG0_DEVICE_TYPE," hexmask.long.byte 0x0 4.--7. 1. "DEVICE_TYPE_SMS_DEV_TYPE,Type of device reported by SMS. Values not listed should be interpreted as BAD. Field values (others are reserved): 4b0101 - DT_TEST 4b1001 - DT_EMU 4b1010 - DT_HS 4b0011 - DT_GP" group.long 0x19008++0x7 line.long 0x0 "CFG0_LOCK6_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK6_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK6_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK6_KICK1,- KICK1 component" rgroup.long 0x19100++0x2B line.long 0x0 "CFG0_CLAIMREG_P6_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P6_R0_READONLY,Claim bits for Partition 6" line.long 0x4 "CFG0_CLAIMREG_P6_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P6_R1_READONLY,Claim bits for Partition 6" line.long 0x8 "CFG0_CLAIMREG_P6_R2_READONLY," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P6_R2_READONLY,Claim bits for Partition 6" line.long 0xC "CFG0_CLAIMREG_P6_R3_READONLY," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P6_R3_READONLY,Claim bits for Partition 6" line.long 0x10 "CFG0_CLAIMREG_P6_R4_READONLY," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P6_R4_READONLY,Claim bits for Partition 6" line.long 0x14 "CFG0_CLAIMREG_P6_R5_READONLY," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P6_R5_READONLY,Claim bits for Partition 6" line.long 0x18 "CFG0_CLAIMREG_P6_R6_READONLY," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P6_R6_READONLY,Claim bits for Partition 6" line.long 0x1C "CFG0_CLAIMREG_P6_R7_READONLY," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P6_R7_READONLY,Claim bits for Partition 6" line.long 0x20 "CFG0_CLAIMREG_P6_R8_READONLY," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P6_R8_READONLY,Claim bits for Partition 6" line.long 0x24 "CFG0_CLAIMREG_P6_R9_READONLY," hexmask.long 0x24 0.--31. 1. "CLAIMREG_P6_R9_READONLY,Claim bits for Partition 6" line.long 0x28 "CFG0_CLAIMREG_P6_R10_READONLY," hexmask.long 0x28 0.--31. 1. "CLAIMREG_P6_R10_READONLY,Claim bits for Partition 6" group.long 0x1A040++0x1F line.long 0x0 "CFG0_FW_CTRL_OUT0_PROXY," hexmask.long 0x0 0.--31. 1. "FW_CTRL_OUT0_FW_CTRL_OUT0_PROXY,Unused" line.long 0x4 "CFG0_FW_CTRL_OUT0_SET_PROXY," line.long 0x8 "CFG0_FW_CTRL_OUT0_CLR_PROXY," line.long 0xC "CFG0_FW_STS_IN0_PROXY," line.long 0x10 "CFG0_FW_CTRL_OUT1_PROXY," line.long 0x14 "CFG0_FW_CTRL_OUT1_SET_PROXY," line.long 0x18 "CFG0_FW_CTRL_OUT1_CLR_PROXY," line.long 0x1C "CFG0_FW_STS_IN1_PROXY," group.long 0x1A080++0xB line.long 0x0 "CFG0_PMCTRL_SYS_PROXY," bitfld.long 0x0 5. "PMCTRL_SYS_PMIC_EN_WE_PROXY,Unused Field - Value is Don't Care" "0,1" newline bitfld.long 0x0 4. "PMCTRL_SYS_PMIC_EN_PROXY,Controls state of PMIC_LPM_EN_OUT when LPM_EN[2:0] is 000" "0,1" newline bitfld.long 0x0 3. "PMCTRL_SYS_LPM_EN_WE_PROXY,Unused Field - Value is Don't Care" "0,1" newline bitfld.long 0x0 0.--2. "PMCTRL_SYS_LPM_EN_PROXY,Controls whether PMIC_LPM_EN_OUT is driven by the pmic_en bit or by deep sleep logic. Field values (others are reserved): 3'b000 - PMIC_LPM_EN_OUT controlled by pmic_en bit. 3'b101 - PMIC_LPM_EN_OUT controlled by DeepSleep Logic" "0,1,2,3,4,5,6,7" line.long 0x4 "CFG0_PMCTRL_IO_0_PROXY," rbitfld.long 0x4 25. "PMCTRL_IO_0_IO_ISO_STATUS_0_PROXY,IO ISO Status. Read 0: IO isolation not active. Read 1: IO isolation active. Reflects value of DM input port io_isoack coming back from IO pad ring." "0: IO isolation not active,1: IO isolation active" newline bitfld.long 0x4 24. "PMCTRL_IO_0_IO_ISO_CTRL_0_PROXY,IO ISO control. Writing this bit to 1 will kick off IO isolation." "0,1" newline bitfld.long 0x4 16. "PMCTRL_IO_0_GLOBAL_WUEN_0_PROXY,Global IO wakeup activate. This is a gating condition to all individual IO WUEN coming from control module. Gating is done in the Spinner logic. 0:All individual IO WUEN are gated in the Spinner logic (override to 0). 1:.." "0: All individual IO WUEN are gated in the Spinner..,1: All individual IO WUEN from control module are.." newline rbitfld.long 0x4 9. "PMCTRL_IO_0_WUCLK_STATUS_0_PROXY,Reflects value of DM input port io_wuclkack coming back from IO pad ring." "0,1" newline bitfld.long 0x4 8. "PMCTRL_IO_0_WUCLK_CTRL_0_PROXY,Direct control on WUCLKIN signal to IO pad ring.0:WUCLKIN signal is driven to 0.IO wakeup daisy chain is functional as well as IO whose wakeup feature is activated. 1:WUCLKIN signal is driven to 1. IO wakeup daisy.." "0: WUCLKIN signal is driven to 0,1: WUCLKIN signal is driven to 1" newline bitfld.long 0x4 6. "PMCTRL_IO_0_ISOBYPASS_OVR_0_PROXY,This MMR bit drives directly DM output port io_isobypassundefined." "0,1" newline rbitfld.long 0x4 5. "PMCTRL_IO_0_IO_ON_STATUS_0_PROXY,Gives the functional status of the IO ring. Read 0: Part or all of the Ios are not in the ON state that is are in isolation state. Read 1: All Ios are in the ON state. io_on_status = assign 1 if (io_iso == 0 &.." "0: Part or all of the Ios are not in the ON state..,1: All Ios are in the ON state" newline bitfld.long 0x4 4. "PMCTRL_IO_0_ISOOVR_EXTEND_0_PROXY,This drives the SOC chain ISO-OVERRIDE global control. This bit drives directly the DM output port io_isoovrundefined. At the SOC level it is used to activate when 1 or gate-off when 0 the individual ISOOR for each IO." "0,1" newline rbitfld.long 0x4 1. "PMCTRL_IO_0_ISOCLK_STATUS_0_PROXY,Reflects value of DM input port io_isoclkack coming back from IO pad ring." "0,1" newline bitfld.long 0x4 0. "PMCTRL_IO_0_ISOCLK_OVRD_0_PROXY,Override control on ISOCLKIN signal to IO pad ring. When not overridden this signal is controlled by hardware only. 0 ISOCLKIN signal is not override. 1 ISOCLKIN signal is overridden to active value ('1')." "0,1" line.long 0x8 "CFG0_PMCTRL_IO_1_PROXY," rbitfld.long 0x8 25. "PMCTRL_IO_1_IO_ISO_STATUS_1_PROXY,IO ISO Status. Read 0: IO isolation not active. Read 1: IO isolation active. Reflects value of DM input port io_isoack coming back from IO pad ring." "0: IO isolation not active,1: IO isolation active" newline bitfld.long 0x8 24. "PMCTRL_IO_1_IO_ISO_CTRL_1_PROXY,IO ISO control. Writing this bit to 1 will kick off IO isolation." "0,1" newline bitfld.long 0x8 16. "PMCTRL_IO_1_GLOBAL_WUEN_1_PROXY,Global IO wakeup activate. This is a gating condition to all individual IO WUEN coming from control module. Gating is done in the Spinner logic. 0:All individual IO WUEN are gated in the Spinner logic (override to 0). 1:.." "0: All individual IO WUEN are gated in the Spinner..,1: All individual IO WUEN from control module are.." newline rbitfld.long 0x8 9. "PMCTRL_IO_1_WUCLK_STATUS_1_PROXY,Reflects value of DM input port io_wuclkack coming back from IO pad ring." "0,1" newline bitfld.long 0x8 8. "PMCTRL_IO_1_WUCLK_CTRL_1_PROXY,Direct control on WUCLKIN signal to IO pad ring.0:WUCLKIN signal is driven to 0.IO wakeup daisy chain is functional as well as IO whose wakeup feature is activated. 1:WUCLKIN signal is driven to 1. IO wakeup daisy.." "0: WUCLKIN signal is driven to 0,1: WUCLKIN signal is driven to 1" newline bitfld.long 0x8 6. "PMCTRL_IO_1_ISOBYPASS_OVR_1_PROXY,This MMR bit drives directly DM output port io_isobypassundefined." "0,1" newline rbitfld.long 0x8 5. "PMCTRL_IO_1_IO_ON_STATUS_1_PROXY,Gives the functional status of the IO ring. Read 0: Part or all of the Ios are not in the ON state that is are in isolation state. Read 1: All Ios are in the ON state. io_on_status = assign 1 if (io_iso == 0 &.." "0: Part or all of the Ios are not in the ON state..,1: All Ios are in the ON state" newline bitfld.long 0x8 4. "PMCTRL_IO_1_ISOOVR_EXTEND_1_PROXY,This drives the SOC chain ISO-OVERRIDE global control. This bit drives directly the DM output port io_isoovrundefined. At the SOC level it is used to activate when 1 or gate-off when 0 the individual ISOOR for each IO." "0,1" newline rbitfld.long 0x8 1. "PMCTRL_IO_1_ISOCLK_STATUS_1_PROXY,Reflects value of DM input port io_isoclkack coming back from IO pad ring." "0,1" newline bitfld.long 0x8 0. "PMCTRL_IO_1_ISOCLK_OVRD_1_PROXY,Override control on ISOCLKIN signal to IO pad ring. When not overridden this signal is controlled by hardware only. 0 ISOCLKIN signal is not override. 1 ISOCLKIN signal is overridden to active value ('1')." "0,1" group.long 0x1A090++0x3 line.long 0x0 "CFG0_PMCTRL_MOSC_PROXY," bitfld.long 0x0 31. "PMCTRL_MOSC_OSC_CG_ON_WFI_PROXY,To clock gate the main HFOSC DM sets this bit then enters the WFI state at which time the HFOSC will be gated. Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVE" "0,1" newline hexmask.long.tbyte 0x0 0.--19. 1. "PMCTRL_MOSC_SETUP_TIME_PROXY,Number of HFOSC clock cycles before HFOSC clock is ungated to the SOC (allows the HFOSC time to stabilize after starting up before the SOC is clocked)." rgroup.long 0x1A098++0x3 line.long 0x0 "CFG0_PM_MISC_STATUS_PROXY," bitfld.long 0x0 0.--1. "PM_MISC_STATUS_OSC_CG_STAT_PROXY,HFOSC Clock Gating State Field values (others are reserved): 2'b00 - HFOSC_OFF 2'b01 - HFOSC_OFF2ON (transition state) 2'b10 - HFOSC_ON2OFF (transition state) 2'b11 - HFOSC_ON" "0,1,2,3" group.long 0x1A09C++0x3 line.long 0x0 "CFG0_PMCTRL_IO_GLB_PROXY," bitfld.long 0x0 0.--1. "PMCTRL_IO_GLB_DSEN_QUALIFIED_PROXY,Bit 0 puts WKUP Domain IOs in Deepsleep. Bit 1 Puts Main Domain IOs in Deepsleep. Field values (others are reserved): 2'b00 - IO_ACTIVE_ALL 2'b01 - IO_DEEPSLEEP_WKUP 2'b10 - IO_DEEPSLEEP_MAIN 2'b11 -.." "0,1,2,3" rgroup.long 0x1A0A0++0x3 line.long 0x0 "CFG0_PM_PERMISSION_PROXY," bitfld.long 0x0 2. "PM_PERMISSION_MCU_SAFETY_ACTIVE_PROXY,Read Only - Reads return a 1 when MCU RST_MAGIC_WORD is non-zero. When 1 indicates that the MCU is blocking reset and also deep sleep entry. Field values (others are reserved): 1'b0 - DS_ALLOW 1'b1 - DS_BLOCK" "0,1" newline bitfld.long 0x0 1. "PM_PERMISSION_SECURITY_ACTIVE_PROXY,Read Only - Reads return the value of SMS security active. When 1 indicates that SMS is blocking deep sleep entry. Field values (others are reserved): 1'b0 - DS_ALLOW 1'b1 - DS_BLOCK" "0,1" newline bitfld.long 0x0 0. "PM_PERMISSION_DEBUG_ACTIVE_PROXY,Read Only - Returns a 1 when Debug is blocking deep sleep entry. Field values (others are reserved): 1'b0 - DS_ALLOW 1'b1 - DS_BLOCK" "0,1" group.long 0x1A160++0x3 line.long 0x0 "CFG0_DEEPSLEEP_CTRL_PROXY," bitfld.long 0x0 8. "DEEPSLEEP_CTRL_FORCE_DS_MAIN_PROXY,Force all MAIN IOs into deepsleep mode when set Field values (others are reserved): 1'b0 - IO_ACTIVE 1'b1 - IO_DEEPSLEEP" "0,1" newline bitfld.long 0x0 0. "DEEPSLEEP_CTRL_FORCE_DS_WKUP_PROXY,Force all WKUP IOs into deepsleep mode when set Field values (others are reserved): 1'b0 - IO_ACTIVE 1'b1 - IO_DEEPSLEEP" "0,1" group.long 0x1A170++0x3 line.long 0x0 "CFG0_RST_CTRL_PROXY," bitfld.long 0x0 18. "RST_CTRL_MAIN_RESET_ISO_DONE_Z_PROXY,Blocks Main Domain Warm Reset. Field values (others are reserved): 1'b0 - PROPOGATE 1'b1 - BLOCK" "0,1" newline bitfld.long 0x0 17. "RST_CTRL_MAIN_ESM_ERROR_RST_EN_Z_PROXY,Block Reset of Main by ESM Field values (others are reserved): 1'b0 - PROPOGATE 1'b1 - BLOCK" "0,1" newline bitfld.long 0x0 16. "RST_CTRL_SMS_COLD_RESET_EN_Z_PROXY,Block Reset of Main by SMS Field values (others are reserved): 1'b0 - PROPOGATE 1'b1 - BLOCK" "0,1" newline hexmask.long.byte 0x0 4.--7. 1. "RST_CTRL_SW_MAIN_POR_PROXY,Causes MAIN Domain Power On Reset. This is a fault tolerant bitfield. Automatically resets to 4'b1111 after write. Field values (others are reserved): 4'b0110 - FORCE_RESET 4'b1111 - INACTIVE" newline hexmask.long.byte 0x0 0.--3. 1. "RST_CTRL_SW_MAIN_WARMRST_PROXY,Causes MAIN Domain Warm Reset. This is a fault tolerant bitfield. Automatically resets to 4'b1111 after write. Field values (others are reserved): 4'b0110 - FORCE_RESET 4'b1111 - INACTIVE" rgroup.long 0x1A174++0xB line.long 0x0 "CFG0_RST_STAT_PROXY," bitfld.long 0x0 0. "RST_STAT_MCU_RESET_ISO_DONE_Z_PROXY,Indicates MCU Domain is in Reset Isolation When Active (Low) Field values (others are reserved): 1'b0 - ISOLATION 1'b1 - PASS_THROUGH" "0,1" line.long 0x4 "CFG0_RST_SRC_PROXY," bitfld.long 0x4 31. "RST_SRC_SAFETY_ERROR_PROXY,Reset Caused by MCU ESM Error. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 30. "RST_SRC_MAIN_ESM_ERROR_PROXY,Reset Caused by Main ESM Error. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 25. "RST_SRC_SW_MAIN_POR_FROM_MAIN_PROXY,Software Main Power On Reset From CTRL_MMR0. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 24. "RST_SRC_SW_MAIN_POR_FROM_MCU_PROXY,Software Main Power On Reset From MCU_CTRL_MMR0. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 22. "RST_SRC_DM_WDT_RST_PROXY,Watchdog Initiated Reset. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 21. "RST_SRC_SW_MAIN_WARMRST_FROM_MAIN_PROXY,Software Main Warm Reset From CTRL_MMR0. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 20. "RST_SRC_SW_MAIN_WARMRST_FROM_MCU_PROXY,Software Main Warm Reset From MCU_CTRL_MMR0. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 16. "RST_SRC_SW_MCU_WARMRST_PROXY,Software Warm Reset. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 13. "RST_SRC_WARM_OUT_RST_PROXY,SMS Warm Reset. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 12. "RST_SRC_COLD_OUT_RST_PROXY,SMS Cold Reset. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 8. "RST_SRC_DEBUG_RST_PROXY,Debug Subsystem Initiated Reset. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 4. "RST_SRC_THERMAL_RST_PROXY,Thermal Reset. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 2. "RST_SRC_MAIN_RESET_REQ_PROXY,Main Reset Pin. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" newline bitfld.long 0x4 0. "RST_SRC_MCU_RESET_PIN_PROXY,Rest Caused by MCU Reset Pin. Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - DETECTED" "0,1" line.long 0x8 "CFG0_RST_MAGIC_WORD_PROXY," hexmask.long 0x8 0.--31. 1. "RST_MAGIC_WORD_MCU_MAGIC_WORD_PROXY,Magic Word Indicating Status of MCU Subsystem Boot" group.long 0x1A180++0x3 line.long 0x0 "CFG0_WKUP0_EN_PROXY," hexmask.long 0x0 0.--31. 1. "WKUP0_EN_WKUPEN_PROXY,Activates Wakeup from on-chip sources. In addition to values listed any OR combination of the values is also valid. Field values (others are reserved): 32'h00000001 - WKUP_I2C0 32'h00000002 - WKUP_USART0 32'h00000004 - MCU_GPIO0.." group.long 0x1A280++0x7 line.long 0x0 "CFG0_CLKGATE_CTRL0_PROXY," bitfld.long 0x0 31. "CLKGATE_CTRL0_MAIN_SMS_NOGATE_PROXY,MAIN domain SMS auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 29. "CLKGATE_CTRL0_MAIN_SA3SS_NOGATE_PROXY,MAIN domain SA3SS auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 28. "CLKGATE_CTRL0_MAIN_DBG_CBA_NOGATE_PROXY,MAIN domain Debug CBASS auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 26. "CLKGATE_CTRL0_MAIN_R5F_0_NOGATE_PROXY,MAIN domain R5FSS auto clock gate on idle deactivate Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 25. "CLKGATE_CTRL0_MCU_FW_CBASS_NOGATE_PROXY,MCU domain FW CBASS auto clock gate on idle deactivate Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 24. "CLKGATE_CTRL0_MAIN_RT_FW_NOGATE_PROXY,MAIN domain RT FW CBASS auto clock gate on idle deactivate Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 23. "CLKGATE_CTRL0_MAIN_RT_DATA_NOGATE_PROXY,MAIN domain RT DATA CBASS auto clock gate on idle deactivate Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 22. "CLKGATE_CTRL0_MAIN_RT_CFG_NOGATE_PROXY,MAIN domain RT CFG CBASS auto clock gate on idle deactivate Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 20. "CLKGATE_CTRL0_MAIN_PDMA3_NOGATE_PROXY,MAIN domain PDMA3 auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 19. "CLKGATE_CTRL0_MAIN_PDMA2_NOGATE_PROXY,MAIN domain PDMA2 auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 18. "CLKGATE_CTRL0_MAIN_PDMA1_NOGATE_PROXY,MAIN domain PDMA1 auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 17. "CLKGATE_CTRL0_MAIN_PDMA0_NOGATE_PROXY,MAIN domain PDMA0 auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 16. "CLKGATE_CTRL0_MAIN_DMSS_NOGATE_PROXY,MAIN domain DMSS auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 15. "CLKGATE_CTRL0_MAIN_GIC500_NOGATE_PROXY,MAIN MPUSS0 GIC500 auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 14. "CLKGATE_CTRL0_MAIN_AUDIO_CBA_NOGATE_PROXY,MAIN domain Infrastructure bus (AUDIO) auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 13. "CLKGATE_CTRL0_MAIN_IPCSS_CBA_NOGATE_PROXY,MAIN domain Infrastructure CBASS auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 12. "CLKGATE_CTRL0_MAIN_MCASP_CBA_NOGATE_PROXY,MAIN domain Infrastructure bus (McASP) auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 11. "CLKGATE_CTRL0_MAIN_MISC_PERI_CBA_NOGATE_PROXY,MAIN domain Infrastructure bus (Misc Peripehal) auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 10. "CLKGATE_CTRL0_MAIN_MPU_0_DBG_NOGATE_PROXY,MAIN MPUSS0 Debug Port auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 9. "CLKGATE_CTRL0_MAIN_MPU_0_CFG_NOGATE_PROXY,MAIN MPUSS0 Configuration Port auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 8. "CLKGATE_CTRL0_MAIN_MPU_0_ACP_NOGATE_PROXY,MAIN MPUSS0 ACP auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 7. "CLKGATE_CTRL0_MAIN_MPU_0_NOGATE_PROXY,MAIN MPUSS0 auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 5. "CLKGATE_CTRL0_MAIN_FW_CBA_NOGATE_PROXY,MAIN domain data bus auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 4. "CLKGATE_CTRL0_MAIN_DATA_CBA_NOGATE_PROXY,MAIN domain data bus auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 3. "CLKGATE_CTRL0_MAIN_CENTRAL_CBA_NOGATE_PROXY,WKUP domain Infrastructure ECC aggregator auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 2. "CLKGATE_CTRL0_WKUP_DM_PWR_NOGATE_PROXY,WKUP domain Device Manager auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 1. "CLKGATE_CTRL0_WKUP_DM_CBA_NOGATE_PROXY,WKUP domain device manager CBA auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x0 0. "CLKGATE_CTRL0_MAIN_INFRA_CBA_NOGATE_PROXY,MAIN domain Infrastructure bus auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" line.long 0x4 "CFG0_CLKGATE_CTRL1_PROXY," bitfld.long 0x4 24. "CLKGATE_CTRL1_RAM0_NOGATE_PROXY,MAIN SRAM auto clockgate on idle deactivate Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x4 19. "CLKGATE_CTRL1_CSITX0_NOGATE_PROXY,VPAC0 auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x4 15. "CLKGATE_CTRL1_VPAC0_NOGATE_PROXY,VPAC0 auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x4 12. "CLKGATE_CTRL1_C7X_1_NOGATE_PROXY,C7x_1 auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x4 11. "CLKGATE_CTRL1_C7X_NOGATE_PROXY,C7x auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x4 7. "CLKGATE_CTRL1_JPEG_ENC_NOGATE_PROXY,JPEG Encoder auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x4 3. "CLKGATE_CTRL1_VIDEO_CODEC_NOGATE_PROXY,VIDEO CODEC auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" newline bitfld.long 0x4 0. "CLKGATE_CTRL1_DMSS_CSI_NOGATE_PROXY,DMSS_CSI auto clock gate on idle deactivate. Field values (others are reserved): 1'b0 - ACTIVE 1'b1 - INACTIVE" "0,1" group.long 0x1A300++0x3 line.long 0x0 "CFG0_CANUART_WAKE_CTRL_PROXY," hexmask.long 0x0 1.--31. 1. "CANUART_WAKE_CTRL_MW_PROXY,CANUART IO magic word. The lower 23 bits determine if the device enters CANUART IO isolation when mw_load_en is set. If the lower 23 bits match the ACTIVATE value (0x5AAAAA) then CANUART IO Isolation is entered any other.." newline bitfld.long 0x0 0. "CANUART_WAKE_CTRL_MW_LOAD_EN_PROXY,Magic word load activate Setting this bit loads and locks the mw field for CANUART IO isolation. If the mw field matches ACTIVATE CANUART IO Isolation is initiated. Field values (others are reserved): 1'b0 - UNLOCK.." "0,1" rgroup.long 0x1A308++0x7 line.long 0x0 "CFG0_CANUART_WAKE_STAT0_PROXY," hexmask.long 0x0 1.--31. 1. "CANUART_WAKE_STAT0_MW_STAT_PROXY,CANUART magic word status Indicates the latched value of the mw field." newline bitfld.long 0x0 0. "CANUART_WAKE_STAT0_MW_LOAD_STAT_PROXY,Magic word load status. Indicates the latched value of the mw_load_en bit" "0,1" line.long 0x4 "CFG0_CANUART_WAKE_STAT1_PROXY," bitfld.long 0x4 0. "CANUART_WAKE_STAT1_CANUART_IO_MODE_PROXY,Indicates if CANUART IO wakeup mode is activated. Field values (others are reserved): 1'b0 - INACTIVE 1'b1 - ACTIVATED" "0,1" group.long 0x1A310++0x3 line.long 0x0 "CFG0_CANUART_WAKE_OFF_MODE_PROXY," hexmask.long 0x0 0.--31. 1. "CANUART_WAKE_OFF_MODE_MW_PROXY,magic word" rgroup.long 0x1A318++0x3 line.long 0x0 "CFG0_CANUART_WAKE_OFF_MODE_STAT_PROXY," hexmask.long 0x0 0.--31. 1. "CANUART_WAKE_OFF_MODE_STAT_MW_PROXY,returned magic word" group.long 0x1A320++0x3 line.long 0x0 "CFG0_CANUART_WAKE_RESUME_KEY_PROXY," hexmask.long 0x0 0.--31. 1. "KEYVAL_PROXY,key value" rgroup.long 0x1A340++0x3 line.long 0x0 "CFG0_CANUART_WAKE_RESUME_KEY_STAT_PROXY," hexmask.long 0x0 0.--31. 1. "KEYVAL_PROXY,returned key value" rgroup.long 0x1A400++0x3 line.long 0x0 "CFG0_WFI_STATUS_PROXY," bitfld.long 0x0 12. "WFI_STATUS_MPUSS0_CPU3_WFI_PROXY,WFI status of MPUSS0 CPU3 (only valid when CPU is out of reset) Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - WFI_ACTIVE" "0,1" newline bitfld.long 0x0 11. "WFI_STATUS_MPUSS0_CPU2_WFI_PROXY,WFI status of MPUSS0 CPU2 (only valid when CPU is out of reset) Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - WFI_ACTIVE" "0,1" newline bitfld.long 0x0 10. "WFI_STATUS_MPUSS0_CPU1_WFI_PROXY,WFI status of MPUSS0 CPU1 (only valid when CPU is out of reset) Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - WFI_ACTIVE" "0,1" newline bitfld.long 0x0 9. "WFI_STATUS_MPUSS0_CPU0_WFI_PROXY,WFI status of MPUSS0 CPU0 (only valid when CPU is out of reset) Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - WFI_ACTIVE" "0,1" newline bitfld.long 0x0 5. "WFI_STATUS_MAIN_R5F_0_WFI_PROXY,WFI status of MAIN Cortex R5F (only valid when CPU is out of reset) Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - WFI_ACTIVE" "0,1" newline bitfld.long 0x0 4. "WFI_STATUS_MCU_R5F_WFI_PROXY,WFI status of MCU Cortex R5F (only valid when CPU is out of reset) Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - WFI_ACTIVE" "0,1" newline bitfld.long 0x0 3. "WFI_STATUS_SMS_CPU1_WFI_PROXY,WFI status of SMS Cortex M4F1 (only valid when CPU is out of reset) Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - WFI_ACTIVE" "0,1" newline bitfld.long 0x0 2. "WFI_STATUS_SMS_CPU0_WFI_PROXY,WFI status of SMS Cortex M4F0 (only valid when CPU is out of reset) Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - WFI_ACTIVE" "0,1" newline bitfld.long 0x0 0. "WFI_STATUS_WKUP_R5F_WFI_PROXY,WFI status of Device Manager Cortex R5F (only valid when CPU is out of reset) Field values (others are reserved): 1'b0 - UNKNOWN 1'b1 - WFI_ACTIVE" "0,1" group.long 0x1A410++0x3 line.long 0x0 "CFG0_SLEEP_STATUS_PROXY," bitfld.long 0x0 31. "SLEEP_STATUS_EXITED_SLEEP_PROXY,Captures disable/gating of HFOSC. Allows DM to confirm after the WFI instruction to determine whether or not HFOSC clocks were actually gated (a pending event may cancel the sleep sequence early). Field values (others.." "0,1" newline bitfld.long 0x0 28. "SLEEP_STATUS_MAIN_DS_PROXY,Captures DS_MAIN por_pdoff assertion so that after deepsleep exit software can differentiate between a regular power on reset and a main power on reset due to deepsleep exit. Write 1 to Clear this bit. Field values (others.." "0,1" newline rbitfld.long 0x0 8. "SLEEP_STATUS_MAIN_RESETSTATZ_PROXY,Reflects the status of the main domain reset (active low) Field values (others are reserved): 1'b0 - ASSERTED 1'b1 - DEASSERTED" "0,1" group.long 0x1A418++0x3 line.long 0x0 "CFG0_DS_MAGIC_WORD_PROXY," hexmask.long 0x0 0.--31. 1. "DS_MAGIC_WORD_DS_MAGIC_WORD_PROXY,Magic Word Indicating State of Deep Sleep" group.long 0x1A420++0x3 line.long 0x0 "CFG0_DS_MAIN_PROXY," hexmask.long.byte 0x0 0.--3. 1. "DS_MAIN_POR_PDOFF_PROXY,Signal Puts main SMS DebugSS and MainIP Power Domains into Power Off state and asserts Main Power On Reset. Field values (others are reserved): 4'b0110 - Off 4'b1111 - On" group.long 0x1A440++0x3 line.long 0x0 "CFG0_DS_DM_RESET_PROXY," hexmask.long.byte 0x0 0.--3. 1. "DS_DM_RESET_MASK_PROXY,Signal used to mask main domain resets from Device Manager / Wakeup and MCU Ips Field values (others are reserved): 4'b0110 - Masked 4'b1111 - UnMasked" group.long 0x1A460++0x7 line.long 0x0 "CFG0_DS_USB0_RESET_PROXY," hexmask.long.byte 0x0 0.--3. 1. "DS_USB0_RESET_MASK_PROXY,Signal used to block reset to the USBSS0 Field values (others are reserved): 4'b0110 - Masked 4'b1111 - UnMasked" line.long 0x4 "CFG0_DS_USB1_RESET_PROXY," hexmask.long.byte 0x4 0.--3. 1. "DS_USB1_RESET_MASK_PROXY,Signal used to block reset to the USBSS1 Field values (others are reserved): 4'b0110 - Masked 4'b1111 - UnMasked" group.long 0x1A480++0x3 line.long 0x0 "CFG0_DM_CLKSTOP_EN_PROXY," bitfld.long 0x0 17. "DM_CLKSTOP_EN_EN_17_PROXY,WKUP DMTIMER1 Participation in Clockstop Req Group Field values (others are reserved): 1'b0 - NOT_PARTICIPATING 1'b1 - PARTICIPATING" "0,1" newline bitfld.long 0x0 16. "DM_CLKSTOP_EN_EN_16_PROXY,WKUP DMTIMER0 Participation in Clockstop Req Group Field values (others are reserved): 1'b0 - NOT_PARTICIPATING 1'b1 - PARTICIPATING" "0,1" newline bitfld.long 0x0 3. "DM_CLKSTOP_EN_EN_3_PROXY,WKUP UART0 Participation in Clockstop Req Group Field values (others are reserved): 1'b0 - NOT_PARTICIPATING 1'b1 - PARTICIPATING" "0,1" newline bitfld.long 0x0 0. "DM_CLKSTOP_EN_EN_0_PROXY,WKUP I2C0 Participation in Clockstop Req Group Field values (others are reserved): 1'b0 - NOT_PARTICIPATING 1'b1 - PARTICIPATING" "0,1" rgroup.long 0x1A490++0x3 line.long 0x0 "CFG0_DM_CLKSTOP_ACK_PROXY," bitfld.long 0x0 17. "DM_CLKSTOP_ACK_ACK_17_PROXY,WKUP DMTIMER1 Clockstop Ack Status Field values (others are reserved): 1'b0 - NACK 1'b1 - ACK" "0,1" newline bitfld.long 0x0 16. "DM_CLKSTOP_ACK_ACK_16_PROXY,WKUP DMTIMER0 Clockstop Ack Status Field values (others are reserved): 1'b0 - NACK 1'b1 - ACK" "0,1" newline bitfld.long 0x0 3. "DM_CLKSTOP_ACK_ACK_3_PROXY,WKUP UART0 Clockstop Ack Status Field values (others are reserved): 1'b0 - NACK 1'b1 - ACK" "0,1" newline bitfld.long 0x0 0. "DM_CLKSTOP_ACK_ACK_0_PROXY,WKUP I2C0 Clockstop Ack Status Field values (others are reserved): 1'b0 - NACK 1'b1 - ACK" "0,1" group.long 0x1A4A0++0x3 line.long 0x0 "CFG0_DM_GRP_CLKSTOP_REQ_PROXY," bitfld.long 0x0 0. "DM_GRP_CLKSTOP_REQ_REQ_PROXY,Controls Assertion of Clockstop Request to IPs participating in Clockstop Req Group Field values (others are reserved): 1'b0 - DEASSERT_REQ 1'b1 - ASSERT_REQ" "0,1" rgroup.long 0x1A4A4++0x3 line.long 0x0 "CFG0_DM_GRP_CLKSTOP_ACK_PROXY," bitfld.long 0x0 0. "DM_GRP_CLKSTOP_ACK_ACK_PROXY,Status of IPs Participating in Clockstop Ack Group. If DM_CLKSTOP_EN is 0 (no IPs participating) this bit always reads 1. If one or more participating peripherals is returning NACK this bit reads PENDING. Field values.." "0,1" rgroup.long 0x1A500++0x3 line.long 0x0 "CFG0_DEVICE_TYPE_PROXY," hexmask.long.byte 0x0 4.--7. 1. "DEVICE_TYPE_SMS_DEV_TYPE_PROXY,Type of device reported by SMS. Values not listed should be interpreted as BAD. Field values (others are reserved): 4b0101 - DT_TEST 4b1001 - DT_EMU 4b1010 - DT_HS 4b0011 - DT_GP" group.long 0x1B008++0x7 line.long 0x0 "CFG0_LOCK6_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK6_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK6_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK6_KICK1_PROXY,- KICK1 component" group.long 0x1B100++0x2B line.long 0x0 "CFG0_CLAIMREG_P6_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P6_R0,Claim bits for Partition 6" line.long 0x4 "CFG0_CLAIMREG_P6_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P6_R1,Claim bits for Partition 6" line.long 0x8 "CFG0_CLAIMREG_P6_R2," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P6_R2,Claim bits for Partition 6" line.long 0xC "CFG0_CLAIMREG_P6_R3," hexmask.long 0xC 0.--31. 1. "CLAIMREG_P6_R3,Claim bits for Partition 6" line.long 0x10 "CFG0_CLAIMREG_P6_R4," hexmask.long 0x10 0.--31. 1. "CLAIMREG_P6_R4,Claim bits for Partition 6" line.long 0x14 "CFG0_CLAIMREG_P6_R5," hexmask.long 0x14 0.--31. 1. "CLAIMREG_P6_R5,Claim bits for Partition 6" line.long 0x18 "CFG0_CLAIMREG_P6_R6," hexmask.long 0x18 0.--31. 1. "CLAIMREG_P6_R6,Claim bits for Partition 6" line.long 0x1C "CFG0_CLAIMREG_P6_R7," hexmask.long 0x1C 0.--31. 1. "CLAIMREG_P6_R7,Claim bits for Partition 6" line.long 0x20 "CFG0_CLAIMREG_P6_R8," hexmask.long 0x20 0.--31. 1. "CLAIMREG_P6_R8,Claim bits for Partition 6" line.long 0x24 "CFG0_CLAIMREG_P6_R9," hexmask.long 0x24 0.--31. 1. "CLAIMREG_P6_R9,Claim bits for Partition 6" line.long 0x28 "CFG0_CLAIMREG_P6_R10," hexmask.long 0x28 0.--31. 1. "CLAIMREG_P6_R10,Claim bits for Partition 6" group.long 0x1C100++0x3 line.long 0x0 "CFG0_BACKUP_REG," hexmask.long 0x0 0.--31. 1. "BACKUP_DATA,Storage for Backup Data During Deep Sleep" group.long 0x1D008++0x7 line.long 0x0 "CFG0_LOCK7_KICK0," hexmask.long 0x0 0.--31. 1. "LOCK7_KICK0,- KICK0 component" line.long 0x4 "CFG0_LOCK7_KICK1," hexmask.long 0x4 0.--31. 1. "LOCK7_KICK1,- KICK1 component" rgroup.long 0x1D100++0xB line.long 0x0 "CFG0_CLAIMREG_P7_R0_READONLY," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P7_R0_READONLY,Claim bits for Partition 7" line.long 0x4 "CFG0_CLAIMREG_P7_R1_READONLY," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P7_R1_READONLY,Claim bits for Partition 7" line.long 0x8 "CFG0_CLAIMREG_P7_R2_READONLY," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P7_R2_READONLY,Claim bits for Partition 7" group.long 0x1E100++0x3 line.long 0x0 "CFG0_BACKUP_REG_PROXY," hexmask.long 0x0 0.--31. 1. "BACKUP_DATA_PROXY,Storage for Backup Data During Deep Sleep" group.long 0x1F008++0x7 line.long 0x0 "CFG0_LOCK7_KICK0_PROXY," hexmask.long 0x0 0.--31. 1. "LOCK7_KICK0_PROXY,- KICK0 component" line.long 0x4 "CFG0_LOCK7_KICK1_PROXY," hexmask.long 0x4 0.--31. 1. "LOCK7_KICK1_PROXY,- KICK1 component" group.long 0x1F100++0xB line.long 0x0 "CFG0_CLAIMREG_P7_R0," hexmask.long 0x0 0.--31. 1. "CLAIMREG_P7_R0,Claim bits for Partition 7" line.long 0x4 "CFG0_CLAIMREG_P7_R1," hexmask.long 0x4 0.--31. 1. "CLAIMREG_P7_R1,Claim bits for Partition 7" line.long 0x8 "CFG0_CLAIMREG_P7_R2," hexmask.long 0x8 0.--31. 1. "CLAIMREG_P7_R2,Claim bits for Partition 7" tree.end endif sif (cpuis("AM62PX-CR5-DM")) tree "WKUP_CBASS_SAFE1_ERR (WKUP_CBASS_SAFE1_ERR)" base ad:0x4600000 rgroup.long 0x0++0x3 line.long 0x0 "ERR_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "ERR_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." rgroup.long 0x24++0x17 line.long 0x0 "ERR_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type. 7 = CBASS." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID. Always 0." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "ERR_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group. Always 0." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code. 0 = CBASS decode error." line.long 0x8 "ERR_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "ERR_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "ERR_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" newline bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "ERR_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x50++0x13 line.long 0x0 "ERR_REGS_err_intr_raw_stat,The interrupt raw status register indicates if there is null interrupt regardless of interrupt enable" bitfld.long 0x0 0. "INTR,Level Interrupt status" "0,1" line.long 0x4 "ERR_REGS_err_intr_enabled_stat,The interrupt status register is gated by the interrupt enable" bitfld.long 0x4 0. "ENABLED_INTR,Level Enabled Interrupt status" "0,1" line.long 0x8 "ERR_REGS_err_intr_enable_set,Only when this register is set. null access will cause interrupt to be generated." bitfld.long 0x8 0. "INTR_ENABLE_SET,Interrupt Enable Set Register" "0,1" line.long 0xC "ERR_REGS_err_intr_enable_clr,Setting this register disables the null interrupt generation" bitfld.long 0xC 0. "INTR_ENABLE_CLR,Interrupt Enable Clear Register" "0,1" line.long 0x10 "ERR_REGS_err_eoi,Writing to EOI Register indicates that current interrupt has been serviced which then allows next interrupt to be generated" hexmask.long.word 0x10 0.--15. 1. "EOI_WR,End Of Interrupt Register" tree.end endif sif (cpuis("AM62PX-CR5-DM")) tree "WKUP_rtcss0_RTC (WKUP_rtcss0_RTC)" base ad:0x2B1F0000 rgroup.long 0x0++0x3 line.long 0x0 "RTC_REGS_MOD_VER,The Module and Version Register identifies the module identifier and revision of the RTC module." hexmask.long.word 0x0 16.--31. 1. "MODULE_ID,RTC module ID." newline hexmask.long.byte 0x0 11.--15. 1. "RTL_VERSION,RTL Version." newline bitfld.long 0x0 8.--10. "MAJOR_REVISION,Major Revision." "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM_REVISION,Custom Revision." "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "MINOR_REVISION,Minor Revision." group.long 0x4++0xF line.long 0x0 "RTC_REGS_SUB_S_CNT,This register counts the 32768 Hz clock events" hexmask.long.word 0x0 0.--14. 1. "SUB_S_CNT,This counts the 32768 Hz clock events to achive 1 sec event for the sec counter rollvers after 0x7fff or 1 Sec running on 32768Hz" line.long 0x4 "RTC_REGS_S_CNT_LSW,The lower word of the seconds counter" hexmask.long 0x4 0.--31. 1. "S_CNT_LSW,This counts the 1 sec events it is the lower 32 bits of the 48 bit counter 1 = 1 Seconds 2 = 2 Seconds N = N Seconds" line.long 0x8 "RTC_REGS_S_CNT_MSW,The upper word of the seconds counter" hexmask.long.word 0x8 0.--15. 1. "S_CNT_MSW,This counts the 1 sec events it is the upper 16 bits of the 48 bit counter" line.long 0xC "RTC_REGS_COMP,This register used to program the value of the 32768 periods to be added to the 32768 counter every 4096 Secs. This is used to compensate the oscillator drift." hexmask.long.byte 0xC 8.--15. 1. "MSB_COMP,Indicates number of 32-kHz periods to be added into the 32-kHz counter every 4096 Secs twos complement That means that to add one 32-kHz oscillator period every hour the SW must write FFFF into COMP_MSB and COMP_LSB. To remove one 32-kHz.." newline hexmask.long.byte 0xC 0.--7. 1. "LSB_COMP,Indicates number of 32-kHz periods to be added into the 32-kHz counter every 4096 Secs twos complement That means that to add one 32-kHz oscillator period every hour the SW must write FFFF into COMP_MSB and COMP_LSB. To remove one 32-kHz.." group.long 0x18++0x1B line.long 0x0 "RTC_REGS_OFF_ON_S_CNT_LSW,This register defines the OFF to ON time event" hexmask.long 0x0 0.--31. 1. "OFF_ON_S_CNT_LSW,The lower word of the OFF to ON time" line.long 0x4 "RTC_REGS_OFF_ON_S_CNT_MSW,This register defines the OFF to ON time event" hexmask.long.word 0x4 0.--15. 1. "OFF_ON_S_CNT_MSW,The" line.long 0x8 "RTC_REGS_ON_OFF_S_CNT_LSW,This register defines the ON to OFF time event" hexmask.long 0x8 0.--31. 1. "ON_OFF_S_CNT_LSW,The" line.long 0xC "RTC_REGS_ON_OFF_S_CNT_MSW,This register defines the ON to OFF time event" hexmask.long.word 0xC 0.--15. 1. "ON_OFF_S_CNT_MSW,The" line.long 0x10 "RTC_REGS_DEBOUNCE,The Debounce register defines the debounce timer useing the 32768 Hz clock. It allows choosing the timing or the accuracy of" hexmask.long.byte 0x10 0.--7. 1. "DEBOUNCE,Debounce time 0 debounce time is 30.52 uS N debounce time is 30.52us*(N+1)" line.long 0x14 "RTC_REGS_ANALOG,This register goes to the Analog Block" hexmask.long 0x14 0.--31. 1. "ANALOG,Analog Configuration MMR" line.long 0x18 "RTC_REGS_SCRATCH0,The Scratch Storage Registers can be used to hold information in the battery backuped domain while the device is powered down." hexmask.long 0x18 0.--31. 1. "SCRATCH0,The scratch0 holds data in the battery backed domain for use by the device when powered on. This would typically be used to store signatures other information of similar ilk." group.long 0x50++0x13 line.long 0x0 "RTC_REGS_GENRAL_CTL,This is the main RTC control register" bitfld.long 0x0 24.--25. "CNT_FMODE,This defines which read freeze mode is enabled 10 = S_CNT_LSW When SW reads S_CNT_LSW it will snap S_CNT_MSW 01 = SUB_S_CNT When SW reads SUB_S_CNT it will snap S_CNT_MSW and S_CNT_LSW 00 = Disable" "0: Disable,1: SUB_S_CNT When SW reads SUB_S_CNT it will snap..,?,?" newline rbitfld.long 0x0 23. "UNLOCK,The status of the UNLOCKED state 1 = UnLocked 0 = Locked" "0: Locked,1: UnLocked" newline bitfld.long 0x0 21. "O32K_OSC_DEP_EN,This controls if a high to low transition dependence is required before the CORE domain can read or write the ON domain 1 = Enable 0 = Disable" "0: Disable,1: Enable" newline bitfld.long 0x0 17. "SW_OFF,The SW can issue a ON_OFF event Wrt 1 for OFF event Wrt 0 has no effect The OFF event will occur within 31uS and relock the core" "0,1" newline bitfld.long 0x0 16. "PWR_OFF_EN,This allows the PMIC_ENABLE to go from a ON to OFF state by SW or ON_OFF event" "0,1" newline hexmask.long.byte 0x0 8.--11. 1. "WKUP_DB_EN,External Wakeup Debounce Enable 1 = Enable 0 = Disable" newline hexmask.long.byte 0x0 4.--7. 1. "WKUP_POL,External Wakeup Polarity 1 = Active High = Active Low" newline hexmask.long.byte 0x0 0.--3. 1. "WKUP_EN,External Wakeup Enable 1 = Enable 0 = Disable" line.long 0x4 "RTC_REGS_IRQSTATUS_RAW_SYS," bitfld.long 0x4 1. "EVENT_OFF_ON,Raw status of OFF_ON interrupt for event_off_on. Write 1 to set the (raw) status mostly for debug. Writing a 0 has no effect." "0,1" newline bitfld.long 0x4 0. "EVENT_ON_OFF,Raw status of ON_OFF interrupt for event_on_off. Write 1 to set the (raw) status mostly for debug. Writing a 0 has no effect." "0,1" line.long 0x8 "RTC_REGS_IRQSTATUS_SYS," bitfld.long 0x8 1. "EVENT_OFF_ON,Enabled status of OFF_ON interrupt for event_off_on. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared i.e. even if not enabled). Writing a 0 has no effect." "0,1" newline bitfld.long 0x8 0. "EVENT_ON_OFF,Enabled status of ON_OFF interrupt for event_on_off. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared i.e. even if not enabled). Writing a 0 has no effect." "0,1" line.long 0xC "RTC_REGS_IRQENABLE_SET_SYS," bitfld.long 0xC 1. "EN_EVENT_OFF_ON,Enable set for OFF_ON interrupt for event_off_on. Writing a 1 will enable the interrupt and set this bit as well as the corresponding Interrupt Enable Clear Register. Writing a 0 has no effect." "0,1" newline bitfld.long 0xC 0. "EN_EVENT_ON_OFF,Enable set for ON_OFF interrupt for event_on_off. Writing a 1 will enable the interrupt and set this bit as well as the corresponding Interrupt Enable Clear Register. Writing a 0 has no effect." "0,1" line.long 0x10 "RTC_REGS_IRQENABLE_CLR_SYS," bitfld.long 0x10 1. "EN_EVENT_OFF_ON,Enable clear for OFF_ON interrupt for event_off_on. Writing a 1 will disable the interrupt and clear this bit as well as the corresponding Interrupt Enable Set Register. Writing a 0 has no effect." "0,1" newline bitfld.long 0x10 0. "EN_EVENT_ON_OFF,Enable clear for ON_OFF interrupt for event_on_off. Writing a 1 will disable the interrupt and clear this bit as well as the corresponding Interrupt Enable Set Register. Writing a 0 has no effect." "0,1" group.long 0x68++0x3 line.long 0x0 "RTC_REGS_SYNCPEND,The SW can determine status of wrt and rd access along with other status from the ON domain" bitfld.long 0x0 31. "RELOAD_FROM_BBD,The reload_from_bbd allows the registers to be reloaded from the battery backed domain. This is only allowed when the battery backed domain interface state machine is idle." "0,1" newline rbitfld.long 0x0 8. "PWR_ENABLE_ST,The SW can read the state of PIMIC_ENABLE pin this is raw state" "0,1" newline hexmask.long.byte 0x0 4.--7. 1. "WKUP_DB_ST,The SW can read the state of EXT_WAKEUP pins this is raw state" newline bitfld.long 0x0 3. "WRT_ERR,Write Error Condition 1 = Occured 0 = Not Coocured Wrt 1 to Clr Set when SW tries to Wrt when RTL is LOCKED or Wrt when RD_PEND is set" "0: Not Coocured Wrt 1 to Clr Set when SW tries to..,1: Occured" newline rbitfld.long 0x0 2. "O32K_CLK_OBS,The SW can read the state of the main 32k clock" "0,1" newline bitfld.long 0x0 1. "RD_PEND,Synchronization from ON Domain Status after a CORE Reset Event = 1 Pending or Active = 0 Completed" "0,1" newline bitfld.long 0x0 0. "WR_PEND,Synchronization to ON Domain Status after a CORE write update = 1 Pending or Active = 0 Completed" "0,1" wgroup.long 0x70++0x7 line.long 0x0 "RTC_REGS_KICK0,The written data must be 0x83e70b13 to unlock this register. It must be written before the Kick1 register." hexmask.long 0x0 0.--31. 1. "KICK0,Kick0 MMR must write 0x83e70b13 to unlock this register" line.long 0x4 "RTC_REGS_KICK1,The Kick1 register allows writing to unlock the kick1 data and the kicker mechanism to write to other MMRs. The written data must be 0x95a4f1e0 to unlock this register. If this is unlocked after the kick0 register is unlocked then the.." hexmask.long 0x4 0.--31. 1. "KICK1,Kick1 MMR must write 0x95a4f1e0 to unlock this register and the other MMRs" tree.end endif sif (cpuis("AM62PX-CR5-DM")) tree "WKUP_ROM0 (WKUP_ROM0)" base ad:0x41800000 rgroup.long 0x0++0x3 line.long 0x0 "ROM_ROM_REG,The ROM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "WKUP_CBASS0" base ad:0x0 tree "WKUP_CBASS0_ERR (WKUP_CBASS0_ERR)" base ad:0x2B400000 rgroup.long 0x0++0x3 line.long 0x0 "ERR_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." newline bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "ERR_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." rgroup.long 0x24++0x17 line.long 0x0 "ERR_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type. 7 = CBASS." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID. Always 0." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "ERR_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group. Always 0." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code. 0 = CBASS decode error." line.long 0x8 "ERR_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "ERR_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "ERR_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" newline bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "ERR_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x50++0x13 line.long 0x0 "ERR_REGS_err_intr_raw_stat,The interrupt raw status register indicates if there is null interrupt regardless of interrupt enable" bitfld.long 0x0 0. "INTR,Level Interrupt status" "0,1" line.long 0x4 "ERR_REGS_err_intr_enabled_stat,The interrupt status register is gated by the interrupt enable" bitfld.long 0x4 0. "ENABLED_INTR,Level Enabled Interrupt status" "0,1" line.long 0x8 "ERR_REGS_err_intr_enable_set,Only when this register is set. null access will cause interrupt to be generated." bitfld.long 0x8 0. "INTR_ENABLE_SET,Interrupt Enable Set Register" "0,1" line.long 0xC "ERR_REGS_err_intr_enable_clr,Setting this register disables the null interrupt generation" bitfld.long 0xC 0. "INTR_ENABLE_CLR,Interrupt Enable Clear Register" "0,1" line.long 0x10 "ERR_REGS_err_eoi,Writing to EOI Register indicates that current interrupt has been serviced which then allows next interrupt to be generated" hexmask.long.word 0x10 0.--15. 1. "EOI_WR,End Of Interrupt Register" tree.end tree "WKUP_CBASS0_FW (WKUP_CBASS0_FW)" base ad:0x45008000 group.long 0x0++0x7F line.long 0x0 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Ipulsar_ul_wkup_0.cpu0_slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Ipulsar_ul_wkup_0.cpu0_slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Ipulsar_ul_wkup_0.cpu0_slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Ipulsar_ul_wkup_0.cpu0_slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Ipulsar_ul_wkup_0.cpu0_slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Ipulsar_ul_wkup_0.cpu0_slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Ipulsar_ul_wkup_0.cpu0_slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Ipulsar_ul_wkup_0.cpu0_slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Ipulsar_ul_wkup_0.cpu0_slv region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Ipulsar_ul_wkup_0.cpu0_slv region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Ipulsar_ul_wkup_0.cpu0_slv region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Ipulsar_ul_wkup_0.cpu0_slv region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Ipulsar_ul_wkup_0.cpu0_slv region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Ipulsar_ul_wkup_0.cpu0_slv region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Ipulsar_ul_wkup_0.cpu0_slv region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Ipulsar_ul_wkup_0.cpu0_slv region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target Ipulsar_ul_wkup_0.cpu0_slv region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target Ipulsar_ul_wkup_0.cpu0_slv region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target Ipulsar_ul_wkup_0.cpu0_slv region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target Ipulsar_ul_wkup_0.cpu0_slv region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target Ipulsar_ul_wkup_0.cpu0_slv region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target Ipulsar_ul_wkup_0.cpu0_slv region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target Ipulsar_ul_wkup_0.cpu0_slv region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target Ipulsar_ul_wkup_0.cpu0_slv region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target Ipulsar_ul_wkup_0.cpu0_slv region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target Ipulsar_ul_wkup_0.cpu0_slv region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target Ipulsar_ul_wkup_0.cpu0_slv region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target Ipulsar_ul_wkup_0.cpu0_slv region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target Ipulsar_ul_wkup_0.cpu0_slv region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target Ipulsar_ul_wkup_0.cpu0_slv region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target Ipulsar_ul_wkup_0.cpu0_slv region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_Ipulsar_ul_wkup_0_cpu0_slv_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target Ipulsar_ul_wkup_0.cpu0_slv region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x400++0x1FF line.long 0x0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv.." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv.." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv.." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv.." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv.." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv.." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv.." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv.." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x100 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_8_control,The FW Region 8 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 8 firewall." bitfld.long 0x100 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x100 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x100 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x100 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x104 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_8_permission_0,The FW Region 8 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 8 firewall." hexmask.long.byte 0x104 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x104 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x104 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x104 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x104 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x104 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x104 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x104 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x104 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x104 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x104 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x104 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x104 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x108 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_8_permission_1,The FW Region 8 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 8 firewall." hexmask.long.byte 0x108 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x108 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x108 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x108 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x108 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x108 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x108 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x108 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x108 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x108 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x108 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x108 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x108 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_8_permission_2,The FW Region 8 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 8 firewall." hexmask.long.byte 0x10C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x10C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x10C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x10C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x10C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x10C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x10C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x10C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x10C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x10C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x10C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x110 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_8_start_address_l,The FW Region 8 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv.." hexmask.long.tbyte 0x110 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x110 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x114 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_8_start_address_h,The FW Region 8 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x114 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x118 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_8_end_address_l,The FW Region 8 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x118 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x118 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x11C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_8_end_address_h,The FW Region 8 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x11C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x120 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_9_control,The FW Region 9 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 9 firewall." bitfld.long 0x120 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x120 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x120 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x120 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x124 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_9_permission_0,The FW Region 9 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 9 firewall." hexmask.long.byte 0x124 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x124 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x124 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x124 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x124 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x124 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x124 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x124 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x124 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x124 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x124 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x124 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x124 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x128 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_9_permission_1,The FW Region 9 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 9 firewall." hexmask.long.byte 0x128 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x128 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x128 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x128 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x128 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x128 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x128 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x128 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x128 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x128 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x128 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x128 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x128 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x12C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_9_permission_2,The FW Region 9 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 9 firewall." hexmask.long.byte 0x12C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x12C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x12C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x12C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x12C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x12C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x12C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x12C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x12C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x12C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x12C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x130 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_9_start_address_l,The FW Region 9 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv.." hexmask.long.tbyte 0x130 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x130 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x134 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_9_start_address_h,The FW Region 9 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x134 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x138 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_9_end_address_l,The FW Region 9 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x138 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x138 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x13C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_9_end_address_h,The FW Region 9 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x13C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x140 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_10_control,The FW Region 10 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 10 firewall." bitfld.long 0x140 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x140 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x140 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x140 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x144 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_10_permission_0,The FW Region 10 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 10 firewall." hexmask.long.byte 0x144 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x144 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x144 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x144 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x144 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x144 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x144 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x144 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x144 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x144 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x144 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x144 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x144 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x148 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_10_permission_1,The FW Region 10 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 10 firewall." hexmask.long.byte 0x148 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x148 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x148 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x148 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x148 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x148 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x148 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x148 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x148 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x148 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x148 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x148 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x148 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x14C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_10_permission_2,The FW Region 10 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 10 firewall." hexmask.long.byte 0x14C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x14C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x14C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x14C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x14C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x14C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x14C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x14C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x14C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x14C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x14C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x150 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_10_start_address_l,The FW Region 10 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x150 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x150 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x154 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_10_start_address_h,The FW Region 10 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x154 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x158 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_10_end_address_l,The FW Region 10 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x158 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x158 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x15C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_10_end_address_h,The FW Region 10 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x15C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x160 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_11_control,The FW Region 11 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 11 firewall." bitfld.long 0x160 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x160 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x160 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x160 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x164 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_11_permission_0,The FW Region 11 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 11 firewall." hexmask.long.byte 0x164 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x164 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x164 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x164 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x164 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x164 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x164 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x164 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x164 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x164 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x164 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x164 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x164 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x168 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_11_permission_1,The FW Region 11 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 11 firewall." hexmask.long.byte 0x168 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x168 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x168 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x168 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x168 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x168 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x168 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x168 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x168 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x168 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x168 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x168 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x168 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x16C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_11_permission_2,The FW Region 11 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 11 firewall." hexmask.long.byte 0x16C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x16C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x16C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x16C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x16C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x16C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x16C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x16C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x16C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x16C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x16C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x170 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_11_start_address_l,The FW Region 11 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x170 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x170 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x174 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_11_start_address_h,The FW Region 11 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x174 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x178 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_11_end_address_l,The FW Region 11 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x178 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x178 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x17C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_11_end_address_h,The FW Region 11 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x17C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x180 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_12_control,The FW Region 12 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 12 firewall." bitfld.long 0x180 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x180 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x180 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x180 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x184 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_12_permission_0,The FW Region 12 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 12 firewall." hexmask.long.byte 0x184 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x184 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x184 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x184 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x184 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x184 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x184 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x184 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x184 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x184 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x184 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x184 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x184 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x188 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_12_permission_1,The FW Region 12 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 12 firewall." hexmask.long.byte 0x188 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x188 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x188 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x188 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x188 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x188 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x188 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x188 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x188 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x188 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x188 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x188 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x188 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x18C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_12_permission_2,The FW Region 12 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 12 firewall." hexmask.long.byte 0x18C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x18C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x18C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x18C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x18C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x18C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x18C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x18C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x18C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x18C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x18C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x190 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_12_start_address_l,The FW Region 12 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x190 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x190 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x194 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_12_start_address_h,The FW Region 12 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x194 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x198 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_12_end_address_l,The FW Region 12 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x198 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x198 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x19C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_12_end_address_h,The FW Region 12 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x19C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1A0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_13_control,The FW Region 13 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 13 firewall." bitfld.long 0x1A0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1A0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1A0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1A0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1A4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_13_permission_0,The FW Region 13 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 13 firewall." hexmask.long.byte 0x1A4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1A8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_13_permission_1,The FW Region 13 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 13 firewall." hexmask.long.byte 0x1A8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1AC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_13_permission_2,The FW Region 13 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 13 firewall." hexmask.long.byte 0x1AC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1AC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1AC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1AC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1AC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1AC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1AC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1AC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1AC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1AC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1AC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1B0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_13_start_address_l,The FW Region 13 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x1B0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1B0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1B4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_13_start_address_h,The FW Region 13 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x1B4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1B8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_13_end_address_l,The FW Region 13 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x1B8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1B8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1BC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_13_end_address_h,The FW Region 13 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x1BC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1C0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_14_control,The FW Region 14 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 14 firewall." bitfld.long 0x1C0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1C0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1C0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1C0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1C4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_14_permission_0,The FW Region 14 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 14 firewall." hexmask.long.byte 0x1C4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1C8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_14_permission_1,The FW Region 14 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 14 firewall." hexmask.long.byte 0x1C8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1CC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_14_permission_2,The FW Region 14 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 14 firewall." hexmask.long.byte 0x1CC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1CC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1CC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1CC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1CC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1CC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1CC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1CC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1CC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1CC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1CC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1D0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_14_start_address_l,The FW Region 14 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x1D0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1D0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1D4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_14_start_address_h,The FW Region 14 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x1D4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1D8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_14_end_address_l,The FW Region 14 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x1D8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1D8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1DC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_14_end_address_h,The FW Region 14 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x1DC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1E0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_15_control,The FW Region 15 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 15 firewall." bitfld.long 0x1E0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1E0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1E0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1E0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1E4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_15_permission_0,The FW Region 15 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 15 firewall." hexmask.long.byte 0x1E4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1E8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_15_permission_1,The FW Region 15 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 15 firewall." hexmask.long.byte 0x1E8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1EC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_15_permission_2,The FW Region 15 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0.slv region 15 firewall." hexmask.long.byte 0x1EC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1EC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1EC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1EC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1EC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1EC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1EC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1EC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1EC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1EC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1EC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1F0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_15_start_address_l,The FW Region 15 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x1F0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1F0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1F4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_15_start_address_h,The FW Region 15 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x1F4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1F8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_15_end_address_l,The FW Region 15 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x1F8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1F8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1FC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_infra_cbass_data_l0_fw_region_15_end_address_h,The FW Region 15 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x1FC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x800++0x1FF line.long 0x0 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 4 firewall." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 4 firewall." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 4 firewall." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 4 firewall." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 5 firewall." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 5 firewall." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 5 firewall." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 5 firewall." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 6 firewall." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 6 firewall." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 6 firewall." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 6 firewall." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 7 firewall." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 7 firewall." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 7 firewall." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 7 firewall." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x100 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_8_control,The FW Region 8 Control Register defines the control fields for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 8 firewall." bitfld.long 0x100 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x100 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x100 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x100 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x104 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_8_permission_0,The FW Region 8 Permission 0 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 8 firewall." hexmask.long.byte 0x104 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x104 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x104 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x104 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x104 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x104 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x104 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x104 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x104 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x104 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x104 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x104 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x104 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x108 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_8_permission_1,The FW Region 8 Permission 1 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 8 firewall." hexmask.long.byte 0x108 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x108 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x108 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x108 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x108 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x108 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x108 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x108 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x108 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x108 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x108 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x108 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x108 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10C "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_8_permission_2,The FW Region 8 Permission 2 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 8 firewall." hexmask.long.byte 0x10C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x10C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x10C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x10C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x10C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x10C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x10C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x10C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x10C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x10C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x10C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x110 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_8_start_address_l,The FW Region 8 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 8 firewall." hexmask.long.tbyte 0x110 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x110 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x114 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_8_start_address_h,The FW Region 8 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 8 firewall." hexmask.long.word 0x114 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x118 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_8_end_address_l,The FW Region 8 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 8 firewall." hexmask.long.tbyte 0x118 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x118 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x11C "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_8_end_address_h,The FW Region 8 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 8 firewall." hexmask.long.word 0x11C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x120 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_9_control,The FW Region 9 Control Register defines the control fields for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 9 firewall." bitfld.long 0x120 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x120 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x120 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x120 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x124 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_9_permission_0,The FW Region 9 Permission 0 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 9 firewall." hexmask.long.byte 0x124 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x124 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x124 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x124 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x124 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x124 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x124 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x124 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x124 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x124 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x124 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x124 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x124 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x128 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_9_permission_1,The FW Region 9 Permission 1 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 9 firewall." hexmask.long.byte 0x128 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x128 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x128 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x128 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x128 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x128 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x128 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x128 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x128 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x128 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x128 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x128 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x128 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x12C "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_9_permission_2,The FW Region 9 Permission 2 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 9 firewall." hexmask.long.byte 0x12C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x12C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x12C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x12C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x12C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x12C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x12C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x12C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x12C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x12C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x12C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x130 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_9_start_address_l,The FW Region 9 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 9 firewall." hexmask.long.tbyte 0x130 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x130 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x134 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_9_start_address_h,The FW Region 9 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 9 firewall." hexmask.long.word 0x134 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x138 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_9_end_address_l,The FW Region 9 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 9 firewall." hexmask.long.tbyte 0x138 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x138 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x13C "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_9_end_address_h,The FW Region 9 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 9 firewall." hexmask.long.word 0x13C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x140 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_10_control,The FW Region 10 Control Register defines the control fields for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 10 firewall." bitfld.long 0x140 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x140 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x140 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x140 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x144 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_10_permission_0,The FW Region 10 Permission 0 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 10 firewall." hexmask.long.byte 0x144 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x144 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x144 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x144 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x144 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x144 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x144 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x144 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x144 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x144 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x144 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x144 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x144 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x148 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_10_permission_1,The FW Region 10 Permission 1 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 10 firewall." hexmask.long.byte 0x148 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x148 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x148 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x148 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x148 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x148 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x148 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x148 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x148 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x148 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x148 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x148 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x148 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x14C "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_10_permission_2,The FW Region 10 Permission 2 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 10 firewall." hexmask.long.byte 0x14C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x14C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x14C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x14C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x14C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x14C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x14C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x14C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x14C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x14C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x14C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x150 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_10_start_address_l,The FW Region 10 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 10 firewall." hexmask.long.tbyte 0x150 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x150 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x154 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_10_start_address_h,The FW Region 10 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 10 firewall." hexmask.long.word 0x154 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x158 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_10_end_address_l,The FW Region 10 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 10 firewall." hexmask.long.tbyte 0x158 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x158 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x15C "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_10_end_address_h,The FW Region 10 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 10 firewall." hexmask.long.word 0x15C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x160 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_11_control,The FW Region 11 Control Register defines the control fields for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 11 firewall." bitfld.long 0x160 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x160 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x160 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x160 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x164 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_11_permission_0,The FW Region 11 Permission 0 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 11 firewall." hexmask.long.byte 0x164 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x164 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x164 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x164 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x164 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x164 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x164 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x164 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x164 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x164 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x164 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x164 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x164 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x168 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_11_permission_1,The FW Region 11 Permission 1 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 11 firewall." hexmask.long.byte 0x168 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x168 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x168 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x168 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x168 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x168 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x168 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x168 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x168 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x168 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x168 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x168 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x168 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x16C "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_11_permission_2,The FW Region 11 Permission 2 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 11 firewall." hexmask.long.byte 0x16C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x16C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x16C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x16C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x16C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x16C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x16C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x16C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x16C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x16C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x16C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x170 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_11_start_address_l,The FW Region 11 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 11 firewall." hexmask.long.tbyte 0x170 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x170 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x174 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_11_start_address_h,The FW Region 11 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 11 firewall." hexmask.long.word 0x174 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x178 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_11_end_address_l,The FW Region 11 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 11 firewall." hexmask.long.tbyte 0x178 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x178 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x17C "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_11_end_address_h,The FW Region 11 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 11 firewall." hexmask.long.word 0x17C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x180 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_12_control,The FW Region 12 Control Register defines the control fields for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 12 firewall." bitfld.long 0x180 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x180 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x180 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x180 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x184 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_12_permission_0,The FW Region 12 Permission 0 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 12 firewall." hexmask.long.byte 0x184 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x184 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x184 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x184 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x184 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x184 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x184 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x184 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x184 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x184 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x184 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x184 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x184 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x188 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_12_permission_1,The FW Region 12 Permission 1 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 12 firewall." hexmask.long.byte 0x188 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x188 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x188 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x188 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x188 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x188 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x188 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x188 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x188 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x188 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x188 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x188 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x188 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x18C "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_12_permission_2,The FW Region 12 Permission 2 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 12 firewall." hexmask.long.byte 0x18C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x18C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x18C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x18C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x18C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x18C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x18C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x18C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x18C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x18C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x18C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x190 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_12_start_address_l,The FW Region 12 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 12 firewall." hexmask.long.tbyte 0x190 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x190 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x194 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_12_start_address_h,The FW Region 12 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 12 firewall." hexmask.long.word 0x194 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x198 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_12_end_address_l,The FW Region 12 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 12 firewall." hexmask.long.tbyte 0x198 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x198 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x19C "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_12_end_address_h,The FW Region 12 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 12 firewall." hexmask.long.word 0x19C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1A0 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_13_control,The FW Region 13 Control Register defines the control fields for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 13 firewall." bitfld.long 0x1A0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1A0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1A0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1A0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1A4 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_13_permission_0,The FW Region 13 Permission 0 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 13 firewall." hexmask.long.byte 0x1A4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1A8 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_13_permission_1,The FW Region 13 Permission 1 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 13 firewall." hexmask.long.byte 0x1A8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1AC "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_13_permission_2,The FW Region 13 Permission 2 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 13 firewall." hexmask.long.byte 0x1AC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1AC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1AC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1AC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1AC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1AC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1AC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1AC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1AC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1AC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1AC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1B0 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_13_start_address_l,The FW Region 13 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 13 firewall." hexmask.long.tbyte 0x1B0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1B0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1B4 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_13_start_address_h,The FW Region 13 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 13 firewall." hexmask.long.word 0x1B4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1B8 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_13_end_address_l,The FW Region 13 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 13 firewall." hexmask.long.tbyte 0x1B8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1B8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1BC "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_13_end_address_h,The FW Region 13 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 13 firewall." hexmask.long.word 0x1BC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1C0 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_14_control,The FW Region 14 Control Register defines the control fields for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 14 firewall." bitfld.long 0x1C0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1C0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1C0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1C0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1C4 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_14_permission_0,The FW Region 14 Permission 0 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 14 firewall." hexmask.long.byte 0x1C4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1C8 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_14_permission_1,The FW Region 14 Permission 1 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 14 firewall." hexmask.long.byte 0x1C8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1CC "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_14_permission_2,The FW Region 14 Permission 2 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 14 firewall." hexmask.long.byte 0x1CC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1CC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1CC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1CC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1CC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1CC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1CC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1CC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1CC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1CC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1CC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1D0 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_14_start_address_l,The FW Region 14 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 14 firewall." hexmask.long.tbyte 0x1D0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1D0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1D4 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_14_start_address_h,The FW Region 14 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 14 firewall." hexmask.long.word 0x1D4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1D8 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_14_end_address_l,The FW Region 14 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 14 firewall." hexmask.long.tbyte 0x1D8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1D8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1DC "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_14_end_address_h,The FW Region 14 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 14 firewall." hexmask.long.word 0x1DC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1E0 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_15_control,The FW Region 15 Control Register defines the control fields for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 15 firewall." bitfld.long 0x1E0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1E0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1E0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1E0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1E4 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_15_permission_0,The FW Region 15 Permission 0 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 15 firewall." hexmask.long.byte 0x1E4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1E8 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_15_permission_1,The FW Region 15 Permission 1 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 15 firewall." hexmask.long.byte 0x1E8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1EC "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_15_permission_2,The FW Region 15 Permission 2 Register defines the permissions for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 15 firewall." hexmask.long.byte 0x1EC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1EC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1EC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1EC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1EC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1EC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1EC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1EC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1EC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1EC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1EC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1F0 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_15_start_address_l,The FW Region 15 Start Address Low Register defines the start address bits 31 to 0 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 15 firewall." hexmask.long.tbyte 0x1F0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1F0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1F4 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_15_start_address_h,The FW Region 15 Start Address High Register defines the start address bits 47 to 32 for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 15 firewall." hexmask.long.word 0x1F4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1F8 "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_15_end_address_l,The FW Region 15 End Address Low Register defines the end address bits 31 to 0 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 15 firewall." hexmask.long.tbyte 0x1F8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1F8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1FC "FW_REGS_br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0_fw_region_15_end_address_h,The FW Region 15 End Address High Register defines the end address bits 47 to 32 to include for the target br_SCRM_DM_clk1_to_SCRP_32b_DM_clk4_l0 region 15 firewall." hexmask.long.word 0x1FC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0xC00++0x1FF line.long 0x0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x100 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_8_control,The FW Region 8 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 8 firewall." bitfld.long 0x100 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x100 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x100 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x100 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x104 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_8_permission_0,The FW Region 8 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 8 firewall." hexmask.long.byte 0x104 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x104 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x104 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x104 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x104 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x104 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x104 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x104 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x104 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x104 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x104 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x104 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x104 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x108 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_8_permission_1,The FW Region 8 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 8 firewall." hexmask.long.byte 0x108 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x108 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x108 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x108 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x108 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x108 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x108 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x108 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x108 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x108 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x108 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x108 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x108 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_8_permission_2,The FW Region 8 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 8 firewall." hexmask.long.byte 0x10C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x10C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x10C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x10C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x10C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x10C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x10C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x10C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x10C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x10C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x10C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x110 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_8_start_address_l,The FW Region 8 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.tbyte 0x110 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x110 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x114 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_8_start_address_h,The FW Region 8 Start Address High Register defines the start address bits 47 to 32 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.word 0x114 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x118 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_8_end_address_l,The FW Region 8 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x118 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x118 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x11C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_8_end_address_h,The FW Region 8 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x11C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x120 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_9_control,The FW Region 9 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 9 firewall." bitfld.long 0x120 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x120 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x120 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x120 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x124 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_9_permission_0,The FW Region 9 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 9 firewall." hexmask.long.byte 0x124 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x124 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x124 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x124 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x124 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x124 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x124 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x124 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x124 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x124 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x124 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x124 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x124 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x128 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_9_permission_1,The FW Region 9 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 9 firewall." hexmask.long.byte 0x128 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x128 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x128 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x128 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x128 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x128 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x128 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x128 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x128 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x128 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x128 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x128 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x128 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x12C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_9_permission_2,The FW Region 9 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 9 firewall." hexmask.long.byte 0x12C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x12C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x12C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x12C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x12C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x12C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x12C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x12C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x12C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x12C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x12C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x130 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_9_start_address_l,The FW Region 9 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.tbyte 0x130 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x130 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x134 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_9_start_address_h,The FW Region 9 Start Address High Register defines the start address bits 47 to 32 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.word 0x134 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x138 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_9_end_address_l,The FW Region 9 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x138 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x138 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x13C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_9_end_address_h,The FW Region 9 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x13C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x140 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_10_control,The FW Region 10 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 10 firewall." bitfld.long 0x140 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x140 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x140 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x140 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x144 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_10_permission_0,The FW Region 10 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 10 firewall." hexmask.long.byte 0x144 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x144 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x144 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x144 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x144 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x144 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x144 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x144 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x144 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x144 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x144 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x144 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x144 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x148 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_10_permission_1,The FW Region 10 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 10 firewall." hexmask.long.byte 0x148 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x148 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x148 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x148 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x148 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x148 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x148 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x148 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x148 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x148 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x148 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x148 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x148 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x14C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_10_permission_2,The FW Region 10 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 10 firewall." hexmask.long.byte 0x14C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x14C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x14C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x14C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x14C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x14C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x14C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x14C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x14C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x14C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x14C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x150 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_10_start_address_l,The FW Region 10 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.tbyte 0x150 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x150 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x154 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_10_start_address_h,The FW Region 10 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x154 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x158 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_10_end_address_l,The FW Region 10 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x158 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x158 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x15C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_10_end_address_h,The FW Region 10 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x15C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x160 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_11_control,The FW Region 11 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 11 firewall." bitfld.long 0x160 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x160 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x160 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x160 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x164 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_11_permission_0,The FW Region 11 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 11 firewall." hexmask.long.byte 0x164 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x164 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x164 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x164 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x164 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x164 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x164 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x164 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x164 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x164 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x164 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x164 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x164 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x168 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_11_permission_1,The FW Region 11 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 11 firewall." hexmask.long.byte 0x168 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x168 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x168 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x168 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x168 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x168 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x168 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x168 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x168 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x168 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x168 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x168 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x168 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x16C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_11_permission_2,The FW Region 11 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 11 firewall." hexmask.long.byte 0x16C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x16C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x16C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x16C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x16C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x16C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x16C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x16C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x16C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x16C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x16C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x170 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_11_start_address_l,The FW Region 11 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.tbyte 0x170 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x170 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x174 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_11_start_address_h,The FW Region 11 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x174 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x178 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_11_end_address_l,The FW Region 11 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x178 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x178 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x17C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_11_end_address_h,The FW Region 11 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x17C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x180 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_12_control,The FW Region 12 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 12 firewall." bitfld.long 0x180 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x180 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x180 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x180 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x184 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_12_permission_0,The FW Region 12 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 12 firewall." hexmask.long.byte 0x184 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x184 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x184 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x184 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x184 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x184 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x184 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x184 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x184 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x184 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x184 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x184 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x184 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x188 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_12_permission_1,The FW Region 12 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 12 firewall." hexmask.long.byte 0x188 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x188 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x188 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x188 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x188 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x188 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x188 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x188 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x188 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x188 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x188 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x188 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x188 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x18C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_12_permission_2,The FW Region 12 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 12 firewall." hexmask.long.byte 0x18C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x18C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x18C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x18C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x18C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x18C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x18C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x18C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x18C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x18C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x18C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x190 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_12_start_address_l,The FW Region 12 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.tbyte 0x190 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x190 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x194 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_12_start_address_h,The FW Region 12 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x194 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x198 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_12_end_address_l,The FW Region 12 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x198 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x198 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x19C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_12_end_address_h,The FW Region 12 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x19C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1A0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_13_control,The FW Region 13 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 13 firewall." bitfld.long 0x1A0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1A0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1A0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1A0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1A4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_13_permission_0,The FW Region 13 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 13 firewall." hexmask.long.byte 0x1A4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1A8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_13_permission_1,The FW Region 13 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 13 firewall." hexmask.long.byte 0x1A8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1AC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_13_permission_2,The FW Region 13 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 13 firewall." hexmask.long.byte 0x1AC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1AC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1AC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1AC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1AC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1AC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1AC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1AC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1AC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1AC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1AC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1B0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_13_start_address_l,The FW Region 13 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.tbyte 0x1B0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1B0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1B4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_13_start_address_h,The FW Region 13 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x1B4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1B8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_13_end_address_l,The FW Region 13 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x1B8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1B8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1BC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_13_end_address_h,The FW Region 13 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x1BC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1C0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_14_control,The FW Region 14 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 14 firewall." bitfld.long 0x1C0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1C0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1C0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1C0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1C4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_14_permission_0,The FW Region 14 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 14 firewall." hexmask.long.byte 0x1C4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1C8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_14_permission_1,The FW Region 14 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 14 firewall." hexmask.long.byte 0x1C8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1CC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_14_permission_2,The FW Region 14 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 14 firewall." hexmask.long.byte 0x1CC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1CC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1CC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1CC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1CC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1CC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1CC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1CC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1CC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1CC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1CC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1D0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_14_start_address_l,The FW Region 14 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.tbyte 0x1D0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1D0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1D4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_14_start_address_h,The FW Region 14 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x1D4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1D8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_14_end_address_l,The FW Region 14 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x1D8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1D8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1DC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_14_end_address_h,The FW Region 14 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x1DC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1E0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_15_control,The FW Region 15 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 15 firewall." bitfld.long 0x1E0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1E0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1E0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1E0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1E4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_15_permission_0,The FW Region 15 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 15 firewall." hexmask.long.byte 0x1E4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1E8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_15_permission_1,The FW Region 15 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 15 firewall." hexmask.long.byte 0x1E8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1EC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_15_permission_2,The FW Region 15 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv region 15 firewall." hexmask.long.byte 0x1EC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1EC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1EC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1EC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1EC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1EC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1EC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1EC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1EC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1EC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1EC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1F0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_15_start_address_l,The FW Region 15 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0.slv.." hexmask.long.tbyte 0x1F0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1F0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1F4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_15_start_address_h,The FW Region 15 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x1F4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1F8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_15_end_address_l,The FW Region 15 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x1F8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1F8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1FC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_wkup_safe_cbass_data_l0_fw_region_15_end_address_h,The FW Region 15 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x1FC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x1000++0xFF line.long 0x0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 0.." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 0.." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 0.." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region.." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 1.." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 1.." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 1.." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region.." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 2.." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 2.." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 2.." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region.." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 3.." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 3.." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 3.." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region.." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 4 firewall." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 4 firewall." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 4 firewall." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 4.." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 4.." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 4.." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region.." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 5 firewall." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 5 firewall." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 5 firewall." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 5.." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 5.." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 5.." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region.." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 6 firewall." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 6 firewall." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 6 firewall." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 6.." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 6.." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 6.." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region.." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 7 firewall." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 7 firewall." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 7 firewall." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 7.." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 7.." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region 7.." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target export_am67_wkup_dm_cbass_to_am67_mcu_cbass_data_l0.slv region.." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x1400++0x7F line.long 0x0 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Isam67_vpac_wrap_main_0.cfg_slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Isam67_vpac_wrap_main_0.cfg_slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Isam67_vpac_wrap_main_0.cfg_slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Isam67_vpac_wrap_main_0.cfg_slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_vpac_wrap_main_0.cfg_slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_vpac_wrap_main_0.cfg_slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_vpac_wrap_main_0.cfg_slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_vpac_wrap_main_0.cfg_slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target Isam67_vpac_wrap_main_0.cfg_slv region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target Isam67_vpac_wrap_main_0.cfg_slv region 1 firewall." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target Isam67_vpac_wrap_main_0.cfg_slv region 1 firewall." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target Isam67_vpac_wrap_main_0.cfg_slv region 1 firewall." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_vpac_wrap_main_0.cfg_slv region 1 firewall." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_vpac_wrap_main_0.cfg_slv region 1 firewall." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_vpac_wrap_main_0.cfg_slv region 1 firewall." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_vpac_wrap_main_0.cfg_slv region 1 firewall." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target Isam67_vpac_wrap_main_0.cfg_slv region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target Isam67_vpac_wrap_main_0.cfg_slv region 2 firewall." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target Isam67_vpac_wrap_main_0.cfg_slv region 2 firewall." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target Isam67_vpac_wrap_main_0.cfg_slv region 2 firewall." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_vpac_wrap_main_0.cfg_slv region 2 firewall." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_vpac_wrap_main_0.cfg_slv region 2 firewall." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_vpac_wrap_main_0.cfg_slv region 2 firewall." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_vpac_wrap_main_0.cfg_slv region 2 firewall." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target Isam67_vpac_wrap_main_0.cfg_slv region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target Isam67_vpac_wrap_main_0.cfg_slv region 3 firewall." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target Isam67_vpac_wrap_main_0.cfg_slv region 3 firewall." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target Isam67_vpac_wrap_main_0.cfg_slv region 3 firewall." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target Isam67_vpac_wrap_main_0.cfg_slv region 3 firewall." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target Isam67_vpac_wrap_main_0.cfg_slv region 3 firewall." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target Isam67_vpac_wrap_main_0.cfg_slv region 3 firewall." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_Isam67_vpac_wrap_main_0_cfg_slv_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target Isam67_vpac_wrap_main_0.cfg_slv region 3 firewall." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x1800++0x1FF line.long 0x0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 0.." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 0.." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 0.." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x20 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_1_control,The FW Region 1 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 1 firewall." bitfld.long 0x20 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x20 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x20 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x20 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x24 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_1_permission_0,The FW Region 1 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 1.." hexmask.long.byte 0x24 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x24 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x24 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x24 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x24 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x24 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x24 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x24 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x24 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x24 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x24 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x24 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x24 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x24 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x24 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x28 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_1_permission_1,The FW Region 1 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 1.." hexmask.long.byte 0x28 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x28 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x28 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x28 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x28 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x28 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x28 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x28 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x28 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x28 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x28 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x28 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x28 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x28 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x28 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x2C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_1_permission_2,The FW Region 1 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 1.." hexmask.long.byte 0x2C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x2C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x2C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x2C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x2C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x2C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x2C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x2C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x2C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x2C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x2C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x2C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x2C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x2C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x30 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_1_start_address_l,The FW Region 1 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x30 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x30 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x34 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_1_start_address_h,The FW Region 1 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x34 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x38 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_1_end_address_l,The FW Region 1 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x38 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x38 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x3C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_1_end_address_h,The FW Region 1 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x3C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x40 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_2_control,The FW Region 2 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 2 firewall." bitfld.long 0x40 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x40 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x40 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x40 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x44 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_2_permission_0,The FW Region 2 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 2.." hexmask.long.byte 0x44 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x44 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x44 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x44 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x44 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x44 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x44 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x44 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x44 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x44 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x44 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x44 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x44 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x44 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x44 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x48 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_2_permission_1,The FW Region 2 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 2.." hexmask.long.byte 0x48 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x48 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x48 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x48 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x48 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x48 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x48 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x48 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x48 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x48 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x48 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x48 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x48 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x48 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x48 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x4C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_2_permission_2,The FW Region 2 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 2.." hexmask.long.byte 0x4C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x50 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_2_start_address_l,The FW Region 2 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x50 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x50 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x54 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_2_start_address_h,The FW Region 2 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x54 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x58 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_2_end_address_l,The FW Region 2 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x58 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x58 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x5C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_2_end_address_h,The FW Region 2 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x5C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x60 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_3_control,The FW Region 3 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 3 firewall." bitfld.long 0x60 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x60 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x60 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x60 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x64 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_3_permission_0,The FW Region 3 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 3.." hexmask.long.byte 0x64 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x64 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x64 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x64 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x64 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x64 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x64 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x64 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x64 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x64 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x64 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x64 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x64 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x64 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x64 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x68 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_3_permission_1,The FW Region 3 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 3.." hexmask.long.byte 0x68 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x68 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x68 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x68 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x68 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x68 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x68 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x68 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x68 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x68 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x68 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x68 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x68 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x68 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x68 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x6C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_3_permission_2,The FW Region 3 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 3.." hexmask.long.byte 0x6C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x6C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x6C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x6C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x6C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x6C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x6C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x6C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x6C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x6C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x6C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x6C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x6C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x6C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x70 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_3_start_address_l,The FW Region 3 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x70 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x70 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x74 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_3_start_address_h,The FW Region 3 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x74 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x78 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_3_end_address_l,The FW Region 3 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x78 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x78 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x7C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_3_end_address_h,The FW Region 3 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x7C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x80 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_4_control,The FW Region 4 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 4 firewall." bitfld.long 0x80 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x80 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x80 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x80 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x84 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_4_permission_0,The FW Region 4 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 4.." hexmask.long.byte 0x84 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x84 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x84 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x84 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x84 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x84 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x84 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x84 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x84 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x84 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x84 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x84 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x84 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x84 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x84 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x88 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_4_permission_1,The FW Region 4 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 4.." hexmask.long.byte 0x88 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x88 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x88 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x88 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x88 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x88 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x88 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x88 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x88 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x88 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x88 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x88 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x88 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x88 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x88 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_4_permission_2,The FW Region 4 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 4.." hexmask.long.byte 0x8C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x90 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_4_start_address_l,The FW Region 4 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x90 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x90 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x94 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_4_start_address_h,The FW Region 4 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x94 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x98 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_4_end_address_l,The FW Region 4 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x98 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x98 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x9C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_4_end_address_h,The FW Region 4 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x9C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xA0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_5_control,The FW Region 5 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 5 firewall." bitfld.long 0xA0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xA0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xA0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xA0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xA4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_5_permission_0,The FW Region 5 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 5.." hexmask.long.byte 0xA4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xA8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_5_permission_1,The FW Region 5 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 5.." hexmask.long.byte 0xA8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xA8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xA8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xA8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xA8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xA8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xA8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xA8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xA8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xA8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xA8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xA8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xA8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xA8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xAC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_5_permission_2,The FW Region 5 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 5.." hexmask.long.byte 0xAC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xAC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xAC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xAC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xAC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xAC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xAC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xAC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xAC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xAC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xAC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xAC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xAC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xAC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xB0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_5_start_address_l,The FW Region 5 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0xB0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xB0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xB4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_5_start_address_h,The FW Region 5 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0xB4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xB8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_5_end_address_l,The FW Region 5 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0xB8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xB8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xBC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_5_end_address_h,The FW Region 5 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0xBC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xC0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_6_control,The FW Region 6 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 6 firewall." bitfld.long 0xC0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xC0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xC0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xC0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xC4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_6_permission_0,The FW Region 6 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 6.." hexmask.long.byte 0xC4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_6_permission_1,The FW Region 6 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 6.." hexmask.long.byte 0xC8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xCC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_6_permission_2,The FW Region 6 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 6.." hexmask.long.byte 0xCC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xCC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xCC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xCC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xCC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xCC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xCC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xCC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xCC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xCC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xCC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xCC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xCC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xCC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xD0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_6_start_address_l,The FW Region 6 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0xD0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xD0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xD4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_6_start_address_h,The FW Region 6 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0xD4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xD8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_6_end_address_l,The FW Region 6 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0xD8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xD8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xDC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_6_end_address_h,The FW Region 6 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0xDC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0xE0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_7_control,The FW Region 7 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 7 firewall." bitfld.long 0xE0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0xE0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0xE0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0xE0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0xE4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_7_permission_0,The FW Region 7 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 7.." hexmask.long.byte 0xE4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xE8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_7_permission_1,The FW Region 7 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 7.." hexmask.long.byte 0xE8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xE8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xE8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xE8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xE8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xE8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xE8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xE8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xE8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xE8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xE8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xE8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xE8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xE8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xEC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_7_permission_2,The FW Region 7 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 7.." hexmask.long.byte 0xEC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xEC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xEC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xEC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xEC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xEC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xEC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xEC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xEC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xEC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xEC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xEC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xEC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xEC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xF0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_7_start_address_l,The FW Region 7 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0xF0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0xF0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0xF4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_7_start_address_h,The FW Region 7 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0xF4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0xF8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_7_end_address_l,The FW Region 7 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0xF8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0xF8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0xFC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_7_end_address_h,The FW Region 7 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0xFC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x100 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_8_control,The FW Region 8 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 8 firewall." bitfld.long 0x100 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x100 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x100 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x100 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x104 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_8_permission_0,The FW Region 8 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 8.." hexmask.long.byte 0x104 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x104 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x104 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x104 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x104 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x104 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x104 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x104 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x104 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x104 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x104 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x104 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x104 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x104 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x104 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x108 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_8_permission_1,The FW Region 8 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 8.." hexmask.long.byte 0x108 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x108 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x108 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x108 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x108 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x108 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x108 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x108 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x108 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x108 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x108 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x108 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x108 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x108 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x108 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_8_permission_2,The FW Region 8 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 8.." hexmask.long.byte 0x10C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x10C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x10C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x10C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x10C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x10C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x10C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x10C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x10C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x10C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x10C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x10C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x10C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x10C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x110 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_8_start_address_l,The FW Region 8 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x110 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x110 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x114 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_8_start_address_h,The FW Region 8 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x114 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x118 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_8_end_address_l,The FW Region 8 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x118 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x118 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x11C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_8_end_address_h,The FW Region 8 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x11C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x120 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_9_control,The FW Region 9 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 9 firewall." bitfld.long 0x120 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x120 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x120 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x120 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x124 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_9_permission_0,The FW Region 9 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 9.." hexmask.long.byte 0x124 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x124 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x124 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x124 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x124 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x124 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x124 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x124 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x124 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x124 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x124 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x124 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x124 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x124 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x124 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x128 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_9_permission_1,The FW Region 9 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 9.." hexmask.long.byte 0x128 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x128 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x128 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x128 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x128 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x128 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x128 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x128 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x128 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x128 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x128 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x128 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x128 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x128 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x128 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x12C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_9_permission_2,The FW Region 9 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 9.." hexmask.long.byte 0x12C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x12C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x12C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x12C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x12C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x12C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x12C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x12C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x12C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x12C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x12C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x12C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x12C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x12C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x130 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_9_start_address_l,The FW Region 9 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x130 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x130 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x134 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_9_start_address_h,The FW Region 9 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x134 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x138 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_9_end_address_l,The FW Region 9 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x138 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x138 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x13C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_9_end_address_h,The FW Region 9 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x13C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x140 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_10_control,The FW Region 10 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 10 firewall." bitfld.long 0x140 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x140 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x140 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x140 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x144 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_10_permission_0,The FW Region 10 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 10.." hexmask.long.byte 0x144 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x144 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x144 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x144 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x144 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x144 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x144 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x144 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x144 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x144 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x144 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x144 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x144 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x144 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x144 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x148 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_10_permission_1,The FW Region 10 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 10.." hexmask.long.byte 0x148 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x148 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x148 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x148 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x148 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x148 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x148 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x148 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x148 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x148 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x148 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x148 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x148 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x148 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x148 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x14C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_10_permission_2,The FW Region 10 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 10.." hexmask.long.byte 0x14C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x14C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x14C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x14C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x14C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x14C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x14C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x14C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x14C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x14C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x14C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x14C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x14C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x14C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x150 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_10_start_address_l,The FW Region 10 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x150 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x150 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x154 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_10_start_address_h,The FW Region 10 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x154 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x158 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_10_end_address_l,The FW Region 10 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x158 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x158 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x15C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_10_end_address_h,The FW Region 10 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x15C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x160 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_11_control,The FW Region 11 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 11 firewall." bitfld.long 0x160 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x160 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x160 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x160 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x164 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_11_permission_0,The FW Region 11 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 11.." hexmask.long.byte 0x164 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x164 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x164 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x164 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x164 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x164 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x164 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x164 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x164 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x164 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x164 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x164 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x164 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x164 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x164 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x168 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_11_permission_1,The FW Region 11 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 11.." hexmask.long.byte 0x168 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x168 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x168 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x168 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x168 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x168 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x168 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x168 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x168 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x168 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x168 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x168 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x168 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x168 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x168 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x16C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_11_permission_2,The FW Region 11 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 11.." hexmask.long.byte 0x16C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x16C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x16C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x16C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x16C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x16C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x16C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x16C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x16C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x16C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x16C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x16C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x16C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x16C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x170 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_11_start_address_l,The FW Region 11 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x170 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x170 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x174 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_11_start_address_h,The FW Region 11 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x174 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x178 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_11_end_address_l,The FW Region 11 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x178 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x178 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x17C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_11_end_address_h,The FW Region 11 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x17C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x180 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_12_control,The FW Region 12 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 12 firewall." bitfld.long 0x180 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x180 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x180 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x180 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x184 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_12_permission_0,The FW Region 12 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 12.." hexmask.long.byte 0x184 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x184 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x184 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x184 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x184 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x184 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x184 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x184 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x184 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x184 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x184 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x184 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x184 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x184 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x184 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x188 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_12_permission_1,The FW Region 12 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 12.." hexmask.long.byte 0x188 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x188 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x188 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x188 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x188 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x188 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x188 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x188 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x188 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x188 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x188 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x188 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x188 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x188 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x188 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x18C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_12_permission_2,The FW Region 12 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 12.." hexmask.long.byte 0x18C 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x18C 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x18C 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x18C 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x18C 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x18C 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x18C 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x18C 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x18C 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x18C 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x18C 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x18C 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x18C 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x18C 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x190 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_12_start_address_l,The FW Region 12 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x190 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x190 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x194 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_12_start_address_h,The FW Region 12 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x194 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x198 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_12_end_address_l,The FW Region 12 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x198 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x198 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x19C "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_12_end_address_h,The FW Region 12 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x19C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1A0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_13_control,The FW Region 13 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 13 firewall." bitfld.long 0x1A0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1A0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1A0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1A0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1A4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_13_permission_0,The FW Region 13 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 13.." hexmask.long.byte 0x1A4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1A8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_13_permission_1,The FW Region 13 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 13.." hexmask.long.byte 0x1A8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1A8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1A8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1A8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1A8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1A8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1A8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1A8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1A8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1A8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1A8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1A8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1A8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1A8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1AC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_13_permission_2,The FW Region 13 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 13.." hexmask.long.byte 0x1AC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1AC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1AC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1AC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1AC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1AC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1AC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1AC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1AC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1AC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1AC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1AC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1AC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1AC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1B0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_13_start_address_l,The FW Region 13 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x1B0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1B0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1B4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_13_start_address_h,The FW Region 13 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x1B4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1B8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_13_end_address_l,The FW Region 13 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x1B8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1B8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1BC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_13_end_address_h,The FW Region 13 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x1BC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1C0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_14_control,The FW Region 14 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 14 firewall." bitfld.long 0x1C0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1C0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1C0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1C0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1C4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_14_permission_0,The FW Region 14 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 14.." hexmask.long.byte 0x1C4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1C8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_14_permission_1,The FW Region 14 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 14.." hexmask.long.byte 0x1C8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1C8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1C8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1C8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1C8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1C8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1C8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1C8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1C8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1C8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1C8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1C8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1C8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1C8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1CC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_14_permission_2,The FW Region 14 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 14.." hexmask.long.byte 0x1CC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1CC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1CC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1CC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1CC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1CC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1CC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1CC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1CC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1CC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1CC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1CC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1CC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1CC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1D0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_14_start_address_l,The FW Region 14 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x1D0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1D0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1D4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_14_start_address_h,The FW Region 14 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x1D4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1D8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_14_end_address_l,The FW Region 14 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x1D8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1D8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1DC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_14_end_address_h,The FW Region 14 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x1DC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." line.long 0x1E0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_15_control,The FW Region 15 Control Register defines the control fields for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 15 firewall." bitfld.long 0x1E0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x1E0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x1E0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x1E0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x1E4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_15_permission_0,The FW Region 15 Permission 0 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 15.." hexmask.long.byte 0x1E4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1E8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_15_permission_1,The FW Region 15 Permission 1 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 15.." hexmask.long.byte 0x1E8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1E8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1E8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1E8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1E8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1E8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1E8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1E8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1E8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1E8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1E8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1E8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1E8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1E8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1EC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_15_permission_2,The FW Region 15 Permission 2 Register defines the permissions for the target export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0.slv region 15.." hexmask.long.byte 0x1EC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x1EC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x1EC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x1EC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x1EC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x1EC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x1EC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x1EC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x1EC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x1EC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x1EC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x1EC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x1EC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x1EC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x1F0 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_15_start_address_l,The FW Region 15 Start Address Low Register defines the start address bits 31 to 0 for the target.." hexmask.long.tbyte 0x1F0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x1F0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x1F4 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_15_start_address_h,The FW Region 15 Start Address High Register defines the start address bits 47 to 32 for the target.." hexmask.long.word 0x1F4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x1F8 "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_15_end_address_l,The FW Region 15 End Address Low Register defines the end address bits 31 to 0 to include for the target.." hexmask.long.tbyte 0x1F8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x1F8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1FC "FW_REGS_export_am67_wkup_dm_cbass_to_am67_main_misc_peri_cbass_data_l0_fw_region_15_end_address_h,The FW Region 15 End Address High Register defines the end address bits 47 to 32 to include for the target.." hexmask.long.word 0x1FC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." group.long 0x2800++0x1F line.long 0x0 "FW_REGS_Ipulsar_ul_main_0_cpu0_slv_fw_region_0_control,The FW Region 0 Control Register defines the control fields for the target Ipulsar_ul_main_0.cpu0_slv region 0 firewall." bitfld.long 0x0 9. "CACHE_MODE,Cache mode for region. Set to 1 to check cache permissions. Set to 0 to ignore cache permissions." "0,1" bitfld.long 0x0 8. "BACKGROUND,Background enable for region. There can be 1 backgroun region per FW and foreground regions can have overlapping addresses only with the background region." "0,1" newline bitfld.long 0x0 4. "LOCK,Lock region. Once set region values cannot be modified." "0,1" hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." line.long 0x4 "FW_REGS_Ipulsar_ul_main_0_cpu0_slv_fw_region_0_permission_0,The FW Region 0 Permission 0 Register defines the permissions for the target Ipulsar_ul_main_0.cpu0_slv region 0 firewall." hexmask.long.byte 0x4 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x4 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x4 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x4 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x4 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x4 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x4 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x4 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x4 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x4 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x4 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x4 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x4 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x4 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x4 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x8 "FW_REGS_Ipulsar_ul_main_0_cpu0_slv_fw_region_0_permission_1,The FW Region 0 Permission 1 Register defines the permissions for the target Ipulsar_ul_main_0.cpu0_slv region 0 firewall." hexmask.long.byte 0x8 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0x8 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0x8 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0x8 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0x8 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0x8 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0x8 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0x8 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0x8 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0x8 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0x8 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0x8 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0x8 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0x8 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0x8 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0xC "FW_REGS_Ipulsar_ul_main_0_cpu0_slv_fw_region_0_permission_2,The FW Region 0 Permission 2 Register defines the permissions for the target Ipulsar_ul_main_0.cpu0_slv region 0 firewall." hexmask.long.byte 0xC 16.--23. 1. "PRIV_ID,Allowed privid." bitfld.long 0xC 15. "NONSEC_USER_DEBUG,Non-secure user debug allowed." "0,1" newline bitfld.long 0xC 14. "NONSEC_USER_CACHEABLE,Non-secure user cacheable allowed." "0,1" bitfld.long 0xC 13. "NONSEC_USER_READ,Non-secure user read allowed." "0,1" newline bitfld.long 0xC 12. "NONSEC_USER_WRITE,Non-secure user write allowed." "0,1" bitfld.long 0xC 11. "NONSEC_SUPV_DEBUG,Non-secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 10. "NONSEC_SUPV_CACHEABLE,Non-secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 9. "NONSEC_SUPV_READ,Non-secure supervisor read allowed." "0,1" newline bitfld.long 0xC 8. "NONSEC_SUPV_WRITE,Non-secure supervisor write allowed." "0,1" bitfld.long 0xC 7. "SEC_USER_DEBUG,Secure user debug allowed." "0,1" newline bitfld.long 0xC 6. "SEC_USER_CACHEABLE,Secure user cacheable allowed." "0,1" bitfld.long 0xC 5. "SEC_USER_READ,Secure user read allowed." "0,1" newline bitfld.long 0xC 4. "SEC_USER_WRITE,Secure user write allowed." "0,1" bitfld.long 0xC 3. "SEC_SUPV_DEBUG,Secure supervisor debug allowed." "0,1" newline bitfld.long 0xC 2. "SEC_SUPV_CACHEABLE,Secure supervisor cacheable allowed." "0,1" bitfld.long 0xC 1. "SEC_SUPV_READ,Secure supervisor read allowed." "0,1" newline bitfld.long 0xC 0. "SEC_SUPV_WRITE,Secure supervisor write allowed." "0,1" line.long 0x10 "FW_REGS_Ipulsar_ul_main_0_cpu0_slv_fw_region_0_start_address_l,The FW Region 0 Start Address Low Register defines the start address bits 31 to 0 for the target Ipulsar_ul_main_0.cpu0_slv region 0 firewall." hexmask.long.tbyte 0x10 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12. Lowest 12 bits are forced to 0 as address must be 4KB aligned." hexmask.long.word 0x10 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 are forced to 0 as address must be 4KB aligned." line.long 0x14 "FW_REGS_Ipulsar_ul_main_0_cpu0_slv_fw_region_0_start_address_h,The FW Region 0 Start Address High Register defines the start address bits 47 to 32 for the target Ipulsar_ul_main_0.cpu0_slv region 0 firewall." hexmask.long.word 0x14 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x18 "FW_REGS_Ipulsar_ul_main_0_cpu0_slv_fw_region_0_end_address_l,The FW Region 0 End Address Low Register defines the end address bits 31 to 0 to include for the target Ipulsar_ul_main_0.cpu0_slv region 0 firewall." hexmask.long.tbyte 0x18 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match. Lowest 12 bits are forced to 1s as address must be 4KB aligned." hexmask.long.word 0x18 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to 1s as address must be 4KB aligned minus 1." line.long 0x1C "FW_REGS_Ipulsar_ul_main_0_cpu0_slv_fw_region_0_end_address_h,The FW Region 0 End Address High Register defines the end address bits 47 to 32 to include for the target Ipulsar_ul_main_0.cpu0_slv region 0 firewall." hexmask.long.word 0x1C 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32 to include in the match." tree.end tree "WKUP_CBASS0_GLB (WKUP_CBASS0_GLB)" base ad:0x45B03000 rgroup.long 0x0++0x3 line.long 0x0 "GLB_REGS_pid,The Revision Register contains the major and minor revisions for the module." bitfld.long 0x0 30.--31. "SCHEME,PID register scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,Business Unit: 10 = Processors" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "FUNC,Module ID" hexmask.long.byte 0x0 11.--15. 1. "RTL,RTL revision. Will vary depending on release." bitfld.long 0x0 8.--10. "MAJOR,Major revision" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "MINOR,Minor revision" group.long 0x4++0x3 line.long 0x0 "GLB_REGS_destination_id,The Destination ID Register defines the destination ID value for error messages." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,The destination ID." group.long 0x20++0x3 line.long 0x0 "GLB_REGS_exception_logging_control,The Exception Logging Control Register controls the exception logging." bitfld.long 0x0 1. "DISABLE_PEND,Disables logging pending when set." "0,1" bitfld.long 0x0 0. "DISABLE_F,Disables logging when set." "0,1" rgroup.long 0x24++0x17 line.long 0x0 "GLB_REGS_exception_logging_header0,The Exception Logging Header 0 Register contains the first word of the header." hexmask.long.byte 0x0 24.--31. 1. "TYPE_F,Type." hexmask.long.word 0x0 8.--23. 1. "SRC_ID,Source ID." hexmask.long.byte 0x0 0.--7. 1. "DEST_ID,Destination ID." line.long 0x4 "GLB_REGS_exception_logging_header1,The Exception Logging Header 1 Register contains the second word of the header." hexmask.long.byte 0x4 24.--31. 1. "GROUP,Group." hexmask.long.byte 0x4 16.--23. 1. "CODE,Code." line.long 0x8 "GLB_REGS_exception_logging_data0,The Exception Logging Data 0 Register contains the first word of the data." hexmask.long 0x8 0.--31. 1. "ADDR_L,Address lower 32 bits." line.long 0xC "GLB_REGS_exception_logging_data1,The Exception Logging Data 1 Register contains the second word of the data." hexmask.long.word 0xC 0.--15. 1. "ADDR_H,Address upper 16 bits." line.long 0x10 "GLB_REGS_exception_logging_data2,The Exception Logging Data 2 Register contains the third word of the data." hexmask.long.word 0x10 16.--27. 1. "ROUTEID,Route ID." bitfld.long 0x10 13. "WRITE,Write." "0,1" bitfld.long 0x10 12. "READ,Read." "0,1" bitfld.long 0x10 11. "DEBUG,Debug." "0,1" bitfld.long 0x10 10. "CACHEABLE,Cacheable." "0,1" newline bitfld.long 0x10 9. "PRIV,Priv." "0,1" bitfld.long 0x10 8. "SECURE,Secure." "0,1" hexmask.long.byte 0x10 0.--7. 1. "PRIV_ID,Priv ID." line.long 0x14 "GLB_REGS_exception_logging_data3,The Exception Logging Data 3 Register contains the fourth word of the data." hexmask.long.word 0x14 0.--9. 1. "BYTECNT,Byte count." group.long 0x40++0x7 line.long 0x0 "GLB_REGS_exception_pend_set,The Exception Logging Pending Set Register allows to set the pend signal." bitfld.long 0x0 0. "PEND_SET,Write a 1 to set the exception pend signal." "0,1" line.long 0x4 "GLB_REGS_exception_pend_clear,The Exception Logging Pending Clear Register allows to clear the pend signal." bitfld.long 0x4 0. "PEND_CLR,Write a 1 to clear the exception pend signal." "0,1" tree.end tree "WKUP_CBASS0_ISC (WKUP_CBASS0_ISC)" base ad:0x45814000 group.long 0x0++0x3 line.long 0x0 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x10++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_1_control,The ISC Region 1 Control Register defines the control fields for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x30++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_1_start_address_l,The ISC Region 1 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 1 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_1_start_address_h,The ISC Region 1 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 1 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_1_end_address_l,The ISC Region 1 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 1 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_1_end_address_h,The ISC Region 1 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 1 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_2_control,The ISC Region 2 Control Register defines the control fields for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 2 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x50++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_2_start_address_l,The ISC Region 2 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 2 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_2_start_address_h,The ISC Region 2 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 2 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_2_end_address_l,The ISC Region 2 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 2 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_2_end_address_h,The ISC Region 2 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 2 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_3_control,The ISC Region 3 Control Register defines the control fields for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 3 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x70++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_3_start_address_l,The ISC Region 3 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 3 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_3_start_address_h,The ISC Region 3 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 3 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_3_end_address_l,The ISC Region 3 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 3 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_3_end_address_h,The ISC Region 3 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 3 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Ipulsar_ul_wkup_0.cpu0_rmst region 4 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x400++0x3 line.long 0x0 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x410++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_1_control,The ISC Region 1 Control Register defines the control fields for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x430++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_1_start_address_l,The ISC Region 1 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 1 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_1_start_address_h,The ISC Region 1 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 1 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_1_end_address_l,The ISC Region 1 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 1 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_1_end_address_h,The ISC Region 1 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 1 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_2_control,The ISC Region 2 Control Register defines the control fields for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 2 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x450++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_2_start_address_l,The ISC Region 2 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 2 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_2_start_address_h,The ISC Region 2 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 2 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_2_end_address_l,The ISC Region 2 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 2 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_2_end_address_h,The ISC Region 2 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 2 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_3_control,The ISC Region 3 Control Register defines the control fields for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 3 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x470++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_3_start_address_l,The ISC Region 3 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 3 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_3_start_address_h,The ISC Region 3 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 3 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_3_end_address_l,The ISC Region 3 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 3 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_3_end_address_h,The ISC Region 3 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 3 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Ipulsar_ul_wkup_0.cpu0_wmst region 4 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x800++0x3 line.long 0x0 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x810++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_1_control,The ISC Region 1 Control Register defines the control fields for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x830++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_1_start_address_l,The ISC Region 1 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 1 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_1_start_address_h,The ISC Region 1 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 1 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_1_end_address_l,The ISC Region 1 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 1 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_1_end_address_h,The ISC Region 1 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 1 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_2_control,The ISC Region 2 Control Register defines the control fields for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 2 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x850++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_2_start_address_l,The ISC Region 2 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 2 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_2_start_address_h,The ISC Region 2 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 2 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_2_end_address_l,The ISC Region 2 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 2 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_2_end_address_h,The ISC Region 2 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 2 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_3_control,The ISC Region 3 Control Register defines the control fields for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 3 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x870++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_3_start_address_l,The ISC Region 3 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 3 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_3_start_address_h,The ISC Region 3 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 3 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_3_end_address_l,The ISC Region 3 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 3 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_3_end_address_h,The ISC Region 3 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 3 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Ipulsar_ul_wkup_0.cpu0_pmst region 4 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1000++0x3 line.long 0x0 "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Ipulsar_ul_main_0.cpu0_rmst region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1010++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_rmst region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_rmst region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_rmst region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_rmst region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_1_control,The ISC Region 1 Control Register defines the control fields for the initiator Ipulsar_ul_main_0.cpu0_rmst region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1030++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_1_start_address_l,The ISC Region 1 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_rmst region 1 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_1_start_address_h,The ISC Region 1 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_rmst region 1 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_1_end_address_l,The ISC Region 1 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_rmst region 1 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_1_end_address_h,The ISC Region 1 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_rmst region 1 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_2_control,The ISC Region 2 Control Register defines the control fields for the initiator Ipulsar_ul_main_0.cpu0_rmst region 2 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1050++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_2_start_address_l,The ISC Region 2 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_rmst region 2 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_2_start_address_h,The ISC Region 2 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_rmst region 2 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_2_end_address_l,The ISC Region 2 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_rmst region 2 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_2_end_address_h,The ISC Region 2 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_rmst region 2 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_3_control,The ISC Region 3 Control Register defines the control fields for the initiator Ipulsar_ul_main_0.cpu0_rmst region 3 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1070++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_3_start_address_l,The ISC Region 3 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_rmst region 3 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_3_start_address_h,The ISC Region 3 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_rmst region 3 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_3_end_address_l,The ISC Region 3 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_rmst region 3 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_3_end_address_h,The ISC Region 3 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_rmst region 3 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_main_0_cpu0_rmst_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Ipulsar_ul_main_0.cpu0_rmst region 4 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1400++0x3 line.long 0x0 "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Ipulsar_ul_main_0.cpu0_wmst region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1410++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_wmst region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_wmst region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_wmst region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_wmst region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_1_control,The ISC Region 1 Control Register defines the control fields for the initiator Ipulsar_ul_main_0.cpu0_wmst region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1430++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_1_start_address_l,The ISC Region 1 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_wmst region 1 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_1_start_address_h,The ISC Region 1 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_wmst region 1 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_1_end_address_l,The ISC Region 1 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_wmst region 1 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_1_end_address_h,The ISC Region 1 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_wmst region 1 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_2_control,The ISC Region 2 Control Register defines the control fields for the initiator Ipulsar_ul_main_0.cpu0_wmst region 2 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1450++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_2_start_address_l,The ISC Region 2 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_wmst region 2 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_2_start_address_h,The ISC Region 2 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_wmst region 2 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_2_end_address_l,The ISC Region 2 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_wmst region 2 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_2_end_address_h,The ISC Region 2 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_wmst region 2 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_3_control,The ISC Region 3 Control Register defines the control fields for the initiator Ipulsar_ul_main_0.cpu0_wmst region 3 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1470++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_3_start_address_l,The ISC Region 3 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_wmst region 3 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_3_start_address_h,The ISC Region 3 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_wmst region 3 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_3_end_address_l,The ISC Region 3 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_wmst region 3 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_3_end_address_h,The ISC Region 3 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_wmst region 3 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_main_0_cpu0_wmst_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Ipulsar_ul_main_0.cpu0_wmst region 4 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1800++0x3 line.long 0x0 "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_0_control,The ISC Region 0 Control Register defines the control fields for the initiator Ipulsar_ul_main_0.cpu0_pmst region 0 ISC." bitfld.long 0x0 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x0 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x0 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x0 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x0 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x0 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x0 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x0 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x0 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x0 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1810++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_0_start_address_l,The ISC Region 0 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_pmst region 0 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_0_start_address_h,The ISC Region 0 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_pmst region 0 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_0_end_address_l,The ISC Region 0 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_pmst region 0 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_0_end_address_h,The ISC Region 0 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_pmst region 0 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_1_control,The ISC Region 1 Control Register defines the control fields for the initiator Ipulsar_ul_main_0.cpu0_pmst region 1 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1830++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_1_start_address_l,The ISC Region 1 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_pmst region 1 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_1_start_address_h,The ISC Region 1 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_pmst region 1 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_1_end_address_l,The ISC Region 1 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_pmst region 1 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_1_end_address_h,The ISC Region 1 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_pmst region 1 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_2_control,The ISC Region 2 Control Register defines the control fields for the initiator Ipulsar_ul_main_0.cpu0_pmst region 2 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1850++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_2_start_address_l,The ISC Region 2 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_pmst region 2 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_2_start_address_h,The ISC Region 2 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_pmst region 2 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_2_end_address_l,The ISC Region 2 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_pmst region 2 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_2_end_address_h,The ISC Region 2 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_pmst region 2 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_3_control,The ISC Region 3 Control Register defines the control fields for the initiator Ipulsar_ul_main_0.cpu0_pmst region 3 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement pass through value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA enables others disable." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" bitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." group.long 0x1870++0x13 line.long 0x0 "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_3_start_address_l,The ISC Region 3 Start Address Low Register defines the start address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_pmst region 3 ISC." hexmask.long.tbyte 0x0 12.--31. 1. "START_ADDRESS_L,Start address bits 31 to 12." hexmask.long.word 0x0 0.--11. 1. "START_ADDRESS_LSB,Start address bits 11 to 0 must be 0 as address must be 4KB aligned in address mode. Can also be channel number in channel mode." line.long 0x4 "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_3_start_address_h,The ISC Region 3 Start Address High Register defines the start address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_pmst region 3 ISC." hexmask.long.word 0x4 0.--15. 1. "START_ADDRESS_H,Start address bits 47 to 32." line.long 0x8 "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_3_end_address_l,The ISC Region 3 End Address Low Register defines the end included address bits 31 to 0 for the initiator Ipulsar_ul_main_0.cpu0_pmst region 3 ISC." hexmask.long.tbyte 0x8 12.--31. 1. "END_ADDRESS_L,End address bits 31 to 12 to include in the match." hexmask.long.word 0x8 0.--11. 1. "END_ADDRESS_LSB,End address bits 11 to 0 are forced to Fs as address must be 4KB aligned." line.long 0xC "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_3_end_address_h,The ISC Region 3 End Address High Register defines the end address bits 47 to 32 for the initiator Ipulsar_ul_main_0.cpu0_pmst region 3 ISC." hexmask.long.word 0xC 0.--15. 1. "END_ADDRESS_H,End address bits 47 to 32." line.long 0x10 "ISC_REGS_Ipulsar_ul_main_0_cpu0_pmst_isc_region_def_control,The ISC Default Region Control Register defines the control fields for the initiator Ipulsar_ul_main_0.cpu0_pmst region 4 ISC." bitfld.long 0x10 26.--27. "NOPRIV,Clear output priv attribute. If each bit is set then the outgoing priv bit is cleared else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 24.--25. "PRIV,Set outgoing priv attribute. If each bit is set then the outgoing priv bit is set else the bit is unchanged. Do not set both priv and nopriv for the same bit." "0,1,2,3" bitfld.long 0x10 21. "PASS,No privID replacement. A value of 1 will pass through privid value. A value of 0 will replace privid with priv_id field value." "0,1" newline bitfld.long 0x10 20. "NONSEC,Make outgoing non-secure. A value of 1 forces secure clear others do nothing. Do not set both sec and nonsec." "0,1" hexmask.long.byte 0x10 16.--19. 1. "SEC,Make outgoing secure. A value of 0xA forces secure set others do nothing. Do not set both sec and nonsec." hexmask.long.byte 0x10 8.--15. 1. "PRIV_ID,Priv ID value to use if pass is 0." newline rbitfld.long 0x10 6. "DEF,Default region indication. The default region is used when all other regions do not match." "0,1" rbitfld.long 0x10 5. "CH_MODE,Enable channel mode to match region to a chanid value. Otherwise use address mode to match region to an address range." "0,1" bitfld.long 0x10 4. "LOCK,Lock region. Once set the region values cannot be modified." "0,1" newline hexmask.long.byte 0x10 0.--3. 1. "ENABLE,Enable region. A value of 0xA enables others disable." tree.end tree "WKUP_CBASS0_QOS (WKUP_CBASS0_QOS)" base ad:0x45D14000 group.long 0x100++0x3 line.long 0x0 "QOS_REGS_Ipulsar_ul_wkup_0_cpu0_rmst_map0,The Map Register defines the fields for the initiator Ipulsar_ul_wkup_0.cpu0_rmst per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x500++0x3 line.long 0x0 "QOS_REGS_Ipulsar_ul_wkup_0_cpu0_wmst_map0,The Map Register defines the fields for the initiator Ipulsar_ul_wkup_0.cpu0_wmst per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x900++0x3 line.long 0x0 "QOS_REGS_Ipulsar_ul_wkup_0_cpu0_pmst_map0,The Map Register defines the fields for the initiator Ipulsar_ul_wkup_0.cpu0_pmst per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x1100++0x3 line.long 0x0 "QOS_REGS_Ipulsar_ul_main_0_cpu0_rmst_map0,The Map Register defines the fields for the initiator Ipulsar_ul_main_0.cpu0_rmst per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x1500++0x3 line.long 0x0 "QOS_REGS_Ipulsar_ul_main_0_cpu0_wmst_map0,The Map Register defines the fields for the initiator Ipulsar_ul_main_0.cpu0_wmst per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" group.long 0x1900++0x3 line.long 0x0 "QOS_REGS_Ipulsar_ul_main_0_cpu0_pmst_map0,The Map Register defines the fields for the initiator Ipulsar_ul_main_0.cpu0_pmst per channel." bitfld.long 0x0 12.--14. "EPRIORITY,epriority signal for channel N." "0,1,2,3,4,5,6,7" hexmask.long.byte 0x0 8.--11. 1. "ASEL,asel signal for channel N. 0 = SOC address. 1-15 = peripheral address." hexmask.long.byte 0x0 4.--7. 1. "ORDERID,orderid signal for channel N." bitfld.long 0x0 0.--2. "QOS,qos signal for channel N." "0,1,2,3,4,5,6,7" tree.end tree.end endif sif (cpuis("AM62PX")||cpuis("AM62PX-CA53")||cpuis("AM62PX-CR5-MCU")) tree "WKUP_ECC" base ad:0x0 tree "WKUP_ECC_AGGR0_ECC_AGGR (WKUP_ECC_AGGR0_ECC_AGGR)" base ad:0x2B600000 rgroup.long 0x0++0x3 line.long 0x0 "REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 10. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" newline bitfld.long 0x4 9. "AM67_WKUP_DM_CBASS_DM_CLK_4_CLK_EDC_CTRL_CBASS_INT_DM_CLK_4_BUSECC_PEND,Interrupt Pending Status for am67_wkup_dm_cbass_DM_CLK_4_clk_edc_ctrl_cbass_int_DM_CLK_4_busecc_pend" "0,1" newline bitfld.long 0x4 8. "AM67_WKUP_DM_CBASS_DM_CLK_1_CLK_EDC_CTRL_CBASS_INT_DM_CLK_1_BUSECC_PEND,Interrupt Pending Status for am67_wkup_dm_cbass_DM_CLK_1_clk_edc_ctrl_cbass_int_DM_CLK_1_busecc_pend" "0,1" newline bitfld.long 0x4 7. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 6. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 5. "AM67_WKUP_DM_CBASS_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_P2P_BRIDGE_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 4. "AM67_WKUP_DM_CBASS_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_P2P_BRIDGE_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 3. "AM67_WKUP_DM_CBASS_IK3VTM_N16FFC_WKUP_0_VBUSP_P2P_BRIDGE_IK3VTM_N16FFC_WKUP_0_VBUSP_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_wkup_dm_cbass_Ik3vtm_n16ffc_wkup_0_vbusp_p2p_bridge_Ik3vtm_n16ffc_wkup_0_vbusp_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 2. "AM67_WKUP_DM_CBASS_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_P2P_BRIDGE_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 1. "AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_DST_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 0. "AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" group.long 0x80++0x3 line.long 0x0 "REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 10. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" newline bitfld.long 0x0 9. "AM67_WKUP_DM_CBASS_DM_CLK_4_CLK_EDC_CTRL_CBASS_INT_DM_CLK_4_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_wkup_dm_cbass_DM_CLK_4_clk_edc_ctrl_cbass_int_DM_CLK_4_busecc_pend" "0,1" newline bitfld.long 0x0 8. "AM67_WKUP_DM_CBASS_DM_CLK_1_CLK_EDC_CTRL_CBASS_INT_DM_CLK_1_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_wkup_dm_cbass_DM_CLK_1_clk_edc_ctrl_cbass_int_DM_CLK_1_busecc_pend" "0,1" newline bitfld.long 0x0 7. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 6. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 5. "AM67_WKUP_DM_CBASS_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_P2P_BRIDGE_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 4. "AM67_WKUP_DM_CBASS_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_P2P_BRIDGE_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 3. "AM67_WKUP_DM_CBASS_IK3VTM_N16FFC_WKUP_0_VBUSP_P2P_BRIDGE_IK3VTM_N16FFC_WKUP_0_VBUSP_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_wkup_dm_cbass_Ik3vtm_n16ffc_wkup_0_vbusp_p2p_bridge_Ik3vtm_n16ffc_wkup_0_vbusp_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 2. "AM67_WKUP_DM_CBASS_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_P2P_BRIDGE_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 1. "AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_DST_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 0. "AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" group.long 0xC0++0x3 line.long 0x0 "REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 10. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" newline bitfld.long 0x0 9. "AM67_WKUP_DM_CBASS_DM_CLK_4_CLK_EDC_CTRL_CBASS_INT_DM_CLK_4_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_wkup_dm_cbass_DM_CLK_4_clk_edc_ctrl_cbass_int_DM_CLK_4_busecc_pend" "0,1" newline bitfld.long 0x0 8. "AM67_WKUP_DM_CBASS_DM_CLK_1_CLK_EDC_CTRL_CBASS_INT_DM_CLK_1_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_wkup_dm_cbass_DM_CLK_1_clk_edc_ctrl_cbass_int_DM_CLK_1_busecc_pend" "0,1" newline bitfld.long 0x0 7. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 6. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 5. "AM67_WKUP_DM_CBASS_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_P2P_BRIDGE_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 4. "AM67_WKUP_DM_CBASS_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_P2P_BRIDGE_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 3. "AM67_WKUP_DM_CBASS_IK3VTM_N16FFC_WKUP_0_VBUSP_P2P_BRIDGE_IK3VTM_N16FFC_WKUP_0_VBUSP_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_wkup_dm_cbass_Ik3vtm_n16ffc_wkup_0_vbusp_p2p_bridge_Ik3vtm_n16ffc_wkup_0_vbusp_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 2. "AM67_WKUP_DM_CBASS_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_P2P_BRIDGE_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 1. "AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_DST_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 0. "AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" group.long 0x13C++0x7 line.long 0x0 "REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 10. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" newline bitfld.long 0x4 9. "AM67_WKUP_DM_CBASS_DM_CLK_4_CLK_EDC_CTRL_CBASS_INT_DM_CLK_4_BUSECC_PEND,Interrupt Pending Status for am67_wkup_dm_cbass_DM_CLK_4_clk_edc_ctrl_cbass_int_DM_CLK_4_busecc_pend" "0,1" newline bitfld.long 0x4 8. "AM67_WKUP_DM_CBASS_DM_CLK_1_CLK_EDC_CTRL_CBASS_INT_DM_CLK_1_BUSECC_PEND,Interrupt Pending Status for am67_wkup_dm_cbass_DM_CLK_1_clk_edc_ctrl_cbass_int_DM_CLK_1_busecc_pend" "0,1" newline bitfld.long 0x4 7. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 6. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 5. "AM67_WKUP_DM_CBASS_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_P2P_BRIDGE_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 4. "AM67_WKUP_DM_CBASS_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_P2P_BRIDGE_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 3. "AM67_WKUP_DM_CBASS_IK3VTM_N16FFC_WKUP_0_VBUSP_P2P_BRIDGE_IK3VTM_N16FFC_WKUP_0_VBUSP_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_wkup_dm_cbass_Ik3vtm_n16ffc_wkup_0_vbusp_p2p_bridge_Ik3vtm_n16ffc_wkup_0_vbusp_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 2. "AM67_WKUP_DM_CBASS_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_P2P_BRIDGE_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 1. "AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_DST_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 0. "AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" group.long 0x180++0x3 line.long 0x0 "REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 10. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" newline bitfld.long 0x0 9. "AM67_WKUP_DM_CBASS_DM_CLK_4_CLK_EDC_CTRL_CBASS_INT_DM_CLK_4_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_wkup_dm_cbass_DM_CLK_4_clk_edc_ctrl_cbass_int_DM_CLK_4_busecc_pend" "0,1" newline bitfld.long 0x0 8. "AM67_WKUP_DM_CBASS_DM_CLK_1_CLK_EDC_CTRL_CBASS_INT_DM_CLK_1_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_wkup_dm_cbass_DM_CLK_1_clk_edc_ctrl_cbass_int_DM_CLK_1_busecc_pend" "0,1" newline bitfld.long 0x0 7. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 6. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 5. "AM67_WKUP_DM_CBASS_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_P2P_BRIDGE_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 4. "AM67_WKUP_DM_CBASS_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_P2P_BRIDGE_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 3. "AM67_WKUP_DM_CBASS_IK3VTM_N16FFC_WKUP_0_VBUSP_P2P_BRIDGE_IK3VTM_N16FFC_WKUP_0_VBUSP_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_wkup_dm_cbass_Ik3vtm_n16ffc_wkup_0_vbusp_p2p_bridge_Ik3vtm_n16ffc_wkup_0_vbusp_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 2. "AM67_WKUP_DM_CBASS_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_P2P_BRIDGE_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 1. "AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_DST_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 0. "AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" group.long 0x1C0++0x3 line.long 0x0 "REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 10. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" newline bitfld.long 0x0 9. "AM67_WKUP_DM_CBASS_DM_CLK_4_CLK_EDC_CTRL_CBASS_INT_DM_CLK_4_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_wkup_dm_cbass_DM_CLK_4_clk_edc_ctrl_cbass_int_DM_CLK_4_busecc_pend" "0,1" newline bitfld.long 0x0 8. "AM67_WKUP_DM_CBASS_DM_CLK_1_CLK_EDC_CTRL_CBASS_INT_DM_CLK_1_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_wkup_dm_cbass_DM_CLK_1_clk_edc_ctrl_cbass_int_DM_CLK_1_busecc_pend" "0,1" newline bitfld.long 0x0 7. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 6. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 5. "AM67_WKUP_DM_CBASS_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_P2P_BRIDGE_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 4. "AM67_WKUP_DM_CBASS_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_P2P_BRIDGE_ISAM67_DM_DM_ECC_AGGR_WKUP_0_CFG_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 3. "AM67_WKUP_DM_CBASS_IK3VTM_N16FFC_WKUP_0_VBUSP_P2P_BRIDGE_IK3VTM_N16FFC_WKUP_0_VBUSP_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_wkup_dm_cbass_Ik3vtm_n16ffc_wkup_0_vbusp_p2p_bridge_Ik3vtm_n16ffc_wkup_0_vbusp_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 2. "AM67_WKUP_DM_CBASS_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_P2P_BRIDGE_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 1. "AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_DST_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 0. "AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_AM67_WKUP_DM_CBASS_ISA3SS_AM62A_MAIN_0_PKTDMA_MEM_M2M_BRIDGE_SRC_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" group.long 0x200++0xF line.long 0x0 "REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" newline bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" newline bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" newline bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" newline bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "WKUP_ECC_AGGR1_ECC_AGGR (WKUP_ECC_AGGR1_ECC_AGGR)" base ad:0x2B601000 rgroup.long 0x0++0x3 line.long 0x0 "REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 6. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" newline bitfld.long 0x4 5. "AM67_MCU_FW_CBASS_MCU_SYSCLK0_4_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_4_BUSECC_PEND,Interrupt Pending Status for am67_mcu_fw_cbass_MCU_SYSCLK0_4_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_4_busecc_pend" "0,1" newline bitfld.long 0x4 4. "AM67_MCU_FW_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 3. "AM67_MCU_FW_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 2. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_DST_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 1. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_DST_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 0. "AM67_WKUP_DM_CBASS_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_P2P_BRIDGE_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for.." "0,1" group.long 0x80++0x3 line.long 0x0 "REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 6. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" newline bitfld.long 0x0 5. "AM67_MCU_FW_CBASS_MCU_SYSCLK0_4_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_4_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_fw_cbass_MCU_SYSCLK0_4_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_4_busecc_pend" "0,1" newline bitfld.long 0x0 4. "AM67_MCU_FW_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 3. "AM67_MCU_FW_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 2. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_DST_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 1. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_DST_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 0. "AM67_WKUP_DM_CBASS_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_P2P_BRIDGE_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" group.long 0xC0++0x3 line.long 0x0 "REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 6. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" newline bitfld.long 0x0 5. "AM67_MCU_FW_CBASS_MCU_SYSCLK0_4_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_4_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_fw_cbass_MCU_SYSCLK0_4_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_4_busecc_pend" "0,1" newline bitfld.long 0x0 4. "AM67_MCU_FW_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 3. "AM67_MCU_FW_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 2. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_DST_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 1. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_DST_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 0. "AM67_WKUP_DM_CBASS_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_P2P_BRIDGE_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" group.long 0x13C++0x7 line.long 0x0 "REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 6. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" newline bitfld.long 0x4 5. "AM67_MCU_FW_CBASS_MCU_SYSCLK0_4_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_4_BUSECC_PEND,Interrupt Pending Status for am67_mcu_fw_cbass_MCU_SYSCLK0_4_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_4_busecc_pend" "0,1" newline bitfld.long 0x4 4. "AM67_MCU_FW_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 3. "AM67_MCU_FW_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_BRIDGE_SRC_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 2. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_DST_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 1. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_DST_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 0. "AM67_WKUP_DM_CBASS_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_P2P_BRIDGE_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_BRIDGE_DST_BUSECC_PEND,Interrupt Pending Status for.." "0,1" group.long 0x180++0x3 line.long 0x0 "REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 6. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" newline bitfld.long 0x0 5. "AM67_MCU_FW_CBASS_MCU_SYSCLK0_4_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_4_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_fw_cbass_MCU_SYSCLK0_4_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_4_busecc_pend" "0,1" newline bitfld.long 0x0 4. "AM67_MCU_FW_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 3. "AM67_MCU_FW_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_BRIDGE_SRC_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 2. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_DST_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 1. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_DST_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 0. "AM67_WKUP_DM_CBASS_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_P2P_BRIDGE_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_BRIDGE_DST_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" group.long 0x1C0++0x3 line.long 0x0 "REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 6. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" newline bitfld.long 0x0 5. "AM67_MCU_FW_CBASS_MCU_SYSCLK0_4_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_4_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_fw_cbass_MCU_SYSCLK0_4_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_4_busecc_pend" "0,1" newline bitfld.long 0x0 4. "AM67_MCU_FW_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 3. "AM67_MCU_FW_CBASS_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_P2P_BRIDGE_IAM67_MCU_CBASS_MCU_0_CBASS_DMSC_SLV_BRIDGE_SRC_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 2. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2M_BRIDGE_DST_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 1. "AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_AM67_WKUP_DM_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_MCU_CBASS_DATA_L0_M2M_BRIDGE_DST_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 0. "AM67_WKUP_DM_CBASS_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_P2P_BRIDGE_ISAM67_DM_MCU_ECC_AGGR_WKUP_1_CFG_BRIDGE_DST_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" group.long 0x200++0xF line.long 0x0 "REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" newline bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" newline bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" newline bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" newline bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "WKUP_ECC_AGGR2_ECC_AGGR (WKUP_ECC_AGGR2_ECC_AGGR)" base ad:0x4030000 rgroup.long 0x0++0x3 line.long 0x0 "REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 16. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" newline bitfld.long 0x4 15. "AM67_WKUP_SAFE_CBASS_MCU_SYSCLK0_4_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_4_BUSECC_PEND,Interrupt Pending Status for am67_wkup_safe_cbass_MCU_SYSCLK0_4_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_4_busecc_pend" "0,1" newline bitfld.long 0x4 14. "AM67_WKUP_SAFE_CBASS_ERR_SCR_AM67_WKUP_SAFE_CBASS_ERR_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for am67_wkup_safe_cbass_err_scr_am67_wkup_safe_cbass_err_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 13. "AM67_WKUP_SAFE_CBASS_ERR_SLV_P2P_BRIDGE_ERR_SLV_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_wkup_safe_cbass_err_slv_p2p_bridge_err_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 12. "AM67_WKUP_SAFE_CBASS_CBASS_DEFAULT_ERR_AM67_WKUP_SAFE_CBASS_CBASS_DEFAULT_ERR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for am67_wkup_safe_cbass_cbass_default_err_am67_wkup_safe_cbass_cbass_default_err_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 11. "AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_EDC_CTRL_BUSECC_1_PEND,Interrupt Pending Status for am67_wkup_safe_cbass_SCRP_safe_clk4_scr_am67_wkup_safe_cbass_SCRP_safe_clk4_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x4 10. "AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_EDC_CTRL_BUSECC_0_PEND,Interrupt Pending Status for am67_wkup_safe_cbass_SCRP_safe_clk4_scr_am67_wkup_safe_cbass_SCRP_safe_clk4_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x4 9. "AM67_WKUP_SAFE_CBASS_IAM67_WKUP_SAFE_CBASS_WKUP_0_CBASS_ERR_SLV_P2P_BRIDGE_IAM67_WKUP_SAFE_CBASS_WKUP_0_CBASS_ERR_SLV_BRIDGE_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 8. "AM67_WKUP_SAFE_CBASS_ISAM67_WKUP_SAFE_ECC_AGGR_WKUP_0_CFG_P2P_BRIDGE_ISAM67_WKUP_SAFE_ECC_AGGR_WKUP_0_CFG_BRIDGE_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 7. "AM67_WKUP_SAFE_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2P_BRIDGE_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_BRIDGE_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 6. "ISAM67_DM2WS_VBUSM_GASKET_MCU_0_EDC_CTRL_PEND,Interrupt Pending Status for Isam67_dm2ws_vbusm_gasket_mcu_0_edc_ctrl_pend" "0,1" newline bitfld.long 0x4 5. "AM67XX_MCU_PADCFG_CTRL_MMR_EDC_CTRL_BUSECC_2_PEND,Interrupt Pending Status for am67xx_mcu_padcfg_ctrl_mmr_edc_ctrl_busecc_2_pend" "0,1" newline bitfld.long 0x4 4. "AM67XX_MCU_PADCFG_CTRL_MMR_EDC_CTRL_BUSECC_1_PEND,Interrupt Pending Status for am67xx_mcu_padcfg_ctrl_mmr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x4 3. "AM67XX_MCU_PADCFG_CTRL_MMR_EDC_CTRL_BUSECC_0_PEND,Interrupt Pending Status for am67xx_mcu_padcfg_ctrl_mmr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x4 2. "AM67_MCU_PLL_MMR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for am67_mcu_pll_mmr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 1. "AM67_MCU_CTRL_MMR_EDC_CTRL_BUSECC_1_PEND,Interrupt Pending Status for am67_mcu_ctrl_mmr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x4 0. "AM67_MCU_CTRL_MMR_EDC_CTRL_BUSECC_0_PEND,Interrupt Pending Status for am67_mcu_ctrl_mmr_edc_ctrl_busecc_0_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 16. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" newline bitfld.long 0x0 15. "AM67_WKUP_SAFE_CBASS_MCU_SYSCLK0_4_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_4_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_wkup_safe_cbass_MCU_SYSCLK0_4_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_4_busecc_pend" "0,1" newline bitfld.long 0x0 14. "AM67_WKUP_SAFE_CBASS_ERR_SCR_AM67_WKUP_SAFE_CBASS_ERR_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_wkup_safe_cbass_err_scr_am67_wkup_safe_cbass_err_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 13. "AM67_WKUP_SAFE_CBASS_ERR_SLV_P2P_BRIDGE_ERR_SLV_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_wkup_safe_cbass_err_slv_p2p_bridge_err_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 12. "AM67_WKUP_SAFE_CBASS_CBASS_DEFAULT_ERR_AM67_WKUP_SAFE_CBASS_CBASS_DEFAULT_ERR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_wkup_safe_cbass_cbass_default_err_am67_wkup_safe_cbass_cbass_default_err_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 11. "AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_EDC_CTRL_BUSECC_1_ENABLE_SET,Interrupt Enable Set Register for am67_wkup_safe_cbass_SCRP_safe_clk4_scr_am67_wkup_safe_cbass_SCRP_safe_clk4_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 10. "AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_EDC_CTRL_BUSECC_0_ENABLE_SET,Interrupt Enable Set Register for am67_wkup_safe_cbass_SCRP_safe_clk4_scr_am67_wkup_safe_cbass_SCRP_safe_clk4_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 9. "AM67_WKUP_SAFE_CBASS_IAM67_WKUP_SAFE_CBASS_WKUP_0_CBASS_ERR_SLV_P2P_BRIDGE_IAM67_WKUP_SAFE_CBASS_WKUP_0_CBASS_ERR_SLV_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 8. "AM67_WKUP_SAFE_CBASS_ISAM67_WKUP_SAFE_ECC_AGGR_WKUP_0_CFG_P2P_BRIDGE_ISAM67_WKUP_SAFE_ECC_AGGR_WKUP_0_CFG_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 7. "AM67_WKUP_SAFE_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2P_BRIDGE_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 6. "ISAM67_DM2WS_VBUSM_GASKET_MCU_0_EDC_CTRL_ENABLE_SET,Interrupt Enable Set Register for Isam67_dm2ws_vbusm_gasket_mcu_0_edc_ctrl_pend" "0,1" newline bitfld.long 0x0 5. "AM67XX_MCU_PADCFG_CTRL_MMR_EDC_CTRL_BUSECC_2_ENABLE_SET,Interrupt Enable Set Register for am67xx_mcu_padcfg_ctrl_mmr_edc_ctrl_busecc_2_pend" "0,1" newline bitfld.long 0x0 4. "AM67XX_MCU_PADCFG_CTRL_MMR_EDC_CTRL_BUSECC_1_ENABLE_SET,Interrupt Enable Set Register for am67xx_mcu_padcfg_ctrl_mmr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 3. "AM67XX_MCU_PADCFG_CTRL_MMR_EDC_CTRL_BUSECC_0_ENABLE_SET,Interrupt Enable Set Register for am67xx_mcu_padcfg_ctrl_mmr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 2. "AM67_MCU_PLL_MMR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_pll_mmr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 1. "AM67_MCU_CTRL_MMR_EDC_CTRL_BUSECC_1_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_ctrl_mmr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 0. "AM67_MCU_CTRL_MMR_EDC_CTRL_BUSECC_0_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_ctrl_mmr_edc_ctrl_busecc_0_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 16. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" newline bitfld.long 0x0 15. "AM67_WKUP_SAFE_CBASS_MCU_SYSCLK0_4_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_4_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_wkup_safe_cbass_MCU_SYSCLK0_4_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_4_busecc_pend" "0,1" newline bitfld.long 0x0 14. "AM67_WKUP_SAFE_CBASS_ERR_SCR_AM67_WKUP_SAFE_CBASS_ERR_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_wkup_safe_cbass_err_scr_am67_wkup_safe_cbass_err_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 13. "AM67_WKUP_SAFE_CBASS_ERR_SLV_P2P_BRIDGE_ERR_SLV_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_wkup_safe_cbass_err_slv_p2p_bridge_err_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 12. "AM67_WKUP_SAFE_CBASS_CBASS_DEFAULT_ERR_AM67_WKUP_SAFE_CBASS_CBASS_DEFAULT_ERR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_wkup_safe_cbass_cbass_default_err_am67_wkup_safe_cbass_cbass_default_err_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 11. "AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_EDC_CTRL_BUSECC_1_ENABLE_CLR,Interrupt Enable Clear Register for am67_wkup_safe_cbass_SCRP_safe_clk4_scr_am67_wkup_safe_cbass_SCRP_safe_clk4_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 10. "AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_EDC_CTRL_BUSECC_0_ENABLE_CLR,Interrupt Enable Clear Register for am67_wkup_safe_cbass_SCRP_safe_clk4_scr_am67_wkup_safe_cbass_SCRP_safe_clk4_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 9. "AM67_WKUP_SAFE_CBASS_IAM67_WKUP_SAFE_CBASS_WKUP_0_CBASS_ERR_SLV_P2P_BRIDGE_IAM67_WKUP_SAFE_CBASS_WKUP_0_CBASS_ERR_SLV_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 8. "AM67_WKUP_SAFE_CBASS_ISAM67_WKUP_SAFE_ECC_AGGR_WKUP_0_CFG_P2P_BRIDGE_ISAM67_WKUP_SAFE_ECC_AGGR_WKUP_0_CFG_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 7. "AM67_WKUP_SAFE_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2P_BRIDGE_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 6. "ISAM67_DM2WS_VBUSM_GASKET_MCU_0_EDC_CTRL_ENABLE_CLR,Interrupt Enable Clear Register for Isam67_dm2ws_vbusm_gasket_mcu_0_edc_ctrl_pend" "0,1" newline bitfld.long 0x0 5. "AM67XX_MCU_PADCFG_CTRL_MMR_EDC_CTRL_BUSECC_2_ENABLE_CLR,Interrupt Enable Clear Register for am67xx_mcu_padcfg_ctrl_mmr_edc_ctrl_busecc_2_pend" "0,1" newline bitfld.long 0x0 4. "AM67XX_MCU_PADCFG_CTRL_MMR_EDC_CTRL_BUSECC_1_ENABLE_CLR,Interrupt Enable Clear Register for am67xx_mcu_padcfg_ctrl_mmr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 3. "AM67XX_MCU_PADCFG_CTRL_MMR_EDC_CTRL_BUSECC_0_ENABLE_CLR,Interrupt Enable Clear Register for am67xx_mcu_padcfg_ctrl_mmr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 2. "AM67_MCU_PLL_MMR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_pll_mmr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 1. "AM67_MCU_CTRL_MMR_EDC_CTRL_BUSECC_1_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_ctrl_mmr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 0. "AM67_MCU_CTRL_MMR_EDC_CTRL_BUSECC_0_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_ctrl_mmr_edc_ctrl_busecc_0_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 16. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" newline bitfld.long 0x4 15. "AM67_WKUP_SAFE_CBASS_MCU_SYSCLK0_4_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_4_BUSECC_PEND,Interrupt Pending Status for am67_wkup_safe_cbass_MCU_SYSCLK0_4_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_4_busecc_pend" "0,1" newline bitfld.long 0x4 14. "AM67_WKUP_SAFE_CBASS_ERR_SCR_AM67_WKUP_SAFE_CBASS_ERR_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for am67_wkup_safe_cbass_err_scr_am67_wkup_safe_cbass_err_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 13. "AM67_WKUP_SAFE_CBASS_ERR_SLV_P2P_BRIDGE_ERR_SLV_BRIDGE_BUSECC_PEND,Interrupt Pending Status for am67_wkup_safe_cbass_err_slv_p2p_bridge_err_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 12. "AM67_WKUP_SAFE_CBASS_CBASS_DEFAULT_ERR_AM67_WKUP_SAFE_CBASS_CBASS_DEFAULT_ERR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for am67_wkup_safe_cbass_cbass_default_err_am67_wkup_safe_cbass_cbass_default_err_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 11. "AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_EDC_CTRL_BUSECC_1_PEND,Interrupt Pending Status for am67_wkup_safe_cbass_SCRP_safe_clk4_scr_am67_wkup_safe_cbass_SCRP_safe_clk4_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x4 10. "AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_EDC_CTRL_BUSECC_0_PEND,Interrupt Pending Status for am67_wkup_safe_cbass_SCRP_safe_clk4_scr_am67_wkup_safe_cbass_SCRP_safe_clk4_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x4 9. "AM67_WKUP_SAFE_CBASS_IAM67_WKUP_SAFE_CBASS_WKUP_0_CBASS_ERR_SLV_P2P_BRIDGE_IAM67_WKUP_SAFE_CBASS_WKUP_0_CBASS_ERR_SLV_BRIDGE_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 8. "AM67_WKUP_SAFE_CBASS_ISAM67_WKUP_SAFE_ECC_AGGR_WKUP_0_CFG_P2P_BRIDGE_ISAM67_WKUP_SAFE_ECC_AGGR_WKUP_0_CFG_BRIDGE_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 7. "AM67_WKUP_SAFE_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2P_BRIDGE_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_BRIDGE_BUSECC_PEND,Interrupt Pending Status for.." "0,1" newline bitfld.long 0x4 6. "ISAM67_DM2WS_VBUSM_GASKET_MCU_0_EDC_CTRL_PEND,Interrupt Pending Status for Isam67_dm2ws_vbusm_gasket_mcu_0_edc_ctrl_pend" "0,1" newline bitfld.long 0x4 5. "AM67XX_MCU_PADCFG_CTRL_MMR_EDC_CTRL_BUSECC_2_PEND,Interrupt Pending Status for am67xx_mcu_padcfg_ctrl_mmr_edc_ctrl_busecc_2_pend" "0,1" newline bitfld.long 0x4 4. "AM67XX_MCU_PADCFG_CTRL_MMR_EDC_CTRL_BUSECC_1_PEND,Interrupt Pending Status for am67xx_mcu_padcfg_ctrl_mmr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x4 3. "AM67XX_MCU_PADCFG_CTRL_MMR_EDC_CTRL_BUSECC_0_PEND,Interrupt Pending Status for am67xx_mcu_padcfg_ctrl_mmr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x4 2. "AM67_MCU_PLL_MMR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for am67_mcu_pll_mmr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 1. "AM67_MCU_CTRL_MMR_EDC_CTRL_BUSECC_1_PEND,Interrupt Pending Status for am67_mcu_ctrl_mmr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x4 0. "AM67_MCU_CTRL_MMR_EDC_CTRL_BUSECC_0_PEND,Interrupt Pending Status for am67_mcu_ctrl_mmr_edc_ctrl_busecc_0_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 16. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" newline bitfld.long 0x0 15. "AM67_WKUP_SAFE_CBASS_MCU_SYSCLK0_4_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_4_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_wkup_safe_cbass_MCU_SYSCLK0_4_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_4_busecc_pend" "0,1" newline bitfld.long 0x0 14. "AM67_WKUP_SAFE_CBASS_ERR_SCR_AM67_WKUP_SAFE_CBASS_ERR_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_wkup_safe_cbass_err_scr_am67_wkup_safe_cbass_err_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 13. "AM67_WKUP_SAFE_CBASS_ERR_SLV_P2P_BRIDGE_ERR_SLV_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_wkup_safe_cbass_err_slv_p2p_bridge_err_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 12. "AM67_WKUP_SAFE_CBASS_CBASS_DEFAULT_ERR_AM67_WKUP_SAFE_CBASS_CBASS_DEFAULT_ERR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_wkup_safe_cbass_cbass_default_err_am67_wkup_safe_cbass_cbass_default_err_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 11. "AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_EDC_CTRL_BUSECC_1_ENABLE_SET,Interrupt Enable Set Register for am67_wkup_safe_cbass_SCRP_safe_clk4_scr_am67_wkup_safe_cbass_SCRP_safe_clk4_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 10. "AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_EDC_CTRL_BUSECC_0_ENABLE_SET,Interrupt Enable Set Register for am67_wkup_safe_cbass_SCRP_safe_clk4_scr_am67_wkup_safe_cbass_SCRP_safe_clk4_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 9. "AM67_WKUP_SAFE_CBASS_IAM67_WKUP_SAFE_CBASS_WKUP_0_CBASS_ERR_SLV_P2P_BRIDGE_IAM67_WKUP_SAFE_CBASS_WKUP_0_CBASS_ERR_SLV_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 8. "AM67_WKUP_SAFE_CBASS_ISAM67_WKUP_SAFE_ECC_AGGR_WKUP_0_CFG_P2P_BRIDGE_ISAM67_WKUP_SAFE_ECC_AGGR_WKUP_0_CFG_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 7. "AM67_WKUP_SAFE_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2P_BRIDGE_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for.." "0,1" newline bitfld.long 0x0 6. "ISAM67_DM2WS_VBUSM_GASKET_MCU_0_EDC_CTRL_ENABLE_SET,Interrupt Enable Set Register for Isam67_dm2ws_vbusm_gasket_mcu_0_edc_ctrl_pend" "0,1" newline bitfld.long 0x0 5. "AM67XX_MCU_PADCFG_CTRL_MMR_EDC_CTRL_BUSECC_2_ENABLE_SET,Interrupt Enable Set Register for am67xx_mcu_padcfg_ctrl_mmr_edc_ctrl_busecc_2_pend" "0,1" newline bitfld.long 0x0 4. "AM67XX_MCU_PADCFG_CTRL_MMR_EDC_CTRL_BUSECC_1_ENABLE_SET,Interrupt Enable Set Register for am67xx_mcu_padcfg_ctrl_mmr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 3. "AM67XX_MCU_PADCFG_CTRL_MMR_EDC_CTRL_BUSECC_0_ENABLE_SET,Interrupt Enable Set Register for am67xx_mcu_padcfg_ctrl_mmr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 2. "AM67_MCU_PLL_MMR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_pll_mmr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 1. "AM67_MCU_CTRL_MMR_EDC_CTRL_BUSECC_1_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_ctrl_mmr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 0. "AM67_MCU_CTRL_MMR_EDC_CTRL_BUSECC_0_ENABLE_SET,Interrupt Enable Set Register for am67_mcu_ctrl_mmr_edc_ctrl_busecc_0_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 16. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" newline bitfld.long 0x0 15. "AM67_WKUP_SAFE_CBASS_MCU_SYSCLK0_4_CLK_EDC_CTRL_CBASS_INT_MCU_SYSCLK0_4_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_wkup_safe_cbass_MCU_SYSCLK0_4_clk_edc_ctrl_cbass_int_MCU_SYSCLK0_4_busecc_pend" "0,1" newline bitfld.long 0x0 14. "AM67_WKUP_SAFE_CBASS_ERR_SCR_AM67_WKUP_SAFE_CBASS_ERR_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_wkup_safe_cbass_err_scr_am67_wkup_safe_cbass_err_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 13. "AM67_WKUP_SAFE_CBASS_ERR_SLV_P2P_BRIDGE_ERR_SLV_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_wkup_safe_cbass_err_slv_p2p_bridge_err_slv_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 12. "AM67_WKUP_SAFE_CBASS_CBASS_DEFAULT_ERR_AM67_WKUP_SAFE_CBASS_CBASS_DEFAULT_ERR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_wkup_safe_cbass_cbass_default_err_am67_wkup_safe_cbass_cbass_default_err_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 11. "AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_EDC_CTRL_BUSECC_1_ENABLE_CLR,Interrupt Enable Clear Register for am67_wkup_safe_cbass_SCRP_safe_clk4_scr_am67_wkup_safe_cbass_SCRP_safe_clk4_scr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 10. "AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_AM67_WKUP_SAFE_CBASS_SCRP_SAFE_CLK4_SCR_EDC_CTRL_BUSECC_0_ENABLE_CLR,Interrupt Enable Clear Register for am67_wkup_safe_cbass_SCRP_safe_clk4_scr_am67_wkup_safe_cbass_SCRP_safe_clk4_scr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 9. "AM67_WKUP_SAFE_CBASS_IAM67_WKUP_SAFE_CBASS_WKUP_0_CBASS_ERR_SLV_P2P_BRIDGE_IAM67_WKUP_SAFE_CBASS_WKUP_0_CBASS_ERR_SLV_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 8. "AM67_WKUP_SAFE_CBASS_ISAM67_WKUP_SAFE_ECC_AGGR_WKUP_0_CFG_P2P_BRIDGE_ISAM67_WKUP_SAFE_ECC_AGGR_WKUP_0_CFG_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 7. "AM67_WKUP_SAFE_CBASS_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_M2P_BRIDGE_EXPORT_AM67_WKUP_DM_CBASS_TO_AM67_WKUP_SAFE_CBASS_DATA_L0_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for.." "0,1" newline bitfld.long 0x0 6. "ISAM67_DM2WS_VBUSM_GASKET_MCU_0_EDC_CTRL_ENABLE_CLR,Interrupt Enable Clear Register for Isam67_dm2ws_vbusm_gasket_mcu_0_edc_ctrl_pend" "0,1" newline bitfld.long 0x0 5. "AM67XX_MCU_PADCFG_CTRL_MMR_EDC_CTRL_BUSECC_2_ENABLE_CLR,Interrupt Enable Clear Register for am67xx_mcu_padcfg_ctrl_mmr_edc_ctrl_busecc_2_pend" "0,1" newline bitfld.long 0x0 4. "AM67XX_MCU_PADCFG_CTRL_MMR_EDC_CTRL_BUSECC_1_ENABLE_CLR,Interrupt Enable Clear Register for am67xx_mcu_padcfg_ctrl_mmr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 3. "AM67XX_MCU_PADCFG_CTRL_MMR_EDC_CTRL_BUSECC_0_ENABLE_CLR,Interrupt Enable Clear Register for am67xx_mcu_padcfg_ctrl_mmr_edc_ctrl_busecc_0_pend" "0,1" newline bitfld.long 0x0 2. "AM67_MCU_PLL_MMR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_pll_mmr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 1. "AM67_MCU_CTRL_MMR_EDC_CTRL_BUSECC_1_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_ctrl_mmr_edc_ctrl_busecc_1_pend" "0,1" newline bitfld.long 0x0 0. "AM67_MCU_CTRL_MMR_EDC_CTRL_BUSECC_0_ENABLE_CLR,Interrupt Enable Clear Register for am67_mcu_ctrl_mmr_edc_ctrl_busecc_0_pend" "0,1" group.long 0x200++0xF line.long 0x0 "REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" newline bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" newline bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" newline bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" newline bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree.end endif sif (cpuis("AM62PX-CR5-DM")) tree "WKUP_GTC0_GTC" base ad:0x0 tree "WKUP_GTC0_GTC_CFG0 (WKUP_GTC0_GTC_CFG0)" base ad:0xA80000 rgroup.long 0x0++0x7 line.long 0x0 "GTC_CFG0_PID," hexmask.long.word 0x0 16.--31. 1. "PID_MSB16," hexmask.long.byte 0x0 11.--15. 1. "PID_MISC," bitfld.long 0x0 8.--10. "PID_MAJOR," "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "PID_CUSTOM," "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "PID_MINOR," line.long 0x4 "GTC_CFG0_GTC_PID," bitfld.long 0x4 30.--31. "GTC_PID_SCHEME,PID follows new scheme" "0,1,2,3" bitfld.long 0x4 28.--29. "GTC_PID_BU,Business unit - Processors" "0,1,2,3" hexmask.long.word 0x4 16.--27. 1. "GTC_PID_FUNC,Module functional identifier - GTC module" hexmask.long.byte 0x4 11.--15. 1. "GTC_PID_R_RTL,RTL revision number - actual value determined by RTL" bitfld.long 0x4 8.--10. "GTC_PID_X_MAJOR,Major revision number - actual value determined by RTL" "0,1,2,3,4,5,6,7" newline bitfld.long 0x4 6.--7. "GTC_PID_CUSTOM,Custom revision number - actual value determined by RTL" "0,1,2,3" hexmask.long.byte 0x4 0.--5. 1. "GTC_PID_Y_MINOR,Minor revision number - actual value determined by RTL" group.long 0x8++0x3 line.long 0x0 "GTC_CFG0_PUSHEVT," hexmask.long.byte 0x0 0.--5. 1. "PUSHEVT_EXPBIT_SEL,Selects which bit [63:0] of the System Counter value is exported on the push_evt output. This field controls the 64:1 mux that drives the push_evt output." tree.end tree "WKUP_GTC0_GTC_CFG1 (WKUP_GTC0_GTC_CFG1)" base ad:0xA90000 group.long 0x0++0x3 line.long 0x0 "GTC_CFG1_CNTCR," hexmask.long.tbyte 0x0 8.--31. 1. "CNTCR_FCREQ,Frequency Change Request" bitfld.long 0x0 1. "CNTCR_HDBG,Halt on Debug" "0,1" bitfld.long 0x0 0. "CNTCR_EN,Enable System Counter" "0,1" rgroup.long 0x4++0xB line.long 0x0 "GTC_CFG1_CNTSR," hexmask.long.tbyte 0x0 8.--31. 1. "CNTSR_FCACK,Frequency Change Ackowledge" bitfld.long 0x0 1. "CNTSR_DBGH,Debug Halt" "0,1" line.long 0x4 "GTC_CFG1_CNTCV_LO," hexmask.long 0x4 0.--31. 1. "CNTCV_LO_COUNTVALUE,Indicates bits [31:0] of the System Counter value." line.long 0x8 "GTC_CFG1_CNTCV_HI," hexmask.long 0x8 0.--31. 1. "CNTCV_HI_COUNTVALUE,Indicates bits [63:32] of the System Counter value." group.long 0x20++0x3 line.long 0x0 "GTC_CFG1_CNTFID0," hexmask.long 0x0 0.--31. 1. "CNTFID0_FREQVALUE,Indicates the base update frequency of the System Counter in Hz." rgroup.long 0x24++0x3 line.long 0x0 "GTC_CFG1_CNTFID1," hexmask.long 0x0 0.--31. 1. "CNTFID1_FREQVALUE,Frequency table end indicator" tree.end tree "WKUP_GTC0_GTC_CFG2 (WKUP_GTC0_GTC_CFG2)" base ad:0xAA0000 rgroup.long 0x0++0x7 line.long 0x0 "GTC_CFG2_CNTCVS_LO," hexmask.long 0x0 0.--31. 1. "CNTCVS_LO_COUNTVALUE,Indicates bits [31:0] of the System Counter value." line.long 0x4 "GTC_CFG2_CNTCVS_HI," hexmask.long 0x4 0.--31. 1. "CNTCVS_HI_COUNTVALUE,Indicates bits [63:32] of the System Counter value." tree.end tree "WKUP_GTC0_GTC_CFG3 (WKUP_GTC0_GTC_CFG3)" base ad:0xAB0000 rgroup.long 0x8++0x3 line.long 0x0 "GTC_CFG3_CNTTIDR," hexmask.long.byte 0x0 28.--31. 1. "CNTTIDR_FRAME7,Indicates the features of timer frame7. Each 4 bit field has the following meaning:" hexmask.long.byte 0x0 24.--27. 1. "CNTTIDR_FRAME6,Indicates the features of timer frame6. Each 4 bit field has the following meaning:" hexmask.long.byte 0x0 20.--23. 1. "CNTTIDR_FRAME5,Indicates the features of timer frame5. Each 4 bit field has the following meaning:" hexmask.long.byte 0x0 16.--19. 1. "CNTTIDR_FRAME4,Indicates the features of timer frame4. Each 4 bit field has the following meaning:" hexmask.long.byte 0x0 12.--15. 1. "CNTTIDR_FRAME3,Indicates the features of timer frame3. Each 4 bit field has the following meaning:" hexmask.long.byte 0x0 8.--11. 1. "CNTTIDR_FRAME2,Indicates the features of timer frame2. Each 4 bit field has the following meaning:" hexmask.long.byte 0x0 4.--7. 1. "CNTTIDR_FRAME1,Indicates the features of timer frame1. Each 4 bit field has the following meaning:" newline hexmask.long.byte 0x0 0.--3. 1. "CNTTIDR_FRAME0,Indicates the features of timer frame0. Each 4 bit field has the following meaning:" tree.end tree.end endif sif (cpuis("AM62PX-CR5-DM")) tree "WKUP_PSRAMECC_8K0" base ad:0x0 tree "WKUP_PSRAMECC_8K0_RAM (WKUP_PSRAMECC_8K0_RAM)" base ad:0x41880000 group.long 0x0++0x3 line.long 0x0 "RAM_RAM_REG,The RAM memory words provide memory mapped random access data storage." hexmask.long.byte 0x0 24.--31. 1. "BYTE3,This is the MS byte" hexmask.long.byte 0x0 16.--23. 1. "BYTE2,This is the UM byte" hexmask.long.byte 0x0 8.--15. 1. "BYTE1,This is the LM byte" hexmask.long.byte 0x0 0.--7. 1. "BYTE0,This is the LS byte" tree.end tree "WKUP_PSRAMECC_8K0_REGS (WKUP_PSRAMECC_8K0_REGS)" base ad:0x2B608000 rgroup.long 0x0++0x3 line.long 0x0 "REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "SRAM_PEND,Interrupt Pending Status for sram_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "SRAM_ENABLE_SET,Interrupt Enable Set Register for sram_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "SRAM_ENABLE_CLR,Interrupt Enable Clear Register for sram_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 0. "SRAM_PEND,Interrupt Pending Status for sram_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 0. "SRAM_ENABLE_SET,Interrupt Enable Set Register for sram_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 0. "SRAM_ENABLE_CLR,Interrupt Enable Clear Register for sram_pend" "0,1" group.long 0x200++0xF line.long 0x0 "REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree.end endif sif (cpuis("AM62PX-CR5-DM")) tree "WKUP_R5FSS0_COMMON0" base ad:0x0 tree "WKUP_R5FSS0_COMMON0_CORE0_ECC_AGGR (WKUP_R5FSS0_COMMON0_CORE0_ECC_AGGR)" base ad:0x3F00D000 rgroup.long 0x0++0x3 line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "CPU0_ECC_AGGR__CFG__REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 28. "CPU0_AXI2VBUSM_MEM_MST_RAMECC_PEND,Interrupt Pending Status for cpu0_axi2vbusm_mem_mst_ramecc_pend" "0,1" bitfld.long 0x4 27. "CPU0_KS_VIM_RAMECC_PEND,Interrupt Pending Status for cpu0_ks_vim_ramecc_pend" "0,1" newline bitfld.long 0x4 26. "B1TCM0_BANK1_PEND,Interrupt Pending Status for b1tcm0_bank1_pend" "0,1" bitfld.long 0x4 25. "B1TCM0_BANK0_PEND,Interrupt Pending Status for b1tcm0_bank0_pend" "0,1" newline bitfld.long 0x4 24. "B0TCM0_BANK1_PEND,Interrupt Pending Status for b0tcm0_bank1_pend" "0,1" bitfld.long 0x4 23. "B0TCM0_BANK0_PEND,Interrupt Pending Status for b0tcm0_bank0_pend" "0,1" newline bitfld.long 0x4 22. "ATCM0_BANK1_PEND,Interrupt Pending Status for atcm0_bank1_pend" "0,1" bitfld.long 0x4 21. "ATCM0_BANK0_PEND,Interrupt Pending Status for atcm0_bank0_pend" "0,1" newline bitfld.long 0x4 20. "CPU0_DDATA_RAM7_PEND,Interrupt Pending Status for cpu0_ddata_ram7_pend" "0,1" bitfld.long 0x4 19. "CPU0_DDATA_RAM6_PEND,Interrupt Pending Status for cpu0_ddata_ram6_pend" "0,1" newline bitfld.long 0x4 18. "CPU0_DDATA_RAM5_PEND,Interrupt Pending Status for cpu0_ddata_ram5_pend" "0,1" bitfld.long 0x4 17. "CPU0_DDATA_RAM4_PEND,Interrupt Pending Status for cpu0_ddata_ram4_pend" "0,1" newline bitfld.long 0x4 16. "CPU0_DDATA_RAM3_PEND,Interrupt Pending Status for cpu0_ddata_ram3_pend" "0,1" bitfld.long 0x4 15. "CPU0_DDATA_RAM2_PEND,Interrupt Pending Status for cpu0_ddata_ram2_pend" "0,1" newline bitfld.long 0x4 14. "CPU0_DDATA_RAM1_PEND,Interrupt Pending Status for cpu0_ddata_ram1_pend" "0,1" bitfld.long 0x4 13. "CPU0_DDATA_RAM0_PEND,Interrupt Pending Status for cpu0_ddata_ram0_pend" "0,1" newline bitfld.long 0x4 12. "CPU0_DDIRTY_RAM_PEND,Interrupt Pending Status for cpu0_ddirty_ram_pend" "0,1" bitfld.long 0x4 11. "CPU0_DTAG_RAM3_PEND,Interrupt Pending Status for cpu0_dtag_ram3_pend" "0,1" newline bitfld.long 0x4 10. "CPU0_DTAG_RAM2_PEND,Interrupt Pending Status for cpu0_dtag_ram2_pend" "0,1" bitfld.long 0x4 9. "CPU0_DTAG_RAM1_PEND,Interrupt Pending Status for cpu0_dtag_ram1_pend" "0,1" newline bitfld.long 0x4 8. "CPU0_DTAG_RAM0_PEND,Interrupt Pending Status for cpu0_dtag_ram0_pend" "0,1" bitfld.long 0x4 7. "CPU0_IDATA_BANK3_PEND,Interrupt Pending Status for cpu0_idata_bank3_pend" "0,1" newline bitfld.long 0x4 6. "CPU0_IDATA_BANK2_PEND,Interrupt Pending Status for cpu0_idata_bank2_pend" "0,1" bitfld.long 0x4 5. "CPU0_IDATA_BANK1_PEND,Interrupt Pending Status for cpu0_idata_bank1_pend" "0,1" newline bitfld.long 0x4 4. "CPU0_IDATA_BANK0_PEND,Interrupt Pending Status for cpu0_idata_bank0_pend" "0,1" bitfld.long 0x4 3. "CPU0_ITAG_RAM3_PEND,Interrupt Pending Status for cpu0_itag_ram3_pend" "0,1" newline bitfld.long 0x4 2. "CPU0_ITAG_RAM2_PEND,Interrupt Pending Status for cpu0_itag_ram2_pend" "0,1" bitfld.long 0x4 1. "CPU0_ITAG_RAM1_PEND,Interrupt Pending Status for cpu0_itag_ram1_pend" "0,1" newline bitfld.long 0x4 0. "CPU0_ITAG_RAM0_PEND,Interrupt Pending Status for cpu0_itag_ram0_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 28. "CPU0_AXI2VBUSM_MEM_MST_RAMECC_ENABLE_SET,Interrupt Enable Set Register for cpu0_axi2vbusm_mem_mst_ramecc_pend" "0,1" bitfld.long 0x0 27. "CPU0_KS_VIM_RAMECC_ENABLE_SET,Interrupt Enable Set Register for cpu0_ks_vim_ramecc_pend" "0,1" newline bitfld.long 0x0 26. "B1TCM0_BANK1_ENABLE_SET,Interrupt Enable Set Register for b1tcm0_bank1_pend" "0,1" bitfld.long 0x0 25. "B1TCM0_BANK0_ENABLE_SET,Interrupt Enable Set Register for b1tcm0_bank0_pend" "0,1" newline bitfld.long 0x0 24. "B0TCM0_BANK1_ENABLE_SET,Interrupt Enable Set Register for b0tcm0_bank1_pend" "0,1" bitfld.long 0x0 23. "B0TCM0_BANK0_ENABLE_SET,Interrupt Enable Set Register for b0tcm0_bank0_pend" "0,1" newline bitfld.long 0x0 22. "ATCM0_BANK1_ENABLE_SET,Interrupt Enable Set Register for atcm0_bank1_pend" "0,1" bitfld.long 0x0 21. "ATCM0_BANK0_ENABLE_SET,Interrupt Enable Set Register for atcm0_bank0_pend" "0,1" newline bitfld.long 0x0 20. "CPU0_DDATA_RAM7_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram7_pend" "0,1" bitfld.long 0x0 19. "CPU0_DDATA_RAM6_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram6_pend" "0,1" newline bitfld.long 0x0 18. "CPU0_DDATA_RAM5_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram5_pend" "0,1" bitfld.long 0x0 17. "CPU0_DDATA_RAM4_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram4_pend" "0,1" newline bitfld.long 0x0 16. "CPU0_DDATA_RAM3_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram3_pend" "0,1" bitfld.long 0x0 15. "CPU0_DDATA_RAM2_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram2_pend" "0,1" newline bitfld.long 0x0 14. "CPU0_DDATA_RAM1_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram1_pend" "0,1" bitfld.long 0x0 13. "CPU0_DDATA_RAM0_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram0_pend" "0,1" newline bitfld.long 0x0 12. "CPU0_DDIRTY_RAM_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddirty_ram_pend" "0,1" bitfld.long 0x0 11. "CPU0_DTAG_RAM3_ENABLE_SET,Interrupt Enable Set Register for cpu0_dtag_ram3_pend" "0,1" newline bitfld.long 0x0 10. "CPU0_DTAG_RAM2_ENABLE_SET,Interrupt Enable Set Register for cpu0_dtag_ram2_pend" "0,1" bitfld.long 0x0 9. "CPU0_DTAG_RAM1_ENABLE_SET,Interrupt Enable Set Register for cpu0_dtag_ram1_pend" "0,1" newline bitfld.long 0x0 8. "CPU0_DTAG_RAM0_ENABLE_SET,Interrupt Enable Set Register for cpu0_dtag_ram0_pend" "0,1" bitfld.long 0x0 7. "CPU0_IDATA_BANK3_ENABLE_SET,Interrupt Enable Set Register for cpu0_idata_bank3_pend" "0,1" newline bitfld.long 0x0 6. "CPU0_IDATA_BANK2_ENABLE_SET,Interrupt Enable Set Register for cpu0_idata_bank2_pend" "0,1" bitfld.long 0x0 5. "CPU0_IDATA_BANK1_ENABLE_SET,Interrupt Enable Set Register for cpu0_idata_bank1_pend" "0,1" newline bitfld.long 0x0 4. "CPU0_IDATA_BANK0_ENABLE_SET,Interrupt Enable Set Register for cpu0_idata_bank0_pend" "0,1" bitfld.long 0x0 3. "CPU0_ITAG_RAM3_ENABLE_SET,Interrupt Enable Set Register for cpu0_itag_ram3_pend" "0,1" newline bitfld.long 0x0 2. "CPU0_ITAG_RAM2_ENABLE_SET,Interrupt Enable Set Register for cpu0_itag_ram2_pend" "0,1" bitfld.long 0x0 1. "CPU0_ITAG_RAM1_ENABLE_SET,Interrupt Enable Set Register for cpu0_itag_ram1_pend" "0,1" newline bitfld.long 0x0 0. "CPU0_ITAG_RAM0_ENABLE_SET,Interrupt Enable Set Register for cpu0_itag_ram0_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 28. "CPU0_AXI2VBUSM_MEM_MST_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_axi2vbusm_mem_mst_ramecc_pend" "0,1" bitfld.long 0x0 27. "CPU0_KS_VIM_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ks_vim_ramecc_pend" "0,1" newline bitfld.long 0x0 26. "B1TCM0_BANK1_ENABLE_CLR,Interrupt Enable Clear Register for b1tcm0_bank1_pend" "0,1" bitfld.long 0x0 25. "B1TCM0_BANK0_ENABLE_CLR,Interrupt Enable Clear Register for b1tcm0_bank0_pend" "0,1" newline bitfld.long 0x0 24. "B0TCM0_BANK1_ENABLE_CLR,Interrupt Enable Clear Register for b0tcm0_bank1_pend" "0,1" bitfld.long 0x0 23. "B0TCM0_BANK0_ENABLE_CLR,Interrupt Enable Clear Register for b0tcm0_bank0_pend" "0,1" newline bitfld.long 0x0 22. "ATCM0_BANK1_ENABLE_CLR,Interrupt Enable Clear Register for atcm0_bank1_pend" "0,1" bitfld.long 0x0 21. "ATCM0_BANK0_ENABLE_CLR,Interrupt Enable Clear Register for atcm0_bank0_pend" "0,1" newline bitfld.long 0x0 20. "CPU0_DDATA_RAM7_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram7_pend" "0,1" bitfld.long 0x0 19. "CPU0_DDATA_RAM6_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram6_pend" "0,1" newline bitfld.long 0x0 18. "CPU0_DDATA_RAM5_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram5_pend" "0,1" bitfld.long 0x0 17. "CPU0_DDATA_RAM4_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram4_pend" "0,1" newline bitfld.long 0x0 16. "CPU0_DDATA_RAM3_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram3_pend" "0,1" bitfld.long 0x0 15. "CPU0_DDATA_RAM2_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram2_pend" "0,1" newline bitfld.long 0x0 14. "CPU0_DDATA_RAM1_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram1_pend" "0,1" bitfld.long 0x0 13. "CPU0_DDATA_RAM0_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram0_pend" "0,1" newline bitfld.long 0x0 12. "CPU0_DDIRTY_RAM_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddirty_ram_pend" "0,1" bitfld.long 0x0 11. "CPU0_DTAG_RAM3_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_dtag_ram3_pend" "0,1" newline bitfld.long 0x0 10. "CPU0_DTAG_RAM2_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_dtag_ram2_pend" "0,1" bitfld.long 0x0 9. "CPU0_DTAG_RAM1_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_dtag_ram1_pend" "0,1" newline bitfld.long 0x0 8. "CPU0_DTAG_RAM0_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_dtag_ram0_pend" "0,1" bitfld.long 0x0 7. "CPU0_IDATA_BANK3_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_idata_bank3_pend" "0,1" newline bitfld.long 0x0 6. "CPU0_IDATA_BANK2_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_idata_bank2_pend" "0,1" bitfld.long 0x0 5. "CPU0_IDATA_BANK1_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_idata_bank1_pend" "0,1" newline bitfld.long 0x0 4. "CPU0_IDATA_BANK0_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_idata_bank0_pend" "0,1" bitfld.long 0x0 3. "CPU0_ITAG_RAM3_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_itag_ram3_pend" "0,1" newline bitfld.long 0x0 2. "CPU0_ITAG_RAM2_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_itag_ram2_pend" "0,1" bitfld.long 0x0 1. "CPU0_ITAG_RAM1_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_itag_ram1_pend" "0,1" newline bitfld.long 0x0 0. "CPU0_ITAG_RAM0_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_itag_ram0_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "CPU0_ECC_AGGR__CFG__REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 28. "CPU0_AXI2VBUSM_MEM_MST_RAMECC_PEND,Interrupt Pending Status for cpu0_axi2vbusm_mem_mst_ramecc_pend" "0,1" bitfld.long 0x4 27. "CPU0_KS_VIM_RAMECC_PEND,Interrupt Pending Status for cpu0_ks_vim_ramecc_pend" "0,1" newline bitfld.long 0x4 26. "B1TCM0_BANK1_PEND,Interrupt Pending Status for b1tcm0_bank1_pend" "0,1" bitfld.long 0x4 25. "B1TCM0_BANK0_PEND,Interrupt Pending Status for b1tcm0_bank0_pend" "0,1" newline bitfld.long 0x4 24. "B0TCM0_BANK1_PEND,Interrupt Pending Status for b0tcm0_bank1_pend" "0,1" bitfld.long 0x4 23. "B0TCM0_BANK0_PEND,Interrupt Pending Status for b0tcm0_bank0_pend" "0,1" newline bitfld.long 0x4 22. "ATCM0_BANK1_PEND,Interrupt Pending Status for atcm0_bank1_pend" "0,1" bitfld.long 0x4 21. "ATCM0_BANK0_PEND,Interrupt Pending Status for atcm0_bank0_pend" "0,1" newline bitfld.long 0x4 20. "CPU0_DDATA_RAM7_PEND,Interrupt Pending Status for cpu0_ddata_ram7_pend" "0,1" bitfld.long 0x4 19. "CPU0_DDATA_RAM6_PEND,Interrupt Pending Status for cpu0_ddata_ram6_pend" "0,1" newline bitfld.long 0x4 18. "CPU0_DDATA_RAM5_PEND,Interrupt Pending Status for cpu0_ddata_ram5_pend" "0,1" bitfld.long 0x4 17. "CPU0_DDATA_RAM4_PEND,Interrupt Pending Status for cpu0_ddata_ram4_pend" "0,1" newline bitfld.long 0x4 16. "CPU0_DDATA_RAM3_PEND,Interrupt Pending Status for cpu0_ddata_ram3_pend" "0,1" bitfld.long 0x4 15. "CPU0_DDATA_RAM2_PEND,Interrupt Pending Status for cpu0_ddata_ram2_pend" "0,1" newline bitfld.long 0x4 14. "CPU0_DDATA_RAM1_PEND,Interrupt Pending Status for cpu0_ddata_ram1_pend" "0,1" bitfld.long 0x4 13. "CPU0_DDATA_RAM0_PEND,Interrupt Pending Status for cpu0_ddata_ram0_pend" "0,1" newline bitfld.long 0x4 12. "CPU0_DDIRTY_RAM_PEND,Interrupt Pending Status for cpu0_ddirty_ram_pend" "0,1" bitfld.long 0x4 11. "CPU0_DTAG_RAM3_PEND,Interrupt Pending Status for cpu0_dtag_ram3_pend" "0,1" newline bitfld.long 0x4 10. "CPU0_DTAG_RAM2_PEND,Interrupt Pending Status for cpu0_dtag_ram2_pend" "0,1" bitfld.long 0x4 9. "CPU0_DTAG_RAM1_PEND,Interrupt Pending Status for cpu0_dtag_ram1_pend" "0,1" newline bitfld.long 0x4 8. "CPU0_DTAG_RAM0_PEND,Interrupt Pending Status for cpu0_dtag_ram0_pend" "0,1" bitfld.long 0x4 7. "CPU0_IDATA_BANK3_PEND,Interrupt Pending Status for cpu0_idata_bank3_pend" "0,1" newline bitfld.long 0x4 6. "CPU0_IDATA_BANK2_PEND,Interrupt Pending Status for cpu0_idata_bank2_pend" "0,1" bitfld.long 0x4 5. "CPU0_IDATA_BANK1_PEND,Interrupt Pending Status for cpu0_idata_bank1_pend" "0,1" newline bitfld.long 0x4 4. "CPU0_IDATA_BANK0_PEND,Interrupt Pending Status for cpu0_idata_bank0_pend" "0,1" bitfld.long 0x4 3. "CPU0_ITAG_RAM3_PEND,Interrupt Pending Status for cpu0_itag_ram3_pend" "0,1" newline bitfld.long 0x4 2. "CPU0_ITAG_RAM2_PEND,Interrupt Pending Status for cpu0_itag_ram2_pend" "0,1" bitfld.long 0x4 1. "CPU0_ITAG_RAM1_PEND,Interrupt Pending Status for cpu0_itag_ram1_pend" "0,1" newline bitfld.long 0x4 0. "CPU0_ITAG_RAM0_PEND,Interrupt Pending Status for cpu0_itag_ram0_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 28. "CPU0_AXI2VBUSM_MEM_MST_RAMECC_ENABLE_SET,Interrupt Enable Set Register for cpu0_axi2vbusm_mem_mst_ramecc_pend" "0,1" bitfld.long 0x0 27. "CPU0_KS_VIM_RAMECC_ENABLE_SET,Interrupt Enable Set Register for cpu0_ks_vim_ramecc_pend" "0,1" newline bitfld.long 0x0 26. "B1TCM0_BANK1_ENABLE_SET,Interrupt Enable Set Register for b1tcm0_bank1_pend" "0,1" bitfld.long 0x0 25. "B1TCM0_BANK0_ENABLE_SET,Interrupt Enable Set Register for b1tcm0_bank0_pend" "0,1" newline bitfld.long 0x0 24. "B0TCM0_BANK1_ENABLE_SET,Interrupt Enable Set Register for b0tcm0_bank1_pend" "0,1" bitfld.long 0x0 23. "B0TCM0_BANK0_ENABLE_SET,Interrupt Enable Set Register for b0tcm0_bank0_pend" "0,1" newline bitfld.long 0x0 22. "ATCM0_BANK1_ENABLE_SET,Interrupt Enable Set Register for atcm0_bank1_pend" "0,1" bitfld.long 0x0 21. "ATCM0_BANK0_ENABLE_SET,Interrupt Enable Set Register for atcm0_bank0_pend" "0,1" newline bitfld.long 0x0 20. "CPU0_DDATA_RAM7_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram7_pend" "0,1" bitfld.long 0x0 19. "CPU0_DDATA_RAM6_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram6_pend" "0,1" newline bitfld.long 0x0 18. "CPU0_DDATA_RAM5_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram5_pend" "0,1" bitfld.long 0x0 17. "CPU0_DDATA_RAM4_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram4_pend" "0,1" newline bitfld.long 0x0 16. "CPU0_DDATA_RAM3_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram3_pend" "0,1" bitfld.long 0x0 15. "CPU0_DDATA_RAM2_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram2_pend" "0,1" newline bitfld.long 0x0 14. "CPU0_DDATA_RAM1_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram1_pend" "0,1" bitfld.long 0x0 13. "CPU0_DDATA_RAM0_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddata_ram0_pend" "0,1" newline bitfld.long 0x0 12. "CPU0_DDIRTY_RAM_ENABLE_SET,Interrupt Enable Set Register for cpu0_ddirty_ram_pend" "0,1" bitfld.long 0x0 11. "CPU0_DTAG_RAM3_ENABLE_SET,Interrupt Enable Set Register for cpu0_dtag_ram3_pend" "0,1" newline bitfld.long 0x0 10. "CPU0_DTAG_RAM2_ENABLE_SET,Interrupt Enable Set Register for cpu0_dtag_ram2_pend" "0,1" bitfld.long 0x0 9. "CPU0_DTAG_RAM1_ENABLE_SET,Interrupt Enable Set Register for cpu0_dtag_ram1_pend" "0,1" newline bitfld.long 0x0 8. "CPU0_DTAG_RAM0_ENABLE_SET,Interrupt Enable Set Register for cpu0_dtag_ram0_pend" "0,1" bitfld.long 0x0 7. "CPU0_IDATA_BANK3_ENABLE_SET,Interrupt Enable Set Register for cpu0_idata_bank3_pend" "0,1" newline bitfld.long 0x0 6. "CPU0_IDATA_BANK2_ENABLE_SET,Interrupt Enable Set Register for cpu0_idata_bank2_pend" "0,1" bitfld.long 0x0 5. "CPU0_IDATA_BANK1_ENABLE_SET,Interrupt Enable Set Register for cpu0_idata_bank1_pend" "0,1" newline bitfld.long 0x0 4. "CPU0_IDATA_BANK0_ENABLE_SET,Interrupt Enable Set Register for cpu0_idata_bank0_pend" "0,1" bitfld.long 0x0 3. "CPU0_ITAG_RAM3_ENABLE_SET,Interrupt Enable Set Register for cpu0_itag_ram3_pend" "0,1" newline bitfld.long 0x0 2. "CPU0_ITAG_RAM2_ENABLE_SET,Interrupt Enable Set Register for cpu0_itag_ram2_pend" "0,1" bitfld.long 0x0 1. "CPU0_ITAG_RAM1_ENABLE_SET,Interrupt Enable Set Register for cpu0_itag_ram1_pend" "0,1" newline bitfld.long 0x0 0. "CPU0_ITAG_RAM0_ENABLE_SET,Interrupt Enable Set Register for cpu0_itag_ram0_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 28. "CPU0_AXI2VBUSM_MEM_MST_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_axi2vbusm_mem_mst_ramecc_pend" "0,1" bitfld.long 0x0 27. "CPU0_KS_VIM_RAMECC_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ks_vim_ramecc_pend" "0,1" newline bitfld.long 0x0 26. "B1TCM0_BANK1_ENABLE_CLR,Interrupt Enable Clear Register for b1tcm0_bank1_pend" "0,1" bitfld.long 0x0 25. "B1TCM0_BANK0_ENABLE_CLR,Interrupt Enable Clear Register for b1tcm0_bank0_pend" "0,1" newline bitfld.long 0x0 24. "B0TCM0_BANK1_ENABLE_CLR,Interrupt Enable Clear Register for b0tcm0_bank1_pend" "0,1" bitfld.long 0x0 23. "B0TCM0_BANK0_ENABLE_CLR,Interrupt Enable Clear Register for b0tcm0_bank0_pend" "0,1" newline bitfld.long 0x0 22. "ATCM0_BANK1_ENABLE_CLR,Interrupt Enable Clear Register for atcm0_bank1_pend" "0,1" bitfld.long 0x0 21. "ATCM0_BANK0_ENABLE_CLR,Interrupt Enable Clear Register for atcm0_bank0_pend" "0,1" newline bitfld.long 0x0 20. "CPU0_DDATA_RAM7_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram7_pend" "0,1" bitfld.long 0x0 19. "CPU0_DDATA_RAM6_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram6_pend" "0,1" newline bitfld.long 0x0 18. "CPU0_DDATA_RAM5_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram5_pend" "0,1" bitfld.long 0x0 17. "CPU0_DDATA_RAM4_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram4_pend" "0,1" newline bitfld.long 0x0 16. "CPU0_DDATA_RAM3_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram3_pend" "0,1" bitfld.long 0x0 15. "CPU0_DDATA_RAM2_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram2_pend" "0,1" newline bitfld.long 0x0 14. "CPU0_DDATA_RAM1_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram1_pend" "0,1" bitfld.long 0x0 13. "CPU0_DDATA_RAM0_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddata_ram0_pend" "0,1" newline bitfld.long 0x0 12. "CPU0_DDIRTY_RAM_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_ddirty_ram_pend" "0,1" bitfld.long 0x0 11. "CPU0_DTAG_RAM3_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_dtag_ram3_pend" "0,1" newline bitfld.long 0x0 10. "CPU0_DTAG_RAM2_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_dtag_ram2_pend" "0,1" bitfld.long 0x0 9. "CPU0_DTAG_RAM1_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_dtag_ram1_pend" "0,1" newline bitfld.long 0x0 8. "CPU0_DTAG_RAM0_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_dtag_ram0_pend" "0,1" bitfld.long 0x0 7. "CPU0_IDATA_BANK3_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_idata_bank3_pend" "0,1" newline bitfld.long 0x0 6. "CPU0_IDATA_BANK2_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_idata_bank2_pend" "0,1" bitfld.long 0x0 5. "CPU0_IDATA_BANK1_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_idata_bank1_pend" "0,1" newline bitfld.long 0x0 4. "CPU0_IDATA_BANK0_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_idata_bank0_pend" "0,1" bitfld.long 0x0 3. "CPU0_ITAG_RAM3_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_itag_ram3_pend" "0,1" newline bitfld.long 0x0 2. "CPU0_ITAG_RAM2_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_itag_ram2_pend" "0,1" bitfld.long 0x0 1. "CPU0_ITAG_RAM1_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_itag_ram1_pend" "0,1" newline bitfld.long 0x0 0. "CPU0_ITAG_RAM0_ENABLE_CLR,Interrupt Enable Clear Register for cpu0_itag_ram0_pend" "0,1" group.long 0x200++0xF line.long 0x0 "CPU0_ECC_AGGR__CFG__REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "CPU0_ECC_AGGR__CFG__REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "CPU0_ECC_AGGR__CFG__REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "CPU0_ECC_AGGR__CFG__REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end tree "WKUP_R5FSS0_COMMON0_EVNT_BUS_VBUSP_MMRS (WKUP_R5FSS0_COMMON0_EVNT_BUS_VBUSP_MMRS)" base ad:0x3C018000 group.long 0x0++0x3 line.long 0x0 "EVNT_BUS__VBUSP__MMRS_DISABLE_CR,This register contains config bits to enable or disable change requests added to the IP" bitfld.long 0x0 0. "COMBINE_TCM_LOCKSTEP_MODE,this bit disables the CR logic to combine TCM in lockstep mode" "0,1" rgroup.long 0x4++0x13 line.long 0x0 "EVNT_BUS__VBUSP__MMRS_PULSAR_CPU0_EVNT_BUS_SB_ERR_CNT_STATUS,Status bits showing the PULSAR CPU0 EVNT_BUS single bit error counters" bitfld.long 0x0 16.--17. "EVNT_BUS8,Status bits showing the PULSAR CPU0 EVNT 8 single bit error counter." "0,1,2,3" bitfld.long 0x0 14.--15. "EVNT_BUS7,Status bits showing the PULSAR CPU0 EVNT 7 single bit error counter." "0,1,2,3" newline bitfld.long 0x0 12.--13. "EVNT_BUS6,Status bits showing the PULSAR CPU0 EVNT 6 single bit error counter." "0,1,2,3" bitfld.long 0x0 10.--11. "EVNT_BUS5,Status bits showing the PULSAR CPU0 EVNT 5 single bit error counter." "0,1,2,3" newline bitfld.long 0x0 8.--9. "EVNT_BUS4,Status bits showing the PULSAR CPU0 EVNT 4 single bit error counter." "0,1,2,3" bitfld.long 0x0 6.--7. "EVNT_BUS3,Status bits showing the PULSAR CPU0 EVNT 3 single bit error counter." "0,1,2,3" newline bitfld.long 0x0 4.--5. "EVNT_BUS2,Status bits showing the PULSAR CPU0 EVNT 2 single bit error counter." "0,1,2,3" bitfld.long 0x0 2.--3. "EVNT_BUS1,Status bits showing the PULSAR CPU0 EVNT 1 single bit error counter." "0,1,2,3" newline bitfld.long 0x0 0.--1. "EVNT_BUS0,Status bits showing the PULSAR CPU0 EVNT 0 single bit error counter." "0,1,2,3" line.long 0x4 "EVNT_BUS__VBUSP__MMRS_PULSAR_CPU1_EVNT_BUS_SB_ERR_CNT_STATUS,Status bits showing the PULSAR CPU1 EVNT_BUS single bit error counters" bitfld.long 0x4 16.--17. "EVNT_BUS8,Status bits showing the PULSAR CPU1 EVNT 8 single bit error counter." "0,1,2,3" bitfld.long 0x4 14.--15. "EVNT_BUS7,Status bits showing the PULSAR CPU1 EVNT 7 single bit error counter." "0,1,2,3" newline bitfld.long 0x4 12.--13. "EVNT_BUS6,Status bits showing the PULSAR CPU1 EVNT 6 single bit error counter." "0,1,2,3" bitfld.long 0x4 10.--11. "EVNT_BUS5,Status bits showing the PULSAR CPU1 EVNT 5 single bit error counter." "0,1,2,3" newline bitfld.long 0x4 8.--9. "EVNT_BUS4,Status bits showing the PULSAR CPU1 EVNT 4 single bit error counter." "0,1,2,3" bitfld.long 0x4 6.--7. "EVNT_BUS3,Status bits showing the PULSAR CPU1 EVNT 3 single bit error counter." "0,1,2,3" newline bitfld.long 0x4 4.--5. "EVNT_BUS2,Status bits showing the PULSAR CPU1 EVNT 2 single bit error counter." "0,1,2,3" bitfld.long 0x4 2.--3. "EVNT_BUS1,Status bits showing the PULSAR CPU1 EVNT 1 single bit error counter." "0,1,2,3" newline bitfld.long 0x4 0.--1. "EVNT_BUS0,Status bits showing the PULSAR CPU1 EVNT 0 single bit error counter." "0,1,2,3" line.long 0x8 "EVNT_BUS__VBUSP__MMRS_PULSAR_CPU0_EVNT_BUS_MB_ERR_CNT_STATUS,Status bits showing the PULSAR CPU0 EVNT_BUS multi bit error counters" bitfld.long 0x8 12.--13. "EVNT_BUS6,Status bits showing the PULSAR CPU0 EVNT 6 multi bit error counter." "0,1,2,3" bitfld.long 0x8 10.--11. "EVNT_BUS5,Status bits showing the PULSAR CPU0 EVNT 5 multi bit error counter." "0,1,2,3" newline bitfld.long 0x8 8.--9. "EVNT_BUS4,Status bits showing the PULSAR CPU0 EVNT 4 multi bit error counter." "0,1,2,3" bitfld.long 0x8 6.--7. "EVNT_BUS3,Status bits showing the PULSAR CPU0 EVNT 3 multi bit error counter." "0,1,2,3" newline bitfld.long 0x8 4.--5. "EVNT_BUS2,Status bits showing the PULSAR CPU0 EVNT 2 multi bit error counter." "0,1,2,3" bitfld.long 0x8 2.--3. "EVNT_BUS1,Status bits showing the PULSAR CPU0 EVNT 1 multi bit error counter." "0,1,2,3" newline bitfld.long 0x8 0.--1. "EVNT_BUS0,Status bits showing the PULSAR CPU0 EVNT 0 multi bit error counter." "0,1,2,3" line.long 0xC "EVNT_BUS__VBUSP__MMRS_PULSAR_CPU1_EVNT_BUS_MB_ERR_CNT_STATUS,Status bits showing the PULSAR CPU1 EVNT_BUS multi bit error counters" bitfld.long 0xC 12.--13. "EVNT_BUS6,Status bits showing the PULSAR CPU1 EVNT 6 multi bit error counter." "0,1,2,3" bitfld.long 0xC 10.--11. "EVNT_BUS5,Status bits showing the PULSAR CPU1 EVNT 5 multi bit error counter." "0,1,2,3" newline bitfld.long 0xC 8.--9. "EVNT_BUS4,Status bits showing the PULSAR CPU1 EVNT 4 multi bit error counter." "0,1,2,3" bitfld.long 0xC 6.--7. "EVNT_BUS3,Status bits showing the PULSAR CPU1 EVNT 3 multi bit error counter." "0,1,2,3" newline bitfld.long 0xC 4.--5. "EVNT_BUS2,Status bits showing the PULSAR CPU1 EVNT 2 multi bit error counter." "0,1,2,3" bitfld.long 0xC 2.--3. "EVNT_BUS1,Status bits showing the PULSAR CPU1 EVNT 1 multi bit error counter." "0,1,2,3" newline bitfld.long 0xC 0.--1. "EVNT_BUS0,Status bits showing the PULSAR CPU1 EVNT 0 multi bit error counter." "0,1,2,3" line.long 0x10 "EVNT_BUS__VBUSP__MMRS_PULSAR_EVNT_BUS_ESM_STATUS,ESM status bits for the PULSAR EVNT BUS" bitfld.long 0x10 3. "CPU1_MULTIPLE_BIT_ERROR,ESM status of CPU1 multiple bit errors on EVNT BUS" "0,1" bitfld.long 0x10 2. "CPU1_SINGLE_BIT_ERROR,ESM status of CPU1 single bit errors on EVNT BUS" "0,1" newline bitfld.long 0x10 1. "CPU0_MULTIPLE_BIT_ERROR,ESM status of CPU0 multiple bit errors on EVNT BUS" "0,1" bitfld.long 0x10 0. "CPU0_SINGLE_BIT_ERROR,ESM status of CPU0 single bit errors on EVNT BUS" "0,1" group.long 0x18++0xF line.long 0x0 "EVNT_BUS__VBUSP__MMRS_PULSAR_EVNT_BUS_ESM_SET,SET the PULSAR EVNT BUS ESM events" bitfld.long 0x0 3. "CPU1_MULTIPLE_BIT_ERROR,SET CPU1 multiple bit errors ESM event" "0,1" bitfld.long 0x0 2. "CPU1_SINGLE_BIT_ERROR,SET CPU1 single bit errors ESM event" "0,1" newline bitfld.long 0x0 1. "CPU0_MULTIPLE_BIT_ERROR,SET CPU0 multiple bit error ESM event" "0,1" bitfld.long 0x0 0. "CPU0_SINGLE_BIT_ERROR,SET CPU0 single bit error ESM event" "0,1" line.long 0x4 "EVNT_BUS__VBUSP__MMRS_PULSAR_EVNT_BUS_ESM_CLR,RESET the PULSAR EVNT BUS ESM events" bitfld.long 0x4 31. "CPU1_EB6_MULTIPLE_BIT_ERROR,Decrement CPU1 Event Bus 31 MULTIPLE BIT Error Counter" "0,1" bitfld.long 0x4 30. "CPU1_EB5_MULTIPLE_BIT_ERROR,Decrement CPU1 Event Bus 30 MULTIPLE BIT Error Counter" "0,1" newline bitfld.long 0x4 29. "CPU1_EB4_MULTIPLE_BIT_ERROR,Decrement CPU1 Event Bus 29 MULTIPLE BIT Error Counter" "0,1" bitfld.long 0x4 28. "CPU1_EB3_MULTIPLE_BIT_ERROR,Decrement CPU1 Event Bus 28 MULTIPLE BIT Error Counter" "0,1" newline bitfld.long 0x4 27. "CPU1_EB2_MULTIPLE_BIT_ERROR,Decrement CPU1 Event Bus 27 MULTIPLE BIT Error Counter" "0,1" bitfld.long 0x4 26. "CPU1_EB1_MULTIPLE_BIT_ERROR,Decrement CPU1 Event Bus 26 MULTIPLE BIT Error Counter" "0,1" newline bitfld.long 0x4 25. "CPU1_EB0_MULTIPLE_BIT_ERROR,Decrement CPU1 Event Bus 25 MULTIPLE BIT Error Counter" "0,1" bitfld.long 0x4 24. "CPU1_EB8_SINGLE_BIT_ERROR,Decrement CPU1 Event Bus 24 SINGLE BIT Error Counter" "0,1" newline bitfld.long 0x4 23. "CPU1_EB7_SINGLE_BIT_ERROR,Decrement CPU1 Event Bus 23 SINGLE BIT Error Counter" "0,1" bitfld.long 0x4 22. "CPU1_EB6_SINGLE_BIT_ERROR,Decrement CPU1 Event Bus 22 SINGLE BIT Error Counter" "0,1" newline bitfld.long 0x4 21. "CPU1_EB5_SINGLE_BIT_ERROR,Decrement CPU1 Event Bus 21 SINGLE BIT Error Counter" "0,1" bitfld.long 0x4 20. "CPU1_EB4_SINGLE_BIT_ERROR,Decrement CPU1 Event Bus 20 SINGLE BIT Error Counter" "0,1" newline bitfld.long 0x4 19. "CPU1_EB3_SINGLE_BIT_ERROR,Decrement CPU1 Event Bus 19 SINGLE BIT Error Counter" "0,1" bitfld.long 0x4 18. "CPU1_EB2_SINGLE_BIT_ERROR,Decrement CPU1 Event Bus 18 SINGLE BIT Error Counter" "0,1" newline bitfld.long 0x4 17. "CPU1_EB1_SINGLE_BIT_ERROR,Decrement CPU1 Event Bus 17 SINGLE BIT Error Counter" "0,1" bitfld.long 0x4 16. "CPU1_EB0_SINGLE_BIT_ERROR,Decrement CPU1 Event Bus 16 SINGLE BIT Error Counter" "0,1" newline bitfld.long 0x4 15. "CPU0_EB6_MULTIPLE_BIT_ERROR,Decrement CPU0 Event Bus 15 MULTIPLE BIT Error Counter" "0,1" bitfld.long 0x4 14. "CPU0_EB5_MULTIPLE_BIT_ERROR,Decrement CPU0 Event Bus 14 MULTIPLE BIT Error Counter" "0,1" newline bitfld.long 0x4 13. "CPU0_EB4_MULTIPLE_BIT_ERROR,Decrement CPU0 Event Bus 13 MULTIPLE BIT Error Counter" "0,1" bitfld.long 0x4 12. "CPU0_EB3_MULTIPLE_BIT_ERROR,Decrement CPU0 Event Bus 12 MULTIPLE BIT Error Counter" "0,1" newline bitfld.long 0x4 11. "CPU0_EB2_MULTIPLE_BIT_ERROR,Decrement CPU0 Event Bus 11 MULTIPLE BIT Error Counter" "0,1" bitfld.long 0x4 10. "CPU0_EB1_MULTIPLE_BIT_ERROR,Decrement CPU0 Event Bus 10 MULTIPLE BIT Error Counter" "0,1" newline bitfld.long 0x4 9. "CPU0_EB0_MULTIPLE_BIT_ERROR,Decrement CPU0 Event Bus 9 MULTIPLE BIT Error Counter" "0,1" bitfld.long 0x4 8. "CPU0_EB8_SINGLE_BIT_ERROR,Decrement CPU0 Event Bus 8 SINGLE BIT Error Counter" "0,1" newline bitfld.long 0x4 7. "CPU0_EB7_SINGLE_BIT_ERROR,Decrement CPU0 Event Bus 7 SINGLE BIT Error Counter" "0,1" bitfld.long 0x4 6. "CPU0_EB6_SINGLE_BIT_ERROR,Decrement CPU0 Event Bus 6 SINGLE BIT Error Counter" "0,1" newline bitfld.long 0x4 5. "CPU0_EB5_SINGLE_BIT_ERROR,Decrement CPU0 Event Bus 5 SINGLE BIT Error Counter" "0,1" bitfld.long 0x4 4. "CPU0_EB4_SINGLE_BIT_ERROR,Decrement CPU0 Event Bus 4 SINGLE BIT Error Counter" "0,1" newline bitfld.long 0x4 3. "CPU0_EB3_SINGLE_BIT_ERROR,Decrement CPU0 Event Bus 3 SINGLE BIT Error Counter" "0,1" bitfld.long 0x4 2. "CPU0_EB2_SINGLE_BIT_ERROR,Decrement CPU0 Event Bus 2 SINGLE BIT Error Counter" "0,1" newline bitfld.long 0x4 1. "CPU0_EB1_SINGLE_BIT_ERROR,Decrement CPU0 Event Bus 1 SINGLE BIT Error Counter" "0,1" bitfld.long 0x4 0. "CPU0_EB0_SINGLE_BIT_ERROR,Decrement CPU0 Event Bus 0 SINGLE BIT Error Counter" "0,1" line.long 0x8 "EVNT_BUS__VBUSP__MMRS_PULSAR_EVNT_BUS_MASK_ESM_SET,MASK the PULSAR EVNT BUS ESM events" bitfld.long 0x8 3. "CPU1_MULTIPLE_BIT_ERROR,MASK CPU1 multiple bit errors ESM event" "0,1" bitfld.long 0x8 2. "CPU1_SINGLE_BIT_ERROR,MASK CPU1 single bit errors ESM event" "0,1" newline bitfld.long 0x8 1. "CPU0_MULTIPLE_BIT_ERROR,MASK CPU0 multiple bit error ESM event" "0,1" bitfld.long 0x8 0. "CPU0_SINGLE_BIT_ERROR,MASK CPU0 single bit error ESM event" "0,1" line.long 0xC "EVNT_BUS__VBUSP__MMRS_PULSAR_EVNT_BUS_MASK_ESM_CLR,UNMASK the PULSAR EVNT BUS ESM events" bitfld.long 0xC 3. "CPU1_MULTIPLE_BIT_ERROR,UNMASK CPU1 multiple bit errors ESM event" "0,1" bitfld.long 0xC 2. "CPU1_SINGLE_BIT_ERROR,UNMASK CPU1 single bit errors ESM event" "0,1" newline bitfld.long 0xC 1. "CPU0_MULTIPLE_BIT_ERROR,UNMASK CPU0 multiple bit error ESM event" "0,1" bitfld.long 0xC 0. "CPU0_SINGLE_BIT_ERROR,UNMASK CPU0 single bit error ESM event" "0,1" rgroup.long 0x40++0x3 line.long 0x0 "EVNT_BUS__VBUSP__MMRS_PULSAR_EVT_BUS_REVID,Module ID register" hexmask.long.word 0x0 16.--31. 1. "MODID,Module ID field" hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL revision. Will vary depending on release" newline bitfld.long 0x0 8.--10. "REVMAJ,Major revision" "0,1,2,3,4,5,6,7" bitfld.long 0x0 6.--7. "CUSTOM,Custom" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor revision" tree.end tree.end endif sif (cpuis("AM62PX-CR5-DM")) tree "WKUP_VTM0" base ad:0x0 tree "WKUP_VTM0_ECCAGGR_CFG (WKUP_VTM0_ECCAGGR_CFG)" base ad:0xB02000 rgroup.long 0x0++0x3 line.long 0x0 "__ECCAGGR_CFG__REGS_aggr_revision,Revision parameters" bitfld.long 0x0 30.--31. "SCHEME,Scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,bu" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "MODULE_ID,Module ID" newline hexmask.long.byte 0x0 11.--15. 1. "REVRTL,RTL version" newline bitfld.long 0x0 8.--10. "REVMAJ,Major version" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom version" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "REVMIN,Minor version" group.long 0x8++0x3 line.long 0x0 "__ECCAGGR_CFG__REGS_ecc_vector,ECC Vector Register" bitfld.long 0x0 24. "RD_SVBUS_DONE,Status to indicate if read on serial VBUS is complete write of any value will clear this bit." "0,1" newline hexmask.long.byte 0x0 16.--23. 1. "RD_SVBUS_ADDRESS,Read address" newline bitfld.long 0x0 15. "RD_SVBUS,Write 1 to trigger a read on the serial VBUS" "0,1" newline hexmask.long.word 0x0 0.--10. 1. "ECC_VECTOR,Value written to select the corresponding ECC RAM for control or status" rgroup.long 0xC++0x3 line.long 0x0 "__ECCAGGR_CFG__REGS_misc_status,Misc Status" hexmask.long.word 0x0 0.--10. 1. "NUM_RAMS,Indicates the number of RAMS serviced by the ECC aggregator" group.long 0x10++0x3 line.long 0x0 "__ECCAGGR_CFG__REGS_reserved_svbus,Reference other documents that contain the ECC RAM wrapper and EDC controller serial vbus register sets." hexmask.long 0x0 0.--31. 1. "DATA,Serial VBUS register data" group.long 0x3C++0x7 line.long 0x0 "__ECCAGGR_CFG__REGS_sec_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "__ECCAGGR_CFG__REGS_sec_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 3. "K3VTM_N16FFC_CFG_CBASS_CFG_SCR_SCR_K3VTM_N16FFC_CFG_CBASS_CFG_SCR_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for k3vtm_n16ffc_cfg_cbass_cfg_scr_scr_k3vtm_n16ffc_cfg_cbass_cfg_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 2. "K3VTM_N16FFC_CFG_CBASS_VBUSP_P2P_BRIDGE_VBUSP_BRIDGE_BUSECC_PEND,Interrupt Pending Status for k3vtm_n16ffc_cfg_cbass_vbusp_p2p_bridge_vbusp_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 1. "K3VTM_N16FFC_MMR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for k3vtm_n16ffc_mmr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 0. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" group.long 0x80++0x3 line.long 0x0 "__ECCAGGR_CFG__REGS_sec_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 3. "K3VTM_N16FFC_CFG_CBASS_CFG_SCR_SCR_K3VTM_N16FFC_CFG_CBASS_CFG_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for k3vtm_n16ffc_cfg_cbass_cfg_scr_scr_k3vtm_n16ffc_cfg_cbass_cfg_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 2. "K3VTM_N16FFC_CFG_CBASS_VBUSP_P2P_BRIDGE_VBUSP_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for k3vtm_n16ffc_cfg_cbass_vbusp_p2p_bridge_vbusp_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 1. "K3VTM_N16FFC_MMR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for k3vtm_n16ffc_mmr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 0. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" group.long 0xC0++0x3 line.long 0x0 "__ECCAGGR_CFG__REGS_sec_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 3. "K3VTM_N16FFC_CFG_CBASS_CFG_SCR_SCR_K3VTM_N16FFC_CFG_CBASS_CFG_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for k3vtm_n16ffc_cfg_cbass_cfg_scr_scr_k3vtm_n16ffc_cfg_cbass_cfg_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 2. "K3VTM_N16FFC_CFG_CBASS_VBUSP_P2P_BRIDGE_VBUSP_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for k3vtm_n16ffc_cfg_cbass_vbusp_p2p_bridge_vbusp_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 1. "K3VTM_N16FFC_MMR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for k3vtm_n16ffc_mmr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 0. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" group.long 0x13C++0x7 line.long 0x0 "__ECCAGGR_CFG__REGS_ded_eoi_reg,EOI Register" bitfld.long 0x0 0. "EOI_WR,EOI Register" "0,1" line.long 0x4 "__ECCAGGR_CFG__REGS_ded_status_reg0,Interrupt Status Register 0" bitfld.long 0x4 3. "K3VTM_N16FFC_CFG_CBASS_CFG_SCR_SCR_K3VTM_N16FFC_CFG_CBASS_CFG_SCR_SCR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for k3vtm_n16ffc_cfg_cbass_cfg_scr_scr_k3vtm_n16ffc_cfg_cbass_cfg_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 2. "K3VTM_N16FFC_CFG_CBASS_VBUSP_P2P_BRIDGE_VBUSP_BRIDGE_BUSECC_PEND,Interrupt Pending Status for k3vtm_n16ffc_cfg_cbass_vbusp_p2p_bridge_vbusp_bridge_busecc_pend" "0,1" newline bitfld.long 0x4 1. "K3VTM_N16FFC_MMR_EDC_CTRL_BUSECC_PEND,Interrupt Pending Status for k3vtm_n16ffc_mmr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x4 0. "ECCAGG_PEND,Interrupt Pending Status for eccagg_pend" "0,1" group.long 0x180++0x3 line.long 0x0 "__ECCAGGR_CFG__REGS_ded_enable_set_reg0,Interrupt Enable Set Register 0" bitfld.long 0x0 3. "K3VTM_N16FFC_CFG_CBASS_CFG_SCR_SCR_K3VTM_N16FFC_CFG_CBASS_CFG_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for k3vtm_n16ffc_cfg_cbass_cfg_scr_scr_k3vtm_n16ffc_cfg_cbass_cfg_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 2. "K3VTM_N16FFC_CFG_CBASS_VBUSP_P2P_BRIDGE_VBUSP_BRIDGE_BUSECC_ENABLE_SET,Interrupt Enable Set Register for k3vtm_n16ffc_cfg_cbass_vbusp_p2p_bridge_vbusp_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 1. "K3VTM_N16FFC_MMR_EDC_CTRL_BUSECC_ENABLE_SET,Interrupt Enable Set Register for k3vtm_n16ffc_mmr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 0. "ECCAGG_ENABLE_SET,Interrupt Enable Set Register for eccagg_pend" "0,1" group.long 0x1C0++0x3 line.long 0x0 "__ECCAGGR_CFG__REGS_ded_enable_clr_reg0,Interrupt Enable Clear Register 0" bitfld.long 0x0 3. "K3VTM_N16FFC_CFG_CBASS_CFG_SCR_SCR_K3VTM_N16FFC_CFG_CBASS_CFG_SCR_SCR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for k3vtm_n16ffc_cfg_cbass_cfg_scr_scr_k3vtm_n16ffc_cfg_cbass_cfg_scr_scr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 2. "K3VTM_N16FFC_CFG_CBASS_VBUSP_P2P_BRIDGE_VBUSP_BRIDGE_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for k3vtm_n16ffc_cfg_cbass_vbusp_p2p_bridge_vbusp_bridge_busecc_pend" "0,1" newline bitfld.long 0x0 1. "K3VTM_N16FFC_MMR_EDC_CTRL_BUSECC_ENABLE_CLR,Interrupt Enable Clear Register for k3vtm_n16ffc_mmr_edc_ctrl_busecc_pend" "0,1" newline bitfld.long 0x0 0. "ECCAGG_ENABLE_CLR,Interrupt Enable Clear Register for eccagg_pend" "0,1" group.long 0x200++0xF line.long 0x0 "__ECCAGGR_CFG__REGS_aggr_enable_set,AGGR interrupt enable set Register" bitfld.long 0x0 1. "TIMEOUT,interrupt enable set for svbus timeout errors" "0,1" newline bitfld.long 0x0 0. "PARITY,interrupt enable set for parity errors" "0,1" line.long 0x4 "__ECCAGGR_CFG__REGS_aggr_enable_clr,AGGR interrupt enable clear Register" bitfld.long 0x4 1. "TIMEOUT,interrupt enable clear for svbus timeout errors" "0,1" newline bitfld.long 0x4 0. "PARITY,interrupt enable clear for parity errors" "0,1" line.long 0x8 "__ECCAGGR_CFG__REGS_aggr_status_set,AGGR interrupt status set Register" bitfld.long 0x8 2.--3. "TIMEOUT,interrupt status set for svbus timeout errors" "0,1,2,3" newline bitfld.long 0x8 0.--1. "PARITY,interrupt status set for parity errors" "0,1,2,3" line.long 0xC "__ECCAGGR_CFG__REGS_aggr_status_clr,AGGR interrupt status clear Register" bitfld.long 0xC 2.--3. "TIMEOUT,interrupt status clear for svbus timeout errors" "0,1,2,3" newline bitfld.long 0xC 0.--1. "PARITY,interrupt status clear for parity errors" "0,1,2,3" tree.end base ad:0x0 tree "WKUP_VTM0_MMR_VBUSP" tree "WKUP_VTM0_MMR_VBUSP_CFG1 (WKUP_VTM0_MMR_VBUSP_CFG1)" base ad:0xB00000 rgroup.long 0x0++0x7 line.long 0x0 "MMR__VBUSP__CFG1_VTM_PID,VTM Peripheral Identification Register" bitfld.long 0x0 30.--31. "SCHEME,PID follows new scheme" "0,1,2,3" newline bitfld.long 0x0 28.--29. "BU,Business unit - Processors" "0,1,2,3" newline hexmask.long.word 0x0 16.--27. 1. "FUNC,Module functional identifier - CTRL MMR" newline hexmask.long.byte 0x0 11.--15. 1. "R_RTL,RTL revision number - actual value determined by RTL" newline bitfld.long 0x0 8.--10. "X_MAJOR,Major revision number - actual value determined by RTL" "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "CUSTOM,Custom revision number - actual value determined by RTL" "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "Y_MINOR,Minor revision number - actual value determined by RTL" line.long 0x4 "MMR__VBUSP__CFG1_VTM_DEVINFO_PWR0,Device specific voltage domain and temp sensor information register." hexmask.long.byte 0x4 16.--19. 1. "VTM_VD_MAP,Core voltage domain cVD global mapping 4-bit code in the context of this SOC. It shows in which cVD this VTM is instantiated/placed. This field indicates in which core voltage domain cVD has been physically placed this VTM. Valid values:.." newline bitfld.long 0x4 12. "VD_RTC,RTC voltage domain presence. 0: There is NO VD_RTC in this SOC. 1: There is a VD_RTC in this SOC. Reset value is a VTM tieoff d_vd_rtc." "0: There is NO VD_RTC in this SOC,1: There is a VD_RTC in this SOC" newline hexmask.long.byte 0x4 4.--7. 1. "TMPSENS_CT,Number of temperature sensors associated with this VTM. Valid values are 4'h0 - 4'h8. 0x0: NO temp-sensor associated to this VTM. 0x8: 8 temp-sensors associated to this VTM. 0x9 to 0xF: invalid values. Reset value is a VTM tieoff .." newline hexmask.long.byte 0x4 0.--3. 1. "CVD_CT,Number of core voltage domains in device. VD0 is always allocated to VD_RTC if it exists and VD1 always to VD_WKUP. The maximum number of cVDs in an SOC is 15 0xF. Reset value is a VTM tieoff d_device_cvd_ct." group.long 0x204++0x7 line.long 0x0 "MMR__VBUSP__CFG1_VTM_GT_TH1_INT_RAW_STAT_SET,Interrupt RAW event status and set MMR for interrupt GT_TH1 for each voltage domain. NOTE: This MMR and the companion MMR. VTM_GT_TH1_INT_EN_STAT_CLR are fully linked for write operation. but partially linked.." hexmask.long.byte 0x0 0.--7. 1. "INT_VD,Interrupt pending bit set for gt_th1_int from VD[7:0]. Write-operation: 0: Nothing happens. 1: Causes the interrupt flag to be set. Used to manually force/drive an interrupt pending event. Reads return the pending stats regardless of the.." line.long 0x4 "MMR__VBUSP__CFG1_VTM_GT_TH1_INT_EN_STAT_CLR,Enabled interrupt event status and clear MMR for interrupt GT_TH1 per voltage domain. NOTE: This MMR and the companion MMR. VTM_GT_TH1_INT_RAW_STAT_SET are fully linked for write operation. but partially linked.." hexmask.long.byte 0x4 0.--7. 1. "INT_VD,Interrupt masked pending bit for gt_th1_int from VD[7:0]. Write-operation: 0: Nothing happens. 1: Causes the pending bit to be cleared. Reads return the enabled pending status that includes the corresponding enable setting." group.long 0x214++0x7 line.long 0x0 "MMR__VBUSP__CFG1_VTM_GT_TH1_INT_EN_SET,Enable set MMR for interrupt GT_TH1 for each voltage domain. NOTE: This MMR and the companion MMR. VTM_GT_TH1_INT_EN_CLR are linked. which means that they are in fact a single common MMR. with 2 different write.." hexmask.long.byte 0x0 0.--7. 1. "INT_VD,Interrupt enable bit for gt_th1_int from VD[7:0]. Write-operation: 0: Nothing happens. 1: Causes the bit to be set to 1. Reads return the enable settings." line.long 0x4 "MMR__VBUSP__CFG1_VTM_GT_TH1_INT_EN_CLR,Enable clear MMR for interrupt GT_TH1 for each voltage domain. NOTE: This MMR and the companion MMR. VTM_GT_TH1_INT_EN_SET are linked. which means that they are in fact a single common MMR. with 2 different write.." hexmask.long.byte 0x4 0.--7. 1. "INT_VD,Interrupt enable bit for gt_th1_int from VD[7:0]. Write-operation: 0: Nothing happens. 1: Causes the bit to be cleared. Reads return the enable settings." group.long 0x224++0x7 line.long 0x0 "MMR__VBUSP__CFG1_VTM_GT_TH2_INT_RAW_STAT_SET,Interrupt RAW event status and set MMR for interrupt GT_TH2 for each voltage domain. NOTE: This MMR and the companion MMR. VTM_GT_TH2_INT_EN_STAT_CLR are fully linked for write operation. but partially linked.." hexmask.long.byte 0x0 0.--7. 1. "INT_VD,Interrupt pending bit set for gt_th2_int from VD[7:0]. Write-operation: 0: Nothing happens. 1: Causes the interrupt flag to be set. Used to manually force/drive an interrupt pending event. Reads return the pending status regardless of the enable.." line.long 0x4 "MMR__VBUSP__CFG1_VTM_GT_TH2_INT_EN_STAT_CLR,Enabled interrupt event status and clear MMR for interrupt GT_TH2 per voltage domain. NOTE: This MMR and the companion MMR. VTM_GT_TH2_INT_RAW_STAT_SET are fully linked for write operation. but partially linked.." hexmask.long.byte 0x4 0.--7. 1. "INT_VD,Interrupt enabled pending bit for gt_th2_int from VD[7:0]. Write-operation: 0: Nothing happens. 1: Causes the pending bit to be cleared. Reads return the enabled pending status including the corresponding enable setting." group.long 0x234++0x7 line.long 0x0 "MMR__VBUSP__CFG1_VTM_GT_TH2_INT_EN_SET,Enable set MMR for interrupt GT_TH2 for each voltage domain. NOTE: This MMR and the companion MMR. VTM_GT_TH2_INT_EN_CLR are linked. which means that they are in fact a single common MMR. with 2 different write.." hexmask.long.byte 0x0 0.--7. 1. "INT_VD,Interrupt enable bit for gt_th2_int from VD[7:0]. Write-operation: 0: Nothing happens. 1: Causes the bit to be set to 1. Reads return the enable settings." line.long 0x4 "MMR__VBUSP__CFG1_VTM_GT_TH2_INT_EN_CLR,Enable clear MMR for interrupt GT_TH2 for each voltage domain. NOTE: This MMR and the companion MMR. VTM_GT_TH2_INT_EN_SET are linked. which means that they are in fact a single common MMR. with 2 different write.." hexmask.long.byte 0x4 0.--7. 1. "INT_VD,Interrupt enable bit for gt_th2_int from VD[7:0]. Write-operation: 0: Nothing happens. 1: Causes the bit to be cleared. Reads return the enable settings." group.long 0x244++0x7 line.long 0x0 "MMR__VBUSP__CFG1_VTM_LT_TH0_INT_RAW_STAT_SET,Interrupt RAW event status and set MMR for interrupt LT_TH0 for each voltage domain. NOTE: This MMR and the companion MMR. VTM_LT_TH0_INT_EN_STAT_CLR are fully linked for write operation. but partially linked.." hexmask.long.byte 0x0 0.--7. 1. "INT_VD,Interrupt pending bit set for lt_th0_int from VD[7:0]. Write-operation: 0: Nothing happens. 1: Causes the interrupt flag to be set. Used to manually force/drive an interrupt pending event. Reads return the raw pending status regardless of the.." line.long 0x4 "MMR__VBUSP__CFG1_VTM_LT_TH0_INT_EN_STAT_CLR,Enabled interrupt event status and clear MMR for interrupt LT_TH0 per voltage domain. NOTE: This MMR and the companion MMR. VTM_LT_TH0_INT_RAW_STAT_SET are fully linked for write operation. but partially linked.." hexmask.long.byte 0x4 0.--7. 1. "INT_VD,Interrupt enabled pending status bit for lt_th0_int from VD[7:0]. Write-operation: 0: Nothing happens. 1: Causes the pending bit to be cleared. Reads return the enabled pending status that factors in the corresponding enable along with the pending.." group.long 0x254++0x7 line.long 0x0 "MMR__VBUSP__CFG1_VTM_LT_TH0_INT_EN_SET,Enable set MMR for interrupt LT_TH0 for each voltage domain. NOTE: This MMR and the companion MMR. VTM_LT_TH0_INT_EN_CLR are linked. which means that they are in fact a single common MMR. with 2 different write.." hexmask.long.byte 0x0 0.--7. 1. "INT_VD,Interrupt enable bit for lt_th0_int from VD[7:0]. Write-operation: 0: Nothing happens. 1: Causes the bit to be set to 1. Reads return the enable settings." line.long 0x4 "MMR__VBUSP__CFG1_VTM_LT_TH0_INT_EN_CLR,Enable clear MMR for interrupt LT_TH0 for each voltage domain. NOTE: This MMR and the companion MMR. VTM_LT_TH0_INT_EN_SET are linked. which means that they are in fact a single common MMR. with 2 different write.." hexmask.long.byte 0x4 0.--7. 1. "INT_VD,Interrupt enable bit for lt_th0_int from VD[7:0]. Write-operation: 0: Nothing happens. 1: Causes the bit to be cleared. Reads return the enable settings." group.long 0x100++0x7 line.long 0x0 "MMR__VBUSP__CFG1_DEVINFO,Voltage domain a information register. The default reset values will not be necessarily overwritten. The write capability in the MMR is for having the option to debug and have software driven adjustments if necessary." bitfld.long 0x0 12. "AVS0_SUP,Indicates VD0 AVS class0 support. Indicates if the cVD associated with this VTM's VD MMR supports AVS-Class0: 0: No AVS-Class0. 1: Supports-AVS-Class0. Reset value is from e-fuse at module (POR) reset efuse_vd[a]_avs_sup." "0: No AVS-Class0,1: Supports-AVS-Class0" newline hexmask.long.byte 0x0 8.--11. 1. "VD_MAP,Indicates the core voltage domain mapping of VTM VD. Device specific field. This field indicates to which SOC cVD is this VD of this VTM map to. Valid values: 0x0 to 0xE where: 0x0 = VD_RTC not present is some SOCs 0x1 = VD_WKUP 0x2 = VD_MCU .." line.long 0x4 "MMR__VBUSP__CFG1_OPPVID,Voltage domain a VID actual code used as reference by Firmware to set the various voltage domain supply voltages. Reset defaults are sourced from efuse for each OPP. The default reset values will not be necessarily overwritten." hexmask.long.byte 0x4 24.--31. 1. "OPP_3,OPP 3 default VID. VID code that represents the required VD value in this Voltage domain to operate at. Valid values are from 0x1e to 0x91. Any value outside that range indicates not implemented including 0x0. This is SOC and device/chip specific." newline hexmask.long.byte 0x4 16.--23. 1. "OPP_2,OPP 2 default VID. VID code that represents the required VD value in this Voltage domain to operate at. Valid values are from 0x1e to 0x91. Any value outside that range indicates not implemented including 0x0. This is SOC and device/chip specific." newline hexmask.long.byte 0x4 8.--15. 1. "OPP_1,OPP 1 default VID. VID code that represents the required VD value in this Voltage domain to operate at. Valid values are from 0x1e to 0x91. Any value outside that range indicates not implemented including 0x0. This is SOC and device/chip specific." newline hexmask.long.byte 0x4 0.--7. 1. "OPP_0,OPP 0 default VID. VID code that represents the required VD value in this Voltage domain to operate at. Valid values are from 0x1e to 0x91. Any value outside that range indicates not implemented including 0x0. This is SOC and device/chip specific." rgroup.long 0x108++0x3 line.long 0x0 "MMR__VBUSP__CFG1_EVT_STAT,Voltage domain a event and control status register." bitfld.long 0x0 2. "LT_TH0_ALERT,This bit reflects the status of the TH0 undertemp alert resulting from the OR of all the similar alerts produced by the temp sensors selected by VTM_VD[a]_EVT_SEL_SET.tsens_evt_sel." "0,1" newline bitfld.long 0x0 1. "GT_TH2_ALERT,This bit reflects the status of the merged temperature alert resulting from the combination of all the similar alerts produced by the temp-monitors selected as showed in field VTM_VD[a]_EVT_SEL_SET.tsens_evt_sel. This field shows the actual.." "0,1" newline bitfld.long 0x0 0. "GT_TH1_ALERT,This bit reflects the status of the merged temperature alert resulting from the OR of all the similar alerts produced by the temp-monitors selected as showed in field VTM_VD[a]_EVT_SEL_SET.tsens_evt_sel. This field shows the actual present.." "0,1" group.long 0x10C++0x7 line.long 0x0 "MMR__VBUSP__CFG1_EVT_SEL_SET,Voltage domain a event select and control set register. NOTE: This MMR and the companion MMR VTM_VD[a]_EVT_SEL_CLR are linked. which means that they are in fact a single common MMR. with 2 different write.." hexmask.long.byte 0x0 16.--23. 1. "TSENS_EVT_SEL,In this field we select which of the event contributions of the 8-maximum possible temp-monitors controlled by this VTM will contribute to generate the merged event/alerts of this VD. Any combination of them could be selected and varies.." line.long 0x4 "MMR__VBUSP__CFG1_EVT_SEL_CLR,Voltage domain a event select and control clear register. NOTE: This MMR and the companion MMR VTM_VD[a]_EVT_SEL_SET are linked. which means that they are in fact a single common MMR. with 2 different write.." hexmask.long.byte 0x4 16.--23. 1. "TSENS_EVT_SEL,In this field we select which of the event contributions of the 8-maximum possible temp-monitors controlled by this VTM will contribute to generate the merged event/alerts of this VD. Any combination of them could be selected and varies.." group.long 0x300++0x3 line.long 0x0 "MMR__VBUSP__CFG1_CTRL,Temperature Sensor Band-gap control register for sensor a." bitfld.long 0x0 10. "LT_TH0_EN,Enable under-threshold0 event. Temp event/level control: 0 = Don't generate output level. 1 = Enable generation of event/level high when temperature reading is < value set for threshold point 0. Reset value is POR only." "0: Don't generate output level,1: Enable generation of event/level high when.." newline bitfld.long 0x0 9. "GT_TH2_EN,Enable over-threshold2 event. Temp event/level control: 0 = Don't generate output level. 1 = Enable generation of event/level high when temperature reading is > value set for threshold point 2. Reset value is POR only." "0: Don't generate output level,1: Enable generation of event/level high when.." newline bitfld.long 0x0 8. "GT_TH1_EN,Enable over-threshold1 event. Temp event/level control: 0 = Don't generate output level. 1 = Enable generation of event/level high when temperature reading is > value set for threshold point 1. Reset value is POR only." "0: Don't generate output level,1: Enable generation of event/level high when.." rgroup.long 0x308++0x3 line.long 0x0 "MMR__VBUSP__CFG1_STAT,Temperature Sensor Band-gap Status register for sensor a." hexmask.long.byte 0x0 16.--19. 1. "VD_MAP,Indicates the core voltage domain placement of the temp sensor. Device specific field. This field indicates in which core voltage domain cVD has been physically placed the temp-monitor. Valid values: 0x0 to 0xE where: 0x0 = VD_RTC not present.." newline bitfld.long 0x0 15. "MAXT_OUTRG_ALERT,This bit will be driven to a level 1 for a given temperature monitor if it has its corresponding bit maxt_outrg_en = 1 and the temperature reading is reporting to be outside the max temperature supported temp > programmed value. The.." "0,1" newline bitfld.long 0x0 14. "LT_TH0_ALERT,This field reflects the status of the lt_th0_alert comparator result during continuous mode. The control MMR field lt_th0_en = 1 is required for this field to become 1. Reset value is at POR or clrz." "0,1" newline bitfld.long 0x0 13. "GT_TH2_ALERT,This field reflects the status of the gt_th2_alert comparator result during continuous mode. The control MMR field gt_th2_en = 1 is required for this field to become 1. Reset value is at POR or clrz." "0,1" newline bitfld.long 0x0 12. "GT_TH1_ALERT,This field reflects the status of the gt_th1_alert comparator result during continuous mode. The control MMR field gt_th1_en = 1 is required for this field to become 1. Reset value is at POR or clrz." "0,1" newline bitfld.long 0x0 11. "EOC_FC_UPDATE,First time end of conversion. This field is reset to 0 every time VTM.por_rst_n or VTM_TMPSENS[a]_CTRL.clrz are active or when continuous mode is deasserted. This bit will be set to 1 after the first time after reset release that.." "0,1" newline bitfld.long 0x0 10. "DATA_VALID,Data_valid signal value from sensor: ADC End of Conversion. End of conversion indicated by 0 to 1 transition. When high data_out(9:0) out of the temp-monitor is valid. This field doesn't reflect the instantaneous output from the temp-monitor." "0,1" newline hexmask.long.word 0x0 0.--9. 1. "DATA_OUT,Data_out signal value from sensor: Temperature data from the ADC in monitor. Valid after VTM_TMPSENS[a]_STAT.eoc_fc_update = 1. This value will be latched in this VTM register every time monitor output data_valid transitions from 0 to 1.." group.long 0x30C++0x7 line.long 0x0 "MMR__VBUSP__CFG1_TH,Temperature Sensor Band-gap Threshold register for sensor a." hexmask.long.word 0x0 16.--25. 1. "TH1_VAL,Threshold point-1 thpt1 temp-value. Is a 10-bit temperature reference value. This is the 10-bit value that represents a high temperature point as per sensor spec with which to compare the present temperature reading same 10-bit format. If.." newline hexmask.long.word 0x0 0.--9. 1. "TH0_VAL,Threshold point-0 thpt0 temp-value. Is a 10-bit temperature reference value. This is the 10-bit value that represents a high temperature point as per sensor spec with which to compare the present temperature reading same 10-bit format. If.." line.long 0x4 "MMR__VBUSP__CFG1_TH2,Temperature Sensor Band-gap Threshold register 2 for sensor a." hexmask.long.word 0x4 0.--9. 1. "TH2_VAL,Threshold point-2 thpt2 temp-value. Is a 10-bit temperature reference value. This is the 10-bit value that represents a high temperature point as per sensor spec with which to compare the present temperature reading same 10-bit format. If.." tree.end tree "WKUP_VTM0_MMR_VBUSP_CFG2 (WKUP_VTM0_MMR_VBUSP_CFG2)" base ad:0xB01000 group.long 0x8++0xB line.long 0x0 "MMR__VBUSP__CFG2_VTM_CLK_CTRL,VTM clock related control MMR. The default reset values will not be necessarily overwritten. The write capability in the MMR is for having the option to debug and have software driven adjustments if necessary. The e-fuse.." bitfld.long 0x0 31. "TSENS_CLK_SEL,Temperature sensor clock source selector. Device specific. 0 = fix_ref_clk as source. 1 = fix_ref2_clk as source. Reset value is at POR only." "0: fix_ref_clk as source,1: fix_ref2_clk as source" hexmask.long.byte 0x0 0.--4. 1. "TSENS_CLK_DIV,Temperature sensor clock source divider selector. Device specific. Default set by e-fuse or tie-off. Divider uses select reference clock as source. 1 = 2x divide. ... 15 = 16x divide. ... 63 = 64x divide. Setting the value to 0 (1x divide).." line.long 0x4 "MMR__VBUSP__CFG2_VTM_MISC_CTRL,VTM miscellaneous control bits." bitfld.long 0x4 0. "ANY_MAXT_OUTRG_ALERT_EN,This bit when enabled will cause the VTM's output therm_maxtemp_outrange_alert to be driven high if any of the sources for the maxt_outrg_alert is set high. Whenever all the maxt_outrg_alert enabled sensor alerts out of the 8.." "0,1" line.long 0x8 "MMR__VBUSP__CFG2_VTM_MISC_CTRL2,VTM miscellaneous control bits." hexmask.long.word 0x8 16.--25. 1. "MAXT_OUTRG_ALERT_THR0,This defines the global max temperature out of range safe sample value. If the alert is enabled globally and for the sensor and the sensor reads a value <= this value then the alert is cleared after being triggered. This safe.." hexmask.long.word 0x8 0.--9. 1. "MAXT_OUTRG_ALERT_THR,This defines the global max temperature out of range sample value. If the alert is enabled globally and for the sensor and the sensor reads a value >= this value then the alert is triggered. Reset is at POR only." group.long 0x20++0x3 line.long 0x0 "MMR__VBUSP__CFG2_VTM_SAMPLE_CTRL,VTM sample related control MMR. The default reset values will not be necessarily overwritten. The write capability in the MMR is for having the option to debug and have software driven adjustments if necessary. The e-fuse.." hexmask.long.word 0x0 0.--15. 1. "SAMPLE_PER_CNT,Temperature sensor sample period count selector. Device specific. Default set by e-fuse or tie-off. This defines the sample period or number of sensor clocks between consecutive samples of the sensor allowed from the start of the previous.." group.long 0x300++0x7 line.long 0x0 "MMR__VBUSP__CFG2_CTRL,Temperature Sensor Band-gap control register for sensor a." bitfld.long 0x0 11. "MAXT_OUTRG_EN,Enable out-of-range event. This bit enables generation of the alert in case the given temperature sensors generates a temp code above a programmed max. 0 = Don't generate alert. 1 = Generate alert. Reset value is POR only." "0: Don't generate alert,1: Generate alert" bitfld.long 0x0 6. "CLRZ,Temp-Monitor control: 0 = Reset all Temp-monitor digital outputs. 1 = Allow operation of sensor. Reset value is POR only." "0: Reset all Temp-monitor digital outputs,1: Allow operation of sensor" newline bitfld.long 0x0 5. "SOC,Temp-Monitor control: ADC Start of Conversion. A transition from 0 to 1 starts a new ADC conversion cycle. The bit with automatically clear when the conversion has completed. This mode is not valid when already in continuous mode. Reset value is POR.." "0,1" bitfld.long 0x0 4. "CONT,Temp-Monitor control: ADC Continuous mode. Setting this mode enables the VTM to continuously monitor the sensor automatically. Each sample period the sensor will be accessed and the results captured. Reset value is POR only." "0,1" line.long 0x4 "MMR__VBUSP__CFG2_TRIM,Temperature Sensor Band-gap trim values register for sensor a. The default reset values will not be necessarily overwritten. The write capability in the MMR is for having the option to debug and have software driven adjustments if.." hexmask.long.byte 0x4 8.--13. 1. "TRIMO,Trim offset bits in the temp sensor. Reset value is from e-fuse at POR efuse_tmpsens[a]_trimo." hexmask.long.byte 0x4 0.--4. 1. "TRIMG,Trim gain bits in the temp sensor. Reset value is from e-fuse at POR efuse_tmpsens[a]_trimg." tree.end tree.end tree.end endif sif (cpuis("AM62PX-CR5-DM")) tree "WKUP_WKUP_SEC_MMR0" base ad:0x0 tree "WKUP_WKUP_SEC_MMR0_CFG0 (WKUP_WKUP_SEC_MMR0_CFG0)" base ad:0x45A20000 rgroup.long 0x0++0x3 line.long 0x0 "CFG0_PID," hexmask.long.word 0x0 16.--31. 1. "PID_MSB16," newline hexmask.long.byte 0x0 11.--15. 1. "PID_MISC," newline bitfld.long 0x0 8.--10. "PID_MAJOR," "0,1,2,3,4,5,6,7" newline bitfld.long 0x0 6.--7. "PID_CUSTOM," "0,1,2,3" newline hexmask.long.byte 0x0 0.--5. 1. "PID_MINOR," rgroup.long 0x1C020++0x3 line.long 0x0 "CFG0_CLSTR28_DEF," bitfld.long 0x0 16.--17. "CLSTR28_DEF_CORE_NUM,Number of cores in cluster 001 - Single Core 010 - Dual Core" "0,1,2,3" newline hexmask.long.byte 0x0 8.--15. 1. "CLSTR28_DEF_DSP_CORE_TYPE,DSP core type configuration Field values (others are reserved): 8'h00 - C7x 8'h01 - C6x 8'hFF - Not DSP" newline hexmask.long.byte 0x0 0.--7. 1. "CLSTR28_DEF_ARM_CORE_TYPE,ARM core type configuration Field values (others are reserved): 8'h00 - A53 8'h01 - A57 8'h10 - R5 8'h11 - M4F 8'hFF - Not ARM" group.long 0x1C040++0x3 line.long 0x0 "CFG0_CLSTR28_CFG," rbitfld.long 0x0 6. "CLSTR28_CFG_SINGLE_CORE_ONLY,Single / Dual CPU Mode Supported: 0 = Both Dual and Single Core are supported 1 = Only Single Core Mode is Supported" "0: Both Dual and Single Core are supported,1: Only Single Core Mode is Supported" newline rbitfld.long 0x0 5. "CLSTR28_CFG_SINGLE_CORE,Single / Dual CPU Mode: 0 = Unsupported on this device 1 = Only CPU0 is active." "0: Unsupported on this device,1: Only CPU0 is active" newline bitfld.long 0x0 4. "CLSTR28_CFG_MEM_INIT_DIS,Deactivates SRAM initialization (TCM Cache Tags etc) at reset Initialization must be performed for proper initial ECC initialization. The mem_init_dis value must be selected prior to R5 reset assertion. 1'b0 - Perform.." "0,1" newline rbitfld.long 0x0 3. "CLSTR28_CFG_LOCKSTEP_EN,Lockstep Not Supported" "0,1" newline bitfld.long 0x0 2. "CLSTR28_CFG_DBG_NO_CLKSTOP,CPU clockstop behavior 0 - CPU clocks stopped and nCLOCKSTOPPED asserted in standby mode 1 - CPU clocks not stopped in standby mode" "0,1" newline bitfld.long 0x0 1. "CLSTR28_CFG_TEINIT,Exception handling state at reset: 0 - ARM mode 1 - Thumb mode CAUTION: This bit must not be modified while R5F CPU is released from reset." "0,1" newline rbitfld.long 0x0 0. "CLSTR28_CFG_LOCKSTEP,Lockstep Not Supported" "0,1" group.long 0x1C080++0x3 line.long 0x0 "CFG0_CLSTR28_PMCTRL," group.long 0x1C090++0x3 line.long 0x0 "CFG0_CLSTR28_PMSTAT," group.long 0x1C100++0x3 line.long 0x0 "CFG0_CLSTR28_CORE0_CFG," bitfld.long 0x0 15. "CLSTR28_CORE0_CFG_NMFI_EN,Activate Core0 Non-Maskable Fast Interrupts CAUTION: This bit must not be modified while R5F CPU is released from reset." "0,1" newline bitfld.long 0x0 11. "CLSTR28_CORE0_CFG_TCM_RSTBASE,Core0 A/BTCM Reset Base Address Indicator 0 - BTCM located at address 0x0 1 - ATCM located at address 0x0 CAUTION: This bit must not be modified while R5F CPU is released from reset." "0,1" newline bitfld.long 0x0 7. "CLSTR28_CORE0_CFG_BTCM_EN,Activate Core0 BTCM RAM at reset CAUTION: This bit must not be modified while R5F CPU is released from reset." "0,1" newline bitfld.long 0x0 3. "CLSTR28_CORE0_CFG_ATCM_EN,Activate Core0 ATCM RAM at reset CAUTION: This bit must not be modified while R5F CPU is released from reset." "0,1" group.long 0x1C110++0x7 line.long 0x0 "CFG0_CLSTR28_CORE0_BOOTVECT_LO," hexmask.long 0x0 7.--31. 1. "CLSTR28_CORE0_BOOTVECT_LO_VECT_ADDR,Specifies the lower 25 bits of the 41-bit vector address corresponding to Vector Table address bits[31:7]. Note bits 6:0 of the Vector Table address are always 0." line.long 0x4 "CFG0_CLSTR28_CORE0_BOOTVECT_HI," hexmask.long.word 0x4 0.--15. 1. "CLSTR28_CORE0_BOOTVECT_HI_VECT_ADDR,Specifies the upper 16 bits of the 41-bit vector address corresponding to Vector Table address bits[47:32]." group.long 0x1C120++0x3 line.long 0x0 "CFG0_CLSTR28_CORE0_PMCTRL," bitfld.long 0x0 0. "CLSTR28_CORE0_PMCTRL_CORE_HALT,Halt Core0 Field values (others are reserved): 1'b0 - CPU is held waiting to begin execution after reset is released 1'b1 - CPU is released to execute" "0,1" rgroup.long 0x1C130++0x3 line.long 0x0 "CFG0_CLSTR28_CORE0_PMSTAT," bitfld.long 0x0 3. "CLSTR28_CORE0_PMSTAT_CLK_GATE,Core0 Clocked stopped due to WFI or WFE state Note: Informaton is only valid when core is out of reset." "0,1" newline bitfld.long 0x0 1. "CLSTR28_CORE0_PMSTAT_WFE,Core0 WFE When 0 indicates that Core0 is in the WFE state Note: Informaton is only valid when core is out of reset." "0,1" newline bitfld.long 0x0 0. "CLSTR28_CORE0_PMSTAT_WFI,Core0 WFI When 0 indicates that Core0 is in the WFI state Note: Informaton is only valid when core is out of reset." "0,1" tree.end tree "WKUP_WKUP_SEC_MMR0_CFG2 (WKUP_WKUP_SEC_MMR0_CFG2)" base ad:0x45920000 group.long 0x1C000++0x3 line.long 0x0 "CFG2_CLSTR28_CORE0_DBG_CFG," hexmask.long.byte 0x0 12.--15. 1. "CLSTR28_CORE0_DBG_CFG_DBGEN,Core0 Invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" hexmask.long.byte 0x0 8.--11. 1. "CLSTR28_CORE0_DBG_CFG_NIDEN,Core0 Non-invasive debug activate. This is a fault tolerant bitfield that must be set 4'hA to activate 4'b1010 - Activated others - Deactivated" group.long 0x1C040++0x3 line.long 0x0 "CFG2_CLSTR28_CORE1_DBG_CFG," tree.end tree.end endif tree.end AUTOINDENT.OFF